python/lib/Lib/site-packages/django/db/transaction.py - platform/tools/idea - Git at Google

 """
 This module implements a transaction manager that can be used to define
 transaction handling in a request or view function. It is used by transaction
 control middleware and decorators.

 The transaction manager can be in managed or in auto state. Auto state means the
 system is using a commit-on-save strategy (actually it's more like
 commit-on-change). As soon as the .save() or .delete() (or related) methods are
 called, a commit is made.

 Managed transactions don't do those commits, but will need some kind of manual
 or implicit commits or rollbacks.
 """
 import sys

 try:
     import thread
 except ImportError:
     import dummy_thread as thread
 try:
     from functools import wraps
 except ImportError:
     from django.utils.functional import wraps  # Python 2.4 fallback.

 from django.conf import settings
 from django.db import connections, DEFAULT_DB_ALIAS

 class TransactionManagementError(Exception):
     """
     This exception is thrown when something bad happens with transaction
     management.
     """
     pass

 # The states are dictionaries of dictionaries of lists. The key to the outer
 # dict is the current thread, and the key to the inner dictionary is the
 # connection alias and the list is handled as a stack of values.
 state = {}
 savepoint_state = {}

 # The dirty flag is set by *_unless_managed functions to denote that the
 # code under transaction management has changed things to require a
 # database commit.
 # This is a dictionary mapping thread to a dictionary mapping connection
 # alias to a boolean.
 dirty = {}

 def enter_transaction_management(managed=True, using=None):
     """
     Enters transaction management for a running thread. It must be balanced with
     the appropriate leave_transaction_management call, since the actual state is
     managed as a stack.

     The state and dirty flag are carried over from the surrounding block or
     from the settings, if there is no surrounding block (dirty is always false
     when no current block is running).
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     connection = connections[using]
     thread_ident = thread.get_ident()
     if thread_ident in state and state[thread_ident].get(using):
         state[thread_ident][using].append(state[thread_ident][using][-1])
     else:
         state.setdefault(thread_ident, {})
         state[thread_ident][using] = [settings.TRANSACTIONS_MANAGED]
     if thread_ident not in dirty or using not in dirty[thread_ident]:
         dirty.setdefault(thread_ident, {})
         dirty[thread_ident][using] = False
     connection._enter_transaction_management(managed)

 def leave_transaction_management(using=None):
     """
     Leaves transaction management for a running thread. A dirty flag is carried
     over to the surrounding block, as a commit will commit all changes, even
     those from outside. (Commits are on connection level.)
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     connection = connections[using]
     connection._leave_transaction_management(is_managed(using=using))
     thread_ident = thread.get_ident()
     if thread_ident in state and state[thread_ident].get(using):
         del state[thread_ident][using][-1]
     else:
         raise TransactionManagementError("This code isn't under transaction management")
     if dirty.get(thread_ident, {}).get(using, False):
         rollback(using=using)
         raise TransactionManagementError("Transaction managed block ended with pending COMMIT/ROLLBACK")
     dirty[thread_ident][using] = False

 def is_dirty(using=None):
     """
     Returns True if the current transaction requires a commit for changes to
     happen.
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     return dirty.get(thread.get_ident(), {}).get(using, False)

 def set_dirty(using=None):
     """
     Sets a dirty flag for the current thread and code streak. This can be used
     to decide in a managed block of code to decide whether there are open
     changes waiting for commit.
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     thread_ident = thread.get_ident()
     if thread_ident in dirty and using in dirty[thread_ident]:
         dirty[thread_ident][using] = True
     else:
         raise TransactionManagementError("This code isn't under transaction management")

 def set_clean(using=None):
     """
     Resets a dirty flag for the current thread and code streak. This can be used
     to decide in a managed block of code to decide whether a commit or rollback
     should happen.
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     thread_ident = thread.get_ident()
     if thread_ident in dirty and using in dirty[thread_ident]:
         dirty[thread_ident][using] = False
     else:
         raise TransactionManagementError("This code isn't under transaction management")
     clean_savepoints(using=using)

 def clean_savepoints(using=None):
     if using is None:
         using = DEFAULT_DB_ALIAS
     thread_ident = thread.get_ident()
     if thread_ident in savepoint_state and using in savepoint_state[thread_ident]:
         del savepoint_state[thread_ident][using]

 def is_managed(using=None):
     """
     Checks whether the transaction manager is in manual or in auto state.
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     thread_ident = thread.get_ident()
     if thread_ident in state and using in state[thread_ident]:
         if state[thread_ident][using]:
             return state[thread_ident][using][-1]
     return settings.TRANSACTIONS_MANAGED

 def managed(flag=True, using=None):
     """
     Puts the transaction manager into a manual state: managed transactions have
     to be committed explicitly by the user. If you switch off transaction
     management and there is a pending commit/rollback, the data will be
     commited.
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     connection = connections[using]
     thread_ident = thread.get_ident()
     top = state.get(thread_ident, {}).get(using, None)
     if top:
         top[-1] = flag
         if not flag and is_dirty(using=using):
             connection._commit()
             set_clean(using=using)
     else:
         raise TransactionManagementError("This code isn't under transaction management")

 def commit_unless_managed(using=None):
     """
     Commits changes if the system is not in managed transaction mode.
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     connection = connections[using]
     if not is_managed(using=using):
         connection._commit()
         clean_savepoints(using=using)
     else:
         set_dirty(using=using)

 def rollback_unless_managed(using=None):
     """
     Rolls back changes if the system is not in managed transaction mode.
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     connection = connections[using]
     if not is_managed(using=using):
         connection._rollback()
     else:
         set_dirty(using=using)

 def commit(using=None):
     """
     Does the commit itself and resets the dirty flag.
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     connection = connections[using]
     connection._commit()
     set_clean(using=using)

 def rollback(using=None):
     """
     This function does the rollback itself and resets the dirty flag.
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     connection = connections[using]
     connection._rollback()
     set_clean(using=using)

 def savepoint(using=None):
     """
     Creates a savepoint (if supported and required by the backend) inside the
     current transaction. Returns an identifier for the savepoint that will be
     used for the subsequent rollback or commit.
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     connection = connections[using]
     thread_ident = thread.get_ident()
     if thread_ident in savepoint_state and using in savepoint_state[thread_ident]:
         savepoint_state[thread_ident][using].append(None)
     else:
         savepoint_state.setdefault(thread_ident, {})
         savepoint_state[thread_ident][using] = [None]
     tid = str(thread_ident).replace('-', '')
     sid = "s%s_x%d" % (tid, len(savepoint_state[thread_ident][using]))
     connection._savepoint(sid)
     return sid

 def savepoint_rollback(sid, using=None):
     """
     Rolls back the most recent savepoint (if one exists). Does nothing if
     savepoints are not supported.
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     connection = connections[using]
     thread_ident = thread.get_ident()
     if thread_ident in savepoint_state and using in savepoint_state[thread_ident]:
         connection._savepoint_rollback(sid)

 def savepoint_commit(sid, using=None):
     """
     Commits the most recent savepoint (if one exists). Does nothing if
     savepoints are not supported.
     """
     if using is None:
         using = DEFAULT_DB_ALIAS
     connection = connections[using]
     thread_ident = thread.get_ident()
     if thread_ident in savepoint_state and using in savepoint_state[thread_ident]:
         connection._savepoint_commit(sid)

 ##############
 # DECORATORS #
 ##############

 class Transaction(object):
     """
     Acts as either a decorator, or a context manager.  If it's a decorator it
     takes a function and returns a wrapped function.  If it's a contextmanager
     it's used with the ``with`` statement.  In either event entering/exiting
     are called before and after, respectively, the function/block is executed.

     autocommit, commit_on_success, and commit_manually contain the
     implementations of entering and exiting.
     """
     def __init__(self, entering, exiting, using):
         self.entering = entering
         self.exiting = exiting
         self.using = using

     def __enter__(self):
         self.entering(self.using)

     def __exit__(self, exc_type, exc_value, traceback):
         self.exiting(exc_value, self.using)

     def __call__(self, func):
         @wraps(func)
         def inner(*args, **kwargs):
             # Once we drop support for Python 2.4 this block should become:
             # with self:
             #     func(*args, **kwargs)
             self.__enter__()
             try:
                 res = func(*args, **kwargs)
             except:
                 self.__exit__(*sys.exc_info())
                 raise
             else:
                 self.__exit__(None, None, None)
                 return res
         return inner

 def _transaction_func(entering, exiting, using):
     """
     Takes 3 things, an entering function (what to do to start this block of
     transaction management), an exiting function (what to do to end it, on both
     success and failure, and using which can be: None, indiciating using is
     DEFAULT_DB_ALIAS, a callable, indicating that using is DEFAULT_DB_ALIAS and
     to return the function already wrapped.

     Returns either a Transaction objects, which is both a decorator and a
     context manager, or a wrapped function, if using is a callable.
     """
     # Note that although the first argument is *called* `using`, it
     # may actually be a function; @autocommit and @autocommit('foo')
     # are both allowed forms.
     if using is None:
         using = DEFAULT_DB_ALIAS
     if callable(using):
         return Transaction(entering, exiting, DEFAULT_DB_ALIAS)(using)
     return Transaction(entering, exiting, using)


 def autocommit(using=None):
     """
     Decorator that activates commit on save. This is Django's default behavior;
     this decorator is useful if you globally activated transaction management in
     your settings file and want the default behavior in some view functions.
     """
     def entering(using):
         enter_transaction_management(managed=False, using=using)
         managed(False, using=using)

     def exiting(exc_value, using):
         leave_transaction_management(using=using)

     return _transaction_func(entering, exiting, using)

 def commit_on_success(using=None):
     """
     This decorator activates commit on response. This way, if the view function
     runs successfully, a commit is made; if the viewfunc produces an exception,
     a rollback is made. This is one of the most common ways to do transaction
     control in Web apps.
     """
     def entering(using):
         enter_transaction_management(using=using)
         managed(True, using=using)

     def exiting(exc_value, using):
         try:
             if exc_value is not None:
                 if is_dirty(using=using):
                     rollback(using=using)
             else:
                 if is_dirty(using=using):
                     try:
                         commit(using=using)
                     except:
                         rollback(using=using)
                         raise
         finally:
             leave_transaction_management(using=using)

     return _transaction_func(entering, exiting, using)

 def commit_manually(using=None):
     """
     Decorator that activates manual transaction control. It just disables
     automatic transaction control and doesn't do any commit/rollback of its
     own -- it's up to the user to call the commit and rollback functions
     themselves.
     """
     def entering(using):
         enter_transaction_management(using=using)
         managed(True, using=using)

     def exiting(exc_value, using):
         leave_transaction_management(using=using)

     return _transaction_func(entering, exiting, using)
	"""
	This module implements a transaction manager that can be used to define
	transaction handling in a request or view function. It is used by transaction
	control middleware and decorators.

	The transaction manager can be in managed or in auto state. Auto state means the
	system is using a commit-on-save strategy (actually it's more like
	commit-on-change). As soon as the .save() or .delete() (or related) methods are
	called, a commit is made.

	Managed transactions don't do those commits, but will need some kind of manual
	or implicit commits or rollbacks.
	"""
	import sys

	try:
	import thread
	except ImportError:
	import dummy_thread as thread
	try:
	from functools import wraps
	except ImportError:
	from django.utils.functional import wraps # Python 2.4 fallback.

	from django.conf import settings
	from django.db import connections, DEFAULT_DB_ALIAS

	class TransactionManagementError(Exception):
	"""
	This exception is thrown when something bad happens with transaction
	management.
	"""
	pass

	# The states are dictionaries of dictionaries of lists. The key to the outer
	# dict is the current thread, and the key to the inner dictionary is the
	# connection alias and the list is handled as a stack of values.
	state = {}
	savepoint_state = {}

	# The dirty flag is set by *_unless_managed functions to denote that the
	# code under transaction management has changed things to require a
	# database commit.
	# This is a dictionary mapping thread to a dictionary mapping connection
	# alias to a boolean.
	dirty = {}

	def enter_transaction_management(managed=True, using=None):
	"""
	Enters transaction management for a running thread. It must be balanced with
	the appropriate leave_transaction_management call, since the actual state is
	managed as a stack.

	The state and dirty flag are carried over from the surrounding block or
	from the settings, if there is no surrounding block (dirty is always false
	when no current block is running).
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	connection = connections[using]
	thread_ident = thread.get_ident()
	if thread_ident in state and state[thread_ident].get(using):
	state[thread_ident][using].append(state[thread_ident][using][-1])
	else:
	state.setdefault(thread_ident, {})
	state[thread_ident][using] = [settings.TRANSACTIONS_MANAGED]
	if thread_ident not in dirty or using not in dirty[thread_ident]:
	dirty.setdefault(thread_ident, {})
	dirty[thread_ident][using] = False
	connection._enter_transaction_management(managed)

	def leave_transaction_management(using=None):
	"""
	Leaves transaction management for a running thread. A dirty flag is carried
	over to the surrounding block, as a commit will commit all changes, even
	those from outside. (Commits are on connection level.)
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	connection = connections[using]
	connection._leave_transaction_management(is_managed(using=using))
	thread_ident = thread.get_ident()
	if thread_ident in state and state[thread_ident].get(using):
	del state[thread_ident][using][-1]
	else:
	raise TransactionManagementError("This code isn't under transaction management")
	if dirty.get(thread_ident, {}).get(using, False):
	rollback(using=using)
	raise TransactionManagementError("Transaction managed block ended with pending COMMIT/ROLLBACK")
	dirty[thread_ident][using] = False

	def is_dirty(using=None):
	"""
	Returns True if the current transaction requires a commit for changes to
	happen.
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	return dirty.get(thread.get_ident(), {}).get(using, False)

	def set_dirty(using=None):
	"""
	Sets a dirty flag for the current thread and code streak. This can be used
	to decide in a managed block of code to decide whether there are open
	changes waiting for commit.
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	thread_ident = thread.get_ident()
	if thread_ident in dirty and using in dirty[thread_ident]:
	dirty[thread_ident][using] = True
	else:
	raise TransactionManagementError("This code isn't under transaction management")

	def set_clean(using=None):
	"""
	Resets a dirty flag for the current thread and code streak. This can be used
	to decide in a managed block of code to decide whether a commit or rollback
	should happen.
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	thread_ident = thread.get_ident()
	if thread_ident in dirty and using in dirty[thread_ident]:
	dirty[thread_ident][using] = False
	else:
	raise TransactionManagementError("This code isn't under transaction management")
	clean_savepoints(using=using)

	def clean_savepoints(using=None):
	if using is None:
	using = DEFAULT_DB_ALIAS
	thread_ident = thread.get_ident()
	if thread_ident in savepoint_state and using in savepoint_state[thread_ident]:
	del savepoint_state[thread_ident][using]

	def is_managed(using=None):
	"""
	Checks whether the transaction manager is in manual or in auto state.
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	thread_ident = thread.get_ident()
	if thread_ident in state and using in state[thread_ident]:
	if state[thread_ident][using]:
	return state[thread_ident][using][-1]
	return settings.TRANSACTIONS_MANAGED

	def managed(flag=True, using=None):
	"""
	Puts the transaction manager into a manual state: managed transactions have
	to be committed explicitly by the user. If you switch off transaction
	management and there is a pending commit/rollback, the data will be
	commited.
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	connection = connections[using]
	thread_ident = thread.get_ident()
	top = state.get(thread_ident, {}).get(using, None)
	if top:
	top[-1] = flag
	if not flag and is_dirty(using=using):
	connection._commit()
	set_clean(using=using)
	else:
	raise TransactionManagementError("This code isn't under transaction management")

	def commit_unless_managed(using=None):
	"""
	Commits changes if the system is not in managed transaction mode.
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	connection = connections[using]
	if not is_managed(using=using):
	connection._commit()
	clean_savepoints(using=using)
	else:
	set_dirty(using=using)

	def rollback_unless_managed(using=None):
	"""
	Rolls back changes if the system is not in managed transaction mode.
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	connection = connections[using]
	if not is_managed(using=using):
	connection._rollback()
	else:
	set_dirty(using=using)

	def commit(using=None):
	"""
	Does the commit itself and resets the dirty flag.
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	connection = connections[using]
	connection._commit()
	set_clean(using=using)

	def rollback(using=None):
	"""
	This function does the rollback itself and resets the dirty flag.
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	connection = connections[using]
	connection._rollback()
	set_clean(using=using)

	def savepoint(using=None):
	"""
	Creates a savepoint (if supported and required by the backend) inside the
	current transaction. Returns an identifier for the savepoint that will be
	used for the subsequent rollback or commit.
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	connection = connections[using]
	thread_ident = thread.get_ident()
	if thread_ident in savepoint_state and using in savepoint_state[thread_ident]:
	savepoint_state[thread_ident][using].append(None)
	else:
	savepoint_state.setdefault(thread_ident, {})
	savepoint_state[thread_ident][using] = [None]
	tid = str(thread_ident).replace('-', '')
	sid = "s%s_x%d" % (tid, len(savepoint_state[thread_ident][using]))
	connection._savepoint(sid)
	return sid

	def savepoint_rollback(sid, using=None):
	"""
	Rolls back the most recent savepoint (if one exists). Does nothing if
	savepoints are not supported.
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	connection = connections[using]
	thread_ident = thread.get_ident()
	if thread_ident in savepoint_state and using in savepoint_state[thread_ident]:
	connection._savepoint_rollback(sid)

	def savepoint_commit(sid, using=None):
	"""
	Commits the most recent savepoint (if one exists). Does nothing if
	savepoints are not supported.
	"""
	if using is None:
	using = DEFAULT_DB_ALIAS
	connection = connections[using]
	thread_ident = thread.get_ident()
	if thread_ident in savepoint_state and using in savepoint_state[thread_ident]:
	connection._savepoint_commit(sid)

	##############
	# DECORATORS #
	##############

	class Transaction(object):
	"""
	Acts as either a decorator, or a context manager. If it's a decorator it
	takes a function and returns a wrapped function. If it's a contextmanager
	it's used with the ``with`` statement. In either event entering/exiting
	are called before and after, respectively, the function/block is executed.

	autocommit, commit_on_success, and commit_manually contain the
	implementations of entering and exiting.
	"""
	def __init__(self, entering, exiting, using):
	self.entering = entering
	self.exiting = exiting
	self.using = using

	def __enter__(self):
	self.entering(self.using)

	def __exit__(self, exc_type, exc_value, traceback):
	self.exiting(exc_value, self.using)

	def __call__(self, func):
	@wraps(func)
	def inner(args, *kwargs):
	# Once we drop support for Python 2.4 this block should become:
	# with self:
	# func(args, *kwargs)
	self.__enter__()
	try:
	res = func(args, *kwargs)
	except:
	self.__exit__(*sys.exc_info())
	raise
	else:
	self.__exit__(None, None, None)
	return res
	return inner

	def _transaction_func(entering, exiting, using):
	"""
	Takes 3 things, an entering function (what to do to start this block of
	transaction management), an exiting function (what to do to end it, on both
	success and failure, and using which can be: None, indiciating using is
	DEFAULT_DB_ALIAS, a callable, indicating that using is DEFAULT_DB_ALIAS and
	to return the function already wrapped.

	Returns either a Transaction objects, which is both a decorator and a
	context manager, or a wrapped function, if using is a callable.
	"""
	# Note that although the first argument is called `using`, it
	# may actually be a function; @autocommit and @autocommit('foo')
	# are both allowed forms.
	if using is None:
	using = DEFAULT_DB_ALIAS
	if callable(using):
	return Transaction(entering, exiting, DEFAULT_DB_ALIAS)(using)
	return Transaction(entering, exiting, using)


	def autocommit(using=None):
	"""
	Decorator that activates commit on save. This is Django's default behavior;
	this decorator is useful if you globally activated transaction management in
	your settings file and want the default behavior in some view functions.
	"""
	def entering(using):
	enter_transaction_management(managed=False, using=using)
	managed(False, using=using)

	def exiting(exc_value, using):
	leave_transaction_management(using=using)

	return _transaction_func(entering, exiting, using)

	def commit_on_success(using=None):
	"""
	This decorator activates commit on response. This way, if the view function
	runs successfully, a commit is made; if the viewfunc produces an exception,
	a rollback is made. This is one of the most common ways to do transaction
	control in Web apps.
	"""
	def entering(using):
	enter_transaction_management(using=using)
	managed(True, using=using)

	def exiting(exc_value, using):
	try:
	if exc_value is not None:
	if is_dirty(using=using):
	rollback(using=using)
	else:
	if is_dirty(using=using):
	try:
	commit(using=using)
	except:
	rollback(using=using)
	raise
	finally:
	leave_transaction_management(using=using)

	return _transaction_func(entering, exiting, using)

	def commit_manually(using=None):
	"""
	Decorator that activates manual transaction control. It just disables
	automatic transaction control and doesn't do any commit/rollback of its
	own -- it's up to the user to call the commit and rollback functions
	themselves.
	"""
	def entering(using):
	enter_transaction_management(using=using)
	managed(True, using=using)

	def exiting(exc_value, using):
	leave_transaction_management(using=using)

	return _transaction_func(entering, exiting, using)