421 lines
15 KiB
ReStructuredText
421 lines
15 KiB
ReStructuredText
.. currentmodule:: asyncio
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.. _asyncio-subprocess:
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Subprocess
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==========
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**Source code:** :source:`Lib/asyncio/subprocess.py`
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Windows event loop
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------------------
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On Windows, the default event loop is :class:`SelectorEventLoop` which does not
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support subprocesses. :class:`ProactorEventLoop` should be used instead.
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Example to use it on Windows::
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import asyncio, sys
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if sys.platform == 'win32':
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loop = asyncio.ProactorEventLoop()
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asyncio.set_event_loop(loop)
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.. seealso::
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:ref:`Available event loops <asyncio-event-loops>` and :ref:`Platform
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support <asyncio-platform-support>`.
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Create a subprocess: high-level API using Process
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-------------------------------------------------
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.. coroutinefunction:: create_subprocess_exec(\*args, stdin=None, stdout=None, stderr=None, loop=None, limit=None, \*\*kwds)
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Create a subprocess.
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The *limit* parameter sets the buffer limit passed to the
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:class:`StreamReader`. See :meth:`AbstractEventLoop.subprocess_exec` for other
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parameters.
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Return a :class:`~asyncio.subprocess.Process` instance.
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This function is a :ref:`coroutine <coroutine>`.
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.. coroutinefunction:: create_subprocess_shell(cmd, stdin=None, stdout=None, stderr=None, loop=None, limit=None, \*\*kwds)
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Run the shell command *cmd*.
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The *limit* parameter sets the buffer limit passed to the
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:class:`StreamReader`. See :meth:`AbstractEventLoop.subprocess_shell` for other
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parameters.
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Return a :class:`~asyncio.subprocess.Process` instance.
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It is the application's responsibility to ensure that all whitespace and
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metacharacters are quoted appropriately to avoid `shell injection
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<https://en.wikipedia.org/wiki/Shell_injection#Shell_injection>`_
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vulnerabilities. The :func:`shlex.quote` function can be used to properly
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escape whitespace and shell metacharacters in strings that are going to be
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used to construct shell commands.
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This function is a :ref:`coroutine <coroutine>`.
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Use the :meth:`AbstractEventLoop.connect_read_pipe` and
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:meth:`AbstractEventLoop.connect_write_pipe` methods to connect pipes.
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Create a subprocess: low-level API using subprocess.Popen
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---------------------------------------------------------
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Run subprocesses asynchronously using the :mod:`subprocess` module.
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.. coroutinemethod:: AbstractEventLoop.subprocess_exec(protocol_factory, \*args, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE, \*\*kwargs)
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Create a subprocess from one or more string arguments (character strings or
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bytes strings encoded to the :ref:`filesystem encoding
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<filesystem-encoding>`), where the first string
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specifies the program to execute, and the remaining strings specify the
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program's arguments. (Thus, together the string arguments form the
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``sys.argv`` value of the program, assuming it is a Python script.) This is
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similar to the standard library :class:`subprocess.Popen` class called with
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shell=False and the list of strings passed as the first argument;
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however, where :class:`~subprocess.Popen` takes a single argument which is
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list of strings, :func:`subprocess_exec` takes multiple string arguments.
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The *protocol_factory* must instantiate a subclass of the
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:class:`asyncio.SubprocessProtocol` class.
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Other parameters:
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* *stdin*: Either a file-like object representing the pipe to be connected
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to the subprocess's standard input stream using
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:meth:`~AbstractEventLoop.connect_write_pipe`, or the constant
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:const:`subprocess.PIPE` (the default). By default a new pipe will be
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created and connected.
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* *stdout*: Either a file-like object representing the pipe to be connected
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to the subprocess's standard output stream using
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:meth:`~AbstractEventLoop.connect_read_pipe`, or the constant
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:const:`subprocess.PIPE` (the default). By default a new pipe will be
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created and connected.
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* *stderr*: Either a file-like object representing the pipe to be connected
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to the subprocess's standard error stream using
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:meth:`~AbstractEventLoop.connect_read_pipe`, or one of the constants
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:const:`subprocess.PIPE` (the default) or :const:`subprocess.STDOUT`.
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By default a new pipe will be created and connected. When
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:const:`subprocess.STDOUT` is specified, the subprocess's standard error
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stream will be connected to the same pipe as the standard output stream.
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* All other keyword arguments are passed to :class:`subprocess.Popen`
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without interpretation, except for *bufsize*, *universal_newlines* and
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*shell*, which should not be specified at all.
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Returns a pair of ``(transport, protocol)``, where *transport* is an
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instance of :class:`BaseSubprocessTransport`.
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This method is a :ref:`coroutine <coroutine>`.
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See the constructor of the :class:`subprocess.Popen` class for parameters.
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.. coroutinemethod:: AbstractEventLoop.subprocess_shell(protocol_factory, cmd, \*, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE, \*\*kwargs)
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Create a subprocess from *cmd*, which is a character string or a bytes
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string encoded to the :ref:`filesystem encoding <filesystem-encoding>`,
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using the platform's "shell" syntax. This is similar to the standard library
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:class:`subprocess.Popen` class called with ``shell=True``.
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The *protocol_factory* must instantiate a subclass of the
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:class:`asyncio.SubprocessProtocol` class.
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See :meth:`~AbstractEventLoop.subprocess_exec` for more details about
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the remaining arguments.
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Returns a pair of ``(transport, protocol)``, where *transport* is an
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instance of :class:`BaseSubprocessTransport`.
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It is the application's responsibility to ensure that all whitespace and
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metacharacters are quoted appropriately to avoid `shell injection
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<https://en.wikipedia.org/wiki/Shell_injection#Shell_injection>`_
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vulnerabilities. The :func:`shlex.quote` function can be used to properly
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escape whitespace and shell metacharacters in strings that are going to be
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used to construct shell commands.
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This method is a :ref:`coroutine <coroutine>`.
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.. seealso::
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The :meth:`AbstractEventLoop.connect_read_pipe` and
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:meth:`AbstractEventLoop.connect_write_pipe` methods.
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Constants
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---------
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.. data:: asyncio.subprocess.PIPE
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Special value that can be used as the *stdin*, *stdout* or *stderr* argument
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to :func:`create_subprocess_shell` and :func:`create_subprocess_exec` and
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indicates that a pipe to the standard stream should be opened.
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.. data:: asyncio.subprocess.STDOUT
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Special value that can be used as the *stderr* argument to
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:func:`create_subprocess_shell` and :func:`create_subprocess_exec` and
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indicates that standard error should go into the same handle as standard
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output.
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.. data:: asyncio.subprocess.DEVNULL
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Special value that can be used as the *stdin*, *stdout* or *stderr* argument
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to :func:`create_subprocess_shell` and :func:`create_subprocess_exec` and
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indicates that the special file :data:`os.devnull` will be used.
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Process
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-------
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.. class:: asyncio.subprocess.Process
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A subprocess created by the :func:`create_subprocess_exec` or the
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:func:`create_subprocess_shell` function.
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The API of the :class:`~asyncio.subprocess.Process` class was designed to be
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close to the API of the :class:`subprocess.Popen` class, but there are some
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differences:
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* There is no explicit :meth:`~subprocess.Popen.poll` method
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* The :meth:`~subprocess.Popen.communicate` and
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:meth:`~subprocess.Popen.wait` methods don't take a *timeout* parameter:
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use the :func:`wait_for` function
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* The *universal_newlines* parameter is not supported (only bytes strings
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are supported)
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* The :meth:`~asyncio.subprocess.Process.wait` method of
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the :class:`~asyncio.subprocess.Process` class is asynchronous whereas the
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:meth:`~subprocess.Popen.wait` method of the :class:`~subprocess.Popen`
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class is implemented as a busy loop.
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This class is :ref:`not thread safe <asyncio-multithreading>`. See also the
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:ref:`Subprocess and threads <asyncio-subprocess-threads>` section.
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.. coroutinemethod:: wait()
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Wait for child process to terminate. Set and return :attr:`returncode`
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attribute.
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This method is a :ref:`coroutine <coroutine>`.
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.. note::
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This will deadlock when using ``stdout=PIPE`` or ``stderr=PIPE`` and
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the child process generates enough output to a pipe such that it
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blocks waiting for the OS pipe buffer to accept more data. Use the
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:meth:`communicate` method when using pipes to avoid that.
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.. coroutinemethod:: communicate(input=None)
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Interact with process: Send data to stdin. Read data from stdout and
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stderr, until end-of-file is reached. Wait for process to terminate.
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The optional *input* argument should be data to be sent to the child
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process, or ``None``, if no data should be sent to the child. The type
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of *input* must be bytes.
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:meth:`communicate` returns a tuple ``(stdout_data, stderr_data)``.
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If a :exc:`BrokenPipeError` or :exc:`ConnectionResetError` exception is
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raised when writing *input* into stdin, the exception is ignored. It
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occurs when the process exits before all data are written into stdin.
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Note that if you want to send data to the process's stdin, you need to
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create the Process object with ``stdin=PIPE``. Similarly, to get anything
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other than ``None`` in the result tuple, you need to give ``stdout=PIPE``
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and/or ``stderr=PIPE`` too.
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This method is a :ref:`coroutine <coroutine>`.
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.. note::
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The data read is buffered in memory, so do not use this method if the
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data size is large or unlimited.
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.. versionchanged:: 3.4.2
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The method now ignores :exc:`BrokenPipeError` and
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:exc:`ConnectionResetError`.
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.. method:: send_signal(signal)
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Sends the signal *signal* to the child process.
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.. note::
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On Windows, :py:data:`SIGTERM` is an alias for :meth:`terminate`.
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``CTRL_C_EVENT`` and ``CTRL_BREAK_EVENT`` can be sent to processes
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started with a *creationflags* parameter which includes
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``CREATE_NEW_PROCESS_GROUP``.
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.. method:: terminate()
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Stop the child. On Posix OSs the method sends :py:data:`signal.SIGTERM`
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to the child. On Windows the Win32 API function
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:c:func:`TerminateProcess` is called to stop the child.
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.. method:: kill()
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Kills the child. On Posix OSs the function sends :py:data:`SIGKILL` to
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the child. On Windows :meth:`kill` is an alias for :meth:`terminate`.
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.. attribute:: stdin
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Standard input stream (:class:`StreamWriter`), ``None`` if the process
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was created with ``stdin=None``.
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.. attribute:: stdout
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Standard output stream (:class:`StreamReader`), ``None`` if the process
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was created with ``stdout=None``.
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.. attribute:: stderr
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Standard error stream (:class:`StreamReader`), ``None`` if the process
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was created with ``stderr=None``.
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.. warning::
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Use the :meth:`communicate` method rather than :attr:`.stdin.write
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<stdin>`, :attr:`.stdout.read <stdout>` or :attr:`.stderr.read <stderr>`
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to avoid deadlocks due to streams pausing reading or writing and blocking
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the child process.
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.. attribute:: pid
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The identifier of the process.
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Note that for processes created by the :func:`create_subprocess_shell`
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function, this attribute is the process identifier of the spawned shell.
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.. attribute:: returncode
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Return code of the process when it exited. A ``None`` value indicates
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that the process has not terminated yet.
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A negative value ``-N`` indicates that the child was terminated by signal
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``N`` (Unix only).
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.. _asyncio-subprocess-threads:
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Subprocess and threads
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----------------------
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asyncio supports running subprocesses from different threads, but there
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are limits:
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* An event loop must run in the main thread
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* The child watcher must be instantiated in the main thread, before executing
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subprocesses from other threads. Call the :func:`get_child_watcher`
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function in the main thread to instantiate the child watcher.
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The :class:`asyncio.subprocess.Process` class is not thread safe.
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.. seealso::
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The :ref:`Concurrency and multithreading in asyncio
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<asyncio-multithreading>` section.
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Subprocess examples
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-------------------
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Subprocess using transport and protocol
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Example of a subprocess protocol using to get the output of a subprocess and to
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wait for the subprocess exit. The subprocess is created by the
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:meth:`AbstractEventLoop.subprocess_exec` method::
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import asyncio
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import sys
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class DateProtocol(asyncio.SubprocessProtocol):
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def __init__(self, exit_future):
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self.exit_future = exit_future
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self.output = bytearray()
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def pipe_data_received(self, fd, data):
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self.output.extend(data)
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def process_exited(self):
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self.exit_future.set_result(True)
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async def get_date(loop):
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code = 'import datetime; print(datetime.datetime.now())'
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exit_future = asyncio.Future(loop=loop)
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# Create the subprocess controlled by the protocol DateProtocol,
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# redirect the standard output into a pipe
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transport, protocol = await loop.subprocess_exec(
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lambda: DateProtocol(exit_future),
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sys.executable, '-c', code,
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stdin=None, stderr=None)
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# Wait for the subprocess exit using the process_exited() method
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# of the protocol
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await exit_future
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# Close the stdout pipe
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transport.close()
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# Read the output which was collected by the pipe_data_received()
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# method of the protocol
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data = bytes(protocol.output)
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return data.decode('ascii').rstrip()
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if sys.platform == "win32":
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loop = asyncio.ProactorEventLoop()
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asyncio.set_event_loop(loop)
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else:
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loop = asyncio.get_event_loop()
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date = loop.run_until_complete(get_date(loop))
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print("Current date: %s" % date)
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loop.close()
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Subprocess using streams
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^^^^^^^^^^^^^^^^^^^^^^^^
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Example using the :class:`~asyncio.subprocess.Process` class to control the
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subprocess and the :class:`StreamReader` class to read from the standard
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output. The subprocess is created by the :func:`create_subprocess_exec`
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function::
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import asyncio.subprocess
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import sys
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@asyncio.coroutine
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def get_date():
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code = 'import datetime; print(datetime.datetime.now())'
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# Create the subprocess, redirect the standard output into a pipe
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proc = await asyncio.create_subprocess_exec(
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sys.executable, '-c', code,
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stdout=asyncio.subprocess.PIPE)
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# Read one line of output
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data = await proc.stdout.readline()
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line = data.decode('ascii').rstrip()
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# Wait for the subprocess exit
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await proc.wait()
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return line
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if sys.platform == "win32":
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loop = asyncio.ProactorEventLoop()
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asyncio.set_event_loop(loop)
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else:
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loop = asyncio.get_event_loop()
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date = loop.run_until_complete(get_date())
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print("Current date: %s" % date)
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loop.close()
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