package door import ( "bufio" "bytes" "io" "log" "strings" "syscall" "time" "unicode" ) var ReaderInterval = time.Duration(200) * time.Millisecond var ReaderTimeval syscall.Timeval = syscall.Timeval{Sec: 0, Usec: 200} // Output a nice string representation of the rune buffer. func extended_output(buffer []rune) string { var output string = string(buffer) output = strings.Replace(output, "\x1b", "^[", -1) return output } // syscall.FdSet clear all func clearAll(fdSetPtr *syscall.FdSet) { for index := range (*fdSetPtr).Bits { (*fdSetPtr).Bits[index] = 0 } } // syscall.FdSet set fd func set(fdSetPtr *syscall.FdSet, fd int) { (*fdSetPtr).Bits[fd/64] |= 1 << uint64(fd%64) } func RuneToInt8(r rune) int8 { return int8(r) } const READ_SIZE = 16 // Size of read buffer var readerBuffer []rune // Translate these extended codes into these Extended values. var extendedKeys map[string]Extended = map[string]Extended{ "[A": UP_ARROW, "[B": DOWN_ARROW, "[C": RIGHT_ARROW, "[D": LEFT_ARROW, "[H": HOME, "[F": END, // terminal "[K": END, "[V": PAGE_UP, "[U": PAGE_DOWN, "[@": INSERT, "[2~": INSERT, // terminal "[3~": DELETE, // terminal "[5~": PAGE_UP, // terminal "[6~": PAGE_DOWN, // terminal "[15~": F5, // terminal "[17~": F6, // terminal "[18~": F7, // terminal "[19~": F8, // terminal "[20~": F9, // terminal "[21~": F10, // terminal "[23~": F11, "[24~": F12, // terminal "OP": F1, "OQ": F2, "OR": F3, "OS": F4, // syncterm "[1" = F1,F2,F3, and F4) "Ot": F5, // syncterm } func process(d *Door, newRune bool) { // This is like GetKey var rlen int var r, r2 rune var has2 bool var done bool = false for !done { rlen = len(readerBuffer) if rlen == 0 { // Nothing to do here return } if DEBUG_INPUT { log.Println("rlen:", rlen, "readerBuffer:", readerBuffer, "newRune:", newRune) } r = readerBuffer[0] if rlen >= 2 { r2 = readerBuffer[1] has2 = true } else { r2 = unicode.ReplacementChar has2 = false } // if !has2 and !newRune, then we're "done" (received everything, // and there's nothing else coming...) // fyneterm CR if r == '\x0a' { if !has2 && !newRune { ArrayPop(&readerBuffer, 1) d.readerChannel <- ReaderData{R: '\x0d', Ex: NOP, Err: nil} return } if has2 { ArrayPop(&readerBuffer, 1) if r2 == '\x00' || r2 == '\x0a' { ArrayPop(&readerBuffer, 1) } d.readerChannel <- ReaderData{R: '\x0d', Ex: NOP, Err: nil} } else { // We don't have a 2nd rune, and we haven't timed out. return } continue } // We get 0x0d, 0x00, or 0x0d 0x0a from syncterm if r == '\x0d' { if !has2 && !newRune { ArrayPop(&readerBuffer, 1) d.readerChannel <- ReaderData{R: r, Ex: NOP, Err: nil} return } if has2 { ArrayPop(&readerBuffer, 1) if r2 == '\x00' || r2 == '\x0a' { ArrayPop(&readerBuffer, 1) } d.readerChannel <- ReaderData{R: r, Ex: NOP, Err: nil} } else { return } continue } if r == '\x00' { // Possibly doorway mode - deprecated? // syncterm does support this. if !has2 && !newRune { // timeout ArrayPop(&readerBuffer, 1) d.readerChannel <- ReaderData{R: r, Ex: NOP, Err: nil} return } if has2 { ArrayPop(&readerBuffer, 2) switch r2 { case '\x50': d.readerChannel <- ReaderData{0, DOWN_ARROW, nil} case '\x48': d.readerChannel <- ReaderData{0, UP_ARROW, nil} case '\x4b': d.readerChannel <- ReaderData{0, LEFT_ARROW, nil} case 0x4d: d.readerChannel <- ReaderData{0, RIGHT_ARROW, nil} case 0x47: d.readerChannel <- ReaderData{0, HOME, nil} case 0x4f: d.readerChannel <- ReaderData{0, END, nil} case 0x49: d.readerChannel <- ReaderData{0, PAGE_UP, nil} case 0x51: d.readerChannel <- ReaderData{0, PAGE_DOWN, nil} case 0x3b: d.readerChannel <- ReaderData{0, F1, nil} case 0x3c: d.readerChannel <- ReaderData{0, F2, nil} case 0x3d: d.readerChannel <- ReaderData{0, F3, nil} case 0x3e: d.readerChannel <- ReaderData{0, F4, nil} case 0x3f: d.readerChannel <- ReaderData{0, F5, nil} case 0x40: d.readerChannel <- ReaderData{0, F6, nil} case 0x41: d.readerChannel <- ReaderData{0, F7, nil} case 0x42: d.readerChannel <- ReaderData{0, F8, nil} case 0x43: d.readerChannel <- ReaderData{0, F9, nil} case 0x44: d.readerChannel <- ReaderData{0, F10, nil} case 0x45: d.readerChannel <- ReaderData{0, F11, nil} case 0x46: d.readerChannel <- ReaderData{0, F12, nil} case 0x52: d.readerChannel <- ReaderData{0, INSERT, nil} case 0x53: d.readerChannel <- ReaderData{0, DELETE, nil} default: log.Printf("ERROR Doorway mode: 0x00 %x\n", r2) d.readerChannel <- ReaderData{0, UNKNOWN, nil} } } else { return } continue } // end doorway mode if r == '\x1b' { // Escape key, or ? // This is a little harder, since we don't know how many we need. if !has2 && !newRune { ArrayPop(&readerBuffer, 1) d.readerChannel <- ReaderData{r, NOP, nil} return } if has2 { // We at least have the 2nd one... if r2 == '\x1b' { ArrayPop(&readerBuffer, 1) d.readerChannel <- ReaderData{r, NOP, nil} continue } // Can't distinguish between \x1bO and \x1bOP (F1) /* if unicode.IsLetter(r2) { // ALT-KEY if unicode.IsLower(r2) { ArrayPop(&readerBuffer, 2) ex := Extended(int(ALT_a) + int(r2-'a')) d.readerChannel <- ReaderData{0, ex, nil} } else { // Must be upper ArrayPop(&readerBuffer, 2) ex := Extended(int(ALT_A) + int(r2-'A')) d.readerChannel <- ReaderData{0, ex, nil} } continue } */ var extended []rune = make([]rune, 0, 10) extended = append(extended, r2) var extlen = 2 // Length of codes to remove on successful match. var pos = 2 // Where we get the next rune from var isMouse bool = false var found bool = false if DEBUG_INPUT { log.Println(pos, readerBuffer) } for pos < rlen { r2 = readerBuffer[pos] pos++ extlen++ extended = append(extended, r2) if DEBUG_INPUT { log.Println("0x1b LOOP pos:", pos, "extlen:", extlen, "extended:", string(extended)) } ext, has := extendedKeys[string(extended)] if has { // Found it! if DEBUG_INPUT { log.Println("Found Extended Match:", ext.String()) } ArrayPop(&readerBuffer, extlen) d.readerChannel <- ReaderData{0, ext, nil} found = true break } // Mouse codes can also contain letters. if !isMouse && unicode.IsLetter(r2) { // end of extended code, unless mouse! if DEBUG_INPUT { log.Println("not mouse, is letter...") } if string(extended) == "[M" { isMouse = true } else { break } } if isMouse && len(extended) == 5 { break } } if found { continue } if DEBUG_INPUT { log.Println("POS:", pos, "EXLEN:", extlen, "Extended:", extended, "readerBuffer:", readerBuffer) log.Printf("(possible) Extended Code: [%s]", extended_output(extended)) } var exString string = string(extended) if strings.HasPrefix(exString, "[M") && len(extended) == 5 { // Yes, "valid" ArrayPop(&readerBuffer, extlen) // Mouse Extended - input zero based (I add +1 to X, Y, and button) var mouse Mouse = Mouse{Button: RuneToInt8(extended[2]) - ' ' + 1, X: RuneToInt8(extended[3]) - '!' + 1, Y: RuneToInt8(extended[4]) - '!' + 1} d.mcMutex.Lock() d.LastMouse = append(d.LastMouse, mouse) d.mcMutex.Unlock() log.Println("Mouse:", mouse) d.readerChannel <- ReaderData{0, MOUSE, nil} continue } if strings.HasSuffix(exString, "R") { // yes, "valid" ArrayPop(&readerBuffer, extlen) // Cursor Position information (or Shift-F3) var cursor CursorPos // ^[[1;1R^[[2;3r^[[41;173R // Y;X exString = exString[1 : len(exString)-1] // Remove [ and R pos := SplitToInt(exString, ";") if len(pos) == 2 { cursor.X = pos[1] cursor.Y = pos[0] d.mcMutex.Lock() d.LastCursor = append(d.LastCursor, cursor) d.mcMutex.Unlock() log.Println("Cursor Pos:", cursor) d.readerChannel <- ReaderData{0, CURSOR, nil} continue } else { log.Println("ERROR Cursor Pos:", extended) d.readerChannel <- ReaderData{0, UNKNOWN, nil} continue } } // Ok, this LOOKS like something invalid... if !newRune { // Yes, this is invalid. ArrayPop(&readerBuffer, extlen) log.Println("ERROR Extended:", extended) d.readerChannel <- ReaderData{0, UNKNOWN, nil} } else { if DEBUG_INPUT { log.Println("(Possibly) invalid extended:", extended) } return } } else { return } continue } ArrayPop(&readerBuffer, 1) d.readerChannel <- ReaderData{r, NOP, nil} continue } } // go routine Reader for input // This "times out" every ReaderTimeval func Reader(d *Door) { // I need non-blocking reads here. readerBuffer = make([]rune, 0, READ_SIZE*2) defer func() { log.Printf("~Reader\n") if d.ReaderCanClose { d.wg.Done() } }() defer func() { if err := recover(); err != nil { log.Printf("Reader: %#v\n", err) } }() var fdset syscall.FdSet var readbuffer [READ_SIZE]byte var runebuffer bytes.Buffer var runeread = bufio.NewReaderSize(&runebuffer, 1) for { clearAll(&fdset) set(&fdset, d.READFD) v, err := syscall.Select(d.READFD+1, &fdset, nil, nil, &ReaderTimeval) if err == syscall.EINTR { continue } // log.Printf("Select: %#v / %#v\n", v, err) if v == -1 { log.Printf("Reader ERR: %#v\n", err) d.readerMutex.Lock() if !d.ReaderClosed { d.ReaderClosed = true close(d.readerChannel) } return } if v == 0 { // timeout process(d, false) continue } // The buffer used here must have len & cap to size you want to read. // use [BUFF_SIZE]byte for readone r, err := syscall.Read(d.READFD, readbuffer[:]) if r == -1 { log.Println("syscall.Read -1 (closed)") d.readerMutex.Lock() defer d.readerMutex.Unlock() if !d.ReaderClosed { d.ReaderClosed = true d.Disconnected = true close(d.readerChannel) } return } if r == 0 { log.Printf("Select said ready, but: %#v %#v\n", r, err) d.readerMutex.Lock() defer d.readerMutex.Unlock() if !d.ReaderClosed { d.ReaderClosed = true d.Disconnected = true close(d.readerChannel) } return } if DEBUG_INPUT { log.Printf("Reader << %d, %#v\n", r, readbuffer[:r]) } runebuffer.Write(readbuffer[:r]) var input rune // Is this unicode? err = nil for err == nil { //RuneRead: input, _, err = runeread.ReadRune() if err == io.EOF { break // continue } if err != nil { if DEBUG_INPUT { log.Printf("ReadRune: %#v\n", err) } // errors EOF break // continue // break for loop } if input == unicode.ReplacementChar { runeread.UnreadRune() b, _ := runeread.ReadByte() if DEBUG_INPUT { log.Printf("Reader (byte) >> %x\n", b) } readerBuffer = append(readerBuffer, rune(b)) // d.readerChannel <- rune(b) } else { if DEBUG_INPUT { log.Printf("Reader >> %x\n", input) } readerBuffer = append(readerBuffer, input) // d.readerChannel <- input } // process(d, true) } // goto RuneRead process(d, true) // buffer = append(buffer, readone[0]) /* Take2: input, size = utf8.DecodeRune(buffer) if input != utf8.RuneError { d.readerChannel <- input for size > 0 { ArrayDelete(&buffer, 0) size-- } if len(buffer) > 0 { goto Take2 } timeoutCount = 0 } else { // Not a valid rune continue } */ // d.readerChannel <- rune(buffer[0]) } }