# -*- coding: utf-8 -*- # Copyright (C) 2014 Yahoo! Inc. All Rights Reserved. # Copyright 2011 OpenStack Foundation. # # All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import collections import contextlib import functools import threading from typing import Optional from fasteners import _utils class ReaderWriterLock(object): """An inter-thread readers writer lock.""" WRITER = 'w' #: Writer owner type/string constant. READER = 'r' #: Reader owner type/string constant. def __init__(self, condition_cls=threading.Condition, current_thread_functor=threading.current_thread): """ Args: condition_cls: Optional custom `Condition` primitive used for synchronization. current_thread_functor: Optional function that returns the identity of the thread in case threads are not properly identified by threading.current_thread """ self._writer = None self._pending_writers = collections.deque() self._readers = {} self._cond = condition_cls() self._current_thread = current_thread_functor @property def has_pending_writers(self) -> bool: """Check if there pending writers Returns: Whether there are pending writers. """ return bool(self._pending_writers) def is_writer(self, check_pending: bool = True) -> bool: """Check if caller is a writer (optionally pending writer). Args: check_pending: Whether to check for pending writer status. Returns: Whether the caller is the active (or optionally pending) writer. """ me = self._current_thread() if self._writer == me: return True if check_pending: return me in self._pending_writers else: return False def is_reader(self) -> bool: """Check if caller is a reader. Returns: Whether the caller is an active reader. """ me = self._current_thread() return me in self._readers @property def owner(self) -> Optional[str]: """Caller ownership (if any) of the lock Returns: `'w'` if caller is a writer, `'r'` if caller is a reader, None otherwise. """ """Returns whether the lock is locked by a writer or reader.""" if self._writer is not None: return self.WRITER if self._readers: return self.READER return None @contextlib.contextmanager def read_lock(self): """Context manager that grants a read lock. Will wait until no active or pending writers. Raises: RuntimeError: if a pending writer tries to acquire a read lock. """ me = self._current_thread() if me in self._pending_writers: raise RuntimeError("Writer %s can not acquire a read lock" " while waiting for the write lock" % me) with self._cond: while True: # No active writer, or we are the writer; # Also no pending writers; # we are good to become a reader. if self._writer is None or self._writer == me: if me in self._readers: # ok to get a lock if current thread already has one self._readers[me] = self._readers[me] + 1 break elif (self._writer == me) or not self.has_pending_writers: self._readers[me] = 1 break # An active or pending writer; guess we have to wait. self._cond.wait() try: yield self finally: # I am no longer a reader, remove *one* occurrence of myself. # If the current thread acquired two read locks, then it will # still have to remove that other read lock; this allows for # basic reentrancy to be possible. with self._cond: try: me_instances = self._readers[me] if me_instances > 1: self._readers[me] = me_instances - 1 else: self._readers.pop(me) except KeyError: pass self._cond.notify_all() @contextlib.contextmanager def write_lock(self): """Context manager that grants a write lock. Will wait until no active readers. Blocks readers after acquiring. Guaranteed for locks to be processed in fair order (FIFO). Raises: RuntimeError: if an active reader attempts to acquire a lock. """ me = self._current_thread() i_am_writer = self.is_writer(check_pending=False) if self.is_reader() and not i_am_writer: raise RuntimeError("Reader %s to writer privilege" " escalation not allowed" % me) if i_am_writer: # Already the writer; this allows for basic reentrancy. yield self else: with self._cond: self._pending_writers.append(me) while True: # No readers, and no active writer, am I next?? if len(self._readers) == 0 and self._writer is None: if self._pending_writers[0] == me: self._writer = self._pending_writers.popleft() break self._cond.wait() try: yield self finally: with self._cond: self._writer = None self._cond.notify_all() def locked(*args, **kwargs): """A locking **method** decorator. It will look for a provided attribute (typically a lock or a list of locks) on the first argument of the function decorated (typically this is the 'self' object) and before executing the decorated function it activates the given lock or list of locks as a context manager, automatically releasing that lock on exit. NOTE(harlowja): if no attribute name is provided then by default the attribute named '_lock' is looked for (this attribute is expected to be the lock/list of locks object/s) in the instance object this decorator is attached to. NOTE(harlowja): a custom logger (which will be used if lock release failures happen) can be provided by passing a logger instance for keyword argument ``logger``. NOTE(paulius): This function is DEPRECATED and will be kept until the end of time. It is potentially used by oslo, but too specific to be recommended for other projects """ def decorator(f): attr_name = kwargs.get('lock', '_lock') logger = kwargs.get('logger') @functools.wraps(f) def wrapper(self, *args, **kwargs): attr_value = getattr(self, attr_name) if isinstance(attr_value, (tuple, list)): with _utils.LockStack(logger=logger) as stack: for i, lock in enumerate(attr_value): if not stack.acquire_lock(lock): raise threading.ThreadError("Unable to acquire" " lock %s" % (i + 1)) return f(self, *args, **kwargs) else: lock = attr_value with lock: return f(self, *args, **kwargs) return wrapper # This is needed to handle when the decorator has args or the decorator # doesn't have args, python is rather weird here... if kwargs or not args: return decorator else: if len(args) == 1: return decorator(args[0]) else: return decorator def read_locked(*args, **kwargs): """Acquires & releases a read lock around call into decorated method. NOTE(harlowja): if no attribute name is provided then by default the attribute named '_lock' is looked for (this attribute is expected to be a :py:class:`.ReaderWriterLock`) in the instance object this decorator is attached to. NOTE(paulius): This function is DEPRECATED and will be kept until the end of time. It is potentially used by oslo, but too specific to be recommended for other projects """ def decorator(f): attr_name = kwargs.get('lock', '_lock') @functools.wraps(f) def wrapper(self, *args, **kwargs): rw_lock = getattr(self, attr_name) with rw_lock.read_lock(): return f(self, *args, **kwargs) return wrapper # This is needed to handle when the decorator has args or the decorator # doesn't have args, python is rather weird here... if kwargs or not args: return decorator else: if len(args) == 1: return decorator(args[0]) else: return decorator def write_locked(*args, **kwargs): """Acquires & releases a write lock around call into decorated method. NOTE(harlowja): if no attribute name is provided then by default the attribute named '_lock' is looked for (this attribute is expected to be a :py:class:`.ReaderWriterLock` object) in the instance object this decorator is attached to. NOTE(paulius): This function is DEPRECATED and will be kept until the end of time. It is potentially used by oslo, but too specific to be recommended for other projects """ def decorator(f): attr_name = kwargs.get('lock', '_lock') @functools.wraps(f) def wrapper(self, *args, **kwargs): rw_lock = getattr(self, attr_name) with rw_lock.write_lock(): return f(self, *args, **kwargs) return wrapper # This is needed to handle when the decorator has args or the decorator # doesn't have args, python is rather weird here... if kwargs or not args: return decorator else: if len(args) == 1: return decorator(args[0]) else: return decorator @contextlib.contextmanager def try_lock(lock: threading.Lock) -> bool: """Context manager that attempts to acquire a lock without a timeout, and releases it on exit (if acquired). Args: lock: A lock to try to acquire. Returns: Whether the lock was acquired. # NOTE(harlowja): the keyword argument for 'blocking' does not work # in py2.x and only is fixed in py3.x (this adjustment is documented # and/or debated in http://bugs.python.org/issue10789); so we'll just # stick to the format that works in both (oddly the keyword argument # works in py2.x but only with reentrant locks). NOTE(paulius): This function is DEPRECATED and will be kept until the end of time. It is potentially used by oslo, but too specific to be recommended for other projects """ was_locked = lock.acquire(False) try: yield was_locked finally: if was_locked: lock.release()