// +build windows package windows import ( "bytes" "errors" "fmt" "os" "strings" "unsafe" . "github.com/Azure/go-ansiterm" . "github.com/Azure/go-ansiterm/winterm" ) // ansiReader wraps a standard input file (e.g., os.Stdin) providing ANSI sequence translation. type ansiReader struct { file *os.File fd uintptr buffer []byte cbBuffer int command []byte // TODO(azlinux): Remove this and hard-code the string -- it is not going to change escapeSequence []byte } func newAnsiReader(nFile int) *ansiReader { file, fd := GetStdFile(nFile) return &ansiReader{ file: file, fd: fd, command: make([]byte, 0, ANSI_MAX_CMD_LENGTH), escapeSequence: []byte(KEY_ESC_CSI), buffer: make([]byte, 0), } } // Close closes the wrapped file. func (ar *ansiReader) Close() (err error) { return ar.file.Close() } // Fd returns the file descriptor of the wrapped file. func (ar *ansiReader) Fd() uintptr { return ar.fd } // Read reads up to len(p) bytes of translated input events into p. func (ar *ansiReader) Read(p []byte) (int, error) { if len(p) == 0 { return 0, nil } // Previously read bytes exist, read as much as we can and return if len(ar.buffer) > 0 { logger.Debugf("Reading previously cached bytes") originalLength := len(ar.buffer) copiedLength := copy(p, ar.buffer) if copiedLength == originalLength { ar.buffer = make([]byte, 0, len(p)) } else { ar.buffer = ar.buffer[copiedLength:] } logger.Debugf("Read from cache p[%d]: % x", copiedLength, p) return copiedLength, nil } // Read and translate key events events, err := readInputEvents(ar.fd, len(p)) if err != nil { return 0, err } else if len(events) == 0 { logger.Debug("No input events detected") return 0, nil } keyBytes := translateKeyEvents(events, ar.escapeSequence) // Save excess bytes and right-size keyBytes if len(keyBytes) > len(p) { logger.Debugf("Received %d keyBytes, only room for %d bytes", len(keyBytes), len(p)) ar.buffer = keyBytes[len(p):] keyBytes = keyBytes[:len(p)] } else if len(keyBytes) == 0 { logger.Debug("No key bytes returned from the translater") return 0, nil } copiedLength := copy(p, keyBytes) if copiedLength != len(keyBytes) { return 0, errors.New("Unexpected copy length encountered.") } logger.Debugf("Read p[%d]: % x", copiedLength, p) logger.Debugf("Read keyBytes[%d]: % x", copiedLength, keyBytes) return copiedLength, nil } // readInputEvents polls until at least one event is available. func readInputEvents(fd uintptr, maxBytes int) ([]INPUT_RECORD, error) { // Determine the maximum number of records to retrieve // -- Cast around the type system to obtain the size of a single INPUT_RECORD. // unsafe.Sizeof requires an expression vs. a type-reference; the casting // tricks the type system into believing it has such an expression. recordSize := int(unsafe.Sizeof(*((*INPUT_RECORD)(unsafe.Pointer(&maxBytes))))) countRecords := maxBytes / recordSize if countRecords > MAX_INPUT_EVENTS { countRecords = MAX_INPUT_EVENTS } logger.Debugf("[windows] readInputEvents: Reading %v records (buffer size %v, record size %v)", countRecords, maxBytes, recordSize) // Wait for and read input events events := make([]INPUT_RECORD, countRecords) nEvents := uint32(0) eventsExist, err := WaitForSingleObject(fd, WAIT_INFINITE) if err != nil { return nil, err } if eventsExist { err = ReadConsoleInput(fd, events, &nEvents) if err != nil { return nil, err } } // Return a slice restricted to the number of returned records logger.Debugf("[windows] readInputEvents: Read %v events", nEvents) return events[:nEvents], nil } // KeyEvent Translation Helpers var arrowKeyMapPrefix = map[WORD]string{ VK_UP: "%s%sA", VK_DOWN: "%s%sB", VK_RIGHT: "%s%sC", VK_LEFT: "%s%sD", } var keyMapPrefix = map[WORD]string{ VK_UP: "\x1B[%sA", VK_DOWN: "\x1B[%sB", VK_RIGHT: "\x1B[%sC", VK_LEFT: "\x1B[%sD", VK_HOME: "\x1B[1%s~", // showkey shows ^[[1 VK_END: "\x1B[4%s~", // showkey shows ^[[4 VK_INSERT: "\x1B[2%s~", VK_DELETE: "\x1B[3%s~", VK_PRIOR: "\x1B[5%s~", VK_NEXT: "\x1B[6%s~", VK_F1: "", VK_F2: "", VK_F3: "\x1B[13%s~", VK_F4: "\x1B[14%s~", VK_F5: "\x1B[15%s~", VK_F6: "\x1B[17%s~", VK_F7: "\x1B[18%s~", VK_F8: "\x1B[19%s~", VK_F9: "\x1B[20%s~", VK_F10: "\x1B[21%s~", VK_F11: "\x1B[23%s~", VK_F12: "\x1B[24%s~", } // translateKeyEvents converts the input events into the appropriate ANSI string. func translateKeyEvents(events []INPUT_RECORD, escapeSequence []byte) []byte { var buffer bytes.Buffer for _, event := range events { if event.EventType == KEY_EVENT && event.KeyEvent.KeyDown != 0 { buffer.WriteString(keyToString(&event.KeyEvent, escapeSequence)) } } return buffer.Bytes() } // keyToString maps the given input event record to the corresponding string. func keyToString(keyEvent *KEY_EVENT_RECORD, escapeSequence []byte) string { if keyEvent.UnicodeChar == 0 { return formatVirtualKey(keyEvent.VirtualKeyCode, keyEvent.ControlKeyState, escapeSequence) } _, alt, control := getControlKeys(keyEvent.ControlKeyState) if control { // TODO(azlinux): Implement following control sequences // -D Signals the end of input from the keyboard; also exits current shell. // -H Deletes the first character to the left of the cursor. Also called the ERASE key. // -Q Restarts printing after it has been stopped with -s. // -S Suspends printing on the screen (does not stop the program). // -U Deletes all characters on the current line. Also called the KILL key. // -E Quits current command and creates a core } // +Key generates ESC N Key if !control && alt { return KEY_ESC_N + strings.ToLower(string(keyEvent.UnicodeChar)) } return string(keyEvent.UnicodeChar) } // formatVirtualKey converts a virtual key (e.g., up arrow) into the appropriate ANSI string. func formatVirtualKey(key WORD, controlState DWORD, escapeSequence []byte) string { shift, alt, control := getControlKeys(controlState) modifier := getControlKeysModifier(shift, alt, control, false) if format, ok := arrowKeyMapPrefix[key]; ok { return fmt.Sprintf(format, escapeSequence, modifier) } if format, ok := keyMapPrefix[key]; ok { return fmt.Sprintf(format, modifier) } return "" } // getControlKeys extracts the shift, alt, and ctrl key states. func getControlKeys(controlState DWORD) (shift, alt, control bool) { shift = 0 != (controlState & SHIFT_PRESSED) alt = 0 != (controlState & (LEFT_ALT_PRESSED | RIGHT_ALT_PRESSED)) control = 0 != (controlState & (LEFT_CTRL_PRESSED | RIGHT_CTRL_PRESSED)) return shift, alt, control } // getControlKeysModifier returns the ANSI modifier for the given combination of control keys. func getControlKeysModifier(shift, alt, control, meta bool) string { if shift && alt && control { return KEY_CONTROL_PARAM_8 } if alt && control { return KEY_CONTROL_PARAM_7 } if shift && control { return KEY_CONTROL_PARAM_6 } if control { return KEY_CONTROL_PARAM_5 } if shift && alt { return KEY_CONTROL_PARAM_4 } if alt { return KEY_CONTROL_PARAM_3 } if shift { return KEY_CONTROL_PARAM_2 } return "" }