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Add device type power source. Closes
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jadhavrohit924 committed Jul 20, 2023
1 parent 2c8c3a9 commit cf0d7c1
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279 changes: 279 additions & 0 deletions components/esp_matter/esp_matter_attribute.cpp
Original file line number Diff line number Diff line change
Expand Up @@ -2225,5 +2225,284 @@ attribute_t *create_on_mode(cluster_t *cluster, nullable<uint8_t> value)
} /* attribute */
} /* mode_select */

namespace power_source {
namespace attribute {

attribute_t *create_status(cluster_t *cluster, uint8_t value)
{
return esp_matter::attribute::create(cluster, PowerSource::Attributes::Status::Id, ATTRIBUTE_FLAG_NONE, esp_matter_enum8(value));
}

attribute_t *create_order(cluster_t *cluster, uint8_t value, uint8_t min, uint8_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::Order::Id, ATTRIBUTE_FLAG_NONVOLATILE, esp_matter_uint8(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint8(min), esp_matter_uint8(max));
return attribute;
}

attribute_t *create_description(cluster_t *cluster, const char * value, uint16_t length)
{
if (length > k_max_description_length) {
ESP_LOGE(TAG, "Could not create attribute, string length out of bound");
return NULL;
}
return esp_matter::attribute::create(cluster, PowerSource::Attributes::Description::Id, ATTRIBUTE_FLAG_NONE, esp_matter_char_str((char *)value, length));
}

attribute_t *create_wired_assessed_input_voltage(cluster_t *cluster, nullable<uint32_t> value, uint32_t min, uint32_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::WiredAssessedInputVoltage::Id, ATTRIBUTE_FLAG_NULLABLE, esp_matter_nullable_uint32(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint32(min), esp_matter_uint32(max));
return attribute;
}

attribute_t *create_wired_assessed_input_frequency(cluster_t *cluster, nullable<uint16_t> value, uint16_t min, uint16_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::WiredAssessedInputFrequency::Id, ATTRIBUTE_FLAG_NULLABLE, esp_matter_nullable_uint16(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint16(min), esp_matter_uint16(max));
return attribute;
}

attribute_t *create_wired_current_type(cluster_t *cluster, const uint8_t value)
{
return esp_matter::attribute::create(cluster, PowerSource::Attributes::WiredCurrentType::Id, ATTRIBUTE_FLAG_NONE, esp_matter_enum8(value));
}

attribute_t *create_wired_assessed_current(cluster_t *cluster, nullable<uint32_t> value, uint32_t min, uint32_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::WiredAssessedCurrent::Id, ATTRIBUTE_FLAG_NULLABLE, esp_matter_nullable_uint32(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint32(min), esp_matter_uint32(max));
return attribute;
}

attribute_t *create_wired_nominal_voltage(cluster_t *cluster, const uint32_t value, uint32_t min, uint32_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::WiredNominalVoltage::Id, ATTRIBUTE_FLAG_NONE, esp_matter_uint32(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint32(min), esp_matter_uint32(max));
return attribute;
}

attribute_t *create_wired_maximum_current(cluster_t *cluster, const uint32_t value, uint32_t min, uint32_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::WiredMaximumCurrent::Id, ATTRIBUTE_FLAG_NONE, esp_matter_uint32(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint32(min), esp_matter_uint32(max));
return attribute;
}

attribute_t *create_wired_present(cluster_t *cluster, bool value)
{
return esp_matter::attribute::create(cluster, PowerSource::Attributes::WiredPresent::Id, ATTRIBUTE_FLAG_NONE, esp_matter_bool(value));
}

attribute_t *create_active_wired_faults(cluster_t *cluster, uint8_t * value, uint16_t length, uint16_t count)
{
if (count > k_max_fault_count) {
ESP_LOGE(TAG, "Could not create attribute, list out of bound");
return NULL;
}
return esp_matter::attribute::create(cluster, PowerSource::Attributes::ActiveWiredFaults::Id, ATTRIBUTE_FLAG_NONE, esp_matter_array(value, length, count));
}

attribute_t *create_bat_voltage(cluster_t *cluster, nullable<uint32_t> value, uint32_t min, uint32_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::BatVoltage::Id, ATTRIBUTE_FLAG_NULLABLE, esp_matter_nullable_uint32(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint32(min), esp_matter_uint32(max));
return attribute;
}

attribute_t *create_bat_percent_remaining(cluster_t *cluster, nullable<uint8_t> value, uint8_t min, uint8_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::BatPercentRemaining::Id, ATTRIBUTE_FLAG_NULLABLE, esp_matter_nullable_uint8(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint8(min), esp_matter_uint8(max));
return attribute;
}

attribute_t *create_bat_time_remaining(cluster_t *cluster, nullable<uint32_t> value, uint32_t min, uint32_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::BatTimeRemaining::Id, ATTRIBUTE_FLAG_NULLABLE, esp_matter_nullable_uint32(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint32(min), esp_matter_uint32(max));
return attribute;
}

attribute_t *create_bat_charge_level(cluster_t *cluster, uint8_t value)
{
return esp_matter::attribute::create(cluster, PowerSource::Attributes::BatChargeLevel::Id, ATTRIBUTE_FLAG_NONE, esp_matter_enum8(value));
}

attribute_t *create_bat_replacement_needed(cluster_t *cluster, bool value)
{
return esp_matter::attribute::create(cluster, PowerSource::Attributes::BatReplacementNeeded::Id, ATTRIBUTE_FLAG_NONE, esp_matter_bool(value));
}

attribute_t *create_bat_replaceability(cluster_t *cluster, const uint8_t value)
{
return esp_matter::attribute::create(cluster, PowerSource::Attributes::BatReplaceability::Id, ATTRIBUTE_FLAG_NONE, esp_matter_enum8(value));
}

attribute_t *create_bat_present(cluster_t *cluster, bool value)
{
return esp_matter::attribute::create(cluster, PowerSource::Attributes::BatPresent::Id, ATTRIBUTE_FLAG_NONE, esp_matter_bool(value));
}

attribute_t *create_active_bat_faults(cluster_t *cluster, uint8_t * value, uint16_t length, uint16_t count)
{
if (count > k_max_fault_count) {
ESP_LOGE(TAG, "Could not create attribute, list out of bound");
return NULL;
}
return esp_matter::attribute::create(cluster, PowerSource::Attributes::ActiveBatFaults::Id, ATTRIBUTE_FLAG_NONE, esp_matter_array(value, length, count));
}

attribute_t *create_bat_replacement_description(cluster_t *cluster, const char * value, uint16_t length)
{
if (length > k_max_description_length) {
ESP_LOGE(TAG, "Could not create attribute, string size out of bound");
return NULL;
}
return esp_matter::attribute::create(cluster, PowerSource::Attributes::BatReplacementDescription::Id, ATTRIBUTE_FLAG_NONE, esp_matter_char_str((char *)value, length));
}

attribute_t *create_bat_common_designation(cluster_t *cluster, const uint8_t value, uint8_t min, uint8_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::BatCommonDesignation::Id, ATTRIBUTE_FLAG_NONE, esp_matter_enum8(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_enum8(min), esp_matter_enum8(max));
return attribute;
}

attribute_t *create_bat_ansi_designation(cluster_t *cluster, const char * value, uint16_t length)
{
if (length > k_max_designation_count) {
ESP_LOGE(TAG, "Could not create attribute, string size out of bound");
return NULL;
}
return esp_matter::attribute::create(cluster, PowerSource::Attributes::BatANSIDesignation::Id, ATTRIBUTE_FLAG_NONE, esp_matter_char_str((char *)value, length));
}

attribute_t *create_bat_iec_designation(cluster_t *cluster, const char * value, uint16_t length)
{
if (length > k_max_designation_count) {
ESP_LOGE(TAG, "Could not create attribute, string size out of bound");
return NULL;
}
return esp_matter::attribute::create(cluster, PowerSource::Attributes::BatIECDesignation::Id, ATTRIBUTE_FLAG_NONE, esp_matter_char_str((char *)value, length));
}

attribute_t *create_bat_approved_chemistry(cluster_t *cluster, const uint8_t value, uint8_t min, uint8_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::BatApprovedChemistry::Id, ATTRIBUTE_FLAG_NONE, esp_matter_enum8(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_enum8(min), esp_matter_enum8(max));
return attribute;
}

attribute_t *create_bat_capacity(cluster_t *cluster, const uint32_t value, uint32_t min, uint32_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::BatCapacity::Id, ATTRIBUTE_FLAG_NONE, esp_matter_uint32(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint32(min), esp_matter_uint32(max));
return attribute;
}

attribute_t *create_bat_quantity(cluster_t *cluster, const uint8_t value, uint8_t min, uint8_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::BatQuantity::Id, ATTRIBUTE_FLAG_NONE, esp_matter_uint8(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint8(min), esp_matter_uint8(max));
return attribute;
}

attribute_t *create_bat_charge_state(cluster_t *cluster, uint8_t value)
{
return esp_matter::attribute::create(cluster, PowerSource::Attributes::BatChargeState::Id, ATTRIBUTE_FLAG_NONE, esp_matter_enum8(value));
}

attribute_t *create_bat_time_to_full_charge(cluster_t *cluster, nullable<uint32_t> value, uint32_t min, uint32_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::BatTimeToFullCharge::Id, ATTRIBUTE_FLAG_NULLABLE, esp_matter_nullable_uint32(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint32(min), esp_matter_uint32(max));
return attribute;
}

attribute_t *create_bat_functional_while_charging(cluster_t *cluster, bool value)
{
return esp_matter::attribute::create(cluster, PowerSource::Attributes::BatFunctionalWhileCharging::Id, ATTRIBUTE_FLAG_NONE, esp_matter_bool(value));
}

attribute_t *create_bat_charging_current(cluster_t *cluster, nullable<uint32_t> value, uint32_t min, uint32_t max)
{
attribute_t *attribute = esp_matter::attribute::create(cluster, PowerSource::Attributes::BatChargingCurrent::Id, ATTRIBUTE_FLAG_NULLABLE, esp_matter_nullable_uint32(value));
if (!attribute) {
ESP_LOGE(TAG, "Could not create attribute");
return NULL;
}
esp_matter::attribute::add_bounds(attribute, esp_matter_uint32(min), esp_matter_uint32(max));
return attribute;
}

attribute_t *create_active_bat_charge_faults(cluster_t *cluster, uint8_t * value, uint16_t length, uint16_t count)
{
if (count > k_max_charge_faults_count) {
ESP_LOGE(TAG, "Could not create attribute, list out of bound");
return NULL;
}
return esp_matter::attribute::create(cluster, PowerSource::Attributes::ActiveBatChargeFaults::Id, ATTRIBUTE_FLAG_NONE, esp_matter_array(value, length, count));
}

} /* attribute */
} /* power_source */

} /* cluster */
} /* esp_matter */
41 changes: 41 additions & 0 deletions components/esp_matter/esp_matter_attribute.h
Original file line number Diff line number Diff line change
Expand Up @@ -540,5 +540,46 @@ attribute_t *create_on_mode(cluster_t *cluster, nullable<uint8_t> value);
} /* attribute */
} /* mode_select */

namespace power_source {
constexpr uint8_t k_max_description_length = 60;
constexpr uint8_t k_max_fault_count = 8;
constexpr uint8_t k_max_designation_count = 20;
constexpr uint8_t k_max_charge_faults_count = 16;

namespace attribute {
attribute_t *create_status(cluster_t *cluster, uint8_t value);
attribute_t *create_order(cluster_t *cluster, uint8_t value, uint8_t min, uint8_t max);
attribute_t *create_description(cluster_t *cluster, const char * value, uint16_t length);
attribute_t *create_wired_assessed_input_voltage(cluster_t *cluster, nullable<uint32_t> value, uint32_t min, uint32_t max);
attribute_t *create_wired_assessed_input_frequency(cluster_t *cluster, nullable<uint16_t> value, uint16_t min, uint16_t max);
attribute_t *create_wired_current_type(cluster_t *cluster, const uint8_t value);
attribute_t *create_wired_assessed_current(cluster_t *cluster, nullable<uint32_t> value, uint32_t min, uint32_t max);
attribute_t *create_wired_nominal_voltage(cluster_t *cluster, const uint32_t value, uint32_t min, uint32_t max);
attribute_t *create_wired_maximum_current(cluster_t *cluster, const uint32_t value, uint32_t min, uint32_t max);
attribute_t *create_wired_present(cluster_t *cluster, bool value);
attribute_t *create_active_wired_faults(cluster_t *cluster, uint8_t * value, uint16_t length, uint16_t count);
attribute_t *create_bat_voltage(cluster_t *cluster, nullable<uint32_t> value, uint32_t min, uint32_t max);
attribute_t *create_bat_percent_remaining(cluster_t *cluster, nullable<uint8_t> value, uint8_t min, uint8_t max);
attribute_t *create_bat_time_remaining(cluster_t *cluster, nullable< uint32_t> value, uint32_t min, uint32_t max);
attribute_t *create_bat_charge_level(cluster_t *cluster, uint8_t value);
attribute_t *create_bat_replacement_needed(cluster_t *cluster, bool value);
attribute_t *create_bat_replaceability(cluster_t *cluster, const uint8_t value);
attribute_t *create_bat_present(cluster_t *cluster, bool value);
attribute_t *create_active_bat_faults(cluster_t *cluster, uint8_t * value, uint16_t length, uint16_t count);
attribute_t *create_bat_replacement_description(cluster_t *cluster, const char * value, uint16_t length);
attribute_t *create_bat_common_designation(cluster_t *cluster, const uint8_t value, uint8_t min, uint8_t max);
attribute_t *create_bat_ansi_designation(cluster_t *cluster, const char * value, uint16_t length);
attribute_t *create_bat_iec_designation(cluster_t *cluster, const char * value, uint16_t length);
attribute_t *create_bat_approved_chemistry(cluster_t *cluster, const uint8_t value, uint8_t min, uint8_t max);
attribute_t *create_bat_capacity(cluster_t *cluster, const uint32_t value, uint32_t min, uint32_t max);
attribute_t *create_bat_quantity(cluster_t *cluster, const uint8_t value, uint8_t min, uint8_t max);
attribute_t *create_bat_charge_state(cluster_t *cluster, uint8_t value);
attribute_t *create_bat_time_to_full_charge(cluster_t *cluster, nullable<uint32_t> value, uint32_t min, uint32_t max);
attribute_t *create_bat_functional_while_charging(cluster_t *cluster, bool value);
attribute_t *create_bat_charging_current(cluster_t *cluster, nullable<uint32_t> value, uint32_t min, uint32_t max);
attribute_t *create_active_bat_charge_faults(cluster_t *cluster, uint8_t * value, uint16_t length, uint16_t count);
} /* attribute */
} /* power_source */

} /* cluster */
} /* esp_matter */
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