blob: 53e933187e9eef92e02122987ec5f3ebb1475c6c [file] [log] [blame]
// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
package main
/*
Generate the tasks.json file.
*/
import (
"encoding/json"
"flag"
"fmt"
"io/ioutil"
"os"
"path"
"path/filepath"
"regexp"
"runtime"
"sort"
"strconv"
"strings"
"time"
"github.com/skia-dev/glog"
"go.skia.org/infra/go/sklog"
"go.skia.org/infra/go/util"
"go.skia.org/infra/task_scheduler/go/specs"
)
const (
BUNDLE_RECIPES_NAME = "Housekeeper-PerCommit-BundleRecipes"
ISOLATE_GCLOUD_LINUX_NAME = "Housekeeper-PerCommit-IsolateGCloudLinux"
ISOLATE_GO_LINUX_NAME = "Housekeeper-PerCommit-IsolateGoLinux"
ISOLATE_SKIMAGE_NAME = "Housekeeper-PerCommit-IsolateSkImage"
ISOLATE_SKP_NAME = "Housekeeper-PerCommit-IsolateSKP"
ISOLATE_SVG_NAME = "Housekeeper-PerCommit-IsolateSVG"
ISOLATE_NDK_LINUX_NAME = "Housekeeper-PerCommit-IsolateAndroidNDKLinux"
ISOLATE_SDK_LINUX_NAME = "Housekeeper-PerCommit-IsolateAndroidSDKLinux"
ISOLATE_WIN_TOOLCHAIN_NAME = "Housekeeper-PerCommit-IsolateWinToolchain"
ISOLATE_WIN_VULKAN_SDK_NAME = "Housekeeper-PerCommit-IsolateWinVulkanSDK"
DEFAULT_OS_DEBIAN = "Debian-9.4"
DEFAULT_OS_LINUX_GCE = DEFAULT_OS_DEBIAN
DEFAULT_OS_MAC = "Mac-10.13.3"
DEFAULT_OS_UBUNTU = "Ubuntu-14.04"
DEFAULT_OS_WIN = "Windows-2016Server-14393"
DEFAULT_PROJECT = "skia"
// Small is a 2-core machine.
// TODO(dogben): Would n1-standard-1 or n1-standard-2 be sufficient?
MACHINE_TYPE_SMALL = "n1-highmem-2"
// Medium is a 16-core machine
MACHINE_TYPE_MEDIUM = "n1-standard-16"
// Large is a 64-core machine. (We use "highcpu" because we don't need more than 57GB memory for
// any of our tasks.)
MACHINE_TYPE_LARGE = "n1-highcpu-64"
// Swarming output dirs.
OUTPUT_NONE = "output_ignored" // This will result in outputs not being isolated.
OUTPUT_BUILD = "build"
OUTPUT_COVERAGE = "coverage"
OUTPUT_TEST = "test"
OUTPUT_PERF = "perf"
// Name prefix for upload jobs.
PREFIX_UPLOAD = "Upload"
SERVICE_ACCOUNT_BOOKMAKER = "skia-bookmaker@skia-swarming-bots.iam.gserviceaccount.com"
SERVICE_ACCOUNT_COMPILE = "skia-external-compile-tasks@skia-swarming-bots.iam.gserviceaccount.com"
SERVICE_ACCOUNT_CT_SKPS = "skia-external-ct-skps@skia-swarming-bots.iam.gserviceaccount.com"
SERVICE_ACCOUNT_HOUSEKEEPER = "skia-external-housekeeper@skia-swarming-bots.iam.gserviceaccount.com"
SERVICE_ACCOUNT_RECREATE_SKPS = "skia-recreate-skps@skia-swarming-bots.iam.gserviceaccount.com"
SERVICE_ACCOUNT_UPDATE_META_CONFIG = "skia-update-meta-config@skia-swarming-bots.iam.gserviceaccount.com"
SERVICE_ACCOUNT_UPLOAD_BINARY = "skia-external-binary-uploader@skia-swarming-bots.iam.gserviceaccount.com"
SERVICE_ACCOUNT_UPLOAD_CALMBENCH = "skia-external-calmbench-upload@skia-swarming-bots.iam.gserviceaccount.com"
SERVICE_ACCOUNT_UPLOAD_COVERAGE = "skia-external-coverage-uploade@skia-swarming-bots.iam.gserviceaccount.com"
SERVICE_ACCOUNT_UPLOAD_GM = "skia-external-gm-uploader@skia-swarming-bots.iam.gserviceaccount.com"
SERVICE_ACCOUNT_UPLOAD_NANO = "skia-external-nano-uploader@skia-swarming-bots.iam.gserviceaccount.com"
)
var (
// "Constants"
// Top-level list of all jobs to run at each commit; loaded from
// jobs.json.
JOBS []string
// General configuration information.
CONFIG struct {
GsBucketCoverage string `json:"gs_bucket_coverage"`
GsBucketGm string `json:"gs_bucket_gm"`
GsBucketNano string `json:"gs_bucket_nano"`
GsBucketCalm string `json:"gs_bucket_calm"`
NoUpload []string `json:"no_upload"`
Pool string `json:"pool"`
}
// alternateProject can be set in an init function to override the default project ID.
alternateProject string
// alternateServiceAccount can be set in an init function to override the normal service accounts.
// Takes one of SERVICE_ACCOUNT_* constants as an argument and returns the service account that
// should be used, or uses sklog.Fatal to indicate a problem.
alternateServiceAccount func(serviceAccountEnum string) string
// alternateSwarmDimensions can be set in an init function to override the default swarming bot
// dimensions for the given task.
alternateSwarmDimensions func(parts map[string]string) []string
// internalHardwareLabelFn can be set in an init function to provide an
// internal_hardware_label variable to the recipe.
internalHardwareLabelFn func(parts map[string]string) *int
// Defines the structure of job names.
jobNameSchema *JobNameSchema
// Named caches used by tasks.
CACHES_GIT = []*specs.Cache{
&specs.Cache{
Name: "git",
Path: "cache/git",
},
&specs.Cache{
Name: "git_cache",
Path: "cache/git_cache",
},
}
CACHES_WORKDIR = []*specs.Cache{
&specs.Cache{
Name: "work",
Path: "cache/work",
},
}
// TODO(borenet): Roll these versions automatically!
CIPD_PKGS_PYTHON = []*specs.CipdPackage{
&specs.CipdPackage{
Name: "infra/tools/luci/vpython/${platform}",
Path: "cipd_bin_packages",
Version: "git_revision:d0130097bd6364a8d834cb9efd4554c1f6192c82",
},
}
CIPD_PKGS_KITCHEN = append([]*specs.CipdPackage{
&specs.CipdPackage{
Name: "infra/tools/luci/kitchen/${platform}",
Path: ".",
Version: "git_revision:206b4474cb712bdad8b7b3f213880cfbf03f120c",
},
&specs.CipdPackage{
Name: "infra/tools/authutil/${platform}",
Path: "cipd_bin_packages",
Version: "git_revision:9c63809842a277ce10a86afd51b61c639a665d11",
},
}, CIPD_PKGS_PYTHON...)
CIPD_PKGS_GIT = []*specs.CipdPackage{
&specs.CipdPackage{
Name: "infra/git/${platform}",
Path: "cipd_bin_packages",
Version: "version:2.15.0.chromium12",
},
&specs.CipdPackage{
Name: "infra/tools/git/${platform}",
Path: "cipd_bin_packages",
Version: "git_revision:fa7a52f4741f5e04bba0dfccc9b8456dc572c60b",
},
&specs.CipdPackage{
Name: "infra/tools/luci/git-credential-luci/${platform}",
Path: "cipd_bin_packages",
Version: "git_revision:d0130097bd6364a8d834cb9efd4554c1f6192c82",
},
}
CIPD_PKGS_GSUTIL = []*specs.CipdPackage{
&specs.CipdPackage{
Name: "infra/gsutil",
Path: "cipd_bin_packages",
Version: "version:4.28",
},
}
RECIPE_BUNDLE_UNIX = "recipe_bundle/recipes"
RECIPE_BUNDLE_WIN = "recipe_bundle/recipes.bat"
// Flags.
builderNameSchemaFile = flag.String("builder_name_schema", "", "Path to the builder_name_schema.json file. If not specified, uses infra/bots/recipe_modules/builder_name_schema/builder_name_schema.json from this repo.")
assetsDir = flag.String("assets_dir", "", "Directory containing assets.")
cfgFile = flag.String("cfg_file", "", "JSON file containing general configuration information.")
jobsFile = flag.String("jobs", "", "JSON file containing jobs to run.")
)
// Build the LogDog annotation URL.
func logdogAnnotationUrl() string {
project := DEFAULT_PROJECT
if alternateProject != "" {
project = alternateProject
}
return fmt.Sprintf("logdog://logs.chromium.org/%s/%s/+/annotations", project, specs.PLACEHOLDER_TASK_ID)
}
// Create a properties JSON string.
func props(p map[string]string) string {
d := make(map[string]interface{}, len(p)+1)
for k, v := range p {
d[k] = interface{}(v)
}
d["$kitchen"] = struct {
DevShell bool `json:"devshell"`
GitAuth bool `json:"git_auth"`
}{
DevShell: true,
GitAuth: true,
}
j, err := json.Marshal(d)
if err != nil {
sklog.Fatal(err)
}
return strings.Replace(string(j), "\\u003c", "<", -1)
}
// kitchenTask returns a specs.TaskSpec instance which uses Kitchen to run a
// recipe.
func kitchenTask(name, recipe, isolate, serviceAccount string, dimensions []string, extraProps map[string]string, outputDir string) *specs.TaskSpec {
if serviceAccount != "" && alternateServiceAccount != nil {
serviceAccount = alternateServiceAccount(serviceAccount)
}
cipd := append([]*specs.CipdPackage{}, CIPD_PKGS_KITCHEN...)
properties := map[string]string{
"buildbucket_build_id": specs.PLACEHOLDER_BUILDBUCKET_BUILD_ID,
"buildername": name,
"patch_issue": specs.PLACEHOLDER_ISSUE,
"patch_ref": specs.PLACEHOLDER_PATCH_REF,
"patch_repo": specs.PLACEHOLDER_PATCH_REPO,
"patch_set": specs.PLACEHOLDER_PATCHSET,
"patch_storage": specs.PLACEHOLDER_PATCH_STORAGE,
"repository": specs.PLACEHOLDER_REPO,
"revision": specs.PLACEHOLDER_REVISION,
"swarm_out_dir": outputDir,
}
for k, v := range extraProps {
properties[k] = v
}
var outputs []string = nil
if outputDir != OUTPUT_NONE {
outputs = []string{outputDir}
}
task := &specs.TaskSpec{
Caches: []*specs.Cache{
&specs.Cache{
Name: "vpython",
Path: "cache/vpython",
},
},
CipdPackages: cipd,
Command: []string{
"./kitchen${EXECUTABLE_SUFFIX}", "cook",
"-checkout-dir", "recipe_bundle",
"-mode", "swarming",
"-luci-system-account", "system",
"-cache-dir", "cache",
"-temp-dir", "tmp",
"-known-gerrit-host", "android.googlesource.com",
"-known-gerrit-host", "boringssl.googlesource.com",
"-known-gerrit-host", "chromium.googlesource.com",
"-known-gerrit-host", "dart.googlesource.com",
"-known-gerrit-host", "fuchsia.googlesource.com",
"-known-gerrit-host", "go.googlesource.com",
"-known-gerrit-host", "llvm.googlesource.com",
"-known-gerrit-host", "skia.googlesource.com",
"-known-gerrit-host", "webrtc.googlesource.com",
"-output-result-json", "${ISOLATED_OUTDIR}/build_result_filename",
"-workdir", ".",
"-recipe", recipe,
"-properties", props(properties),
"-logdog-annotation-url", logdogAnnotationUrl(),
},
Dependencies: []string{BUNDLE_RECIPES_NAME},
Dimensions: dimensions,
EnvPrefixes: map[string][]string{
"PATH": []string{"cipd_bin_packages", "cipd_bin_packages/bin"},
"VPYTHON_VIRTUALENV_ROOT": []string{"${cache_dir}/vpython"},
},
ExtraTags: map[string]string{
"log_location": logdogAnnotationUrl(),
},
Isolate: relpath(isolate),
Outputs: outputs,
Priority: 0.8,
ServiceAccount: serviceAccount,
}
timeout(task, time.Hour)
return task
}
// internalHardwareLabel returns the internal ID for the bot, if any.
func internalHardwareLabel(parts map[string]string) *int {
if internalHardwareLabelFn != nil {
return internalHardwareLabelFn(parts)
}
return nil
}
// linuxGceDimensions are the Swarming dimensions for Linux GCE
// instances.
func linuxGceDimensions(machineType string) []string {
return []string{
// Specify CPU to avoid running builds on bots with a more unique CPU.
"cpu:x86-64-Haswell_GCE",
"gpu:none",
// Currently all Linux GCE tasks run on 16-CPU machines.
fmt.Sprintf("machine_type:%s", machineType),
fmt.Sprintf("os:%s", DEFAULT_OS_LINUX_GCE),
fmt.Sprintf("pool:%s", CONFIG.Pool),
}
}
// deriveCompileTaskName returns the name of a compile task based on the given
// job name.
func deriveCompileTaskName(jobName string, parts map[string]string) string {
if strings.Contains(jobName, "Bookmaker") {
return "Build-Debian9-GCC-x86_64-Release"
} else if parts["role"] == "Housekeeper" {
return "Build-Debian9-GCC-x86_64-Release-Shared"
} else if parts["role"] == "Test" || parts["role"] == "Perf" || parts["role"] == "Calmbench" {
task_os := parts["os"]
ec := []string{}
if val := parts["extra_config"]; val != "" {
ec = strings.Split(val, "_")
ignore := []string{"Skpbench", "AbandonGpuContext", "PreAbandonGpuContext", "Valgrind", "ReleaseAndAbandonGpuContext", "CCPR", "FSAA", "FAAA", "FDAA", "NativeFonts", "GDI", "NoGPUThreads", "ProcDump", "DDL1", "DDL3", "T8888"}
keep := make([]string, 0, len(ec))
for _, part := range ec {
if !util.In(part, ignore) {
keep = append(keep, part)
}
}
ec = keep
}
if task_os == "Android" {
if !util.In("Android", ec) {
ec = append([]string{"Android"}, ec...)
}
task_os = "Debian9"
} else if task_os == "Chromecast" {
task_os = "Debian9"
ec = append([]string{"Chromecast"}, ec...)
} else if strings.Contains(task_os, "ChromeOS") {
ec = append([]string{"Chromebook", "GLES"}, ec...)
task_os = "Debian9"
} else if task_os == "iOS" {
ec = append([]string{task_os}, ec...)
task_os = "Mac"
} else if strings.Contains(task_os, "Win") {
task_os = "Win"
} else if strings.Contains(task_os, "Ubuntu") || strings.Contains(task_os, "Debian") {
task_os = "Debian9"
}
jobNameMap := map[string]string{
"role": "Build",
"os": task_os,
"compiler": parts["compiler"],
"target_arch": parts["arch"],
"configuration": parts["configuration"],
}
if len(ec) > 0 {
jobNameMap["extra_config"] = strings.Join(ec, "_")
}
name, err := jobNameSchema.MakeJobName(jobNameMap)
if err != nil {
glog.Fatal(err)
}
return name
} else {
return jobName
}
}
// swarmDimensions generates swarming bot dimensions for the given task.
func swarmDimensions(parts map[string]string) []string {
if alternateSwarmDimensions != nil {
return alternateSwarmDimensions(parts)
}
return defaultSwarmDimensions(parts)
}
// defaultSwarmDimensions generates default swarming bot dimensions for the given task.
func defaultSwarmDimensions(parts map[string]string) []string {
d := map[string]string{
"pool": CONFIG.Pool,
}
if os, ok := parts["os"]; ok {
d["os"], ok = map[string]string{
"Android": "Android",
"Chromecast": "Android",
"ChromeOS": "ChromeOS",
"Debian9": DEFAULT_OS_DEBIAN,
"Mac": DEFAULT_OS_MAC,
"Ubuntu14": DEFAULT_OS_UBUNTU,
"Ubuntu17": "Ubuntu-17.04",
"Win": DEFAULT_OS_WIN,
"Win10": "Windows-10-16299.371",
"Win2k8": "Windows-2008ServerR2-SP1",
"Win2016": DEFAULT_OS_WIN,
"Win7": "Windows-7-SP1",
"Win8": "Windows-8.1-SP0",
"iOS": "iOS-10.3.1",
}[os]
if !ok {
glog.Fatalf("Entry %q not found in OS mapping.", os)
}
if os == "Win10" && parts["model"] == "Golo" {
// ChOps-owned machines have Windows 10 v1709, but a slightly different version than Skolo.
d["os"] = "Windows-10-16299.309"
}
if d["os"] == DEFAULT_OS_WIN {
// TODO(dogben): Temporarily add image dimension during upgrade.
d["image"] = "windows-server-2016-dc-v20180410"
}
} else {
d["os"] = DEFAULT_OS_DEBIAN
}
if parts["role"] == "Test" || parts["role"] == "Perf" || parts["role"] == "Calmbench" {
if strings.Contains(parts["os"], "Android") || strings.Contains(parts["os"], "Chromecast") {
// For Android, the device type is a better dimension
// than CPU or GPU.
deviceInfo, ok := map[string][]string{
"AndroidOne": {"sprout", "MOB30Q"},
"Chorizo": {"chorizo", "1.30_109591"},
"GalaxyS6": {"zerofltetmo", "NRD90M_G920TUVU5FQK1"},
"GalaxyS7_G930A": {"heroqlteatt", "NRD90M_G930AUCS4BQC2"},
"GalaxyS7_G930FD": {"herolte", "NRD90M_G930FXXU1DQAS"},
"MotoG4": {"athene", "NPJ25.93-14"},
"NVIDIA_Shield": {"foster", "NRD90M_1915764_848"},
"Nexus5": {"hammerhead", "M4B30Z_3437181"},
"Nexus5x": {"bullhead", "OPR6.170623.023"},
"Nexus7": {"grouper", "LMY47V_1836172"}, // 2012 Nexus 7
"NexusPlayer": {"fugu", "OPR2.170623.027"},
"Pixel": {"sailfish", "OPM4.171019.016.B1"},
"Pixel2XL": {"taimen", "OPM4.171019.016.B1"},
"PixelC": {"dragon", "OPM4.171019.016.C1"},
}[parts["model"]]
if !ok {
glog.Fatalf("Entry %q not found in Android mapping.", parts["model"])
}
d["device_type"] = deviceInfo[0]
d["device_os"] = deviceInfo[1]
} else if strings.Contains(parts["os"], "iOS") {
device, ok := map[string]string{
"iPadMini4": "iPad5,1",
"iPhone6": "iPhone7,2",
"iPhone7": "iPhone9,1",
"iPadPro": "iPad6,3",
}[parts["model"]]
if !ok {
glog.Fatalf("Entry %q not found in iOS mapping.", parts["model"])
}
d["device"] = device
} else if strings.Contains(parts["extra_config"], "SwiftShader") {
if parts["model"] != "GCE" || d["os"] != DEFAULT_OS_DEBIAN || parts["cpu_or_gpu_value"] != "SwiftShader" {
glog.Fatalf("Please update defaultSwarmDimensions for SwiftShader %s %s %s.", parts["os"], parts["model"], parts["cpu_or_gpu_value"])
}
d["cpu"] = "x86-64-Haswell_GCE"
d["os"] = DEFAULT_OS_LINUX_GCE
d["machine_type"] = MACHINE_TYPE_SMALL
} else if parts["cpu_or_gpu"] == "CPU" {
modelMapping, ok := map[string]map[string]string{
"AVX": {
"MacMini7.1": "x86-64-E5-2697_v2",
"Golo": "x86-64-E5-2670",
},
"AVX2": {
"GCE": "x86-64-Haswell_GCE",
"NUC5i7RYH": "x86-64-i7-5557U",
},
"AVX512": {
"GCE": "x86-64-Skylake_GCE",
},
}[parts["cpu_or_gpu_value"]]
if !ok {
glog.Fatalf("Entry %q not found in CPU mapping.", parts["cpu_or_gpu_value"])
}
cpu, ok := modelMapping[parts["model"]]
if !ok {
glog.Fatalf("Entry %q not found in %q model mapping.", parts["model"], parts["cpu_or_gpu_value"])
}
d["cpu"] = cpu
if parts["model"] == "GCE" && d["os"] == DEFAULT_OS_DEBIAN {
d["os"] = DEFAULT_OS_LINUX_GCE
}
if parts["model"] == "GCE" && d["cpu"] == "x86-64-Haswell_GCE" {
// Coverage gets slower with more cores.
if strings.Contains(parts["extra_config"], "Coverage") {
d["machine_type"] = MACHINE_TYPE_SMALL
} else {
d["machine_type"] = MACHINE_TYPE_MEDIUM
}
}
} else {
if strings.Contains(parts["os"], "Win") {
gpu, ok := map[string]string{
"GT610": "10de:104a-23.21.13.9101",
"GTX1070": "10de:1ba1-23.21.13.9101",
"GTX660": "10de:11c0-23.21.13.9101",
"GTX960": "10de:1401-23.21.13.9101",
"IntelHD4400": "8086:0a16-20.19.15.4835",
"IntelIris540": "8086:1926-23.20.16.4982",
"IntelIris6100": "8086:162b-20.19.15.4835",
"RadeonHD7770": "1002:683d-23.20.15033.5003",
"RadeonR9M470X": "1002:6646-23.20.15033.5003",
"QuadroP400": "10de:1cb3-23.21.13.9103",
}[parts["cpu_or_gpu_value"]]
if !ok {
glog.Fatalf("Entry %q not found in Win GPU mapping.", parts["cpu_or_gpu_value"])
}
d["gpu"] = gpu
// Specify cpu dimension for NUCs and ShuttleCs. We temporarily have two
// types of machines with a GTX960.
cpu, ok := map[string]string{
"NUC6i7KYK": "x86-64-i7-6770HQ",
"ShuttleC": "x86-64-i7-6700K",
}[parts["model"]]
if ok {
d["cpu"] = cpu
}
} else if strings.Contains(parts["os"], "Ubuntu") || strings.Contains(parts["os"], "Debian") {
gpu, ok := map[string]string{
// Intel drivers come from CIPD, so no need to specify the version here.
"IntelBayTrail": "8086:0f31",
"IntelHD2000": "8086:0102",
"IntelHD405": "8086:22b1",
"IntelIris640": "8086:5926",
"QuadroP400": "10de:1cb3-384.59",
}[parts["cpu_or_gpu_value"]]
if !ok {
glog.Fatalf("Entry %q not found in Ubuntu GPU mapping.", parts["cpu_or_gpu_value"])
}
d["gpu"] = gpu
} else if strings.Contains(parts["os"], "Mac") {
gpu, ok := map[string]string{
"IntelHD6000": "8086:1626",
"IntelHD615": "8086:591e",
"IntelIris5100": "8086:0a2e",
"RadeonHD8870M": "1002:6821-4.0.20-3.2.8",
}[parts["cpu_or_gpu_value"]]
if !ok {
glog.Fatalf("Entry %q not found in Mac GPU mapping.", parts["cpu_or_gpu_value"])
}
d["gpu"] = gpu
// Yuck. We have two different types of MacMini7,1 with the same GPU but different CPUs.
if parts["cpu_or_gpu_value"] == "IntelIris5100" {
// Run all tasks on Golo machines for now.
d["cpu"] = "x86-64-i7-4578U"
}
} else if strings.Contains(parts["os"], "ChromeOS") {
version, ok := map[string]string{
"MaliT604": "10575.22.0",
"MaliT764": "10575.22.0",
"MaliT860": "10575.22.0",
"PowerVRGX6250": "10575.22.0",
"TegraK1": "10575.22.0",
"IntelHDGraphics615": "10575.22.0",
}[parts["cpu_or_gpu_value"]]
if !ok {
glog.Fatalf("Entry %q not found in ChromeOS GPU mapping.", parts["cpu_or_gpu_value"])
}
d["gpu"] = parts["cpu_or_gpu_value"]
d["release_version"] = version
} else {
glog.Fatalf("Unknown GPU mapping for OS %q.", parts["os"])
}
}
} else {
d["gpu"] = "none"
if d["os"] == DEFAULT_OS_DEBIAN {
// Use many-core machines for Build tasks.
return linuxGceDimensions(MACHINE_TYPE_LARGE)
} else if d["os"] == DEFAULT_OS_WIN {
// Windows CPU bots.
d["cpu"] = "x86-64-Haswell_GCE"
// Use many-core machines for Build tasks.
d["machine_type"] = MACHINE_TYPE_LARGE
} else if d["os"] == DEFAULT_OS_MAC {
// Mac CPU bots.
d["cpu"] = "x86-64-E5-2697_v2"
}
}
rv := make([]string, 0, len(d))
for k, v := range d {
rv = append(rv, fmt.Sprintf("%s:%s", k, v))
}
sort.Strings(rv)
return rv
}
// relpath returns the relative path to the given file from the config file.
func relpath(f string) string {
_, filename, _, _ := runtime.Caller(0)
dir := path.Dir(filename)
rel := dir
if *cfgFile != "" {
rel = path.Dir(*cfgFile)
}
rv, err := filepath.Rel(rel, path.Join(dir, f))
if err != nil {
sklog.Fatal(err)
}
return rv
}
// bundleRecipes generates the task to bundle and isolate the recipes.
func bundleRecipes(b *specs.TasksCfgBuilder) string {
b.MustAddTask(BUNDLE_RECIPES_NAME, &specs.TaskSpec{
CipdPackages: CIPD_PKGS_GIT,
Command: []string{
"/bin/bash", "skia/infra/bots/bundle_recipes.sh", specs.PLACEHOLDER_ISOLATED_OUTDIR,
},
Dimensions: linuxGceDimensions(MACHINE_TYPE_SMALL),
EnvPrefixes: map[string][]string{
"PATH": []string{"cipd_bin_packages", "cipd_bin_packages/bin"},
},
Isolate: relpath("swarm_recipe.isolate"),
Priority: 0.7,
})
return BUNDLE_RECIPES_NAME
}
type isolateAssetCfg struct {
cipdPkg string
path string
}
var ISOLATE_ASSET_MAPPING = map[string]isolateAssetCfg{
ISOLATE_GCLOUD_LINUX_NAME: {
cipdPkg: "gcloud_linux",
path: "gcloud_linux",
},
ISOLATE_GO_LINUX_NAME: {
cipdPkg: "go",
path: "go",
},
ISOLATE_SKIMAGE_NAME: {
cipdPkg: "skimage",
path: "skimage",
},
ISOLATE_SKP_NAME: {
cipdPkg: "skp",
path: "skp",
},
ISOLATE_SVG_NAME: {
cipdPkg: "svg",
path: "svg",
},
ISOLATE_NDK_LINUX_NAME: {
cipdPkg: "android_ndk_linux",
path: "android_ndk_linux",
},
ISOLATE_SDK_LINUX_NAME: {
cipdPkg: "android_sdk_linux",
path: "android_sdk_linux",
},
ISOLATE_WIN_TOOLCHAIN_NAME: {
cipdPkg: "win_toolchain",
path: "t",
},
ISOLATE_WIN_VULKAN_SDK_NAME: {
cipdPkg: "win_vulkan_sdk",
path: "win_vulkan_sdk",
},
}
// isolateCIPDAsset generates a task to isolate the given CIPD asset.
func isolateCIPDAsset(b *specs.TasksCfgBuilder, name string) string {
asset := ISOLATE_ASSET_MAPPING[name]
b.MustAddTask(name, &specs.TaskSpec{
CipdPackages: []*specs.CipdPackage{
b.MustGetCipdPackageFromAsset(asset.cipdPkg),
},
Command: []string{"/bin/cp", "-rL", asset.path, "${ISOLATED_OUTDIR}"},
Dimensions: linuxGceDimensions(MACHINE_TYPE_SMALL),
Isolate: relpath("empty.isolate"),
Priority: 0.7,
})
return name
}
// getIsolatedCIPDDeps returns the slice of Isolate_* tasks a given task needs.
// This allows us to save time on I/O bound bots, like the RPIs.
func getIsolatedCIPDDeps(parts map[string]string) []string {
deps := []string{}
// Only do this on the RPIs for now. Other, faster machines shouldn't see much
// benefit and we don't need the extra complexity, for now
rpiOS := []string{"Android", "ChromeOS", "iOS"}
if o := parts["os"]; strings.Contains(o, "Chromecast") {
// Chromecasts don't have enough disk space to fit all of the content,
// so we do a subset of the skps.
deps = append(deps, ISOLATE_SKP_NAME)
} else if e := parts["extra_config"]; strings.Contains(e, "Skpbench") {
// Skpbench only needs skps
deps = append(deps, ISOLATE_SKP_NAME)
} else if util.In(o, rpiOS) {
deps = append(deps, ISOLATE_SKP_NAME)
deps = append(deps, ISOLATE_SVG_NAME)
deps = append(deps, ISOLATE_SKIMAGE_NAME)
}
return deps
}
// usesGit adds attributes to tasks which use git.
func usesGit(t *specs.TaskSpec, name string) {
t.Caches = append(t.Caches, CACHES_GIT...)
if !strings.Contains(name, "NoDEPS") {
t.Caches = append(t.Caches, CACHES_WORKDIR...)
}
t.CipdPackages = append(t.CipdPackages, CIPD_PKGS_GIT...)
}
// timeout sets the timeout(s) for this task.
func timeout(task *specs.TaskSpec, timeout time.Duration) {
task.ExecutionTimeout = timeout
task.IoTimeout = timeout // With kitchen, step logs don't count toward IoTimeout.
}
// compile generates a compile task. Returns the name of the last task in the
// generated chain of tasks, which the Job should add as a dependency.
func compile(b *specs.TasksCfgBuilder, name string, parts map[string]string) string {
task := kitchenTask(name, "compile", "swarm_recipe.isolate", SERVICE_ACCOUNT_COMPILE, swarmDimensions(parts), nil, OUTPUT_BUILD)
usesGit(task, name)
// Android bots require a toolchain.
if strings.Contains(name, "Android") {
if parts["extra_config"] == "Android_Framework" {
// Do not need a toolchain when building the
// Android Framework.
} else if strings.Contains(name, "Mac") {
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("android_ndk_darwin"))
} else if strings.Contains(name, "Win") {
pkg := b.MustGetCipdPackageFromAsset("android_ndk_windows")
pkg.Path = "n"
task.CipdPackages = append(task.CipdPackages, pkg)
} else {
task.Dependencies = append(task.Dependencies, isolateCIPDAsset(b, ISOLATE_NDK_LINUX_NAME))
if strings.Contains(name, "SKQP") {
task.Dependencies = append(task.Dependencies, isolateCIPDAsset(b, ISOLATE_SDK_LINUX_NAME), isolateCIPDAsset(b, ISOLATE_GO_LINUX_NAME))
}
}
} else if strings.Contains(name, "Chromecast") {
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("cast_toolchain"))
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("chromebook_arm_gles"))
} else if strings.Contains(name, "Chromebook") {
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("clang_linux"))
if parts["target_arch"] == "x86_64" {
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("chromebook_x86_64_gles"))
} else if parts["target_arch"] == "arm" {
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("armhf_sysroot"))
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("chromebook_arm_gles"))
}
} else if strings.Contains(name, "CommandBuffer") {
timeout(task, 2*time.Hour)
} else if strings.Contains(name, "Debian") {
if strings.Contains(name, "Clang") {
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("clang_linux"))
}
if strings.Contains(name, "Vulkan") {
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("linux_vulkan_sdk"))
}
if strings.Contains(name, "EMCC") {
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("emscripten_sdk"))
}
if parts["target_arch"] == "mips64el" || parts["target_arch"] == "loongson3a" {
if parts["compiler"] != "GCC" {
glog.Fatalf("mips64el toolchain is GCC, but compiler is %q in %q", parts["compiler"], name)
}
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("mips64el_toolchain_linux"))
}
if strings.Contains(name, "SwiftShader") {
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("cmake_linux"))
}
} else if strings.Contains(name, "Win") {
task.Dependencies = append(task.Dependencies, isolateCIPDAsset(b, ISOLATE_WIN_TOOLCHAIN_NAME))
if strings.Contains(name, "Clang") {
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("clang_win"))
}
if strings.Contains(name, "Vulkan") {
task.Dependencies = append(task.Dependencies, isolateCIPDAsset(b, ISOLATE_WIN_VULKAN_SDK_NAME))
}
}
if strings.Contains(name, "MoltenVK") {
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("moltenvk"))
}
task.MaxAttempts = 1
if strings.Contains(name, "Win") {
task.MaxAttempts = 2
}
// Add the task.
b.MustAddTask(name, task)
// All compile tasks are runnable as their own Job. Assert that the Job
// is listed in JOBS.
if !util.In(name, JOBS) {
glog.Fatalf("Job %q is missing from the JOBS list!", name)
}
// Upload the skiaserve binary only for Linux Android compile bots.
// See skbug.com/7399 for context.
if parts["configuration"] == "Release" &&
parts["extra_config"] == "Android" &&
!strings.Contains(parts["os"], "Win") &&
!strings.Contains(parts["os"], "Mac") {
uploadName := fmt.Sprintf("%s%s%s", PREFIX_UPLOAD, jobNameSchema.Sep, name)
task := kitchenTask(uploadName, "upload_skiaserve", "swarm_recipe.isolate", SERVICE_ACCOUNT_UPLOAD_BINARY, linuxGceDimensions(MACHINE_TYPE_SMALL), nil, OUTPUT_NONE)
task.Dependencies = append(task.Dependencies, name)
b.MustAddTask(uploadName, task)
return uploadName
}
return name
}
// recreateSKPs generates a RecreateSKPs task. Returns the name of the last
// task in the generated chain of tasks, which the Job should add as a
// dependency.
func recreateSKPs(b *specs.TasksCfgBuilder, name string) string {
dims := []string{
"pool:SkiaCT",
fmt.Sprintf("os:%s", DEFAULT_OS_LINUX_GCE),
}
task := kitchenTask(name, "recreate_skps", "swarm_recipe.isolate", SERVICE_ACCOUNT_RECREATE_SKPS, dims, nil, OUTPUT_NONE)
task.CipdPackages = append(task.CipdPackages, CIPD_PKGS_GIT...)
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("go"))
timeout(task, 4*time.Hour)
b.MustAddTask(name, task)
return name
}
// ctSKPs generates a CT SKPs task. Returns the name of the last task in the
// generated chain of tasks, which the Job should add as a dependency.
func ctSKPs(b *specs.TasksCfgBuilder, name string) string {
dims := []string{
"pool:SkiaCT",
fmt.Sprintf("os:%s", DEFAULT_OS_LINUX_GCE),
}
task := kitchenTask(name, "ct_skps", "skia_repo.isolate", SERVICE_ACCOUNT_CT_SKPS, dims, nil, OUTPUT_NONE)
usesGit(task, name)
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("clang_linux"))
timeout(task, 24*time.Hour)
task.MaxAttempts = 1
b.MustAddTask(name, task)
return name
}
// checkGeneratedFiles verifies that no generated SKSL files have been edited
// by hand.
func checkGeneratedFiles(b *specs.TasksCfgBuilder, name string) string {
task := kitchenTask(name, "check_generated_files", "swarm_recipe.isolate", SERVICE_ACCOUNT_COMPILE, linuxGceDimensions(MACHINE_TYPE_LARGE), nil, OUTPUT_NONE)
task.Caches = append(task.Caches, CACHES_WORKDIR...)
b.MustAddTask(name, task)
return name
}
// housekeeper generates a Housekeeper task. Returns the name of the last task
// in the generated chain of tasks, which the Job should add as a dependency.
func housekeeper(b *specs.TasksCfgBuilder, name, compileTaskName string) string {
task := kitchenTask(name, "housekeeper", "swarm_recipe.isolate", SERVICE_ACCOUNT_HOUSEKEEPER, linuxGceDimensions(MACHINE_TYPE_SMALL), nil, OUTPUT_NONE)
usesGit(task, name)
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("go"))
task.Dependencies = append(task.Dependencies, compileTaskName)
b.MustAddTask(name, task)
return name
}
// bookmaker generates a Bookmaker task. Returns the name of the last task
// in the generated chain of tasks, which the Job should add as a dependency.
func bookmaker(b *specs.TasksCfgBuilder, name, compileTaskName string) string {
task := kitchenTask(name, "bookmaker", "swarm_recipe.isolate", SERVICE_ACCOUNT_BOOKMAKER, linuxGceDimensions(MACHINE_TYPE_SMALL), nil, OUTPUT_NONE)
task.Caches = append(task.Caches, CACHES_WORKDIR...)
task.CipdPackages = append(task.CipdPackages, CIPD_PKGS_GIT...)
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("go"))
task.Dependencies = append(task.Dependencies, compileTaskName)
timeout(task, 2*time.Hour)
b.MustAddTask(name, task)
return name
}
// androidFrameworkCompile generates an Android Framework Compile task. Returns
// the name of the last task in the generated chain of tasks, which the Job
// should add as a dependency.
func androidFrameworkCompile(b *specs.TasksCfgBuilder, name string) string {
task := kitchenTask(name, "android_compile", "swarm_recipe.isolate", SERVICE_ACCOUNT_COMPILE, linuxGceDimensions(MACHINE_TYPE_SMALL), nil, OUTPUT_NONE)
task.MaxAttempts = 1
timeout(task, time.Hour)
b.MustAddTask(name, task)
return name
}
// infra generates an infra_tests task. Returns the name of the last task in the
// generated chain of tasks, which the Job should add as a dependency.
func infra(b *specs.TasksCfgBuilder, name string) string {
task := kitchenTask(name, "infra", "swarm_recipe.isolate", SERVICE_ACCOUNT_COMPILE, linuxGceDimensions(MACHINE_TYPE_SMALL), nil, OUTPUT_NONE)
usesGit(task, name)
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("go"))
b.MustAddTask(name, task)
return name
}
func getParentRevisionName(compileTaskName string, parts map[string]string) string {
if parts["extra_config"] == "" {
return compileTaskName + "-ParentRevision"
} else {
return compileTaskName + "_ParentRevision"
}
}
// calmbench generates a calmbench task. Returns the name of the last task in the
// generated chain of tasks, which the Job should add as a dependency.
func calmbench(b *specs.TasksCfgBuilder, name string, parts map[string]string, compileTaskName, compileParentName string) string {
task := kitchenTask(name, "calmbench", "calmbench.isolate", "", swarmDimensions(parts), nil, OUTPUT_PERF)
usesGit(task, name)
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("go"))
task.Dependencies = append(task.Dependencies, compileTaskName, compileParentName, ISOLATE_SKP_NAME, ISOLATE_SVG_NAME)
task.MaxAttempts = 1
b.MustAddTask(name, task)
// Upload results if necessary.
if strings.Contains(name, "Release") && doUpload(name) {
uploadName := fmt.Sprintf("%s%s%s", PREFIX_UPLOAD, jobNameSchema.Sep, name)
extraProps := map[string]string{
"gs_bucket": CONFIG.GsBucketCalm,
}
uploadTask := kitchenTask(name, "upload_calmbench_results", "swarm_recipe.isolate", SERVICE_ACCOUNT_UPLOAD_CALMBENCH, linuxGceDimensions(MACHINE_TYPE_SMALL), extraProps, OUTPUT_NONE)
uploadTask.CipdPackages = append(uploadTask.CipdPackages, CIPD_PKGS_GSUTIL...)
uploadTask.Dependencies = append(uploadTask.Dependencies, name)
b.MustAddTask(uploadName, uploadTask)
return uploadName
}
return name
}
// doUpload indicates whether the given Job should upload its results.
func doUpload(name string) bool {
for _, s := range CONFIG.NoUpload {
m, err := regexp.MatchString(s, name)
if err != nil {
glog.Fatal(err)
}
if m {
return false
}
}
return true
}
// test generates a Test task. Returns the name of the last task in the
// generated chain of tasks, which the Job should add as a dependency.
func test(b *specs.TasksCfgBuilder, name string, parts map[string]string, compileTaskName string, pkgs []*specs.CipdPackage) string {
recipe := "test"
if strings.Contains(name, "SKQP") {
recipe = "skqp_test"
}
extraProps := map[string]string{}
iid := internalHardwareLabel(parts)
if iid != nil {
extraProps["internal_hardware_label"] = strconv.Itoa(*iid)
}
task := kitchenTask(name, recipe, "test_skia_bundled.isolate", "", swarmDimensions(parts), extraProps, OUTPUT_TEST)
task.CipdPackages = append(task.CipdPackages, pkgs...)
task.Dependencies = append(task.Dependencies, compileTaskName)
if strings.Contains(name, "Android_ASAN") {
task.Dependencies = append(task.Dependencies, isolateCIPDAsset(b, ISOLATE_NDK_LINUX_NAME))
}
if strings.Contains(name, "SKQP") {
task.Dependencies = append(task.Dependencies, isolateCIPDAsset(b, ISOLATE_GCLOUD_LINUX_NAME))
}
if deps := getIsolatedCIPDDeps(parts); len(deps) > 0 {
task.Dependencies = append(task.Dependencies, deps...)
}
task.Expiration = 20 * time.Hour
task.MaxAttempts = 1
timeout(task, 4*time.Hour)
if strings.Contains(parts["extra_config"], "Valgrind") {
timeout(task, 9*time.Hour)
task.Expiration = 48 * time.Hour
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("valgrind"))
task.Dimensions = append(task.Dimensions, "valgrind:1")
} else if strings.Contains(parts["extra_config"], "MSAN") {
timeout(task, 9*time.Hour)
} else if parts["arch"] == "x86" && parts["configuration"] == "Debug" {
// skia:6737
timeout(task, 6*time.Hour)
}
b.MustAddTask(name, task)
// Upload results if necessary. TODO(kjlubick): If we do coverage analysis at the same
// time as normal tests (which would be nice), cfg.json needs to have Coverage removed.
if doUpload(name) {
uploadName := fmt.Sprintf("%s%s%s", PREFIX_UPLOAD, jobNameSchema.Sep, name)
extraProps := map[string]string{
"gs_bucket": CONFIG.GsBucketGm,
}
uploadTask := kitchenTask(name, "upload_dm_results", "swarm_recipe.isolate", SERVICE_ACCOUNT_UPLOAD_GM, linuxGceDimensions(MACHINE_TYPE_SMALL), extraProps, OUTPUT_NONE)
uploadTask.CipdPackages = append(uploadTask.CipdPackages, CIPD_PKGS_GSUTIL...)
uploadTask.Dependencies = append(uploadTask.Dependencies, name)
b.MustAddTask(uploadName, uploadTask)
return uploadName
}
return name
}
func coverage(b *specs.TasksCfgBuilder, name string, parts map[string]string, compileTaskName string, pkgs []*specs.CipdPackage) string {
shards := 1
deps := []string{}
tf := parts["test_filter"]
if strings.Contains(tf, "Shard") {
// Expected Shard_NN
shardstr := strings.Split(tf, "_")[1]
var err error
shards, err = strconv.Atoi(shardstr)
if err != nil {
glog.Fatalf("Expected int for number of shards %q in %s: %s", shardstr, name, err)
}
}
for i := 0; i < shards; i++ {
n := strings.Replace(name, tf, fmt.Sprintf("shard_%02d_%02d", i, shards), 1)
task := kitchenTask(n, "test", "test_skia_bundled.isolate", "", swarmDimensions(parts), nil, OUTPUT_COVERAGE)
task.CipdPackages = append(task.CipdPackages, pkgs...)
task.Dependencies = append(task.Dependencies, compileTaskName)
task.Expiration = 20 * time.Hour
task.MaxAttempts = 1
timeout(task, 4*time.Hour)
if deps := getIsolatedCIPDDeps(parts); len(deps) > 0 {
task.Dependencies = append(task.Dependencies, deps...)
}
b.MustAddTask(n, task)
deps = append(deps, n)
}
uploadName := fmt.Sprintf("%s%s%s", "Upload", jobNameSchema.Sep, name)
extraProps := map[string]string{
"gs_bucket": CONFIG.GsBucketCoverage,
}
// Use MACHINE_TYPE_LARGE because this does a bunch of computation before upload.
uploadTask := kitchenTask(uploadName, "upload_coverage_results", "swarm_recipe.isolate", SERVICE_ACCOUNT_UPLOAD_COVERAGE, linuxGceDimensions(MACHINE_TYPE_LARGE), extraProps, OUTPUT_NONE)
usesGit(uploadTask, uploadName)
uploadTask.CipdPackages = append(uploadTask.CipdPackages, CIPD_PKGS_GSUTIL...)
// We need clang_linux to get access to the llvm-profdata and llvm-cov binaries
// which are used to deal with the raw coverage data output by the Test step.
uploadTask.CipdPackages = append(uploadTask.CipdPackages, b.MustGetCipdPackageFromAsset("clang_linux"))
uploadTask.CipdPackages = append(uploadTask.CipdPackages, pkgs...)
// A dependency on compileTaskName makes the TaskScheduler link the
// isolated output of the compile step to the input of the upload step,
// which gives us access to the instrumented binary. The binary is
// needed to figure out symbol names and line numbers.
uploadTask.Dependencies = append(uploadTask.Dependencies, compileTaskName)
uploadTask.Dependencies = append(uploadTask.Dependencies, deps...)
b.MustAddTask(uploadName, uploadTask)
return uploadName
}
// perf generates a Perf task. Returns the name of the last task in the
// generated chain of tasks, which the Job should add as a dependency.
func perf(b *specs.TasksCfgBuilder, name string, parts map[string]string, compileTaskName string, pkgs []*specs.CipdPackage) string {
recipe := "perf"
isolate := relpath("perf_skia_bundled.isolate")
if strings.Contains(parts["extra_config"], "Skpbench") {
recipe = "skpbench"
isolate = relpath("skpbench_skia_bundled.isolate")
}
task := kitchenTask(name, recipe, isolate, "", swarmDimensions(parts), nil, OUTPUT_PERF)
task.CipdPackages = append(task.CipdPackages, pkgs...)
task.Dependencies = append(task.Dependencies, compileTaskName)
task.Expiration = 20 * time.Hour
task.MaxAttempts = 1
timeout(task, 4*time.Hour)
if deps := getIsolatedCIPDDeps(parts); len(deps) > 0 {
task.Dependencies = append(task.Dependencies, deps...)
}
if strings.Contains(parts["extra_config"], "Valgrind") {
timeout(task, 9*time.Hour)
task.Expiration = 48 * time.Hour
task.CipdPackages = append(task.CipdPackages, b.MustGetCipdPackageFromAsset("valgrind"))
task.Dimensions = append(task.Dimensions, "valgrind:1")
} else if strings.Contains(parts["extra_config"], "MSAN") {
timeout(task, 9*time.Hour)
} else if parts["arch"] == "x86" && parts["configuration"] == "Debug" {
// skia:6737
timeout(task, 6*time.Hour)
}
iid := internalHardwareLabel(parts)
if iid != nil {
task.Command = append(task.Command, fmt.Sprintf("internal_hardware_label=%d", *iid))
}
b.MustAddTask(name, task)
// Upload results if necessary.
if strings.Contains(name, "Release") && doUpload(name) {
uploadName := fmt.Sprintf("%s%s%s", PREFIX_UPLOAD, jobNameSchema.Sep, name)
extraProps := map[string]string{
"gs_bucket": CONFIG.GsBucketNano,
}
uploadTask := kitchenTask(name, "upload_nano_results", "swarm_recipe.isolate", SERVICE_ACCOUNT_UPLOAD_NANO, linuxGceDimensions(MACHINE_TYPE_SMALL), extraProps, OUTPUT_NONE)
uploadTask.CipdPackages = append(uploadTask.CipdPackages, CIPD_PKGS_GSUTIL...)
uploadTask.Dependencies = append(uploadTask.Dependencies, name)
b.MustAddTask(uploadName, uploadTask)
return uploadName
}
return name
}
// Run the presubmit.
func presubmit(b *specs.TasksCfgBuilder, name string) string {
extraProps := map[string]string{
"category": "cq",
"patch_gerrit_url": "https://skia-review.googlesource.com",
"patch_project": "skia",
"patch_ref": specs.PLACEHOLDER_PATCH_REF,
"reason": "CQ",
"repo_name": "skia",
}
// Use MACHINE_TYPE_LARGE because it seems to save time versus MEDIUM and we want presubmit to be
// fast.
task := kitchenTask(name, "run_presubmit", "empty.isolate", SERVICE_ACCOUNT_COMPILE, linuxGceDimensions(MACHINE_TYPE_LARGE), extraProps, OUTPUT_NONE)
replaceArg := func(key, value string) {
found := false
for idx, arg := range task.Command {
if arg == key {
task.Command[idx+1] = value
found = true
}
}
if !found {
task.Command = append(task.Command, key, value)
}
}
replaceArg("-repository", "https://chromium.googlesource.com/chromium/tools/build")
replaceArg("-revision", "HEAD")
usesGit(task, name)
task.Dependencies = []string{} // No bundled recipes for this one.
b.MustAddTask(name, task)
return name
}
// process generates tasks and jobs for the given job name.
func process(b *specs.TasksCfgBuilder, name string) {
deps := []string{}
// Bundle Recipes.
if name == BUNDLE_RECIPES_NAME {
deps = append(deps, bundleRecipes(b))
}
// Isolate CIPD assets.
if _, ok := ISOLATE_ASSET_MAPPING[name]; ok {
deps = append(deps, isolateCIPDAsset(b, name))
}
parts, err := jobNameSchema.ParseJobName(name)
if err != nil {
glog.Fatal(err)
}
// RecreateSKPs.
if strings.Contains(name, "RecreateSKPs") {
deps = append(deps, recreateSKPs(b, name))
}
// CT bots.
if strings.Contains(name, "-CT_") {
deps = append(deps, ctSKPs(b, name))
}
// Infra tests.
if name == "Housekeeper-PerCommit-InfraTests" {
deps = append(deps, infra(b, name))
}
// Compile bots.
if parts["role"] == "Build" {
if parts["extra_config"] == "Android_Framework" {
// Android Framework compile tasks use a different recipe.
deps = append(deps, androidFrameworkCompile(b, name))
} else {
deps = append(deps, compile(b, name, parts))
}
}
// Most remaining bots need a compile task.
compileTaskName := deriveCompileTaskName(name, parts)
compileTaskParts, err := jobNameSchema.ParseJobName(compileTaskName)
if err != nil {
glog.Fatal(err)
}
compileParentName := getParentRevisionName(compileTaskName, compileTaskParts)
compileParentParts, err := jobNameSchema.ParseJobName(compileParentName)
if err != nil {
glog.Fatal(err)
}
// These bots do not need a compile task.
if parts["role"] != "Build" &&
name != "Housekeeper-PerCommit-BundleRecipes" &&
name != "Housekeeper-PerCommit-InfraTests" &&
name != "Housekeeper-PerCommit-CheckGeneratedFiles" &&
name != "Housekeeper-OnDemand-Presubmit" &&
!strings.Contains(name, "Android_Framework") &&
!strings.Contains(name, "RecreateSKPs") &&
!strings.Contains(name, "-CT_") &&
!strings.Contains(name, "Housekeeper-PerCommit-Isolate") {
compile(b, compileTaskName, compileTaskParts)
if parts["role"] == "Calmbench" {
compile(b, compileParentName, compileParentParts)
}
}
// Housekeepers.
if name == "Housekeeper-PerCommit" {
deps = append(deps, housekeeper(b, name, compileTaskName))
}
if name == "Housekeeper-PerCommit-CheckGeneratedFiles" {
deps = append(deps, checkGeneratedFiles(b, name))
}
if name == "Housekeeper-OnDemand-Presubmit" {
deps = append(deps, presubmit(b, name))
}
if strings.Contains(name, "Bookmaker") {
deps = append(deps, bookmaker(b, name, compileTaskName))
}
// Common assets needed by the remaining bots.
pkgs := []*specs.CipdPackage{}
if deps := getIsolatedCIPDDeps(parts); len(deps) == 0 {
pkgs = []*specs.CipdPackage{
b.MustGetCipdPackageFromAsset("skimage"),
b.MustGetCipdPackageFromAsset("skp"),
b.MustGetCipdPackageFromAsset("svg"),
}
}
if strings.Contains(name, "Ubuntu") || strings.Contains(name, "Debian") {
if strings.Contains(name, "SAN") {
pkgs = append(pkgs, b.MustGetCipdPackageFromAsset("clang_linux"))
}
if strings.Contains(name, "Vulkan") {
pkgs = append(pkgs, b.MustGetCipdPackageFromAsset("linux_vulkan_sdk"))
}
if strings.Contains(name, "Intel") && strings.Contains(name, "GPU") {
if strings.Contains(name, "Release") {
pkgs = append(pkgs, b.MustGetCipdPackageFromAsset("linux_vulkan_intel_driver_release"))
} else {
pkgs = append(pkgs, b.MustGetCipdPackageFromAsset("linux_vulkan_intel_driver_debug"))
}
}
}
if strings.Contains(name, "ProcDump") {
pkgs = append(pkgs, b.MustGetCipdPackageFromAsset("procdump_win"))
}
// Test bots.
if parts["role"] == "Test" {
if strings.Contains(parts["extra_config"], "Coverage") {
deps = append(deps, coverage(b, name, parts, compileTaskName, pkgs))
} else if !strings.Contains(name, "-CT_") {
deps = append(deps, test(b, name, parts, compileTaskName, pkgs))
}
}
// Perf bots.
if parts["role"] == "Perf" && !strings.Contains(name, "-CT_") {
deps = append(deps, perf(b, name, parts, compileTaskName, pkgs))
}
// Calmbench bots.
if parts["role"] == "Calmbench" {
deps = append(deps, calmbench(b, name, parts, compileTaskName, compileParentName))
}
// Add the Job spec.
j := &specs.JobSpec{
Priority: 0.8,
TaskSpecs: deps,
Trigger: specs.TRIGGER_ANY_BRANCH,
}
if strings.Contains(name, "-Nightly-") {
j.Trigger = specs.TRIGGER_NIGHTLY
} else if strings.Contains(name, "-Weekly-") || strings.Contains(name, "CT_DM_1m_SKPs") {
j.Trigger = specs.TRIGGER_WEEKLY
} else if strings.Contains(name, "Flutter") || strings.Contains(name, "CommandBuffer") {
j.Trigger = specs.TRIGGER_MASTER_ONLY
} else if strings.Contains(name, "-OnDemand-") || strings.Contains(name, "Android_Framework") {
j.Trigger = specs.TRIGGER_ON_DEMAND
}
b.MustAddJob(name, j)
}
func loadJson(flag *string, defaultFlag string, val interface{}) {
if *flag == "" {
*flag = defaultFlag
}
b, err := ioutil.ReadFile(*flag)
if err != nil {
glog.Fatal(err)
}
if err := json.Unmarshal(b, val); err != nil {
glog.Fatal(err)
}
}
// Regenerate the tasks.json file.
func main() {
b := specs.MustNewTasksCfgBuilder()
b.SetAssetsDir(*assetsDir)
infraBots := path.Join(b.CheckoutRoot(), "infra", "bots")
// Load the jobs from a JSON file.
loadJson(jobsFile, path.Join(infraBots, "jobs.json"), &JOBS)
// Load general config information from a JSON file.
loadJson(cfgFile, path.Join(infraBots, "cfg.json"), &CONFIG)
// Create the JobNameSchema.
if *builderNameSchemaFile == "" {
*builderNameSchemaFile = path.Join(b.CheckoutRoot(), "infra", "bots", "recipe_modules", "builder_name_schema", "builder_name_schema.json")
}
schema, err := NewJobNameSchema(*builderNameSchemaFile)
if err != nil {
glog.Fatal(err)
}
jobNameSchema = schema
// Create Tasks and Jobs.
for _, name := range JOBS {
process(b, name)
}
b.MustFinish()
}
// TODO(borenet): The below really belongs in its own file, probably next to the
// builder_name_schema.json file.
// schema is a sub-struct of JobNameSchema.
type schema struct {
Keys []string `json:"keys"`
OptionalKeys []string `json:"optional_keys"`
RecurseRoles []string `json:"recurse_roles"`
}
// JobNameSchema is a struct used for (de)constructing Job names in a
// predictable format.
type JobNameSchema struct {
Schema map[string]*schema `json:"builder_name_schema"`
Sep string `json:"builder_name_sep"`
}
// NewJobNameSchema returns a JobNameSchema instance based on the given JSON
// file.
func NewJobNameSchema(jsonFile string) (*JobNameSchema, error) {
var rv JobNameSchema
f, err := os.Open(jsonFile)
if err != nil {
return nil, err
}
defer util.Close(f)
if err := json.NewDecoder(f).Decode(&rv); err != nil {
return nil, err
}
return &rv, nil
}
// ParseJobName splits the given Job name into its component parts, according
// to the schema.
func (s *JobNameSchema) ParseJobName(n string) (map[string]string, error) {
popFront := func(items []string) (string, []string, error) {
if len(items) == 0 {
return "", nil, fmt.Errorf("Invalid job name: %s (not enough parts)", n)
}
return items[0], items[1:], nil
}
result := map[string]string{}
var parse func(int, string, []string) ([]string, error)
parse = func(depth int, role string, parts []string) ([]string, error) {
s, ok := s.Schema[role]
if !ok {
return nil, fmt.Errorf("Invalid job name; %q is not a valid role.", role)
}
if depth == 0 {
result["role"] = role
} else {
result[fmt.Sprintf("sub-role-%d", depth)] = role
}
var err error
for _, key := range s.Keys {
var value string
value, parts, err = popFront(parts)
if err != nil {
return nil, err
}
result[key] = value
}
for _, subRole := range s.RecurseRoles {
if len(parts) > 0 && parts[0] == subRole {
parts, err = parse(depth+1, parts[0], parts[1:])
if err != nil {
return nil, err
}
}
}
for _, key := range s.OptionalKeys {
if len(parts) > 0 {
var value string
value, parts, err = popFront(parts)
if err != nil {
return nil, err
}
result[key] = value
}
}
if len(parts) > 0 {
return nil, fmt.Errorf("Invalid job name: %s (too many parts)", n)
}
return parts, nil
}
split := strings.Split(n, s.Sep)
if len(split) < 2 {
return nil, fmt.Errorf("Invalid job name: %s (not enough parts)", n)
}
role := split[0]
split = split[1:]
_, err := parse(0, role, split)
return result, err
}
// MakeJobName assembles the given parts of a Job name, according to the schema.
func (s *JobNameSchema) MakeJobName(parts map[string]string) (string, error) {
rvParts := make([]string, 0, len(parts))
var process func(int, map[string]string) (map[string]string, error)
process = func(depth int, parts map[string]string) (map[string]string, error) {
roleKey := "role"
if depth != 0 {
roleKey = fmt.Sprintf("sub-role-%d", depth)
}
role, ok := parts[roleKey]
if !ok {
return nil, fmt.Errorf("Invalid job parts; missing key %q", roleKey)
}
s, ok := s.Schema[role]
if !ok {
return nil, fmt.Errorf("Invalid job parts; unknown role %q", role)
}
rvParts = append(rvParts, role)
delete(parts, roleKey)
for _, key := range s.Keys {
value, ok := parts[key]
if !ok {
return nil, fmt.Errorf("Invalid job parts; missing %q", key)
}
rvParts = append(rvParts, value)
delete(parts, key)
}
if len(s.RecurseRoles) > 0 {
subRoleKey := fmt.Sprintf("sub-role-%d", depth+1)
subRole, ok := parts[subRoleKey]
if !ok {
return nil, fmt.Errorf("Invalid job parts; missing %q", subRoleKey)
}
rvParts = append(rvParts, subRole)
delete(parts, subRoleKey)
found := false
for _, recurseRole := range s.RecurseRoles {
if recurseRole == subRole {
found = true
var err error
parts, err = process(depth+1, parts)
if err != nil {
return nil, err
}
break
}
}
if !found {
return nil, fmt.Errorf("Invalid job parts; unknown sub-role %q", subRole)
}
}
for _, key := range s.OptionalKeys {
if value, ok := parts[key]; ok {
rvParts = append(rvParts, value)
delete(parts, key)
}
}
if len(parts) > 0 {
return nil, fmt.Errorf("Invalid job parts: too many parts: %v", parts)
}
return parts, nil
}
// Copy the parts map, so that we can modify at will.
partsCpy := make(map[string]string, len(parts))
for k, v := range parts {
partsCpy[k] = v
}
if _, err := process(0, partsCpy); err != nil {
return "", err
}
return strings.Join(rvParts, s.Sep), nil
}