skia2/infra/bots/gen_tasks_logic/gen_tasks_logic.go
Weston Tracey 505dc179b0 Move Pixelbook build jobs to Docker Debian9.
-Make generated build tasks for Pixelbook use Debian9...Docker and rename those in jobs.json
---Non-Pixelbook ChromeOS build tasks now use regular Debian10, as they seem to handle it fine.
---Removed 2 Build-Debian9-Clang-arm-.*-Chromebook_GLES jobs, since they are now unused.
-Added docker logic to chromebook.py, refactored to handle the differing directory structure (TODO to simplify)
---Added docker-chromeos-compile.sh to run in the container.
---util function to convert to string that can be used in the python or passed to bash (cribbed from docker.py, will consolidate in later CL)
-Prerequisite for upgrading the last 10% of the fleet to Debian10

Bug: skia:9438
Change-Id: I0727aad2d00383e568ddbeea98d56d42bcca26e5
Reviewed-on: https://skia-review.googlesource.com/c/skia/+/282678
Commit-Queue: Weston Tracey <westont@google.com>
Reviewed-by: Eric Boren <borenet@google.com>
2020-04-14 16:05:34 +00:00

1505 lines
48 KiB
Go

// 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 gen_tasks_logic
/*
Generate the tasks.json file.
*/
import (
"encoding/json"
"fmt"
"io/ioutil"
"log"
"path"
"path/filepath"
"regexp"
"runtime"
"sort"
"strconv"
"strings"
"time"
"go.skia.org/infra/task_scheduler/go/specs"
)
const (
BUILD_TASK_DRIVERS_NAME = "Housekeeper-PerCommit-BuildTaskDrivers"
BUNDLE_RECIPES_NAME = "Housekeeper-PerCommit-BundleRecipes"
ISOLATE_GCLOUD_LINUX_NAME = "Housekeeper-PerCommit-IsolateGCloudLinux"
ISOLATE_SKIMAGE_NAME = "Housekeeper-PerCommit-IsolateSkImage"
ISOLATE_SKP_NAME = "Housekeeper-PerCommit-IsolateSKP"
ISOLATE_MSKP_NAME = "Housekeeper-PerCommit-IsolateMSKP"
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"
DEFAULT_OS_DEBIAN = "Debian-10.3"
DEFAULT_OS_LINUX_GCE = "Debian-10.3"
OLD_OS_LINUX_GCE = "Debian-9.8"
COMPILE_TASK_NAME_OS_LINUX = "Debian10"
COMPILE_TASK_NAME_OS_LINUX_OLD = "Debian9"
DEFAULT_OS_MAC = "Mac-10.14.6"
DEFAULT_OS_WIN = "Windows-Server-17763"
// 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_TEST = "test"
OUTPUT_PERF = "perf"
// Name prefix for upload jobs.
PREFIX_UPLOAD = "Upload"
)
var (
// "Constants"
// 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_GO = []*specs.Cache{
&specs.Cache{
Name: "go_cache",
Path: "cache/go_cache",
},
&specs.Cache{
Name: "gopath",
Path: "cache/gopath",
},
}
CACHES_WORKDIR = []*specs.Cache{
&specs.Cache{
Name: "work",
Path: "cache/work",
},
}
CACHES_CCACHE = []*specs.Cache{
&specs.Cache{
Name: "ccache",
Path: "cache/ccache",
},
}
// The "docker" cache is used as a persistent working directory for
// tasks which use Docker. It is not to be confused with Docker's own
// cache, which stores images. We do not currently use a named Swarming
// cache for the latter.
// TODO(borenet): We should ensure that any task which uses Docker does
// not also use the normal "work" cache, to prevent issues like
// https://bugs.chromium.org/p/skia/issues/detail?id=9749.
CACHES_DOCKER = []*specs.Cache{
&specs.Cache{
Name: "docker",
Path: "cache/docker",
},
}
// TODO(borenet): This hacky and bad.
CIPD_PKGS_KITCHEN = append(specs.CIPD_PKGS_KITCHEN[:2], specs.CIPD_PKGS_PYTHON[1])
CIPD_PKG_CPYTHON = specs.CIPD_PKGS_PYTHON[0]
CIPD_PKGS_XCODE = []*specs.CipdPackage{
// https://chromium.googlesource.com/chromium/tools/build/+/e19b7d9390e2bb438b566515b141ed2b9ed2c7c2/scripts/slave/recipe_modules/ios/api.py#317
// This package is really just an installer for XCode.
&specs.CipdPackage{
Name: "infra/tools/mac_toolchain/${platform}",
Path: "mac_toolchain",
// When this is updated, also update
// https://skia.googlesource.com/skcms.git/+/f1e2b45d18facbae2dece3aca673fe1603077846/infra/bots/gen_tasks.go#56
Version: "git_revision:796d2b92cff93fc2059623ce0a66284373ceea0a",
},
}
// These properties are required by some tasks, eg. for running
// bot_update, but they prevent de-duplication, so they should only be
// used where necessary.
EXTRA_PROPS = map[string]string{
"buildbucket_build_id": specs.PLACEHOLDER_BUILDBUCKET_BUILD_ID,
"patch_issue": specs.PLACEHOLDER_ISSUE_INT,
"patch_ref": specs.PLACEHOLDER_PATCH_REF,
"patch_repo": specs.PLACEHOLDER_PATCH_REPO,
"patch_set": specs.PLACEHOLDER_PATCHSET_INT,
"patch_storage": specs.PLACEHOLDER_PATCH_STORAGE,
"repository": specs.PLACEHOLDER_REPO,
"revision": specs.PLACEHOLDER_REVISION,
"task_id": specs.PLACEHOLDER_TASK_ID,
}
// ISOLATE_ASSET_MAPPING maps the name of an asset to the configuration
// for how the CIPD package should be installed for a given task.
ISOLATE_ASSET_MAPPING = map[string]isolateAssetCfg{
"gcloud_linux": {
isolateTaskName: ISOLATE_GCLOUD_LINUX_NAME,
path: "gcloud_linux",
},
"skimage": {
isolateTaskName: ISOLATE_SKIMAGE_NAME,
path: "skimage",
},
"skp": {
isolateTaskName: ISOLATE_SKP_NAME,
path: "skp",
},
"svg": {
isolateTaskName: ISOLATE_SVG_NAME,
path: "svg",
},
"mskp": {
isolateTaskName: ISOLATE_MSKP_NAME,
path: "mskp",
},
"android_ndk_linux": {
isolateTaskName: ISOLATE_NDK_LINUX_NAME,
path: "android_ndk_linux",
},
"android_sdk_linux": {
isolateTaskName: ISOLATE_SDK_LINUX_NAME,
path: "android_sdk_linux",
},
"win_toolchain": {
alwaysIsolate: true,
isolateTaskName: ISOLATE_WIN_TOOLCHAIN_NAME,
path: "win_toolchain",
},
}
)
// Config contains general configuration information.
type Config struct {
// Directory containing assets. Assumed to be relative to the directory
// which contains the calling gen_tasks.go file. If not specified, uses
// the infra/bots/assets from this repo.
AssetsDir string `json:"assets_dir"`
// Path to the builder name schema JSON file. Assumed to be relative to
// the directory which contains the calling gen_tasks.go file. If not
// specified, uses infra/bots/recipe_modules/builder_name_schema/builder_name_schema.json
// from this repo.
BuilderNameSchemaFile string `json:"builder_name_schema"`
// URL of the Skia Gold known hashes endpoint.
GoldHashesURL string `json:"gold_hashes_url"`
// GCS bucket used for GM results.
GsBucketGm string `json:"gs_bucket_gm"`
// GCS bucket used for Nanobench results.
GsBucketNano string `json:"gs_bucket_nano"`
// Optional function which returns a bot ID for internal devices.
InternalHardwareLabel func(parts map[string]string) *int `json:"-"`
// List of task names for which we'll never upload results.
NoUpload []string `json:"no_upload"`
// Swarming pool used for triggering tasks.
Pool string `json:"pool"`
// LUCI project associated with this repo.
Project string `json:"project"`
// Service accounts.
ServiceAccountCompile string `json:"service_account_compile"`
ServiceAccountHousekeeper string `json:"service_account_housekeeper"`
ServiceAccountRecreateSKPs string `json:"service_account_recreate_skps"`
ServiceAccountUploadBinary string `json:"service_account_upload_binary"`
ServiceAccountUploadGM string `json:"service_account_upload_gm"`
ServiceAccountUploadNano string `json:"service_account_upload_nano"`
// Optional override function which derives Swarming bot dimensions
// from parts of task names.
SwarmDimensions func(parts map[string]string) []string `json:"-"`
}
// LoadConfig loads the Config from a cfg.json file which is the sibling of the
// calling gen_tasks.go file.
func LoadConfig() *Config {
cfgDir := getCallingDirName()
var cfg Config
LoadJson(filepath.Join(cfgDir, "cfg.json"), &cfg)
return &cfg
}
// CheckoutRoot is a wrapper around specs.GetCheckoutRoot which prevents the
// caller from needing a dependency on the specs package.
func CheckoutRoot() string {
root, err := specs.GetCheckoutRoot()
if err != nil {
log.Fatal(err)
}
return root
}
// LoadJson loads JSON from the given file and unmarshals it into the given
// destination.
func LoadJson(filename string, dest interface{}) {
b, err := ioutil.ReadFile(filename)
if err != nil {
log.Fatalf("Unable to read %q: %s", filename, err)
}
if err := json.Unmarshal(b, dest); err != nil {
log.Fatalf("Unable to parse %q: %s", filename, err)
}
}
// In returns true if |s| is *in* |a| slice.
// TODO(borenet): This is copied from go.skia.org/infra/go/util to avoid the
// huge set of additional dependencies added by that package.
func In(s string, a []string) bool {
for _, x := range a {
if x == s {
return true
}
}
return false
}
// GenTasks regenerates the tasks.json file. Loads the job list from a jobs.json
// file which is the sibling of the calling gen_tasks.go file. If cfg is nil, it
// is similarly loaded from a cfg.json file which is the sibling of the calling
// gen_tasks.go file.
func GenTasks(cfg *Config) {
b := specs.MustNewTasksCfgBuilder()
// Find the paths to the infra/bots directories in this repo and the
// repo of the calling file.
relpathTargetDir := getThisDirName()
relpathBaseDir := getCallingDirName()
var jobs []string
LoadJson(filepath.Join(relpathBaseDir, "jobs.json"), &jobs)
if cfg == nil {
cfg = new(Config)
LoadJson(filepath.Join(relpathBaseDir, "cfg.json"), cfg)
}
// Create the JobNameSchema.
builderNameSchemaFile := filepath.Join(relpathTargetDir, "recipe_modules", "builder_name_schema", "builder_name_schema.json")
if cfg.BuilderNameSchemaFile != "" {
builderNameSchemaFile = filepath.Join(relpathBaseDir, cfg.BuilderNameSchemaFile)
}
schema, err := NewJobNameSchema(builderNameSchemaFile)
if err != nil {
log.Fatal(err)
}
// Set the assets dir.
assetsDir := filepath.Join(relpathTargetDir, "assets")
if cfg.AssetsDir != "" {
assetsDir = filepath.Join(relpathBaseDir, cfg.AssetsDir)
}
b.SetAssetsDir(assetsDir)
// Create Tasks and Jobs.
builder := &builder{
TasksCfgBuilder: b,
cfg: cfg,
jobNameSchema: schema,
jobs: jobs,
relpathBaseDir: relpathBaseDir,
relpathTargetDir: relpathTargetDir,
}
for _, name := range jobs {
jb := newJobBuilder(builder, name)
jb.genTasksForJob()
jb.finish()
}
builder.MustFinish()
}
// getThisDirName returns the infra/bots directory which is an ancestor of this
// file.
func getThisDirName() string {
_, thisFileName, _, ok := runtime.Caller(0)
if !ok {
log.Fatal("Unable to find path to current file.")
}
return filepath.Dir(filepath.Dir(thisFileName))
}
// getCallingDirName returns the infra/bots directory which is an ancestor of
// the calling gen_tasks.go file. WARNING: assumes that the calling gen_tasks.go
// file appears two steps up the stack; do not call from a function which is not
// directly called by gen_tasks.go.
func getCallingDirName() string {
_, callingFileName, _, ok := runtime.Caller(2)
if !ok {
log.Fatal("Unable to find path to calling file.")
}
return filepath.Dir(callingFileName)
}
// builder is a wrapper for specs.TasksCfgBuilder.
type builder struct {
*specs.TasksCfgBuilder
cfg *Config
jobNameSchema *JobNameSchema
jobs []string
relpathBaseDir string
relpathTargetDir string
}
// marshalJson encodes the given data as JSON and fixes escaping of '<' which Go
// does by default.
func marshalJson(data interface{}) string {
j, err := json.Marshal(data)
if err != nil {
log.Fatal(err)
}
return strings.Replace(string(j), "\\u003c", "<", -1)
}
// kitchenTaskNoBundle sets up the task to run a recipe via Kitchen, without the
// recipe bundle.
func (b *taskBuilder) kitchenTaskNoBundle(recipe string, outputDir string) {
b.cipd(CIPD_PKGS_KITCHEN...)
if (b.matchOs("Win") || b.matchExtraConfig("Win")) && !b.model("LenovoYogaC630") {
b.cipd(CIPD_PKG_CPYTHON)
} else if b.os("Mac10.15") && b.model("VMware7.1") {
b.cipd(CIPD_PKG_CPYTHON)
}
b.recipeProp("swarm_out_dir", outputDir)
if outputDir != OUTPUT_NONE {
b.output(outputDir)
}
b.cache(&specs.Cache{
Name: "vpython",
Path: "cache/vpython",
})
python := "cipd_bin_packages/vpython${EXECUTABLE_SUFFIX}"
b.cmd(python, "-u", "skia/infra/bots/run_recipe.py", "${ISOLATED_OUTDIR}", recipe, b.getRecipeProps(), b.cfg.Project)
// Most recipes want this isolate; they can override if necessary.
b.isolate("swarm_recipe.isolate")
b.timeout(time.Hour)
b.addToPATH("cipd_bin_packages", "cipd_bin_packages/bin")
b.env("VPYTHON_VIRTUALENV_ROOT", "cache/vpython")
b.Spec.ExtraTags = map[string]string{
"log_location": fmt.Sprintf("logdog://logs.chromium.org/%s/${SWARMING_TASK_ID}/+/annotations", b.cfg.Project),
}
// Attempts.
if b.extraConfig("Framework") && b.extraConfig("Android", "G3") {
// Both bots can be long running. No need to retry them.
b.attempts(1)
} else if !b.role("Build", "Upload") && b.extraConfig("ASAN", "MSAN", "TSAN", "Valgrind") {
// Sanitizers often find non-deterministic issues that retries would hide.
b.attempts(1)
} else {
// Retry by default to hide random bot/hardware failures.
b.attempts(2)
}
}
// kitchenTask sets up the task to run a recipe via Kitchen.
func (b *taskBuilder) kitchenTask(recipe string, outputDir string) {
b.kitchenTaskNoBundle(recipe, outputDir)
b.dep(b.bundleRecipes())
}
// internalHardwareLabel returns the internal ID for the bot, if any.
func (b *taskBuilder) internalHardwareLabel() *int {
if b.cfg.InternalHardwareLabel != nil {
return b.cfg.InternalHardwareLabel(b.parts)
}
return nil
}
// linuxGceDimensions adds the Swarming bot dimensions for Linux GCE instances.
func (b *taskBuilder) linuxGceDimensions(machineType string) {
b.dimension(
// 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", b.cfg.Pool),
)
}
// deriveCompileTaskName returns the name of a compile task based on the given
// job name.
func (b *jobBuilder) deriveCompileTaskName() string {
if b.role("Test", "Perf") {
task_os := b.parts["os"]
ec := []string{}
if val := b.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", "DDLTotal", "DDLRecord", "9x9",
"BonusConfigs", "SkottieTracing", "SkottieWASM", "GpuTess", "NonNVPR", "Mskp",
"Docker", "PDF", "SkVM"}
keep := make([]string, 0, len(ec))
for _, part := range ec {
if !In(part, ignore) {
keep = append(keep, part)
}
}
ec = keep
}
if b.os("Android") {
if !In("Android", ec) {
ec = append([]string{"Android"}, ec...)
}
task_os = COMPILE_TASK_NAME_OS_LINUX
} else if b.os("ChromeOS") {
ec = append([]string{"Chromebook", "GLES"}, ec...)
task_os = COMPILE_TASK_NAME_OS_LINUX
if b.model("Pixelbook") {
task_os = COMPILE_TASK_NAME_OS_LINUX_OLD
ec = append(ec, "Docker")
}
} else if b.os("iOS") {
ec = append([]string{task_os}, ec...)
task_os = "Mac"
} else if b.matchOs("Win") {
task_os = "Win"
} else if b.compiler("GCC") {
// GCC compiles are now on a Docker container. We use the same OS and
// version to compile as to test.
ec = append(ec, "Docker")
} else if b.matchOs("Ubuntu", "Debian") {
task_os = COMPILE_TASK_NAME_OS_LINUX
} else if b.matchOs("Mac") {
task_os = "Mac"
}
jobNameMap := map[string]string{
"role": "Build",
"os": task_os,
"compiler": b.parts["compiler"],
"target_arch": b.parts["arch"],
"configuration": b.parts["configuration"],
}
if b.extraConfig("PathKit") {
ec = []string{"PathKit"}
}
if b.extraConfig("CanvasKit", "SkottieWASM") {
if b.cpu() {
ec = []string{"CanvasKit_CPU"}
} else {
ec = []string{"CanvasKit"}
}
}
if len(ec) > 0 {
jobNameMap["extra_config"] = strings.Join(ec, "_")
}
name, err := b.jobNameSchema.MakeJobName(jobNameMap)
if err != nil {
log.Fatal(err)
}
return name
} else if b.parts["role"] == "BuildStats" {
return strings.Replace(b.Name, "BuildStats", "Build", 1)
} else {
return b.Name
}
}
// swarmDimensions generates swarming bot dimensions for the given task.
func (b *taskBuilder) swarmDimensions() {
if b.cfg.SwarmDimensions != nil {
dims := b.cfg.SwarmDimensions(b.parts)
if dims != nil {
b.dimension(dims...)
return
}
}
b.defaultSwarmDimensions()
}
// defaultSwarmDimensions generates default swarming bot dimensions for the given task.
func (b *taskBuilder) defaultSwarmDimensions() {
d := map[string]string{
"pool": b.cfg.Pool,
}
if os, ok := b.parts["os"]; ok {
d["os"], ok = map[string]string{
"Android": "Android",
"ChromeOS": "ChromeOS",
"Debian9": DEFAULT_OS_LINUX_GCE, // Runs in Deb9 Docker.
"Debian10": DEFAULT_OS_LINUX_GCE,
"Mac": DEFAULT_OS_MAC,
"Mac10.13": "Mac-10.13.6",
"Mac10.14": "Mac-10.14.3",
"Mac10.15": "Mac-10.15.1",
"Ubuntu18": "Ubuntu-18.04",
"Win": DEFAULT_OS_WIN,
"Win10": "Windows-10-18363",
"Win2019": DEFAULT_OS_WIN,
"Win7": "Windows-7-SP1",
"Win8": "Windows-8.1-SP0",
"iOS": "iOS-13.3.1",
}[os]
if !ok {
log.Fatalf("Entry %q not found in OS mapping.", os)
}
if os == "Win10" && b.parts["model"] == "Golo" {
// ChOps-owned machines have Windows 10 v1709.
d["os"] = "Windows-10-16299"
}
if os == "Mac10.14" && b.parts["model"] == "VMware7.1" {
// ChOps VMs are at a newer version of MacOS.
d["os"] = "Mac-10.14.6"
}
if b.parts["model"] == "LenovoYogaC630" {
// This is currently a unique snowflake.
d["os"] = "Windows-10"
}
if b.parts["model"] == "iPhone6" {
// This is the latest iOS that supports iPhone6.
d["os"] = "iOS-12.4.5"
}
} else {
d["os"] = DEFAULT_OS_DEBIAN
}
if b.role("Test", "Perf") {
if b.os("Android") {
// For Android, the device type is a better dimension
// than CPU or GPU.
deviceInfo, ok := map[string][]string{
"AndroidOne": {"sprout", "MOB30Q"},
"GalaxyS6": {"zerofltetmo", "NRD90M_G920TUVS6FRC1"},
"GalaxyS7_G930FD": {"herolte", "R16NW_G930FXXS2ERH6"}, // This is Oreo.
"GalaxyS9": {"starlte", "R16NW_G960FXXU2BRJ8"}, // This is Oreo.
"MotoG4": {"athene", "NPJS25.93-14.7-8"},
"NVIDIA_Shield": {"foster", "OPR6.170623.010_3507953_1441.7411"},
"Nexus5": {"hammerhead", "M4B30Z_3437181"},
"Nexus5x": {"bullhead", "OPR6.170623.023"},
"Nexus7": {"grouper", "LMY47V_1836172"}, // 2012 Nexus 7
"P30": {"HWELE", "HUAWEIELE-L29"},
"Pixel": {"sailfish", "PPR1.180610.009"},
"Pixel2XL": {"taimen", "PPR1.180610.009"},
"Pixel3": {"blueline", "PQ1A.190105.004"},
"Pixel3a": {"sargo", "QP1A.190711.020"},
"Pixel4": {"flame", "QD1A.190821.011.C4"},
"TecnoSpark3Pro": {"TECNO-KB8", "PPR1.180610.011"},
}[b.parts["model"]]
if !ok {
log.Fatalf("Entry %q not found in Android mapping.", b.parts["model"])
}
d["device_type"] = deviceInfo[0]
d["device_os"] = deviceInfo[1]
} else if b.os("iOS") {
device, ok := map[string]string{
"iPadMini4": "iPad5,1",
"iPhone6": "iPhone7,2",
"iPhone7": "iPhone9,1",
"iPhone8": "iPhone10,1",
"iPhone11": "iPhone12,1",
"iPadPro": "iPad6,3",
}[b.parts["model"]]
if !ok {
log.Fatalf("Entry %q not found in iOS mapping.", b.parts["model"])
}
d["device_type"] = device
// Temporarily use this dimension to ensure we only use the new libimobiledevice, since the
// old version won't work with current recipes.
d["libimobiledevice"] = "1582155448"
} else if b.extraConfig("SKQP") && b.cpu("Emulator") {
if !b.model("NUC7i5BNK") || d["os"] != DEFAULT_OS_DEBIAN {
log.Fatalf("Please update defaultSwarmDimensions for SKQP::Emulator %s %s.", b.parts["os"], b.parts["model"])
}
d["cpu"] = "x86-64-i5-7260U"
d["os"] = DEFAULT_OS_DEBIAN
// KVM means Kernel-based Virtual Machine, that is, can this vm virtualize commands
// For us, this means, can we run an x86 android emulator on it.
// kjlubick tried running this on GCE, but it was a bit too slow on the large install.
// So, we run on bare metal machines in the Skolo (that should also have KVM).
d["kvm"] = "1"
d["docker_installed"] = "true"
} else if b.cpu() || b.extraConfig("CanvasKit", "Docker", "SwiftShader") {
modelMapping, ok := map[string]map[string]string{
"AVX": {
"VMware7.1": "x86-64-E5-2697_v2",
},
"AVX2": {
"GCE": "x86-64-Haswell_GCE",
"MacBookAir7.2": "x86-64-i5-5350U",
"MacBookPro11.5": "x86-64-i7-4870HQ",
"NUC5i7RYH": "x86-64-i7-5557U",
},
"AVX512": {
"GCE": "x86-64-Skylake_GCE",
"Golo": "Intel64_Family_6_Model_85_Stepping_7__GenuineIntel",
},
"Snapdragon850": {
"LenovoYogaC630": "arm64-64-Snapdragon850",
},
"SwiftShader": {
"GCE": "x86-64-Haswell_GCE",
},
}[b.parts["cpu_or_gpu_value"]]
if !ok {
log.Fatalf("Entry %q not found in CPU mapping.", b.parts["cpu_or_gpu_value"])
}
cpu, ok := modelMapping[b.parts["model"]]
if !ok {
log.Fatalf("Entry %q not found in %q model mapping.", b.parts["model"], b.parts["cpu_or_gpu_value"])
}
d["cpu"] = cpu
if b.model("GCE") && b.matchOs("Debian") {
d["os"] = DEFAULT_OS_LINUX_GCE
}
if b.model("GCE") && d["cpu"] == "x86-64-Haswell_GCE" {
d["machine_type"] = MACHINE_TYPE_MEDIUM
}
} else {
if b.matchOs("Win") {
gpu, ok := map[string]string{
// At some point this might use the device ID, but for now it's like Chromebooks.
"Adreno630": "Adreno630",
"GT610": "10de:104a-23.21.13.9101",
"GTX660": "10de:11c0-26.21.14.4120",
"GTX960": "10de:1401-26.21.14.4120",
"IntelHD4400": "8086:0a16-20.19.15.4963",
"IntelIris540": "8086:1926-26.20.100.7463",
"IntelIris6100": "8086:162b-20.19.15.4963",
"IntelIris655": "8086:3ea5-26.20.100.7463",
"RadeonHD7770": "1002:683d-26.20.13031.18002",
"RadeonR9M470X": "1002:6646-26.20.13031.18002",
"QuadroP400": "10de:1cb3-25.21.14.1678",
}[b.parts["cpu_or_gpu_value"]]
if !ok {
log.Fatalf("Entry %q not found in Win GPU mapping.", b.parts["cpu_or_gpu_value"])
}
d["gpu"] = gpu
} else if b.isLinux() {
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:1cb3-430.14",
}[b.parts["cpu_or_gpu_value"]]
if !ok {
log.Fatalf("Entry %q not found in Ubuntu GPU mapping.", b.parts["cpu_or_gpu_value"])
}
d["gpu"] = gpu
} else if b.matchOs("Mac") {
gpu, ok := map[string]string{
"IntelHD6000": "8086:1626",
"IntelHD615": "8086:591e",
"IntelIris5100": "8086:0a2e",
"RadeonHD8870M": "1002:6821-4.0.20-3.2.8",
}[b.parts["cpu_or_gpu_value"]]
if !ok {
log.Fatalf("Entry %q not found in Mac GPU mapping.", b.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 b.gpu("IntelIris5100") {
// Run all tasks on Golo machines for now.
d["cpu"] = "x86-64-i7-4578U"
}
} else if b.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",
}[b.parts["cpu_or_gpu_value"]]
if !ok {
log.Fatalf("Entry %q not found in ChromeOS GPU mapping.", b.parts["cpu_or_gpu_value"])
}
d["gpu"] = b.parts["cpu_or_gpu_value"]
d["release_version"] = version
} else {
log.Fatalf("Unknown GPU mapping for OS %q.", b.parts["os"])
}
}
} else {
d["gpu"] = "none"
if d["os"] == DEFAULT_OS_LINUX_GCE {
if b.extraConfig("CanvasKit", "CMake", "Docker", "PathKit") || b.role("BuildStats") {
b.linuxGceDimensions(MACHINE_TYPE_MEDIUM)
return
}
// Use many-core machines for Build tasks.
b.linuxGceDimensions(MACHINE_TYPE_LARGE)
return
} 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"
}
}
dims := make([]string, 0, len(d))
for k, v := range d {
dims = append(dims, fmt.Sprintf("%s:%s", k, v))
}
sort.Strings(dims)
b.dimension(dims...)
}
// relpath returns the relative path to the given file from the config file.
func (b *builder) relpath(f string) string {
target := filepath.Join(b.relpathTargetDir, f)
rv, err := filepath.Rel(b.relpathBaseDir, target)
if err != nil {
log.Fatal(err)
}
return rv
}
// bundleRecipes generates the task to bundle and isolate the recipes. Returns
// the name of the task, which may be added as a dependency.
func (b *jobBuilder) bundleRecipes() string {
b.addTask(BUNDLE_RECIPES_NAME, func(b *taskBuilder) {
b.cipd(specs.CIPD_PKGS_GIT_LINUX_AMD64...)
b.cipd(specs.CIPD_PKGS_PYTHON...)
b.cmd("/bin/bash", "skia/infra/bots/bundle_recipes.sh", specs.PLACEHOLDER_ISOLATED_OUTDIR)
b.linuxGceDimensions(MACHINE_TYPE_SMALL)
b.addToPATH("cipd_bin_packages", "cipd_bin_packages/bin")
b.idempotent()
b.isolate("recipes.isolate")
})
return BUNDLE_RECIPES_NAME
}
// buildTaskDrivers generates the task to compile the task driver code to run on
// all platforms. Returns the name of the task, which may be added as a
// dependency.
func (b *jobBuilder) buildTaskDrivers() string {
b.addTask(BUILD_TASK_DRIVERS_NAME, func(b *taskBuilder) {
b.usesGo()
b.cmd("/bin/bash", "skia/infra/bots/build_task_drivers.sh", specs.PLACEHOLDER_ISOLATED_OUTDIR)
b.linuxGceDimensions(MACHINE_TYPE_SMALL)
b.addToPATH("cipd_bin_packages", "cipd_bin_packages/bin", "go/go/bin")
b.idempotent()
b.isolate("task_drivers.isolate")
})
return BUILD_TASK_DRIVERS_NAME
}
// updateGoDeps generates the task to update Go dependencies.
func (b *jobBuilder) updateGoDeps() {
b.addTask(b.Name, func(b *taskBuilder) {
b.usesGo()
b.asset("protoc")
b.cmd(
"./update_go_deps",
"--project_id", "skia-swarming-bots",
"--task_id", specs.PLACEHOLDER_TASK_ID,
"--task_name", b.Name,
"--workdir", ".",
"--gerrit_project", "skia",
"--gerrit_url", "https://skia-review.googlesource.com",
"--repo", specs.PLACEHOLDER_REPO,
"--revision", specs.PLACEHOLDER_REVISION,
"--patch_issue", specs.PLACEHOLDER_ISSUE,
"--patch_set", specs.PLACEHOLDER_PATCHSET,
"--patch_server", specs.PLACEHOLDER_CODEREVIEW_SERVER,
"--alsologtostderr",
)
b.dep(b.buildTaskDrivers())
b.linuxGceDimensions(MACHINE_TYPE_MEDIUM)
b.addToPATH("cipd_bin_packages", "cipd_bin_packages/bin", "go/go/bin")
b.isolate("empty.isolate")
b.serviceAccount(b.cfg.ServiceAccountRecreateSKPs)
})
}
// createDockerImage creates the specified docker image. Returns the name of the
// generated task.
func (b *jobBuilder) createDockerImage(wasm bool) string {
// First, derive the name of the task.
imageName := "skia-release"
taskName := "Housekeeper-PerCommit-CreateDockerImage_Skia_Release"
if wasm {
imageName = "skia-wasm-release"
taskName = "Housekeeper-PerCommit-CreateDockerImage_Skia_WASM_Release"
}
imageDir := path.Join("docker", imageName)
// Add the task.
b.addTask(taskName, func(b *taskBuilder) {
// TODO(borenet): Make this task not use Git.
b.usesGit()
b.cmd(
"./build_push_docker_image",
"--image_name", fmt.Sprintf("gcr.io/skia-public/%s", imageName),
"--dockerfile_dir", imageDir,
"--project_id", "skia-swarming-bots",
"--task_id", specs.PLACEHOLDER_TASK_ID,
"--task_name", b.Name,
"--workdir", ".",
"--gerrit_project", "skia",
"--gerrit_url", "https://skia-review.googlesource.com",
"--repo", specs.PLACEHOLDER_REPO,
"--revision", specs.PLACEHOLDER_REVISION,
"--patch_issue", specs.PLACEHOLDER_ISSUE,
"--patch_set", specs.PLACEHOLDER_PATCHSET,
"--patch_server", specs.PLACEHOLDER_CODEREVIEW_SERVER,
"--swarm_out_dir", specs.PLACEHOLDER_ISOLATED_OUTDIR,
"--alsologtostderr",
)
b.dep(b.buildTaskDrivers())
b.addToPATH("cipd_bin_packages", "cipd_bin_packages/bin", "go/go/bin")
b.isolate("empty.isolate")
b.serviceAccount(b.cfg.ServiceAccountCompile)
b.linuxGceDimensions(MACHINE_TYPE_MEDIUM)
b.usesDocker()
b.cache(CACHES_DOCKER...)
})
return taskName
}
// createPushAppsFromSkiaDockerImage creates and pushes docker images of some apps
// (eg: fiddler, debugger, api) using the skia-release docker image.
func (b *jobBuilder) createPushAppsFromSkiaDockerImage() {
b.addTask(b.Name, func(b *taskBuilder) {
// TODO(borenet): Make this task not use Git.
b.usesGit()
b.cmd(
"./push_apps_from_skia_image",
"--project_id", "skia-swarming-bots",
"--task_id", specs.PLACEHOLDER_TASK_ID,
"--task_name", b.Name,
"--workdir", ".",
"--gerrit_project", "buildbot",
"--gerrit_url", "https://skia-review.googlesource.com",
"--repo", specs.PLACEHOLDER_REPO,
"--revision", specs.PLACEHOLDER_REVISION,
"--patch_issue", specs.PLACEHOLDER_ISSUE,
"--patch_set", specs.PLACEHOLDER_PATCHSET,
"--patch_server", specs.PLACEHOLDER_CODEREVIEW_SERVER,
"--alsologtostderr",
)
b.dep(b.buildTaskDrivers())
b.dep(b.createDockerImage(false))
b.addToPATH("cipd_bin_packages", "cipd_bin_packages/bin", "go/go/bin")
b.isolate("empty.isolate")
b.serviceAccount(b.cfg.ServiceAccountCompile)
b.linuxGceDimensions(MACHINE_TYPE_MEDIUM)
b.usesDocker()
b.cache(CACHES_DOCKER...)
})
}
// createPushAppsFromWASMDockerImage creates and pushes docker images of some apps
// (eg: jsfiddle, skottie, particles) using the skia-wasm-release docker image.
func (b *jobBuilder) createPushAppsFromWASMDockerImage() {
b.addTask(b.Name, func(b *taskBuilder) {
// TODO(borenet): Make this task not use Git.
b.usesGit()
b.cmd(
"./push_apps_from_wasm_image",
"--project_id", "skia-swarming-bots",
"--task_id", specs.PLACEHOLDER_TASK_ID,
"--task_name", b.Name,
"--workdir", ".",
"--gerrit_project", "buildbot",
"--gerrit_url", "https://skia-review.googlesource.com",
"--repo", specs.PLACEHOLDER_REPO,
"--revision", specs.PLACEHOLDER_REVISION,
"--patch_issue", specs.PLACEHOLDER_ISSUE,
"--patch_set", specs.PLACEHOLDER_PATCHSET,
"--patch_server", specs.PLACEHOLDER_CODEREVIEW_SERVER,
"--alsologtostderr",
)
b.dep(b.buildTaskDrivers())
b.dep(b.createDockerImage(true))
b.addToPATH("cipd_bin_packages", "cipd_bin_packages/bin", "go/go/bin")
b.isolate("empty.isolate")
b.serviceAccount(b.cfg.ServiceAccountCompile)
b.linuxGceDimensions(MACHINE_TYPE_MEDIUM)
b.usesDocker()
b.cache(CACHES_DOCKER...)
})
}
// createPushAppsFromSkiaWASMDockerImages creates and pushes docker images of some apps
// (eg: debugger-assets) using the skia-release and skia-wasm-release
// docker images.
func (b *jobBuilder) createPushAppsFromSkiaWASMDockerImages() {
b.addTask(b.Name, func(b *taskBuilder) {
// TODO(borenet): Make this task not use Git.
b.usesGit()
b.cmd(
"./push_apps_from_skia_wasm_images",
"--project_id", "skia-swarming-bots",
"--task_id", specs.PLACEHOLDER_TASK_ID,
"--task_name", b.Name,
"--workdir", ".",
"--gerrit_project", "buildbot",
"--gerrit_url", "https://skia-review.googlesource.com",
"--repo", specs.PLACEHOLDER_REPO,
"--revision", specs.PLACEHOLDER_REVISION,
"--patch_issue", specs.PLACEHOLDER_ISSUE,
"--patch_set", specs.PLACEHOLDER_PATCHSET,
"--patch_server", specs.PLACEHOLDER_CODEREVIEW_SERVER,
"--alsologtostderr",
)
b.dep(b.buildTaskDrivers())
b.dep(b.createDockerImage(false))
b.dep(b.createDockerImage(true))
b.addToPATH("cipd_bin_packages", "cipd_bin_packages/bin", "go/go/bin")
b.isolate("empty.isolate")
b.serviceAccount(b.cfg.ServiceAccountCompile)
b.linuxGceDimensions(MACHINE_TYPE_MEDIUM)
b.usesDocker()
b.cache(CACHES_DOCKER...)
})
}
var iosRegex = regexp.MustCompile(`os:iOS-(.*)`)
func (b *taskBuilder) maybeAddIosDevImage() {
for _, dim := range b.Spec.Dimensions {
if m := iosRegex.FindStringSubmatch(dim); len(m) >= 2 {
var asset string
switch m[1] {
// Other patch versions can be added to the same case.
case "11.4.1":
asset = "ios-dev-image-11.4"
case "12.4.5":
asset = "ios-dev-image-12.4"
case "13.3.1":
asset = "ios-dev-image-13.3"
default:
log.Fatalf("Unable to determine correct ios-dev-image asset for %s. If %s is a new iOS release, you must add a CIPD package containing the corresponding iOS dev image; see ios-dev-image-11.4 for an example.", b.Name, m[1])
}
b.asset(asset)
break
} else if strings.Contains(dim, "iOS") {
log.Fatalf("Must specify iOS version for %s to obtain correct dev image; os dimension is missing version: %s", b.Name, dim)
}
}
}
// compile generates a compile task. Returns the name of the compile task.
func (b *jobBuilder) compile() string {
name := b.deriveCompileTaskName()
b.addTask(name, func(b *taskBuilder) {
recipe := "compile"
isolate := "compile.isolate"
if b.extraConfig("NoDEPS", "CMake", "CommandBuffer", "Flutter", "SKQP") {
recipe = "sync_and_compile"
isolate = "swarm_recipe.isolate"
b.recipeProps(EXTRA_PROPS)
b.usesGit()
if !b.extraConfig("NoDEPS") {
b.cache(CACHES_WORKDIR...)
}
} else {
b.idempotent()
}
b.kitchenTask(recipe, OUTPUT_BUILD)
b.isolate(isolate)
b.serviceAccount(b.cfg.ServiceAccountCompile)
b.swarmDimensions()
if b.extraConfig("Docker", "LottieWeb", "SKQP", "CMake") || b.compiler("EMCC") {
b.usesDocker()
b.cache(CACHES_DOCKER...)
}
// Android bots require a toolchain.
if b.extraConfig("Android") {
if b.matchOs("Mac") {
b.asset("android_ndk_darwin")
} else if b.matchOs("Win") {
pkg := b.MustGetCipdPackageFromAsset("android_ndk_windows")
pkg.Path = "n"
b.cipd(pkg)
} else if !b.extraConfig("SKQP") {
b.asset("android_ndk_linux")
}
} else if b.extraConfig("Chromebook") {
b.asset("clang_linux")
if b.arch("x86_64") {
b.asset("chromebook_x86_64_gles")
} else if b.arch("arm") {
b.asset("armhf_sysroot")
b.asset("chromebook_arm_gles")
}
} else if b.isLinux() {
if b.compiler("Clang") {
b.asset("clang_linux")
}
if b.extraConfig("SwiftShader") {
b.asset("cmake_linux")
}
if b.extraConfig("OpenCL") {
b.asset("opencl_headers", "opencl_ocl_icd_linux")
}
b.asset("ccache_linux")
b.usesCCache()
} else if b.matchOs("Win") {
b.asset("win_toolchain")
if b.compiler("Clang") {
b.asset("clang_win")
}
if b.extraConfig("OpenCL") {
b.asset("opencl_headers")
}
} else if b.matchOs("Mac") {
b.cipd(CIPD_PKGS_XCODE...)
b.Spec.Caches = append(b.Spec.Caches, &specs.Cache{
Name: "xcode",
Path: "cache/Xcode.app",
})
b.asset("ccache_mac")
b.usesCCache()
if b.extraConfig("CommandBuffer") {
b.timeout(2 * time.Hour)
}
if b.extraConfig("iOS") {
b.asset("provisioning_profile_ios")
}
}
})
// All compile tasks are runnable as their own Job. Assert that the Job
// is listed in jobs.
if !In(name, b.jobs) {
log.Fatalf("Job %q is missing from the jobs list! Derived from: %q", name, b.Name)
}
return name
}
// recreateSKPs generates a RecreateSKPs task.
func (b *jobBuilder) recreateSKPs() {
b.addTask(b.Name, func(b *taskBuilder) {
b.recipeProps(EXTRA_PROPS)
b.kitchenTask("recreate_skps", OUTPUT_NONE)
b.serviceAccount(b.cfg.ServiceAccountRecreateSKPs)
b.dimension(
"pool:SkiaCT",
fmt.Sprintf("os:%s", DEFAULT_OS_LINUX_GCE),
)
b.usesGo()
b.cache(CACHES_WORKDIR...)
b.timeout(4 * time.Hour)
})
}
// checkGeneratedFiles verifies that no generated SKSL files have been edited
// by hand.
func (b *jobBuilder) checkGeneratedFiles() {
b.addTask(b.Name, func(b *taskBuilder) {
b.recipeProps(EXTRA_PROPS)
b.kitchenTask("check_generated_files", OUTPUT_NONE)
b.serviceAccount(b.cfg.ServiceAccountCompile)
b.linuxGceDimensions(MACHINE_TYPE_LARGE)
b.usesGo()
b.asset("clang_linux")
b.asset("ccache_linux")
b.usesCCache()
b.cache(CACHES_WORKDIR...)
})
}
// housekeeper generates a Housekeeper task.
func (b *jobBuilder) housekeeper() {
b.addTask(b.Name, func(b *taskBuilder) {
b.recipeProps(EXTRA_PROPS)
b.kitchenTask("housekeeper", OUTPUT_NONE)
b.serviceAccount(b.cfg.ServiceAccountHousekeeper)
b.linuxGceDimensions(MACHINE_TYPE_SMALL)
b.usesGit()
b.cache(CACHES_WORKDIR...)
})
}
// 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 (b *jobBuilder) androidFrameworkCompile() {
b.addTask(b.Name, func(b *taskBuilder) {
b.recipeProps(EXTRA_PROPS)
b.kitchenTask("android_compile", OUTPUT_NONE)
b.isolate("compile_android_framework.isolate")
b.serviceAccount("skia-android-framework-compile@skia-swarming-bots.iam.gserviceaccount.com")
b.linuxGceDimensions(MACHINE_TYPE_SMALL)
b.timeout(2 * time.Hour)
b.usesGit()
})
}
// g3FrameworkCompile generates a G3 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 (b *jobBuilder) g3FrameworkCompile() {
b.addTask(b.Name, func(b *taskBuilder) {
b.recipeProps(EXTRA_PROPS)
b.kitchenTask("g3_compile", OUTPUT_NONE)
b.isolate("compile_g3_framework.isolate")
b.serviceAccount("skia-g3-framework-compile@skia-swarming-bots.iam.gserviceaccount.com")
b.linuxGceDimensions(MACHINE_TYPE_SMALL)
b.timeout(3 * time.Hour)
b.usesGit()
})
}
// infra generates an infra_tests task.
func (b *jobBuilder) infra() {
b.addTask(b.Name, func(b *taskBuilder) {
if b.matchOs("Win") || b.matchExtraConfig("Win") {
b.dimension(
// Specify CPU to avoid running builds on bots with a more unique CPU.
"cpu:x86-64-Haswell_GCE",
"gpu:none",
fmt.Sprintf("machine_type:%s", MACHINE_TYPE_MEDIUM), // We don't have any small Windows instances.
fmt.Sprintf("os:%s", DEFAULT_OS_WIN),
fmt.Sprintf("pool:%s", b.cfg.Pool),
)
} else {
b.linuxGceDimensions(MACHINE_TYPE_SMALL)
}
b.recipeProp("repository", specs.PLACEHOLDER_REPO)
b.kitchenTask("infra", OUTPUT_NONE)
b.isolate("infra_tests.isolate")
b.serviceAccount(b.cfg.ServiceAccountCompile)
b.cipd(specs.CIPD_PKGS_GSUTIL...)
b.idempotent()
// Repos which call into Skia's gen_tasks.go should define their own
// infra_tests.isolate and therefore should not use relpath().
b.Spec.Isolate = "infra_tests.isolate"
b.usesGo()
})
}
// buildstats generates a builtstats task, which compiles code and generates
// statistics about the build.
func (b *jobBuilder) buildstats() {
compileTaskName := b.compile()
b.addTask(b.Name, func(b *taskBuilder) {
b.recipeProps(EXTRA_PROPS)
b.kitchenTask("compute_buildstats", OUTPUT_PERF)
b.dep(compileTaskName)
b.asset("bloaty")
b.linuxGceDimensions(MACHINE_TYPE_MEDIUM)
b.usesDocker()
b.usesGit()
b.cache(CACHES_WORKDIR...)
})
// Upload release results (for tracking in perf)
// We have some jobs that are FYI (e.g. Debug-CanvasKit, tree-map generator)
if b.release() && !b.arch("x86_64") {
uploadName := fmt.Sprintf("%s%s%s", PREFIX_UPLOAD, b.jobNameSchema.Sep, b.Name)
depName := b.Name
b.addTask(uploadName, func(b *taskBuilder) {
b.recipeProp("gs_bucket", b.cfg.GsBucketNano)
b.recipeProps(EXTRA_PROPS)
// TODO(borenet): I'm not sure why the upload task is
// using the BuildStats task name, but I've done this
// to maintain existing behavior.
b.Name = depName
b.kitchenTask("upload_buildstats_results", OUTPUT_NONE)
b.Name = uploadName
b.serviceAccount(b.cfg.ServiceAccountUploadNano)
b.linuxGceDimensions(MACHINE_TYPE_SMALL)
b.cipd(specs.CIPD_PKGS_GSUTIL...)
b.dep(depName)
})
}
}
// doUpload indicates whether the given Job should upload its results.
func (b *jobBuilder) doUpload() bool {
for _, s := range b.cfg.NoUpload {
m, err := regexp.MatchString(s, b.Name)
if err != nil {
log.Fatal(err)
}
if m {
return false
}
}
return true
}
// commonTestPerfAssets adds the assets needed by Test and Perf tasks.
func (b *taskBuilder) commonTestPerfAssets() {
// Docker-based tests don't need the standard CIPD assets
if b.extraConfig("CanvasKit", "PathKit") || (b.role("Test") && b.extraConfig("LottieWeb")) {
return
}
if b.extraConfig("Skpbench") {
// Skpbench only needs skps
b.asset("skp", "mskp")
} else if b.os("Android", "ChromeOS", "iOS") {
b.asset("skp", "svg", "skimage")
} else {
// for desktop machines
b.asset("skimage", "skp", "svg")
}
if b.isLinux() && b.matchExtraConfig("SAN") {
b.asset("clang_linux")
}
if b.isLinux() {
if b.extraConfig("Vulkan") {
b.asset("linux_vulkan_sdk")
}
if b.matchGpu("Intel") {
b.asset("mesa_intel_driver_linux")
}
if b.extraConfig("OpenCL") {
b.asset("opencl_ocl_icd_linux", "opencl_intel_neo_linux")
}
}
if b.matchOs("Win") && b.extraConfig("ProcDump") {
b.asset("procdump_win")
}
}
// test generates a Test task.
func (b *jobBuilder) test() {
compileTaskName := ""
// LottieWeb doesn't require anything in Skia to be compiled.
if !b.extraConfig("SkottieWASM", "LottieWeb") {
compileTaskName = b.compile()
}
b.addTask(b.Name, func(b *taskBuilder) {
isolate := "test_skia_bundled.isolate"
recipe := "test"
if b.extraConfig("SKQP") {
isolate = "skqp.isolate"
recipe = "skqp_test"
if b.cpu("Emulator") {
recipe = "test_skqp_emulator"
}
} else if b.extraConfig("OpenCL") {
// TODO(dogben): Longer term we may not want this to be called a "Test" task, but until we start
// running hs_bench or kx, it will be easier to fit into the current job name schema.
recipe = "compute_test"
} else if b.extraConfig("PathKit") {
isolate = "pathkit.isolate"
recipe = "test_pathkit"
} else if b.extraConfig("CanvasKit") {
isolate = "canvaskit.isolate"
recipe = "test_canvaskit"
} else if b.extraConfig("LottieWeb") {
isolate = "lottie_web.isolate"
recipe = "test_lottie_web"
}
b.recipeProp("gold_hashes_url", b.cfg.GoldHashesURL)
b.recipeProps(EXTRA_PROPS)
iid := b.internalHardwareLabel()
iidStr := ""
if iid != nil {
iidStr = strconv.Itoa(*iid)
}
if recipe == "test" {
b.dmFlags(iidStr)
}
b.kitchenTask(recipe, OUTPUT_TEST)
b.isolate(isolate)
b.swarmDimensions()
if b.extraConfig("CanvasKit", "Docker", "LottieWeb", "PathKit", "SKQP") {
b.usesDocker()
}
if compileTaskName != "" {
b.dep(compileTaskName)
}
if b.os("Android") && b.extraConfig("ASAN") {
b.asset("android_ndk_linux")
}
b.commonTestPerfAssets()
if b.matchExtraConfig("Lottie") {
b.asset("lottie-samples")
}
if b.extraConfig("SKQP") {
if !b.cpu("Emulator") {
b.asset("gcloud_linux")
}
}
b.expiration(20 * time.Hour)
b.timeout(4 * time.Hour)
if b.extraConfig("Valgrind") {
b.timeout(9 * time.Hour)
b.expiration(48 * time.Hour)
b.asset("valgrind")
// Since Valgrind runs on the same bots as the CQ, we restrict Valgrind to a subset of the bots
// to ensure there are always bots free for CQ tasks.
b.dimension("valgrind:1")
} else if b.extraConfig("MSAN") {
b.timeout(9 * time.Hour)
} else if b.arch("x86") && b.debug() {
// skia:6737
b.timeout(6 * time.Hour)
}
b.maybeAddIosDevImage()
})
// 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 b.doUpload() {
uploadName := fmt.Sprintf("%s%s%s", PREFIX_UPLOAD, b.jobNameSchema.Sep, b.Name)
depName := b.Name
b.addTask(uploadName, func(b *taskBuilder) {
b.recipeProp("gs_bucket", b.cfg.GsBucketGm)
b.recipeProps(EXTRA_PROPS)
// TODO(borenet): I'm not sure why the upload task is
// using the Test task name, but I've done this
// to maintain existing behavior.
b.Name = depName
b.kitchenTask("upload_dm_results", OUTPUT_NONE)
b.Name = uploadName
b.serviceAccount(b.cfg.ServiceAccountUploadGM)
b.linuxGceDimensions(MACHINE_TYPE_SMALL)
b.cipd(specs.CIPD_PKGS_GSUTIL...)
b.dep(depName)
})
}
}
// perf generates a Perf task.
func (b *jobBuilder) perf() {
compileTaskName := ""
// LottieWeb doesn't require anything in Skia to be compiled.
if !b.extraConfig("LottieWeb") {
compileTaskName = b.compile()
}
doUpload := b.release() && b.doUpload()
b.addTask(b.Name, func(b *taskBuilder) {
recipe := "perf"
isolate := "perf_skia_bundled.isolate"
if b.extraConfig("Skpbench") {
recipe = "skpbench"
isolate = "skpbench_skia_bundled.isolate"
} else if b.extraConfig("PathKit") {
isolate = "pathkit.isolate"
recipe = "perf_pathkit"
} else if b.extraConfig("CanvasKit") {
isolate = "canvaskit.isolate"
recipe = "perf_canvaskit"
} else if b.extraConfig("SkottieTracing") {
recipe = "perf_skottietrace"
} else if b.extraConfig("SkottieWASM") {
recipe = "perf_skottiewasm_lottieweb"
isolate = "skottie_wasm.isolate"
} else if b.extraConfig("LottieWeb") {
recipe = "perf_skottiewasm_lottieweb"
isolate = "lottie_web.isolate"
}
b.recipeProps(EXTRA_PROPS)
if recipe == "perf" {
b.nanobenchFlags(doUpload)
}
b.kitchenTask(recipe, OUTPUT_PERF)
b.isolate(isolate)
b.swarmDimensions()
if b.extraConfig("CanvasKit", "Docker", "PathKit") {
b.usesDocker()
}
if compileTaskName != "" {
b.dep(compileTaskName)
}
b.commonTestPerfAssets()
b.expiration(20 * time.Hour)
b.timeout(4 * time.Hour)
if b.extraConfig("Valgrind") {
b.timeout(9 * time.Hour)
b.expiration(48 * time.Hour)
b.asset("valgrind")
// Since Valgrind runs on the same bots as the CQ, we restrict Valgrind to a subset of the bots
// to ensure there are always bots free for CQ tasks.
b.dimension("valgrind:1")
} else if b.extraConfig("MSAN") {
b.timeout(9 * time.Hour)
} else if b.parts["arch"] == "x86" && b.parts["configuration"] == "Debug" {
// skia:6737
b.timeout(6 * time.Hour)
} else if b.extraConfig("LottieWeb", "SkottieWASM") {
b.asset("node", "lottie-samples")
} else if b.matchExtraConfig("Skottie") {
b.asset("lottie-samples")
}
if b.os("Android") && b.cpu() {
b.asset("text_blob_traces")
}
b.maybeAddIosDevImage()
iid := b.internalHardwareLabel()
if iid != nil {
b.Spec.Command = append(b.Spec.Command, fmt.Sprintf("internal_hardware_label=%d", *iid))
}
})
// Upload results if necessary.
if doUpload {
uploadName := fmt.Sprintf("%s%s%s", PREFIX_UPLOAD, b.jobNameSchema.Sep, b.Name)
depName := b.Name
b.addTask(uploadName, func(b *taskBuilder) {
b.recipeProp("gs_bucket", b.cfg.GsBucketNano)
b.recipeProps(EXTRA_PROPS)
// TODO(borenet): I'm not sure why the upload task is
// using the Perf task name, but I've done this to
// maintain existing behavior.
b.Name = depName
b.kitchenTask("upload_nano_results", OUTPUT_NONE)
b.Name = uploadName
b.serviceAccount(b.cfg.ServiceAccountUploadNano)
b.linuxGceDimensions(MACHINE_TYPE_SMALL)
b.cipd(specs.CIPD_PKGS_GSUTIL...)
b.dep(depName)
})
}
}
// presubmit generates a task which runs the presubmit for this repo.
func (b *jobBuilder) presubmit() {
b.addTask(b.Name, func(b *taskBuilder) {
b.recipeProps(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",
})
b.recipeProps(EXTRA_PROPS)
b.kitchenTaskNoBundle("run_presubmit", OUTPUT_NONE)
b.isolate("run_recipe.isolate")
b.serviceAccount(b.cfg.ServiceAccountCompile)
// Use MACHINE_TYPE_LARGE because it seems to save time versus
// MEDIUM and we want presubmit to be fast.
b.linuxGceDimensions(MACHINE_TYPE_LARGE)
b.usesGit()
b.cipd(&specs.CipdPackage{
Name: "infra/recipe_bundles/chromium.googlesource.com/chromium/tools/build",
Path: "recipe_bundle",
Version: "git_revision:a8bcedad6768e206c4d2bd1718caa849f29cd42d",
})
})
}