Mercurial > hg-stable
view mercurial/selectors2.py @ 34963:5e27afeddaee stable
subrepo: add config option to reject any subrepo operations (SEC)
This is an alternative workaround for the issue5730.
Perhaps this is the simplest way of disabling subrepo operations. It does
nothing clever, but just aborts if Mercurial starts accessing to a subrepo.
I think Greg's patch is more useful since it allows us to at least check
out the parent repository. However, that would be confusing if the default
is flipped to checkout=False and subrepos are silently ignored.
I don't like the config name 'allowed', but I couldn't get any better name.
author | Yuya Nishihara <yuya@tcha.org> |
---|---|
date | Sun, 05 Nov 2017 21:22:07 +0900 |
parents | a568a46751b6 |
children |
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""" Back-ported, durable, and portable selectors """ # MIT License # # Copyright (c) 2017 Seth Michael Larson # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in all # copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. # no-check-code from __future__ import absolute_import import collections import errno import math import select import socket import sys import time from . import pycompat namedtuple = collections.namedtuple Mapping = collections.Mapping try: monotonic = time.monotonic except AttributeError: monotonic = time.time __author__ = 'Seth Michael Larson' __email__ = 'sethmichaellarson@protonmail.com' __version__ = '2.0.0' __license__ = 'MIT' __url__ = 'https://www.github.com/SethMichaelLarson/selectors2' __all__ = ['EVENT_READ', 'EVENT_WRITE', 'SelectorKey', 'DefaultSelector', 'BaseSelector'] EVENT_READ = (1 << 0) EVENT_WRITE = (1 << 1) _DEFAULT_SELECTOR = None _SYSCALL_SENTINEL = object() # Sentinel in case a system call returns None. _ERROR_TYPES = (OSError, IOError, socket.error) SelectorKey = namedtuple('SelectorKey', ['fileobj', 'fd', 'events', 'data']) class _SelectorMapping(Mapping): """ Mapping of file objects to selector keys """ def __init__(self, selector): self._selector = selector def __len__(self): return len(self._selector._fd_to_key) def __getitem__(self, fileobj): try: fd = self._selector._fileobj_lookup(fileobj) return self._selector._fd_to_key[fd] except KeyError: raise KeyError("{0!r} is not registered.".format(fileobj)) def __iter__(self): return iter(self._selector._fd_to_key) def _fileobj_to_fd(fileobj): """ Return a file descriptor from a file object. If given an integer will simply return that integer back. """ if isinstance(fileobj, int): fd = fileobj else: try: fd = int(fileobj.fileno()) except (AttributeError, TypeError, ValueError): raise ValueError("Invalid file object: {0!r}".format(fileobj)) if fd < 0: raise ValueError("Invalid file descriptor: {0}".format(fd)) return fd class BaseSelector(object): """ Abstract Selector class A selector supports registering file objects to be monitored for specific I/O events. A file object is a file descriptor or any object with a `fileno()` method. An arbitrary object can be attached to the file object which can be used for example to store context info, a callback, etc. A selector can use various implementations (select(), poll(), epoll(), and kqueue()) depending on the platform. The 'DefaultSelector' class uses the most efficient implementation for the current platform. """ def __init__(self): # Maps file descriptors to keys. self._fd_to_key = {} # Read-only mapping returned by get_map() self._map = _SelectorMapping(self) def _fileobj_lookup(self, fileobj): """ Return a file descriptor from a file object. This wraps _fileobj_to_fd() to do an exhaustive search in case the object is invalid but we still have it in our map. Used by unregister() so we can unregister an object that was previously registered even if it is closed. It is also used by _SelectorMapping """ try: return _fileobj_to_fd(fileobj) except ValueError: # Search through all our mapped keys. for key in self._fd_to_key.values(): if key.fileobj is fileobj: return key.fd # Raise ValueError after all. raise def register(self, fileobj, events, data=None): """ Register a file object for a set of events to monitor. """ if (not events) or (events & ~(EVENT_READ | EVENT_WRITE)): raise ValueError("Invalid events: {0!r}".format(events)) key = SelectorKey(fileobj, self._fileobj_lookup(fileobj), events, data) if key.fd in self._fd_to_key: raise KeyError("{0!r} (FD {1}) is already registered" .format(fileobj, key.fd)) self._fd_to_key[key.fd] = key return key def unregister(self, fileobj): """ Unregister a file object from being monitored. """ try: key = self._fd_to_key.pop(self._fileobj_lookup(fileobj)) except KeyError: raise KeyError("{0!r} is not registered".format(fileobj)) # Getting the fileno of a closed socket on Windows errors with EBADF. except socket.error as err: if err.errno != errno.EBADF: raise else: for key in self._fd_to_key.values(): if key.fileobj is fileobj: self._fd_to_key.pop(key.fd) break else: raise KeyError("{0!r} is not registered".format(fileobj)) return key def modify(self, fileobj, events, data=None): """ Change a registered file object monitored events and data. """ # NOTE: Some subclasses optimize this operation even further. try: key = self._fd_to_key[self._fileobj_lookup(fileobj)] except KeyError: raise KeyError("{0!r} is not registered".format(fileobj)) if events != key.events: self.unregister(fileobj) key = self.register(fileobj, events, data) elif data != key.data: # Use a shortcut to update the data. key = key._replace(data=data) self._fd_to_key[key.fd] = key return key def select(self, timeout=None): """ Perform the actual selection until some monitored file objects are ready or the timeout expires. """ raise NotImplementedError() def close(self): """ Close the selector. This must be called to ensure that all underlying resources are freed. """ self._fd_to_key.clear() self._map = None def get_key(self, fileobj): """ Return the key associated with a registered file object. """ mapping = self.get_map() if mapping is None: raise RuntimeError("Selector is closed") try: return mapping[fileobj] except KeyError: raise KeyError("{0!r} is not registered".format(fileobj)) def get_map(self): """ Return a mapping of file objects to selector keys """ return self._map def _key_from_fd(self, fd): """ Return the key associated to a given file descriptor Return None if it is not found. """ try: return self._fd_to_key[fd] except KeyError: return None def __enter__(self): return self def __exit__(self, *_): self.close() # Almost all platforms have select.select() if hasattr(select, "select"): class SelectSelector(BaseSelector): """ Select-based selector. """ def __init__(self): super(SelectSelector, self).__init__() self._readers = set() self._writers = set() def register(self, fileobj, events, data=None): key = super(SelectSelector, self).register(fileobj, events, data) if events & EVENT_READ: self._readers.add(key.fd) if events & EVENT_WRITE: self._writers.add(key.fd) return key def unregister(self, fileobj): key = super(SelectSelector, self).unregister(fileobj) self._readers.discard(key.fd) self._writers.discard(key.fd) return key def select(self, timeout=None): # Selecting on empty lists on Windows errors out. if not len(self._readers) and not len(self._writers): return [] timeout = None if timeout is None else max(timeout, 0.0) ready = [] r, w, _ = _syscall_wrapper(self._wrap_select, True, self._readers, self._writers, timeout) r = set(r) w = set(w) for fd in r | w: events = 0 if fd in r: events |= EVENT_READ if fd in w: events |= EVENT_WRITE key = self._key_from_fd(fd) if key: ready.append((key, events & key.events)) return ready def _wrap_select(self, r, w, timeout=None): """ Wrapper for select.select because timeout is a positional arg """ return select.select(r, w, [], timeout) __all__.append('SelectSelector') # Jython has a different implementation of .fileno() for socket objects. if pycompat.isjython: class _JythonSelectorMapping(object): """ This is an implementation of _SelectorMapping that is built for use specifically with Jython, which does not provide a hashable value from socket.socket.fileno(). """ def __init__(self, selector): assert isinstance(selector, JythonSelectSelector) self._selector = selector def __len__(self): return len(self._selector._sockets) def __getitem__(self, fileobj): for sock, key in self._selector._sockets: if sock is fileobj: return key else: raise KeyError("{0!r} is not registered.".format(fileobj)) class JythonSelectSelector(SelectSelector): """ This is an implementation of SelectSelector that is for Jython which works around that Jython's socket.socket.fileno() does not return an integer fd value. All SelectorKey.fd will be equal to -1 and should not be used. This instead uses object id to compare fileobj and will only use select.select as it's the only selector that allows directly passing in socket objects rather than registering fds. See: http://bugs.jython.org/issue1678 https://wiki.python.org/jython/NewSocketModule#socket.fileno.28.29_does_not_return_an_integer """ def __init__(self): super(JythonSelectSelector, self).__init__() self._sockets = [] # Uses a list of tuples instead of dictionary. self._map = _JythonSelectorMapping(self) self._readers = [] self._writers = [] # Jython has a select.cpython_compatible_select function in older versions. self._select_func = getattr(select, 'cpython_compatible_select', select.select) def register(self, fileobj, events, data=None): for sock, _ in self._sockets: if sock is fileobj: raise KeyError("{0!r} is already registered" .format(fileobj, sock)) key = SelectorKey(fileobj, -1, events, data) self._sockets.append((fileobj, key)) if events & EVENT_READ: self._readers.append(fileobj) if events & EVENT_WRITE: self._writers.append(fileobj) return key def unregister(self, fileobj): for i, (sock, key) in enumerate(self._sockets): if sock is fileobj: break else: raise KeyError("{0!r} is not registered.".format(fileobj)) if key.events & EVENT_READ: self._readers.remove(fileobj) if key.events & EVENT_WRITE: self._writers.remove(fileobj) del self._sockets[i] return key def _wrap_select(self, r, w, timeout=None): """ Wrapper for select.select because timeout is a positional arg """ return self._select_func(r, w, [], timeout) __all__.append('JythonSelectSelector') SelectSelector = JythonSelectSelector # Override so the wrong selector isn't used. if hasattr(select, "poll"): class PollSelector(BaseSelector): """ Poll-based selector """ def __init__(self): super(PollSelector, self).__init__() self._poll = select.poll() def register(self, fileobj, events, data=None): key = super(PollSelector, self).register(fileobj, events, data) event_mask = 0 if events & EVENT_READ: event_mask |= select.POLLIN if events & EVENT_WRITE: event_mask |= select.POLLOUT self._poll.register(key.fd, event_mask) return key def unregister(self, fileobj): key = super(PollSelector, self).unregister(fileobj) self._poll.unregister(key.fd) return key def _wrap_poll(self, timeout=None): """ Wrapper function for select.poll.poll() so that _syscall_wrapper can work with only seconds. """ if timeout is not None: if timeout <= 0: timeout = 0 else: # select.poll.poll() has a resolution of 1 millisecond, # round away from zero to wait *at least* timeout seconds. timeout = math.ceil(timeout * 1000) result = self._poll.poll(timeout) return result def select(self, timeout=None): ready = [] fd_events = _syscall_wrapper(self._wrap_poll, True, timeout=timeout) for fd, event_mask in fd_events: events = 0 if event_mask & ~select.POLLIN: events |= EVENT_WRITE if event_mask & ~select.POLLOUT: events |= EVENT_READ key = self._key_from_fd(fd) if key: ready.append((key, events & key.events)) return ready __all__.append('PollSelector') if hasattr(select, "epoll"): class EpollSelector(BaseSelector): """ Epoll-based selector """ def __init__(self): super(EpollSelector, self).__init__() self._epoll = select.epoll() def fileno(self): return self._epoll.fileno() def register(self, fileobj, events, data=None): key = super(EpollSelector, self).register(fileobj, events, data) events_mask = 0 if events & EVENT_READ: events_mask |= select.EPOLLIN if events & EVENT_WRITE: events_mask |= select.EPOLLOUT _syscall_wrapper(self._epoll.register, False, key.fd, events_mask) return key def unregister(self, fileobj): key = super(EpollSelector, self).unregister(fileobj) try: _syscall_wrapper(self._epoll.unregister, False, key.fd) except _ERROR_TYPES: # This can occur when the fd was closed since registry. pass return key def select(self, timeout=None): if timeout is not None: if timeout <= 0: timeout = 0.0 else: # select.epoll.poll() has a resolution of 1 millisecond # but luckily takes seconds so we don't need a wrapper # like PollSelector. Just for better rounding. timeout = math.ceil(timeout * 1000) * 0.001 timeout = float(timeout) else: timeout = -1.0 # epoll.poll() must have a float. # We always want at least 1 to ensure that select can be called # with no file descriptors registered. Otherwise will fail. max_events = max(len(self._fd_to_key), 1) ready = [] fd_events = _syscall_wrapper(self._epoll.poll, True, timeout=timeout, maxevents=max_events) for fd, event_mask in fd_events: events = 0 if event_mask & ~select.EPOLLIN: events |= EVENT_WRITE if event_mask & ~select.EPOLLOUT: events |= EVENT_READ key = self._key_from_fd(fd) if key: ready.append((key, events & key.events)) return ready def close(self): self._epoll.close() super(EpollSelector, self).close() __all__.append('EpollSelector') if hasattr(select, "devpoll"): class DevpollSelector(BaseSelector): """Solaris /dev/poll selector.""" def __init__(self): super(DevpollSelector, self).__init__() self._devpoll = select.devpoll() def fileno(self): return self._devpoll.fileno() def register(self, fileobj, events, data=None): key = super(DevpollSelector, self).register(fileobj, events, data) poll_events = 0 if events & EVENT_READ: poll_events |= select.POLLIN if events & EVENT_WRITE: poll_events |= select.POLLOUT self._devpoll.register(key.fd, poll_events) return key def unregister(self, fileobj): key = super(DevpollSelector, self).unregister(fileobj) self._devpoll.unregister(key.fd) return key def _wrap_poll(self, timeout=None): """ Wrapper function for select.poll.poll() so that _syscall_wrapper can work with only seconds. """ if timeout is not None: if timeout <= 0: timeout = 0 else: # select.devpoll.poll() has a resolution of 1 millisecond, # round away from zero to wait *at least* timeout seconds. timeout = math.ceil(timeout * 1000) result = self._devpoll.poll(timeout) return result def select(self, timeout=None): ready = [] fd_events = _syscall_wrapper(self._wrap_poll, True, timeout=timeout) for fd, event_mask in fd_events: events = 0 if event_mask & ~select.POLLIN: events |= EVENT_WRITE if event_mask & ~select.POLLOUT: events |= EVENT_READ key = self._key_from_fd(fd) if key: ready.append((key, events & key.events)) return ready def close(self): self._devpoll.close() super(DevpollSelector, self).close() __all__.append('DevpollSelector') if hasattr(select, "kqueue"): class KqueueSelector(BaseSelector): """ Kqueue / Kevent-based selector """ def __init__(self): super(KqueueSelector, self).__init__() self._kqueue = select.kqueue() def fileno(self): return self._kqueue.fileno() def register(self, fileobj, events, data=None): key = super(KqueueSelector, self).register(fileobj, events, data) if events & EVENT_READ: kevent = select.kevent(key.fd, select.KQ_FILTER_READ, select.KQ_EV_ADD) _syscall_wrapper(self._kqueue.control, False, [kevent], 0, 0) if events & EVENT_WRITE: kevent = select.kevent(key.fd, select.KQ_FILTER_WRITE, select.KQ_EV_ADD) _syscall_wrapper(self._kqueue.control, False, [kevent], 0, 0) return key def unregister(self, fileobj): key = super(KqueueSelector, self).unregister(fileobj) if key.events & EVENT_READ: kevent = select.kevent(key.fd, select.KQ_FILTER_READ, select.KQ_EV_DELETE) try: _syscall_wrapper(self._kqueue.control, False, [kevent], 0, 0) except _ERROR_TYPES: pass if key.events & EVENT_WRITE: kevent = select.kevent(key.fd, select.KQ_FILTER_WRITE, select.KQ_EV_DELETE) try: _syscall_wrapper(self._kqueue.control, False, [kevent], 0, 0) except _ERROR_TYPES: pass return key def select(self, timeout=None): if timeout is not None: timeout = max(timeout, 0) max_events = len(self._fd_to_key) * 2 ready_fds = {} kevent_list = _syscall_wrapper(self._kqueue.control, True, None, max_events, timeout) for kevent in kevent_list: fd = kevent.ident event_mask = kevent.filter events = 0 if event_mask == select.KQ_FILTER_READ: events |= EVENT_READ if event_mask == select.KQ_FILTER_WRITE: events |= EVENT_WRITE key = self._key_from_fd(fd) if key: if key.fd not in ready_fds: ready_fds[key.fd] = (key, events & key.events) else: old_events = ready_fds[key.fd][1] ready_fds[key.fd] = (key, (events | old_events) & key.events) return list(ready_fds.values()) def close(self): self._kqueue.close() super(KqueueSelector, self).close() __all__.append('KqueueSelector') def _can_allocate(struct): """ Checks that select structs can be allocated by the underlying operating system, not just advertised by the select module. We don't check select() because we'll be hopeful that most platforms that don't have it available will not advertise it. (ie: GAE) """ try: # select.poll() objects won't fail until used. if struct == 'poll': p = select.poll() p.poll(0) # All others will fail on allocation. else: getattr(select, struct)().close() return True except (OSError, AttributeError): return False # Python 3.5 uses a more direct route to wrap system calls to increase speed. if sys.version_info >= (3, 5): def _syscall_wrapper(func, _, *args, **kwargs): """ This is the short-circuit version of the below logic because in Python 3.5+ all selectors restart system calls. """ return func(*args, **kwargs) else: def _syscall_wrapper(func, recalc_timeout, *args, **kwargs): """ Wrapper function for syscalls that could fail due to EINTR. All functions should be retried if there is time left in the timeout in accordance with PEP 475. """ timeout = kwargs.get("timeout", None) if timeout is None: expires = None recalc_timeout = False else: timeout = float(timeout) if timeout < 0.0: # Timeout less than 0 treated as no timeout. expires = None else: expires = monotonic() + timeout args = list(args) if recalc_timeout and "timeout" not in kwargs: raise ValueError( "Timeout must be in args or kwargs to be recalculated") result = _SYSCALL_SENTINEL while result is _SYSCALL_SENTINEL: try: result = func(*args, **kwargs) # OSError is thrown by select.select # IOError is thrown by select.epoll.poll # select.error is thrown by select.poll.poll # Aren't we thankful for Python 3.x rework for exceptions? except (OSError, IOError, select.error) as e: # select.error wasn't a subclass of OSError in the past. errcode = None if hasattr(e, "errno"): errcode = e.errno elif hasattr(e, "args"): errcode = e.args[0] # Also test for the Windows equivalent of EINTR. is_interrupt = (errcode == errno.EINTR or (hasattr(errno, "WSAEINTR") and errcode == errno.WSAEINTR)) if is_interrupt: if expires is not None: current_time = monotonic() if current_time > expires: raise OSError(errno=errno.ETIMEDOUT) if recalc_timeout: if "timeout" in kwargs: kwargs["timeout"] = expires - current_time continue raise return result # Choose the best implementation, roughly: # kqueue == devpoll == epoll > poll > select # select() also can't accept a FD > FD_SETSIZE (usually around 1024) def DefaultSelector(): """ This function serves as a first call for DefaultSelector to detect if the select module is being monkey-patched incorrectly by eventlet, greenlet, and preserve proper behavior. """ global _DEFAULT_SELECTOR if _DEFAULT_SELECTOR is None: if pycompat.isjython: _DEFAULT_SELECTOR = JythonSelectSelector elif _can_allocate('kqueue'): _DEFAULT_SELECTOR = KqueueSelector elif _can_allocate('devpoll'): _DEFAULT_SELECTOR = DevpollSelector elif _can_allocate('epoll'): _DEFAULT_SELECTOR = EpollSelector elif _can_allocate('poll'): _DEFAULT_SELECTOR = PollSelector elif hasattr(select, 'select'): _DEFAULT_SELECTOR = SelectSelector else: # Platform-specific: AppEngine raise RuntimeError('Platform does not have a selector.') return _DEFAULT_SELECTOR()