212 lines
4.8 KiB
Go
212 lines
4.8 KiB
Go
package hs200
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import (
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"net"
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"sync"
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"time"
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"gobot.io/x/gobot"
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)
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// Driver represents the control information for the hs200 drone
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type Driver struct {
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name string
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mutex *sync.RWMutex // Protect the command from concurrent access
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stopc chan struct{} // Stop the flight loop goroutine
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cmd []byte // the UDP command packet we keep sending the drone
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enabled bool // Are we in an enabled state
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tcpaddress string
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udpaddress string
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udpconn net.Conn // UDP connection to the drone
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tcpconn net.Conn // TCP connection to the drone
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}
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// NewDriver creates a driver for the HolyStone hs200
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func NewDriver(tcpaddress string, udpaddress string) *Driver {
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command := []byte{
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0xff, // 2 byte header
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0x04,
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// Left joystick
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0x7e, // throttle 0x00 - 0xff(?)
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0x3f, // rotate left/right
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// Right joystick
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0xc0, // forward / backward 0x80 - 0xfe(?)
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0x3f, // left / right 0x00 - 0x7e(?)
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// Trim
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0x90, // ? yaw (used as a setting to trim the yaw of the uav)
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0x10, // ? pitch (used as a setting to trim the pitch of the uav)
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0x10, // ? roll (used as a setting to trim the roll of the uav)
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0x00, // flags/buttons
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0x00, // checksum; 255 - ((sum of flight controls from index 1 to 9) % 256)
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}
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command[10] = checksum(command)
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return &Driver{name: gobot.DefaultName("HS200"), stopc: make(chan struct{}),
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tcpaddress: tcpaddress, udpaddress: udpaddress, cmd: command, mutex: &sync.RWMutex{}}
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}
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// Name returns the name of the device.
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func (d *Driver) Name() string { return d.name }
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// SetName sets the name of the device.
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func (d *Driver) SetName(n string) { d.name = n }
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// Connection returns the Connection of the device.
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func (d *Driver) Connection() gobot.Connection { return nil }
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// Start starts the driver.
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func (d *Driver) Start() (err error) {
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tc, terr := net.Dial("tcp", d.tcpaddress)
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if terr != nil {
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return terr
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}
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uc, uerr := net.Dial("udp4", d.udpaddress)
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if uerr != nil {
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return uerr
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}
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d.udpconn = uc
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d.tcpconn = tc
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return
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}
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// Halt stops the driver.
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func (d *Driver) Halt() (err error) {
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d.stop()
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return
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}
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func (d *Driver) stop() {
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d.mutex.Lock()
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defer d.mutex.Unlock()
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d.enabled = false
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}
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func (d *Driver) flightLoop(stopc chan struct{}) {
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udpTick := time.NewTicker(50 * time.Millisecond)
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defer udpTick.Stop()
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tcpTick := time.NewTicker(1000 * time.Millisecond)
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defer tcpTick.Stop()
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for {
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select {
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case <-udpTick.C:
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d.sendUDP()
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case <-tcpTick.C:
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// Send TCP commands from here once we figure out what they do...
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case <-stopc:
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d.stop()
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return
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}
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}
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}
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func checksum(c []byte) byte {
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var sum byte
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for i := 1; i < 10; i++ {
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sum += c[i]
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}
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return 255 - sum
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}
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func (d *Driver) sendUDP() {
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d.mutex.RLock()
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defer d.mutex.RUnlock()
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d.udpconn.Write(d.cmd)
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}
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// Enable enables the drone to start flying.
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func (d Driver) Enable() {
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d.mutex.Lock()
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defer d.mutex.Unlock()
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if !d.enabled {
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go d.flightLoop(d.stopc)
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d.enabled = true
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}
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}
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// Disable disables the drone from flying.
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func (d Driver) Disable() {
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d.mutex.Lock()
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defer d.mutex.Unlock()
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if d.enabled {
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d.stopc <- struct{}{}
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}
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}
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// TakeOff tells drones to liftoff and start flying.
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func (d Driver) TakeOff() {
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d.mutex.Lock()
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d.cmd[9] = 0x40
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d.cmd[10] = checksum(d.cmd)
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d.mutex.Unlock()
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time.Sleep(500 * time.Millisecond)
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d.mutex.Lock()
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d.cmd[9] = 0x04
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d.cmd[10] = checksum(d.cmd)
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d.mutex.Unlock()
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}
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// Land tells drone to come in for landing.
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func (d Driver) Land() {
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d.mutex.Lock()
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d.cmd[9] = 0x80
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d.cmd[10] = checksum(d.cmd)
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d.mutex.Unlock()
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time.Sleep(500 * time.Millisecond)
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d.mutex.Lock()
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d.cmd[9] = 0x04
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d.cmd[10] = checksum(d.cmd)
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d.mutex.Unlock()
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}
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// floatToCmdByte converts a float in the range of -1 to +1 to an integer command
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func floatToCmdByte(cmd float32, mid byte, maxv byte) byte {
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if cmd > 1.0 {
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cmd = 1.0
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}
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if cmd < -1.0 {
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cmd = -1.0
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}
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cmd = cmd * float32(maxv)
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bval := byte(cmd + float32(mid) + 0.5)
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return bval
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}
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// Throttle sends the drone up from a hover (or down if speed is negative)
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func (d *Driver) Throttle(speed float32) {
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d.mutex.Lock()
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defer d.mutex.Unlock()
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d.cmd[2] = floatToCmdByte(speed, 0x7e, 0x7e)
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d.cmd[10] = checksum(d.cmd)
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}
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// Rotate rotates the drone (yaw)
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func (d *Driver) Rotate(speed float32) {
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d.mutex.Lock()
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defer d.mutex.Unlock()
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d.cmd[3] = floatToCmdByte(speed, 0x3f, 0x3f)
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d.cmd[10] = checksum(d.cmd)
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}
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// Forward sends the drone forward (or backwards if speed is negative, pitch the drone)
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func (d *Driver) Forward(speed float32) {
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speed = -speed
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d.mutex.Lock()
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defer d.mutex.Unlock()
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d.cmd[4] = floatToCmdByte(speed, 0xc0, 0x3f)
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d.cmd[10] = checksum(d.cmd)
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}
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// Right moves the drone to the right (or left if speed is negative, rolls the drone)
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func (d *Driver) Right(speed float32) {
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d.mutex.Lock()
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defer d.mutex.Unlock()
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d.cmd[5] = floatToCmdByte(speed, 0x3f, 0x3f)
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d.cmd[10] = checksum(d.cmd)
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}
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