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32cc6ae273
Fix pylint errors that can be fixed and mask those that seem to be incorrect. Signed-off-by: Simon Glass <sjg@chromium.org>
401 lines
15 KiB
Python
401 lines
15 KiB
Python
# Copyright (c) 2012 The Chromium OS Authors.
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# Use of this source code is governed by a BSD-style license that can be
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# found in the LICENSE file.
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#
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# Copyright (c) 2003-2005 by Peter Astrand <astrand@lysator.liu.se>
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# Licensed to PSF under a Contributor Agreement.
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# See http://www.python.org/2.4/license for licensing details.
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"""Subprocess execution
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This module holds a subclass of subprocess.Popen with our own required
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features, mainly that we get access to the subprocess output while it
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is running rather than just at the end. This makes it easier to show
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progress information and filter output in real time.
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"""
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import errno
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import os
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import pty
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import select
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import subprocess
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import sys
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import unittest
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# Import these here so the caller does not need to import subprocess also.
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PIPE = subprocess.PIPE
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STDOUT = subprocess.STDOUT
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PIPE_PTY = -3 # Pipe output through a pty
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stay_alive = True
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class Popen(subprocess.Popen):
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"""Like subprocess.Popen with ptys and incremental output
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This class deals with running a child process and filtering its output on
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both stdout and stderr while it is running. We do this so we can monitor
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progress, and possibly relay the output to the user if requested.
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The class is similar to subprocess.Popen, the equivalent is something like:
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Popen(args, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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But this class has many fewer features, and two enhancement:
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1. Rather than getting the output data only at the end, this class sends it
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to a provided operation as it arrives.
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2. We use pseudo terminals so that the child will hopefully flush its output
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to us as soon as it is produced, rather than waiting for the end of a
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line.
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Use communicate_filter() to handle output from the subprocess.
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"""
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def __init__(self, args, stdin=None, stdout=PIPE_PTY, stderr=PIPE_PTY,
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shell=False, cwd=None, env=None, **kwargs):
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"""Cut-down constructor
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Args:
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args: Program and arguments for subprocess to execute.
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stdin: See subprocess.Popen()
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stdout: See subprocess.Popen(), except that we support the sentinel
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value of cros_subprocess.PIPE_PTY.
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stderr: See subprocess.Popen(), except that we support the sentinel
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value of cros_subprocess.PIPE_PTY.
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shell: See subprocess.Popen()
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cwd: Working directory to change to for subprocess, or None if none.
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env: Environment to use for this subprocess, or None to inherit parent.
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kwargs: No other arguments are supported at the moment. Passing other
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arguments will cause a ValueError to be raised.
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"""
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stdout_pty = None
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stderr_pty = None
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if stdout == PIPE_PTY:
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stdout_pty = pty.openpty()
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stdout = os.fdopen(stdout_pty[1])
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if stderr == PIPE_PTY:
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stderr_pty = pty.openpty()
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stderr = os.fdopen(stderr_pty[1])
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super(Popen, self).__init__(args, stdin=stdin,
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stdout=stdout, stderr=stderr, shell=shell, cwd=cwd, env=env,
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**kwargs)
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# If we're on a PTY, we passed the slave half of the PTY to the subprocess.
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# We want to use the master half on our end from now on. Setting this here
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# does make some assumptions about the implementation of subprocess, but
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# those assumptions are pretty minor.
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# Note that if stderr is STDOUT, then self.stderr will be set to None by
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# this constructor.
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if stdout_pty is not None:
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self.stdout = os.fdopen(stdout_pty[0])
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if stderr_pty is not None:
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self.stderr = os.fdopen(stderr_pty[0])
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# Insist that unit tests exist for other arguments we don't support.
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if kwargs:
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raise ValueError("Unit tests do not test extra args - please add tests")
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def convert_data(self, data):
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"""Convert stdout/stderr data to the correct format for output
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Args:
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data: Data to convert, or None for ''
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Returns:
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Converted data, as bytes
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"""
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if data is None:
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return b''
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return data
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def communicate_filter(self, output, input_buf=''):
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"""Interact with process: Read data from stdout and stderr.
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This method runs until end-of-file is reached, then waits for the
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subprocess to terminate.
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The output function is sent all output from the subprocess and must be
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defined like this:
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def output([self,] stream, data)
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Args:
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stream: the stream the output was received on, which will be
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sys.stdout or sys.stderr.
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data: a string containing the data
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Returns:
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True to terminate the process
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Note: The data read is buffered in memory, so do not use this
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method if the data size is large or unlimited.
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Args:
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output: Function to call with each fragment of output.
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Returns:
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A tuple (stdout, stderr, combined) which is the data received on
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stdout, stderr and the combined data (interleaved stdout and stderr).
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Note that the interleaved output will only be sensible if you have
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set both stdout and stderr to PIPE or PIPE_PTY. Even then it depends on
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the timing of the output in the subprocess. If a subprocess flips
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between stdout and stderr quickly in succession, by the time we come to
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read the output from each we may see several lines in each, and will read
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all the stdout lines, then all the stderr lines. So the interleaving
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may not be correct. In this case you might want to pass
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stderr=cros_subprocess.STDOUT to the constructor.
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This feature is still useful for subprocesses where stderr is
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rarely used and indicates an error.
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Note also that if you set stderr to STDOUT, then stderr will be empty
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and the combined output will just be the same as stdout.
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"""
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read_set = []
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write_set = []
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stdout = None # Return
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stderr = None # Return
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if self.stdin:
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# Flush stdio buffer. This might block, if the user has
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# been writing to .stdin in an uncontrolled fashion.
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self.stdin.flush()
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if input_buf:
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write_set.append(self.stdin)
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else:
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self.stdin.close()
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if self.stdout:
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read_set.append(self.stdout)
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stdout = bytearray()
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if self.stderr and self.stderr != self.stdout:
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read_set.append(self.stderr)
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stderr = bytearray()
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combined = bytearray()
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stop_now = False
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input_offset = 0
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while read_set or write_set:
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try:
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rlist, wlist, _ = select.select(read_set, write_set, [], 0.2)
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except select.error as e:
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if e.args[0] == errno.EINTR:
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continue
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raise
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if not stay_alive:
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self.terminate()
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if self.stdin in wlist:
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# When select has indicated that the file is writable,
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# we can write up to PIPE_BUF bytes without risk
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# blocking. POSIX defines PIPE_BUF >= 512
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chunk = input_buf[input_offset : input_offset + 512]
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bytes_written = os.write(self.stdin.fileno(), chunk)
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input_offset += bytes_written
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if input_offset >= len(input_buf):
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self.stdin.close()
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write_set.remove(self.stdin)
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if self.stdout in rlist:
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data = b''
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# We will get an error on read if the pty is closed
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try:
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data = os.read(self.stdout.fileno(), 1024)
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except OSError:
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pass
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if not len(data):
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self.stdout.close()
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read_set.remove(self.stdout)
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else:
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stdout += data
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combined += data
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if output:
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stop_now = output(sys.stdout, data)
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if self.stderr in rlist:
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data = b''
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# We will get an error on read if the pty is closed
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try:
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data = os.read(self.stderr.fileno(), 1024)
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except OSError:
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pass
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if not len(data):
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self.stderr.close()
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read_set.remove(self.stderr)
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else:
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stderr += data
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combined += data
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if output:
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stop_now = output(sys.stderr, data)
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if stop_now:
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self.terminate()
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# All data exchanged. Translate lists into strings.
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stdout = self.convert_data(stdout)
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stderr = self.convert_data(stderr)
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combined = self.convert_data(combined)
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self.wait()
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return (stdout, stderr, combined)
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# Just being a unittest.TestCase gives us 14 public methods. Unless we
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# disable this, we can only have 6 tests in a TestCase. That's not enough.
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#
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# pylint: disable=R0904
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class TestSubprocess(unittest.TestCase):
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"""Our simple unit test for this module"""
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class MyOperation:
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"""Provides a operation that we can pass to Popen"""
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def __init__(self, input_to_send=None):
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"""Constructor to set up the operation and possible input.
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Args:
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input_to_send: a text string to send when we first get input. We will
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add \r\n to the string.
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"""
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self.stdout_data = ''
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self.stderr_data = ''
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self.combined_data = ''
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self.stdin_pipe = None
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self._input_to_send = input_to_send
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if input_to_send:
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pipe = os.pipe()
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self.stdin_read_pipe = pipe[0]
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self._stdin_write_pipe = os.fdopen(pipe[1], 'w')
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def output(self, stream, data):
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"""Output handler for Popen. Stores the data for later comparison"""
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if stream == sys.stdout:
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self.stdout_data += data
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if stream == sys.stderr:
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self.stderr_data += data
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self.combined_data += data
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# Output the input string if we have one.
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if self._input_to_send:
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self._stdin_write_pipe.write(self._input_to_send + '\r\n')
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self._stdin_write_pipe.flush()
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def _basic_check(self, plist, oper):
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"""Basic checks that the output looks sane."""
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self.assertEqual(plist[0], oper.stdout_data)
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self.assertEqual(plist[1], oper.stderr_data)
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self.assertEqual(plist[2], oper.combined_data)
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# The total length of stdout and stderr should equal the combined length
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self.assertEqual(len(plist[0]) + len(plist[1]), len(plist[2]))
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def test_simple(self):
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"""Simple redirection: Get process list"""
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oper = TestSubprocess.MyOperation()
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plist = Popen(['ps']).communicate_filter(oper.output)
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self._basic_check(plist, oper)
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def test_stderr(self):
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"""Check stdout and stderr"""
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oper = TestSubprocess.MyOperation()
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cmd = 'echo fred >/dev/stderr && false || echo bad'
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plist = Popen([cmd], shell=True).communicate_filter(oper.output)
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self._basic_check(plist, oper)
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self.assertEqual(plist [0], 'bad\r\n')
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self.assertEqual(plist [1], 'fred\r\n')
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def test_shell(self):
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"""Check with and without shell works"""
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oper = TestSubprocess.MyOperation()
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cmd = 'echo test >/dev/stderr'
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self.assertRaises(OSError, Popen, [cmd], shell=False)
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plist = Popen([cmd], shell=True).communicate_filter(oper.output)
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self._basic_check(plist, oper)
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self.assertEqual(len(plist [0]), 0)
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self.assertEqual(plist [1], 'test\r\n')
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def test_list_args(self):
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"""Check with and without shell works using list arguments"""
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oper = TestSubprocess.MyOperation()
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cmd = ['echo', 'test', '>/dev/stderr']
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plist = Popen(cmd, shell=False).communicate_filter(oper.output)
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self._basic_check(plist, oper)
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self.assertEqual(plist [0], ' '.join(cmd[1:]) + '\r\n')
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self.assertEqual(len(plist [1]), 0)
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oper = TestSubprocess.MyOperation()
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# this should be interpreted as 'echo' with the other args dropped
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cmd = ['echo', 'test', '>/dev/stderr']
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plist = Popen(cmd, shell=True).communicate_filter(oper.output)
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self._basic_check(plist, oper)
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self.assertEqual(plist [0], '\r\n')
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def test_cwd(self):
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"""Check we can change directory"""
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for shell in (False, True):
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oper = TestSubprocess.MyOperation()
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plist = Popen('pwd', shell=shell, cwd='/tmp').communicate_filter(
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oper.output)
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self._basic_check(plist, oper)
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self.assertEqual(plist [0], '/tmp\r\n')
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def test_env(self):
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"""Check we can change environment"""
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for add in (False, True):
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oper = TestSubprocess.MyOperation()
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env = os.environ
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if add:
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env ['FRED'] = 'fred'
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cmd = 'echo $FRED'
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plist = Popen(cmd, shell=True, env=env).communicate_filter(oper.output)
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self._basic_check(plist, oper)
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self.assertEqual(plist [0], add and 'fred\r\n' or '\r\n')
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def test_extra_args(self):
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"""Check we can't add extra arguments"""
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self.assertRaises(ValueError, Popen, 'true', close_fds=False)
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def test_basic_input(self):
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"""Check that incremental input works
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We set up a subprocess which will prompt for name. When we see this prompt
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we send the name as input to the process. It should then print the name
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properly to stdout.
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"""
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oper = TestSubprocess.MyOperation('Flash')
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prompt = 'What is your name?: '
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cmd = 'echo -n "%s"; read name; echo Hello $name' % prompt
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plist = Popen([cmd], stdin=oper.stdin_read_pipe,
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shell=True).communicate_filter(oper.output)
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self._basic_check(plist, oper)
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self.assertEqual(len(plist [1]), 0)
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self.assertEqual(plist [0], prompt + 'Hello Flash\r\r\n')
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def test_isatty(self):
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"""Check that ptys appear as terminals to the subprocess"""
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oper = TestSubprocess.MyOperation()
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cmd = ('if [ -t %d ]; then echo "terminal %d" >&%d; '
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'else echo "not %d" >&%d; fi;')
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both_cmds = ''
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for fd in (1, 2):
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both_cmds += cmd % (fd, fd, fd, fd, fd)
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plist = Popen(both_cmds, shell=True).communicate_filter(oper.output)
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self._basic_check(plist, oper)
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self.assertEqual(plist [0], 'terminal 1\r\n')
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self.assertEqual(plist [1], 'terminal 2\r\n')
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# Now try with PIPE and make sure it is not a terminal
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oper = TestSubprocess.MyOperation()
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plist = Popen(both_cmds, stdout=subprocess.PIPE, stderr=subprocess.PIPE,
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shell=True).communicate_filter(oper.output)
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self._basic_check(plist, oper)
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self.assertEqual(plist [0], 'not 1\n')
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self.assertEqual(plist [1], 'not 2\n')
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if __name__ == '__main__':
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unittest.main()
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