From 78dbc80e0580bbf007486e0c3b817cd217e8b433 Mon Sep 17 00:00:00 2001 From: Boris Zbarsky Date: Thu, 30 Sep 2021 16:26:42 -0400 Subject: [PATCH] Change how we namespace our attribute ids (#10110) * Update codegen templates to use per-cluster-attribute namespaces. * Regenerate generated files * Mass-replace Attributes::Ids::* with Attributes::*::Id. This commit was created by installing the git-extras package and running: git sed -f g "Attributes::Ids::\([A-Za-z0-9]*\)" "Attributes::\1::Id" * Mass-replace " Ids::*" with " *::Id" in cluster impls. This commit was created by installing the git-extras package and running: git sed " Ids::\([A-Za-z0-9]*\)" " \1::Id" -- src/app/clusters --- .../lighting-app/efr32/src/ZclCallbacks.cpp | 2 +- .../lighting-app/k32w/main/ZclCallbacks.cpp | 2 +- examples/lighting-app/linux/main.cpp | 2 +- .../nrfconnect/main/ZclCallbacks.cpp | 4 +- .../lighting-app/telink/src/ZclCallbacks.cpp | 4 +- .../cc13x2x7_26x2x7/main/ZclCallbacks.cpp | 2 +- examples/lock-app/efr32/src/ZclCallbacks.cpp | 2 +- examples/lock-app/k32w/main/ZclCallbacks.cpp | 2 +- .../lock-app/nrfconnect/main/ZclCallbacks.cpp | 2 +- .../cc13x2x7_26x2x7/main/ZclCallbacks.cpp | 2 +- .../pump-app/nrfconnect/main/ZclCallbacks.cpp | 2 +- .../cc13x2x7_26x2x7/main/ZclCallbacks.cpp | 2 +- .../nrfconnect/main/ZclCallbacks.cpp | 2 +- src/app/clusters/descriptor/descriptor.cpp | 6 +- .../ethernet_network_diagnostics_server.cpp | 10 +- .../general_diagnostics_server.cpp | 8 +- .../identify-server/identify-server.cpp | 2 +- .../software_diagnostics_server.cpp | 6 +- .../thermostat-server/thermostat-server.cpp | 16 +- .../wifi_network_diagnostics_server.cpp | 24 +- .../templates/app/CHIPClusters-src.zapt | 4 +- .../app/attributes/Accessors-src.zapt | 4 +- .../templates/app/ids/Attributes.zapt | 19 +- .../templates/app/tests/CHIPClusters-src.zapt | 2 +- ...nericThreadStackManagerImpl_OpenThread.cpp | 126 +- .../zap-generated/attributes/Accessors.cpp | 3357 +++++----- .../app-common/zap-generated/ids/Attributes.h | 5881 +++++++++++++---- .../zap-generated/CHIPClusters.cpp | 100 +- .../zap-generated/tests/CHIPClusters.cpp | 632 +- .../pump-app/zap-generated/CHIPClusters.cpp | 12 +- .../zap-generated/CHIPClusters.cpp | 20 +- 31 files changed, 6655 insertions(+), 3604 deletions(-) diff --git a/examples/lighting-app/efr32/src/ZclCallbacks.cpp b/examples/lighting-app/efr32/src/ZclCallbacks.cpp index 1ee28a37712b56..93e3e3d839349a 100644 --- a/examples/lighting-app/efr32/src/ZclCallbacks.cpp +++ b/examples/lighting-app/efr32/src/ZclCallbacks.cpp @@ -37,7 +37,7 @@ void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId { if (clusterId == OnOff::Id) { - if (attributeId != OnOff::Attributes::Ids::OnOff) + if (attributeId != OnOff::Attributes::OnOff::Id) { ChipLogError(Zcl, "ON OFF attribute ID: " ChipLogFormatMEI " Type: %" PRIu8 " Value: %" PRIu16 ", length %" PRIu16, ChipLogValueMEI(attributeId), type, *value, size); diff --git a/examples/lighting-app/k32w/main/ZclCallbacks.cpp b/examples/lighting-app/k32w/main/ZclCallbacks.cpp index 122f369676b877..e0bb0e0e468e09 100644 --- a/examples/lighting-app/k32w/main/ZclCallbacks.cpp +++ b/examples/lighting-app/k32w/main/ZclCallbacks.cpp @@ -38,7 +38,7 @@ void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId return; } - if (attributeId != OnOff::Attributes::Ids::OnOff) + if (attributeId != OnOff::Attributes::OnOff::Id) { ChipLogProgress(Zcl, "Unknown attribute ID: " ChipLogFormatMEI, ChipLogValueMEI(attributeId)); return; diff --git a/examples/lighting-app/linux/main.cpp b/examples/lighting-app/linux/main.cpp index 3bd618d0b42502..10f5ae6ddfcb73 100644 --- a/examples/lighting-app/linux/main.cpp +++ b/examples/lighting-app/linux/main.cpp @@ -51,7 +51,7 @@ void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId return; } - if (attributeId != OnOff::Attributes::Ids::OnOff) + if (attributeId != OnOff::Attributes::OnOff::Id) { ChipLogProgress(Zcl, "Unknown attribute ID: " ChipLogFormatMEI, ChipLogValueMEI(attributeId)); return; diff --git a/examples/lighting-app/nrfconnect/main/ZclCallbacks.cpp b/examples/lighting-app/nrfconnect/main/ZclCallbacks.cpp index 03c45713388306..928463f4ad1246 100644 --- a/examples/lighting-app/nrfconnect/main/ZclCallbacks.cpp +++ b/examples/lighting-app/nrfconnect/main/ZclCallbacks.cpp @@ -33,13 +33,13 @@ using namespace chip::app::Clusters; void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId, AttributeId attributeId, uint8_t mask, uint16_t manufacturerCode, uint8_t type, uint16_t size, uint8_t * value) { - if (clusterId == OnOff::Id && attributeId == OnOff::Attributes::Ids::OnOff) + if (clusterId == OnOff::Id && attributeId == OnOff::Attributes::OnOff::Id) { ChipLogProgress(Zcl, "Cluster OnOff: attribute OnOff set to %" PRIu8, *value); LightingMgr().InitiateAction(*value ? LightingManager::ON_ACTION : LightingManager::OFF_ACTION, AppEvent::kEventType_Lighting, size, value); } - else if (clusterId == LevelControl::Id && attributeId == LevelControl::Attributes::Ids::CurrentLevel) + else if (clusterId == LevelControl::Id && attributeId == LevelControl::Attributes::CurrentLevel::Id) { ChipLogProgress(Zcl, "Cluster LevelControl: attribute CurrentLevel set to %" PRIu8, *value); LightingMgr().InitiateAction(LightingManager::LEVEL_ACTION, AppEvent::kEventType_Lighting, size, value); diff --git a/examples/lighting-app/telink/src/ZclCallbacks.cpp b/examples/lighting-app/telink/src/ZclCallbacks.cpp index fd803a4de66a7d..3a4430d322dd43 100644 --- a/examples/lighting-app/telink/src/ZclCallbacks.cpp +++ b/examples/lighting-app/telink/src/ZclCallbacks.cpp @@ -37,7 +37,7 @@ void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId if (clusterId == OnOff::Id) { - if (attributeId != OnOff::Attributes::Ids::OnOff) + if (attributeId != OnOff::Attributes::OnOff::Id) { ChipLogProgress(Zcl, "Unknown attribute ID: " ChipLogFormatMEI, ChipLogValueMEI(attributeId)); return; @@ -48,7 +48,7 @@ void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId } else if (clusterId == LevelControl::Id) { - if (attributeId != LevelControl::Attributes::Ids::CurrentLevel) + if (attributeId != LevelControl::Attributes::CurrentLevel::Id) { ChipLogProgress(Zcl, "Unknown attribute ID: " ChipLogFormatMEI, ChipLogValueMEI(attributeId)); return; diff --git a/examples/lock-app/cc13x2x7_26x2x7/main/ZclCallbacks.cpp b/examples/lock-app/cc13x2x7_26x2x7/main/ZclCallbacks.cpp index b0e4a70f381d0e..81cfc69fc680b4 100644 --- a/examples/lock-app/cc13x2x7_26x2x7/main/ZclCallbacks.cpp +++ b/examples/lock-app/cc13x2x7_26x2x7/main/ZclCallbacks.cpp @@ -39,7 +39,7 @@ void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId return; } - if (attributeId != OnOff::Attributes::Ids::OnOff) + if (attributeId != OnOff::Attributes::OnOff::Id) { ChipLogProgress(Zcl, "Unknown attribute ID: " ChipLogFormatMEI, ChipLogValueMEI(attributeId)); return; diff --git a/examples/lock-app/efr32/src/ZclCallbacks.cpp b/examples/lock-app/efr32/src/ZclCallbacks.cpp index 61e7479c873a7a..e1c6cb88bbcb79 100644 --- a/examples/lock-app/efr32/src/ZclCallbacks.cpp +++ b/examples/lock-app/efr32/src/ZclCallbacks.cpp @@ -39,7 +39,7 @@ void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId return; } - if (attributeId != OnOff::Attributes::Ids::OnOff) + if (attributeId != OnOff::Attributes::OnOff::Id) { EFR32_LOG("Unknown attribute ID: " ChipLogFormatMEI, ChipLogValueMEI(attributeId)); return; diff --git a/examples/lock-app/k32w/main/ZclCallbacks.cpp b/examples/lock-app/k32w/main/ZclCallbacks.cpp index 8e6791d29e7741..4b774edd166e1d 100644 --- a/examples/lock-app/k32w/main/ZclCallbacks.cpp +++ b/examples/lock-app/k32w/main/ZclCallbacks.cpp @@ -38,7 +38,7 @@ void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId return; } - if (attributeId != OnOff::Attributes::Ids::OnOff) + if (attributeId != OnOff::Attributes::OnOff::Id) { ChipLogProgress(Zcl, "Unknown attribute ID: " ChipLogFormatMEI, ChipLogValueMEI(attributeId)); return; diff --git a/examples/lock-app/nrfconnect/main/ZclCallbacks.cpp b/examples/lock-app/nrfconnect/main/ZclCallbacks.cpp index fc32d8a30e2b9a..2bad68fe1e63fd 100644 --- a/examples/lock-app/nrfconnect/main/ZclCallbacks.cpp +++ b/examples/lock-app/nrfconnect/main/ZclCallbacks.cpp @@ -32,7 +32,7 @@ using namespace ::chip::app::Clusters; void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId, AttributeId attributeId, uint8_t mask, uint16_t manufacturerCode, uint8_t type, uint16_t size, uint8_t * value) { - if (clusterId == OnOff::Id && attributeId == OnOff::Attributes::Ids::OnOff) + if (clusterId == OnOff::Id && attributeId == OnOff::Attributes::OnOff::Id) { ChipLogProgress(Zcl, "Cluster OnOff: attribute OnOff set to %" PRIu8, *value); BoltLockMgr().InitiateAction(0, *value ? BoltLockManager::LOCK_ACTION : BoltLockManager::UNLOCK_ACTION); diff --git a/examples/pump-app/cc13x2x7_26x2x7/main/ZclCallbacks.cpp b/examples/pump-app/cc13x2x7_26x2x7/main/ZclCallbacks.cpp index 8977d531475499..496ce9dce5ba46 100644 --- a/examples/pump-app/cc13x2x7_26x2x7/main/ZclCallbacks.cpp +++ b/examples/pump-app/cc13x2x7_26x2x7/main/ZclCallbacks.cpp @@ -40,7 +40,7 @@ void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId return; } - if (attributeId != OnOff::Attributes::Ids::OnOff) + if (attributeId != OnOff::Attributes::OnOff::Id) { ChipLogProgress(Zcl, "Unknown attribute ID: " ChipLogFormatMEI, ChipLogValueMEI(attributeId)); return; diff --git a/examples/pump-app/nrfconnect/main/ZclCallbacks.cpp b/examples/pump-app/nrfconnect/main/ZclCallbacks.cpp index e2098976088182..dac901af17d635 100644 --- a/examples/pump-app/nrfconnect/main/ZclCallbacks.cpp +++ b/examples/pump-app/nrfconnect/main/ZclCallbacks.cpp @@ -37,7 +37,7 @@ void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId return; } - if (attributeId != OnOff::Attributes::Ids::OnOff) + if (attributeId != OnOff::Attributes::OnOff::Id) { ChipLogProgress(Zcl, "Unknown attribute ID: %" PRIx32, attributeId); return; diff --git a/examples/pump-controller-app/cc13x2x7_26x2x7/main/ZclCallbacks.cpp b/examples/pump-controller-app/cc13x2x7_26x2x7/main/ZclCallbacks.cpp index 8977d531475499..496ce9dce5ba46 100644 --- a/examples/pump-controller-app/cc13x2x7_26x2x7/main/ZclCallbacks.cpp +++ b/examples/pump-controller-app/cc13x2x7_26x2x7/main/ZclCallbacks.cpp @@ -40,7 +40,7 @@ void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId return; } - if (attributeId != OnOff::Attributes::Ids::OnOff) + if (attributeId != OnOff::Attributes::OnOff::Id) { ChipLogProgress(Zcl, "Unknown attribute ID: " ChipLogFormatMEI, ChipLogValueMEI(attributeId)); return; diff --git a/examples/pump-controller-app/nrfconnect/main/ZclCallbacks.cpp b/examples/pump-controller-app/nrfconnect/main/ZclCallbacks.cpp index e2098976088182..dac901af17d635 100644 --- a/examples/pump-controller-app/nrfconnect/main/ZclCallbacks.cpp +++ b/examples/pump-controller-app/nrfconnect/main/ZclCallbacks.cpp @@ -37,7 +37,7 @@ void emberAfPostAttributeChangeCallback(EndpointId endpoint, ClusterId clusterId return; } - if (attributeId != OnOff::Attributes::Ids::OnOff) + if (attributeId != OnOff::Attributes::OnOff::Id) { ChipLogProgress(Zcl, "Unknown attribute ID: %" PRIx32, attributeId); return; diff --git a/src/app/clusters/descriptor/descriptor.cpp b/src/app/clusters/descriptor/descriptor.cpp index 62480e5ac3bc2a..08d9c30b518a34 100644 --- a/src/app/clusters/descriptor/descriptor.cpp +++ b/src/app/clusters/descriptor/descriptor.cpp @@ -57,7 +57,7 @@ EmberAfStatus writeAttribute(EndpointId endpoint, AttributeId attributeId, uint8 EmberAfStatus writeClientServerAttribute(EndpointId endpoint, bool server) { EmberAfStatus status = EMBER_ZCL_STATUS_SUCCESS; - AttributeId attributeId = server ? Descriptor::Attributes::Ids::ServerList : Descriptor::Attributes::Ids::ClientList; + AttributeId attributeId = server ? Descriptor::Attributes::ServerList::Id : Descriptor::Attributes::ClientList::Id; uint16_t clusterCount = emberAfClusterCount(endpoint, server); @@ -85,7 +85,7 @@ EmberAfStatus writeClientAttribute(EndpointId endpoint) EmberAfStatus writeDeviceAttribute(EndpointId endpoint, uint16_t index) { EmberAfStatus status = EMBER_ZCL_STATUS_SUCCESS; - AttributeId attributeId = Descriptor::Attributes::Ids::DeviceList; + AttributeId attributeId = Descriptor::Attributes::DeviceList::Id; uint16_t deviceTypeCount = 1; DeviceTypeId deviceTypeId = emberAfDeviceIdFromIndex(index); @@ -104,7 +104,7 @@ EmberAfStatus writeDeviceAttribute(EndpointId endpoint, uint16_t index) EmberAfStatus writePartsAttribute(EndpointId endpoint) { EmberAfStatus status = EMBER_ZCL_STATUS_SUCCESS; - AttributeId attributeId = Descriptor::Attributes::Ids::PartsList; + AttributeId attributeId = Descriptor::Attributes::PartsList::Id; uint16_t partsCount = 0; diff --git a/src/app/clusters/ethernet_network_diagnostics_server/ethernet_network_diagnostics_server.cpp b/src/app/clusters/ethernet_network_diagnostics_server/ethernet_network_diagnostics_server.cpp index d4b1936ba7c955..aaa29c3563ef18 100644 --- a/src/app/clusters/ethernet_network_diagnostics_server/ethernet_network_diagnostics_server.cpp +++ b/src/app/clusters/ethernet_network_diagnostics_server/ethernet_network_diagnostics_server.cpp @@ -59,19 +59,19 @@ CHIP_ERROR EthernetDiagosticsAttrAccess::Read(ClusterInfo & aClusterInfo, const *aDataRead = true; switch (aClusterInfo.mFieldId) { - case Ids::PacketRxCount: { + case PacketRxCount::Id: { return ReadIfSupported(&ConnectivityManager::GetEthPacketRxCount, aEncoder); } - case Ids::PacketTxCount: { + case PacketTxCount::Id: { return ReadIfSupported(&ConnectivityManager::GetEthPacketTxCount, aEncoder); } - case Ids::TxErrCount: { + case TxErrCount::Id: { return ReadIfSupported(&ConnectivityManager::GetEthTxErrCount, aEncoder); } - case Ids::CollisionCount: { + case CollisionCount::Id: { return ReadIfSupported(&ConnectivityManager::GetEthCollisionCount, aEncoder); } - case Ids::OverrunCount: { + case OverrunCount::Id: { return ReadIfSupported(&ConnectivityManager::GetEthOverrunCount, aEncoder); } default: { diff --git a/src/app/clusters/general_diagnostics_server/general_diagnostics_server.cpp b/src/app/clusters/general_diagnostics_server/general_diagnostics_server.cpp index 0554268a87d371..205c22ac69cee5 100644 --- a/src/app/clusters/general_diagnostics_server/general_diagnostics_server.cpp +++ b/src/app/clusters/general_diagnostics_server/general_diagnostics_server.cpp @@ -74,16 +74,16 @@ CHIP_ERROR GeneralDiagosticsAttrAccess::Read(ClusterInfo & aClusterInfo, const A *aDataRead = true; switch (aClusterInfo.mFieldId) { - case Ids::RebootCount: { + case RebootCount::Id: { return ReadIfSupported(&PlatformManager::GetRebootCount, aEncoder); } - case Ids::UpTime: { + case UpTime::Id: { return ReadIfSupported(&PlatformManager::GetUpTime, aEncoder); } - case Ids::TotalOperationalHours: { + case TotalOperationalHours::Id: { return ReadIfSupported(&PlatformManager::GetTotalOperationalHours, aEncoder); } - case Ids::BootReasons: { + case BootReasons::Id: { return ReadIfSupported(&PlatformManager::GetBootReasons, aEncoder); } default: { diff --git a/src/app/clusters/identify-server/identify-server.cpp b/src/app/clusters/identify-server/identify-server.cpp index 5cb582799c3cb8..d5b83eba7c3fad 100644 --- a/src/app/clusters/identify-server/identify-server.cpp +++ b/src/app/clusters/identify-server/identify-server.cpp @@ -145,7 +145,7 @@ static inline void identify_deactivate(Identify * identify) void emberAfIdentifyClusterServerAttributeChangedCallback(EndpointId endpoint, AttributeId attributeId) { - if (attributeId == Clusters::Identify::Attributes::Ids::IdentifyTime) + if (attributeId == Clusters::Identify::Attributes::IdentifyTime::Id) { Identify * identify = inst(endpoint); uint16_t identifyTime; diff --git a/src/app/clusters/software_diagnostics_server/software_diagnostics_server.cpp b/src/app/clusters/software_diagnostics_server/software_diagnostics_server.cpp index a40341eb3db9dd..30940564548152 100644 --- a/src/app/clusters/software_diagnostics_server/software_diagnostics_server.cpp +++ b/src/app/clusters/software_diagnostics_server/software_diagnostics_server.cpp @@ -59,13 +59,13 @@ CHIP_ERROR SoftwareDiagosticsAttrAccess::Read(ClusterInfo & aClusterInfo, const *aDataRead = true; switch (aClusterInfo.mFieldId) { - case Ids::CurrentHeapFree: { + case CurrentHeapFree::Id: { return ReadIfSupported(&PlatformManager::GetCurrentHeapFree, aEncoder); } - case Ids::CurrentHeapUsed: { + case CurrentHeapUsed::Id: { return ReadIfSupported(&PlatformManager::GetCurrentHeapUsed, aEncoder); } - case Ids::CurrentHeapHighWatermark: { + case CurrentHeapHighWatermark::Id: { return ReadIfSupported(&PlatformManager::GetCurrentHeapHighWatermark, aEncoder); } default: { diff --git a/src/app/clusters/thermostat-server/thermostat-server.cpp b/src/app/clusters/thermostat-server/thermostat-server.cpp index 53476f683de283..fcba7c2caec09e 100644 --- a/src/app/clusters/thermostat-server/thermostat-server.cpp +++ b/src/app/clusters/thermostat-server/thermostat-server.cpp @@ -72,7 +72,7 @@ EmberAfStatus emberAfThermostatClusterServerPreAttributeChangedCallback(chip::En switch (attributeId) { - case Ids::OccupiedHeatingSetpoint: { + case OccupiedHeatingSetpoint::Id: { int16_t AbsMinHeatSetpointLimit; int16_t AbsMaxHeatSetpointLimit; int16_t MinHeatSetpointLimit; @@ -112,7 +112,7 @@ EmberAfStatus emberAfThermostatClusterServerPreAttributeChangedCallback(chip::En break; } - case Ids::OccupiedCoolingSetpoint: { + case OccupiedCoolingSetpoint::Id: { int16_t AbsMinCoolSetpointLimit; int16_t AbsMaxCoolSetpointLimit; int16_t MinCoolSetpointLimit; @@ -151,8 +151,8 @@ EmberAfStatus emberAfThermostatClusterServerPreAttributeChangedCallback(chip::En break; } - case Ids::MinHeatSetpointLimit: - case Ids::MaxHeatSetpointLimit: { + case MinHeatSetpointLimit::Id: + case MaxHeatSetpointLimit::Id: { int16_t AbsMinHeatSetpointLimit; int16_t AbsMaxHeatSetpointLimit; @@ -176,8 +176,8 @@ EmberAfStatus emberAfThermostatClusterServerPreAttributeChangedCallback(chip::En break; } - case Ids::MinCoolSetpointLimit: - case Ids::MaxCoolSetpointLimit: { + case MinCoolSetpointLimit::Id: + case MaxCoolSetpointLimit::Id: { int16_t AbsMinCoolSetpointLimit; int16_t AbsMaxCoolSetpointLimit; @@ -202,7 +202,7 @@ EmberAfStatus emberAfThermostatClusterServerPreAttributeChangedCallback(chip::En break; } - case Ids::ControlSequenceOfOperation: { + case ControlSequenceOfOperation::Id: { uint8_t requestedCSO; requestedCSO = *value; if (requestedCSO > EMBER_ZCL_THERMOSTAT_CONTROL_SEQUENCE_COOLING_AND_HEATING_WITH_REHEAT) @@ -213,7 +213,7 @@ EmberAfStatus emberAfThermostatClusterServerPreAttributeChangedCallback(chip::En break; } - case Ids::SystemMode: { + case SystemMode::Id: { uint8_t ControlSequenceOfOperation = kInvalidControlSequenceOfOperation; uint8_t RequestedSystemMode = kInvalidRequestedSystemMode; GetControlSequenceOfOperation(endpoint, &ControlSequenceOfOperation); diff --git a/src/app/clusters/wifi_network_diagnostics_server/wifi_network_diagnostics_server.cpp b/src/app/clusters/wifi_network_diagnostics_server/wifi_network_diagnostics_server.cpp index ba4b4f22cdbdd0..b35b04c6ca4542 100644 --- a/src/app/clusters/wifi_network_diagnostics_server/wifi_network_diagnostics_server.cpp +++ b/src/app/clusters/wifi_network_diagnostics_server/wifi_network_diagnostics_server.cpp @@ -78,40 +78,40 @@ CHIP_ERROR WiFiDiagosticsAttrAccess::Read(ClusterInfo & aClusterInfo, const Attr *aDataRead = true; switch (aClusterInfo.mFieldId) { - case Ids::SecurityType: { + case SecurityType::Id: { return ReadIfSupported(&ConnectivityManager::GetWiFiSecurityType, aEncoder); } - case Ids::WiFiVersion: { + case WiFiVersion::Id: { return ReadIfSupported(&ConnectivityManager::GetWiFiVersion, aEncoder); } - case Ids::ChannelNumber: { + case ChannelNumber::Id: { return ReadIfSupported(&ConnectivityManager::GetWiFiChannelNumber, aEncoder); } - case Ids::Rssi: { + case Rssi::Id: { return ReadIfSupported(&ConnectivityManager::GetWiFiRssi, aEncoder); } - case Ids::BeaconLostCount: { + case BeaconLostCount::Id: { return ReadIfSupported(&ConnectivityManager::GetWiFiBeaconLostCount, aEncoder); } - case Ids::BeaconRxCount: { + case BeaconRxCount::Id: { return ReadIfSupported(&ConnectivityManager::GetWiFiBeaconRxCount, aEncoder); } - case Ids::PacketMulticastRxCount: { + case PacketMulticastRxCount::Id: { return ReadIfSupported(&ConnectivityManager::GetWiFiPacketMulticastRxCount, aEncoder); } - case Ids::PacketMulticastTxCount: { + case PacketMulticastTxCount::Id: { return ReadIfSupported(&ConnectivityManager::GetWiFiPacketMulticastTxCount, aEncoder); } - case Ids::PacketUnicastRxCount: { + case PacketUnicastRxCount::Id: { return ReadIfSupported(&ConnectivityManager::GetWiFiPacketUnicastRxCount, aEncoder); } - case Ids::PacketUnicastTxCount: { + case PacketUnicastTxCount::Id: { return ReadIfSupported(&ConnectivityManager::GetWiFiPacketUnicastTxCount, aEncoder); } - case Ids::CurrentMaxRate: { + case CurrentMaxRate::Id: { return ReadIfSupported(&ConnectivityManager::GetWiFiCurrentMaxRate, aEncoder); } - case Ids::OverrunCount: { + case OverrunCount::Id: { return ReadIfSupported(&ConnectivityManager::GetWiFiOverrunCount, aEncoder); } default: { diff --git a/src/app/zap-templates/templates/app/CHIPClusters-src.zapt b/src/app/zap-templates/templates/app/CHIPClusters-src.zapt index fe2e0e9a62181c..41ddc524c27c38 100644 --- a/src/app/zap-templates/templates/app/CHIPClusters-src.zapt +++ b/src/app/zap-templates/templates/app/CHIPClusters-src.zapt @@ -116,14 +116,14 @@ CHIP_ERROR {{asUpperCamelCase parent.name}}Cluster::SubscribeAttribute{{asUpperC chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = {{#if isGlobalAttribute}}Globals{{else}}{{asUpperCamelCase parent.name}}{{/if}}::Attributes::Ids::{{asUpperCamelCase name}}; + attributePath.mFieldId = {{#if isGlobalAttribute}}Globals{{else}}{{asUpperCamelCase parent.name}}{{/if}}::Attributes::{{asUpperCamelCase name}}::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR {{asUpperCamelCase parent.name}}Cluster::ReportAttribute{{asUpperCamelCase name}}(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting({{#if isGlobalAttribute}}Globals{{else}}{{asUpperCamelCase parent.name}}{{/if}}::Attributes::Ids::{{asUpperCamelCase name}}, onReportCallback, BasicAttributeFilter<{{chipCallback.name}}AttributeCallback>); + return RequestAttributeReporting({{#if isGlobalAttribute}}Globals{{else}}{{asUpperCamelCase parent.name}}{{/if}}::Attributes::{{asUpperCamelCase name}}::Id, onReportCallback, BasicAttributeFilter<{{chipCallback.name}}AttributeCallback>); } {{/if}} diff --git a/src/app/zap-templates/templates/app/attributes/Accessors-src.zapt b/src/app/zap-templates/templates/app/attributes/Accessors-src.zapt index 233d0eb0147373..3f0224ac1c3a3c 100644 --- a/src/app/zap-templates/templates/app/attributes/Accessors-src.zapt +++ b/src/app/zap-templates/templates/app/attributes/Accessors-src.zapt @@ -27,12 +27,12 @@ namespace Attributes { {{#if (canHaveSimpleAccessors type)}} EmberAfStatus Get{{asUpperCamelCase label}}(chip::EndpointId endpoint, {{asUnderlyingZclType type}} * {{asLowerCamelCase label}}) { - return emberAfReadServerAttribute(endpoint, {{asUpperCamelCase parent.label}}::Id, Ids::{{asUpperCamelCase label}}, (uint8_t *) {{asLowerCamelCase label}}, sizeof(*{{asLowerCamelCase label}})); + return emberAfReadServerAttribute(endpoint, {{asUpperCamelCase parent.label}}::Id, {{asUpperCamelCase label}}::Id, (uint8_t *) {{asLowerCamelCase label}}, sizeof(*{{asLowerCamelCase label}})); } EmberAfStatus Set{{asUpperCamelCase label}}(chip::EndpointId endpoint, {{asUnderlyingZclType type}} {{asLowerCamelCase label}}) { - return emberAfWriteServerAttribute(endpoint, {{asUpperCamelCase parent.label}}::Id, Ids::{{asUpperCamelCase label}}, (uint8_t *) &{{asLowerCamelCase label}}, ZCL_{{asDelimitedMacro type}}_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, {{asUpperCamelCase parent.label}}::Id, {{asUpperCamelCase label}}::Id, (uint8_t *) &{{asLowerCamelCase label}}, ZCL_{{asDelimitedMacro type}}_ATTRIBUTE_TYPE); } {{/if}} {{/if}} diff --git a/src/app/zap-templates/templates/app/ids/Attributes.zapt b/src/app/zap-templates/templates/app/ids/Attributes.zapt index 3708c541d19ecd..f5683ff75c1c5b 100644 --- a/src/app/zap-templates/templates/app/ids/Attributes.zapt +++ b/src/app/zap-templates/templates/app/ids/Attributes.zapt @@ -10,13 +10,15 @@ namespace Clusters { namespace Globals { namespace Attributes { -namespace Ids { + {{#zcl_attributes_server}} {{#unless clusterRef}} -static constexpr AttributeId {{asUpperCamelCase label}} = {{asMEI manufacturerCode code}}; +namespace {{asUpperCamelCase label}} { +static constexpr AttributeId Id = {{asMEI manufacturerCode code}}; +} // namespace {{asUpperCamelCase label}} + {{/unless}} {{/zcl_attributes_server}} -} // namespace Ids } // namespace Attributes } // namespace Globals @@ -27,13 +29,18 @@ static constexpr AttributeId {{asUpperCamelCase label}} = {{asMEI manufacturerCo {{#first}} namespace {{asUpperCamelCase parent.label}} { namespace Attributes { -namespace Ids { + {{/first}} +{{#unless clusterRef}} +namespace {{asUpperCamelCase label}} = Globals::Attributes::{{asUpperCamelCase label}}; +{{/unless}} {{#if clusterRef}} -static constexpr AttributeId {{asUpperCamelCase label}} = {{asMEI manufacturerCode code}}; +namespace {{asUpperCamelCase label}} { +static constexpr AttributeId Id = {{asMEI manufacturerCode code}}; +} // namespace {{asUpperCamelCase label}} {{/if}} + {{#last}} -} // namespace Ids } // namespace Attributes } // namespace {{asUpperCamelCase parent.label}} diff --git a/src/app/zap-templates/templates/app/tests/CHIPClusters-src.zapt b/src/app/zap-templates/templates/app/tests/CHIPClusters-src.zapt index e9286f783d923e..e03a9486ef6ba9 100644 --- a/src/app/zap-templates/templates/app/tests/CHIPClusters-src.zapt +++ b/src/app/zap-templates/templates/app/tests/CHIPClusters-src.zapt @@ -29,7 +29,7 @@ CHIP_ERROR {{asUpperCamelCase parent.name}}ClusterTest::WriteAttribute{{asUpperC attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = {{#if isGlobalAttribute}}Globals{{else}}{{asUpperCamelCase parent.name}}{{/if}}::Attributes::Ids::{{asUpperCamelCase name}}; + attributePath.mFieldId = {{#if isGlobalAttribute}}Globals{{else}}{{asUpperCamelCase parent.name}}{{/if}}::Attributes::{{asUpperCamelCase name}}::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); diff --git a/src/platform/OpenThread/GenericThreadStackManagerImpl_OpenThread.cpp b/src/platform/OpenThread/GenericThreadStackManagerImpl_OpenThread.cpp index 9bf9513e09f7bf..acee1825767976 100644 --- a/src/platform/OpenThread/GenericThreadStackManagerImpl_OpenThread.cpp +++ b/src/platform/OpenThread/GenericThreadStackManagerImpl_OpenThread.cpp @@ -838,37 +838,37 @@ CHIP_ERROR GenericThreadStackManagerImpl_OpenThread::_WriteThreadNetw switch (attributeId) { - case ThreadNetworkDiagnostics::Attributes::Ids::Channel: { + case ThreadNetworkDiagnostics::Attributes::Channel::Id: { uint16_t channel = otLinkGetChannel(mOTInst); err = encoder.Encode(channel); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RoutingRole: { + case ThreadNetworkDiagnostics::Attributes::RoutingRole::Id: { otDeviceRole role = otThreadGetDeviceRole(mOTInst); err = encoder.Encode(role); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::NetworkName: { + case ThreadNetworkDiagnostics::Attributes::NetworkName::Id: { const char * networkName = otThreadGetNetworkName(mOTInst); err = encoder.Encode(Span(networkName, strlen(networkName))); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::PanId: { + case ThreadNetworkDiagnostics::Attributes::PanId::Id: { uint16_t panId = otLinkGetPanId(mOTInst); err = encoder.Encode(panId); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::ExtendedPanId: { + case ThreadNetworkDiagnostics::Attributes::ExtendedPanId::Id: { const otExtendedPanId * pExtendedPanid = otThreadGetExtendedPanId(mOTInst); err = encoder.Encode(Encoding::BigEndian::Get64(pExtendedPanid->m8)); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::MeshLocalPrefix: { + case ThreadNetworkDiagnostics::Attributes::MeshLocalPrefix::Id: { uint8_t meshLocaPrefix[OT_MESH_LOCAL_PREFIX_SIZE + 1] = { 0 }; // + 1 to encode prefix Len in the octstr const otMeshLocalPrefix * pMeshLocalPrefix = otThreadGetMeshLocalPrefix(mOTInst); @@ -879,13 +879,13 @@ CHIP_ERROR GenericThreadStackManagerImpl_OpenThread::_WriteThreadNetw } break; - case ThreadNetworkDiagnostics::Attributes::Ids::OverrunCount: { + case ThreadNetworkDiagnostics::Attributes::OverrunCount::Id: { // TO DO err = CHIP_ERROR_NOT_IMPLEMENTED; } break; - case ThreadNetworkDiagnostics::Attributes::Ids::NeighborTableList: { + case ThreadNetworkDiagnostics::Attributes::NeighborTableList::Id: { // List and structure not yet functionnal err = CHIP_ERROR_NOT_IMPLEMENTED; // TO DO When list is functionnal. @@ -913,295 +913,295 @@ CHIP_ERROR GenericThreadStackManagerImpl_OpenThread::_WriteThreadNetw } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RouteTableList: { + case ThreadNetworkDiagnostics::Attributes::RouteTableList::Id: { // List not yet functionnal err = CHIP_ERROR_NOT_IMPLEMENTED; } break; - case ThreadNetworkDiagnostics::Attributes::Ids::PartitionId: { + case ThreadNetworkDiagnostics::Attributes::PartitionId::Id: { uint32_t partitionId = otThreadGetPartitionId(mOTInst); err = encoder.Encode(partitionId); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::Weighting: { + case ThreadNetworkDiagnostics::Attributes::Weighting::Id: { uint8_t weight = otThreadGetLeaderWeight(mOTInst); err = encoder.Encode(weight); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::DataVersion: { + case ThreadNetworkDiagnostics::Attributes::DataVersion::Id: { uint8_t dataVersion = otNetDataGetVersion(mOTInst); err = encoder.Encode(dataVersion); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::StableDataVersion: { + case ThreadNetworkDiagnostics::Attributes::StableDataVersion::Id: { uint8_t stableVersion = otNetDataGetStableVersion(mOTInst); err = encoder.Encode(stableVersion); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::LeaderRouterId: { + case ThreadNetworkDiagnostics::Attributes::LeaderRouterId::Id: { uint8_t leaderRouterId = otThreadGetLeaderRouterId(mOTInst); err = encoder.Encode(leaderRouterId); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::DetachedRoleCount: { + case ThreadNetworkDiagnostics::Attributes::DetachedRoleCount::Id: { uint16_t detachedRole = otThreadGetMleCounters(mOTInst)->mDetachedRole; err = encoder.Encode(detachedRole); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::ChildRoleCount: { + case ThreadNetworkDiagnostics::Attributes::ChildRoleCount::Id: { uint16_t childRole = otThreadGetMleCounters(mOTInst)->mChildRole; err = encoder.Encode(childRole); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RouterRoleCount: { + case ThreadNetworkDiagnostics::Attributes::RouterRoleCount::Id: { uint16_t routerRole = otThreadGetMleCounters(mOTInst)->mRouterRole; err = encoder.Encode(routerRole); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::LeaderRoleCount: { + case ThreadNetworkDiagnostics::Attributes::LeaderRoleCount::Id: { uint16_t leaderRole = otThreadGetMleCounters(mOTInst)->mLeaderRole; err = encoder.Encode(leaderRole); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::AttachAttemptCount: { + case ThreadNetworkDiagnostics::Attributes::AttachAttemptCount::Id: { uint16_t attachAttempts = otThreadGetMleCounters(mOTInst)->mAttachAttempts; err = encoder.Encode(attachAttempts); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::PartitionIdChangeCount: { + case ThreadNetworkDiagnostics::Attributes::PartitionIdChangeCount::Id: { uint16_t partitionIdChanges = otThreadGetMleCounters(mOTInst)->mPartitionIdChanges; err = encoder.Encode(partitionIdChanges); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::BetterPartitionAttachAttemptCount: { + case ThreadNetworkDiagnostics::Attributes::BetterPartitionAttachAttemptCount::Id: { uint16_t betterPartitionAttachAttempts = otThreadGetMleCounters(mOTInst)->mBetterPartitionAttachAttempts; err = encoder.Encode(betterPartitionAttachAttempts); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::ParentChangeCount: { + case ThreadNetworkDiagnostics::Attributes::ParentChangeCount::Id: { uint16_t parentChanges = otThreadGetMleCounters(mOTInst)->mParentChanges; err = encoder.Encode(parentChanges); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxTotalCount: { + case ThreadNetworkDiagnostics::Attributes::TxTotalCount::Id: { uint32_t txTotal = otLinkGetCounters(mOTInst)->mTxTotal; err = encoder.Encode(txTotal); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxUnicastCount: { + case ThreadNetworkDiagnostics::Attributes::TxUnicastCount::Id: { uint32_t txUnicast = otLinkGetCounters(mOTInst)->mTxUnicast; err = encoder.Encode(txUnicast); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxBroadcastCount: { + case ThreadNetworkDiagnostics::Attributes::TxBroadcastCount::Id: { uint32_t txBroadcast = otLinkGetCounters(mOTInst)->mTxBroadcast; err = encoder.Encode(txBroadcast); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxAckRequestedCount: { + case ThreadNetworkDiagnostics::Attributes::TxAckRequestedCount::Id: { uint32_t txAckRequested = otLinkGetCounters(mOTInst)->mTxAckRequested; err = encoder.Encode(txAckRequested); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxAckedCount: { + case ThreadNetworkDiagnostics::Attributes::TxAckedCount::Id: { uint32_t txAcked = otLinkGetCounters(mOTInst)->mTxAcked; err = encoder.Encode(txAcked); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxNoAckRequestedCount: { + case ThreadNetworkDiagnostics::Attributes::TxNoAckRequestedCount::Id: { uint32_t txNoAckRequested = otLinkGetCounters(mOTInst)->mTxNoAckRequested; err = encoder.Encode(txNoAckRequested); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxDataCount: { + case ThreadNetworkDiagnostics::Attributes::TxDataCount::Id: { uint32_t txData = otLinkGetCounters(mOTInst)->mTxData; err = encoder.Encode(txData); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxDataPollCount: { + case ThreadNetworkDiagnostics::Attributes::TxDataPollCount::Id: { uint32_t txDataPoll = otLinkGetCounters(mOTInst)->mTxDataPoll; err = encoder.Encode(txDataPoll); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxBeaconCount: { + case ThreadNetworkDiagnostics::Attributes::TxBeaconCount::Id: { uint32_t txBeacon = otLinkGetCounters(mOTInst)->mTxBeacon; err = encoder.Encode(txBeacon); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxBeaconRequestCount: { + case ThreadNetworkDiagnostics::Attributes::TxBeaconRequestCount::Id: { uint32_t txBeaconRequest = otLinkGetCounters(mOTInst)->mTxBeaconRequest; err = encoder.Encode(txBeaconRequest); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxOtherCount: { + case ThreadNetworkDiagnostics::Attributes::TxOtherCount::Id: { uint32_t txOther = otLinkGetCounters(mOTInst)->mTxOther; err = encoder.Encode(txOther); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxRetryCount: { + case ThreadNetworkDiagnostics::Attributes::TxRetryCount::Id: { uint32_t txRetry = otLinkGetCounters(mOTInst)->mTxRetry; err = encoder.Encode(txRetry); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxDirectMaxRetryExpiryCount: { + case ThreadNetworkDiagnostics::Attributes::TxDirectMaxRetryExpiryCount::Id: { uint32_t txDirectMaxRetryExpiry = otLinkGetCounters(mOTInst)->mTxDirectMaxRetryExpiry; err = encoder.Encode(txDirectMaxRetryExpiry); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxIndirectMaxRetryExpiryCount: { + case ThreadNetworkDiagnostics::Attributes::TxIndirectMaxRetryExpiryCount::Id: { uint32_t txIndirectMaxRetryExpiry = otLinkGetCounters(mOTInst)->mTxIndirectMaxRetryExpiry; err = encoder.Encode(txIndirectMaxRetryExpiry); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxErrCcaCount: { + case ThreadNetworkDiagnostics::Attributes::TxErrCcaCount::Id: { uint32_t txErrCca = otLinkGetCounters(mOTInst)->mTxErrCca; err = encoder.Encode(txErrCca); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxErrAbortCount: { + case ThreadNetworkDiagnostics::Attributes::TxErrAbortCount::Id: { uint32_t TxErrAbort = otLinkGetCounters(mOTInst)->mTxErrAbort; err = encoder.Encode(TxErrAbort); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::TxErrBusyChannelCount: { + case ThreadNetworkDiagnostics::Attributes::TxErrBusyChannelCount::Id: { uint32_t TxErrBusyChannel = otLinkGetCounters(mOTInst)->mTxErrBusyChannel; err = encoder.Encode(TxErrBusyChannel); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxTotalCount: { + case ThreadNetworkDiagnostics::Attributes::RxTotalCount::Id: { uint32_t rxTotal = otLinkGetCounters(mOTInst)->mRxTotal; err = encoder.Encode(rxTotal); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxUnicastCount: { + case ThreadNetworkDiagnostics::Attributes::RxUnicastCount::Id: { uint32_t rxUnicast = otLinkGetCounters(mOTInst)->mRxUnicast; err = encoder.Encode(rxUnicast); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxBroadcastCount: { + case ThreadNetworkDiagnostics::Attributes::RxBroadcastCount::Id: { uint32_t rxBroadcast = otLinkGetCounters(mOTInst)->mRxBroadcast; err = encoder.Encode(rxBroadcast); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxDataCount: { + case ThreadNetworkDiagnostics::Attributes::RxDataCount::Id: { uint32_t rxData = otLinkGetCounters(mOTInst)->mRxData; err = encoder.Encode(rxData); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxDataPollCount: { + case ThreadNetworkDiagnostics::Attributes::RxDataPollCount::Id: { uint32_t rxDataPoll = otLinkGetCounters(mOTInst)->mRxDataPoll; err = encoder.Encode(rxDataPoll); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxBeaconCount: { + case ThreadNetworkDiagnostics::Attributes::RxBeaconCount::Id: { uint32_t rxBeacon = otLinkGetCounters(mOTInst)->mRxBeacon; err = encoder.Encode(rxBeacon); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxBeaconRequestCount: { + case ThreadNetworkDiagnostics::Attributes::RxBeaconRequestCount::Id: { uint32_t rxBeaconRequest = otLinkGetCounters(mOTInst)->mRxBeaconRequest; err = encoder.Encode(rxBeaconRequest); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxOtherCount: { + case ThreadNetworkDiagnostics::Attributes::RxOtherCount::Id: { uint32_t rxOther = otLinkGetCounters(mOTInst)->mRxOther; err = encoder.Encode(rxOther); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxAddressFilteredCount: { + case ThreadNetworkDiagnostics::Attributes::RxAddressFilteredCount::Id: { uint32_t rxAddressFiltered = otLinkGetCounters(mOTInst)->mRxAddressFiltered; err = encoder.Encode(rxAddressFiltered); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxDestAddrFilteredCount: { + case ThreadNetworkDiagnostics::Attributes::RxDestAddrFilteredCount::Id: { uint32_t rxDestAddrFiltered = otLinkGetCounters(mOTInst)->mRxDestAddrFiltered; err = encoder.Encode(rxDestAddrFiltered); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxDuplicatedCount: { + case ThreadNetworkDiagnostics::Attributes::RxDuplicatedCount::Id: { uint32_t rxDuplicated = otLinkGetCounters(mOTInst)->mRxDuplicated; err = encoder.Encode(rxDuplicated); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxErrNoFrameCount: { + case ThreadNetworkDiagnostics::Attributes::RxErrNoFrameCount::Id: { uint32_t rxErrNoFrame = otLinkGetCounters(mOTInst)->mRxErrNoFrame; err = encoder.Encode(rxErrNoFrame); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxErrUnknownNeighborCount: { + case ThreadNetworkDiagnostics::Attributes::RxErrUnknownNeighborCount::Id: { uint32_t rxErrUnknownNeighbor = otLinkGetCounters(mOTInst)->mRxErrUnknownNeighbor; err = encoder.Encode(rxErrUnknownNeighbor); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxErrInvalidSrcAddrCount: { + case ThreadNetworkDiagnostics::Attributes::RxErrInvalidSrcAddrCount::Id: { uint32_t rxErrInvalidSrcAddr = otLinkGetCounters(mOTInst)->mRxErrInvalidSrcAddr; err = encoder.Encode(rxErrInvalidSrcAddr); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxErrSecCount: { + case ThreadNetworkDiagnostics::Attributes::RxErrSecCount::Id: { uint32_t rxErrSec = otLinkGetCounters(mOTInst)->mRxErrSec; err = encoder.Encode(rxErrSec); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxErrFcsCount: { + case ThreadNetworkDiagnostics::Attributes::RxErrFcsCount::Id: { uint32_t rxErrFcs = otLinkGetCounters(mOTInst)->mRxErrFcs; err = encoder.Encode(rxErrFcs); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::RxErrOtherCount: { + case ThreadNetworkDiagnostics::Attributes::RxErrOtherCount::Id: { uint32_t rxErrOther = otLinkGetCounters(mOTInst)->mRxErrOther; err = encoder.Encode(rxErrOther); } break; - case ThreadNetworkDiagnostics::Attributes::Ids::ActiveTimestamp: { + case ThreadNetworkDiagnostics::Attributes::ActiveTimestamp::Id: { err = CHIP_ERROR_INCORRECT_STATE; if (otDatasetIsCommissioned(mOTInst)) { @@ -1214,7 +1214,7 @@ CHIP_ERROR GenericThreadStackManagerImpl_OpenThread::_WriteThreadNetw } break; - case ThreadNetworkDiagnostics::Attributes::Ids::PendingTimestamp: { + case ThreadNetworkDiagnostics::Attributes::PendingTimestamp::Id: { err = CHIP_ERROR_INCORRECT_STATE; if (otDatasetIsCommissioned(mOTInst)) { @@ -1227,7 +1227,7 @@ CHIP_ERROR GenericThreadStackManagerImpl_OpenThread::_WriteThreadNetw } break; - case ThreadNetworkDiagnostics::Attributes::Ids::Delay: { + case ThreadNetworkDiagnostics::Attributes::Delay::Id: { err = CHIP_ERROR_INCORRECT_STATE; if (otDatasetIsCommissioned(mOTInst)) { @@ -1240,7 +1240,7 @@ CHIP_ERROR GenericThreadStackManagerImpl_OpenThread::_WriteThreadNetw } break; - case ThreadNetworkDiagnostics::Attributes::Ids::SecurityPolicy: { + case ThreadNetworkDiagnostics::Attributes::SecurityPolicy::Id: { err = CHIP_ERROR_NOT_IMPLEMENTED; // Stuct type nopt yet supported // if (otDatasetIsCommissioned(mOTInst)) @@ -1253,7 +1253,7 @@ CHIP_ERROR GenericThreadStackManagerImpl_OpenThread::_WriteThreadNetw } break; - case ThreadNetworkDiagnostics::Attributes::Ids::ChannelMask: { + case ThreadNetworkDiagnostics::Attributes::ChannelMask::Id: { err = CHIP_ERROR_INCORRECT_STATE; if (otDatasetIsCommissioned(mOTInst)) { @@ -1276,7 +1276,7 @@ CHIP_ERROR GenericThreadStackManagerImpl_OpenThread::_WriteThreadNetw } break; - case ThreadNetworkDiagnostics::Attributes::Ids::OperationalDatasetComponents: { + case ThreadNetworkDiagnostics::Attributes::OperationalDatasetComponents::Id: { // Structure not yet supported // if (otDatasetIsCommissioned(mOTInst)) // { @@ -1294,7 +1294,7 @@ CHIP_ERROR GenericThreadStackManagerImpl_OpenThread::_WriteThreadNetw } break; - case ThreadNetworkDiagnostics::Attributes::Ids::ActiveNetworkFaultsList: { + case ThreadNetworkDiagnostics::Attributes::ActiveNetworkFaultsList::Id: { // List not yet supported err = CHIP_ERROR_NOT_IMPLEMENTED; break; diff --git a/zzz_generated/app-common/app-common/zap-generated/attributes/Accessors.cpp b/zzz_generated/app-common/app-common/zap-generated/attributes/Accessors.cpp index 83460ff6ab03c8..b5f93f236e1556 100644 --- a/zzz_generated/app-common/app-common/zap-generated/attributes/Accessors.cpp +++ b/zzz_generated/app-common/app-common/zap-generated/attributes/Accessors.cpp @@ -37,542 +37,542 @@ namespace PowerConfiguration { namespace Attributes { EmberAfStatus GetMainsVoltage(chip::EndpointId endpoint, uint16_t * mainsVoltage) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::MainsVoltage, (uint8_t *) mainsVoltage, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, MainsVoltage::Id, (uint8_t *) mainsVoltage, sizeof(*mainsVoltage)); } EmberAfStatus SetMainsVoltage(chip::EndpointId endpoint, uint16_t mainsVoltage) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::MainsVoltage, (uint8_t *) &mainsVoltage, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, MainsVoltage::Id, (uint8_t *) &mainsVoltage, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMainsFrequency(chip::EndpointId endpoint, uint8_t * mainsFrequency) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::MainsFrequency, (uint8_t *) mainsFrequency, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, MainsFrequency::Id, (uint8_t *) mainsFrequency, sizeof(*mainsFrequency)); } EmberAfStatus SetMainsFrequency(chip::EndpointId endpoint, uint8_t mainsFrequency) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::MainsFrequency, (uint8_t *) &mainsFrequency, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, MainsFrequency::Id, (uint8_t *) &mainsFrequency, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetMainsAlarmMask(chip::EndpointId endpoint, uint8_t * mainsAlarmMask) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::MainsAlarmMask, (uint8_t *) mainsAlarmMask, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, MainsAlarmMask::Id, (uint8_t *) mainsAlarmMask, sizeof(*mainsAlarmMask)); } EmberAfStatus SetMainsAlarmMask(chip::EndpointId endpoint, uint8_t mainsAlarmMask) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::MainsAlarmMask, (uint8_t *) &mainsAlarmMask, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, MainsAlarmMask::Id, (uint8_t *) &mainsAlarmMask, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetMainsVoltageMinThreshold(chip::EndpointId endpoint, uint16_t * mainsVoltageMinThreshold) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::MainsVoltageMinThreshold, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, MainsVoltageMinThreshold::Id, (uint8_t *) mainsVoltageMinThreshold, sizeof(*mainsVoltageMinThreshold)); } EmberAfStatus SetMainsVoltageMinThreshold(chip::EndpointId endpoint, uint16_t mainsVoltageMinThreshold) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::MainsVoltageMinThreshold, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, MainsVoltageMinThreshold::Id, (uint8_t *) &mainsVoltageMinThreshold, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMainsVoltageMaxThreshold(chip::EndpointId endpoint, uint16_t * mainsVoltageMaxThreshold) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::MainsVoltageMaxThreshold, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, MainsVoltageMaxThreshold::Id, (uint8_t *) mainsVoltageMaxThreshold, sizeof(*mainsVoltageMaxThreshold)); } EmberAfStatus SetMainsVoltageMaxThreshold(chip::EndpointId endpoint, uint16_t mainsVoltageMaxThreshold) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::MainsVoltageMaxThreshold, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, MainsVoltageMaxThreshold::Id, (uint8_t *) &mainsVoltageMaxThreshold, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMainsVoltageDwellTrip(chip::EndpointId endpoint, uint16_t * mainsVoltageDwellTrip) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::MainsVoltageDwellTrip, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, MainsVoltageDwellTrip::Id, (uint8_t *) mainsVoltageDwellTrip, sizeof(*mainsVoltageDwellTrip)); } EmberAfStatus SetMainsVoltageDwellTrip(chip::EndpointId endpoint, uint16_t mainsVoltageDwellTrip) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::MainsVoltageDwellTrip, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, MainsVoltageDwellTrip::Id, (uint8_t *) &mainsVoltageDwellTrip, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryVoltage(chip::EndpointId endpoint, uint8_t * batteryVoltage) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryVoltage, (uint8_t *) batteryVoltage, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryVoltage::Id, (uint8_t *) batteryVoltage, sizeof(*batteryVoltage)); } EmberAfStatus SetBatteryVoltage(chip::EndpointId endpoint, uint8_t batteryVoltage) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryVoltage, (uint8_t *) &batteryVoltage, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryVoltage::Id, (uint8_t *) &batteryVoltage, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryPercentageRemaining(chip::EndpointId endpoint, uint8_t * batteryPercentageRemaining) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryPercentageRemaining, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryPercentageRemaining::Id, (uint8_t *) batteryPercentageRemaining, sizeof(*batteryPercentageRemaining)); } EmberAfStatus SetBatteryPercentageRemaining(chip::EndpointId endpoint, uint8_t batteryPercentageRemaining) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryPercentageRemaining, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryPercentageRemaining::Id, (uint8_t *) &batteryPercentageRemaining, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatterySize(chip::EndpointId endpoint, uint8_t * batterySize) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatterySize, (uint8_t *) batterySize, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatterySize::Id, (uint8_t *) batterySize, sizeof(*batterySize)); } EmberAfStatus SetBatterySize(chip::EndpointId endpoint, uint8_t batterySize) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatterySize, (uint8_t *) &batterySize, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatterySize::Id, (uint8_t *) &batterySize, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryAhrRating(chip::EndpointId endpoint, uint16_t * batteryAhrRating) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryAhrRating, (uint8_t *) batteryAhrRating, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryAhrRating::Id, (uint8_t *) batteryAhrRating, sizeof(*batteryAhrRating)); } EmberAfStatus SetBatteryAhrRating(chip::EndpointId endpoint, uint16_t batteryAhrRating) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryAhrRating, (uint8_t *) &batteryAhrRating, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryAhrRating::Id, (uint8_t *) &batteryAhrRating, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryQuantity(chip::EndpointId endpoint, uint8_t * batteryQuantity) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryQuantity, (uint8_t *) batteryQuantity, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryQuantity::Id, (uint8_t *) batteryQuantity, sizeof(*batteryQuantity)); } EmberAfStatus SetBatteryQuantity(chip::EndpointId endpoint, uint8_t batteryQuantity) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryQuantity, (uint8_t *) &batteryQuantity, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryQuantity::Id, (uint8_t *) &batteryQuantity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryRatedVoltage(chip::EndpointId endpoint, uint8_t * batteryRatedVoltage) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryRatedVoltage, (uint8_t *) batteryRatedVoltage, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryRatedVoltage::Id, (uint8_t *) batteryRatedVoltage, sizeof(*batteryRatedVoltage)); } EmberAfStatus SetBatteryRatedVoltage(chip::EndpointId endpoint, uint8_t batteryRatedVoltage) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryRatedVoltage, (uint8_t *) &batteryRatedVoltage, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryRatedVoltage::Id, (uint8_t *) &batteryRatedVoltage, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryAlarmMask(chip::EndpointId endpoint, uint8_t * batteryAlarmMask) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryAlarmMask, (uint8_t *) batteryAlarmMask, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryAlarmMask::Id, (uint8_t *) batteryAlarmMask, sizeof(*batteryAlarmMask)); } EmberAfStatus SetBatteryAlarmMask(chip::EndpointId endpoint, uint8_t batteryAlarmMask) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryAlarmMask, (uint8_t *) &batteryAlarmMask, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryAlarmMask::Id, (uint8_t *) &batteryAlarmMask, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryVoltageMinThreshold(chip::EndpointId endpoint, uint8_t * batteryVoltageMinThreshold) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryVoltageMinThreshold, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryVoltageMinThreshold::Id, (uint8_t *) batteryVoltageMinThreshold, sizeof(*batteryVoltageMinThreshold)); } EmberAfStatus SetBatteryVoltageMinThreshold(chip::EndpointId endpoint, uint8_t batteryVoltageMinThreshold) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryVoltageMinThreshold, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryVoltageMinThreshold::Id, (uint8_t *) &batteryVoltageMinThreshold, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryVoltageThreshold1(chip::EndpointId endpoint, uint8_t * batteryVoltageThreshold1) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryVoltageThreshold1, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryVoltageThreshold1::Id, (uint8_t *) batteryVoltageThreshold1, sizeof(*batteryVoltageThreshold1)); } EmberAfStatus SetBatteryVoltageThreshold1(chip::EndpointId endpoint, uint8_t batteryVoltageThreshold1) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryVoltageThreshold1, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryVoltageThreshold1::Id, (uint8_t *) &batteryVoltageThreshold1, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryVoltageThreshold2(chip::EndpointId endpoint, uint8_t * batteryVoltageThreshold2) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryVoltageThreshold2, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryVoltageThreshold2::Id, (uint8_t *) batteryVoltageThreshold2, sizeof(*batteryVoltageThreshold2)); } EmberAfStatus SetBatteryVoltageThreshold2(chip::EndpointId endpoint, uint8_t batteryVoltageThreshold2) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryVoltageThreshold2, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryVoltageThreshold2::Id, (uint8_t *) &batteryVoltageThreshold2, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryVoltageThreshold3(chip::EndpointId endpoint, uint8_t * batteryVoltageThreshold3) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryVoltageThreshold3, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryVoltageThreshold3::Id, (uint8_t *) batteryVoltageThreshold3, sizeof(*batteryVoltageThreshold3)); } EmberAfStatus SetBatteryVoltageThreshold3(chip::EndpointId endpoint, uint8_t batteryVoltageThreshold3) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryVoltageThreshold3, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryVoltageThreshold3::Id, (uint8_t *) &batteryVoltageThreshold3, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryPercentageMinThreshold(chip::EndpointId endpoint, uint8_t * batteryPercentageMinThreshold) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryPercentageMinThreshold, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryPercentageMinThreshold::Id, (uint8_t *) batteryPercentageMinThreshold, sizeof(*batteryPercentageMinThreshold)); } EmberAfStatus SetBatteryPercentageMinThreshold(chip::EndpointId endpoint, uint8_t batteryPercentageMinThreshold) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryPercentageMinThreshold, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryPercentageMinThreshold::Id, (uint8_t *) &batteryPercentageMinThreshold, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryPercentageThreshold1(chip::EndpointId endpoint, uint8_t * batteryPercentageThreshold1) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryPercentageThreshold1, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryPercentageThreshold1::Id, (uint8_t *) batteryPercentageThreshold1, sizeof(*batteryPercentageThreshold1)); } EmberAfStatus SetBatteryPercentageThreshold1(chip::EndpointId endpoint, uint8_t batteryPercentageThreshold1) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryPercentageThreshold1, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryPercentageThreshold1::Id, (uint8_t *) &batteryPercentageThreshold1, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryPercentageThreshold2(chip::EndpointId endpoint, uint8_t * batteryPercentageThreshold2) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryPercentageThreshold2, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryPercentageThreshold2::Id, (uint8_t *) batteryPercentageThreshold2, sizeof(*batteryPercentageThreshold2)); } EmberAfStatus SetBatteryPercentageThreshold2(chip::EndpointId endpoint, uint8_t batteryPercentageThreshold2) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryPercentageThreshold2, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryPercentageThreshold2::Id, (uint8_t *) &batteryPercentageThreshold2, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryPercentageThreshold3(chip::EndpointId endpoint, uint8_t * batteryPercentageThreshold3) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryPercentageThreshold3, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryPercentageThreshold3::Id, (uint8_t *) batteryPercentageThreshold3, sizeof(*batteryPercentageThreshold3)); } EmberAfStatus SetBatteryPercentageThreshold3(chip::EndpointId endpoint, uint8_t batteryPercentageThreshold3) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryPercentageThreshold3, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryPercentageThreshold3::Id, (uint8_t *) &batteryPercentageThreshold3, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryAlarmState(chip::EndpointId endpoint, uint32_t * batteryAlarmState) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryAlarmState, (uint8_t *) batteryAlarmState, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, BatteryAlarmState::Id, (uint8_t *) batteryAlarmState, sizeof(*batteryAlarmState)); } EmberAfStatus SetBatteryAlarmState(chip::EndpointId endpoint, uint32_t batteryAlarmState) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::BatteryAlarmState, (uint8_t *) &batteryAlarmState, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, BatteryAlarmState::Id, (uint8_t *) &batteryAlarmState, ZCL_BITMAP32_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2Voltage(chip::EndpointId endpoint, uint8_t * battery2Voltage) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2Voltage, (uint8_t *) battery2Voltage, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2Voltage::Id, (uint8_t *) battery2Voltage, sizeof(*battery2Voltage)); } EmberAfStatus SetBattery2Voltage(chip::EndpointId endpoint, uint8_t battery2Voltage) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2Voltage, (uint8_t *) &battery2Voltage, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2Voltage::Id, (uint8_t *) &battery2Voltage, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2PercentageRemaining(chip::EndpointId endpoint, uint8_t * battery2PercentageRemaining) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2PercentageRemaining, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2PercentageRemaining::Id, (uint8_t *) battery2PercentageRemaining, sizeof(*battery2PercentageRemaining)); } EmberAfStatus SetBattery2PercentageRemaining(chip::EndpointId endpoint, uint8_t battery2PercentageRemaining) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2PercentageRemaining, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2PercentageRemaining::Id, (uint8_t *) &battery2PercentageRemaining, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2Size(chip::EndpointId endpoint, uint8_t * battery2Size) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2Size, (uint8_t *) battery2Size, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2Size::Id, (uint8_t *) battery2Size, sizeof(*battery2Size)); } EmberAfStatus SetBattery2Size(chip::EndpointId endpoint, uint8_t battery2Size) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2Size, (uint8_t *) &battery2Size, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2Size::Id, (uint8_t *) &battery2Size, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2AhrRating(chip::EndpointId endpoint, uint16_t * battery2AhrRating) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2AhrRating, (uint8_t *) battery2AhrRating, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2AhrRating::Id, (uint8_t *) battery2AhrRating, sizeof(*battery2AhrRating)); } EmberAfStatus SetBattery2AhrRating(chip::EndpointId endpoint, uint16_t battery2AhrRating) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2AhrRating, (uint8_t *) &battery2AhrRating, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2AhrRating::Id, (uint8_t *) &battery2AhrRating, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2Quantity(chip::EndpointId endpoint, uint8_t * battery2Quantity) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2Quantity, (uint8_t *) battery2Quantity, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2Quantity::Id, (uint8_t *) battery2Quantity, sizeof(*battery2Quantity)); } EmberAfStatus SetBattery2Quantity(chip::EndpointId endpoint, uint8_t battery2Quantity) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2Quantity, (uint8_t *) &battery2Quantity, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2Quantity::Id, (uint8_t *) &battery2Quantity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2RatedVoltage(chip::EndpointId endpoint, uint8_t * battery2RatedVoltage) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2RatedVoltage, (uint8_t *) battery2RatedVoltage, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2RatedVoltage::Id, (uint8_t *) battery2RatedVoltage, sizeof(*battery2RatedVoltage)); } EmberAfStatus SetBattery2RatedVoltage(chip::EndpointId endpoint, uint8_t battery2RatedVoltage) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2RatedVoltage, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2RatedVoltage::Id, (uint8_t *) &battery2RatedVoltage, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2AlarmMask(chip::EndpointId endpoint, uint8_t * battery2AlarmMask) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2AlarmMask, (uint8_t *) battery2AlarmMask, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2AlarmMask::Id, (uint8_t *) battery2AlarmMask, sizeof(*battery2AlarmMask)); } EmberAfStatus SetBattery2AlarmMask(chip::EndpointId endpoint, uint8_t battery2AlarmMask) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2AlarmMask, (uint8_t *) &battery2AlarmMask, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2AlarmMask::Id, (uint8_t *) &battery2AlarmMask, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2VoltageMinThreshold(chip::EndpointId endpoint, uint8_t * battery2VoltageMinThreshold) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2VoltageMinThreshold, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2VoltageMinThreshold::Id, (uint8_t *) battery2VoltageMinThreshold, sizeof(*battery2VoltageMinThreshold)); } EmberAfStatus SetBattery2VoltageMinThreshold(chip::EndpointId endpoint, uint8_t battery2VoltageMinThreshold) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2VoltageMinThreshold, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2VoltageMinThreshold::Id, (uint8_t *) &battery2VoltageMinThreshold, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2VoltageThreshold1(chip::EndpointId endpoint, uint8_t * battery2VoltageThreshold1) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2VoltageThreshold1, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2VoltageThreshold1::Id, (uint8_t *) battery2VoltageThreshold1, sizeof(*battery2VoltageThreshold1)); } EmberAfStatus SetBattery2VoltageThreshold1(chip::EndpointId endpoint, uint8_t battery2VoltageThreshold1) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2VoltageThreshold1, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2VoltageThreshold1::Id, (uint8_t *) &battery2VoltageThreshold1, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2VoltageThreshold2(chip::EndpointId endpoint, uint8_t * battery2VoltageThreshold2) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2VoltageThreshold2, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2VoltageThreshold2::Id, (uint8_t *) battery2VoltageThreshold2, sizeof(*battery2VoltageThreshold2)); } EmberAfStatus SetBattery2VoltageThreshold2(chip::EndpointId endpoint, uint8_t battery2VoltageThreshold2) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2VoltageThreshold2, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2VoltageThreshold2::Id, (uint8_t *) &battery2VoltageThreshold2, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2VoltageThreshold3(chip::EndpointId endpoint, uint8_t * battery2VoltageThreshold3) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2VoltageThreshold3, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2VoltageThreshold3::Id, (uint8_t *) battery2VoltageThreshold3, sizeof(*battery2VoltageThreshold3)); } EmberAfStatus SetBattery2VoltageThreshold3(chip::EndpointId endpoint, uint8_t battery2VoltageThreshold3) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2VoltageThreshold3, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2VoltageThreshold3::Id, (uint8_t *) &battery2VoltageThreshold3, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2PercentageMinThreshold(chip::EndpointId endpoint, uint8_t * battery2PercentageMinThreshold) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2PercentageMinThreshold, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2PercentageMinThreshold::Id, (uint8_t *) battery2PercentageMinThreshold, sizeof(*battery2PercentageMinThreshold)); } EmberAfStatus SetBattery2PercentageMinThreshold(chip::EndpointId endpoint, uint8_t battery2PercentageMinThreshold) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2PercentageMinThreshold, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2PercentageMinThreshold::Id, (uint8_t *) &battery2PercentageMinThreshold, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2PercentageThreshold1(chip::EndpointId endpoint, uint8_t * battery2PercentageThreshold1) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2PercentageThreshold1, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2PercentageThreshold1::Id, (uint8_t *) battery2PercentageThreshold1, sizeof(*battery2PercentageThreshold1)); } EmberAfStatus SetBattery2PercentageThreshold1(chip::EndpointId endpoint, uint8_t battery2PercentageThreshold1) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2PercentageThreshold1, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2PercentageThreshold1::Id, (uint8_t *) &battery2PercentageThreshold1, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2PercentageThreshold2(chip::EndpointId endpoint, uint8_t * battery2PercentageThreshold2) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2PercentageThreshold2, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2PercentageThreshold2::Id, (uint8_t *) battery2PercentageThreshold2, sizeof(*battery2PercentageThreshold2)); } EmberAfStatus SetBattery2PercentageThreshold2(chip::EndpointId endpoint, uint8_t battery2PercentageThreshold2) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2PercentageThreshold2, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2PercentageThreshold2::Id, (uint8_t *) &battery2PercentageThreshold2, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2PercentageThreshold3(chip::EndpointId endpoint, uint8_t * battery2PercentageThreshold3) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2PercentageThreshold3, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2PercentageThreshold3::Id, (uint8_t *) battery2PercentageThreshold3, sizeof(*battery2PercentageThreshold3)); } EmberAfStatus SetBattery2PercentageThreshold3(chip::EndpointId endpoint, uint8_t battery2PercentageThreshold3) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2PercentageThreshold3, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2PercentageThreshold3::Id, (uint8_t *) &battery2PercentageThreshold3, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery2AlarmState(chip::EndpointId endpoint, uint32_t * battery2AlarmState) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2AlarmState, (uint8_t *) battery2AlarmState, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery2AlarmState::Id, (uint8_t *) battery2AlarmState, sizeof(*battery2AlarmState)); } EmberAfStatus SetBattery2AlarmState(chip::EndpointId endpoint, uint32_t battery2AlarmState) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery2AlarmState, (uint8_t *) &battery2AlarmState, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery2AlarmState::Id, (uint8_t *) &battery2AlarmState, ZCL_BITMAP32_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3Voltage(chip::EndpointId endpoint, uint8_t * battery3Voltage) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3Voltage, (uint8_t *) battery3Voltage, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3Voltage::Id, (uint8_t *) battery3Voltage, sizeof(*battery3Voltage)); } EmberAfStatus SetBattery3Voltage(chip::EndpointId endpoint, uint8_t battery3Voltage) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3Voltage, (uint8_t *) &battery3Voltage, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3Voltage::Id, (uint8_t *) &battery3Voltage, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3PercentageRemaining(chip::EndpointId endpoint, uint8_t * battery3PercentageRemaining) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3PercentageRemaining, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3PercentageRemaining::Id, (uint8_t *) battery3PercentageRemaining, sizeof(*battery3PercentageRemaining)); } EmberAfStatus SetBattery3PercentageRemaining(chip::EndpointId endpoint, uint8_t battery3PercentageRemaining) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3PercentageRemaining, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3PercentageRemaining::Id, (uint8_t *) &battery3PercentageRemaining, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3Size(chip::EndpointId endpoint, uint8_t * battery3Size) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3Size, (uint8_t *) battery3Size, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3Size::Id, (uint8_t *) battery3Size, sizeof(*battery3Size)); } EmberAfStatus SetBattery3Size(chip::EndpointId endpoint, uint8_t battery3Size) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3Size, (uint8_t *) &battery3Size, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3Size::Id, (uint8_t *) &battery3Size, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3AhrRating(chip::EndpointId endpoint, uint16_t * battery3AhrRating) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3AhrRating, (uint8_t *) battery3AhrRating, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3AhrRating::Id, (uint8_t *) battery3AhrRating, sizeof(*battery3AhrRating)); } EmberAfStatus SetBattery3AhrRating(chip::EndpointId endpoint, uint16_t battery3AhrRating) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3AhrRating, (uint8_t *) &battery3AhrRating, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3AhrRating::Id, (uint8_t *) &battery3AhrRating, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3Quantity(chip::EndpointId endpoint, uint8_t * battery3Quantity) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3Quantity, (uint8_t *) battery3Quantity, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3Quantity::Id, (uint8_t *) battery3Quantity, sizeof(*battery3Quantity)); } EmberAfStatus SetBattery3Quantity(chip::EndpointId endpoint, uint8_t battery3Quantity) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3Quantity, (uint8_t *) &battery3Quantity, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3Quantity::Id, (uint8_t *) &battery3Quantity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3RatedVoltage(chip::EndpointId endpoint, uint8_t * battery3RatedVoltage) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3RatedVoltage, (uint8_t *) battery3RatedVoltage, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3RatedVoltage::Id, (uint8_t *) battery3RatedVoltage, sizeof(*battery3RatedVoltage)); } EmberAfStatus SetBattery3RatedVoltage(chip::EndpointId endpoint, uint8_t battery3RatedVoltage) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3RatedVoltage, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3RatedVoltage::Id, (uint8_t *) &battery3RatedVoltage, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3AlarmMask(chip::EndpointId endpoint, uint8_t * battery3AlarmMask) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3AlarmMask, (uint8_t *) battery3AlarmMask, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3AlarmMask::Id, (uint8_t *) battery3AlarmMask, sizeof(*battery3AlarmMask)); } EmberAfStatus SetBattery3AlarmMask(chip::EndpointId endpoint, uint8_t battery3AlarmMask) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3AlarmMask, (uint8_t *) &battery3AlarmMask, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3AlarmMask::Id, (uint8_t *) &battery3AlarmMask, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3VoltageMinThreshold(chip::EndpointId endpoint, uint8_t * battery3VoltageMinThreshold) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3VoltageMinThreshold, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3VoltageMinThreshold::Id, (uint8_t *) battery3VoltageMinThreshold, sizeof(*battery3VoltageMinThreshold)); } EmberAfStatus SetBattery3VoltageMinThreshold(chip::EndpointId endpoint, uint8_t battery3VoltageMinThreshold) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3VoltageMinThreshold, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3VoltageMinThreshold::Id, (uint8_t *) &battery3VoltageMinThreshold, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3VoltageThreshold1(chip::EndpointId endpoint, uint8_t * battery3VoltageThreshold1) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3VoltageThreshold1, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3VoltageThreshold1::Id, (uint8_t *) battery3VoltageThreshold1, sizeof(*battery3VoltageThreshold1)); } EmberAfStatus SetBattery3VoltageThreshold1(chip::EndpointId endpoint, uint8_t battery3VoltageThreshold1) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3VoltageThreshold1, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3VoltageThreshold1::Id, (uint8_t *) &battery3VoltageThreshold1, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3VoltageThreshold2(chip::EndpointId endpoint, uint8_t * battery3VoltageThreshold2) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3VoltageThreshold2, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3VoltageThreshold2::Id, (uint8_t *) battery3VoltageThreshold2, sizeof(*battery3VoltageThreshold2)); } EmberAfStatus SetBattery3VoltageThreshold2(chip::EndpointId endpoint, uint8_t battery3VoltageThreshold2) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3VoltageThreshold2, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3VoltageThreshold2::Id, (uint8_t *) &battery3VoltageThreshold2, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3VoltageThreshold3(chip::EndpointId endpoint, uint8_t * battery3VoltageThreshold3) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3VoltageThreshold3, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3VoltageThreshold3::Id, (uint8_t *) battery3VoltageThreshold3, sizeof(*battery3VoltageThreshold3)); } EmberAfStatus SetBattery3VoltageThreshold3(chip::EndpointId endpoint, uint8_t battery3VoltageThreshold3) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3VoltageThreshold3, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3VoltageThreshold3::Id, (uint8_t *) &battery3VoltageThreshold3, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3PercentageMinThreshold(chip::EndpointId endpoint, uint8_t * battery3PercentageMinThreshold) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3PercentageMinThreshold, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3PercentageMinThreshold::Id, (uint8_t *) battery3PercentageMinThreshold, sizeof(*battery3PercentageMinThreshold)); } EmberAfStatus SetBattery3PercentageMinThreshold(chip::EndpointId endpoint, uint8_t battery3PercentageMinThreshold) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3PercentageMinThreshold, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3PercentageMinThreshold::Id, (uint8_t *) &battery3PercentageMinThreshold, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3PercentageThreshold1(chip::EndpointId endpoint, uint8_t * battery3PercentageThreshold1) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3PercentageThreshold1, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3PercentageThreshold1::Id, (uint8_t *) battery3PercentageThreshold1, sizeof(*battery3PercentageThreshold1)); } EmberAfStatus SetBattery3PercentageThreshold1(chip::EndpointId endpoint, uint8_t battery3PercentageThreshold1) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3PercentageThreshold1, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3PercentageThreshold1::Id, (uint8_t *) &battery3PercentageThreshold1, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3PercentageThreshold2(chip::EndpointId endpoint, uint8_t * battery3PercentageThreshold2) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3PercentageThreshold2, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3PercentageThreshold2::Id, (uint8_t *) battery3PercentageThreshold2, sizeof(*battery3PercentageThreshold2)); } EmberAfStatus SetBattery3PercentageThreshold2(chip::EndpointId endpoint, uint8_t battery3PercentageThreshold2) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3PercentageThreshold2, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3PercentageThreshold2::Id, (uint8_t *) &battery3PercentageThreshold2, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3PercentageThreshold3(chip::EndpointId endpoint, uint8_t * battery3PercentageThreshold3) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3PercentageThreshold3, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3PercentageThreshold3::Id, (uint8_t *) battery3PercentageThreshold3, sizeof(*battery3PercentageThreshold3)); } EmberAfStatus SetBattery3PercentageThreshold3(chip::EndpointId endpoint, uint8_t battery3PercentageThreshold3) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3PercentageThreshold3, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3PercentageThreshold3::Id, (uint8_t *) &battery3PercentageThreshold3, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBattery3AlarmState(chip::EndpointId endpoint, uint32_t * battery3AlarmState) { - return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3AlarmState, (uint8_t *) battery3AlarmState, + return emberAfReadServerAttribute(endpoint, PowerConfiguration::Id, Battery3AlarmState::Id, (uint8_t *) battery3AlarmState, sizeof(*battery3AlarmState)); } EmberAfStatus SetBattery3AlarmState(chip::EndpointId endpoint, uint32_t battery3AlarmState) { - return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Ids::Battery3AlarmState, (uint8_t *) &battery3AlarmState, + return emberAfWriteServerAttribute(endpoint, PowerConfiguration::Id, Battery3AlarmState::Id, (uint8_t *) &battery3AlarmState, ZCL_BITMAP32_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -582,72 +582,72 @@ namespace DeviceTemperatureConfiguration { namespace Attributes { EmberAfStatus GetCurrentTemperature(chip::EndpointId endpoint, int16_t * currentTemperature) { - return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::CurrentTemperature, + return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, CurrentTemperature::Id, (uint8_t *) currentTemperature, sizeof(*currentTemperature)); } EmberAfStatus SetCurrentTemperature(chip::EndpointId endpoint, int16_t currentTemperature) { - return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::CurrentTemperature, + return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, CurrentTemperature::Id, (uint8_t *) ¤tTemperature, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMinTempExperienced(chip::EndpointId endpoint, int16_t * minTempExperienced) { - return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::MinTempExperienced, + return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, MinTempExperienced::Id, (uint8_t *) minTempExperienced, sizeof(*minTempExperienced)); } EmberAfStatus SetMinTempExperienced(chip::EndpointId endpoint, int16_t minTempExperienced) { - return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::MinTempExperienced, + return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, MinTempExperienced::Id, (uint8_t *) &minTempExperienced, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxTempExperienced(chip::EndpointId endpoint, int16_t * maxTempExperienced) { - return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::MaxTempExperienced, + return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, MaxTempExperienced::Id, (uint8_t *) maxTempExperienced, sizeof(*maxTempExperienced)); } EmberAfStatus SetMaxTempExperienced(chip::EndpointId endpoint, int16_t maxTempExperienced) { - return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::MaxTempExperienced, + return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, MaxTempExperienced::Id, (uint8_t *) &maxTempExperienced, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetOverTempTotalDwell(chip::EndpointId endpoint, uint16_t * overTempTotalDwell) { - return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::OverTempTotalDwell, + return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, OverTempTotalDwell::Id, (uint8_t *) overTempTotalDwell, sizeof(*overTempTotalDwell)); } EmberAfStatus SetOverTempTotalDwell(chip::EndpointId endpoint, uint16_t overTempTotalDwell) { - return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::OverTempTotalDwell, + return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, OverTempTotalDwell::Id, (uint8_t *) &overTempTotalDwell, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetDeviceTempAlarmMask(chip::EndpointId endpoint, uint8_t * deviceTempAlarmMask) { - return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::DeviceTempAlarmMask, + return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, DeviceTempAlarmMask::Id, (uint8_t *) deviceTempAlarmMask, sizeof(*deviceTempAlarmMask)); } EmberAfStatus SetDeviceTempAlarmMask(chip::EndpointId endpoint, uint8_t deviceTempAlarmMask) { - return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::DeviceTempAlarmMask, + return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, DeviceTempAlarmMask::Id, (uint8_t *) &deviceTempAlarmMask, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetLowTempThreshold(chip::EndpointId endpoint, int16_t * lowTempThreshold) { - return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::LowTempThreshold, + return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, LowTempThreshold::Id, (uint8_t *) lowTempThreshold, sizeof(*lowTempThreshold)); } EmberAfStatus SetLowTempThreshold(chip::EndpointId endpoint, int16_t lowTempThreshold) { - return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::LowTempThreshold, + return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, LowTempThreshold::Id, (uint8_t *) &lowTempThreshold, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetHighTempThreshold(chip::EndpointId endpoint, int16_t * highTempThreshold) { - return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::HighTempThreshold, + return emberAfReadServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, HighTempThreshold::Id, (uint8_t *) highTempThreshold, sizeof(*highTempThreshold)); } EmberAfStatus SetHighTempThreshold(chip::EndpointId endpoint, int16_t highTempThreshold) { - return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, Ids::HighTempThreshold, + return emberAfWriteServerAttribute(endpoint, DeviceTemperatureConfiguration::Id, HighTempThreshold::Id, (uint8_t *) &highTempThreshold, ZCL_INT16S_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -657,20 +657,20 @@ namespace Identify { namespace Attributes { EmberAfStatus GetIdentifyTime(chip::EndpointId endpoint, uint16_t * identifyTime) { - return emberAfReadServerAttribute(endpoint, Identify::Id, Ids::IdentifyTime, (uint8_t *) identifyTime, sizeof(*identifyTime)); + return emberAfReadServerAttribute(endpoint, Identify::Id, IdentifyTime::Id, (uint8_t *) identifyTime, sizeof(*identifyTime)); } EmberAfStatus SetIdentifyTime(chip::EndpointId endpoint, uint16_t identifyTime) { - return emberAfWriteServerAttribute(endpoint, Identify::Id, Ids::IdentifyTime, (uint8_t *) &identifyTime, + return emberAfWriteServerAttribute(endpoint, Identify::Id, IdentifyTime::Id, (uint8_t *) &identifyTime, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetIdentifyType(chip::EndpointId endpoint, uint8_t * identifyType) { - return emberAfReadServerAttribute(endpoint, Identify::Id, Ids::IdentifyType, (uint8_t *) identifyType, sizeof(*identifyType)); + return emberAfReadServerAttribute(endpoint, Identify::Id, IdentifyType::Id, (uint8_t *) identifyType, sizeof(*identifyType)); } EmberAfStatus SetIdentifyType(chip::EndpointId endpoint, uint8_t identifyType) { - return emberAfWriteServerAttribute(endpoint, Identify::Id, Ids::IdentifyType, (uint8_t *) &identifyType, + return emberAfWriteServerAttribute(endpoint, Identify::Id, IdentifyType::Id, (uint8_t *) &identifyType, ZCL_ENUM8_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -680,12 +680,11 @@ namespace Groups { namespace Attributes { EmberAfStatus GetNameSupport(chip::EndpointId endpoint, uint8_t * nameSupport) { - return emberAfReadServerAttribute(endpoint, Groups::Id, Ids::NameSupport, (uint8_t *) nameSupport, sizeof(*nameSupport)); + return emberAfReadServerAttribute(endpoint, Groups::Id, NameSupport::Id, (uint8_t *) nameSupport, sizeof(*nameSupport)); } EmberAfStatus SetNameSupport(chip::EndpointId endpoint, uint8_t nameSupport) { - return emberAfWriteServerAttribute(endpoint, Groups::Id, Ids::NameSupport, (uint8_t *) &nameSupport, - ZCL_BITMAP8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Groups::Id, NameSupport::Id, (uint8_t *) &nameSupport, ZCL_BITMAP8_ATTRIBUTE_TYPE); } } // namespace Attributes } // namespace Groups @@ -694,46 +693,44 @@ namespace Scenes { namespace Attributes { EmberAfStatus GetSceneCount(chip::EndpointId endpoint, uint8_t * sceneCount) { - return emberAfReadServerAttribute(endpoint, Scenes::Id, Ids::SceneCount, (uint8_t *) sceneCount, sizeof(*sceneCount)); + return emberAfReadServerAttribute(endpoint, Scenes::Id, SceneCount::Id, (uint8_t *) sceneCount, sizeof(*sceneCount)); } EmberAfStatus SetSceneCount(chip::EndpointId endpoint, uint8_t sceneCount) { - return emberAfWriteServerAttribute(endpoint, Scenes::Id, Ids::SceneCount, (uint8_t *) &sceneCount, ZCL_INT8U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Scenes::Id, SceneCount::Id, (uint8_t *) &sceneCount, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentScene(chip::EndpointId endpoint, uint8_t * currentScene) { - return emberAfReadServerAttribute(endpoint, Scenes::Id, Ids::CurrentScene, (uint8_t *) currentScene, sizeof(*currentScene)); + return emberAfReadServerAttribute(endpoint, Scenes::Id, CurrentScene::Id, (uint8_t *) currentScene, sizeof(*currentScene)); } EmberAfStatus SetCurrentScene(chip::EndpointId endpoint, uint8_t currentScene) { - return emberAfWriteServerAttribute(endpoint, Scenes::Id, Ids::CurrentScene, (uint8_t *) ¤tScene, - ZCL_INT8U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Scenes::Id, CurrentScene::Id, (uint8_t *) ¤tScene, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentGroup(chip::EndpointId endpoint, uint16_t * currentGroup) { - return emberAfReadServerAttribute(endpoint, Scenes::Id, Ids::CurrentGroup, (uint8_t *) currentGroup, sizeof(*currentGroup)); + return emberAfReadServerAttribute(endpoint, Scenes::Id, CurrentGroup::Id, (uint8_t *) currentGroup, sizeof(*currentGroup)); } EmberAfStatus SetCurrentGroup(chip::EndpointId endpoint, uint16_t currentGroup) { - return emberAfWriteServerAttribute(endpoint, Scenes::Id, Ids::CurrentGroup, (uint8_t *) ¤tGroup, + return emberAfWriteServerAttribute(endpoint, Scenes::Id, CurrentGroup::Id, (uint8_t *) ¤tGroup, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetSceneValid(chip::EndpointId endpoint, bool * sceneValid) { - return emberAfReadServerAttribute(endpoint, Scenes::Id, Ids::SceneValid, (uint8_t *) sceneValid, sizeof(*sceneValid)); + return emberAfReadServerAttribute(endpoint, Scenes::Id, SceneValid::Id, (uint8_t *) sceneValid, sizeof(*sceneValid)); } EmberAfStatus SetSceneValid(chip::EndpointId endpoint, bool sceneValid) { - return emberAfWriteServerAttribute(endpoint, Scenes::Id, Ids::SceneValid, (uint8_t *) &sceneValid, ZCL_BOOLEAN_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Scenes::Id, SceneValid::Id, (uint8_t *) &sceneValid, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetNameSupport(chip::EndpointId endpoint, uint8_t * nameSupport) { - return emberAfReadServerAttribute(endpoint, Scenes::Id, Ids::NameSupport, (uint8_t *) nameSupport, sizeof(*nameSupport)); + return emberAfReadServerAttribute(endpoint, Scenes::Id, NameSupport::Id, (uint8_t *) nameSupport, sizeof(*nameSupport)); } EmberAfStatus SetNameSupport(chip::EndpointId endpoint, uint8_t nameSupport) { - return emberAfWriteServerAttribute(endpoint, Scenes::Id, Ids::NameSupport, (uint8_t *) &nameSupport, - ZCL_BITMAP8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Scenes::Id, NameSupport::Id, (uint8_t *) &nameSupport, ZCL_BITMAP8_ATTRIBUTE_TYPE); } } // namespace Attributes } // namespace Scenes @@ -742,91 +739,91 @@ namespace OnOff { namespace Attributes { EmberAfStatus GetOnOff(chip::EndpointId endpoint, bool * onOff) { - return emberAfReadServerAttribute(endpoint, OnOff::Id, Ids::OnOff, (uint8_t *) onOff, sizeof(*onOff)); + return emberAfReadServerAttribute(endpoint, OnOff::Id, OnOff::Id, (uint8_t *) onOff, sizeof(*onOff)); } EmberAfStatus SetOnOff(chip::EndpointId endpoint, bool onOff) { - return emberAfWriteServerAttribute(endpoint, OnOff::Id, Ids::OnOff, (uint8_t *) &onOff, ZCL_BOOLEAN_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, OnOff::Id, OnOff::Id, (uint8_t *) &onOff, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetSampleMfgSpecificAttribute0x00000x1002(chip::EndpointId endpoint, uint16_t * sampleMfgSpecificAttribute0x00000x1002) { - return emberAfReadServerAttribute(endpoint, OnOff::Id, Ids::SampleMfgSpecificAttribute0x00000x1002, + return emberAfReadServerAttribute(endpoint, OnOff::Id, SampleMfgSpecificAttribute0x00000x1002::Id, (uint8_t *) sampleMfgSpecificAttribute0x00000x1002, sizeof(*sampleMfgSpecificAttribute0x00000x1002)); } EmberAfStatus SetSampleMfgSpecificAttribute0x00000x1002(chip::EndpointId endpoint, uint16_t sampleMfgSpecificAttribute0x00000x1002) { - return emberAfWriteServerAttribute(endpoint, OnOff::Id, Ids::SampleMfgSpecificAttribute0x00000x1002, + return emberAfWriteServerAttribute(endpoint, OnOff::Id, SampleMfgSpecificAttribute0x00000x1002::Id, (uint8_t *) &sampleMfgSpecificAttribute0x00000x1002, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetSampleMfgSpecificAttribute0x00000x1049(chip::EndpointId endpoint, uint8_t * sampleMfgSpecificAttribute0x00000x1049) { - return emberAfReadServerAttribute(endpoint, OnOff::Id, Ids::SampleMfgSpecificAttribute0x00000x1049, + return emberAfReadServerAttribute(endpoint, OnOff::Id, SampleMfgSpecificAttribute0x00000x1049::Id, (uint8_t *) sampleMfgSpecificAttribute0x00000x1049, sizeof(*sampleMfgSpecificAttribute0x00000x1049)); } EmberAfStatus SetSampleMfgSpecificAttribute0x00000x1049(chip::EndpointId endpoint, uint8_t sampleMfgSpecificAttribute0x00000x1049) { - return emberAfWriteServerAttribute(endpoint, OnOff::Id, Ids::SampleMfgSpecificAttribute0x00000x1049, + return emberAfWriteServerAttribute(endpoint, OnOff::Id, SampleMfgSpecificAttribute0x00000x1049::Id, (uint8_t *) &sampleMfgSpecificAttribute0x00000x1049, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetSampleMfgSpecificAttribute0x00010x1002(chip::EndpointId endpoint, uint8_t * sampleMfgSpecificAttribute0x00010x1002) { - return emberAfReadServerAttribute(endpoint, OnOff::Id, Ids::SampleMfgSpecificAttribute0x00010x1002, + return emberAfReadServerAttribute(endpoint, OnOff::Id, SampleMfgSpecificAttribute0x00010x1002::Id, (uint8_t *) sampleMfgSpecificAttribute0x00010x1002, sizeof(*sampleMfgSpecificAttribute0x00010x1002)); } EmberAfStatus SetSampleMfgSpecificAttribute0x00010x1002(chip::EndpointId endpoint, uint8_t sampleMfgSpecificAttribute0x00010x1002) { - return emberAfWriteServerAttribute(endpoint, OnOff::Id, Ids::SampleMfgSpecificAttribute0x00010x1002, + return emberAfWriteServerAttribute(endpoint, OnOff::Id, SampleMfgSpecificAttribute0x00010x1002::Id, (uint8_t *) &sampleMfgSpecificAttribute0x00010x1002, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetSampleMfgSpecificAttribute0x00010x1040(chip::EndpointId endpoint, uint16_t * sampleMfgSpecificAttribute0x00010x1040) { - return emberAfReadServerAttribute(endpoint, OnOff::Id, Ids::SampleMfgSpecificAttribute0x00010x1040, + return emberAfReadServerAttribute(endpoint, OnOff::Id, SampleMfgSpecificAttribute0x00010x1040::Id, (uint8_t *) sampleMfgSpecificAttribute0x00010x1040, sizeof(*sampleMfgSpecificAttribute0x00010x1040)); } EmberAfStatus SetSampleMfgSpecificAttribute0x00010x1040(chip::EndpointId endpoint, uint16_t sampleMfgSpecificAttribute0x00010x1040) { - return emberAfWriteServerAttribute(endpoint, OnOff::Id, Ids::SampleMfgSpecificAttribute0x00010x1040, + return emberAfWriteServerAttribute(endpoint, OnOff::Id, SampleMfgSpecificAttribute0x00010x1040::Id, (uint8_t *) &sampleMfgSpecificAttribute0x00010x1040, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetGlobalSceneControl(chip::EndpointId endpoint, bool * globalSceneControl) { - return emberAfReadServerAttribute(endpoint, OnOff::Id, Ids::GlobalSceneControl, (uint8_t *) globalSceneControl, + return emberAfReadServerAttribute(endpoint, OnOff::Id, GlobalSceneControl::Id, (uint8_t *) globalSceneControl, sizeof(*globalSceneControl)); } EmberAfStatus SetGlobalSceneControl(chip::EndpointId endpoint, bool globalSceneControl) { - return emberAfWriteServerAttribute(endpoint, OnOff::Id, Ids::GlobalSceneControl, (uint8_t *) &globalSceneControl, + return emberAfWriteServerAttribute(endpoint, OnOff::Id, GlobalSceneControl::Id, (uint8_t *) &globalSceneControl, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetOnTime(chip::EndpointId endpoint, uint16_t * onTime) { - return emberAfReadServerAttribute(endpoint, OnOff::Id, Ids::OnTime, (uint8_t *) onTime, sizeof(*onTime)); + return emberAfReadServerAttribute(endpoint, OnOff::Id, OnTime::Id, (uint8_t *) onTime, sizeof(*onTime)); } EmberAfStatus SetOnTime(chip::EndpointId endpoint, uint16_t onTime) { - return emberAfWriteServerAttribute(endpoint, OnOff::Id, Ids::OnTime, (uint8_t *) &onTime, ZCL_INT16U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, OnOff::Id, OnTime::Id, (uint8_t *) &onTime, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetOffWaitTime(chip::EndpointId endpoint, uint16_t * offWaitTime) { - return emberAfReadServerAttribute(endpoint, OnOff::Id, Ids::OffWaitTime, (uint8_t *) offWaitTime, sizeof(*offWaitTime)); + return emberAfReadServerAttribute(endpoint, OnOff::Id, OffWaitTime::Id, (uint8_t *) offWaitTime, sizeof(*offWaitTime)); } EmberAfStatus SetOffWaitTime(chip::EndpointId endpoint, uint16_t offWaitTime) { - return emberAfWriteServerAttribute(endpoint, OnOff::Id, Ids::OffWaitTime, (uint8_t *) &offWaitTime, ZCL_INT16U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, OnOff::Id, OffWaitTime::Id, (uint8_t *) &offWaitTime, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetStartUpOnOff(chip::EndpointId endpoint, uint8_t * startUpOnOff) { - return emberAfReadServerAttribute(endpoint, OnOff::Id, Ids::StartUpOnOff, (uint8_t *) startUpOnOff, sizeof(*startUpOnOff)); + return emberAfReadServerAttribute(endpoint, OnOff::Id, StartUpOnOff::Id, (uint8_t *) startUpOnOff, sizeof(*startUpOnOff)); } EmberAfStatus SetStartUpOnOff(chip::EndpointId endpoint, uint8_t startUpOnOff) { - return emberAfWriteServerAttribute(endpoint, OnOff::Id, Ids::StartUpOnOff, (uint8_t *) &startUpOnOff, ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, OnOff::Id, StartUpOnOff::Id, (uint8_t *) &startUpOnOff, ZCL_ENUM8_ATTRIBUTE_TYPE); } } // namespace Attributes } // namespace OnOff @@ -835,22 +832,22 @@ namespace OnOffSwitchConfiguration { namespace Attributes { EmberAfStatus GetSwitchType(chip::EndpointId endpoint, uint8_t * switchType) { - return emberAfReadServerAttribute(endpoint, OnOffSwitchConfiguration::Id, Ids::SwitchType, (uint8_t *) switchType, + return emberAfReadServerAttribute(endpoint, OnOffSwitchConfiguration::Id, SwitchType::Id, (uint8_t *) switchType, sizeof(*switchType)); } EmberAfStatus SetSwitchType(chip::EndpointId endpoint, uint8_t switchType) { - return emberAfWriteServerAttribute(endpoint, OnOffSwitchConfiguration::Id, Ids::SwitchType, (uint8_t *) &switchType, + return emberAfWriteServerAttribute(endpoint, OnOffSwitchConfiguration::Id, SwitchType::Id, (uint8_t *) &switchType, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetSwitchActions(chip::EndpointId endpoint, uint8_t * switchActions) { - return emberAfReadServerAttribute(endpoint, OnOffSwitchConfiguration::Id, Ids::SwitchActions, (uint8_t *) switchActions, + return emberAfReadServerAttribute(endpoint, OnOffSwitchConfiguration::Id, SwitchActions::Id, (uint8_t *) switchActions, sizeof(*switchActions)); } EmberAfStatus SetSwitchActions(chip::EndpointId endpoint, uint8_t switchActions) { - return emberAfWriteServerAttribute(endpoint, OnOffSwitchConfiguration::Id, Ids::SwitchActions, (uint8_t *) &switchActions, + return emberAfWriteServerAttribute(endpoint, OnOffSwitchConfiguration::Id, SwitchActions::Id, (uint8_t *) &switchActions, ZCL_ENUM8_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -860,88 +857,88 @@ namespace LevelControl { namespace Attributes { EmberAfStatus GetCurrentLevel(chip::EndpointId endpoint, uint8_t * currentLevel) { - return emberAfReadServerAttribute(endpoint, LevelControl::Id, Ids::CurrentLevel, (uint8_t *) currentLevel, + return emberAfReadServerAttribute(endpoint, LevelControl::Id, CurrentLevel::Id, (uint8_t *) currentLevel, sizeof(*currentLevel)); } EmberAfStatus SetCurrentLevel(chip::EndpointId endpoint, uint8_t currentLevel) { - return emberAfWriteServerAttribute(endpoint, LevelControl::Id, Ids::CurrentLevel, (uint8_t *) ¤tLevel, + return emberAfWriteServerAttribute(endpoint, LevelControl::Id, CurrentLevel::Id, (uint8_t *) ¤tLevel, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetRemainingTime(chip::EndpointId endpoint, uint16_t * remainingTime) { - return emberAfReadServerAttribute(endpoint, LevelControl::Id, Ids::RemainingTime, (uint8_t *) remainingTime, + return emberAfReadServerAttribute(endpoint, LevelControl::Id, RemainingTime::Id, (uint8_t *) remainingTime, sizeof(*remainingTime)); } EmberAfStatus SetRemainingTime(chip::EndpointId endpoint, uint16_t remainingTime) { - return emberAfWriteServerAttribute(endpoint, LevelControl::Id, Ids::RemainingTime, (uint8_t *) &remainingTime, + return emberAfWriteServerAttribute(endpoint, LevelControl::Id, RemainingTime::Id, (uint8_t *) &remainingTime, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetOptions(chip::EndpointId endpoint, uint8_t * options) { - return emberAfReadServerAttribute(endpoint, LevelControl::Id, Ids::Options, (uint8_t *) options, sizeof(*options)); + return emberAfReadServerAttribute(endpoint, LevelControl::Id, Options::Id, (uint8_t *) options, sizeof(*options)); } EmberAfStatus SetOptions(chip::EndpointId endpoint, uint8_t options) { - return emberAfWriteServerAttribute(endpoint, LevelControl::Id, Ids::Options, (uint8_t *) &options, ZCL_BITMAP8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, LevelControl::Id, Options::Id, (uint8_t *) &options, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetOnOffTransitionTime(chip::EndpointId endpoint, uint16_t * onOffTransitionTime) { - return emberAfReadServerAttribute(endpoint, LevelControl::Id, Ids::OnOffTransitionTime, (uint8_t *) onOffTransitionTime, + return emberAfReadServerAttribute(endpoint, LevelControl::Id, OnOffTransitionTime::Id, (uint8_t *) onOffTransitionTime, sizeof(*onOffTransitionTime)); } EmberAfStatus SetOnOffTransitionTime(chip::EndpointId endpoint, uint16_t onOffTransitionTime) { - return emberAfWriteServerAttribute(endpoint, LevelControl::Id, Ids::OnOffTransitionTime, (uint8_t *) &onOffTransitionTime, + return emberAfWriteServerAttribute(endpoint, LevelControl::Id, OnOffTransitionTime::Id, (uint8_t *) &onOffTransitionTime, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetOnLevel(chip::EndpointId endpoint, uint8_t * onLevel) { - return emberAfReadServerAttribute(endpoint, LevelControl::Id, Ids::OnLevel, (uint8_t *) onLevel, sizeof(*onLevel)); + return emberAfReadServerAttribute(endpoint, LevelControl::Id, OnLevel::Id, (uint8_t *) onLevel, sizeof(*onLevel)); } EmberAfStatus SetOnLevel(chip::EndpointId endpoint, uint8_t onLevel) { - return emberAfWriteServerAttribute(endpoint, LevelControl::Id, Ids::OnLevel, (uint8_t *) &onLevel, ZCL_INT8U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, LevelControl::Id, OnLevel::Id, (uint8_t *) &onLevel, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetOnTransitionTime(chip::EndpointId endpoint, uint16_t * onTransitionTime) { - return emberAfReadServerAttribute(endpoint, LevelControl::Id, Ids::OnTransitionTime, (uint8_t *) onTransitionTime, + return emberAfReadServerAttribute(endpoint, LevelControl::Id, OnTransitionTime::Id, (uint8_t *) onTransitionTime, sizeof(*onTransitionTime)); } EmberAfStatus SetOnTransitionTime(chip::EndpointId endpoint, uint16_t onTransitionTime) { - return emberAfWriteServerAttribute(endpoint, LevelControl::Id, Ids::OnTransitionTime, (uint8_t *) &onTransitionTime, + return emberAfWriteServerAttribute(endpoint, LevelControl::Id, OnTransitionTime::Id, (uint8_t *) &onTransitionTime, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetOffTransitionTime(chip::EndpointId endpoint, uint16_t * offTransitionTime) { - return emberAfReadServerAttribute(endpoint, LevelControl::Id, Ids::OffTransitionTime, (uint8_t *) offTransitionTime, + return emberAfReadServerAttribute(endpoint, LevelControl::Id, OffTransitionTime::Id, (uint8_t *) offTransitionTime, sizeof(*offTransitionTime)); } EmberAfStatus SetOffTransitionTime(chip::EndpointId endpoint, uint16_t offTransitionTime) { - return emberAfWriteServerAttribute(endpoint, LevelControl::Id, Ids::OffTransitionTime, (uint8_t *) &offTransitionTime, + return emberAfWriteServerAttribute(endpoint, LevelControl::Id, OffTransitionTime::Id, (uint8_t *) &offTransitionTime, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetDefaultMoveRate(chip::EndpointId endpoint, uint8_t * defaultMoveRate) { - return emberAfReadServerAttribute(endpoint, LevelControl::Id, Ids::DefaultMoveRate, (uint8_t *) defaultMoveRate, + return emberAfReadServerAttribute(endpoint, LevelControl::Id, DefaultMoveRate::Id, (uint8_t *) defaultMoveRate, sizeof(*defaultMoveRate)); } EmberAfStatus SetDefaultMoveRate(chip::EndpointId endpoint, uint8_t defaultMoveRate) { - return emberAfWriteServerAttribute(endpoint, LevelControl::Id, Ids::DefaultMoveRate, (uint8_t *) &defaultMoveRate, + return emberAfWriteServerAttribute(endpoint, LevelControl::Id, DefaultMoveRate::Id, (uint8_t *) &defaultMoveRate, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetStartUpCurrentLevel(chip::EndpointId endpoint, uint8_t * startUpCurrentLevel) { - return emberAfReadServerAttribute(endpoint, LevelControl::Id, Ids::StartUpCurrentLevel, (uint8_t *) startUpCurrentLevel, + return emberAfReadServerAttribute(endpoint, LevelControl::Id, StartUpCurrentLevel::Id, (uint8_t *) startUpCurrentLevel, sizeof(*startUpCurrentLevel)); } EmberAfStatus SetStartUpCurrentLevel(chip::EndpointId endpoint, uint8_t startUpCurrentLevel) { - return emberAfWriteServerAttribute(endpoint, LevelControl::Id, Ids::StartUpCurrentLevel, (uint8_t *) &startUpCurrentLevel, + return emberAfWriteServerAttribute(endpoint, LevelControl::Id, StartUpCurrentLevel::Id, (uint8_t *) &startUpCurrentLevel, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -951,11 +948,11 @@ namespace Alarms { namespace Attributes { EmberAfStatus GetAlarmCount(chip::EndpointId endpoint, uint16_t * alarmCount) { - return emberAfReadServerAttribute(endpoint, Alarms::Id, Ids::AlarmCount, (uint8_t *) alarmCount, sizeof(*alarmCount)); + return emberAfReadServerAttribute(endpoint, Alarms::Id, AlarmCount::Id, (uint8_t *) alarmCount, sizeof(*alarmCount)); } EmberAfStatus SetAlarmCount(chip::EndpointId endpoint, uint16_t alarmCount) { - return emberAfWriteServerAttribute(endpoint, Alarms::Id, Ids::AlarmCount, (uint8_t *) &alarmCount, ZCL_INT16U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Alarms::Id, AlarmCount::Id, (uint8_t *) &alarmCount, ZCL_INT16U_ATTRIBUTE_TYPE); } } // namespace Attributes } // namespace Alarms @@ -964,84 +961,83 @@ namespace Time { namespace Attributes { EmberAfStatus GetTime(chip::EndpointId endpoint, /* TYPE WARNING: utc defaults to */ uint8_t ** time) { - return emberAfReadServerAttribute(endpoint, Time::Id, Ids::Time, (uint8_t *) time, sizeof(*time)); + return emberAfReadServerAttribute(endpoint, Time::Id, Time::Id, (uint8_t *) time, sizeof(*time)); } EmberAfStatus SetTime(chip::EndpointId endpoint, /* TYPE WARNING: utc defaults to */ uint8_t * time) { - return emberAfWriteServerAttribute(endpoint, Time::Id, Ids::Time, (uint8_t *) &time, ZCL_UTC_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Time::Id, Time::Id, (uint8_t *) &time, ZCL_UTC_ATTRIBUTE_TYPE); } EmberAfStatus GetTimeStatus(chip::EndpointId endpoint, uint8_t * timeStatus) { - return emberAfReadServerAttribute(endpoint, Time::Id, Ids::TimeStatus, (uint8_t *) timeStatus, sizeof(*timeStatus)); + return emberAfReadServerAttribute(endpoint, Time::Id, TimeStatus::Id, (uint8_t *) timeStatus, sizeof(*timeStatus)); } EmberAfStatus SetTimeStatus(chip::EndpointId endpoint, uint8_t timeStatus) { - return emberAfWriteServerAttribute(endpoint, Time::Id, Ids::TimeStatus, (uint8_t *) &timeStatus, ZCL_BITMAP8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Time::Id, TimeStatus::Id, (uint8_t *) &timeStatus, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetTimeZone(chip::EndpointId endpoint, int32_t * timeZone) { - return emberAfReadServerAttribute(endpoint, Time::Id, Ids::TimeZone, (uint8_t *) timeZone, sizeof(*timeZone)); + return emberAfReadServerAttribute(endpoint, Time::Id, TimeZone::Id, (uint8_t *) timeZone, sizeof(*timeZone)); } EmberAfStatus SetTimeZone(chip::EndpointId endpoint, int32_t timeZone) { - return emberAfWriteServerAttribute(endpoint, Time::Id, Ids::TimeZone, (uint8_t *) &timeZone, ZCL_INT32S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Time::Id, TimeZone::Id, (uint8_t *) &timeZone, ZCL_INT32S_ATTRIBUTE_TYPE); } EmberAfStatus GetDstStart(chip::EndpointId endpoint, uint32_t * dstStart) { - return emberAfReadServerAttribute(endpoint, Time::Id, Ids::DstStart, (uint8_t *) dstStart, sizeof(*dstStart)); + return emberAfReadServerAttribute(endpoint, Time::Id, DstStart::Id, (uint8_t *) dstStart, sizeof(*dstStart)); } EmberAfStatus SetDstStart(chip::EndpointId endpoint, uint32_t dstStart) { - return emberAfWriteServerAttribute(endpoint, Time::Id, Ids::DstStart, (uint8_t *) &dstStart, ZCL_INT32U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Time::Id, DstStart::Id, (uint8_t *) &dstStart, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetDstEnd(chip::EndpointId endpoint, uint32_t * dstEnd) { - return emberAfReadServerAttribute(endpoint, Time::Id, Ids::DstEnd, (uint8_t *) dstEnd, sizeof(*dstEnd)); + return emberAfReadServerAttribute(endpoint, Time::Id, DstEnd::Id, (uint8_t *) dstEnd, sizeof(*dstEnd)); } EmberAfStatus SetDstEnd(chip::EndpointId endpoint, uint32_t dstEnd) { - return emberAfWriteServerAttribute(endpoint, Time::Id, Ids::DstEnd, (uint8_t *) &dstEnd, ZCL_INT32U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Time::Id, DstEnd::Id, (uint8_t *) &dstEnd, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetDstShift(chip::EndpointId endpoint, int32_t * dstShift) { - return emberAfReadServerAttribute(endpoint, Time::Id, Ids::DstShift, (uint8_t *) dstShift, sizeof(*dstShift)); + return emberAfReadServerAttribute(endpoint, Time::Id, DstShift::Id, (uint8_t *) dstShift, sizeof(*dstShift)); } EmberAfStatus SetDstShift(chip::EndpointId endpoint, int32_t dstShift) { - return emberAfWriteServerAttribute(endpoint, Time::Id, Ids::DstShift, (uint8_t *) &dstShift, ZCL_INT32S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Time::Id, DstShift::Id, (uint8_t *) &dstShift, ZCL_INT32S_ATTRIBUTE_TYPE); } EmberAfStatus GetStandardTime(chip::EndpointId endpoint, uint32_t * standardTime) { - return emberAfReadServerAttribute(endpoint, Time::Id, Ids::StandardTime, (uint8_t *) standardTime, sizeof(*standardTime)); + return emberAfReadServerAttribute(endpoint, Time::Id, StandardTime::Id, (uint8_t *) standardTime, sizeof(*standardTime)); } EmberAfStatus SetStandardTime(chip::EndpointId endpoint, uint32_t standardTime) { - return emberAfWriteServerAttribute(endpoint, Time::Id, Ids::StandardTime, (uint8_t *) &standardTime, ZCL_INT32U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Time::Id, StandardTime::Id, (uint8_t *) &standardTime, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetLocalTime(chip::EndpointId endpoint, uint32_t * localTime) { - return emberAfReadServerAttribute(endpoint, Time::Id, Ids::LocalTime, (uint8_t *) localTime, sizeof(*localTime)); + return emberAfReadServerAttribute(endpoint, Time::Id, LocalTime::Id, (uint8_t *) localTime, sizeof(*localTime)); } EmberAfStatus SetLocalTime(chip::EndpointId endpoint, uint32_t localTime) { - return emberAfWriteServerAttribute(endpoint, Time::Id, Ids::LocalTime, (uint8_t *) &localTime, ZCL_INT32U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Time::Id, LocalTime::Id, (uint8_t *) &localTime, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetLastSetTime(chip::EndpointId endpoint, /* TYPE WARNING: utc defaults to */ uint8_t ** lastSetTime) { - return emberAfReadServerAttribute(endpoint, Time::Id, Ids::LastSetTime, (uint8_t *) lastSetTime, sizeof(*lastSetTime)); + return emberAfReadServerAttribute(endpoint, Time::Id, LastSetTime::Id, (uint8_t *) lastSetTime, sizeof(*lastSetTime)); } EmberAfStatus SetLastSetTime(chip::EndpointId endpoint, /* TYPE WARNING: utc defaults to */ uint8_t * lastSetTime) { - return emberAfWriteServerAttribute(endpoint, Time::Id, Ids::LastSetTime, (uint8_t *) &lastSetTime, ZCL_UTC_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Time::Id, LastSetTime::Id, (uint8_t *) &lastSetTime, ZCL_UTC_ATTRIBUTE_TYPE); } EmberAfStatus GetValidUntilTime(chip::EndpointId endpoint, /* TYPE WARNING: utc defaults to */ uint8_t ** validUntilTime) { - return emberAfReadServerAttribute(endpoint, Time::Id, Ids::ValidUntilTime, (uint8_t *) validUntilTime, sizeof(*validUntilTime)); + return emberAfReadServerAttribute(endpoint, Time::Id, ValidUntilTime::Id, (uint8_t *) validUntilTime, sizeof(*validUntilTime)); } EmberAfStatus SetValidUntilTime(chip::EndpointId endpoint, /* TYPE WARNING: utc defaults to */ uint8_t * validUntilTime) { - return emberAfWriteServerAttribute(endpoint, Time::Id, Ids::ValidUntilTime, (uint8_t *) &validUntilTime, - ZCL_UTC_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Time::Id, ValidUntilTime::Id, (uint8_t *) &validUntilTime, ZCL_UTC_ATTRIBUTE_TYPE); } } // namespace Attributes } // namespace Time @@ -1050,61 +1046,61 @@ namespace BinaryInputBasic { namespace Attributes { EmberAfStatus GetOutOfService(chip::EndpointId endpoint, bool * outOfService) { - return emberAfReadServerAttribute(endpoint, BinaryInputBasic::Id, Ids::OutOfService, (uint8_t *) outOfService, + return emberAfReadServerAttribute(endpoint, BinaryInputBasic::Id, OutOfService::Id, (uint8_t *) outOfService, sizeof(*outOfService)); } EmberAfStatus SetOutOfService(chip::EndpointId endpoint, bool outOfService) { - return emberAfWriteServerAttribute(endpoint, BinaryInputBasic::Id, Ids::OutOfService, (uint8_t *) &outOfService, + return emberAfWriteServerAttribute(endpoint, BinaryInputBasic::Id, OutOfService::Id, (uint8_t *) &outOfService, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetPolarity(chip::EndpointId endpoint, uint8_t * polarity) { - return emberAfReadServerAttribute(endpoint, BinaryInputBasic::Id, Ids::Polarity, (uint8_t *) polarity, sizeof(*polarity)); + return emberAfReadServerAttribute(endpoint, BinaryInputBasic::Id, Polarity::Id, (uint8_t *) polarity, sizeof(*polarity)); } EmberAfStatus SetPolarity(chip::EndpointId endpoint, uint8_t polarity) { - return emberAfWriteServerAttribute(endpoint, BinaryInputBasic::Id, Ids::Polarity, (uint8_t *) &polarity, + return emberAfWriteServerAttribute(endpoint, BinaryInputBasic::Id, Polarity::Id, (uint8_t *) &polarity, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetPresentValue(chip::EndpointId endpoint, bool * presentValue) { - return emberAfReadServerAttribute(endpoint, BinaryInputBasic::Id, Ids::PresentValue, (uint8_t *) presentValue, + return emberAfReadServerAttribute(endpoint, BinaryInputBasic::Id, PresentValue::Id, (uint8_t *) presentValue, sizeof(*presentValue)); } EmberAfStatus SetPresentValue(chip::EndpointId endpoint, bool presentValue) { - return emberAfWriteServerAttribute(endpoint, BinaryInputBasic::Id, Ids::PresentValue, (uint8_t *) &presentValue, + return emberAfWriteServerAttribute(endpoint, BinaryInputBasic::Id, PresentValue::Id, (uint8_t *) &presentValue, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetReliability(chip::EndpointId endpoint, uint8_t * reliability) { - return emberAfReadServerAttribute(endpoint, BinaryInputBasic::Id, Ids::Reliability, (uint8_t *) reliability, + return emberAfReadServerAttribute(endpoint, BinaryInputBasic::Id, Reliability::Id, (uint8_t *) reliability, sizeof(*reliability)); } EmberAfStatus SetReliability(chip::EndpointId endpoint, uint8_t reliability) { - return emberAfWriteServerAttribute(endpoint, BinaryInputBasic::Id, Ids::Reliability, (uint8_t *) &reliability, + return emberAfWriteServerAttribute(endpoint, BinaryInputBasic::Id, Reliability::Id, (uint8_t *) &reliability, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetStatusFlags(chip::EndpointId endpoint, uint8_t * statusFlags) { - return emberAfReadServerAttribute(endpoint, BinaryInputBasic::Id, Ids::StatusFlags, (uint8_t *) statusFlags, + return emberAfReadServerAttribute(endpoint, BinaryInputBasic::Id, StatusFlags::Id, (uint8_t *) statusFlags, sizeof(*statusFlags)); } EmberAfStatus SetStatusFlags(chip::EndpointId endpoint, uint8_t statusFlags) { - return emberAfWriteServerAttribute(endpoint, BinaryInputBasic::Id, Ids::StatusFlags, (uint8_t *) &statusFlags, + return emberAfWriteServerAttribute(endpoint, BinaryInputBasic::Id, StatusFlags::Id, (uint8_t *) &statusFlags, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetApplicationType(chip::EndpointId endpoint, uint32_t * applicationType) { - return emberAfReadServerAttribute(endpoint, BinaryInputBasic::Id, Ids::ApplicationType, (uint8_t *) applicationType, + return emberAfReadServerAttribute(endpoint, BinaryInputBasic::Id, ApplicationType::Id, (uint8_t *) applicationType, sizeof(*applicationType)); } EmberAfStatus SetApplicationType(chip::EndpointId endpoint, uint32_t applicationType) { - return emberAfWriteServerAttribute(endpoint, BinaryInputBasic::Id, Ids::ApplicationType, (uint8_t *) &applicationType, + return emberAfWriteServerAttribute(endpoint, BinaryInputBasic::Id, ApplicationType::Id, (uint8_t *) &applicationType, ZCL_INT32U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -1114,52 +1110,52 @@ namespace PowerProfile { namespace Attributes { EmberAfStatus GetTotalProfileNum(chip::EndpointId endpoint, uint8_t * totalProfileNum) { - return emberAfReadServerAttribute(endpoint, PowerProfile::Id, Ids::TotalProfileNum, (uint8_t *) totalProfileNum, + return emberAfReadServerAttribute(endpoint, PowerProfile::Id, TotalProfileNum::Id, (uint8_t *) totalProfileNum, sizeof(*totalProfileNum)); } EmberAfStatus SetTotalProfileNum(chip::EndpointId endpoint, uint8_t totalProfileNum) { - return emberAfWriteServerAttribute(endpoint, PowerProfile::Id, Ids::TotalProfileNum, (uint8_t *) &totalProfileNum, + return emberAfWriteServerAttribute(endpoint, PowerProfile::Id, TotalProfileNum::Id, (uint8_t *) &totalProfileNum, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetMultipleScheduling(chip::EndpointId endpoint, bool * multipleScheduling) { - return emberAfReadServerAttribute(endpoint, PowerProfile::Id, Ids::MultipleScheduling, (uint8_t *) multipleScheduling, + return emberAfReadServerAttribute(endpoint, PowerProfile::Id, MultipleScheduling::Id, (uint8_t *) multipleScheduling, sizeof(*multipleScheduling)); } EmberAfStatus SetMultipleScheduling(chip::EndpointId endpoint, bool multipleScheduling) { - return emberAfWriteServerAttribute(endpoint, PowerProfile::Id, Ids::MultipleScheduling, (uint8_t *) &multipleScheduling, + return emberAfWriteServerAttribute(endpoint, PowerProfile::Id, MultipleScheduling::Id, (uint8_t *) &multipleScheduling, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetEnergyFormatting(chip::EndpointId endpoint, uint8_t * energyFormatting) { - return emberAfReadServerAttribute(endpoint, PowerProfile::Id, Ids::EnergyFormatting, (uint8_t *) energyFormatting, + return emberAfReadServerAttribute(endpoint, PowerProfile::Id, EnergyFormatting::Id, (uint8_t *) energyFormatting, sizeof(*energyFormatting)); } EmberAfStatus SetEnergyFormatting(chip::EndpointId endpoint, uint8_t energyFormatting) { - return emberAfWriteServerAttribute(endpoint, PowerProfile::Id, Ids::EnergyFormatting, (uint8_t *) &energyFormatting, + return emberAfWriteServerAttribute(endpoint, PowerProfile::Id, EnergyFormatting::Id, (uint8_t *) &energyFormatting, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetEnergyRemote(chip::EndpointId endpoint, bool * energyRemote) { - return emberAfReadServerAttribute(endpoint, PowerProfile::Id, Ids::EnergyRemote, (uint8_t *) energyRemote, + return emberAfReadServerAttribute(endpoint, PowerProfile::Id, EnergyRemote::Id, (uint8_t *) energyRemote, sizeof(*energyRemote)); } EmberAfStatus SetEnergyRemote(chip::EndpointId endpoint, bool energyRemote) { - return emberAfWriteServerAttribute(endpoint, PowerProfile::Id, Ids::EnergyRemote, (uint8_t *) &energyRemote, + return emberAfWriteServerAttribute(endpoint, PowerProfile::Id, EnergyRemote::Id, (uint8_t *) &energyRemote, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetScheduleMode(chip::EndpointId endpoint, uint8_t * scheduleMode) { - return emberAfReadServerAttribute(endpoint, PowerProfile::Id, Ids::ScheduleMode, (uint8_t *) scheduleMode, + return emberAfReadServerAttribute(endpoint, PowerProfile::Id, ScheduleMode::Id, (uint8_t *) scheduleMode, sizeof(*scheduleMode)); } EmberAfStatus SetScheduleMode(chip::EndpointId endpoint, uint8_t scheduleMode) { - return emberAfWriteServerAttribute(endpoint, PowerProfile::Id, Ids::ScheduleMode, (uint8_t *) &scheduleMode, + return emberAfWriteServerAttribute(endpoint, PowerProfile::Id, ScheduleMode::Id, (uint8_t *) &scheduleMode, ZCL_BITMAP8_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -1169,30 +1165,30 @@ namespace ApplianceControl { namespace Attributes { EmberAfStatus GetStartTime(chip::EndpointId endpoint, uint16_t * startTime) { - return emberAfReadServerAttribute(endpoint, ApplianceControl::Id, Ids::StartTime, (uint8_t *) startTime, sizeof(*startTime)); + return emberAfReadServerAttribute(endpoint, ApplianceControl::Id, StartTime::Id, (uint8_t *) startTime, sizeof(*startTime)); } EmberAfStatus SetStartTime(chip::EndpointId endpoint, uint16_t startTime) { - return emberAfWriteServerAttribute(endpoint, ApplianceControl::Id, Ids::StartTime, (uint8_t *) &startTime, + return emberAfWriteServerAttribute(endpoint, ApplianceControl::Id, StartTime::Id, (uint8_t *) &startTime, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetFinishTime(chip::EndpointId endpoint, uint16_t * finishTime) { - return emberAfReadServerAttribute(endpoint, ApplianceControl::Id, Ids::FinishTime, (uint8_t *) finishTime, sizeof(*finishTime)); + return emberAfReadServerAttribute(endpoint, ApplianceControl::Id, FinishTime::Id, (uint8_t *) finishTime, sizeof(*finishTime)); } EmberAfStatus SetFinishTime(chip::EndpointId endpoint, uint16_t finishTime) { - return emberAfWriteServerAttribute(endpoint, ApplianceControl::Id, Ids::FinishTime, (uint8_t *) &finishTime, + return emberAfWriteServerAttribute(endpoint, ApplianceControl::Id, FinishTime::Id, (uint8_t *) &finishTime, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRemainingTime(chip::EndpointId endpoint, uint16_t * remainingTime) { - return emberAfReadServerAttribute(endpoint, ApplianceControl::Id, Ids::RemainingTime, (uint8_t *) remainingTime, + return emberAfReadServerAttribute(endpoint, ApplianceControl::Id, RemainingTime::Id, (uint8_t *) remainingTime, sizeof(*remainingTime)); } EmberAfStatus SetRemainingTime(chip::EndpointId endpoint, uint16_t remainingTime) { - return emberAfWriteServerAttribute(endpoint, ApplianceControl::Id, Ids::RemainingTime, (uint8_t *) &remainingTime, + return emberAfWriteServerAttribute(endpoint, ApplianceControl::Id, RemainingTime::Id, (uint8_t *) &remainingTime, ZCL_INT16U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -1207,72 +1203,72 @@ namespace PollControl { namespace Attributes { EmberAfStatus GetCheckInInterval(chip::EndpointId endpoint, uint32_t * checkInInterval) { - return emberAfReadServerAttribute(endpoint, PollControl::Id, Ids::CheckInInterval, (uint8_t *) checkInInterval, + return emberAfReadServerAttribute(endpoint, PollControl::Id, CheckInInterval::Id, (uint8_t *) checkInInterval, sizeof(*checkInInterval)); } EmberAfStatus SetCheckInInterval(chip::EndpointId endpoint, uint32_t checkInInterval) { - return emberAfWriteServerAttribute(endpoint, PollControl::Id, Ids::CheckInInterval, (uint8_t *) &checkInInterval, + return emberAfWriteServerAttribute(endpoint, PollControl::Id, CheckInInterval::Id, (uint8_t *) &checkInInterval, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetLongPollInterval(chip::EndpointId endpoint, uint32_t * longPollInterval) { - return emberAfReadServerAttribute(endpoint, PollControl::Id, Ids::LongPollInterval, (uint8_t *) longPollInterval, + return emberAfReadServerAttribute(endpoint, PollControl::Id, LongPollInterval::Id, (uint8_t *) longPollInterval, sizeof(*longPollInterval)); } EmberAfStatus SetLongPollInterval(chip::EndpointId endpoint, uint32_t longPollInterval) { - return emberAfWriteServerAttribute(endpoint, PollControl::Id, Ids::LongPollInterval, (uint8_t *) &longPollInterval, + return emberAfWriteServerAttribute(endpoint, PollControl::Id, LongPollInterval::Id, (uint8_t *) &longPollInterval, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetShortPollInterval(chip::EndpointId endpoint, uint16_t * shortPollInterval) { - return emberAfReadServerAttribute(endpoint, PollControl::Id, Ids::ShortPollInterval, (uint8_t *) shortPollInterval, + return emberAfReadServerAttribute(endpoint, PollControl::Id, ShortPollInterval::Id, (uint8_t *) shortPollInterval, sizeof(*shortPollInterval)); } EmberAfStatus SetShortPollInterval(chip::EndpointId endpoint, uint16_t shortPollInterval) { - return emberAfWriteServerAttribute(endpoint, PollControl::Id, Ids::ShortPollInterval, (uint8_t *) &shortPollInterval, + return emberAfWriteServerAttribute(endpoint, PollControl::Id, ShortPollInterval::Id, (uint8_t *) &shortPollInterval, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetFastPollTimeout(chip::EndpointId endpoint, uint16_t * fastPollTimeout) { - return emberAfReadServerAttribute(endpoint, PollControl::Id, Ids::FastPollTimeout, (uint8_t *) fastPollTimeout, + return emberAfReadServerAttribute(endpoint, PollControl::Id, FastPollTimeout::Id, (uint8_t *) fastPollTimeout, sizeof(*fastPollTimeout)); } EmberAfStatus SetFastPollTimeout(chip::EndpointId endpoint, uint16_t fastPollTimeout) { - return emberAfWriteServerAttribute(endpoint, PollControl::Id, Ids::FastPollTimeout, (uint8_t *) &fastPollTimeout, + return emberAfWriteServerAttribute(endpoint, PollControl::Id, FastPollTimeout::Id, (uint8_t *) &fastPollTimeout, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetCheckInIntervalMin(chip::EndpointId endpoint, uint32_t * checkInIntervalMin) { - return emberAfReadServerAttribute(endpoint, PollControl::Id, Ids::CheckInIntervalMin, (uint8_t *) checkInIntervalMin, + return emberAfReadServerAttribute(endpoint, PollControl::Id, CheckInIntervalMin::Id, (uint8_t *) checkInIntervalMin, sizeof(*checkInIntervalMin)); } EmberAfStatus SetCheckInIntervalMin(chip::EndpointId endpoint, uint32_t checkInIntervalMin) { - return emberAfWriteServerAttribute(endpoint, PollControl::Id, Ids::CheckInIntervalMin, (uint8_t *) &checkInIntervalMin, + return emberAfWriteServerAttribute(endpoint, PollControl::Id, CheckInIntervalMin::Id, (uint8_t *) &checkInIntervalMin, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetLongPollIntervalMin(chip::EndpointId endpoint, uint32_t * longPollIntervalMin) { - return emberAfReadServerAttribute(endpoint, PollControl::Id, Ids::LongPollIntervalMin, (uint8_t *) longPollIntervalMin, + return emberAfReadServerAttribute(endpoint, PollControl::Id, LongPollIntervalMin::Id, (uint8_t *) longPollIntervalMin, sizeof(*longPollIntervalMin)); } EmberAfStatus SetLongPollIntervalMin(chip::EndpointId endpoint, uint32_t longPollIntervalMin) { - return emberAfWriteServerAttribute(endpoint, PollControl::Id, Ids::LongPollIntervalMin, (uint8_t *) &longPollIntervalMin, + return emberAfWriteServerAttribute(endpoint, PollControl::Id, LongPollIntervalMin::Id, (uint8_t *) &longPollIntervalMin, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetFastPollTimeoutMax(chip::EndpointId endpoint, uint16_t * fastPollTimeoutMax) { - return emberAfReadServerAttribute(endpoint, PollControl::Id, Ids::FastPollTimeoutMax, (uint8_t *) fastPollTimeoutMax, + return emberAfReadServerAttribute(endpoint, PollControl::Id, FastPollTimeoutMax::Id, (uint8_t *) fastPollTimeoutMax, sizeof(*fastPollTimeoutMax)); } EmberAfStatus SetFastPollTimeoutMax(chip::EndpointId endpoint, uint16_t fastPollTimeoutMax) { - return emberAfWriteServerAttribute(endpoint, PollControl::Id, Ids::FastPollTimeoutMax, (uint8_t *) &fastPollTimeoutMax, + return emberAfWriteServerAttribute(endpoint, PollControl::Id, FastPollTimeoutMax::Id, (uint8_t *) &fastPollTimeoutMax, ZCL_INT16U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -1282,67 +1278,67 @@ namespace Basic { namespace Attributes { EmberAfStatus GetInteractionModelVersion(chip::EndpointId endpoint, uint16_t * interactionModelVersion) { - return emberAfReadServerAttribute(endpoint, Basic::Id, Ids::InteractionModelVersion, (uint8_t *) interactionModelVersion, + return emberAfReadServerAttribute(endpoint, Basic::Id, InteractionModelVersion::Id, (uint8_t *) interactionModelVersion, sizeof(*interactionModelVersion)); } EmberAfStatus SetInteractionModelVersion(chip::EndpointId endpoint, uint16_t interactionModelVersion) { - return emberAfWriteServerAttribute(endpoint, Basic::Id, Ids::InteractionModelVersion, (uint8_t *) &interactionModelVersion, + return emberAfWriteServerAttribute(endpoint, Basic::Id, InteractionModelVersion::Id, (uint8_t *) &interactionModelVersion, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetVendorID(chip::EndpointId endpoint, uint16_t * vendorID) { - return emberAfReadServerAttribute(endpoint, Basic::Id, Ids::VendorID, (uint8_t *) vendorID, sizeof(*vendorID)); + return emberAfReadServerAttribute(endpoint, Basic::Id, VendorID::Id, (uint8_t *) vendorID, sizeof(*vendorID)); } EmberAfStatus SetVendorID(chip::EndpointId endpoint, uint16_t vendorID) { - return emberAfWriteServerAttribute(endpoint, Basic::Id, Ids::VendorID, (uint8_t *) &vendorID, ZCL_INT16U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Basic::Id, VendorID::Id, (uint8_t *) &vendorID, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetProductID(chip::EndpointId endpoint, uint16_t * productID) { - return emberAfReadServerAttribute(endpoint, Basic::Id, Ids::ProductID, (uint8_t *) productID, sizeof(*productID)); + return emberAfReadServerAttribute(endpoint, Basic::Id, ProductID::Id, (uint8_t *) productID, sizeof(*productID)); } EmberAfStatus SetProductID(chip::EndpointId endpoint, uint16_t productID) { - return emberAfWriteServerAttribute(endpoint, Basic::Id, Ids::ProductID, (uint8_t *) &productID, ZCL_INT16U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Basic::Id, ProductID::Id, (uint8_t *) &productID, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetHardwareVersion(chip::EndpointId endpoint, uint16_t * hardwareVersion) { - return emberAfReadServerAttribute(endpoint, Basic::Id, Ids::HardwareVersion, (uint8_t *) hardwareVersion, + return emberAfReadServerAttribute(endpoint, Basic::Id, HardwareVersion::Id, (uint8_t *) hardwareVersion, sizeof(*hardwareVersion)); } EmberAfStatus SetHardwareVersion(chip::EndpointId endpoint, uint16_t hardwareVersion) { - return emberAfWriteServerAttribute(endpoint, Basic::Id, Ids::HardwareVersion, (uint8_t *) &hardwareVersion, + return emberAfWriteServerAttribute(endpoint, Basic::Id, HardwareVersion::Id, (uint8_t *) &hardwareVersion, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetSoftwareVersion(chip::EndpointId endpoint, uint32_t * softwareVersion) { - return emberAfReadServerAttribute(endpoint, Basic::Id, Ids::SoftwareVersion, (uint8_t *) softwareVersion, + return emberAfReadServerAttribute(endpoint, Basic::Id, SoftwareVersion::Id, (uint8_t *) softwareVersion, sizeof(*softwareVersion)); } EmberAfStatus SetSoftwareVersion(chip::EndpointId endpoint, uint32_t softwareVersion) { - return emberAfWriteServerAttribute(endpoint, Basic::Id, Ids::SoftwareVersion, (uint8_t *) &softwareVersion, + return emberAfWriteServerAttribute(endpoint, Basic::Id, SoftwareVersion::Id, (uint8_t *) &softwareVersion, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetLocalConfigDisabled(chip::EndpointId endpoint, bool * localConfigDisabled) { - return emberAfReadServerAttribute(endpoint, Basic::Id, Ids::LocalConfigDisabled, (uint8_t *) localConfigDisabled, + return emberAfReadServerAttribute(endpoint, Basic::Id, LocalConfigDisabled::Id, (uint8_t *) localConfigDisabled, sizeof(*localConfigDisabled)); } EmberAfStatus SetLocalConfigDisabled(chip::EndpointId endpoint, bool localConfigDisabled) { - return emberAfWriteServerAttribute(endpoint, Basic::Id, Ids::LocalConfigDisabled, (uint8_t *) &localConfigDisabled, + return emberAfWriteServerAttribute(endpoint, Basic::Id, LocalConfigDisabled::Id, (uint8_t *) &localConfigDisabled, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetReachable(chip::EndpointId endpoint, bool * reachable) { - return emberAfReadServerAttribute(endpoint, Basic::Id, Ids::Reachable, (uint8_t *) reachable, sizeof(*reachable)); + return emberAfReadServerAttribute(endpoint, Basic::Id, Reachable::Id, (uint8_t *) reachable, sizeof(*reachable)); } EmberAfStatus SetReachable(chip::EndpointId endpoint, bool reachable) { - return emberAfWriteServerAttribute(endpoint, Basic::Id, Ids::Reachable, (uint8_t *) &reachable, ZCL_BOOLEAN_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Basic::Id, Reachable::Id, (uint8_t *) &reachable, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } } // namespace Attributes } // namespace Basic @@ -1351,12 +1347,12 @@ namespace OtaSoftwareUpdateRequestor { namespace Attributes { EmberAfStatus GetUpdatePossible(chip::EndpointId endpoint, bool * updatePossible) { - return emberAfReadServerAttribute(endpoint, OtaSoftwareUpdateRequestor::Id, Ids::UpdatePossible, (uint8_t *) updatePossible, + return emberAfReadServerAttribute(endpoint, OtaSoftwareUpdateRequestor::Id, UpdatePossible::Id, (uint8_t *) updatePossible, sizeof(*updatePossible)); } EmberAfStatus SetUpdatePossible(chip::EndpointId endpoint, bool updatePossible) { - return emberAfWriteServerAttribute(endpoint, OtaSoftwareUpdateRequestor::Id, Ids::UpdatePossible, (uint8_t *) &updatePossible, + return emberAfWriteServerAttribute(endpoint, OtaSoftwareUpdateRequestor::Id, UpdatePossible::Id, (uint8_t *) &updatePossible, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -1366,238 +1362,237 @@ namespace PowerSource { namespace Attributes { EmberAfStatus GetStatus(chip::EndpointId endpoint, uint8_t * status) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::Status, (uint8_t *) status, sizeof(*status)); + return emberAfReadServerAttribute(endpoint, PowerSource::Id, Status::Id, (uint8_t *) status, sizeof(*status)); } EmberAfStatus SetStatus(chip::EndpointId endpoint, uint8_t status) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::Status, (uint8_t *) &status, ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Status::Id, (uint8_t *) &status, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetOrder(chip::EndpointId endpoint, uint8_t * order) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::Order, (uint8_t *) order, sizeof(*order)); + return emberAfReadServerAttribute(endpoint, PowerSource::Id, Order::Id, (uint8_t *) order, sizeof(*order)); } EmberAfStatus SetOrder(chip::EndpointId endpoint, uint8_t order) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::Order, (uint8_t *) &order, ZCL_INT8U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Order::Id, (uint8_t *) &order, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetWiredAssessedInputVoltage(chip::EndpointId endpoint, uint32_t * wiredAssessedInputVoltage) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::WiredAssessedInputVoltage, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, WiredAssessedInputVoltage::Id, (uint8_t *) wiredAssessedInputVoltage, sizeof(*wiredAssessedInputVoltage)); } EmberAfStatus SetWiredAssessedInputVoltage(chip::EndpointId endpoint, uint32_t wiredAssessedInputVoltage) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::WiredAssessedInputVoltage, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, WiredAssessedInputVoltage::Id, (uint8_t *) &wiredAssessedInputVoltage, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetWiredAssessedInputFrequency(chip::EndpointId endpoint, uint16_t * wiredAssessedInputFrequency) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::WiredAssessedInputFrequency, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, WiredAssessedInputFrequency::Id, (uint8_t *) wiredAssessedInputFrequency, sizeof(*wiredAssessedInputFrequency)); } EmberAfStatus SetWiredAssessedInputFrequency(chip::EndpointId endpoint, uint16_t wiredAssessedInputFrequency) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::WiredAssessedInputFrequency, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, WiredAssessedInputFrequency::Id, (uint8_t *) &wiredAssessedInputFrequency, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetWiredCurrentType(chip::EndpointId endpoint, uint8_t * wiredCurrentType) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::WiredCurrentType, (uint8_t *) wiredCurrentType, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, WiredCurrentType::Id, (uint8_t *) wiredCurrentType, sizeof(*wiredCurrentType)); } EmberAfStatus SetWiredCurrentType(chip::EndpointId endpoint, uint8_t wiredCurrentType) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::WiredCurrentType, (uint8_t *) &wiredCurrentType, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, WiredCurrentType::Id, (uint8_t *) &wiredCurrentType, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetWiredAssessedCurrent(chip::EndpointId endpoint, uint32_t * wiredAssessedCurrent) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::WiredAssessedCurrent, (uint8_t *) wiredAssessedCurrent, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, WiredAssessedCurrent::Id, (uint8_t *) wiredAssessedCurrent, sizeof(*wiredAssessedCurrent)); } EmberAfStatus SetWiredAssessedCurrent(chip::EndpointId endpoint, uint32_t wiredAssessedCurrent) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::WiredAssessedCurrent, (uint8_t *) &wiredAssessedCurrent, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, WiredAssessedCurrent::Id, (uint8_t *) &wiredAssessedCurrent, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetWiredNominalVoltage(chip::EndpointId endpoint, uint32_t * wiredNominalVoltage) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::WiredNominalVoltage, (uint8_t *) wiredNominalVoltage, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, WiredNominalVoltage::Id, (uint8_t *) wiredNominalVoltage, sizeof(*wiredNominalVoltage)); } EmberAfStatus SetWiredNominalVoltage(chip::EndpointId endpoint, uint32_t wiredNominalVoltage) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::WiredNominalVoltage, (uint8_t *) &wiredNominalVoltage, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, WiredNominalVoltage::Id, (uint8_t *) &wiredNominalVoltage, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetWiredMaximumCurrent(chip::EndpointId endpoint, uint32_t * wiredMaximumCurrent) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::WiredMaximumCurrent, (uint8_t *) wiredMaximumCurrent, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, WiredMaximumCurrent::Id, (uint8_t *) wiredMaximumCurrent, sizeof(*wiredMaximumCurrent)); } EmberAfStatus SetWiredMaximumCurrent(chip::EndpointId endpoint, uint32_t wiredMaximumCurrent) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::WiredMaximumCurrent, (uint8_t *) &wiredMaximumCurrent, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, WiredMaximumCurrent::Id, (uint8_t *) &wiredMaximumCurrent, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetWiredPresent(chip::EndpointId endpoint, bool * wiredPresent) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::WiredPresent, (uint8_t *) wiredPresent, - sizeof(*wiredPresent)); + return emberAfReadServerAttribute(endpoint, PowerSource::Id, WiredPresent::Id, (uint8_t *) wiredPresent, sizeof(*wiredPresent)); } EmberAfStatus SetWiredPresent(chip::EndpointId endpoint, bool wiredPresent) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::WiredPresent, (uint8_t *) &wiredPresent, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, WiredPresent::Id, (uint8_t *) &wiredPresent, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryVoltage(chip::EndpointId endpoint, uint32_t * batteryVoltage) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryVoltage, (uint8_t *) batteryVoltage, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryVoltage::Id, (uint8_t *) batteryVoltage, sizeof(*batteryVoltage)); } EmberAfStatus SetBatteryVoltage(chip::EndpointId endpoint, uint32_t batteryVoltage) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryVoltage, (uint8_t *) &batteryVoltage, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryVoltage::Id, (uint8_t *) &batteryVoltage, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryPercentRemaining(chip::EndpointId endpoint, uint8_t * batteryPercentRemaining) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryPercentRemaining, (uint8_t *) batteryPercentRemaining, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryPercentRemaining::Id, (uint8_t *) batteryPercentRemaining, sizeof(*batteryPercentRemaining)); } EmberAfStatus SetBatteryPercentRemaining(chip::EndpointId endpoint, uint8_t batteryPercentRemaining) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryPercentRemaining, - (uint8_t *) &batteryPercentRemaining, ZCL_INT8U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryPercentRemaining::Id, (uint8_t *) &batteryPercentRemaining, + ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryTimeRemaining(chip::EndpointId endpoint, uint32_t * batteryTimeRemaining) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryTimeRemaining, (uint8_t *) batteryTimeRemaining, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryTimeRemaining::Id, (uint8_t *) batteryTimeRemaining, sizeof(*batteryTimeRemaining)); } EmberAfStatus SetBatteryTimeRemaining(chip::EndpointId endpoint, uint32_t batteryTimeRemaining) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryTimeRemaining, (uint8_t *) &batteryTimeRemaining, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryTimeRemaining::Id, (uint8_t *) &batteryTimeRemaining, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryChargeLevel(chip::EndpointId endpoint, uint8_t * batteryChargeLevel) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryChargeLevel, (uint8_t *) batteryChargeLevel, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryChargeLevel::Id, (uint8_t *) batteryChargeLevel, sizeof(*batteryChargeLevel)); } EmberAfStatus SetBatteryChargeLevel(chip::EndpointId endpoint, uint8_t batteryChargeLevel) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryChargeLevel, (uint8_t *) &batteryChargeLevel, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryChargeLevel::Id, (uint8_t *) &batteryChargeLevel, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryReplacementNeeded(chip::EndpointId endpoint, bool * batteryReplacementNeeded) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryReplacementNeeded, - (uint8_t *) batteryReplacementNeeded, sizeof(*batteryReplacementNeeded)); + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryReplacementNeeded::Id, (uint8_t *) batteryReplacementNeeded, + sizeof(*batteryReplacementNeeded)); } EmberAfStatus SetBatteryReplacementNeeded(chip::EndpointId endpoint, bool batteryReplacementNeeded) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryReplacementNeeded, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryReplacementNeeded::Id, (uint8_t *) &batteryReplacementNeeded, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryReplaceability(chip::EndpointId endpoint, uint8_t * batteryReplaceability) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryReplaceability, (uint8_t *) batteryReplaceability, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryReplaceability::Id, (uint8_t *) batteryReplaceability, sizeof(*batteryReplaceability)); } EmberAfStatus SetBatteryReplaceability(chip::EndpointId endpoint, uint8_t batteryReplaceability) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryReplaceability, (uint8_t *) &batteryReplaceability, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryReplaceability::Id, (uint8_t *) &batteryReplaceability, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryPresent(chip::EndpointId endpoint, bool * batteryPresent) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryPresent, (uint8_t *) batteryPresent, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryPresent::Id, (uint8_t *) batteryPresent, sizeof(*batteryPresent)); } EmberAfStatus SetBatteryPresent(chip::EndpointId endpoint, bool batteryPresent) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryPresent, (uint8_t *) &batteryPresent, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryPresent::Id, (uint8_t *) &batteryPresent, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryCommonDesignation(chip::EndpointId endpoint, uint32_t * batteryCommonDesignation) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryCommonDesignation, - (uint8_t *) batteryCommonDesignation, sizeof(*batteryCommonDesignation)); + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryCommonDesignation::Id, (uint8_t *) batteryCommonDesignation, + sizeof(*batteryCommonDesignation)); } EmberAfStatus SetBatteryCommonDesignation(chip::EndpointId endpoint, uint32_t batteryCommonDesignation) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryCommonDesignation, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryCommonDesignation::Id, (uint8_t *) &batteryCommonDesignation, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryApprovedChemistry(chip::EndpointId endpoint, uint32_t * batteryApprovedChemistry) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryApprovedChemistry, - (uint8_t *) batteryApprovedChemistry, sizeof(*batteryApprovedChemistry)); + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryApprovedChemistry::Id, (uint8_t *) batteryApprovedChemistry, + sizeof(*batteryApprovedChemistry)); } EmberAfStatus SetBatteryApprovedChemistry(chip::EndpointId endpoint, uint32_t batteryApprovedChemistry) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryApprovedChemistry, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryApprovedChemistry::Id, (uint8_t *) &batteryApprovedChemistry, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryCapacity(chip::EndpointId endpoint, uint32_t * batteryCapacity) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryCapacity, (uint8_t *) batteryCapacity, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryCapacity::Id, (uint8_t *) batteryCapacity, sizeof(*batteryCapacity)); } EmberAfStatus SetBatteryCapacity(chip::EndpointId endpoint, uint32_t batteryCapacity) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryCapacity, (uint8_t *) &batteryCapacity, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryCapacity::Id, (uint8_t *) &batteryCapacity, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryQuantity(chip::EndpointId endpoint, uint8_t * batteryQuantity) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryQuantity, (uint8_t *) batteryQuantity, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryQuantity::Id, (uint8_t *) batteryQuantity, sizeof(*batteryQuantity)); } EmberAfStatus SetBatteryQuantity(chip::EndpointId endpoint, uint8_t batteryQuantity) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryQuantity, (uint8_t *) &batteryQuantity, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryQuantity::Id, (uint8_t *) &batteryQuantity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryChargeState(chip::EndpointId endpoint, uint8_t * batteryChargeState) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryChargeState, (uint8_t *) batteryChargeState, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryChargeState::Id, (uint8_t *) batteryChargeState, sizeof(*batteryChargeState)); } EmberAfStatus SetBatteryChargeState(chip::EndpointId endpoint, uint8_t batteryChargeState) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryChargeState, (uint8_t *) &batteryChargeState, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryChargeState::Id, (uint8_t *) &batteryChargeState, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryTimeToFullCharge(chip::EndpointId endpoint, uint32_t * batteryTimeToFullCharge) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryTimeToFullCharge, (uint8_t *) batteryTimeToFullCharge, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryTimeToFullCharge::Id, (uint8_t *) batteryTimeToFullCharge, sizeof(*batteryTimeToFullCharge)); } EmberAfStatus SetBatteryTimeToFullCharge(chip::EndpointId endpoint, uint32_t batteryTimeToFullCharge) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryTimeToFullCharge, - (uint8_t *) &batteryTimeToFullCharge, ZCL_INT32U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryTimeToFullCharge::Id, (uint8_t *) &batteryTimeToFullCharge, + ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryFunctionalWhileCharging(chip::EndpointId endpoint, bool * batteryFunctionalWhileCharging) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryFunctionalWhileCharging, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryFunctionalWhileCharging::Id, (uint8_t *) batteryFunctionalWhileCharging, sizeof(*batteryFunctionalWhileCharging)); } EmberAfStatus SetBatteryFunctionalWhileCharging(chip::EndpointId endpoint, bool batteryFunctionalWhileCharging) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryFunctionalWhileCharging, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryFunctionalWhileCharging::Id, (uint8_t *) &batteryFunctionalWhileCharging, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetBatteryChargingCurrent(chip::EndpointId endpoint, uint32_t * batteryChargingCurrent) { - return emberAfReadServerAttribute(endpoint, PowerSource::Id, Ids::BatteryChargingCurrent, (uint8_t *) batteryChargingCurrent, + return emberAfReadServerAttribute(endpoint, PowerSource::Id, BatteryChargingCurrent::Id, (uint8_t *) batteryChargingCurrent, sizeof(*batteryChargingCurrent)); } EmberAfStatus SetBatteryChargingCurrent(chip::EndpointId endpoint, uint32_t batteryChargingCurrent) { - return emberAfWriteServerAttribute(endpoint, PowerSource::Id, Ids::BatteryChargingCurrent, (uint8_t *) &batteryChargingCurrent, + return emberAfWriteServerAttribute(endpoint, PowerSource::Id, BatteryChargingCurrent::Id, (uint8_t *) &batteryChargingCurrent, ZCL_INT32U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -1607,12 +1602,12 @@ namespace GeneralCommissioning { namespace Attributes { EmberAfStatus GetBreadcrumb(chip::EndpointId endpoint, uint64_t * breadcrumb) { - return emberAfReadServerAttribute(endpoint, GeneralCommissioning::Id, Ids::Breadcrumb, (uint8_t *) breadcrumb, + return emberAfReadServerAttribute(endpoint, GeneralCommissioning::Id, Breadcrumb::Id, (uint8_t *) breadcrumb, sizeof(*breadcrumb)); } EmberAfStatus SetBreadcrumb(chip::EndpointId endpoint, uint64_t breadcrumb) { - return emberAfWriteServerAttribute(endpoint, GeneralCommissioning::Id, Ids::Breadcrumb, (uint8_t *) &breadcrumb, + return emberAfWriteServerAttribute(endpoint, GeneralCommissioning::Id, Breadcrumb::Id, (uint8_t *) &breadcrumb, ZCL_INT64U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -1622,41 +1617,41 @@ namespace GeneralDiagnostics { namespace Attributes { EmberAfStatus GetRebootCount(chip::EndpointId endpoint, uint16_t * rebootCount) { - return emberAfReadServerAttribute(endpoint, GeneralDiagnostics::Id, Ids::RebootCount, (uint8_t *) rebootCount, + return emberAfReadServerAttribute(endpoint, GeneralDiagnostics::Id, RebootCount::Id, (uint8_t *) rebootCount, sizeof(*rebootCount)); } EmberAfStatus SetRebootCount(chip::EndpointId endpoint, uint16_t rebootCount) { - return emberAfWriteServerAttribute(endpoint, GeneralDiagnostics::Id, Ids::RebootCount, (uint8_t *) &rebootCount, + return emberAfWriteServerAttribute(endpoint, GeneralDiagnostics::Id, RebootCount::Id, (uint8_t *) &rebootCount, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetUpTime(chip::EndpointId endpoint, uint64_t * upTime) { - return emberAfReadServerAttribute(endpoint, GeneralDiagnostics::Id, Ids::UpTime, (uint8_t *) upTime, sizeof(*upTime)); + return emberAfReadServerAttribute(endpoint, GeneralDiagnostics::Id, UpTime::Id, (uint8_t *) upTime, sizeof(*upTime)); } EmberAfStatus SetUpTime(chip::EndpointId endpoint, uint64_t upTime) { - return emberAfWriteServerAttribute(endpoint, GeneralDiagnostics::Id, Ids::UpTime, (uint8_t *) &upTime, + return emberAfWriteServerAttribute(endpoint, GeneralDiagnostics::Id, UpTime::Id, (uint8_t *) &upTime, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetTotalOperationalHours(chip::EndpointId endpoint, uint32_t * totalOperationalHours) { - return emberAfReadServerAttribute(endpoint, GeneralDiagnostics::Id, Ids::TotalOperationalHours, + return emberAfReadServerAttribute(endpoint, GeneralDiagnostics::Id, TotalOperationalHours::Id, (uint8_t *) totalOperationalHours, sizeof(*totalOperationalHours)); } EmberAfStatus SetTotalOperationalHours(chip::EndpointId endpoint, uint32_t totalOperationalHours) { - return emberAfWriteServerAttribute(endpoint, GeneralDiagnostics::Id, Ids::TotalOperationalHours, + return emberAfWriteServerAttribute(endpoint, GeneralDiagnostics::Id, TotalOperationalHours::Id, (uint8_t *) &totalOperationalHours, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetBootReasons(chip::EndpointId endpoint, uint8_t * bootReasons) { - return emberAfReadServerAttribute(endpoint, GeneralDiagnostics::Id, Ids::BootReasons, (uint8_t *) bootReasons, + return emberAfReadServerAttribute(endpoint, GeneralDiagnostics::Id, BootReasons::Id, (uint8_t *) bootReasons, sizeof(*bootReasons)); } EmberAfStatus SetBootReasons(chip::EndpointId endpoint, uint8_t bootReasons) { - return emberAfWriteServerAttribute(endpoint, GeneralDiagnostics::Id, Ids::BootReasons, (uint8_t *) &bootReasons, + return emberAfWriteServerAttribute(endpoint, GeneralDiagnostics::Id, BootReasons::Id, (uint8_t *) &bootReasons, ZCL_ENUM8_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -1666,32 +1661,32 @@ namespace SoftwareDiagnostics { namespace Attributes { EmberAfStatus GetCurrentHeapFree(chip::EndpointId endpoint, uint64_t * currentHeapFree) { - return emberAfReadServerAttribute(endpoint, SoftwareDiagnostics::Id, Ids::CurrentHeapFree, (uint8_t *) currentHeapFree, + return emberAfReadServerAttribute(endpoint, SoftwareDiagnostics::Id, CurrentHeapFree::Id, (uint8_t *) currentHeapFree, sizeof(*currentHeapFree)); } EmberAfStatus SetCurrentHeapFree(chip::EndpointId endpoint, uint64_t currentHeapFree) { - return emberAfWriteServerAttribute(endpoint, SoftwareDiagnostics::Id, Ids::CurrentHeapFree, (uint8_t *) ¤tHeapFree, + return emberAfWriteServerAttribute(endpoint, SoftwareDiagnostics::Id, CurrentHeapFree::Id, (uint8_t *) ¤tHeapFree, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentHeapUsed(chip::EndpointId endpoint, uint64_t * currentHeapUsed) { - return emberAfReadServerAttribute(endpoint, SoftwareDiagnostics::Id, Ids::CurrentHeapUsed, (uint8_t *) currentHeapUsed, + return emberAfReadServerAttribute(endpoint, SoftwareDiagnostics::Id, CurrentHeapUsed::Id, (uint8_t *) currentHeapUsed, sizeof(*currentHeapUsed)); } EmberAfStatus SetCurrentHeapUsed(chip::EndpointId endpoint, uint64_t currentHeapUsed) { - return emberAfWriteServerAttribute(endpoint, SoftwareDiagnostics::Id, Ids::CurrentHeapUsed, (uint8_t *) ¤tHeapUsed, + return emberAfWriteServerAttribute(endpoint, SoftwareDiagnostics::Id, CurrentHeapUsed::Id, (uint8_t *) ¤tHeapUsed, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentHeapHighWatermark(chip::EndpointId endpoint, uint64_t * currentHeapHighWatermark) { - return emberAfReadServerAttribute(endpoint, SoftwareDiagnostics::Id, Ids::CurrentHeapHighWatermark, + return emberAfReadServerAttribute(endpoint, SoftwareDiagnostics::Id, CurrentHeapHighWatermark::Id, (uint8_t *) currentHeapHighWatermark, sizeof(*currentHeapHighWatermark)); } EmberAfStatus SetCurrentHeapHighWatermark(chip::EndpointId endpoint, uint64_t currentHeapHighWatermark) { - return emberAfWriteServerAttribute(endpoint, SoftwareDiagnostics::Id, Ids::CurrentHeapHighWatermark, + return emberAfWriteServerAttribute(endpoint, SoftwareDiagnostics::Id, CurrentHeapHighWatermark::Id, (uint8_t *) ¤tHeapHighWatermark, ZCL_INT64U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -1701,549 +1696,549 @@ namespace ThreadNetworkDiagnostics { namespace Attributes { EmberAfStatus GetChannel(chip::EndpointId endpoint, uint8_t * channel) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::Channel, (uint8_t *) channel, sizeof(*channel)); + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Channel::Id, (uint8_t *) channel, sizeof(*channel)); } EmberAfStatus SetChannel(chip::EndpointId endpoint, uint8_t channel) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::Channel, (uint8_t *) &channel, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Channel::Id, (uint8_t *) &channel, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetRoutingRole(chip::EndpointId endpoint, uint8_t * routingRole) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RoutingRole, (uint8_t *) routingRole, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RoutingRole::Id, (uint8_t *) routingRole, sizeof(*routingRole)); } EmberAfStatus SetRoutingRole(chip::EndpointId endpoint, uint8_t routingRole) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RoutingRole, (uint8_t *) &routingRole, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RoutingRole::Id, (uint8_t *) &routingRole, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetPanId(chip::EndpointId endpoint, uint16_t * panId) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::PanId, (uint8_t *) panId, sizeof(*panId)); + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, PanId::Id, (uint8_t *) panId, sizeof(*panId)); } EmberAfStatus SetPanId(chip::EndpointId endpoint, uint16_t panId) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::PanId, (uint8_t *) &panId, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, PanId::Id, (uint8_t *) &panId, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetExtendedPanId(chip::EndpointId endpoint, uint64_t * extendedPanId) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::ExtendedPanId, (uint8_t *) extendedPanId, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, ExtendedPanId::Id, (uint8_t *) extendedPanId, sizeof(*extendedPanId)); } EmberAfStatus SetExtendedPanId(chip::EndpointId endpoint, uint64_t extendedPanId) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::ExtendedPanId, (uint8_t *) &extendedPanId, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, ExtendedPanId::Id, (uint8_t *) &extendedPanId, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetOverrunCount(chip::EndpointId endpoint, uint64_t * overrunCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::OverrunCount, (uint8_t *) overrunCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, OverrunCount::Id, (uint8_t *) overrunCount, sizeof(*overrunCount)); } EmberAfStatus SetOverrunCount(chip::EndpointId endpoint, uint64_t overrunCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::OverrunCount, (uint8_t *) &overrunCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, OverrunCount::Id, (uint8_t *) &overrunCount, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetPartitionId(chip::EndpointId endpoint, uint32_t * partitionId) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::PartitionId, (uint8_t *) partitionId, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, PartitionId::Id, (uint8_t *) partitionId, sizeof(*partitionId)); } EmberAfStatus SetPartitionId(chip::EndpointId endpoint, uint32_t partitionId) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::PartitionId, (uint8_t *) &partitionId, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, PartitionId::Id, (uint8_t *) &partitionId, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetWeighting(chip::EndpointId endpoint, uint8_t * weighting) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::Weighting, (uint8_t *) weighting, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Weighting::Id, (uint8_t *) weighting, sizeof(*weighting)); } EmberAfStatus SetWeighting(chip::EndpointId endpoint, uint8_t weighting) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::Weighting, (uint8_t *) &weighting, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Weighting::Id, (uint8_t *) &weighting, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetDataVersion(chip::EndpointId endpoint, uint8_t * dataVersion) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::DataVersion, (uint8_t *) dataVersion, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, DataVersion::Id, (uint8_t *) dataVersion, sizeof(*dataVersion)); } EmberAfStatus SetDataVersion(chip::EndpointId endpoint, uint8_t dataVersion) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::DataVersion, (uint8_t *) &dataVersion, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, DataVersion::Id, (uint8_t *) &dataVersion, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetStableDataVersion(chip::EndpointId endpoint, uint8_t * stableDataVersion) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::StableDataVersion, (uint8_t *) stableDataVersion, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, StableDataVersion::Id, (uint8_t *) stableDataVersion, sizeof(*stableDataVersion)); } EmberAfStatus SetStableDataVersion(chip::EndpointId endpoint, uint8_t stableDataVersion) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::StableDataVersion, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, StableDataVersion::Id, (uint8_t *) &stableDataVersion, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetLeaderRouterId(chip::EndpointId endpoint, uint8_t * leaderRouterId) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::LeaderRouterId, (uint8_t *) leaderRouterId, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, LeaderRouterId::Id, (uint8_t *) leaderRouterId, sizeof(*leaderRouterId)); } EmberAfStatus SetLeaderRouterId(chip::EndpointId endpoint, uint8_t leaderRouterId) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::LeaderRouterId, (uint8_t *) &leaderRouterId, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, LeaderRouterId::Id, (uint8_t *) &leaderRouterId, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetDetachedRoleCount(chip::EndpointId endpoint, uint16_t * detachedRoleCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::DetachedRoleCount, (uint8_t *) detachedRoleCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, DetachedRoleCount::Id, (uint8_t *) detachedRoleCount, sizeof(*detachedRoleCount)); } EmberAfStatus SetDetachedRoleCount(chip::EndpointId endpoint, uint16_t detachedRoleCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::DetachedRoleCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, DetachedRoleCount::Id, (uint8_t *) &detachedRoleCount, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetChildRoleCount(chip::EndpointId endpoint, uint16_t * childRoleCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::ChildRoleCount, (uint8_t *) childRoleCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, ChildRoleCount::Id, (uint8_t *) childRoleCount, sizeof(*childRoleCount)); } EmberAfStatus SetChildRoleCount(chip::EndpointId endpoint, uint16_t childRoleCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::ChildRoleCount, (uint8_t *) &childRoleCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, ChildRoleCount::Id, (uint8_t *) &childRoleCount, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRouterRoleCount(chip::EndpointId endpoint, uint16_t * routerRoleCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RouterRoleCount, (uint8_t *) routerRoleCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RouterRoleCount::Id, (uint8_t *) routerRoleCount, sizeof(*routerRoleCount)); } EmberAfStatus SetRouterRoleCount(chip::EndpointId endpoint, uint16_t routerRoleCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RouterRoleCount, (uint8_t *) &routerRoleCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RouterRoleCount::Id, (uint8_t *) &routerRoleCount, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetLeaderRoleCount(chip::EndpointId endpoint, uint16_t * leaderRoleCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::LeaderRoleCount, (uint8_t *) leaderRoleCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, LeaderRoleCount::Id, (uint8_t *) leaderRoleCount, sizeof(*leaderRoleCount)); } EmberAfStatus SetLeaderRoleCount(chip::EndpointId endpoint, uint16_t leaderRoleCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::LeaderRoleCount, (uint8_t *) &leaderRoleCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, LeaderRoleCount::Id, (uint8_t *) &leaderRoleCount, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAttachAttemptCount(chip::EndpointId endpoint, uint16_t * attachAttemptCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::AttachAttemptCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, AttachAttemptCount::Id, (uint8_t *) attachAttemptCount, sizeof(*attachAttemptCount)); } EmberAfStatus SetAttachAttemptCount(chip::EndpointId endpoint, uint16_t attachAttemptCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::AttachAttemptCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, AttachAttemptCount::Id, (uint8_t *) &attachAttemptCount, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPartitionIdChangeCount(chip::EndpointId endpoint, uint16_t * partitionIdChangeCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::PartitionIdChangeCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, PartitionIdChangeCount::Id, (uint8_t *) partitionIdChangeCount, sizeof(*partitionIdChangeCount)); } EmberAfStatus SetPartitionIdChangeCount(chip::EndpointId endpoint, uint16_t partitionIdChangeCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::PartitionIdChangeCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, PartitionIdChangeCount::Id, (uint8_t *) &partitionIdChangeCount, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetBetterPartitionAttachAttemptCount(chip::EndpointId endpoint, uint16_t * betterPartitionAttachAttemptCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::BetterPartitionAttachAttemptCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, BetterPartitionAttachAttemptCount::Id, (uint8_t *) betterPartitionAttachAttemptCount, sizeof(*betterPartitionAttachAttemptCount)); } EmberAfStatus SetBetterPartitionAttachAttemptCount(chip::EndpointId endpoint, uint16_t betterPartitionAttachAttemptCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::BetterPartitionAttachAttemptCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, BetterPartitionAttachAttemptCount::Id, (uint8_t *) &betterPartitionAttachAttemptCount, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetParentChangeCount(chip::EndpointId endpoint, uint16_t * parentChangeCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::ParentChangeCount, (uint8_t *) parentChangeCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, ParentChangeCount::Id, (uint8_t *) parentChangeCount, sizeof(*parentChangeCount)); } EmberAfStatus SetParentChangeCount(chip::EndpointId endpoint, uint16_t parentChangeCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::ParentChangeCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, ParentChangeCount::Id, (uint8_t *) &parentChangeCount, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxTotalCount(chip::EndpointId endpoint, uint32_t * txTotalCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxTotalCount, (uint8_t *) txTotalCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxTotalCount::Id, (uint8_t *) txTotalCount, sizeof(*txTotalCount)); } EmberAfStatus SetTxTotalCount(chip::EndpointId endpoint, uint32_t txTotalCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxTotalCount, (uint8_t *) &txTotalCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxTotalCount::Id, (uint8_t *) &txTotalCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxUnicastCount(chip::EndpointId endpoint, uint32_t * txUnicastCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxUnicastCount, (uint8_t *) txUnicastCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxUnicastCount::Id, (uint8_t *) txUnicastCount, sizeof(*txUnicastCount)); } EmberAfStatus SetTxUnicastCount(chip::EndpointId endpoint, uint32_t txUnicastCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxUnicastCount, (uint8_t *) &txUnicastCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxUnicastCount::Id, (uint8_t *) &txUnicastCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxBroadcastCount(chip::EndpointId endpoint, uint32_t * txBroadcastCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxBroadcastCount, (uint8_t *) txBroadcastCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxBroadcastCount::Id, (uint8_t *) txBroadcastCount, sizeof(*txBroadcastCount)); } EmberAfStatus SetTxBroadcastCount(chip::EndpointId endpoint, uint32_t txBroadcastCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxBroadcastCount, (uint8_t *) &txBroadcastCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxBroadcastCount::Id, (uint8_t *) &txBroadcastCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxAckRequestedCount(chip::EndpointId endpoint, uint32_t * txAckRequestedCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxAckRequestedCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxAckRequestedCount::Id, (uint8_t *) txAckRequestedCount, sizeof(*txAckRequestedCount)); } EmberAfStatus SetTxAckRequestedCount(chip::EndpointId endpoint, uint32_t txAckRequestedCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxAckRequestedCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxAckRequestedCount::Id, (uint8_t *) &txAckRequestedCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxAckedCount(chip::EndpointId endpoint, uint32_t * txAckedCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxAckedCount, (uint8_t *) txAckedCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxAckedCount::Id, (uint8_t *) txAckedCount, sizeof(*txAckedCount)); } EmberAfStatus SetTxAckedCount(chip::EndpointId endpoint, uint32_t txAckedCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxAckedCount, (uint8_t *) &txAckedCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxAckedCount::Id, (uint8_t *) &txAckedCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxNoAckRequestedCount(chip::EndpointId endpoint, uint32_t * txNoAckRequestedCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxNoAckRequestedCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxNoAckRequestedCount::Id, (uint8_t *) txNoAckRequestedCount, sizeof(*txNoAckRequestedCount)); } EmberAfStatus SetTxNoAckRequestedCount(chip::EndpointId endpoint, uint32_t txNoAckRequestedCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxNoAckRequestedCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxNoAckRequestedCount::Id, (uint8_t *) &txNoAckRequestedCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxDataCount(chip::EndpointId endpoint, uint32_t * txDataCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxDataCount, (uint8_t *) txDataCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxDataCount::Id, (uint8_t *) txDataCount, sizeof(*txDataCount)); } EmberAfStatus SetTxDataCount(chip::EndpointId endpoint, uint32_t txDataCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxDataCount, (uint8_t *) &txDataCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxDataCount::Id, (uint8_t *) &txDataCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxDataPollCount(chip::EndpointId endpoint, uint32_t * txDataPollCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxDataPollCount, (uint8_t *) txDataPollCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxDataPollCount::Id, (uint8_t *) txDataPollCount, sizeof(*txDataPollCount)); } EmberAfStatus SetTxDataPollCount(chip::EndpointId endpoint, uint32_t txDataPollCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxDataPollCount, (uint8_t *) &txDataPollCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxDataPollCount::Id, (uint8_t *) &txDataPollCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxBeaconCount(chip::EndpointId endpoint, uint32_t * txBeaconCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxBeaconCount, (uint8_t *) txBeaconCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxBeaconCount::Id, (uint8_t *) txBeaconCount, sizeof(*txBeaconCount)); } EmberAfStatus SetTxBeaconCount(chip::EndpointId endpoint, uint32_t txBeaconCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxBeaconCount, (uint8_t *) &txBeaconCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxBeaconCount::Id, (uint8_t *) &txBeaconCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxBeaconRequestCount(chip::EndpointId endpoint, uint32_t * txBeaconRequestCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxBeaconRequestCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxBeaconRequestCount::Id, (uint8_t *) txBeaconRequestCount, sizeof(*txBeaconRequestCount)); } EmberAfStatus SetTxBeaconRequestCount(chip::EndpointId endpoint, uint32_t txBeaconRequestCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxBeaconRequestCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxBeaconRequestCount::Id, (uint8_t *) &txBeaconRequestCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxOtherCount(chip::EndpointId endpoint, uint32_t * txOtherCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxOtherCount, (uint8_t *) txOtherCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxOtherCount::Id, (uint8_t *) txOtherCount, sizeof(*txOtherCount)); } EmberAfStatus SetTxOtherCount(chip::EndpointId endpoint, uint32_t txOtherCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxOtherCount, (uint8_t *) &txOtherCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxOtherCount::Id, (uint8_t *) &txOtherCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxRetryCount(chip::EndpointId endpoint, uint32_t * txRetryCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxRetryCount, (uint8_t *) txRetryCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxRetryCount::Id, (uint8_t *) txRetryCount, sizeof(*txRetryCount)); } EmberAfStatus SetTxRetryCount(chip::EndpointId endpoint, uint32_t txRetryCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxRetryCount, (uint8_t *) &txRetryCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxRetryCount::Id, (uint8_t *) &txRetryCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxDirectMaxRetryExpiryCount(chip::EndpointId endpoint, uint32_t * txDirectMaxRetryExpiryCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxDirectMaxRetryExpiryCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxDirectMaxRetryExpiryCount::Id, (uint8_t *) txDirectMaxRetryExpiryCount, sizeof(*txDirectMaxRetryExpiryCount)); } EmberAfStatus SetTxDirectMaxRetryExpiryCount(chip::EndpointId endpoint, uint32_t txDirectMaxRetryExpiryCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxDirectMaxRetryExpiryCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxDirectMaxRetryExpiryCount::Id, (uint8_t *) &txDirectMaxRetryExpiryCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxIndirectMaxRetryExpiryCount(chip::EndpointId endpoint, uint32_t * txIndirectMaxRetryExpiryCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxIndirectMaxRetryExpiryCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxIndirectMaxRetryExpiryCount::Id, (uint8_t *) txIndirectMaxRetryExpiryCount, sizeof(*txIndirectMaxRetryExpiryCount)); } EmberAfStatus SetTxIndirectMaxRetryExpiryCount(chip::EndpointId endpoint, uint32_t txIndirectMaxRetryExpiryCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxIndirectMaxRetryExpiryCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxIndirectMaxRetryExpiryCount::Id, (uint8_t *) &txIndirectMaxRetryExpiryCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxErrCcaCount(chip::EndpointId endpoint, uint32_t * txErrCcaCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxErrCcaCount, (uint8_t *) txErrCcaCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxErrCcaCount::Id, (uint8_t *) txErrCcaCount, sizeof(*txErrCcaCount)); } EmberAfStatus SetTxErrCcaCount(chip::EndpointId endpoint, uint32_t txErrCcaCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxErrCcaCount, (uint8_t *) &txErrCcaCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxErrCcaCount::Id, (uint8_t *) &txErrCcaCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxErrAbortCount(chip::EndpointId endpoint, uint32_t * txErrAbortCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxErrAbortCount, (uint8_t *) txErrAbortCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxErrAbortCount::Id, (uint8_t *) txErrAbortCount, sizeof(*txErrAbortCount)); } EmberAfStatus SetTxErrAbortCount(chip::EndpointId endpoint, uint32_t txErrAbortCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxErrAbortCount, (uint8_t *) &txErrAbortCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxErrAbortCount::Id, (uint8_t *) &txErrAbortCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxErrBusyChannelCount(chip::EndpointId endpoint, uint32_t * txErrBusyChannelCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxErrBusyChannelCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxErrBusyChannelCount::Id, (uint8_t *) txErrBusyChannelCount, sizeof(*txErrBusyChannelCount)); } EmberAfStatus SetTxErrBusyChannelCount(chip::EndpointId endpoint, uint32_t txErrBusyChannelCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::TxErrBusyChannelCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, TxErrBusyChannelCount::Id, (uint8_t *) &txErrBusyChannelCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxTotalCount(chip::EndpointId endpoint, uint32_t * rxTotalCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxTotalCount, (uint8_t *) rxTotalCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxTotalCount::Id, (uint8_t *) rxTotalCount, sizeof(*rxTotalCount)); } EmberAfStatus SetRxTotalCount(chip::EndpointId endpoint, uint32_t rxTotalCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxTotalCount, (uint8_t *) &rxTotalCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxTotalCount::Id, (uint8_t *) &rxTotalCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxUnicastCount(chip::EndpointId endpoint, uint32_t * rxUnicastCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxUnicastCount, (uint8_t *) rxUnicastCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxUnicastCount::Id, (uint8_t *) rxUnicastCount, sizeof(*rxUnicastCount)); } EmberAfStatus SetRxUnicastCount(chip::EndpointId endpoint, uint32_t rxUnicastCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxUnicastCount, (uint8_t *) &rxUnicastCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxUnicastCount::Id, (uint8_t *) &rxUnicastCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxBroadcastCount(chip::EndpointId endpoint, uint32_t * rxBroadcastCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxBroadcastCount, (uint8_t *) rxBroadcastCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxBroadcastCount::Id, (uint8_t *) rxBroadcastCount, sizeof(*rxBroadcastCount)); } EmberAfStatus SetRxBroadcastCount(chip::EndpointId endpoint, uint32_t rxBroadcastCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxBroadcastCount, (uint8_t *) &rxBroadcastCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxBroadcastCount::Id, (uint8_t *) &rxBroadcastCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxDataCount(chip::EndpointId endpoint, uint32_t * rxDataCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxDataCount, (uint8_t *) rxDataCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxDataCount::Id, (uint8_t *) rxDataCount, sizeof(*rxDataCount)); } EmberAfStatus SetRxDataCount(chip::EndpointId endpoint, uint32_t rxDataCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxDataCount, (uint8_t *) &rxDataCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxDataCount::Id, (uint8_t *) &rxDataCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxDataPollCount(chip::EndpointId endpoint, uint32_t * rxDataPollCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxDataPollCount, (uint8_t *) rxDataPollCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxDataPollCount::Id, (uint8_t *) rxDataPollCount, sizeof(*rxDataPollCount)); } EmberAfStatus SetRxDataPollCount(chip::EndpointId endpoint, uint32_t rxDataPollCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxDataPollCount, (uint8_t *) &rxDataPollCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxDataPollCount::Id, (uint8_t *) &rxDataPollCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxBeaconCount(chip::EndpointId endpoint, uint32_t * rxBeaconCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxBeaconCount, (uint8_t *) rxBeaconCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxBeaconCount::Id, (uint8_t *) rxBeaconCount, sizeof(*rxBeaconCount)); } EmberAfStatus SetRxBeaconCount(chip::EndpointId endpoint, uint32_t rxBeaconCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxBeaconCount, (uint8_t *) &rxBeaconCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxBeaconCount::Id, (uint8_t *) &rxBeaconCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxBeaconRequestCount(chip::EndpointId endpoint, uint32_t * rxBeaconRequestCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxBeaconRequestCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxBeaconRequestCount::Id, (uint8_t *) rxBeaconRequestCount, sizeof(*rxBeaconRequestCount)); } EmberAfStatus SetRxBeaconRequestCount(chip::EndpointId endpoint, uint32_t rxBeaconRequestCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxBeaconRequestCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxBeaconRequestCount::Id, (uint8_t *) &rxBeaconRequestCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxOtherCount(chip::EndpointId endpoint, uint32_t * rxOtherCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxOtherCount, (uint8_t *) rxOtherCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxOtherCount::Id, (uint8_t *) rxOtherCount, sizeof(*rxOtherCount)); } EmberAfStatus SetRxOtherCount(chip::EndpointId endpoint, uint32_t rxOtherCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxOtherCount, (uint8_t *) &rxOtherCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxOtherCount::Id, (uint8_t *) &rxOtherCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxAddressFilteredCount(chip::EndpointId endpoint, uint32_t * rxAddressFilteredCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxAddressFilteredCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxAddressFilteredCount::Id, (uint8_t *) rxAddressFilteredCount, sizeof(*rxAddressFilteredCount)); } EmberAfStatus SetRxAddressFilteredCount(chip::EndpointId endpoint, uint32_t rxAddressFilteredCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxAddressFilteredCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxAddressFilteredCount::Id, (uint8_t *) &rxAddressFilteredCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxDestAddrFilteredCount(chip::EndpointId endpoint, uint32_t * rxDestAddrFilteredCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxDestAddrFilteredCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxDestAddrFilteredCount::Id, (uint8_t *) rxDestAddrFilteredCount, sizeof(*rxDestAddrFilteredCount)); } EmberAfStatus SetRxDestAddrFilteredCount(chip::EndpointId endpoint, uint32_t rxDestAddrFilteredCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxDestAddrFilteredCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxDestAddrFilteredCount::Id, (uint8_t *) &rxDestAddrFilteredCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxDuplicatedCount(chip::EndpointId endpoint, uint32_t * rxDuplicatedCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxDuplicatedCount, (uint8_t *) rxDuplicatedCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxDuplicatedCount::Id, (uint8_t *) rxDuplicatedCount, sizeof(*rxDuplicatedCount)); } EmberAfStatus SetRxDuplicatedCount(chip::EndpointId endpoint, uint32_t rxDuplicatedCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxDuplicatedCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxDuplicatedCount::Id, (uint8_t *) &rxDuplicatedCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxErrNoFrameCount(chip::EndpointId endpoint, uint32_t * rxErrNoFrameCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxErrNoFrameCount, (uint8_t *) rxErrNoFrameCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxErrNoFrameCount::Id, (uint8_t *) rxErrNoFrameCount, sizeof(*rxErrNoFrameCount)); } EmberAfStatus SetRxErrNoFrameCount(chip::EndpointId endpoint, uint32_t rxErrNoFrameCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxErrNoFrameCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxErrNoFrameCount::Id, (uint8_t *) &rxErrNoFrameCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxErrUnknownNeighborCount(chip::EndpointId endpoint, uint32_t * rxErrUnknownNeighborCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxErrUnknownNeighborCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxErrUnknownNeighborCount::Id, (uint8_t *) rxErrUnknownNeighborCount, sizeof(*rxErrUnknownNeighborCount)); } EmberAfStatus SetRxErrUnknownNeighborCount(chip::EndpointId endpoint, uint32_t rxErrUnknownNeighborCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxErrUnknownNeighborCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxErrUnknownNeighborCount::Id, (uint8_t *) &rxErrUnknownNeighborCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxErrInvalidSrcAddrCount(chip::EndpointId endpoint, uint32_t * rxErrInvalidSrcAddrCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxErrInvalidSrcAddrCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxErrInvalidSrcAddrCount::Id, (uint8_t *) rxErrInvalidSrcAddrCount, sizeof(*rxErrInvalidSrcAddrCount)); } EmberAfStatus SetRxErrInvalidSrcAddrCount(chip::EndpointId endpoint, uint32_t rxErrInvalidSrcAddrCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxErrInvalidSrcAddrCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxErrInvalidSrcAddrCount::Id, (uint8_t *) &rxErrInvalidSrcAddrCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxErrSecCount(chip::EndpointId endpoint, uint32_t * rxErrSecCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxErrSecCount, (uint8_t *) rxErrSecCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxErrSecCount::Id, (uint8_t *) rxErrSecCount, sizeof(*rxErrSecCount)); } EmberAfStatus SetRxErrSecCount(chip::EndpointId endpoint, uint32_t rxErrSecCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxErrSecCount, (uint8_t *) &rxErrSecCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxErrSecCount::Id, (uint8_t *) &rxErrSecCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxErrFcsCount(chip::EndpointId endpoint, uint32_t * rxErrFcsCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxErrFcsCount, (uint8_t *) rxErrFcsCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxErrFcsCount::Id, (uint8_t *) rxErrFcsCount, sizeof(*rxErrFcsCount)); } EmberAfStatus SetRxErrFcsCount(chip::EndpointId endpoint, uint32_t rxErrFcsCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxErrFcsCount, (uint8_t *) &rxErrFcsCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxErrFcsCount::Id, (uint8_t *) &rxErrFcsCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetRxErrOtherCount(chip::EndpointId endpoint, uint32_t * rxErrOtherCount) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxErrOtherCount, (uint8_t *) rxErrOtherCount, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxErrOtherCount::Id, (uint8_t *) rxErrOtherCount, sizeof(*rxErrOtherCount)); } EmberAfStatus SetRxErrOtherCount(chip::EndpointId endpoint, uint32_t rxErrOtherCount) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::RxErrOtherCount, (uint8_t *) &rxErrOtherCount, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, RxErrOtherCount::Id, (uint8_t *) &rxErrOtherCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetActiveTimestamp(chip::EndpointId endpoint, uint64_t * activeTimestamp) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::ActiveTimestamp, (uint8_t *) activeTimestamp, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, ActiveTimestamp::Id, (uint8_t *) activeTimestamp, sizeof(*activeTimestamp)); } EmberAfStatus SetActiveTimestamp(chip::EndpointId endpoint, uint64_t activeTimestamp) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::ActiveTimestamp, (uint8_t *) &activeTimestamp, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, ActiveTimestamp::Id, (uint8_t *) &activeTimestamp, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetPendingTimestamp(chip::EndpointId endpoint, uint64_t * pendingTimestamp) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::PendingTimestamp, (uint8_t *) pendingTimestamp, + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, PendingTimestamp::Id, (uint8_t *) pendingTimestamp, sizeof(*pendingTimestamp)); } EmberAfStatus SetPendingTimestamp(chip::EndpointId endpoint, uint64_t pendingTimestamp) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::PendingTimestamp, (uint8_t *) &pendingTimestamp, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, PendingTimestamp::Id, (uint8_t *) &pendingTimestamp, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetDelay(chip::EndpointId endpoint, uint32_t * delay) { - return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::Delay, (uint8_t *) delay, sizeof(*delay)); + return emberAfReadServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Delay::Id, (uint8_t *) delay, sizeof(*delay)); } EmberAfStatus SetDelay(chip::EndpointId endpoint, uint32_t delay) { - return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Ids::Delay, (uint8_t *) &delay, + return emberAfWriteServerAttribute(endpoint, ThreadNetworkDiagnostics::Id, Delay::Id, (uint8_t *) &delay, ZCL_INT32U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -2253,121 +2248,120 @@ namespace WiFiNetworkDiagnostics { namespace Attributes { EmberAfStatus GetSecurityType(chip::EndpointId endpoint, uint8_t * securityType) { - return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::SecurityType, (uint8_t *) securityType, + return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, SecurityType::Id, (uint8_t *) securityType, sizeof(*securityType)); } EmberAfStatus SetSecurityType(chip::EndpointId endpoint, uint8_t securityType) { - return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::SecurityType, (uint8_t *) &securityType, + return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, SecurityType::Id, (uint8_t *) &securityType, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetWiFiVersion(chip::EndpointId endpoint, uint8_t * wiFiVersion) { - return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::WiFiVersion, (uint8_t *) wiFiVersion, + return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, WiFiVersion::Id, (uint8_t *) wiFiVersion, sizeof(*wiFiVersion)); } EmberAfStatus SetWiFiVersion(chip::EndpointId endpoint, uint8_t wiFiVersion) { - return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::WiFiVersion, (uint8_t *) &wiFiVersion, + return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, WiFiVersion::Id, (uint8_t *) &wiFiVersion, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetChannelNumber(chip::EndpointId endpoint, uint16_t * channelNumber) { - return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::ChannelNumber, (uint8_t *) channelNumber, + return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, ChannelNumber::Id, (uint8_t *) channelNumber, sizeof(*channelNumber)); } EmberAfStatus SetChannelNumber(chip::EndpointId endpoint, uint16_t channelNumber) { - return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::ChannelNumber, (uint8_t *) &channelNumber, + return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, ChannelNumber::Id, (uint8_t *) &channelNumber, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRssi(chip::EndpointId endpoint, int8_t * rssi) { - return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::Rssi, (uint8_t *) rssi, sizeof(*rssi)); + return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Rssi::Id, (uint8_t *) rssi, sizeof(*rssi)); } EmberAfStatus SetRssi(chip::EndpointId endpoint, int8_t rssi) { - return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::Rssi, (uint8_t *) &rssi, - ZCL_INT8S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Rssi::Id, (uint8_t *) &rssi, ZCL_INT8S_ATTRIBUTE_TYPE); } EmberAfStatus GetBeaconLostCount(chip::EndpointId endpoint, uint32_t * beaconLostCount) { - return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::BeaconLostCount, (uint8_t *) beaconLostCount, + return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, BeaconLostCount::Id, (uint8_t *) beaconLostCount, sizeof(*beaconLostCount)); } EmberAfStatus SetBeaconLostCount(chip::EndpointId endpoint, uint32_t beaconLostCount) { - return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::BeaconLostCount, (uint8_t *) &beaconLostCount, + return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, BeaconLostCount::Id, (uint8_t *) &beaconLostCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetBeaconRxCount(chip::EndpointId endpoint, uint32_t * beaconRxCount) { - return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::BeaconRxCount, (uint8_t *) beaconRxCount, + return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, BeaconRxCount::Id, (uint8_t *) beaconRxCount, sizeof(*beaconRxCount)); } EmberAfStatus SetBeaconRxCount(chip::EndpointId endpoint, uint32_t beaconRxCount) { - return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::BeaconRxCount, (uint8_t *) &beaconRxCount, + return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, BeaconRxCount::Id, (uint8_t *) &beaconRxCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetPacketMulticastRxCount(chip::EndpointId endpoint, uint32_t * packetMulticastRxCount) { - return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::PacketMulticastRxCount, + return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, PacketMulticastRxCount::Id, (uint8_t *) packetMulticastRxCount, sizeof(*packetMulticastRxCount)); } EmberAfStatus SetPacketMulticastRxCount(chip::EndpointId endpoint, uint32_t packetMulticastRxCount) { - return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::PacketMulticastRxCount, + return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, PacketMulticastRxCount::Id, (uint8_t *) &packetMulticastRxCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetPacketMulticastTxCount(chip::EndpointId endpoint, uint32_t * packetMulticastTxCount) { - return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::PacketMulticastTxCount, + return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, PacketMulticastTxCount::Id, (uint8_t *) packetMulticastTxCount, sizeof(*packetMulticastTxCount)); } EmberAfStatus SetPacketMulticastTxCount(chip::EndpointId endpoint, uint32_t packetMulticastTxCount) { - return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::PacketMulticastTxCount, + return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, PacketMulticastTxCount::Id, (uint8_t *) &packetMulticastTxCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetPacketUnicastRxCount(chip::EndpointId endpoint, uint32_t * packetUnicastRxCount) { - return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::PacketUnicastRxCount, + return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, PacketUnicastRxCount::Id, (uint8_t *) packetUnicastRxCount, sizeof(*packetUnicastRxCount)); } EmberAfStatus SetPacketUnicastRxCount(chip::EndpointId endpoint, uint32_t packetUnicastRxCount) { - return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::PacketUnicastRxCount, + return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, PacketUnicastRxCount::Id, (uint8_t *) &packetUnicastRxCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetPacketUnicastTxCount(chip::EndpointId endpoint, uint32_t * packetUnicastTxCount) { - return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::PacketUnicastTxCount, + return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, PacketUnicastTxCount::Id, (uint8_t *) packetUnicastTxCount, sizeof(*packetUnicastTxCount)); } EmberAfStatus SetPacketUnicastTxCount(chip::EndpointId endpoint, uint32_t packetUnicastTxCount) { - return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::PacketUnicastTxCount, + return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, PacketUnicastTxCount::Id, (uint8_t *) &packetUnicastTxCount, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentMaxRate(chip::EndpointId endpoint, uint64_t * currentMaxRate) { - return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::CurrentMaxRate, (uint8_t *) currentMaxRate, + return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, CurrentMaxRate::Id, (uint8_t *) currentMaxRate, sizeof(*currentMaxRate)); } EmberAfStatus SetCurrentMaxRate(chip::EndpointId endpoint, uint64_t currentMaxRate) { - return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::CurrentMaxRate, (uint8_t *) ¤tMaxRate, + return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, CurrentMaxRate::Id, (uint8_t *) ¤tMaxRate, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetOverrunCount(chip::EndpointId endpoint, uint64_t * overrunCount) { - return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::OverrunCount, (uint8_t *) overrunCount, + return emberAfReadServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, OverrunCount::Id, (uint8_t *) overrunCount, sizeof(*overrunCount)); } EmberAfStatus SetOverrunCount(chip::EndpointId endpoint, uint64_t overrunCount) { - return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, Ids::OverrunCount, (uint8_t *) &overrunCount, + return emberAfWriteServerAttribute(endpoint, WiFiNetworkDiagnostics::Id, OverrunCount::Id, (uint8_t *) &overrunCount, ZCL_INT64U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -2377,92 +2371,91 @@ namespace EthernetNetworkDiagnostics { namespace Attributes { EmberAfStatus GetPHYRate(chip::EndpointId endpoint, uint8_t * pHYRate) { - return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::PHYRate, (uint8_t *) pHYRate, - sizeof(*pHYRate)); + return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, PHYRate::Id, (uint8_t *) pHYRate, sizeof(*pHYRate)); } EmberAfStatus SetPHYRate(chip::EndpointId endpoint, uint8_t pHYRate) { - return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::PHYRate, (uint8_t *) &pHYRate, + return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, PHYRate::Id, (uint8_t *) &pHYRate, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetFullDuplex(chip::EndpointId endpoint, bool * fullDuplex) { - return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::FullDuplex, (uint8_t *) fullDuplex, + return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, FullDuplex::Id, (uint8_t *) fullDuplex, sizeof(*fullDuplex)); } EmberAfStatus SetFullDuplex(chip::EndpointId endpoint, bool fullDuplex) { - return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::FullDuplex, (uint8_t *) &fullDuplex, + return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, FullDuplex::Id, (uint8_t *) &fullDuplex, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetPacketRxCount(chip::EndpointId endpoint, uint64_t * packetRxCount) { - return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::PacketRxCount, (uint8_t *) packetRxCount, + return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, PacketRxCount::Id, (uint8_t *) packetRxCount, sizeof(*packetRxCount)); } EmberAfStatus SetPacketRxCount(chip::EndpointId endpoint, uint64_t packetRxCount) { - return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::PacketRxCount, (uint8_t *) &packetRxCount, + return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, PacketRxCount::Id, (uint8_t *) &packetRxCount, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetPacketTxCount(chip::EndpointId endpoint, uint64_t * packetTxCount) { - return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::PacketTxCount, (uint8_t *) packetTxCount, + return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, PacketTxCount::Id, (uint8_t *) packetTxCount, sizeof(*packetTxCount)); } EmberAfStatus SetPacketTxCount(chip::EndpointId endpoint, uint64_t packetTxCount) { - return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::PacketTxCount, (uint8_t *) &packetTxCount, + return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, PacketTxCount::Id, (uint8_t *) &packetTxCount, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetTxErrCount(chip::EndpointId endpoint, uint64_t * txErrCount) { - return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::TxErrCount, (uint8_t *) txErrCount, + return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, TxErrCount::Id, (uint8_t *) txErrCount, sizeof(*txErrCount)); } EmberAfStatus SetTxErrCount(chip::EndpointId endpoint, uint64_t txErrCount) { - return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::TxErrCount, (uint8_t *) &txErrCount, + return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, TxErrCount::Id, (uint8_t *) &txErrCount, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetCollisionCount(chip::EndpointId endpoint, uint64_t * collisionCount) { - return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::CollisionCount, (uint8_t *) collisionCount, + return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, CollisionCount::Id, (uint8_t *) collisionCount, sizeof(*collisionCount)); } EmberAfStatus SetCollisionCount(chip::EndpointId endpoint, uint64_t collisionCount) { - return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::CollisionCount, (uint8_t *) &collisionCount, + return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, CollisionCount::Id, (uint8_t *) &collisionCount, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetOverrunCount(chip::EndpointId endpoint, uint64_t * overrunCount) { - return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::OverrunCount, (uint8_t *) overrunCount, + return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, OverrunCount::Id, (uint8_t *) overrunCount, sizeof(*overrunCount)); } EmberAfStatus SetOverrunCount(chip::EndpointId endpoint, uint64_t overrunCount) { - return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::OverrunCount, (uint8_t *) &overrunCount, + return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, OverrunCount::Id, (uint8_t *) &overrunCount, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetCarrierDetect(chip::EndpointId endpoint, bool * carrierDetect) { - return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::CarrierDetect, (uint8_t *) carrierDetect, + return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, CarrierDetect::Id, (uint8_t *) carrierDetect, sizeof(*carrierDetect)); } EmberAfStatus SetCarrierDetect(chip::EndpointId endpoint, bool carrierDetect) { - return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::CarrierDetect, (uint8_t *) &carrierDetect, + return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, CarrierDetect::Id, (uint8_t *) &carrierDetect, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetTimeSinceReset(chip::EndpointId endpoint, uint64_t * timeSinceReset) { - return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::TimeSinceReset, (uint8_t *) timeSinceReset, + return emberAfReadServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, TimeSinceReset::Id, (uint8_t *) timeSinceReset, sizeof(*timeSinceReset)); } EmberAfStatus SetTimeSinceReset(chip::EndpointId endpoint, uint64_t timeSinceReset) { - return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, Ids::TimeSinceReset, (uint8_t *) &timeSinceReset, + return emberAfWriteServerAttribute(endpoint, EthernetNetworkDiagnostics::Id, TimeSinceReset::Id, (uint8_t *) &timeSinceReset, ZCL_INT64U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -2472,40 +2465,40 @@ namespace BridgedDeviceBasic { namespace Attributes { EmberAfStatus GetVendorID(chip::EndpointId endpoint, uint16_t * vendorID) { - return emberAfReadServerAttribute(endpoint, BridgedDeviceBasic::Id, Ids::VendorID, (uint8_t *) vendorID, sizeof(*vendorID)); + return emberAfReadServerAttribute(endpoint, BridgedDeviceBasic::Id, VendorID::Id, (uint8_t *) vendorID, sizeof(*vendorID)); } EmberAfStatus SetVendorID(chip::EndpointId endpoint, uint16_t vendorID) { - return emberAfWriteServerAttribute(endpoint, BridgedDeviceBasic::Id, Ids::VendorID, (uint8_t *) &vendorID, + return emberAfWriteServerAttribute(endpoint, BridgedDeviceBasic::Id, VendorID::Id, (uint8_t *) &vendorID, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetHardwareVersion(chip::EndpointId endpoint, uint16_t * hardwareVersion) { - return emberAfReadServerAttribute(endpoint, BridgedDeviceBasic::Id, Ids::HardwareVersion, (uint8_t *) hardwareVersion, + return emberAfReadServerAttribute(endpoint, BridgedDeviceBasic::Id, HardwareVersion::Id, (uint8_t *) hardwareVersion, sizeof(*hardwareVersion)); } EmberAfStatus SetHardwareVersion(chip::EndpointId endpoint, uint16_t hardwareVersion) { - return emberAfWriteServerAttribute(endpoint, BridgedDeviceBasic::Id, Ids::HardwareVersion, (uint8_t *) &hardwareVersion, + return emberAfWriteServerAttribute(endpoint, BridgedDeviceBasic::Id, HardwareVersion::Id, (uint8_t *) &hardwareVersion, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetSoftwareVersion(chip::EndpointId endpoint, uint32_t * softwareVersion) { - return emberAfReadServerAttribute(endpoint, BridgedDeviceBasic::Id, Ids::SoftwareVersion, (uint8_t *) softwareVersion, + return emberAfReadServerAttribute(endpoint, BridgedDeviceBasic::Id, SoftwareVersion::Id, (uint8_t *) softwareVersion, sizeof(*softwareVersion)); } EmberAfStatus SetSoftwareVersion(chip::EndpointId endpoint, uint32_t softwareVersion) { - return emberAfWriteServerAttribute(endpoint, BridgedDeviceBasic::Id, Ids::SoftwareVersion, (uint8_t *) &softwareVersion, + return emberAfWriteServerAttribute(endpoint, BridgedDeviceBasic::Id, SoftwareVersion::Id, (uint8_t *) &softwareVersion, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetReachable(chip::EndpointId endpoint, bool * reachable) { - return emberAfReadServerAttribute(endpoint, BridgedDeviceBasic::Id, Ids::Reachable, (uint8_t *) reachable, sizeof(*reachable)); + return emberAfReadServerAttribute(endpoint, BridgedDeviceBasic::Id, Reachable::Id, (uint8_t *) reachable, sizeof(*reachable)); } EmberAfStatus SetReachable(chip::EndpointId endpoint, bool reachable) { - return emberAfWriteServerAttribute(endpoint, BridgedDeviceBasic::Id, Ids::Reachable, (uint8_t *) &reachable, + return emberAfWriteServerAttribute(endpoint, BridgedDeviceBasic::Id, Reachable::Id, (uint8_t *) &reachable, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -2515,31 +2508,31 @@ namespace Switch { namespace Attributes { EmberAfStatus GetNumberOfPositions(chip::EndpointId endpoint, uint8_t * numberOfPositions) { - return emberAfReadServerAttribute(endpoint, Switch::Id, Ids::NumberOfPositions, (uint8_t *) numberOfPositions, + return emberAfReadServerAttribute(endpoint, Switch::Id, NumberOfPositions::Id, (uint8_t *) numberOfPositions, sizeof(*numberOfPositions)); } EmberAfStatus SetNumberOfPositions(chip::EndpointId endpoint, uint8_t numberOfPositions) { - return emberAfWriteServerAttribute(endpoint, Switch::Id, Ids::NumberOfPositions, (uint8_t *) &numberOfPositions, + return emberAfWriteServerAttribute(endpoint, Switch::Id, NumberOfPositions::Id, (uint8_t *) &numberOfPositions, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentPosition(chip::EndpointId endpoint, uint8_t * currentPosition) { - return emberAfReadServerAttribute(endpoint, Switch::Id, Ids::CurrentPosition, (uint8_t *) currentPosition, + return emberAfReadServerAttribute(endpoint, Switch::Id, CurrentPosition::Id, (uint8_t *) currentPosition, sizeof(*currentPosition)); } EmberAfStatus SetCurrentPosition(chip::EndpointId endpoint, uint8_t currentPosition) { - return emberAfWriteServerAttribute(endpoint, Switch::Id, Ids::CurrentPosition, (uint8_t *) ¤tPosition, + return emberAfWriteServerAttribute(endpoint, Switch::Id, CurrentPosition::Id, (uint8_t *) ¤tPosition, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetMultiPressMax(chip::EndpointId endpoint, uint8_t * multiPressMax) { - return emberAfReadServerAttribute(endpoint, Switch::Id, Ids::MultiPressMax, (uint8_t *) multiPressMax, sizeof(*multiPressMax)); + return emberAfReadServerAttribute(endpoint, Switch::Id, MultiPressMax::Id, (uint8_t *) multiPressMax, sizeof(*multiPressMax)); } EmberAfStatus SetMultiPressMax(chip::EndpointId endpoint, uint8_t multiPressMax) { - return emberAfWriteServerAttribute(endpoint, Switch::Id, Ids::MultiPressMax, (uint8_t *) &multiPressMax, + return emberAfWriteServerAttribute(endpoint, Switch::Id, MultiPressMax::Id, (uint8_t *) &multiPressMax, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -2549,22 +2542,22 @@ namespace OperationalCredentials { namespace Attributes { EmberAfStatus GetSupportedFabrics(chip::EndpointId endpoint, uint8_t * supportedFabrics) { - return emberAfReadServerAttribute(endpoint, OperationalCredentials::Id, Ids::SupportedFabrics, (uint8_t *) supportedFabrics, + return emberAfReadServerAttribute(endpoint, OperationalCredentials::Id, SupportedFabrics::Id, (uint8_t *) supportedFabrics, sizeof(*supportedFabrics)); } EmberAfStatus SetSupportedFabrics(chip::EndpointId endpoint, uint8_t supportedFabrics) { - return emberAfWriteServerAttribute(endpoint, OperationalCredentials::Id, Ids::SupportedFabrics, (uint8_t *) &supportedFabrics, + return emberAfWriteServerAttribute(endpoint, OperationalCredentials::Id, SupportedFabrics::Id, (uint8_t *) &supportedFabrics, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetCommissionedFabrics(chip::EndpointId endpoint, uint8_t * commissionedFabrics) { - return emberAfReadServerAttribute(endpoint, OperationalCredentials::Id, Ids::CommissionedFabrics, + return emberAfReadServerAttribute(endpoint, OperationalCredentials::Id, CommissionedFabrics::Id, (uint8_t *) commissionedFabrics, sizeof(*commissionedFabrics)); } EmberAfStatus SetCommissionedFabrics(chip::EndpointId endpoint, uint8_t commissionedFabrics) { - return emberAfWriteServerAttribute(endpoint, OperationalCredentials::Id, Ids::CommissionedFabrics, + return emberAfWriteServerAttribute(endpoint, OperationalCredentials::Id, CommissionedFabrics::Id, (uint8_t *) &commissionedFabrics, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -2579,50 +2572,50 @@ namespace ShadeConfiguration { namespace Attributes { EmberAfStatus GetPhysicalClosedLimit(chip::EndpointId endpoint, uint16_t * physicalClosedLimit) { - return emberAfReadServerAttribute(endpoint, ShadeConfiguration::Id, Ids::PhysicalClosedLimit, (uint8_t *) physicalClosedLimit, + return emberAfReadServerAttribute(endpoint, ShadeConfiguration::Id, PhysicalClosedLimit::Id, (uint8_t *) physicalClosedLimit, sizeof(*physicalClosedLimit)); } EmberAfStatus SetPhysicalClosedLimit(chip::EndpointId endpoint, uint16_t physicalClosedLimit) { - return emberAfWriteServerAttribute(endpoint, ShadeConfiguration::Id, Ids::PhysicalClosedLimit, (uint8_t *) &physicalClosedLimit, + return emberAfWriteServerAttribute(endpoint, ShadeConfiguration::Id, PhysicalClosedLimit::Id, (uint8_t *) &physicalClosedLimit, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMotorStepSize(chip::EndpointId endpoint, uint8_t * motorStepSize) { - return emberAfReadServerAttribute(endpoint, ShadeConfiguration::Id, Ids::MotorStepSize, (uint8_t *) motorStepSize, + return emberAfReadServerAttribute(endpoint, ShadeConfiguration::Id, MotorStepSize::Id, (uint8_t *) motorStepSize, sizeof(*motorStepSize)); } EmberAfStatus SetMotorStepSize(chip::EndpointId endpoint, uint8_t motorStepSize) { - return emberAfWriteServerAttribute(endpoint, ShadeConfiguration::Id, Ids::MotorStepSize, (uint8_t *) &motorStepSize, + return emberAfWriteServerAttribute(endpoint, ShadeConfiguration::Id, MotorStepSize::Id, (uint8_t *) &motorStepSize, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetStatus(chip::EndpointId endpoint, uint8_t * status) { - return emberAfReadServerAttribute(endpoint, ShadeConfiguration::Id, Ids::Status, (uint8_t *) status, sizeof(*status)); + return emberAfReadServerAttribute(endpoint, ShadeConfiguration::Id, Status::Id, (uint8_t *) status, sizeof(*status)); } EmberAfStatus SetStatus(chip::EndpointId endpoint, uint8_t status) { - return emberAfWriteServerAttribute(endpoint, ShadeConfiguration::Id, Ids::Status, (uint8_t *) &status, + return emberAfWriteServerAttribute(endpoint, ShadeConfiguration::Id, Status::Id, (uint8_t *) &status, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetClosedLimit(chip::EndpointId endpoint, uint16_t * closedLimit) { - return emberAfReadServerAttribute(endpoint, ShadeConfiguration::Id, Ids::ClosedLimit, (uint8_t *) closedLimit, + return emberAfReadServerAttribute(endpoint, ShadeConfiguration::Id, ClosedLimit::Id, (uint8_t *) closedLimit, sizeof(*closedLimit)); } EmberAfStatus SetClosedLimit(chip::EndpointId endpoint, uint16_t closedLimit) { - return emberAfWriteServerAttribute(endpoint, ShadeConfiguration::Id, Ids::ClosedLimit, (uint8_t *) &closedLimit, + return emberAfWriteServerAttribute(endpoint, ShadeConfiguration::Id, ClosedLimit::Id, (uint8_t *) &closedLimit, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMode(chip::EndpointId endpoint, uint8_t * mode) { - return emberAfReadServerAttribute(endpoint, ShadeConfiguration::Id, Ids::Mode, (uint8_t *) mode, sizeof(*mode)); + return emberAfReadServerAttribute(endpoint, ShadeConfiguration::Id, Mode::Id, (uint8_t *) mode, sizeof(*mode)); } EmberAfStatus SetMode(chip::EndpointId endpoint, uint8_t mode) { - return emberAfWriteServerAttribute(endpoint, ShadeConfiguration::Id, Ids::Mode, (uint8_t *) &mode, ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, ShadeConfiguration::Id, Mode::Id, (uint8_t *) &mode, ZCL_ENUM8_ATTRIBUTE_TYPE); } } // namespace Attributes } // namespace ShadeConfiguration @@ -2631,411 +2624,407 @@ namespace DoorLock { namespace Attributes { EmberAfStatus GetLockState(chip::EndpointId endpoint, uint8_t * lockState) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::LockState, (uint8_t *) lockState, sizeof(*lockState)); + return emberAfReadServerAttribute(endpoint, DoorLock::Id, LockState::Id, (uint8_t *) lockState, sizeof(*lockState)); } EmberAfStatus SetLockState(chip::EndpointId endpoint, uint8_t lockState) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::LockState, (uint8_t *) &lockState, ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, LockState::Id, (uint8_t *) &lockState, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetLockType(chip::EndpointId endpoint, uint8_t * lockType) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::LockType, (uint8_t *) lockType, sizeof(*lockType)); + return emberAfReadServerAttribute(endpoint, DoorLock::Id, LockType::Id, (uint8_t *) lockType, sizeof(*lockType)); } EmberAfStatus SetLockType(chip::EndpointId endpoint, uint8_t lockType) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::LockType, (uint8_t *) &lockType, ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, LockType::Id, (uint8_t *) &lockType, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetActuatorEnabled(chip::EndpointId endpoint, bool * actuatorEnabled) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::ActuatorEnabled, (uint8_t *) actuatorEnabled, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, ActuatorEnabled::Id, (uint8_t *) actuatorEnabled, sizeof(*actuatorEnabled)); } EmberAfStatus SetActuatorEnabled(chip::EndpointId endpoint, bool actuatorEnabled) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::ActuatorEnabled, (uint8_t *) &actuatorEnabled, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, ActuatorEnabled::Id, (uint8_t *) &actuatorEnabled, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetDoorState(chip::EndpointId endpoint, uint8_t * doorState) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::DoorState, (uint8_t *) doorState, sizeof(*doorState)); + return emberAfReadServerAttribute(endpoint, DoorLock::Id, DoorState::Id, (uint8_t *) doorState, sizeof(*doorState)); } EmberAfStatus SetDoorState(chip::EndpointId endpoint, uint8_t doorState) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::DoorState, (uint8_t *) &doorState, ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, DoorState::Id, (uint8_t *) &doorState, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetDoorOpenEvents(chip::EndpointId endpoint, uint32_t * doorOpenEvents) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::DoorOpenEvents, (uint8_t *) doorOpenEvents, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, DoorOpenEvents::Id, (uint8_t *) doorOpenEvents, sizeof(*doorOpenEvents)); } EmberAfStatus SetDoorOpenEvents(chip::EndpointId endpoint, uint32_t doorOpenEvents) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::DoorOpenEvents, (uint8_t *) &doorOpenEvents, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, DoorOpenEvents::Id, (uint8_t *) &doorOpenEvents, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetDoorClosedEvents(chip::EndpointId endpoint, uint32_t * doorClosedEvents) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::DoorClosedEvents, (uint8_t *) doorClosedEvents, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, DoorClosedEvents::Id, (uint8_t *) doorClosedEvents, sizeof(*doorClosedEvents)); } EmberAfStatus SetDoorClosedEvents(chip::EndpointId endpoint, uint32_t doorClosedEvents) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::DoorClosedEvents, (uint8_t *) &doorClosedEvents, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, DoorClosedEvents::Id, (uint8_t *) &doorClosedEvents, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetOpenPeriod(chip::EndpointId endpoint, uint16_t * openPeriod) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::OpenPeriod, (uint8_t *) openPeriod, sizeof(*openPeriod)); + return emberAfReadServerAttribute(endpoint, DoorLock::Id, OpenPeriod::Id, (uint8_t *) openPeriod, sizeof(*openPeriod)); } EmberAfStatus SetOpenPeriod(chip::EndpointId endpoint, uint16_t openPeriod) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::OpenPeriod, (uint8_t *) &openPeriod, ZCL_INT16U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, OpenPeriod::Id, (uint8_t *) &openPeriod, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetNumLockRecordsSupported(chip::EndpointId endpoint, uint16_t * numLockRecordsSupported) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::NumLockRecordsSupported, (uint8_t *) numLockRecordsSupported, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, NumLockRecordsSupported::Id, (uint8_t *) numLockRecordsSupported, sizeof(*numLockRecordsSupported)); } EmberAfStatus SetNumLockRecordsSupported(chip::EndpointId endpoint, uint16_t numLockRecordsSupported) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::NumLockRecordsSupported, (uint8_t *) &numLockRecordsSupported, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, NumLockRecordsSupported::Id, (uint8_t *) &numLockRecordsSupported, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetNumTotalUsersSupported(chip::EndpointId endpoint, uint16_t * numTotalUsersSupported) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::NumTotalUsersSupported, (uint8_t *) numTotalUsersSupported, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, NumTotalUsersSupported::Id, (uint8_t *) numTotalUsersSupported, sizeof(*numTotalUsersSupported)); } EmberAfStatus SetNumTotalUsersSupported(chip::EndpointId endpoint, uint16_t numTotalUsersSupported) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::NumTotalUsersSupported, (uint8_t *) &numTotalUsersSupported, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, NumTotalUsersSupported::Id, (uint8_t *) &numTotalUsersSupported, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetNumPinUsersSupported(chip::EndpointId endpoint, uint16_t * numPinUsersSupported) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::NumPinUsersSupported, (uint8_t *) numPinUsersSupported, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, NumPinUsersSupported::Id, (uint8_t *) numPinUsersSupported, sizeof(*numPinUsersSupported)); } EmberAfStatus SetNumPinUsersSupported(chip::EndpointId endpoint, uint16_t numPinUsersSupported) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::NumPinUsersSupported, (uint8_t *) &numPinUsersSupported, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, NumPinUsersSupported::Id, (uint8_t *) &numPinUsersSupported, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetNumRfidUsersSupported(chip::EndpointId endpoint, uint16_t * numRfidUsersSupported) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::NumRfidUsersSupported, (uint8_t *) numRfidUsersSupported, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, NumRfidUsersSupported::Id, (uint8_t *) numRfidUsersSupported, sizeof(*numRfidUsersSupported)); } EmberAfStatus SetNumRfidUsersSupported(chip::EndpointId endpoint, uint16_t numRfidUsersSupported) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::NumRfidUsersSupported, (uint8_t *) &numRfidUsersSupported, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, NumRfidUsersSupported::Id, (uint8_t *) &numRfidUsersSupported, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetNumWeekdaySchedulesSupportedPerUser(chip::EndpointId endpoint, uint8_t * numWeekdaySchedulesSupportedPerUser) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::NumWeekdaySchedulesSupportedPerUser, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, NumWeekdaySchedulesSupportedPerUser::Id, (uint8_t *) numWeekdaySchedulesSupportedPerUser, sizeof(*numWeekdaySchedulesSupportedPerUser)); } EmberAfStatus SetNumWeekdaySchedulesSupportedPerUser(chip::EndpointId endpoint, uint8_t numWeekdaySchedulesSupportedPerUser) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::NumWeekdaySchedulesSupportedPerUser, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, NumWeekdaySchedulesSupportedPerUser::Id, (uint8_t *) &numWeekdaySchedulesSupportedPerUser, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetNumYeardaySchedulesSupportedPerUser(chip::EndpointId endpoint, uint8_t * numYeardaySchedulesSupportedPerUser) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::NumYeardaySchedulesSupportedPerUser, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, NumYeardaySchedulesSupportedPerUser::Id, (uint8_t *) numYeardaySchedulesSupportedPerUser, sizeof(*numYeardaySchedulesSupportedPerUser)); } EmberAfStatus SetNumYeardaySchedulesSupportedPerUser(chip::EndpointId endpoint, uint8_t numYeardaySchedulesSupportedPerUser) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::NumYeardaySchedulesSupportedPerUser, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, NumYeardaySchedulesSupportedPerUser::Id, (uint8_t *) &numYeardaySchedulesSupportedPerUser, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetNumHolidaySchedulesSupportedPerUser(chip::EndpointId endpoint, uint8_t * numHolidaySchedulesSupportedPerUser) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::NumHolidaySchedulesSupportedPerUser, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, NumHolidaySchedulesSupportedPerUser::Id, (uint8_t *) numHolidaySchedulesSupportedPerUser, sizeof(*numHolidaySchedulesSupportedPerUser)); } EmberAfStatus SetNumHolidaySchedulesSupportedPerUser(chip::EndpointId endpoint, uint8_t numHolidaySchedulesSupportedPerUser) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::NumHolidaySchedulesSupportedPerUser, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, NumHolidaySchedulesSupportedPerUser::Id, (uint8_t *) &numHolidaySchedulesSupportedPerUser, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxPinLength(chip::EndpointId endpoint, uint8_t * maxPinLength) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::MaxPinLength, (uint8_t *) maxPinLength, sizeof(*maxPinLength)); + return emberAfReadServerAttribute(endpoint, DoorLock::Id, MaxPinLength::Id, (uint8_t *) maxPinLength, sizeof(*maxPinLength)); } EmberAfStatus SetMaxPinLength(chip::EndpointId endpoint, uint8_t maxPinLength) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::MaxPinLength, (uint8_t *) &maxPinLength, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, MaxPinLength::Id, (uint8_t *) &maxPinLength, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetMinPinLength(chip::EndpointId endpoint, uint8_t * minPinLength) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::MinPinLength, (uint8_t *) minPinLength, sizeof(*minPinLength)); + return emberAfReadServerAttribute(endpoint, DoorLock::Id, MinPinLength::Id, (uint8_t *) minPinLength, sizeof(*minPinLength)); } EmberAfStatus SetMinPinLength(chip::EndpointId endpoint, uint8_t minPinLength) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::MinPinLength, (uint8_t *) &minPinLength, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, MinPinLength::Id, (uint8_t *) &minPinLength, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxRfidCodeLength(chip::EndpointId endpoint, uint8_t * maxRfidCodeLength) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::MaxRfidCodeLength, (uint8_t *) maxRfidCodeLength, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, MaxRfidCodeLength::Id, (uint8_t *) maxRfidCodeLength, sizeof(*maxRfidCodeLength)); } EmberAfStatus SetMaxRfidCodeLength(chip::EndpointId endpoint, uint8_t maxRfidCodeLength) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::MaxRfidCodeLength, (uint8_t *) &maxRfidCodeLength, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, MaxRfidCodeLength::Id, (uint8_t *) &maxRfidCodeLength, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetMinRfidCodeLength(chip::EndpointId endpoint, uint8_t * minRfidCodeLength) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::MinRfidCodeLength, (uint8_t *) minRfidCodeLength, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, MinRfidCodeLength::Id, (uint8_t *) minRfidCodeLength, sizeof(*minRfidCodeLength)); } EmberAfStatus SetMinRfidCodeLength(chip::EndpointId endpoint, uint8_t minRfidCodeLength) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::MinRfidCodeLength, (uint8_t *) &minRfidCodeLength, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, MinRfidCodeLength::Id, (uint8_t *) &minRfidCodeLength, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetEnableLogging(chip::EndpointId endpoint, bool * enableLogging) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::EnableLogging, (uint8_t *) enableLogging, - sizeof(*enableLogging)); + return emberAfReadServerAttribute(endpoint, DoorLock::Id, EnableLogging::Id, (uint8_t *) enableLogging, sizeof(*enableLogging)); } EmberAfStatus SetEnableLogging(chip::EndpointId endpoint, bool enableLogging) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::EnableLogging, (uint8_t *) &enableLogging, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, EnableLogging::Id, (uint8_t *) &enableLogging, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetLedSettings(chip::EndpointId endpoint, uint8_t * ledSettings) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::LedSettings, (uint8_t *) ledSettings, sizeof(*ledSettings)); + return emberAfReadServerAttribute(endpoint, DoorLock::Id, LedSettings::Id, (uint8_t *) ledSettings, sizeof(*ledSettings)); } EmberAfStatus SetLedSettings(chip::EndpointId endpoint, uint8_t ledSettings) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::LedSettings, (uint8_t *) &ledSettings, - ZCL_INT8U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, LedSettings::Id, (uint8_t *) &ledSettings, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetAutoRelockTime(chip::EndpointId endpoint, uint32_t * autoRelockTime) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::AutoRelockTime, (uint8_t *) autoRelockTime, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, AutoRelockTime::Id, (uint8_t *) autoRelockTime, sizeof(*autoRelockTime)); } EmberAfStatus SetAutoRelockTime(chip::EndpointId endpoint, uint32_t autoRelockTime) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::AutoRelockTime, (uint8_t *) &autoRelockTime, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, AutoRelockTime::Id, (uint8_t *) &autoRelockTime, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetSoundVolume(chip::EndpointId endpoint, uint8_t * soundVolume) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::SoundVolume, (uint8_t *) soundVolume, sizeof(*soundVolume)); + return emberAfReadServerAttribute(endpoint, DoorLock::Id, SoundVolume::Id, (uint8_t *) soundVolume, sizeof(*soundVolume)); } EmberAfStatus SetSoundVolume(chip::EndpointId endpoint, uint8_t soundVolume) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::SoundVolume, (uint8_t *) &soundVolume, - ZCL_INT8U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, SoundVolume::Id, (uint8_t *) &soundVolume, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetOperatingMode(chip::EndpointId endpoint, uint8_t * operatingMode) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::OperatingMode, (uint8_t *) operatingMode, - sizeof(*operatingMode)); + return emberAfReadServerAttribute(endpoint, DoorLock::Id, OperatingMode::Id, (uint8_t *) operatingMode, sizeof(*operatingMode)); } EmberAfStatus SetOperatingMode(chip::EndpointId endpoint, uint8_t operatingMode) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::OperatingMode, (uint8_t *) &operatingMode, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, OperatingMode::Id, (uint8_t *) &operatingMode, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetSupportedOperatingModes(chip::EndpointId endpoint, uint16_t * supportedOperatingModes) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::SupportedOperatingModes, (uint8_t *) supportedOperatingModes, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, SupportedOperatingModes::Id, (uint8_t *) supportedOperatingModes, sizeof(*supportedOperatingModes)); } EmberAfStatus SetSupportedOperatingModes(chip::EndpointId endpoint, uint16_t supportedOperatingModes) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::SupportedOperatingModes, (uint8_t *) &supportedOperatingModes, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, SupportedOperatingModes::Id, (uint8_t *) &supportedOperatingModes, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetDefaultConfigurationRegister(chip::EndpointId endpoint, uint16_t * defaultConfigurationRegister) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::DefaultConfigurationRegister, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, DefaultConfigurationRegister::Id, (uint8_t *) defaultConfigurationRegister, sizeof(*defaultConfigurationRegister)); } EmberAfStatus SetDefaultConfigurationRegister(chip::EndpointId endpoint, uint16_t defaultConfigurationRegister) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::DefaultConfigurationRegister, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, DefaultConfigurationRegister::Id, (uint8_t *) &defaultConfigurationRegister, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetEnableLocalProgramming(chip::EndpointId endpoint, bool * enableLocalProgramming) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::EnableLocalProgramming, (uint8_t *) enableLocalProgramming, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, EnableLocalProgramming::Id, (uint8_t *) enableLocalProgramming, sizeof(*enableLocalProgramming)); } EmberAfStatus SetEnableLocalProgramming(chip::EndpointId endpoint, bool enableLocalProgramming) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::EnableLocalProgramming, (uint8_t *) &enableLocalProgramming, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, EnableLocalProgramming::Id, (uint8_t *) &enableLocalProgramming, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetEnableOneTouchLocking(chip::EndpointId endpoint, bool * enableOneTouchLocking) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::EnableOneTouchLocking, (uint8_t *) enableOneTouchLocking, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, EnableOneTouchLocking::Id, (uint8_t *) enableOneTouchLocking, sizeof(*enableOneTouchLocking)); } EmberAfStatus SetEnableOneTouchLocking(chip::EndpointId endpoint, bool enableOneTouchLocking) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::EnableOneTouchLocking, (uint8_t *) &enableOneTouchLocking, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, EnableOneTouchLocking::Id, (uint8_t *) &enableOneTouchLocking, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetEnableInsideStatusLed(chip::EndpointId endpoint, bool * enableInsideStatusLed) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::EnableInsideStatusLed, (uint8_t *) enableInsideStatusLed, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, EnableInsideStatusLed::Id, (uint8_t *) enableInsideStatusLed, sizeof(*enableInsideStatusLed)); } EmberAfStatus SetEnableInsideStatusLed(chip::EndpointId endpoint, bool enableInsideStatusLed) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::EnableInsideStatusLed, (uint8_t *) &enableInsideStatusLed, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, EnableInsideStatusLed::Id, (uint8_t *) &enableInsideStatusLed, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetEnablePrivacyModeButton(chip::EndpointId endpoint, bool * enablePrivacyModeButton) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::EnablePrivacyModeButton, (uint8_t *) enablePrivacyModeButton, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, EnablePrivacyModeButton::Id, (uint8_t *) enablePrivacyModeButton, sizeof(*enablePrivacyModeButton)); } EmberAfStatus SetEnablePrivacyModeButton(chip::EndpointId endpoint, bool enablePrivacyModeButton) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::EnablePrivacyModeButton, (uint8_t *) &enablePrivacyModeButton, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, EnablePrivacyModeButton::Id, (uint8_t *) &enablePrivacyModeButton, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetWrongCodeEntryLimit(chip::EndpointId endpoint, uint8_t * wrongCodeEntryLimit) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::WrongCodeEntryLimit, (uint8_t *) wrongCodeEntryLimit, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, WrongCodeEntryLimit::Id, (uint8_t *) wrongCodeEntryLimit, sizeof(*wrongCodeEntryLimit)); } EmberAfStatus SetWrongCodeEntryLimit(chip::EndpointId endpoint, uint8_t wrongCodeEntryLimit) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::WrongCodeEntryLimit, (uint8_t *) &wrongCodeEntryLimit, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, WrongCodeEntryLimit::Id, (uint8_t *) &wrongCodeEntryLimit, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetUserCodeTemporaryDisableTime(chip::EndpointId endpoint, uint8_t * userCodeTemporaryDisableTime) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::UserCodeTemporaryDisableTime, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, UserCodeTemporaryDisableTime::Id, (uint8_t *) userCodeTemporaryDisableTime, sizeof(*userCodeTemporaryDisableTime)); } EmberAfStatus SetUserCodeTemporaryDisableTime(chip::EndpointId endpoint, uint8_t userCodeTemporaryDisableTime) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::UserCodeTemporaryDisableTime, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, UserCodeTemporaryDisableTime::Id, (uint8_t *) &userCodeTemporaryDisableTime, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetSendPinOverTheAir(chip::EndpointId endpoint, bool * sendPinOverTheAir) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::SendPinOverTheAir, (uint8_t *) sendPinOverTheAir, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, SendPinOverTheAir::Id, (uint8_t *) sendPinOverTheAir, sizeof(*sendPinOverTheAir)); } EmberAfStatus SetSendPinOverTheAir(chip::EndpointId endpoint, bool sendPinOverTheAir) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::SendPinOverTheAir, (uint8_t *) &sendPinOverTheAir, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, SendPinOverTheAir::Id, (uint8_t *) &sendPinOverTheAir, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetRequirePinForRfOperation(chip::EndpointId endpoint, bool * requirePinForRfOperation) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::RequirePinForRfOperation, (uint8_t *) requirePinForRfOperation, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, RequirePinForRfOperation::Id, (uint8_t *) requirePinForRfOperation, sizeof(*requirePinForRfOperation)); } EmberAfStatus SetRequirePinForRfOperation(chip::EndpointId endpoint, bool requirePinForRfOperation) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::RequirePinForRfOperation, (uint8_t *) &requirePinForRfOperation, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, RequirePinForRfOperation::Id, (uint8_t *) &requirePinForRfOperation, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetZigbeeSecurityLevel(chip::EndpointId endpoint, uint8_t * zigbeeSecurityLevel) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::ZigbeeSecurityLevel, (uint8_t *) zigbeeSecurityLevel, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, ZigbeeSecurityLevel::Id, (uint8_t *) zigbeeSecurityLevel, sizeof(*zigbeeSecurityLevel)); } EmberAfStatus SetZigbeeSecurityLevel(chip::EndpointId endpoint, uint8_t zigbeeSecurityLevel) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::ZigbeeSecurityLevel, (uint8_t *) &zigbeeSecurityLevel, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, ZigbeeSecurityLevel::Id, (uint8_t *) &zigbeeSecurityLevel, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetAlarmMask(chip::EndpointId endpoint, uint16_t * alarmMask) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::AlarmMask, (uint8_t *) alarmMask, sizeof(*alarmMask)); + return emberAfReadServerAttribute(endpoint, DoorLock::Id, AlarmMask::Id, (uint8_t *) alarmMask, sizeof(*alarmMask)); } EmberAfStatus SetAlarmMask(chip::EndpointId endpoint, uint16_t alarmMask) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::AlarmMask, (uint8_t *) &alarmMask, ZCL_BITMAP16_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, AlarmMask::Id, (uint8_t *) &alarmMask, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetKeypadOperationEventMask(chip::EndpointId endpoint, uint16_t * keypadOperationEventMask) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::KeypadOperationEventMask, (uint8_t *) keypadOperationEventMask, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, KeypadOperationEventMask::Id, (uint8_t *) keypadOperationEventMask, sizeof(*keypadOperationEventMask)); } EmberAfStatus SetKeypadOperationEventMask(chip::EndpointId endpoint, uint16_t keypadOperationEventMask) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::KeypadOperationEventMask, (uint8_t *) &keypadOperationEventMask, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, KeypadOperationEventMask::Id, (uint8_t *) &keypadOperationEventMask, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetRfOperationEventMask(chip::EndpointId endpoint, uint16_t * rfOperationEventMask) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::RfOperationEventMask, (uint8_t *) rfOperationEventMask, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, RfOperationEventMask::Id, (uint8_t *) rfOperationEventMask, sizeof(*rfOperationEventMask)); } EmberAfStatus SetRfOperationEventMask(chip::EndpointId endpoint, uint16_t rfOperationEventMask) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::RfOperationEventMask, (uint8_t *) &rfOperationEventMask, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, RfOperationEventMask::Id, (uint8_t *) &rfOperationEventMask, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetManualOperationEventMask(chip::EndpointId endpoint, uint16_t * manualOperationEventMask) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::ManualOperationEventMask, (uint8_t *) manualOperationEventMask, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, ManualOperationEventMask::Id, (uint8_t *) manualOperationEventMask, sizeof(*manualOperationEventMask)); } EmberAfStatus SetManualOperationEventMask(chip::EndpointId endpoint, uint16_t manualOperationEventMask) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::ManualOperationEventMask, (uint8_t *) &manualOperationEventMask, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, ManualOperationEventMask::Id, (uint8_t *) &manualOperationEventMask, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetRfidOperationEventMask(chip::EndpointId endpoint, uint16_t * rfidOperationEventMask) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::RfidOperationEventMask, (uint8_t *) rfidOperationEventMask, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, RfidOperationEventMask::Id, (uint8_t *) rfidOperationEventMask, sizeof(*rfidOperationEventMask)); } EmberAfStatus SetRfidOperationEventMask(chip::EndpointId endpoint, uint16_t rfidOperationEventMask) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::RfidOperationEventMask, (uint8_t *) &rfidOperationEventMask, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, RfidOperationEventMask::Id, (uint8_t *) &rfidOperationEventMask, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetKeypadProgrammingEventMask(chip::EndpointId endpoint, uint16_t * keypadProgrammingEventMask) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::KeypadProgrammingEventMask, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, KeypadProgrammingEventMask::Id, (uint8_t *) keypadProgrammingEventMask, sizeof(*keypadProgrammingEventMask)); } EmberAfStatus SetKeypadProgrammingEventMask(chip::EndpointId endpoint, uint16_t keypadProgrammingEventMask) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::KeypadProgrammingEventMask, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, KeypadProgrammingEventMask::Id, (uint8_t *) &keypadProgrammingEventMask, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetRfProgrammingEventMask(chip::EndpointId endpoint, uint16_t * rfProgrammingEventMask) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::RfProgrammingEventMask, (uint8_t *) rfProgrammingEventMask, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, RfProgrammingEventMask::Id, (uint8_t *) rfProgrammingEventMask, sizeof(*rfProgrammingEventMask)); } EmberAfStatus SetRfProgrammingEventMask(chip::EndpointId endpoint, uint16_t rfProgrammingEventMask) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::RfProgrammingEventMask, (uint8_t *) &rfProgrammingEventMask, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, RfProgrammingEventMask::Id, (uint8_t *) &rfProgrammingEventMask, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetRfidProgrammingEventMask(chip::EndpointId endpoint, uint16_t * rfidProgrammingEventMask) { - return emberAfReadServerAttribute(endpoint, DoorLock::Id, Ids::RfidProgrammingEventMask, (uint8_t *) rfidProgrammingEventMask, + return emberAfReadServerAttribute(endpoint, DoorLock::Id, RfidProgrammingEventMask::Id, (uint8_t *) rfidProgrammingEventMask, sizeof(*rfidProgrammingEventMask)); } EmberAfStatus SetRfidProgrammingEventMask(chip::EndpointId endpoint, uint16_t rfidProgrammingEventMask) { - return emberAfWriteServerAttribute(endpoint, DoorLock::Id, Ids::RfidProgrammingEventMask, (uint8_t *) &rfidProgrammingEventMask, + return emberAfWriteServerAttribute(endpoint, DoorLock::Id, RfidProgrammingEventMask::Id, (uint8_t *) &rfidProgrammingEventMask, ZCL_BITMAP16_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -3045,248 +3034,248 @@ namespace WindowCovering { namespace Attributes { EmberAfStatus GetType(chip::EndpointId endpoint, uint8_t * type) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::Type, (uint8_t *) type, sizeof(*type)); + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Type::Id, (uint8_t *) type, sizeof(*type)); } EmberAfStatus SetType(chip::EndpointId endpoint, uint8_t type) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::Type, (uint8_t *) &type, ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Type::Id, (uint8_t *) &type, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetPhysicalClosedLimitLift(chip::EndpointId endpoint, uint16_t * physicalClosedLimitLift) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::PhysicalClosedLimitLift, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, PhysicalClosedLimitLift::Id, (uint8_t *) physicalClosedLimitLift, sizeof(*physicalClosedLimitLift)); } EmberAfStatus SetPhysicalClosedLimitLift(chip::EndpointId endpoint, uint16_t physicalClosedLimitLift) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::PhysicalClosedLimitLift, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, PhysicalClosedLimitLift::Id, (uint8_t *) &physicalClosedLimitLift, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPhysicalClosedLimitTilt(chip::EndpointId endpoint, uint16_t * physicalClosedLimitTilt) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::PhysicalClosedLimitTilt, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, PhysicalClosedLimitTilt::Id, (uint8_t *) physicalClosedLimitTilt, sizeof(*physicalClosedLimitTilt)); } EmberAfStatus SetPhysicalClosedLimitTilt(chip::EndpointId endpoint, uint16_t physicalClosedLimitTilt) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::PhysicalClosedLimitTilt, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, PhysicalClosedLimitTilt::Id, (uint8_t *) &physicalClosedLimitTilt, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentPositionLift(chip::EndpointId endpoint, uint16_t * currentPositionLift) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::CurrentPositionLift, (uint8_t *) currentPositionLift, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, CurrentPositionLift::Id, (uint8_t *) currentPositionLift, sizeof(*currentPositionLift)); } EmberAfStatus SetCurrentPositionLift(chip::EndpointId endpoint, uint16_t currentPositionLift) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::CurrentPositionLift, (uint8_t *) ¤tPositionLift, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, CurrentPositionLift::Id, (uint8_t *) ¤tPositionLift, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentPositionTilt(chip::EndpointId endpoint, uint16_t * currentPositionTilt) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::CurrentPositionTilt, (uint8_t *) currentPositionTilt, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, CurrentPositionTilt::Id, (uint8_t *) currentPositionTilt, sizeof(*currentPositionTilt)); } EmberAfStatus SetCurrentPositionTilt(chip::EndpointId endpoint, uint16_t currentPositionTilt) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::CurrentPositionTilt, (uint8_t *) ¤tPositionTilt, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, CurrentPositionTilt::Id, (uint8_t *) ¤tPositionTilt, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetNumberOfActuationsLift(chip::EndpointId endpoint, uint16_t * numberOfActuationsLift) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::NumberOfActuationsLift, (uint8_t *) numberOfActuationsLift, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, NumberOfActuationsLift::Id, (uint8_t *) numberOfActuationsLift, sizeof(*numberOfActuationsLift)); } EmberAfStatus SetNumberOfActuationsLift(chip::EndpointId endpoint, uint16_t numberOfActuationsLift) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::NumberOfActuationsLift, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, NumberOfActuationsLift::Id, (uint8_t *) &numberOfActuationsLift, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetNumberOfActuationsTilt(chip::EndpointId endpoint, uint16_t * numberOfActuationsTilt) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::NumberOfActuationsTilt, (uint8_t *) numberOfActuationsTilt, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, NumberOfActuationsTilt::Id, (uint8_t *) numberOfActuationsTilt, sizeof(*numberOfActuationsTilt)); } EmberAfStatus SetNumberOfActuationsTilt(chip::EndpointId endpoint, uint16_t numberOfActuationsTilt) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::NumberOfActuationsTilt, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, NumberOfActuationsTilt::Id, (uint8_t *) &numberOfActuationsTilt, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetConfigStatus(chip::EndpointId endpoint, uint8_t * configStatus) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::ConfigStatus, (uint8_t *) configStatus, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, ConfigStatus::Id, (uint8_t *) configStatus, sizeof(*configStatus)); } EmberAfStatus SetConfigStatus(chip::EndpointId endpoint, uint8_t configStatus) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::ConfigStatus, (uint8_t *) &configStatus, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, ConfigStatus::Id, (uint8_t *) &configStatus, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentPositionLiftPercentage(chip::EndpointId endpoint, uint8_t * currentPositionLiftPercentage) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::CurrentPositionLiftPercentage, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, CurrentPositionLiftPercentage::Id, (uint8_t *) currentPositionLiftPercentage, sizeof(*currentPositionLiftPercentage)); } EmberAfStatus SetCurrentPositionLiftPercentage(chip::EndpointId endpoint, uint8_t currentPositionLiftPercentage) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::CurrentPositionLiftPercentage, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, CurrentPositionLiftPercentage::Id, (uint8_t *) ¤tPositionLiftPercentage, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentPositionTiltPercentage(chip::EndpointId endpoint, uint8_t * currentPositionTiltPercentage) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::CurrentPositionTiltPercentage, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, CurrentPositionTiltPercentage::Id, (uint8_t *) currentPositionTiltPercentage, sizeof(*currentPositionTiltPercentage)); } EmberAfStatus SetCurrentPositionTiltPercentage(chip::EndpointId endpoint, uint8_t currentPositionTiltPercentage) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::CurrentPositionTiltPercentage, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, CurrentPositionTiltPercentage::Id, (uint8_t *) ¤tPositionTiltPercentage, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetOperationalStatus(chip::EndpointId endpoint, uint8_t * operationalStatus) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::OperationalStatus, (uint8_t *) operationalStatus, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, OperationalStatus::Id, (uint8_t *) operationalStatus, sizeof(*operationalStatus)); } EmberAfStatus SetOperationalStatus(chip::EndpointId endpoint, uint8_t operationalStatus) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::OperationalStatus, (uint8_t *) &operationalStatus, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, OperationalStatus::Id, (uint8_t *) &operationalStatus, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetTargetPositionLiftPercent100ths(chip::EndpointId endpoint, uint16_t * targetPositionLiftPercent100ths) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::TargetPositionLiftPercent100ths, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, TargetPositionLiftPercent100ths::Id, (uint8_t *) targetPositionLiftPercent100ths, sizeof(*targetPositionLiftPercent100ths)); } EmberAfStatus SetTargetPositionLiftPercent100ths(chip::EndpointId endpoint, uint16_t targetPositionLiftPercent100ths) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::TargetPositionLiftPercent100ths, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, TargetPositionLiftPercent100ths::Id, (uint8_t *) &targetPositionLiftPercent100ths, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetTargetPositionTiltPercent100ths(chip::EndpointId endpoint, uint16_t * targetPositionTiltPercent100ths) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::TargetPositionTiltPercent100ths, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, TargetPositionTiltPercent100ths::Id, (uint8_t *) targetPositionTiltPercent100ths, sizeof(*targetPositionTiltPercent100ths)); } EmberAfStatus SetTargetPositionTiltPercent100ths(chip::EndpointId endpoint, uint16_t targetPositionTiltPercent100ths) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::TargetPositionTiltPercent100ths, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, TargetPositionTiltPercent100ths::Id, (uint8_t *) &targetPositionTiltPercent100ths, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetEndProductType(chip::EndpointId endpoint, uint8_t * endProductType) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::EndProductType, (uint8_t *) endProductType, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, EndProductType::Id, (uint8_t *) endProductType, sizeof(*endProductType)); } EmberAfStatus SetEndProductType(chip::EndpointId endpoint, uint8_t endProductType) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::EndProductType, (uint8_t *) &endProductType, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, EndProductType::Id, (uint8_t *) &endProductType, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentPositionLiftPercent100ths(chip::EndpointId endpoint, uint16_t * currentPositionLiftPercent100ths) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::CurrentPositionLiftPercent100ths, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, CurrentPositionLiftPercent100ths::Id, (uint8_t *) currentPositionLiftPercent100ths, sizeof(*currentPositionLiftPercent100ths)); } EmberAfStatus SetCurrentPositionLiftPercent100ths(chip::EndpointId endpoint, uint16_t currentPositionLiftPercent100ths) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::CurrentPositionLiftPercent100ths, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, CurrentPositionLiftPercent100ths::Id, (uint8_t *) ¤tPositionLiftPercent100ths, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentPositionTiltPercent100ths(chip::EndpointId endpoint, uint16_t * currentPositionTiltPercent100ths) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::CurrentPositionTiltPercent100ths, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, CurrentPositionTiltPercent100ths::Id, (uint8_t *) currentPositionTiltPercent100ths, sizeof(*currentPositionTiltPercent100ths)); } EmberAfStatus SetCurrentPositionTiltPercent100ths(chip::EndpointId endpoint, uint16_t currentPositionTiltPercent100ths) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::CurrentPositionTiltPercent100ths, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, CurrentPositionTiltPercent100ths::Id, (uint8_t *) ¤tPositionTiltPercent100ths, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetInstalledOpenLimitLift(chip::EndpointId endpoint, uint16_t * installedOpenLimitLift) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::InstalledOpenLimitLift, (uint8_t *) installedOpenLimitLift, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, InstalledOpenLimitLift::Id, (uint8_t *) installedOpenLimitLift, sizeof(*installedOpenLimitLift)); } EmberAfStatus SetInstalledOpenLimitLift(chip::EndpointId endpoint, uint16_t installedOpenLimitLift) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::InstalledOpenLimitLift, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, InstalledOpenLimitLift::Id, (uint8_t *) &installedOpenLimitLift, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetInstalledClosedLimitLift(chip::EndpointId endpoint, uint16_t * installedClosedLimitLift) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::InstalledClosedLimitLift, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, InstalledClosedLimitLift::Id, (uint8_t *) installedClosedLimitLift, sizeof(*installedClosedLimitLift)); } EmberAfStatus SetInstalledClosedLimitLift(chip::EndpointId endpoint, uint16_t installedClosedLimitLift) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::InstalledClosedLimitLift, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, InstalledClosedLimitLift::Id, (uint8_t *) &installedClosedLimitLift, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetInstalledOpenLimitTilt(chip::EndpointId endpoint, uint16_t * installedOpenLimitTilt) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::InstalledOpenLimitTilt, (uint8_t *) installedOpenLimitTilt, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, InstalledOpenLimitTilt::Id, (uint8_t *) installedOpenLimitTilt, sizeof(*installedOpenLimitTilt)); } EmberAfStatus SetInstalledOpenLimitTilt(chip::EndpointId endpoint, uint16_t installedOpenLimitTilt) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::InstalledOpenLimitTilt, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, InstalledOpenLimitTilt::Id, (uint8_t *) &installedOpenLimitTilt, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetInstalledClosedLimitTilt(chip::EndpointId endpoint, uint16_t * installedClosedLimitTilt) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::InstalledClosedLimitTilt, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, InstalledClosedLimitTilt::Id, (uint8_t *) installedClosedLimitTilt, sizeof(*installedClosedLimitTilt)); } EmberAfStatus SetInstalledClosedLimitTilt(chip::EndpointId endpoint, uint16_t installedClosedLimitTilt) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::InstalledClosedLimitTilt, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, InstalledClosedLimitTilt::Id, (uint8_t *) &installedClosedLimitTilt, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetVelocityLift(chip::EndpointId endpoint, uint16_t * velocityLift) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::VelocityLift, (uint8_t *) velocityLift, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, VelocityLift::Id, (uint8_t *) velocityLift, sizeof(*velocityLift)); } EmberAfStatus SetVelocityLift(chip::EndpointId endpoint, uint16_t velocityLift) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::VelocityLift, (uint8_t *) &velocityLift, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, VelocityLift::Id, (uint8_t *) &velocityLift, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAccelerationTimeLift(chip::EndpointId endpoint, uint16_t * accelerationTimeLift) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::AccelerationTimeLift, (uint8_t *) accelerationTimeLift, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, AccelerationTimeLift::Id, (uint8_t *) accelerationTimeLift, sizeof(*accelerationTimeLift)); } EmberAfStatus SetAccelerationTimeLift(chip::EndpointId endpoint, uint16_t accelerationTimeLift) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::AccelerationTimeLift, (uint8_t *) &accelerationTimeLift, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, AccelerationTimeLift::Id, (uint8_t *) &accelerationTimeLift, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetDecelerationTimeLift(chip::EndpointId endpoint, uint16_t * decelerationTimeLift) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::DecelerationTimeLift, (uint8_t *) decelerationTimeLift, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, DecelerationTimeLift::Id, (uint8_t *) decelerationTimeLift, sizeof(*decelerationTimeLift)); } EmberAfStatus SetDecelerationTimeLift(chip::EndpointId endpoint, uint16_t decelerationTimeLift) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::DecelerationTimeLift, (uint8_t *) &decelerationTimeLift, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, DecelerationTimeLift::Id, (uint8_t *) &decelerationTimeLift, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMode(chip::EndpointId endpoint, uint8_t * mode) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::Mode, (uint8_t *) mode, sizeof(*mode)); + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Mode::Id, (uint8_t *) mode, sizeof(*mode)); } EmberAfStatus SetMode(chip::EndpointId endpoint, uint8_t mode) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::Mode, (uint8_t *) &mode, ZCL_BITMAP8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Mode::Id, (uint8_t *) &mode, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetSafetyStatus(chip::EndpointId endpoint, uint16_t * safetyStatus) { - return emberAfReadServerAttribute(endpoint, WindowCovering::Id, Ids::SafetyStatus, (uint8_t *) safetyStatus, + return emberAfReadServerAttribute(endpoint, WindowCovering::Id, SafetyStatus::Id, (uint8_t *) safetyStatus, sizeof(*safetyStatus)); } EmberAfStatus SetSafetyStatus(chip::EndpointId endpoint, uint16_t safetyStatus) { - return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, Ids::SafetyStatus, (uint8_t *) &safetyStatus, + return emberAfWriteServerAttribute(endpoint, WindowCovering::Id, SafetyStatus::Id, (uint8_t *) &safetyStatus, ZCL_BITMAP16_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -3296,102 +3285,102 @@ namespace BarrierControl { namespace Attributes { EmberAfStatus GetBarrierMovingState(chip::EndpointId endpoint, uint8_t * barrierMovingState) { - return emberAfReadServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierMovingState, (uint8_t *) barrierMovingState, + return emberAfReadServerAttribute(endpoint, BarrierControl::Id, BarrierMovingState::Id, (uint8_t *) barrierMovingState, sizeof(*barrierMovingState)); } EmberAfStatus SetBarrierMovingState(chip::EndpointId endpoint, uint8_t barrierMovingState) { - return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierMovingState, (uint8_t *) &barrierMovingState, + return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, BarrierMovingState::Id, (uint8_t *) &barrierMovingState, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetBarrierSafetyStatus(chip::EndpointId endpoint, uint16_t * barrierSafetyStatus) { - return emberAfReadServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierSafetyStatus, (uint8_t *) barrierSafetyStatus, + return emberAfReadServerAttribute(endpoint, BarrierControl::Id, BarrierSafetyStatus::Id, (uint8_t *) barrierSafetyStatus, sizeof(*barrierSafetyStatus)); } EmberAfStatus SetBarrierSafetyStatus(chip::EndpointId endpoint, uint16_t barrierSafetyStatus) { - return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierSafetyStatus, (uint8_t *) &barrierSafetyStatus, + return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, BarrierSafetyStatus::Id, (uint8_t *) &barrierSafetyStatus, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetBarrierCapabilities(chip::EndpointId endpoint, uint8_t * barrierCapabilities) { - return emberAfReadServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierCapabilities, (uint8_t *) barrierCapabilities, + return emberAfReadServerAttribute(endpoint, BarrierControl::Id, BarrierCapabilities::Id, (uint8_t *) barrierCapabilities, sizeof(*barrierCapabilities)); } EmberAfStatus SetBarrierCapabilities(chip::EndpointId endpoint, uint8_t barrierCapabilities) { - return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierCapabilities, (uint8_t *) &barrierCapabilities, + return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, BarrierCapabilities::Id, (uint8_t *) &barrierCapabilities, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetBarrierOpenEvents(chip::EndpointId endpoint, uint16_t * barrierOpenEvents) { - return emberAfReadServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierOpenEvents, (uint8_t *) barrierOpenEvents, + return emberAfReadServerAttribute(endpoint, BarrierControl::Id, BarrierOpenEvents::Id, (uint8_t *) barrierOpenEvents, sizeof(*barrierOpenEvents)); } EmberAfStatus SetBarrierOpenEvents(chip::EndpointId endpoint, uint16_t barrierOpenEvents) { - return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierOpenEvents, (uint8_t *) &barrierOpenEvents, + return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, BarrierOpenEvents::Id, (uint8_t *) &barrierOpenEvents, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetBarrierCloseEvents(chip::EndpointId endpoint, uint16_t * barrierCloseEvents) { - return emberAfReadServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierCloseEvents, (uint8_t *) barrierCloseEvents, + return emberAfReadServerAttribute(endpoint, BarrierControl::Id, BarrierCloseEvents::Id, (uint8_t *) barrierCloseEvents, sizeof(*barrierCloseEvents)); } EmberAfStatus SetBarrierCloseEvents(chip::EndpointId endpoint, uint16_t barrierCloseEvents) { - return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierCloseEvents, (uint8_t *) &barrierCloseEvents, + return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, BarrierCloseEvents::Id, (uint8_t *) &barrierCloseEvents, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetBarrierCommandOpenEvents(chip::EndpointId endpoint, uint16_t * barrierCommandOpenEvents) { - return emberAfReadServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierCommandOpenEvents, + return emberAfReadServerAttribute(endpoint, BarrierControl::Id, BarrierCommandOpenEvents::Id, (uint8_t *) barrierCommandOpenEvents, sizeof(*barrierCommandOpenEvents)); } EmberAfStatus SetBarrierCommandOpenEvents(chip::EndpointId endpoint, uint16_t barrierCommandOpenEvents) { - return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierCommandOpenEvents, + return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, BarrierCommandOpenEvents::Id, (uint8_t *) &barrierCommandOpenEvents, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetBarrierCommandCloseEvents(chip::EndpointId endpoint, uint16_t * barrierCommandCloseEvents) { - return emberAfReadServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierCommandCloseEvents, + return emberAfReadServerAttribute(endpoint, BarrierControl::Id, BarrierCommandCloseEvents::Id, (uint8_t *) barrierCommandCloseEvents, sizeof(*barrierCommandCloseEvents)); } EmberAfStatus SetBarrierCommandCloseEvents(chip::EndpointId endpoint, uint16_t barrierCommandCloseEvents) { - return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierCommandCloseEvents, + return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, BarrierCommandCloseEvents::Id, (uint8_t *) &barrierCommandCloseEvents, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetBarrierOpenPeriod(chip::EndpointId endpoint, uint16_t * barrierOpenPeriod) { - return emberAfReadServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierOpenPeriod, (uint8_t *) barrierOpenPeriod, + return emberAfReadServerAttribute(endpoint, BarrierControl::Id, BarrierOpenPeriod::Id, (uint8_t *) barrierOpenPeriod, sizeof(*barrierOpenPeriod)); } EmberAfStatus SetBarrierOpenPeriod(chip::EndpointId endpoint, uint16_t barrierOpenPeriod) { - return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierOpenPeriod, (uint8_t *) &barrierOpenPeriod, + return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, BarrierOpenPeriod::Id, (uint8_t *) &barrierOpenPeriod, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetBarrierClosePeriod(chip::EndpointId endpoint, uint16_t * barrierClosePeriod) { - return emberAfReadServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierClosePeriod, (uint8_t *) barrierClosePeriod, + return emberAfReadServerAttribute(endpoint, BarrierControl::Id, BarrierClosePeriod::Id, (uint8_t *) barrierClosePeriod, sizeof(*barrierClosePeriod)); } EmberAfStatus SetBarrierClosePeriod(chip::EndpointId endpoint, uint16_t barrierClosePeriod) { - return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierClosePeriod, (uint8_t *) &barrierClosePeriod, + return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, BarrierClosePeriod::Id, (uint8_t *) &barrierClosePeriod, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetBarrierPosition(chip::EndpointId endpoint, uint8_t * barrierPosition) { - return emberAfReadServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierPosition, (uint8_t *) barrierPosition, + return emberAfReadServerAttribute(endpoint, BarrierControl::Id, BarrierPosition::Id, (uint8_t *) barrierPosition, sizeof(*barrierPosition)); } EmberAfStatus SetBarrierPosition(chip::EndpointId endpoint, uint8_t barrierPosition) { - return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, Ids::BarrierPosition, (uint8_t *) &barrierPosition, + return emberAfWriteServerAttribute(endpoint, BarrierControl::Id, BarrierPosition::Id, (uint8_t *) &barrierPosition, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -3401,221 +3390,221 @@ namespace PumpConfigurationAndControl { namespace Attributes { EmberAfStatus GetMaxPressure(chip::EndpointId endpoint, int16_t * maxPressure) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxPressure, (uint8_t *) maxPressure, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxPressure::Id, (uint8_t *) maxPressure, sizeof(*maxPressure)); } EmberAfStatus SetMaxPressure(chip::EndpointId endpoint, int16_t maxPressure) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxPressure, (uint8_t *) &maxPressure, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxPressure::Id, (uint8_t *) &maxPressure, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxSpeed(chip::EndpointId endpoint, uint16_t * maxSpeed) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxSpeed, (uint8_t *) maxSpeed, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxSpeed::Id, (uint8_t *) maxSpeed, sizeof(*maxSpeed)); } EmberAfStatus SetMaxSpeed(chip::EndpointId endpoint, uint16_t maxSpeed) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxSpeed, (uint8_t *) &maxSpeed, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxSpeed::Id, (uint8_t *) &maxSpeed, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxFlow(chip::EndpointId endpoint, uint16_t * maxFlow) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxFlow, (uint8_t *) maxFlow, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxFlow::Id, (uint8_t *) maxFlow, sizeof(*maxFlow)); } EmberAfStatus SetMaxFlow(chip::EndpointId endpoint, uint16_t maxFlow) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxFlow, (uint8_t *) &maxFlow, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxFlow::Id, (uint8_t *) &maxFlow, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMinConstPressure(chip::EndpointId endpoint, int16_t * minConstPressure) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MinConstPressure, - (uint8_t *) minConstPressure, sizeof(*minConstPressure)); + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MinConstPressure::Id, (uint8_t *) minConstPressure, + sizeof(*minConstPressure)); } EmberAfStatus SetMinConstPressure(chip::EndpointId endpoint, int16_t minConstPressure) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MinConstPressure, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MinConstPressure::Id, (uint8_t *) &minConstPressure, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxConstPressure(chip::EndpointId endpoint, int16_t * maxConstPressure) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxConstPressure, - (uint8_t *) maxConstPressure, sizeof(*maxConstPressure)); + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxConstPressure::Id, (uint8_t *) maxConstPressure, + sizeof(*maxConstPressure)); } EmberAfStatus SetMaxConstPressure(chip::EndpointId endpoint, int16_t maxConstPressure) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxConstPressure, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxConstPressure::Id, (uint8_t *) &maxConstPressure, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMinCompPressure(chip::EndpointId endpoint, int16_t * minCompPressure) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MinCompPressure, (uint8_t *) minCompPressure, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MinCompPressure::Id, (uint8_t *) minCompPressure, sizeof(*minCompPressure)); } EmberAfStatus SetMinCompPressure(chip::EndpointId endpoint, int16_t minCompPressure) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MinCompPressure, - (uint8_t *) &minCompPressure, ZCL_INT16S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MinCompPressure::Id, (uint8_t *) &minCompPressure, + ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxCompPressure(chip::EndpointId endpoint, int16_t * maxCompPressure) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxCompPressure, (uint8_t *) maxCompPressure, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxCompPressure::Id, (uint8_t *) maxCompPressure, sizeof(*maxCompPressure)); } EmberAfStatus SetMaxCompPressure(chip::EndpointId endpoint, int16_t maxCompPressure) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxCompPressure, - (uint8_t *) &maxCompPressure, ZCL_INT16S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxCompPressure::Id, (uint8_t *) &maxCompPressure, + ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMinConstSpeed(chip::EndpointId endpoint, uint16_t * minConstSpeed) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MinConstSpeed, (uint8_t *) minConstSpeed, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MinConstSpeed::Id, (uint8_t *) minConstSpeed, sizeof(*minConstSpeed)); } EmberAfStatus SetMinConstSpeed(chip::EndpointId endpoint, uint16_t minConstSpeed) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MinConstSpeed, (uint8_t *) &minConstSpeed, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MinConstSpeed::Id, (uint8_t *) &minConstSpeed, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxConstSpeed(chip::EndpointId endpoint, uint16_t * maxConstSpeed) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxConstSpeed, (uint8_t *) maxConstSpeed, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxConstSpeed::Id, (uint8_t *) maxConstSpeed, sizeof(*maxConstSpeed)); } EmberAfStatus SetMaxConstSpeed(chip::EndpointId endpoint, uint16_t maxConstSpeed) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxConstSpeed, (uint8_t *) &maxConstSpeed, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxConstSpeed::Id, (uint8_t *) &maxConstSpeed, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMinConstFlow(chip::EndpointId endpoint, uint16_t * minConstFlow) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MinConstFlow, (uint8_t *) minConstFlow, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MinConstFlow::Id, (uint8_t *) minConstFlow, sizeof(*minConstFlow)); } EmberAfStatus SetMinConstFlow(chip::EndpointId endpoint, uint16_t minConstFlow) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MinConstFlow, (uint8_t *) &minConstFlow, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MinConstFlow::Id, (uint8_t *) &minConstFlow, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxConstFlow(chip::EndpointId endpoint, uint16_t * maxConstFlow) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxConstFlow, (uint8_t *) maxConstFlow, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxConstFlow::Id, (uint8_t *) maxConstFlow, sizeof(*maxConstFlow)); } EmberAfStatus SetMaxConstFlow(chip::EndpointId endpoint, uint16_t maxConstFlow) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxConstFlow, (uint8_t *) &maxConstFlow, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxConstFlow::Id, (uint8_t *) &maxConstFlow, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMinConstTemp(chip::EndpointId endpoint, int16_t * minConstTemp) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MinConstTemp, (uint8_t *) minConstTemp, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MinConstTemp::Id, (uint8_t *) minConstTemp, sizeof(*minConstTemp)); } EmberAfStatus SetMinConstTemp(chip::EndpointId endpoint, int16_t minConstTemp) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MinConstTemp, (uint8_t *) &minConstTemp, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MinConstTemp::Id, (uint8_t *) &minConstTemp, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxConstTemp(chip::EndpointId endpoint, int16_t * maxConstTemp) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxConstTemp, (uint8_t *) maxConstTemp, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxConstTemp::Id, (uint8_t *) maxConstTemp, sizeof(*maxConstTemp)); } EmberAfStatus SetMaxConstTemp(chip::EndpointId endpoint, int16_t maxConstTemp) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::MaxConstTemp, (uint8_t *) &maxConstTemp, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, MaxConstTemp::Id, (uint8_t *) &maxConstTemp, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetPumpStatus(chip::EndpointId endpoint, uint16_t * pumpStatus) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::PumpStatus, (uint8_t *) pumpStatus, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, PumpStatus::Id, (uint8_t *) pumpStatus, sizeof(*pumpStatus)); } EmberAfStatus SetPumpStatus(chip::EndpointId endpoint, uint16_t pumpStatus) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::PumpStatus, (uint8_t *) &pumpStatus, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, PumpStatus::Id, (uint8_t *) &pumpStatus, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetEffectiveOperationMode(chip::EndpointId endpoint, uint8_t * effectiveOperationMode) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::EffectiveOperationMode, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, EffectiveOperationMode::Id, (uint8_t *) effectiveOperationMode, sizeof(*effectiveOperationMode)); } EmberAfStatus SetEffectiveOperationMode(chip::EndpointId endpoint, uint8_t effectiveOperationMode) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::EffectiveOperationMode, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, EffectiveOperationMode::Id, (uint8_t *) &effectiveOperationMode, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetEffectiveControlMode(chip::EndpointId endpoint, uint8_t * effectiveControlMode) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::EffectiveControlMode, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, EffectiveControlMode::Id, (uint8_t *) effectiveControlMode, sizeof(*effectiveControlMode)); } EmberAfStatus SetEffectiveControlMode(chip::EndpointId endpoint, uint8_t effectiveControlMode) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::EffectiveControlMode, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, EffectiveControlMode::Id, (uint8_t *) &effectiveControlMode, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetCapacity(chip::EndpointId endpoint, int16_t * capacity) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::Capacity, (uint8_t *) capacity, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Capacity::Id, (uint8_t *) capacity, sizeof(*capacity)); } EmberAfStatus SetCapacity(chip::EndpointId endpoint, int16_t capacity) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::Capacity, (uint8_t *) &capacity, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Capacity::Id, (uint8_t *) &capacity, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetSpeed(chip::EndpointId endpoint, uint16_t * speed) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::Speed, (uint8_t *) speed, sizeof(*speed)); + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Speed::Id, (uint8_t *) speed, sizeof(*speed)); } EmberAfStatus SetSpeed(chip::EndpointId endpoint, uint16_t speed) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::Speed, (uint8_t *) &speed, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Speed::Id, (uint8_t *) &speed, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetLifetimeEnergyConsumed(chip::EndpointId endpoint, uint32_t * lifetimeEnergyConsumed) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::LifetimeEnergyConsumed, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, LifetimeEnergyConsumed::Id, (uint8_t *) lifetimeEnergyConsumed, sizeof(*lifetimeEnergyConsumed)); } EmberAfStatus SetLifetimeEnergyConsumed(chip::EndpointId endpoint, uint32_t lifetimeEnergyConsumed) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::LifetimeEnergyConsumed, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, LifetimeEnergyConsumed::Id, (uint8_t *) &lifetimeEnergyConsumed, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetOperationMode(chip::EndpointId endpoint, uint8_t * operationMode) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::OperationMode, (uint8_t *) operationMode, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, OperationMode::Id, (uint8_t *) operationMode, sizeof(*operationMode)); } EmberAfStatus SetOperationMode(chip::EndpointId endpoint, uint8_t operationMode) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::OperationMode, (uint8_t *) &operationMode, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, OperationMode::Id, (uint8_t *) &operationMode, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetControlMode(chip::EndpointId endpoint, uint8_t * controlMode) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::ControlMode, (uint8_t *) controlMode, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, ControlMode::Id, (uint8_t *) controlMode, sizeof(*controlMode)); } EmberAfStatus SetControlMode(chip::EndpointId endpoint, uint8_t controlMode) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::ControlMode, (uint8_t *) &controlMode, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, ControlMode::Id, (uint8_t *) &controlMode, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetAlarmMask(chip::EndpointId endpoint, uint16_t * alarmMask) { - return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::AlarmMask, (uint8_t *) alarmMask, + return emberAfReadServerAttribute(endpoint, PumpConfigurationAndControl::Id, AlarmMask::Id, (uint8_t *) alarmMask, sizeof(*alarmMask)); } EmberAfStatus SetAlarmMask(chip::EndpointId endpoint, uint16_t alarmMask) { - return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, Ids::AlarmMask, (uint8_t *) &alarmMask, + return emberAfWriteServerAttribute(endpoint, PumpConfigurationAndControl::Id, AlarmMask::Id, (uint8_t *) &alarmMask, ZCL_BITMAP16_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -3625,425 +3614,422 @@ namespace Thermostat { namespace Attributes { EmberAfStatus GetLocalTemperature(chip::EndpointId endpoint, int16_t * localTemperature) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::LocalTemperature, (uint8_t *) localTemperature, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, LocalTemperature::Id, (uint8_t *) localTemperature, sizeof(*localTemperature)); } EmberAfStatus SetLocalTemperature(chip::EndpointId endpoint, int16_t localTemperature) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::LocalTemperature, (uint8_t *) &localTemperature, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, LocalTemperature::Id, (uint8_t *) &localTemperature, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetOutdoorTemperature(chip::EndpointId endpoint, int16_t * outdoorTemperature) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::OutdoorTemperature, (uint8_t *) outdoorTemperature, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, OutdoorTemperature::Id, (uint8_t *) outdoorTemperature, sizeof(*outdoorTemperature)); } EmberAfStatus SetOutdoorTemperature(chip::EndpointId endpoint, int16_t outdoorTemperature) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::OutdoorTemperature, (uint8_t *) &outdoorTemperature, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, OutdoorTemperature::Id, (uint8_t *) &outdoorTemperature, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetOccupancy(chip::EndpointId endpoint, uint8_t * occupancy) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::Occupancy, (uint8_t *) occupancy, sizeof(*occupancy)); + return emberAfReadServerAttribute(endpoint, Thermostat::Id, Occupancy::Id, (uint8_t *) occupancy, sizeof(*occupancy)); } EmberAfStatus SetOccupancy(chip::EndpointId endpoint, uint8_t occupancy) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::Occupancy, (uint8_t *) &occupancy, - ZCL_BITMAP8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Occupancy::Id, (uint8_t *) &occupancy, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetAbsMinHeatSetpointLimit(chip::EndpointId endpoint, int16_t * absMinHeatSetpointLimit) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AbsMinHeatSetpointLimit, (uint8_t *) absMinHeatSetpointLimit, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AbsMinHeatSetpointLimit::Id, (uint8_t *) absMinHeatSetpointLimit, sizeof(*absMinHeatSetpointLimit)); } EmberAfStatus SetAbsMinHeatSetpointLimit(chip::EndpointId endpoint, int16_t absMinHeatSetpointLimit) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AbsMinHeatSetpointLimit, (uint8_t *) &absMinHeatSetpointLimit, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AbsMinHeatSetpointLimit::Id, (uint8_t *) &absMinHeatSetpointLimit, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetAbsMaxHeatSetpointLimit(chip::EndpointId endpoint, int16_t * absMaxHeatSetpointLimit) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AbsMaxHeatSetpointLimit, (uint8_t *) absMaxHeatSetpointLimit, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AbsMaxHeatSetpointLimit::Id, (uint8_t *) absMaxHeatSetpointLimit, sizeof(*absMaxHeatSetpointLimit)); } EmberAfStatus SetAbsMaxHeatSetpointLimit(chip::EndpointId endpoint, int16_t absMaxHeatSetpointLimit) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AbsMaxHeatSetpointLimit, (uint8_t *) &absMaxHeatSetpointLimit, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AbsMaxHeatSetpointLimit::Id, (uint8_t *) &absMaxHeatSetpointLimit, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetAbsMinCoolSetpointLimit(chip::EndpointId endpoint, int16_t * absMinCoolSetpointLimit) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AbsMinCoolSetpointLimit, (uint8_t *) absMinCoolSetpointLimit, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AbsMinCoolSetpointLimit::Id, (uint8_t *) absMinCoolSetpointLimit, sizeof(*absMinCoolSetpointLimit)); } EmberAfStatus SetAbsMinCoolSetpointLimit(chip::EndpointId endpoint, int16_t absMinCoolSetpointLimit) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AbsMinCoolSetpointLimit, (uint8_t *) &absMinCoolSetpointLimit, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AbsMinCoolSetpointLimit::Id, (uint8_t *) &absMinCoolSetpointLimit, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetAbsMaxCoolSetpointLimit(chip::EndpointId endpoint, int16_t * absMaxCoolSetpointLimit) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AbsMaxCoolSetpointLimit, (uint8_t *) absMaxCoolSetpointLimit, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AbsMaxCoolSetpointLimit::Id, (uint8_t *) absMaxCoolSetpointLimit, sizeof(*absMaxCoolSetpointLimit)); } EmberAfStatus SetAbsMaxCoolSetpointLimit(chip::EndpointId endpoint, int16_t absMaxCoolSetpointLimit) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AbsMaxCoolSetpointLimit, (uint8_t *) &absMaxCoolSetpointLimit, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AbsMaxCoolSetpointLimit::Id, (uint8_t *) &absMaxCoolSetpointLimit, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetPiCoolingDemand(chip::EndpointId endpoint, uint8_t * piCoolingDemand) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::PiCoolingDemand, (uint8_t *) piCoolingDemand, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, PiCoolingDemand::Id, (uint8_t *) piCoolingDemand, sizeof(*piCoolingDemand)); } EmberAfStatus SetPiCoolingDemand(chip::EndpointId endpoint, uint8_t piCoolingDemand) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::PiCoolingDemand, (uint8_t *) &piCoolingDemand, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, PiCoolingDemand::Id, (uint8_t *) &piCoolingDemand, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetPiHeatingDemand(chip::EndpointId endpoint, uint8_t * piHeatingDemand) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::PiHeatingDemand, (uint8_t *) piHeatingDemand, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, PiHeatingDemand::Id, (uint8_t *) piHeatingDemand, sizeof(*piHeatingDemand)); } EmberAfStatus SetPiHeatingDemand(chip::EndpointId endpoint, uint8_t piHeatingDemand) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::PiHeatingDemand, (uint8_t *) &piHeatingDemand, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, PiHeatingDemand::Id, (uint8_t *) &piHeatingDemand, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetHvacSystemTypeConfiguration(chip::EndpointId endpoint, uint8_t * hvacSystemTypeConfiguration) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::HvacSystemTypeConfiguration, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, HvacSystemTypeConfiguration::Id, (uint8_t *) hvacSystemTypeConfiguration, sizeof(*hvacSystemTypeConfiguration)); } EmberAfStatus SetHvacSystemTypeConfiguration(chip::EndpointId endpoint, uint8_t hvacSystemTypeConfiguration) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::HvacSystemTypeConfiguration, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, HvacSystemTypeConfiguration::Id, (uint8_t *) &hvacSystemTypeConfiguration, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetLocalTemperatureCalibration(chip::EndpointId endpoint, int8_t * localTemperatureCalibration) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::LocalTemperatureCalibration, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, LocalTemperatureCalibration::Id, (uint8_t *) localTemperatureCalibration, sizeof(*localTemperatureCalibration)); } EmberAfStatus SetLocalTemperatureCalibration(chip::EndpointId endpoint, int8_t localTemperatureCalibration) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::LocalTemperatureCalibration, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, LocalTemperatureCalibration::Id, (uint8_t *) &localTemperatureCalibration, ZCL_INT8S_ATTRIBUTE_TYPE); } EmberAfStatus GetOccupiedCoolingSetpoint(chip::EndpointId endpoint, int16_t * occupiedCoolingSetpoint) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::OccupiedCoolingSetpoint, (uint8_t *) occupiedCoolingSetpoint, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, OccupiedCoolingSetpoint::Id, (uint8_t *) occupiedCoolingSetpoint, sizeof(*occupiedCoolingSetpoint)); } EmberAfStatus SetOccupiedCoolingSetpoint(chip::EndpointId endpoint, int16_t occupiedCoolingSetpoint) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::OccupiedCoolingSetpoint, (uint8_t *) &occupiedCoolingSetpoint, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, OccupiedCoolingSetpoint::Id, (uint8_t *) &occupiedCoolingSetpoint, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetOccupiedHeatingSetpoint(chip::EndpointId endpoint, int16_t * occupiedHeatingSetpoint) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::OccupiedHeatingSetpoint, (uint8_t *) occupiedHeatingSetpoint, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, OccupiedHeatingSetpoint::Id, (uint8_t *) occupiedHeatingSetpoint, sizeof(*occupiedHeatingSetpoint)); } EmberAfStatus SetOccupiedHeatingSetpoint(chip::EndpointId endpoint, int16_t occupiedHeatingSetpoint) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::OccupiedHeatingSetpoint, (uint8_t *) &occupiedHeatingSetpoint, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, OccupiedHeatingSetpoint::Id, (uint8_t *) &occupiedHeatingSetpoint, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetUnoccupiedCoolingSetpoint(chip::EndpointId endpoint, int16_t * unoccupiedCoolingSetpoint) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::UnoccupiedCoolingSetpoint, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, UnoccupiedCoolingSetpoint::Id, (uint8_t *) unoccupiedCoolingSetpoint, sizeof(*unoccupiedCoolingSetpoint)); } EmberAfStatus SetUnoccupiedCoolingSetpoint(chip::EndpointId endpoint, int16_t unoccupiedCoolingSetpoint) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::UnoccupiedCoolingSetpoint, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, UnoccupiedCoolingSetpoint::Id, (uint8_t *) &unoccupiedCoolingSetpoint, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetUnoccupiedHeatingSetpoint(chip::EndpointId endpoint, int16_t * unoccupiedHeatingSetpoint) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::UnoccupiedHeatingSetpoint, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, UnoccupiedHeatingSetpoint::Id, (uint8_t *) unoccupiedHeatingSetpoint, sizeof(*unoccupiedHeatingSetpoint)); } EmberAfStatus SetUnoccupiedHeatingSetpoint(chip::EndpointId endpoint, int16_t unoccupiedHeatingSetpoint) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::UnoccupiedHeatingSetpoint, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, UnoccupiedHeatingSetpoint::Id, (uint8_t *) &unoccupiedHeatingSetpoint, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMinHeatSetpointLimit(chip::EndpointId endpoint, int16_t * minHeatSetpointLimit) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::MinHeatSetpointLimit, (uint8_t *) minHeatSetpointLimit, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, MinHeatSetpointLimit::Id, (uint8_t *) minHeatSetpointLimit, sizeof(*minHeatSetpointLimit)); } EmberAfStatus SetMinHeatSetpointLimit(chip::EndpointId endpoint, int16_t minHeatSetpointLimit) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::MinHeatSetpointLimit, (uint8_t *) &minHeatSetpointLimit, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, MinHeatSetpointLimit::Id, (uint8_t *) &minHeatSetpointLimit, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxHeatSetpointLimit(chip::EndpointId endpoint, int16_t * maxHeatSetpointLimit) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::MaxHeatSetpointLimit, (uint8_t *) maxHeatSetpointLimit, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, MaxHeatSetpointLimit::Id, (uint8_t *) maxHeatSetpointLimit, sizeof(*maxHeatSetpointLimit)); } EmberAfStatus SetMaxHeatSetpointLimit(chip::EndpointId endpoint, int16_t maxHeatSetpointLimit) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::MaxHeatSetpointLimit, (uint8_t *) &maxHeatSetpointLimit, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, MaxHeatSetpointLimit::Id, (uint8_t *) &maxHeatSetpointLimit, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMinCoolSetpointLimit(chip::EndpointId endpoint, int16_t * minCoolSetpointLimit) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::MinCoolSetpointLimit, (uint8_t *) minCoolSetpointLimit, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, MinCoolSetpointLimit::Id, (uint8_t *) minCoolSetpointLimit, sizeof(*minCoolSetpointLimit)); } EmberAfStatus SetMinCoolSetpointLimit(chip::EndpointId endpoint, int16_t minCoolSetpointLimit) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::MinCoolSetpointLimit, (uint8_t *) &minCoolSetpointLimit, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, MinCoolSetpointLimit::Id, (uint8_t *) &minCoolSetpointLimit, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxCoolSetpointLimit(chip::EndpointId endpoint, int16_t * maxCoolSetpointLimit) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::MaxCoolSetpointLimit, (uint8_t *) maxCoolSetpointLimit, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, MaxCoolSetpointLimit::Id, (uint8_t *) maxCoolSetpointLimit, sizeof(*maxCoolSetpointLimit)); } EmberAfStatus SetMaxCoolSetpointLimit(chip::EndpointId endpoint, int16_t maxCoolSetpointLimit) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::MaxCoolSetpointLimit, (uint8_t *) &maxCoolSetpointLimit, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, MaxCoolSetpointLimit::Id, (uint8_t *) &maxCoolSetpointLimit, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMinSetpointDeadBand(chip::EndpointId endpoint, int8_t * minSetpointDeadBand) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::MinSetpointDeadBand, (uint8_t *) minSetpointDeadBand, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, MinSetpointDeadBand::Id, (uint8_t *) minSetpointDeadBand, sizeof(*minSetpointDeadBand)); } EmberAfStatus SetMinSetpointDeadBand(chip::EndpointId endpoint, int8_t minSetpointDeadBand) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::MinSetpointDeadBand, (uint8_t *) &minSetpointDeadBand, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, MinSetpointDeadBand::Id, (uint8_t *) &minSetpointDeadBand, ZCL_INT8S_ATTRIBUTE_TYPE); } EmberAfStatus GetRemoteSensing(chip::EndpointId endpoint, uint8_t * remoteSensing) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::RemoteSensing, (uint8_t *) remoteSensing, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, RemoteSensing::Id, (uint8_t *) remoteSensing, sizeof(*remoteSensing)); } EmberAfStatus SetRemoteSensing(chip::EndpointId endpoint, uint8_t remoteSensing) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::RemoteSensing, (uint8_t *) &remoteSensing, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, RemoteSensing::Id, (uint8_t *) &remoteSensing, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetControlSequenceOfOperation(chip::EndpointId endpoint, uint8_t * controlSequenceOfOperation) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::ControlSequenceOfOperation, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, ControlSequenceOfOperation::Id, (uint8_t *) controlSequenceOfOperation, sizeof(*controlSequenceOfOperation)); } EmberAfStatus SetControlSequenceOfOperation(chip::EndpointId endpoint, uint8_t controlSequenceOfOperation) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::ControlSequenceOfOperation, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, ControlSequenceOfOperation::Id, (uint8_t *) &controlSequenceOfOperation, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetSystemMode(chip::EndpointId endpoint, uint8_t * systemMode) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::SystemMode, (uint8_t *) systemMode, sizeof(*systemMode)); + return emberAfReadServerAttribute(endpoint, Thermostat::Id, SystemMode::Id, (uint8_t *) systemMode, sizeof(*systemMode)); } EmberAfStatus SetSystemMode(chip::EndpointId endpoint, uint8_t systemMode) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::SystemMode, (uint8_t *) &systemMode, - ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, SystemMode::Id, (uint8_t *) &systemMode, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetAlarmMask(chip::EndpointId endpoint, uint8_t * alarmMask) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AlarmMask, (uint8_t *) alarmMask, sizeof(*alarmMask)); + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AlarmMask::Id, (uint8_t *) alarmMask, sizeof(*alarmMask)); } EmberAfStatus SetAlarmMask(chip::EndpointId endpoint, uint8_t alarmMask) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AlarmMask, (uint8_t *) &alarmMask, - ZCL_BITMAP8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AlarmMask::Id, (uint8_t *) &alarmMask, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetThermostatRunningMode(chip::EndpointId endpoint, uint8_t * thermostatRunningMode) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::ThermostatRunningMode, (uint8_t *) thermostatRunningMode, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, ThermostatRunningMode::Id, (uint8_t *) thermostatRunningMode, sizeof(*thermostatRunningMode)); } EmberAfStatus SetThermostatRunningMode(chip::EndpointId endpoint, uint8_t thermostatRunningMode) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::ThermostatRunningMode, (uint8_t *) &thermostatRunningMode, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, ThermostatRunningMode::Id, (uint8_t *) &thermostatRunningMode, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetStartOfWeek(chip::EndpointId endpoint, uint8_t * startOfWeek) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::StartOfWeek, (uint8_t *) startOfWeek, sizeof(*startOfWeek)); + return emberAfReadServerAttribute(endpoint, Thermostat::Id, StartOfWeek::Id, (uint8_t *) startOfWeek, sizeof(*startOfWeek)); } EmberAfStatus SetStartOfWeek(chip::EndpointId endpoint, uint8_t startOfWeek) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::StartOfWeek, (uint8_t *) &startOfWeek, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, StartOfWeek::Id, (uint8_t *) &startOfWeek, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetNumberOfWeeklyTransitions(chip::EndpointId endpoint, uint8_t * numberOfWeeklyTransitions) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::NumberOfWeeklyTransitions, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, NumberOfWeeklyTransitions::Id, (uint8_t *) numberOfWeeklyTransitions, sizeof(*numberOfWeeklyTransitions)); } EmberAfStatus SetNumberOfWeeklyTransitions(chip::EndpointId endpoint, uint8_t numberOfWeeklyTransitions) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::NumberOfWeeklyTransitions, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, NumberOfWeeklyTransitions::Id, (uint8_t *) &numberOfWeeklyTransitions, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetNumberOfDailyTransitions(chip::EndpointId endpoint, uint8_t * numberOfDailyTransitions) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::NumberOfDailyTransitions, (uint8_t *) numberOfDailyTransitions, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, NumberOfDailyTransitions::Id, (uint8_t *) numberOfDailyTransitions, sizeof(*numberOfDailyTransitions)); } EmberAfStatus SetNumberOfDailyTransitions(chip::EndpointId endpoint, uint8_t numberOfDailyTransitions) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::NumberOfDailyTransitions, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, NumberOfDailyTransitions::Id, (uint8_t *) &numberOfDailyTransitions, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetTemperatureSetpointHold(chip::EndpointId endpoint, uint8_t * temperatureSetpointHold) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::TemperatureSetpointHold, (uint8_t *) temperatureSetpointHold, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, TemperatureSetpointHold::Id, (uint8_t *) temperatureSetpointHold, sizeof(*temperatureSetpointHold)); } EmberAfStatus SetTemperatureSetpointHold(chip::EndpointId endpoint, uint8_t temperatureSetpointHold) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::TemperatureSetpointHold, (uint8_t *) &temperatureSetpointHold, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, TemperatureSetpointHold::Id, (uint8_t *) &temperatureSetpointHold, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetTemperatureSetpointHoldDuration(chip::EndpointId endpoint, uint16_t * temperatureSetpointHoldDuration) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::TemperatureSetpointHoldDuration, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, TemperatureSetpointHoldDuration::Id, (uint8_t *) temperatureSetpointHoldDuration, sizeof(*temperatureSetpointHoldDuration)); } EmberAfStatus SetTemperatureSetpointHoldDuration(chip::EndpointId endpoint, uint16_t temperatureSetpointHoldDuration) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::TemperatureSetpointHoldDuration, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, TemperatureSetpointHoldDuration::Id, (uint8_t *) &temperatureSetpointHoldDuration, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetThermostatProgrammingOperationMode(chip::EndpointId endpoint, uint8_t * thermostatProgrammingOperationMode) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::ThermostatProgrammingOperationMode, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, ThermostatProgrammingOperationMode::Id, (uint8_t *) thermostatProgrammingOperationMode, sizeof(*thermostatProgrammingOperationMode)); } EmberAfStatus SetThermostatProgrammingOperationMode(chip::EndpointId endpoint, uint8_t thermostatProgrammingOperationMode) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::ThermostatProgrammingOperationMode, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, ThermostatProgrammingOperationMode::Id, (uint8_t *) &thermostatProgrammingOperationMode, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetHvacRelayState(chip::EndpointId endpoint, uint16_t * hvacRelayState) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::HvacRelayState, (uint8_t *) hvacRelayState, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, HvacRelayState::Id, (uint8_t *) hvacRelayState, sizeof(*hvacRelayState)); } EmberAfStatus SetHvacRelayState(chip::EndpointId endpoint, uint16_t hvacRelayState) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::HvacRelayState, (uint8_t *) &hvacRelayState, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, HvacRelayState::Id, (uint8_t *) &hvacRelayState, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetSetpointChangeSource(chip::EndpointId endpoint, uint8_t * setpointChangeSource) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::SetpointChangeSource, (uint8_t *) setpointChangeSource, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, SetpointChangeSource::Id, (uint8_t *) setpointChangeSource, sizeof(*setpointChangeSource)); } EmberAfStatus SetSetpointChangeSource(chip::EndpointId endpoint, uint8_t setpointChangeSource) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::SetpointChangeSource, (uint8_t *) &setpointChangeSource, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, SetpointChangeSource::Id, (uint8_t *) &setpointChangeSource, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetSetpointChangeAmount(chip::EndpointId endpoint, int16_t * setpointChangeAmount) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::SetpointChangeAmount, (uint8_t *) setpointChangeAmount, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, SetpointChangeAmount::Id, (uint8_t *) setpointChangeAmount, sizeof(*setpointChangeAmount)); } EmberAfStatus SetSetpointChangeAmount(chip::EndpointId endpoint, int16_t setpointChangeAmount) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::SetpointChangeAmount, (uint8_t *) &setpointChangeAmount, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, SetpointChangeAmount::Id, (uint8_t *) &setpointChangeAmount, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetSetpointChangeSourceTimestamp(chip::EndpointId endpoint, /* TYPE WARNING: utc defaults to */ uint8_t ** setpointChangeSourceTimestamp) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::SetpointChangeSourceTimestamp, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, SetpointChangeSourceTimestamp::Id, (uint8_t *) setpointChangeSourceTimestamp, sizeof(*setpointChangeSourceTimestamp)); } EmberAfStatus SetSetpointChangeSourceTimestamp(chip::EndpointId endpoint, /* TYPE WARNING: utc defaults to */ uint8_t * setpointChangeSourceTimestamp) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::SetpointChangeSourceTimestamp, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, SetpointChangeSourceTimestamp::Id, (uint8_t *) &setpointChangeSourceTimestamp, ZCL_UTC_ATTRIBUTE_TYPE); } EmberAfStatus GetAcType(chip::EndpointId endpoint, uint8_t * acType) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AcType, (uint8_t *) acType, sizeof(*acType)); + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AcType::Id, (uint8_t *) acType, sizeof(*acType)); } EmberAfStatus SetAcType(chip::EndpointId endpoint, uint8_t acType) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AcType, (uint8_t *) &acType, ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AcType::Id, (uint8_t *) &acType, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetAcCapacity(chip::EndpointId endpoint, uint16_t * acCapacity) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AcCapacity, (uint8_t *) acCapacity, sizeof(*acCapacity)); + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AcCapacity::Id, (uint8_t *) acCapacity, sizeof(*acCapacity)); } EmberAfStatus SetAcCapacity(chip::EndpointId endpoint, uint16_t acCapacity) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AcCapacity, (uint8_t *) &acCapacity, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AcCapacity::Id, (uint8_t *) &acCapacity, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAcRefrigerantType(chip::EndpointId endpoint, uint8_t * acRefrigerantType) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AcRefrigerantType, (uint8_t *) acRefrigerantType, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AcRefrigerantType::Id, (uint8_t *) acRefrigerantType, sizeof(*acRefrigerantType)); } EmberAfStatus SetAcRefrigerantType(chip::EndpointId endpoint, uint8_t acRefrigerantType) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AcRefrigerantType, (uint8_t *) &acRefrigerantType, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AcRefrigerantType::Id, (uint8_t *) &acRefrigerantType, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetAcCompressor(chip::EndpointId endpoint, uint8_t * acCompressor) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AcCompressor, (uint8_t *) acCompressor, sizeof(*acCompressor)); + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AcCompressor::Id, (uint8_t *) acCompressor, sizeof(*acCompressor)); } EmberAfStatus SetAcCompressor(chip::EndpointId endpoint, uint8_t acCompressor) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AcCompressor, (uint8_t *) &acCompressor, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AcCompressor::Id, (uint8_t *) &acCompressor, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetAcErrorCode(chip::EndpointId endpoint, uint32_t * acErrorCode) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AcErrorCode, (uint8_t *) acErrorCode, sizeof(*acErrorCode)); + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AcErrorCode::Id, (uint8_t *) acErrorCode, sizeof(*acErrorCode)); } EmberAfStatus SetAcErrorCode(chip::EndpointId endpoint, uint32_t acErrorCode) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AcErrorCode, (uint8_t *) &acErrorCode, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AcErrorCode::Id, (uint8_t *) &acErrorCode, ZCL_BITMAP32_ATTRIBUTE_TYPE); } EmberAfStatus GetAcLouverPosition(chip::EndpointId endpoint, uint8_t * acLouverPosition) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AcLouverPosition, (uint8_t *) acLouverPosition, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AcLouverPosition::Id, (uint8_t *) acLouverPosition, sizeof(*acLouverPosition)); } EmberAfStatus SetAcLouverPosition(chip::EndpointId endpoint, uint8_t acLouverPosition) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AcLouverPosition, (uint8_t *) &acLouverPosition, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AcLouverPosition::Id, (uint8_t *) &acLouverPosition, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetAcCoilTemperature(chip::EndpointId endpoint, int16_t * acCoilTemperature) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AcCoilTemperature, (uint8_t *) acCoilTemperature, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AcCoilTemperature::Id, (uint8_t *) acCoilTemperature, sizeof(*acCoilTemperature)); } EmberAfStatus SetAcCoilTemperature(chip::EndpointId endpoint, int16_t acCoilTemperature) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AcCoilTemperature, (uint8_t *) &acCoilTemperature, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AcCoilTemperature::Id, (uint8_t *) &acCoilTemperature, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetAcCapacityFormat(chip::EndpointId endpoint, uint8_t * acCapacityFormat) { - return emberAfReadServerAttribute(endpoint, Thermostat::Id, Ids::AcCapacityFormat, (uint8_t *) acCapacityFormat, + return emberAfReadServerAttribute(endpoint, Thermostat::Id, AcCapacityFormat::Id, (uint8_t *) acCapacityFormat, sizeof(*acCapacityFormat)); } EmberAfStatus SetAcCapacityFormat(chip::EndpointId endpoint, uint8_t acCapacityFormat) { - return emberAfWriteServerAttribute(endpoint, Thermostat::Id, Ids::AcCapacityFormat, (uint8_t *) &acCapacityFormat, + return emberAfWriteServerAttribute(endpoint, Thermostat::Id, AcCapacityFormat::Id, (uint8_t *) &acCapacityFormat, ZCL_ENUM8_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -4053,20 +4039,20 @@ namespace FanControl { namespace Attributes { EmberAfStatus GetFanMode(chip::EndpointId endpoint, uint8_t * fanMode) { - return emberAfReadServerAttribute(endpoint, FanControl::Id, Ids::FanMode, (uint8_t *) fanMode, sizeof(*fanMode)); + return emberAfReadServerAttribute(endpoint, FanControl::Id, FanMode::Id, (uint8_t *) fanMode, sizeof(*fanMode)); } EmberAfStatus SetFanMode(chip::EndpointId endpoint, uint8_t fanMode) { - return emberAfWriteServerAttribute(endpoint, FanControl::Id, Ids::FanMode, (uint8_t *) &fanMode, ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, FanControl::Id, FanMode::Id, (uint8_t *) &fanMode, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetFanModeSequence(chip::EndpointId endpoint, uint8_t * fanModeSequence) { - return emberAfReadServerAttribute(endpoint, FanControl::Id, Ids::FanModeSequence, (uint8_t *) fanModeSequence, + return emberAfReadServerAttribute(endpoint, FanControl::Id, FanModeSequence::Id, (uint8_t *) fanModeSequence, sizeof(*fanModeSequence)); } EmberAfStatus SetFanModeSequence(chip::EndpointId endpoint, uint8_t fanModeSequence) { - return emberAfWriteServerAttribute(endpoint, FanControl::Id, Ids::FanModeSequence, (uint8_t *) &fanModeSequence, + return emberAfWriteServerAttribute(endpoint, FanControl::Id, FanModeSequence::Id, (uint8_t *) &fanModeSequence, ZCL_ENUM8_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -4076,82 +4062,82 @@ namespace DehumidificationControl { namespace Attributes { EmberAfStatus GetRelativeHumidity(chip::EndpointId endpoint, uint8_t * relativeHumidity) { - return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, Ids::RelativeHumidity, (uint8_t *) relativeHumidity, + return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, RelativeHumidity::Id, (uint8_t *) relativeHumidity, sizeof(*relativeHumidity)); } EmberAfStatus SetRelativeHumidity(chip::EndpointId endpoint, uint8_t relativeHumidity) { - return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, Ids::RelativeHumidity, (uint8_t *) &relativeHumidity, + return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, RelativeHumidity::Id, (uint8_t *) &relativeHumidity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetDehumidificationCooling(chip::EndpointId endpoint, uint8_t * dehumidificationCooling) { - return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, Ids::DehumidificationCooling, + return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, DehumidificationCooling::Id, (uint8_t *) dehumidificationCooling, sizeof(*dehumidificationCooling)); } EmberAfStatus SetDehumidificationCooling(chip::EndpointId endpoint, uint8_t dehumidificationCooling) { - return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, Ids::DehumidificationCooling, + return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, DehumidificationCooling::Id, (uint8_t *) &dehumidificationCooling, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetRhDehumidificationSetpoint(chip::EndpointId endpoint, uint8_t * rhDehumidificationSetpoint) { - return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, Ids::RhDehumidificationSetpoint, + return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, RhDehumidificationSetpoint::Id, (uint8_t *) rhDehumidificationSetpoint, sizeof(*rhDehumidificationSetpoint)); } EmberAfStatus SetRhDehumidificationSetpoint(chip::EndpointId endpoint, uint8_t rhDehumidificationSetpoint) { - return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, Ids::RhDehumidificationSetpoint, + return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, RhDehumidificationSetpoint::Id, (uint8_t *) &rhDehumidificationSetpoint, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetRelativeHumidityMode(chip::EndpointId endpoint, uint8_t * relativeHumidityMode) { - return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, Ids::RelativeHumidityMode, + return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, RelativeHumidityMode::Id, (uint8_t *) relativeHumidityMode, sizeof(*relativeHumidityMode)); } EmberAfStatus SetRelativeHumidityMode(chip::EndpointId endpoint, uint8_t relativeHumidityMode) { - return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, Ids::RelativeHumidityMode, + return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, RelativeHumidityMode::Id, (uint8_t *) &relativeHumidityMode, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetDehumidificationLockout(chip::EndpointId endpoint, uint8_t * dehumidificationLockout) { - return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, Ids::DehumidificationLockout, + return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, DehumidificationLockout::Id, (uint8_t *) dehumidificationLockout, sizeof(*dehumidificationLockout)); } EmberAfStatus SetDehumidificationLockout(chip::EndpointId endpoint, uint8_t dehumidificationLockout) { - return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, Ids::DehumidificationLockout, + return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, DehumidificationLockout::Id, (uint8_t *) &dehumidificationLockout, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetDehumidificationHysteresis(chip::EndpointId endpoint, uint8_t * dehumidificationHysteresis) { - return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, Ids::DehumidificationHysteresis, + return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, DehumidificationHysteresis::Id, (uint8_t *) dehumidificationHysteresis, sizeof(*dehumidificationHysteresis)); } EmberAfStatus SetDehumidificationHysteresis(chip::EndpointId endpoint, uint8_t dehumidificationHysteresis) { - return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, Ids::DehumidificationHysteresis, + return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, DehumidificationHysteresis::Id, (uint8_t *) &dehumidificationHysteresis, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetDehumidificationMaxCool(chip::EndpointId endpoint, uint8_t * dehumidificationMaxCool) { - return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, Ids::DehumidificationMaxCool, + return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, DehumidificationMaxCool::Id, (uint8_t *) dehumidificationMaxCool, sizeof(*dehumidificationMaxCool)); } EmberAfStatus SetDehumidificationMaxCool(chip::EndpointId endpoint, uint8_t dehumidificationMaxCool) { - return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, Ids::DehumidificationMaxCool, + return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, DehumidificationMaxCool::Id, (uint8_t *) &dehumidificationMaxCool, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetRelativeHumidityDisplay(chip::EndpointId endpoint, uint8_t * relativeHumidityDisplay) { - return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, Ids::RelativeHumidityDisplay, + return emberAfReadServerAttribute(endpoint, DehumidificationControl::Id, RelativeHumidityDisplay::Id, (uint8_t *) relativeHumidityDisplay, sizeof(*relativeHumidityDisplay)); } EmberAfStatus SetRelativeHumidityDisplay(chip::EndpointId endpoint, uint8_t relativeHumidityDisplay) { - return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, Ids::RelativeHumidityDisplay, + return emberAfWriteServerAttribute(endpoint, DehumidificationControl::Id, RelativeHumidityDisplay::Id, (uint8_t *) &relativeHumidityDisplay, ZCL_ENUM8_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -4161,32 +4147,32 @@ namespace ThermostatUserInterfaceConfiguration { namespace Attributes { EmberAfStatus GetTemperatureDisplayMode(chip::EndpointId endpoint, uint8_t * temperatureDisplayMode) { - return emberAfReadServerAttribute(endpoint, ThermostatUserInterfaceConfiguration::Id, Ids::TemperatureDisplayMode, + return emberAfReadServerAttribute(endpoint, ThermostatUserInterfaceConfiguration::Id, TemperatureDisplayMode::Id, (uint8_t *) temperatureDisplayMode, sizeof(*temperatureDisplayMode)); } EmberAfStatus SetTemperatureDisplayMode(chip::EndpointId endpoint, uint8_t temperatureDisplayMode) { - return emberAfWriteServerAttribute(endpoint, ThermostatUserInterfaceConfiguration::Id, Ids::TemperatureDisplayMode, + return emberAfWriteServerAttribute(endpoint, ThermostatUserInterfaceConfiguration::Id, TemperatureDisplayMode::Id, (uint8_t *) &temperatureDisplayMode, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetKeypadLockout(chip::EndpointId endpoint, uint8_t * keypadLockout) { - return emberAfReadServerAttribute(endpoint, ThermostatUserInterfaceConfiguration::Id, Ids::KeypadLockout, + return emberAfReadServerAttribute(endpoint, ThermostatUserInterfaceConfiguration::Id, KeypadLockout::Id, (uint8_t *) keypadLockout, sizeof(*keypadLockout)); } EmberAfStatus SetKeypadLockout(chip::EndpointId endpoint, uint8_t keypadLockout) { - return emberAfWriteServerAttribute(endpoint, ThermostatUserInterfaceConfiguration::Id, Ids::KeypadLockout, + return emberAfWriteServerAttribute(endpoint, ThermostatUserInterfaceConfiguration::Id, KeypadLockout::Id, (uint8_t *) &keypadLockout, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetScheduleProgrammingVisibility(chip::EndpointId endpoint, uint8_t * scheduleProgrammingVisibility) { - return emberAfReadServerAttribute(endpoint, ThermostatUserInterfaceConfiguration::Id, Ids::ScheduleProgrammingVisibility, + return emberAfReadServerAttribute(endpoint, ThermostatUserInterfaceConfiguration::Id, ScheduleProgrammingVisibility::Id, (uint8_t *) scheduleProgrammingVisibility, sizeof(*scheduleProgrammingVisibility)); } EmberAfStatus SetScheduleProgrammingVisibility(chip::EndpointId endpoint, uint8_t scheduleProgrammingVisibility) { - return emberAfWriteServerAttribute(endpoint, ThermostatUserInterfaceConfiguration::Id, Ids::ScheduleProgrammingVisibility, + return emberAfWriteServerAttribute(endpoint, ThermostatUserInterfaceConfiguration::Id, ScheduleProgrammingVisibility::Id, (uint8_t *) &scheduleProgrammingVisibility, ZCL_ENUM8_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -4196,492 +4182,491 @@ namespace ColorControl { namespace Attributes { EmberAfStatus GetCurrentHue(chip::EndpointId endpoint, uint8_t * currentHue) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::CurrentHue, (uint8_t *) currentHue, sizeof(*currentHue)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, CurrentHue::Id, (uint8_t *) currentHue, sizeof(*currentHue)); } EmberAfStatus SetCurrentHue(chip::EndpointId endpoint, uint8_t currentHue) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::CurrentHue, (uint8_t *) ¤tHue, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, CurrentHue::Id, (uint8_t *) ¤tHue, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentSaturation(chip::EndpointId endpoint, uint8_t * currentSaturation) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::CurrentSaturation, (uint8_t *) currentSaturation, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, CurrentSaturation::Id, (uint8_t *) currentSaturation, sizeof(*currentSaturation)); } EmberAfStatus SetCurrentSaturation(chip::EndpointId endpoint, uint8_t currentSaturation) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::CurrentSaturation, (uint8_t *) ¤tSaturation, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, CurrentSaturation::Id, (uint8_t *) ¤tSaturation, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetRemainingTime(chip::EndpointId endpoint, uint16_t * remainingTime) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::RemainingTime, (uint8_t *) remainingTime, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, RemainingTime::Id, (uint8_t *) remainingTime, sizeof(*remainingTime)); } EmberAfStatus SetRemainingTime(chip::EndpointId endpoint, uint16_t remainingTime) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::RemainingTime, (uint8_t *) &remainingTime, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, RemainingTime::Id, (uint8_t *) &remainingTime, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentX(chip::EndpointId endpoint, uint16_t * currentX) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::CurrentX, (uint8_t *) currentX, sizeof(*currentX)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, CurrentX::Id, (uint8_t *) currentX, sizeof(*currentX)); } EmberAfStatus SetCurrentX(chip::EndpointId endpoint, uint16_t currentX) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::CurrentX, (uint8_t *) ¤tX, ZCL_INT16U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, CurrentX::Id, (uint8_t *) ¤tX, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentY(chip::EndpointId endpoint, uint16_t * currentY) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::CurrentY, (uint8_t *) currentY, sizeof(*currentY)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, CurrentY::Id, (uint8_t *) currentY, sizeof(*currentY)); } EmberAfStatus SetCurrentY(chip::EndpointId endpoint, uint16_t currentY) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::CurrentY, (uint8_t *) ¤tY, ZCL_INT16U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, CurrentY::Id, (uint8_t *) ¤tY, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetDriftCompensation(chip::EndpointId endpoint, uint8_t * driftCompensation) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::DriftCompensation, (uint8_t *) driftCompensation, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, DriftCompensation::Id, (uint8_t *) driftCompensation, sizeof(*driftCompensation)); } EmberAfStatus SetDriftCompensation(chip::EndpointId endpoint, uint8_t driftCompensation) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::DriftCompensation, (uint8_t *) &driftCompensation, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, DriftCompensation::Id, (uint8_t *) &driftCompensation, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetColorTemperature(chip::EndpointId endpoint, uint16_t * colorTemperature) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorTemperature, (uint8_t *) colorTemperature, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorTemperature::Id, (uint8_t *) colorTemperature, sizeof(*colorTemperature)); } EmberAfStatus SetColorTemperature(chip::EndpointId endpoint, uint16_t colorTemperature) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorTemperature, (uint8_t *) &colorTemperature, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorTemperature::Id, (uint8_t *) &colorTemperature, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorMode(chip::EndpointId endpoint, uint8_t * colorMode) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorMode, (uint8_t *) colorMode, sizeof(*colorMode)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorMode::Id, (uint8_t *) colorMode, sizeof(*colorMode)); } EmberAfStatus SetColorMode(chip::EndpointId endpoint, uint8_t colorMode) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorMode, (uint8_t *) &colorMode, - ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorMode::Id, (uint8_t *) &colorMode, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetColorControlOptions(chip::EndpointId endpoint, uint8_t * colorControlOptions) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorControlOptions, (uint8_t *) colorControlOptions, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorControlOptions::Id, (uint8_t *) colorControlOptions, sizeof(*colorControlOptions)); } EmberAfStatus SetColorControlOptions(chip::EndpointId endpoint, uint8_t colorControlOptions) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorControlOptions, (uint8_t *) &colorControlOptions, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorControlOptions::Id, (uint8_t *) &colorControlOptions, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetNumberOfPrimaries(chip::EndpointId endpoint, uint8_t * numberOfPrimaries) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::NumberOfPrimaries, (uint8_t *) numberOfPrimaries, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, NumberOfPrimaries::Id, (uint8_t *) numberOfPrimaries, sizeof(*numberOfPrimaries)); } EmberAfStatus SetNumberOfPrimaries(chip::EndpointId endpoint, uint8_t numberOfPrimaries) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::NumberOfPrimaries, (uint8_t *) &numberOfPrimaries, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, NumberOfPrimaries::Id, (uint8_t *) &numberOfPrimaries, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary1X(chip::EndpointId endpoint, uint16_t * primary1X) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary1X, (uint8_t *) primary1X, sizeof(*primary1X)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary1X::Id, (uint8_t *) primary1X, sizeof(*primary1X)); } EmberAfStatus SetPrimary1X(chip::EndpointId endpoint, uint16_t primary1X) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary1X, (uint8_t *) &primary1X, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary1X::Id, (uint8_t *) &primary1X, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary1Y(chip::EndpointId endpoint, uint16_t * primary1Y) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary1Y, (uint8_t *) primary1Y, sizeof(*primary1Y)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary1Y::Id, (uint8_t *) primary1Y, sizeof(*primary1Y)); } EmberAfStatus SetPrimary1Y(chip::EndpointId endpoint, uint16_t primary1Y) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary1Y, (uint8_t *) &primary1Y, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary1Y::Id, (uint8_t *) &primary1Y, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary1Intensity(chip::EndpointId endpoint, uint8_t * primary1Intensity) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary1Intensity, (uint8_t *) primary1Intensity, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary1Intensity::Id, (uint8_t *) primary1Intensity, sizeof(*primary1Intensity)); } EmberAfStatus SetPrimary1Intensity(chip::EndpointId endpoint, uint8_t primary1Intensity) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary1Intensity, (uint8_t *) &primary1Intensity, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary1Intensity::Id, (uint8_t *) &primary1Intensity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary2X(chip::EndpointId endpoint, uint16_t * primary2X) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary2X, (uint8_t *) primary2X, sizeof(*primary2X)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary2X::Id, (uint8_t *) primary2X, sizeof(*primary2X)); } EmberAfStatus SetPrimary2X(chip::EndpointId endpoint, uint16_t primary2X) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary2X, (uint8_t *) &primary2X, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary2X::Id, (uint8_t *) &primary2X, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary2Y(chip::EndpointId endpoint, uint16_t * primary2Y) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary2Y, (uint8_t *) primary2Y, sizeof(*primary2Y)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary2Y::Id, (uint8_t *) primary2Y, sizeof(*primary2Y)); } EmberAfStatus SetPrimary2Y(chip::EndpointId endpoint, uint16_t primary2Y) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary2Y, (uint8_t *) &primary2Y, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary2Y::Id, (uint8_t *) &primary2Y, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary2Intensity(chip::EndpointId endpoint, uint8_t * primary2Intensity) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary2Intensity, (uint8_t *) primary2Intensity, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary2Intensity::Id, (uint8_t *) primary2Intensity, sizeof(*primary2Intensity)); } EmberAfStatus SetPrimary2Intensity(chip::EndpointId endpoint, uint8_t primary2Intensity) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary2Intensity, (uint8_t *) &primary2Intensity, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary2Intensity::Id, (uint8_t *) &primary2Intensity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary3X(chip::EndpointId endpoint, uint16_t * primary3X) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary3X, (uint8_t *) primary3X, sizeof(*primary3X)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary3X::Id, (uint8_t *) primary3X, sizeof(*primary3X)); } EmberAfStatus SetPrimary3X(chip::EndpointId endpoint, uint16_t primary3X) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary3X, (uint8_t *) &primary3X, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary3X::Id, (uint8_t *) &primary3X, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary3Y(chip::EndpointId endpoint, uint16_t * primary3Y) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary3Y, (uint8_t *) primary3Y, sizeof(*primary3Y)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary3Y::Id, (uint8_t *) primary3Y, sizeof(*primary3Y)); } EmberAfStatus SetPrimary3Y(chip::EndpointId endpoint, uint16_t primary3Y) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary3Y, (uint8_t *) &primary3Y, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary3Y::Id, (uint8_t *) &primary3Y, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary3Intensity(chip::EndpointId endpoint, uint8_t * primary3Intensity) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary3Intensity, (uint8_t *) primary3Intensity, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary3Intensity::Id, (uint8_t *) primary3Intensity, sizeof(*primary3Intensity)); } EmberAfStatus SetPrimary3Intensity(chip::EndpointId endpoint, uint8_t primary3Intensity) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary3Intensity, (uint8_t *) &primary3Intensity, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary3Intensity::Id, (uint8_t *) &primary3Intensity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary4X(chip::EndpointId endpoint, uint16_t * primary4X) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary4X, (uint8_t *) primary4X, sizeof(*primary4X)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary4X::Id, (uint8_t *) primary4X, sizeof(*primary4X)); } EmberAfStatus SetPrimary4X(chip::EndpointId endpoint, uint16_t primary4X) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary4X, (uint8_t *) &primary4X, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary4X::Id, (uint8_t *) &primary4X, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary4Y(chip::EndpointId endpoint, uint16_t * primary4Y) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary4Y, (uint8_t *) primary4Y, sizeof(*primary4Y)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary4Y::Id, (uint8_t *) primary4Y, sizeof(*primary4Y)); } EmberAfStatus SetPrimary4Y(chip::EndpointId endpoint, uint16_t primary4Y) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary4Y, (uint8_t *) &primary4Y, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary4Y::Id, (uint8_t *) &primary4Y, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary4Intensity(chip::EndpointId endpoint, uint8_t * primary4Intensity) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary4Intensity, (uint8_t *) primary4Intensity, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary4Intensity::Id, (uint8_t *) primary4Intensity, sizeof(*primary4Intensity)); } EmberAfStatus SetPrimary4Intensity(chip::EndpointId endpoint, uint8_t primary4Intensity) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary4Intensity, (uint8_t *) &primary4Intensity, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary4Intensity::Id, (uint8_t *) &primary4Intensity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary5X(chip::EndpointId endpoint, uint16_t * primary5X) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary5X, (uint8_t *) primary5X, sizeof(*primary5X)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary5X::Id, (uint8_t *) primary5X, sizeof(*primary5X)); } EmberAfStatus SetPrimary5X(chip::EndpointId endpoint, uint16_t primary5X) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary5X, (uint8_t *) &primary5X, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary5X::Id, (uint8_t *) &primary5X, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary5Y(chip::EndpointId endpoint, uint16_t * primary5Y) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary5Y, (uint8_t *) primary5Y, sizeof(*primary5Y)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary5Y::Id, (uint8_t *) primary5Y, sizeof(*primary5Y)); } EmberAfStatus SetPrimary5Y(chip::EndpointId endpoint, uint16_t primary5Y) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary5Y, (uint8_t *) &primary5Y, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary5Y::Id, (uint8_t *) &primary5Y, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary5Intensity(chip::EndpointId endpoint, uint8_t * primary5Intensity) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary5Intensity, (uint8_t *) primary5Intensity, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary5Intensity::Id, (uint8_t *) primary5Intensity, sizeof(*primary5Intensity)); } EmberAfStatus SetPrimary5Intensity(chip::EndpointId endpoint, uint8_t primary5Intensity) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary5Intensity, (uint8_t *) &primary5Intensity, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary5Intensity::Id, (uint8_t *) &primary5Intensity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary6X(chip::EndpointId endpoint, uint16_t * primary6X) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary6X, (uint8_t *) primary6X, sizeof(*primary6X)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary6X::Id, (uint8_t *) primary6X, sizeof(*primary6X)); } EmberAfStatus SetPrimary6X(chip::EndpointId endpoint, uint16_t primary6X) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary6X, (uint8_t *) &primary6X, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary6X::Id, (uint8_t *) &primary6X, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary6Y(chip::EndpointId endpoint, uint16_t * primary6Y) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary6Y, (uint8_t *) primary6Y, sizeof(*primary6Y)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary6Y::Id, (uint8_t *) primary6Y, sizeof(*primary6Y)); } EmberAfStatus SetPrimary6Y(chip::EndpointId endpoint, uint16_t primary6Y) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary6Y, (uint8_t *) &primary6Y, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary6Y::Id, (uint8_t *) &primary6Y, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPrimary6Intensity(chip::EndpointId endpoint, uint8_t * primary6Intensity) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::Primary6Intensity, (uint8_t *) primary6Intensity, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, Primary6Intensity::Id, (uint8_t *) primary6Intensity, sizeof(*primary6Intensity)); } EmberAfStatus SetPrimary6Intensity(chip::EndpointId endpoint, uint8_t primary6Intensity) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::Primary6Intensity, (uint8_t *) &primary6Intensity, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Primary6Intensity::Id, (uint8_t *) &primary6Intensity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetWhitePointX(chip::EndpointId endpoint, uint16_t * whitePointX) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::WhitePointX, (uint8_t *) whitePointX, sizeof(*whitePointX)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, WhitePointX::Id, (uint8_t *) whitePointX, sizeof(*whitePointX)); } EmberAfStatus SetWhitePointX(chip::EndpointId endpoint, uint16_t whitePointX) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::WhitePointX, (uint8_t *) &whitePointX, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, WhitePointX::Id, (uint8_t *) &whitePointX, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetWhitePointY(chip::EndpointId endpoint, uint16_t * whitePointY) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::WhitePointY, (uint8_t *) whitePointY, sizeof(*whitePointY)); + return emberAfReadServerAttribute(endpoint, ColorControl::Id, WhitePointY::Id, (uint8_t *) whitePointY, sizeof(*whitePointY)); } EmberAfStatus SetWhitePointY(chip::EndpointId endpoint, uint16_t whitePointY) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::WhitePointY, (uint8_t *) &whitePointY, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, WhitePointY::Id, (uint8_t *) &whitePointY, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorPointRX(chip::EndpointId endpoint, uint16_t * colorPointRX) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointRX, (uint8_t *) colorPointRX, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorPointRX::Id, (uint8_t *) colorPointRX, sizeof(*colorPointRX)); } EmberAfStatus SetColorPointRX(chip::EndpointId endpoint, uint16_t colorPointRX) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointRX, (uint8_t *) &colorPointRX, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorPointRX::Id, (uint8_t *) &colorPointRX, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorPointRY(chip::EndpointId endpoint, uint16_t * colorPointRY) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointRY, (uint8_t *) colorPointRY, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorPointRY::Id, (uint8_t *) colorPointRY, sizeof(*colorPointRY)); } EmberAfStatus SetColorPointRY(chip::EndpointId endpoint, uint16_t colorPointRY) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointRY, (uint8_t *) &colorPointRY, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorPointRY::Id, (uint8_t *) &colorPointRY, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorPointRIntensity(chip::EndpointId endpoint, uint8_t * colorPointRIntensity) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointRIntensity, (uint8_t *) colorPointRIntensity, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorPointRIntensity::Id, (uint8_t *) colorPointRIntensity, sizeof(*colorPointRIntensity)); } EmberAfStatus SetColorPointRIntensity(chip::EndpointId endpoint, uint8_t colorPointRIntensity) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointRIntensity, (uint8_t *) &colorPointRIntensity, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorPointRIntensity::Id, (uint8_t *) &colorPointRIntensity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorPointGX(chip::EndpointId endpoint, uint16_t * colorPointGX) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointGX, (uint8_t *) colorPointGX, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorPointGX::Id, (uint8_t *) colorPointGX, sizeof(*colorPointGX)); } EmberAfStatus SetColorPointGX(chip::EndpointId endpoint, uint16_t colorPointGX) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointGX, (uint8_t *) &colorPointGX, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorPointGX::Id, (uint8_t *) &colorPointGX, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorPointGY(chip::EndpointId endpoint, uint16_t * colorPointGY) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointGY, (uint8_t *) colorPointGY, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorPointGY::Id, (uint8_t *) colorPointGY, sizeof(*colorPointGY)); } EmberAfStatus SetColorPointGY(chip::EndpointId endpoint, uint16_t colorPointGY) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointGY, (uint8_t *) &colorPointGY, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorPointGY::Id, (uint8_t *) &colorPointGY, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorPointGIntensity(chip::EndpointId endpoint, uint8_t * colorPointGIntensity) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointGIntensity, (uint8_t *) colorPointGIntensity, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorPointGIntensity::Id, (uint8_t *) colorPointGIntensity, sizeof(*colorPointGIntensity)); } EmberAfStatus SetColorPointGIntensity(chip::EndpointId endpoint, uint8_t colorPointGIntensity) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointGIntensity, (uint8_t *) &colorPointGIntensity, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorPointGIntensity::Id, (uint8_t *) &colorPointGIntensity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorPointBX(chip::EndpointId endpoint, uint16_t * colorPointBX) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointBX, (uint8_t *) colorPointBX, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorPointBX::Id, (uint8_t *) colorPointBX, sizeof(*colorPointBX)); } EmberAfStatus SetColorPointBX(chip::EndpointId endpoint, uint16_t colorPointBX) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointBX, (uint8_t *) &colorPointBX, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorPointBX::Id, (uint8_t *) &colorPointBX, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorPointBY(chip::EndpointId endpoint, uint16_t * colorPointBY) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointBY, (uint8_t *) colorPointBY, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorPointBY::Id, (uint8_t *) colorPointBY, sizeof(*colorPointBY)); } EmberAfStatus SetColorPointBY(chip::EndpointId endpoint, uint16_t colorPointBY) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointBY, (uint8_t *) &colorPointBY, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorPointBY::Id, (uint8_t *) &colorPointBY, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorPointBIntensity(chip::EndpointId endpoint, uint8_t * colorPointBIntensity) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointBIntensity, (uint8_t *) colorPointBIntensity, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorPointBIntensity::Id, (uint8_t *) colorPointBIntensity, sizeof(*colorPointBIntensity)); } EmberAfStatus SetColorPointBIntensity(chip::EndpointId endpoint, uint8_t colorPointBIntensity) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorPointBIntensity, (uint8_t *) &colorPointBIntensity, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorPointBIntensity::Id, (uint8_t *) &colorPointBIntensity, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetEnhancedCurrentHue(chip::EndpointId endpoint, uint16_t * enhancedCurrentHue) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::EnhancedCurrentHue, (uint8_t *) enhancedCurrentHue, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, EnhancedCurrentHue::Id, (uint8_t *) enhancedCurrentHue, sizeof(*enhancedCurrentHue)); } EmberAfStatus SetEnhancedCurrentHue(chip::EndpointId endpoint, uint16_t enhancedCurrentHue) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::EnhancedCurrentHue, (uint8_t *) &enhancedCurrentHue, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, EnhancedCurrentHue::Id, (uint8_t *) &enhancedCurrentHue, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetEnhancedColorMode(chip::EndpointId endpoint, uint8_t * enhancedColorMode) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::EnhancedColorMode, (uint8_t *) enhancedColorMode, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, EnhancedColorMode::Id, (uint8_t *) enhancedColorMode, sizeof(*enhancedColorMode)); } EmberAfStatus SetEnhancedColorMode(chip::EndpointId endpoint, uint8_t enhancedColorMode) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::EnhancedColorMode, (uint8_t *) &enhancedColorMode, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, EnhancedColorMode::Id, (uint8_t *) &enhancedColorMode, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetColorLoopActive(chip::EndpointId endpoint, uint8_t * colorLoopActive) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorLoopActive, (uint8_t *) colorLoopActive, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorLoopActive::Id, (uint8_t *) colorLoopActive, sizeof(*colorLoopActive)); } EmberAfStatus SetColorLoopActive(chip::EndpointId endpoint, uint8_t colorLoopActive) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorLoopActive, (uint8_t *) &colorLoopActive, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorLoopActive::Id, (uint8_t *) &colorLoopActive, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorLoopDirection(chip::EndpointId endpoint, uint8_t * colorLoopDirection) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorLoopDirection, (uint8_t *) colorLoopDirection, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorLoopDirection::Id, (uint8_t *) colorLoopDirection, sizeof(*colorLoopDirection)); } EmberAfStatus SetColorLoopDirection(chip::EndpointId endpoint, uint8_t colorLoopDirection) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorLoopDirection, (uint8_t *) &colorLoopDirection, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorLoopDirection::Id, (uint8_t *) &colorLoopDirection, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorLoopTime(chip::EndpointId endpoint, uint16_t * colorLoopTime) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorLoopTime, (uint8_t *) colorLoopTime, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorLoopTime::Id, (uint8_t *) colorLoopTime, sizeof(*colorLoopTime)); } EmberAfStatus SetColorLoopTime(chip::EndpointId endpoint, uint16_t colorLoopTime) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorLoopTime, (uint8_t *) &colorLoopTime, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorLoopTime::Id, (uint8_t *) &colorLoopTime, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorLoopStartEnhancedHue(chip::EndpointId endpoint, uint16_t * colorLoopStartEnhancedHue) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorLoopStartEnhancedHue, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorLoopStartEnhancedHue::Id, (uint8_t *) colorLoopStartEnhancedHue, sizeof(*colorLoopStartEnhancedHue)); } EmberAfStatus SetColorLoopStartEnhancedHue(chip::EndpointId endpoint, uint16_t colorLoopStartEnhancedHue) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorLoopStartEnhancedHue, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorLoopStartEnhancedHue::Id, (uint8_t *) &colorLoopStartEnhancedHue, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorLoopStoredEnhancedHue(chip::EndpointId endpoint, uint16_t * colorLoopStoredEnhancedHue) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorLoopStoredEnhancedHue, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorLoopStoredEnhancedHue::Id, (uint8_t *) colorLoopStoredEnhancedHue, sizeof(*colorLoopStoredEnhancedHue)); } EmberAfStatus SetColorLoopStoredEnhancedHue(chip::EndpointId endpoint, uint16_t colorLoopStoredEnhancedHue) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorLoopStoredEnhancedHue, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorLoopStoredEnhancedHue::Id, (uint8_t *) &colorLoopStoredEnhancedHue, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorCapabilities(chip::EndpointId endpoint, uint16_t * colorCapabilities) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorCapabilities, (uint8_t *) colorCapabilities, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorCapabilities::Id, (uint8_t *) colorCapabilities, sizeof(*colorCapabilities)); } EmberAfStatus SetColorCapabilities(chip::EndpointId endpoint, uint16_t colorCapabilities) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorCapabilities, (uint8_t *) &colorCapabilities, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorCapabilities::Id, (uint8_t *) &colorCapabilities, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetColorTempPhysicalMin(chip::EndpointId endpoint, uint16_t * colorTempPhysicalMin) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorTempPhysicalMin, (uint8_t *) colorTempPhysicalMin, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorTempPhysicalMin::Id, (uint8_t *) colorTempPhysicalMin, sizeof(*colorTempPhysicalMin)); } EmberAfStatus SetColorTempPhysicalMin(chip::EndpointId endpoint, uint16_t colorTempPhysicalMin) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorTempPhysicalMin, (uint8_t *) &colorTempPhysicalMin, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorTempPhysicalMin::Id, (uint8_t *) &colorTempPhysicalMin, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetColorTempPhysicalMax(chip::EndpointId endpoint, uint16_t * colorTempPhysicalMax) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::ColorTempPhysicalMax, (uint8_t *) colorTempPhysicalMax, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, ColorTempPhysicalMax::Id, (uint8_t *) colorTempPhysicalMax, sizeof(*colorTempPhysicalMax)); } EmberAfStatus SetColorTempPhysicalMax(chip::EndpointId endpoint, uint16_t colorTempPhysicalMax) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::ColorTempPhysicalMax, (uint8_t *) &colorTempPhysicalMax, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, ColorTempPhysicalMax::Id, (uint8_t *) &colorTempPhysicalMax, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetCoupleColorTempToLevelMinMireds(chip::EndpointId endpoint, uint16_t * coupleColorTempToLevelMinMireds) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::CoupleColorTempToLevelMinMireds, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, CoupleColorTempToLevelMinMireds::Id, (uint8_t *) coupleColorTempToLevelMinMireds, sizeof(*coupleColorTempToLevelMinMireds)); } EmberAfStatus SetCoupleColorTempToLevelMinMireds(chip::EndpointId endpoint, uint16_t coupleColorTempToLevelMinMireds) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::CoupleColorTempToLevelMinMireds, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, CoupleColorTempToLevelMinMireds::Id, (uint8_t *) &coupleColorTempToLevelMinMireds, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetStartUpColorTemperatureMireds(chip::EndpointId endpoint, uint16_t * startUpColorTemperatureMireds) { - return emberAfReadServerAttribute(endpoint, ColorControl::Id, Ids::StartUpColorTemperatureMireds, + return emberAfReadServerAttribute(endpoint, ColorControl::Id, StartUpColorTemperatureMireds::Id, (uint8_t *) startUpColorTemperatureMireds, sizeof(*startUpColorTemperatureMireds)); } EmberAfStatus SetStartUpColorTemperatureMireds(chip::EndpointId endpoint, uint16_t startUpColorTemperatureMireds) { - return emberAfWriteServerAttribute(endpoint, ColorControl::Id, Ids::StartUpColorTemperatureMireds, + return emberAfWriteServerAttribute(endpoint, ColorControl::Id, StartUpColorTemperatureMireds::Id, (uint8_t *) &startUpColorTemperatureMireds, ZCL_INT16U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -4691,110 +4676,110 @@ namespace BallastConfiguration { namespace Attributes { EmberAfStatus GetPhysicalMinLevel(chip::EndpointId endpoint, uint8_t * physicalMinLevel) { - return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, Ids::PhysicalMinLevel, (uint8_t *) physicalMinLevel, + return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, PhysicalMinLevel::Id, (uint8_t *) physicalMinLevel, sizeof(*physicalMinLevel)); } EmberAfStatus SetPhysicalMinLevel(chip::EndpointId endpoint, uint8_t physicalMinLevel) { - return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, Ids::PhysicalMinLevel, (uint8_t *) &physicalMinLevel, + return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, PhysicalMinLevel::Id, (uint8_t *) &physicalMinLevel, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetPhysicalMaxLevel(chip::EndpointId endpoint, uint8_t * physicalMaxLevel) { - return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, Ids::PhysicalMaxLevel, (uint8_t *) physicalMaxLevel, + return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, PhysicalMaxLevel::Id, (uint8_t *) physicalMaxLevel, sizeof(*physicalMaxLevel)); } EmberAfStatus SetPhysicalMaxLevel(chip::EndpointId endpoint, uint8_t physicalMaxLevel) { - return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, Ids::PhysicalMaxLevel, (uint8_t *) &physicalMaxLevel, + return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, PhysicalMaxLevel::Id, (uint8_t *) &physicalMaxLevel, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBallastStatus(chip::EndpointId endpoint, uint8_t * ballastStatus) { - return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, Ids::BallastStatus, (uint8_t *) ballastStatus, + return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, BallastStatus::Id, (uint8_t *) ballastStatus, sizeof(*ballastStatus)); } EmberAfStatus SetBallastStatus(chip::EndpointId endpoint, uint8_t ballastStatus) { - return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, Ids::BallastStatus, (uint8_t *) &ballastStatus, + return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, BallastStatus::Id, (uint8_t *) &ballastStatus, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetMinLevel(chip::EndpointId endpoint, uint8_t * minLevel) { - return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, Ids::MinLevel, (uint8_t *) minLevel, sizeof(*minLevel)); + return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, MinLevel::Id, (uint8_t *) minLevel, sizeof(*minLevel)); } EmberAfStatus SetMinLevel(chip::EndpointId endpoint, uint8_t minLevel) { - return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, Ids::MinLevel, (uint8_t *) &minLevel, + return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, MinLevel::Id, (uint8_t *) &minLevel, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxLevel(chip::EndpointId endpoint, uint8_t * maxLevel) { - return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, Ids::MaxLevel, (uint8_t *) maxLevel, sizeof(*maxLevel)); + return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, MaxLevel::Id, (uint8_t *) maxLevel, sizeof(*maxLevel)); } EmberAfStatus SetMaxLevel(chip::EndpointId endpoint, uint8_t maxLevel) { - return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, Ids::MaxLevel, (uint8_t *) &maxLevel, + return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, MaxLevel::Id, (uint8_t *) &maxLevel, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetPowerOnLevel(chip::EndpointId endpoint, uint8_t * powerOnLevel) { - return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, Ids::PowerOnLevel, (uint8_t *) powerOnLevel, + return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, PowerOnLevel::Id, (uint8_t *) powerOnLevel, sizeof(*powerOnLevel)); } EmberAfStatus SetPowerOnLevel(chip::EndpointId endpoint, uint8_t powerOnLevel) { - return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, Ids::PowerOnLevel, (uint8_t *) &powerOnLevel, + return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, PowerOnLevel::Id, (uint8_t *) &powerOnLevel, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetPowerOnFadeTime(chip::EndpointId endpoint, uint16_t * powerOnFadeTime) { - return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, Ids::PowerOnFadeTime, (uint8_t *) powerOnFadeTime, + return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, PowerOnFadeTime::Id, (uint8_t *) powerOnFadeTime, sizeof(*powerOnFadeTime)); } EmberAfStatus SetPowerOnFadeTime(chip::EndpointId endpoint, uint16_t powerOnFadeTime) { - return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, Ids::PowerOnFadeTime, (uint8_t *) &powerOnFadeTime, + return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, PowerOnFadeTime::Id, (uint8_t *) &powerOnFadeTime, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetIntrinsicBallastFactor(chip::EndpointId endpoint, uint8_t * intrinsicBallastFactor) { - return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, Ids::IntrinsicBallastFactor, + return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, IntrinsicBallastFactor::Id, (uint8_t *) intrinsicBallastFactor, sizeof(*intrinsicBallastFactor)); } EmberAfStatus SetIntrinsicBallastFactor(chip::EndpointId endpoint, uint8_t intrinsicBallastFactor) { - return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, Ids::IntrinsicBallastFactor, + return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, IntrinsicBallastFactor::Id, (uint8_t *) &intrinsicBallastFactor, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetBallastFactorAdjustment(chip::EndpointId endpoint, uint8_t * ballastFactorAdjustment) { - return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, Ids::BallastFactorAdjustment, + return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, BallastFactorAdjustment::Id, (uint8_t *) ballastFactorAdjustment, sizeof(*ballastFactorAdjustment)); } EmberAfStatus SetBallastFactorAdjustment(chip::EndpointId endpoint, uint8_t ballastFactorAdjustment) { - return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, Ids::BallastFactorAdjustment, + return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, BallastFactorAdjustment::Id, (uint8_t *) &ballastFactorAdjustment, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetLampQuality(chip::EndpointId endpoint, uint8_t * lampQuality) { - return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, Ids::LampQuality, (uint8_t *) lampQuality, + return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, LampQuality::Id, (uint8_t *) lampQuality, sizeof(*lampQuality)); } EmberAfStatus SetLampQuality(chip::EndpointId endpoint, uint8_t lampQuality) { - return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, Ids::LampQuality, (uint8_t *) &lampQuality, + return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, LampQuality::Id, (uint8_t *) &lampQuality, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetLampAlarmMode(chip::EndpointId endpoint, uint8_t * lampAlarmMode) { - return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, Ids::LampAlarmMode, (uint8_t *) lampAlarmMode, + return emberAfReadServerAttribute(endpoint, BallastConfiguration::Id, LampAlarmMode::Id, (uint8_t *) lampAlarmMode, sizeof(*lampAlarmMode)); } EmberAfStatus SetLampAlarmMode(chip::EndpointId endpoint, uint8_t lampAlarmMode) { - return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, Ids::LampAlarmMode, (uint8_t *) &lampAlarmMode, + return emberAfWriteServerAttribute(endpoint, BallastConfiguration::Id, LampAlarmMode::Id, (uint8_t *) &lampAlarmMode, ZCL_BITMAP8_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -4804,52 +4789,52 @@ namespace IlluminanceMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, uint16_t * measuredValue) { - return emberAfReadServerAttribute(endpoint, IlluminanceMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, IlluminanceMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, uint16_t measuredValue) { - return emberAfWriteServerAttribute(endpoint, IlluminanceMeasurement::Id, Ids::MeasuredValue, (uint8_t *) &measuredValue, + return emberAfWriteServerAttribute(endpoint, IlluminanceMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, uint16_t * minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, IlluminanceMeasurement::Id, Ids::MinMeasuredValue, (uint8_t *) minMeasuredValue, + return emberAfReadServerAttribute(endpoint, IlluminanceMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, uint16_t minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, IlluminanceMeasurement::Id, Ids::MinMeasuredValue, (uint8_t *) &minMeasuredValue, + return emberAfWriteServerAttribute(endpoint, IlluminanceMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, uint16_t * maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, IlluminanceMeasurement::Id, Ids::MaxMeasuredValue, (uint8_t *) maxMeasuredValue, + return emberAfReadServerAttribute(endpoint, IlluminanceMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, uint16_t maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, IlluminanceMeasurement::Id, Ids::MaxMeasuredValue, (uint8_t *) &maxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, IlluminanceMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, uint16_t * tolerance) { - return emberAfReadServerAttribute(endpoint, IlluminanceMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, IlluminanceMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, uint16_t tolerance) { - return emberAfWriteServerAttribute(endpoint, IlluminanceMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, IlluminanceMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetLightSensorType(chip::EndpointId endpoint, uint8_t * lightSensorType) { - return emberAfReadServerAttribute(endpoint, IlluminanceMeasurement::Id, Ids::LightSensorType, (uint8_t *) lightSensorType, + return emberAfReadServerAttribute(endpoint, IlluminanceMeasurement::Id, LightSensorType::Id, (uint8_t *) lightSensorType, sizeof(*lightSensorType)); } EmberAfStatus SetLightSensorType(chip::EndpointId endpoint, uint8_t lightSensorType) { - return emberAfWriteServerAttribute(endpoint, IlluminanceMeasurement::Id, Ids::LightSensorType, (uint8_t *) &lightSensorType, + return emberAfWriteServerAttribute(endpoint, IlluminanceMeasurement::Id, LightSensorType::Id, (uint8_t *) &lightSensorType, ZCL_ENUM8_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -4859,32 +4844,32 @@ namespace IlluminanceLevelSensing { namespace Attributes { EmberAfStatus GetLevelStatus(chip::EndpointId endpoint, uint8_t * levelStatus) { - return emberAfReadServerAttribute(endpoint, IlluminanceLevelSensing::Id, Ids::LevelStatus, (uint8_t *) levelStatus, + return emberAfReadServerAttribute(endpoint, IlluminanceLevelSensing::Id, LevelStatus::Id, (uint8_t *) levelStatus, sizeof(*levelStatus)); } EmberAfStatus SetLevelStatus(chip::EndpointId endpoint, uint8_t levelStatus) { - return emberAfWriteServerAttribute(endpoint, IlluminanceLevelSensing::Id, Ids::LevelStatus, (uint8_t *) &levelStatus, + return emberAfWriteServerAttribute(endpoint, IlluminanceLevelSensing::Id, LevelStatus::Id, (uint8_t *) &levelStatus, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetLightSensorType(chip::EndpointId endpoint, uint8_t * lightSensorType) { - return emberAfReadServerAttribute(endpoint, IlluminanceLevelSensing::Id, Ids::LightSensorType, (uint8_t *) lightSensorType, + return emberAfReadServerAttribute(endpoint, IlluminanceLevelSensing::Id, LightSensorType::Id, (uint8_t *) lightSensorType, sizeof(*lightSensorType)); } EmberAfStatus SetLightSensorType(chip::EndpointId endpoint, uint8_t lightSensorType) { - return emberAfWriteServerAttribute(endpoint, IlluminanceLevelSensing::Id, Ids::LightSensorType, (uint8_t *) &lightSensorType, + return emberAfWriteServerAttribute(endpoint, IlluminanceLevelSensing::Id, LightSensorType::Id, (uint8_t *) &lightSensorType, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetIlluminanceLevelTarget(chip::EndpointId endpoint, uint16_t * illuminanceLevelTarget) { - return emberAfReadServerAttribute(endpoint, IlluminanceLevelSensing::Id, Ids::IlluminanceLevelTarget, + return emberAfReadServerAttribute(endpoint, IlluminanceLevelSensing::Id, IlluminanceLevelTarget::Id, (uint8_t *) illuminanceLevelTarget, sizeof(*illuminanceLevelTarget)); } EmberAfStatus SetIlluminanceLevelTarget(chip::EndpointId endpoint, uint16_t illuminanceLevelTarget) { - return emberAfWriteServerAttribute(endpoint, IlluminanceLevelSensing::Id, Ids::IlluminanceLevelTarget, + return emberAfWriteServerAttribute(endpoint, IlluminanceLevelSensing::Id, IlluminanceLevelTarget::Id, (uint8_t *) &illuminanceLevelTarget, ZCL_INT16U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -4894,42 +4879,42 @@ namespace TemperatureMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, int16_t * measuredValue) { - return emberAfReadServerAttribute(endpoint, TemperatureMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, TemperatureMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, int16_t measuredValue) { - return emberAfWriteServerAttribute(endpoint, TemperatureMeasurement::Id, Ids::MeasuredValue, (uint8_t *) &measuredValue, + return emberAfWriteServerAttribute(endpoint, TemperatureMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, int16_t * minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, TemperatureMeasurement::Id, Ids::MinMeasuredValue, (uint8_t *) minMeasuredValue, + return emberAfReadServerAttribute(endpoint, TemperatureMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, int16_t minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, TemperatureMeasurement::Id, Ids::MinMeasuredValue, (uint8_t *) &minMeasuredValue, + return emberAfWriteServerAttribute(endpoint, TemperatureMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, int16_t * maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, TemperatureMeasurement::Id, Ids::MaxMeasuredValue, (uint8_t *) maxMeasuredValue, + return emberAfReadServerAttribute(endpoint, TemperatureMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, int16_t maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, TemperatureMeasurement::Id, Ids::MaxMeasuredValue, (uint8_t *) &maxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, TemperatureMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, uint16_t * tolerance) { - return emberAfReadServerAttribute(endpoint, TemperatureMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, TemperatureMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, uint16_t tolerance) { - return emberAfWriteServerAttribute(endpoint, TemperatureMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, TemperatureMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_INT16U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -4939,90 +4924,90 @@ namespace PressureMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, int16_t * measuredValue) { - return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, int16_t measuredValue) { - return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, Ids::MeasuredValue, (uint8_t *) &measuredValue, + return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, int16_t * minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, Ids::MinMeasuredValue, (uint8_t *) minMeasuredValue, + return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, int16_t minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, Ids::MinMeasuredValue, (uint8_t *) &minMeasuredValue, + return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, int16_t * maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, Ids::MaxMeasuredValue, (uint8_t *) maxMeasuredValue, + return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, int16_t maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, Ids::MaxMeasuredValue, (uint8_t *) &maxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, uint16_t * tolerance) { - return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, sizeof(*tolerance)); + return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, uint16_t tolerance) { - return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetScaledValue(chip::EndpointId endpoint, int16_t * scaledValue) { - return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, Ids::ScaledValue, (uint8_t *) scaledValue, + return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, ScaledValue::Id, (uint8_t *) scaledValue, sizeof(*scaledValue)); } EmberAfStatus SetScaledValue(chip::EndpointId endpoint, int16_t scaledValue) { - return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, Ids::ScaledValue, (uint8_t *) &scaledValue, + return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, ScaledValue::Id, (uint8_t *) &scaledValue, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMinScaledValue(chip::EndpointId endpoint, int16_t * minScaledValue) { - return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, Ids::MinScaledValue, (uint8_t *) minScaledValue, + return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, MinScaledValue::Id, (uint8_t *) minScaledValue, sizeof(*minScaledValue)); } EmberAfStatus SetMinScaledValue(chip::EndpointId endpoint, int16_t minScaledValue) { - return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, Ids::MinScaledValue, (uint8_t *) &minScaledValue, + return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, MinScaledValue::Id, (uint8_t *) &minScaledValue, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxScaledValue(chip::EndpointId endpoint, int16_t * maxScaledValue) { - return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, Ids::MaxScaledValue, (uint8_t *) maxScaledValue, + return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, MaxScaledValue::Id, (uint8_t *) maxScaledValue, sizeof(*maxScaledValue)); } EmberAfStatus SetMaxScaledValue(chip::EndpointId endpoint, int16_t maxScaledValue) { - return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, Ids::MaxScaledValue, (uint8_t *) &maxScaledValue, + return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, MaxScaledValue::Id, (uint8_t *) &maxScaledValue, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetScaledTolerance(chip::EndpointId endpoint, uint16_t * scaledTolerance) { - return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, Ids::ScaledTolerance, (uint8_t *) scaledTolerance, + return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, ScaledTolerance::Id, (uint8_t *) scaledTolerance, sizeof(*scaledTolerance)); } EmberAfStatus SetScaledTolerance(chip::EndpointId endpoint, uint16_t scaledTolerance) { - return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, Ids::ScaledTolerance, (uint8_t *) &scaledTolerance, + return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, ScaledTolerance::Id, (uint8_t *) &scaledTolerance, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetScale(chip::EndpointId endpoint, int8_t * scale) { - return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, Ids::Scale, (uint8_t *) scale, sizeof(*scale)); + return emberAfReadServerAttribute(endpoint, PressureMeasurement::Id, Scale::Id, (uint8_t *) scale, sizeof(*scale)); } EmberAfStatus SetScale(chip::EndpointId endpoint, int8_t scale) { - return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, Ids::Scale, (uint8_t *) &scale, ZCL_INT8S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, PressureMeasurement::Id, Scale::Id, (uint8_t *) &scale, ZCL_INT8S_ATTRIBUTE_TYPE); } } // namespace Attributes } // namespace PressureMeasurement @@ -5031,41 +5016,41 @@ namespace FlowMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, int16_t * measuredValue) { - return emberAfReadServerAttribute(endpoint, FlowMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, FlowMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, int16_t measuredValue) { - return emberAfWriteServerAttribute(endpoint, FlowMeasurement::Id, Ids::MeasuredValue, (uint8_t *) &measuredValue, + return emberAfWriteServerAttribute(endpoint, FlowMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, int16_t * minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, FlowMeasurement::Id, Ids::MinMeasuredValue, (uint8_t *) minMeasuredValue, + return emberAfReadServerAttribute(endpoint, FlowMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, int16_t minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, FlowMeasurement::Id, Ids::MinMeasuredValue, (uint8_t *) &minMeasuredValue, + return emberAfWriteServerAttribute(endpoint, FlowMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, int16_t * maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, FlowMeasurement::Id, Ids::MaxMeasuredValue, (uint8_t *) maxMeasuredValue, + return emberAfReadServerAttribute(endpoint, FlowMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, int16_t maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, FlowMeasurement::Id, Ids::MaxMeasuredValue, (uint8_t *) &maxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, FlowMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, uint16_t * tolerance) { - return emberAfReadServerAttribute(endpoint, FlowMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, sizeof(*tolerance)); + return emberAfReadServerAttribute(endpoint, FlowMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, uint16_t tolerance) { - return emberAfWriteServerAttribute(endpoint, FlowMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, FlowMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_INT16U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5075,42 +5060,42 @@ namespace RelativeHumidityMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, uint16_t * measuredValue) { - return emberAfReadServerAttribute(endpoint, RelativeHumidityMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, RelativeHumidityMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, uint16_t measuredValue) { - return emberAfWriteServerAttribute(endpoint, RelativeHumidityMeasurement::Id, Ids::MeasuredValue, (uint8_t *) &measuredValue, + return emberAfWriteServerAttribute(endpoint, RelativeHumidityMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, uint16_t * minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, RelativeHumidityMeasurement::Id, Ids::MinMeasuredValue, - (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); + return emberAfReadServerAttribute(endpoint, RelativeHumidityMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, + sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, uint16_t minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, RelativeHumidityMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, RelativeHumidityMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, uint16_t * maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, RelativeHumidityMeasurement::Id, Ids::MaxMeasuredValue, - (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); + return emberAfReadServerAttribute(endpoint, RelativeHumidityMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, + sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, uint16_t maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, RelativeHumidityMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, RelativeHumidityMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, uint16_t * tolerance) { - return emberAfReadServerAttribute(endpoint, RelativeHumidityMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, RelativeHumidityMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, uint16_t tolerance) { - return emberAfWriteServerAttribute(endpoint, RelativeHumidityMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, RelativeHumidityMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_INT16U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5120,134 +5105,134 @@ namespace OccupancySensing { namespace Attributes { EmberAfStatus GetOccupancy(chip::EndpointId endpoint, uint8_t * occupancy) { - return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Ids::Occupancy, (uint8_t *) occupancy, sizeof(*occupancy)); + return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Occupancy::Id, (uint8_t *) occupancy, sizeof(*occupancy)); } EmberAfStatus SetOccupancy(chip::EndpointId endpoint, uint8_t occupancy) { - return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Ids::Occupancy, (uint8_t *) &occupancy, + return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Occupancy::Id, (uint8_t *) &occupancy, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetOccupancySensorType(chip::EndpointId endpoint, uint8_t * occupancySensorType) { - return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Ids::OccupancySensorType, (uint8_t *) occupancySensorType, + return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, OccupancySensorType::Id, (uint8_t *) occupancySensorType, sizeof(*occupancySensorType)); } EmberAfStatus SetOccupancySensorType(chip::EndpointId endpoint, uint8_t occupancySensorType) { - return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Ids::OccupancySensorType, (uint8_t *) &occupancySensorType, + return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, OccupancySensorType::Id, (uint8_t *) &occupancySensorType, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetOccupancySensorTypeBitmap(chip::EndpointId endpoint, uint8_t * occupancySensorTypeBitmap) { - return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Ids::OccupancySensorTypeBitmap, + return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, OccupancySensorTypeBitmap::Id, (uint8_t *) occupancySensorTypeBitmap, sizeof(*occupancySensorTypeBitmap)); } EmberAfStatus SetOccupancySensorTypeBitmap(chip::EndpointId endpoint, uint8_t occupancySensorTypeBitmap) { - return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Ids::OccupancySensorTypeBitmap, + return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, OccupancySensorTypeBitmap::Id, (uint8_t *) &occupancySensorTypeBitmap, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetPirOccupiedToUnoccupiedDelay(chip::EndpointId endpoint, uint16_t * pirOccupiedToUnoccupiedDelay) { - return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Ids::PirOccupiedToUnoccupiedDelay, + return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, PirOccupiedToUnoccupiedDelay::Id, (uint8_t *) pirOccupiedToUnoccupiedDelay, sizeof(*pirOccupiedToUnoccupiedDelay)); } EmberAfStatus SetPirOccupiedToUnoccupiedDelay(chip::EndpointId endpoint, uint16_t pirOccupiedToUnoccupiedDelay) { - return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Ids::PirOccupiedToUnoccupiedDelay, + return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, PirOccupiedToUnoccupiedDelay::Id, (uint8_t *) &pirOccupiedToUnoccupiedDelay, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPirUnoccupiedToOccupiedDelay(chip::EndpointId endpoint, uint16_t * pirUnoccupiedToOccupiedDelay) { - return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Ids::PirUnoccupiedToOccupiedDelay, + return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, PirUnoccupiedToOccupiedDelay::Id, (uint8_t *) pirUnoccupiedToOccupiedDelay, sizeof(*pirUnoccupiedToOccupiedDelay)); } EmberAfStatus SetPirUnoccupiedToOccupiedDelay(chip::EndpointId endpoint, uint16_t pirUnoccupiedToOccupiedDelay) { - return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Ids::PirUnoccupiedToOccupiedDelay, + return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, PirUnoccupiedToOccupiedDelay::Id, (uint8_t *) &pirUnoccupiedToOccupiedDelay, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPirUnoccupiedToOccupiedThreshold(chip::EndpointId endpoint, uint8_t * pirUnoccupiedToOccupiedThreshold) { - return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Ids::PirUnoccupiedToOccupiedThreshold, + return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, PirUnoccupiedToOccupiedThreshold::Id, (uint8_t *) pirUnoccupiedToOccupiedThreshold, sizeof(*pirUnoccupiedToOccupiedThreshold)); } EmberAfStatus SetPirUnoccupiedToOccupiedThreshold(chip::EndpointId endpoint, uint8_t pirUnoccupiedToOccupiedThreshold) { - return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Ids::PirUnoccupiedToOccupiedThreshold, + return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, PirUnoccupiedToOccupiedThreshold::Id, (uint8_t *) &pirUnoccupiedToOccupiedThreshold, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetUltrasonicOccupiedToUnoccupiedDelay(chip::EndpointId endpoint, uint16_t * ultrasonicOccupiedToUnoccupiedDelay) { - return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Ids::UltrasonicOccupiedToUnoccupiedDelay, + return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, UltrasonicOccupiedToUnoccupiedDelay::Id, (uint8_t *) ultrasonicOccupiedToUnoccupiedDelay, sizeof(*ultrasonicOccupiedToUnoccupiedDelay)); } EmberAfStatus SetUltrasonicOccupiedToUnoccupiedDelay(chip::EndpointId endpoint, uint16_t ultrasonicOccupiedToUnoccupiedDelay) { - return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Ids::UltrasonicOccupiedToUnoccupiedDelay, + return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, UltrasonicOccupiedToUnoccupiedDelay::Id, (uint8_t *) &ultrasonicOccupiedToUnoccupiedDelay, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetUltrasonicUnoccupiedToOccupiedDelay(chip::EndpointId endpoint, uint16_t * ultrasonicUnoccupiedToOccupiedDelay) { - return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Ids::UltrasonicUnoccupiedToOccupiedDelay, + return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, UltrasonicUnoccupiedToOccupiedDelay::Id, (uint8_t *) ultrasonicUnoccupiedToOccupiedDelay, sizeof(*ultrasonicUnoccupiedToOccupiedDelay)); } EmberAfStatus SetUltrasonicUnoccupiedToOccupiedDelay(chip::EndpointId endpoint, uint16_t ultrasonicUnoccupiedToOccupiedDelay) { - return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Ids::UltrasonicUnoccupiedToOccupiedDelay, + return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, UltrasonicUnoccupiedToOccupiedDelay::Id, (uint8_t *) &ultrasonicUnoccupiedToOccupiedDelay, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetUltrasonicUnoccupiedToOccupiedThreshold(chip::EndpointId endpoint, uint8_t * ultrasonicUnoccupiedToOccupiedThreshold) { - return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Ids::UltrasonicUnoccupiedToOccupiedThreshold, + return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, UltrasonicUnoccupiedToOccupiedThreshold::Id, (uint8_t *) ultrasonicUnoccupiedToOccupiedThreshold, sizeof(*ultrasonicUnoccupiedToOccupiedThreshold)); } EmberAfStatus SetUltrasonicUnoccupiedToOccupiedThreshold(chip::EndpointId endpoint, uint8_t ultrasonicUnoccupiedToOccupiedThreshold) { - return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Ids::UltrasonicUnoccupiedToOccupiedThreshold, + return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, UltrasonicUnoccupiedToOccupiedThreshold::Id, (uint8_t *) &ultrasonicUnoccupiedToOccupiedThreshold, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetPhysicalContactOccupiedToUnoccupiedDelay(chip::EndpointId endpoint, uint16_t * physicalContactOccupiedToUnoccupiedDelay) { - return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Ids::PhysicalContactOccupiedToUnoccupiedDelay, + return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, PhysicalContactOccupiedToUnoccupiedDelay::Id, (uint8_t *) physicalContactOccupiedToUnoccupiedDelay, sizeof(*physicalContactOccupiedToUnoccupiedDelay)); } EmberAfStatus SetPhysicalContactOccupiedToUnoccupiedDelay(chip::EndpointId endpoint, uint16_t physicalContactOccupiedToUnoccupiedDelay) { - return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Ids::PhysicalContactOccupiedToUnoccupiedDelay, + return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, PhysicalContactOccupiedToUnoccupiedDelay::Id, (uint8_t *) &physicalContactOccupiedToUnoccupiedDelay, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPhysicalContactUnoccupiedToOccupiedDelay(chip::EndpointId endpoint, uint16_t * physicalContactUnoccupiedToOccupiedDelay) { - return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Ids::PhysicalContactUnoccupiedToOccupiedDelay, + return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, PhysicalContactUnoccupiedToOccupiedDelay::Id, (uint8_t *) physicalContactUnoccupiedToOccupiedDelay, sizeof(*physicalContactUnoccupiedToOccupiedDelay)); } EmberAfStatus SetPhysicalContactUnoccupiedToOccupiedDelay(chip::EndpointId endpoint, uint16_t physicalContactUnoccupiedToOccupiedDelay) { - return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Ids::PhysicalContactUnoccupiedToOccupiedDelay, + return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, PhysicalContactUnoccupiedToOccupiedDelay::Id, (uint8_t *) &physicalContactUnoccupiedToOccupiedDelay, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPhysicalContactUnoccupiedToOccupiedThreshold(chip::EndpointId endpoint, uint8_t * physicalContactUnoccupiedToOccupiedThreshold) { - return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, Ids::PhysicalContactUnoccupiedToOccupiedThreshold, + return emberAfReadServerAttribute(endpoint, OccupancySensing::Id, PhysicalContactUnoccupiedToOccupiedThreshold::Id, (uint8_t *) physicalContactUnoccupiedToOccupiedThreshold, sizeof(*physicalContactUnoccupiedToOccupiedThreshold)); } EmberAfStatus SetPhysicalContactUnoccupiedToOccupiedThreshold(chip::EndpointId endpoint, uint8_t physicalContactUnoccupiedToOccupiedThreshold) { - return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, Ids::PhysicalContactUnoccupiedToOccupiedThreshold, + return emberAfWriteServerAttribute(endpoint, OccupancySensing::Id, PhysicalContactUnoccupiedToOccupiedThreshold::Id, (uint8_t *) &physicalContactUnoccupiedToOccupiedThreshold, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5257,42 +5242,42 @@ namespace CarbonMonoxideConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, CarbonMonoxideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5302,42 +5287,42 @@ namespace CarbonDioxideConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, CarbonDioxideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5347,42 +5332,42 @@ namespace EthyleneConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, EthyleneConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5392,42 +5377,42 @@ namespace EthyleneOxideConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, EthyleneOxideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5437,42 +5422,42 @@ namespace HydrogenConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, HydrogenConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5482,42 +5467,42 @@ namespace HydrogenSulphideConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, Ids::Tolerance, + return emberAfWriteServerAttribute(endpoint, HydrogenSulphideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5527,42 +5512,42 @@ namespace NitricOxideConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, NitricOxideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5572,43 +5557,43 @@ namespace NitrogenDioxideConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, Ids::Tolerance, - (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, NitrogenDioxideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, + ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes } // namespace NitrogenDioxideConcentrationMeasurement @@ -5617,42 +5602,42 @@ namespace OxygenConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) &measuredValue, + return emberAfWriteServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, OxygenConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5662,42 +5647,42 @@ namespace OzoneConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) &measuredValue, + return emberAfWriteServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, OzoneConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5707,42 +5692,42 @@ namespace SulfurDioxideConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, SulfurDioxideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5752,43 +5737,43 @@ namespace DissolvedOxygenConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, Ids::Tolerance, - (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, DissolvedOxygenConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, + ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes } // namespace DissolvedOxygenConcentrationMeasurement @@ -5797,42 +5782,42 @@ namespace BromateConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, BromateConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, BromateConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, BromateConcentrationMeasurement::Id, Ids::MeasuredValue, - (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, BromateConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, + ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, BromateConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, BromateConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, BromateConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, BromateConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, BromateConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, BromateConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, BromateConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, BromateConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, BromateConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, BromateConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, BromateConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, BromateConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5842,42 +5827,42 @@ namespace ChloraminesConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, ChloraminesConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5887,42 +5872,42 @@ namespace ChlorineConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, ChlorineConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5932,42 +5917,42 @@ namespace FecalColiformAndEColiConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, Ids::Tolerance, + return emberAfReadServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, Ids::Tolerance, + return emberAfWriteServerAttribute(endpoint, FecalColiformAndEColiConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -5977,42 +5962,42 @@ namespace FluorideConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, FluorideConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6022,43 +6007,43 @@ namespace HaloaceticAcidsConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, Ids::Tolerance, - (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, HaloaceticAcidsConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, + ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes } // namespace HaloaceticAcidsConcentrationMeasurement @@ -6067,42 +6052,42 @@ namespace TotalTrihalomethanesConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, Ids::Tolerance, + return emberAfReadServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, Ids::Tolerance, + return emberAfWriteServerAttribute(endpoint, TotalTrihalomethanesConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6112,42 +6097,42 @@ namespace TotalColiformBacteriaConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, Ids::Tolerance, + return emberAfReadServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, Ids::Tolerance, + return emberAfWriteServerAttribute(endpoint, TotalColiformBacteriaConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6157,42 +6142,42 @@ namespace TurbidityConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, Ids::MeasuredValue, - (uint8_t *) measuredValue, sizeof(*measuredValue)); + return emberAfReadServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, + sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, TurbidityConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6202,42 +6187,42 @@ namespace CopperConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, CopperConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, CopperConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, CopperConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) &measuredValue, + return emberAfWriteServerAttribute(endpoint, CopperConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, CopperConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, CopperConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, CopperConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, CopperConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, CopperConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, CopperConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, CopperConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, CopperConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, CopperConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, CopperConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, CopperConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, CopperConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6247,42 +6232,42 @@ namespace LeadConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, LeadConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, LeadConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, LeadConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) &measuredValue, + return emberAfWriteServerAttribute(endpoint, LeadConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, LeadConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, LeadConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, LeadConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, LeadConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, LeadConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, LeadConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, LeadConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, LeadConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, LeadConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, LeadConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, LeadConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, LeadConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6292,42 +6277,42 @@ namespace ManganeseConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, Ids::MeasuredValue, - (uint8_t *) measuredValue, sizeof(*measuredValue)); + return emberAfReadServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, + sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, ManganeseConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6337,42 +6322,42 @@ namespace SulfateConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, Ids::MeasuredValue, - (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, + ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, SulfateConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6382,42 +6367,42 @@ namespace BromodichloromethaneConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, Ids::Tolerance, + return emberAfReadServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, Ids::Tolerance, + return emberAfWriteServerAttribute(endpoint, BromodichloromethaneConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6427,42 +6412,42 @@ namespace BromoformConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, Ids::MeasuredValue, - (uint8_t *) measuredValue, sizeof(*measuredValue)); + return emberAfReadServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, + sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, BromoformConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6472,42 +6457,42 @@ namespace ChlorodibromomethaneConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, Ids::Tolerance, + return emberAfReadServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, Ids::Tolerance, + return emberAfWriteServerAttribute(endpoint, ChlorodibromomethaneConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6517,42 +6502,42 @@ namespace ChloroformConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfReadServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, Ids::MeasuredValue, + return emberAfWriteServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, ChloroformConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6562,42 +6547,42 @@ namespace SodiumConcentrationMeasurement { namespace Attributes { EmberAfStatus GetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** measuredValue) { - return emberAfReadServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) measuredValue, + return emberAfReadServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) measuredValue, sizeof(*measuredValue)); } EmberAfStatus SetMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * measuredValue) { - return emberAfWriteServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, Ids::MeasuredValue, (uint8_t *) &measuredValue, + return emberAfWriteServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, MeasuredValue::Id, (uint8_t *) &measuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** minMeasuredValue) { - return emberAfReadServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfReadServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) minMeasuredValue, sizeof(*minMeasuredValue)); } EmberAfStatus SetMinMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * minMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, Ids::MinMeasuredValue, + return emberAfWriteServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, MinMeasuredValue::Id, (uint8_t *) &minMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** maxMeasuredValue) { - return emberAfReadServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfReadServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) maxMeasuredValue, sizeof(*maxMeasuredValue)); } EmberAfStatus SetMaxMeasuredValue(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * maxMeasuredValue) { - return emberAfWriteServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, Ids::MaxMeasuredValue, + return emberAfWriteServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, MaxMeasuredValue::Id, (uint8_t *) &maxMeasuredValue, ZCL_SINGLE_ATTRIBUTE_TYPE); } EmberAfStatus GetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t ** tolerance) { - return emberAfReadServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) tolerance, + return emberAfReadServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) tolerance, sizeof(*tolerance)); } EmberAfStatus SetTolerance(chip::EndpointId endpoint, /* TYPE WARNING: single defaults to */ uint8_t * tolerance) { - return emberAfWriteServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, Ids::Tolerance, (uint8_t *) &tolerance, + return emberAfWriteServerAttribute(endpoint, SodiumConcentrationMeasurement::Id, Tolerance::Id, (uint8_t *) &tolerance, ZCL_SINGLE_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6607,65 +6592,64 @@ namespace IasZone { namespace Attributes { EmberAfStatus GetZoneState(chip::EndpointId endpoint, uint8_t * zoneState) { - return emberAfReadServerAttribute(endpoint, IasZone::Id, Ids::ZoneState, (uint8_t *) zoneState, sizeof(*zoneState)); + return emberAfReadServerAttribute(endpoint, IasZone::Id, ZoneState::Id, (uint8_t *) zoneState, sizeof(*zoneState)); } EmberAfStatus SetZoneState(chip::EndpointId endpoint, uint8_t zoneState) { - return emberAfWriteServerAttribute(endpoint, IasZone::Id, Ids::ZoneState, (uint8_t *) &zoneState, ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, IasZone::Id, ZoneState::Id, (uint8_t *) &zoneState, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetZoneType(chip::EndpointId endpoint, uint16_t * zoneType) { - return emberAfReadServerAttribute(endpoint, IasZone::Id, Ids::ZoneType, (uint8_t *) zoneType, sizeof(*zoneType)); + return emberAfReadServerAttribute(endpoint, IasZone::Id, ZoneType::Id, (uint8_t *) zoneType, sizeof(*zoneType)); } EmberAfStatus SetZoneType(chip::EndpointId endpoint, uint16_t zoneType) { - return emberAfWriteServerAttribute(endpoint, IasZone::Id, Ids::ZoneType, (uint8_t *) &zoneType, ZCL_ENUM16_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, IasZone::Id, ZoneType::Id, (uint8_t *) &zoneType, ZCL_ENUM16_ATTRIBUTE_TYPE); } EmberAfStatus GetZoneStatus(chip::EndpointId endpoint, uint16_t * zoneStatus) { - return emberAfReadServerAttribute(endpoint, IasZone::Id, Ids::ZoneStatus, (uint8_t *) zoneStatus, sizeof(*zoneStatus)); + return emberAfReadServerAttribute(endpoint, IasZone::Id, ZoneStatus::Id, (uint8_t *) zoneStatus, sizeof(*zoneStatus)); } EmberAfStatus SetZoneStatus(chip::EndpointId endpoint, uint16_t zoneStatus) { - return emberAfWriteServerAttribute(endpoint, IasZone::Id, Ids::ZoneStatus, (uint8_t *) &zoneStatus, - ZCL_BITMAP16_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, IasZone::Id, ZoneStatus::Id, (uint8_t *) &zoneStatus, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetIasCieAddress(chip::EndpointId endpoint, chip::NodeId * iasCieAddress) { - return emberAfReadServerAttribute(endpoint, IasZone::Id, Ids::IasCieAddress, (uint8_t *) iasCieAddress, sizeof(*iasCieAddress)); + return emberAfReadServerAttribute(endpoint, IasZone::Id, IasCieAddress::Id, (uint8_t *) iasCieAddress, sizeof(*iasCieAddress)); } EmberAfStatus SetIasCieAddress(chip::EndpointId endpoint, chip::NodeId iasCieAddress) { - return emberAfWriteServerAttribute(endpoint, IasZone::Id, Ids::IasCieAddress, (uint8_t *) &iasCieAddress, + return emberAfWriteServerAttribute(endpoint, IasZone::Id, IasCieAddress::Id, (uint8_t *) &iasCieAddress, ZCL_NODE_ID_ATTRIBUTE_TYPE); } EmberAfStatus GetZoneId(chip::EndpointId endpoint, uint8_t * zoneId) { - return emberAfReadServerAttribute(endpoint, IasZone::Id, Ids::ZoneId, (uint8_t *) zoneId, sizeof(*zoneId)); + return emberAfReadServerAttribute(endpoint, IasZone::Id, ZoneId::Id, (uint8_t *) zoneId, sizeof(*zoneId)); } EmberAfStatus SetZoneId(chip::EndpointId endpoint, uint8_t zoneId) { - return emberAfWriteServerAttribute(endpoint, IasZone::Id, Ids::ZoneId, (uint8_t *) &zoneId, ZCL_INT8U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, IasZone::Id, ZoneId::Id, (uint8_t *) &zoneId, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetNumberOfZoneSensitivityLevelsSupported(chip::EndpointId endpoint, uint8_t * numberOfZoneSensitivityLevelsSupported) { - return emberAfReadServerAttribute(endpoint, IasZone::Id, Ids::NumberOfZoneSensitivityLevelsSupported, + return emberAfReadServerAttribute(endpoint, IasZone::Id, NumberOfZoneSensitivityLevelsSupported::Id, (uint8_t *) numberOfZoneSensitivityLevelsSupported, sizeof(*numberOfZoneSensitivityLevelsSupported)); } EmberAfStatus SetNumberOfZoneSensitivityLevelsSupported(chip::EndpointId endpoint, uint8_t numberOfZoneSensitivityLevelsSupported) { - return emberAfWriteServerAttribute(endpoint, IasZone::Id, Ids::NumberOfZoneSensitivityLevelsSupported, + return emberAfWriteServerAttribute(endpoint, IasZone::Id, NumberOfZoneSensitivityLevelsSupported::Id, (uint8_t *) &numberOfZoneSensitivityLevelsSupported, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentZoneSensitivityLevel(chip::EndpointId endpoint, uint8_t * currentZoneSensitivityLevel) { - return emberAfReadServerAttribute(endpoint, IasZone::Id, Ids::CurrentZoneSensitivityLevel, + return emberAfReadServerAttribute(endpoint, IasZone::Id, CurrentZoneSensitivityLevel::Id, (uint8_t *) currentZoneSensitivityLevel, sizeof(*currentZoneSensitivityLevel)); } EmberAfStatus SetCurrentZoneSensitivityLevel(chip::EndpointId endpoint, uint8_t currentZoneSensitivityLevel) { - return emberAfWriteServerAttribute(endpoint, IasZone::Id, Ids::CurrentZoneSensitivityLevel, + return emberAfWriteServerAttribute(endpoint, IasZone::Id, CurrentZoneSensitivityLevel::Id, (uint8_t *) ¤tZoneSensitivityLevel, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6675,11 +6659,11 @@ namespace IasWd { namespace Attributes { EmberAfStatus GetMaxDuration(chip::EndpointId endpoint, uint16_t * maxDuration) { - return emberAfReadServerAttribute(endpoint, IasWd::Id, Ids::MaxDuration, (uint8_t *) maxDuration, sizeof(*maxDuration)); + return emberAfReadServerAttribute(endpoint, IasWd::Id, MaxDuration::Id, (uint8_t *) maxDuration, sizeof(*maxDuration)); } EmberAfStatus SetMaxDuration(chip::EndpointId endpoint, uint16_t maxDuration) { - return emberAfWriteServerAttribute(endpoint, IasWd::Id, Ids::MaxDuration, (uint8_t *) &maxDuration, ZCL_INT16U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, IasWd::Id, MaxDuration::Id, (uint8_t *) &maxDuration, ZCL_INT16U_ATTRIBUTE_TYPE); } } // namespace Attributes } // namespace IasWd @@ -6698,12 +6682,12 @@ namespace TargetNavigator { namespace Attributes { EmberAfStatus GetCurrentNavigatorTarget(chip::EndpointId endpoint, uint8_t * currentNavigatorTarget) { - return emberAfReadServerAttribute(endpoint, TargetNavigator::Id, Ids::CurrentNavigatorTarget, - (uint8_t *) currentNavigatorTarget, sizeof(*currentNavigatorTarget)); + return emberAfReadServerAttribute(endpoint, TargetNavigator::Id, CurrentNavigatorTarget::Id, (uint8_t *) currentNavigatorTarget, + sizeof(*currentNavigatorTarget)); } EmberAfStatus SetCurrentNavigatorTarget(chip::EndpointId endpoint, uint8_t currentNavigatorTarget) { - return emberAfWriteServerAttribute(endpoint, TargetNavigator::Id, Ids::CurrentNavigatorTarget, + return emberAfWriteServerAttribute(endpoint, TargetNavigator::Id, CurrentNavigatorTarget::Id, (uint8_t *) ¤tNavigatorTarget, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6713,79 +6697,77 @@ namespace MediaPlayback { namespace Attributes { EmberAfStatus GetPlaybackState(chip::EndpointId endpoint, uint8_t * playbackState) { - return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, Ids::PlaybackState, (uint8_t *) playbackState, + return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, PlaybackState::Id, (uint8_t *) playbackState, sizeof(*playbackState)); } EmberAfStatus SetPlaybackState(chip::EndpointId endpoint, uint8_t playbackState) { - return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, Ids::PlaybackState, (uint8_t *) &playbackState, + return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, PlaybackState::Id, (uint8_t *) &playbackState, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetStartTime(chip::EndpointId endpoint, uint64_t * startTime) { - return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, Ids::StartTime, (uint8_t *) startTime, sizeof(*startTime)); + return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, StartTime::Id, (uint8_t *) startTime, sizeof(*startTime)); } EmberAfStatus SetStartTime(chip::EndpointId endpoint, uint64_t startTime) { - return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, Ids::StartTime, (uint8_t *) &startTime, + return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, StartTime::Id, (uint8_t *) &startTime, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetDuration(chip::EndpointId endpoint, uint64_t * duration) { - return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, Ids::Duration, (uint8_t *) duration, sizeof(*duration)); + return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, Duration::Id, (uint8_t *) duration, sizeof(*duration)); } EmberAfStatus SetDuration(chip::EndpointId endpoint, uint64_t duration) { - return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, Ids::Duration, (uint8_t *) &duration, - ZCL_INT64U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, Duration::Id, (uint8_t *) &duration, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetPositionUpdatedAt(chip::EndpointId endpoint, uint64_t * positionUpdatedAt) { - return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, Ids::PositionUpdatedAt, (uint8_t *) positionUpdatedAt, + return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, PositionUpdatedAt::Id, (uint8_t *) positionUpdatedAt, sizeof(*positionUpdatedAt)); } EmberAfStatus SetPositionUpdatedAt(chip::EndpointId endpoint, uint64_t positionUpdatedAt) { - return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, Ids::PositionUpdatedAt, (uint8_t *) &positionUpdatedAt, + return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, PositionUpdatedAt::Id, (uint8_t *) &positionUpdatedAt, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetPosition(chip::EndpointId endpoint, uint64_t * position) { - return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, Ids::Position, (uint8_t *) position, sizeof(*position)); + return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, Position::Id, (uint8_t *) position, sizeof(*position)); } EmberAfStatus SetPosition(chip::EndpointId endpoint, uint64_t position) { - return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, Ids::Position, (uint8_t *) &position, - ZCL_INT64U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, Position::Id, (uint8_t *) &position, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetPlaybackSpeed(chip::EndpointId endpoint, uint64_t * playbackSpeed) { - return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, Ids::PlaybackSpeed, (uint8_t *) playbackSpeed, + return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, PlaybackSpeed::Id, (uint8_t *) playbackSpeed, sizeof(*playbackSpeed)); } EmberAfStatus SetPlaybackSpeed(chip::EndpointId endpoint, uint64_t playbackSpeed) { - return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, Ids::PlaybackSpeed, (uint8_t *) &playbackSpeed, + return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, PlaybackSpeed::Id, (uint8_t *) &playbackSpeed, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetSeekRangeEnd(chip::EndpointId endpoint, uint64_t * seekRangeEnd) { - return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, Ids::SeekRangeEnd, (uint8_t *) seekRangeEnd, + return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, SeekRangeEnd::Id, (uint8_t *) seekRangeEnd, sizeof(*seekRangeEnd)); } EmberAfStatus SetSeekRangeEnd(chip::EndpointId endpoint, uint64_t seekRangeEnd) { - return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, Ids::SeekRangeEnd, (uint8_t *) &seekRangeEnd, + return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, SeekRangeEnd::Id, (uint8_t *) &seekRangeEnd, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetSeekRangeStart(chip::EndpointId endpoint, uint64_t * seekRangeStart) { - return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, Ids::SeekRangeStart, (uint8_t *) seekRangeStart, + return emberAfReadServerAttribute(endpoint, MediaPlayback::Id, SeekRangeStart::Id, (uint8_t *) seekRangeStart, sizeof(*seekRangeStart)); } EmberAfStatus SetSeekRangeStart(chip::EndpointId endpoint, uint64_t seekRangeStart) { - return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, Ids::SeekRangeStart, (uint8_t *) &seekRangeStart, + return emberAfWriteServerAttribute(endpoint, MediaPlayback::Id, SeekRangeStart::Id, (uint8_t *) &seekRangeStart, ZCL_INT64U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6795,12 +6777,12 @@ namespace MediaInput { namespace Attributes { EmberAfStatus GetCurrentMediaInput(chip::EndpointId endpoint, uint8_t * currentMediaInput) { - return emberAfReadServerAttribute(endpoint, MediaInput::Id, Ids::CurrentMediaInput, (uint8_t *) currentMediaInput, + return emberAfReadServerAttribute(endpoint, MediaInput::Id, CurrentMediaInput::Id, (uint8_t *) currentMediaInput, sizeof(*currentMediaInput)); } EmberAfStatus SetCurrentMediaInput(chip::EndpointId endpoint, uint8_t currentMediaInput) { - return emberAfWriteServerAttribute(endpoint, MediaInput::Id, Ids::CurrentMediaInput, (uint8_t *) ¤tMediaInput, + return emberAfWriteServerAttribute(endpoint, MediaInput::Id, CurrentMediaInput::Id, (uint8_t *) ¤tMediaInput, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6815,12 +6797,12 @@ namespace AudioOutput { namespace Attributes { EmberAfStatus GetCurrentAudioOutput(chip::EndpointId endpoint, uint8_t * currentAudioOutput) { - return emberAfReadServerAttribute(endpoint, AudioOutput::Id, Ids::CurrentAudioOutput, (uint8_t *) currentAudioOutput, + return emberAfReadServerAttribute(endpoint, AudioOutput::Id, CurrentAudioOutput::Id, (uint8_t *) currentAudioOutput, sizeof(*currentAudioOutput)); } EmberAfStatus SetCurrentAudioOutput(chip::EndpointId endpoint, uint8_t currentAudioOutput) { - return emberAfWriteServerAttribute(endpoint, AudioOutput::Id, Ids::CurrentAudioOutput, (uint8_t *) ¤tAudioOutput, + return emberAfWriteServerAttribute(endpoint, AudioOutput::Id, CurrentAudioOutput::Id, (uint8_t *) ¤tAudioOutput, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6830,22 +6812,22 @@ namespace ApplicationLauncher { namespace Attributes { EmberAfStatus GetCatalogVendorId(chip::EndpointId endpoint, uint8_t * catalogVendorId) { - return emberAfReadServerAttribute(endpoint, ApplicationLauncher::Id, Ids::CatalogVendorId, (uint8_t *) catalogVendorId, + return emberAfReadServerAttribute(endpoint, ApplicationLauncher::Id, CatalogVendorId::Id, (uint8_t *) catalogVendorId, sizeof(*catalogVendorId)); } EmberAfStatus SetCatalogVendorId(chip::EndpointId endpoint, uint8_t catalogVendorId) { - return emberAfWriteServerAttribute(endpoint, ApplicationLauncher::Id, Ids::CatalogVendorId, (uint8_t *) &catalogVendorId, + return emberAfWriteServerAttribute(endpoint, ApplicationLauncher::Id, CatalogVendorId::Id, (uint8_t *) &catalogVendorId, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetApplicationId(chip::EndpointId endpoint, uint8_t * applicationId) { - return emberAfReadServerAttribute(endpoint, ApplicationLauncher::Id, Ids::ApplicationId, (uint8_t *) applicationId, + return emberAfReadServerAttribute(endpoint, ApplicationLauncher::Id, ApplicationId::Id, (uint8_t *) applicationId, sizeof(*applicationId)); } EmberAfStatus SetApplicationId(chip::EndpointId endpoint, uint8_t applicationId) { - return emberAfWriteServerAttribute(endpoint, ApplicationLauncher::Id, Ids::ApplicationId, (uint8_t *) &applicationId, + return emberAfWriteServerAttribute(endpoint, ApplicationLauncher::Id, ApplicationId::Id, (uint8_t *) &applicationId, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6855,40 +6837,40 @@ namespace ApplicationBasic { namespace Attributes { EmberAfStatus GetVendorId(chip::EndpointId endpoint, uint16_t * vendorId) { - return emberAfReadServerAttribute(endpoint, ApplicationBasic::Id, Ids::VendorId, (uint8_t *) vendorId, sizeof(*vendorId)); + return emberAfReadServerAttribute(endpoint, ApplicationBasic::Id, VendorId::Id, (uint8_t *) vendorId, sizeof(*vendorId)); } EmberAfStatus SetVendorId(chip::EndpointId endpoint, uint16_t vendorId) { - return emberAfWriteServerAttribute(endpoint, ApplicationBasic::Id, Ids::VendorId, (uint8_t *) &vendorId, + return emberAfWriteServerAttribute(endpoint, ApplicationBasic::Id, VendorId::Id, (uint8_t *) &vendorId, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetProductId(chip::EndpointId endpoint, uint16_t * productId) { - return emberAfReadServerAttribute(endpoint, ApplicationBasic::Id, Ids::ProductId, (uint8_t *) productId, sizeof(*productId)); + return emberAfReadServerAttribute(endpoint, ApplicationBasic::Id, ProductId::Id, (uint8_t *) productId, sizeof(*productId)); } EmberAfStatus SetProductId(chip::EndpointId endpoint, uint16_t productId) { - return emberAfWriteServerAttribute(endpoint, ApplicationBasic::Id, Ids::ProductId, (uint8_t *) &productId, + return emberAfWriteServerAttribute(endpoint, ApplicationBasic::Id, ProductId::Id, (uint8_t *) &productId, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetCatalogVendorId(chip::EndpointId endpoint, uint16_t * catalogVendorId) { - return emberAfReadServerAttribute(endpoint, ApplicationBasic::Id, Ids::CatalogVendorId, (uint8_t *) catalogVendorId, + return emberAfReadServerAttribute(endpoint, ApplicationBasic::Id, CatalogVendorId::Id, (uint8_t *) catalogVendorId, sizeof(*catalogVendorId)); } EmberAfStatus SetCatalogVendorId(chip::EndpointId endpoint, uint16_t catalogVendorId) { - return emberAfWriteServerAttribute(endpoint, ApplicationBasic::Id, Ids::CatalogVendorId, (uint8_t *) &catalogVendorId, + return emberAfWriteServerAttribute(endpoint, ApplicationBasic::Id, CatalogVendorId::Id, (uint8_t *) &catalogVendorId, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetApplicationStatus(chip::EndpointId endpoint, uint8_t * applicationStatus) { - return emberAfReadServerAttribute(endpoint, ApplicationBasic::Id, Ids::ApplicationStatus, (uint8_t *) applicationStatus, + return emberAfReadServerAttribute(endpoint, ApplicationBasic::Id, ApplicationStatus::Id, (uint8_t *) applicationStatus, sizeof(*applicationStatus)); } EmberAfStatus SetApplicationStatus(chip::EndpointId endpoint, uint8_t applicationStatus) { - return emberAfWriteServerAttribute(endpoint, ApplicationBasic::Id, Ids::ApplicationStatus, (uint8_t *) &applicationStatus, + return emberAfWriteServerAttribute(endpoint, ApplicationBasic::Id, ApplicationStatus::Id, (uint8_t *) &applicationStatus, ZCL_ENUM8_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -6898,150 +6880,147 @@ namespace TestCluster { namespace Attributes { EmberAfStatus GetBoolean(chip::EndpointId endpoint, bool * boolean) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Boolean, (uint8_t *) boolean, sizeof(*boolean)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Boolean::Id, (uint8_t *) boolean, sizeof(*boolean)); } EmberAfStatus SetBoolean(chip::EndpointId endpoint, bool boolean) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Boolean, (uint8_t *) &boolean, ZCL_BOOLEAN_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Boolean::Id, (uint8_t *) &boolean, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } EmberAfStatus GetBitmap8(chip::EndpointId endpoint, uint8_t * bitmap8) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Bitmap8, (uint8_t *) bitmap8, sizeof(*bitmap8)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Bitmap8::Id, (uint8_t *) bitmap8, sizeof(*bitmap8)); } EmberAfStatus SetBitmap8(chip::EndpointId endpoint, uint8_t bitmap8) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Bitmap8, (uint8_t *) &bitmap8, ZCL_BITMAP8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Bitmap8::Id, (uint8_t *) &bitmap8, ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetBitmap16(chip::EndpointId endpoint, uint16_t * bitmap16) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Bitmap16, (uint8_t *) bitmap16, sizeof(*bitmap16)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Bitmap16::Id, (uint8_t *) bitmap16, sizeof(*bitmap16)); } EmberAfStatus SetBitmap16(chip::EndpointId endpoint, uint16_t bitmap16) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Bitmap16, (uint8_t *) &bitmap16, - ZCL_BITMAP16_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Bitmap16::Id, (uint8_t *) &bitmap16, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetBitmap32(chip::EndpointId endpoint, uint32_t * bitmap32) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Bitmap32, (uint8_t *) bitmap32, sizeof(*bitmap32)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Bitmap32::Id, (uint8_t *) bitmap32, sizeof(*bitmap32)); } EmberAfStatus SetBitmap32(chip::EndpointId endpoint, uint32_t bitmap32) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Bitmap32, (uint8_t *) &bitmap32, - ZCL_BITMAP32_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Bitmap32::Id, (uint8_t *) &bitmap32, ZCL_BITMAP32_ATTRIBUTE_TYPE); } EmberAfStatus GetBitmap64(chip::EndpointId endpoint, uint64_t * bitmap64) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Bitmap64, (uint8_t *) bitmap64, sizeof(*bitmap64)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Bitmap64::Id, (uint8_t *) bitmap64, sizeof(*bitmap64)); } EmberAfStatus SetBitmap64(chip::EndpointId endpoint, uint64_t bitmap64) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Bitmap64, (uint8_t *) &bitmap64, - ZCL_BITMAP64_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Bitmap64::Id, (uint8_t *) &bitmap64, ZCL_BITMAP64_ATTRIBUTE_TYPE); } EmberAfStatus GetInt8u(chip::EndpointId endpoint, uint8_t * int8u) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Int8u, (uint8_t *) int8u, sizeof(*int8u)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Int8u::Id, (uint8_t *) int8u, sizeof(*int8u)); } EmberAfStatus SetInt8u(chip::EndpointId endpoint, uint8_t int8u) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Int8u, (uint8_t *) &int8u, ZCL_INT8U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Int8u::Id, (uint8_t *) &int8u, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetInt16u(chip::EndpointId endpoint, uint16_t * int16u) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Int16u, (uint8_t *) int16u, sizeof(*int16u)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Int16u::Id, (uint8_t *) int16u, sizeof(*int16u)); } EmberAfStatus SetInt16u(chip::EndpointId endpoint, uint16_t int16u) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Int16u, (uint8_t *) &int16u, ZCL_INT16U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Int16u::Id, (uint8_t *) &int16u, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetInt32u(chip::EndpointId endpoint, uint32_t * int32u) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Int32u, (uint8_t *) int32u, sizeof(*int32u)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Int32u::Id, (uint8_t *) int32u, sizeof(*int32u)); } EmberAfStatus SetInt32u(chip::EndpointId endpoint, uint32_t int32u) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Int32u, (uint8_t *) &int32u, ZCL_INT32U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Int32u::Id, (uint8_t *) &int32u, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetInt64u(chip::EndpointId endpoint, uint64_t * int64u) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Int64u, (uint8_t *) int64u, sizeof(*int64u)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Int64u::Id, (uint8_t *) int64u, sizeof(*int64u)); } EmberAfStatus SetInt64u(chip::EndpointId endpoint, uint64_t int64u) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Int64u, (uint8_t *) &int64u, ZCL_INT64U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Int64u::Id, (uint8_t *) &int64u, ZCL_INT64U_ATTRIBUTE_TYPE); } EmberAfStatus GetInt8s(chip::EndpointId endpoint, int8_t * int8s) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Int8s, (uint8_t *) int8s, sizeof(*int8s)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Int8s::Id, (uint8_t *) int8s, sizeof(*int8s)); } EmberAfStatus SetInt8s(chip::EndpointId endpoint, int8_t int8s) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Int8s, (uint8_t *) &int8s, ZCL_INT8S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Int8s::Id, (uint8_t *) &int8s, ZCL_INT8S_ATTRIBUTE_TYPE); } EmberAfStatus GetInt16s(chip::EndpointId endpoint, int16_t * int16s) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Int16s, (uint8_t *) int16s, sizeof(*int16s)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Int16s::Id, (uint8_t *) int16s, sizeof(*int16s)); } EmberAfStatus SetInt16s(chip::EndpointId endpoint, int16_t int16s) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Int16s, (uint8_t *) &int16s, ZCL_INT16S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Int16s::Id, (uint8_t *) &int16s, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetInt32s(chip::EndpointId endpoint, int32_t * int32s) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Int32s, (uint8_t *) int32s, sizeof(*int32s)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Int32s::Id, (uint8_t *) int32s, sizeof(*int32s)); } EmberAfStatus SetInt32s(chip::EndpointId endpoint, int32_t int32s) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Int32s, (uint8_t *) &int32s, ZCL_INT32S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Int32s::Id, (uint8_t *) &int32s, ZCL_INT32S_ATTRIBUTE_TYPE); } EmberAfStatus GetInt64s(chip::EndpointId endpoint, int64_t * int64s) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Int64s, (uint8_t *) int64s, sizeof(*int64s)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Int64s::Id, (uint8_t *) int64s, sizeof(*int64s)); } EmberAfStatus SetInt64s(chip::EndpointId endpoint, int64_t int64s) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Int64s, (uint8_t *) &int64s, ZCL_INT64S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Int64s::Id, (uint8_t *) &int64s, ZCL_INT64S_ATTRIBUTE_TYPE); } EmberAfStatus GetEnum8(chip::EndpointId endpoint, uint8_t * enum8) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Enum8, (uint8_t *) enum8, sizeof(*enum8)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Enum8::Id, (uint8_t *) enum8, sizeof(*enum8)); } EmberAfStatus SetEnum8(chip::EndpointId endpoint, uint8_t enum8) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Enum8, (uint8_t *) &enum8, ZCL_ENUM8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Enum8::Id, (uint8_t *) &enum8, ZCL_ENUM8_ATTRIBUTE_TYPE); } EmberAfStatus GetEnum16(chip::EndpointId endpoint, uint16_t * enum16) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Enum16, (uint8_t *) enum16, sizeof(*enum16)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Enum16::Id, (uint8_t *) enum16, sizeof(*enum16)); } EmberAfStatus SetEnum16(chip::EndpointId endpoint, uint16_t enum16) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Enum16, (uint8_t *) &enum16, ZCL_ENUM16_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Enum16::Id, (uint8_t *) &enum16, ZCL_ENUM16_ATTRIBUTE_TYPE); } EmberAfStatus GetEpochUs(chip::EndpointId endpoint, uint64_t * epochUs) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::EpochUs, (uint8_t *) epochUs, sizeof(*epochUs)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, EpochUs::Id, (uint8_t *) epochUs, sizeof(*epochUs)); } EmberAfStatus SetEpochUs(chip::EndpointId endpoint, uint64_t epochUs) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::EpochUs, (uint8_t *) &epochUs, ZCL_EPOCH_US_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, EpochUs::Id, (uint8_t *) &epochUs, ZCL_EPOCH_US_ATTRIBUTE_TYPE); } EmberAfStatus GetEpochS(chip::EndpointId endpoint, uint32_t * epochS) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::EpochS, (uint8_t *) epochS, sizeof(*epochS)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, EpochS::Id, (uint8_t *) epochS, sizeof(*epochS)); } EmberAfStatus SetEpochS(chip::EndpointId endpoint, uint32_t epochS) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::EpochS, (uint8_t *) &epochS, ZCL_EPOCH_S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, EpochS::Id, (uint8_t *) &epochS, ZCL_EPOCH_S_ATTRIBUTE_TYPE); } EmberAfStatus GetUnsupported(chip::EndpointId endpoint, bool * unsupported) { - return emberAfReadServerAttribute(endpoint, TestCluster::Id, Ids::Unsupported, (uint8_t *) unsupported, sizeof(*unsupported)); + return emberAfReadServerAttribute(endpoint, TestCluster::Id, Unsupported::Id, (uint8_t *) unsupported, sizeof(*unsupported)); } EmberAfStatus SetUnsupported(chip::EndpointId endpoint, bool unsupported) { - return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Ids::Unsupported, (uint8_t *) &unsupported, + return emberAfWriteServerAttribute(endpoint, TestCluster::Id, Unsupported::Id, (uint8_t *) &unsupported, ZCL_BOOLEAN_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -7051,41 +7030,41 @@ namespace ApplianceIdentification { namespace Attributes { EmberAfStatus GetCompanyId(chip::EndpointId endpoint, uint16_t * companyId) { - return emberAfReadServerAttribute(endpoint, ApplianceIdentification::Id, Ids::CompanyId, (uint8_t *) companyId, + return emberAfReadServerAttribute(endpoint, ApplianceIdentification::Id, CompanyId::Id, (uint8_t *) companyId, sizeof(*companyId)); } EmberAfStatus SetCompanyId(chip::EndpointId endpoint, uint16_t companyId) { - return emberAfWriteServerAttribute(endpoint, ApplianceIdentification::Id, Ids::CompanyId, (uint8_t *) &companyId, + return emberAfWriteServerAttribute(endpoint, ApplianceIdentification::Id, CompanyId::Id, (uint8_t *) &companyId, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetBrandId(chip::EndpointId endpoint, uint16_t * brandId) { - return emberAfReadServerAttribute(endpoint, ApplianceIdentification::Id, Ids::BrandId, (uint8_t *) brandId, sizeof(*brandId)); + return emberAfReadServerAttribute(endpoint, ApplianceIdentification::Id, BrandId::Id, (uint8_t *) brandId, sizeof(*brandId)); } EmberAfStatus SetBrandId(chip::EndpointId endpoint, uint16_t brandId) { - return emberAfWriteServerAttribute(endpoint, ApplianceIdentification::Id, Ids::BrandId, (uint8_t *) &brandId, + return emberAfWriteServerAttribute(endpoint, ApplianceIdentification::Id, BrandId::Id, (uint8_t *) &brandId, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetProductTypeId(chip::EndpointId endpoint, uint16_t * productTypeId) { - return emberAfReadServerAttribute(endpoint, ApplianceIdentification::Id, Ids::ProductTypeId, (uint8_t *) productTypeId, + return emberAfReadServerAttribute(endpoint, ApplianceIdentification::Id, ProductTypeId::Id, (uint8_t *) productTypeId, sizeof(*productTypeId)); } EmberAfStatus SetProductTypeId(chip::EndpointId endpoint, uint16_t productTypeId) { - return emberAfWriteServerAttribute(endpoint, ApplianceIdentification::Id, Ids::ProductTypeId, (uint8_t *) &productTypeId, + return emberAfWriteServerAttribute(endpoint, ApplianceIdentification::Id, ProductTypeId::Id, (uint8_t *) &productTypeId, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetCecedSpecificationVersion(chip::EndpointId endpoint, uint8_t * cecedSpecificationVersion) { - return emberAfReadServerAttribute(endpoint, ApplianceIdentification::Id, Ids::CecedSpecificationVersion, + return emberAfReadServerAttribute(endpoint, ApplianceIdentification::Id, CecedSpecificationVersion::Id, (uint8_t *) cecedSpecificationVersion, sizeof(*cecedSpecificationVersion)); } EmberAfStatus SetCecedSpecificationVersion(chip::EndpointId endpoint, uint8_t cecedSpecificationVersion) { - return emberAfWriteServerAttribute(endpoint, ApplianceIdentification::Id, Ids::CecedSpecificationVersion, + return emberAfWriteServerAttribute(endpoint, ApplianceIdentification::Id, CecedSpecificationVersion::Id, (uint8_t *) &cecedSpecificationVersion, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -7095,22 +7074,22 @@ namespace MeterIdentification { namespace Attributes { EmberAfStatus GetMeterTypeId(chip::EndpointId endpoint, uint16_t * meterTypeId) { - return emberAfReadServerAttribute(endpoint, MeterIdentification::Id, Ids::MeterTypeId, (uint8_t *) meterTypeId, + return emberAfReadServerAttribute(endpoint, MeterIdentification::Id, MeterTypeId::Id, (uint8_t *) meterTypeId, sizeof(*meterTypeId)); } EmberAfStatus SetMeterTypeId(chip::EndpointId endpoint, uint16_t meterTypeId) { - return emberAfWriteServerAttribute(endpoint, MeterIdentification::Id, Ids::MeterTypeId, (uint8_t *) &meterTypeId, + return emberAfWriteServerAttribute(endpoint, MeterIdentification::Id, MeterTypeId::Id, (uint8_t *) &meterTypeId, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetDataQualityId(chip::EndpointId endpoint, uint16_t * dataQualityId) { - return emberAfReadServerAttribute(endpoint, MeterIdentification::Id, Ids::DataQualityId, (uint8_t *) dataQualityId, + return emberAfReadServerAttribute(endpoint, MeterIdentification::Id, DataQualityId::Id, (uint8_t *) dataQualityId, sizeof(*dataQualityId)); } EmberAfStatus SetDataQualityId(chip::EndpointId endpoint, uint16_t dataQualityId) { - return emberAfWriteServerAttribute(endpoint, MeterIdentification::Id, Ids::DataQualityId, (uint8_t *) &dataQualityId, + return emberAfWriteServerAttribute(endpoint, MeterIdentification::Id, DataQualityId::Id, (uint8_t *) &dataQualityId, ZCL_INT16U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -7120,22 +7099,22 @@ namespace ApplianceStatistics { namespace Attributes { EmberAfStatus GetLogMaxSize(chip::EndpointId endpoint, uint32_t * logMaxSize) { - return emberAfReadServerAttribute(endpoint, ApplianceStatistics::Id, Ids::LogMaxSize, (uint8_t *) logMaxSize, + return emberAfReadServerAttribute(endpoint, ApplianceStatistics::Id, LogMaxSize::Id, (uint8_t *) logMaxSize, sizeof(*logMaxSize)); } EmberAfStatus SetLogMaxSize(chip::EndpointId endpoint, uint32_t logMaxSize) { - return emberAfWriteServerAttribute(endpoint, ApplianceStatistics::Id, Ids::LogMaxSize, (uint8_t *) &logMaxSize, + return emberAfWriteServerAttribute(endpoint, ApplianceStatistics::Id, LogMaxSize::Id, (uint8_t *) &logMaxSize, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetLogQueueMaxSize(chip::EndpointId endpoint, uint8_t * logQueueMaxSize) { - return emberAfReadServerAttribute(endpoint, ApplianceStatistics::Id, Ids::LogQueueMaxSize, (uint8_t *) logQueueMaxSize, + return emberAfReadServerAttribute(endpoint, ApplianceStatistics::Id, LogQueueMaxSize::Id, (uint8_t *) logQueueMaxSize, sizeof(*logQueueMaxSize)); } EmberAfStatus SetLogQueueMaxSize(chip::EndpointId endpoint, uint8_t logQueueMaxSize) { - return emberAfWriteServerAttribute(endpoint, ApplianceStatistics::Id, Ids::LogQueueMaxSize, (uint8_t *) &logQueueMaxSize, + return emberAfWriteServerAttribute(endpoint, ApplianceStatistics::Id, LogQueueMaxSize::Id, (uint8_t *) &logQueueMaxSize, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -7145,1289 +7124,1289 @@ namespace ElectricalMeasurement { namespace Attributes { EmberAfStatus GetMeasurementType(chip::EndpointId endpoint, uint32_t * measurementType) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasurementType, (uint8_t *) measurementType, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, MeasurementType::Id, (uint8_t *) measurementType, sizeof(*measurementType)); } EmberAfStatus SetMeasurementType(chip::EndpointId endpoint, uint32_t measurementType) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasurementType, (uint8_t *) &measurementType, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, MeasurementType::Id, (uint8_t *) &measurementType, ZCL_BITMAP32_ATTRIBUTE_TYPE); } EmberAfStatus GetDcVoltage(chip::EndpointId endpoint, int16_t * dcVoltage) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcVoltage, (uint8_t *) dcVoltage, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcVoltage::Id, (uint8_t *) dcVoltage, sizeof(*dcVoltage)); } EmberAfStatus SetDcVoltage(chip::EndpointId endpoint, int16_t dcVoltage) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcVoltage, (uint8_t *) &dcVoltage, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcVoltage::Id, (uint8_t *) &dcVoltage, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetDcVoltageMin(chip::EndpointId endpoint, int16_t * dcVoltageMin) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcVoltageMin, (uint8_t *) dcVoltageMin, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcVoltageMin::Id, (uint8_t *) dcVoltageMin, sizeof(*dcVoltageMin)); } EmberAfStatus SetDcVoltageMin(chip::EndpointId endpoint, int16_t dcVoltageMin) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcVoltageMin, (uint8_t *) &dcVoltageMin, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcVoltageMin::Id, (uint8_t *) &dcVoltageMin, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetDcVoltageMax(chip::EndpointId endpoint, int16_t * dcVoltageMax) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcVoltageMax, (uint8_t *) dcVoltageMax, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcVoltageMax::Id, (uint8_t *) dcVoltageMax, sizeof(*dcVoltageMax)); } EmberAfStatus SetDcVoltageMax(chip::EndpointId endpoint, int16_t dcVoltageMax) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcVoltageMax, (uint8_t *) &dcVoltageMax, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcVoltageMax::Id, (uint8_t *) &dcVoltageMax, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetDcCurrent(chip::EndpointId endpoint, int16_t * dcCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcCurrent, (uint8_t *) dcCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcCurrent::Id, (uint8_t *) dcCurrent, sizeof(*dcCurrent)); } EmberAfStatus SetDcCurrent(chip::EndpointId endpoint, int16_t dcCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcCurrent, (uint8_t *) &dcCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcCurrent::Id, (uint8_t *) &dcCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetDcCurrentMin(chip::EndpointId endpoint, int16_t * dcCurrentMin) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcCurrentMin, (uint8_t *) dcCurrentMin, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcCurrentMin::Id, (uint8_t *) dcCurrentMin, sizeof(*dcCurrentMin)); } EmberAfStatus SetDcCurrentMin(chip::EndpointId endpoint, int16_t dcCurrentMin) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcCurrentMin, (uint8_t *) &dcCurrentMin, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcCurrentMin::Id, (uint8_t *) &dcCurrentMin, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetDcCurrentMax(chip::EndpointId endpoint, int16_t * dcCurrentMax) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcCurrentMax, (uint8_t *) dcCurrentMax, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcCurrentMax::Id, (uint8_t *) dcCurrentMax, sizeof(*dcCurrentMax)); } EmberAfStatus SetDcCurrentMax(chip::EndpointId endpoint, int16_t dcCurrentMax) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcCurrentMax, (uint8_t *) &dcCurrentMax, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcCurrentMax::Id, (uint8_t *) &dcCurrentMax, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetDcPower(chip::EndpointId endpoint, int16_t * dcPower) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcPower, (uint8_t *) dcPower, sizeof(*dcPower)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcPower::Id, (uint8_t *) dcPower, sizeof(*dcPower)); } EmberAfStatus SetDcPower(chip::EndpointId endpoint, int16_t dcPower) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcPower, (uint8_t *) &dcPower, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcPower::Id, (uint8_t *) &dcPower, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetDcPowerMin(chip::EndpointId endpoint, int16_t * dcPowerMin) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcPowerMin, (uint8_t *) dcPowerMin, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcPowerMin::Id, (uint8_t *) dcPowerMin, sizeof(*dcPowerMin)); } EmberAfStatus SetDcPowerMin(chip::EndpointId endpoint, int16_t dcPowerMin) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcPowerMin, (uint8_t *) &dcPowerMin, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcPowerMin::Id, (uint8_t *) &dcPowerMin, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetDcPowerMax(chip::EndpointId endpoint, int16_t * dcPowerMax) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcPowerMax, (uint8_t *) dcPowerMax, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcPowerMax::Id, (uint8_t *) dcPowerMax, sizeof(*dcPowerMax)); } EmberAfStatus SetDcPowerMax(chip::EndpointId endpoint, int16_t dcPowerMax) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcPowerMax, (uint8_t *) &dcPowerMax, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcPowerMax::Id, (uint8_t *) &dcPowerMax, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetDcVoltageMultiplier(chip::EndpointId endpoint, uint16_t * dcVoltageMultiplier) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcVoltageMultiplier, - (uint8_t *) dcVoltageMultiplier, sizeof(*dcVoltageMultiplier)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcVoltageMultiplier::Id, (uint8_t *) dcVoltageMultiplier, + sizeof(*dcVoltageMultiplier)); } EmberAfStatus SetDcVoltageMultiplier(chip::EndpointId endpoint, uint16_t dcVoltageMultiplier) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcVoltageMultiplier, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcVoltageMultiplier::Id, (uint8_t *) &dcVoltageMultiplier, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetDcVoltageDivisor(chip::EndpointId endpoint, uint16_t * dcVoltageDivisor) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcVoltageDivisor, (uint8_t *) dcVoltageDivisor, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcVoltageDivisor::Id, (uint8_t *) dcVoltageDivisor, sizeof(*dcVoltageDivisor)); } EmberAfStatus SetDcVoltageDivisor(chip::EndpointId endpoint, uint16_t dcVoltageDivisor) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcVoltageDivisor, (uint8_t *) &dcVoltageDivisor, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcVoltageDivisor::Id, (uint8_t *) &dcVoltageDivisor, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetDcCurrentMultiplier(chip::EndpointId endpoint, uint16_t * dcCurrentMultiplier) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcCurrentMultiplier, - (uint8_t *) dcCurrentMultiplier, sizeof(*dcCurrentMultiplier)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcCurrentMultiplier::Id, (uint8_t *) dcCurrentMultiplier, + sizeof(*dcCurrentMultiplier)); } EmberAfStatus SetDcCurrentMultiplier(chip::EndpointId endpoint, uint16_t dcCurrentMultiplier) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcCurrentMultiplier, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcCurrentMultiplier::Id, (uint8_t *) &dcCurrentMultiplier, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetDcCurrentDivisor(chip::EndpointId endpoint, uint16_t * dcCurrentDivisor) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcCurrentDivisor, (uint8_t *) dcCurrentDivisor, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcCurrentDivisor::Id, (uint8_t *) dcCurrentDivisor, sizeof(*dcCurrentDivisor)); } EmberAfStatus SetDcCurrentDivisor(chip::EndpointId endpoint, uint16_t dcCurrentDivisor) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcCurrentDivisor, (uint8_t *) &dcCurrentDivisor, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcCurrentDivisor::Id, (uint8_t *) &dcCurrentDivisor, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetDcPowerMultiplier(chip::EndpointId endpoint, uint16_t * dcPowerMultiplier) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcPowerMultiplier, (uint8_t *) dcPowerMultiplier, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcPowerMultiplier::Id, (uint8_t *) dcPowerMultiplier, sizeof(*dcPowerMultiplier)); } EmberAfStatus SetDcPowerMultiplier(chip::EndpointId endpoint, uint16_t dcPowerMultiplier) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcPowerMultiplier, (uint8_t *) &dcPowerMultiplier, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcPowerMultiplier::Id, (uint8_t *) &dcPowerMultiplier, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetDcPowerDivisor(chip::EndpointId endpoint, uint16_t * dcPowerDivisor) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcPowerDivisor, (uint8_t *) dcPowerDivisor, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, DcPowerDivisor::Id, (uint8_t *) dcPowerDivisor, sizeof(*dcPowerDivisor)); } EmberAfStatus SetDcPowerDivisor(chip::EndpointId endpoint, uint16_t dcPowerDivisor) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::DcPowerDivisor, (uint8_t *) &dcPowerDivisor, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, DcPowerDivisor::Id, (uint8_t *) &dcPowerDivisor, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAcFrequency(chip::EndpointId endpoint, uint16_t * acFrequency) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcFrequency, (uint8_t *) acFrequency, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcFrequency::Id, (uint8_t *) acFrequency, sizeof(*acFrequency)); } EmberAfStatus SetAcFrequency(chip::EndpointId endpoint, uint16_t acFrequency) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcFrequency, (uint8_t *) &acFrequency, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcFrequency::Id, (uint8_t *) &acFrequency, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAcFrequencyMin(chip::EndpointId endpoint, uint16_t * acFrequencyMin) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcFrequencyMin, (uint8_t *) acFrequencyMin, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcFrequencyMin::Id, (uint8_t *) acFrequencyMin, sizeof(*acFrequencyMin)); } EmberAfStatus SetAcFrequencyMin(chip::EndpointId endpoint, uint16_t acFrequencyMin) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcFrequencyMin, (uint8_t *) &acFrequencyMin, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcFrequencyMin::Id, (uint8_t *) &acFrequencyMin, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAcFrequencyMax(chip::EndpointId endpoint, uint16_t * acFrequencyMax) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcFrequencyMax, (uint8_t *) acFrequencyMax, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcFrequencyMax::Id, (uint8_t *) acFrequencyMax, sizeof(*acFrequencyMax)); } EmberAfStatus SetAcFrequencyMax(chip::EndpointId endpoint, uint16_t acFrequencyMax) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcFrequencyMax, (uint8_t *) &acFrequencyMax, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcFrequencyMax::Id, (uint8_t *) &acFrequencyMax, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetNeutralCurrent(chip::EndpointId endpoint, uint16_t * neutralCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::NeutralCurrent, (uint8_t *) neutralCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, NeutralCurrent::Id, (uint8_t *) neutralCurrent, sizeof(*neutralCurrent)); } EmberAfStatus SetNeutralCurrent(chip::EndpointId endpoint, uint16_t neutralCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::NeutralCurrent, (uint8_t *) &neutralCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, NeutralCurrent::Id, (uint8_t *) &neutralCurrent, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetTotalActivePower(chip::EndpointId endpoint, int32_t * totalActivePower) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::TotalActivePower, (uint8_t *) totalActivePower, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, TotalActivePower::Id, (uint8_t *) totalActivePower, sizeof(*totalActivePower)); } EmberAfStatus SetTotalActivePower(chip::EndpointId endpoint, int32_t totalActivePower) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::TotalActivePower, (uint8_t *) &totalActivePower, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, TotalActivePower::Id, (uint8_t *) &totalActivePower, ZCL_INT32S_ATTRIBUTE_TYPE); } EmberAfStatus GetTotalReactivePower(chip::EndpointId endpoint, int32_t * totalReactivePower) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::TotalReactivePower, (uint8_t *) totalReactivePower, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, TotalReactivePower::Id, (uint8_t *) totalReactivePower, sizeof(*totalReactivePower)); } EmberAfStatus SetTotalReactivePower(chip::EndpointId endpoint, int32_t totalReactivePower) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::TotalReactivePower, - (uint8_t *) &totalReactivePower, ZCL_INT32S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, TotalReactivePower::Id, (uint8_t *) &totalReactivePower, + ZCL_INT32S_ATTRIBUTE_TYPE); } EmberAfStatus GetTotalApparentPower(chip::EndpointId endpoint, uint32_t * totalApparentPower) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::TotalApparentPower, (uint8_t *) totalApparentPower, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, TotalApparentPower::Id, (uint8_t *) totalApparentPower, sizeof(*totalApparentPower)); } EmberAfStatus SetTotalApparentPower(chip::EndpointId endpoint, uint32_t totalApparentPower) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::TotalApparentPower, - (uint8_t *) &totalApparentPower, ZCL_INT32U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, TotalApparentPower::Id, (uint8_t *) &totalApparentPower, + ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetMeasured1stHarmonicCurrent(chip::EndpointId endpoint, int16_t * measured1stHarmonicCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::Measured1stHarmonicCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Measured1stHarmonicCurrent::Id, (uint8_t *) measured1stHarmonicCurrent, sizeof(*measured1stHarmonicCurrent)); } EmberAfStatus SetMeasured1stHarmonicCurrent(chip::EndpointId endpoint, int16_t measured1stHarmonicCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::Measured1stHarmonicCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Measured1stHarmonicCurrent::Id, (uint8_t *) &measured1stHarmonicCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMeasured3rdHarmonicCurrent(chip::EndpointId endpoint, int16_t * measured3rdHarmonicCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::Measured3rdHarmonicCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Measured3rdHarmonicCurrent::Id, (uint8_t *) measured3rdHarmonicCurrent, sizeof(*measured3rdHarmonicCurrent)); } EmberAfStatus SetMeasured3rdHarmonicCurrent(chip::EndpointId endpoint, int16_t measured3rdHarmonicCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::Measured3rdHarmonicCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Measured3rdHarmonicCurrent::Id, (uint8_t *) &measured3rdHarmonicCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMeasured5thHarmonicCurrent(chip::EndpointId endpoint, int16_t * measured5thHarmonicCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::Measured5thHarmonicCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Measured5thHarmonicCurrent::Id, (uint8_t *) measured5thHarmonicCurrent, sizeof(*measured5thHarmonicCurrent)); } EmberAfStatus SetMeasured5thHarmonicCurrent(chip::EndpointId endpoint, int16_t measured5thHarmonicCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::Measured5thHarmonicCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Measured5thHarmonicCurrent::Id, (uint8_t *) &measured5thHarmonicCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMeasured7thHarmonicCurrent(chip::EndpointId endpoint, int16_t * measured7thHarmonicCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::Measured7thHarmonicCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Measured7thHarmonicCurrent::Id, (uint8_t *) measured7thHarmonicCurrent, sizeof(*measured7thHarmonicCurrent)); } EmberAfStatus SetMeasured7thHarmonicCurrent(chip::EndpointId endpoint, int16_t measured7thHarmonicCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::Measured7thHarmonicCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Measured7thHarmonicCurrent::Id, (uint8_t *) &measured7thHarmonicCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMeasured9thHarmonicCurrent(chip::EndpointId endpoint, int16_t * measured9thHarmonicCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::Measured9thHarmonicCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Measured9thHarmonicCurrent::Id, (uint8_t *) measured9thHarmonicCurrent, sizeof(*measured9thHarmonicCurrent)); } EmberAfStatus SetMeasured9thHarmonicCurrent(chip::EndpointId endpoint, int16_t measured9thHarmonicCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::Measured9thHarmonicCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Measured9thHarmonicCurrent::Id, (uint8_t *) &measured9thHarmonicCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMeasured11thHarmonicCurrent(chip::EndpointId endpoint, int16_t * measured11thHarmonicCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::Measured11thHarmonicCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Measured11thHarmonicCurrent::Id, (uint8_t *) measured11thHarmonicCurrent, sizeof(*measured11thHarmonicCurrent)); } EmberAfStatus SetMeasured11thHarmonicCurrent(chip::EndpointId endpoint, int16_t measured11thHarmonicCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::Measured11thHarmonicCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Measured11thHarmonicCurrent::Id, (uint8_t *) &measured11thHarmonicCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMeasuredPhase1stHarmonicCurrent(chip::EndpointId endpoint, int16_t * measuredPhase1stHarmonicCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasuredPhase1stHarmonicCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, MeasuredPhase1stHarmonicCurrent::Id, (uint8_t *) measuredPhase1stHarmonicCurrent, sizeof(*measuredPhase1stHarmonicCurrent)); } EmberAfStatus SetMeasuredPhase1stHarmonicCurrent(chip::EndpointId endpoint, int16_t measuredPhase1stHarmonicCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasuredPhase1stHarmonicCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, MeasuredPhase1stHarmonicCurrent::Id, (uint8_t *) &measuredPhase1stHarmonicCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMeasuredPhase3rdHarmonicCurrent(chip::EndpointId endpoint, int16_t * measuredPhase3rdHarmonicCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasuredPhase3rdHarmonicCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, MeasuredPhase3rdHarmonicCurrent::Id, (uint8_t *) measuredPhase3rdHarmonicCurrent, sizeof(*measuredPhase3rdHarmonicCurrent)); } EmberAfStatus SetMeasuredPhase3rdHarmonicCurrent(chip::EndpointId endpoint, int16_t measuredPhase3rdHarmonicCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasuredPhase3rdHarmonicCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, MeasuredPhase3rdHarmonicCurrent::Id, (uint8_t *) &measuredPhase3rdHarmonicCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMeasuredPhase5thHarmonicCurrent(chip::EndpointId endpoint, int16_t * measuredPhase5thHarmonicCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasuredPhase5thHarmonicCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, MeasuredPhase5thHarmonicCurrent::Id, (uint8_t *) measuredPhase5thHarmonicCurrent, sizeof(*measuredPhase5thHarmonicCurrent)); } EmberAfStatus SetMeasuredPhase5thHarmonicCurrent(chip::EndpointId endpoint, int16_t measuredPhase5thHarmonicCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasuredPhase5thHarmonicCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, MeasuredPhase5thHarmonicCurrent::Id, (uint8_t *) &measuredPhase5thHarmonicCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMeasuredPhase7thHarmonicCurrent(chip::EndpointId endpoint, int16_t * measuredPhase7thHarmonicCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasuredPhase7thHarmonicCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, MeasuredPhase7thHarmonicCurrent::Id, (uint8_t *) measuredPhase7thHarmonicCurrent, sizeof(*measuredPhase7thHarmonicCurrent)); } EmberAfStatus SetMeasuredPhase7thHarmonicCurrent(chip::EndpointId endpoint, int16_t measuredPhase7thHarmonicCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasuredPhase7thHarmonicCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, MeasuredPhase7thHarmonicCurrent::Id, (uint8_t *) &measuredPhase7thHarmonicCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMeasuredPhase9thHarmonicCurrent(chip::EndpointId endpoint, int16_t * measuredPhase9thHarmonicCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasuredPhase9thHarmonicCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, MeasuredPhase9thHarmonicCurrent::Id, (uint8_t *) measuredPhase9thHarmonicCurrent, sizeof(*measuredPhase9thHarmonicCurrent)); } EmberAfStatus SetMeasuredPhase9thHarmonicCurrent(chip::EndpointId endpoint, int16_t measuredPhase9thHarmonicCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasuredPhase9thHarmonicCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, MeasuredPhase9thHarmonicCurrent::Id, (uint8_t *) &measuredPhase9thHarmonicCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetMeasuredPhase11thHarmonicCurrent(chip::EndpointId endpoint, int16_t * measuredPhase11thHarmonicCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasuredPhase11thHarmonicCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, MeasuredPhase11thHarmonicCurrent::Id, (uint8_t *) measuredPhase11thHarmonicCurrent, sizeof(*measuredPhase11thHarmonicCurrent)); } EmberAfStatus SetMeasuredPhase11thHarmonicCurrent(chip::EndpointId endpoint, int16_t measuredPhase11thHarmonicCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::MeasuredPhase11thHarmonicCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, MeasuredPhase11thHarmonicCurrent::Id, (uint8_t *) &measuredPhase11thHarmonicCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetAcFrequencyMultiplier(chip::EndpointId endpoint, uint16_t * acFrequencyMultiplier) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcFrequencyMultiplier, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcFrequencyMultiplier::Id, (uint8_t *) acFrequencyMultiplier, sizeof(*acFrequencyMultiplier)); } EmberAfStatus SetAcFrequencyMultiplier(chip::EndpointId endpoint, uint16_t acFrequencyMultiplier) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcFrequencyMultiplier, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcFrequencyMultiplier::Id, (uint8_t *) &acFrequencyMultiplier, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAcFrequencyDivisor(chip::EndpointId endpoint, uint16_t * acFrequencyDivisor) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcFrequencyDivisor, (uint8_t *) acFrequencyDivisor, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcFrequencyDivisor::Id, (uint8_t *) acFrequencyDivisor, sizeof(*acFrequencyDivisor)); } EmberAfStatus SetAcFrequencyDivisor(chip::EndpointId endpoint, uint16_t acFrequencyDivisor) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcFrequencyDivisor, - (uint8_t *) &acFrequencyDivisor, ZCL_INT16U_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcFrequencyDivisor::Id, (uint8_t *) &acFrequencyDivisor, + ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPowerMultiplier(chip::EndpointId endpoint, uint32_t * powerMultiplier) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::PowerMultiplier, (uint8_t *) powerMultiplier, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, PowerMultiplier::Id, (uint8_t *) powerMultiplier, sizeof(*powerMultiplier)); } EmberAfStatus SetPowerMultiplier(chip::EndpointId endpoint, uint32_t powerMultiplier) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::PowerMultiplier, (uint8_t *) &powerMultiplier, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, PowerMultiplier::Id, (uint8_t *) &powerMultiplier, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetPowerDivisor(chip::EndpointId endpoint, uint32_t * powerDivisor) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::PowerDivisor, (uint8_t *) powerDivisor, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, PowerDivisor::Id, (uint8_t *) powerDivisor, sizeof(*powerDivisor)); } EmberAfStatus SetPowerDivisor(chip::EndpointId endpoint, uint32_t powerDivisor) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::PowerDivisor, (uint8_t *) &powerDivisor, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, PowerDivisor::Id, (uint8_t *) &powerDivisor, ZCL_INT32U_ATTRIBUTE_TYPE); } EmberAfStatus GetHarmonicCurrentMultiplier(chip::EndpointId endpoint, int8_t * harmonicCurrentMultiplier) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::HarmonicCurrentMultiplier, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, HarmonicCurrentMultiplier::Id, (uint8_t *) harmonicCurrentMultiplier, sizeof(*harmonicCurrentMultiplier)); } EmberAfStatus SetHarmonicCurrentMultiplier(chip::EndpointId endpoint, int8_t harmonicCurrentMultiplier) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::HarmonicCurrentMultiplier, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, HarmonicCurrentMultiplier::Id, (uint8_t *) &harmonicCurrentMultiplier, ZCL_INT8S_ATTRIBUTE_TYPE); } EmberAfStatus GetPhaseHarmonicCurrentMultiplier(chip::EndpointId endpoint, int8_t * phaseHarmonicCurrentMultiplier) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::PhaseHarmonicCurrentMultiplier, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, PhaseHarmonicCurrentMultiplier::Id, (uint8_t *) phaseHarmonicCurrentMultiplier, sizeof(*phaseHarmonicCurrentMultiplier)); } EmberAfStatus SetPhaseHarmonicCurrentMultiplier(chip::EndpointId endpoint, int8_t phaseHarmonicCurrentMultiplier) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::PhaseHarmonicCurrentMultiplier, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, PhaseHarmonicCurrentMultiplier::Id, (uint8_t *) &phaseHarmonicCurrentMultiplier, ZCL_INT8S_ATTRIBUTE_TYPE); } EmberAfStatus GetInstantaneousVoltage(chip::EndpointId endpoint, int16_t * instantaneousVoltage) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::InstantaneousVoltage, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, InstantaneousVoltage::Id, (uint8_t *) instantaneousVoltage, sizeof(*instantaneousVoltage)); } EmberAfStatus SetInstantaneousVoltage(chip::EndpointId endpoint, int16_t instantaneousVoltage) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::InstantaneousVoltage, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, InstantaneousVoltage::Id, (uint8_t *) &instantaneousVoltage, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetInstantaneousLineCurrent(chip::EndpointId endpoint, uint16_t * instantaneousLineCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::InstantaneousLineCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, InstantaneousLineCurrent::Id, (uint8_t *) instantaneousLineCurrent, sizeof(*instantaneousLineCurrent)); } EmberAfStatus SetInstantaneousLineCurrent(chip::EndpointId endpoint, uint16_t instantaneousLineCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::InstantaneousLineCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, InstantaneousLineCurrent::Id, (uint8_t *) &instantaneousLineCurrent, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetInstantaneousActiveCurrent(chip::EndpointId endpoint, int16_t * instantaneousActiveCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::InstantaneousActiveCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, InstantaneousActiveCurrent::Id, (uint8_t *) instantaneousActiveCurrent, sizeof(*instantaneousActiveCurrent)); } EmberAfStatus SetInstantaneousActiveCurrent(chip::EndpointId endpoint, int16_t instantaneousActiveCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::InstantaneousActiveCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, InstantaneousActiveCurrent::Id, (uint8_t *) &instantaneousActiveCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetInstantaneousReactiveCurrent(chip::EndpointId endpoint, int16_t * instantaneousReactiveCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::InstantaneousReactiveCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, InstantaneousReactiveCurrent::Id, (uint8_t *) instantaneousReactiveCurrent, sizeof(*instantaneousReactiveCurrent)); } EmberAfStatus SetInstantaneousReactiveCurrent(chip::EndpointId endpoint, int16_t instantaneousReactiveCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::InstantaneousReactiveCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, InstantaneousReactiveCurrent::Id, (uint8_t *) &instantaneousReactiveCurrent, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetInstantaneousPower(chip::EndpointId endpoint, int16_t * instantaneousPower) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::InstantaneousPower, (uint8_t *) instantaneousPower, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, InstantaneousPower::Id, (uint8_t *) instantaneousPower, sizeof(*instantaneousPower)); } EmberAfStatus SetInstantaneousPower(chip::EndpointId endpoint, int16_t instantaneousPower) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::InstantaneousPower, - (uint8_t *) &instantaneousPower, ZCL_INT16S_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, InstantaneousPower::Id, (uint8_t *) &instantaneousPower, + ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltage(chip::EndpointId endpoint, uint16_t * rmsVoltage) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltage, (uint8_t *) rmsVoltage, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltage::Id, (uint8_t *) rmsVoltage, sizeof(*rmsVoltage)); } EmberAfStatus SetRmsVoltage(chip::EndpointId endpoint, uint16_t rmsVoltage) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltage, (uint8_t *) &rmsVoltage, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltage::Id, (uint8_t *) &rmsVoltage, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageMin(chip::EndpointId endpoint, uint16_t * rmsVoltageMin) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageMin, (uint8_t *) rmsVoltageMin, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageMin::Id, (uint8_t *) rmsVoltageMin, sizeof(*rmsVoltageMin)); } EmberAfStatus SetRmsVoltageMin(chip::EndpointId endpoint, uint16_t rmsVoltageMin) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageMin, (uint8_t *) &rmsVoltageMin, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageMin::Id, (uint8_t *) &rmsVoltageMin, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageMax(chip::EndpointId endpoint, uint16_t * rmsVoltageMax) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageMax, (uint8_t *) rmsVoltageMax, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageMax::Id, (uint8_t *) rmsVoltageMax, sizeof(*rmsVoltageMax)); } EmberAfStatus SetRmsVoltageMax(chip::EndpointId endpoint, uint16_t rmsVoltageMax) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageMax, (uint8_t *) &rmsVoltageMax, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageMax::Id, (uint8_t *) &rmsVoltageMax, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsCurrent(chip::EndpointId endpoint, uint16_t * rmsCurrent) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrent, (uint8_t *) rmsCurrent, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrent::Id, (uint8_t *) rmsCurrent, sizeof(*rmsCurrent)); } EmberAfStatus SetRmsCurrent(chip::EndpointId endpoint, uint16_t rmsCurrent) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrent, (uint8_t *) &rmsCurrent, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrent::Id, (uint8_t *) &rmsCurrent, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsCurrentMin(chip::EndpointId endpoint, uint16_t * rmsCurrentMin) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentMin, (uint8_t *) rmsCurrentMin, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentMin::Id, (uint8_t *) rmsCurrentMin, sizeof(*rmsCurrentMin)); } EmberAfStatus SetRmsCurrentMin(chip::EndpointId endpoint, uint16_t rmsCurrentMin) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentMin, (uint8_t *) &rmsCurrentMin, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentMin::Id, (uint8_t *) &rmsCurrentMin, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsCurrentMax(chip::EndpointId endpoint, uint16_t * rmsCurrentMax) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentMax, (uint8_t *) rmsCurrentMax, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentMax::Id, (uint8_t *) rmsCurrentMax, sizeof(*rmsCurrentMax)); } EmberAfStatus SetRmsCurrentMax(chip::EndpointId endpoint, uint16_t rmsCurrentMax) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentMax, (uint8_t *) &rmsCurrentMax, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentMax::Id, (uint8_t *) &rmsCurrentMax, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetActivePower(chip::EndpointId endpoint, int16_t * activePower) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePower, (uint8_t *) activePower, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePower::Id, (uint8_t *) activePower, sizeof(*activePower)); } EmberAfStatus SetActivePower(chip::EndpointId endpoint, int16_t activePower) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePower, (uint8_t *) &activePower, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePower::Id, (uint8_t *) &activePower, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetActivePowerMin(chip::EndpointId endpoint, int16_t * activePowerMin) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerMin, (uint8_t *) activePowerMin, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerMin::Id, (uint8_t *) activePowerMin, sizeof(*activePowerMin)); } EmberAfStatus SetActivePowerMin(chip::EndpointId endpoint, int16_t activePowerMin) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerMin, (uint8_t *) &activePowerMin, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerMin::Id, (uint8_t *) &activePowerMin, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetActivePowerMax(chip::EndpointId endpoint, int16_t * activePowerMax) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerMax, (uint8_t *) activePowerMax, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerMax::Id, (uint8_t *) activePowerMax, sizeof(*activePowerMax)); } EmberAfStatus SetActivePowerMax(chip::EndpointId endpoint, int16_t activePowerMax) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerMax, (uint8_t *) &activePowerMax, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerMax::Id, (uint8_t *) &activePowerMax, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetReactivePower(chip::EndpointId endpoint, int16_t * reactivePower) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ReactivePower, (uint8_t *) reactivePower, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ReactivePower::Id, (uint8_t *) reactivePower, sizeof(*reactivePower)); } EmberAfStatus SetReactivePower(chip::EndpointId endpoint, int16_t reactivePower) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ReactivePower, (uint8_t *) &reactivePower, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ReactivePower::Id, (uint8_t *) &reactivePower, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetApparentPower(chip::EndpointId endpoint, uint16_t * apparentPower) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ApparentPower, (uint8_t *) apparentPower, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ApparentPower::Id, (uint8_t *) apparentPower, sizeof(*apparentPower)); } EmberAfStatus SetApparentPower(chip::EndpointId endpoint, uint16_t apparentPower) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ApparentPower, (uint8_t *) &apparentPower, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ApparentPower::Id, (uint8_t *) &apparentPower, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPowerFactor(chip::EndpointId endpoint, int8_t * powerFactor) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::PowerFactor, (uint8_t *) powerFactor, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, PowerFactor::Id, (uint8_t *) powerFactor, sizeof(*powerFactor)); } EmberAfStatus SetPowerFactor(chip::EndpointId endpoint, int8_t powerFactor) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::PowerFactor, (uint8_t *) &powerFactor, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, PowerFactor::Id, (uint8_t *) &powerFactor, ZCL_INT8S_ATTRIBUTE_TYPE); } EmberAfStatus GetAverageRmsVoltageMeasurementPeriod(chip::EndpointId endpoint, uint16_t * averageRmsVoltageMeasurementPeriod) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsVoltageMeasurementPeriod, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsVoltageMeasurementPeriod::Id, (uint8_t *) averageRmsVoltageMeasurementPeriod, sizeof(*averageRmsVoltageMeasurementPeriod)); } EmberAfStatus SetAverageRmsVoltageMeasurementPeriod(chip::EndpointId endpoint, uint16_t averageRmsVoltageMeasurementPeriod) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsVoltageMeasurementPeriod, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsVoltageMeasurementPeriod::Id, (uint8_t *) &averageRmsVoltageMeasurementPeriod, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAverageRmsUnderVoltageCounter(chip::EndpointId endpoint, uint16_t * averageRmsUnderVoltageCounter) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsUnderVoltageCounter, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsUnderVoltageCounter::Id, (uint8_t *) averageRmsUnderVoltageCounter, sizeof(*averageRmsUnderVoltageCounter)); } EmberAfStatus SetAverageRmsUnderVoltageCounter(chip::EndpointId endpoint, uint16_t averageRmsUnderVoltageCounter) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsUnderVoltageCounter, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsUnderVoltageCounter::Id, (uint8_t *) &averageRmsUnderVoltageCounter, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsExtremeOverVoltagePeriod(chip::EndpointId endpoint, uint16_t * rmsExtremeOverVoltagePeriod) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeOverVoltagePeriod, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeOverVoltagePeriod::Id, (uint8_t *) rmsExtremeOverVoltagePeriod, sizeof(*rmsExtremeOverVoltagePeriod)); } EmberAfStatus SetRmsExtremeOverVoltagePeriod(chip::EndpointId endpoint, uint16_t rmsExtremeOverVoltagePeriod) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeOverVoltagePeriod, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeOverVoltagePeriod::Id, (uint8_t *) &rmsExtremeOverVoltagePeriod, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsExtremeUnderVoltagePeriod(chip::EndpointId endpoint, uint16_t * rmsExtremeUnderVoltagePeriod) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeUnderVoltagePeriod, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeUnderVoltagePeriod::Id, (uint8_t *) rmsExtremeUnderVoltagePeriod, sizeof(*rmsExtremeUnderVoltagePeriod)); } EmberAfStatus SetRmsExtremeUnderVoltagePeriod(chip::EndpointId endpoint, uint16_t rmsExtremeUnderVoltagePeriod) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeUnderVoltagePeriod, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeUnderVoltagePeriod::Id, (uint8_t *) &rmsExtremeUnderVoltagePeriod, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageSagPeriod(chip::EndpointId endpoint, uint16_t * rmsVoltageSagPeriod) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSagPeriod, - (uint8_t *) rmsVoltageSagPeriod, sizeof(*rmsVoltageSagPeriod)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSagPeriod::Id, (uint8_t *) rmsVoltageSagPeriod, + sizeof(*rmsVoltageSagPeriod)); } EmberAfStatus SetRmsVoltageSagPeriod(chip::EndpointId endpoint, uint16_t rmsVoltageSagPeriod) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSagPeriod, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSagPeriod::Id, (uint8_t *) &rmsVoltageSagPeriod, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageSwellPeriod(chip::EndpointId endpoint, uint16_t * rmsVoltageSwellPeriod) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSwellPeriod, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSwellPeriod::Id, (uint8_t *) rmsVoltageSwellPeriod, sizeof(*rmsVoltageSwellPeriod)); } EmberAfStatus SetRmsVoltageSwellPeriod(chip::EndpointId endpoint, uint16_t rmsVoltageSwellPeriod) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSwellPeriod, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSwellPeriod::Id, (uint8_t *) &rmsVoltageSwellPeriod, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAcVoltageMultiplier(chip::EndpointId endpoint, uint16_t * acVoltageMultiplier) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcVoltageMultiplier, - (uint8_t *) acVoltageMultiplier, sizeof(*acVoltageMultiplier)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcVoltageMultiplier::Id, (uint8_t *) acVoltageMultiplier, + sizeof(*acVoltageMultiplier)); } EmberAfStatus SetAcVoltageMultiplier(chip::EndpointId endpoint, uint16_t acVoltageMultiplier) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcVoltageMultiplier, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcVoltageMultiplier::Id, (uint8_t *) &acVoltageMultiplier, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAcVoltageDivisor(chip::EndpointId endpoint, uint16_t * acVoltageDivisor) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcVoltageDivisor, (uint8_t *) acVoltageDivisor, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcVoltageDivisor::Id, (uint8_t *) acVoltageDivisor, sizeof(*acVoltageDivisor)); } EmberAfStatus SetAcVoltageDivisor(chip::EndpointId endpoint, uint16_t acVoltageDivisor) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcVoltageDivisor, (uint8_t *) &acVoltageDivisor, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcVoltageDivisor::Id, (uint8_t *) &acVoltageDivisor, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAcCurrentMultiplier(chip::EndpointId endpoint, uint16_t * acCurrentMultiplier) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcCurrentMultiplier, - (uint8_t *) acCurrentMultiplier, sizeof(*acCurrentMultiplier)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcCurrentMultiplier::Id, (uint8_t *) acCurrentMultiplier, + sizeof(*acCurrentMultiplier)); } EmberAfStatus SetAcCurrentMultiplier(chip::EndpointId endpoint, uint16_t acCurrentMultiplier) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcCurrentMultiplier, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcCurrentMultiplier::Id, (uint8_t *) &acCurrentMultiplier, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAcCurrentDivisor(chip::EndpointId endpoint, uint16_t * acCurrentDivisor) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcCurrentDivisor, (uint8_t *) acCurrentDivisor, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcCurrentDivisor::Id, (uint8_t *) acCurrentDivisor, sizeof(*acCurrentDivisor)); } EmberAfStatus SetAcCurrentDivisor(chip::EndpointId endpoint, uint16_t acCurrentDivisor) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcCurrentDivisor, (uint8_t *) &acCurrentDivisor, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcCurrentDivisor::Id, (uint8_t *) &acCurrentDivisor, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAcPowerMultiplier(chip::EndpointId endpoint, uint16_t * acPowerMultiplier) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcPowerMultiplier, (uint8_t *) acPowerMultiplier, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcPowerMultiplier::Id, (uint8_t *) acPowerMultiplier, sizeof(*acPowerMultiplier)); } EmberAfStatus SetAcPowerMultiplier(chip::EndpointId endpoint, uint16_t acPowerMultiplier) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcPowerMultiplier, (uint8_t *) &acPowerMultiplier, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcPowerMultiplier::Id, (uint8_t *) &acPowerMultiplier, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAcPowerDivisor(chip::EndpointId endpoint, uint16_t * acPowerDivisor) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcPowerDivisor, (uint8_t *) acPowerDivisor, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcPowerDivisor::Id, (uint8_t *) acPowerDivisor, sizeof(*acPowerDivisor)); } EmberAfStatus SetAcPowerDivisor(chip::EndpointId endpoint, uint16_t acPowerDivisor) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcPowerDivisor, (uint8_t *) &acPowerDivisor, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcPowerDivisor::Id, (uint8_t *) &acPowerDivisor, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetOverloadAlarmsMask(chip::EndpointId endpoint, uint8_t * overloadAlarmsMask) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::OverloadAlarmsMask, (uint8_t *) overloadAlarmsMask, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, OverloadAlarmsMask::Id, (uint8_t *) overloadAlarmsMask, sizeof(*overloadAlarmsMask)); } EmberAfStatus SetOverloadAlarmsMask(chip::EndpointId endpoint, uint8_t overloadAlarmsMask) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::OverloadAlarmsMask, - (uint8_t *) &overloadAlarmsMask, ZCL_BITMAP8_ATTRIBUTE_TYPE); + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, OverloadAlarmsMask::Id, (uint8_t *) &overloadAlarmsMask, + ZCL_BITMAP8_ATTRIBUTE_TYPE); } EmberAfStatus GetVoltageOverload(chip::EndpointId endpoint, int16_t * voltageOverload) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::VoltageOverload, (uint8_t *) voltageOverload, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, VoltageOverload::Id, (uint8_t *) voltageOverload, sizeof(*voltageOverload)); } EmberAfStatus SetVoltageOverload(chip::EndpointId endpoint, int16_t voltageOverload) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::VoltageOverload, (uint8_t *) &voltageOverload, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, VoltageOverload::Id, (uint8_t *) &voltageOverload, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetCurrentOverload(chip::EndpointId endpoint, int16_t * currentOverload) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::CurrentOverload, (uint8_t *) currentOverload, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, CurrentOverload::Id, (uint8_t *) currentOverload, sizeof(*currentOverload)); } EmberAfStatus SetCurrentOverload(chip::EndpointId endpoint, int16_t currentOverload) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::CurrentOverload, (uint8_t *) ¤tOverload, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, CurrentOverload::Id, (uint8_t *) ¤tOverload, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetAcOverloadAlarmsMask(chip::EndpointId endpoint, uint16_t * acOverloadAlarmsMask) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcOverloadAlarmsMask, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcOverloadAlarmsMask::Id, (uint8_t *) acOverloadAlarmsMask, sizeof(*acOverloadAlarmsMask)); } EmberAfStatus SetAcOverloadAlarmsMask(chip::EndpointId endpoint, uint16_t acOverloadAlarmsMask) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcOverloadAlarmsMask, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcOverloadAlarmsMask::Id, (uint8_t *) &acOverloadAlarmsMask, ZCL_BITMAP16_ATTRIBUTE_TYPE); } EmberAfStatus GetAcVoltageOverload(chip::EndpointId endpoint, int16_t * acVoltageOverload) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcVoltageOverload, (uint8_t *) acVoltageOverload, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcVoltageOverload::Id, (uint8_t *) acVoltageOverload, sizeof(*acVoltageOverload)); } EmberAfStatus SetAcVoltageOverload(chip::EndpointId endpoint, int16_t acVoltageOverload) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcVoltageOverload, (uint8_t *) &acVoltageOverload, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcVoltageOverload::Id, (uint8_t *) &acVoltageOverload, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetAcCurrentOverload(chip::EndpointId endpoint, int16_t * acCurrentOverload) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcCurrentOverload, (uint8_t *) acCurrentOverload, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcCurrentOverload::Id, (uint8_t *) acCurrentOverload, sizeof(*acCurrentOverload)); } EmberAfStatus SetAcCurrentOverload(chip::EndpointId endpoint, int16_t acCurrentOverload) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcCurrentOverload, (uint8_t *) &acCurrentOverload, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcCurrentOverload::Id, (uint8_t *) &acCurrentOverload, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetAcActivePowerOverload(chip::EndpointId endpoint, int16_t * acActivePowerOverload) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcActivePowerOverload, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcActivePowerOverload::Id, (uint8_t *) acActivePowerOverload, sizeof(*acActivePowerOverload)); } EmberAfStatus SetAcActivePowerOverload(chip::EndpointId endpoint, int16_t acActivePowerOverload) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcActivePowerOverload, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcActivePowerOverload::Id, (uint8_t *) &acActivePowerOverload, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetAcReactivePowerOverload(chip::EndpointId endpoint, int16_t * acReactivePowerOverload) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcReactivePowerOverload, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AcReactivePowerOverload::Id, (uint8_t *) acReactivePowerOverload, sizeof(*acReactivePowerOverload)); } EmberAfStatus SetAcReactivePowerOverload(chip::EndpointId endpoint, int16_t acReactivePowerOverload) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AcReactivePowerOverload, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AcReactivePowerOverload::Id, (uint8_t *) &acReactivePowerOverload, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetAverageRmsOverVoltage(chip::EndpointId endpoint, int16_t * averageRmsOverVoltage) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsOverVoltage, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsOverVoltage::Id, (uint8_t *) averageRmsOverVoltage, sizeof(*averageRmsOverVoltage)); } EmberAfStatus SetAverageRmsOverVoltage(chip::EndpointId endpoint, int16_t averageRmsOverVoltage) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsOverVoltage, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsOverVoltage::Id, (uint8_t *) &averageRmsOverVoltage, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetAverageRmsUnderVoltage(chip::EndpointId endpoint, int16_t * averageRmsUnderVoltage) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsUnderVoltage, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsUnderVoltage::Id, (uint8_t *) averageRmsUnderVoltage, sizeof(*averageRmsUnderVoltage)); } EmberAfStatus SetAverageRmsUnderVoltage(chip::EndpointId endpoint, int16_t averageRmsUnderVoltage) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsUnderVoltage, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsUnderVoltage::Id, (uint8_t *) &averageRmsUnderVoltage, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsExtremeOverVoltage(chip::EndpointId endpoint, int16_t * rmsExtremeOverVoltage) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeOverVoltage, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeOverVoltage::Id, (uint8_t *) rmsExtremeOverVoltage, sizeof(*rmsExtremeOverVoltage)); } EmberAfStatus SetRmsExtremeOverVoltage(chip::EndpointId endpoint, int16_t rmsExtremeOverVoltage) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeOverVoltage, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeOverVoltage::Id, (uint8_t *) &rmsExtremeOverVoltage, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsExtremeUnderVoltage(chip::EndpointId endpoint, int16_t * rmsExtremeUnderVoltage) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeUnderVoltage, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeUnderVoltage::Id, (uint8_t *) rmsExtremeUnderVoltage, sizeof(*rmsExtremeUnderVoltage)); } EmberAfStatus SetRmsExtremeUnderVoltage(chip::EndpointId endpoint, int16_t rmsExtremeUnderVoltage) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeUnderVoltage, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeUnderVoltage::Id, (uint8_t *) &rmsExtremeUnderVoltage, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageSag(chip::EndpointId endpoint, int16_t * rmsVoltageSag) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSag, (uint8_t *) rmsVoltageSag, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSag::Id, (uint8_t *) rmsVoltageSag, sizeof(*rmsVoltageSag)); } EmberAfStatus SetRmsVoltageSag(chip::EndpointId endpoint, int16_t rmsVoltageSag) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSag, (uint8_t *) &rmsVoltageSag, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSag::Id, (uint8_t *) &rmsVoltageSag, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageSwell(chip::EndpointId endpoint, int16_t * rmsVoltageSwell) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSwell, (uint8_t *) rmsVoltageSwell, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSwell::Id, (uint8_t *) rmsVoltageSwell, sizeof(*rmsVoltageSwell)); } EmberAfStatus SetRmsVoltageSwell(chip::EndpointId endpoint, int16_t rmsVoltageSwell) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSwell, (uint8_t *) &rmsVoltageSwell, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSwell::Id, (uint8_t *) &rmsVoltageSwell, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetLineCurrentPhaseB(chip::EndpointId endpoint, uint16_t * lineCurrentPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::LineCurrentPhaseB, (uint8_t *) lineCurrentPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, LineCurrentPhaseB::Id, (uint8_t *) lineCurrentPhaseB, sizeof(*lineCurrentPhaseB)); } EmberAfStatus SetLineCurrentPhaseB(chip::EndpointId endpoint, uint16_t lineCurrentPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::LineCurrentPhaseB, (uint8_t *) &lineCurrentPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, LineCurrentPhaseB::Id, (uint8_t *) &lineCurrentPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetActiveCurrentPhaseB(chip::EndpointId endpoint, int16_t * activeCurrentPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActiveCurrentPhaseB, - (uint8_t *) activeCurrentPhaseB, sizeof(*activeCurrentPhaseB)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ActiveCurrentPhaseB::Id, (uint8_t *) activeCurrentPhaseB, + sizeof(*activeCurrentPhaseB)); } EmberAfStatus SetActiveCurrentPhaseB(chip::EndpointId endpoint, int16_t activeCurrentPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActiveCurrentPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ActiveCurrentPhaseB::Id, (uint8_t *) &activeCurrentPhaseB, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetReactiveCurrentPhaseB(chip::EndpointId endpoint, int16_t * reactiveCurrentPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ReactiveCurrentPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ReactiveCurrentPhaseB::Id, (uint8_t *) reactiveCurrentPhaseB, sizeof(*reactiveCurrentPhaseB)); } EmberAfStatus SetReactiveCurrentPhaseB(chip::EndpointId endpoint, int16_t reactiveCurrentPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ReactiveCurrentPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ReactiveCurrentPhaseB::Id, (uint8_t *) &reactiveCurrentPhaseB, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltagePhaseB(chip::EndpointId endpoint, uint16_t * rmsVoltagePhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltagePhaseB, (uint8_t *) rmsVoltagePhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltagePhaseB::Id, (uint8_t *) rmsVoltagePhaseB, sizeof(*rmsVoltagePhaseB)); } EmberAfStatus SetRmsVoltagePhaseB(chip::EndpointId endpoint, uint16_t rmsVoltagePhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltagePhaseB, (uint8_t *) &rmsVoltagePhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltagePhaseB::Id, (uint8_t *) &rmsVoltagePhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageMinPhaseB(chip::EndpointId endpoint, uint16_t * rmsVoltageMinPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageMinPhaseB, - (uint8_t *) rmsVoltageMinPhaseB, sizeof(*rmsVoltageMinPhaseB)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageMinPhaseB::Id, (uint8_t *) rmsVoltageMinPhaseB, + sizeof(*rmsVoltageMinPhaseB)); } EmberAfStatus SetRmsVoltageMinPhaseB(chip::EndpointId endpoint, uint16_t rmsVoltageMinPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageMinPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageMinPhaseB::Id, (uint8_t *) &rmsVoltageMinPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageMaxPhaseB(chip::EndpointId endpoint, uint16_t * rmsVoltageMaxPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageMaxPhaseB, - (uint8_t *) rmsVoltageMaxPhaseB, sizeof(*rmsVoltageMaxPhaseB)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageMaxPhaseB::Id, (uint8_t *) rmsVoltageMaxPhaseB, + sizeof(*rmsVoltageMaxPhaseB)); } EmberAfStatus SetRmsVoltageMaxPhaseB(chip::EndpointId endpoint, uint16_t rmsVoltageMaxPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageMaxPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageMaxPhaseB::Id, (uint8_t *) &rmsVoltageMaxPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsCurrentPhaseB(chip::EndpointId endpoint, uint16_t * rmsCurrentPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentPhaseB, (uint8_t *) rmsCurrentPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentPhaseB::Id, (uint8_t *) rmsCurrentPhaseB, sizeof(*rmsCurrentPhaseB)); } EmberAfStatus SetRmsCurrentPhaseB(chip::EndpointId endpoint, uint16_t rmsCurrentPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentPhaseB, (uint8_t *) &rmsCurrentPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentPhaseB::Id, (uint8_t *) &rmsCurrentPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsCurrentMinPhaseB(chip::EndpointId endpoint, uint16_t * rmsCurrentMinPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentMinPhaseB, - (uint8_t *) rmsCurrentMinPhaseB, sizeof(*rmsCurrentMinPhaseB)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentMinPhaseB::Id, (uint8_t *) rmsCurrentMinPhaseB, + sizeof(*rmsCurrentMinPhaseB)); } EmberAfStatus SetRmsCurrentMinPhaseB(chip::EndpointId endpoint, uint16_t rmsCurrentMinPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentMinPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentMinPhaseB::Id, (uint8_t *) &rmsCurrentMinPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsCurrentMaxPhaseB(chip::EndpointId endpoint, uint16_t * rmsCurrentMaxPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentMaxPhaseB, - (uint8_t *) rmsCurrentMaxPhaseB, sizeof(*rmsCurrentMaxPhaseB)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentMaxPhaseB::Id, (uint8_t *) rmsCurrentMaxPhaseB, + sizeof(*rmsCurrentMaxPhaseB)); } EmberAfStatus SetRmsCurrentMaxPhaseB(chip::EndpointId endpoint, uint16_t rmsCurrentMaxPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentMaxPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentMaxPhaseB::Id, (uint8_t *) &rmsCurrentMaxPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetActivePowerPhaseB(chip::EndpointId endpoint, int16_t * activePowerPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerPhaseB, (uint8_t *) activePowerPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerPhaseB::Id, (uint8_t *) activePowerPhaseB, sizeof(*activePowerPhaseB)); } EmberAfStatus SetActivePowerPhaseB(chip::EndpointId endpoint, int16_t activePowerPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerPhaseB, (uint8_t *) &activePowerPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerPhaseB::Id, (uint8_t *) &activePowerPhaseB, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetActivePowerMinPhaseB(chip::EndpointId endpoint, int16_t * activePowerMinPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerMinPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerMinPhaseB::Id, (uint8_t *) activePowerMinPhaseB, sizeof(*activePowerMinPhaseB)); } EmberAfStatus SetActivePowerMinPhaseB(chip::EndpointId endpoint, int16_t activePowerMinPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerMinPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerMinPhaseB::Id, (uint8_t *) &activePowerMinPhaseB, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetActivePowerMaxPhaseB(chip::EndpointId endpoint, int16_t * activePowerMaxPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerMaxPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerMaxPhaseB::Id, (uint8_t *) activePowerMaxPhaseB, sizeof(*activePowerMaxPhaseB)); } EmberAfStatus SetActivePowerMaxPhaseB(chip::EndpointId endpoint, int16_t activePowerMaxPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerMaxPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerMaxPhaseB::Id, (uint8_t *) &activePowerMaxPhaseB, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetReactivePowerPhaseB(chip::EndpointId endpoint, int16_t * reactivePowerPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ReactivePowerPhaseB, - (uint8_t *) reactivePowerPhaseB, sizeof(*reactivePowerPhaseB)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ReactivePowerPhaseB::Id, (uint8_t *) reactivePowerPhaseB, + sizeof(*reactivePowerPhaseB)); } EmberAfStatus SetReactivePowerPhaseB(chip::EndpointId endpoint, int16_t reactivePowerPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ReactivePowerPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ReactivePowerPhaseB::Id, (uint8_t *) &reactivePowerPhaseB, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetApparentPowerPhaseB(chip::EndpointId endpoint, uint16_t * apparentPowerPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ApparentPowerPhaseB, - (uint8_t *) apparentPowerPhaseB, sizeof(*apparentPowerPhaseB)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ApparentPowerPhaseB::Id, (uint8_t *) apparentPowerPhaseB, + sizeof(*apparentPowerPhaseB)); } EmberAfStatus SetApparentPowerPhaseB(chip::EndpointId endpoint, uint16_t apparentPowerPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ApparentPowerPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ApparentPowerPhaseB::Id, (uint8_t *) &apparentPowerPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPowerFactorPhaseB(chip::EndpointId endpoint, int8_t * powerFactorPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::PowerFactorPhaseB, (uint8_t *) powerFactorPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, PowerFactorPhaseB::Id, (uint8_t *) powerFactorPhaseB, sizeof(*powerFactorPhaseB)); } EmberAfStatus SetPowerFactorPhaseB(chip::EndpointId endpoint, int8_t powerFactorPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::PowerFactorPhaseB, (uint8_t *) &powerFactorPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, PowerFactorPhaseB::Id, (uint8_t *) &powerFactorPhaseB, ZCL_INT8S_ATTRIBUTE_TYPE); } EmberAfStatus GetAverageRmsVoltageMeasurementPeriodPhaseB(chip::EndpointId endpoint, uint16_t * averageRmsVoltageMeasurementPeriodPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsVoltageMeasurementPeriodPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsVoltageMeasurementPeriodPhaseB::Id, (uint8_t *) averageRmsVoltageMeasurementPeriodPhaseB, sizeof(*averageRmsVoltageMeasurementPeriodPhaseB)); } EmberAfStatus SetAverageRmsVoltageMeasurementPeriodPhaseB(chip::EndpointId endpoint, uint16_t averageRmsVoltageMeasurementPeriodPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsVoltageMeasurementPeriodPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsVoltageMeasurementPeriodPhaseB::Id, (uint8_t *) &averageRmsVoltageMeasurementPeriodPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAverageRmsOverVoltageCounterPhaseB(chip::EndpointId endpoint, uint16_t * averageRmsOverVoltageCounterPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsOverVoltageCounterPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsOverVoltageCounterPhaseB::Id, (uint8_t *) averageRmsOverVoltageCounterPhaseB, sizeof(*averageRmsOverVoltageCounterPhaseB)); } EmberAfStatus SetAverageRmsOverVoltageCounterPhaseB(chip::EndpointId endpoint, uint16_t averageRmsOverVoltageCounterPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsOverVoltageCounterPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsOverVoltageCounterPhaseB::Id, (uint8_t *) &averageRmsOverVoltageCounterPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAverageRmsUnderVoltageCounterPhaseB(chip::EndpointId endpoint, uint16_t * averageRmsUnderVoltageCounterPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsUnderVoltageCounterPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsUnderVoltageCounterPhaseB::Id, (uint8_t *) averageRmsUnderVoltageCounterPhaseB, sizeof(*averageRmsUnderVoltageCounterPhaseB)); } EmberAfStatus SetAverageRmsUnderVoltageCounterPhaseB(chip::EndpointId endpoint, uint16_t averageRmsUnderVoltageCounterPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsUnderVoltageCounterPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsUnderVoltageCounterPhaseB::Id, (uint8_t *) &averageRmsUnderVoltageCounterPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsExtremeOverVoltagePeriodPhaseB(chip::EndpointId endpoint, uint16_t * rmsExtremeOverVoltagePeriodPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeOverVoltagePeriodPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeOverVoltagePeriodPhaseB::Id, (uint8_t *) rmsExtremeOverVoltagePeriodPhaseB, sizeof(*rmsExtremeOverVoltagePeriodPhaseB)); } EmberAfStatus SetRmsExtremeOverVoltagePeriodPhaseB(chip::EndpointId endpoint, uint16_t rmsExtremeOverVoltagePeriodPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeOverVoltagePeriodPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeOverVoltagePeriodPhaseB::Id, (uint8_t *) &rmsExtremeOverVoltagePeriodPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsExtremeUnderVoltagePeriodPhaseB(chip::EndpointId endpoint, uint16_t * rmsExtremeUnderVoltagePeriodPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeUnderVoltagePeriodPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeUnderVoltagePeriodPhaseB::Id, (uint8_t *) rmsExtremeUnderVoltagePeriodPhaseB, sizeof(*rmsExtremeUnderVoltagePeriodPhaseB)); } EmberAfStatus SetRmsExtremeUnderVoltagePeriodPhaseB(chip::EndpointId endpoint, uint16_t rmsExtremeUnderVoltagePeriodPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeUnderVoltagePeriodPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeUnderVoltagePeriodPhaseB::Id, (uint8_t *) &rmsExtremeUnderVoltagePeriodPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageSagPeriodPhaseB(chip::EndpointId endpoint, uint16_t * rmsVoltageSagPeriodPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSagPeriodPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSagPeriodPhaseB::Id, (uint8_t *) rmsVoltageSagPeriodPhaseB, sizeof(*rmsVoltageSagPeriodPhaseB)); } EmberAfStatus SetRmsVoltageSagPeriodPhaseB(chip::EndpointId endpoint, uint16_t rmsVoltageSagPeriodPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSagPeriodPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSagPeriodPhaseB::Id, (uint8_t *) &rmsVoltageSagPeriodPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageSwellPeriodPhaseB(chip::EndpointId endpoint, uint16_t * rmsVoltageSwellPeriodPhaseB) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSwellPeriodPhaseB, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSwellPeriodPhaseB::Id, (uint8_t *) rmsVoltageSwellPeriodPhaseB, sizeof(*rmsVoltageSwellPeriodPhaseB)); } EmberAfStatus SetRmsVoltageSwellPeriodPhaseB(chip::EndpointId endpoint, uint16_t rmsVoltageSwellPeriodPhaseB) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSwellPeriodPhaseB, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSwellPeriodPhaseB::Id, (uint8_t *) &rmsVoltageSwellPeriodPhaseB, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetLineCurrentPhaseC(chip::EndpointId endpoint, uint16_t * lineCurrentPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::LineCurrentPhaseC, (uint8_t *) lineCurrentPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, LineCurrentPhaseC::Id, (uint8_t *) lineCurrentPhaseC, sizeof(*lineCurrentPhaseC)); } EmberAfStatus SetLineCurrentPhaseC(chip::EndpointId endpoint, uint16_t lineCurrentPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::LineCurrentPhaseC, (uint8_t *) &lineCurrentPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, LineCurrentPhaseC::Id, (uint8_t *) &lineCurrentPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetActiveCurrentPhaseC(chip::EndpointId endpoint, int16_t * activeCurrentPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActiveCurrentPhaseC, - (uint8_t *) activeCurrentPhaseC, sizeof(*activeCurrentPhaseC)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ActiveCurrentPhaseC::Id, (uint8_t *) activeCurrentPhaseC, + sizeof(*activeCurrentPhaseC)); } EmberAfStatus SetActiveCurrentPhaseC(chip::EndpointId endpoint, int16_t activeCurrentPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActiveCurrentPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ActiveCurrentPhaseC::Id, (uint8_t *) &activeCurrentPhaseC, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetReactiveCurrentPhaseC(chip::EndpointId endpoint, int16_t * reactiveCurrentPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ReactiveCurrentPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ReactiveCurrentPhaseC::Id, (uint8_t *) reactiveCurrentPhaseC, sizeof(*reactiveCurrentPhaseC)); } EmberAfStatus SetReactiveCurrentPhaseC(chip::EndpointId endpoint, int16_t reactiveCurrentPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ReactiveCurrentPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ReactiveCurrentPhaseC::Id, (uint8_t *) &reactiveCurrentPhaseC, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltagePhaseC(chip::EndpointId endpoint, uint16_t * rmsVoltagePhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltagePhaseC, (uint8_t *) rmsVoltagePhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltagePhaseC::Id, (uint8_t *) rmsVoltagePhaseC, sizeof(*rmsVoltagePhaseC)); } EmberAfStatus SetRmsVoltagePhaseC(chip::EndpointId endpoint, uint16_t rmsVoltagePhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltagePhaseC, (uint8_t *) &rmsVoltagePhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltagePhaseC::Id, (uint8_t *) &rmsVoltagePhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageMinPhaseC(chip::EndpointId endpoint, uint16_t * rmsVoltageMinPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageMinPhaseC, - (uint8_t *) rmsVoltageMinPhaseC, sizeof(*rmsVoltageMinPhaseC)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageMinPhaseC::Id, (uint8_t *) rmsVoltageMinPhaseC, + sizeof(*rmsVoltageMinPhaseC)); } EmberAfStatus SetRmsVoltageMinPhaseC(chip::EndpointId endpoint, uint16_t rmsVoltageMinPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageMinPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageMinPhaseC::Id, (uint8_t *) &rmsVoltageMinPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageMaxPhaseC(chip::EndpointId endpoint, uint16_t * rmsVoltageMaxPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageMaxPhaseC, - (uint8_t *) rmsVoltageMaxPhaseC, sizeof(*rmsVoltageMaxPhaseC)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageMaxPhaseC::Id, (uint8_t *) rmsVoltageMaxPhaseC, + sizeof(*rmsVoltageMaxPhaseC)); } EmberAfStatus SetRmsVoltageMaxPhaseC(chip::EndpointId endpoint, uint16_t rmsVoltageMaxPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageMaxPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageMaxPhaseC::Id, (uint8_t *) &rmsVoltageMaxPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsCurrentPhaseC(chip::EndpointId endpoint, uint16_t * rmsCurrentPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentPhaseC, (uint8_t *) rmsCurrentPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentPhaseC::Id, (uint8_t *) rmsCurrentPhaseC, sizeof(*rmsCurrentPhaseC)); } EmberAfStatus SetRmsCurrentPhaseC(chip::EndpointId endpoint, uint16_t rmsCurrentPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentPhaseC, (uint8_t *) &rmsCurrentPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentPhaseC::Id, (uint8_t *) &rmsCurrentPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsCurrentMinPhaseC(chip::EndpointId endpoint, uint16_t * rmsCurrentMinPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentMinPhaseC, - (uint8_t *) rmsCurrentMinPhaseC, sizeof(*rmsCurrentMinPhaseC)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentMinPhaseC::Id, (uint8_t *) rmsCurrentMinPhaseC, + sizeof(*rmsCurrentMinPhaseC)); } EmberAfStatus SetRmsCurrentMinPhaseC(chip::EndpointId endpoint, uint16_t rmsCurrentMinPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentMinPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentMinPhaseC::Id, (uint8_t *) &rmsCurrentMinPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsCurrentMaxPhaseC(chip::EndpointId endpoint, uint16_t * rmsCurrentMaxPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentMaxPhaseC, - (uint8_t *) rmsCurrentMaxPhaseC, sizeof(*rmsCurrentMaxPhaseC)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentMaxPhaseC::Id, (uint8_t *) rmsCurrentMaxPhaseC, + sizeof(*rmsCurrentMaxPhaseC)); } EmberAfStatus SetRmsCurrentMaxPhaseC(chip::EndpointId endpoint, uint16_t rmsCurrentMaxPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsCurrentMaxPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsCurrentMaxPhaseC::Id, (uint8_t *) &rmsCurrentMaxPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetActivePowerPhaseC(chip::EndpointId endpoint, int16_t * activePowerPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerPhaseC, (uint8_t *) activePowerPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerPhaseC::Id, (uint8_t *) activePowerPhaseC, sizeof(*activePowerPhaseC)); } EmberAfStatus SetActivePowerPhaseC(chip::EndpointId endpoint, int16_t activePowerPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerPhaseC, (uint8_t *) &activePowerPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerPhaseC::Id, (uint8_t *) &activePowerPhaseC, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetActivePowerMinPhaseC(chip::EndpointId endpoint, int16_t * activePowerMinPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerMinPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerMinPhaseC::Id, (uint8_t *) activePowerMinPhaseC, sizeof(*activePowerMinPhaseC)); } EmberAfStatus SetActivePowerMinPhaseC(chip::EndpointId endpoint, int16_t activePowerMinPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerMinPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerMinPhaseC::Id, (uint8_t *) &activePowerMinPhaseC, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetActivePowerMaxPhaseC(chip::EndpointId endpoint, int16_t * activePowerMaxPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerMaxPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerMaxPhaseC::Id, (uint8_t *) activePowerMaxPhaseC, sizeof(*activePowerMaxPhaseC)); } EmberAfStatus SetActivePowerMaxPhaseC(chip::EndpointId endpoint, int16_t activePowerMaxPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ActivePowerMaxPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ActivePowerMaxPhaseC::Id, (uint8_t *) &activePowerMaxPhaseC, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetReactivePowerPhaseC(chip::EndpointId endpoint, int16_t * reactivePowerPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ReactivePowerPhaseC, - (uint8_t *) reactivePowerPhaseC, sizeof(*reactivePowerPhaseC)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ReactivePowerPhaseC::Id, (uint8_t *) reactivePowerPhaseC, + sizeof(*reactivePowerPhaseC)); } EmberAfStatus SetReactivePowerPhaseC(chip::EndpointId endpoint, int16_t reactivePowerPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ReactivePowerPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ReactivePowerPhaseC::Id, (uint8_t *) &reactivePowerPhaseC, ZCL_INT16S_ATTRIBUTE_TYPE); } EmberAfStatus GetApparentPowerPhaseC(chip::EndpointId endpoint, uint16_t * apparentPowerPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ApparentPowerPhaseC, - (uint8_t *) apparentPowerPhaseC, sizeof(*apparentPowerPhaseC)); + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, ApparentPowerPhaseC::Id, (uint8_t *) apparentPowerPhaseC, + sizeof(*apparentPowerPhaseC)); } EmberAfStatus SetApparentPowerPhaseC(chip::EndpointId endpoint, uint16_t apparentPowerPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::ApparentPowerPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, ApparentPowerPhaseC::Id, (uint8_t *) &apparentPowerPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetPowerFactorPhaseC(chip::EndpointId endpoint, int8_t * powerFactorPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::PowerFactorPhaseC, (uint8_t *) powerFactorPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, PowerFactorPhaseC::Id, (uint8_t *) powerFactorPhaseC, sizeof(*powerFactorPhaseC)); } EmberAfStatus SetPowerFactorPhaseC(chip::EndpointId endpoint, int8_t powerFactorPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::PowerFactorPhaseC, (uint8_t *) &powerFactorPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, PowerFactorPhaseC::Id, (uint8_t *) &powerFactorPhaseC, ZCL_INT8S_ATTRIBUTE_TYPE); } EmberAfStatus GetAverageRmsVoltageMeasurementPeriodPhaseC(chip::EndpointId endpoint, uint16_t * averageRmsVoltageMeasurementPeriodPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsVoltageMeasurementPeriodPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsVoltageMeasurementPeriodPhaseC::Id, (uint8_t *) averageRmsVoltageMeasurementPeriodPhaseC, sizeof(*averageRmsVoltageMeasurementPeriodPhaseC)); } EmberAfStatus SetAverageRmsVoltageMeasurementPeriodPhaseC(chip::EndpointId endpoint, uint16_t averageRmsVoltageMeasurementPeriodPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsVoltageMeasurementPeriodPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsVoltageMeasurementPeriodPhaseC::Id, (uint8_t *) &averageRmsVoltageMeasurementPeriodPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAverageRmsOverVoltageCounterPhaseC(chip::EndpointId endpoint, uint16_t * averageRmsOverVoltageCounterPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsOverVoltageCounterPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsOverVoltageCounterPhaseC::Id, (uint8_t *) averageRmsOverVoltageCounterPhaseC, sizeof(*averageRmsOverVoltageCounterPhaseC)); } EmberAfStatus SetAverageRmsOverVoltageCounterPhaseC(chip::EndpointId endpoint, uint16_t averageRmsOverVoltageCounterPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsOverVoltageCounterPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsOverVoltageCounterPhaseC::Id, (uint8_t *) &averageRmsOverVoltageCounterPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetAverageRmsUnderVoltageCounterPhaseC(chip::EndpointId endpoint, uint16_t * averageRmsUnderVoltageCounterPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsUnderVoltageCounterPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsUnderVoltageCounterPhaseC::Id, (uint8_t *) averageRmsUnderVoltageCounterPhaseC, sizeof(*averageRmsUnderVoltageCounterPhaseC)); } EmberAfStatus SetAverageRmsUnderVoltageCounterPhaseC(chip::EndpointId endpoint, uint16_t averageRmsUnderVoltageCounterPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::AverageRmsUnderVoltageCounterPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, AverageRmsUnderVoltageCounterPhaseC::Id, (uint8_t *) &averageRmsUnderVoltageCounterPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsExtremeOverVoltagePeriodPhaseC(chip::EndpointId endpoint, uint16_t * rmsExtremeOverVoltagePeriodPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeOverVoltagePeriodPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeOverVoltagePeriodPhaseC::Id, (uint8_t *) rmsExtremeOverVoltagePeriodPhaseC, sizeof(*rmsExtremeOverVoltagePeriodPhaseC)); } EmberAfStatus SetRmsExtremeOverVoltagePeriodPhaseC(chip::EndpointId endpoint, uint16_t rmsExtremeOverVoltagePeriodPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeOverVoltagePeriodPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeOverVoltagePeriodPhaseC::Id, (uint8_t *) &rmsExtremeOverVoltagePeriodPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsExtremeUnderVoltagePeriodPhaseC(chip::EndpointId endpoint, uint16_t * rmsExtremeUnderVoltagePeriodPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeUnderVoltagePeriodPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeUnderVoltagePeriodPhaseC::Id, (uint8_t *) rmsExtremeUnderVoltagePeriodPhaseC, sizeof(*rmsExtremeUnderVoltagePeriodPhaseC)); } EmberAfStatus SetRmsExtremeUnderVoltagePeriodPhaseC(chip::EndpointId endpoint, uint16_t rmsExtremeUnderVoltagePeriodPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsExtremeUnderVoltagePeriodPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsExtremeUnderVoltagePeriodPhaseC::Id, (uint8_t *) &rmsExtremeUnderVoltagePeriodPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageSagPeriodPhaseC(chip::EndpointId endpoint, uint16_t * rmsVoltageSagPeriodPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSagPeriodPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSagPeriodPhaseC::Id, (uint8_t *) rmsVoltageSagPeriodPhaseC, sizeof(*rmsVoltageSagPeriodPhaseC)); } EmberAfStatus SetRmsVoltageSagPeriodPhaseC(chip::EndpointId endpoint, uint16_t rmsVoltageSagPeriodPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSagPeriodPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSagPeriodPhaseC::Id, (uint8_t *) &rmsVoltageSagPeriodPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetRmsVoltageSwellPeriodPhaseC(chip::EndpointId endpoint, uint16_t * rmsVoltageSwellPeriodPhaseC) { - return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSwellPeriodPhaseC, + return emberAfReadServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSwellPeriodPhaseC::Id, (uint8_t *) rmsVoltageSwellPeriodPhaseC, sizeof(*rmsVoltageSwellPeriodPhaseC)); } EmberAfStatus SetRmsVoltageSwellPeriodPhaseC(chip::EndpointId endpoint, uint16_t rmsVoltageSwellPeriodPhaseC) { - return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, Ids::RmsVoltageSwellPeriodPhaseC, + return emberAfWriteServerAttribute(endpoint, ElectricalMeasurement::Id, RmsVoltageSwellPeriodPhaseC::Id, (uint8_t *) &rmsVoltageSwellPeriodPhaseC, ZCL_INT16U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -8442,22 +8421,22 @@ namespace SampleMfgSpecificCluster { namespace Attributes { EmberAfStatus GetEmberSampleAttribute(chip::EndpointId endpoint, uint8_t * emberSampleAttribute) { - return emberAfReadServerAttribute(endpoint, SampleMfgSpecificCluster::Id, Ids::EmberSampleAttribute, + return emberAfReadServerAttribute(endpoint, SampleMfgSpecificCluster::Id, EmberSampleAttribute::Id, (uint8_t *) emberSampleAttribute, sizeof(*emberSampleAttribute)); } EmberAfStatus SetEmberSampleAttribute(chip::EndpointId endpoint, uint8_t emberSampleAttribute) { - return emberAfWriteServerAttribute(endpoint, SampleMfgSpecificCluster::Id, Ids::EmberSampleAttribute, + return emberAfWriteServerAttribute(endpoint, SampleMfgSpecificCluster::Id, EmberSampleAttribute::Id, (uint8_t *) &emberSampleAttribute, ZCL_INT8U_ATTRIBUTE_TYPE); } EmberAfStatus GetEmberSampleAttribute2(chip::EndpointId endpoint, uint8_t * emberSampleAttribute2) { - return emberAfReadServerAttribute(endpoint, SampleMfgSpecificCluster::Id, Ids::EmberSampleAttribute2, + return emberAfReadServerAttribute(endpoint, SampleMfgSpecificCluster::Id, EmberSampleAttribute2::Id, (uint8_t *) emberSampleAttribute2, sizeof(*emberSampleAttribute2)); } EmberAfStatus SetEmberSampleAttribute2(chip::EndpointId endpoint, uint8_t emberSampleAttribute2) { - return emberAfWriteServerAttribute(endpoint, SampleMfgSpecificCluster::Id, Ids::EmberSampleAttribute2, + return emberAfWriteServerAttribute(endpoint, SampleMfgSpecificCluster::Id, EmberSampleAttribute2::Id, (uint8_t *) &emberSampleAttribute2, ZCL_INT8U_ATTRIBUTE_TYPE); } } // namespace Attributes @@ -8467,22 +8446,22 @@ namespace SampleMfgSpecificCluster2 { namespace Attributes { EmberAfStatus GetEmberSampleAttribute3(chip::EndpointId endpoint, uint16_t * emberSampleAttribute3) { - return emberAfReadServerAttribute(endpoint, SampleMfgSpecificCluster2::Id, Ids::EmberSampleAttribute3, + return emberAfReadServerAttribute(endpoint, SampleMfgSpecificCluster2::Id, EmberSampleAttribute3::Id, (uint8_t *) emberSampleAttribute3, sizeof(*emberSampleAttribute3)); } EmberAfStatus SetEmberSampleAttribute3(chip::EndpointId endpoint, uint16_t emberSampleAttribute3) { - return emberAfWriteServerAttribute(endpoint, SampleMfgSpecificCluster2::Id, Ids::EmberSampleAttribute3, + return emberAfWriteServerAttribute(endpoint, SampleMfgSpecificCluster2::Id, EmberSampleAttribute3::Id, (uint8_t *) &emberSampleAttribute3, ZCL_INT16U_ATTRIBUTE_TYPE); } EmberAfStatus GetEmberSampleAttribute4(chip::EndpointId endpoint, uint16_t * emberSampleAttribute4) { - return emberAfReadServerAttribute(endpoint, SampleMfgSpecificCluster2::Id, Ids::EmberSampleAttribute4, + return emberAfReadServerAttribute(endpoint, SampleMfgSpecificCluster2::Id, EmberSampleAttribute4::Id, (uint8_t *) emberSampleAttribute4, sizeof(*emberSampleAttribute4)); } EmberAfStatus SetEmberSampleAttribute4(chip::EndpointId endpoint, uint16_t emberSampleAttribute4) { - return emberAfWriteServerAttribute(endpoint, SampleMfgSpecificCluster2::Id, Ids::EmberSampleAttribute4, + return emberAfWriteServerAttribute(endpoint, SampleMfgSpecificCluster2::Id, EmberSampleAttribute4::Id, (uint8_t *) &emberSampleAttribute4, ZCL_INT16U_ATTRIBUTE_TYPE); } } // namespace Attributes diff --git a/zzz_generated/app-common/app-common/zap-generated/ids/Attributes.h b/zzz_generated/app-common/app-common/zap-generated/ids/Attributes.h index 7dcd0cb41f0b71..184fc35721ea9f 100644 --- a/zzz_generated/app-common/app-common/zap-generated/ids/Attributes.h +++ b/zzz_generated/app-common/app-common/zap-generated/ids/Attributes.h @@ -27,1600 +27,4665 @@ namespace Clusters { namespace Globals { namespace Attributes { -namespace Ids { -static constexpr AttributeId FeatureMap = 0x0000FFFC; -static constexpr AttributeId ClusterRevision = 0x0000FFFD; -} // namespace Ids + +namespace FeatureMap { +static constexpr AttributeId Id = 0x0000FFFC; +} // namespace FeatureMap + +namespace ClusterRevision { +static constexpr AttributeId Id = 0x0000FFFD; +} // namespace ClusterRevision + } // namespace Attributes } // namespace Globals namespace PowerConfiguration { namespace Attributes { -namespace Ids { -static constexpr AttributeId MainsVoltage = 0x00000000; -static constexpr AttributeId MainsFrequency = 0x00000001; -static constexpr AttributeId MainsAlarmMask = 0x00000010; -static constexpr AttributeId MainsVoltageMinThreshold = 0x00000011; -static constexpr AttributeId MainsVoltageMaxThreshold = 0x00000012; -static constexpr AttributeId MainsVoltageDwellTrip = 0x00000013; -static constexpr AttributeId BatteryVoltage = 0x00000020; -static constexpr AttributeId BatteryPercentageRemaining = 0x00000021; -static constexpr AttributeId BatteryManufacturer = 0x00000030; -static constexpr AttributeId BatterySize = 0x00000031; -static constexpr AttributeId BatteryAhrRating = 0x00000032; -static constexpr AttributeId BatteryQuantity = 0x00000033; -static constexpr AttributeId BatteryRatedVoltage = 0x00000034; -static constexpr AttributeId BatteryAlarmMask = 0x00000035; -static constexpr AttributeId BatteryVoltageMinThreshold = 0x00000036; -static constexpr AttributeId BatteryVoltageThreshold1 = 0x00000037; -static constexpr AttributeId BatteryVoltageThreshold2 = 0x00000038; -static constexpr AttributeId BatteryVoltageThreshold3 = 0x00000039; -static constexpr AttributeId BatteryPercentageMinThreshold = 0x0000003A; -static constexpr AttributeId BatteryPercentageThreshold1 = 0x0000003B; -static constexpr AttributeId BatteryPercentageThreshold2 = 0x0000003C; -static constexpr AttributeId BatteryPercentageThreshold3 = 0x0000003D; -static constexpr AttributeId BatteryAlarmState = 0x0000003E; -static constexpr AttributeId Battery2Voltage = 0x00000040; -static constexpr AttributeId Battery2PercentageRemaining = 0x00000041; -static constexpr AttributeId Battery2Manufacturer = 0x00000050; -static constexpr AttributeId Battery2Size = 0x00000051; -static constexpr AttributeId Battery2AhrRating = 0x00000052; -static constexpr AttributeId Battery2Quantity = 0x00000053; -static constexpr AttributeId Battery2RatedVoltage = 0x00000054; -static constexpr AttributeId Battery2AlarmMask = 0x00000055; -static constexpr AttributeId Battery2VoltageMinThreshold = 0x00000056; -static constexpr AttributeId Battery2VoltageThreshold1 = 0x00000057; -static constexpr AttributeId Battery2VoltageThreshold2 = 0x00000058; -static constexpr AttributeId Battery2VoltageThreshold3 = 0x00000059; -static constexpr AttributeId Battery2PercentageMinThreshold = 0x0000005A; -static constexpr AttributeId Battery2PercentageThreshold1 = 0x0000005B; -static constexpr AttributeId Battery2PercentageThreshold2 = 0x0000005C; -static constexpr AttributeId Battery2PercentageThreshold3 = 0x0000005D; -static constexpr AttributeId Battery2AlarmState = 0x0000005E; -static constexpr AttributeId Battery3Voltage = 0x00000060; -static constexpr AttributeId Battery3PercentageRemaining = 0x00000061; -static constexpr AttributeId Battery3Manufacturer = 0x00000070; -static constexpr AttributeId Battery3Size = 0x00000071; -static constexpr AttributeId Battery3AhrRating = 0x00000072; -static constexpr AttributeId Battery3Quantity = 0x00000073; -static constexpr AttributeId Battery3RatedVoltage = 0x00000074; -static constexpr AttributeId Battery3AlarmMask = 0x00000075; -static constexpr AttributeId Battery3VoltageMinThreshold = 0x00000076; -static constexpr AttributeId Battery3VoltageThreshold1 = 0x00000077; -static constexpr AttributeId Battery3VoltageThreshold2 = 0x00000078; -static constexpr AttributeId Battery3VoltageThreshold3 = 0x00000079; -static constexpr AttributeId Battery3PercentageMinThreshold = 0x0000007A; -static constexpr AttributeId Battery3PercentageThreshold1 = 0x0000007B; -static constexpr AttributeId Battery3PercentageThreshold2 = 0x0000007C; -static constexpr AttributeId Battery3PercentageThreshold3 = 0x0000007D; -static constexpr AttributeId Battery3AlarmState = 0x0000007E; -} // namespace Ids + +namespace MainsVoltage { +static constexpr AttributeId Id = 0x00000000; +} // namespace MainsVoltage + +namespace MainsFrequency { +static constexpr AttributeId Id = 0x00000001; +} // namespace MainsFrequency + +namespace MainsAlarmMask { +static constexpr AttributeId Id = 0x00000010; +} // namespace MainsAlarmMask + +namespace MainsVoltageMinThreshold { +static constexpr AttributeId Id = 0x00000011; +} // namespace MainsVoltageMinThreshold + +namespace MainsVoltageMaxThreshold { +static constexpr AttributeId Id = 0x00000012; +} // namespace MainsVoltageMaxThreshold + +namespace MainsVoltageDwellTrip { +static constexpr AttributeId Id = 0x00000013; +} // namespace MainsVoltageDwellTrip + +namespace BatteryVoltage { +static constexpr AttributeId Id = 0x00000020; +} // namespace BatteryVoltage + +namespace BatteryPercentageRemaining { +static constexpr AttributeId Id = 0x00000021; +} // namespace BatteryPercentageRemaining + +namespace BatteryManufacturer { +static constexpr AttributeId Id = 0x00000030; +} // namespace BatteryManufacturer + +namespace BatterySize { +static constexpr AttributeId Id = 0x00000031; +} // namespace BatterySize + +namespace BatteryAhrRating { +static constexpr AttributeId Id = 0x00000032; +} // namespace BatteryAhrRating + +namespace BatteryQuantity { +static constexpr AttributeId Id = 0x00000033; +} // namespace BatteryQuantity + +namespace BatteryRatedVoltage { +static constexpr AttributeId Id = 0x00000034; +} // namespace BatteryRatedVoltage + +namespace BatteryAlarmMask { +static constexpr AttributeId Id = 0x00000035; +} // namespace BatteryAlarmMask + +namespace BatteryVoltageMinThreshold { +static constexpr AttributeId Id = 0x00000036; +} // namespace BatteryVoltageMinThreshold + +namespace BatteryVoltageThreshold1 { +static constexpr AttributeId Id = 0x00000037; +} // namespace BatteryVoltageThreshold1 + +namespace BatteryVoltageThreshold2 { +static constexpr AttributeId Id = 0x00000038; +} // namespace BatteryVoltageThreshold2 + +namespace BatteryVoltageThreshold3 { +static constexpr AttributeId Id = 0x00000039; +} // namespace BatteryVoltageThreshold3 + +namespace BatteryPercentageMinThreshold { +static constexpr AttributeId Id = 0x0000003A; +} // namespace BatteryPercentageMinThreshold + +namespace BatteryPercentageThreshold1 { +static constexpr AttributeId Id = 0x0000003B; +} // namespace BatteryPercentageThreshold1 + +namespace BatteryPercentageThreshold2 { +static constexpr AttributeId Id = 0x0000003C; +} // namespace BatteryPercentageThreshold2 + +namespace BatteryPercentageThreshold3 { +static constexpr AttributeId Id = 0x0000003D; +} // namespace BatteryPercentageThreshold3 + +namespace BatteryAlarmState { +static constexpr AttributeId Id = 0x0000003E; +} // namespace BatteryAlarmState + +namespace Battery2Voltage { +static constexpr AttributeId Id = 0x00000040; +} // namespace Battery2Voltage + +namespace Battery2PercentageRemaining { +static constexpr AttributeId Id = 0x00000041; +} // namespace Battery2PercentageRemaining + +namespace Battery2Manufacturer { +static constexpr AttributeId Id = 0x00000050; +} // namespace Battery2Manufacturer + +namespace Battery2Size { +static constexpr AttributeId Id = 0x00000051; +} // namespace Battery2Size + +namespace Battery2AhrRating { +static constexpr AttributeId Id = 0x00000052; +} // namespace Battery2AhrRating + +namespace Battery2Quantity { +static constexpr AttributeId Id = 0x00000053; +} // namespace Battery2Quantity + +namespace Battery2RatedVoltage { +static constexpr AttributeId Id = 0x00000054; +} // namespace Battery2RatedVoltage + +namespace Battery2AlarmMask { +static constexpr AttributeId Id = 0x00000055; +} // namespace Battery2AlarmMask + +namespace Battery2VoltageMinThreshold { +static constexpr AttributeId Id = 0x00000056; +} // namespace Battery2VoltageMinThreshold + +namespace Battery2VoltageThreshold1 { +static constexpr AttributeId Id = 0x00000057; +} // namespace Battery2VoltageThreshold1 + +namespace Battery2VoltageThreshold2 { +static constexpr AttributeId Id = 0x00000058; +} // namespace Battery2VoltageThreshold2 + +namespace Battery2VoltageThreshold3 { +static constexpr AttributeId Id = 0x00000059; +} // namespace Battery2VoltageThreshold3 + +namespace Battery2PercentageMinThreshold { +static constexpr AttributeId Id = 0x0000005A; +} // namespace Battery2PercentageMinThreshold + +namespace Battery2PercentageThreshold1 { +static constexpr AttributeId Id = 0x0000005B; +} // namespace Battery2PercentageThreshold1 + +namespace Battery2PercentageThreshold2 { +static constexpr AttributeId Id = 0x0000005C; +} // namespace Battery2PercentageThreshold2 + +namespace Battery2PercentageThreshold3 { +static constexpr AttributeId Id = 0x0000005D; +} // namespace Battery2PercentageThreshold3 + +namespace Battery2AlarmState { +static constexpr AttributeId Id = 0x0000005E; +} // namespace Battery2AlarmState + +namespace Battery3Voltage { +static constexpr AttributeId Id = 0x00000060; +} // namespace Battery3Voltage + +namespace Battery3PercentageRemaining { +static constexpr AttributeId Id = 0x00000061; +} // namespace Battery3PercentageRemaining + +namespace Battery3Manufacturer { +static constexpr AttributeId Id = 0x00000070; +} // namespace Battery3Manufacturer + +namespace Battery3Size { +static constexpr AttributeId Id = 0x00000071; +} // namespace Battery3Size + +namespace Battery3AhrRating { +static constexpr AttributeId Id = 0x00000072; +} // namespace Battery3AhrRating + +namespace Battery3Quantity { +static constexpr AttributeId Id = 0x00000073; +} // namespace Battery3Quantity + +namespace Battery3RatedVoltage { +static constexpr AttributeId Id = 0x00000074; +} // namespace Battery3RatedVoltage + +namespace Battery3AlarmMask { +static constexpr AttributeId Id = 0x00000075; +} // namespace Battery3AlarmMask + +namespace Battery3VoltageMinThreshold { +static constexpr AttributeId Id = 0x00000076; +} // namespace Battery3VoltageMinThreshold + +namespace Battery3VoltageThreshold1 { +static constexpr AttributeId Id = 0x00000077; +} // namespace Battery3VoltageThreshold1 + +namespace Battery3VoltageThreshold2 { +static constexpr AttributeId Id = 0x00000078; +} // namespace Battery3VoltageThreshold2 + +namespace Battery3VoltageThreshold3 { +static constexpr AttributeId Id = 0x00000079; +} // namespace Battery3VoltageThreshold3 + +namespace Battery3PercentageMinThreshold { +static constexpr AttributeId Id = 0x0000007A; +} // namespace Battery3PercentageMinThreshold + +namespace Battery3PercentageThreshold1 { +static constexpr AttributeId Id = 0x0000007B; +} // namespace Battery3PercentageThreshold1 + +namespace Battery3PercentageThreshold2 { +static constexpr AttributeId Id = 0x0000007C; +} // namespace Battery3PercentageThreshold2 + +namespace Battery3PercentageThreshold3 { +static constexpr AttributeId Id = 0x0000007D; +} // namespace Battery3PercentageThreshold3 + +namespace Battery3AlarmState { +static constexpr AttributeId Id = 0x0000007E; +} // namespace Battery3AlarmState + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace PowerConfiguration namespace DeviceTemperatureConfiguration { namespace Attributes { -namespace Ids { -static constexpr AttributeId CurrentTemperature = 0x00000000; -static constexpr AttributeId MinTempExperienced = 0x00000001; -static constexpr AttributeId MaxTempExperienced = 0x00000002; -static constexpr AttributeId OverTempTotalDwell = 0x00000003; -static constexpr AttributeId DeviceTempAlarmMask = 0x00000010; -static constexpr AttributeId LowTempThreshold = 0x00000011; -static constexpr AttributeId HighTempThreshold = 0x00000012; -static constexpr AttributeId LowTempDwellTripPoint = 0x00000013; -static constexpr AttributeId HighTempDwellTripPoint = 0x00000014; -} // namespace Ids + +namespace CurrentTemperature { +static constexpr AttributeId Id = 0x00000000; +} // namespace CurrentTemperature + +namespace MinTempExperienced { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinTempExperienced + +namespace MaxTempExperienced { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxTempExperienced + +namespace OverTempTotalDwell { +static constexpr AttributeId Id = 0x00000003; +} // namespace OverTempTotalDwell + +namespace DeviceTempAlarmMask { +static constexpr AttributeId Id = 0x00000010; +} // namespace DeviceTempAlarmMask + +namespace LowTempThreshold { +static constexpr AttributeId Id = 0x00000011; +} // namespace LowTempThreshold + +namespace HighTempThreshold { +static constexpr AttributeId Id = 0x00000012; +} // namespace HighTempThreshold + +namespace LowTempDwellTripPoint { +static constexpr AttributeId Id = 0x00000013; +} // namespace LowTempDwellTripPoint + +namespace HighTempDwellTripPoint { +static constexpr AttributeId Id = 0x00000014; +} // namespace HighTempDwellTripPoint + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace DeviceTemperatureConfiguration namespace Identify { namespace Attributes { -namespace Ids { -static constexpr AttributeId IdentifyTime = 0x00000000; -static constexpr AttributeId IdentifyType = 0x00000001; -} // namespace Ids + +namespace IdentifyTime { +static constexpr AttributeId Id = 0x00000000; +} // namespace IdentifyTime + +namespace IdentifyType { +static constexpr AttributeId Id = 0x00000001; +} // namespace IdentifyType + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace Identify namespace Groups { namespace Attributes { -namespace Ids { -static constexpr AttributeId NameSupport = 0x00000000; -} // namespace Ids + +namespace NameSupport { +static constexpr AttributeId Id = 0x00000000; +} // namespace NameSupport + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace Groups namespace Scenes { namespace Attributes { -namespace Ids { -static constexpr AttributeId SceneCount = 0x00000000; -static constexpr AttributeId CurrentScene = 0x00000001; -static constexpr AttributeId CurrentGroup = 0x00000002; -static constexpr AttributeId SceneValid = 0x00000003; -static constexpr AttributeId NameSupport = 0x00000004; -static constexpr AttributeId LastConfiguredBy = 0x00000005; -} // namespace Ids + +namespace SceneCount { +static constexpr AttributeId Id = 0x00000000; +} // namespace SceneCount + +namespace CurrentScene { +static constexpr AttributeId Id = 0x00000001; +} // namespace CurrentScene + +namespace CurrentGroup { +static constexpr AttributeId Id = 0x00000002; +} // namespace CurrentGroup + +namespace SceneValid { +static constexpr AttributeId Id = 0x00000003; +} // namespace SceneValid + +namespace NameSupport { +static constexpr AttributeId Id = 0x00000004; +} // namespace NameSupport + +namespace LastConfiguredBy { +static constexpr AttributeId Id = 0x00000005; +} // namespace LastConfiguredBy + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace Scenes namespace OnOff { namespace Attributes { -namespace Ids { -static constexpr AttributeId OnOff = 0x00000000; -static constexpr AttributeId SampleMfgSpecificAttribute0x00000x1002 = 0x10020000; -static constexpr AttributeId SampleMfgSpecificAttribute0x00000x1049 = 0x10490000; -static constexpr AttributeId SampleMfgSpecificAttribute0x00010x1002 = 0x10020001; -static constexpr AttributeId SampleMfgSpecificAttribute0x00010x1040 = 0x10490001; -static constexpr AttributeId GlobalSceneControl = 0x00004000; -static constexpr AttributeId OnTime = 0x00004001; -static constexpr AttributeId OffWaitTime = 0x00004002; -static constexpr AttributeId StartUpOnOff = 0x00004003; -} // namespace Ids + +namespace OnOff { +static constexpr AttributeId Id = 0x00000000; +} // namespace OnOff + +namespace SampleMfgSpecificAttribute0x00000x1002 { +static constexpr AttributeId Id = 0x10020000; +} // namespace SampleMfgSpecificAttribute0x00000x1002 + +namespace SampleMfgSpecificAttribute0x00000x1049 { +static constexpr AttributeId Id = 0x10490000; +} // namespace SampleMfgSpecificAttribute0x00000x1049 + +namespace SampleMfgSpecificAttribute0x00010x1002 { +static constexpr AttributeId Id = 0x10020001; +} // namespace SampleMfgSpecificAttribute0x00010x1002 + +namespace SampleMfgSpecificAttribute0x00010x1040 { +static constexpr AttributeId Id = 0x10490001; +} // namespace SampleMfgSpecificAttribute0x00010x1040 + +namespace GlobalSceneControl { +static constexpr AttributeId Id = 0x00004000; +} // namespace GlobalSceneControl + +namespace OnTime { +static constexpr AttributeId Id = 0x00004001; +} // namespace OnTime + +namespace OffWaitTime { +static constexpr AttributeId Id = 0x00004002; +} // namespace OffWaitTime + +namespace StartUpOnOff { +static constexpr AttributeId Id = 0x00004003; +} // namespace StartUpOnOff + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace OnOff namespace OnOffSwitchConfiguration { namespace Attributes { -namespace Ids { -static constexpr AttributeId SwitchType = 0x00000000; -static constexpr AttributeId SwitchActions = 0x00000010; -} // namespace Ids + +namespace SwitchType { +static constexpr AttributeId Id = 0x00000000; +} // namespace SwitchType + +namespace SwitchActions { +static constexpr AttributeId Id = 0x00000010; +} // namespace SwitchActions + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace OnOffSwitchConfiguration namespace LevelControl { namespace Attributes { -namespace Ids { -static constexpr AttributeId CurrentLevel = 0x00000000; -static constexpr AttributeId RemainingTime = 0x00000001; -static constexpr AttributeId Options = 0x0000000F; -static constexpr AttributeId OnOffTransitionTime = 0x00000010; -static constexpr AttributeId OnLevel = 0x00000011; -static constexpr AttributeId OnTransitionTime = 0x00000012; -static constexpr AttributeId OffTransitionTime = 0x00000013; -static constexpr AttributeId DefaultMoveRate = 0x00000014; -static constexpr AttributeId StartUpCurrentLevel = 0x00004000; -} // namespace Ids + +namespace CurrentLevel { +static constexpr AttributeId Id = 0x00000000; +} // namespace CurrentLevel + +namespace RemainingTime { +static constexpr AttributeId Id = 0x00000001; +} // namespace RemainingTime + +namespace Options { +static constexpr AttributeId Id = 0x0000000F; +} // namespace Options + +namespace OnOffTransitionTime { +static constexpr AttributeId Id = 0x00000010; +} // namespace OnOffTransitionTime + +namespace OnLevel { +static constexpr AttributeId Id = 0x00000011; +} // namespace OnLevel + +namespace OnTransitionTime { +static constexpr AttributeId Id = 0x00000012; +} // namespace OnTransitionTime + +namespace OffTransitionTime { +static constexpr AttributeId Id = 0x00000013; +} // namespace OffTransitionTime + +namespace DefaultMoveRate { +static constexpr AttributeId Id = 0x00000014; +} // namespace DefaultMoveRate + +namespace StartUpCurrentLevel { +static constexpr AttributeId Id = 0x00004000; +} // namespace StartUpCurrentLevel + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace LevelControl namespace Alarms { namespace Attributes { -namespace Ids { -static constexpr AttributeId AlarmCount = 0x00000000; -} // namespace Ids + +namespace AlarmCount { +static constexpr AttributeId Id = 0x00000000; +} // namespace AlarmCount + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace Alarms namespace Time { namespace Attributes { -namespace Ids { -static constexpr AttributeId Time = 0x00000000; -static constexpr AttributeId TimeStatus = 0x00000001; -static constexpr AttributeId TimeZone = 0x00000002; -static constexpr AttributeId DstStart = 0x00000003; -static constexpr AttributeId DstEnd = 0x00000004; -static constexpr AttributeId DstShift = 0x00000005; -static constexpr AttributeId StandardTime = 0x00000006; -static constexpr AttributeId LocalTime = 0x00000007; -static constexpr AttributeId LastSetTime = 0x00000008; -static constexpr AttributeId ValidUntilTime = 0x00000009; -} // namespace Ids + +namespace Time { +static constexpr AttributeId Id = 0x00000000; +} // namespace Time + +namespace TimeStatus { +static constexpr AttributeId Id = 0x00000001; +} // namespace TimeStatus + +namespace TimeZone { +static constexpr AttributeId Id = 0x00000002; +} // namespace TimeZone + +namespace DstStart { +static constexpr AttributeId Id = 0x00000003; +} // namespace DstStart + +namespace DstEnd { +static constexpr AttributeId Id = 0x00000004; +} // namespace DstEnd + +namespace DstShift { +static constexpr AttributeId Id = 0x00000005; +} // namespace DstShift + +namespace StandardTime { +static constexpr AttributeId Id = 0x00000006; +} // namespace StandardTime + +namespace LocalTime { +static constexpr AttributeId Id = 0x00000007; +} // namespace LocalTime + +namespace LastSetTime { +static constexpr AttributeId Id = 0x00000008; +} // namespace LastSetTime + +namespace ValidUntilTime { +static constexpr AttributeId Id = 0x00000009; +} // namespace ValidUntilTime + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace Time namespace BinaryInputBasic { namespace Attributes { -namespace Ids { -static constexpr AttributeId ActiveText = 0x00000004; -static constexpr AttributeId Description = 0x0000001C; -static constexpr AttributeId InactiveText = 0x0000002E; -static constexpr AttributeId OutOfService = 0x00000051; -static constexpr AttributeId Polarity = 0x00000054; -static constexpr AttributeId PresentValue = 0x00000055; -static constexpr AttributeId Reliability = 0x00000067; -static constexpr AttributeId StatusFlags = 0x0000006F; -static constexpr AttributeId ApplicationType = 0x00000100; -} // namespace Ids + +namespace ActiveText { +static constexpr AttributeId Id = 0x00000004; +} // namespace ActiveText + +namespace Description { +static constexpr AttributeId Id = 0x0000001C; +} // namespace Description + +namespace InactiveText { +static constexpr AttributeId Id = 0x0000002E; +} // namespace InactiveText + +namespace OutOfService { +static constexpr AttributeId Id = 0x00000051; +} // namespace OutOfService + +namespace Polarity { +static constexpr AttributeId Id = 0x00000054; +} // namespace Polarity + +namespace PresentValue { +static constexpr AttributeId Id = 0x00000055; +} // namespace PresentValue + +namespace Reliability { +static constexpr AttributeId Id = 0x00000067; +} // namespace Reliability + +namespace StatusFlags { +static constexpr AttributeId Id = 0x0000006F; +} // namespace StatusFlags + +namespace ApplicationType { +static constexpr AttributeId Id = 0x00000100; +} // namespace ApplicationType + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace BinaryInputBasic namespace PowerProfile { namespace Attributes { -namespace Ids { -static constexpr AttributeId TotalProfileNum = 0x00000000; -static constexpr AttributeId MultipleScheduling = 0x00000001; -static constexpr AttributeId EnergyFormatting = 0x00000002; -static constexpr AttributeId EnergyRemote = 0x00000003; -static constexpr AttributeId ScheduleMode = 0x00000004; -} // namespace Ids + +namespace TotalProfileNum { +static constexpr AttributeId Id = 0x00000000; +} // namespace TotalProfileNum + +namespace MultipleScheduling { +static constexpr AttributeId Id = 0x00000001; +} // namespace MultipleScheduling + +namespace EnergyFormatting { +static constexpr AttributeId Id = 0x00000002; +} // namespace EnergyFormatting + +namespace EnergyRemote { +static constexpr AttributeId Id = 0x00000003; +} // namespace EnergyRemote + +namespace ScheduleMode { +static constexpr AttributeId Id = 0x00000004; +} // namespace ScheduleMode + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace PowerProfile namespace ApplianceControl { namespace Attributes { -namespace Ids { -static constexpr AttributeId StartTime = 0x00000000; -static constexpr AttributeId FinishTime = 0x00000001; -static constexpr AttributeId RemainingTime = 0x00000002; -} // namespace Ids + +namespace StartTime { +static constexpr AttributeId Id = 0x00000000; +} // namespace StartTime + +namespace FinishTime { +static constexpr AttributeId Id = 0x00000001; +} // namespace FinishTime + +namespace RemainingTime { +static constexpr AttributeId Id = 0x00000002; +} // namespace RemainingTime + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace ApplianceControl namespace Descriptor { namespace Attributes { -namespace Ids { -static constexpr AttributeId DeviceList = 0x00000000; -static constexpr AttributeId ServerList = 0x00000001; -static constexpr AttributeId ClientList = 0x00000002; -static constexpr AttributeId PartsList = 0x00000003; -} // namespace Ids + +namespace DeviceList { +static constexpr AttributeId Id = 0x00000000; +} // namespace DeviceList + +namespace ServerList { +static constexpr AttributeId Id = 0x00000001; +} // namespace ServerList + +namespace ClientList { +static constexpr AttributeId Id = 0x00000002; +} // namespace ClientList + +namespace PartsList { +static constexpr AttributeId Id = 0x00000003; +} // namespace PartsList + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace Descriptor namespace PollControl { namespace Attributes { -namespace Ids { -static constexpr AttributeId CheckInInterval = 0x00000000; -static constexpr AttributeId LongPollInterval = 0x00000001; -static constexpr AttributeId ShortPollInterval = 0x00000002; -static constexpr AttributeId FastPollTimeout = 0x00000003; -static constexpr AttributeId CheckInIntervalMin = 0x00000004; -static constexpr AttributeId LongPollIntervalMin = 0x00000005; -static constexpr AttributeId FastPollTimeoutMax = 0x00000006; -} // namespace Ids + +namespace CheckInInterval { +static constexpr AttributeId Id = 0x00000000; +} // namespace CheckInInterval + +namespace LongPollInterval { +static constexpr AttributeId Id = 0x00000001; +} // namespace LongPollInterval + +namespace ShortPollInterval { +static constexpr AttributeId Id = 0x00000002; +} // namespace ShortPollInterval + +namespace FastPollTimeout { +static constexpr AttributeId Id = 0x00000003; +} // namespace FastPollTimeout + +namespace CheckInIntervalMin { +static constexpr AttributeId Id = 0x00000004; +} // namespace CheckInIntervalMin + +namespace LongPollIntervalMin { +static constexpr AttributeId Id = 0x00000005; +} // namespace LongPollIntervalMin + +namespace FastPollTimeoutMax { +static constexpr AttributeId Id = 0x00000006; +} // namespace FastPollTimeoutMax + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace PollControl namespace Basic { namespace Attributes { -namespace Ids { -static constexpr AttributeId InteractionModelVersion = 0x00000000; -static constexpr AttributeId VendorName = 0x00000001; -static constexpr AttributeId VendorID = 0x00000002; -static constexpr AttributeId ProductName = 0x00000003; -static constexpr AttributeId ProductID = 0x00000004; -static constexpr AttributeId UserLabel = 0x00000005; -static constexpr AttributeId Location = 0x00000006; -static constexpr AttributeId HardwareVersion = 0x00000007; -static constexpr AttributeId HardwareVersionString = 0x00000008; -static constexpr AttributeId SoftwareVersion = 0x00000009; -static constexpr AttributeId SoftwareVersionString = 0x0000000A; -static constexpr AttributeId ManufacturingDate = 0x0000000B; -static constexpr AttributeId PartNumber = 0x0000000C; -static constexpr AttributeId ProductURL = 0x0000000D; -static constexpr AttributeId ProductLabel = 0x0000000E; -static constexpr AttributeId SerialNumber = 0x0000000F; -static constexpr AttributeId LocalConfigDisabled = 0x00000010; -static constexpr AttributeId Reachable = 0x00000011; -} // namespace Ids + +namespace InteractionModelVersion { +static constexpr AttributeId Id = 0x00000000; +} // namespace InteractionModelVersion + +namespace VendorName { +static constexpr AttributeId Id = 0x00000001; +} // namespace VendorName + +namespace VendorID { +static constexpr AttributeId Id = 0x00000002; +} // namespace VendorID + +namespace ProductName { +static constexpr AttributeId Id = 0x00000003; +} // namespace ProductName + +namespace ProductID { +static constexpr AttributeId Id = 0x00000004; +} // namespace ProductID + +namespace UserLabel { +static constexpr AttributeId Id = 0x00000005; +} // namespace UserLabel + +namespace Location { +static constexpr AttributeId Id = 0x00000006; +} // namespace Location + +namespace HardwareVersion { +static constexpr AttributeId Id = 0x00000007; +} // namespace HardwareVersion + +namespace HardwareVersionString { +static constexpr AttributeId Id = 0x00000008; +} // namespace HardwareVersionString + +namespace SoftwareVersion { +static constexpr AttributeId Id = 0x00000009; +} // namespace SoftwareVersion + +namespace SoftwareVersionString { +static constexpr AttributeId Id = 0x0000000A; +} // namespace SoftwareVersionString + +namespace ManufacturingDate { +static constexpr AttributeId Id = 0x0000000B; +} // namespace ManufacturingDate + +namespace PartNumber { +static constexpr AttributeId Id = 0x0000000C; +} // namespace PartNumber + +namespace ProductURL { +static constexpr AttributeId Id = 0x0000000D; +} // namespace ProductURL + +namespace ProductLabel { +static constexpr AttributeId Id = 0x0000000E; +} // namespace ProductLabel + +namespace SerialNumber { +static constexpr AttributeId Id = 0x0000000F; +} // namespace SerialNumber + +namespace LocalConfigDisabled { +static constexpr AttributeId Id = 0x00000010; +} // namespace LocalConfigDisabled + +namespace Reachable { +static constexpr AttributeId Id = 0x00000011; +} // namespace Reachable + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace Basic namespace OtaSoftwareUpdateRequestor { namespace Attributes { -namespace Ids { -static constexpr AttributeId DefaultOtaProvider = 0x00000001; -static constexpr AttributeId UpdatePossible = 0x00000002; -} // namespace Ids + +namespace DefaultOtaProvider { +static constexpr AttributeId Id = 0x00000001; +} // namespace DefaultOtaProvider + +namespace UpdatePossible { +static constexpr AttributeId Id = 0x00000002; +} // namespace UpdatePossible + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace OtaSoftwareUpdateRequestor namespace PowerSource { namespace Attributes { -namespace Ids { -static constexpr AttributeId Status = 0x00000000; -static constexpr AttributeId Order = 0x00000001; -static constexpr AttributeId Description = 0x00000002; -static constexpr AttributeId WiredAssessedInputVoltage = 0x00000003; -static constexpr AttributeId WiredAssessedInputFrequency = 0x00000004; -static constexpr AttributeId WiredCurrentType = 0x00000005; -static constexpr AttributeId WiredAssessedCurrent = 0x00000006; -static constexpr AttributeId WiredNominalVoltage = 0x00000007; -static constexpr AttributeId WiredMaximumCurrent = 0x00000008; -static constexpr AttributeId WiredPresent = 0x00000009; -static constexpr AttributeId ActiveWiredFaults = 0x0000000A; -static constexpr AttributeId BatteryVoltage = 0x0000000B; -static constexpr AttributeId BatteryPercentRemaining = 0x0000000C; -static constexpr AttributeId BatteryTimeRemaining = 0x0000000D; -static constexpr AttributeId BatteryChargeLevel = 0x0000000E; -static constexpr AttributeId BatteryReplacementNeeded = 0x0000000F; -static constexpr AttributeId BatteryReplaceability = 0x00000010; -static constexpr AttributeId BatteryPresent = 0x00000011; -static constexpr AttributeId ActiveBatteryFaults = 0x00000012; -static constexpr AttributeId BatteryReplacementDescription = 0x00000013; -static constexpr AttributeId BatteryCommonDesignation = 0x00000014; -static constexpr AttributeId BatteryANSIDesignation = 0x00000015; -static constexpr AttributeId BatteryIECDesignation = 0x00000016; -static constexpr AttributeId BatteryApprovedChemistry = 0x00000017; -static constexpr AttributeId BatteryCapacity = 0x00000018; -static constexpr AttributeId BatteryQuantity = 0x00000019; -static constexpr AttributeId BatteryChargeState = 0x0000001A; -static constexpr AttributeId BatteryTimeToFullCharge = 0x0000001B; -static constexpr AttributeId BatteryFunctionalWhileCharging = 0x0000001C; -static constexpr AttributeId BatteryChargingCurrent = 0x0000001D; -static constexpr AttributeId ActiveBatteryChargeFaults = 0x0000001E; -} // namespace Ids -} // namespace Attributes -} // namespace PowerSource -namespace GeneralCommissioning { -namespace Attributes { -namespace Ids { -static constexpr AttributeId Breadcrumb = 0x00000000; -static constexpr AttributeId BasicCommissioningInfoList = 0x00000001; -static constexpr AttributeId RegulatoryConfigList = 0x00000002; -static constexpr AttributeId LocationCapabilityList = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace GeneralCommissioning +namespace Status { +static constexpr AttributeId Id = 0x00000000; +} // namespace Status -namespace GeneralDiagnostics { -namespace Attributes { -namespace Ids { -static constexpr AttributeId NetworkInterfaces = 0x00000000; -static constexpr AttributeId RebootCount = 0x00000001; -static constexpr AttributeId UpTime = 0x00000002; -static constexpr AttributeId TotalOperationalHours = 0x00000003; -static constexpr AttributeId BootReasons = 0x00000004; -static constexpr AttributeId ActiveHardwareFaults = 0x00000005; -static constexpr AttributeId ActiveRadioFaults = 0x00000006; -static constexpr AttributeId ActiveNetworkFaults = 0x00000007; -} // namespace Ids -} // namespace Attributes -} // namespace GeneralDiagnostics +namespace Order { +static constexpr AttributeId Id = 0x00000001; +} // namespace Order -namespace SoftwareDiagnostics { -namespace Attributes { -namespace Ids { -static constexpr AttributeId ThreadMetrics = 0x00000000; -static constexpr AttributeId CurrentHeapFree = 0x00000001; -static constexpr AttributeId CurrentHeapUsed = 0x00000002; -static constexpr AttributeId CurrentHeapHighWatermark = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace SoftwareDiagnostics +namespace Description { +static constexpr AttributeId Id = 0x00000002; +} // namespace Description -namespace ThreadNetworkDiagnostics { -namespace Attributes { -namespace Ids { -static constexpr AttributeId Channel = 0x00000000; -static constexpr AttributeId RoutingRole = 0x00000001; -static constexpr AttributeId NetworkName = 0x00000002; -static constexpr AttributeId PanId = 0x00000003; -static constexpr AttributeId ExtendedPanId = 0x00000004; -static constexpr AttributeId MeshLocalPrefix = 0x00000005; -static constexpr AttributeId OverrunCount = 0x00000006; -static constexpr AttributeId NeighborTableList = 0x00000007; -static constexpr AttributeId RouteTableList = 0x00000008; -static constexpr AttributeId PartitionId = 0x00000009; -static constexpr AttributeId Weighting = 0x0000000A; -static constexpr AttributeId DataVersion = 0x0000000B; -static constexpr AttributeId StableDataVersion = 0x0000000C; -static constexpr AttributeId LeaderRouterId = 0x0000000D; -static constexpr AttributeId DetachedRoleCount = 0x0000000E; -static constexpr AttributeId ChildRoleCount = 0x0000000F; -static constexpr AttributeId RouterRoleCount = 0x00000010; -static constexpr AttributeId LeaderRoleCount = 0x00000011; -static constexpr AttributeId AttachAttemptCount = 0x00000012; -static constexpr AttributeId PartitionIdChangeCount = 0x00000013; -static constexpr AttributeId BetterPartitionAttachAttemptCount = 0x00000014; -static constexpr AttributeId ParentChangeCount = 0x00000015; -static constexpr AttributeId TxTotalCount = 0x00000016; -static constexpr AttributeId TxUnicastCount = 0x00000017; -static constexpr AttributeId TxBroadcastCount = 0x00000018; -static constexpr AttributeId TxAckRequestedCount = 0x00000019; -static constexpr AttributeId TxAckedCount = 0x0000001A; -static constexpr AttributeId TxNoAckRequestedCount = 0x0000001B; -static constexpr AttributeId TxDataCount = 0x0000001C; -static constexpr AttributeId TxDataPollCount = 0x0000001D; -static constexpr AttributeId TxBeaconCount = 0x0000001E; -static constexpr AttributeId TxBeaconRequestCount = 0x0000001F; -static constexpr AttributeId TxOtherCount = 0x00000020; -static constexpr AttributeId TxRetryCount = 0x00000021; -static constexpr AttributeId TxDirectMaxRetryExpiryCount = 0x00000022; -static constexpr AttributeId TxIndirectMaxRetryExpiryCount = 0x00000023; -static constexpr AttributeId TxErrCcaCount = 0x00000024; -static constexpr AttributeId TxErrAbortCount = 0x00000025; -static constexpr AttributeId TxErrBusyChannelCount = 0x00000026; -static constexpr AttributeId RxTotalCount = 0x00000027; -static constexpr AttributeId RxUnicastCount = 0x00000028; -static constexpr AttributeId RxBroadcastCount = 0x00000029; -static constexpr AttributeId RxDataCount = 0x0000002A; -static constexpr AttributeId RxDataPollCount = 0x0000002B; -static constexpr AttributeId RxBeaconCount = 0x0000002C; -static constexpr AttributeId RxBeaconRequestCount = 0x0000002D; -static constexpr AttributeId RxOtherCount = 0x0000002E; -static constexpr AttributeId RxAddressFilteredCount = 0x0000002F; -static constexpr AttributeId RxDestAddrFilteredCount = 0x00000030; -static constexpr AttributeId RxDuplicatedCount = 0x00000031; -static constexpr AttributeId RxErrNoFrameCount = 0x00000032; -static constexpr AttributeId RxErrUnknownNeighborCount = 0x00000033; -static constexpr AttributeId RxErrInvalidSrcAddrCount = 0x00000034; -static constexpr AttributeId RxErrSecCount = 0x00000035; -static constexpr AttributeId RxErrFcsCount = 0x00000036; -static constexpr AttributeId RxErrOtherCount = 0x00000037; -static constexpr AttributeId ActiveTimestamp = 0x00000038; -static constexpr AttributeId PendingTimestamp = 0x00000039; -static constexpr AttributeId Delay = 0x0000003A; -static constexpr AttributeId SecurityPolicy = 0x0000003B; -static constexpr AttributeId ChannelMask = 0x0000003C; -static constexpr AttributeId OperationalDatasetComponents = 0x0000003D; -static constexpr AttributeId ActiveNetworkFaultsList = 0x0000003E; -} // namespace Ids -} // namespace Attributes -} // namespace ThreadNetworkDiagnostics +namespace WiredAssessedInputVoltage { +static constexpr AttributeId Id = 0x00000003; +} // namespace WiredAssessedInputVoltage -namespace WiFiNetworkDiagnostics { -namespace Attributes { -namespace Ids { -static constexpr AttributeId Bssid = 0x00000000; -static constexpr AttributeId SecurityType = 0x00000001; -static constexpr AttributeId WiFiVersion = 0x00000002; -static constexpr AttributeId ChannelNumber = 0x00000003; -static constexpr AttributeId Rssi = 0x00000004; -static constexpr AttributeId BeaconLostCount = 0x00000005; -static constexpr AttributeId BeaconRxCount = 0x00000006; -static constexpr AttributeId PacketMulticastRxCount = 0x00000007; -static constexpr AttributeId PacketMulticastTxCount = 0x00000008; -static constexpr AttributeId PacketUnicastRxCount = 0x00000009; -static constexpr AttributeId PacketUnicastTxCount = 0x0000000A; -static constexpr AttributeId CurrentMaxRate = 0x0000000B; -static constexpr AttributeId OverrunCount = 0x0000000C; -} // namespace Ids -} // namespace Attributes -} // namespace WiFiNetworkDiagnostics +namespace WiredAssessedInputFrequency { +static constexpr AttributeId Id = 0x00000004; +} // namespace WiredAssessedInputFrequency -namespace EthernetNetworkDiagnostics { -namespace Attributes { -namespace Ids { -static constexpr AttributeId PHYRate = 0x00000000; -static constexpr AttributeId FullDuplex = 0x00000001; -static constexpr AttributeId PacketRxCount = 0x00000002; -static constexpr AttributeId PacketTxCount = 0x00000003; -static constexpr AttributeId TxErrCount = 0x00000004; -static constexpr AttributeId CollisionCount = 0x00000005; -static constexpr AttributeId OverrunCount = 0x00000006; -static constexpr AttributeId CarrierDetect = 0x00000007; -static constexpr AttributeId TimeSinceReset = 0x00000008; -} // namespace Ids -} // namespace Attributes -} // namespace EthernetNetworkDiagnostics +namespace WiredCurrentType { +static constexpr AttributeId Id = 0x00000005; +} // namespace WiredCurrentType -namespace BridgedDeviceBasic { -namespace Attributes { -namespace Ids { -static constexpr AttributeId VendorName = 0x00000001; -static constexpr AttributeId VendorID = 0x00000002; -static constexpr AttributeId ProductName = 0x00000003; -static constexpr AttributeId UserLabel = 0x00000005; -static constexpr AttributeId HardwareVersion = 0x00000007; -static constexpr AttributeId HardwareVersionString = 0x00000008; -static constexpr AttributeId SoftwareVersion = 0x00000009; -static constexpr AttributeId SoftwareVersionString = 0x0000000A; -static constexpr AttributeId ManufacturingDate = 0x0000000B; -static constexpr AttributeId PartNumber = 0x0000000C; -static constexpr AttributeId ProductURL = 0x0000000D; -static constexpr AttributeId ProductLabel = 0x0000000E; -static constexpr AttributeId SerialNumber = 0x0000000F; -static constexpr AttributeId Reachable = 0x00000011; -} // namespace Ids -} // namespace Attributes -} // namespace BridgedDeviceBasic +namespace WiredAssessedCurrent { +static constexpr AttributeId Id = 0x00000006; +} // namespace WiredAssessedCurrent -namespace Switch { -namespace Attributes { -namespace Ids { -static constexpr AttributeId NumberOfPositions = 0x00000000; -static constexpr AttributeId CurrentPosition = 0x00000001; -static constexpr AttributeId MultiPressMax = 0x00000002; -} // namespace Ids -} // namespace Attributes -} // namespace Switch +namespace WiredNominalVoltage { +static constexpr AttributeId Id = 0x00000007; +} // namespace WiredNominalVoltage -namespace OperationalCredentials { -namespace Attributes { -namespace Ids { -static constexpr AttributeId FabricsList = 0x00000001; -static constexpr AttributeId SupportedFabrics = 0x00000002; -static constexpr AttributeId CommissionedFabrics = 0x00000003; -static constexpr AttributeId TrustedRootCertificates = 0x00000004; -} // namespace Ids -} // namespace Attributes -} // namespace OperationalCredentials +namespace WiredMaximumCurrent { +static constexpr AttributeId Id = 0x00000008; +} // namespace WiredMaximumCurrent -namespace FixedLabel { -namespace Attributes { -namespace Ids { -static constexpr AttributeId LabelList = 0x00000000; -} // namespace Ids -} // namespace Attributes -} // namespace FixedLabel +namespace WiredPresent { +static constexpr AttributeId Id = 0x00000009; +} // namespace WiredPresent + +namespace ActiveWiredFaults { +static constexpr AttributeId Id = 0x0000000A; +} // namespace ActiveWiredFaults + +namespace BatteryVoltage { +static constexpr AttributeId Id = 0x0000000B; +} // namespace BatteryVoltage + +namespace BatteryPercentRemaining { +static constexpr AttributeId Id = 0x0000000C; +} // namespace BatteryPercentRemaining + +namespace BatteryTimeRemaining { +static constexpr AttributeId Id = 0x0000000D; +} // namespace BatteryTimeRemaining + +namespace BatteryChargeLevel { +static constexpr AttributeId Id = 0x0000000E; +} // namespace BatteryChargeLevel + +namespace BatteryReplacementNeeded { +static constexpr AttributeId Id = 0x0000000F; +} // namespace BatteryReplacementNeeded + +namespace BatteryReplaceability { +static constexpr AttributeId Id = 0x00000010; +} // namespace BatteryReplaceability + +namespace BatteryPresent { +static constexpr AttributeId Id = 0x00000011; +} // namespace BatteryPresent + +namespace ActiveBatteryFaults { +static constexpr AttributeId Id = 0x00000012; +} // namespace ActiveBatteryFaults + +namespace BatteryReplacementDescription { +static constexpr AttributeId Id = 0x00000013; +} // namespace BatteryReplacementDescription + +namespace BatteryCommonDesignation { +static constexpr AttributeId Id = 0x00000014; +} // namespace BatteryCommonDesignation + +namespace BatteryANSIDesignation { +static constexpr AttributeId Id = 0x00000015; +} // namespace BatteryANSIDesignation + +namespace BatteryIECDesignation { +static constexpr AttributeId Id = 0x00000016; +} // namespace BatteryIECDesignation + +namespace BatteryApprovedChemistry { +static constexpr AttributeId Id = 0x00000017; +} // namespace BatteryApprovedChemistry + +namespace BatteryCapacity { +static constexpr AttributeId Id = 0x00000018; +} // namespace BatteryCapacity + +namespace BatteryQuantity { +static constexpr AttributeId Id = 0x00000019; +} // namespace BatteryQuantity + +namespace BatteryChargeState { +static constexpr AttributeId Id = 0x0000001A; +} // namespace BatteryChargeState + +namespace BatteryTimeToFullCharge { +static constexpr AttributeId Id = 0x0000001B; +} // namespace BatteryTimeToFullCharge + +namespace BatteryFunctionalWhileCharging { +static constexpr AttributeId Id = 0x0000001C; +} // namespace BatteryFunctionalWhileCharging + +namespace BatteryChargingCurrent { +static constexpr AttributeId Id = 0x0000001D; +} // namespace BatteryChargingCurrent + +namespace ActiveBatteryChargeFaults { +static constexpr AttributeId Id = 0x0000001E; +} // namespace ActiveBatteryChargeFaults + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace PowerSource + +namespace GeneralCommissioning { +namespace Attributes { + +namespace Breadcrumb { +static constexpr AttributeId Id = 0x00000000; +} // namespace Breadcrumb + +namespace BasicCommissioningInfoList { +static constexpr AttributeId Id = 0x00000001; +} // namespace BasicCommissioningInfoList + +namespace RegulatoryConfigList { +static constexpr AttributeId Id = 0x00000002; +} // namespace RegulatoryConfigList + +namespace LocationCapabilityList { +static constexpr AttributeId Id = 0x00000003; +} // namespace LocationCapabilityList + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace GeneralCommissioning + +namespace GeneralDiagnostics { +namespace Attributes { + +namespace NetworkInterfaces { +static constexpr AttributeId Id = 0x00000000; +} // namespace NetworkInterfaces + +namespace RebootCount { +static constexpr AttributeId Id = 0x00000001; +} // namespace RebootCount + +namespace UpTime { +static constexpr AttributeId Id = 0x00000002; +} // namespace UpTime + +namespace TotalOperationalHours { +static constexpr AttributeId Id = 0x00000003; +} // namespace TotalOperationalHours + +namespace BootReasons { +static constexpr AttributeId Id = 0x00000004; +} // namespace BootReasons + +namespace ActiveHardwareFaults { +static constexpr AttributeId Id = 0x00000005; +} // namespace ActiveHardwareFaults + +namespace ActiveRadioFaults { +static constexpr AttributeId Id = 0x00000006; +} // namespace ActiveRadioFaults + +namespace ActiveNetworkFaults { +static constexpr AttributeId Id = 0x00000007; +} // namespace ActiveNetworkFaults + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace GeneralDiagnostics + +namespace SoftwareDiagnostics { +namespace Attributes { + +namespace ThreadMetrics { +static constexpr AttributeId Id = 0x00000000; +} // namespace ThreadMetrics + +namespace CurrentHeapFree { +static constexpr AttributeId Id = 0x00000001; +} // namespace CurrentHeapFree + +namespace CurrentHeapUsed { +static constexpr AttributeId Id = 0x00000002; +} // namespace CurrentHeapUsed + +namespace CurrentHeapHighWatermark { +static constexpr AttributeId Id = 0x00000003; +} // namespace CurrentHeapHighWatermark + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace SoftwareDiagnostics + +namespace ThreadNetworkDiagnostics { +namespace Attributes { + +namespace Channel { +static constexpr AttributeId Id = 0x00000000; +} // namespace Channel + +namespace RoutingRole { +static constexpr AttributeId Id = 0x00000001; +} // namespace RoutingRole + +namespace NetworkName { +static constexpr AttributeId Id = 0x00000002; +} // namespace NetworkName + +namespace PanId { +static constexpr AttributeId Id = 0x00000003; +} // namespace PanId + +namespace ExtendedPanId { +static constexpr AttributeId Id = 0x00000004; +} // namespace ExtendedPanId + +namespace MeshLocalPrefix { +static constexpr AttributeId Id = 0x00000005; +} // namespace MeshLocalPrefix + +namespace OverrunCount { +static constexpr AttributeId Id = 0x00000006; +} // namespace OverrunCount + +namespace NeighborTableList { +static constexpr AttributeId Id = 0x00000007; +} // namespace NeighborTableList + +namespace RouteTableList { +static constexpr AttributeId Id = 0x00000008; +} // namespace RouteTableList + +namespace PartitionId { +static constexpr AttributeId Id = 0x00000009; +} // namespace PartitionId + +namespace Weighting { +static constexpr AttributeId Id = 0x0000000A; +} // namespace Weighting + +namespace DataVersion { +static constexpr AttributeId Id = 0x0000000B; +} // namespace DataVersion + +namespace StableDataVersion { +static constexpr AttributeId Id = 0x0000000C; +} // namespace StableDataVersion + +namespace LeaderRouterId { +static constexpr AttributeId Id = 0x0000000D; +} // namespace LeaderRouterId + +namespace DetachedRoleCount { +static constexpr AttributeId Id = 0x0000000E; +} // namespace DetachedRoleCount + +namespace ChildRoleCount { +static constexpr AttributeId Id = 0x0000000F; +} // namespace ChildRoleCount + +namespace RouterRoleCount { +static constexpr AttributeId Id = 0x00000010; +} // namespace RouterRoleCount + +namespace LeaderRoleCount { +static constexpr AttributeId Id = 0x00000011; +} // namespace LeaderRoleCount + +namespace AttachAttemptCount { +static constexpr AttributeId Id = 0x00000012; +} // namespace AttachAttemptCount + +namespace PartitionIdChangeCount { +static constexpr AttributeId Id = 0x00000013; +} // namespace PartitionIdChangeCount + +namespace BetterPartitionAttachAttemptCount { +static constexpr AttributeId Id = 0x00000014; +} // namespace BetterPartitionAttachAttemptCount + +namespace ParentChangeCount { +static constexpr AttributeId Id = 0x00000015; +} // namespace ParentChangeCount + +namespace TxTotalCount { +static constexpr AttributeId Id = 0x00000016; +} // namespace TxTotalCount + +namespace TxUnicastCount { +static constexpr AttributeId Id = 0x00000017; +} // namespace TxUnicastCount + +namespace TxBroadcastCount { +static constexpr AttributeId Id = 0x00000018; +} // namespace TxBroadcastCount + +namespace TxAckRequestedCount { +static constexpr AttributeId Id = 0x00000019; +} // namespace TxAckRequestedCount + +namespace TxAckedCount { +static constexpr AttributeId Id = 0x0000001A; +} // namespace TxAckedCount + +namespace TxNoAckRequestedCount { +static constexpr AttributeId Id = 0x0000001B; +} // namespace TxNoAckRequestedCount + +namespace TxDataCount { +static constexpr AttributeId Id = 0x0000001C; +} // namespace TxDataCount + +namespace TxDataPollCount { +static constexpr AttributeId Id = 0x0000001D; +} // namespace TxDataPollCount + +namespace TxBeaconCount { +static constexpr AttributeId Id = 0x0000001E; +} // namespace TxBeaconCount + +namespace TxBeaconRequestCount { +static constexpr AttributeId Id = 0x0000001F; +} // namespace TxBeaconRequestCount + +namespace TxOtherCount { +static constexpr AttributeId Id = 0x00000020; +} // namespace TxOtherCount + +namespace TxRetryCount { +static constexpr AttributeId Id = 0x00000021; +} // namespace TxRetryCount + +namespace TxDirectMaxRetryExpiryCount { +static constexpr AttributeId Id = 0x00000022; +} // namespace TxDirectMaxRetryExpiryCount + +namespace TxIndirectMaxRetryExpiryCount { +static constexpr AttributeId Id = 0x00000023; +} // namespace TxIndirectMaxRetryExpiryCount + +namespace TxErrCcaCount { +static constexpr AttributeId Id = 0x00000024; +} // namespace TxErrCcaCount + +namespace TxErrAbortCount { +static constexpr AttributeId Id = 0x00000025; +} // namespace TxErrAbortCount + +namespace TxErrBusyChannelCount { +static constexpr AttributeId Id = 0x00000026; +} // namespace TxErrBusyChannelCount + +namespace RxTotalCount { +static constexpr AttributeId Id = 0x00000027; +} // namespace RxTotalCount + +namespace RxUnicastCount { +static constexpr AttributeId Id = 0x00000028; +} // namespace RxUnicastCount + +namespace RxBroadcastCount { +static constexpr AttributeId Id = 0x00000029; +} // namespace RxBroadcastCount + +namespace RxDataCount { +static constexpr AttributeId Id = 0x0000002A; +} // namespace RxDataCount + +namespace RxDataPollCount { +static constexpr AttributeId Id = 0x0000002B; +} // namespace RxDataPollCount + +namespace RxBeaconCount { +static constexpr AttributeId Id = 0x0000002C; +} // namespace RxBeaconCount + +namespace RxBeaconRequestCount { +static constexpr AttributeId Id = 0x0000002D; +} // namespace RxBeaconRequestCount + +namespace RxOtherCount { +static constexpr AttributeId Id = 0x0000002E; +} // namespace RxOtherCount + +namespace RxAddressFilteredCount { +static constexpr AttributeId Id = 0x0000002F; +} // namespace RxAddressFilteredCount + +namespace RxDestAddrFilteredCount { +static constexpr AttributeId Id = 0x00000030; +} // namespace RxDestAddrFilteredCount + +namespace RxDuplicatedCount { +static constexpr AttributeId Id = 0x00000031; +} // namespace RxDuplicatedCount + +namespace RxErrNoFrameCount { +static constexpr AttributeId Id = 0x00000032; +} // namespace RxErrNoFrameCount + +namespace RxErrUnknownNeighborCount { +static constexpr AttributeId Id = 0x00000033; +} // namespace RxErrUnknownNeighborCount + +namespace RxErrInvalidSrcAddrCount { +static constexpr AttributeId Id = 0x00000034; +} // namespace RxErrInvalidSrcAddrCount + +namespace RxErrSecCount { +static constexpr AttributeId Id = 0x00000035; +} // namespace RxErrSecCount + +namespace RxErrFcsCount { +static constexpr AttributeId Id = 0x00000036; +} // namespace RxErrFcsCount + +namespace RxErrOtherCount { +static constexpr AttributeId Id = 0x00000037; +} // namespace RxErrOtherCount + +namespace ActiveTimestamp { +static constexpr AttributeId Id = 0x00000038; +} // namespace ActiveTimestamp + +namespace PendingTimestamp { +static constexpr AttributeId Id = 0x00000039; +} // namespace PendingTimestamp + +namespace Delay { +static constexpr AttributeId Id = 0x0000003A; +} // namespace Delay + +namespace SecurityPolicy { +static constexpr AttributeId Id = 0x0000003B; +} // namespace SecurityPolicy + +namespace ChannelMask { +static constexpr AttributeId Id = 0x0000003C; +} // namespace ChannelMask + +namespace OperationalDatasetComponents { +static constexpr AttributeId Id = 0x0000003D; +} // namespace OperationalDatasetComponents + +namespace ActiveNetworkFaultsList { +static constexpr AttributeId Id = 0x0000003E; +} // namespace ActiveNetworkFaultsList + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ThreadNetworkDiagnostics + +namespace WiFiNetworkDiagnostics { +namespace Attributes { + +namespace Bssid { +static constexpr AttributeId Id = 0x00000000; +} // namespace Bssid + +namespace SecurityType { +static constexpr AttributeId Id = 0x00000001; +} // namespace SecurityType + +namespace WiFiVersion { +static constexpr AttributeId Id = 0x00000002; +} // namespace WiFiVersion + +namespace ChannelNumber { +static constexpr AttributeId Id = 0x00000003; +} // namespace ChannelNumber + +namespace Rssi { +static constexpr AttributeId Id = 0x00000004; +} // namespace Rssi + +namespace BeaconLostCount { +static constexpr AttributeId Id = 0x00000005; +} // namespace BeaconLostCount + +namespace BeaconRxCount { +static constexpr AttributeId Id = 0x00000006; +} // namespace BeaconRxCount + +namespace PacketMulticastRxCount { +static constexpr AttributeId Id = 0x00000007; +} // namespace PacketMulticastRxCount + +namespace PacketMulticastTxCount { +static constexpr AttributeId Id = 0x00000008; +} // namespace PacketMulticastTxCount + +namespace PacketUnicastRxCount { +static constexpr AttributeId Id = 0x00000009; +} // namespace PacketUnicastRxCount + +namespace PacketUnicastTxCount { +static constexpr AttributeId Id = 0x0000000A; +} // namespace PacketUnicastTxCount + +namespace CurrentMaxRate { +static constexpr AttributeId Id = 0x0000000B; +} // namespace CurrentMaxRate + +namespace OverrunCount { +static constexpr AttributeId Id = 0x0000000C; +} // namespace OverrunCount + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace WiFiNetworkDiagnostics + +namespace EthernetNetworkDiagnostics { +namespace Attributes { + +namespace PHYRate { +static constexpr AttributeId Id = 0x00000000; +} // namespace PHYRate + +namespace FullDuplex { +static constexpr AttributeId Id = 0x00000001; +} // namespace FullDuplex + +namespace PacketRxCount { +static constexpr AttributeId Id = 0x00000002; +} // namespace PacketRxCount + +namespace PacketTxCount { +static constexpr AttributeId Id = 0x00000003; +} // namespace PacketTxCount + +namespace TxErrCount { +static constexpr AttributeId Id = 0x00000004; +} // namespace TxErrCount + +namespace CollisionCount { +static constexpr AttributeId Id = 0x00000005; +} // namespace CollisionCount + +namespace OverrunCount { +static constexpr AttributeId Id = 0x00000006; +} // namespace OverrunCount + +namespace CarrierDetect { +static constexpr AttributeId Id = 0x00000007; +} // namespace CarrierDetect + +namespace TimeSinceReset { +static constexpr AttributeId Id = 0x00000008; +} // namespace TimeSinceReset + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace EthernetNetworkDiagnostics + +namespace BridgedDeviceBasic { +namespace Attributes { + +namespace VendorName { +static constexpr AttributeId Id = 0x00000001; +} // namespace VendorName + +namespace VendorID { +static constexpr AttributeId Id = 0x00000002; +} // namespace VendorID + +namespace ProductName { +static constexpr AttributeId Id = 0x00000003; +} // namespace ProductName + +namespace UserLabel { +static constexpr AttributeId Id = 0x00000005; +} // namespace UserLabel + +namespace HardwareVersion { +static constexpr AttributeId Id = 0x00000007; +} // namespace HardwareVersion + +namespace HardwareVersionString { +static constexpr AttributeId Id = 0x00000008; +} // namespace HardwareVersionString + +namespace SoftwareVersion { +static constexpr AttributeId Id = 0x00000009; +} // namespace SoftwareVersion + +namespace SoftwareVersionString { +static constexpr AttributeId Id = 0x0000000A; +} // namespace SoftwareVersionString + +namespace ManufacturingDate { +static constexpr AttributeId Id = 0x0000000B; +} // namespace ManufacturingDate + +namespace PartNumber { +static constexpr AttributeId Id = 0x0000000C; +} // namespace PartNumber + +namespace ProductURL { +static constexpr AttributeId Id = 0x0000000D; +} // namespace ProductURL + +namespace ProductLabel { +static constexpr AttributeId Id = 0x0000000E; +} // namespace ProductLabel + +namespace SerialNumber { +static constexpr AttributeId Id = 0x0000000F; +} // namespace SerialNumber + +namespace Reachable { +static constexpr AttributeId Id = 0x00000011; +} // namespace Reachable + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace BridgedDeviceBasic + +namespace Switch { +namespace Attributes { + +namespace NumberOfPositions { +static constexpr AttributeId Id = 0x00000000; +} // namespace NumberOfPositions + +namespace CurrentPosition { +static constexpr AttributeId Id = 0x00000001; +} // namespace CurrentPosition + +namespace MultiPressMax { +static constexpr AttributeId Id = 0x00000002; +} // namespace MultiPressMax + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace Switch + +namespace OperationalCredentials { +namespace Attributes { + +namespace FabricsList { +static constexpr AttributeId Id = 0x00000001; +} // namespace FabricsList + +namespace SupportedFabrics { +static constexpr AttributeId Id = 0x00000002; +} // namespace SupportedFabrics + +namespace CommissionedFabrics { +static constexpr AttributeId Id = 0x00000003; +} // namespace CommissionedFabrics + +namespace TrustedRootCertificates { +static constexpr AttributeId Id = 0x00000004; +} // namespace TrustedRootCertificates + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace OperationalCredentials + +namespace FixedLabel { +namespace Attributes { + +namespace LabelList { +static constexpr AttributeId Id = 0x00000000; +} // namespace LabelList + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace FixedLabel + +namespace ShadeConfiguration { +namespace Attributes { + +namespace PhysicalClosedLimit { +static constexpr AttributeId Id = 0x00000000; +} // namespace PhysicalClosedLimit + +namespace MotorStepSize { +static constexpr AttributeId Id = 0x00000001; +} // namespace MotorStepSize + +namespace Status { +static constexpr AttributeId Id = 0x00000002; +} // namespace Status + +namespace ClosedLimit { +static constexpr AttributeId Id = 0x00000010; +} // namespace ClosedLimit + +namespace Mode { +static constexpr AttributeId Id = 0x00000011; +} // namespace Mode + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ShadeConfiguration + +namespace DoorLock { +namespace Attributes { + +namespace LockState { +static constexpr AttributeId Id = 0x00000000; +} // namespace LockState + +namespace LockType { +static constexpr AttributeId Id = 0x00000001; +} // namespace LockType + +namespace ActuatorEnabled { +static constexpr AttributeId Id = 0x00000002; +} // namespace ActuatorEnabled + +namespace DoorState { +static constexpr AttributeId Id = 0x00000003; +} // namespace DoorState + +namespace DoorOpenEvents { +static constexpr AttributeId Id = 0x00000004; +} // namespace DoorOpenEvents + +namespace DoorClosedEvents { +static constexpr AttributeId Id = 0x00000005; +} // namespace DoorClosedEvents + +namespace OpenPeriod { +static constexpr AttributeId Id = 0x00000006; +} // namespace OpenPeriod + +namespace NumLockRecordsSupported { +static constexpr AttributeId Id = 0x00000010; +} // namespace NumLockRecordsSupported + +namespace NumTotalUsersSupported { +static constexpr AttributeId Id = 0x00000011; +} // namespace NumTotalUsersSupported + +namespace NumPinUsersSupported { +static constexpr AttributeId Id = 0x00000012; +} // namespace NumPinUsersSupported + +namespace NumRfidUsersSupported { +static constexpr AttributeId Id = 0x00000013; +} // namespace NumRfidUsersSupported + +namespace NumWeekdaySchedulesSupportedPerUser { +static constexpr AttributeId Id = 0x00000014; +} // namespace NumWeekdaySchedulesSupportedPerUser + +namespace NumYeardaySchedulesSupportedPerUser { +static constexpr AttributeId Id = 0x00000015; +} // namespace NumYeardaySchedulesSupportedPerUser + +namespace NumHolidaySchedulesSupportedPerUser { +static constexpr AttributeId Id = 0x00000016; +} // namespace NumHolidaySchedulesSupportedPerUser + +namespace MaxPinLength { +static constexpr AttributeId Id = 0x00000017; +} // namespace MaxPinLength + +namespace MinPinLength { +static constexpr AttributeId Id = 0x00000018; +} // namespace MinPinLength + +namespace MaxRfidCodeLength { +static constexpr AttributeId Id = 0x00000019; +} // namespace MaxRfidCodeLength + +namespace MinRfidCodeLength { +static constexpr AttributeId Id = 0x0000001A; +} // namespace MinRfidCodeLength + +namespace EnableLogging { +static constexpr AttributeId Id = 0x00000020; +} // namespace EnableLogging + +namespace Language { +static constexpr AttributeId Id = 0x00000021; +} // namespace Language + +namespace LedSettings { +static constexpr AttributeId Id = 0x00000022; +} // namespace LedSettings + +namespace AutoRelockTime { +static constexpr AttributeId Id = 0x00000023; +} // namespace AutoRelockTime + +namespace SoundVolume { +static constexpr AttributeId Id = 0x00000024; +} // namespace SoundVolume + +namespace OperatingMode { +static constexpr AttributeId Id = 0x00000025; +} // namespace OperatingMode + +namespace SupportedOperatingModes { +static constexpr AttributeId Id = 0x00000026; +} // namespace SupportedOperatingModes + +namespace DefaultConfigurationRegister { +static constexpr AttributeId Id = 0x00000027; +} // namespace DefaultConfigurationRegister + +namespace EnableLocalProgramming { +static constexpr AttributeId Id = 0x00000028; +} // namespace EnableLocalProgramming + +namespace EnableOneTouchLocking { +static constexpr AttributeId Id = 0x00000029; +} // namespace EnableOneTouchLocking + +namespace EnableInsideStatusLed { +static constexpr AttributeId Id = 0x0000002A; +} // namespace EnableInsideStatusLed + +namespace EnablePrivacyModeButton { +static constexpr AttributeId Id = 0x0000002B; +} // namespace EnablePrivacyModeButton + +namespace WrongCodeEntryLimit { +static constexpr AttributeId Id = 0x00000030; +} // namespace WrongCodeEntryLimit + +namespace UserCodeTemporaryDisableTime { +static constexpr AttributeId Id = 0x00000031; +} // namespace UserCodeTemporaryDisableTime + +namespace SendPinOverTheAir { +static constexpr AttributeId Id = 0x00000032; +} // namespace SendPinOverTheAir + +namespace RequirePinForRfOperation { +static constexpr AttributeId Id = 0x00000033; +} // namespace RequirePinForRfOperation + +namespace ZigbeeSecurityLevel { +static constexpr AttributeId Id = 0x00000034; +} // namespace ZigbeeSecurityLevel + +namespace AlarmMask { +static constexpr AttributeId Id = 0x00000040; +} // namespace AlarmMask + +namespace KeypadOperationEventMask { +static constexpr AttributeId Id = 0x00000041; +} // namespace KeypadOperationEventMask + +namespace RfOperationEventMask { +static constexpr AttributeId Id = 0x00000042; +} // namespace RfOperationEventMask + +namespace ManualOperationEventMask { +static constexpr AttributeId Id = 0x00000043; +} // namespace ManualOperationEventMask + +namespace RfidOperationEventMask { +static constexpr AttributeId Id = 0x00000044; +} // namespace RfidOperationEventMask + +namespace KeypadProgrammingEventMask { +static constexpr AttributeId Id = 0x00000045; +} // namespace KeypadProgrammingEventMask + +namespace RfProgrammingEventMask { +static constexpr AttributeId Id = 0x00000046; +} // namespace RfProgrammingEventMask + +namespace RfidProgrammingEventMask { +static constexpr AttributeId Id = 0x00000047; +} // namespace RfidProgrammingEventMask + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace DoorLock + +namespace WindowCovering { +namespace Attributes { + +namespace Type { +static constexpr AttributeId Id = 0x00000000; +} // namespace Type + +namespace PhysicalClosedLimitLift { +static constexpr AttributeId Id = 0x00000001; +} // namespace PhysicalClosedLimitLift + +namespace PhysicalClosedLimitTilt { +static constexpr AttributeId Id = 0x00000002; +} // namespace PhysicalClosedLimitTilt + +namespace CurrentPositionLift { +static constexpr AttributeId Id = 0x00000003; +} // namespace CurrentPositionLift + +namespace CurrentPositionTilt { +static constexpr AttributeId Id = 0x00000004; +} // namespace CurrentPositionTilt + +namespace NumberOfActuationsLift { +static constexpr AttributeId Id = 0x00000005; +} // namespace NumberOfActuationsLift + +namespace NumberOfActuationsTilt { +static constexpr AttributeId Id = 0x00000006; +} // namespace NumberOfActuationsTilt + +namespace ConfigStatus { +static constexpr AttributeId Id = 0x00000007; +} // namespace ConfigStatus + +namespace CurrentPositionLiftPercentage { +static constexpr AttributeId Id = 0x00000008; +} // namespace CurrentPositionLiftPercentage + +namespace CurrentPositionTiltPercentage { +static constexpr AttributeId Id = 0x00000009; +} // namespace CurrentPositionTiltPercentage + +namespace OperationalStatus { +static constexpr AttributeId Id = 0x0000000A; +} // namespace OperationalStatus + +namespace TargetPositionLiftPercent100ths { +static constexpr AttributeId Id = 0x0000000B; +} // namespace TargetPositionLiftPercent100ths + +namespace TargetPositionTiltPercent100ths { +static constexpr AttributeId Id = 0x0000000C; +} // namespace TargetPositionTiltPercent100ths + +namespace EndProductType { +static constexpr AttributeId Id = 0x0000000D; +} // namespace EndProductType + +namespace CurrentPositionLiftPercent100ths { +static constexpr AttributeId Id = 0x0000000E; +} // namespace CurrentPositionLiftPercent100ths + +namespace CurrentPositionTiltPercent100ths { +static constexpr AttributeId Id = 0x0000000F; +} // namespace CurrentPositionTiltPercent100ths + +namespace InstalledOpenLimitLift { +static constexpr AttributeId Id = 0x00000010; +} // namespace InstalledOpenLimitLift + +namespace InstalledClosedLimitLift { +static constexpr AttributeId Id = 0x00000011; +} // namespace InstalledClosedLimitLift + +namespace InstalledOpenLimitTilt { +static constexpr AttributeId Id = 0x00000012; +} // namespace InstalledOpenLimitTilt + +namespace InstalledClosedLimitTilt { +static constexpr AttributeId Id = 0x00000013; +} // namespace InstalledClosedLimitTilt + +namespace VelocityLift { +static constexpr AttributeId Id = 0x00000014; +} // namespace VelocityLift + +namespace AccelerationTimeLift { +static constexpr AttributeId Id = 0x00000015; +} // namespace AccelerationTimeLift + +namespace DecelerationTimeLift { +static constexpr AttributeId Id = 0x00000016; +} // namespace DecelerationTimeLift + +namespace Mode { +static constexpr AttributeId Id = 0x00000017; +} // namespace Mode + +namespace IntermediateSetpointsLift { +static constexpr AttributeId Id = 0x00000018; +} // namespace IntermediateSetpointsLift + +namespace IntermediateSetpointsTilt { +static constexpr AttributeId Id = 0x00000019; +} // namespace IntermediateSetpointsTilt + +namespace SafetyStatus { +static constexpr AttributeId Id = 0x0000001A; +} // namespace SafetyStatus + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace WindowCovering + +namespace BarrierControl { +namespace Attributes { + +namespace BarrierMovingState { +static constexpr AttributeId Id = 0x00000001; +} // namespace BarrierMovingState + +namespace BarrierSafetyStatus { +static constexpr AttributeId Id = 0x00000002; +} // namespace BarrierSafetyStatus + +namespace BarrierCapabilities { +static constexpr AttributeId Id = 0x00000003; +} // namespace BarrierCapabilities + +namespace BarrierOpenEvents { +static constexpr AttributeId Id = 0x00000004; +} // namespace BarrierOpenEvents + +namespace BarrierCloseEvents { +static constexpr AttributeId Id = 0x00000005; +} // namespace BarrierCloseEvents + +namespace BarrierCommandOpenEvents { +static constexpr AttributeId Id = 0x00000006; +} // namespace BarrierCommandOpenEvents + +namespace BarrierCommandCloseEvents { +static constexpr AttributeId Id = 0x00000007; +} // namespace BarrierCommandCloseEvents + +namespace BarrierOpenPeriod { +static constexpr AttributeId Id = 0x00000008; +} // namespace BarrierOpenPeriod + +namespace BarrierClosePeriod { +static constexpr AttributeId Id = 0x00000009; +} // namespace BarrierClosePeriod + +namespace BarrierPosition { +static constexpr AttributeId Id = 0x0000000A; +} // namespace BarrierPosition + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace BarrierControl + +namespace PumpConfigurationAndControl { +namespace Attributes { + +namespace MaxPressure { +static constexpr AttributeId Id = 0x00000000; +} // namespace MaxPressure + +namespace MaxSpeed { +static constexpr AttributeId Id = 0x00000001; +} // namespace MaxSpeed + +namespace MaxFlow { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxFlow + +namespace MinConstPressure { +static constexpr AttributeId Id = 0x00000003; +} // namespace MinConstPressure + +namespace MaxConstPressure { +static constexpr AttributeId Id = 0x00000004; +} // namespace MaxConstPressure + +namespace MinCompPressure { +static constexpr AttributeId Id = 0x00000005; +} // namespace MinCompPressure + +namespace MaxCompPressure { +static constexpr AttributeId Id = 0x00000006; +} // namespace MaxCompPressure + +namespace MinConstSpeed { +static constexpr AttributeId Id = 0x00000007; +} // namespace MinConstSpeed + +namespace MaxConstSpeed { +static constexpr AttributeId Id = 0x00000008; +} // namespace MaxConstSpeed + +namespace MinConstFlow { +static constexpr AttributeId Id = 0x00000009; +} // namespace MinConstFlow + +namespace MaxConstFlow { +static constexpr AttributeId Id = 0x0000000A; +} // namespace MaxConstFlow + +namespace MinConstTemp { +static constexpr AttributeId Id = 0x0000000B; +} // namespace MinConstTemp + +namespace MaxConstTemp { +static constexpr AttributeId Id = 0x0000000C; +} // namespace MaxConstTemp + +namespace PumpStatus { +static constexpr AttributeId Id = 0x00000010; +} // namespace PumpStatus + +namespace EffectiveOperationMode { +static constexpr AttributeId Id = 0x00000011; +} // namespace EffectiveOperationMode + +namespace EffectiveControlMode { +static constexpr AttributeId Id = 0x00000012; +} // namespace EffectiveControlMode + +namespace Capacity { +static constexpr AttributeId Id = 0x00000013; +} // namespace Capacity + +namespace Speed { +static constexpr AttributeId Id = 0x00000014; +} // namespace Speed + +namespace LifetimeRunningHours { +static constexpr AttributeId Id = 0x00000015; +} // namespace LifetimeRunningHours + +namespace Power { +static constexpr AttributeId Id = 0x00000016; +} // namespace Power + +namespace LifetimeEnergyConsumed { +static constexpr AttributeId Id = 0x00000017; +} // namespace LifetimeEnergyConsumed + +namespace OperationMode { +static constexpr AttributeId Id = 0x00000020; +} // namespace OperationMode + +namespace ControlMode { +static constexpr AttributeId Id = 0x00000021; +} // namespace ControlMode + +namespace AlarmMask { +static constexpr AttributeId Id = 0x00000022; +} // namespace AlarmMask + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace PumpConfigurationAndControl + +namespace Thermostat { +namespace Attributes { + +namespace LocalTemperature { +static constexpr AttributeId Id = 0x00000000; +} // namespace LocalTemperature + +namespace OutdoorTemperature { +static constexpr AttributeId Id = 0x00000001; +} // namespace OutdoorTemperature + +namespace Occupancy { +static constexpr AttributeId Id = 0x00000002; +} // namespace Occupancy + +namespace AbsMinHeatSetpointLimit { +static constexpr AttributeId Id = 0x00000003; +} // namespace AbsMinHeatSetpointLimit + +namespace AbsMaxHeatSetpointLimit { +static constexpr AttributeId Id = 0x00000004; +} // namespace AbsMaxHeatSetpointLimit + +namespace AbsMinCoolSetpointLimit { +static constexpr AttributeId Id = 0x00000005; +} // namespace AbsMinCoolSetpointLimit + +namespace AbsMaxCoolSetpointLimit { +static constexpr AttributeId Id = 0x00000006; +} // namespace AbsMaxCoolSetpointLimit + +namespace PiCoolingDemand { +static constexpr AttributeId Id = 0x00000007; +} // namespace PiCoolingDemand + +namespace PiHeatingDemand { +static constexpr AttributeId Id = 0x00000008; +} // namespace PiHeatingDemand + +namespace HvacSystemTypeConfiguration { +static constexpr AttributeId Id = 0x00000009; +} // namespace HvacSystemTypeConfiguration + +namespace LocalTemperatureCalibration { +static constexpr AttributeId Id = 0x00000010; +} // namespace LocalTemperatureCalibration + +namespace OccupiedCoolingSetpoint { +static constexpr AttributeId Id = 0x00000011; +} // namespace OccupiedCoolingSetpoint + +namespace OccupiedHeatingSetpoint { +static constexpr AttributeId Id = 0x00000012; +} // namespace OccupiedHeatingSetpoint + +namespace UnoccupiedCoolingSetpoint { +static constexpr AttributeId Id = 0x00000013; +} // namespace UnoccupiedCoolingSetpoint + +namespace UnoccupiedHeatingSetpoint { +static constexpr AttributeId Id = 0x00000014; +} // namespace UnoccupiedHeatingSetpoint + +namespace MinHeatSetpointLimit { +static constexpr AttributeId Id = 0x00000015; +} // namespace MinHeatSetpointLimit + +namespace MaxHeatSetpointLimit { +static constexpr AttributeId Id = 0x00000016; +} // namespace MaxHeatSetpointLimit + +namespace MinCoolSetpointLimit { +static constexpr AttributeId Id = 0x00000017; +} // namespace MinCoolSetpointLimit + +namespace MaxCoolSetpointLimit { +static constexpr AttributeId Id = 0x00000018; +} // namespace MaxCoolSetpointLimit + +namespace MinSetpointDeadBand { +static constexpr AttributeId Id = 0x00000019; +} // namespace MinSetpointDeadBand + +namespace RemoteSensing { +static constexpr AttributeId Id = 0x0000001A; +} // namespace RemoteSensing + +namespace ControlSequenceOfOperation { +static constexpr AttributeId Id = 0x0000001B; +} // namespace ControlSequenceOfOperation + +namespace SystemMode { +static constexpr AttributeId Id = 0x0000001C; +} // namespace SystemMode + +namespace AlarmMask { +static constexpr AttributeId Id = 0x0000001D; +} // namespace AlarmMask + +namespace ThermostatRunningMode { +static constexpr AttributeId Id = 0x0000001E; +} // namespace ThermostatRunningMode + +namespace StartOfWeek { +static constexpr AttributeId Id = 0x00000020; +} // namespace StartOfWeek + +namespace NumberOfWeeklyTransitions { +static constexpr AttributeId Id = 0x00000021; +} // namespace NumberOfWeeklyTransitions + +namespace NumberOfDailyTransitions { +static constexpr AttributeId Id = 0x00000022; +} // namespace NumberOfDailyTransitions + +namespace TemperatureSetpointHold { +static constexpr AttributeId Id = 0x00000023; +} // namespace TemperatureSetpointHold + +namespace TemperatureSetpointHoldDuration { +static constexpr AttributeId Id = 0x00000024; +} // namespace TemperatureSetpointHoldDuration + +namespace ThermostatProgrammingOperationMode { +static constexpr AttributeId Id = 0x00000025; +} // namespace ThermostatProgrammingOperationMode + +namespace HvacRelayState { +static constexpr AttributeId Id = 0x00000029; +} // namespace HvacRelayState + +namespace SetpointChangeSource { +static constexpr AttributeId Id = 0x00000030; +} // namespace SetpointChangeSource + +namespace SetpointChangeAmount { +static constexpr AttributeId Id = 0x00000031; +} // namespace SetpointChangeAmount + +namespace SetpointChangeSourceTimestamp { +static constexpr AttributeId Id = 0x00000032; +} // namespace SetpointChangeSourceTimestamp + +namespace AcType { +static constexpr AttributeId Id = 0x00000040; +} // namespace AcType + +namespace AcCapacity { +static constexpr AttributeId Id = 0x00000041; +} // namespace AcCapacity + +namespace AcRefrigerantType { +static constexpr AttributeId Id = 0x00000042; +} // namespace AcRefrigerantType + +namespace AcCompressor { +static constexpr AttributeId Id = 0x00000043; +} // namespace AcCompressor + +namespace AcErrorCode { +static constexpr AttributeId Id = 0x00000044; +} // namespace AcErrorCode + +namespace AcLouverPosition { +static constexpr AttributeId Id = 0x00000045; +} // namespace AcLouverPosition + +namespace AcCoilTemperature { +static constexpr AttributeId Id = 0x00000046; +} // namespace AcCoilTemperature + +namespace AcCapacityFormat { +static constexpr AttributeId Id = 0x00000047; +} // namespace AcCapacityFormat + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace Thermostat + +namespace FanControl { +namespace Attributes { + +namespace FanMode { +static constexpr AttributeId Id = 0x00000000; +} // namespace FanMode + +namespace FanModeSequence { +static constexpr AttributeId Id = 0x00000001; +} // namespace FanModeSequence + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace FanControl + +namespace DehumidificationControl { +namespace Attributes { + +namespace RelativeHumidity { +static constexpr AttributeId Id = 0x00000000; +} // namespace RelativeHumidity + +namespace DehumidificationCooling { +static constexpr AttributeId Id = 0x00000001; +} // namespace DehumidificationCooling + +namespace RhDehumidificationSetpoint { +static constexpr AttributeId Id = 0x00000010; +} // namespace RhDehumidificationSetpoint + +namespace RelativeHumidityMode { +static constexpr AttributeId Id = 0x00000011; +} // namespace RelativeHumidityMode + +namespace DehumidificationLockout { +static constexpr AttributeId Id = 0x00000012; +} // namespace DehumidificationLockout + +namespace DehumidificationHysteresis { +static constexpr AttributeId Id = 0x00000013; +} // namespace DehumidificationHysteresis + +namespace DehumidificationMaxCool { +static constexpr AttributeId Id = 0x00000014; +} // namespace DehumidificationMaxCool + +namespace RelativeHumidityDisplay { +static constexpr AttributeId Id = 0x00000015; +} // namespace RelativeHumidityDisplay + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace DehumidificationControl + +namespace ThermostatUserInterfaceConfiguration { +namespace Attributes { + +namespace TemperatureDisplayMode { +static constexpr AttributeId Id = 0x00000000; +} // namespace TemperatureDisplayMode + +namespace KeypadLockout { +static constexpr AttributeId Id = 0x00000001; +} // namespace KeypadLockout + +namespace ScheduleProgrammingVisibility { +static constexpr AttributeId Id = 0x00000002; +} // namespace ScheduleProgrammingVisibility + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ThermostatUserInterfaceConfiguration + +namespace ColorControl { +namespace Attributes { + +namespace CurrentHue { +static constexpr AttributeId Id = 0x00000000; +} // namespace CurrentHue + +namespace CurrentSaturation { +static constexpr AttributeId Id = 0x00000001; +} // namespace CurrentSaturation + +namespace RemainingTime { +static constexpr AttributeId Id = 0x00000002; +} // namespace RemainingTime + +namespace CurrentX { +static constexpr AttributeId Id = 0x00000003; +} // namespace CurrentX + +namespace CurrentY { +static constexpr AttributeId Id = 0x00000004; +} // namespace CurrentY + +namespace DriftCompensation { +static constexpr AttributeId Id = 0x00000005; +} // namespace DriftCompensation + +namespace CompensationText { +static constexpr AttributeId Id = 0x00000006; +} // namespace CompensationText + +namespace ColorTemperature { +static constexpr AttributeId Id = 0x00000007; +} // namespace ColorTemperature + +namespace ColorMode { +static constexpr AttributeId Id = 0x00000008; +} // namespace ColorMode + +namespace ColorControlOptions { +static constexpr AttributeId Id = 0x0000000F; +} // namespace ColorControlOptions + +namespace NumberOfPrimaries { +static constexpr AttributeId Id = 0x00000010; +} // namespace NumberOfPrimaries + +namespace Primary1X { +static constexpr AttributeId Id = 0x00000011; +} // namespace Primary1X + +namespace Primary1Y { +static constexpr AttributeId Id = 0x00000012; +} // namespace Primary1Y + +namespace Primary1Intensity { +static constexpr AttributeId Id = 0x00000013; +} // namespace Primary1Intensity + +namespace Primary2X { +static constexpr AttributeId Id = 0x00000015; +} // namespace Primary2X + +namespace Primary2Y { +static constexpr AttributeId Id = 0x00000016; +} // namespace Primary2Y + +namespace Primary2Intensity { +static constexpr AttributeId Id = 0x00000017; +} // namespace Primary2Intensity + +namespace Primary3X { +static constexpr AttributeId Id = 0x00000019; +} // namespace Primary3X + +namespace Primary3Y { +static constexpr AttributeId Id = 0x0000001A; +} // namespace Primary3Y + +namespace Primary3Intensity { +static constexpr AttributeId Id = 0x0000001B; +} // namespace Primary3Intensity + +namespace Primary4X { +static constexpr AttributeId Id = 0x00000020; +} // namespace Primary4X + +namespace Primary4Y { +static constexpr AttributeId Id = 0x00000021; +} // namespace Primary4Y + +namespace Primary4Intensity { +static constexpr AttributeId Id = 0x00000022; +} // namespace Primary4Intensity + +namespace Primary5X { +static constexpr AttributeId Id = 0x00000024; +} // namespace Primary5X + +namespace Primary5Y { +static constexpr AttributeId Id = 0x00000025; +} // namespace Primary5Y + +namespace Primary5Intensity { +static constexpr AttributeId Id = 0x00000026; +} // namespace Primary5Intensity + +namespace Primary6X { +static constexpr AttributeId Id = 0x00000028; +} // namespace Primary6X + +namespace Primary6Y { +static constexpr AttributeId Id = 0x00000029; +} // namespace Primary6Y + +namespace Primary6Intensity { +static constexpr AttributeId Id = 0x0000002A; +} // namespace Primary6Intensity + +namespace WhitePointX { +static constexpr AttributeId Id = 0x00000030; +} // namespace WhitePointX + +namespace WhitePointY { +static constexpr AttributeId Id = 0x00000031; +} // namespace WhitePointY + +namespace ColorPointRX { +static constexpr AttributeId Id = 0x00000032; +} // namespace ColorPointRX + +namespace ColorPointRY { +static constexpr AttributeId Id = 0x00000033; +} // namespace ColorPointRY + +namespace ColorPointRIntensity { +static constexpr AttributeId Id = 0x00000034; +} // namespace ColorPointRIntensity + +namespace ColorPointGX { +static constexpr AttributeId Id = 0x00000036; +} // namespace ColorPointGX + +namespace ColorPointGY { +static constexpr AttributeId Id = 0x00000037; +} // namespace ColorPointGY + +namespace ColorPointGIntensity { +static constexpr AttributeId Id = 0x00000038; +} // namespace ColorPointGIntensity + +namespace ColorPointBX { +static constexpr AttributeId Id = 0x0000003A; +} // namespace ColorPointBX + +namespace ColorPointBY { +static constexpr AttributeId Id = 0x0000003B; +} // namespace ColorPointBY + +namespace ColorPointBIntensity { +static constexpr AttributeId Id = 0x0000003C; +} // namespace ColorPointBIntensity + +namespace EnhancedCurrentHue { +static constexpr AttributeId Id = 0x00004000; +} // namespace EnhancedCurrentHue + +namespace EnhancedColorMode { +static constexpr AttributeId Id = 0x00004001; +} // namespace EnhancedColorMode + +namespace ColorLoopActive { +static constexpr AttributeId Id = 0x00004002; +} // namespace ColorLoopActive + +namespace ColorLoopDirection { +static constexpr AttributeId Id = 0x00004003; +} // namespace ColorLoopDirection + +namespace ColorLoopTime { +static constexpr AttributeId Id = 0x00004004; +} // namespace ColorLoopTime + +namespace ColorLoopStartEnhancedHue { +static constexpr AttributeId Id = 0x00004005; +} // namespace ColorLoopStartEnhancedHue + +namespace ColorLoopStoredEnhancedHue { +static constexpr AttributeId Id = 0x00004006; +} // namespace ColorLoopStoredEnhancedHue + +namespace ColorCapabilities { +static constexpr AttributeId Id = 0x0000400A; +} // namespace ColorCapabilities + +namespace ColorTempPhysicalMin { +static constexpr AttributeId Id = 0x0000400B; +} // namespace ColorTempPhysicalMin + +namespace ColorTempPhysicalMax { +static constexpr AttributeId Id = 0x0000400C; +} // namespace ColorTempPhysicalMax + +namespace CoupleColorTempToLevelMinMireds { +static constexpr AttributeId Id = 0x0000400D; +} // namespace CoupleColorTempToLevelMinMireds + +namespace StartUpColorTemperatureMireds { +static constexpr AttributeId Id = 0x00004010; +} // namespace StartUpColorTemperatureMireds + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ColorControl + +namespace BallastConfiguration { +namespace Attributes { + +namespace PhysicalMinLevel { +static constexpr AttributeId Id = 0x00000000; +} // namespace PhysicalMinLevel + +namespace PhysicalMaxLevel { +static constexpr AttributeId Id = 0x00000001; +} // namespace PhysicalMaxLevel + +namespace BallastStatus { +static constexpr AttributeId Id = 0x00000002; +} // namespace BallastStatus + +namespace MinLevel { +static constexpr AttributeId Id = 0x00000010; +} // namespace MinLevel + +namespace MaxLevel { +static constexpr AttributeId Id = 0x00000011; +} // namespace MaxLevel + +namespace PowerOnLevel { +static constexpr AttributeId Id = 0x00000012; +} // namespace PowerOnLevel + +namespace PowerOnFadeTime { +static constexpr AttributeId Id = 0x00000013; +} // namespace PowerOnFadeTime + +namespace IntrinsicBallastFactor { +static constexpr AttributeId Id = 0x00000014; +} // namespace IntrinsicBallastFactor + +namespace BallastFactorAdjustment { +static constexpr AttributeId Id = 0x00000015; +} // namespace BallastFactorAdjustment + +namespace LampQuality { +static constexpr AttributeId Id = 0x00000020; +} // namespace LampQuality + +namespace LampType { +static constexpr AttributeId Id = 0x00000030; +} // namespace LampType + +namespace LampManufacturer { +static constexpr AttributeId Id = 0x00000031; +} // namespace LampManufacturer + +namespace LampRatedHours { +static constexpr AttributeId Id = 0x00000032; +} // namespace LampRatedHours + +namespace LampBurnHours { +static constexpr AttributeId Id = 0x00000033; +} // namespace LampBurnHours + +namespace LampAlarmMode { +static constexpr AttributeId Id = 0x00000034; +} // namespace LampAlarmMode + +namespace LampBurnHoursTripPoint { +static constexpr AttributeId Id = 0x00000035; +} // namespace LampBurnHoursTripPoint + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace BallastConfiguration + +namespace IlluminanceMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace LightSensorType { +static constexpr AttributeId Id = 0x00000004; +} // namespace LightSensorType + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace IlluminanceMeasurement + +namespace IlluminanceLevelSensing { +namespace Attributes { + +namespace LevelStatus { +static constexpr AttributeId Id = 0x00000000; +} // namespace LevelStatus + +namespace LightSensorType { +static constexpr AttributeId Id = 0x00000001; +} // namespace LightSensorType + +namespace IlluminanceLevelTarget { +static constexpr AttributeId Id = 0x00000010; +} // namespace IlluminanceLevelTarget + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace IlluminanceLevelSensing + +namespace TemperatureMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace TemperatureMeasurement + +namespace PressureMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace ScaledValue { +static constexpr AttributeId Id = 0x00000010; +} // namespace ScaledValue + +namespace MinScaledValue { +static constexpr AttributeId Id = 0x00000011; +} // namespace MinScaledValue + +namespace MaxScaledValue { +static constexpr AttributeId Id = 0x00000012; +} // namespace MaxScaledValue + +namespace ScaledTolerance { +static constexpr AttributeId Id = 0x00000013; +} // namespace ScaledTolerance + +namespace Scale { +static constexpr AttributeId Id = 0x00000014; +} // namespace Scale + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace PressureMeasurement + +namespace FlowMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace FlowMeasurement + +namespace RelativeHumidityMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace RelativeHumidityMeasurement + +namespace OccupancySensing { +namespace Attributes { + +namespace Occupancy { +static constexpr AttributeId Id = 0x00000000; +} // namespace Occupancy + +namespace OccupancySensorType { +static constexpr AttributeId Id = 0x00000001; +} // namespace OccupancySensorType + +namespace OccupancySensorTypeBitmap { +static constexpr AttributeId Id = 0x00000002; +} // namespace OccupancySensorTypeBitmap + +namespace PirOccupiedToUnoccupiedDelay { +static constexpr AttributeId Id = 0x00000010; +} // namespace PirOccupiedToUnoccupiedDelay + +namespace PirUnoccupiedToOccupiedDelay { +static constexpr AttributeId Id = 0x00000011; +} // namespace PirUnoccupiedToOccupiedDelay + +namespace PirUnoccupiedToOccupiedThreshold { +static constexpr AttributeId Id = 0x00000012; +} // namespace PirUnoccupiedToOccupiedThreshold + +namespace UltrasonicOccupiedToUnoccupiedDelay { +static constexpr AttributeId Id = 0x00000020; +} // namespace UltrasonicOccupiedToUnoccupiedDelay + +namespace UltrasonicUnoccupiedToOccupiedDelay { +static constexpr AttributeId Id = 0x00000021; +} // namespace UltrasonicUnoccupiedToOccupiedDelay + +namespace UltrasonicUnoccupiedToOccupiedThreshold { +static constexpr AttributeId Id = 0x00000022; +} // namespace UltrasonicUnoccupiedToOccupiedThreshold + +namespace PhysicalContactOccupiedToUnoccupiedDelay { +static constexpr AttributeId Id = 0x00000030; +} // namespace PhysicalContactOccupiedToUnoccupiedDelay + +namespace PhysicalContactUnoccupiedToOccupiedDelay { +static constexpr AttributeId Id = 0x00000031; +} // namespace PhysicalContactUnoccupiedToOccupiedDelay + +namespace PhysicalContactUnoccupiedToOccupiedThreshold { +static constexpr AttributeId Id = 0x00000032; +} // namespace PhysicalContactUnoccupiedToOccupiedThreshold + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace OccupancySensing + +namespace CarbonMonoxideConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace CarbonMonoxideConcentrationMeasurement + +namespace CarbonDioxideConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace CarbonDioxideConcentrationMeasurement + +namespace EthyleneConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace EthyleneConcentrationMeasurement + +namespace EthyleneOxideConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace EthyleneOxideConcentrationMeasurement + +namespace HydrogenConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace HydrogenConcentrationMeasurement + +namespace HydrogenSulphideConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace HydrogenSulphideConcentrationMeasurement + +namespace NitricOxideConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace NitricOxideConcentrationMeasurement + +namespace NitrogenDioxideConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace NitrogenDioxideConcentrationMeasurement + +namespace OxygenConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace OxygenConcentrationMeasurement + +namespace OzoneConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace OzoneConcentrationMeasurement + +namespace SulfurDioxideConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace SulfurDioxideConcentrationMeasurement + +namespace DissolvedOxygenConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace DissolvedOxygenConcentrationMeasurement + +namespace BromateConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace BromateConcentrationMeasurement + +namespace ChloraminesConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ChloraminesConcentrationMeasurement + +namespace ChlorineConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ChlorineConcentrationMeasurement + +namespace FecalColiformAndEColiConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace FecalColiformAndEColiConcentrationMeasurement + +namespace FluorideConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace FluorideConcentrationMeasurement + +namespace HaloaceticAcidsConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace HaloaceticAcidsConcentrationMeasurement + +namespace TotalTrihalomethanesConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace TotalTrihalomethanesConcentrationMeasurement + +namespace TotalColiformBacteriaConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace TotalColiformBacteriaConcentrationMeasurement + +namespace TurbidityConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace TurbidityConcentrationMeasurement + +namespace CopperConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace CopperConcentrationMeasurement + +namespace LeadConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace LeadConcentrationMeasurement + +namespace ManganeseConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ManganeseConcentrationMeasurement + +namespace SulfateConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace SulfateConcentrationMeasurement + +namespace BromodichloromethaneConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace BromodichloromethaneConcentrationMeasurement + +namespace BromoformConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace BromoformConcentrationMeasurement + +namespace ChlorodibromomethaneConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ChlorodibromomethaneConcentrationMeasurement + +namespace ChloroformConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ChloroformConcentrationMeasurement + +namespace SodiumConcentrationMeasurement { +namespace Attributes { + +namespace MeasuredValue { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasuredValue + +namespace MinMeasuredValue { +static constexpr AttributeId Id = 0x00000001; +} // namespace MinMeasuredValue + +namespace MaxMeasuredValue { +static constexpr AttributeId Id = 0x00000002; +} // namespace MaxMeasuredValue + +namespace Tolerance { +static constexpr AttributeId Id = 0x00000003; +} // namespace Tolerance + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace SodiumConcentrationMeasurement + +namespace IasZone { +namespace Attributes { + +namespace ZoneState { +static constexpr AttributeId Id = 0x00000000; +} // namespace ZoneState + +namespace ZoneType { +static constexpr AttributeId Id = 0x00000001; +} // namespace ZoneType + +namespace ZoneStatus { +static constexpr AttributeId Id = 0x00000002; +} // namespace ZoneStatus + +namespace IasCieAddress { +static constexpr AttributeId Id = 0x00000010; +} // namespace IasCieAddress + +namespace ZoneId { +static constexpr AttributeId Id = 0x00000011; +} // namespace ZoneId + +namespace NumberOfZoneSensitivityLevelsSupported { +static constexpr AttributeId Id = 0x00000012; +} // namespace NumberOfZoneSensitivityLevelsSupported + +namespace CurrentZoneSensitivityLevel { +static constexpr AttributeId Id = 0x00000013; +} // namespace CurrentZoneSensitivityLevel + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace IasZone + +namespace IasWd { +namespace Attributes { + +namespace MaxDuration { +static constexpr AttributeId Id = 0x00000000; +} // namespace MaxDuration + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace IasWd + +namespace WakeOnLan { +namespace Attributes { + +namespace WakeOnLanMacAddress { +static constexpr AttributeId Id = 0x00000000; +} // namespace WakeOnLanMacAddress + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; -namespace ShadeConfiguration { -namespace Attributes { -namespace Ids { -static constexpr AttributeId PhysicalClosedLimit = 0x00000000; -static constexpr AttributeId MotorStepSize = 0x00000001; -static constexpr AttributeId Status = 0x00000002; -static constexpr AttributeId ClosedLimit = 0x00000010; -static constexpr AttributeId Mode = 0x00000011; -} // namespace Ids } // namespace Attributes -} // namespace ShadeConfiguration +} // namespace WakeOnLan -namespace DoorLock { +namespace TvChannel { namespace Attributes { -namespace Ids { -static constexpr AttributeId LockState = 0x00000000; -static constexpr AttributeId LockType = 0x00000001; -static constexpr AttributeId ActuatorEnabled = 0x00000002; -static constexpr AttributeId DoorState = 0x00000003; -static constexpr AttributeId DoorOpenEvents = 0x00000004; -static constexpr AttributeId DoorClosedEvents = 0x00000005; -static constexpr AttributeId OpenPeriod = 0x00000006; -static constexpr AttributeId NumLockRecordsSupported = 0x00000010; -static constexpr AttributeId NumTotalUsersSupported = 0x00000011; -static constexpr AttributeId NumPinUsersSupported = 0x00000012; -static constexpr AttributeId NumRfidUsersSupported = 0x00000013; -static constexpr AttributeId NumWeekdaySchedulesSupportedPerUser = 0x00000014; -static constexpr AttributeId NumYeardaySchedulesSupportedPerUser = 0x00000015; -static constexpr AttributeId NumHolidaySchedulesSupportedPerUser = 0x00000016; -static constexpr AttributeId MaxPinLength = 0x00000017; -static constexpr AttributeId MinPinLength = 0x00000018; -static constexpr AttributeId MaxRfidCodeLength = 0x00000019; -static constexpr AttributeId MinRfidCodeLength = 0x0000001A; -static constexpr AttributeId EnableLogging = 0x00000020; -static constexpr AttributeId Language = 0x00000021; -static constexpr AttributeId LedSettings = 0x00000022; -static constexpr AttributeId AutoRelockTime = 0x00000023; -static constexpr AttributeId SoundVolume = 0x00000024; -static constexpr AttributeId OperatingMode = 0x00000025; -static constexpr AttributeId SupportedOperatingModes = 0x00000026; -static constexpr AttributeId DefaultConfigurationRegister = 0x00000027; -static constexpr AttributeId EnableLocalProgramming = 0x00000028; -static constexpr AttributeId EnableOneTouchLocking = 0x00000029; -static constexpr AttributeId EnableInsideStatusLed = 0x0000002A; -static constexpr AttributeId EnablePrivacyModeButton = 0x0000002B; -static constexpr AttributeId WrongCodeEntryLimit = 0x00000030; -static constexpr AttributeId UserCodeTemporaryDisableTime = 0x00000031; -static constexpr AttributeId SendPinOverTheAir = 0x00000032; -static constexpr AttributeId RequirePinForRfOperation = 0x00000033; -static constexpr AttributeId ZigbeeSecurityLevel = 0x00000034; -static constexpr AttributeId AlarmMask = 0x00000040; -static constexpr AttributeId KeypadOperationEventMask = 0x00000041; -static constexpr AttributeId RfOperationEventMask = 0x00000042; -static constexpr AttributeId ManualOperationEventMask = 0x00000043; -static constexpr AttributeId RfidOperationEventMask = 0x00000044; -static constexpr AttributeId KeypadProgrammingEventMask = 0x00000045; -static constexpr AttributeId RfProgrammingEventMask = 0x00000046; -static constexpr AttributeId RfidProgrammingEventMask = 0x00000047; -} // namespace Ids + +namespace TvChannelList { +static constexpr AttributeId Id = 0x00000000; +} // namespace TvChannelList + +namespace TvChannelLineup { +static constexpr AttributeId Id = 0x00000001; +} // namespace TvChannelLineup + +namespace CurrentTvChannel { +static constexpr AttributeId Id = 0x00000002; +} // namespace CurrentTvChannel + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes -} // namespace DoorLock +} // namespace TvChannel -namespace WindowCovering { +namespace TargetNavigator { namespace Attributes { -namespace Ids { -static constexpr AttributeId Type = 0x00000000; -static constexpr AttributeId PhysicalClosedLimitLift = 0x00000001; -static constexpr AttributeId PhysicalClosedLimitTilt = 0x00000002; -static constexpr AttributeId CurrentPositionLift = 0x00000003; -static constexpr AttributeId CurrentPositionTilt = 0x00000004; -static constexpr AttributeId NumberOfActuationsLift = 0x00000005; -static constexpr AttributeId NumberOfActuationsTilt = 0x00000006; -static constexpr AttributeId ConfigStatus = 0x00000007; -static constexpr AttributeId CurrentPositionLiftPercentage = 0x00000008; -static constexpr AttributeId CurrentPositionTiltPercentage = 0x00000009; -static constexpr AttributeId OperationalStatus = 0x0000000A; -static constexpr AttributeId TargetPositionLiftPercent100ths = 0x0000000B; -static constexpr AttributeId TargetPositionTiltPercent100ths = 0x0000000C; -static constexpr AttributeId EndProductType = 0x0000000D; -static constexpr AttributeId CurrentPositionLiftPercent100ths = 0x0000000E; -static constexpr AttributeId CurrentPositionTiltPercent100ths = 0x0000000F; -static constexpr AttributeId InstalledOpenLimitLift = 0x00000010; -static constexpr AttributeId InstalledClosedLimitLift = 0x00000011; -static constexpr AttributeId InstalledOpenLimitTilt = 0x00000012; -static constexpr AttributeId InstalledClosedLimitTilt = 0x00000013; -static constexpr AttributeId VelocityLift = 0x00000014; -static constexpr AttributeId AccelerationTimeLift = 0x00000015; -static constexpr AttributeId DecelerationTimeLift = 0x00000016; -static constexpr AttributeId Mode = 0x00000017; -static constexpr AttributeId IntermediateSetpointsLift = 0x00000018; -static constexpr AttributeId IntermediateSetpointsTilt = 0x00000019; -static constexpr AttributeId SafetyStatus = 0x0000001A; -} // namespace Ids + +namespace TargetNavigatorList { +static constexpr AttributeId Id = 0x00000000; +} // namespace TargetNavigatorList + +namespace CurrentNavigatorTarget { +static constexpr AttributeId Id = 0x00000001; +} // namespace CurrentNavigatorTarget + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes -} // namespace WindowCovering +} // namespace TargetNavigator -namespace BarrierControl { +namespace MediaPlayback { +namespace Attributes { + +namespace PlaybackState { +static constexpr AttributeId Id = 0x00000000; +} // namespace PlaybackState + +namespace StartTime { +static constexpr AttributeId Id = 0x00000001; +} // namespace StartTime + +namespace Duration { +static constexpr AttributeId Id = 0x00000002; +} // namespace Duration + +namespace PositionUpdatedAt { +static constexpr AttributeId Id = 0x00000003; +} // namespace PositionUpdatedAt + +namespace Position { +static constexpr AttributeId Id = 0x00000004; +} // namespace Position + +namespace PlaybackSpeed { +static constexpr AttributeId Id = 0x00000005; +} // namespace PlaybackSpeed + +namespace SeekRangeEnd { +static constexpr AttributeId Id = 0x00000006; +} // namespace SeekRangeEnd + +namespace SeekRangeStart { +static constexpr AttributeId Id = 0x00000007; +} // namespace SeekRangeStart + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace MediaPlayback + +namespace MediaInput { +namespace Attributes { + +namespace MediaInputList { +static constexpr AttributeId Id = 0x00000000; +} // namespace MediaInputList + +namespace CurrentMediaInput { +static constexpr AttributeId Id = 0x00000001; +} // namespace CurrentMediaInput + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace MediaInput + +namespace ContentLauncher { namespace Attributes { -namespace Ids { -static constexpr AttributeId BarrierMovingState = 0x00000001; -static constexpr AttributeId BarrierSafetyStatus = 0x00000002; -static constexpr AttributeId BarrierCapabilities = 0x00000003; -static constexpr AttributeId BarrierOpenEvents = 0x00000004; -static constexpr AttributeId BarrierCloseEvents = 0x00000005; -static constexpr AttributeId BarrierCommandOpenEvents = 0x00000006; -static constexpr AttributeId BarrierCommandCloseEvents = 0x00000007; -static constexpr AttributeId BarrierOpenPeriod = 0x00000008; -static constexpr AttributeId BarrierClosePeriod = 0x00000009; -static constexpr AttributeId BarrierPosition = 0x0000000A; -} // namespace Ids + +namespace AcceptsHeaderList { +static constexpr AttributeId Id = 0x00000000; +} // namespace AcceptsHeaderList + +namespace SupportedStreamingTypes { +static constexpr AttributeId Id = 0x00000001; +} // namespace SupportedStreamingTypes + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes -} // namespace BarrierControl +} // namespace ContentLauncher + +namespace AudioOutput { +namespace Attributes { + +namespace AudioOutputList { +static constexpr AttributeId Id = 0x00000000; +} // namespace AudioOutputList + +namespace CurrentAudioOutput { +static constexpr AttributeId Id = 0x00000001; +} // namespace CurrentAudioOutput + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace AudioOutput + +namespace ApplicationLauncher { +namespace Attributes { + +namespace ApplicationLauncherList { +static constexpr AttributeId Id = 0x00000000; +} // namespace ApplicationLauncherList + +namespace CatalogVendorId { +static constexpr AttributeId Id = 0x00000001; +} // namespace CatalogVendorId + +namespace ApplicationId { +static constexpr AttributeId Id = 0x00000002; +} // namespace ApplicationId + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ApplicationLauncher + +namespace ApplicationBasic { +namespace Attributes { + +namespace VendorName { +static constexpr AttributeId Id = 0x00000000; +} // namespace VendorName + +namespace VendorId { +static constexpr AttributeId Id = 0x00000001; +} // namespace VendorId + +namespace ApplicationName { +static constexpr AttributeId Id = 0x00000002; +} // namespace ApplicationName + +namespace ProductId { +static constexpr AttributeId Id = 0x00000003; +} // namespace ProductId + +namespace ApplicationId { +static constexpr AttributeId Id = 0x00000005; +} // namespace ApplicationId + +namespace CatalogVendorId { +static constexpr AttributeId Id = 0x00000006; +} // namespace CatalogVendorId + +namespace ApplicationStatus { +static constexpr AttributeId Id = 0x00000007; +} // namespace ApplicationStatus + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ApplicationBasic + +namespace TestCluster { +namespace Attributes { + +namespace Boolean { +static constexpr AttributeId Id = 0x00000000; +} // namespace Boolean + +namespace Bitmap8 { +static constexpr AttributeId Id = 0x00000001; +} // namespace Bitmap8 + +namespace Bitmap16 { +static constexpr AttributeId Id = 0x00000002; +} // namespace Bitmap16 + +namespace Bitmap32 { +static constexpr AttributeId Id = 0x00000003; +} // namespace Bitmap32 + +namespace Bitmap64 { +static constexpr AttributeId Id = 0x00000004; +} // namespace Bitmap64 + +namespace Int8u { +static constexpr AttributeId Id = 0x00000005; +} // namespace Int8u + +namespace Int16u { +static constexpr AttributeId Id = 0x00000006; +} // namespace Int16u + +namespace Int32u { +static constexpr AttributeId Id = 0x00000008; +} // namespace Int32u + +namespace Int64u { +static constexpr AttributeId Id = 0x0000000C; +} // namespace Int64u + +namespace Int8s { +static constexpr AttributeId Id = 0x0000000D; +} // namespace Int8s + +namespace Int16s { +static constexpr AttributeId Id = 0x0000000E; +} // namespace Int16s + +namespace Int32s { +static constexpr AttributeId Id = 0x00000010; +} // namespace Int32s + +namespace Int64s { +static constexpr AttributeId Id = 0x00000014; +} // namespace Int64s + +namespace Enum8 { +static constexpr AttributeId Id = 0x00000015; +} // namespace Enum8 + +namespace Enum16 { +static constexpr AttributeId Id = 0x00000016; +} // namespace Enum16 + +namespace OctetString { +static constexpr AttributeId Id = 0x00000019; +} // namespace OctetString + +namespace ListInt8u { +static constexpr AttributeId Id = 0x0000001A; +} // namespace ListInt8u + +namespace ListOctetString { +static constexpr AttributeId Id = 0x0000001B; +} // namespace ListOctetString + +namespace ListStructOctetString { +static constexpr AttributeId Id = 0x0000001C; +} // namespace ListStructOctetString + +namespace LongOctetString { +static constexpr AttributeId Id = 0x0000001D; +} // namespace LongOctetString + +namespace CharString { +static constexpr AttributeId Id = 0x0000001E; +} // namespace CharString + +namespace LongCharString { +static constexpr AttributeId Id = 0x0000001F; +} // namespace LongCharString + +namespace EpochUs { +static constexpr AttributeId Id = 0x00000020; +} // namespace EpochUs + +namespace EpochS { +static constexpr AttributeId Id = 0x00000021; +} // namespace EpochS + +namespace Unsupported { +static constexpr AttributeId Id = 0x000000FF; +} // namespace Unsupported + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace TestCluster + +namespace ApplianceIdentification { +namespace Attributes { + +namespace BasicIdentification { +static constexpr AttributeId Id = 0x00000000; +} // namespace BasicIdentification + +namespace CompanyName { +static constexpr AttributeId Id = 0x00000010; +} // namespace CompanyName + +namespace CompanyId { +static constexpr AttributeId Id = 0x00000011; +} // namespace CompanyId + +namespace BrandName { +static constexpr AttributeId Id = 0x00000012; +} // namespace BrandName + +namespace BrandId { +static constexpr AttributeId Id = 0x00000013; +} // namespace BrandId + +namespace Model { +static constexpr AttributeId Id = 0x00000014; +} // namespace Model + +namespace PartNumber { +static constexpr AttributeId Id = 0x00000015; +} // namespace PartNumber + +namespace ProductRevision { +static constexpr AttributeId Id = 0x00000016; +} // namespace ProductRevision + +namespace SoftwareRevision { +static constexpr AttributeId Id = 0x00000017; +} // namespace SoftwareRevision + +namespace ProductTypeName { +static constexpr AttributeId Id = 0x00000018; +} // namespace ProductTypeName + +namespace ProductTypeId { +static constexpr AttributeId Id = 0x00000019; +} // namespace ProductTypeId + +namespace CecedSpecificationVersion { +static constexpr AttributeId Id = 0x0000001A; +} // namespace CecedSpecificationVersion + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ApplianceIdentification + +namespace MeterIdentification { +namespace Attributes { + +namespace CompanyName { +static constexpr AttributeId Id = 0x00000000; +} // namespace CompanyName + +namespace MeterTypeId { +static constexpr AttributeId Id = 0x00000001; +} // namespace MeterTypeId + +namespace DataQualityId { +static constexpr AttributeId Id = 0x00000004; +} // namespace DataQualityId + +namespace CustomerName { +static constexpr AttributeId Id = 0x00000005; +} // namespace CustomerName + +namespace Model { +static constexpr AttributeId Id = 0x00000006; +} // namespace Model + +namespace PartNumber { +static constexpr AttributeId Id = 0x00000007; +} // namespace PartNumber + +namespace ProductRevision { +static constexpr AttributeId Id = 0x00000008; +} // namespace ProductRevision + +namespace SoftwareRevision { +static constexpr AttributeId Id = 0x0000000A; +} // namespace SoftwareRevision + +namespace UtilityName { +static constexpr AttributeId Id = 0x0000000B; +} // namespace UtilityName + +namespace Pod { +static constexpr AttributeId Id = 0x0000000C; +} // namespace Pod + +namespace AvailablePower { +static constexpr AttributeId Id = 0x0000000D; +} // namespace AvailablePower + +namespace PowerThreshold { +static constexpr AttributeId Id = 0x0000000E; +} // namespace PowerThreshold + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace MeterIdentification + +namespace ApplianceStatistics { +namespace Attributes { + +namespace LogMaxSize { +static constexpr AttributeId Id = 0x00000000; +} // namespace LogMaxSize + +namespace LogQueueMaxSize { +static constexpr AttributeId Id = 0x00000001; +} // namespace LogQueueMaxSize + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + +} // namespace Attributes +} // namespace ApplianceStatistics + +namespace ElectricalMeasurement { +namespace Attributes { + +namespace MeasurementType { +static constexpr AttributeId Id = 0x00000000; +} // namespace MeasurementType + +namespace DcVoltage { +static constexpr AttributeId Id = 0x00000100; +} // namespace DcVoltage + +namespace DcVoltageMin { +static constexpr AttributeId Id = 0x00000101; +} // namespace DcVoltageMin + +namespace DcVoltageMax { +static constexpr AttributeId Id = 0x00000102; +} // namespace DcVoltageMax + +namespace DcCurrent { +static constexpr AttributeId Id = 0x00000103; +} // namespace DcCurrent + +namespace DcCurrentMin { +static constexpr AttributeId Id = 0x00000104; +} // namespace DcCurrentMin + +namespace DcCurrentMax { +static constexpr AttributeId Id = 0x00000105; +} // namespace DcCurrentMax + +namespace DcPower { +static constexpr AttributeId Id = 0x00000106; +} // namespace DcPower + +namespace DcPowerMin { +static constexpr AttributeId Id = 0x00000107; +} // namespace DcPowerMin + +namespace DcPowerMax { +static constexpr AttributeId Id = 0x00000108; +} // namespace DcPowerMax + +namespace DcVoltageMultiplier { +static constexpr AttributeId Id = 0x00000200; +} // namespace DcVoltageMultiplier + +namespace DcVoltageDivisor { +static constexpr AttributeId Id = 0x00000201; +} // namespace DcVoltageDivisor + +namespace DcCurrentMultiplier { +static constexpr AttributeId Id = 0x00000202; +} // namespace DcCurrentMultiplier + +namespace DcCurrentDivisor { +static constexpr AttributeId Id = 0x00000203; +} // namespace DcCurrentDivisor + +namespace DcPowerMultiplier { +static constexpr AttributeId Id = 0x00000204; +} // namespace DcPowerMultiplier + +namespace DcPowerDivisor { +static constexpr AttributeId Id = 0x00000205; +} // namespace DcPowerDivisor + +namespace AcFrequency { +static constexpr AttributeId Id = 0x00000300; +} // namespace AcFrequency + +namespace AcFrequencyMin { +static constexpr AttributeId Id = 0x00000301; +} // namespace AcFrequencyMin + +namespace AcFrequencyMax { +static constexpr AttributeId Id = 0x00000302; +} // namespace AcFrequencyMax + +namespace NeutralCurrent { +static constexpr AttributeId Id = 0x00000303; +} // namespace NeutralCurrent + +namespace TotalActivePower { +static constexpr AttributeId Id = 0x00000304; +} // namespace TotalActivePower + +namespace TotalReactivePower { +static constexpr AttributeId Id = 0x00000305; +} // namespace TotalReactivePower + +namespace TotalApparentPower { +static constexpr AttributeId Id = 0x00000306; +} // namespace TotalApparentPower + +namespace Measured1stHarmonicCurrent { +static constexpr AttributeId Id = 0x00000307; +} // namespace Measured1stHarmonicCurrent + +namespace Measured3rdHarmonicCurrent { +static constexpr AttributeId Id = 0x00000308; +} // namespace Measured3rdHarmonicCurrent + +namespace Measured5thHarmonicCurrent { +static constexpr AttributeId Id = 0x00000309; +} // namespace Measured5thHarmonicCurrent + +namespace Measured7thHarmonicCurrent { +static constexpr AttributeId Id = 0x0000030A; +} // namespace Measured7thHarmonicCurrent + +namespace Measured9thHarmonicCurrent { +static constexpr AttributeId Id = 0x0000030B; +} // namespace Measured9thHarmonicCurrent + +namespace Measured11thHarmonicCurrent { +static constexpr AttributeId Id = 0x0000030C; +} // namespace Measured11thHarmonicCurrent + +namespace MeasuredPhase1stHarmonicCurrent { +static constexpr AttributeId Id = 0x0000030D; +} // namespace MeasuredPhase1stHarmonicCurrent + +namespace MeasuredPhase3rdHarmonicCurrent { +static constexpr AttributeId Id = 0x0000030E; +} // namespace MeasuredPhase3rdHarmonicCurrent + +namespace MeasuredPhase5thHarmonicCurrent { +static constexpr AttributeId Id = 0x0000030F; +} // namespace MeasuredPhase5thHarmonicCurrent + +namespace MeasuredPhase7thHarmonicCurrent { +static constexpr AttributeId Id = 0x00000310; +} // namespace MeasuredPhase7thHarmonicCurrent + +namespace MeasuredPhase9thHarmonicCurrent { +static constexpr AttributeId Id = 0x00000311; +} // namespace MeasuredPhase9thHarmonicCurrent + +namespace MeasuredPhase11thHarmonicCurrent { +static constexpr AttributeId Id = 0x00000312; +} // namespace MeasuredPhase11thHarmonicCurrent + +namespace AcFrequencyMultiplier { +static constexpr AttributeId Id = 0x00000400; +} // namespace AcFrequencyMultiplier + +namespace AcFrequencyDivisor { +static constexpr AttributeId Id = 0x00000401; +} // namespace AcFrequencyDivisor + +namespace PowerMultiplier { +static constexpr AttributeId Id = 0x00000402; +} // namespace PowerMultiplier + +namespace PowerDivisor { +static constexpr AttributeId Id = 0x00000403; +} // namespace PowerDivisor + +namespace HarmonicCurrentMultiplier { +static constexpr AttributeId Id = 0x00000404; +} // namespace HarmonicCurrentMultiplier + +namespace PhaseHarmonicCurrentMultiplier { +static constexpr AttributeId Id = 0x00000405; +} // namespace PhaseHarmonicCurrentMultiplier + +namespace InstantaneousVoltage { +static constexpr AttributeId Id = 0x00000500; +} // namespace InstantaneousVoltage + +namespace InstantaneousLineCurrent { +static constexpr AttributeId Id = 0x00000501; +} // namespace InstantaneousLineCurrent + +namespace InstantaneousActiveCurrent { +static constexpr AttributeId Id = 0x00000502; +} // namespace InstantaneousActiveCurrent + +namespace InstantaneousReactiveCurrent { +static constexpr AttributeId Id = 0x00000503; +} // namespace InstantaneousReactiveCurrent + +namespace InstantaneousPower { +static constexpr AttributeId Id = 0x00000504; +} // namespace InstantaneousPower + +namespace RmsVoltage { +static constexpr AttributeId Id = 0x00000505; +} // namespace RmsVoltage + +namespace RmsVoltageMin { +static constexpr AttributeId Id = 0x00000506; +} // namespace RmsVoltageMin + +namespace RmsVoltageMax { +static constexpr AttributeId Id = 0x00000507; +} // namespace RmsVoltageMax + +namespace RmsCurrent { +static constexpr AttributeId Id = 0x00000508; +} // namespace RmsCurrent + +namespace RmsCurrentMin { +static constexpr AttributeId Id = 0x00000509; +} // namespace RmsCurrentMin + +namespace RmsCurrentMax { +static constexpr AttributeId Id = 0x0000050A; +} // namespace RmsCurrentMax + +namespace ActivePower { +static constexpr AttributeId Id = 0x0000050B; +} // namespace ActivePower + +namespace ActivePowerMin { +static constexpr AttributeId Id = 0x0000050C; +} // namespace ActivePowerMin + +namespace ActivePowerMax { +static constexpr AttributeId Id = 0x0000050D; +} // namespace ActivePowerMax + +namespace ReactivePower { +static constexpr AttributeId Id = 0x0000050E; +} // namespace ReactivePower + +namespace ApparentPower { +static constexpr AttributeId Id = 0x0000050F; +} // namespace ApparentPower + +namespace PowerFactor { +static constexpr AttributeId Id = 0x00000510; +} // namespace PowerFactor + +namespace AverageRmsVoltageMeasurementPeriod { +static constexpr AttributeId Id = 0x00000511; +} // namespace AverageRmsVoltageMeasurementPeriod + +namespace AverageRmsUnderVoltageCounter { +static constexpr AttributeId Id = 0x00000513; +} // namespace AverageRmsUnderVoltageCounter + +namespace RmsExtremeOverVoltagePeriod { +static constexpr AttributeId Id = 0x00000514; +} // namespace RmsExtremeOverVoltagePeriod + +namespace RmsExtremeUnderVoltagePeriod { +static constexpr AttributeId Id = 0x00000515; +} // namespace RmsExtremeUnderVoltagePeriod + +namespace RmsVoltageSagPeriod { +static constexpr AttributeId Id = 0x00000516; +} // namespace RmsVoltageSagPeriod + +namespace RmsVoltageSwellPeriod { +static constexpr AttributeId Id = 0x00000517; +} // namespace RmsVoltageSwellPeriod + +namespace AcVoltageMultiplier { +static constexpr AttributeId Id = 0x00000600; +} // namespace AcVoltageMultiplier + +namespace AcVoltageDivisor { +static constexpr AttributeId Id = 0x00000601; +} // namespace AcVoltageDivisor + +namespace AcCurrentMultiplier { +static constexpr AttributeId Id = 0x00000602; +} // namespace AcCurrentMultiplier + +namespace AcCurrentDivisor { +static constexpr AttributeId Id = 0x00000603; +} // namespace AcCurrentDivisor + +namespace AcPowerMultiplier { +static constexpr AttributeId Id = 0x00000604; +} // namespace AcPowerMultiplier + +namespace AcPowerDivisor { +static constexpr AttributeId Id = 0x00000605; +} // namespace AcPowerDivisor -namespace PumpConfigurationAndControl { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MaxPressure = 0x00000000; -static constexpr AttributeId MaxSpeed = 0x00000001; -static constexpr AttributeId MaxFlow = 0x00000002; -static constexpr AttributeId MinConstPressure = 0x00000003; -static constexpr AttributeId MaxConstPressure = 0x00000004; -static constexpr AttributeId MinCompPressure = 0x00000005; -static constexpr AttributeId MaxCompPressure = 0x00000006; -static constexpr AttributeId MinConstSpeed = 0x00000007; -static constexpr AttributeId MaxConstSpeed = 0x00000008; -static constexpr AttributeId MinConstFlow = 0x00000009; -static constexpr AttributeId MaxConstFlow = 0x0000000A; -static constexpr AttributeId MinConstTemp = 0x0000000B; -static constexpr AttributeId MaxConstTemp = 0x0000000C; -static constexpr AttributeId PumpStatus = 0x00000010; -static constexpr AttributeId EffectiveOperationMode = 0x00000011; -static constexpr AttributeId EffectiveControlMode = 0x00000012; -static constexpr AttributeId Capacity = 0x00000013; -static constexpr AttributeId Speed = 0x00000014; -static constexpr AttributeId LifetimeRunningHours = 0x00000015; -static constexpr AttributeId Power = 0x00000016; -static constexpr AttributeId LifetimeEnergyConsumed = 0x00000017; -static constexpr AttributeId OperationMode = 0x00000020; -static constexpr AttributeId ControlMode = 0x00000021; -static constexpr AttributeId AlarmMask = 0x00000022; -} // namespace Ids -} // namespace Attributes -} // namespace PumpConfigurationAndControl +namespace OverloadAlarmsMask { +static constexpr AttributeId Id = 0x00000700; +} // namespace OverloadAlarmsMask -namespace Thermostat { -namespace Attributes { -namespace Ids { -static constexpr AttributeId LocalTemperature = 0x00000000; -static constexpr AttributeId OutdoorTemperature = 0x00000001; -static constexpr AttributeId Occupancy = 0x00000002; -static constexpr AttributeId AbsMinHeatSetpointLimit = 0x00000003; -static constexpr AttributeId AbsMaxHeatSetpointLimit = 0x00000004; -static constexpr AttributeId AbsMinCoolSetpointLimit = 0x00000005; -static constexpr AttributeId AbsMaxCoolSetpointLimit = 0x00000006; -static constexpr AttributeId PiCoolingDemand = 0x00000007; -static constexpr AttributeId PiHeatingDemand = 0x00000008; -static constexpr AttributeId HvacSystemTypeConfiguration = 0x00000009; -static constexpr AttributeId LocalTemperatureCalibration = 0x00000010; -static constexpr AttributeId OccupiedCoolingSetpoint = 0x00000011; -static constexpr AttributeId OccupiedHeatingSetpoint = 0x00000012; -static constexpr AttributeId UnoccupiedCoolingSetpoint = 0x00000013; -static constexpr AttributeId UnoccupiedHeatingSetpoint = 0x00000014; -static constexpr AttributeId MinHeatSetpointLimit = 0x00000015; -static constexpr AttributeId MaxHeatSetpointLimit = 0x00000016; -static constexpr AttributeId MinCoolSetpointLimit = 0x00000017; -static constexpr AttributeId MaxCoolSetpointLimit = 0x00000018; -static constexpr AttributeId MinSetpointDeadBand = 0x00000019; -static constexpr AttributeId RemoteSensing = 0x0000001A; -static constexpr AttributeId ControlSequenceOfOperation = 0x0000001B; -static constexpr AttributeId SystemMode = 0x0000001C; -static constexpr AttributeId AlarmMask = 0x0000001D; -static constexpr AttributeId ThermostatRunningMode = 0x0000001E; -static constexpr AttributeId StartOfWeek = 0x00000020; -static constexpr AttributeId NumberOfWeeklyTransitions = 0x00000021; -static constexpr AttributeId NumberOfDailyTransitions = 0x00000022; -static constexpr AttributeId TemperatureSetpointHold = 0x00000023; -static constexpr AttributeId TemperatureSetpointHoldDuration = 0x00000024; -static constexpr AttributeId ThermostatProgrammingOperationMode = 0x00000025; -static constexpr AttributeId HvacRelayState = 0x00000029; -static constexpr AttributeId SetpointChangeSource = 0x00000030; -static constexpr AttributeId SetpointChangeAmount = 0x00000031; -static constexpr AttributeId SetpointChangeSourceTimestamp = 0x00000032; -static constexpr AttributeId AcType = 0x00000040; -static constexpr AttributeId AcCapacity = 0x00000041; -static constexpr AttributeId AcRefrigerantType = 0x00000042; -static constexpr AttributeId AcCompressor = 0x00000043; -static constexpr AttributeId AcErrorCode = 0x00000044; -static constexpr AttributeId AcLouverPosition = 0x00000045; -static constexpr AttributeId AcCoilTemperature = 0x00000046; -static constexpr AttributeId AcCapacityFormat = 0x00000047; -} // namespace Ids -} // namespace Attributes -} // namespace Thermostat +namespace VoltageOverload { +static constexpr AttributeId Id = 0x00000701; +} // namespace VoltageOverload -namespace FanControl { -namespace Attributes { -namespace Ids { -static constexpr AttributeId FanMode = 0x00000000; -static constexpr AttributeId FanModeSequence = 0x00000001; -} // namespace Ids -} // namespace Attributes -} // namespace FanControl +namespace CurrentOverload { +static constexpr AttributeId Id = 0x00000702; +} // namespace CurrentOverload -namespace DehumidificationControl { -namespace Attributes { -namespace Ids { -static constexpr AttributeId RelativeHumidity = 0x00000000; -static constexpr AttributeId DehumidificationCooling = 0x00000001; -static constexpr AttributeId RhDehumidificationSetpoint = 0x00000010; -static constexpr AttributeId RelativeHumidityMode = 0x00000011; -static constexpr AttributeId DehumidificationLockout = 0x00000012; -static constexpr AttributeId DehumidificationHysteresis = 0x00000013; -static constexpr AttributeId DehumidificationMaxCool = 0x00000014; -static constexpr AttributeId RelativeHumidityDisplay = 0x00000015; -} // namespace Ids -} // namespace Attributes -} // namespace DehumidificationControl +namespace AcOverloadAlarmsMask { +static constexpr AttributeId Id = 0x00000800; +} // namespace AcOverloadAlarmsMask -namespace ThermostatUserInterfaceConfiguration { -namespace Attributes { -namespace Ids { -static constexpr AttributeId TemperatureDisplayMode = 0x00000000; -static constexpr AttributeId KeypadLockout = 0x00000001; -static constexpr AttributeId ScheduleProgrammingVisibility = 0x00000002; -} // namespace Ids -} // namespace Attributes -} // namespace ThermostatUserInterfaceConfiguration +namespace AcVoltageOverload { +static constexpr AttributeId Id = 0x00000801; +} // namespace AcVoltageOverload -namespace ColorControl { -namespace Attributes { -namespace Ids { -static constexpr AttributeId CurrentHue = 0x00000000; -static constexpr AttributeId CurrentSaturation = 0x00000001; -static constexpr AttributeId RemainingTime = 0x00000002; -static constexpr AttributeId CurrentX = 0x00000003; -static constexpr AttributeId CurrentY = 0x00000004; -static constexpr AttributeId DriftCompensation = 0x00000005; -static constexpr AttributeId CompensationText = 0x00000006; -static constexpr AttributeId ColorTemperature = 0x00000007; -static constexpr AttributeId ColorMode = 0x00000008; -static constexpr AttributeId ColorControlOptions = 0x0000000F; -static constexpr AttributeId NumberOfPrimaries = 0x00000010; -static constexpr AttributeId Primary1X = 0x00000011; -static constexpr AttributeId Primary1Y = 0x00000012; -static constexpr AttributeId Primary1Intensity = 0x00000013; -static constexpr AttributeId Primary2X = 0x00000015; -static constexpr AttributeId Primary2Y = 0x00000016; -static constexpr AttributeId Primary2Intensity = 0x00000017; -static constexpr AttributeId Primary3X = 0x00000019; -static constexpr AttributeId Primary3Y = 0x0000001A; -static constexpr AttributeId Primary3Intensity = 0x0000001B; -static constexpr AttributeId Primary4X = 0x00000020; -static constexpr AttributeId Primary4Y = 0x00000021; -static constexpr AttributeId Primary4Intensity = 0x00000022; -static constexpr AttributeId Primary5X = 0x00000024; -static constexpr AttributeId Primary5Y = 0x00000025; -static constexpr AttributeId Primary5Intensity = 0x00000026; -static constexpr AttributeId Primary6X = 0x00000028; -static constexpr AttributeId Primary6Y = 0x00000029; -static constexpr AttributeId Primary6Intensity = 0x0000002A; -static constexpr AttributeId WhitePointX = 0x00000030; -static constexpr AttributeId WhitePointY = 0x00000031; -static constexpr AttributeId ColorPointRX = 0x00000032; -static constexpr AttributeId ColorPointRY = 0x00000033; -static constexpr AttributeId ColorPointRIntensity = 0x00000034; -static constexpr AttributeId ColorPointGX = 0x00000036; -static constexpr AttributeId ColorPointGY = 0x00000037; -static constexpr AttributeId ColorPointGIntensity = 0x00000038; -static constexpr AttributeId ColorPointBX = 0x0000003A; -static constexpr AttributeId ColorPointBY = 0x0000003B; -static constexpr AttributeId ColorPointBIntensity = 0x0000003C; -static constexpr AttributeId EnhancedCurrentHue = 0x00004000; -static constexpr AttributeId EnhancedColorMode = 0x00004001; -static constexpr AttributeId ColorLoopActive = 0x00004002; -static constexpr AttributeId ColorLoopDirection = 0x00004003; -static constexpr AttributeId ColorLoopTime = 0x00004004; -static constexpr AttributeId ColorLoopStartEnhancedHue = 0x00004005; -static constexpr AttributeId ColorLoopStoredEnhancedHue = 0x00004006; -static constexpr AttributeId ColorCapabilities = 0x0000400A; -static constexpr AttributeId ColorTempPhysicalMin = 0x0000400B; -static constexpr AttributeId ColorTempPhysicalMax = 0x0000400C; -static constexpr AttributeId CoupleColorTempToLevelMinMireds = 0x0000400D; -static constexpr AttributeId StartUpColorTemperatureMireds = 0x00004010; -} // namespace Ids -} // namespace Attributes -} // namespace ColorControl +namespace AcCurrentOverload { +static constexpr AttributeId Id = 0x00000802; +} // namespace AcCurrentOverload -namespace BallastConfiguration { -namespace Attributes { -namespace Ids { -static constexpr AttributeId PhysicalMinLevel = 0x00000000; -static constexpr AttributeId PhysicalMaxLevel = 0x00000001; -static constexpr AttributeId BallastStatus = 0x00000002; -static constexpr AttributeId MinLevel = 0x00000010; -static constexpr AttributeId MaxLevel = 0x00000011; -static constexpr AttributeId PowerOnLevel = 0x00000012; -static constexpr AttributeId PowerOnFadeTime = 0x00000013; -static constexpr AttributeId IntrinsicBallastFactor = 0x00000014; -static constexpr AttributeId BallastFactorAdjustment = 0x00000015; -static constexpr AttributeId LampQuality = 0x00000020; -static constexpr AttributeId LampType = 0x00000030; -static constexpr AttributeId LampManufacturer = 0x00000031; -static constexpr AttributeId LampRatedHours = 0x00000032; -static constexpr AttributeId LampBurnHours = 0x00000033; -static constexpr AttributeId LampAlarmMode = 0x00000034; -static constexpr AttributeId LampBurnHoursTripPoint = 0x00000035; -} // namespace Ids -} // namespace Attributes -} // namespace BallastConfiguration +namespace AcActivePowerOverload { +static constexpr AttributeId Id = 0x00000803; +} // namespace AcActivePowerOverload -namespace IlluminanceMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -static constexpr AttributeId LightSensorType = 0x00000004; -} // namespace Ids -} // namespace Attributes -} // namespace IlluminanceMeasurement +namespace AcReactivePowerOverload { +static constexpr AttributeId Id = 0x00000804; +} // namespace AcReactivePowerOverload -namespace IlluminanceLevelSensing { -namespace Attributes { -namespace Ids { -static constexpr AttributeId LevelStatus = 0x00000000; -static constexpr AttributeId LightSensorType = 0x00000001; -static constexpr AttributeId IlluminanceLevelTarget = 0x00000010; -} // namespace Ids -} // namespace Attributes -} // namespace IlluminanceLevelSensing +namespace AverageRmsOverVoltage { +static constexpr AttributeId Id = 0x00000805; +} // namespace AverageRmsOverVoltage -namespace TemperatureMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace TemperatureMeasurement +namespace AverageRmsUnderVoltage { +static constexpr AttributeId Id = 0x00000806; +} // namespace AverageRmsUnderVoltage -namespace PressureMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -static constexpr AttributeId ScaledValue = 0x00000010; -static constexpr AttributeId MinScaledValue = 0x00000011; -static constexpr AttributeId MaxScaledValue = 0x00000012; -static constexpr AttributeId ScaledTolerance = 0x00000013; -static constexpr AttributeId Scale = 0x00000014; -} // namespace Ids -} // namespace Attributes -} // namespace PressureMeasurement +namespace RmsExtremeOverVoltage { +static constexpr AttributeId Id = 0x00000807; +} // namespace RmsExtremeOverVoltage -namespace FlowMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace FlowMeasurement +namespace RmsExtremeUnderVoltage { +static constexpr AttributeId Id = 0x00000808; +} // namespace RmsExtremeUnderVoltage -namespace RelativeHumidityMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace RelativeHumidityMeasurement +namespace RmsVoltageSag { +static constexpr AttributeId Id = 0x00000809; +} // namespace RmsVoltageSag -namespace OccupancySensing { -namespace Attributes { -namespace Ids { -static constexpr AttributeId Occupancy = 0x00000000; -static constexpr AttributeId OccupancySensorType = 0x00000001; -static constexpr AttributeId OccupancySensorTypeBitmap = 0x00000002; -static constexpr AttributeId PirOccupiedToUnoccupiedDelay = 0x00000010; -static constexpr AttributeId PirUnoccupiedToOccupiedDelay = 0x00000011; -static constexpr AttributeId PirUnoccupiedToOccupiedThreshold = 0x00000012; -static constexpr AttributeId UltrasonicOccupiedToUnoccupiedDelay = 0x00000020; -static constexpr AttributeId UltrasonicUnoccupiedToOccupiedDelay = 0x00000021; -static constexpr AttributeId UltrasonicUnoccupiedToOccupiedThreshold = 0x00000022; -static constexpr AttributeId PhysicalContactOccupiedToUnoccupiedDelay = 0x00000030; -static constexpr AttributeId PhysicalContactUnoccupiedToOccupiedDelay = 0x00000031; -static constexpr AttributeId PhysicalContactUnoccupiedToOccupiedThreshold = 0x00000032; -} // namespace Ids -} // namespace Attributes -} // namespace OccupancySensing +namespace RmsVoltageSwell { +static constexpr AttributeId Id = 0x0000080A; +} // namespace RmsVoltageSwell -namespace CarbonMonoxideConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace CarbonMonoxideConcentrationMeasurement +namespace LineCurrentPhaseB { +static constexpr AttributeId Id = 0x00000901; +} // namespace LineCurrentPhaseB -namespace CarbonDioxideConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace CarbonDioxideConcentrationMeasurement +namespace ActiveCurrentPhaseB { +static constexpr AttributeId Id = 0x00000902; +} // namespace ActiveCurrentPhaseB -namespace EthyleneConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace EthyleneConcentrationMeasurement +namespace ReactiveCurrentPhaseB { +static constexpr AttributeId Id = 0x00000903; +} // namespace ReactiveCurrentPhaseB -namespace EthyleneOxideConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace EthyleneOxideConcentrationMeasurement +namespace RmsVoltagePhaseB { +static constexpr AttributeId Id = 0x00000905; +} // namespace RmsVoltagePhaseB -namespace HydrogenConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace HydrogenConcentrationMeasurement +namespace RmsVoltageMinPhaseB { +static constexpr AttributeId Id = 0x00000906; +} // namespace RmsVoltageMinPhaseB -namespace HydrogenSulphideConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace HydrogenSulphideConcentrationMeasurement +namespace RmsVoltageMaxPhaseB { +static constexpr AttributeId Id = 0x00000907; +} // namespace RmsVoltageMaxPhaseB -namespace NitricOxideConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace NitricOxideConcentrationMeasurement +namespace RmsCurrentPhaseB { +static constexpr AttributeId Id = 0x00000908; +} // namespace RmsCurrentPhaseB -namespace NitrogenDioxideConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace NitrogenDioxideConcentrationMeasurement +namespace RmsCurrentMinPhaseB { +static constexpr AttributeId Id = 0x00000909; +} // namespace RmsCurrentMinPhaseB -namespace OxygenConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace OxygenConcentrationMeasurement +namespace RmsCurrentMaxPhaseB { +static constexpr AttributeId Id = 0x0000090A; +} // namespace RmsCurrentMaxPhaseB -namespace OzoneConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace OzoneConcentrationMeasurement +namespace ActivePowerPhaseB { +static constexpr AttributeId Id = 0x0000090B; +} // namespace ActivePowerPhaseB -namespace SulfurDioxideConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace SulfurDioxideConcentrationMeasurement +namespace ActivePowerMinPhaseB { +static constexpr AttributeId Id = 0x0000090C; +} // namespace ActivePowerMinPhaseB -namespace DissolvedOxygenConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace DissolvedOxygenConcentrationMeasurement +namespace ActivePowerMaxPhaseB { +static constexpr AttributeId Id = 0x0000090D; +} // namespace ActivePowerMaxPhaseB -namespace BromateConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace BromateConcentrationMeasurement +namespace ReactivePowerPhaseB { +static constexpr AttributeId Id = 0x0000090E; +} // namespace ReactivePowerPhaseB -namespace ChloraminesConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace ChloraminesConcentrationMeasurement +namespace ApparentPowerPhaseB { +static constexpr AttributeId Id = 0x0000090F; +} // namespace ApparentPowerPhaseB -namespace ChlorineConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace ChlorineConcentrationMeasurement +namespace PowerFactorPhaseB { +static constexpr AttributeId Id = 0x00000910; +} // namespace PowerFactorPhaseB -namespace FecalColiformAndEColiConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace FecalColiformAndEColiConcentrationMeasurement +namespace AverageRmsVoltageMeasurementPeriodPhaseB { +static constexpr AttributeId Id = 0x00000911; +} // namespace AverageRmsVoltageMeasurementPeriodPhaseB -namespace FluorideConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace FluorideConcentrationMeasurement +namespace AverageRmsOverVoltageCounterPhaseB { +static constexpr AttributeId Id = 0x00000912; +} // namespace AverageRmsOverVoltageCounterPhaseB -namespace HaloaceticAcidsConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace HaloaceticAcidsConcentrationMeasurement +namespace AverageRmsUnderVoltageCounterPhaseB { +static constexpr AttributeId Id = 0x00000913; +} // namespace AverageRmsUnderVoltageCounterPhaseB -namespace TotalTrihalomethanesConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace TotalTrihalomethanesConcentrationMeasurement +namespace RmsExtremeOverVoltagePeriodPhaseB { +static constexpr AttributeId Id = 0x00000914; +} // namespace RmsExtremeOverVoltagePeriodPhaseB -namespace TotalColiformBacteriaConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace TotalColiformBacteriaConcentrationMeasurement +namespace RmsExtremeUnderVoltagePeriodPhaseB { +static constexpr AttributeId Id = 0x00000915; +} // namespace RmsExtremeUnderVoltagePeriodPhaseB -namespace TurbidityConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace TurbidityConcentrationMeasurement +namespace RmsVoltageSagPeriodPhaseB { +static constexpr AttributeId Id = 0x00000916; +} // namespace RmsVoltageSagPeriodPhaseB -namespace CopperConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace CopperConcentrationMeasurement +namespace RmsVoltageSwellPeriodPhaseB { +static constexpr AttributeId Id = 0x00000917; +} // namespace RmsVoltageSwellPeriodPhaseB -namespace LeadConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace LeadConcentrationMeasurement +namespace LineCurrentPhaseC { +static constexpr AttributeId Id = 0x00000A01; +} // namespace LineCurrentPhaseC -namespace ManganeseConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace ManganeseConcentrationMeasurement +namespace ActiveCurrentPhaseC { +static constexpr AttributeId Id = 0x00000A02; +} // namespace ActiveCurrentPhaseC -namespace SulfateConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace SulfateConcentrationMeasurement +namespace ReactiveCurrentPhaseC { +static constexpr AttributeId Id = 0x00000A03; +} // namespace ReactiveCurrentPhaseC -namespace BromodichloromethaneConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace BromodichloromethaneConcentrationMeasurement +namespace RmsVoltagePhaseC { +static constexpr AttributeId Id = 0x00000A05; +} // namespace RmsVoltagePhaseC -namespace BromoformConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace BromoformConcentrationMeasurement +namespace RmsVoltageMinPhaseC { +static constexpr AttributeId Id = 0x00000A06; +} // namespace RmsVoltageMinPhaseC -namespace ChlorodibromomethaneConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace ChlorodibromomethaneConcentrationMeasurement +namespace RmsVoltageMaxPhaseC { +static constexpr AttributeId Id = 0x00000A07; +} // namespace RmsVoltageMaxPhaseC -namespace ChloroformConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace ChloroformConcentrationMeasurement +namespace RmsCurrentPhaseC { +static constexpr AttributeId Id = 0x00000A08; +} // namespace RmsCurrentPhaseC -namespace SodiumConcentrationMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasuredValue = 0x00000000; -static constexpr AttributeId MinMeasuredValue = 0x00000001; -static constexpr AttributeId MaxMeasuredValue = 0x00000002; -static constexpr AttributeId Tolerance = 0x00000003; -} // namespace Ids -} // namespace Attributes -} // namespace SodiumConcentrationMeasurement +namespace RmsCurrentMinPhaseC { +static constexpr AttributeId Id = 0x00000A09; +} // namespace RmsCurrentMinPhaseC -namespace IasZone { -namespace Attributes { -namespace Ids { -static constexpr AttributeId ZoneState = 0x00000000; -static constexpr AttributeId ZoneType = 0x00000001; -static constexpr AttributeId ZoneStatus = 0x00000002; -static constexpr AttributeId IasCieAddress = 0x00000010; -static constexpr AttributeId ZoneId = 0x00000011; -static constexpr AttributeId NumberOfZoneSensitivityLevelsSupported = 0x00000012; -static constexpr AttributeId CurrentZoneSensitivityLevel = 0x00000013; -} // namespace Ids -} // namespace Attributes -} // namespace IasZone +namespace RmsCurrentMaxPhaseC { +static constexpr AttributeId Id = 0x00000A0A; +} // namespace RmsCurrentMaxPhaseC -namespace IasWd { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MaxDuration = 0x00000000; -} // namespace Ids -} // namespace Attributes -} // namespace IasWd +namespace ActivePowerPhaseC { +static constexpr AttributeId Id = 0x00000A0B; +} // namespace ActivePowerPhaseC -namespace WakeOnLan { -namespace Attributes { -namespace Ids { -static constexpr AttributeId WakeOnLanMacAddress = 0x00000000; -} // namespace Ids -} // namespace Attributes -} // namespace WakeOnLan +namespace ActivePowerMinPhaseC { +static constexpr AttributeId Id = 0x00000A0C; +} // namespace ActivePowerMinPhaseC -namespace TvChannel { -namespace Attributes { -namespace Ids { -static constexpr AttributeId TvChannelList = 0x00000000; -static constexpr AttributeId TvChannelLineup = 0x00000001; -static constexpr AttributeId CurrentTvChannel = 0x00000002; -} // namespace Ids -} // namespace Attributes -} // namespace TvChannel +namespace ActivePowerMaxPhaseC { +static constexpr AttributeId Id = 0x00000A0D; +} // namespace ActivePowerMaxPhaseC -namespace TargetNavigator { -namespace Attributes { -namespace Ids { -static constexpr AttributeId TargetNavigatorList = 0x00000000; -static constexpr AttributeId CurrentNavigatorTarget = 0x00000001; -} // namespace Ids -} // namespace Attributes -} // namespace TargetNavigator +namespace ReactivePowerPhaseC { +static constexpr AttributeId Id = 0x00000A0E; +} // namespace ReactivePowerPhaseC -namespace MediaPlayback { -namespace Attributes { -namespace Ids { -static constexpr AttributeId PlaybackState = 0x00000000; -static constexpr AttributeId StartTime = 0x00000001; -static constexpr AttributeId Duration = 0x00000002; -static constexpr AttributeId PositionUpdatedAt = 0x00000003; -static constexpr AttributeId Position = 0x00000004; -static constexpr AttributeId PlaybackSpeed = 0x00000005; -static constexpr AttributeId SeekRangeEnd = 0x00000006; -static constexpr AttributeId SeekRangeStart = 0x00000007; -} // namespace Ids -} // namespace Attributes -} // namespace MediaPlayback +namespace ApparentPowerPhaseC { +static constexpr AttributeId Id = 0x00000A0F; +} // namespace ApparentPowerPhaseC -namespace MediaInput { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MediaInputList = 0x00000000; -static constexpr AttributeId CurrentMediaInput = 0x00000001; -} // namespace Ids -} // namespace Attributes -} // namespace MediaInput +namespace PowerFactorPhaseC { +static constexpr AttributeId Id = 0x00000A10; +} // namespace PowerFactorPhaseC -namespace ContentLauncher { -namespace Attributes { -namespace Ids { -static constexpr AttributeId AcceptsHeaderList = 0x00000000; -static constexpr AttributeId SupportedStreamingTypes = 0x00000001; -} // namespace Ids -} // namespace Attributes -} // namespace ContentLauncher +namespace AverageRmsVoltageMeasurementPeriodPhaseC { +static constexpr AttributeId Id = 0x00000A11; +} // namespace AverageRmsVoltageMeasurementPeriodPhaseC -namespace AudioOutput { -namespace Attributes { -namespace Ids { -static constexpr AttributeId AudioOutputList = 0x00000000; -static constexpr AttributeId CurrentAudioOutput = 0x00000001; -} // namespace Ids -} // namespace Attributes -} // namespace AudioOutput +namespace AverageRmsOverVoltageCounterPhaseC { +static constexpr AttributeId Id = 0x00000A12; +} // namespace AverageRmsOverVoltageCounterPhaseC -namespace ApplicationLauncher { -namespace Attributes { -namespace Ids { -static constexpr AttributeId ApplicationLauncherList = 0x00000000; -static constexpr AttributeId CatalogVendorId = 0x00000001; -static constexpr AttributeId ApplicationId = 0x00000002; -} // namespace Ids -} // namespace Attributes -} // namespace ApplicationLauncher +namespace AverageRmsUnderVoltageCounterPhaseC { +static constexpr AttributeId Id = 0x00000A13; +} // namespace AverageRmsUnderVoltageCounterPhaseC -namespace ApplicationBasic { -namespace Attributes { -namespace Ids { -static constexpr AttributeId VendorName = 0x00000000; -static constexpr AttributeId VendorId = 0x00000001; -static constexpr AttributeId ApplicationName = 0x00000002; -static constexpr AttributeId ProductId = 0x00000003; -static constexpr AttributeId ApplicationId = 0x00000005; -static constexpr AttributeId CatalogVendorId = 0x00000006; -static constexpr AttributeId ApplicationStatus = 0x00000007; -} // namespace Ids -} // namespace Attributes -} // namespace ApplicationBasic +namespace RmsExtremeOverVoltagePeriodPhaseC { +static constexpr AttributeId Id = 0x00000A14; +} // namespace RmsExtremeOverVoltagePeriodPhaseC -namespace TestCluster { -namespace Attributes { -namespace Ids { -static constexpr AttributeId Boolean = 0x00000000; -static constexpr AttributeId Bitmap8 = 0x00000001; -static constexpr AttributeId Bitmap16 = 0x00000002; -static constexpr AttributeId Bitmap32 = 0x00000003; -static constexpr AttributeId Bitmap64 = 0x00000004; -static constexpr AttributeId Int8u = 0x00000005; -static constexpr AttributeId Int16u = 0x00000006; -static constexpr AttributeId Int32u = 0x00000008; -static constexpr AttributeId Int64u = 0x0000000C; -static constexpr AttributeId Int8s = 0x0000000D; -static constexpr AttributeId Int16s = 0x0000000E; -static constexpr AttributeId Int32s = 0x00000010; -static constexpr AttributeId Int64s = 0x00000014; -static constexpr AttributeId Enum8 = 0x00000015; -static constexpr AttributeId Enum16 = 0x00000016; -static constexpr AttributeId OctetString = 0x00000019; -static constexpr AttributeId ListInt8u = 0x0000001A; -static constexpr AttributeId ListOctetString = 0x0000001B; -static constexpr AttributeId ListStructOctetString = 0x0000001C; -static constexpr AttributeId LongOctetString = 0x0000001D; -static constexpr AttributeId CharString = 0x0000001E; -static constexpr AttributeId LongCharString = 0x0000001F; -static constexpr AttributeId EpochUs = 0x00000020; -static constexpr AttributeId EpochS = 0x00000021; -static constexpr AttributeId Unsupported = 0x000000FF; -} // namespace Ids -} // namespace Attributes -} // namespace TestCluster +namespace RmsExtremeUnderVoltagePeriodPhaseC { +static constexpr AttributeId Id = 0x00000A15; +} // namespace RmsExtremeUnderVoltagePeriodPhaseC -namespace ApplianceIdentification { -namespace Attributes { -namespace Ids { -static constexpr AttributeId BasicIdentification = 0x00000000; -static constexpr AttributeId CompanyName = 0x00000010; -static constexpr AttributeId CompanyId = 0x00000011; -static constexpr AttributeId BrandName = 0x00000012; -static constexpr AttributeId BrandId = 0x00000013; -static constexpr AttributeId Model = 0x00000014; -static constexpr AttributeId PartNumber = 0x00000015; -static constexpr AttributeId ProductRevision = 0x00000016; -static constexpr AttributeId SoftwareRevision = 0x00000017; -static constexpr AttributeId ProductTypeName = 0x00000018; -static constexpr AttributeId ProductTypeId = 0x00000019; -static constexpr AttributeId CecedSpecificationVersion = 0x0000001A; -} // namespace Ids -} // namespace Attributes -} // namespace ApplianceIdentification +namespace RmsVoltageSagPeriodPhaseC { +static constexpr AttributeId Id = 0x00000A16; +} // namespace RmsVoltageSagPeriodPhaseC -namespace MeterIdentification { -namespace Attributes { -namespace Ids { -static constexpr AttributeId CompanyName = 0x00000000; -static constexpr AttributeId MeterTypeId = 0x00000001; -static constexpr AttributeId DataQualityId = 0x00000004; -static constexpr AttributeId CustomerName = 0x00000005; -static constexpr AttributeId Model = 0x00000006; -static constexpr AttributeId PartNumber = 0x00000007; -static constexpr AttributeId ProductRevision = 0x00000008; -static constexpr AttributeId SoftwareRevision = 0x0000000A; -static constexpr AttributeId UtilityName = 0x0000000B; -static constexpr AttributeId Pod = 0x0000000C; -static constexpr AttributeId AvailablePower = 0x0000000D; -static constexpr AttributeId PowerThreshold = 0x0000000E; -} // namespace Ids -} // namespace Attributes -} // namespace MeterIdentification +namespace RmsVoltageSwellPeriodPhaseC { +static constexpr AttributeId Id = 0x00000A17; +} // namespace RmsVoltageSwellPeriodPhaseC -namespace ApplianceStatistics { -namespace Attributes { -namespace Ids { -static constexpr AttributeId LogMaxSize = 0x00000000; -static constexpr AttributeId LogQueueMaxSize = 0x00000001; -} // namespace Ids -} // namespace Attributes -} // namespace ApplianceStatistics +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; -namespace ElectricalMeasurement { -namespace Attributes { -namespace Ids { -static constexpr AttributeId MeasurementType = 0x00000000; -static constexpr AttributeId DcVoltage = 0x00000100; -static constexpr AttributeId DcVoltageMin = 0x00000101; -static constexpr AttributeId DcVoltageMax = 0x00000102; -static constexpr AttributeId DcCurrent = 0x00000103; -static constexpr AttributeId DcCurrentMin = 0x00000104; -static constexpr AttributeId DcCurrentMax = 0x00000105; -static constexpr AttributeId DcPower = 0x00000106; -static constexpr AttributeId DcPowerMin = 0x00000107; -static constexpr AttributeId DcPowerMax = 0x00000108; -static constexpr AttributeId DcVoltageMultiplier = 0x00000200; -static constexpr AttributeId DcVoltageDivisor = 0x00000201; -static constexpr AttributeId DcCurrentMultiplier = 0x00000202; -static constexpr AttributeId DcCurrentDivisor = 0x00000203; -static constexpr AttributeId DcPowerMultiplier = 0x00000204; -static constexpr AttributeId DcPowerDivisor = 0x00000205; -static constexpr AttributeId AcFrequency = 0x00000300; -static constexpr AttributeId AcFrequencyMin = 0x00000301; -static constexpr AttributeId AcFrequencyMax = 0x00000302; -static constexpr AttributeId NeutralCurrent = 0x00000303; -static constexpr AttributeId TotalActivePower = 0x00000304; -static constexpr AttributeId TotalReactivePower = 0x00000305; -static constexpr AttributeId TotalApparentPower = 0x00000306; -static constexpr AttributeId Measured1stHarmonicCurrent = 0x00000307; -static constexpr AttributeId Measured3rdHarmonicCurrent = 0x00000308; -static constexpr AttributeId Measured5thHarmonicCurrent = 0x00000309; -static constexpr AttributeId Measured7thHarmonicCurrent = 0x0000030A; -static constexpr AttributeId Measured9thHarmonicCurrent = 0x0000030B; -static constexpr AttributeId Measured11thHarmonicCurrent = 0x0000030C; -static constexpr AttributeId MeasuredPhase1stHarmonicCurrent = 0x0000030D; -static constexpr AttributeId MeasuredPhase3rdHarmonicCurrent = 0x0000030E; -static constexpr AttributeId MeasuredPhase5thHarmonicCurrent = 0x0000030F; -static constexpr AttributeId MeasuredPhase7thHarmonicCurrent = 0x00000310; -static constexpr AttributeId MeasuredPhase9thHarmonicCurrent = 0x00000311; -static constexpr AttributeId MeasuredPhase11thHarmonicCurrent = 0x00000312; -static constexpr AttributeId AcFrequencyMultiplier = 0x00000400; -static constexpr AttributeId AcFrequencyDivisor = 0x00000401; -static constexpr AttributeId PowerMultiplier = 0x00000402; -static constexpr AttributeId PowerDivisor = 0x00000403; -static constexpr AttributeId HarmonicCurrentMultiplier = 0x00000404; -static constexpr AttributeId PhaseHarmonicCurrentMultiplier = 0x00000405; -static constexpr AttributeId InstantaneousVoltage = 0x00000500; -static constexpr AttributeId InstantaneousLineCurrent = 0x00000501; -static constexpr AttributeId InstantaneousActiveCurrent = 0x00000502; -static constexpr AttributeId InstantaneousReactiveCurrent = 0x00000503; -static constexpr AttributeId InstantaneousPower = 0x00000504; -static constexpr AttributeId RmsVoltage = 0x00000505; -static constexpr AttributeId RmsVoltageMin = 0x00000506; -static constexpr AttributeId RmsVoltageMax = 0x00000507; -static constexpr AttributeId RmsCurrent = 0x00000508; -static constexpr AttributeId RmsCurrentMin = 0x00000509; -static constexpr AttributeId RmsCurrentMax = 0x0000050A; -static constexpr AttributeId ActivePower = 0x0000050B; -static constexpr AttributeId ActivePowerMin = 0x0000050C; -static constexpr AttributeId ActivePowerMax = 0x0000050D; -static constexpr AttributeId ReactivePower = 0x0000050E; -static constexpr AttributeId ApparentPower = 0x0000050F; -static constexpr AttributeId PowerFactor = 0x00000510; -static constexpr AttributeId AverageRmsVoltageMeasurementPeriod = 0x00000511; -static constexpr AttributeId AverageRmsUnderVoltageCounter = 0x00000513; -static constexpr AttributeId RmsExtremeOverVoltagePeriod = 0x00000514; -static constexpr AttributeId RmsExtremeUnderVoltagePeriod = 0x00000515; -static constexpr AttributeId RmsVoltageSagPeriod = 0x00000516; -static constexpr AttributeId RmsVoltageSwellPeriod = 0x00000517; -static constexpr AttributeId AcVoltageMultiplier = 0x00000600; -static constexpr AttributeId AcVoltageDivisor = 0x00000601; -static constexpr AttributeId AcCurrentMultiplier = 0x00000602; -static constexpr AttributeId AcCurrentDivisor = 0x00000603; -static constexpr AttributeId AcPowerMultiplier = 0x00000604; -static constexpr AttributeId AcPowerDivisor = 0x00000605; -static constexpr AttributeId OverloadAlarmsMask = 0x00000700; -static constexpr AttributeId VoltageOverload = 0x00000701; -static constexpr AttributeId CurrentOverload = 0x00000702; -static constexpr AttributeId AcOverloadAlarmsMask = 0x00000800; -static constexpr AttributeId AcVoltageOverload = 0x00000801; -static constexpr AttributeId AcCurrentOverload = 0x00000802; -static constexpr AttributeId AcActivePowerOverload = 0x00000803; -static constexpr AttributeId AcReactivePowerOverload = 0x00000804; -static constexpr AttributeId AverageRmsOverVoltage = 0x00000805; -static constexpr AttributeId AverageRmsUnderVoltage = 0x00000806; -static constexpr AttributeId RmsExtremeOverVoltage = 0x00000807; -static constexpr AttributeId RmsExtremeUnderVoltage = 0x00000808; -static constexpr AttributeId RmsVoltageSag = 0x00000809; -static constexpr AttributeId RmsVoltageSwell = 0x0000080A; -static constexpr AttributeId LineCurrentPhaseB = 0x00000901; -static constexpr AttributeId ActiveCurrentPhaseB = 0x00000902; -static constexpr AttributeId ReactiveCurrentPhaseB = 0x00000903; -static constexpr AttributeId RmsVoltagePhaseB = 0x00000905; -static constexpr AttributeId RmsVoltageMinPhaseB = 0x00000906; -static constexpr AttributeId RmsVoltageMaxPhaseB = 0x00000907; -static constexpr AttributeId RmsCurrentPhaseB = 0x00000908; -static constexpr AttributeId RmsCurrentMinPhaseB = 0x00000909; -static constexpr AttributeId RmsCurrentMaxPhaseB = 0x0000090A; -static constexpr AttributeId ActivePowerPhaseB = 0x0000090B; -static constexpr AttributeId ActivePowerMinPhaseB = 0x0000090C; -static constexpr AttributeId ActivePowerMaxPhaseB = 0x0000090D; -static constexpr AttributeId ReactivePowerPhaseB = 0x0000090E; -static constexpr AttributeId ApparentPowerPhaseB = 0x0000090F; -static constexpr AttributeId PowerFactorPhaseB = 0x00000910; -static constexpr AttributeId AverageRmsVoltageMeasurementPeriodPhaseB = 0x00000911; -static constexpr AttributeId AverageRmsOverVoltageCounterPhaseB = 0x00000912; -static constexpr AttributeId AverageRmsUnderVoltageCounterPhaseB = 0x00000913; -static constexpr AttributeId RmsExtremeOverVoltagePeriodPhaseB = 0x00000914; -static constexpr AttributeId RmsExtremeUnderVoltagePeriodPhaseB = 0x00000915; -static constexpr AttributeId RmsVoltageSagPeriodPhaseB = 0x00000916; -static constexpr AttributeId RmsVoltageSwellPeriodPhaseB = 0x00000917; -static constexpr AttributeId LineCurrentPhaseC = 0x00000A01; -static constexpr AttributeId ActiveCurrentPhaseC = 0x00000A02; -static constexpr AttributeId ReactiveCurrentPhaseC = 0x00000A03; -static constexpr AttributeId RmsVoltagePhaseC = 0x00000A05; -static constexpr AttributeId RmsVoltageMinPhaseC = 0x00000A06; -static constexpr AttributeId RmsVoltageMaxPhaseC = 0x00000A07; -static constexpr AttributeId RmsCurrentPhaseC = 0x00000A08; -static constexpr AttributeId RmsCurrentMinPhaseC = 0x00000A09; -static constexpr AttributeId RmsCurrentMaxPhaseC = 0x00000A0A; -static constexpr AttributeId ActivePowerPhaseC = 0x00000A0B; -static constexpr AttributeId ActivePowerMinPhaseC = 0x00000A0C; -static constexpr AttributeId ActivePowerMaxPhaseC = 0x00000A0D; -static constexpr AttributeId ReactivePowerPhaseC = 0x00000A0E; -static constexpr AttributeId ApparentPowerPhaseC = 0x00000A0F; -static constexpr AttributeId PowerFactorPhaseC = 0x00000A10; -static constexpr AttributeId AverageRmsVoltageMeasurementPeriodPhaseC = 0x00000A11; -static constexpr AttributeId AverageRmsOverVoltageCounterPhaseC = 0x00000A12; -static constexpr AttributeId AverageRmsUnderVoltageCounterPhaseC = 0x00000A13; -static constexpr AttributeId RmsExtremeOverVoltagePeriodPhaseC = 0x00000A14; -static constexpr AttributeId RmsExtremeUnderVoltagePeriodPhaseC = 0x00000A15; -static constexpr AttributeId RmsVoltageSagPeriodPhaseC = 0x00000A16; -static constexpr AttributeId RmsVoltageSwellPeriodPhaseC = 0x00000A17; -} // namespace Ids } // namespace Attributes } // namespace ElectricalMeasurement namespace GroupKeyManagement { namespace Attributes { -namespace Ids { -static constexpr AttributeId Groups = 0x00000000; -static constexpr AttributeId GroupKeys = 0x00000001; -} // namespace Ids + +namespace Groups { +static constexpr AttributeId Id = 0x00000000; +} // namespace Groups + +namespace GroupKeys { +static constexpr AttributeId Id = 0x00000001; +} // namespace GroupKeys + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace GroupKeyManagement namespace SampleMfgSpecificCluster { namespace Attributes { -namespace Ids { -static constexpr AttributeId EmberSampleAttribute = 0x10020000; -static constexpr AttributeId EmberSampleAttribute2 = 0x10020001; -} // namespace Ids + +namespace EmberSampleAttribute { +static constexpr AttributeId Id = 0x10020000; +} // namespace EmberSampleAttribute + +namespace EmberSampleAttribute2 { +static constexpr AttributeId Id = 0x10020001; +} // namespace EmberSampleAttribute2 + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace SampleMfgSpecificCluster namespace SampleMfgSpecificCluster2 { namespace Attributes { -namespace Ids { -static constexpr AttributeId EmberSampleAttribute3 = 0x10490000; -static constexpr AttributeId EmberSampleAttribute4 = 0x10490001; -} // namespace Ids + +namespace EmberSampleAttribute3 { +static constexpr AttributeId Id = 0x10490000; +} // namespace EmberSampleAttribute3 + +namespace EmberSampleAttribute4 { +static constexpr AttributeId Id = 0x10490001; +} // namespace EmberSampleAttribute4 + +namespace FeatureMap = Globals::Attributes::FeatureMap; + +namespace ClusterRevision = Globals::Attributes::ClusterRevision; + } // namespace Attributes } // namespace SampleMfgSpecificCluster2 diff --git a/zzz_generated/controller-clusters/zap-generated/CHIPClusters.cpp b/zzz_generated/controller-clusters/zap-generated/CHIPClusters.cpp index d2f1abdeb0e8d3..8a181d53a2bdf3 100644 --- a/zzz_generated/controller-clusters/zap-generated/CHIPClusters.cpp +++ b/zzz_generated/controller-clusters/zap-generated/CHIPClusters.cpp @@ -1171,14 +1171,14 @@ CHIP_ERROR BinaryInputBasicCluster::SubscribeAttributePresentValue(Callback::Can chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BinaryInputBasic::Attributes::Ids::PresentValue; + attributePath.mFieldId = BinaryInputBasic::Attributes::PresentValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR BinaryInputBasicCluster::ReportAttributePresentValue(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(BinaryInputBasic::Attributes::Ids::PresentValue, onReportCallback, + return RequestAttributeReporting(BinaryInputBasic::Attributes::PresentValue::Id, onReportCallback, BasicAttributeFilter); } @@ -1201,14 +1201,14 @@ CHIP_ERROR BinaryInputBasicCluster::SubscribeAttributeStatusFlags(Callback::Canc chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BinaryInputBasic::Attributes::Ids::StatusFlags; + attributePath.mFieldId = BinaryInputBasic::Attributes::StatusFlags::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR BinaryInputBasicCluster::ReportAttributeStatusFlags(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(BinaryInputBasic::Attributes::Ids::StatusFlags, onReportCallback, + return RequestAttributeReporting(BinaryInputBasic::Attributes::StatusFlags::Id, onReportCallback, BasicAttributeFilter); } @@ -2496,14 +2496,14 @@ CHIP_ERROR ColorControlCluster::SubscribeAttributeCurrentHue(Callback::Cancelabl chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::CurrentHue; + attributePath.mFieldId = ColorControl::Attributes::CurrentHue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR ColorControlCluster::ReportAttributeCurrentHue(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(ColorControl::Attributes::Ids::CurrentHue, onReportCallback, + return RequestAttributeReporting(ColorControl::Attributes::CurrentHue::Id, onReportCallback, BasicAttributeFilter); } @@ -2526,14 +2526,14 @@ CHIP_ERROR ColorControlCluster::SubscribeAttributeCurrentSaturation(Callback::Ca chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::CurrentSaturation; + attributePath.mFieldId = ColorControl::Attributes::CurrentSaturation::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR ColorControlCluster::ReportAttributeCurrentSaturation(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(ColorControl::Attributes::Ids::CurrentSaturation, onReportCallback, + return RequestAttributeReporting(ColorControl::Attributes::CurrentSaturation::Id, onReportCallback, BasicAttributeFilter); } @@ -2568,14 +2568,14 @@ CHIP_ERROR ColorControlCluster::SubscribeAttributeCurrentX(Callback::Cancelable chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::CurrentX; + attributePath.mFieldId = ColorControl::Attributes::CurrentX::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR ColorControlCluster::ReportAttributeCurrentX(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(ColorControl::Attributes::Ids::CurrentX, onReportCallback, + return RequestAttributeReporting(ColorControl::Attributes::CurrentX::Id, onReportCallback, BasicAttributeFilter); } @@ -2598,14 +2598,14 @@ CHIP_ERROR ColorControlCluster::SubscribeAttributeCurrentY(Callback::Cancelable chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::CurrentY; + attributePath.mFieldId = ColorControl::Attributes::CurrentY::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR ColorControlCluster::ReportAttributeCurrentY(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(ColorControl::Attributes::Ids::CurrentY, onReportCallback, + return RequestAttributeReporting(ColorControl::Attributes::CurrentY::Id, onReportCallback, BasicAttributeFilter); } @@ -2652,14 +2652,14 @@ CHIP_ERROR ColorControlCluster::SubscribeAttributeColorTemperature(Callback::Can chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::ColorTemperature; + attributePath.mFieldId = ColorControl::Attributes::ColorTemperature::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR ColorControlCluster::ReportAttributeColorTemperature(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(ColorControl::Attributes::Ids::ColorTemperature, onReportCallback, + return RequestAttributeReporting(ColorControl::Attributes::ColorTemperature::Id, onReportCallback, BasicAttributeFilter); } @@ -4669,14 +4669,14 @@ CHIP_ERROR DoorLockCluster::SubscribeAttributeLockState(Callback::Cancelable * o chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = DoorLock::Attributes::Ids::LockState; + attributePath.mFieldId = DoorLock::Attributes::LockState::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR DoorLockCluster::ReportAttributeLockState(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(DoorLock::Attributes::Ids::LockState, onReportCallback, + return RequestAttributeReporting(DoorLock::Attributes::LockState::Id, onReportCallback, BasicAttributeFilter); } @@ -6184,14 +6184,14 @@ CHIP_ERROR LevelControlCluster::SubscribeAttributeCurrentLevel(Callback::Cancela chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = LevelControl::Attributes::Ids::CurrentLevel; + attributePath.mFieldId = LevelControl::Attributes::CurrentLevel::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR LevelControlCluster::ReportAttributeCurrentLevel(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(LevelControl::Attributes::Ids::CurrentLevel, onReportCallback, + return RequestAttributeReporting(LevelControl::Attributes::CurrentLevel::Id, onReportCallback, BasicAttributeFilter); } @@ -7734,14 +7734,14 @@ CHIP_ERROR OccupancySensingCluster::SubscribeAttributeOccupancy(Callback::Cancel chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = OccupancySensing::Attributes::Ids::Occupancy; + attributePath.mFieldId = OccupancySensing::Attributes::Occupancy::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR OccupancySensingCluster::ReportAttributeOccupancy(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(OccupancySensing::Attributes::Ids::Occupancy, onReportCallback, + return RequestAttributeReporting(OccupancySensing::Attributes::Occupancy::Id, onReportCallback, BasicAttributeFilter); } @@ -8040,14 +8040,14 @@ CHIP_ERROR OnOffCluster::SubscribeAttributeOnOff(Callback::Cancelable * onSucces chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = OnOff::Attributes::Ids::OnOff; + attributePath.mFieldId = OnOff::Attributes::OnOff::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR OnOffCluster::ReportAttributeOnOff(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(OnOff::Attributes::Ids::OnOff, onReportCallback, + return RequestAttributeReporting(OnOff::Attributes::OnOff::Id, onReportCallback, BasicAttributeFilter); } @@ -8823,14 +8823,14 @@ CHIP_ERROR PressureMeasurementCluster::SubscribeAttributeMeasuredValue(Callback: chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PressureMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = PressureMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR PressureMeasurementCluster::ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(PressureMeasurement::Attributes::Ids::MeasuredValue, onReportCallback, + return RequestAttributeReporting(PressureMeasurement::Attributes::MeasuredValue::Id, onReportCallback, BasicAttributeFilter); } @@ -8951,14 +8951,14 @@ CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeCapacity(Callba chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PumpConfigurationAndControl::Attributes::Ids::Capacity; + attributePath.mFieldId = PumpConfigurationAndControl::Attributes::Capacity::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeCapacity(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::Ids::Capacity, onReportCallback, + return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::Capacity::Id, onReportCallback, BasicAttributeFilter); } @@ -9024,14 +9024,14 @@ CHIP_ERROR RelativeHumidityMeasurementCluster::SubscribeAttributeMeasuredValue(C chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = RelativeHumidityMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = RelativeHumidityMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR RelativeHumidityMeasurementCluster::ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(RelativeHumidityMeasurement::Attributes::Ids::MeasuredValue, onReportCallback, + return RequestAttributeReporting(RelativeHumidityMeasurement::Attributes::MeasuredValue::Id, onReportCallback, BasicAttributeFilter); } @@ -9578,14 +9578,14 @@ CHIP_ERROR SwitchCluster::SubscribeAttributeCurrentPosition(Callback::Cancelable chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Switch::Attributes::Ids::CurrentPosition; + attributePath.mFieldId = Switch::Attributes::CurrentPosition::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR SwitchCluster::ReportAttributeCurrentPosition(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(Switch::Attributes::Ids::CurrentPosition, onReportCallback, + return RequestAttributeReporting(Switch::Attributes::CurrentPosition::Id, onReportCallback, BasicAttributeFilter); } @@ -9867,14 +9867,14 @@ CHIP_ERROR TemperatureMeasurementCluster::SubscribeAttributeMeasuredValue(Callba chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = TemperatureMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = TemperatureMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR TemperatureMeasurementCluster::ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(TemperatureMeasurement::Attributes::Ids::MeasuredValue, onReportCallback, + return RequestAttributeReporting(TemperatureMeasurement::Attributes::MeasuredValue::Id, onReportCallback, BasicAttributeFilter); } @@ -11030,14 +11030,14 @@ CHIP_ERROR ThermostatCluster::SubscribeAttributeLocalTemperature(Callback::Cance chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Thermostat::Attributes::Ids::LocalTemperature; + attributePath.mFieldId = Thermostat::Attributes::LocalTemperature::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR ThermostatCluster::ReportAttributeLocalTemperature(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(Thermostat::Attributes::Ids::LocalTemperature, onReportCallback, + return RequestAttributeReporting(Thermostat::Attributes::LocalTemperature::Id, onReportCallback, BasicAttributeFilter); } @@ -12884,14 +12884,14 @@ CHIP_ERROR WindowCoveringCluster::SubscribeAttributeCurrentPositionLiftPercentag chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::CurrentPositionLiftPercentage; + attributePath.mFieldId = WindowCovering::Attributes::CurrentPositionLiftPercentage::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR WindowCoveringCluster::ReportAttributeCurrentPositionLiftPercentage(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(WindowCovering::Attributes::Ids::CurrentPositionLiftPercentage, onReportCallback, + return RequestAttributeReporting(WindowCovering::Attributes::CurrentPositionLiftPercentage::Id, onReportCallback, BasicAttributeFilter); } @@ -12914,14 +12914,14 @@ CHIP_ERROR WindowCoveringCluster::SubscribeAttributeCurrentPositionTiltPercentag chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::CurrentPositionTiltPercentage; + attributePath.mFieldId = WindowCovering::Attributes::CurrentPositionTiltPercentage::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR WindowCoveringCluster::ReportAttributeCurrentPositionTiltPercentage(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(WindowCovering::Attributes::Ids::CurrentPositionTiltPercentage, onReportCallback, + return RequestAttributeReporting(WindowCovering::Attributes::CurrentPositionTiltPercentage::Id, onReportCallback, BasicAttributeFilter); } @@ -12944,14 +12944,14 @@ CHIP_ERROR WindowCoveringCluster::SubscribeAttributeOperationalStatus(Callback:: chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::OperationalStatus; + attributePath.mFieldId = WindowCovering::Attributes::OperationalStatus::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR WindowCoveringCluster::ReportAttributeOperationalStatus(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(WindowCovering::Attributes::Ids::OperationalStatus, onReportCallback, + return RequestAttributeReporting(WindowCovering::Attributes::OperationalStatus::Id, onReportCallback, BasicAttributeFilter); } @@ -12974,14 +12974,14 @@ CHIP_ERROR WindowCoveringCluster::SubscribeAttributeTargetPositionLiftPercent100 chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::TargetPositionLiftPercent100ths; + attributePath.mFieldId = WindowCovering::Attributes::TargetPositionLiftPercent100ths::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR WindowCoveringCluster::ReportAttributeTargetPositionLiftPercent100ths(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(WindowCovering::Attributes::Ids::TargetPositionLiftPercent100ths, onReportCallback, + return RequestAttributeReporting(WindowCovering::Attributes::TargetPositionLiftPercent100ths::Id, onReportCallback, BasicAttributeFilter); } @@ -13004,14 +13004,14 @@ CHIP_ERROR WindowCoveringCluster::SubscribeAttributeTargetPositionTiltPercent100 chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::TargetPositionTiltPercent100ths; + attributePath.mFieldId = WindowCovering::Attributes::TargetPositionTiltPercent100ths::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR WindowCoveringCluster::ReportAttributeTargetPositionTiltPercent100ths(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(WindowCovering::Attributes::Ids::TargetPositionTiltPercent100ths, onReportCallback, + return RequestAttributeReporting(WindowCovering::Attributes::TargetPositionTiltPercent100ths::Id, onReportCallback, BasicAttributeFilter); } @@ -13046,14 +13046,14 @@ CHIP_ERROR WindowCoveringCluster::SubscribeAttributeCurrentPositionLiftPercent10 chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::CurrentPositionLiftPercent100ths; + attributePath.mFieldId = WindowCovering::Attributes::CurrentPositionLiftPercent100ths::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR WindowCoveringCluster::ReportAttributeCurrentPositionLiftPercent100ths(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(WindowCovering::Attributes::Ids::CurrentPositionLiftPercent100ths, onReportCallback, + return RequestAttributeReporting(WindowCovering::Attributes::CurrentPositionLiftPercent100ths::Id, onReportCallback, BasicAttributeFilter); } @@ -13076,14 +13076,14 @@ CHIP_ERROR WindowCoveringCluster::SubscribeAttributeCurrentPositionTiltPercent10 chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::CurrentPositionTiltPercent100ths; + attributePath.mFieldId = WindowCovering::Attributes::CurrentPositionTiltPercent100ths::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR WindowCoveringCluster::ReportAttributeCurrentPositionTiltPercent100ths(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(WindowCovering::Attributes::Ids::CurrentPositionTiltPercent100ths, onReportCallback, + return RequestAttributeReporting(WindowCovering::Attributes::CurrentPositionTiltPercent100ths::Id, onReportCallback, BasicAttributeFilter); } @@ -13183,14 +13183,14 @@ CHIP_ERROR WindowCoveringCluster::SubscribeAttributeSafetyStatus(Callback::Cance chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::SafetyStatus; + attributePath.mFieldId = WindowCovering::Attributes::SafetyStatus::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR WindowCoveringCluster::ReportAttributeSafetyStatus(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(WindowCovering::Attributes::Ids::SafetyStatus, onReportCallback, + return RequestAttributeReporting(WindowCovering::Attributes::SafetyStatus::Id, onReportCallback, BasicAttributeFilter); } diff --git a/zzz_generated/controller-clusters/zap-generated/tests/CHIPClusters.cpp b/zzz_generated/controller-clusters/zap-generated/tests/CHIPClusters.cpp index 3c92c043e65074..5e9fb6c5587d91 100644 --- a/zzz_generated/controller-clusters/zap-generated/tests/CHIPClusters.cpp +++ b/zzz_generated/controller-clusters/zap-generated/tests/CHIPClusters.cpp @@ -41,7 +41,7 @@ CHIP_ERROR AccountLoginClusterTest::WriteAttributeClusterRevision(Callback::Canc attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -59,7 +59,7 @@ CHIP_ERROR AdministratorCommissioningClusterTest::WriteAttributeClusterRevision( attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -77,7 +77,7 @@ CHIP_ERROR ApplicationBasicClusterTest::WriteAttributeVendorName(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ApplicationBasic::Attributes::Ids::VendorName; + attributePath.mFieldId = ApplicationBasic::Attributes::VendorName::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -94,7 +94,7 @@ CHIP_ERROR ApplicationBasicClusterTest::WriteAttributeVendorId(Callback::Cancela attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ApplicationBasic::Attributes::Ids::VendorId; + attributePath.mFieldId = ApplicationBasic::Attributes::VendorId::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -112,7 +112,7 @@ CHIP_ERROR ApplicationBasicClusterTest::WriteAttributeApplicationName(Callback:: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ApplicationBasic::Attributes::Ids::ApplicationName; + attributePath.mFieldId = ApplicationBasic::Attributes::ApplicationName::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -129,7 +129,7 @@ CHIP_ERROR ApplicationBasicClusterTest::WriteAttributeProductId(Callback::Cancel attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ApplicationBasic::Attributes::Ids::ProductId; + attributePath.mFieldId = ApplicationBasic::Attributes::ProductId::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -147,7 +147,7 @@ CHIP_ERROR ApplicationBasicClusterTest::WriteAttributeApplicationId(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ApplicationBasic::Attributes::Ids::ApplicationId; + attributePath.mFieldId = ApplicationBasic::Attributes::ApplicationId::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -165,7 +165,7 @@ CHIP_ERROR ApplicationBasicClusterTest::WriteAttributeCatalogVendorId(Callback:: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ApplicationBasic::Attributes::Ids::CatalogVendorId; + attributePath.mFieldId = ApplicationBasic::Attributes::CatalogVendorId::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -183,7 +183,7 @@ CHIP_ERROR ApplicationBasicClusterTest::WriteAttributeApplicationStatus(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ApplicationBasic::Attributes::Ids::ApplicationStatus; + attributePath.mFieldId = ApplicationBasic::Attributes::ApplicationStatus::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -201,7 +201,7 @@ CHIP_ERROR ApplicationBasicClusterTest::WriteAttributeClusterRevision(Callback:: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -219,7 +219,7 @@ CHIP_ERROR ApplicationLauncherClusterTest::WriteAttributeCatalogVendorId(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ApplicationLauncher::Attributes::Ids::CatalogVendorId; + attributePath.mFieldId = ApplicationLauncher::Attributes::CatalogVendorId::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -237,7 +237,7 @@ CHIP_ERROR ApplicationLauncherClusterTest::WriteAttributeApplicationId(Callback: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ApplicationLauncher::Attributes::Ids::ApplicationId; + attributePath.mFieldId = ApplicationLauncher::Attributes::ApplicationId::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -255,7 +255,7 @@ CHIP_ERROR ApplicationLauncherClusterTest::WriteAttributeClusterRevision(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -273,7 +273,7 @@ CHIP_ERROR AudioOutputClusterTest::WriteAttributeCurrentAudioOutput(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = AudioOutput::Attributes::Ids::CurrentAudioOutput; + attributePath.mFieldId = AudioOutput::Attributes::CurrentAudioOutput::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -290,7 +290,7 @@ CHIP_ERROR AudioOutputClusterTest::WriteAttributeClusterRevision(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -308,7 +308,7 @@ CHIP_ERROR BarrierControlClusterTest::WriteAttributeBarrierMovingState(Callback: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BarrierControl::Attributes::Ids::BarrierMovingState; + attributePath.mFieldId = BarrierControl::Attributes::BarrierMovingState::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -326,7 +326,7 @@ CHIP_ERROR BarrierControlClusterTest::WriteAttributeBarrierSafetyStatus(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BarrierControl::Attributes::Ids::BarrierSafetyStatus; + attributePath.mFieldId = BarrierControl::Attributes::BarrierSafetyStatus::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -344,7 +344,7 @@ CHIP_ERROR BarrierControlClusterTest::WriteAttributeBarrierCapabilities(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BarrierControl::Attributes::Ids::BarrierCapabilities; + attributePath.mFieldId = BarrierControl::Attributes::BarrierCapabilities::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -362,7 +362,7 @@ CHIP_ERROR BarrierControlClusterTest::WriteAttributeBarrierPosition(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BarrierControl::Attributes::Ids::BarrierPosition; + attributePath.mFieldId = BarrierControl::Attributes::BarrierPosition::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -380,7 +380,7 @@ CHIP_ERROR BarrierControlClusterTest::WriteAttributeClusterRevision(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -398,7 +398,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeInteractionModelVersion(Callback::Can attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::InteractionModelVersion; + attributePath.mFieldId = Basic::Attributes::InteractionModelVersion::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -415,7 +415,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeVendorName(Callback::Cancelable * onS attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::VendorName; + attributePath.mFieldId = Basic::Attributes::VendorName::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -432,7 +432,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeVendorID(Callback::Cancelable * onSuc attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::VendorID; + attributePath.mFieldId = Basic::Attributes::VendorID::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -449,7 +449,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeProductName(Callback::Cancelable * on attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::ProductName; + attributePath.mFieldId = Basic::Attributes::ProductName::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -466,7 +466,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeProductID(Callback::Cancelable * onSu attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::ProductID; + attributePath.mFieldId = Basic::Attributes::ProductID::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -483,7 +483,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeHardwareVersion(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::HardwareVersion; + attributePath.mFieldId = Basic::Attributes::HardwareVersion::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -501,7 +501,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeHardwareVersionString(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::HardwareVersionString; + attributePath.mFieldId = Basic::Attributes::HardwareVersionString::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -518,7 +518,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeSoftwareVersion(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::SoftwareVersion; + attributePath.mFieldId = Basic::Attributes::SoftwareVersion::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -536,7 +536,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeSoftwareVersionString(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::SoftwareVersionString; + attributePath.mFieldId = Basic::Attributes::SoftwareVersionString::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -554,7 +554,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeManufacturingDate(Callback::Cancelabl attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::ManufacturingDate; + attributePath.mFieldId = Basic::Attributes::ManufacturingDate::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -571,7 +571,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributePartNumber(Callback::Cancelable * onS attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::PartNumber; + attributePath.mFieldId = Basic::Attributes::PartNumber::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -588,7 +588,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeProductURL(Callback::Cancelable * onS attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::ProductURL; + attributePath.mFieldId = Basic::Attributes::ProductURL::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -605,7 +605,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeProductLabel(Callback::Cancelable * o attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::ProductLabel; + attributePath.mFieldId = Basic::Attributes::ProductLabel::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -622,7 +622,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeSerialNumber(Callback::Cancelable * o attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::SerialNumber; + attributePath.mFieldId = Basic::Attributes::SerialNumber::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -639,7 +639,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeReachable(Callback::Cancelable * onSu attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Basic::Attributes::Ids::Reachable; + attributePath.mFieldId = Basic::Attributes::Reachable::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -656,7 +656,7 @@ CHIP_ERROR BasicClusterTest::WriteAttributeClusterRevision(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -673,7 +673,7 @@ CHIP_ERROR BinaryInputBasicClusterTest::WriteAttributeStatusFlags(Callback::Canc attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BinaryInputBasic::Attributes::Ids::StatusFlags; + attributePath.mFieldId = BinaryInputBasic::Attributes::StatusFlags::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -691,7 +691,7 @@ CHIP_ERROR BinaryInputBasicClusterTest::WriteAttributeClusterRevision(Callback:: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -708,7 +708,7 @@ CHIP_ERROR BindingClusterTest::WriteAttributeClusterRevision(Callback::Cancelabl attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -726,7 +726,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeVendorName(Callback::Can attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::VendorName; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::VendorName::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -743,7 +743,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeVendorID(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::VendorID; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::VendorID::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -761,7 +761,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeProductName(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::ProductName; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::ProductName::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -779,7 +779,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeHardwareVersion(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::HardwareVersion; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::HardwareVersion::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -797,7 +797,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeHardwareVersionString(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::HardwareVersionString; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::HardwareVersionString::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -815,7 +815,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeSoftwareVersion(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::SoftwareVersion; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::SoftwareVersion::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -833,7 +833,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeSoftwareVersionString(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::SoftwareVersionString; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::SoftwareVersionString::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -851,7 +851,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeManufacturingDate(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::ManufacturingDate; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::ManufacturingDate::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -869,7 +869,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributePartNumber(Callback::Can attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::PartNumber; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::PartNumber::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -887,7 +887,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeProductURL(Callback::Can attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::ProductURL; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::ProductURL::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -905,7 +905,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeProductLabel(Callback::C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::ProductLabel; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::ProductLabel::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -923,7 +923,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeSerialNumber(Callback::C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::SerialNumber; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::SerialNumber::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -940,7 +940,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeReachable(Callback::Canc attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = BridgedDeviceBasic::Attributes::Ids::Reachable; + attributePath.mFieldId = BridgedDeviceBasic::Attributes::Reachable::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -958,7 +958,7 @@ CHIP_ERROR BridgedDeviceBasicClusterTest::WriteAttributeClusterRevision(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -975,7 +975,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeCurrentHue(Callback::Cancelabl attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::CurrentHue; + attributePath.mFieldId = ColorControl::Attributes::CurrentHue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -993,7 +993,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeCurrentSaturation(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::CurrentSaturation; + attributePath.mFieldId = ColorControl::Attributes::CurrentSaturation::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1010,7 +1010,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeRemainingTime(Callback::Cancel attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::RemainingTime; + attributePath.mFieldId = ColorControl::Attributes::RemainingTime::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1027,7 +1027,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeCurrentX(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::CurrentX; + attributePath.mFieldId = ColorControl::Attributes::CurrentX::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1044,7 +1044,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeCurrentY(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::CurrentY; + attributePath.mFieldId = ColorControl::Attributes::CurrentY::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1062,7 +1062,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeDriftCompensation(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::DriftCompensation; + attributePath.mFieldId = ColorControl::Attributes::DriftCompensation::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1080,7 +1080,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeCompensationText(Callback::Can attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::CompensationText; + attributePath.mFieldId = ColorControl::Attributes::CompensationText::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1098,7 +1098,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeColorTemperature(Callback::Can attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::ColorTemperature; + attributePath.mFieldId = ColorControl::Attributes::ColorTemperature::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1115,7 +1115,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeColorMode(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::ColorMode; + attributePath.mFieldId = ColorControl::Attributes::ColorMode::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1133,7 +1133,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeNumberOfPrimaries(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::NumberOfPrimaries; + attributePath.mFieldId = ColorControl::Attributes::NumberOfPrimaries::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1150,7 +1150,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary1X(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary1X; + attributePath.mFieldId = ColorControl::Attributes::Primary1X::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1167,7 +1167,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary1Y(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary1Y; + attributePath.mFieldId = ColorControl::Attributes::Primary1Y::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1185,7 +1185,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary1Intensity(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary1Intensity; + attributePath.mFieldId = ColorControl::Attributes::Primary1Intensity::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1202,7 +1202,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary2X(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary2X; + attributePath.mFieldId = ColorControl::Attributes::Primary2X::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1219,7 +1219,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary2Y(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary2Y; + attributePath.mFieldId = ColorControl::Attributes::Primary2Y::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1237,7 +1237,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary2Intensity(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary2Intensity; + attributePath.mFieldId = ColorControl::Attributes::Primary2Intensity::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1254,7 +1254,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary3X(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary3X; + attributePath.mFieldId = ColorControl::Attributes::Primary3X::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1271,7 +1271,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary3Y(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary3Y; + attributePath.mFieldId = ColorControl::Attributes::Primary3Y::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1289,7 +1289,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary3Intensity(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary3Intensity; + attributePath.mFieldId = ColorControl::Attributes::Primary3Intensity::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1306,7 +1306,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary4X(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary4X; + attributePath.mFieldId = ColorControl::Attributes::Primary4X::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1323,7 +1323,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary4Y(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary4Y; + attributePath.mFieldId = ColorControl::Attributes::Primary4Y::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1341,7 +1341,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary4Intensity(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary4Intensity; + attributePath.mFieldId = ColorControl::Attributes::Primary4Intensity::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1358,7 +1358,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary5X(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary5X; + attributePath.mFieldId = ColorControl::Attributes::Primary5X::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1375,7 +1375,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary5Y(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary5Y; + attributePath.mFieldId = ColorControl::Attributes::Primary5Y::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1393,7 +1393,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary5Intensity(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary5Intensity; + attributePath.mFieldId = ColorControl::Attributes::Primary5Intensity::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1410,7 +1410,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary6X(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary6X; + attributePath.mFieldId = ColorControl::Attributes::Primary6X::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1427,7 +1427,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary6Y(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary6Y; + attributePath.mFieldId = ColorControl::Attributes::Primary6Y::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1445,7 +1445,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributePrimary6Intensity(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::Primary6Intensity; + attributePath.mFieldId = ColorControl::Attributes::Primary6Intensity::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1463,7 +1463,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeEnhancedCurrentHue(Callback::C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::EnhancedCurrentHue; + attributePath.mFieldId = ColorControl::Attributes::EnhancedCurrentHue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1481,7 +1481,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeEnhancedColorMode(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::EnhancedColorMode; + attributePath.mFieldId = ColorControl::Attributes::EnhancedColorMode::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1498,7 +1498,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeColorLoopActive(Callback::Canc attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::ColorLoopActive; + attributePath.mFieldId = ColorControl::Attributes::ColorLoopActive::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1516,7 +1516,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeColorLoopDirection(Callback::C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::ColorLoopDirection; + attributePath.mFieldId = ColorControl::Attributes::ColorLoopDirection::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1533,7 +1533,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeColorLoopTime(Callback::Cancel attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::ColorLoopTime; + attributePath.mFieldId = ColorControl::Attributes::ColorLoopTime::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1551,7 +1551,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeColorLoopStartEnhancedHue(Call attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::ColorLoopStartEnhancedHue; + attributePath.mFieldId = ColorControl::Attributes::ColorLoopStartEnhancedHue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1569,7 +1569,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeColorLoopStoredEnhancedHue(Cal attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::ColorLoopStoredEnhancedHue; + attributePath.mFieldId = ColorControl::Attributes::ColorLoopStoredEnhancedHue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1587,7 +1587,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeColorCapabilities(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::ColorCapabilities; + attributePath.mFieldId = ColorControl::Attributes::ColorCapabilities::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1605,7 +1605,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeColorTempPhysicalMin(Callback: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::ColorTempPhysicalMin; + attributePath.mFieldId = ColorControl::Attributes::ColorTempPhysicalMin::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1623,7 +1623,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeColorTempPhysicalMax(Callback: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::ColorTempPhysicalMax; + attributePath.mFieldId = ColorControl::Attributes::ColorTempPhysicalMax::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1641,7 +1641,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeCoupleColorTempToLevelMinMired attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ColorControl::Attributes::Ids::CoupleColorTempToLevelMinMireds; + attributePath.mFieldId = ColorControl::Attributes::CoupleColorTempToLevelMinMireds::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1659,7 +1659,7 @@ CHIP_ERROR ColorControlClusterTest::WriteAttributeClusterRevision(Callback::Canc attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1677,7 +1677,7 @@ CHIP_ERROR ContentLauncherClusterTest::WriteAttributeClusterRevision(Callback::C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1694,7 +1694,7 @@ CHIP_ERROR DescriptorClusterTest::WriteAttributeClusterRevision(Callback::Cancel attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1711,7 +1711,7 @@ CHIP_ERROR DoorLockClusterTest::WriteAttributeLockState(Callback::Cancelable * o attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = DoorLock::Attributes::Ids::LockState; + attributePath.mFieldId = DoorLock::Attributes::LockState::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1728,7 +1728,7 @@ CHIP_ERROR DoorLockClusterTest::WriteAttributeLockType(Callback::Cancelable * on attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = DoorLock::Attributes::Ids::LockType; + attributePath.mFieldId = DoorLock::Attributes::LockType::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1745,7 +1745,7 @@ CHIP_ERROR DoorLockClusterTest::WriteAttributeActuatorEnabled(Callback::Cancelab attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = DoorLock::Attributes::Ids::ActuatorEnabled; + attributePath.mFieldId = DoorLock::Attributes::ActuatorEnabled::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1762,7 +1762,7 @@ CHIP_ERROR DoorLockClusterTest::WriteAttributeClusterRevision(Callback::Cancelab attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1780,7 +1780,7 @@ CHIP_ERROR ElectricalMeasurementClusterTest::WriteAttributeMeasurementType(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ElectricalMeasurement::Attributes::Ids::MeasurementType; + attributePath.mFieldId = ElectricalMeasurement::Attributes::MeasurementType::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1798,7 +1798,7 @@ CHIP_ERROR ElectricalMeasurementClusterTest::WriteAttributeTotalActivePower(Call attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ElectricalMeasurement::Attributes::Ids::TotalActivePower; + attributePath.mFieldId = ElectricalMeasurement::Attributes::TotalActivePower::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1815,7 +1815,7 @@ CHIP_ERROR ElectricalMeasurementClusterTest::WriteAttributeRmsVoltage(Callback:: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ElectricalMeasurement::Attributes::Ids::RmsVoltage; + attributePath.mFieldId = ElectricalMeasurement::Attributes::RmsVoltage::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1833,7 +1833,7 @@ CHIP_ERROR ElectricalMeasurementClusterTest::WriteAttributeRmsVoltageMin(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ElectricalMeasurement::Attributes::Ids::RmsVoltageMin; + attributePath.mFieldId = ElectricalMeasurement::Attributes::RmsVoltageMin::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1851,7 +1851,7 @@ CHIP_ERROR ElectricalMeasurementClusterTest::WriteAttributeRmsVoltageMax(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ElectricalMeasurement::Attributes::Ids::RmsVoltageMax; + attributePath.mFieldId = ElectricalMeasurement::Attributes::RmsVoltageMax::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1868,7 +1868,7 @@ CHIP_ERROR ElectricalMeasurementClusterTest::WriteAttributeRmsCurrent(Callback:: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ElectricalMeasurement::Attributes::Ids::RmsCurrent; + attributePath.mFieldId = ElectricalMeasurement::Attributes::RmsCurrent::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1886,7 +1886,7 @@ CHIP_ERROR ElectricalMeasurementClusterTest::WriteAttributeRmsCurrentMin(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ElectricalMeasurement::Attributes::Ids::RmsCurrentMin; + attributePath.mFieldId = ElectricalMeasurement::Attributes::RmsCurrentMin::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1904,7 +1904,7 @@ CHIP_ERROR ElectricalMeasurementClusterTest::WriteAttributeRmsCurrentMax(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ElectricalMeasurement::Attributes::Ids::RmsCurrentMax; + attributePath.mFieldId = ElectricalMeasurement::Attributes::RmsCurrentMax::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1922,7 +1922,7 @@ CHIP_ERROR ElectricalMeasurementClusterTest::WriteAttributeActivePower(Callback: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ElectricalMeasurement::Attributes::Ids::ActivePower; + attributePath.mFieldId = ElectricalMeasurement::Attributes::ActivePower::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1940,7 +1940,7 @@ CHIP_ERROR ElectricalMeasurementClusterTest::WriteAttributeActivePowerMin(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ElectricalMeasurement::Attributes::Ids::ActivePowerMin; + attributePath.mFieldId = ElectricalMeasurement::Attributes::ActivePowerMin::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1958,7 +1958,7 @@ CHIP_ERROR ElectricalMeasurementClusterTest::WriteAttributeActivePowerMax(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ElectricalMeasurement::Attributes::Ids::ActivePowerMax; + attributePath.mFieldId = ElectricalMeasurement::Attributes::ActivePowerMax::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1976,7 +1976,7 @@ CHIP_ERROR ElectricalMeasurementClusterTest::WriteAttributeClusterRevision(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -1994,7 +1994,7 @@ CHIP_ERROR EthernetNetworkDiagnosticsClusterTest::WriteAttributePacketRxCount(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = EthernetNetworkDiagnostics::Attributes::Ids::PacketRxCount; + attributePath.mFieldId = EthernetNetworkDiagnostics::Attributes::PacketRxCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2012,7 +2012,7 @@ CHIP_ERROR EthernetNetworkDiagnosticsClusterTest::WriteAttributePacketTxCount(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = EthernetNetworkDiagnostics::Attributes::Ids::PacketTxCount; + attributePath.mFieldId = EthernetNetworkDiagnostics::Attributes::PacketTxCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2030,7 +2030,7 @@ CHIP_ERROR EthernetNetworkDiagnosticsClusterTest::WriteAttributeTxErrCount(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = EthernetNetworkDiagnostics::Attributes::Ids::TxErrCount; + attributePath.mFieldId = EthernetNetworkDiagnostics::Attributes::TxErrCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2048,7 +2048,7 @@ CHIP_ERROR EthernetNetworkDiagnosticsClusterTest::WriteAttributeCollisionCount(C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = EthernetNetworkDiagnostics::Attributes::Ids::CollisionCount; + attributePath.mFieldId = EthernetNetworkDiagnostics::Attributes::CollisionCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2066,7 +2066,7 @@ CHIP_ERROR EthernetNetworkDiagnosticsClusterTest::WriteAttributeOverrunCount(Cal attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = EthernetNetworkDiagnostics::Attributes::Ids::OverrunCount; + attributePath.mFieldId = EthernetNetworkDiagnostics::Attributes::OverrunCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2084,7 +2084,7 @@ CHIP_ERROR EthernetNetworkDiagnosticsClusterTest::WriteAttributeClusterRevision( attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2101,7 +2101,7 @@ CHIP_ERROR FixedLabelClusterTest::WriteAttributeClusterRevision(Callback::Cancel attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2118,7 +2118,7 @@ CHIP_ERROR FlowMeasurementClusterTest::WriteAttributeMeasuredValue(Callback::Can attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = FlowMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = FlowMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2136,7 +2136,7 @@ CHIP_ERROR FlowMeasurementClusterTest::WriteAttributeMinMeasuredValue(Callback:: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = FlowMeasurement::Attributes::Ids::MinMeasuredValue; + attributePath.mFieldId = FlowMeasurement::Attributes::MinMeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2154,7 +2154,7 @@ CHIP_ERROR FlowMeasurementClusterTest::WriteAttributeMaxMeasuredValue(Callback:: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = FlowMeasurement::Attributes::Ids::MaxMeasuredValue; + attributePath.mFieldId = FlowMeasurement::Attributes::MaxMeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2172,7 +2172,7 @@ CHIP_ERROR FlowMeasurementClusterTest::WriteAttributeClusterRevision(Callback::C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2190,7 +2190,7 @@ CHIP_ERROR GeneralCommissioningClusterTest::WriteAttributeClusterRevision(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2207,7 +2207,7 @@ CHIP_ERROR GeneralDiagnosticsClusterTest::WriteAttributeRebootCount(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = GeneralDiagnostics::Attributes::Ids::RebootCount; + attributePath.mFieldId = GeneralDiagnostics::Attributes::RebootCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2224,7 +2224,7 @@ CHIP_ERROR GeneralDiagnosticsClusterTest::WriteAttributeUpTime(Callback::Cancela attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = GeneralDiagnostics::Attributes::Ids::UpTime; + attributePath.mFieldId = GeneralDiagnostics::Attributes::UpTime::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2242,7 +2242,7 @@ CHIP_ERROR GeneralDiagnosticsClusterTest::WriteAttributeTotalOperationalHours(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = GeneralDiagnostics::Attributes::Ids::TotalOperationalHours; + attributePath.mFieldId = GeneralDiagnostics::Attributes::TotalOperationalHours::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2259,7 +2259,7 @@ CHIP_ERROR GeneralDiagnosticsClusterTest::WriteAttributeBootReasons(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = GeneralDiagnostics::Attributes::Ids::BootReasons; + attributePath.mFieldId = GeneralDiagnostics::Attributes::BootReasons::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2277,7 +2277,7 @@ CHIP_ERROR GeneralDiagnosticsClusterTest::WriteAttributeClusterRevision(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2295,7 +2295,7 @@ CHIP_ERROR GroupKeyManagementClusterTest::WriteAttributeClusterRevision(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2312,7 +2312,7 @@ CHIP_ERROR GroupsClusterTest::WriteAttributeNameSupport(Callback::Cancelable * o attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Groups::Attributes::Ids::NameSupport; + attributePath.mFieldId = Groups::Attributes::NameSupport::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2329,7 +2329,7 @@ CHIP_ERROR GroupsClusterTest::WriteAttributeClusterRevision(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2346,7 +2346,7 @@ CHIP_ERROR IdentifyClusterTest::WriteAttributeClusterRevision(Callback::Cancelab attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2363,7 +2363,7 @@ CHIP_ERROR KeypadInputClusterTest::WriteAttributeClusterRevision(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2380,7 +2380,7 @@ CHIP_ERROR LevelControlClusterTest::WriteAttributeCurrentLevel(Callback::Cancela attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = LevelControl::Attributes::Ids::CurrentLevel; + attributePath.mFieldId = LevelControl::Attributes::CurrentLevel::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2398,7 +2398,7 @@ CHIP_ERROR LevelControlClusterTest::WriteAttributeClusterRevision(Callback::Canc attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2415,7 +2415,7 @@ CHIP_ERROR LowPowerClusterTest::WriteAttributeClusterRevision(Callback::Cancelab attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2433,7 +2433,7 @@ CHIP_ERROR MediaInputClusterTest::WriteAttributeCurrentMediaInput(Callback::Canc attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = MediaInput::Attributes::Ids::CurrentMediaInput; + attributePath.mFieldId = MediaInput::Attributes::CurrentMediaInput::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2450,7 +2450,7 @@ CHIP_ERROR MediaInputClusterTest::WriteAttributeClusterRevision(Callback::Cancel attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2467,7 +2467,7 @@ CHIP_ERROR MediaPlaybackClusterTest::WriteAttributePlaybackState(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = MediaPlayback::Attributes::Ids::PlaybackState; + attributePath.mFieldId = MediaPlayback::Attributes::PlaybackState::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2484,7 +2484,7 @@ CHIP_ERROR MediaPlaybackClusterTest::WriteAttributeStartTime(Callback::Cancelabl attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = MediaPlayback::Attributes::Ids::StartTime; + attributePath.mFieldId = MediaPlayback::Attributes::StartTime::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2501,7 +2501,7 @@ CHIP_ERROR MediaPlaybackClusterTest::WriteAttributeDuration(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = MediaPlayback::Attributes::Ids::Duration; + attributePath.mFieldId = MediaPlayback::Attributes::Duration::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2519,7 +2519,7 @@ CHIP_ERROR MediaPlaybackClusterTest::WriteAttributePositionUpdatedAt(Callback::C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = MediaPlayback::Attributes::Ids::PositionUpdatedAt; + attributePath.mFieldId = MediaPlayback::Attributes::PositionUpdatedAt::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2536,7 +2536,7 @@ CHIP_ERROR MediaPlaybackClusterTest::WriteAttributePosition(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = MediaPlayback::Attributes::Ids::Position; + attributePath.mFieldId = MediaPlayback::Attributes::Position::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2553,7 +2553,7 @@ CHIP_ERROR MediaPlaybackClusterTest::WriteAttributePlaybackSpeed(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = MediaPlayback::Attributes::Ids::PlaybackSpeed; + attributePath.mFieldId = MediaPlayback::Attributes::PlaybackSpeed::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2570,7 +2570,7 @@ CHIP_ERROR MediaPlaybackClusterTest::WriteAttributeSeekRangeEnd(Callback::Cancel attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = MediaPlayback::Attributes::Ids::SeekRangeEnd; + attributePath.mFieldId = MediaPlayback::Attributes::SeekRangeEnd::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2587,7 +2587,7 @@ CHIP_ERROR MediaPlaybackClusterTest::WriteAttributeSeekRangeStart(Callback::Canc attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = MediaPlayback::Attributes::Ids::SeekRangeStart; + attributePath.mFieldId = MediaPlayback::Attributes::SeekRangeStart::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2605,7 +2605,7 @@ CHIP_ERROR MediaPlaybackClusterTest::WriteAttributeClusterRevision(Callback::Can attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2622,7 +2622,7 @@ CHIP_ERROR NetworkCommissioningClusterTest::WriteAttributeFeatureMap(Callback::C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::FeatureMap; + attributePath.mFieldId = Globals::Attributes::FeatureMap::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2640,7 +2640,7 @@ CHIP_ERROR NetworkCommissioningClusterTest::WriteAttributeClusterRevision(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2658,7 +2658,7 @@ CHIP_ERROR OtaSoftwareUpdateProviderClusterTest::WriteAttributeClusterRevision(C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2676,7 +2676,7 @@ CHIP_ERROR OtaSoftwareUpdateRequestorClusterTest::WriteAttributeUpdatePossible(C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = OtaSoftwareUpdateRequestor::Attributes::Ids::UpdatePossible; + attributePath.mFieldId = OtaSoftwareUpdateRequestor::Attributes::UpdatePossible::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2694,7 +2694,7 @@ CHIP_ERROR OtaSoftwareUpdateRequestorClusterTest::WriteAttributeClusterRevision( attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2711,7 +2711,7 @@ CHIP_ERROR OccupancySensingClusterTest::WriteAttributeOccupancy(Callback::Cancel attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = OccupancySensing::Attributes::Ids::Occupancy; + attributePath.mFieldId = OccupancySensing::Attributes::Occupancy::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2729,7 +2729,7 @@ CHIP_ERROR OccupancySensingClusterTest::WriteAttributeOccupancySensorType(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = OccupancySensing::Attributes::Ids::OccupancySensorType; + attributePath.mFieldId = OccupancySensing::Attributes::OccupancySensorType::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2747,7 +2747,7 @@ CHIP_ERROR OccupancySensingClusterTest::WriteAttributeOccupancySensorTypeBitmap( attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = OccupancySensing::Attributes::Ids::OccupancySensorTypeBitmap; + attributePath.mFieldId = OccupancySensing::Attributes::OccupancySensorTypeBitmap::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2765,7 +2765,7 @@ CHIP_ERROR OccupancySensingClusterTest::WriteAttributeClusterRevision(Callback:: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2782,7 +2782,7 @@ CHIP_ERROR OnOffClusterTest::WriteAttributeOnOff(Callback::Cancelable * onSucces attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = OnOff::Attributes::Ids::OnOff; + attributePath.mFieldId = OnOff::Attributes::OnOff::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2799,7 +2799,7 @@ CHIP_ERROR OnOffClusterTest::WriteAttributeGlobalSceneControl(Callback::Cancelab attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = OnOff::Attributes::Ids::GlobalSceneControl; + attributePath.mFieldId = OnOff::Attributes::GlobalSceneControl::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2816,7 +2816,7 @@ CHIP_ERROR OnOffClusterTest::WriteAttributeFeatureMap(Callback::Cancelable * onS attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::FeatureMap; + attributePath.mFieldId = Globals::Attributes::FeatureMap::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2833,7 +2833,7 @@ CHIP_ERROR OnOffClusterTest::WriteAttributeClusterRevision(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2851,7 +2851,7 @@ CHIP_ERROR OnOffSwitchConfigurationClusterTest::WriteAttributeSwitchType(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = OnOffSwitchConfiguration::Attributes::Ids::SwitchType; + attributePath.mFieldId = OnOffSwitchConfiguration::Attributes::SwitchType::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2869,7 +2869,7 @@ CHIP_ERROR OnOffSwitchConfigurationClusterTest::WriteAttributeClusterRevision(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2887,7 +2887,7 @@ CHIP_ERROR OperationalCredentialsClusterTest::WriteAttributeSupportedFabrics(Cal attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = OperationalCredentials::Attributes::Ids::SupportedFabrics; + attributePath.mFieldId = OperationalCredentials::Attributes::SupportedFabrics::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2905,7 +2905,7 @@ CHIP_ERROR OperationalCredentialsClusterTest::WriteAttributeCommissionedFabrics( attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = OperationalCredentials::Attributes::Ids::CommissionedFabrics; + attributePath.mFieldId = OperationalCredentials::Attributes::CommissionedFabrics::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2923,7 +2923,7 @@ CHIP_ERROR OperationalCredentialsClusterTest::WriteAttributeClusterRevision(Call attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2940,7 +2940,7 @@ CHIP_ERROR PowerSourceClusterTest::WriteAttributeStatus(Callback::Cancelable * o attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PowerSource::Attributes::Ids::Status; + attributePath.mFieldId = PowerSource::Attributes::Status::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2957,7 +2957,7 @@ CHIP_ERROR PowerSourceClusterTest::WriteAttributeOrder(Callback::Cancelable * on attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PowerSource::Attributes::Ids::Order; + attributePath.mFieldId = PowerSource::Attributes::Order::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2974,7 +2974,7 @@ CHIP_ERROR PowerSourceClusterTest::WriteAttributeDescription(Callback::Cancelabl attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PowerSource::Attributes::Ids::Description; + attributePath.mFieldId = PowerSource::Attributes::Description::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -2991,7 +2991,7 @@ CHIP_ERROR PowerSourceClusterTest::WriteAttributeBatteryVoltage(Callback::Cancel attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PowerSource::Attributes::Ids::BatteryVoltage; + attributePath.mFieldId = PowerSource::Attributes::BatteryVoltage::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3009,7 +3009,7 @@ CHIP_ERROR PowerSourceClusterTest::WriteAttributeBatteryPercentRemaining(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PowerSource::Attributes::Ids::BatteryPercentRemaining; + attributePath.mFieldId = PowerSource::Attributes::BatteryPercentRemaining::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3027,7 +3027,7 @@ CHIP_ERROR PowerSourceClusterTest::WriteAttributeBatteryTimeRemaining(Callback:: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PowerSource::Attributes::Ids::BatteryTimeRemaining; + attributePath.mFieldId = PowerSource::Attributes::BatteryTimeRemaining::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3045,7 +3045,7 @@ CHIP_ERROR PowerSourceClusterTest::WriteAttributeBatteryChargeLevel(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PowerSource::Attributes::Ids::BatteryChargeLevel; + attributePath.mFieldId = PowerSource::Attributes::BatteryChargeLevel::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3063,7 +3063,7 @@ CHIP_ERROR PowerSourceClusterTest::WriteAttributeBatteryChargeState(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PowerSource::Attributes::Ids::BatteryChargeState; + attributePath.mFieldId = PowerSource::Attributes::BatteryChargeState::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3080,7 +3080,7 @@ CHIP_ERROR PowerSourceClusterTest::WriteAttributeFeatureMap(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::FeatureMap; + attributePath.mFieldId = Globals::Attributes::FeatureMap::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3097,7 +3097,7 @@ CHIP_ERROR PowerSourceClusterTest::WriteAttributeClusterRevision(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3115,7 +3115,7 @@ CHIP_ERROR PressureMeasurementClusterTest::WriteAttributeMeasuredValue(Callback: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PressureMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = PressureMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3133,7 +3133,7 @@ CHIP_ERROR PressureMeasurementClusterTest::WriteAttributeMinMeasuredValue(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PressureMeasurement::Attributes::Ids::MinMeasuredValue; + attributePath.mFieldId = PressureMeasurement::Attributes::MinMeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3151,7 +3151,7 @@ CHIP_ERROR PressureMeasurementClusterTest::WriteAttributeMaxMeasuredValue(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PressureMeasurement::Attributes::Ids::MaxMeasuredValue; + attributePath.mFieldId = PressureMeasurement::Attributes::MaxMeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3169,7 +3169,7 @@ CHIP_ERROR PressureMeasurementClusterTest::WriteAttributeClusterRevision(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3187,7 +3187,7 @@ CHIP_ERROR PumpConfigurationAndControlClusterTest::WriteAttributeMaxPressure(Cal attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PumpConfigurationAndControl::Attributes::Ids::MaxPressure; + attributePath.mFieldId = PumpConfigurationAndControl::Attributes::MaxPressure::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3205,7 +3205,7 @@ CHIP_ERROR PumpConfigurationAndControlClusterTest::WriteAttributeMaxSpeed(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PumpConfigurationAndControl::Attributes::Ids::MaxSpeed; + attributePath.mFieldId = PumpConfigurationAndControl::Attributes::MaxSpeed::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3222,7 +3222,7 @@ CHIP_ERROR PumpConfigurationAndControlClusterTest::WriteAttributeMaxFlow(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PumpConfigurationAndControl::Attributes::Ids::MaxFlow; + attributePath.mFieldId = PumpConfigurationAndControl::Attributes::MaxFlow::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3240,7 +3240,7 @@ CHIP_ERROR PumpConfigurationAndControlClusterTest::WriteAttributeEffectiveOperat attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PumpConfigurationAndControl::Attributes::Ids::EffectiveOperationMode; + attributePath.mFieldId = PumpConfigurationAndControl::Attributes::EffectiveOperationMode::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3258,7 +3258,7 @@ CHIP_ERROR PumpConfigurationAndControlClusterTest::WriteAttributeEffectiveContro attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PumpConfigurationAndControl::Attributes::Ids::EffectiveControlMode; + attributePath.mFieldId = PumpConfigurationAndControl::Attributes::EffectiveControlMode::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3276,7 +3276,7 @@ CHIP_ERROR PumpConfigurationAndControlClusterTest::WriteAttributeCapacity(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PumpConfigurationAndControl::Attributes::Ids::Capacity; + attributePath.mFieldId = PumpConfigurationAndControl::Attributes::Capacity::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3294,7 +3294,7 @@ CHIP_ERROR PumpConfigurationAndControlClusterTest::WriteAttributeClusterRevision attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3312,7 +3312,7 @@ CHIP_ERROR RelativeHumidityMeasurementClusterTest::WriteAttributeMeasuredValue(C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = RelativeHumidityMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = RelativeHumidityMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3330,7 +3330,7 @@ CHIP_ERROR RelativeHumidityMeasurementClusterTest::WriteAttributeMinMeasuredValu attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = RelativeHumidityMeasurement::Attributes::Ids::MinMeasuredValue; + attributePath.mFieldId = RelativeHumidityMeasurement::Attributes::MinMeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3348,7 +3348,7 @@ CHIP_ERROR RelativeHumidityMeasurementClusterTest::WriteAttributeMaxMeasuredValu attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = RelativeHumidityMeasurement::Attributes::Ids::MaxMeasuredValue; + attributePath.mFieldId = RelativeHumidityMeasurement::Attributes::MaxMeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3366,7 +3366,7 @@ CHIP_ERROR RelativeHumidityMeasurementClusterTest::WriteAttributeClusterRevision attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3383,7 +3383,7 @@ CHIP_ERROR ScenesClusterTest::WriteAttributeSceneCount(Callback::Cancelable * on attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Scenes::Attributes::Ids::SceneCount; + attributePath.mFieldId = Scenes::Attributes::SceneCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3400,7 +3400,7 @@ CHIP_ERROR ScenesClusterTest::WriteAttributeCurrentScene(Callback::Cancelable * attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Scenes::Attributes::Ids::CurrentScene; + attributePath.mFieldId = Scenes::Attributes::CurrentScene::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3417,7 +3417,7 @@ CHIP_ERROR ScenesClusterTest::WriteAttributeCurrentGroup(Callback::Cancelable * attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Scenes::Attributes::Ids::CurrentGroup; + attributePath.mFieldId = Scenes::Attributes::CurrentGroup::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3434,7 +3434,7 @@ CHIP_ERROR ScenesClusterTest::WriteAttributeSceneValid(Callback::Cancelable * on attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Scenes::Attributes::Ids::SceneValid; + attributePath.mFieldId = Scenes::Attributes::SceneValid::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3451,7 +3451,7 @@ CHIP_ERROR ScenesClusterTest::WriteAttributeNameSupport(Callback::Cancelable * o attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Scenes::Attributes::Ids::NameSupport; + attributePath.mFieldId = Scenes::Attributes::NameSupport::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3468,7 +3468,7 @@ CHIP_ERROR ScenesClusterTest::WriteAttributeClusterRevision(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3486,7 +3486,7 @@ CHIP_ERROR SoftwareDiagnosticsClusterTest::WriteAttributeCurrentHeapFree(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = SoftwareDiagnostics::Attributes::Ids::CurrentHeapFree; + attributePath.mFieldId = SoftwareDiagnostics::Attributes::CurrentHeapFree::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3504,7 +3504,7 @@ CHIP_ERROR SoftwareDiagnosticsClusterTest::WriteAttributeCurrentHeapUsed(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = SoftwareDiagnostics::Attributes::Ids::CurrentHeapUsed; + attributePath.mFieldId = SoftwareDiagnostics::Attributes::CurrentHeapUsed::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3522,7 +3522,7 @@ CHIP_ERROR SoftwareDiagnosticsClusterTest::WriteAttributeCurrentHeapHighWatermar attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = SoftwareDiagnostics::Attributes::Ids::CurrentHeapHighWatermark; + attributePath.mFieldId = SoftwareDiagnostics::Attributes::CurrentHeapHighWatermark::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3540,7 +3540,7 @@ CHIP_ERROR SoftwareDiagnosticsClusterTest::WriteAttributeClusterRevision(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3557,7 +3557,7 @@ CHIP_ERROR SwitchClusterTest::WriteAttributeNumberOfPositions(Callback::Cancelab attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Switch::Attributes::Ids::NumberOfPositions; + attributePath.mFieldId = Switch::Attributes::NumberOfPositions::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3574,7 +3574,7 @@ CHIP_ERROR SwitchClusterTest::WriteAttributeCurrentPosition(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Switch::Attributes::Ids::CurrentPosition; + attributePath.mFieldId = Switch::Attributes::CurrentPosition::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3591,7 +3591,7 @@ CHIP_ERROR SwitchClusterTest::WriteAttributeClusterRevision(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3609,7 +3609,7 @@ CHIP_ERROR TvChannelClusterTest::WriteAttributeTvChannelLineup(Callback::Cancela attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = TvChannel::Attributes::Ids::TvChannelLineup; + attributePath.mFieldId = TvChannel::Attributes::TvChannelLineup::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3627,7 +3627,7 @@ CHIP_ERROR TvChannelClusterTest::WriteAttributeCurrentTvChannel(Callback::Cancel attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = TvChannel::Attributes::Ids::CurrentTvChannel; + attributePath.mFieldId = TvChannel::Attributes::CurrentTvChannel::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3644,7 +3644,7 @@ CHIP_ERROR TvChannelClusterTest::WriteAttributeClusterRevision(Callback::Cancela attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3662,7 +3662,7 @@ CHIP_ERROR TargetNavigatorClusterTest::WriteAttributeClusterRevision(Callback::C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3680,7 +3680,7 @@ CHIP_ERROR TemperatureMeasurementClusterTest::WriteAttributeMeasuredValue(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = TemperatureMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = TemperatureMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3698,7 +3698,7 @@ CHIP_ERROR TemperatureMeasurementClusterTest::WriteAttributeMinMeasuredValue(Cal attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = TemperatureMeasurement::Attributes::Ids::MinMeasuredValue; + attributePath.mFieldId = TemperatureMeasurement::Attributes::MinMeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3716,7 +3716,7 @@ CHIP_ERROR TemperatureMeasurementClusterTest::WriteAttributeMaxMeasuredValue(Cal attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = TemperatureMeasurement::Attributes::Ids::MaxMeasuredValue; + attributePath.mFieldId = TemperatureMeasurement::Attributes::MaxMeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3734,7 +3734,7 @@ CHIP_ERROR TemperatureMeasurementClusterTest::WriteAttributeClusterRevision(Call attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3751,7 +3751,7 @@ CHIP_ERROR TestClusterClusterTest::WriteAttributeClusterRevision(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3768,7 +3768,7 @@ CHIP_ERROR ThermostatClusterTest::WriteAttributeLocalTemperature(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Thermostat::Attributes::Ids::LocalTemperature; + attributePath.mFieldId = Thermostat::Attributes::LocalTemperature::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3786,7 +3786,7 @@ CHIP_ERROR ThermostatClusterTest::WriteAttributeAbsMinHeatSetpointLimit(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Thermostat::Attributes::Ids::AbsMinHeatSetpointLimit; + attributePath.mFieldId = Thermostat::Attributes::AbsMinHeatSetpointLimit::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3804,7 +3804,7 @@ CHIP_ERROR ThermostatClusterTest::WriteAttributeAbsMaxHeatSetpointLimit(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Thermostat::Attributes::Ids::AbsMaxHeatSetpointLimit; + attributePath.mFieldId = Thermostat::Attributes::AbsMaxHeatSetpointLimit::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3822,7 +3822,7 @@ CHIP_ERROR ThermostatClusterTest::WriteAttributeAbsMinCoolSetpointLimit(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Thermostat::Attributes::Ids::AbsMinCoolSetpointLimit; + attributePath.mFieldId = Thermostat::Attributes::AbsMinCoolSetpointLimit::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3840,7 +3840,7 @@ CHIP_ERROR ThermostatClusterTest::WriteAttributeAbsMaxCoolSetpointLimit(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Thermostat::Attributes::Ids::AbsMaxCoolSetpointLimit; + attributePath.mFieldId = Thermostat::Attributes::AbsMaxCoolSetpointLimit::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3857,7 +3857,7 @@ CHIP_ERROR ThermostatClusterTest::WriteAttributeStartOfWeek(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Thermostat::Attributes::Ids::StartOfWeek; + attributePath.mFieldId = Thermostat::Attributes::StartOfWeek::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3875,7 +3875,7 @@ CHIP_ERROR ThermostatClusterTest::WriteAttributeNumberOfWeeklyTransitions(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Thermostat::Attributes::Ids::NumberOfWeeklyTransitions; + attributePath.mFieldId = Thermostat::Attributes::NumberOfWeeklyTransitions::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3893,7 +3893,7 @@ CHIP_ERROR ThermostatClusterTest::WriteAttributeNumberOfDailyTransitions(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Thermostat::Attributes::Ids::NumberOfDailyTransitions; + attributePath.mFieldId = Thermostat::Attributes::NumberOfDailyTransitions::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3910,7 +3910,7 @@ CHIP_ERROR ThermostatClusterTest::WriteAttributeFeatureMap(Callback::Cancelable attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::FeatureMap; + attributePath.mFieldId = Globals::Attributes::FeatureMap::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3927,7 +3927,7 @@ CHIP_ERROR ThermostatClusterTest::WriteAttributeClusterRevision(Callback::Cancel attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3945,7 +3945,7 @@ CHIP_ERROR ThermostatUserInterfaceConfigurationClusterTest::WriteAttributeCluste attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3962,7 +3962,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeChannel(Callback:: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::Channel; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Channel::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3980,7 +3980,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRoutingRole(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RoutingRole; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RoutingRole::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -3998,7 +3998,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeNetworkName(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::NetworkName; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::NetworkName::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4015,7 +4015,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributePanId(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::PanId; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::PanId::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4033,7 +4033,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeExtendedPanId(Call attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::ExtendedPanId; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::ExtendedPanId::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4051,7 +4051,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeMeshLocalPrefix(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::MeshLocalPrefix; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::MeshLocalPrefix::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4069,7 +4069,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeOverrunCount(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::OverrunCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::OverrunCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4087,7 +4087,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributePartitionId(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::PartitionId; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::PartitionId::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4104,7 +4104,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeWeighting(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::Weighting; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Weighting::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4122,7 +4122,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeDataVersion(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::DataVersion; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::DataVersion::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4140,7 +4140,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeStableDataVersion( attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::StableDataVersion; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::StableDataVersion::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4158,7 +4158,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeLeaderRouterId(Cal attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::LeaderRouterId; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::LeaderRouterId::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4176,7 +4176,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeDetachedRoleCount( attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::DetachedRoleCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::DetachedRoleCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4194,7 +4194,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeChildRoleCount(Cal attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::ChildRoleCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::ChildRoleCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4212,7 +4212,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRouterRoleCount(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RouterRoleCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RouterRoleCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4230,7 +4230,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeLeaderRoleCount(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::LeaderRoleCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::LeaderRoleCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4248,7 +4248,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeAttachAttemptCount attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::AttachAttemptCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::AttachAttemptCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4266,7 +4266,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributePartitionIdChangeC attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::PartitionIdChangeCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::PartitionIdChangeCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4283,7 +4283,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeBetterPartitionAtt attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::BetterPartitionAttachAttemptCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::BetterPartitionAttachAttemptCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4301,7 +4301,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeParentChangeCount( attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::ParentChangeCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::ParentChangeCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4319,7 +4319,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxTotalCount(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxTotalCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxTotalCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4337,7 +4337,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxUnicastCount(Cal attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxUnicastCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxUnicastCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4355,7 +4355,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxBroadcastCount(C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxBroadcastCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxBroadcastCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4373,7 +4373,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxAckRequestedCoun attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxAckRequestedCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxAckRequestedCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4391,7 +4391,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxAckedCount(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxAckedCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxAckedCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4409,7 +4409,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxNoAckRequestedCo attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxNoAckRequestedCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxNoAckRequestedCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4427,7 +4427,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxDataCount(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxDataCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxDataCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4445,7 +4445,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxDataPollCount(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxDataPollCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxDataPollCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4463,7 +4463,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxBeaconCount(Call attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxBeaconCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxBeaconCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4481,7 +4481,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxBeaconRequestCou attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxBeaconRequestCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxBeaconRequestCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4499,7 +4499,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxOtherCount(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxOtherCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxOtherCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4517,7 +4517,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxRetryCount(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxRetryCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxRetryCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4535,7 +4535,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxDirectMaxRetryEx attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxDirectMaxRetryExpiryCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxDirectMaxRetryExpiryCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4552,7 +4552,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxIndirectMaxRetry attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxIndirectMaxRetryExpiryCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxIndirectMaxRetryExpiryCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4570,7 +4570,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxErrCcaCount(Call attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxErrCcaCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxErrCcaCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4588,7 +4588,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxErrAbortCount(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxErrAbortCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxErrAbortCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4606,7 +4606,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeTxErrBusyChannelCo attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::TxErrBusyChannelCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::TxErrBusyChannelCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4624,7 +4624,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxTotalCount(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxTotalCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxTotalCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4642,7 +4642,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxUnicastCount(Cal attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxUnicastCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxUnicastCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4660,7 +4660,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxBroadcastCount(C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxBroadcastCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxBroadcastCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4678,7 +4678,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxDataCount(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxDataCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxDataCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4696,7 +4696,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxDataPollCount(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxDataPollCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxDataPollCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4714,7 +4714,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxBeaconCount(Call attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxBeaconCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxBeaconCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4732,7 +4732,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxBeaconRequestCou attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxBeaconRequestCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxBeaconRequestCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4750,7 +4750,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxOtherCount(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxOtherCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxOtherCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4768,7 +4768,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxAddressFilteredC attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxAddressFilteredCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxAddressFilteredCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4786,7 +4786,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxDestAddrFiltered attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxDestAddrFilteredCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxDestAddrFilteredCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4804,7 +4804,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxDuplicatedCount( attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxDuplicatedCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxDuplicatedCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4822,7 +4822,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxErrNoFrameCount( attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxErrNoFrameCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxErrNoFrameCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4840,7 +4840,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxErrUnknownNeighb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxErrUnknownNeighborCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxErrUnknownNeighborCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4858,7 +4858,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxErrInvalidSrcAdd attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxErrInvalidSrcAddrCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxErrInvalidSrcAddrCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4876,7 +4876,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxErrSecCount(Call attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxErrSecCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxErrSecCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4894,7 +4894,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxErrFcsCount(Call attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxErrFcsCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxErrFcsCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4912,7 +4912,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeRxErrOtherCount(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::RxErrOtherCount; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::RxErrOtherCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4930,7 +4930,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeActiveTimestamp(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::ActiveTimestamp; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::ActiveTimestamp::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4948,7 +4948,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributePendingTimestamp(C attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::PendingTimestamp; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::PendingTimestamp::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4965,7 +4965,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeDelay(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::Delay; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Delay::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -4983,7 +4983,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeChannelMask(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::Ids::ChannelMask; + attributePath.mFieldId = ThreadNetworkDiagnostics::Attributes::ChannelMask::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5001,7 +5001,7 @@ CHIP_ERROR ThreadNetworkDiagnosticsClusterTest::WriteAttributeClusterRevision(Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5019,7 +5019,7 @@ CHIP_ERROR WakeOnLanClusterTest::WriteAttributeWakeOnLanMacAddress(Callback::Can attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WakeOnLan::Attributes::Ids::WakeOnLanMacAddress; + attributePath.mFieldId = WakeOnLan::Attributes::WakeOnLanMacAddress::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5036,7 +5036,7 @@ CHIP_ERROR WakeOnLanClusterTest::WriteAttributeClusterRevision(Callback::Cancela attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5053,7 +5053,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributeBssid(Callback::Canc attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::Bssid; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Bssid::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5071,7 +5071,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributeSecurityType(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::SecurityType; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::SecurityType::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5089,7 +5089,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributeWiFiVersion(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::WiFiVersion; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::WiFiVersion::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5107,7 +5107,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributeChannelNumber(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::ChannelNumber; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::ChannelNumber::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5124,7 +5124,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributeRssi(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::Rssi; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Rssi::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5142,7 +5142,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributeBeaconLostCount(Call attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::BeaconLostCount; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::BeaconLostCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5160,7 +5160,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributeBeaconRxCount(Callba attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::BeaconRxCount; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::BeaconRxCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5178,7 +5178,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributePacketMulticastRxCou attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::PacketMulticastRxCount; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::PacketMulticastRxCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5196,7 +5196,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributePacketMulticastTxCou attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::PacketMulticastTxCount; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::PacketMulticastTxCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5214,7 +5214,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributePacketUnicastRxCount attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::PacketUnicastRxCount; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::PacketUnicastRxCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5232,7 +5232,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributePacketUnicastTxCount attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::PacketUnicastTxCount; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::PacketUnicastTxCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5250,7 +5250,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributeCurrentMaxRate(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::CurrentMaxRate; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::CurrentMaxRate::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5268,7 +5268,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributeOverrunCount(Callbac attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::Ids::OverrunCount; + attributePath.mFieldId = WiFiNetworkDiagnostics::Attributes::OverrunCount::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5286,7 +5286,7 @@ CHIP_ERROR WiFiNetworkDiagnosticsClusterTest::WriteAttributeClusterRevision(Call attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5303,7 +5303,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeType(Callback::Cancelable * attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::Type; + attributePath.mFieldId = WindowCovering::Attributes::Type::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5321,7 +5321,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeCurrentPositionLift(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::CurrentPositionLift; + attributePath.mFieldId = WindowCovering::Attributes::CurrentPositionLift::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5339,7 +5339,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeCurrentPositionTilt(Callback attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::CurrentPositionTilt; + attributePath.mFieldId = WindowCovering::Attributes::CurrentPositionTilt::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5356,7 +5356,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeConfigStatus(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::ConfigStatus; + attributePath.mFieldId = WindowCovering::Attributes::ConfigStatus::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5374,7 +5374,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeCurrentPositionLiftPercentag attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::CurrentPositionLiftPercentage; + attributePath.mFieldId = WindowCovering::Attributes::CurrentPositionLiftPercentage::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5392,7 +5392,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeCurrentPositionTiltPercentag attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::CurrentPositionTiltPercentage; + attributePath.mFieldId = WindowCovering::Attributes::CurrentPositionTiltPercentage::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5410,7 +5410,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeOperationalStatus(Callback:: attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::OperationalStatus; + attributePath.mFieldId = WindowCovering::Attributes::OperationalStatus::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5428,7 +5428,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeTargetPositionLiftPercent100 attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::TargetPositionLiftPercent100ths; + attributePath.mFieldId = WindowCovering::Attributes::TargetPositionLiftPercent100ths::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5446,7 +5446,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeTargetPositionTiltPercent100 attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::TargetPositionTiltPercent100ths; + attributePath.mFieldId = WindowCovering::Attributes::TargetPositionTiltPercent100ths::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5463,7 +5463,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeEndProductType(Callback::Can attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::EndProductType; + attributePath.mFieldId = WindowCovering::Attributes::EndProductType::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5481,7 +5481,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeCurrentPositionLiftPercent10 attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::CurrentPositionLiftPercent100ths; + attributePath.mFieldId = WindowCovering::Attributes::CurrentPositionLiftPercent100ths::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5499,7 +5499,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeCurrentPositionTiltPercent10 attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::CurrentPositionTiltPercent100ths; + attributePath.mFieldId = WindowCovering::Attributes::CurrentPositionTiltPercent100ths::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5517,7 +5517,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeInstalledOpenLimitLift(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::InstalledOpenLimitLift; + attributePath.mFieldId = WindowCovering::Attributes::InstalledOpenLimitLift::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5535,7 +5535,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeInstalledClosedLimitLift(Cal attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::InstalledClosedLimitLift; + attributePath.mFieldId = WindowCovering::Attributes::InstalledClosedLimitLift::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5553,7 +5553,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeInstalledOpenLimitTilt(Callb attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::InstalledOpenLimitTilt; + attributePath.mFieldId = WindowCovering::Attributes::InstalledOpenLimitTilt::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5571,7 +5571,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeInstalledClosedLimitTilt(Cal attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::InstalledClosedLimitTilt; + attributePath.mFieldId = WindowCovering::Attributes::InstalledClosedLimitTilt::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5588,7 +5588,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeSafetyStatus(Callback::Cance attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = WindowCovering::Attributes::Ids::SafetyStatus; + attributePath.mFieldId = WindowCovering::Attributes::SafetyStatus::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); @@ -5606,7 +5606,7 @@ CHIP_ERROR WindowCoveringClusterTest::WriteAttributeClusterRevision(Callback::Ca attributePath.mNodeId = mDevice->GetDeviceId(); attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = Globals::Attributes::Ids::ClusterRevision; + attributePath.mFieldId = Globals::Attributes::ClusterRevision::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); ReturnErrorOnFailure(app::InteractionModelEngine::GetInstance()->NewWriteClient(handle)); diff --git a/zzz_generated/pump-app/zap-generated/CHIPClusters.cpp b/zzz_generated/pump-app/zap-generated/CHIPClusters.cpp index f71cdfd3c67360..fbb9e867bd7d41 100644 --- a/zzz_generated/pump-app/zap-generated/CHIPClusters.cpp +++ b/zzz_generated/pump-app/zap-generated/CHIPClusters.cpp @@ -65,14 +65,14 @@ CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeMeasuredValue(Callback::Can chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = FlowMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = FlowMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR FlowMeasurementCluster::ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(FlowMeasurement::Attributes::Ids::MeasuredValue, onReportCallback, + return RequestAttributeReporting(FlowMeasurement::Attributes::MeasuredValue::Id, onReportCallback, BasicAttributeFilter); } @@ -133,14 +133,14 @@ CHIP_ERROR PressureMeasurementCluster::SubscribeAttributeMeasuredValue(Callback: chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PressureMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = PressureMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR PressureMeasurementCluster::ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(PressureMeasurement::Attributes::Ids::MeasuredValue, onReportCallback, + return RequestAttributeReporting(PressureMeasurement::Attributes::MeasuredValue::Id, onReportCallback, BasicAttributeFilter); } @@ -201,14 +201,14 @@ CHIP_ERROR TemperatureMeasurementCluster::SubscribeAttributeMeasuredValue(Callba chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = TemperatureMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = TemperatureMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR TemperatureMeasurementCluster::ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(TemperatureMeasurement::Attributes::Ids::MeasuredValue, onReportCallback, + return RequestAttributeReporting(TemperatureMeasurement::Attributes::MeasuredValue::Id, onReportCallback, BasicAttributeFilter); } diff --git a/zzz_generated/pump-controller-app/zap-generated/CHIPClusters.cpp b/zzz_generated/pump-controller-app/zap-generated/CHIPClusters.cpp index 928d35f12440e5..79b8a2e4995308 100644 --- a/zzz_generated/pump-controller-app/zap-generated/CHIPClusters.cpp +++ b/zzz_generated/pump-controller-app/zap-generated/CHIPClusters.cpp @@ -65,14 +65,14 @@ CHIP_ERROR FlowMeasurementCluster::SubscribeAttributeMeasuredValue(Callback::Can chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = FlowMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = FlowMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR FlowMeasurementCluster::ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(FlowMeasurement::Attributes::Ids::MeasuredValue, onReportCallback, + return RequestAttributeReporting(FlowMeasurement::Attributes::MeasuredValue::Id, onReportCallback, BasicAttributeFilter); } @@ -490,14 +490,14 @@ CHIP_ERROR LevelControlCluster::SubscribeAttributeCurrentLevel(Callback::Cancela chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = LevelControl::Attributes::Ids::CurrentLevel; + attributePath.mFieldId = LevelControl::Attributes::CurrentLevel::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR LevelControlCluster::ReportAttributeCurrentLevel(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(LevelControl::Attributes::Ids::CurrentLevel, onReportCallback, + return RequestAttributeReporting(LevelControl::Attributes::CurrentLevel::Id, onReportCallback, BasicAttributeFilter); } @@ -673,14 +673,14 @@ CHIP_ERROR PressureMeasurementCluster::SubscribeAttributeMeasuredValue(Callback: chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PressureMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = PressureMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR PressureMeasurementCluster::ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(PressureMeasurement::Attributes::Ids::MeasuredValue, onReportCallback, + return RequestAttributeReporting(PressureMeasurement::Attributes::MeasuredValue::Id, onReportCallback, BasicAttributeFilter); } @@ -801,14 +801,14 @@ CHIP_ERROR PumpConfigurationAndControlCluster::SubscribeAttributeCapacity(Callba chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = PumpConfigurationAndControl::Attributes::Ids::Capacity; + attributePath.mFieldId = PumpConfigurationAndControl::Attributes::Capacity::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR PumpConfigurationAndControlCluster::ReportAttributeCapacity(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::Ids::Capacity, onReportCallback, + return RequestAttributeReporting(PumpConfigurationAndControl::Attributes::Capacity::Id, onReportCallback, BasicAttributeFilter); } @@ -874,14 +874,14 @@ CHIP_ERROR TemperatureMeasurementCluster::SubscribeAttributeMeasuredValue(Callba chip::app::AttributePathParams attributePath; attributePath.mEndpointId = mEndpoint; attributePath.mClusterId = mClusterId; - attributePath.mFieldId = TemperatureMeasurement::Attributes::Ids::MeasuredValue; + attributePath.mFieldId = TemperatureMeasurement::Attributes::MeasuredValue::Id; attributePath.mFlags.Set(chip::app::AttributePathParams::Flags::kFieldIdValid); return mDevice->SendSubscribeAttributeRequest(attributePath, minInterval, maxInterval, onSuccessCallback, onFailureCallback); } CHIP_ERROR TemperatureMeasurementCluster::ReportAttributeMeasuredValue(Callback::Cancelable * onReportCallback) { - return RequestAttributeReporting(TemperatureMeasurement::Attributes::Ids::MeasuredValue, onReportCallback, + return RequestAttributeReporting(TemperatureMeasurement::Attributes::MeasuredValue::Id, onReportCallback, BasicAttributeFilter); }