package tradfri import ( "fmt" lucifer3 "git.aiterp.net/lucifer3/server" "git.aiterp.net/lucifer3/server/device" "git.aiterp.net/lucifer3/server/events" "git.aiterp.net/lucifer3/server/internal/color" "git.aiterp.net/lucifer3/server/internal/gentools" "github.com/eriklupander/tradfri-go/tradfri" "math" "math/rand" "strings" "sync" "time" ) type Bridge struct { mx sync.Mutex client *tradfri.Client id string newIP string newCredentials string internalMap map[string]int nameMap map[string]string stateMap map[string]device.State } func connect(ip, credentials string) (bridge *Bridge, retErr error) { bridge = &Bridge{} defer func() { retErr = catchPanic() }() if !strings.Contains(ip, ":") { ip = ip + ":5684" } parts := strings.Split(credentials, ":") if len(parts) == 1 { bridge.client = tradfri.NewTradfriClient(ip, "Client_identity", parts[0]) clientID := fmt.Sprintf("Lucifer4_%d", rand.Intn(10000)) token, err := bridge.client.AuthExchange(clientID) if err != nil { return nil, err } bridge.newCredentials = clientID + ":" + token.Token } else { bridge.client = tradfri.NewTradfriClient(ip, parts[0], parts[1]) bridge.newCredentials = parts[0] + ":" + parts[1] } bridge.newIP = ip bridge.id = fmt.Sprintf("tradfri:%s", ip) return } func (b *Bridge) listen(bus *lucifer3.EventBus) { b.internalMap = make(map[string]int, 16) b.nameMap = make(map[string]string, 16) b.stateMap = make(map[string]device.State, 16) go func() { defer b.mx.Unlock() for { b.mx.Lock() devices, err := b.client.ListDevices() if err != nil { bus.RunEvent(events.DeviceFailed{ ID: b.id, Error: "Unable to fetch IKEA devices", }) return } for _, ikeaDevice := range devices { id := fmt.Sprintf("%s:%d", b.id, ikeaDevice.DeviceId) lc := ikeaDevice.LightControl if len(lc) == 0 { continue } currState := device.State{ Power: gentools.Ptr(lc[0].Power > 0), Intensity: gentools.Ptr(float64(lc[0].Dimmer) / 254), Color: &color.Color{ XY: &color.XY{ X: float64(lc[0].CIE_1931_X) / 65535, Y: float64(lc[0].CIE_1931_Y) / 65535, }, }, } if len(b.nameMap[id]) == 0 { b.internalMap[id] = ikeaDevice.DeviceId b.nameMap[id] = ikeaDevice.Name b.stateMap[id] = currState bus.RunEvent(events.DeviceReady{ID: id}) bus.RunEvent(events.HardwareMetadata{ ID: id, Icon: "lightbulb", }) bus.RunEvent(events.HardwareState{ ID: id, InternalName: ikeaDevice.Name, SupportFlags: defaultSF, ColorFlags: defaultCF, State: b.stateMap[id], }) } b.refreshDevice(id, bus) } b.mx.Unlock() time.Sleep(10 * time.Second) } }() } func (b *Bridge) writeState(id string, state device.State, bus *lucifer3.EventBus) { b.stateMap[id] = state b.refreshDevice(id, bus) } func (b *Bridge) refreshDevice(id string, bus *lucifer3.EventBus) { ikeaDevice, err := b.client.GetDevice(b.internalMap[id]) if err != nil { bus.RunEvent(events.DeviceFailed{ ID: id, Error: "Unable to fetch IKEA device", }) return } changed := false if len(ikeaDevice.LightControl) > 0 { ikeaState := ikeaDevice.LightControl[0] luciferState := b.stateMap[id] currPower := ikeaState.Power > 0 currIntensity := float64(ikeaState.Dimmer) / 254 currX := float64(ikeaState.CIE_1931_X) / 65535 currY := float64(ikeaState.CIE_1931_Y) / 65535 if luciferState.Intensity != nil { newIntensity := *luciferState.Intensity diffIntensity := math.Abs(newIntensity - currIntensity) if diffIntensity >= 0.01 { changed = true intensityInt := int(math.Round(newIntensity * 254)) _, err := b.client.PutDeviceDimming(ikeaDevice.DeviceId, intensityInt) if err != nil { bus.RunEvent(events.DeviceFailed{ ID: id, Error: "Failed to update intensity state", }) return } } } if luciferState.Color != nil && luciferState.Color.XY != nil { newX := luciferState.Color.XY.X newY := luciferState.Color.XY.Y diffX := math.Abs(newX - currX) diffY := math.Abs(newY - currY) if diffX >= 0.0001 || diffY >= 0.0001 { changed = true xInt := int(math.Round(newX * 65535)) yInt := int(math.Round(newY * 65535)) _, err := b.client.PutDeviceColor(ikeaDevice.DeviceId, xInt, yInt) if err != nil { bus.RunEvent(events.DeviceFailed{ ID: id, Error: "Failed to update color state", }) return } } } if luciferState.Power != nil { newPower := *luciferState.Power diffPower := newPower != currPower if diffPower { changed = true powerInt := 0 if newPower { powerInt = 1 } _, err := b.client.PutDevicePower(ikeaDevice.DeviceId, powerInt) if err != nil { bus.RunEvent(events.DeviceFailed{ ID: id, Error: "Failed to update power state", }) return } } } if changed { bus.RunEvent(events.HardwareState{ ID: id, InternalName: ikeaDevice.Name, SupportFlags: defaultSF, ColorFlags: defaultCF, State: luciferState, }) } } } const defaultSF = device.SFlagPower | device.SFlagIntensity | device.SFlagColor const defaultCF = device.CFlagXY func catchPanic(mutexes ...sync.Locker) (retErr error) { if err, ok := recover().(error); ok { retErr = err } for _, mx := range mutexes { mx.Unlock() } return }