package throttle import ( "github.com/cyrilix/robocar-base/service" "github.com/cyrilix/robocar-protobuf/go/events" "github.com/cyrilix/robocar-throttle/pkg/brake" "github.com/cyrilix/robocar-throttle/pkg/types" mqtt "github.com/eclipse/paho.mqtt.golang" "go.uber.org/zap" "google.golang.org/protobuf/proto" "sync" "time" ) func New(client mqtt.Client, throttleTopic, driveModeTopic, rcThrottleTopic, steeringTopic, throttleFeedbackTopic, speedZoneTopic string, maxValue types.Throttle, publishPilotFrequency int, opts ...Option) *Controller { c := &Controller{ client: client, throttleTopic: throttleTopic, driveModeTopic: driveModeTopic, rcThrottleTopic: rcThrottleTopic, steeringTopic: steeringTopic, throttleFeedbackTopic: throttleFeedbackTopic, speedZoneTopic: speedZoneTopic, maxThrottle: maxValue, driveMode: events.DriveMode_USER, publishPilotFrequency: publishPilotFrequency, processor: &SteeringProcessor{minThrottle: 0.1, maxThrottle: maxValue}, brakeCtrl: &brake.DisabledController{}, } for _, o := range opts { o(c) } return c } type Option func(c *Controller) func WithBrakeController(bc brake.Controller) Option { return func(c *Controller) { c.brakeCtrl = bc } } func WithThrottleProcessor(p Processor) Option { return func(c *Controller) { c.processor = p } } type Controller struct { client mqtt.Client throttleTopic string maxThrottle types.Throttle processor Processor muDriveMode sync.RWMutex driveMode events.DriveMode muSteering sync.RWMutex steering types.Steering brakeCtrl brake.Controller cancel chan interface{} publishPilotFrequency int driveModeTopic, rcThrottleTopic, steeringTopic, throttleFeedbackTopic string speedZoneTopic string } func (c *Controller) Start() error { if err := registerCallbacks(c); err != nil { zap.S().Errorf("unable to register callbacks: %v", err) return err } c.cancel = make(chan interface{}) ticker := time.NewTicker(1 * time.Second / time.Duration(c.publishPilotFrequency)) for { select { case <-ticker.C: c.onPublishPilotValue() case <-c.cancel: return nil } } } func (c *Controller) onPublishPilotValue() { c.muDriveMode.RLock() defer c.muDriveMode.RUnlock() if c.driveMode != events.DriveMode_PILOT { return } throttleFromSteering := c.processor.Process(c.readSteering()) throttleMsg := events.ThrottleMessage{ Throttle: float32(c.brakeCtrl.AdjustThrottle(throttleFromSteering)), Confidence: 1.0, } payload, err := proto.Marshal(&throttleMsg) if err != nil { zap.S().Errorf("unable to marshal %v protobuf content: %v", throttleMsg.String(), err) return } publish(c.client, c.throttleTopic, payload) } func (c *Controller) readSteering() types.Steering { c.muSteering.RLock() defer c.muSteering.RUnlock() return c.steering } func (c *Controller) Stop() { close(c.cancel) service.StopService("throttle", c.client, c.driveModeTopic, c.rcThrottleTopic, c.steeringTopic, c.throttleFeedbackTopic, c.speedZoneTopic) } func (c *Controller) onThrottleFeedback(_ mqtt.Client, message mqtt.Message) { var msg events.ThrottleMessage err := proto.Unmarshal(message.Payload(), &msg) if err != nil { zap.S().Errorf("unable to unmarshal protobuf %T message: %v", &msg, err) return } c.brakeCtrl.SetRealThrottle(types.Throttle(msg.GetThrottle())) } func (c *Controller) onDriveMode(_ mqtt.Client, message mqtt.Message) { var msg events.DriveModeMessage err := proto.Unmarshal(message.Payload(), &msg) if err != nil { zap.S().Errorf("unable to unmarshal protobuf %T message: %v", &msg, err) return } c.muDriveMode.Lock() defer c.muDriveMode.Unlock() c.driveMode = msg.GetDriveMode() } func (c *Controller) onRCThrottle(_ mqtt.Client, message mqtt.Message) { c.muDriveMode.RLock() defer c.muDriveMode.RUnlock() if c.driveMode == events.DriveMode_USER { // Republish same content payload := message.Payload() var throttleMsg events.ThrottleMessage err := proto.Unmarshal(payload, &throttleMsg) if err != nil { zap.S().Errorf("unable to unmarshall throttle msg to check throttle value: %v", err) return } zap.S().Debugf("publish new throttle value from rc: %v", throttleMsg.GetThrottle()) if types.Throttle(throttleMsg.GetThrottle()) > c.maxThrottle { zap.S().Debugf("throttle upper that max value allowed, patch value from %v to %v", throttleMsg.GetThrottle(), c.maxThrottle) throttleMsg.Throttle = float32(c.maxThrottle) payloadPatched, err := proto.Marshal(&throttleMsg) if err != nil { zap.S().Errorf("unable to marshall throttle msg: %v", err) return } publish(c.client, c.throttleTopic, payloadPatched) return } publish(c.client, c.throttleTopic, payload) } } func (c *Controller) onSteering(_ mqtt.Client, message mqtt.Message) { var steeringMsg events.SteeringMessage payload := message.Payload() err := proto.Unmarshal(payload, &steeringMsg) if err != nil { zap.S().Errorf("unable to unmarshal steering message, skip value: %v", err) return } c.muSteering.Lock() defer c.muSteering.Unlock() c.steering = types.Steering(steeringMsg.GetSteering()) } func (c *Controller) onSpeedZone(_ mqtt.Client, message mqtt.Message) { var szMsg events.SpeedZoneMessage payload := message.Payload() err := proto.Unmarshal(payload, &szMsg) if err != nil { zap.S().Errorf("unable to unmarshal speedZone message, skip value: %v", err) return } c.processor.SetSpeedZone(szMsg.GetSpeedZone()) } var registerCallbacks = func(p *Controller) error { err := service.RegisterCallback(p.client, p.driveModeTopic, p.onDriveMode) if err != nil { return err } err = service.RegisterCallback(p.client, p.rcThrottleTopic, p.onRCThrottle) if err != nil { return err } err = service.RegisterCallback(p.client, p.steeringTopic, p.onSteering) if err != nil { return err } err = service.RegisterCallback(p.client, p.throttleFeedbackTopic, p.onThrottleFeedback) if err != nil { return err } err = service.RegisterCallback(p.client, p.speedZoneTopic, p.onSpeedZone) if err != nil { return err } return nil } var publish = func(client mqtt.Client, topic string, payload []byte) { client.Publish(topic, 0, false, payload) }