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# Copyright (c) 2009-2012 Denis Bilenko. See LICENSE for details. # This first directive, supported in Cython 0.24+, causes sources # files to be *much* smaller when it's false (139,027 LOC vs 35,000 # LOC) and thus cythonpp.py (and probably the compiler; also Visual C # has limits on source file sizes) to be faster (73s vs 46s). But it does # make debugging more difficult. Auto-pickling was added in 0.26, and # that's a new feature that we don't need or want to allow in a gevent # point release. # cython: emit_code_comments=False, auto_pickle=False # NOTE: We generally cannot use the Cython IF directive as documented # at # http://cython.readthedocs.io/en/latest/src/userguide/language_basics.html#conditional-compilation # (e.g., IF UNAME_SYSNAME == "Windows") because when Cython says # "compilation", it means when *Cython* compiles, not when the C # compiler compiles. We distribute an sdist with a single pre-compiled # C file for all platforms so that end users that don't use a binary # wheel don't have to sit through cythonpp and other steps the Makefile does. # See https://github.com/gevent/gevent/issues/1076 cimport cython cimport libev from cpython.ref cimport Py_INCREF from cpython.ref cimport Py_DECREF from cpython.mem cimport PyMem_Malloc from cpython.mem cimport PyMem_Free from libc.errno cimport errno cdef extern from "Python.h": int Py_ReprEnter(object) void Py_ReprLeave(object) # Work around lack of absolute_import in Cython # Note for PY3: not doing so will leave reference to locals() on import # (reproducible under Python 3.3, not under Python 3.4; see test__refcount_core.py) sys = __import__('sys', level=0) os = __import__('os', level=0) traceback = __import__('traceback', level=0) signalmodule = __import__('signal', level=0) getswitchinterval = __import__('gevent', level=0).getswitchinterval __all__ = ['get_version', 'get_header_version', 'supported_backends', 'recommended_backends', 'embeddable_backends', 'time', 'loop'] cdef tuple integer_types if sys.version_info[0] >= 3: integer_types = int, else: integer_types = (int, long) cdef extern from "callbacks.h": void gevent_callback_io(libev.ev_loop, void*, int) void gevent_callback_timer(libev.ev_loop, void*, int) void gevent_callback_signal(libev.ev_loop, void*, int) void gevent_callback_idle(libev.ev_loop, void*, int) void gevent_callback_prepare(libev.ev_loop, void*, int) void gevent_callback_check(libev.ev_loop, void*, int) void gevent_callback_fork(libev.ev_loop, void*, int) void gevent_callback_async(libev.ev_loop, void*, int) void gevent_callback_child(libev.ev_loop, void*, int) void gevent_callback_stat(libev.ev_loop, void*, int) void gevent_run_callbacks(libev.ev_loop, void*, int) void gevent_periodic_signal_check(libev.ev_loop, void*, int) void gevent_call(loop, callback) void gevent_noop(libev.ev_loop, void*, int) cdef extern from "stathelper.c": object _pystat_fromstructstat(void*) UNDEF = libev.EV_UNDEF NONE = libev.EV_NONE READ = libev.EV_READ WRITE = libev.EV_WRITE TIMER = libev.EV_TIMER PERIODIC = libev.EV_PERIODIC SIGNAL = libev.EV_SIGNAL CHILD = libev.EV_CHILD STAT = libev.EV_STAT IDLE = libev.EV_IDLE PREPARE = libev.EV_PREPARE CHECK = libev.EV_CHECK EMBED = libev.EV_EMBED FORK = libev.EV_FORK CLEANUP = libev.EV_CLEANUP ASYNC = libev.EV_ASYNC CUSTOM = libev.EV_CUSTOM ERROR = libev.EV_ERROR READWRITE = libev.EV_READ | libev.EV_WRITE MINPRI = libev.EV_MINPRI MAXPRI = libev.EV_MAXPRI BACKEND_PORT = libev.EVBACKEND_PORT BACKEND_KQUEUE = libev.EVBACKEND_KQUEUE BACKEND_EPOLL = libev.EVBACKEND_EPOLL BACKEND_POLL = libev.EVBACKEND_POLL BACKEND_SELECT = libev.EVBACKEND_SELECT FORKCHECK = libev.EVFLAG_FORKCHECK NOINOTIFY = libev.EVFLAG_NOINOTIFY SIGNALFD = libev.EVFLAG_SIGNALFD NOSIGMASK = libev.EVFLAG_NOSIGMASK @cython.internal cdef class _EVENTSType: def __repr__(self): return 'gevent.core.EVENTS' cdef public object GEVENT_CORE_EVENTS = _EVENTSType() EVENTS = GEVENT_CORE_EVENTS def get_version(): return 'libev-%d.%02d' % (libev.ev_version_major(), libev.ev_version_minor()) def get_header_version(): return 'libev-%d.%02d' % (libev.EV_VERSION_MAJOR, libev.EV_VERSION_MINOR) # This list backends in the order they are actually tried by libev _flags = [(libev.EVBACKEND_PORT, 'port'), (libev.EVBACKEND_KQUEUE, 'kqueue'), (libev.EVBACKEND_EPOLL, 'epoll'), (libev.EVBACKEND_POLL, 'poll'), (libev.EVBACKEND_SELECT, 'select'), (libev.EVFLAG_NOENV, 'noenv'), (libev.EVFLAG_FORKCHECK, 'forkcheck'), (libev.EVFLAG_NOINOTIFY, 'noinotify'), (libev.EVFLAG_SIGNALFD, 'signalfd'), (libev.EVFLAG_NOSIGMASK, 'nosigmask')] _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')] cpdef _flags_to_list(unsigned int flags): cdef list result = [] for code, value in _flags: if flags & code: result.append(value) flags &= ~code if not flags: break if flags: result.append(flags) return result if sys.version_info[0] >= 3: basestring = (bytes, str) else: basestring = __builtins__.basestring cpdef unsigned int _flags_to_int(object flags) except? -1: # Note, that order does not matter, libev has its own predefined order if not flags: return 0 if isinstance(flags, integer_types): return flags cdef unsigned int result = 0 try: if isinstance(flags, basestring): flags = flags.split(',') for value in flags: value = value.strip().lower() if value: result |= _flags_str2int[value] except KeyError as ex: raise ValueError('Invalid backend or flag: %s\nPossible values: %s' % (ex, ', '.join(sorted(_flags_str2int.keys())))) return result cdef str _str_hex(object flag): if isinstance(flag, integer_types): return hex(flag) return str(flag) cpdef _check_flags(unsigned int flags): cdef list as_list flags &= libev.EVBACKEND_MASK if not flags: return if not (flags & libev.EVBACKEND_ALL): raise ValueError('Invalid value for backend: 0x%x' % flags) if not (flags & libev.ev_supported_backends()): as_list = [_str_hex(x) for x in _flags_to_list(flags)] raise ValueError('Unsupported backend: %s' % '|'.join(as_list)) cpdef _events_to_str(int events): cdef list result = [] cdef int c_flag 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()) def recommended_backends(): return _flags_to_list(libev.ev_recommended_backends()) def embeddable_backends(): return _flags_to_list(libev.ev_embeddable_backends()) def time(): return libev.ev_time() cdef bint _check_loop(loop loop) except -1: if not loop._ptr: raise ValueError('operation on destroyed loop') return 1 cdef public class callback [object PyGeventCallbackObject, type PyGeventCallback_Type]: cdef public object callback cdef public tuple args cdef callback next def __init__(self, callback, args): self.callback = callback self.args = args def stop(self): self.callback = None self.args = None close = stop # Note, that __nonzero__ and pending are different # nonzero 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 entering callback def __nonzero__(self): # it's nonzero if it's pending or currently executing return self.args is not None @property def pending(self): return self.callback is not None def __repr__(self): if Py_ReprEnter(self) != 0: return "<...>" try: format = self._format() result = "<%s at 0x%x%s" % (self.__class__.__name__, id(self), format) 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 + ">" finally: Py_ReprLeave(self) def _format(self): return '' DEF CALLBACK_CHECK_COUNT = 50 @cython.final @cython.internal cdef class CallbackFIFO(object): cdef callback head cdef callback tail def __init__(self): self.head = None self.tail = None cdef inline callback popleft(self): cdef callback head = self.head self.head = head.next if self.head is self.tail or self.head is None: self.tail = None head.next = None return head cdef inline append(self, callback new_tail): assert not new_tail.next if self.tail is None: if self.head is None: # Completely empty, so this # is now our head self.head = new_tail return self.tail = self.head assert self.head is not None old_tail = self.tail old_tail.next = new_tail self.tail = new_tail def __nonzero__(self): return self.head is not None def __len__(self): cdef Py_ssize_t count = 0 head = self.head while head is not None: count += 1 head = head.next return count def __iter__(self): cdef list objects = [] head = self.head while head is not None: objects.append(head) head = head.next return iter(objects) cdef bint has_callbacks(self): return self.head def __repr__(self): return "<callbacks@%r len=%d head=%r tail=%r>" % (id(self), len(self), self.head, self.tail) cdef public class loop [object PyGeventLoopObject, type PyGeventLoop_Type]: ## embedded struct members cdef libev.ev_prepare _prepare cdef libev.ev_timer _timer0 # We'll only actually start this timer if we're on Windows, # but it doesn't hurt to compile it in on all platforms. cdef libev.ev_timer _periodic_signal_checker ## pointer members cdef public object error_handler cdef libev.ev_loop* _ptr cdef public CallbackFIFO _callbacks ## data members cdef bint starting_timer_may_update_loop_time # We must capture the 'default' state at initialiaztion # time. Destroying the default loop in libev sets # the libev internal pointer to 0, and ev_is_default_loop will # no longer work. cdef bint _default cdef readonly double approx_timer_resolution def __cinit__(self, object flags=None, object default=None, libev.intptr_t ptr=0): self.starting_timer_may_update_loop_time = 0 self._default = 0 libev.ev_prepare_init(&self._prepare, <void*>gevent_run_callbacks) libev.ev_timer_init(&self._periodic_signal_checker, <void*>gevent_periodic_signal_check, 0.3, 0.3) libev.ev_timer_init(&self._timer0, <void*>gevent_noop, 0.0, 0.0) cdef unsigned int c_flags cdef object old_handler = None if ptr: self._ptr = <libev.ev_loop*>ptr self._default = libev.ev_is_default_loop(self._ptr) else: 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: self._default = 1 self._ptr = libev.gevent_ev_default_loop(c_flags) if not self._ptr: raise SystemError("ev_default_loop(%s) failed" % (c_flags, )) if sys.platform == "win32": libev.ev_timer_start(self._ptr, &self._periodic_signal_checker) libev.ev_unref(self._ptr) else: self._ptr = libev.ev_loop_new(c_flags) if not self._ptr: raise SystemError("ev_loop_new(%s) failed" % (c_flags, )) if default or __SYSERR_CALLBACK is None: set_syserr_cb(self._handle_syserr) # Mark as not destroyed libev.ev_set_userdata(self._ptr, self._ptr) libev.ev_prepare_start(self._ptr, &self._prepare) libev.ev_unref(self._ptr) def __init__(self, object flags=None, object default=None, libev.intptr_t ptr=0): self._callbacks = CallbackFIFO() # See libev.corecffi for this attribute. self.approx_timer_resolution = 0.00001 cdef _run_callbacks(self): cdef callback cb cdef object callbacks cdef int count = CALLBACK_CHECK_COUNT self.starting_timer_may_update_loop_time = True cdef libev.ev_tstamp now = libev.ev_now(self._ptr) cdef libev.ev_tstamp expiration = now + <libev.ev_tstamp>getswitchinterval() try: libev.ev_timer_stop(self._ptr, &self._timer0) while self._callbacks.head is not None: cb = self._callbacks.popleft() libev.ev_unref(self._ptr) gevent_call(self, cb) # XXX: Why is this a C callback, not cython? count -= 1 if count == 0 and self._callbacks.head is not None: # We still have more to run but we've reached # the end of one check group count = CALLBACK_CHECK_COUNT libev.ev_now_update(self._ptr) if libev.ev_now(self._ptr) >= expiration: now = 0 break if now != 0: libev.ev_now_update(self._ptr) if self._callbacks.head is not None: libev.ev_timer_start(self._ptr, &self._timer0) finally: self.starting_timer_may_update_loop_time = False cdef _stop_watchers(self, libev.ev_loop* ptr): if not ptr: return if libev.ev_is_active(&self._prepare): libev.ev_ref(ptr) libev.ev_prepare_stop(ptr, &self._prepare) if libev.ev_is_active(&self._periodic_signal_checker): libev.ev_ref(ptr) libev.ev_timer_stop(ptr, &self._periodic_signal_checker) def destroy(self): cdef libev.ev_loop* ptr = self._ptr self._ptr = NULL if ptr: if not libev.ev_userdata(ptr): # Whoops! Program error. They destroyed the loop, # using a different loop object. Our _ptr is still # valid, but the libev loop is gone. Doing anything # else with it will likely cause a crash. return # Mark as destroyed libev.ev_set_userdata(ptr, NULL) self._stop_watchers(ptr) if __SYSERR_CALLBACK == self._handle_syserr: set_syserr_cb(None) libev.ev_loop_destroy(ptr) def __dealloc__(self): cdef libev.ev_loop* ptr = self._ptr self._ptr = NULL if ptr != NULL: if not libev.ev_userdata(ptr): # See destroy(). This is a bug in the caller. return self._stop_watchers(ptr) if not self._default: libev.ev_loop_destroy(ptr) # Mark as destroyed libev.ev_set_userdata(ptr, NULL) @property def ptr(self): return <size_t>self._ptr @property def WatcherType(self): return watcher @property def MAXPRI(self): return libev.EV_MAXPRI @property def MINPRI(self): return libev.EV_MINPRI def _handle_syserr(self, message, errno): if sys.version_info[0] >= 3: message = message.decode() self.handle_error(None, SystemError, SystemError(message + ': ' + os.strerror(errno)), None) cpdef handle_error(self, context, type, value, tb): cdef object handle_error cdef object 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) cpdef _default_handle_error(self, context, type, value, tb): # 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) if self._ptr: libev.ev_break(self._ptr, libev.EVBREAK_ONE) def run(self, nowait=False, once=False): _check_loop(self) cdef unsigned int flags = 0 if nowait: flags |= libev.EVRUN_NOWAIT if once: flags |= libev.EVRUN_ONCE with nogil: libev.ev_run(self._ptr, flags) def reinit(self): if self._ptr: libev.ev_loop_fork(self._ptr) def ref(self): _check_loop(self) libev.ev_ref(self._ptr) def unref(self): _check_loop(self) libev.ev_unref(self._ptr) def break_(self, int how=libev.EVBREAK_ONE): _check_loop(self) libev.ev_break(self._ptr, how) def verify(self): _check_loop(self) libev.ev_verify(self._ptr) cpdef libev.ev_tstamp now(self) except *: _check_loop(self) return libev.ev_now(self._ptr) cpdef void update_now(self) except *: _check_loop(self) libev.ev_now_update(self._ptr) update = update_now # Old name, deprecated. def __repr__(self): return '<%s at 0x%x %s>' % (self.__class__.__name__, id(self), self._format()) @property def default(self): # If we're destroyed, we are not the default loop anymore, # as far as Python is concerned. return self._default if self._ptr else False @property def iteration(self): _check_loop(self) return libev.ev_iteration(self._ptr) @property def depth(self): _check_loop(self) return libev.ev_depth(self._ptr) @property def backend_int(self): _check_loop(self) return libev.ev_backend(self._ptr) @property def backend(self): _check_loop(self) cdef unsigned int backend = libev.ev_backend(self._ptr) for key, value in _flags: if key == backend: return value return backend @property def pendingcnt(self): _check_loop(self) return libev.ev_pending_count(self._ptr) def io(self, libev.vfd_socket_t fd, int events, ref=True, priority=None): return io(self, fd, events, ref, priority) def timer(self, double after, double repeat=0.0, ref=True, priority=None): return timer(self, after, repeat, ref, priority) def signal(self, int 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) # cython doesn't enforce async as a keyword async = async_ def child(self, int pid, bint trace=0, ref=True): if sys.platform == 'win32': raise AttributeError("Child watchers are not supported on Windows") 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, str path, float interval=0.0, ref=True, priority=None): return stat(self, path, interval, ref, priority) def run_callback(self, func, *args): _check_loop(self) cdef callback cb = callback(func, args) self._callbacks.append(cb) libev.ev_ref(self._ptr) return cb def _format(self): if not self._ptr: return 'destroyed' cdef object msg = self.backend if self._default: msg += ' default' msg += ' pending=%s' % self.pendingcnt msg += self._format_details() return msg def _format_details(self): cdef str msg = '' cdef object fileno = self.fileno() cdef object activecnt = None try: sigfd = self.sigfd except AttributeError: sigfd = None try: activecnt = self.activecnt except AttributeError: pass if activecnt is not None: msg += ' ref=' + repr(activecnt) if fileno is not None: msg += ' fileno=' + repr(fileno) return msg def fileno(self): cdef int fd if self._ptr: fd = libev.gevent_ev_loop_backend_fd(self._ptr) if fd >= 0: return fd @property def activecnt(self): _check_loop(self) return libev.gevent_ev_loop_activecnt(self._ptr) @property def sig_pending(self): _check_loop(self) return libev.gevent_ev_loop_sig_pending(self._ptr) @property def origflags(self): return _flags_to_list(self.origflags_int) @property def origflags_int(self): _check_loop(self) return libev.gevent_ev_loop_origflags(self._ptr) @property def sigfd(self): _check_loop(self) fd = libev.gevent_ev_loop_sigfd(self._ptr) if fd >= 0: return fd # Explicitly not EV_USE_SIGNALFD raise AttributeError("sigfd") try: from zope.interface import classImplements except ImportError: pass else: # XXX: This invokes the side-table lookup, we would # prefer to have it stored directly on the class. from gevent._interfaces import ILoop classImplements(loop, ILoop) # about readonly _flags attribute: # bit #1 set if object owns Python reference to itself (Py_INCREF was # called and we must call Py_DECREF later) DEF FLAG_WATCHER_OWNS_PYREF = 1 << 0 # 0x1 # bit #2 set if ev_unref() was called and we must call ev_ref() later DEF FLAG_WATCHER_NEEDS_EVREF = 1 << 1 # 0x2 # bit #3 set if user wants to call ev_unref() before start() DEF FLAG_WATCHER_UNREF_BEFORE_START = 1 << 2 # 0x4 # bits 2 and 3 are *both* set when we are active, but the user # request us not to be ref'd anymore. We unref us (because going active will # ref us) and then make a note of this in the future DEF FLAG_WATCHER_MASK_UNREF_NEEDS_REF = 0x6 cdef void _python_incref(watcher self): if not self._flags & FLAG_WATCHER_OWNS_PYREF: Py_INCREF(self) self._flags |= FLAG_WATCHER_OWNS_PYREF cdef void _python_decref(watcher self): if self._flags & FLAG_WATCHER_OWNS_PYREF: Py_DECREF(self) self._flags &= ~FLAG_WATCHER_OWNS_PYREF cdef void _libev_ref(watcher self): if self._flags & FLAG_WATCHER_NEEDS_EVREF: libev.ev_ref(self.loop._ptr) self._flags &= ~FLAG_WATCHER_NEEDS_EVREF cdef void _libev_unref(watcher self): if self._flags & FLAG_WATCHER_MASK_UNREF_NEEDS_REF == FLAG_WATCHER_UNREF_BEFORE_START: libev.ev_unref(self.loop._ptr) self._flags |= FLAG_WATCHER_NEEDS_EVREF ctypedef void (*start_stop_func)(libev.ev_loop*, void*) nogil cdef struct start_and_stop: start_stop_func start start_stop_func stop cdef start_and_stop make_ss(void* start, void* stop): cdef start_and_stop result = start_and_stop(<start_stop_func>start, <start_stop_func>stop) return result cdef bint _watcher_start(watcher self, object callback, tuple args) except -1: # This method should be called by subclasses of watcher, if they # override the python-level `start` function: they've already paid # for argument unpacking, and `start` cannot be cpdef since it # uses varargs. # We keep this as a function, not a cdef method of watcher. # If it's a cdef method, it could potentially be overridden # by a subclass, which means that the watcher gains a pointer to a # function table (vtable), making each object 8 bytes larger. _check_loop(self.loop) if callback is None or not callable(callback): raise TypeError("Expected callable, not %r" % (callback, )) self._callback = callback self.args = args _libev_unref(self) _python_incref(self) self.__ss.start(self.loop._ptr, self.__watcher) return 1 cdef public class watcher [object PyGeventWatcherObject, type PyGeventWatcher_Type]: """Abstract base class for all the watchers""" ## pointer members cdef public loop loop cdef object _callback cdef public tuple args # By keeping a __watcher cached, the size of the io and timer # structs becomes 152 bytes and child is 160 and stat is 512 (when # the start_and_stop is inlined). On 64-bit macOS CPython 2.7. I # hoped that using libev's data pointer and allocating the # watchers directly and not as inline members would result in # overall savings thanks to better padding, but it didn't. And it # added lots of casts, making the code ugly. # Table: # gevent ver | 1.2 | This | +data # Watcher Kind | | | # Timer | 120 | 152 | 160 # IO | 120 | 152 | 160 # Child | 128 | 160 | 168 # Stat | 480 | 512 | 512 cdef libev.ev_watcher* __watcher # By inlining the start_and_stop struct, instead of taking the address # of a static struct or using the watcher's data pointer, we # use an additional pointer of memory and incur an additional pointer copy # on creation. # But we use fewer pointer accesses for start/stop, and they have # better cache locality. (Then again, we're bigger). # Right now we're going for size, so we use the pointer. IO/Timer objects # are then 144 bytes. cdef start_and_stop* __ss ## Int members # Our subclasses will declare the ev_X struct # as an inline member. This is good for locality, but # probably bad for alignment, as it will get tacked on # immediately after our data. # But all ev_watchers start with some ints, so maybe we can help that # out by putting our ints here. cdef readonly unsigned int _flags def __init__(self, loop loop, ref=True, priority=None): if not self.__watcher or not self.__ss.start or not self.__ss.stop: raise ValueError("Cannot construct a bare watcher") self.loop = loop self._flags = 0 if ref else FLAG_WATCHER_UNREF_BEFORE_START if priority is not None: libev.ev_set_priority(self.__watcher, priority) @property def ref(self): return False if self._flags & 4 else True @ref.setter def ref(self, object value): _check_loop(self.loop) if value: # self.ref should be true after this. if self.ref: return # ref is already True if self._flags & FLAG_WATCHER_NEEDS_EVREF: # ev_unref was called, undo libev.ev_ref(self.loop._ptr) # do not want unref, no outstanding unref self._flags &= ~FLAG_WATCHER_MASK_UNREF_NEEDS_REF else: # self.ref must be false after this if not self.ref: return # ref is already False self._flags |= FLAG_WATCHER_UNREF_BEFORE_START if not self._flags & FLAG_WATCHER_NEEDS_EVREF and libev.ev_is_active(self.__watcher): libev.ev_unref(self.loop._ptr) self._flags |= FLAG_WATCHER_NEEDS_EVREF @property def callback(self): return self._callback @callback.setter def callback(self, object callback): if callback is not None and not callable(callback): raise TypeError("Expected callable, not %r" % (callback, )) self._callback = callback @property def priority(self): return libev.ev_priority(self.__watcher) @priority.setter def priority(self, int priority): cdef libev.ev_watcher* w = self.__watcher if libev.ev_is_active(w): raise AttributeError("Cannot set priority of an active watcher") libev.ev_set_priority(w, priority) @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 def start(self, object callback, *args): _watcher_start(self, callback, args) def stop(self): _check_loop(self.loop) _libev_ref(self) # The callback cannot possibly fire while we are executing, # so this is safe. self._callback = None self.args = None self.__ss.stop(self.loop._ptr, self.__watcher) _python_decref(self) def feed(self, int revents, object callback, *args): _check_loop(self.loop) self.callback = callback self.args = args _libev_unref(self) libev.ev_feed_event(self.loop._ptr, self.__watcher, revents) _python_incref(self) def __repr__(self): if Py_ReprEnter(self) != 0: return "<...>" try: format = self._format() result = "<%s at 0x%x%s" % (self.__class__.__name__, id(self), format) if self.active: result += " active" 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, ) return result + ">" finally: Py_ReprLeave(self) def _format(self): return '' def close(self): self.stop() def __enter__(self): return self def __exit__(self, t, v, tb): self.close() return cdef start_and_stop io_ss = make_ss(<void*>libev.ev_io_start, <void*>libev.ev_io_stop) cdef public class io(watcher) [object PyGeventIOObject, type PyGeventIO_Type]: cdef libev.ev_io _watcher def start(self, object callback, *args, pass_events=False): if pass_events: args = (GEVENT_CORE_EVENTS, ) + args _watcher_start(self, callback, args) def __init__(self, loop loop, libev.vfd_socket_t fd, int events, ref=True, priority=None): watcher.__init__(self, loop, ref, priority) def __cinit__(self, loop loop, libev.vfd_socket_t fd, int events, ref=True, priority=None): 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) # All the vfd_functions are no-ops on POSIX cdef int vfd = libev.vfd_open(fd) libev.ev_io_init(&self._watcher, <void *>gevent_callback_io, vfd, events) self.__watcher = <libev.ev_watcher*>&self._watcher self.__ss = &io_ss def __dealloc__(self): libev.vfd_free(self._watcher.fd) @property def fd(self): return libev.vfd_get(self._watcher.fd) @fd.setter def fd(self, long fd): if libev.ev_is_active(&self._watcher): raise AttributeError("'io' watcher attribute 'fd' is read-only while watcher is active") cdef int vfd = libev.vfd_open(fd) libev.vfd_free(self._watcher.fd) libev.ev_io_init(&self._watcher, <void *>gevent_callback_io, vfd, self._watcher.events) @property def events(self): return self._watcher.events @events.setter def events(self, int events): if libev.ev_is_active(&self._watcher): raise AttributeError("'io' watcher attribute 'events' is read-only while watcher is active") libev.ev_io_init(&self._watcher, <void *>gevent_callback_io, self._watcher.fd, 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) cdef start_and_stop timer_ss = make_ss(<void*>libev.ev_timer_start, <void*>libev.ev_timer_stop) cdef public class timer(watcher) [object PyGeventTimerObject, type PyGeventTimer_Type]: cdef libev.ev_timer _watcher def __cinit__(self, loop loop, double after=0.0, double repeat=0.0, ref=True, priority=None): if repeat < 0.0: raise ValueError("repeat must be positive or zero: %r" % repeat) libev.ev_timer_init(&self._watcher, <void *>gevent_callback_timer, after, repeat) self.__watcher = <libev.ev_watcher*>&self._watcher self.__ss = &timer_ss def __init__(self, loop loop, double after=0.0, double repeat=0.0, ref=True, priority=None): watcher.__init__(self, loop, ref, priority) def start(self, object callback, *args, update=None): update = update if update is not None else self.loop.starting_timer_may_update_loop_time if update: self.loop.update_now() _watcher_start(self, callback, args) @property def at(self): return self._watcher.at # QQQ: add 'after' and 'repeat' properties? def again(self, object callback, *args, update=True): _check_loop(self.loop) self.callback = callback self.args = args _libev_unref(self) if update: libev.ev_now_update(self.loop._ptr) libev.ev_timer_again(self.loop._ptr, &self._watcher) _python_incref(self) cdef start_and_stop signal_ss = make_ss(<void*>libev.ev_signal_start, <void*>libev.ev_signal_stop) cdef public class signal(watcher) [object PyGeventSignalObject, type PyGeventSignal_Type]: cdef libev.ev_signal _watcher def __cinit__(self, loop loop, int 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 libev.ev_signal_init(&self._watcher, <void *>gevent_callback_signal, signalnum) self.__watcher = <libev.ev_watcher*>&self._watcher self.__ss = &signal_ss def __init__(self, loop loop, int signalnum, ref=True, priority=None): watcher.__init__(self, loop, ref, priority) cdef start_and_stop idle_ss = make_ss(<void*>libev.ev_idle_start, <void*>libev.ev_idle_stop) cdef public class idle(watcher) [object PyGeventIdleObject, type PyGeventIdle_Type]: cdef libev.ev_idle _watcher def __cinit__(self, loop loop, ref=True, priority=None): libev.ev_idle_init(&self._watcher, <void*>gevent_callback_idle) self.__watcher = <libev.ev_watcher*>&self._watcher self.__ss = &idle_ss cdef start_and_stop prepare_ss = make_ss(<void*>libev.ev_prepare_start, <void*>libev.ev_prepare_stop) cdef public class prepare(watcher) [object PyGeventPrepareObject, type PyGeventPrepare_Type]: cdef libev.ev_prepare _watcher def __cinit__(self, loop loop, ref=True, priority=None): libev.ev_prepare_init(&self._watcher, <void*>gevent_callback_prepare) self.__watcher = <libev.ev_watcher*>&self._watcher self.__ss = &prepare_ss cdef start_and_stop check_ss = make_ss(<void*>libev.ev_check_start, <void*>libev.ev_check_stop) cdef public class check(watcher) [object PyGeventCheckObject, type PyGeventCheck_Type]: cdef libev.ev_check _watcher def __cinit__(self, loop loop, ref=True, priority=None): libev.ev_check_init(&self._watcher, <void*>gevent_callback_check) self.__watcher = <libev.ev_watcher*>&self._watcher self.__ss = &check_ss cdef start_and_stop fork_ss = make_ss(<void*>libev.ev_fork_start, <void*>libev.ev_fork_stop) cdef public class fork(watcher) [object PyGeventForkObject, type PyGeventFork_Type]: cdef libev.ev_fork _watcher def __cinit__(self, loop loop, ref=True, priority=None): libev.ev_fork_init(&self._watcher, <void*>gevent_callback_fork) self.__watcher = <libev.ev_watcher*>&self._watcher self.__ss = &fork_ss cdef start_and_stop async_ss = make_ss(<void*>libev.ev_async_start, <void*>libev.ev_async_stop) cdef public class async_(watcher) [object PyGeventAsyncObject, type PyGeventAsync_Type]: cdef libev.ev_async _watcher @property def pending(self): # Note the use of ev_async_pending instead of ev_is_pending return True if libev.ev_async_pending(&self._watcher) else False def __cinit__(self, loop loop, ref=True, priority=None): libev.ev_async_init(&self._watcher, <void*>gevent_callback_async) self.__watcher = <libev.ev_watcher*>&self._watcher self.__ss = &async_ss def send(self): _check_loop(self.loop) libev.ev_async_send(self.loop._ptr, &self._watcher) async = async_ cdef start_and_stop child_ss = make_ss(<void*>libev.ev_child_start, <void*>libev.ev_child_stop) cdef public class child(watcher) [object PyGeventChildObject, type PyGeventChild_Type]: cdef libev.ev_child _watcher def __cinit__(self, loop loop, int pid, bint trace=0, ref=True): if sys.platform == 'win32': raise AttributeError("Child watchers are not supported on Windows") if not loop.default: raise TypeError('child watchers are only available on the default loop') libev.gevent_install_sigchld_handler() libev.ev_child_init(&self._watcher, <void *>gevent_callback_child, pid, trace) self.__watcher = <libev.ev_watcher*>&self._watcher self.__ss = &child_ss def __init__(self, loop loop, int pid, bint trace=0, ref=True): watcher.__init__(self, loop, ref, None) 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, int value): self._watcher.rpid = value @property def rstatus(self): return self._watcher.rstatus @rstatus.setter def rstatus(self, int value): self._watcher.rstatus = value cdef start_and_stop stat_ss = make_ss(<void*>libev.ev_stat_start, <void*>libev.ev_stat_stop) cdef public class stat(watcher) [object PyGeventStatObject, type PyGeventStat_Type]: cdef libev.ev_stat _watcher cdef readonly str path cdef readonly bytes _paths def __cinit__(self, loop loop, str path, float interval=0.0, ref=True, priority=None): self.path = path cdef bytes paths if isinstance(path, unicode): # the famous Python3 filesystem encoding debacle hits us here. Can we do better? # We must keep a reference to the encoded string so that its bytes don't get freed # and overwritten, leading to strange errors from libev ("no such file or directory") paths = (<unicode>path).encode(sys.getfilesystemencoding()) self._paths = paths else: paths = <bytes>path self._paths = paths libev.ev_stat_init(&self._watcher, <void *>gevent_callback_stat, <char*>paths, interval) self.__watcher = <libev.ev_watcher*>&self._watcher self.__ss = &stat_ss def __init__(self, loop loop, str path, float interval=0.0, ref=True, priority=None): watcher.__init__(self, loop, ref, priority) @property def attr(self): if not self._watcher.attr.st_nlink: return return _pystat_fromstructstat(&self._watcher.attr) @property def prev(self): if not self._watcher.prev.st_nlink: return return _pystat_fromstructstat(&self._watcher.prev) @property def interval(self): return self._watcher.interval __SYSERR_CALLBACK = None cdef void _syserr_cb(char* msg) with gil: try: __SYSERR_CALLBACK(msg, errno) except: set_syserr_cb(None) print_exc = getattr(traceback, 'print_exc', None) if print_exc is not None: print_exc() cpdef set_syserr_cb(callback): global __SYSERR_CALLBACK if callback is None: libev.ev_set_syserr_cb(NULL) __SYSERR_CALLBACK = None elif callable(callback): libev.ev_set_syserr_cb(<void *>_syserr_cb) __SYSERR_CALLBACK = callback else: raise TypeError('Expected callable or None, got %r' % (callback, )) LIBEV_EMBED = bool(libev.LIBEV_EMBED) EV_USE_FLOOR = libev.EV_USE_FLOOR EV_USE_CLOCK_SYSCALL = libev.EV_USE_CLOCK_SYSCALL EV_USE_REALTIME = libev.EV_USE_REALTIME EV_USE_MONOTONIC = libev.EV_USE_MONOTONIC EV_USE_NANOSLEEP = libev.EV_USE_NANOSLEEP EV_USE_INOTIFY = libev.EV_USE_INOTIFY EV_USE_SIGNALFD = libev.EV_USE_SIGNALFD EV_USE_EVENTFD = libev.EV_USE_EVENTFD EV_USE_4HEAP = libev.EV_USE_4HEAP # Things used in callbacks.c from cpython cimport PyErr_Fetch from cpython cimport PyObject cdef public void gevent_handle_error(loop loop, object context): cdef PyObject* typep cdef PyObject* valuep cdef PyObject* tracebackp cdef object type cdef object value = None cdef object traceback = None cdef object result # If it was set, this will clear it, and we will own # the references. PyErr_Fetch(&typep, &valuep, &tracebackp) # TODO: Should we call PyErr_Normalize? There's code in # Hub.handle_error that works around what looks like an # unnormalized exception. if not typep: return # This assignment will do a Py_INCREF # on the value. We already own the reference # returned from PyErr_Fetch, # so we must decref immediately type = <object>typep Py_DECREF(type) if valuep: value = <object>valuep Py_DECREF(value) if tracebackp: traceback = <object>tracebackp Py_DECREF(traceback) # If this method fails by raising an exception, # cython will print it for us because we don't return a # Python object and we don't declare an `except` clause. loop.handle_error(context, type, value, traceback) cdef public tuple _empty_tuple = () cdef public object gevent_loop_run_callbacks(loop loop): return loop._run_callbacks()