#!/usr/bin/env python # Copyright 2014 the V8 project authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """ Performance runner for d8. Call e.g. with tools/run-perf.py --arch ia32 some_suite.json The suite json format is expected to be: { "path": , "name": , "archs": [, ...], "binary": , "flags": [, ...], "test_flags": [, ...], "run_count": , "run_count_XXX": , "resources": [, ...] "main":
, "results_regexp": , "results_processor": , "units": , "process_size": , "tests": [ { "name": , "results_regexp": , "results_processor": , "units": , "process_size": , }, ... ] } The tests field can also nest other suites in arbitrary depth. A suite with a "main" file is a leaf suite that can contain one more level of tests. A suite's results_regexp is expected to have one string place holder "%s" for the trace name. A trace's results_regexp overwrites suite defaults. A suite's results_processor may point to an optional python script. If specified, it is called after running the tests (with a path relative to the suite level's path). It is expected to read the measurement's output text on stdin and print the processed output to stdout. The results_regexp will be applied to the processed output. A suite without "tests" is considered a performance test itself. Full example (suite with one runner): { "path": ["."], "flags": ["--expose-gc"], "test_flags": ["5"], "archs": ["ia32", "x64"], "run_count": 5, "run_count_ia32": 3, "main": "run.js", "results_regexp": "^%s: (.+)$", "units": "score", "tests": [ {"name": "Richards"}, {"name": "DeltaBlue"}, {"name": "NavierStokes", "results_regexp": "^NavierStokes: (.+)$"} ] } Full example (suite with several runners): { "path": ["."], "flags": ["--expose-gc"], "archs": ["ia32", "x64"], "run_count": 5, "units": "score", "tests": [ {"name": "Richards", "path": ["richards"], "main": "run.js", "run_count": 3, "results_regexp": "^Richards: (.+)$"}, {"name": "NavierStokes", "path": ["navier_stokes"], "main": "run.js", "results_regexp": "^NavierStokes: (.+)$"} ] } Path pieces are concatenated. D8 is always run with the suite's path as cwd. The test flags are passed to the js test file after '--'. """ from collections import OrderedDict import json import logging import math import optparse import os import re import subprocess import sys from testrunner.local import command from testrunner.local import utils ARCH_GUESS = utils.DefaultArch() SUPPORTED_ARCHS = ["arm", "ia32", "mips", "mipsel", "x64", "arm64"] GENERIC_RESULTS_RE = re.compile(r"^RESULT ([^:]+): ([^=]+)= ([^ ]+) ([^ ]*)$") RESULT_STDDEV_RE = re.compile(r"^\{([^\}]+)\}$") RESULT_LIST_RE = re.compile(r"^\[([^\]]+)\]$") TOOLS_BASE = os.path.abspath(os.path.dirname(__file__)) def LoadAndroidBuildTools(path): # pragma: no cover assert os.path.exists(path) sys.path.insert(0, path) import devil_chromium from devil.android import device_errors # pylint: disable=import-error from devil.android import device_utils # pylint: disable=import-error from devil.android.sdk import adb_wrapper # pylint: disable=import-error from devil.android.perf import cache_control # pylint: disable=import-error from devil.android.perf import perf_control # pylint: disable=import-error global adb_wrapper global cache_control global device_errors global device_utils global perf_control devil_chromium.Initialize() def GeometricMean(values): """Returns the geometric mean of a list of values. The mean is calculated using log to avoid overflow. """ values = map(float, values) return str(math.exp(sum(map(math.log, values)) / len(values))) class Results(object): """Place holder for result traces.""" def __init__(self, traces=None, errors=None): self.traces = traces or [] self.errors = errors or [] def ToDict(self): return {"traces": self.traces, "errors": self.errors} def WriteToFile(self, file_name): with open(file_name, "w") as f: f.write(json.dumps(self.ToDict())) def __add__(self, other): self.traces += other.traces self.errors += other.errors return self def __str__(self): # pragma: no cover return str(self.ToDict()) class Measurement(object): """Represents a series of results of one trace. The results are from repetitive runs of the same executable. They are gathered by repeated calls to ConsumeOutput. """ def __init__(self, graphs, units, results_regexp, stddev_regexp): self.name = '/'.join(graphs) self.graphs = graphs self.units = units self.results_regexp = results_regexp self.stddev_regexp = stddev_regexp self.results = [] self.errors = [] self.stddev = "" self.process_size = False def ConsumeOutput(self, stdout): try: result = re.search(self.results_regexp, stdout, re.M).group(1) self.results.append(str(float(result))) except ValueError: self.errors.append("Regexp \"%s\" returned a non-numeric for test %s." % (self.results_regexp, self.name)) except: self.errors.append("Regexp \"%s\" didn't match for test %s." % (self.results_regexp, self.name)) try: if self.stddev_regexp and self.stddev: self.errors.append("Test %s should only run once since a stddev " "is provided by the test." % self.name) if self.stddev_regexp: self.stddev = re.search(self.stddev_regexp, stdout, re.M).group(1) except: self.errors.append("Regexp \"%s\" didn't match for test %s." % (self.stddev_regexp, self.name)) def GetResults(self): return Results([{ "graphs": self.graphs, "units": self.units, "results": self.results, "stddev": self.stddev, }], self.errors) class NullMeasurement(object): """Null object to avoid having extra logic for configurations that don't require secondary run, e.g. CI bots. """ def ConsumeOutput(self, stdout): pass def GetResults(self): return Results() def Unzip(iterable): left = [] right = [] for l, r in iterable: left.append(l) right.append(r) return lambda: iter(left), lambda: iter(right) def RunResultsProcessor(results_processor, stdout, count): # Dummy pass through for null-runs. if stdout is None: return None # We assume the results processor is relative to the suite. assert os.path.exists(results_processor) p = subprocess.Popen( [sys.executable, results_processor], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE, ) result, _ = p.communicate(input=stdout) print ">>> Processed stdout (#%d):" % count print result return result def AccumulateResults( graph_names, trace_configs, iter_output, perform_measurement, calc_total): """Iterates over the output of multiple benchmark reruns and accumulates results for a configured list of traces. Args: graph_names: List of names that configure the base path of the traces. E.g. ['v8', 'Octane']. trace_configs: List of "TraceConfig" instances. Each trace config defines how to perform a measurement. iter_output: Iterator over the standard output of each test run. perform_measurement: Whether to actually run tests and perform measurements. This is needed so that we reuse this script for both CI and trybot, but want to ignore second run on CI without having to spread this logic throughout the script. calc_total: Boolean flag to speficy the calculation of a summary trace. Returns: A "Results" object. """ measurements = [ trace.CreateMeasurement(perform_measurement) for trace in trace_configs] for stdout in iter_output(): for measurement in measurements: measurement.ConsumeOutput(stdout) res = reduce(lambda r, m: r + m.GetResults(), measurements, Results()) if not res.traces or not calc_total: return res # Assume all traces have the same structure. if len(set(map(lambda t: len(t["results"]), res.traces))) != 1: res.errors.append("Not all traces have the same number of results.") return res # Calculate the geometric means for all traces. Above we made sure that # there is at least one trace and that the number of results is the same # for each trace. n_results = len(res.traces[0]["results"]) total_results = [GeometricMean(t["results"][i] for t in res.traces) for i in range(0, n_results)] res.traces.append({ "graphs": graph_names + ["Total"], "units": res.traces[0]["units"], "results": total_results, "stddev": "", }) return res def AccumulateGenericResults(graph_names, suite_units, iter_output): """Iterates over the output of multiple benchmark reruns and accumulates generic results. Args: graph_names: List of names that configure the base path of the traces. E.g. ['v8', 'Octane']. suite_units: Measurement default units as defined by the benchmark suite. iter_output: Iterator over the standard output of each test run. Returns: A "Results" object. """ traces = OrderedDict() for stdout in iter_output(): if stdout is None: # The None value is used as a null object to simplify logic. continue for line in stdout.strip().splitlines(): match = GENERIC_RESULTS_RE.match(line) if match: stddev = "" graph = match.group(1) trace = match.group(2) body = match.group(3) units = match.group(4) match_stddev = RESULT_STDDEV_RE.match(body) match_list = RESULT_LIST_RE.match(body) errors = [] if match_stddev: result, stddev = map(str.strip, match_stddev.group(1).split(",")) results = [result] elif match_list: results = map(str.strip, match_list.group(1).split(",")) else: results = [body.strip()] try: results = map(lambda r: str(float(r)), results) except ValueError: results = [] errors = ["Found non-numeric in %s" % "/".join(graph_names + [graph, trace])] trace_result = traces.setdefault(trace, Results([{ "graphs": graph_names + [graph, trace], "units": (units or suite_units).strip(), "results": [], "stddev": "", }], errors)) trace_result.traces[0]["results"].extend(results) trace_result.traces[0]["stddev"] = stddev return reduce(lambda r, t: r + t, traces.itervalues(), Results()) class Node(object): """Represents a node in the suite tree structure.""" def __init__(self, *args): self._children = [] def AppendChild(self, child): self._children.append(child) class DefaultSentinel(Node): """Fake parent node with all default values.""" def __init__(self, binary = "d8"): super(DefaultSentinel, self).__init__() self.binary = binary self.run_count = 10 self.timeout = 60 self.path = [] self.graphs = [] self.flags = [] self.test_flags = [] self.process_size = False self.resources = [] self.results_processor = None self.results_regexp = None self.stddev_regexp = None self.units = "score" self.total = False class GraphConfig(Node): """Represents a suite definition. Can either be a leaf or an inner node that provides default values. """ def __init__(self, suite, parent, arch): super(GraphConfig, self).__init__() self._suite = suite assert isinstance(suite.get("path", []), list) assert isinstance(suite["name"], basestring) assert isinstance(suite.get("flags", []), list) assert isinstance(suite.get("test_flags", []), list) assert isinstance(suite.get("resources", []), list) # Accumulated values. self.path = parent.path[:] + suite.get("path", []) self.graphs = parent.graphs[:] + [suite["name"]] self.flags = parent.flags[:] + suite.get("flags", []) self.test_flags = parent.test_flags[:] + suite.get("test_flags", []) # Values independent of parent node. self.resources = suite.get("resources", []) # Descrete values (with parent defaults). self.binary = suite.get("binary", parent.binary) self.run_count = suite.get("run_count", parent.run_count) self.run_count = suite.get("run_count_%s" % arch, self.run_count) self.timeout = suite.get("timeout", parent.timeout) self.timeout = suite.get("timeout_%s" % arch, self.timeout) self.units = suite.get("units", parent.units) self.total = suite.get("total", parent.total) self.results_processor = suite.get( "results_processor", parent.results_processor) self.process_size = suite.get("process_size", parent.process_size) # A regular expression for results. If the parent graph provides a # regexp and the current suite has none, a string place holder for the # suite name is expected. # TODO(machenbach): Currently that makes only sense for the leaf level. # Multiple place holders for multiple levels are not supported. if parent.results_regexp: regexp_default = parent.results_regexp % re.escape(suite["name"]) else: regexp_default = None self.results_regexp = suite.get("results_regexp", regexp_default) # A similar regular expression for the standard deviation (optional). if parent.stddev_regexp: stddev_default = parent.stddev_regexp % re.escape(suite["name"]) else: stddev_default = None self.stddev_regexp = suite.get("stddev_regexp", stddev_default) class TraceConfig(GraphConfig): """Represents a leaf in the suite tree structure.""" def __init__(self, suite, parent, arch): super(TraceConfig, self).__init__(suite, parent, arch) assert self.results_regexp def CreateMeasurement(self, perform_measurement): if not perform_measurement: return NullMeasurement() return Measurement( self.graphs, self.units, self.results_regexp, self.stddev_regexp, ) class RunnableConfig(GraphConfig): """Represents a runnable suite definition (i.e. has a main file). """ @property def main(self): return self._suite.get("main", "") def PostProcess(self, stdouts_iter): if self.results_processor: def it(): for i, stdout in enumerate(stdouts_iter()): yield RunResultsProcessor(self.results_processor, stdout, i + 1) return it else: return stdouts_iter def ChangeCWD(self, suite_path): """Changes the cwd to to path defined in the current graph. The tests are supposed to be relative to the suite configuration. """ suite_dir = os.path.abspath(os.path.dirname(suite_path)) bench_dir = os.path.normpath(os.path.join(*self.path)) os.chdir(os.path.join(suite_dir, bench_dir)) def GetCommandFlags(self, extra_flags=None): suffix = ["--"] + self.test_flags if self.test_flags else [] return self.flags + (extra_flags or []) + [self.main] + suffix def GetCommand(self, cmd_prefix, shell_dir, extra_flags=None): # TODO(machenbach): This requires +.exe if run on windows. extra_flags = extra_flags or [] if self.binary != 'd8' and '--prof' in extra_flags: print "Profiler supported only on a benchmark run with d8" if self.process_size: cmd_prefix = ["/usr/bin/time", "--format=MaxMemory: %MKB"] + cmd_prefix if self.binary.endswith('.py'): # Copy cmd_prefix instead of update (+=). cmd_prefix = cmd_prefix + [sys.executable] return command.Command( cmd_prefix=cmd_prefix, shell=os.path.join(shell_dir, self.binary), args=self.GetCommandFlags(extra_flags=extra_flags), timeout=self.timeout or 60) def Run(self, runner, trybot): """Iterates over several runs and handles the output for all traces.""" stdout, stdout_secondary = Unzip(runner()) return ( AccumulateResults( self.graphs, self._children, iter_output=self.PostProcess(stdout), perform_measurement=True, calc_total=self.total, ), AccumulateResults( self.graphs, self._children, iter_output=self.PostProcess(stdout_secondary), perform_measurement=trybot, # only run second time on trybots calc_total=self.total, ), ) class RunnableTraceConfig(TraceConfig, RunnableConfig): """Represents a runnable suite definition that is a leaf.""" def __init__(self, suite, parent, arch): super(RunnableTraceConfig, self).__init__(suite, parent, arch) def Run(self, runner, trybot): """Iterates over several runs and handles the output.""" measurement = self.CreateMeasurement(perform_measurement=True) measurement_secondary = self.CreateMeasurement(perform_measurement=trybot) for stdout, stdout_secondary in runner(): measurement.ConsumeOutput(stdout) measurement_secondary.ConsumeOutput(stdout_secondary) return ( measurement.GetResults(), measurement_secondary.GetResults(), ) class RunnableGenericConfig(RunnableConfig): """Represents a runnable suite definition with generic traces.""" def __init__(self, suite, parent, arch): super(RunnableGenericConfig, self).__init__(suite, parent, arch) def Run(self, runner, trybot): stdout, stdout_secondary = Unzip(runner()) return ( AccumulateGenericResults(self.graphs, self.units, stdout), AccumulateGenericResults(self.graphs, self.units, stdout_secondary), ) def MakeGraphConfig(suite, arch, parent): """Factory method for making graph configuration objects.""" if isinstance(parent, RunnableConfig): # Below a runnable can only be traces. return TraceConfig(suite, parent, arch) elif suite.get("main") is not None: # A main file makes this graph runnable. Empty strings are accepted. if suite.get("tests"): # This graph has subgraphs (traces). return RunnableConfig(suite, parent, arch) else: # This graph has no subgraphs, it's a leaf. return RunnableTraceConfig(suite, parent, arch) elif suite.get("generic"): # This is a generic suite definition. It is either a runnable executable # or has a main js file. return RunnableGenericConfig(suite, parent, arch) elif suite.get("tests"): # This is neither a leaf nor a runnable. return GraphConfig(suite, parent, arch) else: # pragma: no cover raise Exception("Invalid suite configuration.") def BuildGraphConfigs(suite, arch, parent): """Builds a tree structure of graph objects that corresponds to the suite configuration. """ # TODO(machenbach): Implement notion of cpu type? if arch not in suite.get("archs", SUPPORTED_ARCHS): return None graph = MakeGraphConfig(suite, arch, parent) for subsuite in suite.get("tests", []): BuildGraphConfigs(subsuite, arch, graph) parent.AppendChild(graph) return graph def FlattenRunnables(node, node_cb): """Generator that traverses the tree structure and iterates over all runnables. """ node_cb(node) if isinstance(node, RunnableConfig): yield node elif isinstance(node, Node): for child in node._children: for result in FlattenRunnables(child, node_cb): yield result else: # pragma: no cover raise Exception("Invalid suite configuration.") class Platform(object): def __init__(self, options): self.shell_dir = options.shell_dir self.shell_dir_secondary = options.shell_dir_secondary self.extra_flags = options.extra_flags.split() @staticmethod def GetPlatform(options): if options.android_build_tools: return AndroidPlatform(options) else: return DesktopPlatform(options) def _Run(self, runnable, count, secondary=False): raise NotImplementedError() # pragma: no cover def Run(self, runnable, count): """Execute the benchmark's main file. If options.shell_dir_secondary is specified, the benchmark is run twice, e.g. with and without patch. Args: runnable: A Runnable benchmark instance. count: The number of this (repeated) run. Returns: A tuple with the two benchmark outputs. The latter will be None if options.shell_dir_secondary was not specified. """ stdout = self._Run(runnable, count, secondary=False) if self.shell_dir_secondary: return stdout, self._Run(runnable, count, secondary=True) else: return stdout, None class DesktopPlatform(Platform): def __init__(self, options): super(DesktopPlatform, self).__init__(options) self.command_prefix = [] if options.prioritize or options.affinitize != None: self.command_prefix = ["schedtool"] if options.prioritize: self.command_prefix += ["-n", "-20"] if options.affinitize != None: # schedtool expects a bit pattern when setting affinity, where each # bit set to '1' corresponds to a core where the process may run on. # First bit corresponds to CPU 0. Since the 'affinitize' parameter is # a core number, we need to map to said bit pattern. cpu = int(options.affinitize) core = 1 << cpu self.command_prefix += ["-a", ("0x%x" % core)] self.command_prefix += ["-e"] def PreExecution(self): pass def PostExecution(self): pass def PreTests(self, node, path): if isinstance(node, RunnableConfig): node.ChangeCWD(path) def _Run(self, runnable, count, secondary=False): suffix = ' - secondary' if secondary else '' shell_dir = self.shell_dir_secondary if secondary else self.shell_dir title = ">>> %%s (#%d)%s:" % ((count + 1), suffix) cmd = runnable.GetCommand(self.command_prefix, shell_dir, self.extra_flags) try: output = cmd.execute() except OSError as e: # pragma: no cover print title % "OSError" print e return "" print title % "Stdout" print output.stdout if output.stderr: # pragma: no cover # Print stderr for debugging. print title % "Stderr" print output.stderr if output.timed_out: print ">>> Test timed out after %ss." % runnable.timeout if '--prof' in self.extra_flags: os_prefix = {"linux": "linux", "macos": "mac"}.get(utils.GuessOS()) if os_prefix: tick_tools = os.path.join(TOOLS_BASE, "%s-tick-processor" % os_prefix) subprocess.check_call(tick_tools + " --only-summary", shell=True) else: # pragma: no cover print "Profiler option currently supported on Linux and Mac OS." # time outputs to stderr if runnable.process_size: return output.stdout + output.stderr return output.stdout class AndroidPlatform(Platform): # pragma: no cover DEVICE_DIR = "/data/local/tmp/v8/" def __init__(self, options): super(AndroidPlatform, self).__init__(options) LoadAndroidBuildTools(options.android_build_tools) if not options.device: # Detect attached device if not specified. devices = adb_wrapper.AdbWrapper.Devices() assert devices and len(devices) == 1, ( "None or multiple devices detected. Please specify the device on " "the command-line with --device") options.device = str(devices[0]) self.adb_wrapper = adb_wrapper.AdbWrapper(options.device) self.device = device_utils.DeviceUtils(self.adb_wrapper) def PreExecution(self): perf = perf_control.PerfControl(self.device) perf.SetHighPerfMode() # Remember what we have already pushed to the device. self.pushed = set() def PostExecution(self): perf = perf_control.PerfControl(self.device) perf.SetDefaultPerfMode() self.device.RemovePath( AndroidPlatform.DEVICE_DIR, force=True, recursive=True) def _PushFile(self, host_dir, file_name, target_rel=".", skip_if_missing=False): file_on_host = os.path.join(host_dir, file_name) file_on_device_tmp = os.path.join( AndroidPlatform.DEVICE_DIR, "_tmp_", file_name) file_on_device = os.path.join( AndroidPlatform.DEVICE_DIR, target_rel, file_name) folder_on_device = os.path.dirname(file_on_device) # Only attempt to push files that exist. if not os.path.exists(file_on_host): if not skip_if_missing: logging.critical('Missing file on host: %s' % file_on_host) return # Only push files not yet pushed in one execution. if file_on_host in self.pushed: return else: self.pushed.add(file_on_host) # Work-around for "text file busy" errors. Push the files to a temporary # location and then copy them with a shell command. output = self.adb_wrapper.Push(file_on_host, file_on_device_tmp) # Success looks like this: "3035 KB/s (12512056 bytes in 4.025s)". # Errors look like this: "failed to copy ... ". if output and not re.search('^[0-9]', output.splitlines()[-1]): logging.critical('PUSH FAILED: ' + output) self.adb_wrapper.Shell("mkdir -p %s" % folder_on_device) self.adb_wrapper.Shell("cp %s %s" % (file_on_device_tmp, file_on_device)) def _PushExecutable(self, shell_dir, target_dir, binary): self._PushFile(shell_dir, binary, target_dir) # Push external startup data. Backwards compatible for revisions where # these files didn't exist. self._PushFile( shell_dir, "natives_blob.bin", target_dir, skip_if_missing=True, ) self._PushFile( shell_dir, "snapshot_blob.bin", target_dir, skip_if_missing=True, ) self._PushFile( shell_dir, "icudtl.dat", target_dir, skip_if_missing=True, ) def PreTests(self, node, path): if isinstance(node, RunnableConfig): node.ChangeCWD(path) suite_dir = os.path.abspath(os.path.dirname(path)) if node.path: bench_rel = os.path.normpath(os.path.join(*node.path)) bench_abs = os.path.join(suite_dir, bench_rel) else: bench_rel = "." bench_abs = suite_dir self._PushExecutable(self.shell_dir, "bin", node.binary) if self.shell_dir_secondary: self._PushExecutable( self.shell_dir_secondary, "bin_secondary", node.binary) if isinstance(node, RunnableConfig): self._PushFile(bench_abs, node.main, bench_rel) for resource in node.resources: self._PushFile(bench_abs, resource, bench_rel) def _Run(self, runnable, count, secondary=False): suffix = ' - secondary' if secondary else '' target_dir = "bin_secondary" if secondary else "bin" title = ">>> %%s (#%d)%s:" % ((count + 1), suffix) cache = cache_control.CacheControl(self.device) cache.DropRamCaches() binary_on_device = os.path.join( AndroidPlatform.DEVICE_DIR, target_dir, runnable.binary) cmd = [binary_on_device] + runnable.GetCommandFlags(self.extra_flags) # Relative path to benchmark directory. if runnable.path: bench_rel = os.path.normpath(os.path.join(*runnable.path)) else: bench_rel = "." try: output = self.device.RunShellCommand( cmd, cwd=os.path.join(AndroidPlatform.DEVICE_DIR, bench_rel), check_return=True, timeout=runnable.timeout, retries=0, ) stdout = "\n".join(output) print title % "Stdout" print stdout except device_errors.CommandTimeoutError: print ">>> Test timed out after %ss." % runnable.timeout stdout = "" if runnable.process_size: return stdout + "MaxMemory: Unsupported" return stdout class CustomMachineConfiguration: def __init__(self, disable_aslr = False, governor = None): self.aslr_backup = None self.governor_backup = None self.disable_aslr = disable_aslr self.governor = governor def __enter__(self): if self.disable_aslr: self.aslr_backup = CustomMachineConfiguration.GetASLR() CustomMachineConfiguration.SetASLR(0) if self.governor != None: self.governor_backup = CustomMachineConfiguration.GetCPUGovernor() CustomMachineConfiguration.SetCPUGovernor(self.governor) return self def __exit__(self, type, value, traceback): if self.aslr_backup != None: CustomMachineConfiguration.SetASLR(self.aslr_backup) if self.governor_backup != None: CustomMachineConfiguration.SetCPUGovernor(self.governor_backup) @staticmethod def GetASLR(): try: with open("/proc/sys/kernel/randomize_va_space", "r") as f: return int(f.readline().strip()) except Exception as e: print "Failed to get current ASLR settings." raise e @staticmethod def SetASLR(value): try: with open("/proc/sys/kernel/randomize_va_space", "w") as f: f.write(str(value)) except Exception as e: print "Failed to update ASLR to %s." % value print "Are we running under sudo?" raise e new_value = CustomMachineConfiguration.GetASLR() if value != new_value: raise Exception("Present value is %s" % new_value) @staticmethod def GetCPUCoresRange(): try: with open("/sys/devices/system/cpu/present", "r") as f: indexes = f.readline() r = map(int, indexes.split("-")) if len(r) == 1: return range(r[0], r[0] + 1) return range(r[0], r[1] + 1) except Exception as e: print "Failed to retrieve number of CPUs." raise e @staticmethod def GetCPUPathForId(cpu_index): ret = "/sys/devices/system/cpu/cpu" ret += str(cpu_index) ret += "/cpufreq/scaling_governor" return ret @staticmethod def GetCPUGovernor(): try: cpu_indices = CustomMachineConfiguration.GetCPUCoresRange() ret = None for cpu_index in cpu_indices: cpu_device = CustomMachineConfiguration.GetCPUPathForId(cpu_index) with open(cpu_device, "r") as f: # We assume the governors of all CPUs are set to the same value val = f.readline().strip() if ret == None: ret = val elif ret != val: raise Exception("CPU cores have differing governor settings") return ret except Exception as e: print "Failed to get the current CPU governor." print "Is the CPU governor disabled? Check BIOS." raise e @staticmethod def SetCPUGovernor(value): try: cpu_indices = CustomMachineConfiguration.GetCPUCoresRange() for cpu_index in cpu_indices: cpu_device = CustomMachineConfiguration.GetCPUPathForId(cpu_index) with open(cpu_device, "w") as f: f.write(value) except Exception as e: print "Failed to change CPU governor to %s." % value print "Are we running under sudo?" raise e cur_value = CustomMachineConfiguration.GetCPUGovernor() if cur_value != value: raise Exception("Could not set CPU governor. Present value is %s" % cur_value ) def Main(args): logging.getLogger().setLevel(logging.INFO) parser = optparse.OptionParser() parser.add_option("--android-build-tools", help="Path to chromium's build/android. Specifying this " "option will run tests using android platform.") parser.add_option("--arch", help=("The architecture to run tests for, " "'auto' or 'native' for auto-detect"), default="x64") parser.add_option("--buildbot", help="Adapt to path structure used on buildbots", default=False, action="store_true") parser.add_option("--device", help="The device ID to run Android tests on. If not given " "it will be autodetected.") parser.add_option("--extra-flags", help="Additional flags to pass to the test executable", default="") parser.add_option("--json-test-results", help="Path to a file for storing json results.") parser.add_option("--json-test-results-secondary", "--json-test-results-no-patch", # TODO(sergiyb): Deprecate. help="Path to a file for storing json results from run " "without patch or for reference build run.") parser.add_option("--outdir", help="Base directory with compile output", default="out") parser.add_option("--outdir-secondary", "--outdir-no-patch", # TODO(sergiyb): Deprecate. help="Base directory with compile output without patch or " "for reference build") parser.add_option("--binary-override-path", help="JavaScript engine binary. By default, d8 under " "architecture-specific build dir. " "Not supported in conjunction with outdir-secondary.") parser.add_option("--prioritize", help="Raise the priority to nice -20 for the benchmarking " "process.Requires Linux, schedtool, and sudo privileges.", default=False, action="store_true") parser.add_option("--affinitize", help="Run benchmarking process on the specified core. " "For example: " "--affinitize=0 will run the benchmark process on core 0. " "--affinitize=3 will run the benchmark process on core 3. " "Requires Linux, schedtool, and sudo privileges.", default=None) parser.add_option("--noaslr", help="Disable ASLR for the duration of the benchmarked " "process. Requires Linux and sudo privileges.", default=False, action="store_true") parser.add_option("--cpu-governor", help="Set cpu governor to specified policy for the " "duration of the benchmarked process. Typical options: " "'powersave' for more stable results, or 'performance' " "for shorter completion time of suite, with potentially " "more noise in results.") parser.add_option("--filter", help="Only run the benchmarks beginning with this string. " "For example: " "--filter=JSTests/TypedArrays/ will run only TypedArray " "benchmarks from the JSTests suite.", default="") (options, args) = parser.parse_args(args) if len(args) == 0: # pragma: no cover parser.print_help() return 1 if options.arch in ["auto", "native"]: # pragma: no cover options.arch = ARCH_GUESS if not options.arch in SUPPORTED_ARCHS: # pragma: no cover print "Unknown architecture %s" % options.arch return 1 if options.device and not options.android_build_tools: # pragma: no cover print "Specifying a device requires Android build tools." return 1 if (options.json_test_results_secondary and not options.outdir_secondary): # pragma: no cover print("For writing secondary json test results, a secondary outdir patch " "must be specified.") return 1 workspace = os.path.abspath(os.path.join(os.path.dirname(__file__), "..")) if options.buildbot: build_config = "Release" else: build_config = "%s.release" % options.arch if options.binary_override_path == None: options.shell_dir = os.path.join(workspace, options.outdir, build_config) default_binary_name = "d8" else: if not os.path.isfile(options.binary_override_path): print "binary-override-path must be a file name" return 1 if options.outdir_secondary: print "specify either binary-override-path or outdir-secondary" return 1 options.shell_dir = os.path.abspath( os.path.dirname(options.binary_override_path)) default_binary_name = os.path.basename(options.binary_override_path) if options.outdir_secondary: options.shell_dir_secondary = os.path.join( workspace, options.outdir_secondary, build_config) else: options.shell_dir_secondary = None if options.json_test_results: options.json_test_results = os.path.abspath(options.json_test_results) if options.json_test_results_secondary: options.json_test_results_secondary = os.path.abspath( options.json_test_results_secondary) # Ensure all arguments have absolute path before we start changing current # directory. args = map(os.path.abspath, args) prev_aslr = None prev_cpu_gov = None platform = Platform.GetPlatform(options) results = Results() results_secondary = Results() with CustomMachineConfiguration(governor = options.cpu_governor, disable_aslr = options.noaslr) as conf: for path in args: if not os.path.exists(path): # pragma: no cover results.errors.append("Configuration file %s does not exist." % path) continue with open(path) as f: suite = json.loads(f.read()) # If no name is given, default to the file name without .json. suite.setdefault("name", os.path.splitext(os.path.basename(path))[0]) # Setup things common to one test suite. platform.PreExecution() # Build the graph/trace tree structure. default_parent = DefaultSentinel(default_binary_name) root = BuildGraphConfigs(suite, options.arch, default_parent) # Callback to be called on each node on traversal. def NodeCB(node): platform.PreTests(node, path) # Traverse graph/trace tree and iterate over all runnables. for runnable in FlattenRunnables(root, NodeCB): runnable_name = "/".join(runnable.graphs) if not runnable_name.startswith(options.filter): continue print ">>> Running suite: %s" % runnable_name def Runner(): """Output generator that reruns several times.""" for i in xrange(0, max(1, runnable.run_count)): # TODO(machenbach): Allow timeout per arch like with run_count per # arch. yield platform.Run(runnable, i) # Let runnable iterate over all runs and handle output. result, result_secondary = runnable.Run( Runner, trybot=options.shell_dir_secondary) results += result results_secondary += result_secondary platform.PostExecution() if options.json_test_results: results.WriteToFile(options.json_test_results) else: # pragma: no cover print results if options.json_test_results_secondary: results_secondary.WriteToFile(options.json_test_results_secondary) else: # pragma: no cover print results_secondary return min(1, len(results.errors)) if __name__ == "__main__": # pragma: no cover sys.exit(Main(sys.argv[1:]))