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diff --git a/scripts/external_libs/pyzmq-14.5.0/python3/ucs4/32bit/zmq/eventloop/minitornado/ioloop.py b/scripts/external_libs/pyzmq-14.5.0/python3/ucs4/32bit/zmq/eventloop/minitornado/ioloop.py
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+++ b/scripts/external_libs/pyzmq-14.5.0/python3/ucs4/32bit/zmq/eventloop/minitornado/ioloop.py
@@ -0,0 +1,829 @@
+#!/usr/bin/env python
+#
+# Copyright 2009 Facebook
+#
+# 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.
+
+"""An I/O event loop for non-blocking sockets.
+
+Typical applications will use a single `IOLoop` object, in the
+`IOLoop.instance` singleton. The `IOLoop.start` method should usually
+be called at the end of the ``main()`` function. Atypical applications may
+use more than one `IOLoop`, such as one `IOLoop` per thread, or per `unittest`
+case.
+
+In addition to I/O events, the `IOLoop` can also schedule time-based events.
+`IOLoop.add_timeout` is a non-blocking alternative to `time.sleep`.
+"""
+
+from __future__ import absolute_import, division, print_function, with_statement
+
+import datetime
+import errno
+import functools
+import heapq
+import logging
+import numbers
+import os
+import select
+import sys
+import threading
+import time
+import traceback
+
+from .concurrent import Future, TracebackFuture
+from .log import app_log, gen_log
+from . import stack_context
+from .util import Configurable
+
+try:
+ import signal
+except ImportError:
+ signal = None
+
+try:
+ import thread # py2
+except ImportError:
+ import _thread as thread # py3
+
+from .platform.auto import set_close_exec, Waker
+
+
+class TimeoutError(Exception):
+ pass
+
+
+class IOLoop(Configurable):
+ """A level-triggered I/O loop.
+
+ We use ``epoll`` (Linux) or ``kqueue`` (BSD and Mac OS X) if they
+ are available, or else we fall back on select(). If you are
+ implementing a system that needs to handle thousands of
+ simultaneous connections, you should use a system that supports
+ either ``epoll`` or ``kqueue``.
+
+ Example usage for a simple TCP server::
+
+ import errno
+ import functools
+ import ioloop
+ import socket
+
+ def connection_ready(sock, fd, events):
+ while True:
+ try:
+ connection, address = sock.accept()
+ except socket.error, e:
+ if e.args[0] not in (errno.EWOULDBLOCK, errno.EAGAIN):
+ raise
+ return
+ connection.setblocking(0)
+ handle_connection(connection, address)
+
+ sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM, 0)
+ sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
+ sock.setblocking(0)
+ sock.bind(("", port))
+ sock.listen(128)
+
+ io_loop = ioloop.IOLoop.instance()
+ callback = functools.partial(connection_ready, sock)
+ io_loop.add_handler(sock.fileno(), callback, io_loop.READ)
+ io_loop.start()
+
+ """
+ # Constants from the epoll module
+ _EPOLLIN = 0x001
+ _EPOLLPRI = 0x002
+ _EPOLLOUT = 0x004
+ _EPOLLERR = 0x008
+ _EPOLLHUP = 0x010
+ _EPOLLRDHUP = 0x2000
+ _EPOLLONESHOT = (1 << 30)
+ _EPOLLET = (1 << 31)
+
+ # Our events map exactly to the epoll events
+ NONE = 0
+ READ = _EPOLLIN
+ WRITE = _EPOLLOUT
+ ERROR = _EPOLLERR | _EPOLLHUP
+
+ # Global lock for creating global IOLoop instance
+ _instance_lock = threading.Lock()
+
+ _current = threading.local()
+
+ @staticmethod
+ def instance():
+ """Returns a global `IOLoop` instance.
+
+ Most applications have a single, global `IOLoop` running on the
+ main thread. Use this method to get this instance from
+ another thread. To get the current thread's `IOLoop`, use `current()`.
+ """
+ if not hasattr(IOLoop, "_instance"):
+ with IOLoop._instance_lock:
+ if not hasattr(IOLoop, "_instance"):
+ # New instance after double check
+ IOLoop._instance = IOLoop()
+ return IOLoop._instance
+
+ @staticmethod
+ def initialized():
+ """Returns true if the singleton instance has been created."""
+ return hasattr(IOLoop, "_instance")
+
+ def install(self):
+ """Installs this `IOLoop` object as the singleton instance.
+
+ This is normally not necessary as `instance()` will create
+ an `IOLoop` on demand, but you may want to call `install` to use
+ a custom subclass of `IOLoop`.
+ """
+ assert not IOLoop.initialized()
+ IOLoop._instance = self
+
+ @staticmethod
+ def current():
+ """Returns the current thread's `IOLoop`.
+
+ If an `IOLoop` is currently running or has been marked as current
+ by `make_current`, returns that instance. Otherwise returns
+ `IOLoop.instance()`, i.e. the main thread's `IOLoop`.
+
+ A common pattern for classes that depend on ``IOLoops`` is to use
+ a default argument to enable programs with multiple ``IOLoops``
+ but not require the argument for simpler applications::
+
+ class MyClass(object):
+ def __init__(self, io_loop=None):
+ self.io_loop = io_loop or IOLoop.current()
+
+ In general you should use `IOLoop.current` as the default when
+ constructing an asynchronous object, and use `IOLoop.instance`
+ when you mean to communicate to the main thread from a different
+ one.
+ """
+ current = getattr(IOLoop._current, "instance", None)
+ if current is None:
+ return IOLoop.instance()
+ return current
+
+ def make_current(self):
+ """Makes this the `IOLoop` for the current thread.
+
+ An `IOLoop` automatically becomes current for its thread
+ when it is started, but it is sometimes useful to call
+ `make_current` explictly before starting the `IOLoop`,
+ so that code run at startup time can find the right
+ instance.
+ """
+ IOLoop._current.instance = self
+
+ @staticmethod
+ def clear_current():
+ IOLoop._current.instance = None
+
+ @classmethod
+ def configurable_base(cls):
+ return IOLoop
+
+ @classmethod
+ def configurable_default(cls):
+ # this is the only patch to IOLoop:
+ from zmq.eventloop.ioloop import ZMQIOLoop
+ return ZMQIOLoop
+ # the remainder of this method is unused,
+ # but left for preservation reasons
+ if hasattr(select, "epoll"):
+ from tornado.platform.epoll import EPollIOLoop
+ return EPollIOLoop
+ if hasattr(select, "kqueue"):
+ # Python 2.6+ on BSD or Mac
+ from tornado.platform.kqueue import KQueueIOLoop
+ return KQueueIOLoop
+ from tornado.platform.select import SelectIOLoop
+ return SelectIOLoop
+
+ def initialize(self):
+ pass
+
+ def close(self, all_fds=False):
+ """Closes the `IOLoop`, freeing any resources used.
+
+ If ``all_fds`` is true, all file descriptors registered on the
+ IOLoop will be closed (not just the ones created by the
+ `IOLoop` itself).
+
+ Many applications will only use a single `IOLoop` that runs for the
+ entire lifetime of the process. In that case closing the `IOLoop`
+ is not necessary since everything will be cleaned up when the
+ process exits. `IOLoop.close` is provided mainly for scenarios
+ such as unit tests, which create and destroy a large number of
+ ``IOLoops``.
+
+ An `IOLoop` must be completely stopped before it can be closed. This
+ means that `IOLoop.stop()` must be called *and* `IOLoop.start()` must
+ be allowed to return before attempting to call `IOLoop.close()`.
+ Therefore the call to `close` will usually appear just after
+ the call to `start` rather than near the call to `stop`.
+
+ .. versionchanged:: 3.1
+ If the `IOLoop` implementation supports non-integer objects
+ for "file descriptors", those objects will have their
+ ``close`` method when ``all_fds`` is true.
+ """
+ raise NotImplementedError()
+
+ def add_handler(self, fd, handler, events):
+ """Registers the given handler to receive the given events for fd.
+
+ The ``events`` argument is a bitwise or of the constants
+ ``IOLoop.READ``, ``IOLoop.WRITE``, and ``IOLoop.ERROR``.
+
+ When an event occurs, ``handler(fd, events)`` will be run.
+ """
+ raise NotImplementedError()
+
+ def update_handler(self, fd, events):
+ """Changes the events we listen for fd."""
+ raise NotImplementedError()
+
+ def remove_handler(self, fd):
+ """Stop listening for events on fd."""
+ raise NotImplementedError()
+
+ def set_blocking_signal_threshold(self, seconds, action):
+ """Sends a signal if the `IOLoop` is blocked for more than
+ ``s`` seconds.
+
+ Pass ``seconds=None`` to disable. Requires Python 2.6 on a unixy
+ platform.
+
+ The action parameter is a Python signal handler. Read the
+ documentation for the `signal` module for more information.
+ If ``action`` is None, the process will be killed if it is
+ blocked for too long.
+ """
+ raise NotImplementedError()
+
+ def set_blocking_log_threshold(self, seconds):
+ """Logs a stack trace if the `IOLoop` is blocked for more than
+ ``s`` seconds.
+
+ Equivalent to ``set_blocking_signal_threshold(seconds,
+ self.log_stack)``
+ """
+ self.set_blocking_signal_threshold(seconds, self.log_stack)
+
+ def log_stack(self, signal, frame):
+ """Signal handler to log the stack trace of the current thread.
+
+ For use with `set_blocking_signal_threshold`.
+ """
+ gen_log.warning('IOLoop blocked for %f seconds in\n%s',
+ self._blocking_signal_threshold,
+ ''.join(traceback.format_stack(frame)))
+
+ def start(self):
+ """Starts the I/O loop.
+
+ The loop will run until one of the callbacks calls `stop()`, which
+ will make the loop stop after the current event iteration completes.
+ """
+ raise NotImplementedError()
+
+ def stop(self):
+ """Stop the I/O loop.
+
+ If the event loop is not currently running, the next call to `start()`
+ will return immediately.
+
+ To use asynchronous methods from otherwise-synchronous code (such as
+ unit tests), you can start and stop the event loop like this::
+
+ ioloop = IOLoop()
+ async_method(ioloop=ioloop, callback=ioloop.stop)
+ ioloop.start()
+
+ ``ioloop.start()`` will return after ``async_method`` has run
+ its callback, whether that callback was invoked before or
+ after ``ioloop.start``.
+
+ Note that even after `stop` has been called, the `IOLoop` is not
+ completely stopped until `IOLoop.start` has also returned.
+ Some work that was scheduled before the call to `stop` may still
+ be run before the `IOLoop` shuts down.
+ """
+ raise NotImplementedError()
+
+ def run_sync(self, func, timeout=None):
+ """Starts the `IOLoop`, runs the given function, and stops the loop.
+
+ If the function returns a `.Future`, the `IOLoop` will run
+ until the future is resolved. If it raises an exception, the
+ `IOLoop` will stop and the exception will be re-raised to the
+ caller.
+
+ The keyword-only argument ``timeout`` may be used to set
+ a maximum duration for the function. If the timeout expires,
+ a `TimeoutError` is raised.
+
+ This method is useful in conjunction with `tornado.gen.coroutine`
+ to allow asynchronous calls in a ``main()`` function::
+
+ @gen.coroutine
+ def main():
+ # do stuff...
+
+ if __name__ == '__main__':
+ IOLoop.instance().run_sync(main)
+ """
+ future_cell = [None]
+
+ def run():
+ try:
+ result = func()
+ except Exception:
+ future_cell[0] = TracebackFuture()
+ future_cell[0].set_exc_info(sys.exc_info())
+ else:
+ if isinstance(result, Future):
+ future_cell[0] = result
+ else:
+ future_cell[0] = Future()
+ future_cell[0].set_result(result)
+ self.add_future(future_cell[0], lambda future: self.stop())
+ self.add_callback(run)
+ if timeout is not None:
+ timeout_handle = self.add_timeout(self.time() + timeout, self.stop)
+ self.start()
+ if timeout is not None:
+ self.remove_timeout(timeout_handle)
+ if not future_cell[0].done():
+ raise TimeoutError('Operation timed out after %s seconds' % timeout)
+ return future_cell[0].result()
+
+ def time(self):
+ """Returns the current time according to the `IOLoop`'s clock.
+
+ The return value is a floating-point number relative to an
+ unspecified time in the past.
+
+ By default, the `IOLoop`'s time function is `time.time`. However,
+ it may be configured to use e.g. `time.monotonic` instead.
+ Calls to `add_timeout` that pass a number instead of a
+ `datetime.timedelta` should use this function to compute the
+ appropriate time, so they can work no matter what time function
+ is chosen.
+ """
+ return time.time()
+
+ def add_timeout(self, deadline, callback):
+ """Runs the ``callback`` at the time ``deadline`` from the I/O loop.
+
+ Returns an opaque handle that may be passed to
+ `remove_timeout` to cancel.
+
+ ``deadline`` may be a number denoting a time (on the same
+ scale as `IOLoop.time`, normally `time.time`), or a
+ `datetime.timedelta` object for a deadline relative to the
+ current time.
+
+ Note that it is not safe to call `add_timeout` from other threads.
+ Instead, you must use `add_callback` to transfer control to the
+ `IOLoop`'s thread, and then call `add_timeout` from there.
+ """
+ raise NotImplementedError()
+
+ def remove_timeout(self, timeout):
+ """Cancels a pending timeout.
+
+ The argument is a handle as returned by `add_timeout`. It is
+ safe to call `remove_timeout` even if the callback has already
+ been run.
+ """
+ raise NotImplementedError()
+
+ def add_callback(self, callback, *args, **kwargs):
+ """Calls the given callback on the next I/O loop iteration.
+
+ It is safe to call this method from any thread at any time,
+ except from a signal handler. Note that this is the **only**
+ method in `IOLoop` that makes this thread-safety guarantee; all
+ other interaction with the `IOLoop` must be done from that
+ `IOLoop`'s thread. `add_callback()` may be used to transfer
+ control from other threads to the `IOLoop`'s thread.
+
+ To add a callback from a signal handler, see
+ `add_callback_from_signal`.
+ """
+ raise NotImplementedError()
+
+ def add_callback_from_signal(self, callback, *args, **kwargs):
+ """Calls the given callback on the next I/O loop iteration.
+
+ Safe for use from a Python signal handler; should not be used
+ otherwise.
+
+ Callbacks added with this method will be run without any
+ `.stack_context`, to avoid picking up the context of the function
+ that was interrupted by the signal.
+ """
+ raise NotImplementedError()
+
+ def add_future(self, future, callback):
+ """Schedules a callback on the ``IOLoop`` when the given
+ `.Future` is finished.
+
+ The callback is invoked with one argument, the
+ `.Future`.
+ """
+ assert isinstance(future, Future)
+ callback = stack_context.wrap(callback)
+ future.add_done_callback(
+ lambda future: self.add_callback(callback, future))
+
+ def _run_callback(self, callback):
+ """Runs a callback with error handling.
+
+ For use in subclasses.
+ """
+ try:
+ callback()
+ except Exception:
+ self.handle_callback_exception(callback)
+
+ def handle_callback_exception(self, callback):
+ """This method is called whenever a callback run by the `IOLoop`
+ throws an exception.
+
+ By default simply logs the exception as an error. Subclasses
+ may override this method to customize reporting of exceptions.
+
+ The exception itself is not passed explicitly, but is available
+ in `sys.exc_info`.
+ """
+ app_log.error("Exception in callback %r", callback, exc_info=True)
+
+
+class PollIOLoop(IOLoop):
+ """Base class for IOLoops built around a select-like function.
+
+ For concrete implementations, see `tornado.platform.epoll.EPollIOLoop`
+ (Linux), `tornado.platform.kqueue.KQueueIOLoop` (BSD and Mac), or
+ `tornado.platform.select.SelectIOLoop` (all platforms).
+ """
+ def initialize(self, impl, time_func=None):
+ super(PollIOLoop, self).initialize()
+ self._impl = impl
+ if hasattr(self._impl, 'fileno'):
+ set_close_exec(self._impl.fileno())
+ self.time_func = time_func or time.time
+ self._handlers = {}
+ self._events = {}
+ self._callbacks = []
+ self._callback_lock = threading.Lock()
+ self._timeouts = []
+ self._cancellations = 0
+ self._running = False
+ self._stopped = False
+ self._closing = False
+ self._thread_ident = None
+ self._blocking_signal_threshold = None
+
+ # Create a pipe that we send bogus data to when we want to wake
+ # the I/O loop when it is idle
+ self._waker = Waker()
+ self.add_handler(self._waker.fileno(),
+ lambda fd, events: self._waker.consume(),
+ self.READ)
+
+ def close(self, all_fds=False):
+ with self._callback_lock:
+ self._closing = True
+ self.remove_handler(self._waker.fileno())
+ if all_fds:
+ for fd in self._handlers.keys():
+ try:
+ close_method = getattr(fd, 'close', None)
+ if close_method is not None:
+ close_method()
+ else:
+ os.close(fd)
+ except Exception:
+ gen_log.debug("error closing fd %s", fd, exc_info=True)
+ self._waker.close()
+ self._impl.close()
+
+ def add_handler(self, fd, handler, events):
+ self._handlers[fd] = stack_context.wrap(handler)
+ self._impl.register(fd, events | self.ERROR)
+
+ def update_handler(self, fd, events):
+ self._impl.modify(fd, events | self.ERROR)
+
+ def remove_handler(self, fd):
+ self._handlers.pop(fd, None)
+ self._events.pop(fd, None)
+ try:
+ self._impl.unregister(fd)
+ except Exception:
+ gen_log.debug("Error deleting fd from IOLoop", exc_info=True)
+
+ def set_blocking_signal_threshold(self, seconds, action):
+ if not hasattr(signal, "setitimer"):
+ gen_log.error("set_blocking_signal_threshold requires a signal module "
+ "with the setitimer method")
+ return
+ self._blocking_signal_threshold = seconds
+ if seconds is not None:
+ signal.signal(signal.SIGALRM,
+ action if action is not None else signal.SIG_DFL)
+
+ def start(self):
+ if not logging.getLogger().handlers:
+ # The IOLoop catches and logs exceptions, so it's
+ # important that log output be visible. However, python's
+ # default behavior for non-root loggers (prior to python
+ # 3.2) is to print an unhelpful "no handlers could be
+ # found" message rather than the actual log entry, so we
+ # must explicitly configure logging if we've made it this
+ # far without anything.
+ logging.basicConfig()
+ if self._stopped:
+ self._stopped = False
+ return
+ old_current = getattr(IOLoop._current, "instance", None)
+ IOLoop._current.instance = self
+ self._thread_ident = thread.get_ident()
+ self._running = True
+
+ # signal.set_wakeup_fd closes a race condition in event loops:
+ # a signal may arrive at the beginning of select/poll/etc
+ # before it goes into its interruptible sleep, so the signal
+ # will be consumed without waking the select. The solution is
+ # for the (C, synchronous) signal handler to write to a pipe,
+ # which will then be seen by select.
+ #
+ # In python's signal handling semantics, this only matters on the
+ # main thread (fortunately, set_wakeup_fd only works on the main
+ # thread and will raise a ValueError otherwise).
+ #
+ # If someone has already set a wakeup fd, we don't want to
+ # disturb it. This is an issue for twisted, which does its
+ # SIGCHILD processing in response to its own wakeup fd being
+ # written to. As long as the wakeup fd is registered on the IOLoop,
+ # the loop will still wake up and everything should work.
+ old_wakeup_fd = None
+ if hasattr(signal, 'set_wakeup_fd') and os.name == 'posix':
+ # requires python 2.6+, unix. set_wakeup_fd exists but crashes
+ # the python process on windows.
+ try:
+ old_wakeup_fd = signal.set_wakeup_fd(self._waker.write_fileno())
+ if old_wakeup_fd != -1:
+ # Already set, restore previous value. This is a little racy,
+ # but there's no clean get_wakeup_fd and in real use the
+ # IOLoop is just started once at the beginning.
+ signal.set_wakeup_fd(old_wakeup_fd)
+ old_wakeup_fd = None
+ except ValueError: # non-main thread
+ pass
+
+ while True:
+ poll_timeout = 3600.0
+
+ # Prevent IO event starvation by delaying new callbacks
+ # to the next iteration of the event loop.
+ with self._callback_lock:
+ callbacks = self._callbacks
+ self._callbacks = []
+ for callback in callbacks:
+ self._run_callback(callback)
+
+ if self._timeouts:
+ now = self.time()
+ while self._timeouts:
+ if self._timeouts[0].callback is None:
+ # the timeout was cancelled
+ heapq.heappop(self._timeouts)
+ self._cancellations -= 1
+ elif self._timeouts[0].deadline <= now:
+ timeout = heapq.heappop(self._timeouts)
+ self._run_callback(timeout.callback)
+ else:
+ seconds = self._timeouts[0].deadline - now
+ poll_timeout = min(seconds, poll_timeout)
+ break
+ if (self._cancellations > 512
+ and self._cancellations > (len(self._timeouts) >> 1)):
+ # Clean up the timeout queue when it gets large and it's
+ # more than half cancellations.
+ self._cancellations = 0
+ self._timeouts = [x for x in self._timeouts
+ if x.callback is not None]
+ heapq.heapify(self._timeouts)
+
+ if self._callbacks:
+ # If any callbacks or timeouts called add_callback,
+ # we don't want to wait in poll() before we run them.
+ poll_timeout = 0.0
+
+ if not self._running:
+ break
+
+ if self._blocking_signal_threshold is not None:
+ # clear alarm so it doesn't fire while poll is waiting for
+ # events.
+ signal.setitimer(signal.ITIMER_REAL, 0, 0)
+
+ try:
+ event_pairs = self._impl.poll(poll_timeout)
+ except Exception as e:
+ # Depending on python version and IOLoop implementation,
+ # different exception types may be thrown and there are
+ # two ways EINTR might be signaled:
+ # * e.errno == errno.EINTR
+ # * e.args is like (errno.EINTR, 'Interrupted system call')
+ if (getattr(e, 'errno', None) == errno.EINTR or
+ (isinstance(getattr(e, 'args', None), tuple) and
+ len(e.args) == 2 and e.args[0] == errno.EINTR)):
+ continue
+ else:
+ raise
+
+ if self._blocking_signal_threshold is not None:
+ signal.setitimer(signal.ITIMER_REAL,
+ self._blocking_signal_threshold, 0)
+
+ # Pop one fd at a time from the set of pending fds and run
+ # its handler. Since that handler may perform actions on
+ # other file descriptors, there may be reentrant calls to
+ # this IOLoop that update self._events
+ self._events.update(event_pairs)
+ while self._events:
+ fd, events = self._events.popitem()
+ try:
+ self._handlers[fd](fd, events)
+ except (OSError, IOError) as e:
+ if e.args[0] == errno.EPIPE:
+ # Happens when the client closes the connection
+ pass
+ else:
+ app_log.error("Exception in I/O handler for fd %s",
+ fd, exc_info=True)
+ except Exception:
+ app_log.error("Exception in I/O handler for fd %s",
+ fd, exc_info=True)
+ # reset the stopped flag so another start/stop pair can be issued
+ self._stopped = False
+ if self._blocking_signal_threshold is not None:
+ signal.setitimer(signal.ITIMER_REAL, 0, 0)
+ IOLoop._current.instance = old_current
+ if old_wakeup_fd is not None:
+ signal.set_wakeup_fd(old_wakeup_fd)
+
+ def stop(self):
+ self._running = False
+ self._stopped = True
+ self._waker.wake()
+
+ def time(self):
+ return self.time_func()
+
+ def add_timeout(self, deadline, callback):
+ timeout = _Timeout(deadline, stack_context.wrap(callback), self)
+ heapq.heappush(self._timeouts, timeout)
+ return timeout
+
+ def remove_timeout(self, timeout):
+ # Removing from a heap is complicated, so just leave the defunct
+ # timeout object in the queue (see discussion in
+ # http://docs.python.org/library/heapq.html).
+ # If this turns out to be a problem, we could add a garbage
+ # collection pass whenever there are too many dead timeouts.
+ timeout.callback = None
+ self._cancellations += 1
+
+ def add_callback(self, callback, *args, **kwargs):
+ with self._callback_lock:
+ if self._closing:
+ raise RuntimeError("IOLoop is closing")
+ list_empty = not self._callbacks
+ self._callbacks.append(functools.partial(
+ stack_context.wrap(callback), *args, **kwargs))
+ if list_empty and thread.get_ident() != self._thread_ident:
+ # If we're in the IOLoop's thread, we know it's not currently
+ # polling. If we're not, and we added the first callback to an
+ # empty list, we may need to wake it up (it may wake up on its
+ # own, but an occasional extra wake is harmless). Waking
+ # up a polling IOLoop is relatively expensive, so we try to
+ # avoid it when we can.
+ self._waker.wake()
+
+ def add_callback_from_signal(self, callback, *args, **kwargs):
+ with stack_context.NullContext():
+ if thread.get_ident() != self._thread_ident:
+ # if the signal is handled on another thread, we can add
+ # it normally (modulo the NullContext)
+ self.add_callback(callback, *args, **kwargs)
+ else:
+ # If we're on the IOLoop's thread, we cannot use
+ # the regular add_callback because it may deadlock on
+ # _callback_lock. Blindly insert into self._callbacks.
+ # This is safe because the GIL makes list.append atomic.
+ # One subtlety is that if the signal interrupted the
+ # _callback_lock block in IOLoop.start, we may modify
+ # either the old or new version of self._callbacks,
+ # but either way will work.
+ self._callbacks.append(functools.partial(
+ stack_context.wrap(callback), *args, **kwargs))
+
+
+class _Timeout(object):
+ """An IOLoop timeout, a UNIX timestamp and a callback"""
+
+ # Reduce memory overhead when there are lots of pending callbacks
+ __slots__ = ['deadline', 'callback']
+
+ def __init__(self, deadline, callback, io_loop):
+ if isinstance(deadline, numbers.Real):
+ self.deadline = deadline
+ elif isinstance(deadline, datetime.timedelta):
+ self.deadline = io_loop.time() + _Timeout.timedelta_to_seconds(deadline)
+ else:
+ raise TypeError("Unsupported deadline %r" % deadline)
+ self.callback = callback
+
+ @staticmethod
+ def timedelta_to_seconds(td):
+ """Equivalent to td.total_seconds() (introduced in python 2.7)."""
+ return (td.microseconds + (td.seconds + td.days * 24 * 3600) * 10 ** 6) / float(10 ** 6)
+
+ # Comparison methods to sort by deadline, with object id as a tiebreaker
+ # to guarantee a consistent ordering. The heapq module uses __le__
+ # in python2.5, and __lt__ in 2.6+ (sort() and most other comparisons
+ # use __lt__).
+ def __lt__(self, other):
+ return ((self.deadline, id(self)) <
+ (other.deadline, id(other)))
+
+ def __le__(self, other):
+ return ((self.deadline, id(self)) <=
+ (other.deadline, id(other)))
+
+
+class PeriodicCallback(object):
+ """Schedules the given callback to be called periodically.
+
+ The callback is called every ``callback_time`` milliseconds.
+
+ `start` must be called after the `PeriodicCallback` is created.
+ """
+ def __init__(self, callback, callback_time, io_loop=None):
+ self.callback = callback
+ if callback_time <= 0:
+ raise ValueError("Periodic callback must have a positive callback_time")
+ self.callback_time = callback_time
+ self.io_loop = io_loop or IOLoop.current()
+ self._running = False
+ self._timeout = None
+
+ def start(self):
+ """Starts the timer."""
+ self._running = True
+ self._next_timeout = self.io_loop.time()
+ self._schedule_next()
+
+ def stop(self):
+ """Stops the timer."""
+ self._running = False
+ if self._timeout is not None:
+ self.io_loop.remove_timeout(self._timeout)
+ self._timeout = None
+
+ def _run(self):
+ if not self._running:
+ return
+ try:
+ self.callback()
+ except Exception:
+ app_log.error("Error in periodic callback", exc_info=True)
+ self._schedule_next()
+
+ def _schedule_next(self):
+ if self._running:
+ current_time = self.io_loop.time()
+ while self._next_timeout <= current_time:
+ self._next_timeout += self.callback_time / 1000.0
+ self._timeout = self.io_loop.add_timeout(self._next_timeout, self._run)