# # Copyright 2012 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. """Utilities for working with ``Future`` objects. ``Futures`` are a pattern for concurrent programming introduced in Python 3.2 in the `concurrent.futures` package, and also adopted (in a slightly different form) in Python 3.4's `asyncio` package. This package defines a ``Future`` class that is an alias for `asyncio.Future` when available, and a compatible implementation for older versions of Python. It also includes some utility functions for interacting with ``Future`` objects. While this package is an important part of Tornado's internal implementation, applications rarely need to interact with it directly. """ from __future__ import absolute_import, division, print_function import functools import platform import textwrap import traceback import sys import warnings from tornado.log import app_log from tornado.stack_context import ExceptionStackContext, wrap from tornado.util import raise_exc_info, ArgReplacer, is_finalizing try: from concurrent import futures except ImportError: futures = None try: import asyncio except ImportError: asyncio = None try: import typing except ImportError: typing = None # Can the garbage collector handle cycles that include __del__ methods? # This is true in cpython beginning with version 3.4 (PEP 442). _GC_CYCLE_FINALIZERS = (platform.python_implementation() == 'CPython' and sys.version_info >= (3, 4)) class ReturnValueIgnoredError(Exception): pass # This class and associated code in the future object is derived # from the Trollius project, a backport of asyncio to Python 2.x - 3.x class _TracebackLogger(object): """Helper to log a traceback upon destruction if not cleared. This solves a nasty problem with Futures and Tasks that have an exception set: if nobody asks for the exception, the exception is never logged. This violates the Zen of Python: 'Errors should never pass silently. Unless explicitly silenced.' However, we don't want to log the exception as soon as set_exception() is called: if the calling code is written properly, it will get the exception and handle it properly. But we *do* want to log it if result() or exception() was never called -- otherwise developers waste a lot of time wondering why their buggy code fails silently. An earlier attempt added a __del__() method to the Future class itself, but this backfired because the presence of __del__() prevents garbage collection from breaking cycles. A way out of this catch-22 is to avoid having a __del__() method on the Future class itself, but instead to have a reference to a helper object with a __del__() method that logs the traceback, where we ensure that the helper object doesn't participate in cycles, and only the Future has a reference to it. The helper object is added when set_exception() is called. When the Future is collected, and the helper is present, the helper object is also collected, and its __del__() method will log the traceback. When the Future's result() or exception() method is called (and a helper object is present), it removes the the helper object, after calling its clear() method to prevent it from logging. One downside is that we do a fair amount of work to extract the traceback from the exception, even when it is never logged. It would seem cheaper to just store the exception object, but that references the traceback, which references stack frames, which may reference the Future, which references the _TracebackLogger, and then the _TracebackLogger would be included in a cycle, which is what we're trying to avoid! As an optimization, we don't immediately format the exception; we only do the work when activate() is called, which call is delayed until after all the Future's callbacks have run. Since usually a Future has at least one callback (typically set by 'yield From') and usually that callback extracts the callback, thereby removing the need to format the exception. PS. I don't claim credit for this solution. I first heard of it in a discussion about closing files when they are collected. """ __slots__ = ('exc_info', 'formatted_tb') def __init__(self, exc_info): self.exc_info = exc_info self.formatted_tb = None def activate(self): exc_info = self.exc_info if exc_info is not None: self.exc_info = None self.formatted_tb = traceback.format_exception(*exc_info) def clear(self): self.exc_info = None self.formatted_tb = None def __del__(self, is_finalizing=is_finalizing): if not is_finalizing() and self.formatted_tb: app_log.error('Future exception was never retrieved: %s', ''.join(self.formatted_tb).rstrip()) class Future(object): """Placeholder for an asynchronous result. A ``Future`` encapsulates the result of an asynchronous operation. In synchronous applications ``Futures`` are used to wait for the result from a thread or process pool; in Tornado they are normally used with `.IOLoop.add_future` or by yielding them in a `.gen.coroutine`. `tornado.concurrent.Future` is an alias for `asyncio.Future` when that package is available (Python 3.4+). Unlike `concurrent.futures.Future`, the ``Futures`` used by Tornado and `asyncio` are not thread-safe (and therefore faster for use with single-threaded event loops). In addition to ``exception`` and ``set_exception``, Tornado's ``Future`` implementation supports storing an ``exc_info`` triple to support better tracebacks on Python 2. To set an ``exc_info`` triple, use `future_set_exc_info`, and to retrieve one, call `result()` (which will raise it). .. versionchanged:: 4.0 `tornado.concurrent.Future` is always a thread-unsafe ``Future`` with support for the ``exc_info`` methods. Previously it would be an alias for the thread-safe `concurrent.futures.Future` if that package was available and fall back to the thread-unsafe implementation if it was not. .. versionchanged:: 4.1 If a `.Future` contains an error but that error is never observed (by calling ``result()``, ``exception()``, or ``exc_info()``), a stack trace will be logged when the `.Future` is garbage collected. This normally indicates an error in the application, but in cases where it results in undesired logging it may be necessary to suppress the logging by ensuring that the exception is observed: ``f.add_done_callback(lambda f: f.exception())``. .. versionchanged:: 5.0 This class was previoiusly available under the name ``TracebackFuture``. This name, which was deprecated since version 4.0, has been removed. When `asyncio` is available ``tornado.concurrent.Future`` is now an alias for `asyncio.Future`. Like `asyncio.Future`, callbacks are now always scheduled on the `.IOLoop` and are never run synchronously. """ def __init__(self): self._done = False self._result = None self._exc_info = None self._log_traceback = False # Used for Python >= 3.4 self._tb_logger = None # Used for Python <= 3.3 self._callbacks = [] # Implement the Python 3.5 Awaitable protocol if possible # (we can't use return and yield together until py33). if sys.version_info >= (3, 3): exec(textwrap.dedent(""" def __await__(self): return (yield self) """)) else: # Py2-compatible version for use with cython. def __await__(self): result = yield self # StopIteration doesn't take args before py33, # but Cython recognizes the args tuple. e = StopIteration() e.args = (result,) raise e def cancel(self): """Cancel the operation, if possible. Tornado ``Futures`` do not support cancellation, so this method always returns False. """ return False def cancelled(self): """Returns True if the operation has been cancelled. Tornado ``Futures`` do not support cancellation, so this method always returns False. """ return False def running(self): """Returns True if this operation is currently running.""" return not self._done def done(self): """Returns True if the future has finished running.""" return self._done def _clear_tb_log(self): self._log_traceback = False if self._tb_logger is not None: self._tb_logger.clear() self._tb_logger = None def result(self, timeout=None): """If the operation succeeded, return its result. If it failed, re-raise its exception. This method takes a ``timeout`` argument for compatibility with `concurrent.futures.Future` but it is an error to call it before the `Future` is done, so the ``timeout`` is never used. """ self._clear_tb_log() if self._result is not None: return self._result if self._exc_info is not None: try: raise_exc_info(self._exc_info) finally: self = None self._check_done() return self._result def exception(self, timeout=None): """If the operation raised an exception, return the `Exception` object. Otherwise returns None. This method takes a ``timeout`` argument for compatibility with `concurrent.futures.Future` but it is an error to call it before the `Future` is done, so the ``timeout`` is never used. """ self._clear_tb_log() if self._exc_info is not None: return self._exc_info[1] else: self._check_done() return None def add_done_callback(self, fn): """Attaches the given callback to the `Future`. It will be invoked with the `Future` as its argument when the Future has finished running and its result is available. In Tornado consider using `.IOLoop.add_future` instead of calling `add_done_callback` directly. """ if self._done: from tornado.ioloop import IOLoop IOLoop.current().add_callback(fn, self) else: self._callbacks.append(fn) def set_result(self, result): """Sets the result of a ``Future``. It is undefined to call any of the ``set`` methods more than once on the same object. """ self._result = result self._set_done() def set_exception(self, exception): """Sets the exception of a ``Future.``""" self.set_exc_info( (exception.__class__, exception, getattr(exception, '__traceback__', None))) def exc_info(self): """Returns a tuple in the same format as `sys.exc_info` or None. .. versionadded:: 4.0 """ self._clear_tb_log() return self._exc_info def set_exc_info(self, exc_info): """Sets the exception information of a ``Future.`` Preserves tracebacks on Python 2. .. versionadded:: 4.0 """ self._exc_info = exc_info self._log_traceback = True if not _GC_CYCLE_FINALIZERS: self._tb_logger = _TracebackLogger(exc_info) try: self._set_done() finally: # Activate the logger after all callbacks have had a # chance to call result() or exception(). if self._log_traceback and self._tb_logger is not None: self._tb_logger.activate() self._exc_info = exc_info def _check_done(self): if not self._done: raise Exception("DummyFuture does not support blocking for results") def _set_done(self): self._done = True if self._callbacks: from tornado.ioloop import IOLoop loop = IOLoop.current() for cb in self._callbacks: loop.add_callback(cb, self) self._callbacks = None # On Python 3.3 or older, objects with a destructor part of a reference # cycle are never destroyed. It's no longer the case on Python 3.4 thanks to # the PEP 442. if _GC_CYCLE_FINALIZERS: def __del__(self, is_finalizing=is_finalizing): if is_finalizing() or not self._log_traceback: # set_exception() was not called, or result() or exception() # has consumed the exception return tb = traceback.format_exception(*self._exc_info) app_log.error('Future %r exception was never retrieved: %s', self, ''.join(tb).rstrip()) if asyncio is not None: Future = asyncio.Future # noqa if futures is None: FUTURES = Future # type: typing.Union[type, typing.Tuple[type, ...]] else: FUTURES = (futures.Future, Future) def is_future(x): return isinstance(x, FUTURES) class DummyExecutor(object): def submit(self, fn, *args, **kwargs): future = Future() try: future_set_result_unless_cancelled(future, fn(*args, **kwargs)) except Exception: future_set_exc_info(future, sys.exc_info()) return future def shutdown(self, wait=True): pass dummy_executor = DummyExecutor() def run_on_executor(*args, **kwargs): """Decorator to run a synchronous method asynchronously on an executor. The decorated method may be called with a ``callback`` keyword argument and returns a future. The executor to be used is determined by the ``executor`` attributes of ``self``. To use a different attribute name, pass a keyword argument to the decorator:: @run_on_executor(executor='_thread_pool') def foo(self): pass This decorator should not be confused with the similarly-named `.IOLoop.run_in_executor`. In general, using ``run_in_executor`` when *calling* a blocking method is recommended instead of using this decorator when *defining* a method. If compatibility with older versions of Tornado is required, consider defining an executor and using ``executor.submit()`` at the call site. .. versionchanged:: 4.2 Added keyword arguments to use alternative attributes. .. versionchanged:: 5.0 Always uses the current IOLoop instead of ``self.io_loop``. .. versionchanged:: 5.1 Returns a `.Future` compatible with ``await`` instead of a `concurrent.futures.Future`. .. deprecated:: 5.1 The ``callback`` argument is deprecated and will be removed in 6.0. The decorator itself is discouraged in new code but will not be removed in 6.0. """ def run_on_executor_decorator(fn): executor = kwargs.get("executor", "executor") @functools.wraps(fn) def wrapper(self, *args, **kwargs): callback = kwargs.pop("callback", None) async_future = Future() conc_future = getattr(self, executor).submit(fn, self, *args, **kwargs) chain_future(conc_future, async_future) if callback: warnings.warn("callback arguments are deprecated, use the returned Future instead", DeprecationWarning) from tornado.ioloop import IOLoop IOLoop.current().add_future( async_future, lambda future: callback(future.result())) return async_future return wrapper if args and kwargs: raise ValueError("cannot combine positional and keyword args") if len(args) == 1: return run_on_executor_decorator(args[0]) elif len(args) != 0: raise ValueError("expected 1 argument, got %d", len(args)) return run_on_executor_decorator _NO_RESULT = object() def return_future(f): """Decorator to make a function that returns via callback return a `Future`. This decorator was provided to ease the transition from callback-oriented code to coroutines. It is not recommended for new code. The wrapped function should take a ``callback`` keyword argument and invoke it with one argument when it has finished. To signal failure, the function can simply raise an exception (which will be captured by the `.StackContext` and passed along to the ``Future``). From the caller's perspective, the callback argument is optional. If one is given, it will be invoked when the function is complete with ``Future.result()`` as an argument. If the function fails, the callback will not be run and an exception will be raised into the surrounding `.StackContext`. If no callback is given, the caller should use the ``Future`` to wait for the function to complete (perhaps by yielding it in a coroutine, or passing it to `.IOLoop.add_future`). Usage: .. testcode:: @return_future def future_func(arg1, arg2, callback): # Do stuff (possibly asynchronous) callback(result) async def caller(): await future_func(arg1, arg2) .. Note that ``@return_future`` and ``@gen.engine`` can be applied to the same function, provided ``@return_future`` appears first. However, consider using ``@gen.coroutine`` instead of this combination. .. versionchanged:: 5.1 Now raises a `.DeprecationWarning` if a callback argument is passed to the decorated function and deprecation warnings are enabled. .. deprecated:: 5.1 This decorator will be removed in Tornado 6.0. New code should use coroutines directly instead of wrapping callback-based code with this decorator. Interactions with non-Tornado callback-based code should be managed explicitly to avoid relying on the `.ExceptionStackContext` built into this decorator. """ warnings.warn("@return_future is deprecated, use coroutines instead", DeprecationWarning) return _non_deprecated_return_future(f, warn=True) def _non_deprecated_return_future(f, warn=False): # Allow auth.py to use this decorator without triggering # deprecation warnings. This will go away once auth.py has removed # its legacy interfaces in 6.0. replacer = ArgReplacer(f, 'callback') @functools.wraps(f) def wrapper(*args, **kwargs): future = Future() callback, args, kwargs = replacer.replace( lambda value=_NO_RESULT: future_set_result_unless_cancelled(future, value), args, kwargs) def handle_error(typ, value, tb): future_set_exc_info(future, (typ, value, tb)) return True exc_info = None esc = ExceptionStackContext(handle_error, delay_warning=True) with esc: if not warn: # HACK: In non-deprecated mode (only used in auth.py), # suppress the warning entirely. Since this is added # in a 5.1 patch release and already removed in 6.0 # I'm prioritizing a minimial change instead of a # clean solution. esc.delay_warning = False try: result = f(*args, **kwargs) if result is not None: raise ReturnValueIgnoredError( "@return_future should not be used with functions " "that return values") except: exc_info = sys.exc_info() raise if exc_info is not None: # If the initial synchronous part of f() raised an exception, # go ahead and raise it to the caller directly without waiting # for them to inspect the Future. future.result() # If the caller passed in a callback, schedule it to be called # when the future resolves. It is important that this happens # just before we return the future, or else we risk confusing # stack contexts with multiple exceptions (one here with the # immediate exception, and again when the future resolves and # the callback triggers its exception by calling future.result()). if callback is not None: warnings.warn("callback arguments are deprecated, use the returned Future instead", DeprecationWarning) def run_callback(future): result = future.result() if result is _NO_RESULT: callback() else: callback(future.result()) future_add_done_callback(future, wrap(run_callback)) return future return wrapper def chain_future(a, b): """Chain two futures together so that when one completes, so does the other. The result (success or failure) of ``a`` will be copied to ``b``, unless ``b`` has already been completed or cancelled by the time ``a`` finishes. .. versionchanged:: 5.0 Now accepts both Tornado/asyncio `Future` objects and `concurrent.futures.Future`. """ def copy(future): assert future is a if b.done(): return if (hasattr(a, 'exc_info') and a.exc_info() is not None): future_set_exc_info(b, a.exc_info()) elif a.exception() is not None: b.set_exception(a.exception()) else: b.set_result(a.result()) if isinstance(a, Future): future_add_done_callback(a, copy) else: # concurrent.futures.Future from tornado.ioloop import IOLoop IOLoop.current().add_future(a, copy) def future_set_result_unless_cancelled(future, value): """Set the given ``value`` as the `Future`'s result, if not cancelled. Avoids asyncio.InvalidStateError when calling set_result() on a cancelled `asyncio.Future`. .. versionadded:: 5.0 """ if not future.cancelled(): future.set_result(value) def future_set_exc_info(future, exc_info): """Set the given ``exc_info`` as the `Future`'s exception. Understands both `asyncio.Future` and Tornado's extensions to enable better tracebacks on Python 2. .. versionadded:: 5.0 """ if hasattr(future, 'set_exc_info'): # Tornado's Future future.set_exc_info(exc_info) else: # asyncio.Future future.set_exception(exc_info[1]) def future_add_done_callback(future, callback): """Arrange to call ``callback`` when ``future`` is complete. ``callback`` is invoked with one argument, the ``future``. If ``future`` is already done, ``callback`` is invoked immediately. This may differ from the behavior of ``Future.add_done_callback``, which makes no such guarantee. .. versionadded:: 5.0 """ if future.done(): callback(future) else: future.add_done_callback(callback)