| import multiprocessing |
| import time |
| |
| import lit.Test |
| import lit.util |
| import lit.worker |
| |
| class _Display(object): |
| def __init__(self, display, provider, maxFailures): |
| self.display = display |
| self.provider = provider |
| self.maxFailures = maxFailures or object() |
| self.failedCount = 0 |
| def update(self, test): |
| self.display.update(test) |
| self.failedCount += (test.result.code == lit.Test.FAIL) |
| if self.failedCount == self.maxFailures: |
| self.provider.cancel() |
| |
| class Run(object): |
| """ |
| This class represents a concrete, configured testing run. |
| """ |
| |
| def __init__(self, lit_config, tests): |
| self.lit_config = lit_config |
| self.tests = tests |
| # Set up semaphores to limit parallelism of certain classes of tests. |
| # For example, some ASan tests require lots of virtual memory and run |
| # faster with less parallelism on OS X. |
| self.parallelism_semaphores = \ |
| {k: multiprocessing.BoundedSemaphore(v) for k, v in |
| self.lit_config.parallelism_groups.items()} |
| |
| def execute_tests_in_pool(self, jobs, max_time): |
| # We need to issue many wait calls, so compute the final deadline and |
| # subtract time.time() from that as we go along. |
| deadline = None |
| if max_time: |
| deadline = time.time() + max_time |
| |
| # Start a process pool. Copy over the data shared between all test runs. |
| # FIXME: Find a way to capture the worker process stderr. If the user |
| # interrupts the workers before we make it into our task callback, they |
| # will each raise a KeyboardInterrupt exception and print to stderr at |
| # the same time. |
| pool = multiprocessing.Pool(jobs, lit.worker.initializer, |
| (self.lit_config, |
| self.parallelism_semaphores)) |
| |
| # Install a console-control signal handler on Windows. |
| if lit.util.win32api is not None: |
| def console_ctrl_handler(type): |
| print('\nCtrl-C detected, terminating.') |
| pool.terminate() |
| pool.join() |
| lit.util.abort_now() |
| return True |
| lit.util.win32api.SetConsoleCtrlHandler(console_ctrl_handler, True) |
| |
| try: |
| async_results = [pool.apply_async(lit.worker.run_one_test, |
| args=(test_index, test), |
| callback=self.consume_test_result) |
| for test_index, test in enumerate(self.tests)] |
| pool.close() |
| |
| # Wait for all results to come in. The callback that runs in the |
| # parent process will update the display. |
| for a in async_results: |
| if deadline: |
| a.wait(deadline - time.time()) |
| else: |
| # Python condition variables cannot be interrupted unless |
| # they have a timeout. This can make lit unresponsive to |
| # KeyboardInterrupt, so do a busy wait with a timeout. |
| while not a.ready(): |
| a.wait(1) |
| if not a.successful(): |
| a.get() # Exceptions raised here come from the worker. |
| if self.hit_max_failures: |
| break |
| except: |
| # Stop the workers and wait for any straggling results to come in |
| # if we exited without waiting on every async result. |
| pool.terminate() |
| raise |
| finally: |
| pool.join() |
| |
| def execute_tests(self, display, jobs, max_time=None): |
| """ |
| execute_tests(display, jobs, [max_time]) |
| |
| Execute each of the tests in the run, using up to jobs number of |
| parallel tasks, and inform the display of each individual result. The |
| provided tests should be a subset of the tests available in this run |
| object. |
| |
| If max_time is non-None, it should be a time in seconds after which to |
| stop executing tests. |
| |
| The display object will have its update method called with each test as |
| it is completed. The calls are guaranteed to be locked with respect to |
| one another, but are *not* guaranteed to be called on the same thread as |
| this method was invoked on. |
| |
| Upon completion, each test in the run will have its result |
| computed. Tests which were not actually executed (for any reason) will |
| be given an UNRESOLVED result. |
| """ |
| # Don't do anything if we aren't going to run any tests. |
| if not self.tests: |
| return |
| |
| # Save the display object on the runner so that we can update it from |
| # our task completion callback. |
| self.display = display |
| |
| self.failure_count = 0 |
| self.hit_max_failures = False |
| if jobs == 1: |
| for test_index, test in enumerate(self.tests): |
| lit.worker._execute_test(test, self.lit_config) |
| self.consume_test_result((test_index, test)) |
| if self.hit_max_failures: |
| break |
| else: |
| self.execute_tests_in_pool(jobs, max_time) |
| |
| # Mark any tests that weren't run as UNRESOLVED. |
| for test in self.tests: |
| if test.result is None: |
| test.setResult(lit.Test.Result(lit.Test.UNRESOLVED, '', 0.0)) |
| |
| def consume_test_result(self, pool_result): |
| """Test completion callback for lit.worker.run_one_test |
| |
| Updates the test result status in the parent process. Each task in the |
| pool returns the test index and the result, and we use the index to look |
| up the original test object. Also updates the progress bar as tasks |
| complete. |
| """ |
| # Don't add any more test results after we've hit the maximum failure |
| # count. Otherwise we're racing with the main thread, which is going |
| # to terminate the process pool soon. |
| if self.hit_max_failures: |
| return |
| |
| (test_index, test_with_result) = pool_result |
| # Update the parent process copy of the test. This includes the result, |
| # XFAILS, REQUIRES, and UNSUPPORTED statuses. |
| assert self.tests[test_index].file_path == test_with_result.file_path, \ |
| "parent and child disagree on test path" |
| self.tests[test_index] = test_with_result |
| self.display.update(test_with_result) |
| |
| # If we've finished all the tests or too many tests have failed, notify |
| # the main thread that we've stopped testing. |
| self.failure_count += (test_with_result.result.code == lit.Test.FAIL) |
| if self.lit_config.maxFailures and \ |
| self.failure_count == self.lit_config.maxFailures: |
| self.hit_max_failures = True |