skia2/infra/bots/gen_tasks_logic/task_builder.go
Eric Boren 32c6099d92 Revert "Reland "[infra] Switch from isolate to RBE-CAS""
This reverts commit 540b51ce8f.

Reason for revert: RPI disk space

Original change's description:
> Reland "[infra] Switch from isolate to RBE-CAS"
>
> Bug: skia:10883
> Change-Id: Iec82a07fdf3c0807a9bb1870309eded85d4f0b1e
> Reviewed-on: https://skia-review.googlesource.com/c/skia/+/341679
> Commit-Queue: Eric Boren <borenet@google.com>
> Reviewed-by: Weston Tracey <westont@google.com>

TBR=borenet@google.com,westont@google.com

Change-Id: I0156842b995d275d8deb5bd73c6877de7f8af72e
No-Presubmit: true
No-Tree-Checks: true
No-Try: true
Bug: skia:10883
Reviewed-on: https://skia-review.googlesource.com/c/skia/+/342596
Reviewed-by: Eric Boren <borenet@google.com>
Commit-Queue: Eric Boren <borenet@google.com>
2020-12-09 18:09:39 +00:00

307 lines
8.4 KiB
Go

// Copyright 2020 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
import (
"log"
"reflect"
"time"
"go.skia.org/infra/go/cipd"
"go.skia.org/infra/task_scheduler/go/specs"
)
// taskBuilder is a helper for creating a task.
type taskBuilder struct {
*jobBuilder
parts
Name string
Spec *specs.TaskSpec
recipeProperties map[string]string
}
// newTaskBuilder returns a taskBuilder instance.
func newTaskBuilder(b *jobBuilder, name string) *taskBuilder {
parts, err := b.jobNameSchema.ParseJobName(name)
if err != nil {
log.Fatal(err)
}
return &taskBuilder{
jobBuilder: b,
parts: parts,
Name: name,
Spec: &specs.TaskSpec{},
recipeProperties: map[string]string{},
}
}
// attempts sets the desired MaxAttempts for this task.
func (b *taskBuilder) attempts(a int) {
b.Spec.MaxAttempts = a
}
// cache adds the given caches to the task.
func (b *taskBuilder) cache(caches ...*specs.Cache) {
for _, c := range caches {
alreadyHave := false
for _, exist := range b.Spec.Caches {
if c.Name == exist.Name {
if !reflect.DeepEqual(c, exist) {
log.Fatalf("Already have cache %s with a different definition!", c.Name)
}
alreadyHave = true
break
}
}
if !alreadyHave {
b.Spec.Caches = append(b.Spec.Caches, c)
}
}
}
// cmd sets the command for the task.
func (b *taskBuilder) cmd(c ...string) {
b.Spec.Command = c
}
// dimension adds the given dimensions to the task.
func (b *taskBuilder) dimension(dims ...string) {
for _, dim := range dims {
if !In(dim, b.Spec.Dimensions) {
b.Spec.Dimensions = append(b.Spec.Dimensions, dim)
}
}
}
// expiration sets the expiration of the task.
func (b *taskBuilder) expiration(e time.Duration) {
b.Spec.Expiration = e
}
// idempotent marks the task as idempotent.
func (b *taskBuilder) idempotent() {
b.Spec.Idempotent = true
}
// isolate sets the isolate file used by the task.
func (b *taskBuilder) isolate(i string) {
b.Spec.Isolate = b.relpath(i)
}
// env appends the given values to the given environment variable for the task.
func (b *taskBuilder) env(key string, values ...string) {
if b.Spec.EnvPrefixes == nil {
b.Spec.EnvPrefixes = map[string][]string{}
}
for _, value := range values {
if !In(value, b.Spec.EnvPrefixes[key]) {
b.Spec.EnvPrefixes[key] = append(b.Spec.EnvPrefixes[key], value)
}
}
}
// addToPATH adds the given locations to PATH for the task.
func (b *taskBuilder) addToPATH(loc ...string) {
b.env("PATH", loc...)
}
// output adds the given paths as outputs to the task, which results in their
// contents being uploaded to the isolate server.
func (b *taskBuilder) output(paths ...string) {
for _, path := range paths {
if !In(path, b.Spec.Outputs) {
b.Spec.Outputs = append(b.Spec.Outputs, path)
}
}
}
// serviceAccount sets the service account for this task.
func (b *taskBuilder) serviceAccount(sa string) {
b.Spec.ServiceAccount = sa
}
// timeout sets the timeout(s) for this task.
func (b *taskBuilder) timeout(timeout time.Duration) {
b.Spec.ExecutionTimeout = timeout
b.Spec.IoTimeout = timeout // With kitchen, step logs don't count toward IoTimeout.
}
// dep adds the given tasks as dependencies of this task.
func (b *taskBuilder) dep(tasks ...string) {
for _, task := range tasks {
if !In(task, b.Spec.Dependencies) {
b.Spec.Dependencies = append(b.Spec.Dependencies, task)
}
}
}
// cipd adds the given CIPD packages to the task.
func (b *taskBuilder) cipd(pkgs ...*specs.CipdPackage) {
for _, pkg := range pkgs {
alreadyHave := false
for _, exist := range b.Spec.CipdPackages {
if pkg.Name == exist.Name {
if !reflect.DeepEqual(pkg, exist) {
log.Fatalf("Already have package %s with a different definition!", pkg.Name)
}
alreadyHave = true
break
}
}
if !alreadyHave {
b.Spec.CipdPackages = append(b.Spec.CipdPackages, pkg)
}
}
}
// useIsolatedAssets returns true if this task should use assets which are
// isolated rather than downloading directly from CIPD.
func (b *taskBuilder) useIsolatedAssets() bool {
// 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.
if b.os("Android", "ChromeOS", "iOS") {
return true
}
return false
}
// isolateAssetConfig represents a task which copies a CIPD package into
// isolate.
type isolateAssetCfg struct {
alwaysIsolate bool
isolateTaskName string
path string
}
// asset adds the given assets to the task as CIPD packages.
func (b *taskBuilder) asset(assets ...string) {
shouldIsolate := b.useIsolatedAssets()
pkgs := make([]*specs.CipdPackage, 0, len(assets))
for _, asset := range assets {
if cfg, ok := ISOLATE_ASSET_MAPPING[asset]; ok && (cfg.alwaysIsolate || shouldIsolate) {
b.dep(b.isolateCIPDAsset(asset))
} else {
pkgs = append(pkgs, b.MustGetCipdPackageFromAsset(asset))
}
}
b.cipd(pkgs...)
}
// usesCCache adds attributes to tasks which use ccache.
func (b *taskBuilder) usesCCache() {
b.cache(CACHES_CCACHE...)
}
// usesGit adds attributes to tasks which use git.
func (b *taskBuilder) usesGit() {
b.cache(CACHES_GIT...)
if b.matchOs("Win") || b.matchExtraConfig("Win") {
b.cipd(specs.CIPD_PKGS_GIT_WINDOWS_AMD64...)
} else if b.matchOs("Mac") || b.matchExtraConfig("Mac") {
b.cipd(specs.CIPD_PKGS_GIT_MAC_AMD64...)
} else {
b.cipd(specs.CIPD_PKGS_GIT_LINUX_AMD64...)
}
}
// usesGo adds attributes to tasks which use go. Recipes should use
// "with api.context(env=api.infra.go_env)".
func (b *taskBuilder) usesGo() {
b.usesGit() // Go requires Git.
b.cache(CACHES_GO...)
pkg := b.MustGetCipdPackageFromAsset("go")
if b.matchOs("Win") || b.matchExtraConfig("Win") {
pkg = b.MustGetCipdPackageFromAsset("go_win")
pkg.Path = "go"
}
b.cipd(pkg)
}
// usesDocker adds attributes to tasks which use docker.
func (b *taskBuilder) usesDocker() {
b.dimension("docker_installed:true")
}
// recipeProp adds the given recipe property key/value pair. Panics if
// getRecipeProps() was already called.
func (b *taskBuilder) recipeProp(key, value string) {
if b.recipeProperties == nil {
log.Fatal("taskBuilder.recipeProp() cannot be called after taskBuilder.getRecipeProps()!")
}
b.recipeProperties[key] = value
}
// recipeProps calls recipeProp for every key/value pair in the given map.
// Panics if getRecipeProps() was already called.
func (b *taskBuilder) recipeProps(props map[string]string) {
for k, v := range props {
b.recipeProp(k, v)
}
}
// getRecipeProps returns JSON-encoded recipe properties. Subsequent calls to
// recipeProp[s] will panic, to prevent accidentally adding recipe properties
// after they have been added to the task.
func (b *taskBuilder) getRecipeProps() string {
props := make(map[string]interface{}, len(b.recipeProperties)+2)
props["buildername"] = b.Name
props["$kitchen"] = struct {
DevShell bool `json:"devshell"`
GitAuth bool `json:"git_auth"`
}{
DevShell: true,
GitAuth: true,
}
for k, v := range b.recipeProperties {
props[k] = v
}
b.recipeProperties = nil
return marshalJson(props)
}
// cipdPlatform returns the CIPD platform for this task.
func (b *taskBuilder) cipdPlatform() string {
if b.role("Upload") {
return cipd.PlatformLinuxAmd64
} else if b.matchOs("Win") || b.matchExtraConfig("Win") {
if b.matchArch("x86_64") {
return cipd.PlatformWindowsAmd64
} else {
return cipd.PlatformWindows386
}
} else if b.matchOs("Mac") {
return cipd.PlatformMacAmd64
} else if b.matchArch("Arm64") {
return cipd.PlatformLinuxArm64
} else {
return cipd.PlatformLinuxAmd64
}
}
// usesPython adds attributes to tasks which use python.
func (b *taskBuilder) usesPython() {
// TODO(borenet): This handling of the Python package is hacky and bad.
pythonPkgs := cipd.PkgsPython[b.cipdPlatform()]
b.cipd(pythonPkgs[1])
if b.os("Mac10.15") && b.model("VMware7.1") {
b.cipd(pythonPkgs[0])
}
if (b.matchOs("Win") || b.matchExtraConfig("Win")) && !b.model("LenovoYogaC630") {
b.cipd(pythonPkgs[0])
}
b.cache(&specs.Cache{
Name: "vpython",
Path: "cache/vpython",
})
b.env("VPYTHON_VIRTUALENV_ROOT", "cache/vpython")
}
func (b *taskBuilder) usesNode() {
// It is very important when including node via CIPD to also add it to the PATH of the
// taskdriver or mysterious things can happen when subprocesses try to resolve node/npm.
b.asset("node")
b.addToPATH("node/node/bin")
}