u-boot/tools/concurrencytest/concurrencytest.py

#!/usr/bin/env python
# SPDX-License-Identifier: GPL-2.0+
#
# Modified by: Corey Goldberg, 2013
#
# Original code from:
#   Bazaar (bzrlib.tests.__init__.py, v2.6, copied Jun 01 2013)
#   Copyright (C) 2005-2011 Canonical Ltd

"""Python testtools extension for running unittest suites concurrently.

The `testtools` project provides a ConcurrentTestSuite class, but does
not provide a `make_tests` implementation needed to use it.

This allows you to parallelize a test run across a configurable number
of worker processes. While this can speed up CPU-bound test runs, it is
mainly useful for IO-bound tests that spend most of their time waiting for
data to arrive from someplace else and can benefit from cocncurrency.

Unix only.
"""

import os
import sys
import traceback
import unittest
from itertools import cycle
from multiprocessing import cpu_count

from subunit import ProtocolTestCase, TestProtocolClient
from subunit.test_results import AutoTimingTestResultDecorator

from testtools import ConcurrentTestSuite, iterate_tests


_all__ = [
    'ConcurrentTestSuite',
    'fork_for_tests',
    'partition_tests',
]


CPU_COUNT = cpu_count()


def fork_for_tests(concurrency_num=CPU_COUNT):
    """Implementation of `make_tests` used to construct `ConcurrentTestSuite`.

    :param concurrency_num: number of processes to use.
    """
    def do_fork(suite):
        """Take suite and start up multiple runners by forking (Unix only).

        :param suite: TestSuite object.

        :return: An iterable of TestCase-like objects which can each have
        run(result) called on them to feed tests to result.
        """
        result = []
        test_blocks = partition_tests(suite, concurrency_num)
        # Clear the tests from the original suite so it doesn't keep them alive
        suite._tests[:] = []
        for process_tests in test_blocks:
            process_suite = unittest.TestSuite(process_tests)
            # Also clear each split list so new suite has only reference
            process_tests[:] = []
            c2pread, c2pwrite = os.pipe()
            pid = os.fork()
            if pid == 0:
                try:
                    stream = os.fdopen(c2pwrite, 'wb', 1)
                    os.close(c2pread)
                    # Leave stderr and stdout open so we can see test noise
                    # Close stdin so that the child goes away if it decides to
                    # read from stdin (otherwise its a roulette to see what
                    # child actually gets keystrokes for pdb etc).
                    sys.stdin.close()
                    subunit_result = AutoTimingTestResultDecorator(
                        TestProtocolClient(stream)
                    )
                    process_suite.run(subunit_result)
                except:
                    # Try and report traceback on stream, but exit with error
                    # even if stream couldn't be created or something else
                    # goes wrong.  The traceback is formatted to a string and
                    # written in one go to avoid interleaving lines from
                    # multiple failing children.
                    try:
                        stream.write(traceback.format_exc())
                    finally:
                        os._exit(1)
                os._exit(0)
            else:
                os.close(c2pwrite)
                stream = os.fdopen(c2pread, 'rb', 1)
                test = ProtocolTestCase(stream)
                result.append(test)
        return result
    return do_fork


def partition_tests(suite, count):
    """Partition suite into count lists of tests."""
    # This just assigns tests in a round-robin fashion.  On one hand this
    # splits up blocks of related tests that might run faster if they shared
    # resources, but on the other it avoids assigning blocks of slow tests to
    # just one partition.  So the slowest partition shouldn't be much slower
    # than the fastest.
    partitions = [list() for _ in range(count)]
    tests = iterate_tests(suite)
    for partition, test in zip(cycle(partitions), tests):
        partition.append(test)
    return partitions


if __name__ == '__main__':
    import time

    class SampleTestCase(unittest.TestCase):
        """Dummy tests that sleep for demo."""

        def test_me_1(self):
            time.sleep(0.5)

        def test_me_2(self):
            time.sleep(0.5)

        def test_me_3(self):
            time.sleep(0.5)

        def test_me_4(self):
            time.sleep(0.5)

    # Load tests from SampleTestCase defined above
    suite = unittest.TestLoader().loadTestsFromTestCase(SampleTestCase)
    runner = unittest.TextTestRunner()

    # Run tests sequentially
    runner.run(suite)

    # Run same tests across 4 processes
    suite = unittest.TestLoader().loadTestsFromTestCase(SampleTestCase)
    concurrent_suite = ConcurrentTestSuite(suite, fork_for_tests(4))
    runner.run(concurrent_suite)
binman: Run tests concurrently At present the tests run one after the other using a single CPU. This is not very efficient. Bring in the concurrencytest module and run the tests concurrently, using one process for each CPU by default. A -P option allows this to be overridden, which is necessary for code-coverage to function correctly. This requires fixing a few tests which are currently not fully independent. At some point we might consider doing this across all pytests in U-Boot. There is a pytest version that supports specifying the number of processes to use, but it did not work for me. Signed-off-by: Simon Glass <sjg@chromium.org> 2018-10-02 03:12:47 +00:00			`#!/usr/bin/env python`
			`# SPDX-License-Identifier: GPL-2.0+`
			`#`
			`# Modified by: Corey Goldberg, 2013`
			`#`
			`# Original code from:`
			`# Bazaar (bzrlib.tests.__init__.py, v2.6, copied Jun 01 2013)`
			`# Copyright (C) 2005-2011 Canonical Ltd`

			`"""Python testtools extension for running unittest suites concurrently.`

			The `testtools` project provides a ConcurrentTestSuite class, but does
			not provide a `make_tests` implementation needed to use it.

			`This allows you to parallelize a test run across a configurable number`
			`of worker processes. While this can speed up CPU-bound test runs, it is`
			`mainly useful for IO-bound tests that spend most of their time waiting for`
			`data to arrive from someplace else and can benefit from cocncurrency.`

			`Unix only.`
			`"""`

			`import os`
			`import sys`
			`import traceback`
			`import unittest`
			`from itertools import cycle`
			`from multiprocessing import cpu_count`

			`from subunit import ProtocolTestCase, TestProtocolClient`
			`from subunit.test_results import AutoTimingTestResultDecorator`

			`from testtools import ConcurrentTestSuite, iterate_tests`


			`_all__ = [`
			`'ConcurrentTestSuite',`
			`'fork_for_tests',`
			`'partition_tests',`
			`]`


			`CPU_COUNT = cpu_count()`


			`def fork_for_tests(concurrency_num=CPU_COUNT):`
			"""Implementation of `make_tests` used to construct `ConcurrentTestSuite`.

			`:param concurrency_num: number of processes to use.`
			`"""`
			`def do_fork(suite):`
			`"""Take suite and start up multiple runners by forking (Unix only).`

			`:param suite: TestSuite object.`

			`:return: An iterable of TestCase-like objects which can each have`
			`run(result) called on them to feed tests to result.`
			`"""`
			`result = []`
			`test_blocks = partition_tests(suite, concurrency_num)`
			`# Clear the tests from the original suite so it doesn't keep them alive`
			`suite._tests[:] = []`
			`for process_tests in test_blocks:`
			`process_suite = unittest.TestSuite(process_tests)`
			`# Also clear each split list so new suite has only reference`
			`process_tests[:] = []`
			`c2pread, c2pwrite = os.pipe()`
			`pid = os.fork()`
			`if pid == 0:`
			`try:`
			`stream = os.fdopen(c2pwrite, 'wb', 1)`
			`os.close(c2pread)`
			`# Leave stderr and stdout open so we can see test noise`
			`# Close stdin so that the child goes away if it decides to`
			`# read from stdin (otherwise its a roulette to see what`
			`# child actually gets keystrokes for pdb etc).`
			`sys.stdin.close()`
			`subunit_result = AutoTimingTestResultDecorator(`
			`TestProtocolClient(stream)`
			`)`
			`process_suite.run(subunit_result)`
			`except:`
			`# Try and report traceback on stream, but exit with error`
			`# even if stream couldn't be created or something else`
			`# goes wrong. The traceback is formatted to a string and`
			`# written in one go to avoid interleaving lines from`
			`# multiple failing children.`
			`try:`
			`stream.write(traceback.format_exc())`
			`finally:`
			`os._exit(1)`
			`os._exit(0)`
			`else:`
			`os.close(c2pwrite)`
			`stream = os.fdopen(c2pread, 'rb', 1)`
			`test = ProtocolTestCase(stream)`
			`result.append(test)`
			`return result`
			`return do_fork`


			`def partition_tests(suite, count):`
			`"""Partition suite into count lists of tests."""`
			`# This just assigns tests in a round-robin fashion. On one hand this`
			`# splits up blocks of related tests that might run faster if they shared`
			`# resources, but on the other it avoids assigning blocks of slow tests to`
			`# just one partition. So the slowest partition shouldn't be much slower`
			`# than the fastest.`
			`partitions = [list() for _ in range(count)]`
			`tests = iterate_tests(suite)`
			`for partition, test in zip(cycle(partitions), tests):`
			`partition.append(test)`
			`return partitions`


			`if __name__ == '__main__':`
			`import time`

			`class SampleTestCase(unittest.TestCase):`
			`"""Dummy tests that sleep for demo."""`

			`def test_me_1(self):`
			`time.sleep(0.5)`

			`def test_me_2(self):`
			`time.sleep(0.5)`

			`def test_me_3(self):`
			`time.sleep(0.5)`

			`def test_me_4(self):`
			`time.sleep(0.5)`

			`# Load tests from SampleTestCase defined above`
			`suite = unittest.TestLoader().loadTestsFromTestCase(SampleTestCase)`
			`runner = unittest.TextTestRunner()`

			`# Run tests sequentially`
			`runner.run(suite)`

			`# Run same tests across 4 processes`
			`suite = unittest.TestLoader().loadTestsFromTestCase(SampleTestCase)`
			`concurrent_suite = ConcurrentTestSuite(suite, fork_for_tests(4))`
			`runner.run(concurrent_suite)`