"""Terminal management for exposing terminals to a web interface using Tornado. """ # Copyright (c) Jupyter Development Team # Copyright (c) 2014, Ramalingam Saravanan # Distributed under the terms of the Simplified BSD License. import asyncio import codecs import itertools import logging import os import select import signal import warnings from collections import deque try: from ptyprocess import PtyProcessUnicode def preexec_fn(): signal.signal(signal.SIGPIPE, signal.SIG_DFL) except ImportError: try: from winpty import PtyProcess as PtyProcessUnicode except ImportError: PtyProcessUnicode = object preexec_fn = None # type:ignore[assignment] from tornado.ioloop import IOLoop ENV_PREFIX = "PYXTERM_" # Environment variable prefix # TERM is set according to xterm.js capabilities DEFAULT_TERM_TYPE = "xterm-256color" class PtyWithClients: def __init__(self, argv, env=None, cwd=None): self.clients = [] # Use read_buffer to store historical messages for reconnection self.read_buffer: deque[list] = deque([], maxlen=1000) kwargs = dict(argv=argv, env=env or [], cwd=cwd) if preexec_fn is not None: kwargs["preexec_fn"] = preexec_fn self.ptyproc = PtyProcessUnicode.spawn(**kwargs) # The output might not be strictly UTF-8 encoded, so # we replace the inner decoder of PtyProcessUnicode # to allow non-strict decode. self.ptyproc.decoder = codecs.getincrementaldecoder("utf-8")(errors="replace") def resize_to_smallest(self): """Set the terminal size to that of the smallest client dimensions. A terminal not using the full space available is much nicer than a terminal trying to use more than the available space, so we keep it sized to the smallest client. """ minrows = mincols = 10001 for client in self.clients: rows, cols = client.size if rows is not None and rows < minrows: minrows = rows if cols is not None and cols < mincols: mincols = cols if minrows == 10001 or mincols == 10001: return rows, cols = self.ptyproc.getwinsize() if (rows, cols) != (minrows, mincols): self.ptyproc.setwinsize(minrows, mincols) def kill(self, sig=signal.SIGTERM): """Send a signal to the process in the pty""" self.ptyproc.kill(sig) def killpg(self, sig=signal.SIGTERM): """Send a signal to the process group of the process in the pty""" if os.name == "nt": return self.ptyproc.kill(sig) pgid = os.getpgid(self.ptyproc.pid) os.killpg(pgid, sig) async def terminate(self, force=False): """This forces a child process to terminate. It starts nicely with SIGHUP and SIGINT. If "force" is True then moves onto SIGKILL. This returns True if the child was terminated. This returns False if the child could not be terminated.""" if os.name == "nt": signals = [signal.SIGINT, signal.SIGTERM] else: signals = [signal.SIGHUP, signal.SIGCONT, signal.SIGINT, signal.SIGTERM] _ = IOLoop.current() def sleep(): return asyncio.sleep(self.ptyproc.delayafterterminate) if not self.ptyproc.isalive(): return True try: for sig in signals: self.kill(sig) await sleep() if not self.ptyproc.isalive(): return True if force: self.kill(signal.SIGKILL) await sleep() if not self.ptyproc.isalive(): return True else: return False return False except OSError: # I think there are kernel timing issues that sometimes cause # this to happen. I think isalive() reports True, but the # process is dead to the kernel. # Make one last attempt to see if the kernel is up to date. await sleep() if not self.ptyproc.isalive(): return True else: return False def _update_removing(target, changes): """Like dict.update(), but remove keys where the value is None.""" for k, v in changes.items(): if v is None: target.pop(k, None) else: target[k] = v def _poll(fd: int, timeout: float = 0.1) -> list: """Poll using poll() on posix systems and select() elsewhere (e.g., Windows)""" if os.name == "posix": poller = select.poll() # noqa: ignore missing method on Windows poller.register( fd, select.POLLIN | select.POLLPRI | select.POLLHUP | select.POLLERR ) # read-only return poller.poll(timeout * 1000) # milliseconds else: # poll() not supported on Windows r, _, _ = select.select([fd], [], [], timeout) return r class TermManagerBase: """Base class for a terminal manager.""" def __init__( self, shell_command, server_url="", term_settings=None, extra_env=None, ioloop=None ): self.shell_command = shell_command self.server_url = server_url self.term_settings = term_settings or {} self.extra_env = extra_env self.log = logging.getLogger(__name__) self.ptys_by_fd = {} if ioloop is not None: warnings.warn( f"Setting {self.__class__.__name__}.ioloop is deprecated and ignored", DeprecationWarning, stacklevel=2, ) def make_term_env(self, height=25, width=80, winheight=0, winwidth=0, **kwargs): """Build the environment variables for the process in the terminal.""" env = os.environ.copy() # ignore any previously set TERM # TERM is set according to xterm.js capabilities env["TERM"] = self.term_settings.get("type", DEFAULT_TERM_TYPE) dimensions = "%dx%d" % (width, height) if winwidth and winheight: dimensions += ";%dx%d" % (winwidth, winheight) env[ENV_PREFIX + "DIMENSIONS"] = dimensions env["COLUMNS"] = str(width) env["LINES"] = str(height) if self.server_url: env[ENV_PREFIX + "URL"] = self.server_url if self.extra_env: _update_removing(env, self.extra_env) term_env = kwargs.get("extra_env", {}) if term_env and isinstance(term_env, dict): _update_removing(env, term_env) return env def new_terminal(self, **kwargs): """Make a new terminal, return a :class:`PtyWithClients` instance.""" options = self.term_settings.copy() options["shell_command"] = self.shell_command options.update(kwargs) argv = options["shell_command"] env = self.make_term_env(**options) cwd = options.get("cwd", None) return PtyWithClients(argv, env, cwd) def start_reading(self, ptywclients): """Connect a terminal to the tornado event loop to read data from it.""" fd = ptywclients.ptyproc.fd self.ptys_by_fd[fd] = ptywclients loop = IOLoop.current() loop.add_handler(fd, self.pty_read, loop.READ) def on_eof(self, ptywclients): """Called when the pty has closed.""" # Stop trying to read from that terminal fd = ptywclients.ptyproc.fd self.log.info("EOF on FD %d; stopping reading", fd) del self.ptys_by_fd[fd] IOLoop.current().remove_handler(fd) # This closes the fd, and should result in the process being reaped. ptywclients.ptyproc.close() def pty_read(self, fd, events=None): """Called by the event loop when there is pty data ready to read.""" # prevent blocking on fd if not _poll(fd, timeout=0.1): # 100ms self.log.debug(f"Spurious pty_read() on fd {fd}") return ptywclients = self.ptys_by_fd[fd] try: self.pre_pty_read_hook(ptywclients) s = ptywclients.ptyproc.read(65536) ptywclients.read_buffer.append(s) for client in ptywclients.clients: client.on_pty_read(s) except EOFError: self.on_eof(ptywclients) for client in ptywclients.clients: client.on_pty_died() def pre_pty_read_hook(self, ptywclients): """Hook before pty read, subclass can patch something into ptywclients when pty_read""" def get_terminal(self, url_component=None): """Override in a subclass to give a terminal to a new websocket connection The :class:`TermSocket` handler works with zero or one URL components (capturing groups in the URL spec regex). If it receives one, it is passed as the ``url_component`` parameter; otherwise, this is None. """ raise NotImplementedError def client_disconnected(self, websocket): """Override this to e.g. kill terminals on client disconnection.""" pass async def shutdown(self): await self.kill_all() async def kill_all(self): futures = [] for term in self.ptys_by_fd.values(): futures.append(term.terminate(force=True)) # wait for futures to finish if futures: await asyncio.gather(*futures) class SingleTermManager(TermManagerBase): """All connections to the websocket share a common terminal.""" def __init__(self, **kwargs): super().__init__(**kwargs) self.terminal = None def get_terminal(self, url_component=None): if self.terminal is None: self.terminal = self.new_terminal() self.start_reading(self.terminal) return self.terminal async def kill_all(self): await super().kill_all() self.terminal = None class MaxTerminalsReached(Exception): def __init__(self, max_terminals): self.max_terminals = max_terminals def __str__(self): return "Cannot create more than %d terminals" % self.max_terminals class UniqueTermManager(TermManagerBase): """Give each websocket a unique terminal to use.""" def __init__(self, max_terminals=None, **kwargs): super().__init__(**kwargs) self.max_terminals = max_terminals def get_terminal(self, url_component=None): if self.max_terminals and len(self.ptys_by_fd) >= self.max_terminals: raise MaxTerminalsReached(self.max_terminals) term = self.new_terminal() self.start_reading(term) return term def client_disconnected(self, websocket): """Send terminal SIGHUP when client disconnects.""" self.log.info("Websocket closed, sending SIGHUP to terminal.") if websocket.terminal: if os.name == "nt": websocket.terminal.kill() # Immediately call the pty reader to process # the eof and free up space self.pty_read(websocket.terminal.ptyproc.fd) return websocket.terminal.killpg(signal.SIGHUP) class NamedTermManager(TermManagerBase): """Share terminals between websockets connected to the same endpoint.""" def __init__(self, max_terminals=None, **kwargs): super().__init__(**kwargs) self.max_terminals = max_terminals self.terminals = {} def get_terminal(self, term_name): assert term_name is not None if term_name in self.terminals: return self.terminals[term_name] if self.max_terminals and len(self.terminals) >= self.max_terminals: raise MaxTerminalsReached(self.max_terminals) # Create new terminal self.log.info("New terminal with specified name: %s", term_name) term = self.new_terminal() term.term_name = term_name self.terminals[term_name] = term self.start_reading(term) return term name_template = "%d" def _next_available_name(self): for n in itertools.count(start=1): name = self.name_template % n if name not in self.terminals: return name def new_named_terminal(self, **kwargs): if "name" in kwargs: name = kwargs["name"] else: name = self._next_available_name() term = self.new_terminal(**kwargs) self.log.info("New terminal with automatic name: %s", name) term.term_name = name self.terminals[name] = term self.start_reading(term) return name, term def kill(self, name, sig=signal.SIGTERM): term = self.terminals[name] term.kill(sig) # This should lead to an EOF async def terminate(self, name, force=False): term = self.terminals[name] await term.terminate(force=force) def on_eof(self, ptywclients): super().on_eof(ptywclients) name = ptywclients.term_name self.log.info("Terminal %s closed", name) self.terminals.pop(name, None) async def kill_all(self): await super().kill_all() self.terminals = {}