# Copyright 2012 the V8 project authors. All rights reserved. # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are # met: # # * Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # * Redistributions in binary form must reproduce the above # copyright notice, this list of conditions and the following # disclaimer in the documentation and/or other materials provided # with the distribution. # * Neither the name of Google Inc. nor the names of its # contributors may be used to endorse or promote products derived # from this software without specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR # A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT # OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT # LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. import os import shutil import sys import time from pool import Pool from . import commands from . import perfdata from . import statusfile from . import utils class Job(object): def __init__(self, command, dep_command, test_id, timeout, verbose): self.command = command self.dep_command = dep_command self.id = test_id self.timeout = timeout self.verbose = verbose def RunTest(job): start_time = time.time() if job.dep_command is not None: dep_output = commands.Execute(job.dep_command, job.verbose, job.timeout) # TODO(jkummerow): We approximate the test suite specific function # IsFailureOutput() by just checking the exit code here. Currently # only cctests define dependencies, for which this simplification is # correct. if dep_output.exit_code != 0: return (job.id, dep_output, time.time() - start_time) output = commands.Execute(job.command, job.verbose, job.timeout) return (job.id, output, time.time() - start_time) class Runner(object): def __init__(self, suites, progress_indicator, context): self.datapath = os.path.join("out", "testrunner_data") self.perf_data_manager = perfdata.PerfDataManager(self.datapath) self.perfdata = self.perf_data_manager.GetStore(context.arch, context.mode) self.perf_failures = False self.printed_allocations = False self.tests = [ t for s in suites for t in s.tests ] if not context.no_sorting: for t in self.tests: t.duration = self.perfdata.FetchPerfData(t) or 1.0 self.tests.sort(key=lambda t: t.duration, reverse=True) self._CommonInit(len(self.tests), progress_indicator, context) def _CommonInit(self, num_tests, progress_indicator, context): self.indicator = progress_indicator progress_indicator.runner = self self.context = context self.succeeded = 0 self.total = num_tests self.remaining = num_tests self.failed = [] self.crashed = 0 self.reran_tests = 0 def _RunPerfSafe(self, fun): try: fun() except Exception, e: print("PerfData exception: %s" % e) self.perf_failures = True def _GetJob(self, test): command = self.GetCommand(test) timeout = self.context.timeout if ("--stress-opt" in test.flags or "--stress-opt" in self.context.mode_flags or "--stress-opt" in self.context.extra_flags): timeout *= 4 # FIXME(machenbach): Make this more OO. Don't expose default outcomes or # the like. if statusfile.IsSlow(test.outcomes or [statusfile.PASS]): timeout *= 2 if test.dependency is not None: dep_command = [ c.replace(test.path, test.dependency) for c in command ] else: dep_command = None return Job(command, dep_command, test.id, timeout, self.context.verbose) def _MaybeRerun(self, pool, test): if test.run <= self.context.rerun_failures_count: # Possibly rerun this test if its run count is below the maximum per # test. <= as the flag controls reruns not including the first run. if test.run == 1: # Count the overall number of reran tests on the first rerun. if self.reran_tests < self.context.rerun_failures_max: self.reran_tests += 1 else: # Don't rerun this if the overall number of rerun tests has been # reached. return if test.run >= 2 and test.duration > self.context.timeout / 20.0: # Rerun slow tests at most once. return # Rerun this test. test.duration = None test.output = None test.run += 1 pool.add([self._GetJob(test)]) self.remaining += 1 def _ProcessTestNormal(self, test, result, pool): self.indicator.AboutToRun(test) test.output = result[1] test.duration = result[2] has_unexpected_output = test.suite.HasUnexpectedOutput(test) if has_unexpected_output: self.failed.append(test) if test.output.HasCrashed(): self.crashed += 1 else: self.succeeded += 1 self.remaining -= 1 # For the indicator, everything that happens after the first run is treated # as unexpected even if it flakily passes in order to include it in the # output. self.indicator.HasRun(test, has_unexpected_output or test.run > 1) if has_unexpected_output: # Rerun test failures after the indicator has processed the results. self._VerbosePrint("Attempting to rerun test after failure.") self._MaybeRerun(pool, test) # Update the perf database if the test succeeded. return not has_unexpected_output def _ProcessTestPredictable(self, test, result, pool): def HasDifferentAllocations(output1, output2): def AllocationStr(stdout): for line in reversed((stdout or "").splitlines()): if line.startswith("### Allocations = "): self.printed_allocations = True return line return "" return (AllocationStr(output1.stdout) != AllocationStr(output2.stdout)) # Always pass the test duration for the database update. test.duration = result[2] if test.run == 1 and result[1].HasTimedOut(): # If we get a timeout in the first run, we are already in an # unpredictable state. Just report it as a failure and don't rerun. self.indicator.AboutToRun(test) test.output = result[1] self.remaining -= 1 self.failed.append(test) self.indicator.HasRun(test, True) if test.run > 1 and HasDifferentAllocations(test.output, result[1]): # From the second run on, check for different allocations. If a # difference is found, call the indicator twice to report both tests. # All runs of each test are counted as one for the statistic. self.indicator.AboutToRun(test) self.remaining -= 1 self.failed.append(test) self.indicator.HasRun(test, True) self.indicator.AboutToRun(test) test.output = result[1] self.indicator.HasRun(test, True) elif test.run >= 3: # No difference on the third run -> report a success. self.indicator.AboutToRun(test) self.remaining -= 1 self.succeeded += 1 test.output = result[1] self.indicator.HasRun(test, False) else: # No difference yet and less than three runs -> add another run and # remember the output for comparison. test.run += 1 test.output = result[1] pool.add([self._GetJob(test)]) # Always update the perf database. return True def Run(self, jobs): self.indicator.Starting() self._RunInternal(jobs) self.indicator.Done() if self.failed or self.remaining: return 1 return 0 def _RunInternal(self, jobs): pool = Pool(jobs) test_map = {} # TODO(machenbach): Instead of filling the queue completely before # pool.imap_unordered, make this a generator that already starts testing # while the queue is filled. queue = [] queued_exception = None for test in self.tests: assert test.id >= 0 test_map[test.id] = test try: queue.append([self._GetJob(test)]) except Exception, e: # If this failed, save the exception and re-raise it later (after # all other tests have had a chance to run). queued_exception = e continue try: it = pool.imap_unordered(RunTest, queue) for result in it: if result.heartbeat: self.indicator.Heartbeat() continue test = test_map[result.value[0]] if self.context.predictable: update_perf = self._ProcessTestPredictable(test, result.value, pool) else: update_perf = self._ProcessTestNormal(test, result.value, pool) if update_perf: self._RunPerfSafe(lambda: self.perfdata.UpdatePerfData(test)) finally: self._VerbosePrint("Closing process pool.") pool.terminate() self._VerbosePrint("Closing database connection.") self._RunPerfSafe(lambda: self.perf_data_manager.close()) if self.perf_failures: # Nuke perf data in case of failures. This might not work on windows as # some files might still be open. print "Deleting perf test data due to db corruption." shutil.rmtree(self.datapath) if queued_exception: raise queued_exception # Make sure that any allocations were printed in predictable mode (if we # ran any tests). assert ( not self.total or not self.context.predictable or self.printed_allocations ) def _VerbosePrint(self, text): if self.context.verbose: print text sys.stdout.flush() def GetCommand(self, test): d8testflag = [] shell = test.suite.shell() if shell == "d8": d8testflag = ["--test"] if utils.IsWindows(): shell += ".exe" cmd = (self.context.command_prefix + [os.path.abspath(os.path.join(self.context.shell_dir, shell))] + d8testflag + ["--random-seed=%s" % self.context.random_seed] + test.suite.GetFlagsForTestCase(test, self.context) + self.context.extra_flags) return cmd class BreakNowException(Exception): def __init__(self, value): self.value = value def __str__(self): return repr(self.value)