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8b8bec3b3a3f2738dfbf3597964e9c790d60e3bf
build_soong/ui/build/build.go
Colin Cross 8b8bec3b3a Create a highmem pool and put metalava into it 
Create a highmem pool based on the total RAM and the number of CPUs,
with an override via the NINJA_HIGHMEM_NUM_JOBS variable.  Put
metalava into the highmem pool.

Ninja does not support nested pools, and when goma or RBE is enabled
the maximum ninja parallelism is set very high with local jobs in a
local pool.  When both the local pool and highmem pool are enabled,
the total number of local jobs will be as high as the sum of the sizes
of the two pools.  Keep the highmem pool limited to 1/16th of the
local pool when remote builds are enabled to try to minimize the
effect while still limiting highmem jobs.

Fixes: 142644983
Test: m nothing, examine pools
Test: m USE_GOMA=true nothing, examine pools
Change-Id: Id79f11f44948992960ac34ecf831dacbe21bd332
2020-01-24 11:44:23 -08:00

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// Copyright 2017 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package build
import (
"io/ioutil"
"os"
"path/filepath"
"text/template"
)
// Ensures the out directory exists, and has the proper files to prevent kati
// from recursing into it.
func SetupOutDir(ctx Context, config Config) {
ensureEmptyFileExists(ctx, filepath.Join(config.OutDir(), "Android.mk"))
ensureEmptyFileExists(ctx, filepath.Join(config.OutDir(), "CleanSpec.mk"))
if !config.SkipMake() {
ensureEmptyFileExists(ctx, filepath.Join(config.SoongOutDir(), ".soong.in_make"))
}
// The ninja_build file is used by our buildbots to understand that the output
// can be parsed as ninja output.
ensureEmptyFileExists(ctx, filepath.Join(config.OutDir(), "ninja_build"))
ensureEmptyFileExists(ctx, filepath.Join(config.OutDir(), ".out-dir"))
if buildDateTimeFile, ok := config.environ.Get("BUILD_DATETIME_FILE"); ok {
err := ioutil.WriteFile(buildDateTimeFile, []byte(config.buildDateTime), 0777)
if err != nil {
ctx.Fatalln("Failed to write BUILD_DATETIME to file:", err)
}
} else {
ctx.Fatalln("Missing BUILD_DATETIME_FILE")
}
}
var combinedBuildNinjaTemplate = template.Must(template.New("combined").Parse(`
builddir = {{.OutDir}}
{{if .UseRemoteBuild }}pool local_pool
depth = {{.Parallel}}
{{end -}}
pool highmem_pool
depth = {{.HighmemParallel}}
build _kati_always_build_: phony
{{if .HasKatiSuffix}}subninja {{.KatiBuildNinjaFile}}
subninja {{.KatiPackageNinjaFile}}
{{end -}}
subninja {{.SoongNinjaFile}}
`))
func createCombinedBuildNinjaFile(ctx Context, config Config) {
// If we're in SkipMake mode, skip creating this file if it already exists
if config.SkipMake() {
if _, err := os.Stat(config.CombinedNinjaFile()); err == nil || !os.IsNotExist(err) {
return
}
}
file, err := os.Create(config.CombinedNinjaFile())
if err != nil {
ctx.Fatalln("Failed to create combined ninja file:", err)
}
defer file.Close()
if err := combinedBuildNinjaTemplate.Execute(file, config); err != nil {
ctx.Fatalln("Failed to write combined ninja file:", err)
}
}
const (
BuildNone = iota
BuildProductConfig = 1 << iota
BuildSoong = 1 << iota
BuildKati = 1 << iota
BuildNinja = 1 << iota
RunBuildTests = 1 << iota
BuildAll = BuildProductConfig | BuildSoong | BuildKati | BuildNinja
)
func checkProblematicFiles(ctx Context) {
files := []string{"Android.mk", "CleanSpec.mk"}
for _, file := range files {
if _, err := os.Stat(file); !os.IsNotExist(err) {
absolute := absPath(ctx, file)
ctx.Printf("Found %s in tree root. This file needs to be removed to build.\n", file)
ctx.Fatalf(" rm %s\n", absolute)
}
}
}
func checkCaseSensitivity(ctx Context, config Config) {
outDir := config.OutDir()
lowerCase := filepath.Join(outDir, "casecheck.txt")
upperCase := filepath.Join(outDir, "CaseCheck.txt")
lowerData := "a"
upperData := "B"
err := ioutil.WriteFile(lowerCase, []byte(lowerData), 0777)
if err != nil {
ctx.Fatalln("Failed to check case sensitivity:", err)
}
err = ioutil.WriteFile(upperCase, []byte(upperData), 0777)
if err != nil {
ctx.Fatalln("Failed to check case sensitivity:", err)
}
res, err := ioutil.ReadFile(lowerCase)
if err != nil {
ctx.Fatalln("Failed to check case sensitivity:", err)
}
if string(res) != lowerData {
ctx.Println("************************************************************")
ctx.Println("You are building on a case-insensitive filesystem.")
ctx.Println("Please move your source tree to a case-sensitive filesystem.")
ctx.Println("************************************************************")
ctx.Fatalln("Case-insensitive filesystems not supported")
}
}
func help(ctx Context, config Config, what int) {
cmd := Command(ctx, config, "help.sh", "build/make/help.sh")
cmd.Sandbox = dumpvarsSandbox
cmd.RunAndPrintOrFatal()
}
// Build the tree. The 'what' argument can be used to chose which components of
// the build to run.
func Build(ctx Context, config Config, what int) {
ctx.Verboseln("Starting build with args:", config.Arguments())
ctx.Verboseln("Environment:", config.Environment().Environ())
ctx.Verbosef("Total RAM: %dGB", config.TotalRAM()/1024/1024/1024)
if config.SkipMake() {
ctx.Verboseln("Skipping Make/Kati as requested")
what = what & (BuildSoong | BuildNinja)
}
if inList("help", config.Arguments()) {
help(ctx, config, what)
return
} else if inList("clean", config.Arguments()) || inList("clobber", config.Arguments()) {
clean(ctx, config, what)
return
}
// Make sure that no other Soong process is running with the same output directory
buildLock := BecomeSingletonOrFail(ctx, config)
defer buildLock.Unlock()
checkProblematicFiles(ctx)
SetupOutDir(ctx, config)
checkCaseSensitivity(ctx, config)
ensureEmptyDirectoriesExist(ctx, config.TempDir())
SetupPath(ctx, config)
if config.StartGoma() {
// Ensure start Goma compiler_proxy
startGoma(ctx, config)
}
if config.StartRBE() {
// Ensure RBE proxy is started
startRBE(ctx, config)
}
if what&BuildProductConfig != 0 {
// Run make for product config
runMakeProductConfig(ctx, config)
}
if inList("installclean", config.Arguments()) ||
inList("install-clean", config.Arguments()) {
installClean(ctx, config, what)
ctx.Println("Deleted images and staging directories.")
return
} else if inList("dataclean", config.Arguments()) ||
inList("data-clean", config.Arguments()) {
dataClean(ctx, config, what)
ctx.Println("Deleted data files.")
return
}
if what&BuildSoong != 0 {
// Run Soong
runSoong(ctx, config)
}
if what&BuildKati != 0 {
// Run ckati
genKatiSuffix(ctx, config)
runKatiCleanSpec(ctx, config)
runKatiBuild(ctx, config)
runKatiPackage(ctx, config)
ioutil.WriteFile(config.LastKatiSuffixFile(), []byte(config.KatiSuffix()), 0777)
} else {
// Load last Kati Suffix if it exists
if katiSuffix, err := ioutil.ReadFile(config.LastKatiSuffixFile()); err == nil {
ctx.Verboseln("Loaded previous kati config:", string(katiSuffix))
config.SetKatiSuffix(string(katiSuffix))
}
}
// Write combined ninja file
createCombinedBuildNinjaFile(ctx, config)
if what&RunBuildTests != 0 {
testForDanglingRules(ctx, config)
}
if what&BuildNinja != 0 {
if !config.SkipMake() {
installCleanIfNecessary(ctx, config)
}
// Run ninja
runNinja(ctx, config)
}
}
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