# Copyright 2010-2020 Gentoo Authors # Distributed under the terms of the GNU General Public License v2 import fcntl import logging import sys try: import dummy_threading except ImportError: dummy_threading = None try: import threading except ImportError: threading = dummy_threading import portage from portage import os from portage.exception import TryAgain from portage.localization import _ from portage.locks import lockfile, unlockfile from portage.util import writemsg_level from _emerge.AbstractPollTask import AbstractPollTask from _emerge.AsynchronousTask import AsynchronousTask from _emerge.SpawnProcess import SpawnProcess class AsynchronousLock(AsynchronousTask): """ This uses the portage.locks module to acquire a lock asynchronously, using either a thread (if available) or a subprocess. The default behavior is to use a process instead of a thread, since there is currently no way to interrupt a thread that is waiting for a lock (notably, SIGINT doesn't work because python delivers all signals to the main thread). """ __slots__ = ('path',) + \ ('_imp', '_force_async', '_force_dummy', '_force_process', \ '_force_thread', '_unlock_future') _use_process_by_default = True def _start(self): if not self._force_async: try: self._imp = lockfile(self.path, wantnewlockfile=True, flags=os.O_NONBLOCK) except TryAgain: pass else: self.returncode = os.EX_OK self._async_wait() return if self._force_process or \ (not self._force_thread and \ (self._use_process_by_default or threading is dummy_threading)): self._imp = _LockProcess(path=self.path, scheduler=self.scheduler) else: self._imp = _LockThread(path=self.path, scheduler=self.scheduler, _force_dummy=self._force_dummy) self._imp.addExitListener(self._imp_exit) self._imp.start() def _imp_exit(self, imp): # call exit listeners self.returncode = imp.returncode self._async_wait() def _cancel(self): if isinstance(self._imp, AsynchronousTask): self._imp.cancel() def _poll(self): if isinstance(self._imp, AsynchronousTask): self._imp.poll() return self.returncode def async_unlock(self): """ Release the lock asynchronously. Release notification is available via the add_done_callback method of the returned Future instance. @returns: Future, result is None """ if self._imp is None: raise AssertionError('not locked') if self._unlock_future is not None: raise AssertionError("already unlocked") if isinstance(self._imp, (_LockProcess, _LockThread)): unlock_future = self._imp.async_unlock() else: unlockfile(self._imp) unlock_future = self.scheduler.create_future() self.scheduler.call_soon(unlock_future.set_result, None) self._imp = None self._unlock_future = unlock_future return unlock_future class _LockThread(AbstractPollTask): """ This uses the portage.locks module to acquire a lock asynchronously, using a background thread. After the lock is acquired, the thread writes to a pipe in order to notify a poll loop running in the main thread. If the threading module is unavailable then the dummy_threading module will be used, and the lock will be acquired synchronously (before the start() method returns). """ __slots__ = ('path',) + \ ('_force_dummy', '_lock_obj', '_thread', '_unlock_future') def _start(self): self._registered = True threading_mod = threading if self._force_dummy: threading_mod = dummy_threading self._thread = threading_mod.Thread(target=self._run_lock) self._thread.daemon = True self._thread.start() def _run_lock(self): self._lock_obj = lockfile(self.path, wantnewlockfile=True) # Thread-safe callback to EventLoop self.scheduler.call_soon_threadsafe(self._run_lock_cb) def _run_lock_cb(self): self._unregister() self.returncode = os.EX_OK self._async_wait() def _cancel(self): # There's currently no way to force thread termination. pass def _unlock(self): if self._lock_obj is None: raise AssertionError('not locked') if self.returncode is None: raise AssertionError('lock not acquired yet') if self._unlock_future is not None: raise AssertionError("already unlocked") self._unlock_future = self.scheduler.create_future() unlockfile(self._lock_obj) self._lock_obj = None def async_unlock(self): """ Release the lock asynchronously. Release notification is available via the add_done_callback method of the returned Future instance. @returns: Future, result is None """ self._unlock() self.scheduler.call_soon(self._unlock_future.set_result, None) return self._unlock_future def _unregister(self): self._registered = False if self._thread is not None: self._thread.join() self._thread = None class _LockProcess(AbstractPollTask): """ This uses the portage.locks module to acquire a lock asynchronously, using a subprocess. After the lock is acquired, the process writes to a pipe in order to notify a poll loop running in the main process. The unlock() method notifies the subprocess to release the lock and exit. """ __slots__ = ('path',) + \ ('_acquired', '_kill_test', '_proc', '_files', '_unlock_future') def _start(self): in_pr, in_pw = os.pipe() out_pr, out_pw = os.pipe() self._files = {} self._files['pipe_in'] = in_pr self._files['pipe_out'] = out_pw fcntl.fcntl(in_pr, fcntl.F_SETFL, fcntl.fcntl(in_pr, fcntl.F_GETFL) | os.O_NONBLOCK) self.scheduler.add_reader(in_pr, self._output_handler) self._registered = True self._proc = SpawnProcess( args=[portage._python_interpreter, os.path.join(portage._bin_path, 'lock-helper.py'), self.path], env=dict(os.environ, PORTAGE_PYM_PATH=portage._pym_path), fd_pipes={0:out_pr, 1:in_pw, 2:sys.__stderr__.fileno()}, scheduler=self.scheduler) self._proc.addExitListener(self._proc_exit) self._proc.start() os.close(out_pr) os.close(in_pw) def _proc_exit(self, proc): if self._files is not None: # Close pipe_out if it's still open, since it's useless # after the process has exited. This helps to avoid # "ResourceWarning: unclosed file" since Python 3.2. try: pipe_out = self._files.pop('pipe_out') except KeyError: pass else: os.close(pipe_out) if proc.returncode != os.EX_OK: # Typically, this will happen due to the # process being killed by a signal. if not self._acquired: # If the lock hasn't been aquired yet, the # caller can check the returncode and handle # this failure appropriately. if not (self.cancelled or self._kill_test): writemsg_level("_LockProcess: %s\n" % \ _("failed to acquire lock on '%s'") % (self.path,), level=logging.ERROR, noiselevel=-1) self._unregister() self.returncode = proc.returncode self._async_wait() return if not self.cancelled and \ self._unlock_future is None: # We don't want lost locks going unnoticed, so it's # only safe to ignore if either the cancel() or # unlock() methods have been previously called. raise AssertionError("lock process failed with returncode %s" \ % (proc.returncode,)) if self._unlock_future is not None: self._unlock_future.set_result(None) def _cancel(self): if self._proc is not None: self._proc.cancel() def _poll(self): if self._proc is not None: self._proc.poll() return self.returncode def _output_handler(self): buf = self._read_buf(self._files['pipe_in']) if buf: self._acquired = True self._unregister() self.returncode = os.EX_OK self._async_wait() return True def _unregister(self): self._registered = False if self._files is not None: try: pipe_in = self._files.pop('pipe_in') except KeyError: pass else: self.scheduler.remove_reader(pipe_in) os.close(pipe_in) def _unlock(self): if self._proc is None: raise AssertionError('not locked') if not self._acquired: raise AssertionError('lock not acquired yet') if self.returncode != os.EX_OK: raise AssertionError("lock process failed with returncode %s" \ % (self.returncode,)) if self._unlock_future is not None: raise AssertionError("already unlocked") self._unlock_future = self.scheduler.create_future() os.write(self._files['pipe_out'], b'\0') os.close(self._files['pipe_out']) self._files = None def async_unlock(self): """ Release the lock asynchronously. Release notification is available via the add_done_callback method of the returned Future instance. @returns: Future, result is None """ self._unlock() return self._unlock_future