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gap_linux.go
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//go:build !baremetal
package bluetooth
import (
"errors"
"fmt"
"strings"
"sync/atomic"
"github.com/godbus/dbus/v5"
"github.com/godbus/dbus/v5/prop"
)
var errAdvertisementNotStarted = errors.New("bluetooth: stop advertisement that was not started")
var errAdvertisementAlreadyStarted = errors.New("bluetooth: start advertisement that was already started")
// Unique ID per advertisement (to generate a unique object path).
var advertisementID uint64
// Address contains a Bluetooth MAC address.
type Address struct {
MACAddress
}
// Advertisement encapsulates a single advertisement instance.
type Advertisement struct {
adapter *Adapter
properties *prop.Properties
path dbus.ObjectPath
}
// DefaultAdvertisement returns the default advertisement instance but does not
// configure it.
func (a *Adapter) DefaultAdvertisement() *Advertisement {
if a.defaultAdvertisement == nil {
a.defaultAdvertisement = &Advertisement{
adapter: a,
}
}
return a.defaultAdvertisement
}
// Configure this advertisement.
//
// On Linux with BlueZ, it is not possible to set the advertisement interval.
func (a *Advertisement) Configure(options AdvertisementOptions) error {
if a.properties != nil {
panic("todo: configure advertisement a second time")
}
var serviceUUIDs []string
for _, uuid := range options.ServiceUUIDs {
serviceUUIDs = append(serviceUUIDs, uuid.String())
}
var serviceData = make(map[string]interface{})
for _, element := range options.ServiceData {
serviceData[element.UUID.String()] = element.Data
}
// Convert map[uint16][]byte to map[uint16]any because that's what BlueZ needs.
manufacturerData := map[uint16]any{}
for _, element := range options.ManufacturerData {
manufacturerData[element.CompanyID] = element.Data
}
// Build an org.bluez.LEAdvertisement1 object, to be exported over DBus.
// See:
// https://git.kernel.org/pub/scm/bluetooth/bluez.git/tree/doc/org.bluez.LEAdvertisement.rst
id := atomic.AddUint64(&advertisementID, 1)
a.path = dbus.ObjectPath(fmt.Sprintf("/org/tinygo/bluetooth/advertisement%d", id))
propsSpec := map[string]map[string]*prop.Prop{
"org.bluez.LEAdvertisement1": {
"Type": {Value: "broadcast"},
"ServiceUUIDs": {Value: serviceUUIDs},
"ManufacturerData": {Value: manufacturerData},
"LocalName": {Value: options.LocalName},
"ServiceData": {Value: serviceData},
// The documentation states:
// > Timeout of the advertisement in seconds. This defines the
// > lifetime of the advertisement.
// however, the value 0 also works, and presumably means "no
// timeout".
"Timeout": {Value: uint16(0)},
// TODO: MinInterval and MaxInterval (experimental as of BlueZ 5.71)
},
}
props, err := prop.Export(a.adapter.bus, a.path, propsSpec)
if err != nil {
return err
}
a.properties = props
return nil
}
// Start advertisement. May only be called after it has been configured.
func (a *Advertisement) Start() error {
// Register our advertisement object to start advertising.
err := a.adapter.adapter.Call("org.bluez.LEAdvertisingManager1.RegisterAdvertisement", 0, a.path, map[string]interface{}{}).Err
if err != nil {
if err, ok := err.(dbus.Error); ok && err.Name == "org.bluez.Error.AlreadyExists" {
return errAdvertisementAlreadyStarted
}
return fmt.Errorf("bluetooth: could not start advertisement: %w", err)
}
// Make us discoverable.
err = a.adapter.adapter.SetProperty("org.bluez.Adapter1.Discoverable", dbus.MakeVariant(true))
if err != nil {
return fmt.Errorf("bluetooth: could not start advertisement: %w", err)
}
return nil
}
// Stop advertisement. May only be called after it has been started.
func (a *Advertisement) Stop() error {
err := a.adapter.adapter.Call("org.bluez.LEAdvertisingManager1.UnregisterAdvertisement", 0, a.path).Err
if err != nil {
if err, ok := err.(dbus.Error); ok && err.Name == "org.bluez.Error.DoesNotExist" {
return errAdvertisementNotStarted
}
return fmt.Errorf("bluetooth: could not stop advertisement: %w", err)
}
return nil
}
// Scan starts a BLE scan. It is stopped by a call to StopScan. A common pattern
// is to cancel the scan when a particular device has been found.
//
// On Linux with BlueZ, incoming packets cannot be observed directly. Instead,
// existing devices are watched for property changes. This closely simulates the
// behavior as if the actual packets were observed, but it has flaws: it is
// possible some events are missed and perhaps even possible that some events
// are duplicated.
func (a *Adapter) Scan(callback func(*Adapter, ScanResult)) error {
if a.scanCancelChan != nil {
return errScanning
}
// Channel that will be closed when the scan is stopped.
// Detecting whether the scan is stopped can be done by doing a non-blocking
// read from it. If it succeeds, the scan is stopped.
cancelChan := make(chan struct{})
a.scanCancelChan = cancelChan
// This appears to be necessary to receive any BLE discovery results at all.
defer a.adapter.Call("org.bluez.Adapter1.SetDiscoveryFilter", 0)
err := a.adapter.Call("org.bluez.Adapter1.SetDiscoveryFilter", 0, map[string]interface{}{
"Transport": "le",
}).Err
if err != nil {
return err
}
signal := make(chan *dbus.Signal)
a.bus.Signal(signal)
defer a.bus.RemoveSignal(signal)
propertiesChangedMatchOptions := []dbus.MatchOption{dbus.WithMatchInterface("org.freedesktop.DBus.Properties")}
a.bus.AddMatchSignal(propertiesChangedMatchOptions...)
defer a.bus.RemoveMatchSignal(propertiesChangedMatchOptions...)
newObjectMatchOptions := []dbus.MatchOption{dbus.WithMatchInterface("org.freedesktop.DBus.ObjectManager")}
a.bus.AddMatchSignal(newObjectMatchOptions...)
defer a.bus.RemoveMatchSignal(newObjectMatchOptions...)
// Go through all connected devices and present the connected devices as
// scan results. Also save the properties so that the full list of
// properties is known on a PropertiesChanged signal. We can't present the
// list of cached devices as scan results as devices may be cached for a
// long time, long after they have moved out of range.
var deviceList map[dbus.ObjectPath]map[string]map[string]dbus.Variant
err = a.bluez.Call("org.freedesktop.DBus.ObjectManager.GetManagedObjects", 0).Store(&deviceList)
if err != nil {
return err
}
devices := make(map[dbus.ObjectPath]map[string]dbus.Variant)
for path, v := range deviceList {
device, ok := v["org.bluez.Device1"]
if !ok {
continue // not a device
}
if !strings.HasPrefix(string(path), string(a.adapter.Path())) {
continue // not part of our adapter
}
if device["Connected"].Value().(bool) {
callback(a, makeScanResult(device))
select {
case <-cancelChan:
return nil
default:
}
}
devices[path] = device
}
// Instruct BlueZ to start discovering.
err = a.adapter.Call("org.bluez.Adapter1.StartDiscovery", 0).Err
if err != nil {
return err
}
for {
// Check whether the scan is stopped. This is necessary to avoid a race
// condition between the signal channel and the cancelScan channel when
// the callback calls StopScan() (no new callbacks may be called after
// StopScan is called).
select {
case <-cancelChan:
return a.adapter.Call("org.bluez.Adapter1.StopDiscovery", 0).Err
default:
}
select {
case sig := <-signal:
// This channel receives anything that we watch for, so we'll have
// to check for signals that are relevant to us.
switch sig.Name {
case "org.freedesktop.DBus.ObjectManager.InterfacesAdded":
objectPath := sig.Body[0].(dbus.ObjectPath)
interfaces := sig.Body[1].(map[string]map[string]dbus.Variant)
rawprops, ok := interfaces["org.bluez.Device1"]
if !ok {
continue
}
devices[objectPath] = rawprops
callback(a, makeScanResult(rawprops))
case "org.freedesktop.DBus.Properties.PropertiesChanged":
interfaceName := sig.Body[0].(string)
if interfaceName != "org.bluez.Device1" {
continue
}
changes := sig.Body[1].(map[string]dbus.Variant)
device, ok := devices[sig.Path]
if !ok {
// This shouldn't happen, but protect against it just in
// case.
continue
}
for k, v := range changes {
device[k] = v
}
callback(a, makeScanResult(device))
}
case <-cancelChan:
continue
}
}
// unreachable
}
// StopScan stops any in-progress scan. It can be called from within a Scan
// callback to stop the current scan. If no scan is in progress, an error will
// be returned.
func (a *Adapter) StopScan() error {
if a.scanCancelChan == nil {
return errNotScanning
}
close(a.scanCancelChan)
a.scanCancelChan = nil
return nil
}
// makeScanResult creates a ScanResult from a raw DBus device.
func makeScanResult(props map[string]dbus.Variant) ScanResult {
// Assume the Address property is well-formed.
addr, _ := ParseMAC(props["Address"].Value().(string))
// Create a list of UUIDs.
var serviceUUIDs []UUID
for _, uuid := range props["UUIDs"].Value().([]string) {
// Assume the UUID is well-formed.
parsedUUID, _ := ParseUUID(uuid)
serviceUUIDs = append(serviceUUIDs, parsedUUID)
}
a := Address{MACAddress{MAC: addr}}
a.SetRandom(props["AddressType"].Value().(string) == "random")
var manufacturerData []ManufacturerDataElement
if mdata, ok := props["ManufacturerData"].Value().(map[uint16]dbus.Variant); ok {
for k, v := range mdata {
manufacturerData = append(manufacturerData, ManufacturerDataElement{
CompanyID: k,
Data: v.Value().([]byte),
})
}
}
// Get optional properties.
localName, _ := props["Name"].Value().(string)
rssi, _ := props["RSSI"].Value().(int16)
var serviceData []ServiceDataElement
if sdata, ok := props["ServiceData"].Value().(map[string]dbus.Variant); ok {
for k, v := range sdata {
uuid, err := ParseUUID(k)
if err != nil {
continue
}
serviceData = append(serviceData, ServiceDataElement{
UUID: uuid,
Data: v.Value().([]byte),
})
}
}
return ScanResult{
RSSI: rssi,
Address: a,
AdvertisementPayload: &advertisementFields{
AdvertisementFields{
LocalName: localName,
ServiceUUIDs: serviceUUIDs,
ManufacturerData: manufacturerData,
ServiceData: serviceData,
},
},
}
}
// Device is a connection to a remote peripheral.
type Device struct {
Address Address // the MAC address of the device
device dbus.BusObject // bluez device interface
adapter *Adapter // the adapter that was used to form this device connection
}
// Connect starts a connection attempt to the given peripheral device address.
//
// On Linux and Windows, the IsRandom part of the address is ignored.
func (a *Adapter) Connect(address Address, params ConnectionParams) (Device, error) {
devicePath := dbus.ObjectPath(string(a.adapter.Path()) + "/dev_" + strings.Replace(address.MAC.String(), ":", "_", -1))
device := Device{
Address: address,
device: a.bus.Object("org.bluez", devicePath),
adapter: a,
}
// Already start watching for property changes. We do this before reading
// the Connected property below to avoid a race condition: if the device
// were connected between the two calls the signal wouldn't be picked up.
signal := make(chan *dbus.Signal)
a.bus.Signal(signal)
defer a.bus.RemoveSignal(signal)
propertiesChangedMatchOptions := []dbus.MatchOption{dbus.WithMatchInterface("org.freedesktop.DBus.Properties")}
a.bus.AddMatchSignal(propertiesChangedMatchOptions...)
defer a.bus.RemoveMatchSignal(propertiesChangedMatchOptions...)
// Read whether this device is already connected.
connected, err := device.device.GetProperty("org.bluez.Device1.Connected")
if err != nil {
return Device{}, err
}
// Connect to the device, if not already connected.
if !connected.Value().(bool) {
// Start connecting (async).
err := device.device.Call("org.bluez.Device1.Connect", 0).Err
if err != nil {
return Device{}, fmt.Errorf("bluetooth: failed to connect: %w", err)
}
// Wait until the device has connected.
connectChan := make(chan struct{})
go func() {
for sig := range signal {
switch sig.Name {
case "org.freedesktop.DBus.Properties.PropertiesChanged":
interfaceName := sig.Body[0].(string)
if interfaceName != "org.bluez.Device1" {
continue
}
if sig.Path != device.device.Path() {
continue
}
changes := sig.Body[1].(map[string]dbus.Variant)
if connected, ok := changes["Connected"].Value().(bool); ok && connected {
close(connectChan)
}
}
}
}()
<-connectChan
}
return device, nil
}
// Disconnect from the BLE device. This method is non-blocking and does not
// wait until the connection is fully gone.
func (d Device) Disconnect() error {
// we don't call our cancel function here, instead we wait for the
// property change in `watchForConnect` and cancel things then
return d.device.Call("org.bluez.Device1.Disconnect", 0).Err
}
// RequestConnectionParams requests a different connection latency and timeout
// of the given device connection. Fields that are unset will be left alone.
// Whether or not the device will actually honor this, depends on the device and
// on the specific parameters.
//
// On Linux, this call doesn't do anything because BlueZ doesn't support
// changing the connection latency.
func (d Device) RequestConnectionParams(params ConnectionParams) error {
return nil
}