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""" Useful base classes for watchers. The available watchers will depend on the specific event loop. """ # pylint:disable=not-callable from __future__ import absolute_import, print_function import signal as signalmodule import functools import warnings from gevent._config import config try: from tracemalloc import get_object_traceback def tracemalloc(init): # PYTHONTRACEMALLOC env var controls this on Python 3. return init except ImportError: # Python < 3.4 if config.trace_malloc: # Use the same env var to turn this on for Python 2 import traceback class _TB(object): __slots__ = ('lines',) def __init__(self, lines): # These end in newlines, which we don't want for consistency self.lines = [x.rstrip() for x in lines] def format(self): return self.lines def tracemalloc(init): @functools.wraps(init) def traces(self, *args, **kwargs): init(self, *args, **kwargs) self._captured_malloc = _TB(traceback.format_stack()) return traces def get_object_traceback(obj): return obj._captured_malloc else: def get_object_traceback(_obj): return None def tracemalloc(init): return init from gevent._compat import fsencode from gevent._ffi import _dbg # pylint:disable=unused-import from gevent._ffi import GEVENT_DEBUG_LEVEL from gevent._ffi import DEBUG from gevent._ffi.loop import GEVENT_CORE_EVENTS from gevent._ffi.loop import _NOARGS ALLOW_WATCHER_DEL = GEVENT_DEBUG_LEVEL >= DEBUG __all__ = [ ] try: ResourceWarning except NameError: class ResourceWarning(Warning): "Python 2 fallback" class _NoWatcherResult(int): def __repr__(self): return "<NoWatcher>" _NoWatcherResult = _NoWatcherResult(0) def events_to_str(event_field, all_events): result = [] for (flag, string) in all_events: c_flag = flag if event_field & c_flag: result.append(string) event_field = event_field & (~c_flag) if not event_field: break if event_field: result.append(hex(event_field)) return '|'.join(result) def not_while_active(func): @functools.wraps(func) def nw(self, *args, **kwargs): if self.active: raise ValueError("not while active") func(self, *args, **kwargs) return nw def only_if_watcher(func): @functools.wraps(func) def if_w(self): if self._watcher: return func(self) return _NoWatcherResult return if_w class LazyOnClass(object): @classmethod def lazy(cls, cls_dict, func): "Put a LazyOnClass object in *cls_dict* with the same name as *func*" cls_dict[func.__name__] = cls(func) def __init__(self, func, name=None): self.name = name or func.__name__ self.func = func def __get__(self, inst, klass): if inst is None: # pragma: no cover return self val = self.func(inst) setattr(klass, self.name, val) return val class AbstractWatcherType(type): """ Base metaclass for watchers. To use, you will: - subclass the watcher class defined from this type. - optionally subclass this type """ # pylint:disable=bad-mcs-classmethod-argument _FFI = None _LIB = None def __new__(cls, name, bases, cls_dict): if name != 'watcher' and not cls_dict.get('_watcher_skip_ffi'): cls._fill_watcher(name, bases, cls_dict) if '__del__' in cls_dict and not ALLOW_WATCHER_DEL: # pragma: no cover raise TypeError("CFFI watchers are not allowed to have __del__") return type.__new__(cls, name, bases, cls_dict) @classmethod def _fill_watcher(cls, name, bases, cls_dict): # TODO: refactor smaller # pylint:disable=too-many-locals if name.endswith('_'): # Strip trailing _ added to avoid keyword duplications # e.g., async_ name = name[:-1] def _mro_get(attr, bases, error=True): for b in bases: try: return getattr(b, attr) except AttributeError: continue if error: # pragma: no cover raise AttributeError(attr) _watcher_prefix = cls_dict.get('_watcher_prefix') or _mro_get('_watcher_prefix', bases) if '_watcher_type' not in cls_dict: watcher_type = _watcher_prefix + '_' + name cls_dict['_watcher_type'] = watcher_type elif not cls_dict['_watcher_type'].startswith(_watcher_prefix): watcher_type = _watcher_prefix + '_' + cls_dict['_watcher_type'] cls_dict['_watcher_type'] = watcher_type active_name = _watcher_prefix + '_is_active' def _watcher_is_active(self): return getattr(self._LIB, active_name) LazyOnClass.lazy(cls_dict, _watcher_is_active) watcher_struct_name = cls_dict.get('_watcher_struct_name') if not watcher_struct_name: watcher_struct_pattern = (cls_dict.get('_watcher_struct_pattern') or _mro_get('_watcher_struct_pattern', bases, False) or 'struct %s') watcher_struct_name = watcher_struct_pattern % (watcher_type,) def _watcher_struct_pointer_type(self): return self._FFI.typeof(watcher_struct_name + ' *') LazyOnClass.lazy(cls_dict, _watcher_struct_pointer_type) callback_name = (cls_dict.get('_watcher_callback_name') or _mro_get('_watcher_callback_name', bases, False) or '_gevent_generic_callback') def _watcher_callback(self): return self._FFI.addressof(self._LIB, callback_name) LazyOnClass.lazy(cls_dict, _watcher_callback) def _make_meth(name, watcher_name): def meth(self): lib_name = self._watcher_type + '_' + name return getattr(self._LIB, lib_name) meth.__name__ = watcher_name return meth for meth_name in 'start', 'stop', 'init': watcher_name = '_watcher' + '_' + meth_name if watcher_name not in cls_dict: LazyOnClass.lazy(cls_dict, _make_meth(meth_name, watcher_name)) def new_handle(cls, obj): return cls._FFI.new_handle(obj) def new(cls, kind): return cls._FFI.new(kind) class watcher(object): _callback = None _args = None _watcher = None # self._handle has a reference to self, keeping it alive. # We must keep self._handle alive for ffi.from_handle() to be # able to work. We only fill this in when we are started, # and when we are stopped we destroy it. # NOTE: This is a GC cycle, so we keep it around for as short # as possible. _handle = None @tracemalloc def __init__(self, _loop, ref=True, priority=None, args=_NOARGS): self.loop = _loop self.__init_priority = priority self.__init_args = args self.__init_ref = ref self._watcher_full_init() def _watcher_full_init(self): priority = self.__init_priority ref = self.__init_ref args = self.__init_args self._watcher_create(ref) if priority is not None: self._watcher_ffi_set_priority(priority) try: self._watcher_ffi_init(args) except: # Let these be GC'd immediately. # If we keep them around to when *we* are gc'd, # they're probably invalid, meaning any native calls # we do then to close() them are likely to fail self._watcher = None raise self._watcher_ffi_set_init_ref(ref) @classmethod def _watcher_ffi_close(cls, ffi_watcher): pass def _watcher_create(self, ref): # pylint:disable=unused-argument self._watcher = self._watcher_new() def _watcher_new(self): return type(self).new(self._watcher_struct_pointer_type) # pylint:disable=no-member def _watcher_ffi_set_init_ref(self, ref): pass def _watcher_ffi_set_priority(self, priority): pass def _watcher_ffi_init(self, args): raise NotImplementedError() def _watcher_ffi_start(self): raise NotImplementedError() def _watcher_ffi_stop(self): self._watcher_stop(self.loop._ptr, self._watcher) def _watcher_ffi_ref(self): raise NotImplementedError() def _watcher_ffi_unref(self): raise NotImplementedError() def _watcher_ffi_start_unref(self): # While a watcher is active, we don't keep it # referenced. This allows a timer, for example, to be started, # and still allow the loop to end if there is nothing # else to do. see test__order.TestSleep0 for one example. self._watcher_ffi_unref() def _watcher_ffi_stop_ref(self): self._watcher_ffi_ref() # 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 _watcher_is_active = None def close(self): if self._watcher is None: return self.stop() _watcher = self._watcher self._watcher = None self._watcher_set_data(_watcher, self._FFI.NULL) # pylint: disable=no-member self._watcher_ffi_close(_watcher) self.loop = None def _watcher_set_data(self, the_watcher, data): # This abstraction exists for the sole benefit of # libuv.watcher.stat, which "subclasses" uv_handle_t. # Can we do something to avoid this extra function call? the_watcher.data = data return data def __enter__(self): return self def __exit__(self, t, v, tb): self.close() if ALLOW_WATCHER_DEL: def __del__(self): if self._watcher: tb = get_object_traceback(self) tb_msg = '' if tb is not None: tb_msg = '\n'.join(tb.format()) tb_msg = '\nTraceback:\n' + tb_msg warnings.warn("Failed to close watcher %r%s" % (self, tb_msg), ResourceWarning) # may fail if __init__ did; will be harmlessly printed self.close() 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: fself = getattr(self.callback, '__self__', None) if fself is self: result += " callback=<bound method %s of self>" % (self.callback.__name__) else: 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 += " watcher=%s" % (self._watcher) result += " handle=%s" % (self._watcher_handle) result += " ref=%s" % (self.ref) return result + ">" @property def _watcher_handle(self): if self._watcher: return self._watcher.data def _format(self): return '' @property def ref(self): raise NotImplementedError() 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, )) if cb is None: if '_callback' in self.__dict__: del self._callback else: 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") if args is None: if '_args' in self.__dict__: del self._args else: 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.loop._keepaliveset.add(self) self._handle = self._watcher_set_data(self._watcher, type(self).new_handle(self)) # pylint:disable=no-member self._watcher_ffi_start() self._watcher_ffi_start_unref() def stop(self): if self._callback is None: assert self.loop is None or self not in self.loop._keepaliveset return self._watcher_ffi_stop_ref() self._watcher_ffi_stop() self.loop._keepaliveset.discard(self) self._handle = None self._watcher_set_data(self._watcher, self._FFI.NULL) # pylint:disable=no-member self.callback = None self.args = None def _get_priority(self): return None @not_while_active def _set_priority(self, priority): pass priority = property(_get_priority, _set_priority) @property def active(self): if self._watcher is not None and self._watcher_is_active(self._watcher): return True return False @property def pending(self): return False watcher = AbstractWatcherType('watcher', (object,), dict(watcher.__dict__)) class IoMixin(object): EVENT_MASK = 0 def __init__(self, loop, fd, events, ref=True, priority=None, _args=None): # Win32 only works with sockets, and only when we use libuv, because # we don't use _open_osfhandle. See libuv/watchers.py:io for a description. if fd < 0: raise ValueError('fd must be non-negative: %r' % fd) if events & ~self.EVENT_MASK: raise ValueError('illegal event mask: %r' % events) self._fd = fd super(IoMixin, self).__init__(loop, ref=ref, priority=priority, args=_args or (fd, events)) def start(self, callback, *args, **kwargs): args = args or _NOARGS if kwargs.get('pass_events'): args = (GEVENT_CORE_EVENTS, ) + args super(IoMixin, self).start(callback, *args) def _format(self): return ' fd=%d' % self._fd class TimerMixin(object): _watcher_type = '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) self._after = after self._repeat = repeat super(TimerMixin, self).__init__(loop, ref=ref, priority=priority, args=(after, repeat)) def start(self, callback, *args, **kw): update = kw.get("update", self.loop.starting_timer_may_update_loop_time) 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." # 1.3 changed the default for this to False *unless* the loop is # running a callback; see libuv for details. Note that # starting Timeout objects still sets this to true. self.loop.update_now() super(TimerMixin, self).start(callback, *args) def again(self, callback, *args, **kw): raise NotImplementedError() class SignalMixin(object): _watcher_type = '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 self._signalnum = signalnum super(SignalMixin, self).__init__(loop, ref=ref, priority=priority, args=(signalnum, )) class IdleMixin(object): _watcher_type = 'idle' class PrepareMixin(object): _watcher_type = 'prepare' class CheckMixin(object): _watcher_type = 'check' class ForkMixin(object): _watcher_type = 'fork' class AsyncMixin(object): _watcher_type = 'async' def send(self): raise NotImplementedError() @property def pending(self): raise NotImplementedError() class ChildMixin(object): # hack for libuv which doesn't extend watcher _CALL_SUPER_INIT = True 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() self._pid = pid if self._CALL_SUPER_INIT: super(ChildMixin, self).__init__(loop, ref=ref, args=(pid, trace)) def _format(self): return ' pid=%r rstatus=%r' % (self.pid, self.rstatus) @property def pid(self): return self._pid @property def rpid(self): # The received pid, the result of the waitpid() call. return self._rpid _rpid = None _rstatus = 0 @property def rstatus(self): return self._rstatus class StatMixin(object): @staticmethod def _encode_path(path): return fsencode(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 = self._FFI.new('char[]', self._paths) self._interval = interval super(StatMixin, self).__init__(_loop, ref=ref, priority=priority, args=(self._cpath, interval)) @property def path(self): return self._path @property def attr(self): raise NotImplementedError @property def prev(self): raise NotImplementedError @property def interval(self): return self._interval