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509 lines
21 KiB
ReStructuredText
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How Mitogen Works
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=================
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Some effort is required to accomplish the seemingly magical feat of
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bootstrapping a remote Python process without any software installed on the
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remote machine. The steps involved are unlikely to be immediately obvious to
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the casual reader, and they required several iterations to discover, so we
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document them thoroughly below.
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The UNIX First Stage
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--------------------
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To allow delivery of the bootstrap compressed using :py:mod:`zlib`, it is
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necessary for something on the remote to be prepared to decompress the payload
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and feed it to a Python interpreter. Since we would like to avoid writing an
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error-prone shell fragment to implement this, and since we must avoid writing
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to the remote machine's disk in case it is read-only, the Python process
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started on the remote machine by Mitogen immediately forks in order to
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implement the decompression.
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Python Command Line
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###################
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The Python command line sent to the host is a base64-encoded copy of the
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:py:meth:`mitogen.master.Stream._first_stage` function, which has been
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carefully optimized to reduce its size. Prior to base64 encoding,
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``CONTEXT_NAME`` is replaced with the desired context name in the function's
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source code.
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.. code::
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python -c 'exec "xxx".decode("base64")'
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The command-line arranges for the Python interpreter to decode the base64'd
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component and execute it as Python code. Base64 is used since the first stage
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implementation contains newlines, and many special characters that may be
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interpreted by the system shell in use.
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Forking The First Stage
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#######################
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The first stage creates a UNIX pipe and saves a copy of the process's real
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``stdin`` file descriptor (used for communication with the master) so that it
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can be recovered by the bootstrapped process later. It then forks into a new
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process.
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After fork, the parent half overwrites its ``stdin`` with the read end of the
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pipe, and the child half writes the string ``EC0\n``, then begins reading the
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:py:mod:`zlib`-compressed payload supplied on ``stdin`` by the master, and
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writing the decompressed result to the write-end of the UNIX pipe.
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To allow recovery of ``stdin`` for reuse by the bootstrapped process for
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parent<->child communication, it is necessary for the first stage to avoid
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closing ``stdin`` or reading from it until until EOF. Therefore, the master
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sends the :py:mod:`zlib`-compressed payload prefixed with an integer size,
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allowing reading by the first stage of exactly the required bytes.
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Configuring argv[0]
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###################
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Forking provides us with an excellent opportunity for tidying up the eventual
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Python interpreter, in particular, restarting it using a fresh command-line to
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get rid of the large base64-encoded first stage parameter, and to replace
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**argv[0]** with something descriptive.
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After configuring its ``stdin`` to point to the read end of the pipe, the
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parent half of the fork re-executes Python, with **argv[0]** taken from the
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``CONTEXT_NAME`` variable earlier substituted into its source code. As no
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arguments are provided to this new execution of Python, and since ``stdin`` is
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connected to a pipe (whose write end is connected to the first stage), the
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Python interpreter begins reading source code to execute from the pipe
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connected to ``stdin``.
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Bootstrap Preparation
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#####################
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Now we have the mechanism in place to send a :py:mod:`zlib`-compressed script
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to the remote Python interpreter, it is time to choose what to send.
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The script sent is simply the source code for :py:mod:`mitogen.core`, with a
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single line suffixed to trigger execution of the
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:py:meth:`mitogen.core.ExternalContext.main` function. The encoded arguments
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to the main function include some additional details, such as the logging package
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level that was active in the parent process, and whether debugging or profiling
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are enabled.
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After the script source code is prepared, it is passed through
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:py:func:`mitogen.master.minimize_source` to strip it of docstrings and
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comments, while preserving line numbers. This reduces the compressed payload
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by around 20%.
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Preserving The `mitogen.core` Source
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####################################
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One final trick is implemented in the first stage: after bootstrapping the new
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child, it writes a duplicate copy of the :py:mod:`mitogen.core` source it just
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used to bootstrap it back into another pipe connected to the child. The child's
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module importer cache is initialized with a copy of the source, so that
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subsequent bootstraps of children-of-children do not require the source to be
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fetched from the master a second time.
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Signalling Success
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##################
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Once the first stage has signalled ``EC0\n``, the master knows it is ready to
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receive the compressed bootstrap. After decompressing and writing the bootstrap
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source to its parent Python interpreter, the first stage writes the string
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``EC1\n`` to ``stdout`` before exiting. The master process waits for this
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string before considering bootstrap successful and the child's ``stdio`` ready
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to receive messages.
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ExternalContext.main()
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----------------------
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.. automethod:: mitogen.core.ExternalContext.main
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Generating A Synthetic `mitogen` Package
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########################################
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Since the bootstrap consists of the :py:mod:`mitogen.core` source code, and
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this code is loaded by Python by way of its main script (``__main__`` module),
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initially the module layout in the child will be incorrect.
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The first step taken after bootstrap is to rearrange :py:data:`sys.modules` slightly
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so that :py:mod:`mitogen.core` appears in the correct location, and all
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classes defined in that module have their ``__module__`` attribute fixed up
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such that :py:mod:`cPickle` correctly serializes instance module names.
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Once a synthetic :py:mod:`mitogen` package and :py:mod:`mitogen.core` module
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have been generated, the bootstrap **deletes** `sys.modules['__main__']`, so
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that any attempt to import it (by :py:mod:`cPickle`) will cause the import to
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be satisfied by fetching the master's actual ``__main__`` module. This is
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necessary to allow master programs to be written as a self-contained Python
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script.
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Reaping The First Stage
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#######################
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After the bootstrap has called :py:func:`os.dup` on the copy of the ``stdin``
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file descriptor saved by the first stage, it is closed.
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Additionally, since the first stage was forked prior to re-executing the Python
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interpreter, it will exist as a zombie process until the parent process reaps
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it. Therefore the bootstrap must call :py:func:`os.wait` soon after startup.
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Setup Logging
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#############
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The child's :py:mod:`logging` package root logger is configured to have the
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same log level as the root logger in the master, and
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:py:class:`mitogen.core.LogHandler` is installed to forward logs to the master
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context's :py:data:`FORWARD_LOG <mitogen.core.FORWARD_LOG>` handle.
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The log level is copied into the child to avoid generating a potentially large
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amount of network IO forwarding logs that will simply be filtered away once
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they reach the master.
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The Module Importer
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###################
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An instance of :py:class:`mitogen.core.Importer` is installed in
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:py:data:`sys.meta_path`, where Python's ``import`` statement will execute it
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before attempting to find a module locally.
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Standard IO Redirection
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#######################
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Two instances of :py:class:`mitogen.core.IoLogger` are created, one for
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``stdout`` and one for ``stderr``. This class creates a UNIX pipe whose read
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end is added to the IO multiplexer, and whose write end is used to overwrite
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the handles inherited during process creation.
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Even without IO redirection, something must replace ``stdin`` and ``stdout``,
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otherwise it is possible for the stream used for communication between parent
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and child to be accidentally corrupted by subprocesses run by user code.
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The inherited ``stdin`` is replaced by a file descriptor pointing to
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``/dev/null``.
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Finally Python's :py:data:`sys.stdout` is reopened to ensure line buffering is
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active, so that ``print`` statements and suchlike promptly appear in the logs.
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Function Call Dispatch
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######################
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After all initialization is complete, the child's main thread sits in a loop
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reading from a :py:class:`Channel <mitogen.core.Channel>` connected to the
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:py:data:`CALL_FUNCTION <mitogen.core.CALL_FUNCTION>` handle. This handle is
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written to by
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:py:meth:`call() <mitogen.master.Context.call>`
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and :py:meth:`call_async() <mitogen.master.Context.call_async>`.
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Shutdown
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########
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When the master signals the :py:data:`CALL_FUNCTION
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<mitogen.core.CALL_FUNCTION>` :py:class:`Channel <mitogen.core.Channel>` is
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closed, the child calls :py:meth:`shutdown() <mitogen.core.Broker.shutdown>`
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followed by :py:meth:`wait() <mitogen.core.Broker.wait>` on its own broker,
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triggering graceful shutdown.
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During shutdown, the master will wait a few seconds for children to disconnect
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gracefully before force disconnecting them, while the children will use that
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time to call :py:meth:`socket.shutdown(SHUT_WR) <socket.socket.shutdown>` on
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their :py:class:`IoLogger <mitogen.core.IoLogger>` socket's write ends before
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draining any remaining data buffered on the read ends.
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An alternative approach is to wait until the socket is completely closed, with
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some hard timeout, but this necessitates greater discipline than is common in
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infrastructure code (how often have you forgotten to redirect stderr to
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``/dev/null``?), so needless irritating delays would often be experienced
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during program termination.
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If the main thread (responsible for function call dispatch) fails to trigger
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shutdown (because some user function is hanging), then the eventual force
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disconnection by the master will cause the IO multiplexer thread to enter
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shutdown by itself.
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.. _stream-protocol:
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Stream Protocol
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---------------
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Once connected, a basic framing protocol is used to communicate between
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parent and child:
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+--------------------+------+------------------------------------------------------+
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| Field | Size | Description |
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+====================+======+======================================================+
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| ``dst_id`` | 2 | Integer target context ID. |
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+--------------------+------+------------------------------------------------------+
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| ``src_id`` | 2 | Integer source context ID. |
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+--------------------+------+------------------------------------------------------+
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| ``handle`` | 4 | Integer target handle in recipient. |
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+--------------------+------+------------------------------------------------------+
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| ``reply_to`` | 4 | Integer response target ID. |
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+--------------------+------+------------------------------------------------------+
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| ``length`` | 4 | Message length |
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+--------------------+------+------------------------------------------------------+
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| ``data`` | n/a | Pickled message data. |
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+--------------------+------+------------------------------------------------------+
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Masters listen on the following handles:
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.. data:: mitogen.core.FORWARD_LOG
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Receives `(logger_name, level, msg)` 3-tuples and writes them to the
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master's ``mitogen.ctx.<context_name>`` logger.
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.. data:: mitogen.core.GET_MODULE
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Receives `(reply_to, fullname)` 2-tuples, looks up the source code for the
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module named ``fullname``, and writes the source along with some metadata
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back to the handle ``reply_to``. If lookup fails, ``None`` is sent instead.
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.. data:: mitogen.core.ALLOCATE_ID
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Replies to any message sent to it with a newly allocated unique context ID,
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to allow children to safely start their own contexts. In future this is
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likely to be replaced by 32-bit context IDs and pseudorandom allocation,
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with an improved ``ADD_ROUTE`` message sent upstream rather than downstream
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that generates NACKs if any ancestor detects an ID collision.
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Children listen on the following handles:
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.. data:: mitogen.core.CALL_FUNCTION
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Receives `(mod_name, class_name, func_name, args, kwargs)`
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5-tuples from
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:py:meth:`call_async() <mitogen.master.Context.call_async>`,
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imports ``mod_name``, then attempts to execute
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`class_name.func_name(\*args, \**kwargs)`.
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When this channel is closed (by way of sending ``_DEAD`` to it), the
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child's main thread begins graceful shutdown of its own `Broker` and
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`Router`. Each child is responsible for sending ``_DEAD`` to each of its
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directly connected children in response to the master sending ``_DEAD`` to
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it, and arranging for the connection to its parent context to be closed
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shortly thereafter.
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.. data:: mitogen.core.ADD_ROUTE
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Receives `(target_id, via_id)` integer tuples, describing how messages
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arriving at this context on any Stream should be forwarded on the stream
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associated with the Context `via_id` such that they are eventually
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delivered to the target Context.
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This message is necessary to inform intermediary contexts of the existence
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of a downstream Context, as they do not otherwise parse traffic they are
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fowarding to their downstream contexts that may cause new contexts to be
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established.
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Given a chain `master -> ssh1 -> sudo1`, no `ADD_ROUTE` message is
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necessary, since :py:class:`mitogen.core.Router` in the `ssh` context can
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arrange to update its routes while setting up the new child during
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`proxy_connect()`.
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However, given a chain like `master -> ssh1 -> sudo1 -> ssh2 -> sudo2`,
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`ssh1` requires an `ADD_ROUTE` for `ssh2`, and both `ssh1` and `sudo1`
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require an `ADD_ROUTE` for `sudo2`, as neither directly dealt with its
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establishment.
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Children that have ever been used to create a descendent child also listen on
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the following handles:
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.. data:: mitogen.core.GET_MODULE
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As with master's ``GET_MODULE``, except this implementation
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(:py:class:`mitogen.master.ModuleForwarder`) serves responses using
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:py:class:`mitogen.core.Importer`'s cache before forwarding the request to
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its parent context. The response is cached by each context in turn before
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being forwarded on to the child context that originally made the request.
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In this way, the master need never re-send a module it has already sent to
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a direct descendant.
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Additional handles are created to receive the result of every function call
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triggered by :py:meth:`call_async() <mitogen.master.Context.call_async>`.
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Sentinel Value
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##############
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.. autodata:: mitogen.core._DEAD
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The special value :py:data:`mitogen.core._DEAD` is used to signal
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disconnection or closure of the remote end. It is used internally by
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:py:class:`Channel <mitogen.core.Channel>` and also passed to any function
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still registered with :py:meth:`add_handler()
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<mitogen.core.Router.add_handler>` during Broker shutdown.
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Use of Pickle
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#############
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The current implementation uses the Python :py:mod:`cPickle` module, with a
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restrictive class whitelist to prevent triggering undesirable code execution.
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The primary reason for using :py:mod:`cPickle` is that it is computationally
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efficient, and avoids including a potentially large body of serialization code
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in the bootstrap.
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The pickler will instantiate only built-in types and one of 3 constructor
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functions, to support unpickling :py:class:`CallError
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<mitogen.core.CallError>`, :py:data:`_DEAD <mitogen.core._DEAD>`, and
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:py:class:`Context <mitogen.core.Context>`.
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The choice of Pickle is one area to be revisited later. All accounts suggest it
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cannot be used securely, however few of those accounts appear to be expert, and
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none mention any additional attacks that would not be prevented by using a
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restrictive class whitelist.
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The IO Multiplexer
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------------------
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Since we must include our IO multiplexer as part of the bootstrap,
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off-the-shelf implementations are for the most part entirely inappropriate. For
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example, a minimal copy of Twisted weighs in at around 440KiB and is composed
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of approximately 115 files. Even if we could arrange for an entire Python
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package to be transferred during bootstrap, this minimal configuration is
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massive in comparison to Mitogen's solution, multiplies quickly in the
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presence of many machines, and would require manually splitting up the parts of
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Twisted that we would like to use.
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Message Routing
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---------------
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Routing assumes it is impossible to construct a tree such that one of a
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context's parents will not know the ID of a target the context is attempting to
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communicate with.
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When :py:class:`mitogen.core.Router` receives a message, it checks the IDs
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associated with its directly connected streams for a potential route. If any
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stream matches, either because it directly connects to the target ID, or
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because the master sent an ``ADD_ROUTE`` message associating it, then the
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message will be forwarded down the tree using that stream.
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If the message does not match any ``ADD_ROUTE`` message or stream, instead it
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is forwarded upwards to the immediate parent, and recursively by each parent in
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turn until one is reached that knows how to forward the message down the tree.
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When the master establishes a new context via an existing child context, it
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sends corresponding ``ADD_ROUTE`` messages to each indirect parent between the
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context and the root.
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Example
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#######
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.. image:: images/context-tree.png
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In the diagram, when ``master`` is creating the ``sudo:node12b:webapp``
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context, it must send ``ADD_ROUTE`` messages to ``rack12``, ``dc1``,
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``bastion``, and itself; ``node12b`` does not require an ``ADD_ROUTE`` message
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since it has a stream directly connected to the new context.
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When ``sudo:node22a:webapp`` wants to send a message to
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``sudo:node12b:webapp``, the message will be routed as follows:
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``sudo:node22a:webapp -> node22a -> rack22 -> dc2 -> bastion -> dc1 -> rack12 -> node12b -> sudo:node12b:webapp``
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.. image:: images/route.png
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Future
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######
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The current routing approach is incomplete, since routes to downstream contexts
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are not propagated upwards when a descendant of the master context establishes
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a new child context, but that is okay for now, since child contexts cannot
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currently allocate new context IDs anyway.
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Differences Between Master And Child Brokers
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############################################
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The main difference between :py:class:`mitogen.core.Broker` and
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:py:class:`mitogen.master.Broker` is that when the stream connection to the
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parent is lost in a child, the broker will trigger its own shutdown.
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The Module Importer
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-------------------
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:py:class:`mitogen.core.Importer` is still a work in progress, as there
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are a variety of approaches to implementing it, and the present implementation
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is not pefectly efficient in every case.
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It operates by intercepting ``import`` statements via `sys.meta_path`, asking
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Python if it can satisfy the import by itself, and if not, indicating to Python
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that it is capable of loading the module.
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In :py:meth:`load_module() <mitogen.core.Importer.load_module>` an RPC is
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started to the parent context, requesting the module source code. Once the
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source is fetched, the method builds a new module object using the best
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practice documented in PEP-302.
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Avoiding Negative Imports
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#########################
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In Python 2.x where relative imports are the default, a large number of import
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requests will be made for modules that do not exist. For example:
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.. code-block:: python
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# mypkg/__init__.py
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import sys
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import os
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In Python 2.x, Python will first try to load ``mypkg.sys`` and ``mypkg.os``,
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which do not exist, before falling back on :py:mod:`sys` and :py:mod:`os`.
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These negative imports present a challenge, as they introduce a large number of
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pointless network roundtrips. Therefore in addition to the
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:py:mod:`zlib`-compressed source, for packages the master sends along a list of
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child modules known to exist.
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Before indicating it can satisfy an import request,
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:py:class:`mitogen.core.Importer` first checks to see if the module belongs to
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a package it has previously imported, and if so, ignores the request if the
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module does not appear in the enumeration of child modules belonging to the
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package that was provided by the master.
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Child Module Enumeration
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########################
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Package children are enumerated using :py:func:`pkgutil.iter_modules`.
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Use Of Threads
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--------------
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The package always runs the IO multiplexer in a thread. This is so the
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multiplexer retains control flow in order to shut down gracefully, say, if the
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user's code has hung and the master context has disconnected.
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While it is possible for the IO multiplexer to recover control of a hung
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function call on UNIX using for example :py:mod:`signal.SIGALRM <signal>`, this
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mechanism is not portable to non-UNIX operating systems, and does not work in
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every case, for example when Python blocks signals during a variety of
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:py:mod:`threading` package operations.
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At some point it is likely Mitogen will be extended to support children running
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on Windows. When that happens, it would be nice if the process model on Windows
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and UNIX did not differ, and in fact the code used on both were identical.
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