From 4212164e91ba2f49583cf44ad623a29b36db8f77 Mon Sep 17 00:00:00 2001 From: James Taylor Date: Fri, 14 Sep 2018 19:32:27 -0700 Subject: Windows: Use 32-bit distribution of python --- python/gevent/libev/corecffi.py | 892 ++++------------------------------------ 1 file changed, 89 insertions(+), 803 deletions(-) (limited to 'python/gevent/libev/corecffi.py') diff --git a/python/gevent/libev/corecffi.py b/python/gevent/libev/corecffi.py index 7283fb4..d57993c 100644 --- a/python/gevent/libev/corecffi.py +++ b/python/gevent/libev/corecffi.py @@ -1,12 +1,9 @@ -# pylint:disable=too-many-lines, protected-access, redefined-outer-name, not-callable, -# pylint:disable=no-member +# pylint: disable=too-many-lines, protected-access, redefined-outer-name, not-callable +# pylint: disable=no-member from __future__ import absolute_import, print_function import sys -import os -import traceback -import signal as signalmodule -# pylint:disable=undefined-all-variable +# pylint: disable=undefined-all-variable __all__ = [ 'get_version', 'get_header_version', @@ -17,7 +14,10 @@ __all__ = [ 'loop', ] -import gevent.libev._corecffi as _corecffi # pylint:disable=no-name-in-module +from gevent._util import implementer +from gevent._interfaces import ILoop + +from gevent.libev import _corecffi # pylint:disable=no-name-in-module,import-error ffi = _corecffi.ffi # pylint:disable=no-member libev = _corecffi.lib # pylint:disable=no-member @@ -44,115 +44,24 @@ else: # is possibly NOT FUNCTIONALLY CORRECT on Win32 ##### -##### -## Note on CFFI objects, callbacks and the lifecycle of watcher objects -# -# Each subclass of `watcher` allocates a C structure of the -# appropriate type e.g., struct gevent_ev_io and holds this pointer in -# its `_gwatcher` attribute. When that watcher instance is garbage -# collected, then the C structure is also freed. The C structure is -# passed to libev from the watcher's start() method and then to the -# appropriate C callback function, e.g., _gevent_ev_io_callback, which -# passes it back to python's _python_callback where we need the -# watcher instance. Therefore, as long as that callback is active (the -# watcher is started), the watcher instance must not be allowed to get -# GC'd---any access at the C level or even the FFI level to the freed -# memory could crash the process. -# -# However, the typical idiom calls for writing something like this: -# loop.io(fd, python_cb).start() -# thus forgetting the newly created watcher subclass and allowing it to be immediately -# GC'd. To combat this, when the watcher is started, it places itself into the loop's -# `_keepaliveset`, and it only removes itself when the watcher's `stop()` method is called. -# Often, this is the *only* reference keeping the watcher object, and hence its C structure, -# alive. -# -# This is slightly complicated by the fact that the python-level -# callback, called from the C callback, could choose to manually stop -# the watcher. When we return to the C level callback, we now have an -# invalid pointer, and attempting to pass it back to Python (e.g., to -# handle an error) could crash. Hence, _python_callback, -# _gevent_io_callback, and _python_handle_error cooperate to make sure -# that the watcher instance stays in the loops `_keepaliveset` while -# the C code could be running---and if it gets removed, to not call back -# to Python again. -# See also https://github.com/gevent/gevent/issues/676 -#### - - -@ffi.callback("int(void* handle, int revents)") -def _python_callback(handle, revents): - """ - Returns an integer having one of three values: - - - -1 - An exception occurred during the callback and you must call - :func:`_python_handle_error` to deal with it. The Python watcher - object will have the exception tuple saved in ``_exc_info``. - - 0 - Everything went according to plan. You should check to see if the libev - watcher is still active, and call :func:`_python_stop` if so. This will - clean up the memory. - - 1 - Everything went according to plan, but the watcher has already - been stopped. Its memory may no longer be valid. - """ - try: - # Even dereferencing the handle needs to be inside the try/except; - # if we don't return normally (e.g., a signal) then we wind up going - # to the 'onerror' handler, which - # is not what we want; that can permanently wedge the loop depending - # on which callback was executing - the_watcher = ffi.from_handle(handle) - args = the_watcher.args - if args is None: - # Legacy behaviour from corecext: convert None into () - # See test__core_watcher.py - args = _NOARGS - if args and args[0] == GEVENT_CORE_EVENTS: - args = (revents, ) + args[1:] - the_watcher.callback(*args) - except: # pylint:disable=bare-except - the_watcher._exc_info = sys.exc_info() - # Depending on when the exception happened, the watcher - # may or may not have been stopped. We need to make sure its - # memory stays valid so we can stop it at the ev level if needed. - the_watcher.loop._keepaliveset.add(the_watcher) - return -1 - else: - if the_watcher in the_watcher.loop._keepaliveset: - # It didn't stop itself - return 0 - return 1 # It stopped itself -libev.python_callback = _python_callback +from gevent._ffi.loop import AbstractCallbacks +from gevent._ffi.loop import assign_standard_callbacks -@ffi.callback("void(void* handle, int revents)") -def _python_handle_error(handle, revents): - try: - watcher = ffi.from_handle(handle) - exc_info = watcher._exc_info - del watcher._exc_info - watcher.loop.handle_error(watcher, *exc_info) - finally: - # XXX Since we're here on an error condition, and we - # made sure that the watcher object was put in loop._keepaliveset, - # what about not stopping the watcher? Looks like a possible - # memory leak? - if revents & (libev.EV_READ | libev.EV_WRITE): - try: - watcher.stop() - except: # pylint:disable=bare-except - watcher.loop.handle_error(watcher, *sys.exc_info()) - return # pylint:disable=lost-exception -libev.python_handle_error = _python_handle_error - - -@ffi.callback("void(void* handle)") -def _python_stop(handle): - watcher = ffi.from_handle(handle) - watcher.stop() -libev.python_stop = _python_stop +class _Callbacks(AbstractCallbacks): + # pylint:disable=arguments-differ + + def python_check_callback(self, _loop, watcher_ptr, _events): + pass + + def python_prepare_callback(self, _loop_ptr, watcher_ptr, _events): + AbstractCallbacks.python_prepare_callback(self, watcher_ptr) + + def _find_loop_from_c_watcher(self, watcher_ptr): + loop_handle = ffi.cast('struct ev_watcher*', watcher_ptr).data + return self.from_handle(loop_handle) + +_callbacks = assign_standard_callbacks(ffi, libev, _Callbacks) UNDEF = libev.EV_UNDEF @@ -190,11 +99,8 @@ SIGNALFD = libev.EVFLAG_SIGNALFD NOSIGMASK = libev.EVFLAG_NOSIGMASK -class _EVENTSType(object): - def __repr__(self): - return 'gevent.core.EVENTS' - -EVENTS = GEVENT_CORE_EVENTS = _EVENTSType() +from gevent._ffi.loop import EVENTS +GEVENT_CORE_EVENTS = EVENTS def get_version(): @@ -216,22 +122,6 @@ _flags = [(libev.EVBACKEND_PORT, 'port'), _flags_str2int = dict((string, flag) for (flag, string) in _flags) -_events = [(libev.EV_READ, 'READ'), - (libev.EV_WRITE, 'WRITE'), - (libev.EV__IOFDSET, '_IOFDSET'), - (libev.EV_PERIODIC, 'PERIODIC'), - (libev.EV_SIGNAL, 'SIGNAL'), - (libev.EV_CHILD, 'CHILD'), - (libev.EV_STAT, 'STAT'), - (libev.EV_IDLE, 'IDLE'), - (libev.EV_PREPARE, 'PREPARE'), - (libev.EV_CHECK, 'CHECK'), - (libev.EV_EMBED, 'EMBED'), - (libev.EV_FORK, 'FORK'), - (libev.EV_CLEANUP, 'CLEANUP'), - (libev.EV_ASYNC, 'ASYNC'), - (libev.EV_CUSTOM, 'CUSTOM'), - (libev.EV_ERROR, 'ERROR')] def _flags_to_list(flags): @@ -251,7 +141,7 @@ if sys.version_info[0] >= 3: integer_types = (int,) else: import __builtin__ # pylint:disable=import-error - basestring = __builtin__.basestring, + basestring = (__builtin__.basestring,) integer_types = (int, __builtin__.long) @@ -292,20 +182,6 @@ def _check_flags(flags): raise ValueError('Unsupported backend: %s' % '|'.join(as_list)) -def _events_to_str(events): - result = [] - for (flag, string) in _events: - c_flag = flag - if events & c_flag: - result.append(string) - events = events & (~c_flag) - if not events: - break - if events: - result.append(hex(events)) - return '|'.join(result) - - def supported_backends(): return _flags_to_list(libev.ev_supported_backends()) @@ -321,138 +197,71 @@ def embeddable_backends(): def time(): return libev.ev_time() -_default_loop_destroyed = False +from gevent._ffi.loop import AbstractLoop -def _loop_callback(*args, **kwargs): - return ffi.callback(*args, **kwargs) +from gevent.libev import watcher as _watchers +_events_to_str = _watchers._events_to_str # exported -class loop(object): +@implementer(ILoop) +class loop(AbstractLoop): # pylint:disable=too-many-public-methods error_handler = None + _CHECK_POINTER = 'struct ev_check *' + + _PREPARE_POINTER = 'struct ev_prepare *' + + _TIMER_POINTER = 'struct ev_timer *' + def __init__(self, flags=None, default=None): - self._in_callback = False - self._callbacks = [] - - # self._check is a watcher that runs in each iteration of the - # mainloop, just after the blocking call - self._check = ffi.new("struct ev_check *") - self._check_callback_ffi = _loop_callback("void(*)(struct ev_loop *, void*, int)", - self._check_callback, - onerror=self._check_callback_handle_error) - libev.ev_check_init(self._check, self._check_callback_ffi) - - # self._prepare is a watcher that runs in each iteration of the mainloop, - # just before the blocking call - self._prepare = ffi.new("struct ev_prepare *") - self._prepare_callback_ffi = _loop_callback("void(*)(struct ev_loop *, void*, int)", - self._run_callbacks, - onerror=self._check_callback_handle_error) - libev.ev_prepare_init(self._prepare, self._prepare_callback_ffi) - - # A timer we start and stop on demand. If we have callbacks, - # too many to run in one iteration of _run_callbacks, we turn this - # on so as to have the next iteration of the run loop return to us - # as quickly as possible. - # TODO: There may be a more efficient way to do this using ev_timer_again; - # see the "ev_timer" section of the ev manpage (http://linux.die.net/man/3/ev) - self._timer0 = ffi.new("struct ev_timer *") - libev.ev_timer_init(self._timer0, libev.gevent_noop, 0.0, 0.0) + AbstractLoop.__init__(self, ffi, libev, _watchers, flags, default) + self._default = True if libev.ev_is_default_loop(self._ptr) else False - # TODO: We may be able to do something nicer and use the existing python_callback - # combined with onerror and the class check/timer/prepare to simplify things - # and unify our handling + def _init_loop(self, flags, default): c_flags = _flags_to_int(flags) _check_flags(c_flags) c_flags |= libev.EVFLAG_NOENV c_flags |= libev.EVFLAG_FORKCHECK if default is None: default = True - if _default_loop_destroyed: - default = False if default: - self._ptr = libev.gevent_ev_default_loop(c_flags) - if not self._ptr: + ptr = libev.gevent_ev_default_loop(c_flags) + if not ptr: raise SystemError("ev_default_loop(%s) failed" % (c_flags, )) - else: - self._ptr = libev.ev_loop_new(c_flags) - if not self._ptr: + ptr = libev.ev_loop_new(c_flags) + if not ptr: raise SystemError("ev_loop_new(%s) failed" % (c_flags, )) if default or globals()["__SYSERR_CALLBACK"] is None: set_syserr_cb(self._handle_syserr) - libev.ev_prepare_start(self._ptr, self._prepare) - self.unref() + # Mark this loop as being used. + libev.ev_set_userdata(ptr, ptr) + return ptr + + def _init_and_start_check(self): + libev.ev_check_init(self._check, libev.python_check_callback) + self._check.data = self._handle_to_self libev.ev_check_start(self._ptr, self._check) self.unref() - self._keepaliveset = set() - - def _check_callback_handle_error(self, t, v, tb): - # None as the context argument causes the exception to be raised - # in the main greenlet. - self.handle_error(None, t, v, tb) + def _init_and_start_prepare(self): + libev.ev_prepare_init(self._prepare, libev.python_prepare_callback) + libev.ev_prepare_start(self._ptr, self._prepare) + self.unref() - def _check_callback(self, *args): - # If we have the onerror callback, this is a no-op; all the real - # work to rethrow the exception is done by the onerror callback - pass + def _init_callback_timer(self): + libev.ev_timer_init(self._timer0, libev.gevent_noop, 0.0, 0.0) - def _run_callbacks(self, _evloop, _, _revents): - count = 1000 + def _stop_callback_timer(self): libev.ev_timer_stop(self._ptr, self._timer0) - while self._callbacks and count > 0: - callbacks = self._callbacks - self._callbacks = [] - for cb in callbacks: - self.unref() - callback = cb.callback - args = cb.args - if callback is None or args is None: - # it's been stopped - continue - - cb.callback = None - - try: - callback(*args) - except: # pylint:disable=bare-except - # If we allow an exception to escape this method (while we are running the ev callback), - # then CFFI will print the error and libev will continue executing. - # There are two problems with this. The first is that the code after - # the loop won't run. The second is that any remaining callbacks scheduled - # for this loop iteration will be silently dropped; they won't run, but they'll - # also not be *stopped* (which is not a huge deal unless you're looking for - # consistency or checking the boolean/pending status; the loop doesn't keep - # a reference to them like it does to watchers...*UNLESS* the callback itself had - # a reference to a watcher; then I don't know what would happen, it depends on - # the state of the watcher---a leak or crash is not totally inconceivable). - # The Cython implementation in core.ppyx uses gevent_call from callbacks.c - # to run the callback, which uses gevent_handle_error to handle any errors the - # Python callback raises...it unconditionally simply prints any error raised - # by loop.handle_error and clears it, so callback handling continues. - # We take a similar approach (but are extra careful about printing) - try: - self.handle_error(cb, *sys.exc_info()) - except: # pylint:disable=bare-except - try: - print("Exception while handling another error", file=sys.stderr) - traceback.print_exc() - except: # pylint:disable=bare-except - pass # Nothing we can do here - finally: - # NOTE: this must be reset here, because cb.args is used as a flag in - # the callback class so that bool(cb) of a callback that has been run - # becomes False - cb.args = None - count -= 1 - if self._callbacks: - libev.ev_timer_start(self._ptr, self._timer0) + + def _start_callback_timer(self): + libev.ev_timer_start(self._ptr, self._timer0) def _stop_aux_watchers(self): if libev.ev_is_active(self._prepare): @@ -461,25 +270,37 @@ class loop(object): if libev.ev_is_active(self._check): self.ref() libev.ev_check_stop(self._ptr, self._check) + if libev.ev_is_active(self._timer0): + libev.ev_timer_stop(self._timer0) + + def _setup_for_run_callback(self): + self.ref() # we should go through the loop now def destroy(self): - global _default_loop_destroyed if self._ptr: - self._stop_aux_watchers() + super(loop, self).destroy() + # pylint:disable=comparison-with-callable if globals()["__SYSERR_CALLBACK"] == self._handle_syserr: set_syserr_cb(None) - if libev.ev_is_default_loop(self._ptr): - _default_loop_destroyed = True - libev.ev_loop_destroy(self._ptr) - self._ptr = ffi.NULL - @property - def ptr(self): - return self._ptr - @property - def WatcherType(self): - return watcher + def _can_destroy_loop(self, ptr): + # Is it marked as destroyed? + return libev.ev_userdata(ptr) + + def _destroy_loop(self, ptr): + # Mark as destroyed. + libev.ev_set_userdata(ptr, ffi.NULL) + libev.ev_loop_destroy(ptr) + + libev.gevent_zero_prepare(self._prepare) + libev.gevent_zero_check(self._check) + libev.gevent_zero_timer(self._timer0) + + del self._prepare + del self._check + del self._timer0 + @property def MAXPRI(self): @@ -489,31 +310,8 @@ class loop(object): def MINPRI(self): return libev.EV_MINPRI - def _handle_syserr(self, message, errno): - try: - errno = os.strerror(errno) - except: # pylint:disable=bare-except - traceback.print_exc() - try: - message = '%s: %s' % (message, errno) - except: # pylint:disable=bare-except - traceback.print_exc() - self.handle_error(None, SystemError, SystemError(message), None) - - def handle_error(self, context, type, value, tb): - handle_error = None - error_handler = self.error_handler - if error_handler is not None: - # we do want to do getattr every time so that setting Hub.handle_error property just works - handle_error = getattr(error_handler, 'handle_error', error_handler) - handle_error(context, type, value, tb) - else: - self._default_handle_error(context, type, value, tb) - def _default_handle_error(self, context, type, value, tb): # pylint:disable=unused-argument - # note: Hub sets its own error handler so this is not used by gevent - # this is here to make core.loop usable without the rest of gevent - traceback.print_exception(type, value, tb) + super(loop, self)._default_handle_error(context, type, value, tb) libev.ev_break(self._ptr, libev.EVBREAK_ONE) def run(self, nowait=False, once=False): @@ -543,16 +341,12 @@ class loop(object): def now(self): return libev.ev_now(self._ptr) - def update(self): + def update_now(self): libev.ev_now_update(self._ptr) def __repr__(self): return '<%s at 0x%x %s>' % (self.__class__.__name__, id(self), self._format()) - @property - def default(self): - return True if libev.ev_is_default_loop(self._ptr) else False - @property def iteration(self): return libev.ev_iteration(self._ptr) @@ -577,79 +371,14 @@ class loop(object): def pendingcnt(self): return libev.ev_pending_count(self._ptr) - def io(self, fd, events, ref=True, priority=None): - return io(self, fd, events, ref, priority) - - def timer(self, after, repeat=0.0, ref=True, priority=None): - return timer(self, after, repeat, ref, priority) - - def signal(self, signum, ref=True, priority=None): - return signal(self, signum, ref, priority) - - def idle(self, ref=True, priority=None): - return idle(self, ref, priority) - - def prepare(self, ref=True, priority=None): - return prepare(self, ref, priority) - - def check(self, ref=True, priority=None): - return check(self, ref, priority) - - def fork(self, ref=True, priority=None): - return fork(self, ref, priority) - - def async(self, ref=True, priority=None): - return async(self, ref, priority) - if sys.platform != "win32": - def child(self, pid, trace=0, ref=True): - return child(self, pid, trace, ref) - def install_sigchld(self): libev.gevent_install_sigchld_handler() def reset_sigchld(self): libev.gevent_reset_sigchld_handler() - def stat(self, path, interval=0.0, ref=True, priority=None): - return stat(self, path, interval, ref, priority) - - def callback(self, priority=None): - return callback(self, priority) - - def run_callback(self, func, *args): - cb = callback(func, args) - self._callbacks.append(cb) - self.ref() - - return cb - - def _format(self): - if not self._ptr: - return 'destroyed' - msg = self.backend - if self.default: - msg += ' default' - msg += ' pending=%s' % self.pendingcnt - msg += self._format_details() - return msg - - def _format_details(self): - msg = '' - fileno = self.fileno() - try: - activecnt = self.activecnt - except AttributeError: - activecnt = None - if activecnt is not None: - msg += ' ref=' + repr(activecnt) - if fileno is not None: - msg += ' fileno=' + repr(fileno) - #if sigfd is not None and sigfd != -1: - # msg += ' sigfd=' + repr(sigfd) - return msg - def fileno(self): if self._ptr: fd = self._ptr.backend_fd @@ -662,449 +391,8 @@ class loop(object): raise ValueError('operation on destroyed loop') return self._ptr.activecnt -# For times when *args is captured but often not passed (empty), -# we can avoid keeping the new tuple that was created for *args -# around by using a constant. -_NOARGS = () - - -class callback(object): - - __slots__ = ('callback', 'args') - - def __init__(self, callback, args): - self.callback = callback - self.args = args or _NOARGS - - def stop(self): - self.callback = None - self.args = None - - # Note that __nonzero__ and pending are different - # bool() is used in contexts where we need to know whether to schedule another callback, - # so it's true if it's pending or currently running - # 'pending' has the same meaning as libev watchers: it is cleared before actually - # running the callback - - def __nonzero__(self): - # it's nonzero if it's pending or currently executing - # NOTE: This depends on loop._run_callbacks setting the args property - # to None. - return self.args is not None - __bool__ = __nonzero__ - - @property - def pending(self): - return self.callback is not None - - def _format(self): - return '' - - def __repr__(self): - result = "<%s at 0x%x" % (self.__class__.__name__, id(self)) - if self.pending: - result += " pending" - if self.callback is not None: - result += " callback=%r" % (self.callback, ) - if self.args is not None: - result += " args=%r" % (self.args, ) - if self.callback is None and self.args is None: - result += " stopped" - return result + ">" - - -class watcher(object): - - def __init__(self, _loop, ref=True, priority=None, args=_NOARGS): - self.loop = _loop - if ref: - self._flags = 0 - else: - self._flags = 4 - self._args = None - self._callback = None - self._handle = ffi.new_handle(self) - - self._watcher = ffi.new(self._watcher_struct_pointer_type) - self._watcher.data = self._handle - if priority is not None: - libev.ev_set_priority(self._watcher, priority) - self._watcher_init(self._watcher, - self._watcher_callback, - *args) - - # A string identifying the type of libev object we watch, e.g., 'ev_io' - # This should be a class attribute. - _watcher_type = None - # A class attribute that is the callback on the libev object that init's the C struct, - # e.g., libev.ev_io_init. If None, will be set by _init_subclasses. - _watcher_init = None - # A class attribute that is the callback on the libev object that starts the C watcher, - # e.g., libev.ev_io_start. If None, will be set by _init_subclasses. - _watcher_start = None - # A class attribute that is the callback on the libev object that stops the C watcher, - # e.g., libev.ev_io_stop. If None, will be set by _init_subclasses. - _watcher_stop = None - # A cffi ctype object identifying the struct pointer we create. - # This is a class attribute set based on the _watcher_type - _watcher_struct_pointer_type = None - # The attribute of the libev object identifying the custom - # callback function for this type of watcher. This is a class - # attribute set based on the _watcher_type in _init_subclasses. - _watcher_callback = None - - @classmethod - def _init_subclasses(cls): - for subclass in cls.__subclasses__(): # pylint:disable=no-member - watcher_type = subclass._watcher_type - subclass._watcher_struct_pointer_type = ffi.typeof('struct ' + watcher_type + '*') - subclass._watcher_callback = ffi.addressof(libev, - '_gevent_generic_callback') - for name in 'start', 'stop', 'init': - ev_name = watcher_type + '_' + name - watcher_name = '_watcher' + '_' + name - if getattr(subclass, watcher_name) is None: - setattr(subclass, watcher_name, - getattr(libev, ev_name)) - - # this is not needed, since we keep alive the watcher while it's started - #def __del__(self): - # self._watcher_stop(self.loop._ptr, self._watcher) - - def __repr__(self): - formats = self._format() - result = "<%s at 0x%x%s" % (self.__class__.__name__, id(self), formats) - if self.pending: - result += " pending" - if self.callback is not None: - result += " callback=%r" % (self.callback, ) - if self.args is not None: - result += " args=%r" % (self.args, ) - if self.callback is None and self.args is None: - result += " stopped" - result += " handle=%s" % (self._watcher.data) - return result + ">" - - def _format(self): - return '' - - def _libev_unref(self): - if self._flags & 6 == 4: - self.loop.unref() - self._flags |= 2 - - def _get_ref(self): - return False if self._flags & 4 else True - - def _set_ref(self, value): - if value: - if not self._flags & 4: - return # ref is already True - if self._flags & 2: # ev_unref was called, undo - self.loop.ref() - self._flags &= ~6 # do not want unref, no outstanding unref - else: - if self._flags & 4: - return # ref is already False - self._flags |= 4 - if not self._flags & 2 and libev.ev_is_active(self._watcher): - self.loop.unref() - self._flags |= 2 - - ref = property(_get_ref, _set_ref) - - def _get_callback(self): - return self._callback - - def _set_callback(self, cb): - if not callable(cb) and cb is not None: - raise TypeError("Expected callable, not %r" % (cb, )) - self._callback = cb - callback = property(_get_callback, _set_callback) - - def _get_args(self): - return self._args - - def _set_args(self, args): - if not isinstance(args, tuple) and args is not None: - raise TypeError("args must be a tuple or None") - self._args = args - - args = property(_get_args, _set_args) - - def start(self, callback, *args): - if callback is None: - raise TypeError('callback must be callable, not None') - self.callback = callback - self.args = args or _NOARGS - self._libev_unref() - self.loop._keepaliveset.add(self) - self._watcher_start(self.loop._ptr, self._watcher) - - def stop(self): - if self._flags & 2: - self.loop.ref() - self._flags &= ~2 - self._watcher_stop(self.loop._ptr, self._watcher) - self.loop._keepaliveset.discard(self) - self._callback = None - self.args = None - - def _get_priority(self): - return libev.ev_priority(self._watcher) - - def _set_priority(self, priority): - if libev.ev_is_active(self._watcher): - raise AttributeError("Cannot set priority of an active watcher") - libev.ev_set_priority(self._watcher, priority) - - priority = property(_get_priority, _set_priority) - - def feed(self, revents, callback, *args): - self.callback = callback - self.args = args or _NOARGS - if self._flags & 6 == 4: - self.loop.unref() - self._flags |= 2 - libev.ev_feed_event(self.loop._ptr, self._watcher, revents) - if not self._flags & 1: - # Py_INCREF(self) - self._flags |= 1 - - @property - def active(self): - return True if libev.ev_is_active(self._watcher) else False - - @property - def pending(self): - return True if libev.ev_is_pending(self._watcher) else False - - -class io(watcher): - _watcher_type = 'ev_io' - - def __init__(self, loop, fd, events, ref=True, priority=None): - # XXX: Win32: Need to vfd_open the fd and free the old one? - # XXX: Win32: Need a destructor to free the old fd? - if fd < 0: - raise ValueError('fd must be non-negative: %r' % fd) - if events & ~(libev.EV__IOFDSET | libev.EV_READ | libev.EV_WRITE): - raise ValueError('illegal event mask: %r' % events) - watcher.__init__(self, loop, ref=ref, priority=priority, args=(fd, events)) - - def start(self, callback, *args, **kwargs): - # pylint:disable=arguments-differ - args = args or _NOARGS - if kwargs.get('pass_events'): - args = (GEVENT_CORE_EVENTS, ) + args - watcher.start(self, callback, *args) - - def _get_fd(self): - return vfd_get(self._watcher.fd) - - def _set_fd(self, fd): - if libev.ev_is_active(self._watcher): - raise AttributeError("'io' watcher attribute 'fd' is read-only while watcher is active") - vfd = vfd_open(fd) - vfd_free(self._watcher.fd) - self._watcher_init(self._watcher, self._watcher_callback, vfd, self._watcher.events) - - fd = property(_get_fd, _set_fd) - - def _get_events(self): - return self._watcher.events - - def _set_events(self, events): - if libev.ev_is_active(self._watcher): - raise AttributeError("'io' watcher attribute 'events' is read-only while watcher is active") - self._watcher_init(self._watcher, self._watcher_callback, self._watcher.fd, events) - - events = property(_get_events, _set_events) - - @property - def events_str(self): - return _events_to_str(self._watcher.events) - - def _format(self): - return ' fd=%s events=%s' % (self.fd, self.events_str) - - -class timer(watcher): - _watcher_type = 'ev_timer' - - def __init__(self, loop, after=0.0, repeat=0.0, ref=True, priority=None): - if repeat < 0.0: - raise ValueError("repeat must be positive or zero: %r" % repeat) - watcher.__init__(self, loop, ref=ref, priority=priority, args=(after, repeat)) - - def start(self, callback, *args, **kw): - # pylint:disable=arguments-differ - update = kw.get("update", True) - if update: - # Quoth the libev doc: "This is a costly operation and is - # usually done automatically within ev_run(). This - # function is rarely useful, but when some event callback - # runs for a very long time without entering the event - # loop, updating libev's idea of the current time is a - # good idea." - # So do we really need to default to true? - libev.ev_now_update(self.loop._ptr) - watcher.start(self, callback, *args) - - @property - def at(self): - return self._watcher.at - - def again(self, callback, *args, **kw): - # Exactly the same as start(), just with a different initializer - # function - self._watcher_start = libev.ev_timer_again - try: - self.start(callback, *args, **kw) - finally: - del self._watcher_start - - -class signal(watcher): - _watcher_type = 'ev_signal' - - def __init__(self, loop, signalnum, ref=True, priority=None): - if signalnum < 1 or signalnum >= signalmodule.NSIG: - raise ValueError('illegal signal number: %r' % signalnum) - # still possible to crash on one of libev's asserts: - # 1) "libev: ev_signal_start called with illegal signal number" - # EV_NSIG might be different from signal.NSIG on some platforms - # 2) "libev: a signal must not be attached to two different loops" - # we probably could check that in LIBEV_EMBED mode, but not in general - watcher.__init__(self, loop, ref=ref, priority=priority, args=(signalnum, )) - - -class idle(watcher): - _watcher_type = 'ev_idle' - - -class prepare(watcher): - _watcher_type = 'ev_prepare' - - -class check(watcher): - _watcher_type = 'ev_check' - - -class fork(watcher): - _watcher_type = 'ev_fork' - - -class async(watcher): - _watcher_type = 'ev_async' - - def send(self): - libev.ev_async_send(self.loop._ptr, self._watcher) - - @property - def pending(self): - return True if libev.ev_async_pending(self._watcher) else False - - -class child(watcher): - _watcher_type = 'ev_child' - - def __init__(self, loop, pid, trace=0, ref=True): - if not loop.default: - raise TypeError('child watchers are only available on the default loop') - loop.install_sigchld() - watcher.__init__(self, loop, ref=ref, args=(pid, trace)) - - def _format(self): - return ' pid=%r rstatus=%r' % (self.pid, self.rstatus) - - @property - def pid(self): - return self._watcher.pid - - @property - def rpid(self, ): - return self._watcher.rpid - - @rpid.setter - def rpid(self, value): - self._watcher.rpid = value - - @property - def rstatus(self): - return self._watcher.rstatus - - @rstatus.setter - def rstatus(self, value): - self._watcher.rstatus = value - - -class stat(watcher): - _watcher_type = 'ev_stat' - - @staticmethod - def _encode_path(path): - if isinstance(path, bytes): - return path - - # encode for the filesystem. Not all systems (e.g., Unix) - # will have an encoding specified - encoding = sys.getfilesystemencoding() or 'utf-8' - try: - path = path.encode(encoding, 'surrogateescape') - except LookupError: - # Can't encode it, and the error handler doesn't - # exist. Probably on Python 2 with an astral character. - # Not sure how to handle this. - raise UnicodeEncodeError("Can't encode path to filesystem encoding") - return path - - def __init__(self, _loop, path, interval=0.0, ref=True, priority=None): - # Store the encoded path in the same attribute that corecext does - self._paths = self._encode_path(path) - - # Keep the original path to avoid re-encoding, especially on Python 3 - self._path = path - - # Although CFFI would automatically convert a bytes object into a char* when - # calling ev_stat_init(..., char*, ...), on PyPy the char* pointer is not - # guaranteed to live past the function call. On CPython, only with a constant/interned - # bytes object is the pointer guaranteed to last path the function call. (And since - # Python 3 is pretty much guaranteed to produce a newly-encoded bytes object above, thats - # rarely the case). Therefore, we must keep a reference to the produced cdata object - # so that the struct ev_stat_watcher's `path` pointer doesn't become invalid/deallocated - self._cpath = ffi.new('char[]', self._paths) - - watcher.__init__(self, _loop, ref=ref, priority=priority, - args=(self._cpath, - interval)) - - @property - def path(self): - return self._path - - @property - def attr(self): - if not self._watcher.attr.st_nlink: - return - return self._watcher.attr - - @property - def prev(self): - if not self._watcher.prev.st_nlink: - return - return self._watcher.prev - - @property - def interval(self): - return self._watcher.interval - -# All watcher subclasses must be declared above. Now we do some -# initialization; this is not only a minor optimization, it protects -# against later runtime typos and attribute errors -watcher._init_subclasses() - +@ffi.def_extern() def _syserr_cb(msg): try: msg = ffi.string(msg) @@ -1113,8 +401,6 @@ def _syserr_cb(msg): set_syserr_cb(None) raise # let cffi print the traceback -_syserr_cb._cb = ffi.callback("void(*)(char *msg)", _syserr_cb) - def set_syserr_cb(callback): global __SYSERR_CALLBACK @@ -1122,7 +408,7 @@ def set_syserr_cb(callback): libev.ev_set_syserr_cb(ffi.NULL) __SYSERR_CALLBACK = None elif callable(callback): - libev.ev_set_syserr_cb(_syserr_cb._cb) + libev.ev_set_syserr_cb(libev._syserr_cb) __SYSERR_CALLBACK = callback else: raise TypeError('Expected callable or None, got %r' % (callback, )) -- cgit v1.2.3