#!/usr/bin/env python # License: GPL v3 Copyright: 2018, Kovid Goyal import asyncio import codecs import io import os import re import selectors import signal import sys import termios from collections.abc import Callable, Generator from contextlib import contextmanager, suppress from enum import Enum, IntFlag, auto from functools import partial from typing import Any, NamedTuple from kitty.constants import is_macos from kitty.fast_data_types import FILE_TRANSFER_CODE, close_tty, normal_tty, open_tty, parse_input_from_terminal, raw_tty from kitty.key_encoding import ALT, CTRL, SHIFT, backspace_key, decode_key_event, enter_key from kitty.typing_compat import ImageManagerType, KeyEventType, Protocol from kitty.utils import ScreenSize, ScreenSizeGetter, screen_size_function, write_all from .handler import Handler from .operations import MouseTracking, init_state, reset_state class BinaryWrite(Protocol): def write(self, data: bytes) -> None: pass def flush(self) -> None: pass def debug_write(*a: Any, **kw: Any) -> None: from base64 import standard_b64encode fobj = kw.pop('file', sys.stderr.buffer) buf = io.StringIO() kw['file'] = buf print(*a, **kw) stext = buf.getvalue() for i in range(0, len(stext), 256): chunk = stext[i:i + 256] text = b'\x1bP@kitty-print|' + standard_b64encode(chunk.encode('utf-8')) + b'\x1b\\' fobj.write(text) fobj.flush() class Debug: fobj: BinaryWrite | None = None def __call__(self, *a: Any, **kw: Any) -> None: kw['file'] = self.fobj or sys.stdout.buffer debug_write(*a, **kw) debug = Debug() ftc_code = str(FILE_TRANSFER_CODE) class TermManager: def __init__( self, optional_actions: int = termios.TCSANOW, use_alternate_screen: bool = True, mouse_tracking: MouseTracking = MouseTracking.none ) -> None: self.extra_finalize: str | None = None self.optional_actions = optional_actions self.use_alternate_screen = use_alternate_screen self.mouse_tracking = mouse_tracking def set_state_for_loop(self, set_raw: bool = True) -> None: if set_raw: raw_tty(self.tty_fd, self.original_termios) write_all(self.tty_fd, init_state(self.use_alternate_screen, self.mouse_tracking)) def reset_state_to_original(self) -> None: normal_tty(self.tty_fd, self.original_termios) if self.extra_finalize: write_all(self.tty_fd, self.extra_finalize) write_all(self.tty_fd, reset_state(self.use_alternate_screen)) @contextmanager def suspend(self) -> Generator['TermManager', None, None]: self.reset_state_to_original() yield self self.set_state_for_loop() def __enter__(self) -> 'TermManager': self.tty_fd, self.original_termios = open_tty(False, self.optional_actions) self.set_state_for_loop(set_raw=False) return self def __exit__(self, *a: object) -> None: with suppress(Exception): self.reset_state_to_original() close_tty(self.tty_fd, self.original_termios) del self.tty_fd, self.original_termios class MouseButton(IntFlag): NONE, LEFT, MIDDLE, RIGHT, FOURTH, FIFTH, SIXTH, SEVENTH = 0, 1, 2, 4, 8, 16, 32, 64 WHEEL_UP, WHEEL_DOWN, WHEEL_LEFT, WHEEL_RIGHT = -1, -2, -4, -8 bmap = MouseButton.LEFT, MouseButton.MIDDLE, MouseButton.RIGHT ebmap = MouseButton.FOURTH, MouseButton.FIFTH, MouseButton.SIXTH, MouseButton.SEVENTH wbmap = MouseButton.WHEEL_UP, MouseButton.WHEEL_DOWN, MouseButton.WHEEL_LEFT, MouseButton.WHEEL_RIGHT SHIFT_INDICATOR = 1 << 2 ALT_INDICATOR = 1 << 3 CTRL_INDICATOR = 1 << 4 MOTION_INDICATOR = 1 << 5 class EventType(Enum): PRESS = auto() RELEASE = auto() MOVE = auto() class MouseEvent(NamedTuple): cell_x: int cell_y: int pixel_x: int pixel_y: int type: EventType buttons: MouseButton mods: int def pixel_to_cell(px: int, length: int, cell_length: int) -> int: px = max(0, min(px, length - 1)) return px // cell_length def decode_sgr_mouse(text: str, screen_size: ScreenSize) -> MouseEvent: cb_, x_, y_ = text.split(';') m, y_ = y_[-1], y_[:-1] cb, x, y = map(int, (cb_, x_, y_)) typ = EventType.RELEASE if m == 'm' else (EventType.MOVE if cb & MOTION_INDICATOR else EventType.PRESS) buttons: MouseButton = MouseButton.NONE cb3 = cb & 3 if cb >= 128: buttons |= ebmap[cb3] elif cb >= 64: buttons |= wbmap[cb3] elif cb3 < 3: buttons |= bmap[cb3] mods = 0 if cb & SHIFT_INDICATOR: mods |= SHIFT if cb & ALT_INDICATOR: mods |= ALT if cb & CTRL_INDICATOR: mods |= CTRL return MouseEvent( pixel_to_cell(x, screen_size.width, screen_size.cell_width), pixel_to_cell(y, screen_size.height, screen_size.cell_height), x, y, typ, buttons, mods ) class UnhandledException(Handler): def __init__(self, tb: str) -> None: self.tb = tb def initialize(self) -> None: self.cmd.clear_screen() self.cmd.set_scrolling_region() self.cmd.set_cursor_visible(True) self.cmd.set_default_colors() self.write(self.tb.replace('\n', '\r\n')) self.write('\r\n') self.write('Press Enter to quit') def on_key(self, key_event: KeyEventType) -> None: if key_event.key == 'ENTER': self.quit_loop(1) def on_interrupt(self) -> None: self.quit_loop(1) on_eot = on_term = on_interrupt class SignalManager: def __init__( self, loop: asyncio.AbstractEventLoop, on_winch: Callable[[], None], on_interrupt: Callable[[], None], on_term: Callable[[], None], on_hup: Callable[[], None], ) -> None: self.asyncio_loop = loop self.on_winch, self.on_interrupt, self.on_term = on_winch, on_interrupt, on_term self.on_hup = on_hup def __enter__(self) -> None: self.asyncio_loop.add_signal_handler(signal.SIGWINCH, self.on_winch) self.asyncio_loop.add_signal_handler(signal.SIGINT, self.on_interrupt) self.asyncio_loop.add_signal_handler(signal.SIGTERM, self.on_term) self.asyncio_loop.add_signal_handler(signal.SIGHUP, self.on_hup) def __exit__(self, *a: Any) -> None: tuple(map(self.asyncio_loop.remove_signal_handler, ( signal.SIGWINCH, signal.SIGINT, signal.SIGTERM, signal.SIGHUP))) sanitize_bracketed_paste: str = '[\x03\x04\x0e\x0f\r\x07\x7f\x8d\x8e\x8f\x90\x9b\x9d\x9e\x9f]' class Loop: def __init__( self, sanitize_bracketed_paste: str = sanitize_bracketed_paste, optional_actions: int = termios.TCSADRAIN ): if is_macos: # On macOS PTY devices are not supported by the KqueueSelector and # the PollSelector is broken, causes 100% CPU usage self.asyncio_loop: asyncio.AbstractEventLoop = asyncio.SelectorEventLoop(selectors.SelectSelector()) asyncio.set_event_loop(self.asyncio_loop) else: try: self.asyncio_loop = asyncio.get_event_loop() except RuntimeError: self.asyncio_loop = asyncio.new_event_loop() self.return_code = 0 self.overlay_ready_reported = False self.optional_actions = optional_actions self.read_buf = '' self.decoder = codecs.getincrementaldecoder('utf-8')('ignore') try: self.iov_limit = max(os.sysconf('SC_IOV_MAX') - 1, 255) except Exception: self.iov_limit = 255 self.parse_input_from_terminal = partial(parse_input_from_terminal, self._on_text, self._on_dcs, self._on_csi, self._on_osc, self._on_pm, self._on_apc) self.ebs_pat = re.compile('([\177\r\x03\x04])') self.in_bracketed_paste = False self.sanitize_bracketed_paste = bool(sanitize_bracketed_paste) if self.sanitize_bracketed_paste: self.sanitize_ibp_pat = re.compile(sanitize_bracketed_paste) def _read_ready(self, handler: Handler, fd: int) -> None: try: bdata = os.read(fd, io.DEFAULT_BUFFER_SIZE) except BlockingIOError: return if not bdata: handler.terminal_io_ended = True self.quit(1) return data = self.decoder.decode(bdata) if self.read_buf: data = self.read_buf + data self.read_buf = data self.handler = handler try: self.read_buf = self.parse_input_from_terminal(self.read_buf, self.in_bracketed_paste) except Exception: self.read_buf = '' raise finally: del self.handler # terminal input callbacks {{{ def _on_text(self, text: str) -> None: if self.in_bracketed_paste and self.sanitize_bracketed_paste: text = self.sanitize_ibp_pat.sub('', text) for chunk in self.ebs_pat.split(text): if len(chunk) == 1: if chunk == '\r': self.handler.on_key(enter_key) elif chunk == '\177': self.handler.on_key(backspace_key) elif chunk == '\x03': self.handler.on_interrupt() elif chunk == '\x04': self.handler.on_eot() else: self.handler.on_text(chunk, self.in_bracketed_paste) elif chunk: self.handler.on_text(chunk, self.in_bracketed_paste) def _on_dcs(self, dcs: str) -> None: if dcs.startswith('@kitty-cmd'): import json self.handler.on_kitty_cmd_response(json.loads(dcs[len('@kitty-cmd'):])) elif dcs.startswith('1+r'): from binascii import unhexlify vals = dcs[3:].split(';') for q in vals: parts = q.split('=', 1) try: name, val = parts[0], unhexlify(parts[1]).decode('utf-8', 'replace') except Exception: continue self.handler.on_capability_response(name, val) def _on_csi(self, csi: str) -> None: q = csi[-1] if q in 'mM': if csi.startswith('<'): # SGR mouse event try: ev = decode_sgr_mouse(csi[1:], self.handler.screen_size) except Exception: pass else: self.handler.on_mouse_event(ev) elif q in 'u~ABCDEHFPQRS': if csi == '200~': self.in_bracketed_paste = True return elif csi == '201~': self.in_bracketed_paste = False return try: k = decode_key_event(csi[:-1], q) except Exception: pass else: if not self.handler.perform_default_key_action(k): self.handler.on_key_event(k) def _on_pm(self, pm: str) -> None: pass def _on_osc(self, osc: str) -> None: idx = osc.find(';') if idx <= 0: return q = osc[:idx] if q == '52': widx = osc.find(';', idx + 1) if widx < idx: from_primary = osc.find('p', idx + 1) > -1 payload = '' else: from base64 import standard_b64decode from_primary = osc.find('p', idx+1, widx) > -1 data = memoryview(osc.encode('ascii')) payload = standard_b64decode(data[widx+1:]).decode('utf-8') self.handler.on_clipboard_response(payload, from_primary) elif q == ftc_code: from kitty.file_transmission import FileTransmissionCommand data = memoryview(osc.encode('ascii')) self.handler.on_file_transfer_response(FileTransmissionCommand.deserialize(data[idx+1:])) def _on_apc(self, apc: str) -> None: if apc.startswith('G'): if self.handler.image_manager is not None: self.handler.image_manager.handle_response(apc) # }}} @property def total_pending_bytes_to_write(self) -> int: return sum(map(len, self.write_buf)) def _write_ready(self, handler: Handler, fd: int) -> None: if len(self.write_buf) > self.iov_limit: self.write_buf[self.iov_limit - 1] = b''.join(self.write_buf[self.iov_limit - 1:]) del self.write_buf[self.iov_limit:] total_size = self.total_pending_bytes_to_write if total_size: try: written = os.writev(fd, self.write_buf) except BlockingIOError: return if not written: handler.terminal_io_ended = True self.quit(1) return else: written = 0 if written >= total_size: self.write_buf: list[bytes] = [] self.asyncio_loop.remove_writer(fd) self.waiting_for_writes = False handler.on_writing_finished() else: consumed = 0 for i, buf in enumerate(self.write_buf): if not written: break if len(buf) <= written: written -= len(buf) consumed += 1 continue self.write_buf[i] = buf[written:] break del self.write_buf[:consumed] def quit(self, return_code: int | None = None) -> None: if return_code is not None: self.return_code = return_code self.asyncio_loop.stop() def loop_impl(self, handler: Handler, term_manager: TermManager, image_manager: ImageManagerType | None = None) -> str | None: self.write_buf = [] tty_fd = term_manager.tty_fd tb = None self.waiting_for_writes = True def schedule_write(data: bytes) -> None: self.write_buf.append(data) if not self.waiting_for_writes: self.asyncio_loop.add_writer(tty_fd, self._write_ready, handler, tty_fd) self.waiting_for_writes = True def handle_exception(loop: asyncio.AbstractEventLoop, context: dict[str, Any]) -> None: nonlocal tb loop.stop() tb = context['message'] exc = context.get('exception') if exc is not None: import traceback tb += '\n' + ''.join(traceback.format_exception(exc.__class__, exc, exc.__traceback__)) self.asyncio_loop.set_exception_handler(handle_exception) handler._initialize(self._get_screen_size(), term_manager, schedule_write, self, debug, image_manager) with handler: if handler.overlay_ready_report_needed: handler.cmd.overlay_ready() self.asyncio_loop.add_reader( tty_fd, self._read_ready, handler, tty_fd) self.asyncio_loop.add_writer( tty_fd, self._write_ready, handler, tty_fd) self.asyncio_loop.run_forever() self.asyncio_loop.remove_reader(tty_fd) if self.waiting_for_writes: self.asyncio_loop.remove_writer(tty_fd) return tb def loop(self, handler: Handler) -> None: tb: str | None = None def _on_sigwinch() -> None: self._get_screen_size.changed = True handler.screen_size = self._get_screen_size() handler.on_resize(handler.screen_size) signal_manager = SignalManager(self.asyncio_loop, _on_sigwinch, handler.on_interrupt, handler.on_term, handler.on_hup) with TermManager(self.optional_actions, handler.use_alternate_screen, handler.mouse_tracking) as term_manager, signal_manager: self._get_screen_size: ScreenSizeGetter = screen_size_function(term_manager.tty_fd) image_manager = None if handler.image_manager_class is not None: image_manager = handler.image_manager_class(handler) try: tb = self.loop_impl(handler, term_manager, image_manager) except Exception: import traceback tb = traceback.format_exc() term_manager.extra_finalize = b''.join(self.write_buf).decode('utf-8') if tb is not None: report_overlay_ready = handler.overlay_ready_report_needed and not self.overlay_ready_reported self.return_code = 1 if not handler.terminal_io_ended: self._report_error_loop(tb, term_manager, report_overlay_ready) def _report_error_loop(self, tb: str, term_manager: TermManager, overlay_ready_report_needed: bool) -> None: handler = UnhandledException(tb) handler.overlay_ready_report_needed = overlay_ready_report_needed self.loop_impl(handler, term_manager)