441 lines
16 KiB
Python
441 lines
16 KiB
Python
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"""Base class for implementing servers"""
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# Copyright (c) 2009-2012 Denis Bilenko. See LICENSE for details.
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from __future__ import print_function
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from __future__ import absolute_import
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from __future__ import division
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import sys
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import _socket
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import errno
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from gevent.greenlet import Greenlet
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from gevent.event import Event
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from gevent.hub import get_hub
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from gevent._compat import string_types
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from gevent._compat import integer_types
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from gevent._compat import xrange
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__all__ = ['BaseServer']
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# We define a helper function to handle closing the socket in
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# do_handle; We'd like to bind it to a kwarg to avoid *any* lookups at
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# all, but that's incompatible with the calling convention of
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# do_handle. On CPython, this is ~20% faster than creating and calling
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# a closure and ~10% faster than using a @staticmethod. (In theory, we
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# could create a closure only once in set_handle, to wrap self._handle,
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# but this is safer from a backwards compat standpoint.)
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# we also avoid unpacking the *args tuple when calling/spawning this object
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# for a tiny improvement (benchmark shows a wash)
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def _handle_and_close_when_done(handle, close, args_tuple):
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try:
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return handle(*args_tuple)
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finally:
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close(*args_tuple)
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class BaseServer(object):
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"""
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An abstract base class that implements some common functionality for the servers in gevent.
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:param listener: Either be an address that the server should bind
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on or a :class:`gevent.socket.socket` instance that is already
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bound (and put into listening mode in case of TCP socket).
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:keyword handle: If given, the request handler. The request
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handler can be defined in a few ways. Most commonly,
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subclasses will implement a ``handle`` method as an
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instance method. Alternatively, a function can be passed
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as the ``handle`` argument to the constructor. In either
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case, the handler can later be changed by calling
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:meth:`set_handle`.
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When the request handler returns, the socket used for the
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request will be closed. Therefore, the handler must not return if
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the socket is still in use (for example, by manually spawned greenlets).
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:keyword spawn: If provided, is called to create a new
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greenlet to run the handler. By default,
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:func:`gevent.spawn` is used (meaning there is no
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artificial limit on the number of concurrent requests). Possible values for *spawn*:
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- a :class:`gevent.pool.Pool` instance -- ``handle`` will be executed
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using :meth:`gevent.pool.Pool.spawn` only if the pool is not full.
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While it is full, no new connections are accepted;
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- :func:`gevent.spawn_raw` -- ``handle`` will be executed in a raw
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greenlet which has a little less overhead then :class:`gevent.Greenlet` instances spawned by default;
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- ``None`` -- ``handle`` will be executed right away, in the :class:`Hub` greenlet.
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``handle`` cannot use any blocking functions as it would mean switching to the :class:`Hub`.
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- an integer -- a shortcut for ``gevent.pool.Pool(integer)``
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.. versionchanged:: 1.1a1
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When the *handle* function returns from processing a connection,
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the client socket will be closed. This resolves the non-deterministic
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closing of the socket, fixing ResourceWarnings under Python 3 and PyPy.
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.. versionchanged:: 1.5
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Now a context manager that returns itself and calls :meth:`stop` on exit.
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"""
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# pylint: disable=too-many-instance-attributes,bare-except,broad-except
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#: the number of seconds to sleep in case there was an error in accept() call
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#: for consecutive errors the delay will double until it reaches max_delay
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#: when accept() finally succeeds the delay will be reset to min_delay again
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min_delay = 0.01
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max_delay = 1
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#: Sets the maximum number of consecutive accepts that a process may perform on
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#: a single wake up. High values give higher priority to high connection rates,
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#: while lower values give higher priority to already established connections.
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#: Default is 100.
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#:
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#: Note that, in case of multiple working processes on the same
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#: listening socket, it should be set to a lower value. (pywsgi.WSGIServer sets it
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#: to 1 when ``environ["wsgi.multiprocess"]`` is true)
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#:
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#: This is equivalent to libuv's `uv_tcp_simultaneous_accepts
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#: <http://docs.libuv.org/en/v1.x/tcp.html#c.uv_tcp_simultaneous_accepts>`_
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#: value. Setting the environment variable UV_TCP_SINGLE_ACCEPT to a true value
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#: (usually 1) changes the default to 1 (in libuv only; this does not affect gevent).
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max_accept = 100
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_spawn = Greenlet.spawn
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#: the default timeout that we wait for the client connections to close in stop()
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stop_timeout = 1
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fatal_errors = (errno.EBADF, errno.EINVAL, errno.ENOTSOCK)
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def __init__(self, listener, handle=None, spawn='default'):
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self._stop_event = Event()
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self._stop_event.set()
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self._watcher = None
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self._timer = None
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self._handle = None
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# XXX: FIXME: Subclasses rely on the presence or absence of the
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# `socket` attribute to determine whether we are open/should be opened.
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# Instead, have it be None.
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# XXX: In general, the state management here is confusing. Lots of stuff is
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# deferred until the various ``set_`` methods are called, and it's not documented
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# when it's safe to call those
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self.pool = None # can be set from ``spawn``; overrides self.full()
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try:
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self.set_listener(listener)
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self.set_spawn(spawn)
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self.set_handle(handle)
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self.delay = self.min_delay
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self.loop = get_hub().loop
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if self.max_accept < 1:
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raise ValueError('max_accept must be positive int: %r' % (self.max_accept, ))
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except:
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self.close()
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raise
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def __enter__(self):
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return self
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def __exit__(self, *args):
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self.stop()
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def set_listener(self, listener):
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if hasattr(listener, 'accept'):
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if hasattr(listener, 'do_handshake'):
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raise TypeError('Expected a regular socket, not SSLSocket: %r' % (listener, ))
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self.family = listener.family
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self.address = listener.getsockname()
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self.socket = listener
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else:
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self.family, self.address = parse_address(listener)
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def set_spawn(self, spawn):
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if spawn == 'default':
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self.pool = None
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self._spawn = self._spawn
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elif hasattr(spawn, 'spawn'):
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self.pool = spawn
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self._spawn = spawn.spawn
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elif isinstance(spawn, integer_types):
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from gevent.pool import Pool
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self.pool = Pool(spawn)
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self._spawn = self.pool.spawn
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else:
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self.pool = None
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self._spawn = spawn
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if hasattr(self.pool, 'full'):
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self.full = self.pool.full
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if self.pool is not None:
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self.pool._semaphore.rawlink(self._start_accepting_if_started)
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def set_handle(self, handle):
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if handle is not None:
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self.handle = handle
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if hasattr(self, 'handle'):
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self._handle = self.handle
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else:
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raise TypeError("'handle' must be provided")
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def _start_accepting_if_started(self, _event=None):
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if self.started:
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self.start_accepting()
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def start_accepting(self):
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if self._watcher is None:
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# just stop watcher without creating a new one?
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self._watcher = self.loop.io(self.socket.fileno(), 1)
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self._watcher.start(self._do_read)
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def stop_accepting(self):
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if self._watcher is not None:
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self._watcher.stop()
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self._watcher.close()
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self._watcher = None
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if self._timer is not None:
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self._timer.stop()
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self._timer.close()
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self._timer = None
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def do_handle(self, *args):
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spawn = self._spawn
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handle = self._handle
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close = self.do_close
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try:
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if spawn is None:
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_handle_and_close_when_done(handle, close, args)
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else:
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spawn(_handle_and_close_when_done, handle, close, args)
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except:
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close(*args)
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raise
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def do_close(self, *args):
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pass
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def do_read(self):
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raise NotImplementedError()
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def _do_read(self):
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for _ in xrange(self.max_accept):
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if self.full():
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self.stop_accepting()
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if self.pool is not None:
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self.pool._semaphore.rawlink(self._start_accepting_if_started)
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return
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try:
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args = self.do_read()
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self.delay = self.min_delay
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if not args:
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return
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except:
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self.loop.handle_error(self, *sys.exc_info())
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ex = sys.exc_info()[1]
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if self.is_fatal_error(ex):
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self.close()
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sys.stderr.write('ERROR: %s failed with %s\n' % (self, str(ex) or repr(ex)))
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return
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if self.delay >= 0:
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self.stop_accepting()
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self._timer = self.loop.timer(self.delay)
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self._timer.start(self._start_accepting_if_started)
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self.delay = min(self.max_delay, self.delay * 2)
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break
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else:
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try:
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self.do_handle(*args)
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except:
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self.loop.handle_error((args[1:], self), *sys.exc_info())
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if self.delay >= 0:
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self.stop_accepting()
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self._timer = self.loop.timer(self.delay)
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self._timer.start(self._start_accepting_if_started)
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self.delay = min(self.max_delay, self.delay * 2)
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break
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def full(self): # pylint: disable=method-hidden
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# If a Pool is given for to ``set_spawn`` (the *spawn* argument
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# of the constructor) it will replace this method.
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return False
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def __repr__(self):
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return '<%s at %s %s>' % (type(self).__name__, hex(id(self)), self._formatinfo())
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def __str__(self):
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return '<%s %s>' % (type(self).__name__, self._formatinfo())
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def _formatinfo(self):
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if hasattr(self, 'socket'):
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try:
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fileno = self.socket.fileno()
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except Exception as ex:
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fileno = str(ex)
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result = 'fileno=%s ' % fileno
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else:
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result = ''
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try:
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if isinstance(self.address, tuple) and len(self.address) == 2:
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result += 'address=%s:%s' % self.address
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else:
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result += 'address=%s' % (self.address, )
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except Exception as ex:
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result += str(ex) or '<error>'
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handle = self.__dict__.get('handle')
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if handle is not None:
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fself = getattr(handle, '__self__', None)
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try:
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if fself is self:
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# Checks the __self__ of the handle in case it is a bound
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# method of self to prevent recursively defined reprs.
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handle_repr = '<bound method %s.%s of self>' % (
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self.__class__.__name__,
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handle.__name__,
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)
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else:
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handle_repr = repr(handle)
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result += ' handle=' + handle_repr
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except Exception as ex:
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result += str(ex) or '<error>'
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return result
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@property
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def server_host(self):
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"""IP address that the server is bound to (string)."""
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if isinstance(self.address, tuple):
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return self.address[0]
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@property
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def server_port(self):
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"""Port that the server is bound to (an integer)."""
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if isinstance(self.address, tuple):
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return self.address[1]
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def init_socket(self):
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"""
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If the user initialized the server with an address rather than
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socket, then this function must create a socket, bind it, and
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put it into listening mode.
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It is not supposed to be called by the user, it is called by :meth:`start` before starting
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the accept loop.
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"""
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@property
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def started(self):
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return not self._stop_event.is_set()
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def start(self):
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"""Start accepting the connections.
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If an address was provided in the constructor, then also create a socket,
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bind it and put it into the listening mode.
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"""
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self.init_socket()
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self._stop_event.clear()
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try:
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self.start_accepting()
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except:
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self.close()
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raise
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def close(self):
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"""Close the listener socket and stop accepting."""
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self._stop_event.set()
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try:
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self.stop_accepting()
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finally:
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try:
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self.socket.close()
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except Exception:
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pass
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finally:
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self.__dict__.pop('socket', None)
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self.__dict__.pop('handle', None)
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self.__dict__.pop('_handle', None)
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self.__dict__.pop('_spawn', None)
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self.__dict__.pop('full', None)
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if self.pool is not None:
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self.pool._semaphore.unlink(self._start_accepting_if_started)
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# If the pool's semaphore had a notifier already started,
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# there's a reference cycle we're a part of
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# (self->pool->semaphere-hub callback->semaphore)
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# But we can't destroy self.pool, because self.stop()
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# calls this method, and then wants to join self.pool()
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@property
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def closed(self):
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return not hasattr(self, 'socket')
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def stop(self, timeout=None):
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"""
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Stop accepting the connections and close the listening socket.
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If the server uses a pool to spawn the requests, then
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:meth:`stop` also waits for all the handlers to exit. If there
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are still handlers executing after *timeout* has expired
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(default 1 second, :attr:`stop_timeout`), then the currently
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running handlers in the pool are killed.
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If the server does not use a pool, then this merely stops accepting connections;
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any spawned greenlets that are handling requests continue running until
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they naturally complete.
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"""
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self.close()
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if timeout is None:
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timeout = self.stop_timeout
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if self.pool:
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self.pool.join(timeout=timeout)
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self.pool.kill(block=True, timeout=1)
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def serve_forever(self, stop_timeout=None):
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"""Start the server if it hasn't been already started and wait until it's stopped."""
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# add test that serve_forever exists on stop()
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if not self.started:
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self.start()
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try:
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self._stop_event.wait()
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finally:
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Greenlet.spawn(self.stop, timeout=stop_timeout).join()
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def is_fatal_error(self, ex):
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return isinstance(ex, _socket.error) and ex.args[0] in self.fatal_errors
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def _extract_family(host):
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if host.startswith('[') and host.endswith(']'):
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host = host[1:-1]
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return _socket.AF_INET6, host
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return _socket.AF_INET, host
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def _parse_address(address):
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if isinstance(address, tuple):
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if not address[0] or ':' in address[0]:
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return _socket.AF_INET6, address
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return _socket.AF_INET, address
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if ((isinstance(address, string_types) and ':' not in address)
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or isinstance(address, integer_types)): # noqa (pep8 E129)
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# Just a port
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return _socket.AF_INET6, ('', int(address))
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if not isinstance(address, string_types):
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raise TypeError('Expected tuple or string, got %s' % type(address))
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host, port = address.rsplit(':', 1)
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family, host = _extract_family(host)
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if host == '*':
|
||
|
host = ''
|
||
|
return family, (host, int(port))
|
||
|
|
||
|
|
||
|
def parse_address(address):
|
||
|
try:
|
||
|
return _parse_address(address)
|
||
|
except ValueError as ex: # pylint:disable=try-except-raise
|
||
|
raise ValueError('Failed to parse address %r: %s' % (address, ex))
|