''Part of DjangoSpecifications'' [[PageOutline]] = Summary = == If you find a threading bug, please file a ticket with threading keyword. == '''Django core is generally threadsafe as of 1.0.3 / 1.1'''. However, there are certain issues you have to keep in mind: 1. `QuerySet`s are known not to be thread-safe, see #11906. Usually that does not pose problems as they are (or should be) not shared between threads in Django. The exception to that rule is the use of exotic global/class-level/shared instance variable querysets in your own code (e.g. when using the ORM outside of the Django dispatch system), where you are assumed to know what you are doing and protect them appropriately anyway. 1. There is an edge case that can result in a deadlock during middleware loading, see #11193. This will trigger only when the setup is invalid and won't harm you otherwise. '''Note that 1.0.2 has two known threading bugs, #10470 and #10472.''' As of 1.2, you should read http://docs.djangoproject.com/en/dev/howto/custom-template-tags/#thread-safety-considerations to keep your custom template tags thread-safe. = Django threading review = Relevant tickets: #5632, #6950, #1442, #7676, #10470, #10472. Relevant discussions: http://groups.google.com/group/django-users/browse_frm/thread/a7d42475b66530bd, http://groups.google.com/group/django-developers/browse_thread/thread/fbcfa88c997d1bb3, http://groups.google.com/group/django-developers/browse_thread/thread/905f79e350525c95 Only easy-to-identify globals have been reviewed, a related task is to identify other components not listed here that may have threading issues. The review was done before qs-rf merge, class attrib review is incomplete. == Introduction == The main pattern of global variable usage in Django is ''use `var` if initialized (read), otherwise initialize (write)'', where `var` can be a single value or element of a data structure. This is generally not thread-safe. "Not thread-safe" has two broad subcategories in this case: * inefficiencies due to initialization calls meant to occur only once occurring more than once (including `memoize` decorator), * errors due to incomplete initialization. Paradoxically, accepting the "inefficiencies" results generally in more ''efficient'' execution as: * mutual exclusion (locking) is expensive, * the inefficient case is not a certain event, it only occurs with a probability that can be quite low, * locking would needlessly penalize single-threaded execution. Thus, lock-free algorithms should be always preferred and the inefficient case tolerated -- unless the inefficiency is highly probable and results in overhead that is considerably greater than with locking or has harmful side-effects. === Inefficiencies === When evaluating the inefficiencies, their impact should be considered as outlined above: probability, overhead and side effects. The duplicated case, {{{ 1. thread 1: if not foo: true, needs initializing 2. thread 2: if not foo: true, needs initializing 3. thread 1: initialize foo 4. thread 2: initialize foo }}} is not that common. No code where duplicated call would cause a considerable overhead or harmful side-effects was found during the review, so '''the "inefficiency issues" are really non-issues''' and listed below only for reference. In the multi-process case each process does initialize `foo` individually anyway. Note that as modules are cached in the Python interpreter (see `sys.modules`), duplicate `__import__` calls don't re-import modules. === Errors due to incomplete initialization === Incomplete initialization problem is the following: {{{ foo = [] 1. thread 1: if not foo: true, needs initializing 2. thread 1: foo.append(x) 3. thread 2: if not foo: false, does not need initializing --> use the incomplete foo 4. thread 1: foo.append(y) 5. thread 1: use fully initialized foo }}} Incomplete initialization errors can generally be avoided by using full assignment instead of elementwise modification; additionally, to make sure no further modifications of a list can happen, tuples should be used instead of lists (inspired by source:django/trunk/django/template/context.py@7415#L86): '''WRONG''' {{{ foo = [] def init_foo(): ... if not foo: for x in y: foo.append(x) }}} '''RIGHT''' {{{ foo = None def init_foo(): ... global foo if foo is None: tmp = [] for x in y: tmp.append(x) foo = tuple(tmp) # assignment is "atomic", tuple is const-correct and more efficient }}} === Lock handling === Locks should always be acquired in exception-safe manner, otherwise the system will deadlock when an exception is raised while a lock is held. Consider the following example (#11193): '''WRONG''' {{{ if self._request_middleware is None: self.initLock.acquire() # Check that middleware is still uninitialised. if self._request_middleware is None: self.load_middleware() self.initLock.release() }}} This will deadlock when `self.load_middleware()` raises an exception (the lock will never be released). '''RIGHT''' {{{ if self._request_middleware is None: self.initLock.acquire() try: # Check that middleware is still uninitialised. if self._request_middleware is None: self.load_middleware() except: # possibly unload whatever middleware didn't fail here # set the guard back to uninitialized state self._request_middleware = None raise finally: self.initLock.release() }}} == Globals == There are four types of globals: 1. globals that are initialized at module level and never modified later (THREAD-SAFE), 1. global mutable data structures that are initialized at module level and whose elements are modified with module level code, but never modified later (PROBABLY THREAD-SAFE, although elementwise modification at module level is not thread-safe ''per se'', the module is most likely cached ''before'' threads get access to it) 1. global mutable data structures (lists and dictionaries, also instances) that are initialized at module level but whose elements are modified in functions and that are accessed without using the `global` keyword (NOT THREAD-SAFE), 1. globals initialized in functions by using the `global` keyword (NOT THREAD-SAFE), === Modules' use of globals === Note that only lists, tuples and globals accessed with the `global` keyword have been reviewed. Global class instances (e.g. registries) and class variable access without the `__class__` keyword are missing. The latter are probably impossible to catch with `grep`. See below for raw `grep` results. ||'''Module'''||'''Globals'''||'''Incomplete init'''||'''Inefficiencies'''|| ||settings and global_settings||?||MODULE LEVEL INIT, not reviewed|||| ||utils/_decimal.py||lots, including code||MODULE LEVEL INIT, not reviewed|||| ||django/contrib/sites/models.py||`SITE_CACHE`||OK||one db hit intended, more than one possible|| ||django/template/context.py||`_standard_context_processors`||OK||double `__import__`|| ||`django/template/__init__.py`||`invalid_var_format_string, libraries, builtins`||OK||double `__import__`|| ||django/template/loader.py||`template_source_loaders`||Fixed with #6950||double `__import__`|| ||django/template/loaders/app_directories.py||`app_template_dirs`||MODULE LEVEL INIT|||| ||django/utils/translation/trans_real.py||`_accepted, _active, _default, _translations`||OK||explicit threading support, no inefficiencies|| ||django/core/urlresolvers.py||`_callable_cache, _resolver_cache`||OK, `memoize` decorator||double `__import__`|| ||`django/core/serializers/__init__.py`||`_serializers`||Fixed with #7676|||| ||django/db/models/fields/related.py||`pending_lookups`||OK?, needs further review||`append()` in `add_lazy_relation()` can add duplicated values, which may or may not confuse `pop()` in `do_pending_lookups()`|| ||django/db/transaction.py||`dirty, state`||OK||explicit threading support, no inefficiencies|| ||django/dispatch/dispatcher.py||`connections, senders, sendersBack`||not reviewed|||| === Problems === 1. `django/template/loader.py`: the "wrong" algorithm above, fixed with #6950 1. `django/core/serializers/__init__.py`: `_load_serializers()` is unsafe, fixed with #7676: {{{ 1. thread 1: if not _serializers: true --> _load_serializers(), enter for loop 2. thread 1: register_serializer(x) 3. thread 2: if not _serializers: false --> use incomplete _serializers 3. thread 1: register_serializer(y) }}} 1. `django/db/models/fields/related.py`: `append()` in `add_lazy_relation()` can add duplicated values, which may or may not confuse `pop()` in `do_pending_lookups()` == Class attributes == Class attributes are shared between instances and thus between threads as well (as module-level classes are just global class objects). The behaviour is similar to globals: in similar manner to the global keyword in functions, explicit class specifier `foo.__class__.bar` is required for setting class variable `bar` from instance `foo`, otherwise a instance scope variable will be created that hides the class scope variable. (As this may not be obvious, let me illustrate it:) {{{ >>> class Foo(object): bar = 1 ... >>> f = Foo() >>> f.bar = 2 >>> Foo.bar 1 >>> f.bar 2 >>> f.__class__.bar 1 >>> f.__class__.bar = 3 >>> f.bar 2 >>> Foo.bar 3 }}} As with globals, there are three types of class variables, 1. class variables that are initialized when the class is defined and never modified later (THREAD-SAFE), 1. mutable class level data structures that are initialized when the class is defined but whose elements are modified in methods and that are accessed without using the `__class__` keyword (NOT THREAD-SAFE), 1. class variables initialized in methods by using the `__class__` keyword or directly by `Classname.varname` (NOT THREAD-SAFE), Metaclasses -- think through the implications. == Raw `grep` results == === Globals accessed with the `global` keyword === {{{ $ grep -r '^[[:space:]]*global ' django/ | egrep -v '(\.svn|\.html|\.css|\.pyc|_doctest\.py)' | sort | uniq }}} yields the following results {{{ django/contrib/sites/models.py: global SITE_CACHE django/core/management/__init__.py: global _commands django/template/context.py: global _standard_context_processors django/template/__init__.py: global invalid_var_format_string django/template/loader.py: global template_source_loaders django/utils/translation/trans_real.py: global _accepted django/utils/translation/trans_real.py: global _active django/utils/translation/trans_real.py: global _default, _active django/utils/translation/trans_real.py: global _translations django/utils/translation/trans_real.py: global _translations }}} Out of these, `django.core.management` is not used in multi-threading context. === Global dictionaries === {{{ $ grep -r '^[[:alnum:]_]\+ *= *{' django | egrep -v '(\.svn|_doctest\.py)' | sort }}} yields the following results {{{ django/conf/global_settings.py:ABSOLUTE_URL_OVERRIDES = {} django/conf/global_settings.py:DATABASE_OPTIONS = {} # Set to empty dictionary for default. django/contrib/admin/utils.py:ROLES = { django/contrib/admin/views/doc.py:DATA_TYPE_MAPPING = { django/contrib/formtools/tests.py:test_data = {'field1': u'foo', django/contrib/localflavor/ca/ca_provinces.py:PROVINCES_NORMALIZED = { django/contrib/localflavor/in_/in_states.py:STATES_NORMALIZED = { django/contrib/localflavor/us/us_states.py:STATES_NORMALIZED = { django/contrib/sites/models.py:SITE_CACHE = {} django/core/cache/__init__.py:BACKENDS = { django/core/cache/__init__.py:DEPRECATED_BACKENDS = { django/core/handlers/wsgi.py:STATUS_CODE_TEXT = { django/core/serializers/__init__.py:BUILTIN_SERIALIZERS = { django/core/serializers/__init__.py:_serializers = {} django/core/servers/basehttp.py:_hop_headers = { django/core/servers/fastcgi.py:FASTCGI_OPTIONS = { django/core/urlresolvers.py:_callable_cache = {} # Maps view and url pattern names to their view functions. django/core/urlresolvers.py:_resolver_cache = {} # Maps urlconf modules to RegexURLResolver instances. django/db/backends/dummy/creation.py:DATA_TYPES = {} django/db/backends/dummy/introspection.py:DATA_TYPES_REVERSE = {} django/db/backends/mysql/creation.py:DATA_TYPES = { django/db/backends/mysql/introspection.py:DATA_TYPES_REVERSE = { django/db/backends/mysql_old/creation.py:DATA_TYPES = { django/db/backends/mysql_old/introspection.py:DATA_TYPES_REVERSE = { django/db/backends/oracle/creation.py:DATA_TYPES = { django/db/backends/oracle/creation.py:REMEMBER = {} django/db/backends/oracle/introspection.py:DATA_TYPES_REVERSE = { django/db/backends/postgresql/creation.py:DATA_TYPES = { django/db/backends/postgresql/introspection.py:DATA_TYPES_REVERSE = { django/db/backends/postgresql_psycopg2/introspection.py:DATA_TYPES_REVERSE = { django/db/backends/sqlite3/creation.py:DATA_TYPES = { django/db/backends/sqlite3/introspection.py:BASE_DATA_TYPES_REVERSE = { django/db/models/fields/related.py:pending_lookups = {} django/db/models/query.py:LEGACY_ORDERING_MAPPING = {'ASC': '_', 'DESC': '-_', 'RANDOM': '?'} django/db/transaction.py:dirty = {} django/db/transaction.py:state = {} django/dispatch/dispatcher.py:connections = {} django/dispatch/dispatcher.py:senders = {} django/dispatch/dispatcher.py:sendersBack = {} django/template/__init__.py:libraries = {} django/utils/dates.py:MONTHS = { django/utils/dates.py:MONTHS_3 = { django/utils/dates.py:MONTHS_3_REV = { django/utils/dates.py:MONTHS_AP = { # month names in Associated Press style django/utils/dates.py:WEEKDAYS = { django/utils/dates.py:WEEKDAYS_ABBR = { django/utils/dates.py:WEEKDAYS_REV = { django/utils/_decimal.py:_condition_map = {ConversionSyntax:InvalidOperation, django/utils/_decimal.py:_infinity_map = { django/utils/simplejson/decoder.py:BACKSLASH = { django/utils/simplejson/decoder.py:_CONSTANTS = { django/utils/simplejson/encoder.py:ESCAPE_DCT = { django/utils/termcolors.py:opt_dict = {'bold': '1', 'underscore': '4', 'blink': '5', 'reverse': '7', 'conceal': '8'} django/utils/translation/trans_null.py:TECHNICAL_ID_MAP = { django/utils/translation/trans_real.py:_accepted = {} django/utils/translation/trans_real.py:_active = {} django/utils/translation/trans_real.py:_translations = {} }}} Out of these, the following are read-only (i.e. not changed anywhere in code) or otherwise irrelevant: `contrib/admin, formtools tests, localflavor mappings`, `core/cache, core/handlers, core/serializers/__init__.py:BUILTIN_SERIALIZERS`, `core/servers, db/backends, db/models/query.py, utils/dates.py`, `utils/_decimal.py, utils/simplejson, utils/termcolors.py`, `utils/translation/trans_null.py`. `SITE_CACHE` and everything in `django.utils.translation.trans_real` has already been listed under `globals` above. `_callable_cache` and `_resolver_cache` in django/core/urlresolvers.py are used within the memoize decorator, `result = func(*args)` may be called more than once in `utils/functional.py`, but this should generally be a non-issue. That leaves the following relevant global dicts not listed before: {{{ django/core/serializers/__init__.py:_serializers = {} django/db/models/fields/related.py:pending_lookups = {} django/db/transaction.py:dirty = {} django/db/transaction.py:state = {} django/dispatch/dispatcher.py:connections = {} django/dispatch/dispatcher.py:senders = {} django/dispatch/dispatcher.py:sendersBack = {} django/template/__init__.py:libraries = {} }}} === Global lists === {{{ $ grep -r '^[[:alnum:]_]\+ *= *\[' django | egrep -v '(\.svn|_doctest\.py|__all__)' | sort }}} yields the following results {{{ django/db/models/fields/__init__.py:BLANK_CHOICE_DASH = [("", "---------")] django/db/models/fields/__init__.py:BLANK_CHOICE_NONE = [("", "None")] django/template/__init__.py:builtins = [] django/template/loaders/app_directories.py:app_template_dirs = [] django/utils/_decimal.py:rounding_functions = [name for name in Decimal.__dict__.keys() if name.startswith('_round_')] django/utils/_decimal.py:_signals = [Clamped, DivisionByZero, Inexact, Overflow, Rounded, django/utils/html.py:DOTS = ['·', '*', '\xe2\x80\xa2', '•', '•', '•'] django/utils/html.py:LEADING_PUNCTUATION = ['(', '<', '<'] django/utils/html.py:TRAILING_PUNCTUATION = ['.', ',', ')', '>', '\n', '>'] django/utils/simplejson/decoder.py:ANYTHING = [ }}} Leaving out the irrelevant read-only ones, the following remain: {{{ django/template/__init__.py:builtins = [] django/template/loaders/app_directories.py:app_template_dirs = [] }}} As a matter of style, the read-only ones should really be tuples, not lists -- the 'say what you mean' idiom: if it shouldn't be modified, don't let it be by making it a tuple. Tuples are also marginally more efficient speed- and space-wise. There is a slight semantic distinction between lists and tuples though http://jtauber.com/blog/2006/04/15/python_tuples_are_not_just_constant_lists/ . But as there are no constant lists in Python, tuples are the only way to be const-correct. === `__class__` keyword used for accessing anything other than `__name__` === {{{ $ grep -r '__class__\.' django/ | egrep -v '(\.svn|\.html|\.css|\.pyc|_doctest\.py|__class__\.__name__)' | sort | uniq }}} yields the following results {{{ django/contrib/auth/middleware.py: request.__class__.user = LazyUser() django/contrib/contenttypes/models.py: ct = self.__class__._cache[id] django/contrib/contenttypes/models.py: ct = self.__class__._cache[key] django/contrib/contenttypes/models.py: self.__class__._cache.clear() django/contrib/contenttypes/models.py: self.__class__._cache[ct.id] = ct django/contrib/contenttypes/models.py: self.__class__._cache[key] = ct django/db/models/base.py: q = self.__class__._default_manager.filter(**kwargs).order_by((not is_next and '-' or '') + field.name, (not is_next and '-' or '') + self._meta.pk.name) django/db/models/base.py: raise self.DoesNotExist, "%s matching query does not exist." % self.__class__._meta.object_name django/db/models/fields/__init__.py: not instance.__class__._default_manager.filter(**{'%s__exact' % self.name: getattr(instance, self.attname)}): django/dispatch/saferef.py: del self.__class__._allInstances[ self.key ] django/newforms/models.py: opts = instance.__class__._meta django/newforms/models.py: opts = instance.__class__._meta }}}