// Copyright 2015 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 android // This is the primary location to write and read all configuration values and // product variables necessary for soong_build's operation. import ( "encoding/json" "errors" "fmt" "io/ioutil" "os" "path/filepath" "runtime" "strconv" "strings" "sync" "github.com/google/blueprint" "github.com/google/blueprint/bootstrap" "github.com/google/blueprint/pathtools" "github.com/google/blueprint/proptools" "android/soong/android/soongconfig" "android/soong/bazel" "android/soong/remoteexec" ) // Bool re-exports proptools.Bool for the android package. var Bool = proptools.Bool // String re-exports proptools.String for the android package. var String = proptools.String // StringDefault re-exports proptools.StringDefault for the android package. var StringDefault = proptools.StringDefault // FutureApiLevelInt is a placeholder constant for unreleased API levels. const FutureApiLevelInt = 10000 // FutureApiLevel represents unreleased API levels. var FutureApiLevel = ApiLevel{ value: "current", number: FutureApiLevelInt, isPreview: true, } // The product variables file name, containing product config from Kati. const productVariablesFileName = "soong.variables" // A Config object represents the entire build configuration for Android. type Config struct { *config } // BuildDir returns the build output directory for the configuration. func (c Config) BuildDir() string { return c.buildDir } func (c Config) NinjaBuildDir() string { return c.buildDir } func (c Config) DebugCompilation() bool { return false // Never compile Go code in the main build for debugging } func (c Config) SrcDir() string { return c.srcDir } // A DeviceConfig object represents the configuration for a particular device // being built. For now there will only be one of these, but in the future there // may be multiple devices being built. type DeviceConfig struct { *deviceConfig } // VendorConfig represents the configuration for vendor-specific behavior. type VendorConfig soongconfig.SoongConfig // Definition of general build configuration for soong_build. Some of these // product configuration values are read from Kati-generated soong.variables. type config struct { // Options configurable with soong.variables productVariables productVariables // Only available on configs created by TestConfig TestProductVariables *productVariables // A specialized context object for Bazel/Soong mixed builds and migration // purposes. BazelContext BazelContext ProductVariablesFileName string Targets map[OsType][]Target BuildOSTarget Target // the Target for tools run on the build machine BuildOSCommonTarget Target // the Target for common (java) tools run on the build machine AndroidCommonTarget Target // the Target for common modules for the Android device AndroidFirstDeviceTarget Target // the first Target for modules for the Android device // multilibConflicts for an ArchType is true if there is earlier configured // device architecture with the same multilib value. multilibConflicts map[ArchType]bool deviceConfig *deviceConfig srcDir string // the path of the root source directory buildDir string // the path of the build output directory moduleListFile string // the path to the file which lists blueprint files to parse. env map[string]string envLock sync.Mutex envDeps map[string]string envFrozen bool // Changes behavior based on whether Kati runs after soong_build, or if soong_build // runs standalone. katiEnabled bool captureBuild bool // true for tests, saves build parameters for each module ignoreEnvironment bool // true for tests, returns empty from all Getenv calls stopBefore bootstrap.StopBefore fs pathtools.FileSystem mockBpList string bp2buildPackageConfig Bp2BuildConfig bp2buildModuleTypeConfig map[string]bool // If testAllowNonExistentPaths is true then PathForSource and PathForModuleSrc won't error // in tests when a path doesn't exist. TestAllowNonExistentPaths bool // The list of files that when changed, must invalidate soong_build to // regenerate build.ninja. ninjaFileDepsSet sync.Map OncePer } type deviceConfig struct { config *config OncePer } type jsonConfigurable interface { SetDefaultConfig() } func loadConfig(config *config) error { return loadFromConfigFile(&config.productVariables, absolutePath(config.ProductVariablesFileName)) } // loadFromConfigFile loads and decodes configuration options from a JSON file // in the current working directory. func loadFromConfigFile(configurable *productVariables, filename string) error { // Try to open the file configFileReader, err := os.Open(filename) defer configFileReader.Close() if os.IsNotExist(err) { // Need to create a file, so that blueprint & ninja don't get in // a dependency tracking loop. // Make a file-configurable-options with defaults, write it out using // a json writer. configurable.SetDefaultConfig() err = saveToConfigFile(configurable, filename) if err != nil { return err } } else if err != nil { return fmt.Errorf("config file: could not open %s: %s", filename, err.Error()) } else { // Make a decoder for it jsonDecoder := json.NewDecoder(configFileReader) err = jsonDecoder.Decode(configurable) if err != nil { return fmt.Errorf("config file: %s did not parse correctly: %s", filename, err.Error()) } } if Bool(configurable.GcovCoverage) && Bool(configurable.ClangCoverage) { return fmt.Errorf("GcovCoverage and ClangCoverage cannot both be set") } configurable.Native_coverage = proptools.BoolPtr( Bool(configurable.GcovCoverage) || Bool(configurable.ClangCoverage)) return saveToBazelConfigFile(configurable, filepath.Dir(filename)) } // atomically writes the config file in case two copies of soong_build are running simultaneously // (for example, docs generation and ninja manifest generation) func saveToConfigFile(config *productVariables, filename string) error { data, err := json.MarshalIndent(&config, "", " ") if err != nil { return fmt.Errorf("cannot marshal config data: %s", err.Error()) } f, err := ioutil.TempFile(filepath.Dir(filename), "config") if err != nil { return fmt.Errorf("cannot create empty config file %s: %s", filename, err.Error()) } defer os.Remove(f.Name()) defer f.Close() _, err = f.Write(data) if err != nil { return fmt.Errorf("default config file: %s could not be written: %s", filename, err.Error()) } _, err = f.WriteString("\n") if err != nil { return fmt.Errorf("default config file: %s could not be written: %s", filename, err.Error()) } f.Close() os.Rename(f.Name(), filename) return nil } func saveToBazelConfigFile(config *productVariables, outDir string) error { dir := filepath.Join(outDir, bazel.SoongInjectionDirName, "product_config") err := createDirIfNonexistent(dir, os.ModePerm) if err != nil { return fmt.Errorf("Could not create dir %s: %s", dir, err) } data, err := json.MarshalIndent(&config, "", " ") if err != nil { return fmt.Errorf("cannot marshal config data: %s", err.Error()) } bzl := []string{ bazel.GeneratedBazelFileWarning, fmt.Sprintf(`_product_vars = json.decode("""%s""")`, data), "product_vars = _product_vars\n", } err = ioutil.WriteFile(filepath.Join(dir, "product_variables.bzl"), []byte(strings.Join(bzl, "\n")), 0644) if err != nil { return fmt.Errorf("Could not write .bzl config file %s", err) } err = ioutil.WriteFile(filepath.Join(dir, "BUILD"), []byte(bazel.GeneratedBazelFileWarning), 0644) if err != nil { return fmt.Errorf("Could not write BUILD config file %s", err) } return nil } // NullConfig returns a mostly empty Config for use by standalone tools like dexpreopt_gen that // use the android package. func NullConfig(buildDir string) Config { return Config{ config: &config{ buildDir: buildDir, fs: pathtools.OsFs, }, } } // TestConfig returns a Config object for testing. func TestConfig(buildDir string, env map[string]string, bp string, fs map[string][]byte) Config { envCopy := make(map[string]string) for k, v := range env { envCopy[k] = v } // Copy the real PATH value to the test environment, it's needed by // NonHermeticHostSystemTool() used in x86_darwin_host.go envCopy["PATH"] = os.Getenv("PATH") config := &config{ productVariables: productVariables{ DeviceName: stringPtr("test_device"), Platform_sdk_version: intPtr(30), Platform_sdk_codename: stringPtr("S"), Platform_version_active_codenames: []string{"S"}, DeviceSystemSdkVersions: []string{"14", "15"}, Platform_systemsdk_versions: []string{"29", "30"}, AAPTConfig: []string{"normal", "large", "xlarge", "hdpi", "xhdpi", "xxhdpi"}, AAPTPreferredConfig: stringPtr("xhdpi"), AAPTCharacteristics: stringPtr("nosdcard"), AAPTPrebuiltDPI: []string{"xhdpi", "xxhdpi"}, UncompressPrivAppDex: boolPtr(true), ShippingApiLevel: stringPtr("30"), }, buildDir: buildDir, captureBuild: true, env: envCopy, // Set testAllowNonExistentPaths so that test contexts don't need to specify every path // passed to PathForSource or PathForModuleSrc. TestAllowNonExistentPaths: true, BazelContext: noopBazelContext{}, } config.deviceConfig = &deviceConfig{ config: config, } config.TestProductVariables = &config.productVariables config.mockFileSystem(bp, fs) config.bp2buildModuleTypeConfig = map[string]bool{} return Config{config} } func fuchsiaTargets() map[OsType][]Target { return map[OsType][]Target{ Fuchsia: { {Fuchsia, Arch{ArchType: Arm64, ArchVariant: "", Abi: []string{"arm64-v8a"}}, NativeBridgeDisabled, "", "", false}, }, BuildOs: { {BuildOs, Arch{ArchType: X86_64}, NativeBridgeDisabled, "", "", false}, }, } } var PrepareForTestSetDeviceToFuchsia = FixtureModifyConfig(func(config Config) { config.Targets = fuchsiaTargets() }) func modifyTestConfigToSupportArchMutator(testConfig Config) { config := testConfig.config config.Targets = map[OsType][]Target{ Android: []Target{ {Android, Arch{ArchType: Arm64, ArchVariant: "armv8-a", Abi: []string{"arm64-v8a"}}, NativeBridgeDisabled, "", "", false}, {Android, Arch{ArchType: Arm, ArchVariant: "armv7-a-neon", Abi: []string{"armeabi-v7a"}}, NativeBridgeDisabled, "", "", false}, }, BuildOs: []Target{ {BuildOs, Arch{ArchType: X86_64}, NativeBridgeDisabled, "", "", false}, {BuildOs, Arch{ArchType: X86}, NativeBridgeDisabled, "", "", false}, }, } if runtime.GOOS == "darwin" { config.Targets[BuildOs] = config.Targets[BuildOs][:1] } config.BuildOSTarget = config.Targets[BuildOs][0] config.BuildOSCommonTarget = getCommonTargets(config.Targets[BuildOs])[0] config.AndroidCommonTarget = getCommonTargets(config.Targets[Android])[0] config.AndroidFirstDeviceTarget = firstTarget(config.Targets[Android], "lib64", "lib32")[0] config.TestProductVariables.DeviceArch = proptools.StringPtr("arm64") config.TestProductVariables.DeviceArchVariant = proptools.StringPtr("armv8-a") config.TestProductVariables.DeviceSecondaryArch = proptools.StringPtr("arm") config.TestProductVariables.DeviceSecondaryArchVariant = proptools.StringPtr("armv7-a-neon") } // TestArchConfig returns a Config object suitable for using for tests that // need to run the arch mutator. func TestArchConfig(buildDir string, env map[string]string, bp string, fs map[string][]byte) Config { testConfig := TestConfig(buildDir, env, bp, fs) modifyTestConfigToSupportArchMutator(testConfig) return testConfig } // ConfigForAdditionalRun is a config object which is "reset" for another // bootstrap run. Only per-run data is reset. Data which needs to persist across // multiple runs in the same program execution is carried over (such as Bazel // context or environment deps). func ConfigForAdditionalRun(c Config) (Config, error) { newConfig, err := NewConfig(c.srcDir, c.buildDir, c.moduleListFile, c.env) if err != nil { return Config{}, err } newConfig.BazelContext = c.BazelContext newConfig.envDeps = c.envDeps return newConfig, nil } // NewConfig creates a new Config object. The srcDir argument specifies the path // to the root source directory. It also loads the config file, if found. func NewConfig(srcDir, buildDir string, moduleListFile string, availableEnv map[string]string) (Config, error) { // Make a config with default options. config := &config{ ProductVariablesFileName: filepath.Join(buildDir, productVariablesFileName), env: availableEnv, srcDir: srcDir, buildDir: buildDir, multilibConflicts: make(map[ArchType]bool), moduleListFile: moduleListFile, fs: pathtools.NewOsFs(absSrcDir), } config.deviceConfig = &deviceConfig{ config: config, } // Soundness check of the build and source directories. This won't catch strange // configurations with symlinks, but at least checks the obvious case. absBuildDir, err := filepath.Abs(buildDir) if err != nil { return Config{}, err } absSrcDir, err := filepath.Abs(srcDir) if err != nil { return Config{}, err } if strings.HasPrefix(absSrcDir, absBuildDir) { return Config{}, fmt.Errorf("Build dir must not contain source directory") } // Load any configurable options from the configuration file err = loadConfig(config) if err != nil { return Config{}, err } KatiEnabledMarkerFile := filepath.Join(buildDir, ".soong.kati_enabled") if _, err := os.Stat(absolutePath(KatiEnabledMarkerFile)); err == nil { config.katiEnabled = true } // Sets up the map of target OSes to the finer grained compilation targets // that are configured from the product variables. targets, err := decodeTargetProductVariables(config) if err != nil { return Config{}, err } // Make the CommonOS OsType available for all products. targets[CommonOS] = []Target{commonTargetMap[CommonOS.Name]} var archConfig []archConfig if config.NdkAbis() { archConfig = getNdkAbisConfig() } else if config.AmlAbis() { archConfig = getAmlAbisConfig() } if archConfig != nil { androidTargets, err := decodeArchSettings(Android, archConfig) if err != nil { return Config{}, err } targets[Android] = androidTargets } multilib := make(map[string]bool) for _, target := range targets[Android] { if seen := multilib[target.Arch.ArchType.Multilib]; seen { config.multilibConflicts[target.Arch.ArchType] = true } multilib[target.Arch.ArchType.Multilib] = true } // Map of OS to compilation targets. config.Targets = targets // Compilation targets for host tools. config.BuildOSTarget = config.Targets[BuildOs][0] config.BuildOSCommonTarget = getCommonTargets(config.Targets[BuildOs])[0] // Compilation targets for Android. if len(config.Targets[Android]) > 0 { config.AndroidCommonTarget = getCommonTargets(config.Targets[Android])[0] config.AndroidFirstDeviceTarget = firstTarget(config.Targets[Android], "lib64", "lib32")[0] } config.BazelContext, err = NewBazelContext(config) config.bp2buildPackageConfig = bp2buildDefaultConfig config.bp2buildModuleTypeConfig = make(map[string]bool) return Config{config}, err } // mockFileSystem replaces all reads with accesses to the provided map of // filenames to contents stored as a byte slice. func (c *config) mockFileSystem(bp string, fs map[string][]byte) { mockFS := map[string][]byte{} if _, exists := mockFS["Android.bp"]; !exists { mockFS["Android.bp"] = []byte(bp) } for k, v := range fs { mockFS[k] = v } // no module list file specified; find every file named Blueprints or Android.bp pathsToParse := []string{} for candidate := range mockFS { base := filepath.Base(candidate) if base == "Blueprints" || base == "Android.bp" { pathsToParse = append(pathsToParse, candidate) } } if len(pathsToParse) < 1 { panic(fmt.Sprintf("No Blueprint or Android.bp files found in mock filesystem: %v\n", mockFS)) } mockFS[blueprint.MockModuleListFile] = []byte(strings.Join(pathsToParse, "\n")) c.fs = pathtools.MockFs(mockFS) c.mockBpList = blueprint.MockModuleListFile } func (c *config) StopBefore() bootstrap.StopBefore { return c.stopBefore } // SetStopBefore configures soong_build to exit earlier at a specific point. func (c *config) SetStopBefore(stopBefore bootstrap.StopBefore) { c.stopBefore = stopBefore } func (c *config) SetAllowMissingDependencies() { c.productVariables.Allow_missing_dependencies = proptools.BoolPtr(true) } var _ bootstrap.ConfigStopBefore = (*config)(nil) // BlueprintToolLocation returns the directory containing build system tools // from Blueprint, like soong_zip and merge_zips. func (c *config) BlueprintToolLocation() string { return filepath.Join(c.buildDir, "host", c.PrebuiltOS(), "bin") } var _ bootstrap.ConfigBlueprintToolLocation = (*config)(nil) func (c *config) HostToolPath(ctx PathContext, tool string) Path { return PathForOutput(ctx, "host", c.PrebuiltOS(), "bin", tool) } func (c *config) HostJNIToolPath(ctx PathContext, path string) Path { ext := ".so" if runtime.GOOS == "darwin" { ext = ".dylib" } return PathForOutput(ctx, "host", c.PrebuiltOS(), "lib64", path+ext) } func (c *config) HostJavaToolPath(ctx PathContext, path string) Path { return PathForOutput(ctx, "host", c.PrebuiltOS(), "framework", path) } // PrebuiltOS returns the name of the host OS used in prebuilts directories. func (c *config) PrebuiltOS() string { switch runtime.GOOS { case "linux": return "linux-x86" case "darwin": return "darwin-x86" default: panic("Unknown GOOS") } } // GoRoot returns the path to the root directory of the Go toolchain. func (c *config) GoRoot() string { return fmt.Sprintf("%s/prebuilts/go/%s", c.srcDir, c.PrebuiltOS()) } // PrebuiltBuildTool returns the path to a tool in the prebuilts directory containing // checked-in tools, like Kati, Ninja or Toybox, for the current host OS. func (c *config) PrebuiltBuildTool(ctx PathContext, tool string) Path { return PathForSource(ctx, "prebuilts/build-tools", c.PrebuiltOS(), "bin", tool) } // CpPreserveSymlinksFlags returns the host-specific flag for the cp(1) command // to preserve symlinks. func (c *config) CpPreserveSymlinksFlags() string { switch runtime.GOOS { case "darwin": return "-R" case "linux": return "-d" default: return "" } } func (c *config) Getenv(key string) string { var val string var exists bool c.envLock.Lock() defer c.envLock.Unlock() if c.envDeps == nil { c.envDeps = make(map[string]string) } if val, exists = c.envDeps[key]; !exists { if c.envFrozen { panic("Cannot access new environment variables after envdeps are frozen") } val, _ = c.env[key] c.envDeps[key] = val } return val } func (c *config) GetenvWithDefault(key string, defaultValue string) string { ret := c.Getenv(key) if ret == "" { return defaultValue } return ret } func (c *config) IsEnvTrue(key string) bool { value := c.Getenv(key) return value == "1" || value == "y" || value == "yes" || value == "on" || value == "true" } func (c *config) IsEnvFalse(key string) bool { value := c.Getenv(key) return value == "0" || value == "n" || value == "no" || value == "off" || value == "false" } // EnvDeps returns the environment variables this build depends on. The first // call to this function blocks future reads from the environment. func (c *config) EnvDeps() map[string]string { c.envLock.Lock() defer c.envLock.Unlock() c.envFrozen = true return c.envDeps } func (c *config) KatiEnabled() bool { return c.katiEnabled } func (c *config) BuildId() string { return String(c.productVariables.BuildId) } // BuildNumberFile returns the path to a text file containing metadata // representing the current build's number. // // Rules that want to reference the build number should read from this file // without depending on it. They will run whenever their other dependencies // require them to run and get the current build number. This ensures they don't // rebuild on every incremental build when the build number changes. func (c *config) BuildNumberFile(ctx PathContext) Path { return PathForOutput(ctx, String(c.productVariables.BuildNumberFile)) } // DeviceName returns the name of the current device target. // TODO: take an AndroidModuleContext to select the device name for multi-device builds func (c *config) DeviceName() string { return *c.productVariables.DeviceName } func (c *config) DeviceResourceOverlays() []string { return c.productVariables.DeviceResourceOverlays } func (c *config) ProductResourceOverlays() []string { return c.productVariables.ProductResourceOverlays } func (c *config) PlatformVersionName() string { return String(c.productVariables.Platform_version_name) } func (c *config) PlatformSdkVersion() ApiLevel { return uncheckedFinalApiLevel(*c.productVariables.Platform_sdk_version) } func (c *config) PlatformSdkCodename() string { return String(c.productVariables.Platform_sdk_codename) } func (c *config) PlatformSecurityPatch() string { return String(c.productVariables.Platform_security_patch) } func (c *config) PlatformPreviewSdkVersion() string { return String(c.productVariables.Platform_preview_sdk_version) } func (c *config) PlatformMinSupportedTargetSdkVersion() string { return String(c.productVariables.Platform_min_supported_target_sdk_version) } func (c *config) PlatformBaseOS() string { return String(c.productVariables.Platform_base_os) } func (c *config) MinSupportedSdkVersion() ApiLevel { return uncheckedFinalApiLevel(16) } func (c *config) FinalApiLevels() []ApiLevel { var levels []ApiLevel for i := 1; i <= c.PlatformSdkVersion().FinalOrFutureInt(); i++ { levels = append(levels, uncheckedFinalApiLevel(i)) } return levels } func (c *config) PreviewApiLevels() []ApiLevel { var levels []ApiLevel for i, codename := range c.PlatformVersionActiveCodenames() { levels = append(levels, ApiLevel{ value: codename, number: i, isPreview: true, }) } return levels } func (c *config) AllSupportedApiLevels() []ApiLevel { var levels []ApiLevel levels = append(levels, c.FinalApiLevels()...) return append(levels, c.PreviewApiLevels()...) } // DefaultAppTargetSdk returns the API level that platform apps are targeting. // This converts a codename to the exact ApiLevel it represents. func (c *config) DefaultAppTargetSdk(ctx EarlyModuleContext) ApiLevel { if Bool(c.productVariables.Platform_sdk_final) { return c.PlatformSdkVersion() } codename := c.PlatformSdkCodename() if codename == "" { return NoneApiLevel } if codename == "REL" { panic("Platform_sdk_codename should not be REL when Platform_sdk_final is true") } return ApiLevelOrPanic(ctx, codename) } func (c *config) AppsDefaultVersionName() string { return String(c.productVariables.AppsDefaultVersionName) } // Codenames that are active in the current lunch target. func (c *config) PlatformVersionActiveCodenames() []string { return c.productVariables.Platform_version_active_codenames } func (c *config) ProductAAPTConfig() []string { return c.productVariables.AAPTConfig } func (c *config) ProductAAPTPreferredConfig() string { return String(c.productVariables.AAPTPreferredConfig) } func (c *config) ProductAAPTCharacteristics() string { return String(c.productVariables.AAPTCharacteristics) } func (c *config) ProductAAPTPrebuiltDPI() []string { return c.productVariables.AAPTPrebuiltDPI } func (c *config) DefaultAppCertificateDir(ctx PathContext) SourcePath { defaultCert := String(c.productVariables.DefaultAppCertificate) if defaultCert != "" { return PathForSource(ctx, filepath.Dir(defaultCert)) } return PathForSource(ctx, "build/make/target/product/security") } func (c *config) DefaultAppCertificate(ctx PathContext) (pem, key SourcePath) { defaultCert := String(c.productVariables.DefaultAppCertificate) if defaultCert != "" { return PathForSource(ctx, defaultCert+".x509.pem"), PathForSource(ctx, defaultCert+".pk8") } defaultDir := c.DefaultAppCertificateDir(ctx) return defaultDir.Join(ctx, "testkey.x509.pem"), defaultDir.Join(ctx, "testkey.pk8") } func (c *config) ApexKeyDir(ctx ModuleContext) SourcePath { // TODO(b/121224311): define another variable such as TARGET_APEX_KEY_OVERRIDE defaultCert := String(c.productVariables.DefaultAppCertificate) if defaultCert == "" || filepath.Dir(defaultCert) == "build/make/target/product/security" { // When defaultCert is unset or is set to the testkeys path, use the APEX keys // that is under the module dir return pathForModuleSrc(ctx) } // If not, APEX keys are under the specified directory return PathForSource(ctx, filepath.Dir(defaultCert)) } // AllowMissingDependencies configures Blueprint/Soong to not fail when modules // are configured to depend on non-existent modules. Note that this does not // affect missing input dependencies at the Ninja level. func (c *config) AllowMissingDependencies() bool { return Bool(c.productVariables.Allow_missing_dependencies) } // Returns true if a full platform source tree cannot be assumed. func (c *config) UnbundledBuild() bool { return Bool(c.productVariables.Unbundled_build) } // Returns true if building apps that aren't bundled with the platform. // UnbundledBuild() is always true when this is true. func (c *config) UnbundledBuildApps() bool { return Bool(c.productVariables.Unbundled_build_apps) } // Returns true if building modules against prebuilt SDKs. func (c *config) AlwaysUsePrebuiltSdks() bool { return Bool(c.productVariables.Always_use_prebuilt_sdks) } // Returns true if the boot jars check should be skipped. func (c *config) SkipBootJarsCheck() bool { return Bool(c.productVariables.Skip_boot_jars_check) } func (c *config) Fuchsia() bool { return Bool(c.productVariables.Fuchsia) } func (c *config) MinimizeJavaDebugInfo() bool { return Bool(c.productVariables.MinimizeJavaDebugInfo) && !Bool(c.productVariables.Eng) } func (c *config) Debuggable() bool { return Bool(c.productVariables.Debuggable) } func (c *config) Eng() bool { return Bool(c.productVariables.Eng) } func (c *config) DevicePrimaryArchType() ArchType { return c.Targets[Android][0].Arch.ArchType } func (c *config) SanitizeHost() []string { return append([]string(nil), c.productVariables.SanitizeHost...) } func (c *config) SanitizeDevice() []string { return append([]string(nil), c.productVariables.SanitizeDevice...) } func (c *config) SanitizeDeviceDiag() []string { return append([]string(nil), c.productVariables.SanitizeDeviceDiag...) } func (c *config) SanitizeDeviceArch() []string { return append([]string(nil), c.productVariables.SanitizeDeviceArch...) } func (c *config) EnableCFI() bool { if c.productVariables.EnableCFI == nil { return true } return *c.productVariables.EnableCFI } func (c *config) DisableScudo() bool { return Bool(c.productVariables.DisableScudo) } func (c *config) Android64() bool { for _, t := range c.Targets[Android] { if t.Arch.ArchType.Multilib == "lib64" { return true } } return false } func (c *config) UseGoma() bool { return Bool(c.productVariables.UseGoma) } func (c *config) UseRBE() bool { return Bool(c.productVariables.UseRBE) } func (c *config) UseRBEJAVAC() bool { return Bool(c.productVariables.UseRBEJAVAC) } func (c *config) UseRBER8() bool { return Bool(c.productVariables.UseRBER8) } func (c *config) UseRBED8() bool { return Bool(c.productVariables.UseRBED8) } func (c *config) UseRemoteBuild() bool { return c.UseGoma() || c.UseRBE() } func (c *config) RunErrorProne() bool { return c.IsEnvTrue("RUN_ERROR_PRONE") } // XrefCorpusName returns the Kythe cross-reference corpus name. func (c *config) XrefCorpusName() string { return c.Getenv("XREF_CORPUS") } // XrefCuEncoding returns the compilation unit encoding to use for Kythe code // xrefs. Can be 'json' (default), 'proto' or 'all'. func (c *config) XrefCuEncoding() string { if enc := c.Getenv("KYTHE_KZIP_ENCODING"); enc != "" { return enc } return "json" } // XrefCuJavaSourceMax returns the maximum number of the Java source files // in a single compilation unit const xrefJavaSourceFileMaxDefault = "1000" func (c Config) XrefCuJavaSourceMax() string { v := c.Getenv("KYTHE_JAVA_SOURCE_BATCH_SIZE") if v == "" { return xrefJavaSourceFileMaxDefault } if _, err := strconv.ParseUint(v, 0, 0); err != nil { fmt.Fprintf(os.Stderr, "bad KYTHE_JAVA_SOURCE_BATCH_SIZE value: %s, will use %s", err, xrefJavaSourceFileMaxDefault) return xrefJavaSourceFileMaxDefault } return v } func (c *config) EmitXrefRules() bool { return c.XrefCorpusName() != "" } func (c *config) ClangTidy() bool { return Bool(c.productVariables.ClangTidy) } func (c *config) TidyChecks() string { if c.productVariables.TidyChecks == nil { return "" } return *c.productVariables.TidyChecks } func (c *config) LibartImgHostBaseAddress() string { return "0x60000000" } func (c *config) LibartImgDeviceBaseAddress() string { return "0x70000000" } func (c *config) ArtUseReadBarrier() bool { return Bool(c.productVariables.ArtUseReadBarrier) } // Enforce Runtime Resource Overlays for a module. RROs supersede static RROs, // but some modules still depend on it. // // More info: https://source.android.com/devices/architecture/rros func (c *config) EnforceRROForModule(name string) bool { enforceList := c.productVariables.EnforceRROTargets if len(enforceList) > 0 { if InList("*", enforceList) { return true } return InList(name, enforceList) } return false } func (c *config) EnforceRROExcludedOverlay(path string) bool { excluded := c.productVariables.EnforceRROExcludedOverlays if len(excluded) > 0 { return HasAnyPrefix(path, excluded) } return false } func (c *config) ExportedNamespaces() []string { return append([]string(nil), c.productVariables.NamespacesToExport...) } func (c *config) HostStaticBinaries() bool { return Bool(c.productVariables.HostStaticBinaries) } func (c *config) UncompressPrivAppDex() bool { return Bool(c.productVariables.UncompressPrivAppDex) } func (c *config) ModulesLoadedByPrivilegedModules() []string { return c.productVariables.ModulesLoadedByPrivilegedModules } // DexpreoptGlobalConfigPath returns the path to the dexpreopt.config file in // the output directory, if it was created during the product configuration // phase by Kati. func (c *config) DexpreoptGlobalConfigPath(ctx PathContext) OptionalPath { if c.productVariables.DexpreoptGlobalConfig == nil { return OptionalPathForPath(nil) } return OptionalPathForPath( pathForBuildToolDep(ctx, *c.productVariables.DexpreoptGlobalConfig)) } // DexpreoptGlobalConfig returns the raw byte contents of the dexpreopt global // configuration. Since the configuration file was created by Kati during // product configuration (externally of soong_build), it's not tracked, so we // also manually add a Ninja file dependency on the configuration file to the // rule that creates the main build.ninja file. This ensures that build.ninja is // regenerated correctly if dexpreopt.config changes. func (c *config) DexpreoptGlobalConfig(ctx PathContext) ([]byte, error) { path := c.DexpreoptGlobalConfigPath(ctx) if !path.Valid() { return nil, nil } ctx.AddNinjaFileDeps(path.String()) return ioutil.ReadFile(absolutePath(path.String())) } func (c *deviceConfig) WithDexpreopt() bool { return c.config.productVariables.WithDexpreopt } func (c *config) FrameworksBaseDirExists(ctx PathContext) bool { return ExistentPathForSource(ctx, "frameworks", "base", "Android.bp").Valid() } func (c *config) VndkSnapshotBuildArtifacts() bool { return Bool(c.productVariables.VndkSnapshotBuildArtifacts) } func (c *config) HasMultilibConflict(arch ArchType) bool { return c.multilibConflicts[arch] } func (c *config) PrebuiltHiddenApiDir(ctx PathContext) string { return String(c.productVariables.PrebuiltHiddenApiDir) } func (c *deviceConfig) Arches() []Arch { var arches []Arch for _, target := range c.config.Targets[Android] { arches = append(arches, target.Arch) } return arches } func (c *deviceConfig) BinderBitness() string { is32BitBinder := c.config.productVariables.Binder32bit if is32BitBinder != nil && *is32BitBinder { return "32" } return "64" } func (c *deviceConfig) VendorPath() string { if c.config.productVariables.VendorPath != nil { return *c.config.productVariables.VendorPath } return "vendor" } func (c *deviceConfig) VndkVersion() string { return String(c.config.productVariables.DeviceVndkVersion) } func (c *deviceConfig) RecoverySnapshotVersion() string { return String(c.config.productVariables.RecoverySnapshotVersion) } func (c *deviceConfig) CurrentApiLevelForVendorModules() string { return StringDefault(c.config.productVariables.DeviceCurrentApiLevelForVendorModules, "current") } func (c *deviceConfig) PlatformVndkVersion() string { return String(c.config.productVariables.Platform_vndk_version) } func (c *deviceConfig) ProductVndkVersion() string { return String(c.config.productVariables.ProductVndkVersion) } func (c *deviceConfig) ExtraVndkVersions() []string { return c.config.productVariables.ExtraVndkVersions } func (c *deviceConfig) VndkUseCoreVariant() bool { return Bool(c.config.productVariables.VndkUseCoreVariant) } func (c *deviceConfig) SystemSdkVersions() []string { return c.config.productVariables.DeviceSystemSdkVersions } func (c *deviceConfig) PlatformSystemSdkVersions() []string { return c.config.productVariables.Platform_systemsdk_versions } func (c *deviceConfig) OdmPath() string { if c.config.productVariables.OdmPath != nil { return *c.config.productVariables.OdmPath } return "odm" } func (c *deviceConfig) ProductPath() string { if c.config.productVariables.ProductPath != nil { return *c.config.productVariables.ProductPath } return "product" } func (c *deviceConfig) SystemExtPath() string { if c.config.productVariables.SystemExtPath != nil { return *c.config.productVariables.SystemExtPath } return "system_ext" } func (c *deviceConfig) BtConfigIncludeDir() string { return String(c.config.productVariables.BtConfigIncludeDir) } func (c *deviceConfig) DeviceKernelHeaderDirs() []string { return c.config.productVariables.DeviceKernelHeaders } func (c *deviceConfig) SamplingPGO() bool { return Bool(c.config.productVariables.SamplingPGO) } // JavaCoverageEnabledForPath returns whether Java code coverage is enabled for // path. Coverage is enabled by default when the product variable // JavaCoveragePaths is empty. If JavaCoveragePaths is not empty, coverage is // enabled for any path which is part of this variable (and not part of the // JavaCoverageExcludePaths product variable). Value "*" in JavaCoveragePaths // represents any path. func (c *deviceConfig) JavaCoverageEnabledForPath(path string) bool { coverage := false if len(c.config.productVariables.JavaCoveragePaths) == 0 || InList("*", c.config.productVariables.JavaCoveragePaths) || HasAnyPrefix(path, c.config.productVariables.JavaCoveragePaths) { coverage = true } if coverage && len(c.config.productVariables.JavaCoverageExcludePaths) > 0 { if HasAnyPrefix(path, c.config.productVariables.JavaCoverageExcludePaths) { coverage = false } } return coverage } // Returns true if gcov or clang coverage is enabled. func (c *deviceConfig) NativeCoverageEnabled() bool { return Bool(c.config.productVariables.GcovCoverage) || Bool(c.config.productVariables.ClangCoverage) } func (c *deviceConfig) ClangCoverageEnabled() bool { return Bool(c.config.productVariables.ClangCoverage) } func (c *deviceConfig) GcovCoverageEnabled() bool { return Bool(c.config.productVariables.GcovCoverage) } // NativeCoverageEnabledForPath returns whether (GCOV- or Clang-based) native // code coverage is enabled for path. By default, coverage is not enabled for a // given path unless it is part of the NativeCoveragePaths product variable (and // not part of the NativeCoverageExcludePaths product variable). Value "*" in // NativeCoveragePaths represents any path. func (c *deviceConfig) NativeCoverageEnabledForPath(path string) bool { coverage := false if len(c.config.productVariables.NativeCoveragePaths) > 0 { if InList("*", c.config.productVariables.NativeCoveragePaths) || HasAnyPrefix(path, c.config.productVariables.NativeCoveragePaths) { coverage = true } } if coverage && len(c.config.productVariables.NativeCoverageExcludePaths) > 0 { if HasAnyPrefix(path, c.config.productVariables.NativeCoverageExcludePaths) { coverage = false } } return coverage } func (c *deviceConfig) PgoAdditionalProfileDirs() []string { return c.config.productVariables.PgoAdditionalProfileDirs } func (c *deviceConfig) VendorSepolicyDirs() []string { return c.config.productVariables.BoardVendorSepolicyDirs } func (c *deviceConfig) OdmSepolicyDirs() []string { return c.config.productVariables.BoardOdmSepolicyDirs } func (c *deviceConfig) SystemExtPublicSepolicyDirs() []string { return c.config.productVariables.SystemExtPublicSepolicyDirs } func (c *deviceConfig) SystemExtPrivateSepolicyDirs() []string { return c.config.productVariables.SystemExtPrivateSepolicyDirs } func (c *deviceConfig) SepolicyM4Defs() []string { return c.config.productVariables.BoardSepolicyM4Defs } func (c *deviceConfig) OverrideManifestPackageNameFor(name string) (manifestName string, overridden bool) { return findOverrideValue(c.config.productVariables.ManifestPackageNameOverrides, name, "invalid override rule %q in PRODUCT_MANIFEST_PACKAGE_NAME_OVERRIDES should be :") } func (c *deviceConfig) OverrideCertificateFor(name string) (certificatePath string, overridden bool) { return findOverrideValue(c.config.productVariables.CertificateOverrides, name, "invalid override rule %q in PRODUCT_CERTIFICATE_OVERRIDES should be :") } func (c *deviceConfig) OverridePackageNameFor(name string) string { newName, overridden := findOverrideValue( c.config.productVariables.PackageNameOverrides, name, "invalid override rule %q in PRODUCT_PACKAGE_NAME_OVERRIDES should be :") if overridden { return newName } return name } func findOverrideValue(overrides []string, name string, errorMsg string) (newValue string, overridden bool) { if overrides == nil || len(overrides) == 0 { return "", false } for _, o := range overrides { split := strings.Split(o, ":") if len(split) != 2 { // This shouldn't happen as this is first checked in make, but just in case. panic(fmt.Errorf(errorMsg, o)) } if matchPattern(split[0], name) { return substPattern(split[0], split[1], name), true } } return "", false } func (c *config) IntegerOverflowDisabledForPath(path string) bool { if len(c.productVariables.IntegerOverflowExcludePaths) == 0 { return false } return HasAnyPrefix(path, c.productVariables.IntegerOverflowExcludePaths) } func (c *config) CFIDisabledForPath(path string) bool { if len(c.productVariables.CFIExcludePaths) == 0 { return false } return HasAnyPrefix(path, c.productVariables.CFIExcludePaths) } func (c *config) CFIEnabledForPath(path string) bool { if len(c.productVariables.CFIIncludePaths) == 0 { return false } return HasAnyPrefix(path, c.productVariables.CFIIncludePaths) && !c.CFIDisabledForPath(path) } func (c *config) MemtagHeapDisabledForPath(path string) bool { if len(c.productVariables.MemtagHeapExcludePaths) == 0 { return false } return HasAnyPrefix(path, c.productVariables.MemtagHeapExcludePaths) } func (c *config) MemtagHeapAsyncEnabledForPath(path string) bool { if len(c.productVariables.MemtagHeapAsyncIncludePaths) == 0 { return false } return HasAnyPrefix(path, c.productVariables.MemtagHeapAsyncIncludePaths) && !c.MemtagHeapDisabledForPath(path) } func (c *config) MemtagHeapSyncEnabledForPath(path string) bool { if len(c.productVariables.MemtagHeapSyncIncludePaths) == 0 { return false } return HasAnyPrefix(path, c.productVariables.MemtagHeapSyncIncludePaths) && !c.MemtagHeapDisabledForPath(path) } func (c *config) VendorConfig(name string) VendorConfig { return soongconfig.Config(c.productVariables.VendorVars[name]) } func (c *config) NdkAbis() bool { return Bool(c.productVariables.Ndk_abis) } func (c *config) AmlAbis() bool { return Bool(c.productVariables.Aml_abis) } func (c *config) FlattenApex() bool { return Bool(c.productVariables.Flatten_apex) } func (c *config) ForceApexSymlinkOptimization() bool { return Bool(c.productVariables.ForceApexSymlinkOptimization) } func (c *config) CompressedApex() bool { return Bool(c.productVariables.CompressedApex) } func (c *config) EnforceSystemCertificate() bool { return Bool(c.productVariables.EnforceSystemCertificate) } func (c *config) EnforceSystemCertificateAllowList() []string { return c.productVariables.EnforceSystemCertificateAllowList } func (c *config) EnforceProductPartitionInterface() bool { return Bool(c.productVariables.EnforceProductPartitionInterface) } func (c *config) EnforceInterPartitionJavaSdkLibrary() bool { return Bool(c.productVariables.EnforceInterPartitionJavaSdkLibrary) } func (c *config) InterPartitionJavaLibraryAllowList() []string { return c.productVariables.InterPartitionJavaLibraryAllowList } func (c *config) InstallExtraFlattenedApexes() bool { return Bool(c.productVariables.InstallExtraFlattenedApexes) } func (c *config) ProductHiddenAPIStubs() []string { return c.productVariables.ProductHiddenAPIStubs } func (c *config) ProductHiddenAPIStubsSystem() []string { return c.productVariables.ProductHiddenAPIStubsSystem } func (c *config) ProductHiddenAPIStubsTest() []string { return c.productVariables.ProductHiddenAPIStubsTest } func (c *deviceConfig) TargetFSConfigGen() []string { return c.config.productVariables.TargetFSConfigGen } func (c *config) ProductPublicSepolicyDirs() []string { return c.productVariables.ProductPublicSepolicyDirs } func (c *config) ProductPrivateSepolicyDirs() []string { return c.productVariables.ProductPrivateSepolicyDirs } func (c *config) MissingUsesLibraries() []string { return c.productVariables.MissingUsesLibraries } func (c *deviceConfig) DeviceArch() string { return String(c.config.productVariables.DeviceArch) } func (c *deviceConfig) DeviceArchVariant() string { return String(c.config.productVariables.DeviceArchVariant) } func (c *deviceConfig) DeviceSecondaryArch() string { return String(c.config.productVariables.DeviceSecondaryArch) } func (c *deviceConfig) DeviceSecondaryArchVariant() string { return String(c.config.productVariables.DeviceSecondaryArchVariant) } func (c *deviceConfig) BoardUsesRecoveryAsBoot() bool { return Bool(c.config.productVariables.BoardUsesRecoveryAsBoot) } func (c *deviceConfig) BoardKernelBinaries() []string { return c.config.productVariables.BoardKernelBinaries } func (c *deviceConfig) BoardKernelModuleInterfaceVersions() []string { return c.config.productVariables.BoardKernelModuleInterfaceVersions } func (c *deviceConfig) BoardMoveRecoveryResourcesToVendorBoot() bool { return Bool(c.config.productVariables.BoardMoveRecoveryResourcesToVendorBoot) } func (c *deviceConfig) PlatformSepolicyVersion() string { return String(c.config.productVariables.PlatformSepolicyVersion) } func (c *deviceConfig) BoardSepolicyVers() string { if ver := String(c.config.productVariables.BoardSepolicyVers); ver != "" { return ver } return c.PlatformSepolicyVersion() } func (c *deviceConfig) BoardReqdMaskPolicy() []string { return c.config.productVariables.BoardReqdMaskPolicy } func (c *deviceConfig) DirectedVendorSnapshot() bool { return c.config.productVariables.DirectedVendorSnapshot } func (c *deviceConfig) VendorSnapshotModules() map[string]bool { return c.config.productVariables.VendorSnapshotModules } func (c *deviceConfig) DirectedRecoverySnapshot() bool { return c.config.productVariables.DirectedRecoverySnapshot } func (c *deviceConfig) RecoverySnapshotModules() map[string]bool { return c.config.productVariables.RecoverySnapshotModules } func createDirsMap(previous map[string]bool, dirs []string) (map[string]bool, error) { var ret = make(map[string]bool) for _, dir := range dirs { clean := filepath.Clean(dir) if previous[clean] || ret[clean] { return nil, fmt.Errorf("Duplicate entry %s", dir) } ret[clean] = true } return ret, nil } func (c *deviceConfig) createDirsMapOnce(onceKey OnceKey, previous map[string]bool, dirs []string) map[string]bool { dirMap := c.Once(onceKey, func() interface{} { ret, err := createDirsMap(previous, dirs) if err != nil { panic(fmt.Errorf("%s: %w", onceKey.key, err)) } return ret }) if dirMap == nil { return nil } return dirMap.(map[string]bool) } var vendorSnapshotDirsExcludedKey = NewOnceKey("VendorSnapshotDirsExcludedMap") func (c *deviceConfig) VendorSnapshotDirsExcludedMap() map[string]bool { return c.createDirsMapOnce(vendorSnapshotDirsExcludedKey, nil, c.config.productVariables.VendorSnapshotDirsExcluded) } var vendorSnapshotDirsIncludedKey = NewOnceKey("VendorSnapshotDirsIncludedMap") func (c *deviceConfig) VendorSnapshotDirsIncludedMap() map[string]bool { excludedMap := c.VendorSnapshotDirsExcludedMap() return c.createDirsMapOnce(vendorSnapshotDirsIncludedKey, excludedMap, c.config.productVariables.VendorSnapshotDirsIncluded) } var recoverySnapshotDirsExcludedKey = NewOnceKey("RecoverySnapshotDirsExcludedMap") func (c *deviceConfig) RecoverySnapshotDirsExcludedMap() map[string]bool { return c.createDirsMapOnce(recoverySnapshotDirsExcludedKey, nil, c.config.productVariables.RecoverySnapshotDirsExcluded) } var recoverySnapshotDirsIncludedKey = NewOnceKey("RecoverySnapshotDirsIncludedMap") func (c *deviceConfig) RecoverySnapshotDirsIncludedMap() map[string]bool { excludedMap := c.RecoverySnapshotDirsExcludedMap() return c.createDirsMapOnce(recoverySnapshotDirsIncludedKey, excludedMap, c.config.productVariables.RecoverySnapshotDirsIncluded) } func (c *deviceConfig) ShippingApiLevel() ApiLevel { if c.config.productVariables.ShippingApiLevel == nil { return NoneApiLevel } apiLevel, _ := strconv.Atoi(*c.config.productVariables.ShippingApiLevel) return uncheckedFinalApiLevel(apiLevel) } func (c *deviceConfig) BuildBrokenEnforceSyspropOwner() bool { return c.config.productVariables.BuildBrokenEnforceSyspropOwner } func (c *deviceConfig) BuildBrokenTrebleSyspropNeverallow() bool { return c.config.productVariables.BuildBrokenTrebleSyspropNeverallow } func (c *deviceConfig) BuildDebugfsRestrictionsEnabled() bool { return c.config.productVariables.BuildDebugfsRestrictionsEnabled } func (c *deviceConfig) BuildBrokenVendorPropertyNamespace() bool { return c.config.productVariables.BuildBrokenVendorPropertyNamespace } func (c *deviceConfig) RequiresInsecureExecmemForSwiftshader() bool { return c.config.productVariables.RequiresInsecureExecmemForSwiftshader } func (c *config) SelinuxIgnoreNeverallows() bool { return c.productVariables.SelinuxIgnoreNeverallows } func (c *deviceConfig) SepolicySplit() bool { return c.config.productVariables.SepolicySplit } // The ConfiguredJarList struct provides methods for handling a list of (apex, jar) pairs. // Such lists are used in the build system for things like bootclasspath jars or system server jars. // The apex part is either an apex name, or a special names "platform" or "system_ext". Jar is a // module name. The pairs come from Make product variables as a list of colon-separated strings. // // Examples: // - "com.android.art:core-oj" // - "platform:framework" // - "system_ext:foo" // type ConfiguredJarList struct { // A list of apex components, which can be an apex name, // or special names like "platform" or "system_ext". apexes []string // A list of jar module name components. jars []string } // Len returns the length of the list of jars. func (l *ConfiguredJarList) Len() int { return len(l.jars) } // Jar returns the idx-th jar component of (apex, jar) pairs. func (l *ConfiguredJarList) Jar(idx int) string { return l.jars[idx] } // Apex returns the idx-th apex component of (apex, jar) pairs. func (l *ConfiguredJarList) Apex(idx int) string { return l.apexes[idx] } // ContainsJar returns true if the (apex, jar) pairs contains a pair with the // given jar module name. func (l *ConfiguredJarList) ContainsJar(jar string) bool { return InList(jar, l.jars) } // If the list contains the given (apex, jar) pair. func (l *ConfiguredJarList) containsApexJarPair(apex, jar string) bool { for i := 0; i < l.Len(); i++ { if apex == l.apexes[i] && jar == l.jars[i] { return true } } return false } // ApexOfJar returns the apex component of the first pair with the given jar name on the list, or // an empty string if not found. func (l *ConfiguredJarList) ApexOfJar(jar string) string { if idx := IndexList(jar, l.jars); idx != -1 { return l.Apex(IndexList(jar, l.jars)) } return "" } // IndexOfJar returns the first pair with the given jar name on the list, or -1 // if not found. func (l *ConfiguredJarList) IndexOfJar(jar string) int { return IndexList(jar, l.jars) } func copyAndAppend(list []string, item string) []string { // Create the result list to be 1 longer than the input. result := make([]string, len(list)+1) // Copy the whole input list into the result. count := copy(result, list) // Insert the extra item at the end. result[count] = item return result } // Append an (apex, jar) pair to the list. func (l *ConfiguredJarList) Append(apex string, jar string) ConfiguredJarList { // Create a copy of the backing arrays before appending to avoid sharing backing // arrays that are mutated across instances. apexes := copyAndAppend(l.apexes, apex) jars := copyAndAppend(l.jars, jar) return ConfiguredJarList{apexes, jars} } // RemoveList filters out a list of (apex, jar) pairs from the receiving list of pairs. func (l *ConfiguredJarList) RemoveList(list ConfiguredJarList) ConfiguredJarList { apexes := make([]string, 0, l.Len()) jars := make([]string, 0, l.Len()) for i, jar := range l.jars { apex := l.apexes[i] if !list.containsApexJarPair(apex, jar) { apexes = append(apexes, apex) jars = append(jars, jar) } } return ConfiguredJarList{apexes, jars} } // Filter keeps the entries if a jar appears in the given list of jars to keep; returns a new list. func (l *ConfiguredJarList) Filter(jarsToKeep []string) ConfiguredJarList { var apexes []string var jars []string for i, jar := range l.jars { if InList(jar, jarsToKeep) { apexes = append(apexes, l.apexes[i]) jars = append(jars, jar) } } return ConfiguredJarList{apexes, jars} } // CopyOfJars returns a copy of the list of strings containing jar module name // components. func (l *ConfiguredJarList) CopyOfJars() []string { return CopyOf(l.jars) } // CopyOfApexJarPairs returns a copy of the list of strings with colon-separated // (apex, jar) pairs. func (l *ConfiguredJarList) CopyOfApexJarPairs() []string { pairs := make([]string, 0, l.Len()) for i, jar := range l.jars { apex := l.apexes[i] pairs = append(pairs, apex+":"+jar) } return pairs } // BuildPaths returns a list of build paths based on the given directory prefix. func (l *ConfiguredJarList) BuildPaths(ctx PathContext, dir OutputPath) WritablePaths { paths := make(WritablePaths, l.Len()) for i, jar := range l.jars { paths[i] = dir.Join(ctx, ModuleStem(jar)+".jar") } return paths } // BuildPathsByModule returns a map from module name to build paths based on the given directory // prefix. func (l *ConfiguredJarList) BuildPathsByModule(ctx PathContext, dir OutputPath) map[string]WritablePath { paths := map[string]WritablePath{} for _, jar := range l.jars { paths[jar] = dir.Join(ctx, ModuleStem(jar)+".jar") } return paths } // UnmarshalJSON converts JSON configuration from raw bytes into a // ConfiguredJarList structure. func (l *ConfiguredJarList) UnmarshalJSON(b []byte) error { // Try and unmarshal into a []string each item of which contains a pair // :. var list []string err := json.Unmarshal(b, &list) if err != nil { // Did not work so return return err } apexes, jars, err := splitListOfPairsIntoPairOfLists(list) if err != nil { return err } l.apexes = apexes l.jars = jars return nil } func (l *ConfiguredJarList) MarshalJSON() ([]byte, error) { if len(l.apexes) != len(l.jars) { return nil, errors.New(fmt.Sprintf("Inconsistent ConfiguredJarList: apexes: %q, jars: %q", l.apexes, l.jars)) } list := make([]string, 0, len(l.apexes)) for i := 0; i < len(l.apexes); i++ { list = append(list, l.apexes[i]+":"+l.jars[i]) } return json.Marshal(list) } // ModuleStem hardcodes the stem of framework-minus-apex to return "framework". // // TODO(b/139391334): hard coded until we find a good way to query the stem of a // module before any other mutators are run. func ModuleStem(module string) string { if module == "framework-minus-apex" { return "framework" } return module } // DevicePaths computes the on-device paths for the list of (apex, jar) pairs, // based on the operating system. func (l *ConfiguredJarList) DevicePaths(cfg Config, ostype OsType) []string { paths := make([]string, l.Len()) for i, jar := range l.jars { apex := l.apexes[i] name := ModuleStem(jar) + ".jar" var subdir string if apex == "platform" { subdir = "system/framework" } else if apex == "system_ext" { subdir = "system_ext/framework" } else { subdir = filepath.Join("apex", apex, "javalib") } if ostype.Class == Host { paths[i] = filepath.Join(cfg.Getenv("OUT_DIR"), "host", cfg.PrebuiltOS(), subdir, name) } else { paths[i] = filepath.Join("/", subdir, name) } } return paths } func (l *ConfiguredJarList) String() string { var pairs []string for i := 0; i < l.Len(); i++ { pairs = append(pairs, l.apexes[i]+":"+l.jars[i]) } return strings.Join(pairs, ",") } func splitListOfPairsIntoPairOfLists(list []string) ([]string, []string, error) { // Now we need to populate this list by splitting each item in the slice of // pairs and appending them to the appropriate list of apexes or jars. apexes := make([]string, len(list)) jars := make([]string, len(list)) for i, apexjar := range list { apex, jar, err := splitConfiguredJarPair(apexjar) if err != nil { return nil, nil, err } apexes[i] = apex jars[i] = jar } return apexes, jars, nil } // Expected format for apexJarValue = : func splitConfiguredJarPair(str string) (string, string, error) { pair := strings.SplitN(str, ":", 2) if len(pair) == 2 { apex := pair[0] jar := pair[1] if apex == "" { return apex, jar, fmt.Errorf("invalid apex '%s' in : pair '%s', expected format: :", apex, str) } return apex, jar, nil } else { return "error-apex", "error-jar", fmt.Errorf("malformed (apex, jar) pair: '%s', expected format: :", str) } } // CreateTestConfiguredJarList is a function to create ConfiguredJarList for tests. func CreateTestConfiguredJarList(list []string) ConfiguredJarList { // Create the ConfiguredJarList in as similar way as it is created at runtime by marshalling to // a json list of strings and then unmarshalling into a ConfiguredJarList instance. b, err := json.Marshal(list) if err != nil { panic(err) } var jarList ConfiguredJarList err = json.Unmarshal(b, &jarList) if err != nil { panic(err) } return jarList } // EmptyConfiguredJarList returns an empty jar list. func EmptyConfiguredJarList() ConfiguredJarList { return ConfiguredJarList{} } var earlyBootJarsKey = NewOnceKey("earlyBootJars") func (c *config) BootJars() []string { return c.Once(earlyBootJarsKey, func() interface{} { list := c.productVariables.BootJars.CopyOfJars() return append(list, c.productVariables.UpdatableBootJars.CopyOfJars()...) }).([]string) } func (c *config) NonUpdatableBootJars() ConfiguredJarList { return c.productVariables.BootJars } func (c *config) UpdatableBootJars() ConfiguredJarList { return c.productVariables.UpdatableBootJars } func (c *config) RBEWrapper() string { return c.GetenvWithDefault("RBE_WRAPPER", remoteexec.DefaultWrapperPath) }