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@ -679,6 +679,98 @@ Child Module Enumeration
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Package children are enumerated using :py:func:`pkgutil.iter_modules`.
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Concurrency
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###########
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The importer must ensure duplicate requests are never issued to the parent,
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either due to an import originating on a local thread, or many
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:py:data:`GET_MODULE` requests originating from children. This allows parents
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to assume that when a module has been requested once by a downstream
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connection, it need never be re-sent, for example, if it appears as a
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preloading dependency in a subsequent module request, or it was just requested
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immediately after being sent as a preloading dependency for a module request by
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some indirect descendent.
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Since requests from children are serviced on the IO multiplexer thread
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concurrent to local thread requests, care is required to ensure deadlock cannot
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occur.
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In each context, pending requests are serialized by a
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:py:class:`threading.Lock` within :py:class:`mitogen.core.Importer`, which may
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only be held for operations that cannot block, since :py:class:`ModuleForwarder
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<mitogen.master.ModuleForwarder>` must acquire it while servicing
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:py:data:`GET_MODULE` requests on the IO multiplexer thread.
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The design must also take into account complications in Python 2.x's import
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locking semantics, where a global lock exists to protect
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:py:data:`sys.modules`, in addition to a per-module lock that protects the
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module object itself, so that a module being initialized on one thread cannot
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be observed in a partially initialized state from another thread.
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Import locking changed significantly in Python 3.5, but this design is not yet
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verified to work correctly with 3.x. See `Python Issue #9260`_.
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.. _Python Issue #9260: https://bugs.python.org/issue9260
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Local Thread Requests
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~~~~~~~~~~~~~~~~~~~~~
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In Python 2.x, by the time :py:class:`mitogen.core.Importer` is invoked on a
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local thread, the Python importer lock has already been acquired by the import
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machinery. ``ImportError`` will be raised unconditionally by Python if another
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thread attempts an import while this lock is held, therefore imports should
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always be serialized by only attempting them from the main
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(:py:data:`CALL_FUNCTION`) thread.
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By the time Mitogen begins satisfying a local thread request, it is known that
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the module has never previously been imported in the local process. A local
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thread request:
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1. Takes the Mitogen importer lock.
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2. Checks if the module is already cached.
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3. If the module source is not yet cached,
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1. If no in-flight request for the exists module,
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a. a :py:class:`threading.Event` is created that fires when the module
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source becomes available,
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b. the Event's :py:meth:`set <threading.Event.set>` method is added to a
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list of callbacks fired when a :py:data:`LOAD_MODULE` arrives from the
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parent containing the module source.
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2. If a request is in-flight, the existing Event is reused by step 7 below.
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4. Releases the importer lock.
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5. If the module source was already cached, skip to step 8.
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6. If this thread was responsible for creating the :py:class:`threading.Event`,
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it issues a :py:data:`GET_MODULE` request to the parent context.
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7. Sleeps waiting for the event to be set.
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8. Instantiates the module using the best practice documented in `PEP 302`_.
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.. _PEP 302: https://www.python.org/dev/peps/pep-0302/
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Child Context Requests
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~~~~~~~~~~~~~~~~~~~~~~
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When :py:class:`ModuleForwarder <mitogen.master.ModuleForwarder>` receives a
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:py:data:`GET_MODULE` request from a child context, it:
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1. Takes the Mitogen importer lock.
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2. Checks if the module is already cached.
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3. If the module source is not yet cached,
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1. If this is the first request for the module,
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a. a :py:class:`threading.Event` is created that fires when the module
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source becomes available,
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b. the Event's :py:meth:`set <threading.Event.set>` method is added to a
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list of callbacks fired when a :py:data:`LOAD_MODULE` arrives from the
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parent containing the module source.
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2. If a request is in-flight, the existing Event is reused by step 7 below.
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4. Releases the importer lock.
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5. If the module source was already cached, skip to step 8.
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6. If this thread was responsible for creating the :py:class:`threading.Event`,
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it issues a :py:data:`GET_MODULE` request to the parent context.
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7. Sleeps waiting for the event to be set.
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8. Instantiates the module using the best practice documented in `PEP 302`_.
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Use Of Threads
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--------------
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David Wilson
6 years ago