platform_build_soong/java/dexpreopt_bootjars.go

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// Copyright 2019 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 java
import (
"path/filepath"
"strings"
"android/soong/android"
"android/soong/dexpreopt"
"github.com/google/blueprint/proptools"
)
func init() {
android.RegisterSingletonType("dex_bootjars", dexpreoptBootJarsFactory)
}
// Target-independent description of pre-compiled boot image.
type bootImageConfig struct {
// If this image is an extension, the image that it extends.
extends *bootImageConfig
// Image name (used in directory names and ninja rule names).
name string
// Basename of the image: the resulting filenames are <stem>[-<jar>].{art,oat,vdex}.
stem string
// Output directory for the image files.
dir android.OutputPath
// Output directory for the image files with debug symbols.
symbolsDir android.OutputPath
// Subdirectory where the image files are installed.
installSubdir string
// The names of jars that constitute this image.
modules []string
// The "locations" of jars.
dexLocations []string // for this image
dexLocationsDeps []string // for the dependency images and in this image
// File paths to jars.
dexPaths android.WritablePaths // for this image
dexPathsDeps android.WritablePaths // for the dependency images and in this image
// File path to a zip archive with all image files (or nil, if not needed).
zip android.WritablePath
// Rules which should be used in make to install the outputs.
profileInstalls android.RuleBuilderInstalls
// Target-dependent fields.
variants []*bootImageVariant
}
// Target-dependent description of pre-compiled boot image.
type bootImageVariant struct {
*bootImageConfig
// Target for which the image is generated.
target android.Target
// Paths to image files.
images android.OutputPath // first image file
imagesDeps android.OutputPaths // all files
// Only for extensions, paths to the primary boot images.
primaryImages android.OutputPath
// Rules which should be used in make to install the outputs.
installs android.RuleBuilderInstalls
vdexInstalls android.RuleBuilderInstalls
unstrippedInstalls android.RuleBuilderInstalls
}
func (image bootImageConfig) getVariant(target android.Target) *bootImageVariant {
for _, variant := range image.variants {
if variant.target.Os == target.Os && variant.target.Arch.ArchType == target.Arch.ArchType {
return variant
}
}
return nil
}
func (image bootImageConfig) moduleName(idx int) string {
// Dexpreopt on the boot class path produces multiple files. The first dex file
// is converted into 'name'.art (to match the legacy assumption that 'name'.art
// exists), and the rest are converted to 'name'-<jar>.art.
m := image.modules[idx]
name := image.stem
if idx != 0 || image.extends != nil {
name += "-" + stemOf(m)
}
return name
}
func (image bootImageConfig) firstModuleNameOrStem() string {
if len(image.modules) > 0 {
return image.moduleName(0)
} else {
return image.stem
}
}
func (image bootImageConfig) moduleFiles(ctx android.PathContext, dir android.OutputPath, exts ...string) android.OutputPaths {
ret := make(android.OutputPaths, 0, len(image.modules)*len(exts))
for i := range image.modules {
name := image.moduleName(i)
for _, ext := range exts {
ret = append(ret, dir.Join(ctx, name+ext))
}
}
return ret
}
// The image "location" is a symbolic path that, with multiarchitecture support, doesn't really
// exist on the device. Typically it is /apex/com.android.art/javalib/boot.art and should be the
// same for all supported architectures on the device. The concrete architecture specific files
// actually end up in architecture-specific sub-directory such as arm, arm64, x86, or x86_64.
//
// For example a physical file
// "/apex/com.android.art/javalib/x86/boot.art" has "image location"
// "/apex/com.android.art/javalib/boot.art" (which is not an actual file).
//
// The location is passed as an argument to the ART tools like dex2oat instead of the real path.
// ART tools will then reconstruct the architecture-specific real path.
func (image *bootImageVariant) imageLocations() (imageLocations []string) {
if image.extends != nil {
imageLocations = image.extends.getVariant(image.target).imageLocations()
}
return append(imageLocations, dexpreopt.PathToLocation(image.images, image.target.Arch.ArchType))
}
func concat(lists ...[]string) []string {
var size int
for _, l := range lists {
size += len(l)
}
ret := make([]string, 0, size)
for _, l := range lists {
ret = append(ret, l...)
}
return ret
}
func dexpreoptBootJarsFactory() android.Singleton {
return &dexpreoptBootJars{}
}
func skipDexpreoptBootJars(ctx android.PathContext) bool {
if dexpreopt.GetGlobalConfig(ctx).DisablePreopt {
Disable dexpreopt on targets that do not include default ART config. Dexpreopt build commands should only be generated on targets that include build/make/target/product/runtime_libart.mk, which sets the necessary variables such as PRODUCT_SYSTEM_DEFAULT_PROPERTIES that contain default values passed to dex2oat. This file also sets a variable PRODUCT_USES_DEFAULT_ART_CONFIG that is used in build/make/core/dex_preopt.mk to decide if boot images should be installed. On some targets build/make/target/product/runtime_libart.mk is not included. Prior to this patch, on such targets invalid dexpreopt commands were generated, but not used, so they did not cause any visible build failures. The invalid commands can be grepped as: lunch qemu_trusty_arm64-userdebug && m nothing \ && fgrep -e '-Xms ' $ANDROID_BUILD_TOP/out/soong/build.ninja In this case '-Xms ' is an ill-formed option passed to dex2oat (the option expects one argument, but none is passed). This patch makes the DisablePreopt variable passed from make to soong more strict: it not only requires WITH_DEXPREOPT, but also PRODUCT_USES_DEFAULT_ART_CONFIG. This means that dexpreopt commands will not be generated on targets that do not include build/make/target/product/runtime_libart.mk. Test: lunch aosp_walleye-userdebug && m \ && find $ANDROID_BUILD_TOP/out -name 'boot.art' # expect to find files in /out/target/product/walleye/system/framework/$ARCH/ Test: lunch qemu_trusty_arm64-userdebug && m \ && fgrep -e '-Xms ' $ANDROID_BUILD_TOP/out/soong/build.ninja # expect empty output Change-Id: If2d4fe2cdcb6a81c7c6d730d18c2b681a74fb0b7
2019-11-02 01:57:29 +08:00
return true
}
if ctx.Config().UnbundledBuild() {
return true
}
return false
}
type dexpreoptBootJars struct {
defaultBootImage *bootImageConfig
otherImages []*bootImageConfig
dexpreoptConfigForMake android.WritablePath
}
// Accessor function for the apex package. Returns nil if dexpreopt is disabled.
func DexpreoptedArtApexJars(ctx android.BuilderContext) map[android.ArchType]android.OutputPaths {
if skipDexpreoptBootJars(ctx) {
return nil
}
// Include dexpreopt files for the primary boot image.
files := map[android.ArchType]android.OutputPaths{}
for _, variant := range artBootImageConfig(ctx).variants {
// We also generate boot images for host (for testing), but we don't need those in the apex.
if variant.target.Os == android.Android {
files[variant.target.Arch.ArchType] = variant.imagesDeps
}
}
return files
}
// dexpreoptBoot singleton rules
func (d *dexpreoptBootJars) GenerateBuildActions(ctx android.SingletonContext) {
if skipDexpreoptBootJars(ctx) {
return
}
if dexpreopt.GetCachedGlobalSoongConfig(ctx) == nil {
// No module has enabled dexpreopting, so we assume there will be no boot image to make.
return
}
d.dexpreoptConfigForMake = android.PathForOutput(ctx, ctx.Config().DeviceName(), "dexpreopt.config")
writeGlobalConfigForMake(ctx, d.dexpreoptConfigForMake)
global := dexpreopt.GetGlobalConfig(ctx)
// Skip recompiling the boot image for the second sanitization phase. We'll get separate paths
// and invalidate first-stage artifacts which are crucial to SANITIZE_LITE builds.
// Note: this is technically incorrect. Compiled code contains stack checks which may depend
// on ASAN settings.
if len(ctx.Config().SanitizeDevice()) == 1 &&
ctx.Config().SanitizeDevice()[0] == "address" &&
global.SanitizeLite {
return
}
// Always create the default boot image first, to get a unique profile rule for all images.
d.defaultBootImage = buildBootImage(ctx, defaultBootImageConfig(ctx))
// Create boot image for the ART apex (build artifacts are accessed via the global boot image config).
d.otherImages = append(d.otherImages, buildBootImage(ctx, artBootImageConfig(ctx)))
dumpOatRules(ctx, d.defaultBootImage)
}
// buildBootImage takes a bootImageConfig, creates rules to build it, and returns the image.
func buildBootImage(ctx android.SingletonContext, image *bootImageConfig) *bootImageConfig {
bootDexJars := make(android.Paths, len(image.modules))
ctx.VisitAllModules(func(module android.Module) {
// Collect dex jar paths for the modules listed above.
if j, ok := module.(interface{ DexJar() android.Path }); ok {
name := ctx.ModuleName(module)
if i := android.IndexList(name, image.modules); i != -1 {
bootDexJars[i] = j.DexJar()
}
}
})
var missingDeps []string
// Ensure all modules were converted to paths
for i := range bootDexJars {
if bootDexJars[i] == nil {
if ctx.Config().AllowMissingDependencies() {
missingDeps = append(missingDeps, image.modules[i])
bootDexJars[i] = android.PathForOutput(ctx, "missing")
} else {
ctx.Errorf("failed to find dex jar path for module %q",
image.modules[i])
}
}
}
// The path to bootclasspath dex files needs to be known at module GenerateAndroidBuildAction time, before
// the bootclasspath modules have been compiled. Copy the dex jars there so the module rules that have
// already been set up can find them.
for i := range bootDexJars {
ctx.Build(pctx, android.BuildParams{
Rule: android.Cp,
Input: bootDexJars[i],
Output: image.dexPaths[i],
})
}
profile := bootImageProfileRule(ctx, image, missingDeps)
bootFrameworkProfileRule(ctx, image, missingDeps)
var allFiles android.Paths
for _, variant := range image.variants {
files := buildBootImageVariant(ctx, variant, profile, missingDeps)
allFiles = append(allFiles, files.Paths()...)
}
if image.zip != nil {
rule := android.NewRuleBuilder()
rule.Command().
BuiltTool(ctx, "soong_zip").
FlagWithOutput("-o ", image.zip).
FlagWithArg("-C ", image.dir.String()).
FlagWithInputList("-f ", allFiles, " -f ")
rule.Build(pctx, ctx, "zip_"+image.name, "zip "+image.name+" image")
}
return image
}
func buildBootImageVariant(ctx android.SingletonContext, image *bootImageVariant,
profile android.Path, missingDeps []string) android.WritablePaths {
globalSoong := dexpreopt.GetCachedGlobalSoongConfig(ctx)
global := dexpreopt.GetGlobalConfig(ctx)
arch := image.target.Arch.ArchType
os := image.target.Os.String() // We need to distinguish host-x86 and device-x86.
symbolsDir := image.symbolsDir.Join(ctx, os, image.installSubdir, arch.String())
symbolsFile := symbolsDir.Join(ctx, image.stem+".oat")
outputDir := image.dir.Join(ctx, os, image.installSubdir, arch.String())
outputPath := outputDir.Join(ctx, image.stem+".oat")
oatLocation := dexpreopt.PathToLocation(outputPath, arch)
imagePath := outputPath.ReplaceExtension(ctx, "art")
rule := android.NewRuleBuilder()
rule.MissingDeps(missingDeps)
rule.Command().Text("mkdir").Flag("-p").Flag(symbolsDir.String())
rule.Command().Text("rm").Flag("-f").
Flag(symbolsDir.Join(ctx, "*.art").String()).
Flag(symbolsDir.Join(ctx, "*.oat").String()).
Flag(symbolsDir.Join(ctx, "*.invocation").String())
rule.Command().Text("rm").Flag("-f").
Flag(outputDir.Join(ctx, "*.art").String()).
Flag(outputDir.Join(ctx, "*.oat").String()).
Flag(outputDir.Join(ctx, "*.invocation").String())
cmd := rule.Command()
extraFlags := ctx.Config().Getenv("ART_BOOT_IMAGE_EXTRA_ARGS")
if extraFlags == "" {
// Use ANDROID_LOG_TAGS to suppress most logging by default...
cmd.Text(`ANDROID_LOG_TAGS="*:e"`)
} else {
// ...unless the boot image is generated specifically for testing, then allow all logging.
cmd.Text(`ANDROID_LOG_TAGS="*:v"`)
}
invocationPath := outputPath.ReplaceExtension(ctx, "invocation")
cmd.Tool(globalSoong.Dex2oat).
Flag("--avoid-storing-invocation").
FlagWithOutput("--write-invocation-to=", invocationPath).ImplicitOutput(invocationPath).
Flag("--runtime-arg").FlagWithArg("-Xms", global.Dex2oatImageXms).
Flag("--runtime-arg").FlagWithArg("-Xmx", global.Dex2oatImageXmx)
if profile != nil {
cmd.FlagWithArg("--compiler-filter=", "speed-profile")
cmd.FlagWithInput("--profile-file=", profile)
}
if global.DirtyImageObjects.Valid() {
cmd.FlagWithInput("--dirty-image-objects=", global.DirtyImageObjects.Path())
}
if image.extends != nil {
artImage := image.primaryImages
cmd.
Flag("--runtime-arg").FlagWithInputList("-Xbootclasspath:", image.dexPathsDeps.Paths(), ":").
Flag("--runtime-arg").FlagWithList("-Xbootclasspath-locations:", image.dexLocationsDeps, ":").
FlagWithArg("--boot-image=", dexpreopt.PathToLocation(artImage, arch)).Implicit(artImage)
} else {
cmd.FlagWithArg("--base=", ctx.Config().LibartImgDeviceBaseAddress())
}
cmd.
FlagForEachInput("--dex-file=", image.dexPaths.Paths()).
FlagForEachArg("--dex-location=", image.dexLocations).
Flag("--generate-debug-info").
Flag("--generate-build-id").
Flag("--image-format=lz4hc").
FlagWithArg("--oat-symbols=", symbolsFile.String()).
Flag("--strip").
FlagWithArg("--oat-file=", outputPath.String()).
FlagWithArg("--oat-location=", oatLocation).
FlagWithArg("--image=", imagePath.String()).
FlagWithArg("--instruction-set=", arch.String()).
FlagWithArg("--android-root=", global.EmptyDirectory).
FlagWithArg("--no-inline-from=", "core-oj.jar").
Flag("--force-determinism").
Flag("--abort-on-hard-verifier-error")
// Use the default variant/features for host builds.
// The map below contains only device CPU info (which might be x86 on some devices).
if image.target.Os == android.Android {
cmd.FlagWithArg("--instruction-set-variant=", global.CpuVariant[arch])
cmd.FlagWithArg("--instruction-set-features=", global.InstructionSetFeatures[arch])
}
if global.BootFlags != "" {
cmd.Flag(global.BootFlags)
}
if extraFlags != "" {
cmd.Flag(extraFlags)
}
cmd.Textf(`|| ( echo %s ; false )`, proptools.ShellEscape(failureMessage))
installDir := filepath.Join("/", image.installSubdir, arch.String())
var vdexInstalls android.RuleBuilderInstalls
var unstrippedInstalls android.RuleBuilderInstalls
var zipFiles android.WritablePaths
for _, artOrOat := range image.moduleFiles(ctx, outputDir, ".art", ".oat") {
cmd.ImplicitOutput(artOrOat)
zipFiles = append(zipFiles, artOrOat)
// Install the .oat and .art files
rule.Install(artOrOat, filepath.Join(installDir, artOrOat.Base()))
}
for _, vdex := range image.moduleFiles(ctx, outputDir, ".vdex") {
cmd.ImplicitOutput(vdex)
zipFiles = append(zipFiles, vdex)
// Note that the vdex files are identical between architectures.
// Make rules will create symlinks to share them between architectures.
vdexInstalls = append(vdexInstalls,
android.RuleBuilderInstall{vdex, filepath.Join(installDir, vdex.Base())})
}
for _, unstrippedOat := range image.moduleFiles(ctx, symbolsDir, ".oat") {
cmd.ImplicitOutput(unstrippedOat)
// Install the unstripped oat files. The Make rules will put these in $(TARGET_OUT_UNSTRIPPED)
unstrippedInstalls = append(unstrippedInstalls,
android.RuleBuilderInstall{unstrippedOat, filepath.Join(installDir, unstrippedOat.Base())})
}
rule.Build(pctx, ctx, image.name+"JarsDexpreopt_"+image.target.String(), "dexpreopt "+image.name+" jars "+arch.String())
// save output and installed files for makevars
image.installs = rule.Installs()
image.vdexInstalls = vdexInstalls
image.unstrippedInstalls = unstrippedInstalls
return zipFiles
}
const failureMessage = `ERROR: Dex2oat failed to compile a boot image.
It is likely that the boot classpath is inconsistent.
Rebuild with ART_BOOT_IMAGE_EXTRA_ARGS="--runtime-arg -verbose:verifier" to see verification errors.`
func bootImageProfileRule(ctx android.SingletonContext, image *bootImageConfig, missingDeps []string) android.WritablePath {
globalSoong := dexpreopt.GetCachedGlobalSoongConfig(ctx)
global := dexpreopt.GetGlobalConfig(ctx)
if global.DisableGenerateProfile || ctx.Config().IsPdkBuild() || ctx.Config().UnbundledBuild() {
return nil
}
profile := ctx.Config().Once(bootImageProfileRuleKey, func() interface{} {
defaultProfile := "frameworks/base/config/boot-image-profile.txt"
rule := android.NewRuleBuilder()
rule.MissingDeps(missingDeps)
var bootImageProfile android.Path
if len(global.BootImageProfiles) > 1 {
combinedBootImageProfile := image.dir.Join(ctx, "boot-image-profile.txt")
rule.Command().Text("cat").Inputs(global.BootImageProfiles).Text(">").Output(combinedBootImageProfile)
bootImageProfile = combinedBootImageProfile
} else if len(global.BootImageProfiles) == 1 {
bootImageProfile = global.BootImageProfiles[0]
} else if path := android.ExistentPathForSource(ctx, defaultProfile); path.Valid() {
bootImageProfile = path.Path()
} else {
// No profile (not even a default one, which is the case on some branches
// like master-art-host that don't have frameworks/base).
// Return nil and continue without profile.
return nil
}
profile := image.dir.Join(ctx, "boot.prof")
rule.Command().
Text(`ANDROID_LOG_TAGS="*:e"`).
Tool(globalSoong.Profman).
FlagWithInput("--create-profile-from=", bootImageProfile).
FlagForEachInput("--apk=", image.dexPathsDeps.Paths()).
FlagForEachArg("--dex-location=", image.dexLocationsDeps).
FlagWithOutput("--reference-profile-file=", profile)
rule.Install(profile, "/system/etc/boot-image.prof")
rule.Build(pctx, ctx, "bootJarsProfile", "profile boot jars")
image.profileInstalls = rule.Installs()
return profile
})
if profile == nil {
return nil // wrap nil into a typed pointer with value nil
}
return profile.(android.WritablePath)
}
var bootImageProfileRuleKey = android.NewOnceKey("bootImageProfileRule")
func bootFrameworkProfileRule(ctx android.SingletonContext, image *bootImageConfig, missingDeps []string) android.WritablePath {
globalSoong := dexpreopt.GetCachedGlobalSoongConfig(ctx)
global := dexpreopt.GetGlobalConfig(ctx)
if global.DisableGenerateProfile || ctx.Config().IsPdkBuild() || ctx.Config().UnbundledBuild() {
return nil
}
return ctx.Config().Once(bootFrameworkProfileRuleKey, func() interface{} {
rule := android.NewRuleBuilder()
rule.MissingDeps(missingDeps)
// Some branches like master-art-host don't have frameworks/base, so manually
// handle the case that the default is missing. Those branches won't attempt to build the profile rule,
// and if they do they'll get a missing deps error.
defaultProfile := "frameworks/base/config/boot-profile.txt"
path := android.ExistentPathForSource(ctx, defaultProfile)
var bootFrameworkProfile android.Path
if path.Valid() {
bootFrameworkProfile = path.Path()
} else {
missingDeps = append(missingDeps, defaultProfile)
bootFrameworkProfile = android.PathForOutput(ctx, "missing")
}
profile := image.dir.Join(ctx, "boot.bprof")
rule.Command().
Text(`ANDROID_LOG_TAGS="*:e"`).
Tool(globalSoong.Profman).
Flag("--generate-boot-profile").
FlagWithInput("--create-profile-from=", bootFrameworkProfile).
FlagForEachInput("--apk=", image.dexPathsDeps.Paths()).
FlagForEachArg("--dex-location=", image.dexLocationsDeps).
FlagWithOutput("--reference-profile-file=", profile)
rule.Install(profile, "/system/etc/boot-image.bprof")
rule.Build(pctx, ctx, "bootFrameworkProfile", "profile boot framework jars")
image.profileInstalls = append(image.profileInstalls, rule.Installs()...)
return profile
}).(android.WritablePath)
}
var bootFrameworkProfileRuleKey = android.NewOnceKey("bootFrameworkProfileRule")
func dumpOatRules(ctx android.SingletonContext, image *bootImageConfig) {
var allPhonies android.Paths
for _, image := range image.variants {
arch := image.target.Arch.ArchType
suffix := arch.String()
// Host and target might both use x86 arch. We need to ensure the names are unique.
if image.target.Os.Class == android.Host {
suffix = "host-" + suffix
}
// Create a rule to call oatdump.
output := android.PathForOutput(ctx, "boot."+suffix+".oatdump.txt")
rule := android.NewRuleBuilder()
rule.Command().
// TODO: for now, use the debug version for better error reporting
BuiltTool(ctx, "oatdumpd").
FlagWithInputList("--runtime-arg -Xbootclasspath:", image.dexPathsDeps.Paths(), ":").
FlagWithList("--runtime-arg -Xbootclasspath-locations:", image.dexLocationsDeps, ":").
FlagWithArg("--image=", strings.Join(image.imageLocations(), ":")).Implicits(image.imagesDeps.Paths()).
FlagWithOutput("--output=", output).
FlagWithArg("--instruction-set=", arch.String())
rule.Build(pctx, ctx, "dump-oat-boot-"+suffix, "dump oat boot "+arch.String())
// Create a phony rule that depends on the output file and prints the path.
phony := android.PathForPhony(ctx, "dump-oat-boot-"+suffix)
rule = android.NewRuleBuilder()
rule.Command().
Implicit(output).
ImplicitOutput(phony).
Text("echo").FlagWithArg("Output in ", output.String())
rule.Build(pctx, ctx, "phony-dump-oat-boot-"+suffix, "dump oat boot "+arch.String())
allPhonies = append(allPhonies, phony)
}
phony := android.PathForPhony(ctx, "dump-oat-boot")
ctx.Build(pctx, android.BuildParams{
Rule: android.Phony,
Output: phony,
Inputs: allPhonies,
Description: "dump-oat-boot",
})
}
func writeGlobalConfigForMake(ctx android.SingletonContext, path android.WritablePath) {
data := dexpreopt.GetGlobalConfigRawData(ctx)
ctx.Build(pctx, android.BuildParams{
Rule: android.WriteFile,
Output: path,
Args: map[string]string{
"content": string(data),
},
})
}
// Export paths for default boot image to Make
func (d *dexpreoptBootJars) MakeVars(ctx android.MakeVarsContext) {
if d.dexpreoptConfigForMake != nil {
ctx.Strict("DEX_PREOPT_CONFIG_FOR_MAKE", d.dexpreoptConfigForMake.String())
ctx.Strict("DEX_PREOPT_SOONG_CONFIG_FOR_MAKE", android.PathForOutput(ctx, "dexpreopt_soong.config").String())
}
image := d.defaultBootImage
if image != nil {
ctx.Strict("DEXPREOPT_IMAGE_PROFILE_BUILT_INSTALLED", image.profileInstalls.String())
ctx.Strict("DEXPREOPT_BOOTCLASSPATH_DEX_FILES", strings.Join(image.dexPathsDeps.Strings(), " "))
ctx.Strict("DEXPREOPT_BOOTCLASSPATH_DEX_LOCATIONS", strings.Join(image.dexLocationsDeps, " "))
var imageNames []string
for _, current := range append(d.otherImages, image) {
imageNames = append(imageNames, current.name)
imageLocations := []string{}
for _, variant := range current.variants {
suffix := ""
if variant.target.Os.Class == android.Host {
suffix = "_host"
}
sfx := variant.name + suffix + "_" + variant.target.Arch.ArchType.String()
ctx.Strict("DEXPREOPT_IMAGE_VDEX_BUILT_INSTALLED_"+sfx, variant.vdexInstalls.String())
ctx.Strict("DEXPREOPT_IMAGE_"+sfx, variant.images.String())
ctx.Strict("DEXPREOPT_IMAGE_DEPS_"+sfx, strings.Join(variant.imagesDeps.Strings(), " "))
ctx.Strict("DEXPREOPT_IMAGE_BUILT_INSTALLED_"+sfx, variant.installs.String())
ctx.Strict("DEXPREOPT_IMAGE_UNSTRIPPED_BUILT_INSTALLED_"+sfx, variant.unstrippedInstalls.String())
if variant.target.Os == android.Android {
// The locations for all Android targets are identical. Pick one.
imageLocations = variant.imageLocations()
}
}
ctx.Strict("DEXPREOPT_IMAGE_LOCATIONS_"+current.name, strings.Join(imageLocations, ":"))
ctx.Strict("DEXPREOPT_IMAGE_ZIP_"+current.name, current.zip.String())
}
ctx.Strict("DEXPREOPT_IMAGE_NAMES", strings.Join(imageNames, " "))
}
}