Usage

The plugin adds the fake_subprocess fixture. It can be used it to register subprocess results so you won’t need to rely on the real processes. The plugin hooks on the subprocess.Popen(), which is the base for other subprocess functions. That makes the subprocess.run(), subprocess.call(), subprocess.check_call() and subprocess.check_output() methods also functional.

Installation

You can install pytest-subprocess via pip from PyPI:

$ pip install pytest-subprocess

Basic usage

The most important method is fake_process.register_subprocess() which allows defining the fake processes behavior.

def test_echo_null_byte(fake_process):
    fake_process.register_subprocess(
        ["echo", "-ne", "\x00"], stdout=bytes.fromhex("00")
    )

    process = subprocess.Popen(
        ["echo", "-ne", "\x00"], stdout=subprocess.PIPE,
    )
    out, _ = process.communicate()

    assert process.returncode == 0
    assert out == b"\x00"

Optionally, the stdout and stderr parameters can be a list (or tuple) of lines to be joined together with a trailing os.linesep on each line.

def test_git(fake_process):
    fake_process.register_subprocess(
        ["git", "branch"], stdout=["* fake_branch", "  master"]
    )

    process = subprocess.Popen(
        ["git", "branch"],
        stdout=subprocess.PIPE,
        universal_newlines=True,
    )
    out, _ = process.communicate()

    assert process.returncode == 0
    assert out == "* fake_branch\n  master\n"

Passing input

By default, if you use input argument to the Popen.communicate() method, it won’t crash, but also won’t do anything useful. By passing a function as stdin_callable argument for the fake_process.register_subprocess() method you can specify the behavior based on the input. The function shall accept one argument, which will be the input data. If the function will return a dictionary with stdout or stderr keys, its value will be appended to according stream.

def test_pass_input(fake_process):
    def stdin_function(input):
        return {
            "stdout": "This input was added: {data}".format(
                data=input.decode()
            )
        }

    fake_process.register_subprocess(
        ["command"],
        stdout=[b"Just stdout"],
        stdin_callable=stdin_function,
    )

    process = subprocess.Popen(
        ["command"], stdin=subprocess.PIPE, stdout=subprocess.PIPE,
    )
    out, _ = process.communicate(input=b"sample input\n")

    assert out.splitlines() == [
        b"Just stdout",
        b"This input was added: sample input",
    ]

Unregistered commands

By default, when the fake_process fixture is being used, any attempt to run subprocess that has not been registered will raise the ProcessNotRegisteredError exception. To allow it, use fake_process.allow_unregistered(True), which will execute all unregistered processes with real subprocess, or use fake_process.pass_command("command") to allow just a single command.

def test_real_process(fake_process):
    with pytest.raises(fake_process.exceptions.ProcessNotRegisteredError):
        # this will fail, as "ls" command is not registered
        subprocess.call("ls")

    fake_process.pass_command("ls")
    # now it should be fine
    assert subprocess.call("ls") == 0

    # allow all commands to be called by real subprocess
    fake_process.allow_unregistered(True)
    assert subprocess.call(["ls", "-l"]) == 0

Differing results

Each register_subprocess() or pass_command() method call will register only one command execution. You can call those methods multiple times, to change the faked output on each subprocess run. When you call subprocess more will be raised. To prevent that, call fake_process.keep_last_process(True), which will keep the last registered process forever.

def test_different_output(fake_process):
    # register process with output changing each execution
    fake_process.register_subprocess("test", stdout="first execution")
    # the second execution will return non-zero exit code
    fake_process.register_subprocess(
        "test", stdout="second execution", returncode=1
    )

    assert subprocess.check_output("test") == b"first execution"
    second_process = subprocess.run("test", stdout=subprocess.PIPE)
    assert second_process.stdout == b"second execution"
    assert second_process.returncode == 1

    # 3rd time shall raise an exception
    with pytest.raises(fake_process.exceptions.ProcessNotRegisteredError):
        subprocess.check_call("test")

    # now, register two processes once again,
    # but the last one will be kept forever
    fake_process.register_subprocess("test", stdout="first execution")
    fake_process.register_subprocess("test", stdout="second execution")
    fake_process.keep_last_process(True)

    # now the processes can be called forever
    assert subprocess.check_output("test") == b"first execution"
    assert subprocess.check_output("test") == b"second execution"
    assert subprocess.check_output("test") == b"second execution"
    assert subprocess.check_output("test") == b"second execution"

Using callbacks

You can pass a function as callback argument to the register_subprocess() method which will be executed instead of the real subprocess. The callback function can raise exceptions which will be interpreted in tests as an exception raised by the subprocess. The fixture will pass FakePopen class instance into the callback function, that can be used to change the return code or modify output streams.

def callback_function(process):
    process.returncode = 1
    raise PermissionError("exception raised by subprocess")


def test_raise_exception(fake_process):
    fake_process.register_subprocess(["test"], callback=callback_function)

    with pytest.raises(
        PermissionError, match="exception raised by subprocess"
    ):
        process = subprocess.Popen(["test"])
        process.wait()

    assert process.returncode == 1

It is possible to pass additional keyword arguments into callback by using the callback_kwargs argument:

def callback_function_with_kwargs(process, return_code):
    process.returncode = return_code


def test_callback_with_arguments(fake_process):
    return_code = 127

    fake_process.register_subprocess(
        ["test"],
        callback=callback_function_with_kwargs,
        callback_kwargs={"return_code": return_code},
    )

    process = subprocess.Popen(["test"])
    process.wait()

    assert process.returncode == return_code

As a context manager

The fake_process fixture provides context() method that allows us to use it as a context manager. It can be used to limit the scope when a certain command is allowed, e.g. to make sure that the code doesn’t want to execute it somewhere else.

def test_context_manager(fake_process):
    with pytest.raises(fake_process.exceptions.ProcessNotRegisteredError):
        # command not registered, so will raise an exception
        subprocess.check_call("test")

    with fake_process.context() as nested_process:
        nested_process.register_subprocess("test", occurrences=3)
        # now, we can call the command 3 times without error
        assert subprocess.check_call("test") == 0
        assert subprocess.check_call("test") == 0

    # the command was called 2 times, so one occurrence left, but since the
    # context manager has been left, it is not registered anymore
    with pytest.raises(fake_process.exceptions.ProcessNotRegisteredError):
        subprocess.check_call("test")

Non-exact command matching

If you need to catch a command with some non-predictable elements, like a path to a randomly-generated file name, you can use fake_subprocess.any() for that purpose. The number of arguments that should be matched can be controlled by min and max arguments. To use fake_subprocess.any() you need to define the command as a tuple or list. The matching will work even if the subprocess command will be called with a string argument.

def test_non_exact_matching(fake_process):
    # define a command that will take any number of arguments
    fake_process.register_subprocess(["ls", fake_process.any()])
    assert subprocess.check_call("ls -lah") == 0

    # `fake_subprocess.any()` is OK even with no arguments
    fake_process.register_subprocess(["ls", fake_process.any()])
    assert subprocess.check_call("ls") == 0

    # but it can force a minimum amount of arguments
    fake_process.register_subprocess(["cp", fake_process.any(min=2)])

    with pytest.raises(fake_process.exceptions.ProcessNotRegisteredError):
        # only one argument is used, so registered command won't match
        subprocess.check_call("cp /source/dir")
    # but two arguments will be fine
    assert subprocess.check_call("cp /source/dir /tmp/random-dir") == 0

    # the `max` argument can be used to limit maximum amount of arguments
    fake_process.register_subprocess(["cd", fake_process.any(max=1)])

    with pytest.raises(fake_process.exceptions.ProcessNotRegisteredError):
        # cd with two arguments won't match with max=1
        subprocess.check_call("cd ~/ /tmp")
    # but any single argument is fine
    assert subprocess.check_call("cd ~/") == 0

    # `min` and `max` can be used together
    fake_process.register_subprocess(
        ["my_app", fake_process.any(min=1, max=2)]
    )
    assert subprocess.check_call(["my_app", "--help"]) == 0

Check if process was called

You may want to simply check if a certain command was called, you can do this by accessing fake_process.calls, where all commands are stored as-called. You can also use a utility function fake_process.call_count() to see how many a command has been called. The latter supports fake_process.any().

def test_check_if_called(fake_process):
    fake_process.keep_last_process(True)
    # any command can be called
    fake_process.register_subprocess([fake_process.any()])

    subprocess.check_call(["cp", "/tmp/source", "/source"])
    subprocess.check_call(["cp", "/source", "/destination"])
    subprocess.check_call(["cp", "/source", "/other/destination"])

    # you can check if command is in ``fake_process.calls``
    assert ["cp", "/tmp/source", "/source"] in fake_process.calls
    assert ["cp", "/source", "/destination"] in fake_process.calls
    assert ["cp", "/source", "/other/destination"] in fake_process.calls

    # or check how many it was called, possibly with wildcard arguments
    assert fake_process.call_count(["cp", "/source", "/destination"]) == 1

    # with ``call_count()`` you don't need to use the same type as
    # the subprocess was called
    assert fake_process.call_count("cp /tmp/source /source") == 1

    # can be used with ``fake_process.any()`` to match more calls
    assert fake_process.call_count(["cp", fake_process.any()]) == 3

Handling signals

You can use standard kill(), terminate() or send_signal() methods in Popen instances. There is an additional received_signals() method to get a tuple of all signals received by the process. It is also possible to set up an optional callback function for signals.

import signal


def test_signal_callback(fake_process):
    """Test that signal callbacks work."""

    def callback(process, sig):
        if sig == signal.SIGTERM:
            process.returncode = -1

    fake_process.register_subprocess("test", signal_callback=callback)

    process = subprocess.Popen("test")
    process.send_signal(signal.SIGTERM)
    process.wait()

    assert process.returncode == -1
    assert process.received_signals() == (signal.SIGTERM,)

Asyncio support

The plugin now supports asyncio and works for asyncio.create_subprocess_shell and asyncio.create_subprocess_exec:

@pytest.mark.asyncio
async def test_basic_usage(fake_process,):
    fake_process.register_subprocess(
        ["some-command-that-is-definitely-unavailable"], returncode=500
    )

    process = await asyncio.create_subprocess_shell(
        "some-command-that-is-definitely-unavailable"
    )
    returncode = await process.wait()

    assert process.returncode == returncode
    assert process.returncode == 500