osrf_pycommon.process_utils.impl module

osrf_pycommon.process_utils.impl.execute_process(cmd, cwd=None, env=None, shell=False, emulate_tty=False)

Executes a command with arguments and returns output line by line.

All arguments, except emulate_tty, are passed directly to subprocess.Popen.

execute_process returns a generator which yields the output, line by line, until the subprocess finishes at which point the return code is yielded.

This is an example of how this function should be used:

from __future__ import print_function
from osrf_pycommon.process_utils import execute_process

cmd = ['ls', '-G']
for line in execute_process(cmd, cwd='/usr'):
    if isinstance(line, int):
        # This is a return code, the command has exited
        print("'{0}' exited with: {1}".format(' '.join(cmd), line))
        continue  # break would also be appropriate here
    # In Python 3, it will be a bytes array which needs to be decoded
    if not isinstance(line, str):
        line = line.decode('utf-8')
    # Then print it to the screen
    print(line, end='')

stdout and stderr are always captured together and returned line by line through the returned generator. New line characters are preserved in the output, so if re-printing the data take care to use end='' or first rstrip the output lines.

When emulate_tty is used on Unix systems, commands will identify that they are on a tty and should output color to the screen as if you were running it on the terminal, and therefore there should not be any need to pass arguments like -c color.ui=always to commands like git. Additionally, programs might also behave differently in when emulate_tty is being used, for example, Python will default to unbuffered output when it detects a tty.

emulate_tty works by using psuedo-terminals on Unix machines, and so if you are running this command many times in parallel (like hundreds of times) then you may get one of a few different OSError’s. For example, “OSError: [Errno 24] Too many open files: ‘/dev/ttyp0’” or “OSError: out of pty devices”. You should also be aware that you share pty devices with the rest of the system, so even if you are not using a lot, it is possible to get this error. You can catch this error before getting data from the generator, so when using emulate_tty you might want to do something like this:

from __future__ import print_function
from osrf_pycommon.process_utils import execute_process

cmd = ['ls', '-G', '/usr']
try:
    output = execute_process(cmd, emulate_tty=True)
except OSError:
    output = execute_process(cmd, emulate_tty=False)
for line in output:
    if isinstance(line, int):
        print("'{0}' exited with: {1}".format(' '.join(cmd), line))
        continue
    # In Python 3, it will be a bytes array which needs to be decoded
    if not isinstance(line, str):
        line = line.decode('utf-8')
    print(line, end='')

This way if a pty cannot be opened in order to emulate the tty then you can try again without emulation, and any other OSError should raise again with emulate_tty set to False. Obviously, you only want to do this if emulating the tty is non-critical to your processing, like when you are using it to capture color.

Any color information that the command outputs as ANSI escape sequences is captured by this command. That way you can print the output to the screen and preserve the color formatting.

If you do not want color to be in the output, then try setting emulate_tty to False, but that does not guarantee that there is no color in the output, instead it only will cause called processes to identify that they are not being run in a terminal. Most well behaved programs will not output color if they detect that they are not being executed in a terminal, but you shouldn’t rely on that.

If you want to ensure there is no color in the output from an executed process, then use this function:

osrf_pycommon.terminal_color.remove_ansi_escape_sequences()

Exceptions can be raised by functions called by the implementation, for example, subprocess.Popen can raise an OSError when the given command is not found. If you want to check for the existence of an executable on the path, see: which(). However, this function itself does not raise any special exceptions.

Parameters:

  • cmd (list) – list of strings with the first item being a command and subsequent items being any arguments to that command; passed directly to subprocess.Popen.

  • cwd (str) – path in which to run the command, defaults to None which means os.getcwd() is used; passed directly to subprocess.Popen.

  • env (dict) – environment dictionary to use for executing the command, default is None which uses the os.environ environment; passed directly to subprocess.Popen.

  • shell (bool) – If True the system shell is used to evaluate the command, default is False; passed directly to subprocess.Popen.

  • emulate_tty (bool) – If True attempts to use a pty to convince subprocess’s that they are being run in a terminal. Typically this is useful for capturing colorized output from commands. This does not work on Windows (no pty’s), so it is considered False even when True. Defaults to False.

Returns:

a generator which yields output from the command line by line

Return type:

generator which yields strings

osrf_pycommon.process_utils.impl.execute_process_split(cmd, cwd=None, env=None, shell=False, emulate_tty=False)

execute_process(), except stderr is returned separately.

Instead of yielding output line by line until yielding a return code, this function always a triplet of stdout, stderr, and return code. Each time only one of the three will not be None. Once you receive a non-None return code (type will be int) there will be no more stdout or stderr. Therefore you can use the command like this:

from __future__ import print_function
import sys
from osrf_pycommon.process_utils import execute_process_split

cmd = ['time', 'ls', '-G']
for out, err, ret in execute_process_split(cmd, cwd='/usr'):
    # In Python 3, it will be a bytes array which needs to be decoded
    out = out.decode('utf-8') if out is not None else None
    err = err.decode('utf-8') if err is not None else None
    if ret is not None:
        # This is a return code, the command has exited
        print("'{0}' exited with: {1}".format(' '.join(cmd), ret))
        break
    if out is not None:
        print(out, end='')
    if err is not None:
        print(err, end='', file=sys.stderr)

When using this, it is possible that the stdout and stderr data can be returned in a different order than what would happen on the terminal. This is due to the fact that the subprocess is given different buffers for stdout and stderr and so there is a race condition on the subprocess writing to the different buffers and this command reading the buffers. This can be avoided in most scenarios by using emulate_tty, because of the use of pty’s, though the ordering can still not be guaranteed and the number of pty’s is finite as explained in the documentation for execute_process(). For situations where output ordering between stdout and stderr are critical, they should not be returned separately and instead should share one buffer, and so execute_process() should be used.

For all other parameters and documentation see: execute_process()

osrf_pycommon.process_utils.impl.which(cmd, mode=1, path=None, **kwargs)

Given a command, mode, and a PATH string, return the path which conforms to the given mode on the PATH, or None if there is no such file.

mode defaults to os.F_OK | os.X_OK. path defaults to the result of os.environ.get("PATH"), or can be overridden with a custom search path.

Backported from shutil.which() (https://docs.python.org/3.3/library/shutil.html#shutil.which), available in Python 3.3.