package raspi import ( "errors" "fmt" "io/ioutil" "os" "strconv" "strings" "github.com/hybridgroup/gobot" "github.com/hybridgroup/gobot/sysfs" ) var readFile = func() ([]byte, error) { return ioutil.ReadFile("/proc/cpuinfo") } type RaspiAdaptor struct { name string revision string i2cLocation string digitalPins map[int]sysfs.DigitalPin pwmPins []int i2cDevice sysfs.I2cDevice } var pins = map[string]map[string]int{ "3": map[string]int{ "1": 0, "2": 2, "3": 2, }, "5": map[string]int{ "1": 1, "2": 3, "3": 3, }, "7": map[string]int{ "*": 4, }, "8": map[string]int{ "*": 14, }, "10": map[string]int{ "*": 15, }, "11": map[string]int{ "*": 17, }, "12": map[string]int{ "*": 18, }, "13": map[string]int{ "1": 21, "2": 27, "3": 27, }, "15": map[string]int{ "*": 22, }, "16": map[string]int{ "*": 23, }, "18": map[string]int{ "*": 24, }, "19": map[string]int{ "*": 10, }, "21": map[string]int{ "*": 9, }, "22": map[string]int{ "*": 25, }, "23": map[string]int{ "*": 11, }, "24": map[string]int{ "*": 8, }, "26": map[string]int{ "*": 7, }, "29": map[string]int{ "3": 5, }, "31": map[string]int{ "3": 6, }, "32": map[string]int{ "3": 12, }, "33": map[string]int{ "3": 13, }, "35": map[string]int{ "3": 19, }, "36": map[string]int{ "3": 16, }, "37": map[string]int{ "3": 26, }, "38": map[string]int{ "3": 20, }, "40": map[string]int{ "3": 21, }, } // NewRaspiAdaptor creates a RaspiAdaptor with specified name and func NewRaspiAdaptor(name string) *RaspiAdaptor { r := &RaspiAdaptor{ name: name, digitalPins: make(map[int]sysfs.DigitalPin), pwmPins: []int{}, } content, _ := readFile() for _, v := range strings.Split(string(content), "\n") { if strings.Contains(v, "Revision") { s := strings.Split(string(v), " ") version, _ := strconv.ParseInt("0x"+s[len(s)-1], 0, 64) r.i2cLocation = "/dev/i2c-1" if version <= 3 { r.revision = "1" r.i2cLocation = "/dev/i2c-0" } else if version <= 15 { r.revision = "2" } else { r.revision = "3" } } } return r } func (r *RaspiAdaptor) Name() string { return r.name } // Connect starts connection with board and creates // digitalPins and pwmPins adaptor maps func (r *RaspiAdaptor) Connect() (errs []error) { return } // Finalize closes connection to board and pins func (r *RaspiAdaptor) Finalize() (errs []error) { for _, pin := range r.digitalPins { if pin != nil { if err := pin.Unexport(); err != nil { errs = append(errs, err) } } } for _, pin := range r.pwmPins { if err := r.piBlaster(fmt.Sprintf("release %v\n", pin)); err != nil { errs = append(errs, err) } } if r.i2cDevice != nil { if err := r.i2cDevice.Close(); err != nil { errs = append(errs, err) } } return errs } func (r *RaspiAdaptor) translatePin(pin string) (i int, err error) { if val, ok := pins[pin][r.revision]; ok { i = val } else if val, ok := pins[pin]["*"]; ok { i = val } else { err = errors.New("Not a valid pin") return } return } func (r *RaspiAdaptor) pwmPin(pin string) (i int, err error) { i, err = r.translatePin(pin) if err != nil { return } newPin := true for _, pin := range r.pwmPins { if i == pin { newPin = false return } } if newPin { r.pwmPins = append(r.pwmPins, i) } return } // digitalPin returns matched digitalPin for specified values func (r *RaspiAdaptor) digitalPin(pin string, dir string) (sysfsPin sysfs.DigitalPin, err error) { i, err := r.translatePin(pin) if err != nil { return } if r.digitalPins[i] == nil { r.digitalPins[i] = sysfs.NewDigitalPin(i) if err = r.digitalPins[i].Export(); err != nil { return } } if err = r.digitalPins[i].Direction(dir); err != nil { return } return r.digitalPins[i], nil } // DigitalRead reads digital value from pin func (r *RaspiAdaptor) DigitalRead(pin string) (val int, err error) { sysfsPin, err := r.digitalPin(pin, sysfs.IN) if err != nil { return } return sysfsPin.Read() } // DigitalWrite writes digital value to specified pin func (r *RaspiAdaptor) DigitalWrite(pin string, val byte) (err error) { sysfsPin, err := r.digitalPin(pin, sysfs.OUT) if err != nil { return err } return sysfsPin.Write(int(val)) } // I2cStart starts a i2c device in specified address func (r *RaspiAdaptor) I2cStart(address int) (err error) { if r.i2cDevice == nil { r.i2cDevice, err = sysfs.NewI2cDevice(r.i2cLocation, address) } return err } // I2CWrite writes data to i2c device func (r *RaspiAdaptor) I2cWrite(address int, data []byte) (err error) { if err = r.i2cDevice.SetAddress(address); err != nil { return } _, err = r.i2cDevice.Write(data) return } // I2cRead returns value from i2c device using specified size func (r *RaspiAdaptor) I2cRead(address int, size int) (data []byte, err error) { if err = r.i2cDevice.SetAddress(address); err != nil { return } data = make([]byte, size) _, err = r.i2cDevice.Read(data) return } func (r *RaspiAdaptor) PwmWrite(pin string, val byte) (err error) { sysfsPin, err := r.pwmPin(pin) if err != nil { return err } return r.piBlaster(fmt.Sprintf("%v=%v\n", sysfsPin, gobot.FromScale(float64(val), 0, 255))) } func (r *RaspiAdaptor) ServoWrite(pin string, angle byte) (err error) { sysfsPin, err := r.pwmPin(pin) if err != nil { return err } val := (gobot.ToScale(gobot.FromScale(float64(angle), 0, 180), 0, 200) / 1000.0) + 0.05 return r.piBlaster(fmt.Sprintf("%v=%v\n", sysfsPin, val)) } func (r *RaspiAdaptor) piBlaster(data string) (err error) { fi, err := sysfs.OpenFile("/dev/pi-blaster", os.O_WRONLY|os.O_APPEND, 0644) defer fi.Close() if err != nil { return err } _, err = fi.WriteString(data) return }