func runBenchmark(fileInfoName, pathToPagesets, pathToPyFiles, localOutputDir, chromiumBuildName, chromiumBinary, runID, browserExtraArgs string) error {
pagesetBaseName := filepath.Base(fileInfoName)
if pagesetBaseName == util.TIMESTAMP_FILE_NAME || filepath.Ext(pagesetBaseName) == ".pyc" {
// Ignore timestamp files and .pyc files.
return nil
}
// Convert the filename into a format consumable by the run_benchmarks
// binary.
pagesetName := strings.TrimSuffix(pagesetBaseName, filepath.Ext(pagesetBaseName))
pagesetPath := filepath.Join(pathToPagesets, fileInfoName)
glog.Infof("===== Processing %s for %s =====", pagesetPath, runID)
skutil.LogErr(os.Chdir(pathToPyFiles))
args := []string{
util.BINARY_RUN_BENCHMARK,
fmt.Sprintf("%s.%s", *benchmarkName, util.BenchmarksToPagesetName[*benchmarkName]),
"--page-set-name=" + pagesetName,
"--page-set-base-dir=" + pathToPagesets,
"--also-run-disabled-tests",
}
// Need to capture output for all benchmarks.
outputDirArgValue := filepath.Join(localOutputDir, pagesetName)
args = append(args, "--output-dir="+outputDirArgValue)
// Figure out which browser should be used.
if *targetPlatform == util.PLATFORM_ANDROID {
if err := installChromeAPK(chromiumBuildName); err != nil {
return fmt.Errorf("Error while installing APK: %s", err)
}
args = append(args, "--browser=android-chrome-shell")
} else {
args = append(args, "--browser=exact", "--browser-executable="+chromiumBinary)
}
// Split benchmark args if not empty and append to args.
if *benchmarkExtraArgs != "" {
for _, benchmarkArg := range strings.Split(*benchmarkExtraArgs, " ") {
args = append(args, benchmarkArg)
}
}
// Add the number of times to repeat.
args = append(args, fmt.Sprintf("--page-repeat=%d", *repeatBenchmark))
// Add browserArgs if not empty to args.
if browserExtraArgs != "" {
args = append(args, "--extra-browser-args="+browserExtraArgs)
}
// Set the PYTHONPATH to the pagesets and the telemetry dirs.
env := []string{
fmt.Sprintf("PYTHONPATH=%s:%s:%s:$PYTHONPATH", pathToPagesets, util.TelemetryBinariesDir, util.TelemetrySrcDir),
"DISPLAY=:0",
}
timeoutSecs := util.PagesetTypeToInfo[*pagesetType].RunChromiumPerfTimeoutSecs
if err := util.ExecuteCmd("python", args, env, time.Duration(timeoutSecs)*time.Second, nil, nil); err != nil {
glog.Errorf("Run benchmark command failed with: %s", err)
glog.Errorf("Killing all running chrome processes in case there is a non-recoverable error.")
skutil.LogErr(util.ExecuteCmd("pkill", []string{"-9", "chrome"}, []string{}, 5*time.Minute, nil, nil))
}
return nil
}
func installChromeAPK(chromiumBuildName string) error {
// Install the APK on the Android device.
chromiumApk := filepath.Join(util.ChromiumBuildsDir, chromiumBuildName, util.ApkName)
glog.Infof("Installing the APK at %s", chromiumApk)
if err := util.ExecuteCmd(util.BINARY_ADB, []string{"install", "-r", chromiumApk}, []string{}, 15*time.Minute, nil, nil); err != nil {
return fmt.Errorf("Could not install the chromium APK at %s: %s", chromiumBuildName, err)
}
return nil
}
// SKPs are captured in parallel leading to multiple chrome instances coming up
// at the same time, when there are crashes chrome processes stick around which
// can severely impact the machine's performance. To stop this from
// happening chrome zombie processes are periodically killed.
func chromeProcessesCleaner(mutex *sync.RWMutex) {
for _ = range time.Tick(*chromeCleanerTimer) {
glog.Info("The chromeProcessesCleaner goroutine has started")
glog.Info("Waiting for all existing tasks to complete before killing zombie chrome processes")
mutex.Lock()
skutil.LogErr(util.ExecuteCmd("pkill", []string{"-9", "chrome"}, []string{},
util.PKILL_TIMEOUT, nil, nil))
mutex.Unlock()
}
}
func mergeUploadCSVFiles(localOutputDir, pathToPyFiles, runID, remoteDir string, gs *util.GsUtil) error {
// Move all results into a single directory.
fileInfos, err := ioutil.ReadDir(localOutputDir)
if err != nil {
return fmt.Errorf("Unable to read %s: %s", localOutputDir, err)
}
for _, fileInfo := range fileInfos {
if !fileInfo.IsDir() {
continue
}
outputFile := filepath.Join(localOutputDir, fileInfo.Name(), "results-pivot-table.csv")
newFile := filepath.Join(localOutputDir, fmt.Sprintf("%s.csv", fileInfo.Name()))
if err := os.Rename(outputFile, newFile); err != nil {
glog.Errorf("Could not rename %s to %s: %s", outputFile, newFile, err)
continue
}
// Add the rank of the page to the CSV file.
headers, values, err := getRowsFromCSV(newFile)
if err != nil {
glog.Errorf("Could not read %s: %s", newFile, err)
continue
}
pageRank := strings.Split(fileInfo.Name(), "_")[1]
for i := range headers {
for j := range values {
if headers[i] == "page" {
values[j][i] = fmt.Sprintf("%s (#%s)", values[j][i], pageRank)
}
}
}
if err := writeRowsToCSV(newFile, headers, values); err != nil {
glog.Errorf("Could not write to %s: %s", newFile, err)
continue
}
}
// Call csv_pivot_table_merger.py to merge all results into a single results CSV.
pathToCsvMerger := filepath.Join(pathToPyFiles, "csv_pivot_table_merger.py")
outputFileName := runID + ".output"
args := []string{
pathToCsvMerger,
"--csv_dir=" + localOutputDir,
"--output_csv_name=" + filepath.Join(localOutputDir, outputFileName),
}
err = util.ExecuteCmd("python", args, []string{}, util.CSV_PIVOT_TABLE_MERGER_TIMEOUT, nil,
nil)
if err != nil {
return fmt.Errorf("Error running csv_pivot_table_merger.py: %s", err)
}
// Copy the output file to Google Storage.
remoteOutputDir := filepath.Join(remoteDir, fmt.Sprintf("slave%d", *workerNum), "outputs")
if err := gs.UploadFile(outputFileName, localOutputDir, remoteOutputDir); err != nil {
return fmt.Errorf("Unable to upload %s to %s: %s", outputFileName, remoteOutputDir, err)
}
return nil
}
func mergeUploadCSVFiles(runID string, gs *util.GsUtil) error {
localOutputDir := filepath.Join(util.StorageDir, util.BenchmarkRunsDir, runID)
skutil.MkdirAll(localOutputDir, 0700)
// Copy outputs from all slaves locally.
for i := 0; i < util.NUM_WORKERS; i++ {
workerNum := i + 1
workerLocalOutputPath := filepath.Join(localOutputDir, fmt.Sprintf("slave%d", workerNum)+".csv")
workerRemoteOutputPath := filepath.Join(util.BenchmarkRunsDir, runID, fmt.Sprintf("slave%d", workerNum), "outputs", runID+".output")
respBody, err := gs.GetRemoteFileContents(workerRemoteOutputPath)
if err != nil {
glog.Errorf("Could not fetch %s: %s", workerRemoteOutputPath, err)
// TODO(rmistry): Should we instead return here? We can only return
// here if all 100 slaves reliably run without any failures which they
// really should.
continue
}
defer skutil.Close(respBody)
out, err := os.Create(workerLocalOutputPath)
if err != nil {
return fmt.Errorf("Unable to create file %s: %s", workerLocalOutputPath, err)
}
defer skutil.Close(out)
defer skutil.Remove(workerLocalOutputPath)
if _, err = io.Copy(out, respBody); err != nil {
return fmt.Errorf("Unable to copy to file %s: %s", workerLocalOutputPath, err)
}
}
// Call csv_merger.py to merge all results into a single results CSV.
_, currentFile, _, _ := runtime.Caller(0)
pathToPyFiles := filepath.Join(
filepath.Dir((filepath.Dir(filepath.Dir(filepath.Dir(currentFile))))),
"py")
pathToCsvMerger := filepath.Join(pathToPyFiles, "csv_merger.py")
outputFileName := runID + ".output"
args := []string{
pathToCsvMerger,
"--csv_dir=" + localOutputDir,
"--output_csv_name=" + filepath.Join(localOutputDir, outputFileName),
}
if err := util.ExecuteCmd("python", args, []string{}, 1*time.Hour, nil, nil); err != nil {
return fmt.Errorf("Error running csv_merger.py: %s", err)
}
// Copy the output file to Google Storage.
remoteOutputDir := filepath.Join(util.BenchmarkRunsDir, runID, "consolidated_outputs")
if err := gs.UploadFile(outputFileName, localOutputDir, remoteOutputDir); err != nil {
return fmt.Errorf("Unable to upload %s to %s: %s", outputFileName, remoteOutputDir, err)
}
return nil
}
func mergeUploadCSVFiles(runID string, gs *util.GsUtil) ([]string, error) {
localOutputDir := filepath.Join(util.StorageDir, util.BenchmarkRunsDir, runID)
skutil.MkdirAll(localOutputDir, 0700)
noOutputSlaves := []string{}
// Copy outputs from all slaves locally.
for i := 0; i < util.NumWorkers(); i++ {
workerNum := i + 1
workerLocalOutputPath := filepath.Join(localOutputDir, fmt.Sprintf("slave%d", workerNum)+".csv")
workerRemoteOutputPath := filepath.Join(util.BenchmarkRunsDir, runID, fmt.Sprintf("slave%d", workerNum), "outputs", runID+".output")
respBody, err := gs.GetRemoteFileContents(workerRemoteOutputPath)
if err != nil {
glog.Errorf("Could not fetch %s: %s", workerRemoteOutputPath, err)
noOutputSlaves = append(noOutputSlaves, fmt.Sprintf(util.WORKER_NAME_TEMPLATE, workerNum))
continue
}
defer skutil.Close(respBody)
out, err := os.Create(workerLocalOutputPath)
if err != nil {
return noOutputSlaves, fmt.Errorf("Unable to create file %s: %s", workerLocalOutputPath, err)
}
defer skutil.Close(out)
defer skutil.Remove(workerLocalOutputPath)
if _, err = io.Copy(out, respBody); err != nil {
return noOutputSlaves, fmt.Errorf("Unable to copy to file %s: %s", workerLocalOutputPath, err)
}
}
// Call csv_merger.py to merge all results into a single results CSV.
_, currentFile, _, _ := runtime.Caller(0)
pathToPyFiles := filepath.Join(
filepath.Dir((filepath.Dir(filepath.Dir(filepath.Dir(currentFile))))),
"py")
pathToCsvMerger := filepath.Join(pathToPyFiles, "csv_merger.py")
outputFileName := runID + ".output"
args := []string{
pathToCsvMerger,
"--csv_dir=" + localOutputDir,
"--output_csv_name=" + filepath.Join(localOutputDir, outputFileName),
}
err := util.ExecuteCmd("python", args, []string{}, util.CSV_MERGER_TIMEOUT, nil, nil)
if err != nil {
return noOutputSlaves, fmt.Errorf("Error running csv_merger.py: %s", err)
}
// Copy the output file to Google Storage.
remoteOutputDir := filepath.Join(util.BenchmarkRunsDir, runID, "consolidated_outputs")
if err := gs.UploadFile(outputFileName, localOutputDir, remoteOutputDir); err != nil {
return noOutputSlaves, fmt.Errorf("Unable to upload %s to %s: %s", outputFileName, remoteOutputDir, err)
}
return noOutputSlaves, nil
}
func runRenderPictures(localSkpsDir, localOutputDir, remoteOutputDir string, runGpu bool) error {
picturesArgs := *renderPicturesArgs
if runGpu {
glog.Info("Run with GPU has been specified. Using --config gpu.")
reg, _ := regexp.Compile("--config [a-zA-Z0-9]+")
picturesArgs = reg.ReplaceAllString(picturesArgs, "--config gpu")
}
skutil.MkdirAll(localOutputDir, 0700)
args := []string{
"-r", localSkpsDir,
"-w", localOutputDir,
"--writeJsonSummaryPath", filepath.Join(localOutputDir, "summary.json"),
"--imageBaseGSUrl", remoteOutputDir,
}
for _, picturesArg := range strings.Split(picturesArgs, " ") {
args = append(args, picturesArg)
}
if err := util.ExecuteCmd(filepath.Join(util.SkiaTreeDir, "out", "Release", util.BINARY_RENDER_PICTURES), args, []string{"DISPLAY=:0"}, 15*time.Minute, nil, nil); err != nil {
return fmt.Errorf("Failure when running render_pictures: %s", err)
}
return nil
}
// VerifyLocalDevice does not throw an error if an Android device is connected and
// online. An error is returned if either "adb" is not installed or if the Android
// device is offline or missing.
func VerifyLocalDevice() error {
// Run "adb version".
// Command should return without an error.
err := util.ExecuteCmd(util.BINARY_ADB, []string{"version"}, []string{},
util.ADB_VERSION_TIMEOUT, nil, nil)
if err != nil {
return fmt.Errorf("adb not installed or not found: %s", err)
}
// Run "adb devices | grep offline".
// Command should return with an error.
devicesCmd := exec.Command(util.BINARY_ADB, "devices")
offlineCmd := exec.Command("grep", "offline")
offlineCmd.Stdin, _ = devicesCmd.StdoutPipe()
offlineCmd.Stdout = skexec.WriteInfoLog
skutil.LogErr(offlineCmd.Start())
skutil.LogErr(devicesCmd.Run())
if err := offlineCmd.Wait(); err == nil {
// A nil error here means that an offline device was found.
return fmt.Errorf("Android device is offline: %s", err)
}
// Running "adb devices | grep device$
// Command should return without an error.
devicesCmd = exec.Command(util.BINARY_ADB, "devices")
missingCmd := exec.Command("grep", "device$")
missingCmd.Stdin, _ = devicesCmd.StdoutPipe()
missingCmd.Stdout = skexec.WriteInfoLog
skutil.LogErr(missingCmd.Start())
skutil.LogErr(devicesCmd.Run())
if err := missingCmd.Wait(); err != nil {
// An error here means that the device is missing.
return fmt.Errorf("Android device is missing: %s", err)
}
return nil
}
func main() {
defer common.LogPanic()
common.Init()
defer util.TimeTrack(time.Now(), "Creating Pagesets")
defer glog.Flush()
// Create the task file so that the master knows this worker is still busy.
skutil.LogErr(util.CreateTaskFile(util.ACTIVITY_CREATING_PAGESETS))
defer util.DeleteTaskFile(util.ACTIVITY_CREATING_PAGESETS)
// Delete and remake the local pagesets directory.
pathToPagesets := filepath.Join(util.PagesetsDir, *pagesetType)
skutil.RemoveAll(pathToPagesets)
skutil.MkdirAll(pathToPagesets, 0700)
// Get info about the specified pageset type.
pagesetTypeInfo := util.PagesetTypeToInfo[*pagesetType]
csvSource := pagesetTypeInfo.CSVSource
numPages := pagesetTypeInfo.NumPages
userAgent := pagesetTypeInfo.UserAgent
// Download the CSV file from Google Storage to a tmp location.
gs, err := util.NewGsUtil(nil)
if err != nil {
glog.Error(err)
return
}
respBody, err := gs.GetRemoteFileContents(csvSource)
if err != nil {
glog.Error(err)
return
}
defer skutil.Close(respBody)
csvFile := filepath.Join(os.TempDir(), filepath.Base(csvSource))
out, err := os.Create(csvFile)
if err != nil {
glog.Errorf("Unable to create file %s: %s", csvFile, err)
return
}
defer skutil.Close(out)
defer skutil.Remove(csvFile)
if _, err = io.Copy(out, respBody); err != nil {
glog.Error(err)
return
}
// Figure out which pagesets this worker should generate.
numPagesPerSlave := numPages / util.NUM_WORKERS
startNum := (*workerNum-1)*numPagesPerSlave + 1
endNum := *workerNum * numPagesPerSlave
// Construct path to the create_page_set.py python script.
_, currentFile, _, _ := runtime.Caller(0)
createPageSetScript := filepath.Join(
filepath.Dir((filepath.Dir(filepath.Dir(filepath.Dir(currentFile))))),
"py", "create_page_set.py")
// Execute the create_page_set.py python script.
timeoutSecs := util.PagesetTypeToInfo[*pagesetType].CreatePagesetsTimeoutSecs
for currNum := startNum; currNum <= endNum; currNum++ {
args := []string{
createPageSetScript,
"-s", strconv.Itoa(currNum),
"-e", strconv.Itoa(currNum),
"-c", csvFile,
"-p", *pagesetType,
"-u", userAgent,
"-o", pathToPagesets,
}
if err := util.ExecuteCmd("python", args, []string{}, time.Duration(timeoutSecs)*time.Second, nil, nil); err != nil {
glog.Error(err)
return
}
}
// Write timestamp to the pagesets dir.
skutil.LogErr(util.CreateTimestampFile(pathToPagesets))
// Upload pagesets dir to Google Storage.
if err := gs.UploadWorkerArtifacts(util.PAGESETS_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
}
func main() {
defer common.LogPanic()
worker_common.Init()
if !*worker_common.Local {
defer util.CleanTmpDir()
}
defer util.TimeTrack(time.Now(), "Capturing SKPs")
defer glog.Flush()
// Validate required arguments.
if *chromiumBuild == "" {
glog.Error("Must specify --chromium_build")
return
}
if *runID == "" {
glog.Error("Must specify --run_id")
return
}
if *targetPlatform == util.PLATFORM_ANDROID {
glog.Error("Android is not yet supported for capturing SKPs.")
return
}
// Reset the local chromium checkout.
if err := util.ResetCheckout(util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not reset %s: %s", util.ChromiumSrcDir, err)
return
}
// Sync the local chromium checkout.
if err := util.SyncDir(util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not gclient sync %s: %s", util.ChromiumSrcDir, err)
return
}
// Create the task file so that the master knows this worker is still busy.
skutil.LogErr(util.CreateTaskFile(util.ACTIVITY_CAPTURING_SKPS))
defer util.DeleteTaskFile(util.ACTIVITY_CAPTURING_SKPS)
// Instantiate GsUtil object.
gs, err := util.NewGsUtil(nil)
if err != nil {
glog.Error(err)
return
}
// Download the specified chromium build.
if err := gs.DownloadChromiumBuild(*chromiumBuild); err != nil {
glog.Error(err)
return
}
// Delete the chromium build to save space when we are done.
defer skutil.RemoveAll(filepath.Join(util.ChromiumBuildsDir, *chromiumBuild))
chromiumBinary := filepath.Join(util.ChromiumBuildsDir, *chromiumBuild, util.BINARY_CHROME)
if *targetPlatform == util.PLATFORM_ANDROID {
// Install the APK on the Android device.
if err := util.InstallChromeAPK(*chromiumBuild); err != nil {
glog.Errorf("Could not install the chromium APK: %s", err)
return
}
}
// Download pagesets if they do not exist locally.
if err := gs.DownloadWorkerArtifacts(util.PAGESETS_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
pathToPagesets := filepath.Join(util.PagesetsDir, *pagesetType)
// Download archives if they do not exist locally.
if err := gs.DownloadWorkerArtifacts(util.WEB_ARCHIVES_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
// Create the dir that SKPs will be stored in.
pathToSkps := filepath.Join(util.SkpsDir, *pagesetType, *chromiumBuild)
// Delete and remake the local SKPs directory.
skutil.RemoveAll(pathToSkps)
skutil.MkdirAll(pathToSkps, 0700)
// Establish output paths.
localOutputDir := filepath.Join(util.StorageDir, util.BenchmarkRunsDir, *runID)
skutil.RemoveAll(localOutputDir)
skutil.MkdirAll(localOutputDir, 0700)
defer skutil.RemoveAll(localOutputDir)
// Construct path to the ct_run_benchmark python script.
_, currentFile, _, _ := runtime.Caller(0)
pathToPyFiles := filepath.Join(
filepath.Dir((filepath.Dir(filepath.Dir(filepath.Dir(currentFile))))),
"py")
timeoutSecs := util.PagesetTypeToInfo[*pagesetType].CaptureSKPsTimeoutSecs
fileInfos, err := ioutil.ReadDir(pathToPagesets)
if err != nil {
glog.Errorf("Unable to read the pagesets dir %s: %s", pathToPagesets, err)
return
}
// Create channel that contains all pageset file names. This channel will
// be consumed by the worker pool.
pagesetRequests := util.GetClosedChannelOfPagesets(fileInfos)
var wg sync.WaitGroup
// Use a RWMutex for the chromeProcessesCleaner goroutine to communicate to
// the workers (acting as "readers") when it wants to be the "writer" and
// kill all zombie chrome processes.
var mutex sync.RWMutex
// Loop through workers in the worker pool.
for i := 0; i < WORKER_POOL_SIZE; i++ {
// Increment the WaitGroup counter.
wg.Add(1)
// Create and run a goroutine closure that captures SKPs.
go func() {
// Decrement the WaitGroup counter when the goroutine completes.
defer wg.Done()
for pagesetName := range pagesetRequests {
mutex.RLock()
// Read the pageset.
pagesetPath := filepath.Join(pathToPagesets, pagesetName)
decodedPageset, err := util.ReadPageset(pagesetPath)
if err != nil {
glog.Errorf("Could not read %s: %s", pagesetPath, err)
continue
}
glog.Infof("===== Processing %s =====", pagesetPath)
skutil.LogErr(os.Chdir(pathToPyFiles))
args := []string{
filepath.Join(util.TelemetryBinariesDir, util.BINARY_RUN_BENCHMARK),
util.BenchmarksToTelemetryName[util.BENCHMARK_SKPICTURE_PRINTER],
"--also-run-disabled-tests",
"--page-repeat=1", // Only need one run for SKPs.
"--skp-outdir=" + pathToSkps,
"--extra-browser-args=" + util.DEFAULT_BROWSER_ARGS,
"--user-agent=" + decodedPageset.UserAgent,
"--urls-list=" + decodedPageset.UrlsList,
"--archive-data-file=" + decodedPageset.ArchiveDataFile,
}
// Figure out which browser should be used.
if *targetPlatform == util.PLATFORM_ANDROID {
args = append(args, "--browser=android-chromium")
} else {
args = append(args, "--browser=exact", "--browser-executable="+chromiumBinary)
}
// Set the PYTHONPATH to the pagesets and the telemetry dirs.
env := []string{
fmt.Sprintf("PYTHONPATH=%s:%s:%s:$PYTHONPATH", pathToPagesets, util.TelemetryBinariesDir, util.TelemetrySrcDir),
"DISPLAY=:0",
}
skutil.LogErr(
util.ExecuteCmd("python", args, env, time.Duration(timeoutSecs)*time.Second, nil, nil))
mutex.RUnlock()
}
}()
}
if !*worker_common.Local {
// Start the cleaner.
go util.ChromeProcessesCleaner(&mutex, *chromeCleanerTimer)
}
// Wait for all spawned goroutines to complete.
wg.Wait()
// Move, validate and upload all SKP files.
// List all directories in pathToSkps and copy out the skps.
skpFileInfos, err := ioutil.ReadDir(pathToSkps)
if err != nil {
glog.Errorf("Unable to read %s: %s", pathToSkps, err)
return
}
for _, fileInfo := range skpFileInfos {
if !fileInfo.IsDir() {
// We are only interested in directories.
continue
}
skpName := fileInfo.Name()
// Find the largest layer in this directory.
layerInfos, err := ioutil.ReadDir(filepath.Join(pathToSkps, skpName))
if err != nil {
glog.Errorf("Unable to read %s: %s", filepath.Join(pathToSkps, skpName), err)
}
if len(layerInfos) > 0 {
largestLayerInfo := layerInfos[0]
for _, layerInfo := range layerInfos {
fmt.Println(layerInfo.Size())
if layerInfo.Size() > largestLayerInfo.Size() {
largestLayerInfo = layerInfo
}
}
// Only save SKPs greater than 6000 bytes. Less than that are probably
// malformed.
if largestLayerInfo.Size() > 6000 {
layerPath := filepath.Join(pathToSkps, skpName, largestLayerInfo.Name())
skutil.Rename(layerPath, filepath.Join(pathToSkps, skpName+".skp"))
} else {
glog.Warningf("Skipping %s because size was less than 5000 bytes", skpName)
}
}
// We extracted what we needed from the directory, now delete it.
skutil.RemoveAll(filepath.Join(pathToSkps, skpName))
}
glog.Info("Calling remove_invalid_skps.py")
// Sync Skia tree.
skutil.LogErr(util.SyncDir(util.SkiaTreeDir))
// Build tools.
skutil.LogErr(util.BuildSkiaTools())
// Run remove_invalid_skps.py
pathToRemoveSKPs := filepath.Join(pathToPyFiles, "remove_invalid_skps.py")
pathToSKPInfo := filepath.Join(util.SkiaTreeDir, "out", "Release", "skpinfo")
args := []string{
pathToRemoveSKPs,
"--skp_dir=" + pathToSkps,
"--path_to_skpinfo=" + pathToSKPInfo,
}
skutil.LogErr(util.ExecuteCmd("python", args, []string{}, util.REMOVE_INVALID_SKPS_TIMEOUT,
nil, nil))
// Write timestamp to the SKPs dir.
skutil.LogErr(util.CreateTimestampFile(pathToSkps))
// Upload SKPs dir to Google Storage.
if err := gs.UploadWorkerArtifacts(util.SKPS_DIR_NAME, filepath.Join(*pagesetType, *chromiumBuild), *workerNum); err != nil {
glog.Error(err)
return
}
}
func main() {
defer common.LogPanic()
common.Init()
defer util.TimeTrack(time.Now(), "Running Lua Scripts")
defer glog.Flush()
if *chromiumBuild == "" {
glog.Error("Must specify --chromium_build")
return
}
if *runID == "" {
glog.Error("Must specify --run_id")
return
}
// Create the task file so that the master knows this worker is still busy.
skutil.LogErr(util.CreateTaskFile(util.ACTIVITY_RUNNING_LUA_SCRIPTS))
defer util.DeleteTaskFile(util.ACTIVITY_RUNNING_LUA_SCRIPTS)
// Sync Skia tree.
skutil.LogErr(util.SyncDir(util.SkiaTreeDir))
// Build tools.
skutil.LogErr(util.BuildSkiaTools())
// Instantiate GsUtil object.
gs, err := util.NewGsUtil(nil)
if err != nil {
glog.Error(err)
return
}
// Download SKPs if they do not exist locally.
if err := gs.DownloadWorkerArtifacts(util.SKPS_DIR_NAME, filepath.Join(*pagesetType, *chromiumBuild), *workerNum); err != nil {
glog.Error(err)
return
}
localSkpsDir := filepath.Join(util.SkpsDir, *pagesetType, *chromiumBuild)
// Download the lua script for this run from Google storage.
luaScriptName := *runID + ".lua"
luaScriptLocalPath := filepath.Join(os.TempDir(), luaScriptName)
remoteDir := filepath.Join(util.LuaRunsDir, *runID)
luaScriptRemotePath := filepath.Join(remoteDir, "scripts", luaScriptName)
respBody, err := gs.GetRemoteFileContents(luaScriptRemotePath)
if err != nil {
glog.Errorf("Could not fetch %s: %s", luaScriptRemotePath, err)
return
}
defer skutil.Close(respBody)
out, err := os.Create(luaScriptLocalPath)
if err != nil {
glog.Errorf("Unable to create file %s: %s", luaScriptLocalPath, err)
return
}
defer skutil.Close(out)
defer skutil.Remove(luaScriptLocalPath)
if _, err = io.Copy(out, respBody); err != nil {
glog.Error(err)
return
}
// Run lua_pictures and save stdout and stderr in files.
stdoutFileName := *runID + ".output"
stdoutFilePath := filepath.Join(os.TempDir(), stdoutFileName)
stdoutFile, err := os.Create(stdoutFilePath)
defer skutil.Close(stdoutFile)
defer skutil.Remove(stdoutFilePath)
if err != nil {
glog.Errorf("Could not create %s: %s", stdoutFilePath, err)
return
}
stderrFileName := *runID + ".err"
stderrFilePath := filepath.Join(os.TempDir(), stderrFileName)
stderrFile, err := os.Create(stderrFilePath)
defer skutil.Close(stderrFile)
defer skutil.Remove(stderrFilePath)
if err != nil {
glog.Errorf("Could not create %s: %s", stderrFilePath, err)
return
}
args := []string{
"--skpPath", localSkpsDir,
"--luaFile", luaScriptLocalPath,
}
err = util.ExecuteCmd(
filepath.Join(util.SkiaTreeDir, "out", "Release", util.BINARY_LUA_PICTURES), args,
[]string{}, util.LUA_PICTURES_TIMEOUT, stdoutFile, stderrFile)
if err != nil {
glog.Error(err)
return
}
// Copy stdout and stderr files to Google Storage.
skutil.LogErr(
gs.UploadFile(stdoutFileName, os.TempDir(), filepath.Join(remoteDir, fmt.Sprintf("slave%d", *workerNum), "outputs")))
skutil.LogErr(
gs.UploadFile(stderrFileName, os.TempDir(), filepath.Join(remoteDir, fmt.Sprintf("slave%d", *workerNum), "errors")))
}
func main() {
common.Init()
defer util.CleanTmpDir()
defer util.TimeTrack(time.Now(), "Running Chromium Perf")
defer glog.Flush()
// Validate required arguments.
if *chromiumBuildNoPatch == "" {
glog.Error("Must specify --chromium_build_nopatch")
return
}
if *chromiumBuildWithPatch == "" {
glog.Error("Must specify --chromium_build_withpatch")
return
}
if *runIDNoPatch == "" {
glog.Error("Must specify --run_id_nopatch")
return
}
if *runIDWithPatch == "" {
glog.Error("Must specify --run_id_withpatch")
return
}
if *benchmarkName == "" {
glog.Error("Must specify --benchmark_name")
return
}
// Reset the local chromium checkout.
if err := util.ResetCheckout(util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not reset %s: %s", util.ChromiumSrcDir, err)
return
}
// Sync the local chromium checkout.
if err := util.SyncDir(util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not gclient sync %s: %s", util.ChromiumSrcDir, err)
return
}
// Create the task file so that the master knows this worker is still busy.
skutil.LogErr(util.CreateTaskFile(util.ACTIVITY_RUNNING_CHROMIUM_PERF))
defer util.DeleteTaskFile(util.ACTIVITY_RUNNING_CHROMIUM_PERF)
if *targetPlatform == util.PLATFORM_ANDROID {
if err := adb.VerifyLocalDevice(); err != nil {
// Android device missing or offline.
glog.Errorf("Could not find Android device: %s", err)
return
}
// Make sure adb shell is running as root.
skutil.LogErr(
util.ExecuteCmd(util.BINARY_ADB, []string{"root"}, []string{}, 5*time.Minute, nil, nil))
}
// Instantiate GsUtil object.
gs, err := util.NewGsUtil(nil)
if err != nil {
glog.Error(err)
return
}
// Download the specified chromium builds.
for _, chromiumBuild := range []string{*chromiumBuildNoPatch, *chromiumBuildWithPatch} {
if err := gs.DownloadChromiumBuild(chromiumBuild); err != nil {
glog.Error(err)
return
}
//Delete the chromium build to save space when we are done.
defer skutil.RemoveAll(filepath.Join(util.ChromiumBuildsDir, chromiumBuild))
}
chromiumBinaryNoPatch := filepath.Join(util.ChromiumBuildsDir, *chromiumBuildNoPatch, util.BINARY_CHROME)
chromiumBinaryWithPatch := filepath.Join(util.ChromiumBuildsDir, *chromiumBuildWithPatch, util.BINARY_CHROME)
// Download pagesets if they do not exist locally.
if err := gs.DownloadWorkerArtifacts(util.PAGESETS_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
pathToPagesets := filepath.Join(util.PagesetsDir, *pagesetType)
// Download archives if they do not exist locally.
if err := gs.DownloadWorkerArtifacts(util.WEB_ARCHIVES_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
// Establish nopatch output paths.
localOutputDirNoPatch := filepath.Join(util.StorageDir, util.BenchmarkRunsDir, *runIDNoPatch)
skutil.RemoveAll(localOutputDirNoPatch)
skutil.MkdirAll(localOutputDirNoPatch, 0700)
defer skutil.RemoveAll(localOutputDirNoPatch)
remoteDirNoPatch := filepath.Join(util.BenchmarkRunsDir, *runIDNoPatch)
// Establish withpatch output paths.
localOutputDirWithPatch := filepath.Join(util.StorageDir, util.BenchmarkRunsDir, *runIDWithPatch)
skutil.RemoveAll(localOutputDirWithPatch)
skutil.MkdirAll(localOutputDirWithPatch, 0700)
defer skutil.RemoveAll(localOutputDirWithPatch)
remoteDirWithPatch := filepath.Join(util.BenchmarkRunsDir, *runIDWithPatch)
// Construct path to the ct_run_benchmark python script.
_, currentFile, _, _ := runtime.Caller(0)
pathToPyFiles := filepath.Join(
filepath.Dir((filepath.Dir(filepath.Dir(filepath.Dir(currentFile))))),
"py")
fileInfos, err := ioutil.ReadDir(pathToPagesets)
if err != nil {
glog.Errorf("Unable to read the pagesets dir %s: %s", pathToPagesets, err)
return
}
// Loop through all pagesets and run once without the patch and once with the
// patch.
for _, fileInfo := range fileInfos {
if err := runBenchmark(fileInfo.Name(), pathToPagesets, pathToPyFiles, localOutputDirNoPatch, *chromiumBuildNoPatch, chromiumBinaryNoPatch, *runIDNoPatch, *browserExtraArgsNoPatch); err != nil {
glog.Errorf("Error while running nopatch benchmark: %s", err)
return
}
if err := runBenchmark(fileInfo.Name(), pathToPagesets, pathToPyFiles, localOutputDirWithPatch, *chromiumBuildWithPatch, chromiumBinaryWithPatch, *runIDWithPatch, *browserExtraArgsWithPatch); err != nil {
glog.Errorf("Error while running withpatch benchmark: %s", err)
return
}
}
// If "--output-format=csv-pivot-table" was specified then merge all CSV files and upload.
if strings.Contains(*benchmarkExtraArgs, "--output-format=csv-pivot-table") {
if err := mergeUploadCSVFiles(localOutputDirNoPatch, pathToPyFiles, *runIDNoPatch, remoteDirNoPatch, gs); err != nil {
glog.Errorf("Error while processing nopatch CSV files: %s", err)
return
}
if err := mergeUploadCSVFiles(localOutputDirWithPatch, pathToPyFiles, *runIDWithPatch, remoteDirWithPatch, gs); err != nil {
glog.Errorf("Error while processing withpatch CSV files: %s", err)
return
}
}
}
func main() {
common.Init()
webhook.MustInitRequestSaltFromFile(util.WebhookRequestSaltPath)
// Send start email.
emailsArr := util.ParseEmails(*emails)
emailsArr = append(emailsArr, util.CtAdmins...)
if len(emailsArr) == 0 {
glog.Error("At least one email address must be specified")
return
}
skutil.LogErr(util.SendTaskStartEmail(emailsArr, "Skia correctness"))
// Ensure webapp is updated and email is sent even if task fails.
defer updateWebappTask()
defer sendEmail(emailsArr)
// Cleanup tmp files after the run.
defer util.CleanTmpDir()
// Finish with glog flush and how long the task took.
defer util.TimeTrack(time.Now(), "Running skia correctness task on workers")
defer glog.Flush()
if *pagesetType == "" {
glog.Error("Must specify --pageset_type")
return
}
if *chromiumBuild == "" {
glog.Error("Must specify --chromium_build")
return
}
if *runID == "" {
glog.Error("Must specify --run_id")
return
}
// Instantiate GsUtil object.
gs, err := util.NewGsUtil(nil)
if err != nil {
glog.Error(err)
return
}
remoteOutputDir := filepath.Join(util.SkiaCorrectnessRunsDir, *runID)
// Copy the patch to Google Storage.
patchName := *runID + ".patch"
patchRemoteDir := filepath.Join(remoteOutputDir, "patches")
if err := gs.UploadFile(patchName, os.TempDir(), patchRemoteDir); err != nil {
glog.Errorf("Could not upload %s to %s: %s", patchName, patchRemoteDir, err)
return
}
skiaPatchLink = util.GS_HTTP_LINK + filepath.Join(util.GS_BUCKET_NAME, patchRemoteDir, patchName)
// Run the run_skia_correctness script on all workers.
runSkiaCorrCmdTemplate := "DISPLAY=:0 run_skia_correctness --worker_num={{.WorkerNum}} --log_dir={{.LogDir}} " +
"--pageset_type={{.PagesetType}} --chromium_build={{.ChromiumBuild}} --run_id={{.RunID}} " +
"--render_pictures_args=\"{{.RenderPicturesArgs}}\" --gpu_nopatch_run={{.GpuNoPatchRun}} " +
"--gpu_withpatch_run={{.GpuWithPatchRun}};"
runSkiaCorrTemplateParsed := template.Must(template.New("run_skia_correctness_cmd").Parse(runSkiaCorrCmdTemplate))
runSkiaCorrCmdBytes := new(bytes.Buffer)
if err := runSkiaCorrTemplateParsed.Execute(runSkiaCorrCmdBytes, struct {
WorkerNum string
LogDir string
PagesetType string
ChromiumBuild string
RunID string
RenderPicturesArgs string
GpuNoPatchRun string
GpuWithPatchRun string
}{
WorkerNum: util.WORKER_NUM_KEYWORD,
LogDir: util.GLogDir,
PagesetType: *pagesetType,
ChromiumBuild: *chromiumBuild,
RunID: *runID,
RenderPicturesArgs: *renderPicturesArgs,
GpuNoPatchRun: strconv.FormatBool(*gpuNoPatchRun),
GpuWithPatchRun: strconv.FormatBool(*gpuWithPatchRun),
}); err != nil {
glog.Errorf("Failed to execute template: %s", err)
return
}
cmd := []string{
fmt.Sprintf("cd %s;", util.CtTreeDir),
"git pull;",
"make all;",
// The main command that runs run_skia_correctness on all workers.
runSkiaCorrCmdBytes.String(),
}
if _, err := util.SSH(strings.Join(cmd, " "), util.Slaves, 4*time.Hour); err != nil {
glog.Errorf("Error while running cmd %s: %s", cmd, err)
return
}
localOutputDir := filepath.Join(util.StorageDir, util.SkiaCorrectnessRunsDir, *runID)
localSummariesDir := filepath.Join(localOutputDir, "summaries")
skutil.MkdirAll(localSummariesDir, 0700)
defer skutil.RemoveAll(filepath.Join(util.StorageDir, util.SkiaCorrectnessRunsDir))
// Copy outputs from all slaves locally.
for i := 0; i < util.NUM_WORKERS; i++ {
workerNum := i + 1
workerLocalOutputPath := filepath.Join(localSummariesDir, fmt.Sprintf("slave%d", workerNum)+".json")
workerRemoteOutputPath := filepath.Join(remoteOutputDir, fmt.Sprintf("slave%d", workerNum), fmt.Sprintf("slave%d", workerNum)+".json")
respBody, err := gs.GetRemoteFileContents(workerRemoteOutputPath)
if err != nil {
glog.Errorf("Could not fetch %s: %s", workerRemoteOutputPath, err)
// TODO(rmistry): Should we instead return here? We can only return
// here if all 100 slaves reliably run without any failures which they
// really should.
continue
}
defer skutil.Close(respBody)
out, err := os.Create(workerLocalOutputPath)
if err != nil {
glog.Errorf("Unable to create file %s: %s", workerLocalOutputPath, err)
return
}
defer skutil.Close(out)
defer skutil.Remove(workerLocalOutputPath)
if _, err = io.Copy(out, respBody); err != nil {
glog.Errorf("Unable to copy to file %s: %s", workerLocalOutputPath, err)
return
}
}
// Call json_summary_combiner.py to merge all results into a single results CSV.
_, currentFile, _, _ := runtime.Caller(0)
pathToPyFiles := filepath.Join(
filepath.Dir((filepath.Dir(filepath.Dir(filepath.Dir(currentFile))))),
"py")
pathToJsonCombiner := filepath.Join(pathToPyFiles, "json_summary_combiner.py")
localHtmlDir := filepath.Join(localOutputDir, "html")
remoteHtmlDir := filepath.Join(remoteOutputDir, "html")
baseHtmlLink := util.GS_HTTP_LINK + filepath.Join(util.GS_BUCKET_NAME, remoteHtmlDir) + "/"
htmlOutputLink = baseHtmlLink + "index.html"
skutil.MkdirAll(localHtmlDir, 0700)
args := []string{
pathToJsonCombiner,
"--json_summaries_dir=" + localSummariesDir,
"--output_html_dir=" + localHtmlDir,
"--absolute_url=" + baseHtmlLink,
"--render_pictures_args=" + *renderPicturesArgs,
"--nopatch_gpu=" + strconv.FormatBool(*gpuNoPatchRun),
"--withpatch_gpu=" + strconv.FormatBool(*gpuWithPatchRun),
}
if err := util.ExecuteCmd("python", args, []string{}, 1*time.Hour, nil, nil); err != nil {
glog.Errorf("Error running json_summary_combiner.py: %s", err)
return
}
// Copy the HTML files to Google Storage.
if err := gs.UploadDir(localHtmlDir, remoteHtmlDir, true); err != nil {
glog.Errorf("Could not upload %s to %s: %s", localHtmlDir, remoteHtmlDir, err)
return
}
taskCompletedSuccessfully = true
}
func main() {
common.Init()
webhook.MustInitRequestSaltFromFile(util.WebhookRequestSaltPath)
// Send start email.
emailsArr := util.ParseEmails(*emails)
emailsArr = append(emailsArr, util.CtAdmins...)
if len(emailsArr) == 0 {
glog.Error("At least one email address must be specified")
return
}
skutil.LogErr(frontend.UpdateWebappTaskSetStarted(&frontend.ChromiumPerfUpdateVars{}, *gaeTaskID))
skutil.LogErr(util.SendTaskStartEmail(emailsArr, "Chromium perf"))
// Ensure webapp is updated and email is sent even if task fails.
defer updateWebappTask()
defer sendEmail(emailsArr)
// Cleanup dirs after run completes.
defer skutil.RemoveAll(filepath.Join(util.StorageDir, util.ChromiumPerfRunsDir))
defer skutil.RemoveAll(filepath.Join(util.StorageDir, util.BenchmarkRunsDir))
// Cleanup tmp files after the run.
defer util.CleanTmpDir()
// Finish with glog flush and how long the task took.
defer util.TimeTrack(time.Now(), "Running chromium perf task on workers")
defer glog.Flush()
if *pagesetType == "" {
glog.Error("Must specify --pageset_type")
return
}
if *benchmarkName == "" {
glog.Error("Must specify --benchmark_name")
return
}
if *runID == "" {
glog.Error("Must specify --run_id")
return
}
// Instantiate GsUtil object.
gs, err := util.NewGsUtil(nil)
if err != nil {
glog.Errorf("Could not instantiate gsutil object: %s", err)
return
}
remoteOutputDir := filepath.Join(util.ChromiumPerfRunsDir, *runID)
// Copy the patches to Google Storage.
skiaPatchName := *runID + ".skia.patch"
blinkPatchName := *runID + ".blink.patch"
chromiumPatchName := *runID + ".chromium.patch"
for _, patchName := range []string{skiaPatchName, blinkPatchName, chromiumPatchName} {
if err := gs.UploadFile(patchName, os.TempDir(), remoteOutputDir); err != nil {
glog.Errorf("Could not upload %s to %s: %s", patchName, remoteOutputDir, err)
return
}
}
skiaPatchLink = util.GS_HTTP_LINK + filepath.Join(util.GS_BUCKET_NAME, remoteOutputDir, skiaPatchName)
blinkPatchLink = util.GS_HTTP_LINK + filepath.Join(util.GS_BUCKET_NAME, remoteOutputDir, blinkPatchName)
chromiumPatchLink = util.GS_HTTP_LINK + filepath.Join(util.GS_BUCKET_NAME, remoteOutputDir, chromiumPatchName)
// Create the two required chromium builds (with patch and without the patch).
chromiumHash, skiaHash, err := util.CreateChromiumBuild(*runID, *targetPlatform, "", "", true)
if err != nil {
glog.Errorf("Could not create chromium build: %s", err)
return
}
// Reboot all workers to start from a clean slate.
util.RebootWorkers()
// Run the run_chromium_perf script on all workers.
runIDNoPatch := *runID + "-nopatch"
runIDWithPatch := *runID + "-withpatch"
chromiumBuildNoPatch := fmt.Sprintf("try-%s-%s-%s", chromiumHash, skiaHash, runIDNoPatch)
chromiumBuildWithPatch := fmt.Sprintf("try-%s-%s-%s", chromiumHash, skiaHash, runIDWithPatch)
runChromiumPerfCmdTemplate := "DISPLAY=:0 run_chromium_perf " +
"--worker_num={{.WorkerNum}} --log_dir={{.LogDir}} --pageset_type={{.PagesetType}} " +
"--chromium_build_nopatch={{.ChromiumBuildNoPatch}} --chromium_build_withpatch={{.ChromiumBuildWithPatch}} " +
"--run_id_nopatch={{.RunIDNoPatch}} --run_id_withpatch={{.RunIDWithPatch}} " +
"--benchmark_name={{.BenchmarkName}} --benchmark_extra_args=\"{{.BenchmarkExtraArgs}}\" " +
"--browser_extra_args_nopatch=\"{{.BrowserExtraArgsNoPatch}}\" --browser_extra_args_withpatch=\"{{.BrowserExtraArgsWithPatch}}\" " +
"--repeat_benchmark={{.RepeatBenchmark}} --target_platform={{.TargetPlatform}};"
runChromiumPerfTemplateParsed := template.Must(template.New("run_chromium_perf_cmd").Parse(runChromiumPerfCmdTemplate))
runChromiumPerfCmdBytes := new(bytes.Buffer)
if err := runChromiumPerfTemplateParsed.Execute(runChromiumPerfCmdBytes, struct {
WorkerNum string
LogDir string
PagesetType string
ChromiumBuildNoPatch string
ChromiumBuildWithPatch string
RunIDNoPatch string
RunIDWithPatch string
BenchmarkName string
BenchmarkExtraArgs string
BrowserExtraArgsNoPatch string
BrowserExtraArgsWithPatch string
RepeatBenchmark int
TargetPlatform string
}{
WorkerNum: util.WORKER_NUM_KEYWORD,
LogDir: util.GLogDir,
PagesetType: *pagesetType,
ChromiumBuildNoPatch: chromiumBuildNoPatch,
ChromiumBuildWithPatch: chromiumBuildWithPatch,
RunIDNoPatch: runIDNoPatch,
RunIDWithPatch: runIDWithPatch,
BenchmarkName: *benchmarkName,
BenchmarkExtraArgs: *benchmarkExtraArgs,
BrowserExtraArgsNoPatch: *browserExtraArgsNoPatch,
BrowserExtraArgsWithPatch: *browserExtraArgsWithPatch,
RepeatBenchmark: *repeatBenchmark,
TargetPlatform: *targetPlatform,
}); err != nil {
glog.Errorf("Failed to execute template: %s", err)
return
}
cmd := []string{
fmt.Sprintf("cd %s;", util.CtTreeDir),
"git pull;",
"make all;",
// The main command that runs run_chromium_perf on all workers.
runChromiumPerfCmdBytes.String(),
}
// Setting a 1 day timeout since it may take a while run benchmarks with many
// repeats.
if _, err := util.SSH(strings.Join(cmd, " "), util.Slaves, 1*24*time.Hour); err != nil {
glog.Errorf("Error while running cmd %s: %s", cmd, err)
return
}
// If "--output-format=csv-pivot-table" was specified then merge all CSV files and upload.
if strings.Contains(*benchmarkExtraArgs, "--output-format=csv-pivot-table") {
for _, runID := range []string{runIDNoPatch, runIDWithPatch} {
if err := mergeUploadCSVFiles(runID, gs); err != nil {
glog.Errorf("Unable to merge and upload CSV files for %s: %s", runID, err)
}
}
}
// Compare the resultant CSV files using csv_comparer.py
noPatchCSVPath := filepath.Join(util.StorageDir, util.BenchmarkRunsDir, runIDNoPatch, runIDNoPatch+".output")
withPatchCSVPath := filepath.Join(util.StorageDir, util.BenchmarkRunsDir, runIDWithPatch, runIDWithPatch+".output")
htmlOutputDir := filepath.Join(util.StorageDir, util.ChromiumPerfRunsDir, *runID, "html")
skutil.MkdirAll(htmlOutputDir, 0700)
htmlRemoteDir := filepath.Join(remoteOutputDir, "html")
htmlOutputLinkBase := util.GS_HTTP_LINK + filepath.Join(util.GS_BUCKET_NAME, htmlRemoteDir) + "/"
htmlOutputLink = htmlOutputLinkBase + "index.html"
noPatchOutputLink = util.GS_HTTP_LINK + filepath.Join(util.GS_BUCKET_NAME, util.BenchmarkRunsDir, runIDNoPatch, "consolidated_outputs", runIDNoPatch+".output")
withPatchOutputLink = util.GS_HTTP_LINK + filepath.Join(util.GS_BUCKET_NAME, util.BenchmarkRunsDir, runIDWithPatch, "consolidated_outputs", runIDWithPatch+".output")
// Construct path to the csv_comparer python script.
_, currentFile, _, _ := runtime.Caller(0)
pathToPyFiles := filepath.Join(
filepath.Dir((filepath.Dir(filepath.Dir(filepath.Dir(currentFile))))),
"py")
pathToCsvComparer := filepath.Join(pathToPyFiles, "csv_comparer.py")
args := []string{
pathToCsvComparer,
"--csv_file1=" + noPatchCSVPath,
"--csv_file2=" + withPatchCSVPath,
"--output_html=" + htmlOutputDir,
"--variance_threshold=" + strconv.FormatFloat(*varianceThreshold, 'f', 2, 64),
"--discard_outliers=" + strconv.FormatFloat(*discardOutliers, 'f', 2, 64),
"--absolute_url=" + htmlOutputLinkBase,
"--requester_email=" + *emails,
"--skia_patch_link=" + skiaPatchLink,
"--blink_patch_link=" + blinkPatchLink,
"--chromium_patch_link=" + chromiumPatchLink,
"--raw_csv_nopatch=" + noPatchOutputLink,
"--raw_csv_withpatch=" + withPatchOutputLink,
"--num_repeated=" + strconv.Itoa(*repeatBenchmark),
"--target_platform=" + *targetPlatform,
"--browser_args_nopatch=" + *browserExtraArgsNoPatch,
"--browser_args_withpatch=" + *browserExtraArgsWithPatch,
"--pageset_type=" + *pagesetType,
"--chromium_hash=" + chromiumHash,
"--skia_hash=" + skiaHash,
}
if err := util.ExecuteCmd("python", args, []string{}, 2*time.Hour, nil, nil); err != nil {
glog.Errorf("Error running csv_comparer.py: %s", err)
return
}
// Copy the HTML files to Google Storage.
if err := gs.UploadDir(htmlOutputDir, htmlRemoteDir, true); err != nil {
glog.Errorf("Could not upload %s to %s: %s", htmlOutputDir, htmlRemoteDir, err)
return
}
taskCompletedSuccessfully = true
}
func main() {
defer common.LogPanic()
worker_common.Init()
defer util.TimeTrack(time.Now(), "Fixing archives")
defer glog.Flush()
// Create the task file so that the master knows this worker is still busy.
skutil.LogErr(util.CreateTaskFile(util.ACTIVITY_FIXING_ARCHIVES))
defer util.DeleteTaskFile(util.ACTIVITY_FIXING_ARCHIVES)
if *pagesetType == "" {
glog.Error("Must specify --pageset_type")
return
}
if *chromiumBuild == "" {
glog.Error("Must specify --chromium_build")
return
}
if *runID == "" {
glog.Error("Must specify --run_id")
return
}
// Reset the local chromium checkout.
if err := util.ResetCheckout(util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not reset %s: %s", util.ChromiumSrcDir, err)
return
}
// Sync the local chromium checkout.
if err := util.SyncDir(util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not gclient sync %s: %s", util.ChromiumSrcDir, err)
return
}
// Instantiate GsUtil object.
gs, err := util.NewGsUtil(nil)
if err != nil {
glog.Error(err)
return
}
// Download the specified chromium build.
if err := gs.DownloadChromiumBuild(*chromiumBuild); err != nil {
glog.Error(err)
return
}
// Delete the chromium build to save space when we are done.
defer skutil.RemoveAll(filepath.Join(util.ChromiumBuildsDir, *chromiumBuild))
chromiumBinary := filepath.Join(util.ChromiumBuildsDir, *chromiumBuild, util.BINARY_CHROME)
// Download pagesets if they do not exist locally.
if err := gs.DownloadWorkerArtifacts(util.PAGESETS_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
pathToPagesets := filepath.Join(util.PagesetsDir, *pagesetType)
// Download archives if they do not exist locally.
if err := gs.DownloadWorkerArtifacts(util.WEB_ARCHIVES_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
// Establish output paths.
localOutputDir := filepath.Join(util.StorageDir, util.FixArchivesRunsDir, *runID)
skutil.RemoveAll(localOutputDir)
skutil.MkdirAll(localOutputDir, 0700)
defer skutil.RemoveAll(localOutputDir)
// Construct path to the ct_run_benchmark python script.
_, currentFile, _, _ := runtime.Caller(0)
pathToPyFiles := filepath.Join(
filepath.Dir((filepath.Dir(filepath.Dir(filepath.Dir(currentFile))))),
"py")
timeoutSecs := util.PagesetTypeToInfo[*pagesetType].RunChromiumPerfTimeoutSecs
fileInfos, err := ioutil.ReadDir(pathToPagesets)
if err != nil {
glog.Errorf("Unable to read the pagesets dir %s: %s", pathToPagesets, err)
return
}
// Location of the WPR logs.
wprLogs := filepath.Join(util.ChromiumSrcDir, "webpagereplay_logs", "logs.txt")
// Slice that will contain
inconsistentArchives := []string{}
// Loop through all pagesets.
for _, fileInfo := range fileInfos {
benchmarkResults := []float64{}
resourceMissingCounts := []int{}
pagesetBaseName := filepath.Base(fileInfo.Name())
if pagesetBaseName == util.TIMESTAMP_FILE_NAME || filepath.Ext(pagesetBaseName) == ".pyc" {
// Ignore timestamp files and .pyc files.
continue
}
// Convert the filename into a format consumable by the run_benchmarks
// binary.
pagesetName := strings.TrimSuffix(pagesetBaseName, filepath.Ext(pagesetBaseName))
pagesetPath := filepath.Join(pathToPagesets, fileInfo.Name())
glog.Infof("===== Processing %s =====", pagesetPath)
// Repeat runs the specified number of times.
for repeatNum := 1; repeatNum <= *repeatBenchmark; repeatNum++ {
// Delete webpagereplay_logs before every run.
skutil.RemoveAll(wprLogs)
skutil.LogErr(os.Chdir(pathToPyFiles))
args := []string{
util.BINARY_RUN_BENCHMARK,
fmt.Sprintf("%s.%s", *benchmarkName, util.BenchmarksToTelemetryName[*benchmarkName]),
"--page-set-name=" + pagesetName,
"--page-set-base-dir=" + pathToPagesets,
"--also-run-disabled-tests",
}
// Add output dir.
outputDirArgValue := filepath.Join(localOutputDir, pagesetName, strconv.Itoa(repeatNum))
args = append(args, "--output-dir="+outputDirArgValue)
// Figure out which browser should be used.
args = append(args, "--browser=exact", "--browser-executable="+chromiumBinary)
// Split benchmark args if not empty and append to args.
if *benchmarkArgs != "" {
for _, benchmarkArg := range strings.Split(*benchmarkArgs, " ") {
args = append(args, benchmarkArg)
}
}
// Add browserArgs if not empty to args.
if *browserArgs != "" {
args = append(args, "--extra-browser-args="+*browserArgs)
}
// Set the PYTHONPATH to the pagesets and the telemetry dirs.
env := []string{
fmt.Sprintf("PYTHONPATH=%s:%s:%s:$PYTHONPATH", pathToPagesets, util.TelemetryBinariesDir, util.TelemetrySrcDir),
"DISPLAY=:0",
}
skutil.LogErr(
util.ExecuteCmd("python", args, env, time.Duration(timeoutSecs)*time.Second, nil, nil))
// Examine the results-pivot-table.csv file and store the mean frame time.
resultsCSV := filepath.Join(outputDirArgValue, "results-pivot-table.csv")
// TODO(rmistry): The format has changed from results.csv to results-pivot-table.csv
headers, values, err := getRowsFromCSV(resultsCSV)
if err != nil {
glog.Errorf("Could not read %s: %s", resultsCSV, err)
continue
}
for i := range headers {
if headers[i] == *benchmarkHeaderToCheck {
value, _ := strconv.ParseFloat(values[i], 64)
benchmarkResults = append(benchmarkResults, value)
break
}
}
// Find how many times "Could not replay" showed up in wprLogs.
content, err := ioutil.ReadFile(wprLogs)
if err != nil {
glog.Errorf("Could not read %s: %s", wprLogs, err)
continue
}
resourceMissingCount := strings.Count(string(content), "Could not replay")
resourceMissingCounts = append(resourceMissingCounts, resourceMissingCount)
}
glog.Infof("Benchmark results for %s are: %v", fileInfo.Name(), benchmarkResults)
percentageChange := getPercentageChange(benchmarkResults)
glog.Infof("Percentage change of results is: %f", percentageChange)
glog.Infof("\"Could not replay\" showed up %v times in %s", resourceMissingCounts, wprLogs)
maxResourceMissingCount := 0
for _, count := range resourceMissingCounts {
if maxResourceMissingCount < count {
maxResourceMissingCount = count
}
}
if percentageChange > *percentageChangeThreshold || maxResourceMissingCount > *resourceMissingCountThreshold {
glog.Infof("The archive for %s is inconsistent!", fileInfo.Name())
inconsistentArchives = append(inconsistentArchives, fmt.Sprintf("%s percentageChange: %f maxResourceMissingCount: %v", fileInfo.Name(), percentageChange, maxResourceMissingCount))
if *deletePageset {
// Delete the pageset.
skutil.RemoveAll(pagesetPath)
}
}
}
if len(inconsistentArchives) > 0 {
glog.Infof("%d archives are inconsistent!", len(inconsistentArchives))
glog.Infof("The list of inconsistentArchives is: %v", inconsistentArchives)
if *deletePageset {
// Write new timestamp to the pagesets dir.
skutil.RemoveAll(filepath.Join(pathToPagesets, util.TIMESTAMP_FILE_NAME))
skutil.LogErr(util.CreateTimestampFile(pathToPagesets))
// Inconsistent pagesets were deleted locally. Upload local pagesets dir
// to Google Storage.
if err := gs.UploadWorkerArtifacts(util.PAGESETS_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
}
}
}
func runBenchmark(fileInfoName, pathToPagesets, pathToPyFiles, localOutputDir, chromiumBuildName, chromiumBinary, runID, browserExtraArgs string) error {
pagesetBaseName := filepath.Base(fileInfoName)
if pagesetBaseName == util.TIMESTAMP_FILE_NAME || filepath.Ext(pagesetBaseName) == ".pyc" {
// Ignore timestamp files and .pyc files.
return nil
}
// Read the pageset.
pagesetName := strings.TrimSuffix(pagesetBaseName, filepath.Ext(pagesetBaseName))
pagesetPath := filepath.Join(pathToPagesets, fileInfoName)
decodedPageset, err := util.ReadPageset(pagesetPath)
if err != nil {
return fmt.Errorf("Could not read %s: %s", pagesetPath, err)
}
glog.Infof("===== Processing %s for %s =====", pagesetPath, runID)
benchmark, present := util.BenchmarksToTelemetryName[*benchmarkName]
if !present {
// If it is custom benchmark use the entered benchmark name.
benchmark = *benchmarkName
}
args := []string{
filepath.Join(util.TelemetryBinariesDir, util.BINARY_RUN_BENCHMARK),
benchmark,
"--also-run-disabled-tests",
"--user-agent=" + decodedPageset.UserAgent,
"--urls-list=" + decodedPageset.UrlsList,
"--archive-data-file=" + decodedPageset.ArchiveDataFile,
}
// Need to capture output for all benchmarks.
outputDirArgValue := filepath.Join(localOutputDir, pagesetName)
args = append(args, "--output-dir="+outputDirArgValue)
// Figure out which browser should be used.
if *targetPlatform == util.PLATFORM_ANDROID {
if err := util.InstallChromeAPK(chromiumBuildName); err != nil {
return fmt.Errorf("Error while installing APK: %s", err)
}
args = append(args, "--browser=android-chromium")
} else {
args = append(args, "--browser=exact", "--browser-executable="+chromiumBinary)
}
// Split benchmark args if not empty and append to args.
if *benchmarkExtraArgs != "" {
for _, benchmarkArg := range strings.Split(*benchmarkExtraArgs, " ") {
args = append(args, benchmarkArg)
}
}
// Add the number of times to repeat.
args = append(args, fmt.Sprintf("--page-repeat=%d", *repeatBenchmark))
// Add browserArgs if not empty to args.
if browserExtraArgs != "" {
args = append(args, "--extra-browser-args="+browserExtraArgs)
}
// Set the PYTHONPATH to the pagesets and the telemetry dirs.
env := []string{
fmt.Sprintf("PYTHONPATH=%s:%s:%s:$PYTHONPATH", pathToPagesets, util.TelemetryBinariesDir, util.TelemetrySrcDir),
"DISPLAY=:0",
}
timeoutSecs := util.PagesetTypeToInfo[*pagesetType].RunChromiumPerfTimeoutSecs
if err := util.ExecuteCmd("python", args, env, time.Duration(timeoutSecs)*time.Second, nil, nil); err != nil {
glog.Errorf("Run benchmark command failed with: %s", err)
}
return nil
}
func main() {
common.Init()
webhook.MustInitRequestSaltFromFile(util.WebhookRequestSaltPath)
// Send start email.
emailsArr := util.ParseEmails(*emails)
emailsArr = append(emailsArr, util.CtAdmins...)
if len(emailsArr) == 0 {
glog.Error("At least one email address must be specified")
return
}
skutil.LogErr(frontend.UpdateWebappTaskSetStarted(&frontend.ChromiumBuildUpdateVars{}, *gaeTaskID))
skutil.LogErr(util.SendTaskStartEmail(emailsArr, "Build chromium"))
// Ensure webapp is updated and completion email is sent even if task fails.
defer updateWebappTask()
defer sendEmail(emailsArr)
// Cleanup tmp files after the run.
defer util.CleanTmpDir()
// Finish with glog flush and how long the task took.
defer util.TimeTrack(time.Now(), "Running build chromium")
defer glog.Flush()
if *chromiumHash == "" {
glog.Error("Must specify --chromium_hash")
return
}
if *skiaHash == "" {
glog.Error("Must specify --skia_hash")
return
}
if _, _, err := util.CreateChromiumBuild("", *targetPlatform, *chromiumHash, *skiaHash, *applyPatches); err != nil {
glog.Errorf("Error while creating the Chromium build: %s", err)
return
}
// Find when the requested Chromium revision was submitted.
stdoutFileName := *runID + ".out"
stdoutFilePath := filepath.Join(os.TempDir(), stdoutFileName)
stdoutFile, err := os.Create(stdoutFilePath)
defer skutil.Close(stdoutFile)
defer skutil.Remove(stdoutFilePath)
if err != nil {
glog.Errorf("Could not create %s: %s", stdoutFilePath, err)
return
}
var chromiumBuildDir string
if *targetPlatform == "Android" {
chromiumBuildDir = filepath.Join(util.ChromiumBuildsDir, "android_base")
} else if *targetPlatform == "Linux" {
chromiumBuildDir = filepath.Join(util.ChromiumBuildsDir, "linux_base")
}
if err := os.Chdir(filepath.Join(chromiumBuildDir, "src")); err != nil {
glog.Errorf("Could not chdir to %s: %s", chromiumBuildDir, err)
return
}
// Run git log --pretty=format="%at" -1
if err := util.ExecuteCmd(util.BINARY_GIT, []string{"log", "--pretty=format:%at", "-1"}, []string{}, 5*time.Minute, stdoutFile, nil); err != nil {
glog.Errorf("Could not run git log cmd: %s", err)
return
}
content, err := ioutil.ReadFile(stdoutFilePath)
if err != nil {
glog.Errorf("Could not read %s: %s", stdoutFilePath, err)
return
}
chromiumBuildTimestamp = string(content)
taskCompletedSuccessfully = true
}
func main() {
common.Init()
defer util.TimeTrack(time.Now(), "Capturing Archives")
defer glog.Flush()
// Create the task file so that the master knows this worker is still busy.
skutil.LogErr(util.CreateTaskFile(util.ACTIVITY_CAPTURING_ARCHIVES))
defer util.DeleteTaskFile(util.ACTIVITY_CAPTURING_ARCHIVES)
if *chromiumBuild == "" {
glog.Error("Must specify --chromium_build")
return
}
// Reset the local chromium checkout.
if err := util.ResetCheckout(util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not reset %s: %s", util.ChromiumSrcDir, err)
return
}
// Sync the local chromium checkout.
if err := util.SyncDir(util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not gclient sync %s: %s", util.ChromiumSrcDir, err)
return
}
// Delete and remake the local webpage archives directory.
pathToArchives := filepath.Join(util.WebArchivesDir, *pagesetType)
skutil.RemoveAll(pathToArchives)
skutil.MkdirAll(pathToArchives, 0700)
// Instantiate GsUtil object.
gs, err := util.NewGsUtil(nil)
if err != nil {
glog.Error(err)
return
}
// Download the specified chromium build if it does not exist locally.
if err := gs.DownloadChromiumBuild(*chromiumBuild); err != nil {
glog.Error(err)
return
}
// Download pagesets if they do not exist locally.
if err := gs.DownloadWorkerArtifacts(util.PAGESETS_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
pathToPagesets := filepath.Join(util.PagesetsDir, *pagesetType)
chromiumBinary := filepath.Join(util.ChromiumBuildsDir, *chromiumBuild, util.BINARY_CHROME)
recordWprBinary := filepath.Join(util.TelemetryBinariesDir, util.BINARY_RECORD_WPR)
timeoutSecs := util.PagesetTypeToInfo[*pagesetType].CaptureArchivesTimeoutSecs
// Loop through all pagesets.
fileInfos, err := ioutil.ReadDir(pathToPagesets)
if err != nil {
glog.Errorf("Unable to read the pagesets dir %s: %s", pathToPagesets, err)
return
}
// TODO(rmistry): Remove this hack once the 1M webpage archives have been captured.
glog.Infof("The length of fileInfos is: %s", len(fileInfos))
fileInfos = fileInfos[18500:20000]
glog.Infof("The fileInfos are: %s", fileInfos)
for _, fileInfo := range fileInfos {
pagesetBaseName := filepath.Base(fileInfo.Name())
if pagesetBaseName == util.TIMESTAMP_FILE_NAME || filepath.Ext(pagesetBaseName) == ".pyc" {
// Ignore timestamp files and .pyc files.
continue
}
// Convert the filename into a format consumable by the record_wpr binary.
pagesetArchiveName := strings.TrimSuffix(pagesetBaseName, filepath.Ext(pagesetBaseName))
pagesetPath := filepath.Join(pathToPagesets, fileInfo.Name())
glog.Infof("===== Processing %s =====", pagesetPath)
args := []string{
"--extra-browser-args=--disable-setuid-sandbox",
"--browser=exact",
"--browser-executable=" + chromiumBinary,
fmt.Sprintf("%s_page_set", pagesetArchiveName),
"--page-set-base-dir=" + pathToPagesets,
}
env := []string{
fmt.Sprintf("PYTHONPATH=%s:$PYTHONPATH", pathToPagesets),
"DISPLAY=:0",
}
skutil.LogErr(util.ExecuteCmd(recordWprBinary, args, env, time.Duration(timeoutSecs)*time.Second, nil, nil))
}
// Write timestamp to the webpage archives dir.
skutil.LogErr(util.CreateTimestampFile(pathToArchives))
// Upload webpage archives dir to Google Storage.
if err := gs.UploadWorkerArtifacts(util.WEB_ARCHIVES_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
}
func main() {
common.Init()
defer util.TimeTrack(time.Now(), "Running Skia Correctness")
defer glog.Flush()
if *chromiumBuild == "" {
glog.Error("Must specify --chromium_build")
return
}
if *runID == "" {
glog.Error("Must specify --run_id")
return
}
// Create the task file so that the master knows this worker is still busy.
skutil.LogErr(util.CreateTaskFile(util.ACTIVITY_RUNNING_SKIA_CORRECTNESS))
defer util.DeleteTaskFile(util.ACTIVITY_RUNNING_SKIA_CORRECTNESS)
// Establish output paths.
localOutputDir := filepath.Join(util.StorageDir, util.SkiaCorrectnessRunsDir, *runID)
skutil.RemoveAll(filepath.Join(util.StorageDir, util.SkiaCorrectnessRunsDir))
skutil.MkdirAll(localOutputDir, 0700)
defer skutil.RemoveAll(localOutputDir)
remoteOutputDir := filepath.Join(util.SkiaCorrectnessRunsDir, *runID, fmt.Sprintf("slave%d", *workerNum))
// Instantiate GsUtil object.
gs, err := util.NewGsUtil(nil)
if err != nil {
glog.Error(err)
return
}
// Download SKPs if they do not exist locally.
if err := gs.DownloadWorkerArtifacts(util.SKPS_DIR_NAME, filepath.Join(*pagesetType, *chromiumBuild), *workerNum); err != nil {
glog.Error(err)
return
}
localSkpsDir := filepath.Join(util.SkpsDir, *pagesetType, *chromiumBuild)
// Download the Skia patch for this run from Google storage.
patchName := *runID + ".patch"
patchLocalPath := filepath.Join(os.TempDir(), patchName)
remoteDir := filepath.Join(util.SkiaCorrectnessRunsDir, *runID)
patchRemotePath := filepath.Join(remoteDir, "patches", patchName)
respBody, err := gs.GetRemoteFileContents(patchRemotePath)
if err != nil {
glog.Errorf("Could not fetch %s: %s", patchRemotePath, err)
return
}
defer skutil.Close(respBody)
out, err := os.Create(patchLocalPath)
if err != nil {
glog.Errorf("Unable to create file %s: %s", patchLocalPath, err)
return
}
defer skutil.Close(out)
defer skutil.Remove(patchLocalPath)
if _, err = io.Copy(out, respBody); err != nil {
glog.Error(err)
return
}
// Apply the patch to a clean checkout and run render_pictures.
// Reset Skia tree.
skutil.LogErr(util.ResetCheckout(util.SkiaTreeDir))
// Sync Skia tree.
skutil.LogErr(util.SyncDir(util.SkiaTreeDir))
// Apply Skia patch.
file, _ := os.Open(patchLocalPath)
fileInfo, _ := file.Stat()
// It is a valid patch only if it is more than 10 bytes.
if fileInfo.Size() > 10 {
glog.Info("Attempting to apply %s to %s", patchLocalPath, util.SkiaTreeDir)
if err := util.ApplyPatch(patchLocalPath, util.SkiaTreeDir); err != nil {
glog.Errorf("Could not apply patch %s to %s: %s", patchLocalPath, util.SkiaTreeDir, err)
return
}
glog.Info("Patch successfully applied")
} else {
glog.Info("Patch is empty or invalid. Skipping the patch.")
}
// Build tools.
skutil.LogErr(util.BuildSkiaTools())
// Run render_pictures.
if err := runRenderPictures(localSkpsDir, filepath.Join(localOutputDir, "withpatch"), filepath.Join(remoteOutputDir, "withpatch"), *gpuWithPatchRun); err != nil {
glog.Errorf("Error while running withpatch render_pictures: %s", err)
return
}
// Remove the patch and run render_pictures.
// Reset Skia tree.
skutil.LogErr(util.ResetCheckout(util.SkiaTreeDir))
// Build tools.
skutil.LogErr(util.BuildSkiaTools())
// Run render_pictures.
if err := runRenderPictures(localSkpsDir, filepath.Join(localOutputDir, "nopatch"), filepath.Join(remoteOutputDir, "nopatch"), *gpuNoPatchRun); err != nil {
glog.Errorf("Error while running nopatch render_pictures: %s", err)
return
}
// Comparing pictures and saving differences in JSON output file.
jsonSummaryDir := filepath.Join(localOutputDir, "json_summary")
skutil.MkdirAll(jsonSummaryDir, 0700)
jsonSummaryPath := filepath.Join(jsonSummaryDir, fmt.Sprintf("slave%d", *workerNum)+".json")
// Construct path to the write_json_summary python script.
_, currentFile, _, _ := runtime.Caller(0)
pathToPyFiles := filepath.Join(
filepath.Dir((filepath.Dir(filepath.Dir(filepath.Dir(currentFile))))),
"py")
summaryArgs := []string{
filepath.Join(pathToPyFiles, "write_json_summary.py"),
"--img_root=" + localOutputDir,
"--withpatch_json=" + filepath.Join(localOutputDir, "withpatch", "summary.json"),
"--withpatch_images_base_url=file://" + filepath.Join(localOutputDir, "withpatch"),
"--nopatch_json=" + filepath.Join(localOutputDir, "nopatch", "summary.json"),
"--nopatch_images_base_url=file://" + filepath.Join(localOutputDir, "nopatch"),
"--output_file_path=" + jsonSummaryPath,
"--gs_output_dir=gs://" + filepath.Join(util.GS_BUCKET_NAME, remoteDir),
"--gs_skp_dir=gs://" + filepath.Join(util.GS_BUCKET_NAME, util.SKPS_DIR_NAME, *pagesetType, *chromiumBuild, fmt.Sprintf("slave%d", *workerNum)),
"--slave_num=" + strconv.Itoa(*workerNum),
}
if err := util.ExecuteCmd("python", summaryArgs, []string{}, 15*time.Minute, nil, nil); err != nil {
glog.Error(err)
return
}
// Upload artifacts to Google Storage.
// Get list of failed file names and upload only those to Google Storage.
// Read the JSON file.
summaryFile, err := ioutil.ReadFile(jsonSummaryPath)
if err != nil {
glog.Errorf("Unable to read %s: %s", jsonSummaryPath, err)
}
var jsontype map[string]interface{}
skutil.LogErr(json.Unmarshal(summaryFile, &jsontype))
if jsontype[fmt.Sprintf("slave%d", *workerNum)] != nil {
failedFiles := jsontype[fmt.Sprintf("slave%d", *workerNum)].(map[string]interface{})["failedFiles"].([]interface{})
for i := range failedFiles {
failedFile := failedFiles[i].(map[string]interface{})["fileName"].(string)
// TODO(rmistry): Use goroutines to do the below in parallel.
skutil.LogErr(
gs.UploadFile(failedFile, filepath.Join(localOutputDir, "withpatch"), filepath.Join(remoteDir, fmt.Sprintf("slave%d", *workerNum), "withpatch-images")))
skutil.LogErr(
gs.UploadFile(failedFile, filepath.Join(localOutputDir, "nopatch"), filepath.Join(remoteDir, fmt.Sprintf("slave%d", *workerNum), "nopatch-images")))
}
// Copy the diffs and whitediffs to Google Storage.
skutil.LogErr(
gs.UploadDir(filepath.Join(localOutputDir, "diffs"), filepath.Join(remoteDir, fmt.Sprintf("slave%d", *workerNum), "diffs"), true))
skutil.LogErr(
gs.UploadDir(filepath.Join(localOutputDir, "whitediffs"), filepath.Join(remoteDir, fmt.Sprintf("slave%d", *workerNum), "whitediffs"), true))
}
// Upload the summary file.
skutil.LogErr(
gs.UploadFile(fmt.Sprintf("slave%d", *workerNum)+".json", jsonSummaryDir, filepath.Join(remoteDir, fmt.Sprintf("slave%d", *workerNum))))
}
func main() {
defer common.LogPanic()
worker_common.Init()
defer util.TimeTrack(time.Now(), "Capturing Archives")
defer glog.Flush()
// Create the task file so that the master knows this worker is still busy.
skutil.LogErr(util.CreateTaskFile(util.ACTIVITY_CAPTURING_ARCHIVES))
defer util.DeleteTaskFile(util.ACTIVITY_CAPTURING_ARCHIVES)
if *chromiumBuild == "" {
glog.Error("Must specify --chromium_build")
return
}
// Reset the local chromium checkout.
if err := util.ResetCheckout(util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not reset %s: %s", util.ChromiumSrcDir, err)
return
}
// Sync the local chromium checkout.
if err := util.SyncDir(util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not gclient sync %s: %s", util.ChromiumSrcDir, err)
return
}
// Delete and remake the local webpage archives directory.
pathToArchives := filepath.Join(util.WebArchivesDir, *pagesetType)
skutil.RemoveAll(pathToArchives)
skutil.MkdirAll(pathToArchives, 0700)
// Instantiate GsUtil object.
gs, err := util.NewGsUtil(nil)
if err != nil {
glog.Error(err)
return
}
// Download the specified chromium build if it does not exist locally.
if err := gs.DownloadChromiumBuild(*chromiumBuild); err != nil {
glog.Error(err)
return
}
// Download pagesets if they do not exist locally.
if err := gs.DownloadWorkerArtifacts(util.PAGESETS_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
pathToPagesets := filepath.Join(util.PagesetsDir, *pagesetType)
chromiumBinary := filepath.Join(util.ChromiumBuildsDir, *chromiumBuild, util.BINARY_CHROME)
recordWprBinary := filepath.Join(util.TelemetryBinariesDir, util.BINARY_RECORD_WPR)
timeoutSecs := util.PagesetTypeToInfo[*pagesetType].CaptureArchivesTimeoutSecs
// Loop through all pagesets.
fileInfos, err := ioutil.ReadDir(pathToPagesets)
if err != nil {
glog.Errorf("Unable to read the pagesets dir %s: %s", pathToPagesets, err)
return
}
glog.Infof("The %s fileInfos are: %s", len(fileInfos), fileInfos)
for _, fileInfo := range fileInfos {
pagesetBaseName := filepath.Base(fileInfo.Name())
if pagesetBaseName == util.TIMESTAMP_FILE_NAME || filepath.Ext(pagesetBaseName) == ".pyc" {
// Ignore timestamp files and .pyc files.
continue
}
// Read the pageset.
pagesetPath := filepath.Join(pathToPagesets, fileInfo.Name())
decodedPageset, err := util.ReadPageset(pagesetPath)
if err != nil {
glog.Errorf("Could not read %s: %s", pagesetPath, err)
return
}
glog.Infof("===== Processing %s =====", pagesetPath)
args := []string{
util.CAPTURE_ARCHIVES_DEFAULT_CT_BENCHMARK,
"--extra-browser-args=--disable-setuid-sandbox",
"--browser=exact",
"--browser-executable=" + chromiumBinary,
"--user-agent=" + decodedPageset.UserAgent,
"--urls-list=" + decodedPageset.UrlsList,
"--archive-data-file=" + decodedPageset.ArchiveDataFile,
}
env := []string{
fmt.Sprintf("PYTHONPATH=%s:$PYTHONPATH", pathToPagesets),
"DISPLAY=:0",
}
skutil.LogErr(util.ExecuteCmd(recordWprBinary, args, env, time.Duration(timeoutSecs)*time.Second, nil, nil))
}
// Write timestamp to the webpage archives dir.
skutil.LogErr(util.CreateTimestampFile(pathToArchives))
// Upload webpage archives dir to Google Storage.
if err := gs.UploadWorkerArtifacts(util.WEB_ARCHIVES_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
}
func main() {
defer common.LogPanic()
worker_common.Init()
if !*worker_common.Local {
defer util.CleanTmpDir()
}
defer util.TimeTrack(time.Now(), "Running Chromium Perf")
defer glog.Flush()
// Validate required arguments.
if *chromiumBuildNoPatch == "" {
glog.Error("Must specify --chromium_build_nopatch")
return
}
if *chromiumBuildWithPatch == "" {
glog.Error("Must specify --chromium_build_withpatch")
return
}
if *runID == "" {
glog.Error("Must specify --run_id")
return
}
if *runIDNoPatch == "" {
glog.Error("Must specify --run_id_nopatch")
return
}
if *runIDWithPatch == "" {
glog.Error("Must specify --run_id_withpatch")
return
}
if *benchmarkName == "" {
glog.Error("Must specify --benchmark_name")
return
}
// Reset the local chromium checkout.
if err := util.ResetCheckout(util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not reset %s: %s", util.ChromiumSrcDir, err)
return
}
// Sync the local chromium checkout.
if err := util.SyncDir(util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not gclient sync %s: %s", util.ChromiumSrcDir, err)
return
}
// Create the task file so that the master knows this worker is still busy.
skutil.LogErr(util.CreateTaskFile(util.ACTIVITY_RUNNING_CHROMIUM_PERF))
defer util.DeleteTaskFile(util.ACTIVITY_RUNNING_CHROMIUM_PERF)
if *targetPlatform == util.PLATFORM_ANDROID {
if err := adb.VerifyLocalDevice(); err != nil {
// Android device missing or offline.
glog.Errorf("Could not find Android device: %s", err)
return
}
// Kill adb server to make sure we start from a clean slate.
skutil.LogErr(util.ExecuteCmd(util.BINARY_ADB, []string{"kill-server"}, []string{},
util.ADB_ROOT_TIMEOUT, nil, nil))
// Make sure adb shell is running as root.
skutil.LogErr(util.ExecuteCmd(util.BINARY_ADB, []string{"root"}, []string{},
util.ADB_ROOT_TIMEOUT, nil, nil))
}
// Instantiate GsUtil object.
gs, err := util.NewGsUtil(nil)
if err != nil {
glog.Error(err)
return
}
// Download the benchmark patch for this run from Google storage.
benchmarkPatchName := *runID + ".benchmark.patch"
benchmarkPatchLocalPath := filepath.Join(os.TempDir(), benchmarkPatchName)
remoteDir := filepath.Join(util.ChromiumPerfRunsDir, *runID)
benchmarkPatchRemotePath := filepath.Join(remoteDir, benchmarkPatchName)
respBody, err := gs.GetRemoteFileContents(benchmarkPatchRemotePath)
if err != nil {
glog.Errorf("Could not fetch %s: %s", benchmarkPatchRemotePath, err)
return
}
defer skutil.Close(respBody)
buf := new(bytes.Buffer)
if _, err := buf.ReadFrom(respBody); err != nil {
glog.Errorf("Could not read from %s: %s", benchmarkPatchRemotePath, err)
return
}
if err := ioutil.WriteFile(benchmarkPatchLocalPath, buf.Bytes(), 0666); err != nil {
glog.Errorf("Unable to create file %s: %s", benchmarkPatchLocalPath, err)
return
}
defer skutil.Remove(benchmarkPatchLocalPath)
// Apply benchmark patch to the local chromium checkout.
if buf.Len() > 10 {
if err := util.ApplyPatch(benchmarkPatchLocalPath, util.ChromiumSrcDir); err != nil {
glog.Errorf("Could not apply Telemetry's patch in %s: %s", util.ChromiumSrcDir, err)
return
}
}
// Download the specified chromium builds.
for _, chromiumBuild := range []string{*chromiumBuildNoPatch, *chromiumBuildWithPatch} {
if err := gs.DownloadChromiumBuild(chromiumBuild); err != nil {
glog.Error(err)
return
}
//Delete the chromium build to save space when we are done.
defer skutil.RemoveAll(filepath.Join(util.ChromiumBuildsDir, chromiumBuild))
}
chromiumBinaryNoPatch := filepath.Join(util.ChromiumBuildsDir, *chromiumBuildNoPatch, util.BINARY_CHROME)
chromiumBinaryWithPatch := filepath.Join(util.ChromiumBuildsDir, *chromiumBuildWithPatch, util.BINARY_CHROME)
// Download pagesets if they do not exist locally.
if err := gs.DownloadWorkerArtifacts(util.PAGESETS_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
pathToPagesets := filepath.Join(util.PagesetsDir, *pagesetType)
// Download archives if they do not exist locally.
if err := gs.DownloadWorkerArtifacts(util.WEB_ARCHIVES_DIR_NAME, *pagesetType, *workerNum); err != nil {
glog.Error(err)
return
}
// Establish nopatch output paths.
localOutputDirNoPatch := filepath.Join(util.StorageDir, util.BenchmarkRunsDir, *runIDNoPatch)
skutil.RemoveAll(localOutputDirNoPatch)
skutil.MkdirAll(localOutputDirNoPatch, 0700)
defer skutil.RemoveAll(localOutputDirNoPatch)
remoteDirNoPatch := filepath.Join(util.BenchmarkRunsDir, *runIDNoPatch)
// Establish withpatch output paths.
localOutputDirWithPatch := filepath.Join(util.StorageDir, util.BenchmarkRunsDir, *runIDWithPatch)
skutil.RemoveAll(localOutputDirWithPatch)
skutil.MkdirAll(localOutputDirWithPatch, 0700)
defer skutil.RemoveAll(localOutputDirWithPatch)
remoteDirWithPatch := filepath.Join(util.BenchmarkRunsDir, *runIDWithPatch)
// Construct path to the ct_run_benchmark python script.
_, currentFile, _, _ := runtime.Caller(0)
pathToPyFiles := filepath.Join(
filepath.Dir((filepath.Dir(filepath.Dir(filepath.Dir(currentFile))))),
"py")
fileInfos, err := ioutil.ReadDir(pathToPagesets)
if err != nil {
glog.Errorf("Unable to read the pagesets dir %s: %s", pathToPagesets, err)
return
}
numWorkers := WORKER_POOL_SIZE
if *targetPlatform == util.PLATFORM_ANDROID || !*runInParallel {
// Do not run page sets in parallel if the target platform is Android.
// This is because the nopatch/withpatch APK needs to be installed prior to
// each run and this will interfere with the parallel runs. Instead of trying
// to find a complicated solution to this, it makes sense for Android to
// continue to be serial because it will help guard against
// crashes/flakiness/inconsistencies which are more prevalent in mobile runs.
numWorkers = 1
glog.Infoln("===== Going to run the task serially =====")
} else {
glog.Infoln("===== Going to run the task with parallel chrome processes =====")
}
// Create channel that contains all pageset file names. This channel will
// be consumed by the worker pool.
pagesetRequests := util.GetClosedChannelOfPagesets(fileInfos)
var wg sync.WaitGroup
// Use a RWMutex for the chromeProcessesCleaner goroutine to communicate to
// the workers (acting as "readers") when it wants to be the "writer" and
// kill all zombie chrome processes.
var mutex sync.RWMutex
// Loop through workers in the worker pool.
for i := 0; i < numWorkers; i++ {
// Increment the WaitGroup counter.
wg.Add(1)
// Create and run a goroutine closure that captures SKPs.
go func() {
// Decrement the WaitGroup counter when the goroutine completes.
defer wg.Done()
for pagesetName := range pagesetRequests {
mutex.RLock()
if err := runBenchmark(pagesetName, pathToPagesets, pathToPyFiles, localOutputDirNoPatch, *chromiumBuildNoPatch, chromiumBinaryNoPatch, *runIDNoPatch, *browserExtraArgsNoPatch); err != nil {
glog.Errorf("Error while running nopatch benchmark: %s", err)
return
}
if err := runBenchmark(pagesetName, pathToPagesets, pathToPyFiles, localOutputDirWithPatch, *chromiumBuildWithPatch, chromiumBinaryWithPatch, *runIDWithPatch, *browserExtraArgsWithPatch); err != nil {
glog.Errorf("Error while running withpatch benchmark: %s", err)
return
}
mutex.RUnlock()
}
}()
}
if !*worker_common.Local {
// Start the cleaner.
go util.ChromeProcessesCleaner(&mutex, *chromeCleanerTimer)
}
// Wait for all spawned goroutines to complete.
wg.Wait()
// If "--output-format=csv-pivot-table" was specified then merge all CSV files and upload.
if strings.Contains(*benchmarkExtraArgs, "--output-format=csv-pivot-table") {
if err := mergeUploadCSVFiles(localOutputDirNoPatch, pathToPyFiles, *runIDNoPatch, remoteDirNoPatch, gs); err != nil {
glog.Errorf("Error while processing nopatch CSV files: %s", err)
return
}
if err := mergeUploadCSVFiles(localOutputDirWithPatch, pathToPyFiles, *runIDWithPatch, remoteDirWithPatch, gs); err != nil {
glog.Errorf("Error while processing withpatch CSV files: %s", err)
return
}
}
}
func main() {
common.Init()
webhook.MustInitRequestSaltFromFile(util.WebhookRequestSaltPath)
// Send start email.
emailsArr := util.ParseEmails(*emails)
emailsArr = append(emailsArr, util.CtAdmins...)
if len(emailsArr) == 0 {
glog.Error("At least one email address must be specified")
return
}
skutil.LogErr(frontend.UpdateWebappTaskSetStarted(&frontend.LuaScriptUpdateVars{}, *gaeTaskID))
skutil.LogErr(util.SendTaskStartEmail(emailsArr, "Lua script"))
// Ensure webapp is updated and email is sent even if task fails.
defer updateWebappTask()
defer sendEmail(emailsArr)
// Cleanup tmp files after the run.
defer util.CleanTmpDir()
// Finish with glog flush and how long the task took.
defer util.TimeTrack(time.Now(), "Running Lua script on workers")
defer glog.Flush()
if *pagesetType == "" {
glog.Error("Must specify --pageset_type")
return
}
if *chromiumBuild == "" {
glog.Error("Must specify --chromium_build")
return
}
if *runID == "" {
glog.Error("Must specify --run_id")
return
}
// Instantiate GsUtil object.
gs, err := util.NewGsUtil(nil)
if err != nil {
glog.Error(err)
return
}
// Upload the lua script for this run to Google storage.
luaScriptName := *runID + ".lua"
defer skutil.Remove(filepath.Join(os.TempDir(), luaScriptName))
luaScriptRemoteDir := filepath.Join(util.LuaRunsDir, *runID, "scripts")
luaScriptRemoteLink = util.GS_HTTP_LINK + filepath.Join(util.GS_BUCKET_NAME, luaScriptRemoteDir, luaScriptName)
if err := gs.UploadFile(luaScriptName, os.TempDir(), luaScriptRemoteDir); err != nil {
glog.Errorf("Could not upload %s to %s: %s", luaScriptName, luaScriptRemoteDir, err)
return
}
// Run the run_lua script on all workers.
runLuaCmdTemplate := "DISPLAY=:0 run_lua --worker_num={{.WorkerNum}} --log_dir={{.LogDir}} --pageset_type={{.PagesetType}} --chromium_build={{.ChromiumBuild}} --run_id={{.RunID}};"
runLuaTemplateParsed := template.Must(template.New("run_lua_cmd").Parse(runLuaCmdTemplate))
luaCmdBytes := new(bytes.Buffer)
if err := runLuaTemplateParsed.Execute(luaCmdBytes, struct {
WorkerNum string
LogDir string
PagesetType string
ChromiumBuild string
RunID string
}{
WorkerNum: util.WORKER_NUM_KEYWORD,
LogDir: util.GLogDir,
PagesetType: *pagesetType,
ChromiumBuild: *chromiumBuild,
RunID: *runID,
}); err != nil {
glog.Errorf("Failed to execute template: %s", err)
return
}
cmd := []string{
fmt.Sprintf("cd %s;", util.CtTreeDir),
"git pull;",
"make all;",
// The main command that runs run_lua on all workers.
luaCmdBytes.String(),
}
if _, err := util.SSH(strings.Join(cmd, " "), util.Slaves, 2*time.Hour); err != nil {
glog.Errorf("Error while running cmd %s: %s", cmd, err)
return
}
// Copy outputs from all slaves locally and combine it into one file.
consolidatedFileName := "lua-output"
consolidatedLuaOutput := filepath.Join(os.TempDir(), consolidatedFileName)
if err := ioutil.WriteFile(consolidatedLuaOutput, []byte{}, 0660); err != nil {
glog.Errorf("Could not create %s: %s", consolidatedLuaOutput, err)
return
}
for i := 0; i < util.NUM_WORKERS; i++ {
workerNum := i + 1
workerRemoteOutputPath := filepath.Join(util.LuaRunsDir, *runID, fmt.Sprintf("slave%d", workerNum), "outputs", *runID+".output")
respBody, err := gs.GetRemoteFileContents(workerRemoteOutputPath)
if err != nil {
glog.Errorf("Could not fetch %s: %s", workerRemoteOutputPath, err)
// TODO(rmistry): Should we instead return here? We can only return
// here if all 100 slaves reliably run without any failures which they
// really should.
continue
}
defer skutil.Close(respBody)
out, err := os.OpenFile(consolidatedLuaOutput, os.O_RDWR|os.O_APPEND, 0660)
if err != nil {
glog.Errorf("Unable to open file %s: %s", consolidatedLuaOutput, err)
return
}
defer skutil.Close(out)
defer skutil.Remove(consolidatedLuaOutput)
if _, err = io.Copy(out, respBody); err != nil {
glog.Errorf("Unable to write out %s to %s: %s", workerRemoteOutputPath, consolidatedLuaOutput, err)
return
}
}
// Copy the consolidated file into Google Storage.
consolidatedOutputRemoteDir := filepath.Join(util.LuaRunsDir, *runID, "consolidated_outputs")
luaOutputRemoteLink = util.GS_HTTP_LINK + filepath.Join(util.GS_BUCKET_NAME, consolidatedOutputRemoteDir, consolidatedFileName)
if err := gs.UploadFile(consolidatedFileName, os.TempDir(), consolidatedOutputRemoteDir); err != nil {
glog.Errorf("Unable to upload %s to %s: %s", consolidatedLuaOutput, consolidatedOutputRemoteDir, err)
return
}
// Upload the lua aggregator (if specified) for this run to Google storage.
luaAggregatorName := *runID + ".aggregator"
luaAggregatorPath := filepath.Join(os.TempDir(), luaAggregatorName)
defer skutil.Remove(luaAggregatorPath)
luaAggregatorRemoteLink = util.GS_HTTP_LINK + filepath.Join(util.GS_BUCKET_NAME, luaScriptRemoteDir, luaAggregatorName)
luaAggregatorFileInfo, err := os.Stat(luaAggregatorPath)
if !os.IsNotExist(err) && luaAggregatorFileInfo.Size() > 10 {
if err := gs.UploadFile(luaAggregatorName, os.TempDir(), luaScriptRemoteDir); err != nil {
glog.Errorf("Could not upload %s to %s: %s", luaAggregatorName, luaScriptRemoteDir, err)
return
}
// Run the aggregator and save stdout.
luaAggregatorOutputFileName := *runID + ".agg.output"
luaAggregatorOutputFilePath := filepath.Join(os.TempDir(), luaAggregatorOutputFileName)
luaAggregatorOutputFile, err := os.Create(luaAggregatorOutputFilePath)
defer skutil.Close(luaAggregatorOutputFile)
defer skutil.Remove(luaAggregatorOutputFilePath)
if err != nil {
glog.Errorf("Could not create %s: %s", luaAggregatorOutputFilePath, err)
return
}
if err := util.ExecuteCmd(util.BINARY_LUA, []string{luaAggregatorPath}, []string{}, time.Hour, luaAggregatorOutputFile, nil); err != nil {
glog.Errorf("Could not execute the lua aggregator %s: %s", luaAggregatorPath, err)
return
}
// Copy the aggregator output into Google Storage.
luaAggregatorOutputRemoteLink = util.GS_HTTP_LINK + filepath.Join(util.GS_BUCKET_NAME, consolidatedOutputRemoteDir, luaAggregatorOutputFileName)
if err := gs.UploadFile(luaAggregatorOutputFileName, os.TempDir(), consolidatedOutputRemoteDir); err != nil {
glog.Errorf("Unable to upload %s to %s: %s", luaAggregatorOutputFileName, consolidatedOutputRemoteDir, err)
return
}
} else {
glog.Info("A lua aggregator has not been specified.")
}
taskCompletedSuccessfully = true
}
func runBenchmark(fileInfoName, pathToPagesets, localOutputDir, chromiumBuildName, chromiumBinary, browserExtraArgs string) error {
pagesetBaseName := filepath.Base(fileInfoName)
if pagesetBaseName == util.TIMESTAMP_FILE_NAME || filepath.Ext(pagesetBaseName) == ".pyc" {
// Ignore timestamp files and .pyc files.
return nil
}
// Read the pageset.
pagesetName := strings.TrimSuffix(pagesetBaseName, filepath.Ext(pagesetBaseName))
pagesetPath := filepath.Join(pathToPagesets, fileInfoName)
decodedPageset, err := util.ReadPageset(pagesetPath)
if err != nil {
return fmt.Errorf("Could not read %s: %s", pagesetPath, err)
}
glog.Infof("===== Processing %s =====", pagesetPath)
benchmark, present := util.BenchmarksToTelemetryName[*benchmarkName]
if !present {
// If it is custom benchmark use the entered benchmark name.
benchmark = *benchmarkName
}
args := []string{
filepath.Join(*telemetryBinariesDir, util.BINARY_RUN_BENCHMARK),
benchmark,
"--also-run-disabled-tests",
"--user-agent=" + decodedPageset.UserAgent,
"--urls-list=" + decodedPageset.UrlsList,
"--archive-data-file=" + filepath.Join(*pageSetsDir, decodedPageset.ArchiveDataFile),
// Output in chartjson. Needed for uploading to performance dashboard.
// Documentation is here: http://www.chromium.org/developers/speed-infra/performance-dashboard/sending-data-to-the-performance-dashboard
"--output-format=chartjson",
// Upload traces.
"--upload-results",
"--upload-bucket=output",
}
// Need to capture output for all benchmarks.
outputDirArgValue := filepath.Join(localOutputDir, pagesetName)
args = append(args, "--output-dir="+outputDirArgValue)
// Figure out which browser should be used.
if *targetPlatform == util.PLATFORM_ANDROID {
if err := util.InstallChromeAPK(chromiumBuildName); err != nil {
return fmt.Errorf("Error while installing APK: %s", err)
}
args = append(args, "--browser=android-chromium")
} else {
args = append(args, "--browser=exact", "--browser-executable="+chromiumBinary)
}
// Split benchmark args if not empty and append to args.
if *benchmarkExtraArgs != "" {
args = append(args, strings.Split(*benchmarkExtraArgs, " ")...)
}
// Add the number of times to repeat.
args = append(args, fmt.Sprintf("--page-repeat=%d", *repeatBenchmark))
// Add browserArgs if not empty to args.
if browserExtraArgs != "" {
args = append(args, "--extra-browser-args="+browserExtraArgs)
}
// Set the PYTHONPATH to the pagesets and the telemetry dirs.
env := []string{
fmt.Sprintf("PYTHONPATH=%s:$PYTHONPATH", *telemetryBinariesDir),
"DISPLAY=:0",
}
timeoutSecs := 2 * 60 // 2 mins timeout
if err := util.ExecuteCmd("python", args, env, time.Duration(timeoutSecs)*time.Second, nil, nil); err != nil {
glog.Errorf("Run benchmark command failed with: %s", err)
}
return nil
}