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gattc_darwin.go
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gattc_darwin.go
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package bluetooth
import (
"errors"
"time"
"github.com/tinygo-org/cbgo"
)
// DiscoverServices starts a service discovery procedure. Pass a list of service
// UUIDs you are interested in to this function. Either a slice of all services
// is returned (of the same length as the requested UUIDs and in the same
// order), or if some services could not be discovered an error is returned.
//
// Passing a nil slice of UUIDs will return a complete list of
// services.
func (d Device) DiscoverServices(uuids []UUID) ([]DeviceService, error) {
d.prph.DiscoverServices([]cbgo.UUID{})
// clear cache of services
d.services = make(map[UUID]DeviceService)
// wait on channel for service discovery
select {
case <-d.servicesChan:
svcs := []DeviceService{}
for _, dsvc := range d.prph.Services() {
dsvcuuid, _ := ParseUUID(dsvc.UUID().String())
// add if in our original list
if len(uuids) > 0 {
found := false
for _, uuid := range uuids {
if dsvcuuid.String() == uuid.String() {
// one of the services we're looking for.
found = true
break
}
}
if !found {
continue
}
}
svc := DeviceService{
deviceService: &deviceService{
uuidWrapper: dsvcuuid,
device: d,
service: dsvc,
},
}
svcs = append(svcs, svc)
d.services[svc.uuidWrapper] = svc
}
return svcs, nil
case <-time.NewTimer(10 * time.Second).C:
return nil, errors.New("timeout on DiscoverServices")
}
}
// uuidWrapper is a type alias for UUID so we ensure no conflicts with
// struct method of the same name.
type uuidWrapper = UUID
// DeviceService is a BLE service on a connected peripheral device.
type DeviceService struct {
*deviceService // embdedded as pointer to enable returning by []value in DiscoverServices
}
type deviceService struct {
uuidWrapper
device Device
service cbgo.Service
characteristics []DeviceCharacteristic
}
// UUID returns the UUID for this DeviceService.
func (s DeviceService) UUID() UUID {
return s.uuidWrapper
}
// DiscoverCharacteristics discovers characteristics in this service. Pass a
// list of characteristic UUIDs you are interested in to this function. Either a
// list of all requested services is returned, or if some services could not be
// discovered an error is returned. If there is no error, the characteristics
// slice has the same length as the UUID slice with characteristics in the same
// order in the slice as in the requested UUID list.
//
// Passing a nil slice of UUIDs will return a complete list of
// characteristics.
func (s DeviceService) DiscoverCharacteristics(uuids []UUID) ([]DeviceCharacteristic, error) {
cbuuids := []cbgo.UUID{}
s.device.prph.DiscoverCharacteristics(cbuuids, s.service)
// clear cache of characteristics
s.characteristics = make([]DeviceCharacteristic, 0)
// wait on channel for characteristic discovery
select {
case <-s.device.charsChan:
var chars []DeviceCharacteristic
if len(uuids) > 0 {
// The caller wants to get a list of characteristics in a specific
// order.
chars = make([]DeviceCharacteristic, len(uuids))
}
for _, dchar := range s.service.Characteristics() {
dcuuid, _ := ParseUUID(dchar.UUID().String())
if len(uuids) > 0 {
// The caller wants to get a list of characteristics in a
// specific order. Check whether this is one of those.
for i, uuid := range uuids {
if chars[i] != (DeviceCharacteristic{}) {
// To support multiple identical characteristics, we
// need to ignore the characteristics that are already
// found. See:
// https://github.com/tinygo-org/bluetooth/issues/131
continue
}
if dcuuid == uuid {
// one of the characteristics we're looking for.
chars[i] = s.makeCharacteristic(dcuuid, dchar)
break
}
}
} else {
// The caller wants to get all characteristics, in any order.
chars = append(chars, s.makeCharacteristic(dcuuid, dchar))
}
}
for _, char := range chars {
if char == (DeviceCharacteristic{}) {
return nil, errors.New("bluetooth: did not find all requested characteristic")
}
}
return chars, nil
case <-time.NewTimer(10 * time.Second).C:
return nil, errors.New("timeout on DiscoverCharacteristics")
}
}
// Small helper to create a DeviceCharacteristic object.
func (s DeviceService) makeCharacteristic(uuid UUID, dchar cbgo.Characteristic) DeviceCharacteristic {
char := DeviceCharacteristic{
deviceCharacteristic: &deviceCharacteristic{
uuidWrapper: uuid,
service: s,
characteristic: dchar,
},
}
s.characteristics = append(s.characteristics, char)
return char
}
// DeviceCharacteristic is a BLE characteristic on a connected peripheral
// device.
type DeviceCharacteristic struct {
*deviceCharacteristic
}
type deviceCharacteristic struct {
uuidWrapper
service DeviceService
characteristic cbgo.Characteristic
callback func(buf []byte)
readChan chan error
writeChan chan error
}
// UUID returns the UUID for this DeviceCharacteristic.
func (c DeviceCharacteristic) UUID() UUID {
return c.uuidWrapper
}
// Write replaces the characteristic value with a new value. The
// call will return after all data has been written.
func (c DeviceCharacteristic) Write(p []byte) (n int, err error) {
c.writeChan = make(chan error)
c.service.device.prph.WriteCharacteristic(p, c.characteristic, true)
// wait for result
select {
case <-time.NewTimer(10 * time.Second).C:
err = errors.New("timeout on Write()")
case err = <-c.writeChan:
}
c.writeChan = nil
if err != nil {
return 0, err
}
return len(p), nil
}
// WriteWithoutResponse replaces the characteristic value with a new value. The
// call will return before all data has been written. A limited number of such
// writes can be in flight at any given time. This call is also known as a
// "write command" (as opposed to a write request).
func (c DeviceCharacteristic) WriteWithoutResponse(p []byte) (n int, err error) {
c.service.device.prph.WriteCharacteristic(p, c.characteristic, false)
return len(p), nil
}
// EnableNotifications enables notifications in the Client Characteristic
// Configuration Descriptor (CCCD). This means that most peripherals will send a
// notification with a new value every time the value of the characteristic
// changes.
func (c DeviceCharacteristic) EnableNotifications(callback func(buf []byte)) error {
if callback == nil {
return errors.New("must provide a callback for EnableNotifications")
}
c.callback = callback
c.service.device.prph.SetNotify(true, c.characteristic)
return nil
}
// GetMTU returns the MTU for the characteristic.
func (c DeviceCharacteristic) GetMTU() (uint16, error) {
return uint16(c.service.device.prph.MaximumWriteValueLength(false)), nil
}
// Read reads the current characteristic value.
func (c *deviceCharacteristic) Read(data []byte) (n int, err error) {
c.readChan = make(chan error)
c.service.device.prph.ReadCharacteristic(c.characteristic)
// wait for result
select {
case err := <-c.readChan:
c.readChan = nil
if err != nil {
return 0, err
}
case <-time.NewTimer(10 * time.Second).C:
c.readChan = nil
return 0, errors.New("timeout on Read()")
}
copy(data, c.characteristic.Value())
return len(c.characteristic.Value()), nil
}