platform_build_soong/dexpreopt/config.go

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// Copyright 2018 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 dexpreopt
import (
"encoding/json"
"fmt"
"reflect"
"strings"
"github.com/google/blueprint"
"android/soong/android"
)
// GlobalConfig stores the configuration for dex preopting. The fields are set
// from product variables via dex_preopt_config.mk.
type GlobalConfig struct {
DisablePreopt bool // disable preopt for all modules (excluding boot images)
DisablePreoptBootImages bool // disable prepot for boot images
DisablePreoptModules []string // modules with preopt disabled by product-specific config
OnlyPreoptBootImageAndSystemServer bool // only preopt jars in the boot image or system server
PreoptWithUpdatableBcp bool // If updatable boot jars are included in dexpreopt or not.
UseArtImage bool // use the art image (use other boot class path dex files without image)
HasSystemOther bool // store odex files that match PatternsOnSystemOther on the system_other partition
PatternsOnSystemOther []string // patterns (using '%' to denote a prefix match) to put odex on the system_other partition
DisableGenerateProfile bool // don't generate profiles
ProfileDir string // directory to find profiles in
BootJars android.ConfiguredJarList // modules for jars that form the boot class path
UpdatableBootJars android.ConfiguredJarList // jars within apex that form the boot class path
ArtApexJars android.ConfiguredJarList // modules for jars that are in the ART APEX
SystemServerJars android.ConfiguredJarList // jars that form the system server
SystemServerApps []string // apps that are loaded into system server
UpdatableSystemServerJars android.ConfiguredJarList // jars within apex that are loaded into system server
SpeedApps []string // apps that should be speed optimized
BrokenSuboptimalOrderOfSystemServerJars bool // if true, sub-optimal order does not cause a build error
PreoptFlags []string // global dex2oat flags that should be used if no module-specific dex2oat flags are specified
DefaultCompilerFilter string // default compiler filter to pass to dex2oat, overridden by --compiler-filter= in module-specific dex2oat flags
SystemServerCompilerFilter string // default compiler filter to pass to dex2oat for system server jars
GenerateDMFiles bool // generate Dex Metadata files
NoDebugInfo bool // don't generate debug info by default
DontResolveStartupStrings bool // don't resolve string literals loaded during application startup.
AlwaysSystemServerDebugInfo bool // always generate mini debug info for system server modules (overrides NoDebugInfo=true)
NeverSystemServerDebugInfo bool // never generate mini debug info for system server modules (overrides NoDebugInfo=false)
AlwaysOtherDebugInfo bool // always generate mini debug info for non-system server modules (overrides NoDebugInfo=true)
NeverOtherDebugInfo bool // never generate mini debug info for non-system server modules (overrides NoDebugInfo=true)
IsEng bool // build is a eng variant
SanitizeLite bool // build is the second phase of a SANITIZE_LITE build
DefaultAppImages bool // build app images (TODO: .art files?) by default
Dex2oatXmx string // max heap size for dex2oat
Dex2oatXms string // initial heap size for dex2oat
EmptyDirectory string // path to an empty directory
CpuVariant map[android.ArchType]string // cpu variant for each architecture
InstructionSetFeatures map[android.ArchType]string // instruction set for each architecture
BootImageProfiles android.Paths // path to a boot-image-profile.txt file
BootFlags string // extra flags to pass to dex2oat for the boot image
Dex2oatImageXmx string // max heap size for dex2oat for the boot image
Dex2oatImageXms string // initial heap size for dex2oat for the boot image
Add non-fatal mode for verify_uses_libraries check. The new mode is enabled with environment variable RELAX_USES_LIBRARY_CHECK. If the variable is set to true, then a verify_uses_libraries check failure does not fail the build, instead it sets a special compiler filter "extract" for dexpreopt, which means that the DEX file will be extracted, but it won't be compiled to native code. Class loader context will be set to empty in this case (not &, as it is going to be deprecated soon). If the variable RELAX_USES_LIBRARY_CHECK is unset or set to something other than "true", then the old behaviour of the verify_uses_libraries check is preserved. The intended use case for this flag is to have a smoother migration path for the Java modules that need to add <uses-library> information in the build files. The flag allows to quickly silence build errors. This flag should be used with caution and only as a temporary measure, as it masks real errors and affects performance. verify_uses_libraries check is reworked so that it writes the error message to a status file (which is used instead of the former timestamp file). Currently the stored error message is not used, but it may be used later to produce a warning. Dexpreopt command checks if the status file exists and is nonempty; if that is the case, then compiler filter is set to "extract". Bug: 132357300 Test: Manually add some mismatch between the libraries in the Android.bp and Android.mk files for dexpreopted apps, build with RELAX_USES_LIBRARY_CHECK=true and obsserve that the build doesn't fail and they are compiled with compiler-filter "extract". Unset RELAX_USES_LIBRARY_CHECK and observe that the build fails. Change-Id: Ibb5d993a25b1df1d2e70b7d5aafc6997f9d64e67
2021-02-18 00:23:28 +08:00
// If true, downgrade the compiler filter of dexpreopt to "verify" when verify_uses_libraries
Add non-fatal mode for verify_uses_libraries check. The new mode is enabled with environment variable RELAX_USES_LIBRARY_CHECK. If the variable is set to true, then a verify_uses_libraries check failure does not fail the build, instead it sets a special compiler filter "extract" for dexpreopt, which means that the DEX file will be extracted, but it won't be compiled to native code. Class loader context will be set to empty in this case (not &, as it is going to be deprecated soon). If the variable RELAX_USES_LIBRARY_CHECK is unset or set to something other than "true", then the old behaviour of the verify_uses_libraries check is preserved. The intended use case for this flag is to have a smoother migration path for the Java modules that need to add <uses-library> information in the build files. The flag allows to quickly silence build errors. This flag should be used with caution and only as a temporary measure, as it masks real errors and affects performance. verify_uses_libraries check is reworked so that it writes the error message to a status file (which is used instead of the former timestamp file). Currently the stored error message is not used, but it may be used later to produce a warning. Dexpreopt command checks if the status file exists and is nonempty; if that is the case, then compiler filter is set to "extract". Bug: 132357300 Test: Manually add some mismatch between the libraries in the Android.bp and Android.mk files for dexpreopted apps, build with RELAX_USES_LIBRARY_CHECK=true and obsserve that the build doesn't fail and they are compiled with compiler-filter "extract". Unset RELAX_USES_LIBRARY_CHECK and observe that the build fails. Change-Id: Ibb5d993a25b1df1d2e70b7d5aafc6997f9d64e67
2021-02-18 00:23:28 +08:00
// check fails, instead of failing the build. This will disable any AOT-compilation.
//
// The intended use case for this flag is to have a smoother migration path for the Java
// modules that need to add <uses-library> information in their build files. The flag allows to
// quickly silence build errors. This flag should be used with caution and only as a temporary
// measure, as it masks real errors and affects performance.
RelaxUsesLibraryCheck bool
}
// GlobalSoongConfig contains the global config that is generated from Soong,
// stored in dexpreopt_soong.config.
type GlobalSoongConfig struct {
// Paths to tools possibly used by the generated commands.
Profman android.Path
Dex2oat android.Path
Aapt android.Path
SoongZip android.Path
Zip2zip android.Path
ManifestCheck android.Path
ConstructContext android.Path
}
type ModuleConfig struct {
Name string
DexLocation string // dex location on device
BuildPath android.OutputPath
DexPath android.Path
ManifestPath android.OptionalPath
UncompressedDex bool
HasApkLibraries bool
PreoptFlags []string
ProfileClassListing android.OptionalPath
ProfileIsTextListing bool
ProfileBootListing android.OptionalPath
Add non-fatal mode for verify_uses_libraries check. The new mode is enabled with environment variable RELAX_USES_LIBRARY_CHECK. If the variable is set to true, then a verify_uses_libraries check failure does not fail the build, instead it sets a special compiler filter "extract" for dexpreopt, which means that the DEX file will be extracted, but it won't be compiled to native code. Class loader context will be set to empty in this case (not &, as it is going to be deprecated soon). If the variable RELAX_USES_LIBRARY_CHECK is unset or set to something other than "true", then the old behaviour of the verify_uses_libraries check is preserved. The intended use case for this flag is to have a smoother migration path for the Java modules that need to add <uses-library> information in the build files. The flag allows to quickly silence build errors. This flag should be used with caution and only as a temporary measure, as it masks real errors and affects performance. verify_uses_libraries check is reworked so that it writes the error message to a status file (which is used instead of the former timestamp file). Currently the stored error message is not used, but it may be used later to produce a warning. Dexpreopt command checks if the status file exists and is nonempty; if that is the case, then compiler filter is set to "extract". Bug: 132357300 Test: Manually add some mismatch between the libraries in the Android.bp and Android.mk files for dexpreopted apps, build with RELAX_USES_LIBRARY_CHECK=true and obsserve that the build doesn't fail and they are compiled with compiler-filter "extract". Unset RELAX_USES_LIBRARY_CHECK and observe that the build fails. Change-Id: Ibb5d993a25b1df1d2e70b7d5aafc6997f9d64e67
2021-02-18 00:23:28 +08:00
EnforceUsesLibraries bool // turn on build-time verify_uses_libraries check
EnforceUsesLibrariesStatusFile android.Path // a file with verify_uses_libraries errors (if any)
ProvidesUsesLibrary string // library name (usually the same as module name)
ClassLoaderContexts ClassLoaderContextMap
Archs []android.ArchType
DexPreoptImagesDeps []android.OutputPaths
DexPreoptImageLocationsOnHost []string // boot image location on host (file path without the arch subdirectory)
PreoptBootClassPathDexFiles android.Paths // file paths of boot class path files
PreoptBootClassPathDexLocations []string // virtual locations of boot class path files
PreoptExtractedApk bool // Overrides OnlyPreoptModules
NoCreateAppImage bool
ForceCreateAppImage bool
PresignedPrebuilt bool
}
type globalSoongConfigSingleton struct{}
var pctx = android.NewPackageContext("android/soong/dexpreopt")
func init() {
pctx.Import("android/soong/android")
android.RegisterSingletonType("dexpreopt-soong-config", func() android.Singleton {
return &globalSoongConfigSingleton{}
})
}
func constructPath(ctx android.PathContext, path string) android.Path {
buildDirPrefix := ctx.Config().BuildDir() + "/"
if path == "" {
return nil
} else if strings.HasPrefix(path, buildDirPrefix) {
return android.PathForOutput(ctx, strings.TrimPrefix(path, buildDirPrefix))
} else {
return android.PathForSource(ctx, path)
}
}
func constructPaths(ctx android.PathContext, paths []string) android.Paths {
var ret android.Paths
for _, path := range paths {
ret = append(ret, constructPath(ctx, path))
}
return ret
}
func constructWritablePath(ctx android.PathContext, path string) android.WritablePath {
if path == "" {
return nil
}
return constructPath(ctx, path).(android.WritablePath)
}
// ParseGlobalConfig parses the given data assumed to be read from the global
// dexpreopt.config file into a GlobalConfig struct.
func ParseGlobalConfig(ctx android.PathContext, data []byte) (*GlobalConfig, error) {
type GlobalJSONConfig struct {
*GlobalConfig
// Copies of entries in GlobalConfig that are not constructable without extra parameters. They will be
// used to construct the real value manually below.
BootImageProfiles []string
}
config := GlobalJSONConfig{}
err := json.Unmarshal(data, &config)
if err != nil {
return config.GlobalConfig, err
}
// Construct paths that require a PathContext.
config.GlobalConfig.BootImageProfiles = constructPaths(ctx, config.BootImageProfiles)
return config.GlobalConfig, nil
}
type globalConfigAndRaw struct {
global *GlobalConfig
data []byte
}
// GetGlobalConfig returns the global dexpreopt.config that's created in the
// make config phase. It is loaded once the first time it is called for any
// ctx.Config(), and returns the same data for all future calls with the same
// ctx.Config(). A value can be inserted for tests using
// setDexpreoptTestGlobalConfig.
func GetGlobalConfig(ctx android.PathContext) *GlobalConfig {
return getGlobalConfigRaw(ctx).global
}
// GetGlobalConfigRawData is the same as GetGlobalConfig, except that it returns
// the literal content of dexpreopt.config.
func GetGlobalConfigRawData(ctx android.PathContext) []byte {
return getGlobalConfigRaw(ctx).data
}
var globalConfigOnceKey = android.NewOnceKey("DexpreoptGlobalConfig")
var testGlobalConfigOnceKey = android.NewOnceKey("TestDexpreoptGlobalConfig")
func getGlobalConfigRaw(ctx android.PathContext) globalConfigAndRaw {
return ctx.Config().Once(globalConfigOnceKey, func() interface{} {
if data, err := ctx.Config().DexpreoptGlobalConfig(ctx); err != nil {
panic(err)
} else if data != nil {
globalConfig, err := ParseGlobalConfig(ctx, data)
if err != nil {
panic(err)
}
return globalConfigAndRaw{globalConfig, data}
}
// No global config filename set, see if there is a test config set
return ctx.Config().Once(testGlobalConfigOnceKey, func() interface{} {
// Nope, return a config with preopting disabled
return globalConfigAndRaw{&GlobalConfig{
DisablePreopt: true,
DisablePreoptBootImages: true,
DisableGenerateProfile: true,
}, nil}
})
}).(globalConfigAndRaw)
}
// SetTestGlobalConfig sets a GlobalConfig that future calls to GetGlobalConfig
// will return. It must be called before the first call to GetGlobalConfig for
// the config.
func SetTestGlobalConfig(config android.Config, globalConfig *GlobalConfig) {
config.Once(testGlobalConfigOnceKey, func() interface{} { return globalConfigAndRaw{globalConfig, nil} })
}
// This struct is required to convert ModuleConfig from/to JSON.
// The types of fields in ModuleConfig are not convertible,
// so moduleJSONConfig has those fields as a convertible type.
type moduleJSONConfig struct {
*ModuleConfig
BuildPath string
DexPath string
ManifestPath string
ProfileClassListing string
ProfileBootListing string
EnforceUsesLibrariesStatusFile string
ClassLoaderContexts jsonClassLoaderContextMap
DexPreoptImagesDeps [][]string
PreoptBootClassPathDexFiles []string
}
// ParseModuleConfig parses a per-module dexpreopt.config file into a
// ModuleConfig struct. It is not used in Soong, which receives a ModuleConfig
// struct directly from java/dexpreopt.go. It is used in dexpreopt_gen called
// from Make to read the module dexpreopt.config written in the Make config
// stage.
func ParseModuleConfig(ctx android.PathContext, data []byte) (*ModuleConfig, error) {
config := moduleJSONConfig{}
err := json.Unmarshal(data, &config)
if err != nil {
return config.ModuleConfig, err
}
// Construct paths that require a PathContext.
config.ModuleConfig.BuildPath = constructPath(ctx, config.BuildPath).(android.OutputPath)
config.ModuleConfig.DexPath = constructPath(ctx, config.DexPath)
config.ModuleConfig.ManifestPath = android.OptionalPathForPath(constructPath(ctx, config.ManifestPath))
config.ModuleConfig.ProfileClassListing = android.OptionalPathForPath(constructPath(ctx, config.ProfileClassListing))
Add non-fatal mode for verify_uses_libraries check. The new mode is enabled with environment variable RELAX_USES_LIBRARY_CHECK. If the variable is set to true, then a verify_uses_libraries check failure does not fail the build, instead it sets a special compiler filter "extract" for dexpreopt, which means that the DEX file will be extracted, but it won't be compiled to native code. Class loader context will be set to empty in this case (not &, as it is going to be deprecated soon). If the variable RELAX_USES_LIBRARY_CHECK is unset or set to something other than "true", then the old behaviour of the verify_uses_libraries check is preserved. The intended use case for this flag is to have a smoother migration path for the Java modules that need to add <uses-library> information in the build files. The flag allows to quickly silence build errors. This flag should be used with caution and only as a temporary measure, as it masks real errors and affects performance. verify_uses_libraries check is reworked so that it writes the error message to a status file (which is used instead of the former timestamp file). Currently the stored error message is not used, but it may be used later to produce a warning. Dexpreopt command checks if the status file exists and is nonempty; if that is the case, then compiler filter is set to "extract". Bug: 132357300 Test: Manually add some mismatch between the libraries in the Android.bp and Android.mk files for dexpreopted apps, build with RELAX_USES_LIBRARY_CHECK=true and obsserve that the build doesn't fail and they are compiled with compiler-filter "extract". Unset RELAX_USES_LIBRARY_CHECK and observe that the build fails. Change-Id: Ibb5d993a25b1df1d2e70b7d5aafc6997f9d64e67
2021-02-18 00:23:28 +08:00
config.ModuleConfig.EnforceUsesLibrariesStatusFile = constructPath(ctx, config.EnforceUsesLibrariesStatusFile)
config.ModuleConfig.ClassLoaderContexts = fromJsonClassLoaderContext(ctx, config.ClassLoaderContexts)
config.ModuleConfig.PreoptBootClassPathDexFiles = constructPaths(ctx, config.PreoptBootClassPathDexFiles)
// This needs to exist, but dependencies are already handled in Make, so we don't need to pass them through JSON.
config.ModuleConfig.DexPreoptImagesDeps = make([]android.OutputPaths, len(config.ModuleConfig.Archs))
return config.ModuleConfig, nil
}
func pathsListToStringLists(pathsList []android.OutputPaths) [][]string {
ret := make([][]string, 0, len(pathsList))
for _, paths := range pathsList {
ret = append(ret, paths.Strings())
}
return ret
}
func moduleConfigToJSON(config *ModuleConfig) ([]byte, error) {
return json.MarshalIndent(&moduleJSONConfig{
BuildPath: config.BuildPath.String(),
DexPath: config.DexPath.String(),
ManifestPath: config.ManifestPath.String(),
ProfileClassListing: config.ProfileClassListing.String(),
ProfileBootListing: config.ProfileBootListing.String(),
EnforceUsesLibrariesStatusFile: config.EnforceUsesLibrariesStatusFile.String(),
ClassLoaderContexts: toJsonClassLoaderContext(config.ClassLoaderContexts),
DexPreoptImagesDeps: pathsListToStringLists(config.DexPreoptImagesDeps),
PreoptBootClassPathDexFiles: config.PreoptBootClassPathDexFiles.Strings(),
ModuleConfig: config,
}, "", " ")
}
// WriteModuleConfig serializes a ModuleConfig into a per-module dexpreopt.config JSON file.
// These config files are used for post-processing.
func WriteModuleConfig(ctx android.ModuleContext, config *ModuleConfig, path android.WritablePath) {
if path == nil {
return
}
data, err := moduleConfigToJSON(config)
if err != nil {
ctx.ModuleErrorf("failed to JSON marshal module dexpreopt.config: %v", err)
return
}
android.WriteFileRule(ctx, path, string(data))
}
// dex2oatModuleName returns the name of the module to use for the dex2oat host
// tool. It should be a binary module with public visibility that is compiled
// and installed for host.
func dex2oatModuleName(config android.Config) string {
// Default to the debug variant of dex2oat to help find bugs.
// Set USE_DEX2OAT_DEBUG to false for only building non-debug versions.
if config.Getenv("USE_DEX2OAT_DEBUG") == "false" {
return "dex2oat"
} else {
return "dex2oatd"
}
}
type dex2oatDependencyTag struct {
blueprint.BaseDependencyTag
}
func (d dex2oatDependencyTag) ExcludeFromVisibilityEnforcement() {
}
func (d dex2oatDependencyTag) ExcludeFromApexContents() {
}
// Dex2oatDepTag represents the dependency onto the dex2oatd module. It is added to any module that
// needs dexpreopting and so it makes no sense for it to be checked for visibility or included in
// the apex.
var Dex2oatDepTag = dex2oatDependencyTag{}
var _ android.ExcludeFromVisibilityEnforcementTag = Dex2oatDepTag
var _ android.ExcludeFromApexContentsTag = Dex2oatDepTag
// RegisterToolDeps adds the necessary dependencies to binary modules for tools
// that are required later when Get(Cached)GlobalSoongConfig is called. It
// should be called from a mutator that's registered with
// android.RegistrationContext.FinalDepsMutators.
func RegisterToolDeps(ctx android.BottomUpMutatorContext) {
dex2oatBin := dex2oatModuleName(ctx.Config())
v := ctx.Config().BuildOSTarget.Variations()
ctx.AddFarVariationDependencies(v, Dex2oatDepTag, dex2oatBin)
}
func dex2oatPathFromDep(ctx android.ModuleContext) android.Path {
dex2oatBin := dex2oatModuleName(ctx.Config())
// Find the right dex2oat module, trying to follow PrebuiltDepTag from source
// to prebuilt if there is one. We wouldn't have to do this if the
// prebuilt_postdeps mutator that replaces source deps with prebuilt deps was
// run after RegisterToolDeps above, but changing that leads to ordering
// problems between mutators (RegisterToolDeps needs to run late to act on
// final variants, while prebuilt_postdeps needs to run before many of the
// PostDeps mutators, like the APEX mutators). Hence we need to dig out the
// prebuilt explicitly here instead.
var dex2oatModule android.Module
ctx.WalkDeps(func(child, parent android.Module) bool {
if parent == ctx.Module() && ctx.OtherModuleDependencyTag(child) == Dex2oatDepTag {
// Found the source module, or prebuilt module that has replaced the source.
dex2oatModule = child
if android.IsModulePrebuilt(child) {
return false // If it's the prebuilt we're done.
} else {
return true // Recurse to check if the source has a prebuilt dependency.
}
}
if parent == dex2oatModule && ctx.OtherModuleDependencyTag(child) == android.PrebuiltDepTag {
if p := android.GetEmbeddedPrebuilt(child); p != nil && p.UsePrebuilt() {
dex2oatModule = child // Found a prebuilt that should be used.
}
}
return false
})
if dex2oatModule == nil {
// If this happens there's probably a missing call to AddToolDeps in DepsMutator.
panic(fmt.Sprintf("Failed to lookup %s dependency", dex2oatBin))
}
dex2oatPath := dex2oatModule.(android.HostToolProvider).HostToolPath()
if !dex2oatPath.Valid() {
panic(fmt.Sprintf("Failed to find host tool path in %s", dex2oatModule))
}
return dex2oatPath.Path()
}
// createGlobalSoongConfig creates a GlobalSoongConfig from the current context.
// Should not be used in dexpreopt_gen.
func createGlobalSoongConfig(ctx android.ModuleContext) *GlobalSoongConfig {
return &GlobalSoongConfig{
Profman: ctx.Config().HostToolPath(ctx, "profman"),
Dex2oat: dex2oatPathFromDep(ctx),
Aapt: ctx.Config().HostToolPath(ctx, "aapt"),
SoongZip: ctx.Config().HostToolPath(ctx, "soong_zip"),
Zip2zip: ctx.Config().HostToolPath(ctx, "zip2zip"),
ManifestCheck: ctx.Config().HostToolPath(ctx, "manifest_check"),
ConstructContext: ctx.Config().HostToolPath(ctx, "construct_context"),
}
}
// The main reason for this Once cache for GlobalSoongConfig is to make the
// dex2oat path available to singletons. In ordinary modules we get it through a
// Dex2oatDepTag dependency, but in singletons there's no simple way to do the
// same thing and ensure the right variant is selected, hence this cache to make
// the resolved path available to singletons. This means we depend on there
// being at least one ordinary module with a Dex2oatDepTag dependency.
//
// TODO(b/147613152): Implement a way to deal with dependencies from singletons,
// and then possibly remove this cache altogether.
var globalSoongConfigOnceKey = android.NewOnceKey("DexpreoptGlobalSoongConfig")
// GetGlobalSoongConfig creates a GlobalSoongConfig the first time it's called,
// and later returns the same cached instance.
func GetGlobalSoongConfig(ctx android.ModuleContext) *GlobalSoongConfig {
globalSoong := ctx.Config().Once(globalSoongConfigOnceKey, func() interface{} {
return createGlobalSoongConfig(ctx)
}).(*GlobalSoongConfig)
// Always resolve the tool path from the dependency, to ensure that every
// module has the dependency added properly.
myDex2oat := dex2oatPathFromDep(ctx)
if myDex2oat != globalSoong.Dex2oat {
panic(fmt.Sprintf("Inconsistent dex2oat path in cached config: expected %s, got %s", globalSoong.Dex2oat, myDex2oat))
}
return globalSoong
}
// GetCachedGlobalSoongConfig returns a cached GlobalSoongConfig created by an
// earlier GetGlobalSoongConfig call. This function works with any context
// compatible with a basic PathContext, since it doesn't try to create a
// GlobalSoongConfig with the proper paths (which requires a full
// ModuleContext). If there has been no prior call to GetGlobalSoongConfig, nil
// is returned.
func GetCachedGlobalSoongConfig(ctx android.PathContext) *GlobalSoongConfig {
return ctx.Config().Once(globalSoongConfigOnceKey, func() interface{} {
return (*GlobalSoongConfig)(nil)
}).(*GlobalSoongConfig)
}
type globalJsonSoongConfig struct {
Profman string
Dex2oat string
Aapt string
SoongZip string
Zip2zip string
ManifestCheck string
ConstructContext string
}
// ParseGlobalSoongConfig parses the given data assumed to be read from the
// global dexpreopt_soong.config file into a GlobalSoongConfig struct. It is
// only used in dexpreopt_gen.
func ParseGlobalSoongConfig(ctx android.PathContext, data []byte) (*GlobalSoongConfig, error) {
var jc globalJsonSoongConfig
err := json.Unmarshal(data, &jc)
if err != nil {
return &GlobalSoongConfig{}, err
}
config := &GlobalSoongConfig{
Profman: constructPath(ctx, jc.Profman),
Dex2oat: constructPath(ctx, jc.Dex2oat),
Aapt: constructPath(ctx, jc.Aapt),
SoongZip: constructPath(ctx, jc.SoongZip),
Zip2zip: constructPath(ctx, jc.Zip2zip),
ManifestCheck: constructPath(ctx, jc.ManifestCheck),
ConstructContext: constructPath(ctx, jc.ConstructContext),
}
return config, nil
}
// checkBootJarsConfigConsistency checks the consistency of BootJars and UpdatableBootJars fields in
// DexpreoptGlobalConfig and Config.productVariables.
func checkBootJarsConfigConsistency(ctx android.SingletonContext, dexpreoptConfig *GlobalConfig, config android.Config) {
compareBootJars := func(property string, dexpreoptJars, variableJars android.ConfiguredJarList) {
dexpreoptPairs := dexpreoptJars.CopyOfApexJarPairs()
variablePairs := variableJars.CopyOfApexJarPairs()
if !reflect.DeepEqual(dexpreoptPairs, variablePairs) {
ctx.Errorf("Inconsistent configuration of %[1]s\n"+
" dexpreopt.GlobalConfig.%[1]s = %[2]s\n"+
" productVariables.%[1]s = %[3]s",
property, dexpreoptPairs, variablePairs)
}
}
compareBootJars("BootJars", dexpreoptConfig.BootJars, config.NonUpdatableBootJars())
compareBootJars("UpdatableBootJars", dexpreoptConfig.UpdatableBootJars, config.UpdatableBootJars())
}
func (s *globalSoongConfigSingleton) GenerateBuildActions(ctx android.SingletonContext) {
checkBootJarsConfigConsistency(ctx, GetGlobalConfig(ctx), ctx.Config())
if GetGlobalConfig(ctx).DisablePreopt {
return
}
config := GetCachedGlobalSoongConfig(ctx)
if config == nil {
// No module has enabled dexpreopting, so we assume there will be no calls
// to dexpreopt_gen.
return
}
jc := globalJsonSoongConfig{
Profman: config.Profman.String(),
Dex2oat: config.Dex2oat.String(),
Aapt: config.Aapt.String(),
SoongZip: config.SoongZip.String(),
Zip2zip: config.Zip2zip.String(),
ManifestCheck: config.ManifestCheck.String(),
ConstructContext: config.ConstructContext.String(),
}
data, err := json.Marshal(jc)
if err != nil {
ctx.Errorf("failed to JSON marshal GlobalSoongConfig: %v", err)
return
}
android.WriteFileRule(ctx, android.PathForOutput(ctx, "dexpreopt_soong.config"), string(data))
}
func (s *globalSoongConfigSingleton) MakeVars(ctx android.MakeVarsContext) {
if GetGlobalConfig(ctx).DisablePreopt {
return
}
config := GetCachedGlobalSoongConfig(ctx)
if config == nil {
return
}
ctx.Strict("DEX2OAT", config.Dex2oat.String())
ctx.Strict("DEXPREOPT_GEN_DEPS", strings.Join([]string{
config.Profman.String(),
config.Dex2oat.String(),
config.Aapt.String(),
config.SoongZip.String(),
config.Zip2zip.String(),
config.ManifestCheck.String(),
config.ConstructContext.String(),
}, " "))
}
func GlobalConfigForTests(ctx android.PathContext) *GlobalConfig {
return &GlobalConfig{
DisablePreopt: false,
DisablePreoptModules: nil,
OnlyPreoptBootImageAndSystemServer: false,
HasSystemOther: false,
PatternsOnSystemOther: nil,
DisableGenerateProfile: false,
ProfileDir: "",
BootJars: android.EmptyConfiguredJarList(),
UpdatableBootJars: android.EmptyConfiguredJarList(),
ArtApexJars: android.EmptyConfiguredJarList(),
SystemServerJars: android.EmptyConfiguredJarList(),
SystemServerApps: nil,
UpdatableSystemServerJars: android.EmptyConfiguredJarList(),
SpeedApps: nil,
PreoptFlags: nil,
DefaultCompilerFilter: "",
SystemServerCompilerFilter: "",
GenerateDMFiles: false,
NoDebugInfo: false,
DontResolveStartupStrings: false,
AlwaysSystemServerDebugInfo: false,
NeverSystemServerDebugInfo: false,
AlwaysOtherDebugInfo: false,
NeverOtherDebugInfo: false,
IsEng: false,
SanitizeLite: false,
DefaultAppImages: false,
Dex2oatXmx: "",
Dex2oatXms: "",
EmptyDirectory: "empty_dir",
CpuVariant: nil,
InstructionSetFeatures: nil,
BootImageProfiles: nil,
BootFlags: "",
Dex2oatImageXmx: "",
Dex2oatImageXms: "",
}
}
func globalSoongConfigForTests() *GlobalSoongConfig {
return &GlobalSoongConfig{
Profman: android.PathForTesting("profman"),
Dex2oat: android.PathForTesting("dex2oat"),
Aapt: android.PathForTesting("aapt"),
SoongZip: android.PathForTesting("soong_zip"),
Zip2zip: android.PathForTesting("zip2zip"),
ManifestCheck: android.PathForTesting("manifest_check"),
ConstructContext: android.PathForTesting("construct_context"),
}
}