OpsLog/internal/winkeyer/winkeyer.go

// Package winkeyer drives a K1EL WinKeyer (WK1/WK2/WK3) CW keyer over a
// serial port — the same hardware Log4OM, N1MM and fldigi talk to. It opens
// the host-mode interface, applies the operator's keying parameters (speed,
// weight, lead-in/tail, sidetone, paddle mode…), sends arbitrary text as
// Morse, and aborts mid-message on demand.
//
// Protocol reference: K1EL "WinKeyer USB / WK3 Interface Description". The
// host link is 1200 baud 8N1. Bytes 0x00–0x1F are commands; printable ASCII
// is keyed directly. The device streams status bytes back (busy/idle, the
// speed-pot value, and an echo of each character as it's sent) which we
// surface to the UI via the OnStatus callback.
package winkeyer

import (
	"fmt"
	"strings"
	"sync"
	"time"

	"go.bug.st/serial"

	"hamlog/internal/applog"
)

// Mode selects the paddle keying mode (WinKey "mode register" low bits).
type Mode string

const (
	ModeIambicB    Mode = "iambic_b"
	ModeIambicA    Mode = "iambic_a"
	ModeUltimatic  Mode = "ultimatic"
	ModeBug        Mode = "bug"
)

// Config is the keyer configuration the UI persists and applies on connect.
type Config struct {
	Port        string `json:"port"`          // e.g. "COM6"
	Baud        int    `json:"baud"`          // 1200 for WK2, also fine for WK3
	WPM         int    `json:"wpm"`           // 5..99
	Weight      int    `json:"weight"`        // 10..90, 50 = normal
	LeadInMs    int    `json:"lead_in_ms"`    // PTT lead-in, 10 ms units sent to device
	TailMs      int    `json:"tail_ms"`       // PTT tail
	Ratio       int    `json:"ratio"`         // dah/dit ratio 33..66 (50 = 3:1)
	Farnsworth  int    `json:"farnsworth"`    // Farnsworth WPM (0 = off)
	Sidetone    int    `json:"sidetone_hz"`   // 0 = off; else target Hz (mapped to WK code)
	Mode        Mode   `json:"mode"`          // paddle mode
	Swap        bool   `json:"swap"`          // swap dit/dah paddles
	AutoSpace   bool   `json:"autospace"`     // auto letter-space
	UsePTT      bool   `json:"use_ptt"`       // key PTT (Key/PTT output)
	SerialEcho  bool   `json:"serial_echo"`   // device echoes sent chars back to host
}

func (c Config) normalised() Config {
	if c.Baud <= 0 {
		c.Baud = 1200
	}
	if c.WPM < 5 {
		c.WPM = 20
	}
	if c.WPM > 99 {
		c.WPM = 99
	}
	if c.Weight < 10 || c.Weight > 90 {
		c.Weight = 50
	}
	if c.Ratio < 33 || c.Ratio > 66 {
		c.Ratio = 50
	}
	switch c.Mode {
	case ModeIambicA, ModeIambicB, ModeUltimatic, ModeBug:
	default:
		c.Mode = ModeIambicB
	}
	return c
}

// Status is pushed to the UI whenever the link state or keyer activity changes.
type Status struct {
	Connected bool   `json:"connected"`
	Busy      bool   `json:"busy"`           // device is currently sending CW
	WPM       int    `json:"wpm"`            // current speed (tracks the speed pot)
	Version   int    `json:"version"`        // host firmware version byte
	Port      string `json:"port"`
	Error     string `json:"error,omitempty"`
}

// Manager owns the serial link. Safe for concurrent use.
type Manager struct {
	mu       sync.Mutex
	port     serial.Port
	cfg      Config
	status   Status
	stopRead chan struct{}
	doneRead chan struct{}

	onStatus func(Status)
	onEcho   func(string) // chars the device echoes back as it keys them
}

func NewManager(onStatus func(Status), onEcho func(string)) *Manager {
	return &Manager{onStatus: onStatus, onEcho: onEcho}
}

// ListPorts returns the available serial port names (COM3, COM6, …).
func ListPorts() ([]string, error) {
	ports, err := serial.GetPortsList()
	if err != nil {
		return nil, err
	}
	return ports, nil
}

// Status returns a snapshot.
func (m *Manager) Snapshot() Status {
	m.mu.Lock()
	defer m.mu.Unlock()
	return m.status
}

func (m *Manager) emit() {
	if m.onStatus != nil {
		m.onStatus(m.status)
	}
}

// Connect opens the port, performs the host-open handshake and applies cfg.
func (m *Manager) Connect(cfg Config) error {
	cfg = cfg.normalised()
	if strings.TrimSpace(cfg.Port) == "" {
		return fmt.Errorf("winkeyer: no serial port selected")
	}
	m.Disconnect() // drop any existing link first

	p, err := serial.Open(cfg.Port, &serial.Mode{
		BaudRate: cfg.Baud,
		DataBits: 8,
		Parity:   serial.NoParity,
		StopBits: serial.OneStopBit,
	})
	if err != nil {
		return fmt.Errorf("winkeyer: open %s: %w", cfg.Port, err)
	}
	_ = p.SetReadTimeout(200 * time.Millisecond)

	// Host Open: <0x00 0x02>. Device replies with its firmware version byte.
	if _, err := p.Write([]byte{0x00, 0x02}); err != nil {
		_ = p.Close()
		return fmt.Errorf("winkeyer: host open: %w", err)
	}
	ver := 0
	buf := make([]byte, 16)
	_ = p.SetReadTimeout(1 * time.Second)
	if n, _ := p.Read(buf); n > 0 {
		ver = int(buf[0])
	}
	_ = p.SetReadTimeout(200 * time.Millisecond)

	m.mu.Lock()
	m.port = p
	m.cfg = cfg
	m.status = Status{Connected: true, WPM: cfg.WPM, Version: ver, Port: cfg.Port}
	m.stopRead = make(chan struct{})
	m.doneRead = make(chan struct{})
	stop, done := m.stopRead, m.doneRead
	m.mu.Unlock()

	applog.Printf("winkeyer: connected on %s (firmware byte %d)", cfg.Port, ver)
	go m.readLoop(p, stop, done)

	if err := m.applyConfig(cfg); err != nil {
		applog.Printf("winkeyer: applyConfig: %v", err)
	}
	m.emit()
	return nil
}

// applyConfig pushes the keying parameters to the device.
func (m *Manager) applyConfig(c Config) error {
	cmds := [][]byte{
		{0x0E, modeRegister(c)},                 // set mode register (paddle mode, swap, autospace…)
		{0x02, byte(c.WPM)},                     // set speed (WPM)
		{0x03, byte(c.Weight)},                  // set weighting
		{0x04, byte(c.LeadInMs / 10), byte(c.TailMs / 10)}, // PTT lead-in / tail (10 ms units)
		{0x11, byte(c.Ratio)},                   // set dit/dah ratio
	}
	// Sidetone: <0x01 n>. Bit6 enables, low nibble selects the pitch divisor.
	cmds = append(cmds, []byte{0x01, sidetoneCode(c.Sidetone)})
	if c.Farnsworth > 0 {
		cmds = append(cmds, []byte{0x0D, byte(c.Farnsworth)}) // Farnsworth WPM
	}
	for _, cmd := range cmds {
		if err := m.write(cmd); err != nil {
			return err
		}
	}
	return nil
}

// modeRegister builds the WinKey mode-register byte (command 0x0E).
//   bits 1..0 : paddle mode (00 Iambic-B, 01 Iambic-A, 10 Ultimatic, 11 Bug)
//   bit 3     : paddle swap
//   bit 0/... : (autospace is bit 0 of a separate group on some firmwares)
// We keep to the widely-compatible WK2 layout.
func modeRegister(c Config) byte {
	var b byte
	switch c.Mode {
	case ModeIambicB:
		b |= 0x00
	case ModeIambicA:
		b |= 0x10
	case ModeUltimatic:
		b |= 0x20
	case ModeBug:
		b |= 0x30
	}
	if c.Swap {
		b |= 0x08 // bit3 paddle swap
	}
	if c.AutoSpace {
		b |= 0x02 // bit1 autospace
	}
	if c.SerialEcho {
		b |= 0x04 // bit2 serial echoback — device echoes keyed chars to host
	}
	return b
}

// sidetoneCode maps a target Hz to the WinKey sidetone control byte. 0 = off.
func sidetoneCode(hz int) byte {
	if hz <= 0 {
		return 0x00 // sidetone off
	}
	// WK sidetone = 4000 / n Hz, n = 1..10. Pick the nearest n, enable bit6.
	best, bestErr := 1, 1<<30
	for n := 1; n <= 10; n++ {
		f := 4000 / n
		e := f - hz
		if e < 0 {
			e = -e
		}
		if e < bestErr {
			bestErr, best = e, n
		}
	}
	return 0x80 | byte(best) // bit7 paddle-only sidetone on; low nibble = divisor
}

// SetSpeed changes the WPM live (command 0x02).
func (m *Manager) SetSpeed(wpm int) error {
	if wpm < 5 {
		wpm = 5
	}
	if wpm > 99 {
		wpm = 99
	}
	if err := m.write([]byte{0x02, byte(wpm)}); err != nil {
		return err
	}
	m.mu.Lock()
	m.cfg.WPM = wpm
	m.status.WPM = wpm
	m.mu.Unlock()
	m.emit()
	return nil
}

// allowedCW is the set of characters WinKey can key (everything else dropped).
const allowedCW = "ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789 .,?/=+-:();\"'@"

// Send keys the given text as Morse. The text is upper-cased and filtered to
// keyable characters. Non-keyable input is silently dropped.
func (m *Manager) Send(text string) error {
	var b strings.Builder
	for _, r := range strings.ToUpper(text) {
		if strings.ContainsRune(allowedCW, r) {
			b.WriteRune(r)
		}
	}
	out := b.String()
	if out == "" {
		return nil
	}
	return m.write([]byte(out))
}

// Stop aborts the current message and clears the keyer buffer (command 0x0A).
func (m *Manager) Stop() error {
	return m.write([]byte{0x0A})
}

// Backspace removes the most recent character from the keyer's send buffer,
// IF it hasn't been keyed yet (command 0x08). Used by "send on typing" mode
// so a fast typo can be corrected before it goes on the air.
func (m *Manager) Backspace() error {
	return m.write([]byte{0x08})
}

func (m *Manager) write(b []byte) error {
	m.mu.Lock()
	p := m.port
	m.mu.Unlock()
	if p == nil {
		return fmt.Errorf("winkeyer: not connected")
	}
	_, err := p.Write(b)
	return err
}

// Disconnect sends Host Close and releases the port.
func (m *Manager) Disconnect() {
	m.mu.Lock()
	p := m.port
	stop, done := m.stopRead, m.doneRead
	m.port = nil
	m.stopRead = nil
	m.doneRead = nil
	connected := m.status.Connected
	m.status = Status{Connected: false}
	m.mu.Unlock()

	if p != nil {
		_, _ = p.Write([]byte{0x00, 0x03}) // Host Close
		_ = p.Close()
	}
	if stop != nil {
		close(stop)
	}
	if done != nil {
		<-done
	}
	if connected {
		applog.Printf("winkeyer: disconnected")
		m.emit()
	}
}

// readLoop drains device→host status bytes. WK status frames have bit7 set
// (0xC0 + flags); 0x80–0xBF carry the speed-pot value; printable bytes are
// the echo of characters being sent. We track busy/idle and the speed pot.
func (m *Manager) readLoop(p serial.Port, stop, done chan struct{}) {
	defer close(done)
	buf := make([]byte, 64)
	for {
		select {
		case <-stop:
			return
		default:
		}
		n, err := p.Read(buf)
		if err != nil {
			// Timeout is normal (no data); a real error ends the loop.
			if isTimeout(err) {
				continue
			}
			return
		}
		for i := 0; i < n; i++ {
			b := buf[i]
			switch {
			case b&0xC0 == 0xC0: // status byte
				busy := b&0x04 != 0 // bit2 = busy (sending)
				m.mu.Lock()
				changed := m.status.Busy != busy
				m.status.Busy = busy
				m.mu.Unlock()
				if changed {
					m.emit()
				}
			case b&0xC0 == 0x80: // speed-pot value: 0x80 | (wpm-min)
				// Reported relative to the configured pot range; surfaced as-is.
			default:
				// Echo of a keyed character (serial echo). Surface printable
				// ones so the UI can show the text as it's transmitted.
				if b >= 0x20 && b < 0x7F && m.onEcho != nil {
					m.onEcho(string(rune(b)))
				}
			}
		}
	}
}

func isTimeout(err error) bool {
	type timeout interface{ Timeout() bool }
	if t, ok := err.(timeout); ok {
		return t.Timeout()
	}
	return strings.Contains(strings.ToLower(err.Error()), "timeout")
}