tornado/stack_context.py - vendor/google/wavedroplet - Git at Google

 #!/usr/bin/env python
 #
 # Copyright 2010 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.

 '''StackContext allows applications to maintain threadlocal-like state
 that follows execution as it moves to other execution contexts.

 The motivating examples are to eliminate the need for explicit
 async_callback wrappers (as in tornado.web.RequestHandler), and to
 allow some additional context to be kept for logging.

 This is slightly magic, but it's an extension of the idea that an exception
 handler is a kind of stack-local state and when that stack is suspended
 and resumed in a new context that state needs to be preserved.  StackContext
 shifts the burden of restoring that state from each call site (e.g.
 wrapping each AsyncHTTPClient callback in async_callback) to the mechanisms
 that transfer control from one context to another (e.g. AsyncHTTPClient
 itself, IOLoop, thread pools, etc).

 Example usage::

     @contextlib.contextmanager
     def die_on_error():
         try:
             yield
         except Exception:
             logging.error("exception in asynchronous operation",exc_info=True)
             sys.exit(1)

     with StackContext(die_on_error):
         # Any exception thrown here *or in callback and its desendents*
         # will cause the process to exit instead of spinning endlessly
         # in the ioloop.
         http_client.fetch(url, callback)
     ioloop.start()

 Most applications shouln't have to work with `StackContext` directly.
 Here are a few rules of thumb for when it's necessary:

 * If you're writing an asynchronous library that doesn't rely on a
   stack_context-aware library like `tornado.ioloop` or `tornado.iostream`
   (for example, if you're writing a thread pool), use
   `stack_context.wrap()` before any asynchronous operations to capture the
   stack context from where the operation was started.

 * If you're writing an asynchronous library that has some shared
   resources (such as a connection pool), create those shared resources
   within a ``with stack_context.NullContext():`` block.  This will prevent
   ``StackContexts`` from leaking from one request to another.

 * If you want to write something like an exception handler that will
   persist across asynchronous calls, create a new `StackContext` (or
   `ExceptionStackContext`), and make your asynchronous calls in a ``with``
   block that references your `StackContext`.
 '''

 from __future__ import with_statement

 import contextlib
 import functools
 import itertools
 import sys
 import threading

 class _State(threading.local):
     def __init__(self):
         self.contexts = ()
 _state = _State()

 class StackContext(object):
     '''Establishes the given context as a StackContext that will be transferred.

     Note that the parameter is a callable that returns a context
     manager, not the context itself.  That is, where for a
     non-transferable context manager you would say::

       with my_context():

     StackContext takes the function itself rather than its result::

       with StackContext(my_context):
     '''
     def __init__(self, context_factory):
         self.context_factory = context_factory

     # Note that some of this code is duplicated in ExceptionStackContext
     # below.  ExceptionStackContext is more common and doesn't need
     # the full generality of this class.
     def __enter__(self):
         self.old_contexts = _state.contexts
         # _state.contexts is a tuple of (class, arg) pairs
         _state.contexts = (self.old_contexts +
                            ((StackContext, self.context_factory),))
         try:
             self.context = self.context_factory()
             self.context.__enter__()
         except Exception:
             _state.contexts = self.old_contexts
             raise

     def __exit__(self, type, value, traceback):
         try:
             return self.context.__exit__(type, value, traceback)
         finally:
             _state.contexts = self.old_contexts

 class ExceptionStackContext(object):
     '''Specialization of StackContext for exception handling.

     The supplied exception_handler function will be called in the
     event of an uncaught exception in this context.  The semantics are
     similar to a try/finally clause, and intended use cases are to log
     an error, close a socket, or similar cleanup actions.  The
     exc_info triple (type, value, traceback) will be passed to the
     exception_handler function.

     If the exception handler returns true, the exception will be
     consumed and will not be propagated to other exception handlers.
     '''
     def __init__(self, exception_handler):
         self.exception_handler = exception_handler

     def __enter__(self):
         self.old_contexts = _state.contexts
         _state.contexts = (self.old_contexts +
                            ((ExceptionStackContext, self.exception_handler),))

     def __exit__(self, type, value, traceback):
         try:
             if type is not None:
                 return self.exception_handler(type, value, traceback)
         finally:
             _state.contexts = self.old_contexts

 class NullContext(object):
     '''Resets the StackContext.

     Useful when creating a shared resource on demand (e.g. an AsyncHTTPClient)
     where the stack that caused the creating is not relevant to future
     operations.
     '''
     def __enter__(self):
         self.old_contexts = _state.contexts
         _state.contexts = ()

     def __exit__(self, type, value, traceback):
         _state.contexts = self.old_contexts

 class _StackContextWrapper(functools.partial):
     pass

 def wrap(fn):
     '''Returns a callable object that will restore the current StackContext
     when executed.

     Use this whenever saving a callback to be executed later in a
     different execution context (either in a different thread or
     asynchronously in the same thread).
     '''
     if fn is None or fn.__class__ is _StackContextWrapper:
         return fn
     # functools.wraps doesn't appear to work on functools.partial objects
     #@functools.wraps(fn)
     def wrapped(callback, contexts, *args, **kwargs):
         if contexts is _state.contexts or not contexts:
             callback(*args, **kwargs)
             return
         if not _state.contexts:
             new_contexts = [cls(arg) for (cls, arg) in contexts]
         # If we're moving down the stack, _state.contexts is a prefix
         # of contexts.  For each element of contexts not in that prefix,
         # create a new StackContext object.
         # If we're moving up the stack (or to an entirely different stack),
         # _state.contexts will have elements not in contexts.  Use
         # NullContext to clear the state and then recreate from contexts.
         elif (len(_state.contexts) > len(contexts) or
             any(a[1] is not b[1]
                 for a, b in itertools.izip(_state.contexts, contexts))):
             # contexts have been removed or changed, so start over
             new_contexts = ([NullContext()] +
                             [cls(arg) for (cls,arg) in contexts])
         else:
             new_contexts = [cls(arg)
                             for (cls, arg) in contexts[len(_state.contexts):]]
         if len(new_contexts) > 1:
             with _nested(*new_contexts):
                 callback(*args, **kwargs)
         elif new_contexts:
             with new_contexts[0]:
                 callback(*args, **kwargs)
         else:
             callback(*args, **kwargs)
     if _state.contexts:
         return _StackContextWrapper(wrapped, fn, _state.contexts)
     else:
         return _StackContextWrapper(fn)

 @contextlib.contextmanager
 def _nested(*managers):
     """Support multiple context managers in a single with-statement.

     Copied from the python 2.6 standard library.  It's no longer present
     in python 3 because the with statement natively supports multiple
     context managers, but that doesn't help if the list of context
     managers is not known until runtime.
     """
     exits = []
     vars = []
     exc = (None, None, None)
     try:
         for mgr in managers:
             exit = mgr.__exit__
             enter = mgr.__enter__
             vars.append(enter())
             exits.append(exit)
         yield vars
     except:
         exc = sys.exc_info()
     finally:
         while exits:
             exit = exits.pop()
             try:
                 if exit(*exc):
                     exc = (None, None, None)
             except:
                 exc = sys.exc_info()
         if exc != (None, None, None):
             # Don't rely on sys.exc_info() still containing
             # the right information. Another exception may
             # have been raised and caught by an exit method
             raise exc[0], exc[1], exc[2]
	#!/usr/bin/env python
	#
	# Copyright 2010 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.

	'''StackContext allows applications to maintain threadlocal-like state
	that follows execution as it moves to other execution contexts.

	The motivating examples are to eliminate the need for explicit
	async_callback wrappers (as in tornado.web.RequestHandler), and to
	allow some additional context to be kept for logging.

	This is slightly magic, but it's an extension of the idea that an exception
	handler is a kind of stack-local state and when that stack is suspended
	and resumed in a new context that state needs to be preserved. StackContext
	shifts the burden of restoring that state from each call site (e.g.
	wrapping each AsyncHTTPClient callback in async_callback) to the mechanisms
	that transfer control from one context to another (e.g. AsyncHTTPClient
	itself, IOLoop, thread pools, etc).

	Example usage::

	@contextlib.contextmanager
	def die_on_error():
	try:
	yield
	except Exception:
	logging.error("exception in asynchronous operation",exc_info=True)
	sys.exit(1)

	with StackContext(die_on_error):
	# Any exception thrown here or in callback and its desendents
	# will cause the process to exit instead of spinning endlessly
	# in the ioloop.
	http_client.fetch(url, callback)
	ioloop.start()

	Most applications shouln't have to work with `StackContext` directly.
	Here are a few rules of thumb for when it's necessary:

	* If you're writing an asynchronous library that doesn't rely on a
	stack_context-aware library like `tornado.ioloop` or `tornado.iostream`
	(for example, if you're writing a thread pool), use
	`stack_context.wrap()` before any asynchronous operations to capture the
	stack context from where the operation was started.

	* If you're writing an asynchronous library that has some shared
	resources (such as a connection pool), create those shared resources
	within a ``with stack_context.NullContext():`` block. This will prevent
	``StackContexts`` from leaking from one request to another.

	* If you want to write something like an exception handler that will
	persist across asynchronous calls, create a new `StackContext` (or
	`ExceptionStackContext`), and make your asynchronous calls in a ``with``
	block that references your `StackContext`.
	'''

	from __future__ import with_statement

	import contextlib
	import functools
	import itertools
	import sys
	import threading

	class _State(threading.local):
	def __init__(self):
	self.contexts = ()
	_state = _State()

	class StackContext(object):
	'''Establishes the given context as a StackContext that will be transferred.

	Note that the parameter is a callable that returns a context
	manager, not the context itself. That is, where for a
	non-transferable context manager you would say::

	with my_context():

	StackContext takes the function itself rather than its result::

	with StackContext(my_context):
	'''
	def __init__(self, context_factory):
	self.context_factory = context_factory

	# Note that some of this code is duplicated in ExceptionStackContext
	# below. ExceptionStackContext is more common and doesn't need
	# the full generality of this class.
	def __enter__(self):
	self.old_contexts = _state.contexts
	# _state.contexts is a tuple of (class, arg) pairs
	_state.contexts = (self.old_contexts +
	((StackContext, self.context_factory),))
	try:
	self.context = self.context_factory()
	self.context.__enter__()
	except Exception:
	_state.contexts = self.old_contexts
	raise

	def __exit__(self, type, value, traceback):
	try:
	return self.context.__exit__(type, value, traceback)
	finally:
	_state.contexts = self.old_contexts

	class ExceptionStackContext(object):
	'''Specialization of StackContext for exception handling.

	The supplied exception_handler function will be called in the
	event of an uncaught exception in this context. The semantics are
	similar to a try/finally clause, and intended use cases are to log
	an error, close a socket, or similar cleanup actions. The
	exc_info triple (type, value, traceback) will be passed to the
	exception_handler function.

	If the exception handler returns true, the exception will be
	consumed and will not be propagated to other exception handlers.
	'''
	def __init__(self, exception_handler):
	self.exception_handler = exception_handler

	def __enter__(self):
	self.old_contexts = _state.contexts
	_state.contexts = (self.old_contexts +
	((ExceptionStackContext, self.exception_handler),))

	def __exit__(self, type, value, traceback):
	try:
	if type is not None:
	return self.exception_handler(type, value, traceback)
	finally:
	_state.contexts = self.old_contexts

	class NullContext(object):
	'''Resets the StackContext.

	Useful when creating a shared resource on demand (e.g. an AsyncHTTPClient)
	where the stack that caused the creating is not relevant to future
	operations.
	'''
	def __enter__(self):
	self.old_contexts = _state.contexts
	_state.contexts = ()

	def __exit__(self, type, value, traceback):
	_state.contexts = self.old_contexts

	class _StackContextWrapper(functools.partial):
	pass

	def wrap(fn):
	'''Returns a callable object that will restore the current StackContext
	when executed.

	Use this whenever saving a callback to be executed later in a
	different execution context (either in a different thread or
	asynchronously in the same thread).
	'''
	if fn is None or fn.__class__ is _StackContextWrapper:
	return fn
	# functools.wraps doesn't appear to work on functools.partial objects
	#@functools.wraps(fn)
	def wrapped(callback, contexts, args, *kwargs):
	if contexts is _state.contexts or not contexts:
	callback(args, *kwargs)
	return
	if not _state.contexts:
	new_contexts = [cls(arg) for (cls, arg) in contexts]
	# If we're moving down the stack, _state.contexts is a prefix
	# of contexts. For each element of contexts not in that prefix,
	# create a new StackContext object.
	# If we're moving up the stack (or to an entirely different stack),
	# _state.contexts will have elements not in contexts. Use
	# NullContext to clear the state and then recreate from contexts.
	elif (len(_state.contexts) > len(contexts) or
	any(a[1] is not b[1]
	for a, b in itertools.izip(_state.contexts, contexts))):
	# contexts have been removed or changed, so start over
	new_contexts = ([NullContext()] +
	[cls(arg) for (cls,arg) in contexts])
	else:
	new_contexts = [cls(arg)
	for (cls, arg) in contexts[len(_state.contexts):]]
	if len(new_contexts) > 1:
	with _nested(*new_contexts):
	callback(args, *kwargs)
	elif new_contexts:
	with new_contexts[0]:
	callback(args, *kwargs)
	else:
	callback(args, *kwargs)
	if _state.contexts:
	return _StackContextWrapper(wrapped, fn, _state.contexts)
	else:
	return _StackContextWrapper(fn)

	@contextlib.contextmanager
	def _nested(*managers):
	"""Support multiple context managers in a single with-statement.

	Copied from the python 2.6 standard library. It's no longer present
	in python 3 because the with statement natively supports multiple
	context managers, but that doesn't help if the list of context
	managers is not known until runtime.
	"""
	exits = []
	vars = []
	exc = (None, None, None)
	try:
	for mgr in managers:
	exit = mgr.__exit__
	enter = mgr.__enter__
	vars.append(enter())
	exits.append(exit)
	yield vars
	except:
	exc = sys.exc_info()
	finally:
	while exits:
	exit = exits.pop()
	try:
	if exit(*exc):
	exc = (None, None, None)
	except:
	exc = sys.exc_info()
	if exc != (None, None, None):
	# Don't rely on sys.exc_info() still containing
	# the right information. Another exception may
	# have been raised and caught by an exit method
	raise exc[0], exc[1], exc[2]