# Copyright (c) 2020 gevent contributors. """ This module provides :class:`GeventSelector`, a high-level IO multiplexing mechanism. This is aliased to :class:`DefaultSelector`. This module provides the same API as the selectors defined in :mod:`selectors`. On Python 2, this module is only available if the `selectors2 `_ backport is installed. .. versionadded:: 20.6.0 """ from __future__ import absolute_import from __future__ import division from __future__ import print_function from collections import defaultdict try: import selectors as __selectors__ except ImportError: # Probably on Python 2. Do we have the backport? import selectors2 as __selectors__ __target__ = 'selectors2' from gevent.hub import _get_hub_noargs as get_hub from gevent import sleep from gevent._compat import iteritems from gevent._compat import itervalues from gevent._util import copy_globals from gevent._util import Lazy from gevent.event import Event from gevent.select import _EV_READ from gevent.select import _EV_WRITE __implements__ = [ 'DefaultSelector', ] __extra__ = [ 'GeventSelector', ] __all__ = __implements__ + __extra__ __imports__ = copy_globals( __selectors__, globals(), names_to_ignore=__all__, # Copy __all__; __all__ is defined by selectors2 but not Python 3. dunder_names_to_keep=('__all__',) ) _POLL_ALL = _EV_READ | _EV_WRITE EVENT_READ = __selectors__.EVENT_READ EVENT_WRITE = __selectors__.EVENT_WRITE _ALL_EVENTS = EVENT_READ | EVENT_WRITE SelectorKey = __selectors__.SelectorKey # In 3.4 and selectors2, BaseSelector is a concrete # class that can be called. In 3.5 and later, it's an # ABC, with the real implementation being # passed to _BaseSelectorImpl. _BaseSelectorImpl = getattr( __selectors__, '_BaseSelectorImpl', __selectors__.BaseSelector ) class GeventSelector(_BaseSelectorImpl): """ A selector implementation using gevent primitives. This is a type of :class:`selectors.BaseSelector`, so the documentation for that class applies here. .. caution:: As the base class indicates, it is critically important to unregister file objects before closing them. (Or close the selector they are registered with before closing them.) Failure to do so may crash the process or have other unintended results. """ # Notes on the approach: # # It's easy to wrap a selector implementation around # ``gevent.select.poll``; in fact that's what happens by default # when monkey-patching in Python 3. But the problem with that is # each call to ``selector.select()`` will result in creating and # then destroying new kernel-level polling resources, as nothing # in ``gevent.select`` can keep watchers around (because the underlying # file could be closed at any time). This ends up producing a large # number of syscalls that are unnecessary. # # So here, we take advantage of the fact that it is documented and # required that files not be closed while they are registered. # This lets us persist watchers. Indeed, it lets us continually # accrue events in the background before a call to ``select()`` is even # made. We can take advantage of this to return results immediately, without # a syscall, if we have them. # # We create watchers in ``register()`` and destroy them in # ``unregister()``. They do not get started until the first call # to ``select()``, though. Once they are started, they don't get # stopped until they deliver an event. # Lifecycle: # register() -> inactive_watchers # select() -> inactive_watchers -> active_watchers; # active_watchers -> inactive_watchers def __init__(self, hub=None): if hub is not None: self.hub = hub # {fd: watcher} self._active_watchers = {} self._inactive_watchers = {} # {fd: EVENT_READ|EVENT_WRITE} self._accumulated_events = defaultdict(int) self._ready = Event() super(GeventSelector, self).__init__() def __callback(self, events, fd): if events > 0: cur_event_for_fd = self._accumulated_events[fd] if events & _EV_READ: cur_event_for_fd |= EVENT_READ if events & _EV_WRITE: cur_event_for_fd |= EVENT_WRITE self._accumulated_events[fd] = cur_event_for_fd self._ready.set() @Lazy def hub(self): # pylint:disable=method-hidden return get_hub() def register(self, fileobj, events, data=None): key = _BaseSelectorImpl.register(self, fileobj, events, data) if events == _ALL_EVENTS: flags = _POLL_ALL elif events == EVENT_READ: flags = _EV_READ else: flags = _EV_WRITE loop = self.hub.loop io = loop.io MAXPRI = loop.MAXPRI self._inactive_watchers[key.fd] = watcher = io(key.fd, flags) watcher.priority = MAXPRI return key def unregister(self, fileobj): key = _BaseSelectorImpl.unregister(self, fileobj) if key.fd in self._active_watchers: watcher = self._active_watchers.pop(key.fd) else: watcher = self._inactive_watchers.pop(key.fd) watcher.stop() watcher.close() self._accumulated_events.pop(key.fd, None) return key # XXX: Can we implement ``modify`` more efficiently than # ``unregister()``+``register()``? We could detect the no-change # case and do nothing; recent versions of the standard library # do that. def select(self, timeout=None): """ Poll for I/O. Note that, like the built-in selectors, this will block indefinitely if no timeout is given and no files have been registered. """ # timeout > 0 : block seconds # timeout <= 0 : No blocking. # timeout = None: Block forever # Event.wait doesn't deal with negative values if timeout is not None and timeout < 0: timeout = 0 # Start any watchers that need started. Note that they may # not actually get a chance to do anything yet if we already had # events set. for fd, watcher in iteritems(self._inactive_watchers): watcher.start(self.__callback, fd, pass_events=True) self._active_watchers.update(self._inactive_watchers) self._inactive_watchers.clear() # The _ready event is either already set (in which case # there are some results waiting in _accumulated_events) or # not set, in which case we have to block. But to make the two cases # behave the same, we will always yield to the event loop. if self._ready.is_set(): sleep() self._ready.wait(timeout) self._ready.clear() # TODO: If we have nothing ready, but they ask us not to block, # should we make an effort to actually spin the event loop and let # it check for events? result = [] for fd, event in iteritems(self._accumulated_events): key = self._key_from_fd(fd) watcher = self._active_watchers.pop(fd) ## The below is taken without comment from ## https://github.com/gevent/gevent/pull/1523/files and ## hasn't been checked: # # Since we are emulating an epoll object within another epoll object, # once a watcher has fired, we must deactivate it until poll is called # next. If we did not, someone else could call, e.g., gevent.time.sleep # and any unconsumed bytes on our watched fd would prevent the process # from sleeping correctly. watcher.stop() if key: result.append((key, event & key.events)) self._inactive_watchers[fd] = watcher else: # pragma: no cover # If the key was gone, then somehow we've been unregistered. # Don't put it back in inactive, close it. watcher.close() self._accumulated_events.clear() return result def close(self): for d in self._active_watchers, self._inactive_watchers: if d is None: continue # already closed for watcher in itervalues(d): watcher.stop() watcher.close() self._active_watchers = self._inactive_watchers = None self._accumulated_events = None self.hub = None _BaseSelectorImpl.close(self) DefaultSelector = GeventSelector def _gevent_do_monkey_patch(patch_request): aggressive = patch_request.patch_kwargs['aggressive'] target_mod = patch_request.target_module patch_request.default_patch_items() import sys if 'selectors' not in sys.modules: # Py2: Make 'import selectors' work sys.modules['selectors'] = sys.modules[__name__] # Python 3 wants to use `select.select` as a member function, # leading to this error in selectors.py (because # gevent.select.select is not a builtin and doesn't get the # magic auto-static that they do): # # r, w, _ = self._select(self._readers, self._writers, [], timeout) # TypeError: select() takes from 3 to 4 positional arguments but 5 were given # # Note that this obviously only happens if selectors was # imported after we had patched select; but there is a code # path that leads to it being imported first (but now we've # patched select---so we can't compare them identically). It also doesn't # happen on Windows, because they define a normal method for _select, to work around # some weirdness in the handling of the third argument. # # The backport doesn't have that. orig_select_select = patch_request.get_original('select', 'select') assert target_mod.select is not orig_select_select selectors = __selectors__ SelectSelector = selectors.SelectSelector if hasattr(SelectSelector, '_select') and SelectSelector._select in ( target_mod.select, orig_select_select ): from gevent.select import select def _select(self, *args, **kwargs): # pylint:disable=unused-argument return select(*args, **kwargs) selectors.SelectSelector._select = _select _select._gevent_monkey = True # prove for test cases if aggressive: # If `selectors` had already been imported before we removed # select.epoll|kqueue|devpoll, these may have been defined in terms # of those functions. They'll fail at runtime. patch_request.remove_item( selectors, 'EpollSelector', 'KqueueSelector', 'DevpollSelector', ) selectors.DefaultSelector = DefaultSelector # Python 3.7 refactors the poll-like selectors to use a common # base class and capture a reference to select.poll, etc, at # import time. selectors tends to get imported early # (importing 'platform' does it: platform -> subprocess -> selectors), # so we need to clean that up. if hasattr(selectors, 'PollSelector') and hasattr(selectors.PollSelector, '_selector_cls'): from gevent.select import poll selectors.PollSelector._selector_cls = poll