platform_build_soong/java/app.go

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// 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 java
// This file contains the module types for compiling Android apps.
import (
"path/filepath"
"reflect"
"sort"
"strconv"
"strings"
"github.com/google/blueprint"
"github.com/google/blueprint/proptools"
"android/soong/android"
"android/soong/cc"
"android/soong/dexpreopt"
"android/soong/tradefed"
)
var supportedDpis = []string{"ldpi", "mdpi", "hdpi", "xhdpi", "xxhdpi", "xxxhdpi"}
func init() {
RegisterAppBuildComponents(android.InitRegistrationContext)
initAndroidAppImportVariantGroupTypes()
}
func RegisterAppBuildComponents(ctx android.RegistrationContext) {
ctx.RegisterModuleType("android_app", AndroidAppFactory)
ctx.RegisterModuleType("android_test", AndroidTestFactory)
ctx.RegisterModuleType("android_test_helper_app", AndroidTestHelperAppFactory)
ctx.RegisterModuleType("android_app_certificate", AndroidAppCertificateFactory)
ctx.RegisterModuleType("override_android_app", OverrideAndroidAppModuleFactory)
ctx.RegisterModuleType("override_android_test", OverrideAndroidTestModuleFactory)
ctx.RegisterModuleType("override_runtime_resource_overlay", OverrideRuntimeResourceOverlayModuleFactory)
ctx.RegisterModuleType("android_app_import", AndroidAppImportFactory)
ctx.RegisterModuleType("android_test_import", AndroidTestImportFactory)
ctx.RegisterModuleType("runtime_resource_overlay", RuntimeResourceOverlayFactory)
ctx.RegisterModuleType("android_app_set", AndroidApkSetFactory)
}
type AndroidAppSetProperties struct {
// APK Set path
Set *string
// Specifies that this app should be installed to the priv-app directory,
// where the system will grant it additional privileges not available to
// normal apps.
Privileged *bool
// APKs in this set use prerelease SDK version
Prerelease *bool
// Names of modules to be overridden. Listed modules can only be other apps
// (in Make or Soong).
Overrides []string
}
type AndroidAppSet struct {
android.ModuleBase
android.DefaultableModuleBase
prebuilt android.Prebuilt
properties AndroidAppSetProperties
packedOutput android.WritablePath
installFile string
apkcertsFile android.ModuleOutPath
}
func (as *AndroidAppSet) Name() string {
return as.prebuilt.Name(as.ModuleBase.Name())
}
func (as *AndroidAppSet) IsInstallable() bool {
return true
}
func (as *AndroidAppSet) Prebuilt() *android.Prebuilt {
return &as.prebuilt
}
func (as *AndroidAppSet) Privileged() bool {
return Bool(as.properties.Privileged)
}
func (as *AndroidAppSet) OutputFile() android.Path {
return as.packedOutput
}
func (as *AndroidAppSet) InstallFile() string {
return as.installFile
}
func (as *AndroidAppSet) APKCertsFile() android.Path {
return as.apkcertsFile
}
var TargetCpuAbi = map[string]string{
"arm": "ARMEABI_V7A",
"arm64": "ARM64_V8A",
"x86": "X86",
"x86_64": "X86_64",
}
func SupportedAbis(ctx android.ModuleContext) []string {
abiName := func(targetIdx int, deviceArch string) string {
if abi, found := TargetCpuAbi[deviceArch]; found {
return abi
}
ctx.ModuleErrorf("Target %d has invalid Arch: %s", targetIdx, deviceArch)
return "BAD_ABI"
}
var result []string
for i, target := range ctx.Config().Targets[android.Android] {
result = append(result, abiName(i, target.Arch.ArchType.String()))
}
return result
}
func (as *AndroidAppSet) GenerateAndroidBuildActions(ctx android.ModuleContext) {
as.packedOutput = android.PathForModuleOut(ctx, ctx.ModuleName()+".zip")
as.apkcertsFile = android.PathForModuleOut(ctx, "apkcerts.txt")
// We are assuming here that the install file in the APK
// set has `.apk` suffix. If it doesn't the build will fail.
// APK sets containing APEX files are handled elsewhere.
as.installFile = as.BaseModuleName() + ".apk"
screenDensities := "all"
if dpis := ctx.Config().ProductAAPTPrebuiltDPI(); len(dpis) > 0 {
screenDensities = strings.ToUpper(strings.Join(dpis, ","))
}
// TODO(asmundak): handle locales.
// TODO(asmundak): do we support device features
ctx.Build(pctx,
android.BuildParams{
Rule: extractMatchingApks,
Description: "Extract APKs from APK set",
Output: as.packedOutput,
ImplicitOutput: as.apkcertsFile,
Inputs: android.Paths{as.prebuilt.SingleSourcePath(ctx)},
Args: map[string]string{
"abis": strings.Join(SupportedAbis(ctx), ","),
"allow-prereleased": strconv.FormatBool(proptools.Bool(as.properties.Prerelease)),
"screen-densities": screenDensities,
"sdk-version": ctx.Config().PlatformSdkVersion().String(),
"stem": as.BaseModuleName(),
"apkcerts": as.apkcertsFile.String(),
"partition": as.PartitionTag(ctx.DeviceConfig()),
},
})
}
// android_app_set extracts a set of APKs based on the target device
// configuration and installs this set as "split APKs".
// The extracted set always contains an APK whose name is
// _module_name_.apk and every split APK matching target device.
// The extraction of the density-specific splits depends on
// PRODUCT_AAPT_PREBUILT_DPI variable. If present (its value should
// be a list density names: LDPI, MDPI, HDPI, etc.), only listed
// splits will be extracted. Otherwise all density-specific splits
// will be extracted.
func AndroidApkSetFactory() android.Module {
module := &AndroidAppSet{}
module.AddProperties(&module.properties)
InitJavaModule(module, android.DeviceSupported)
android.InitSingleSourcePrebuiltModule(module, &module.properties, "Set")
return module
}
// AndroidManifest.xml merging
// package splits
type appProperties struct {
// Names of extra android_app_certificate modules to sign the apk with in the form ":module".
Additional_certificates []string
// If set, create package-export.apk, which other packages can
// use to get PRODUCT-agnostic resource data like IDs and type definitions.
Export_package_resources *bool
// Specifies that this app should be installed to the priv-app directory,
// where the system will grant it additional privileges not available to
// normal apps.
Privileged *bool
// list of resource labels to generate individual resource packages
Package_splits []string
// Names of modules to be overridden. Listed modules can only be other binaries
// (in Make or Soong).
// This does not completely prevent installation of the overridden binaries, but if both
// binaries would be installed by default (in PRODUCT_PACKAGES) the other binary will be removed
// from PRODUCT_PACKAGES.
Overrides []string
// list of native libraries that will be provided in or alongside the resulting jar
Jni_libs []string `android:"arch_variant"`
// if true, use JNI libraries that link against platform APIs even if this module sets
// sdk_version.
Jni_uses_platform_apis *bool
// if true, use JNI libraries that link against SDK APIs even if this module does not set
// sdk_version.
Jni_uses_sdk_apis *bool
// STL library to use for JNI libraries.
Stl *string `android:"arch_variant"`
// Store native libraries uncompressed in the APK and set the android:extractNativeLibs="false" manifest
// flag so that they are used from inside the APK at runtime. Defaults to true for android_test modules unless
// sdk_version or min_sdk_version is set to a version that doesn't support it (<23), defaults to true for
// android_app modules that are embedded to APEXes, defaults to false for other module types where the native
// libraries are generally preinstalled outside the APK.
Use_embedded_native_libs *bool
// Store dex files uncompressed in the APK and set the android:useEmbeddedDex="true" manifest attribute so that
// they are used from inside the APK at runtime.
Use_embedded_dex *bool
// Forces native libraries to always be packaged into the APK,
// Use_embedded_native_libs still selects whether they are stored uncompressed and aligned or compressed.
// True for android_test* modules.
AlwaysPackageNativeLibs bool `blueprint:"mutated"`
// If set, find and merge all NOTICE files that this module and its dependencies have and store
// it in the APK as an asset.
Embed_notices *bool
// cc.Coverage related properties
PreventInstall bool `blueprint:"mutated"`
HideFromMake bool `blueprint:"mutated"`
IsCoverageVariant bool `blueprint:"mutated"`
// Whether this app is considered mainline updatable or not. When set to true, this will enforce
// additional rules to make sure an app can safely be updated. Default is false.
// Prefer using other specific properties if build behaviour must be changed; avoid using this
// flag for anything but neverallow rules (unless the behaviour change is invisible to owners).
Updatable *bool
}
// android_app properties that can be overridden by override_android_app
type overridableAppProperties struct {
// The name of a certificate in the default certificate directory, blank to use the default product certificate,
// or an android_app_certificate module name in the form ":module".
Certificate *string
// Name of the signing certificate lineage file.
Lineage *string
// the package name of this app. The package name in the manifest file is used if one was not given.
Package_name *string
// the logging parent of this app.
Logging_parent *string
// Whether to rename the package in resources to the override name rather than the base name. Defaults to true.
Rename_resources_package *bool
}
// runtime_resource_overlay properties that can be overridden by override_runtime_resource_overlay
type OverridableRuntimeResourceOverlayProperties struct {
// the package name of this app. The package name in the manifest file is used if one was not given.
Package_name *string
// the target package name of this overlay app. The target package name in the manifest file is used if one was not given.
Target_package_name *string
}
type AndroidApp struct {
Library
aapt
android.OverridableModuleBase
certificate Certificate
appProperties appProperties
overridableAppProperties overridableAppProperties
jniLibs []jniLib
installPathForJNISymbols android.Path
embeddedJniLibs bool
jniCoverageOutputs android.Paths
bundleFile android.Path
// the install APK name is normally the same as the module name, but can be overridden with PRODUCT_PACKAGE_NAME_OVERRIDES.
installApkName string
installDir android.InstallPath
onDeviceDir string
additionalAaptFlags []string
noticeOutputs android.NoticeOutputs
overriddenManifestPackageName string
android.ApexBundleDepsInfo
}
func (a *AndroidApp) IsInstallable() bool {
return Bool(a.properties.Installable)
}
func (a *AndroidApp) ExportedProguardFlagFiles() android.Paths {
return nil
}
func (a *AndroidApp) ExportedStaticPackages() android.Paths {
return nil
}
func (a *AndroidApp) OutputFile() android.Path {
return a.outputFile
}
func (a *AndroidApp) Certificate() Certificate {
return a.certificate
}
func (a *AndroidApp) JniCoverageOutputs() android.Paths {
return a.jniCoverageOutputs
}
var _ AndroidLibraryDependency = (*AndroidApp)(nil)
type Certificate struct {
Pem, Key android.Path
presigned bool
}
var PresignedCertificate = Certificate{presigned: true}
func (c Certificate) AndroidMkString() string {
if c.presigned {
return "PRESIGNED"
} else {
return c.Pem.String()
}
}
func (a *AndroidApp) DepsMutator(ctx android.BottomUpMutatorContext) {
a.Module.deps(ctx)
if String(a.appProperties.Stl) == "c++_shared" && !a.sdkVersion().specified() {
ctx.PropertyErrorf("stl", "sdk_version must be set in order to use c++_shared")
}
Make sdkDep/decodeSdkDep the source of truth about the sdk Previously, different parts of the build used different sources of information about the SDK (i.e. the default libraries) against which a Java module aimed at the device was built. Some used the sdk_version property, others used the no_standard_libs or no_framework_libs, some used a combination of all three. That lead to inconsistent handling in the code, e.g. some parts treated no_standard_libs: true as implying no_framework_libs: true and others did not, and also in the build files, e.g. some modules specified no_framework_libs: true and sdk_version: "system_current" which makes no sense, or no_standard_libs: true and sdk_version: "core_current" which are inconsistent. This is the first step in a refactoring to simplify the sdk selection process by replacing the no_standard_libs/no_framework_libs properties with some extra options for the sdk_version property. This change consists of: 1) Extra functions sdkContext to access the no_standard_libs and no_framework_libs properties. 2) Extra field/functions in sdkDep to store and access the value of no_standard_libs/no_framework_libs. 3) Changes to decodeSdkDep(...) to pass the values of the no_... properties through to the returned sdkDep. 4) Change all code that accesses the no_... properties directly to call decodeSdkDep(...) to get an sdkDep object and then accessing the values of the no_... properties from there. The accessor functions on sdkDep are called has...() rather than no...() as most callers of the methods invert the value anyway and !no...() is harder to reason about than has...(). The hasFrameworkLibs() function returns true if and only if no_standard_libs and no_framework_libs are false. That is consistent with all but one usage of the no_framework_libs property and that is not affected by it. Bug: 134566750 Test: m droid Change-Id: I196e3304e8bd802fb154e897397b0dd337f868e2 Exempt-From-Owner-Approval: Colin has already given +2 modulo some minor nits and this blocking other changes.
2019-06-07 17:44:37 +08:00
sdkDep := decodeSdkDep(ctx, sdkContext(a))
if sdkDep.hasFrameworkLibs() {
a.aapt.deps(ctx, sdkDep)
}
usesSDK := a.sdkVersion().specified() && a.sdkVersion().kind != sdkCorePlatform
if usesSDK && Bool(a.appProperties.Jni_uses_sdk_apis) {
ctx.PropertyErrorf("jni_uses_sdk_apis",
"can only be set for modules that do not set sdk_version")
} else if !usesSDK && Bool(a.appProperties.Jni_uses_platform_apis) {
ctx.PropertyErrorf("jni_uses_platform_apis",
"can only be set for modules that set sdk_version")
}
for _, jniTarget := range ctx.MultiTargets() {
variation := append(jniTarget.Variations(),
blueprint.Variation{Mutator: "link", Variation: "shared"})
// If the app builds against an Android SDK use the SDK variant of JNI dependencies
// unless jni_uses_platform_apis is set.
// Don't require the SDK variant for apps that are shipped on vendor, etc., as they already
// have stable APIs through the VNDK.
if (usesSDK && !a.RequiresStableAPIs(ctx) &&
!Bool(a.appProperties.Jni_uses_platform_apis)) ||
Bool(a.appProperties.Jni_uses_sdk_apis) {
variation = append(variation, blueprint.Variation{Mutator: "sdk", Variation: "sdk"})
}
ctx.AddFarVariationDependencies(variation, jniLibTag, a.appProperties.Jni_libs...)
}
Make sdkDep/decodeSdkDep the source of truth about the sdk Previously, different parts of the build used different sources of information about the SDK (i.e. the default libraries) against which a Java module aimed at the device was built. Some used the sdk_version property, others used the no_standard_libs or no_framework_libs, some used a combination of all three. That lead to inconsistent handling in the code, e.g. some parts treated no_standard_libs: true as implying no_framework_libs: true and others did not, and also in the build files, e.g. some modules specified no_framework_libs: true and sdk_version: "system_current" which makes no sense, or no_standard_libs: true and sdk_version: "core_current" which are inconsistent. This is the first step in a refactoring to simplify the sdk selection process by replacing the no_standard_libs/no_framework_libs properties with some extra options for the sdk_version property. This change consists of: 1) Extra functions sdkContext to access the no_standard_libs and no_framework_libs properties. 2) Extra field/functions in sdkDep to store and access the value of no_standard_libs/no_framework_libs. 3) Changes to decodeSdkDep(...) to pass the values of the no_... properties through to the returned sdkDep. 4) Change all code that accesses the no_... properties directly to call decodeSdkDep(...) to get an sdkDep object and then accessing the values of the no_... properties from there. The accessor functions on sdkDep are called has...() rather than no...() as most callers of the methods invert the value anyway and !no...() is harder to reason about than has...(). The hasFrameworkLibs() function returns true if and only if no_standard_libs and no_framework_libs are false. That is consistent with all but one usage of the no_framework_libs property and that is not affected by it. Bug: 134566750 Test: m droid Change-Id: I196e3304e8bd802fb154e897397b0dd337f868e2 Exempt-From-Owner-Approval: Colin has already given +2 modulo some minor nits and this blocking other changes.
2019-06-07 17:44:37 +08:00
a.usesLibrary.deps(ctx, sdkDep.hasFrameworkLibs())
}
func (a *AndroidApp) OverridablePropertiesDepsMutator(ctx android.BottomUpMutatorContext) {
cert := android.SrcIsModule(a.getCertString(ctx))
if cert != "" {
ctx.AddDependency(ctx.Module(), certificateTag, cert)
}
for _, cert := range a.appProperties.Additional_certificates {
cert = android.SrcIsModule(cert)
if cert != "" {
ctx.AddDependency(ctx.Module(), certificateTag, cert)
} else {
ctx.PropertyErrorf("additional_certificates",
`must be names of android_app_certificate modules in the form ":module"`)
}
}
}
func (a *AndroidTestHelperApp) GenerateAndroidBuildActions(ctx android.ModuleContext) {
a.generateAndroidBuildActions(ctx)
}
func (a *AndroidApp) GenerateAndroidBuildActions(ctx android.ModuleContext) {
a.checkAppSdkVersions(ctx)
a.generateAndroidBuildActions(ctx)
}
func (a *AndroidApp) checkAppSdkVersions(ctx android.ModuleContext) {
if a.Updatable() {
if !a.sdkVersion().stable() {
ctx.PropertyErrorf("sdk_version", "Updatable apps must use stable SDKs, found %v", a.sdkVersion())
}
if String(a.deviceProperties.Min_sdk_version) == "" {
ctx.PropertyErrorf("updatable", "updatable apps must set min_sdk_version.")
}
if minSdkVersion, err := a.minSdkVersion().effectiveVersion(ctx); err == nil {
a.checkJniLibsSdkVersion(ctx, minSdkVersion)
android.CheckMinSdkVersion(a, ctx, minSdkVersion.ApiLevel(ctx))
} else {
ctx.PropertyErrorf("min_sdk_version", "%s", err.Error())
}
}
a.checkPlatformAPI(ctx)
a.checkSdkVersions(ctx)
}
// If an updatable APK sets min_sdk_version, min_sdk_vesion of JNI libs should match with it.
// This check is enforced for "updatable" APKs (including APK-in-APEX).
// b/155209650: until min_sdk_version is properly supported, use sdk_version instead.
// because, sdk_version is overridden by min_sdk_version (if set as smaller)
// and linkType is checked with dependencies so we can be sure that the whole dependency tree
// will meet the requirements.
func (a *AndroidApp) checkJniLibsSdkVersion(ctx android.ModuleContext, minSdkVersion sdkVersion) {
// It's enough to check direct JNI deps' sdk_version because all transitive deps from JNI deps are checked in cc.checkLinkType()
ctx.VisitDirectDeps(func(m android.Module) {
if !IsJniDepTag(ctx.OtherModuleDependencyTag(m)) {
return
}
dep, _ := m.(*cc.Module)
// The domain of cc.sdk_version is "current" and <number>
// We can rely on sdkSpec to convert it to <number> so that "current" is handled
// properly regardless of sdk finalization.
jniSdkVersion, err := sdkSpecFrom(dep.SdkVersion()).effectiveVersion(ctx)
if err != nil || minSdkVersion < jniSdkVersion {
ctx.OtherModuleErrorf(dep, "sdk_version(%v) is higher than min_sdk_version(%v) of the containing android_app(%v)",
dep.SdkVersion(), minSdkVersion, ctx.ModuleName())
return
}
})
}
// Returns true if the native libraries should be stored in the APK uncompressed and the
// extractNativeLibs application flag should be set to false in the manifest.
func (a *AndroidApp) useEmbeddedNativeLibs(ctx android.ModuleContext) bool {
minSdkVersion, err := a.minSdkVersion().effectiveVersion(ctx)
if err != nil {
ctx.PropertyErrorf("min_sdk_version", "invalid value %q: %s", a.minSdkVersion(), err)
}
apexInfo := ctx.Provider(android.ApexInfoProvider).(android.ApexInfo)
return (minSdkVersion >= 23 && Bool(a.appProperties.Use_embedded_native_libs)) ||
!apexInfo.IsForPlatform()
}
// Returns whether this module should have the dex file stored uncompressed in the APK.
func (a *AndroidApp) shouldUncompressDex(ctx android.ModuleContext) bool {
if Bool(a.appProperties.Use_embedded_dex) {
return true
}
// Uncompress dex in APKs of privileged apps (even for unbundled builds, they may
// be preinstalled as prebuilts).
if ctx.Config().UncompressPrivAppDex() && a.Privileged() {
return true
}
if ctx.Config().UnbundledBuild() {
return false
}
return shouldUncompressDex(ctx, &a.dexpreopter)
}
func (a *AndroidApp) shouldEmbedJnis(ctx android.BaseModuleContext) bool {
apexInfo := ctx.Provider(android.ApexInfoProvider).(android.ApexInfo)
return ctx.Config().UnbundledBuild() || Bool(a.appProperties.Use_embedded_native_libs) ||
!apexInfo.IsForPlatform() || a.appProperties.AlwaysPackageNativeLibs
}
func generateAaptRenamePackageFlags(packageName string, renameResourcesPackage bool) []string {
aaptFlags := []string{"--rename-manifest-package " + packageName}
if renameResourcesPackage {
// Required to rename the package name in the resources table.
aaptFlags = append(aaptFlags, "--rename-resources-package "+packageName)
}
return aaptFlags
}
func (a *AndroidApp) OverriddenManifestPackageName() string {
return a.overriddenManifestPackageName
}
func (a *AndroidApp) renameResourcesPackage() bool {
return proptools.BoolDefault(a.overridableAppProperties.Rename_resources_package, true)
}
func (a *AndroidApp) aaptBuildActions(ctx android.ModuleContext) {
a.aapt.usesNonSdkApis = Bool(a.Module.deviceProperties.Platform_apis)
// Ask manifest_fixer to add or update the application element indicating this app has no code.
a.aapt.hasNoCode = !a.hasCode(ctx)
aaptLinkFlags := []string{}
// Add TARGET_AAPT_CHARACTERISTICS values to AAPT link flags if they exist and --product flags were not provided.
hasProduct := android.PrefixInList(a.aaptProperties.Aaptflags, "--product")
if !hasProduct && len(ctx.Config().ProductAAPTCharacteristics()) > 0 {
aaptLinkFlags = append(aaptLinkFlags, "--product", ctx.Config().ProductAAPTCharacteristics())
}
if !Bool(a.aaptProperties.Aapt_include_all_resources) {
// Product AAPT config
for _, aaptConfig := range ctx.Config().ProductAAPTConfig() {
aaptLinkFlags = append(aaptLinkFlags, "-c", aaptConfig)
}
// Product AAPT preferred config
if len(ctx.Config().ProductAAPTPreferredConfig()) > 0 {
aaptLinkFlags = append(aaptLinkFlags, "--preferred-density", ctx.Config().ProductAAPTPreferredConfig())
}
}
manifestPackageName, overridden := ctx.DeviceConfig().OverrideManifestPackageNameFor(ctx.ModuleName())
if overridden || a.overridableAppProperties.Package_name != nil {
// The product override variable has a priority over the package_name property.
if !overridden {
manifestPackageName = *a.overridableAppProperties.Package_name
}
aaptLinkFlags = append(aaptLinkFlags, generateAaptRenamePackageFlags(manifestPackageName, a.renameResourcesPackage())...)
a.overriddenManifestPackageName = manifestPackageName
}
aaptLinkFlags = append(aaptLinkFlags, a.additionalAaptFlags...)
a.aapt.splitNames = a.appProperties.Package_splits
a.aapt.LoggingParent = String(a.overridableAppProperties.Logging_parent)
a.aapt.buildActions(ctx, sdkContext(a), a.classLoaderContexts, aaptLinkFlags...)
// apps manifests are handled by aapt, don't let Module see them
a.properties.Manifest = nil
}
func (a *AndroidApp) proguardBuildActions(ctx android.ModuleContext) {
var staticLibProguardFlagFiles android.Paths
ctx.VisitDirectDeps(func(m android.Module) {
if lib, ok := m.(AndroidLibraryDependency); ok && ctx.OtherModuleDependencyTag(m) == staticLibTag {
staticLibProguardFlagFiles = append(staticLibProguardFlagFiles, lib.ExportedProguardFlagFiles()...)
}
})
staticLibProguardFlagFiles = android.FirstUniquePaths(staticLibProguardFlagFiles)
a.Module.extraProguardFlagFiles = append(a.Module.extraProguardFlagFiles, staticLibProguardFlagFiles...)
a.Module.extraProguardFlagFiles = append(a.Module.extraProguardFlagFiles, a.proguardOptionsFile)
}
func (a *AndroidApp) installPath(ctx android.ModuleContext) android.InstallPath {
var installDir string
if ctx.ModuleName() == "framework-res" {
// framework-res.apk is installed as system/framework/framework-res.apk
installDir = "framework"
} else if a.Privileged() {
installDir = filepath.Join("priv-app", a.installApkName)
} else {
installDir = filepath.Join("app", a.installApkName)
}
return android.PathForModuleInstall(ctx, installDir, a.installApkName+".apk")
}
Add nested class loader subcontext at the proper hierarchy level. When adding a subcontext in a class loader context tree, there are two possible cases: 1) the root of the subcontext is itself a <uses-library> and should be present as a node in the tree, or 2) the root is not a <uses-library>, but some of its dependencies are -- in that case they should be disconnected from the root, and the resulting forrest should be added at the top-level. Example: 1) C is a <uses-library>: A ├── B └── C ├── D └── E └── F 2) C is not a <uses-library>: A ├── B ├── D └── E └── F Before the patch subcontexts for transitive dependencies were added before the subcontext for the direct dependency (even if it was a <uses-library>, resulting in case-2 hierarchy when case-1 should have been used. Previosuly this didn't matter because class loader context was a flat set of libraries, but now it matters because class loader context is a tree. This patch changes the order in which libraries are added, so that direct dependencies are added before transitive ones. The context adding method now accepts an "implicit root" parameter, so that when adding transitive dependencies it can check if the corresponding direct dependency is a <uses-library> and already present in the context. Partially constructed class loader context is now propagated top-down into aapt.buildActions, so that the method can use existing part of the context to decide where the missing part should be connected. Test: lunch aosp_cf_x86_phone-userdebug && m Bug: 132357300 Change-Id: I649aff9e27494306885a4f4fc90226c399636b57
2020-11-03 23:55:11 +08:00
func (a *AndroidApp) dexBuildActions(ctx android.ModuleContext) android.Path {
a.dexpreopter.installPath = a.installPath(ctx)
if a.dexProperties.Uncompress_dex == nil {
// If the value was not force-set by the user, use reasonable default based on the module.
a.dexProperties.Uncompress_dex = proptools.BoolPtr(a.shouldUncompressDex(ctx))
}
a.dexpreopter.uncompressedDex = *a.dexProperties.Uncompress_dex
a.dexpreopter.enforceUsesLibs = a.usesLibrary.enforceUsesLibraries()
a.dexpreopter.classLoaderContexts = a.classLoaderContexts
a.dexpreopter.manifestFile = a.mergedManifestFile
if ctx.ModuleName() != "framework-res" {
a.Module.compile(ctx, a.aaptSrcJar)
}
return a.maybeStrippedDexJarFile
}
func (a *AndroidApp) jniBuildActions(jniLibs []jniLib, ctx android.ModuleContext) android.WritablePath {
var jniJarFile android.WritablePath
if len(jniLibs) > 0 {
a.jniLibs = jniLibs
if a.shouldEmbedJnis(ctx) {
jniJarFile = android.PathForModuleOut(ctx, "jnilibs.zip")
a.installPathForJNISymbols = a.installPath(ctx).ToMakePath()
TransformJniLibsToJar(ctx, jniJarFile, jniLibs, a.useEmbeddedNativeLibs(ctx))
for _, jni := range jniLibs {
if jni.coverageFile.Valid() {
// Only collect coverage for the first target arch if this is a multilib target.
// TODO(jungjw): Ideally, we want to collect both reports, but that would cause coverage
// data file path collisions since the current coverage file path format doesn't contain
// arch-related strings. This is fine for now though; the code coverage team doesn't use
// multi-arch targets such as test_suite_* for coverage collections yet.
//
// Work with the team to come up with a new format that handles multilib modules properly
// and change this.
if len(ctx.Config().Targets[android.Android]) == 1 ||
ctx.Config().AndroidFirstDeviceTarget.Arch.ArchType == jni.target.Arch.ArchType {
a.jniCoverageOutputs = append(a.jniCoverageOutputs, jni.coverageFile.Path())
}
}
}
a.embeddedJniLibs = true
}
}
return jniJarFile
}
func (a *AndroidApp) JNISymbolsInstalls(installPath string) android.RuleBuilderInstalls {
var jniSymbols android.RuleBuilderInstalls
for _, jniLib := range a.jniLibs {
if jniLib.unstrippedFile != nil {
jniSymbols = append(jniSymbols, android.RuleBuilderInstall{
From: jniLib.unstrippedFile,
To: filepath.Join(installPath, targetToJniDir(jniLib.target), jniLib.unstrippedFile.Base()),
})
}
}
return jniSymbols
}
func (a *AndroidApp) noticeBuildActions(ctx android.ModuleContext) {
// Collect NOTICE files from all dependencies.
seenModules := make(map[android.Module]bool)
noticePathSet := make(map[android.Path]bool)
ctx.WalkDeps(func(child android.Module, parent android.Module) bool {
// Have we already seen this?
if _, ok := seenModules[child]; ok {
return false
}
seenModules[child] = true
// Skip host modules.
if child.Target().Os.Class == android.Host {
return false
}
paths := child.(android.Module).NoticeFiles()
if len(paths) > 0 {
for _, path := range paths {
noticePathSet[path] = true
}
}
return true
})
// If the app has one, add it too.
if len(a.NoticeFiles()) > 0 {
for _, path := range a.NoticeFiles() {
noticePathSet[path] = true
}
}
if len(noticePathSet) == 0 {
return
}
var noticePaths []android.Path
for path := range noticePathSet {
noticePaths = append(noticePaths, path)
}
sort.Slice(noticePaths, func(i, j int) bool {
return noticePaths[i].String() < noticePaths[j].String()
})
a.noticeOutputs = android.BuildNoticeOutput(ctx, a.installDir, a.installApkName+".apk", noticePaths)
}
// Reads and prepends a main cert from the default cert dir if it hasn't been set already, i.e. it
// isn't a cert module reference. Also checks and enforces system cert restriction if applicable.
func processMainCert(m android.ModuleBase, certPropValue string, certificates []Certificate, ctx android.ModuleContext) []Certificate {
if android.SrcIsModule(certPropValue) == "" {
var mainCert Certificate
if certPropValue != "" {
defaultDir := ctx.Config().DefaultAppCertificateDir(ctx)
mainCert = Certificate{
Pem: defaultDir.Join(ctx, certPropValue+".x509.pem"),
Key: defaultDir.Join(ctx, certPropValue+".pk8"),
}
} else {
pem, key := ctx.Config().DefaultAppCertificate(ctx)
mainCert = Certificate{
Pem: pem,
Key: key,
}
}
certificates = append([]Certificate{mainCert}, certificates...)
}
if !m.Platform() {
certPath := certificates[0].Pem.String()
systemCertPath := ctx.Config().DefaultAppCertificateDir(ctx).String()
if strings.HasPrefix(certPath, systemCertPath) {
enforceSystemCert := ctx.Config().EnforceSystemCertificate()
allowed := ctx.Config().EnforceSystemCertificateAllowList()
if enforceSystemCert && !inList(m.Name(), allowed) {
ctx.PropertyErrorf("certificate", "The module in product partition cannot be signed with certificate in system.")
}
}
}
return certificates
}
func (a *AndroidApp) InstallApkName() string {
return a.installApkName
}
func (a *AndroidApp) generateAndroidBuildActions(ctx android.ModuleContext) {
var apkDeps android.Paths
if !ctx.Provider(android.ApexInfoProvider).(android.ApexInfo).IsForPlatform() {
a.hideApexVariantFromMake = true
}
a.aapt.useEmbeddedNativeLibs = a.useEmbeddedNativeLibs(ctx)
a.aapt.useEmbeddedDex = Bool(a.appProperties.Use_embedded_dex)
// Check if the install APK name needs to be overridden.
a.installApkName = ctx.DeviceConfig().OverridePackageNameFor(a.Name())
if ctx.ModuleName() == "framework-res" {
// framework-res.apk is installed as system/framework/framework-res.apk
a.installDir = android.PathForModuleInstall(ctx, "framework")
} else if a.Privileged() {
a.installDir = android.PathForModuleInstall(ctx, "priv-app", a.installApkName)
} else if ctx.InstallInTestcases() {
a.installDir = android.PathForModuleInstall(ctx, a.installApkName, ctx.DeviceConfig().DeviceArch())
} else {
a.installDir = android.PathForModuleInstall(ctx, "app", a.installApkName)
}
a.onDeviceDir = android.InstallPathToOnDevicePath(ctx, a.installDir)
a.noticeBuildActions(ctx)
if Bool(a.appProperties.Embed_notices) || ctx.Config().IsEnvTrue("ALWAYS_EMBED_NOTICES") {
a.aapt.noticeFile = a.noticeOutputs.HtmlGzOutput
}
a.classLoaderContexts = a.usesLibrary.classLoaderContextForUsesLibDeps(ctx)
Add nested class loader subcontext at the proper hierarchy level. When adding a subcontext in a class loader context tree, there are two possible cases: 1) the root of the subcontext is itself a <uses-library> and should be present as a node in the tree, or 2) the root is not a <uses-library>, but some of its dependencies are -- in that case they should be disconnected from the root, and the resulting forrest should be added at the top-level. Example: 1) C is a <uses-library>: A ├── B └── C ├── D └── E └── F 2) C is not a <uses-library>: A ├── B ├── D └── E └── F Before the patch subcontexts for transitive dependencies were added before the subcontext for the direct dependency (even if it was a <uses-library>, resulting in case-2 hierarchy when case-1 should have been used. Previosuly this didn't matter because class loader context was a flat set of libraries, but now it matters because class loader context is a tree. This patch changes the order in which libraries are added, so that direct dependencies are added before transitive ones. The context adding method now accepts an "implicit root" parameter, so that when adding transitive dependencies it can check if the corresponding direct dependency is a <uses-library> and already present in the context. Partially constructed class loader context is now propagated top-down into aapt.buildActions, so that the method can use existing part of the context to decide where the missing part should be connected. Test: lunch aosp_cf_x86_phone-userdebug && m Bug: 132357300 Change-Id: I649aff9e27494306885a4f4fc90226c399636b57
2020-11-03 23:55:11 +08:00
// Process all building blocks, from AAPT to certificates.
a.aaptBuildActions(ctx)
// The decision to enforce <uses-library> checks is made before adding implicit SDK libraries.
a.usesLibrary.freezeEnforceUsesLibraries()
// Add implicit SDK libraries to <uses-library> list.
for _, usesLib := range a.classLoaderContexts.UsesLibs() {
a.usesLibrary.addLib(usesLib, inList(usesLib, dexpreopt.OptionalCompatUsesLibs))
}
// Check that the <uses-library> list is coherent with the manifest.
if a.usesLibrary.enforceUsesLibraries() {
manifestCheckFile := a.usesLibrary.verifyUsesLibrariesManifest(ctx, a.mergedManifestFile)
apkDeps = append(apkDeps, manifestCheckFile)
}
a.proguardBuildActions(ctx)
a.linter.mergedManifest = a.aapt.mergedManifestFile
a.linter.manifest = a.aapt.manifestPath
a.linter.resources = a.aapt.resourceFiles
a.linter.buildModuleReportZip = ctx.Config().UnbundledBuildApps()
Add nested class loader subcontext at the proper hierarchy level. When adding a subcontext in a class loader context tree, there are two possible cases: 1) the root of the subcontext is itself a <uses-library> and should be present as a node in the tree, or 2) the root is not a <uses-library>, but some of its dependencies are -- in that case they should be disconnected from the root, and the resulting forrest should be added at the top-level. Example: 1) C is a <uses-library>: A ├── B └── C ├── D └── E └── F 2) C is not a <uses-library>: A ├── B ├── D └── E └── F Before the patch subcontexts for transitive dependencies were added before the subcontext for the direct dependency (even if it was a <uses-library>, resulting in case-2 hierarchy when case-1 should have been used. Previosuly this didn't matter because class loader context was a flat set of libraries, but now it matters because class loader context is a tree. This patch changes the order in which libraries are added, so that direct dependencies are added before transitive ones. The context adding method now accepts an "implicit root" parameter, so that when adding transitive dependencies it can check if the corresponding direct dependency is a <uses-library> and already present in the context. Partially constructed class loader context is now propagated top-down into aapt.buildActions, so that the method can use existing part of the context to decide where the missing part should be connected. Test: lunch aosp_cf_x86_phone-userdebug && m Bug: 132357300 Change-Id: I649aff9e27494306885a4f4fc90226c399636b57
2020-11-03 23:55:11 +08:00
dexJarFile := a.dexBuildActions(ctx)
jniLibs, certificateDeps := collectAppDeps(ctx, a, a.shouldEmbedJnis(ctx), !Bool(a.appProperties.Jni_uses_platform_apis))
jniJarFile := a.jniBuildActions(jniLibs, ctx)
if ctx.Failed() {
return
}
certificates := processMainCert(a.ModuleBase, a.getCertString(ctx), certificateDeps, ctx)
a.certificate = certificates[0]
// Build a final signed app package.
packageFile := android.PathForModuleOut(ctx, a.installApkName+".apk")
v4SigningRequested := Bool(a.Module.deviceProperties.V4_signature)
var v4SignatureFile android.WritablePath = nil
if v4SigningRequested {
v4SignatureFile = android.PathForModuleOut(ctx, a.installApkName+".apk.idsig")
}
var lineageFile android.Path
if lineage := String(a.overridableAppProperties.Lineage); lineage != "" {
lineageFile = android.PathForModuleSrc(ctx, lineage)
}
CreateAndSignAppPackage(ctx, packageFile, a.exportPackage, jniJarFile, dexJarFile, certificates, apkDeps, v4SignatureFile, lineageFile)
a.outputFile = packageFile
if v4SigningRequested {
a.extraOutputFiles = append(a.extraOutputFiles, v4SignatureFile)
}
for _, split := range a.aapt.splits {
// Sign the split APKs
packageFile := android.PathForModuleOut(ctx, a.installApkName+"_"+split.suffix+".apk")
if v4SigningRequested {
v4SignatureFile = android.PathForModuleOut(ctx, a.installApkName+"_"+split.suffix+".apk.idsig")
}
CreateAndSignAppPackage(ctx, packageFile, split.path, nil, nil, certificates, apkDeps, v4SignatureFile, lineageFile)
a.extraOutputFiles = append(a.extraOutputFiles, packageFile)
if v4SigningRequested {
a.extraOutputFiles = append(a.extraOutputFiles, v4SignatureFile)
}
}
// Build an app bundle.
bundleFile := android.PathForModuleOut(ctx, "base.zip")
BuildBundleModule(ctx, bundleFile, a.exportPackage, jniJarFile, dexJarFile)
a.bundleFile = bundleFile
apexInfo := ctx.Provider(android.ApexInfoProvider).(android.ApexInfo)
// Install the app package.
if (Bool(a.Module.properties.Installable) || ctx.Host()) && apexInfo.IsForPlatform() {
ctx.InstallFile(a.installDir, a.outputFile.Base(), a.outputFile)
for _, extra := range a.extraOutputFiles {
ctx.InstallFile(a.installDir, extra.Base(), extra)
}
}
a.buildAppDependencyInfo(ctx)
}
type appDepsInterface interface {
sdkVersion() sdkSpec
minSdkVersion() sdkSpec
RequiresStableAPIs(ctx android.BaseModuleContext) bool
}
func collectAppDeps(ctx android.ModuleContext, app appDepsInterface,
shouldCollectRecursiveNativeDeps bool,
checkNativeSdkVersion bool) ([]jniLib, []Certificate) {
var jniLibs []jniLib
var certificates []Certificate
seenModulePaths := make(map[string]bool)
if checkNativeSdkVersion {
checkNativeSdkVersion = app.sdkVersion().specified() &&
app.sdkVersion().kind != sdkCorePlatform && !app.RequiresStableAPIs(ctx)
}
ctx.WalkDeps(func(module android.Module, parent android.Module) bool {
otherName := ctx.OtherModuleName(module)
tag := ctx.OtherModuleDependencyTag(module)
if IsJniDepTag(tag) || cc.IsSharedDepTag(tag) {
if dep, ok := module.(*cc.Module); ok {
if dep.IsNdk(ctx.Config()) || dep.IsStubs() {
return false
}
lib := dep.OutputFile()
path := lib.Path()
if seenModulePaths[path.String()] {
return false
}
seenModulePaths[path.String()] = true
if checkNativeSdkVersion && dep.SdkVersion() == "" {
ctx.PropertyErrorf("jni_libs", "JNI dependency %q uses platform APIs, but this module does not",
otherName)
}
if lib.Valid() {
jniLibs = append(jniLibs, jniLib{
name: ctx.OtherModuleName(module),
path: path,
target: module.Target(),
coverageFile: dep.CoverageOutputFile(),
unstrippedFile: dep.UnstrippedOutputFile(),
})
} else {
ctx.ModuleErrorf("dependency %q missing output file", otherName)
}
} else {
ctx.ModuleErrorf("jni_libs dependency %q must be a cc library", otherName)
}
return shouldCollectRecursiveNativeDeps
}
if tag == certificateTag {
if dep, ok := module.(*AndroidAppCertificate); ok {
certificates = append(certificates, dep.Certificate)
} else {
ctx.ModuleErrorf("certificate dependency %q must be an android_app_certificate module", otherName)
}
}
return false
})
return jniLibs, certificates
}
func (a *AndroidApp) WalkPayloadDeps(ctx android.ModuleContext, do android.PayloadDepsCallback) {
ctx.WalkDeps(func(child, parent android.Module) bool {
isExternal := !a.DepIsInSameApex(ctx, child)
if am, ok := child.(android.ApexModule); ok {
if !do(ctx, parent, am, isExternal) {
return false
}
}
return !isExternal
})
}
func (a *AndroidApp) buildAppDependencyInfo(ctx android.ModuleContext) {
if ctx.Host() {
return
}
depsInfo := android.DepNameToDepInfoMap{}
a.WalkPayloadDeps(ctx, func(ctx android.ModuleContext, from blueprint.Module, to android.ApexModule, externalDep bool) bool {
depName := to.Name()
if info, exist := depsInfo[depName]; exist {
info.From = append(info.From, from.Name())
info.IsExternal = info.IsExternal && externalDep
depsInfo[depName] = info
} else {
toMinSdkVersion := "(no version)"
if m, ok := to.(interface{ MinSdkVersion() string }); ok {
if v := m.MinSdkVersion(); v != "" {
toMinSdkVersion = v
}
}
depsInfo[depName] = android.ApexModuleDepInfo{
To: depName,
From: []string{from.Name()},
IsExternal: externalDep,
MinSdkVersion: toMinSdkVersion,
}
}
return true
})
a.ApexBundleDepsInfo.BuildDepsInfoLists(ctx, a.MinSdkVersion(), depsInfo)
}
func (a *AndroidApp) Updatable() bool {
return Bool(a.appProperties.Updatable)
}
func (a *AndroidApp) getCertString(ctx android.BaseModuleContext) string {
certificate, overridden := ctx.DeviceConfig().OverrideCertificateFor(ctx.ModuleName())
if overridden {
return ":" + certificate
}
return String(a.overridableAppProperties.Certificate)
}
apex_available tracks static dependencies This change fixes a bug that apex_available is not enforced for static dependencies. For example, a module with 'apex_available: ["//apex_available:platform"]' was able to be statically linked to any APEX. This was happening because the check was done on the modules that are actually installed to an APEX. Static dependencies of the modules were not counted as they are not installed to the APEX as files. Fixing this bug by doing the check by traversing the tree in the method checkApexAvailability. This change includes a few number of related changes: 1) DepIsInSameApex implementation for cc.Module was changed as well. Previuosly, it returned false only when the dependency is actually a stub variant of a lib. Now, it returns false when the dependency has one or more stub variants. To understand why, we need to recall that when there is a dependency to a lib having stubs, we actually create two dependencies: to the non-stub variant and to the stub variant during the DepsMutator phase. And later in the build action generation phase, we choose one of them depending on the context. Also recall that an APEX variant is created only when DepIsInSameApex returns true. Given these, with the previous implementatin of DepIsInSameApex, we did create apex variants of the non-stub variant of the dependency, while not creating the apex variant for the stub variant. This is not right; we needlessly created the apex variant. The extra apex variant has caused no harm so far, but since the apex_available check became more correct, it actually breaks the build. To fix the issue, we stop creating the APEX variant both for non-stub and stub variants. 2) platform variant is created regardless of the apex_available value. This is required for the case when a library X that provides stub is in an APEX A and is configured to be available only for A. In that case, libs in other APEX can't use the stub library since the stub library is mutated only for apex A. By creating the platform variant for the stub library, it can be used from outside as the default dependency variation is set to the platform variant when creating the APEX variations. 3) The ApexAvailableWhitelist is added with the dependencies that were revealed with this change. Exempt-From-Owner-Approval: cherry-pick from internal Bug: 147671264 Test: m Merged-In: Iaedc05494085ff4e8af227a6392bdd0c338b8e6e (cherry picked from commit fa89944c79f19552e906b41fd03a4981903eee7e) Change-Id: Iaedc05494085ff4e8af227a6392bdd0c338b8e6e
2020-01-31 01:49:53 +08:00
func (a *AndroidApp) DepIsInSameApex(ctx android.BaseModuleContext, dep android.Module) bool {
if IsJniDepTag(ctx.OtherModuleDependencyTag(dep)) {
return true
}
return a.Library.DepIsInSameApex(ctx, dep)
}
// For OutputFileProducer interface
func (a *AndroidApp) OutputFiles(tag string) (android.Paths, error) {
switch tag {
case ".aapt.srcjar":
return []android.Path{a.aaptSrcJar}, nil
case ".export-package.apk":
return []android.Path{a.exportPackage}, nil
}
return a.Library.OutputFiles(tag)
}
func (a *AndroidApp) Privileged() bool {
return Bool(a.appProperties.Privileged)
}
func (a *AndroidApp) IsNativeCoverageNeeded(ctx android.BaseModuleContext) bool {
return ctx.Device() && ctx.DeviceConfig().NativeCoverageEnabled()
}
func (a *AndroidApp) PreventInstall() {
a.appProperties.PreventInstall = true
}
func (a *AndroidApp) HideFromMake() {
a.appProperties.HideFromMake = true
}
func (a *AndroidApp) MarkAsCoverageVariant(coverage bool) {
a.appProperties.IsCoverageVariant = coverage
}
func (a *AndroidApp) EnableCoverageIfNeeded() {}
var _ cc.Coverage = (*AndroidApp)(nil)
// android_app compiles sources and Android resources into an Android application package `.apk` file.
func AndroidAppFactory() android.Module {
module := &AndroidApp{}
module.Module.dexProperties.Optimize.EnabledByDefault = true
module.Module.dexProperties.Optimize.Shrink = proptools.BoolPtr(true)
module.Module.properties.Instrument = true
module.Module.properties.Installable = proptools.BoolPtr(true)
module.addHostAndDeviceProperties()
module.AddProperties(
&module.aaptProperties,
&module.appProperties,
&module.overridableAppProperties)
android.InitAndroidMultiTargetsArchModule(module, android.DeviceSupported, android.MultilibCommon)
android.InitDefaultableModule(module)
android.InitOverridableModule(module, &module.appProperties.Overrides)
android.InitApexModule(module)
return module
}
type appTestProperties struct {
// The name of the android_app module that the tests will run against.
Instrumentation_for *string
// if specified, the instrumentation target package name in the manifest is overwritten by it.
Instrumentation_target_package *string
}
type AndroidTest struct {
AndroidApp
appTestProperties appTestProperties
testProperties testProperties
testConfig android.Path
extraTestConfigs android.Paths
data android.Paths
}
func (a *AndroidTest) InstallInTestcases() bool {
return true
}
func (a *AndroidTest) GenerateAndroidBuildActions(ctx android.ModuleContext) {
var configs []tradefed.Config
if a.appTestProperties.Instrumentation_target_package != nil {
a.additionalAaptFlags = append(a.additionalAaptFlags,
"--rename-instrumentation-target-package "+*a.appTestProperties.Instrumentation_target_package)
} else if a.appTestProperties.Instrumentation_for != nil {
// Check if the instrumentation target package is overridden.
manifestPackageName, overridden := ctx.DeviceConfig().OverrideManifestPackageNameFor(*a.appTestProperties.Instrumentation_for)
if overridden {
a.additionalAaptFlags = append(a.additionalAaptFlags, "--rename-instrumentation-target-package "+manifestPackageName)
}
}
a.generateAndroidBuildActions(ctx)
for _, module := range a.testProperties.Test_mainline_modules {
configs = append(configs, tradefed.Option{Name: "config-descriptor:metadata", Key: "mainline-param", Value: module})
}
testConfig := tradefed.AutoGenInstrumentationTestConfig(ctx, a.testProperties.Test_config,
a.testProperties.Test_config_template, a.manifestPath, a.testProperties.Test_suites, a.testProperties.Auto_gen_config, configs)
a.testConfig = a.FixTestConfig(ctx, testConfig)
a.extraTestConfigs = android.PathsForModuleSrc(ctx, a.testProperties.Test_options.Extra_test_configs)
a.data = android.PathsForModuleSrc(ctx, a.testProperties.Data)
}
func (a *AndroidTest) FixTestConfig(ctx android.ModuleContext, testConfig android.Path) android.Path {
if testConfig == nil {
return nil
}
fixedConfig := android.PathForModuleOut(ctx, "test_config_fixer", "AndroidTest.xml")
rule := android.NewRuleBuilder(pctx, ctx)
command := rule.Command().BuiltTool("test_config_fixer").Input(testConfig).Output(fixedConfig)
fixNeeded := false
if ctx.ModuleName() != a.installApkName {
fixNeeded = true
command.FlagWithArg("--test-file-name ", a.installApkName+".apk")
}
if a.overridableAppProperties.Package_name != nil {
fixNeeded = true
command.FlagWithInput("--manifest ", a.manifestPath).
FlagWithArg("--package-name ", *a.overridableAppProperties.Package_name)
}
if fixNeeded {
rule.Build("fix_test_config", "fix test config")
return fixedConfig
}
return testConfig
}
func (a *AndroidTest) DepsMutator(ctx android.BottomUpMutatorContext) {
a.AndroidApp.DepsMutator(ctx)
}
func (a *AndroidTest) OverridablePropertiesDepsMutator(ctx android.BottomUpMutatorContext) {
a.AndroidApp.OverridablePropertiesDepsMutator(ctx)
if a.appTestProperties.Instrumentation_for != nil {
// The android_app dependency listed in instrumentation_for needs to be added to the classpath for javac,
// but not added to the aapt2 link includes like a normal android_app or android_library dependency, so
// use instrumentationForTag instead of libTag.
ctx.AddVariationDependencies(nil, instrumentationForTag, String(a.appTestProperties.Instrumentation_for))
}
}
// android_test compiles test sources and Android resources into an Android application package `.apk` file and
// creates an `AndroidTest.xml` file to allow running the test with `atest` or a `TEST_MAPPING` file.
func AndroidTestFactory() android.Module {
module := &AndroidTest{}
module.Module.dexProperties.Optimize.EnabledByDefault = true
module.Module.properties.Instrument = true
module.Module.properties.Installable = proptools.BoolPtr(true)
module.appProperties.Use_embedded_native_libs = proptools.BoolPtr(true)
module.appProperties.AlwaysPackageNativeLibs = true
module.Module.dexpreopter.isTest = true
module.Module.linter.test = true
module.addHostAndDeviceProperties()
module.AddProperties(
&module.aaptProperties,
&module.appProperties,
&module.appTestProperties,
&module.overridableAppProperties,
&module.testProperties)
android.InitAndroidMultiTargetsArchModule(module, android.DeviceSupported, android.MultilibCommon)
android.InitDefaultableModule(module)
android.InitOverridableModule(module, &module.appProperties.Overrides)
return module
}
type appTestHelperAppProperties struct {
// list of compatibility suites (for example "cts", "vts") that the module should be
// installed into.
Test_suites []string `android:"arch_variant"`
// Flag to indicate whether or not to create test config automatically. If AndroidTest.xml
// doesn't exist next to the Android.bp, this attribute doesn't need to be set to true
// explicitly.
Auto_gen_config *bool
}
type AndroidTestHelperApp struct {
AndroidApp
appTestHelperAppProperties appTestHelperAppProperties
}
func (a *AndroidTestHelperApp) InstallInTestcases() bool {
return true
}
// android_test_helper_app compiles sources and Android resources into an Android application package `.apk` file that
// will be used by tests, but does not produce an `AndroidTest.xml` file so the module will not be run directly as a
// test.
func AndroidTestHelperAppFactory() android.Module {
module := &AndroidTestHelperApp{}
module.Module.dexProperties.Optimize.EnabledByDefault = true
module.Module.properties.Installable = proptools.BoolPtr(true)
module.appProperties.Use_embedded_native_libs = proptools.BoolPtr(true)
module.appProperties.AlwaysPackageNativeLibs = true
module.Module.dexpreopter.isTest = true
module.Module.linter.test = true
module.addHostAndDeviceProperties()
module.AddProperties(
&module.aaptProperties,
&module.appProperties,
&module.appTestHelperAppProperties,
&module.overridableAppProperties)
android.InitAndroidMultiTargetsArchModule(module, android.DeviceSupported, android.MultilibCommon)
android.InitDefaultableModule(module)
android.InitApexModule(module)
return module
}
type AndroidAppCertificate struct {
android.ModuleBase
properties AndroidAppCertificateProperties
Certificate Certificate
}
type AndroidAppCertificateProperties struct {
// Name of the certificate files. Extensions .x509.pem and .pk8 will be added to the name.
Certificate *string
}
// android_app_certificate modules can be referenced by the certificates property of android_app modules to select
// the signing key.
func AndroidAppCertificateFactory() android.Module {
module := &AndroidAppCertificate{}
module.AddProperties(&module.properties)
android.InitAndroidModule(module)
return module
}
func (c *AndroidAppCertificate) GenerateAndroidBuildActions(ctx android.ModuleContext) {
cert := String(c.properties.Certificate)
c.Certificate = Certificate{
Pem: android.PathForModuleSrc(ctx, cert+".x509.pem"),
Key: android.PathForModuleSrc(ctx, cert+".pk8"),
}
}
type OverrideAndroidApp struct {
android.ModuleBase
android.OverrideModuleBase
}
func (i *OverrideAndroidApp) GenerateAndroidBuildActions(_ android.ModuleContext) {
// All the overrides happen in the base module.
// TODO(jungjw): Check the base module type.
}
// override_android_app is used to create an android_app module based on another android_app by overriding
// some of its properties.
func OverrideAndroidAppModuleFactory() android.Module {
m := &OverrideAndroidApp{}
m.AddProperties(&overridableAppProperties{})
android.InitAndroidMultiTargetsArchModule(m, android.DeviceSupported, android.MultilibCommon)
android.InitOverrideModule(m)
return m
}
type OverrideAndroidTest struct {
android.ModuleBase
android.OverrideModuleBase
}
func (i *OverrideAndroidTest) GenerateAndroidBuildActions(_ android.ModuleContext) {
// All the overrides happen in the base module.
// TODO(jungjw): Check the base module type.
}
// override_android_test is used to create an android_app module based on another android_test by overriding
// some of its properties.
func OverrideAndroidTestModuleFactory() android.Module {
m := &OverrideAndroidTest{}
m.AddProperties(&overridableAppProperties{})
m.AddProperties(&appTestProperties{})
android.InitAndroidMultiTargetsArchModule(m, android.DeviceSupported, android.MultilibCommon)
android.InitOverrideModule(m)
return m
}
type OverrideRuntimeResourceOverlay struct {
android.ModuleBase
android.OverrideModuleBase
}
func (i *OverrideRuntimeResourceOverlay) GenerateAndroidBuildActions(_ android.ModuleContext) {
// All the overrides happen in the base module.
// TODO(jungjw): Check the base module type.
}
// override_runtime_resource_overlay is used to create a module based on another
// runtime_resource_overlay module by overriding some of its properties.
func OverrideRuntimeResourceOverlayModuleFactory() android.Module {
m := &OverrideRuntimeResourceOverlay{}
m.AddProperties(&OverridableRuntimeResourceOverlayProperties{})
android.InitAndroidMultiTargetsArchModule(m, android.DeviceSupported, android.MultilibCommon)
android.InitOverrideModule(m)
return m
}
type AndroidAppImport struct {
android.ModuleBase
android.DefaultableModuleBase
android.ApexModuleBase
prebuilt android.Prebuilt
properties AndroidAppImportProperties
dpiVariants interface{}
archVariants interface{}
outputFile android.Path
certificate Certificate
dexpreopter
usesLibrary usesLibrary
preprocessed bool
installPath android.InstallPath
hideApexVariantFromMake bool
}
type AndroidAppImportProperties struct {
// A prebuilt apk to import
Apk *string
// The name of a certificate in the default certificate directory or an android_app_certificate
// module name in the form ":module". Should be empty if presigned or default_dev_cert is set.
Certificate *string
// Set this flag to true if the prebuilt apk is already signed. The certificate property must not
// be set for presigned modules.
Presigned *bool
// Name of the signing certificate lineage file.
Lineage *string
// Sign with the default system dev certificate. Must be used judiciously. Most imported apps
// need to either specify a specific certificate or be presigned.
Default_dev_cert *bool
// Specifies that this app should be installed to the priv-app directory,
// where the system will grant it additional privileges not available to
// normal apps.
Privileged *bool
// Names of modules to be overridden. Listed modules can only be other binaries
// (in Make or Soong).
// This does not completely prevent installation of the overridden binaries, but if both
// binaries would be installed by default (in PRODUCT_PACKAGES) the other binary will be removed
// from PRODUCT_PACKAGES.
Overrides []string
// Optional name for the installed app. If unspecified, it is derived from the module name.
Filename *string
}
func (a *AndroidAppImport) IsInstallable() bool {
return true
}
// Updates properties with variant-specific values.
func (a *AndroidAppImport) processVariants(ctx android.LoadHookContext) {
config := ctx.Config()
dpiProps := reflect.ValueOf(a.dpiVariants).Elem().FieldByName("Dpi_variants")
// Try DPI variant matches in the reverse-priority order so that the highest priority match
// overwrites everything else.
// TODO(jungjw): Can we optimize this by making it priority order?
for i := len(config.ProductAAPTPrebuiltDPI()) - 1; i >= 0; i-- {
MergePropertiesFromVariant(ctx, &a.properties, dpiProps, config.ProductAAPTPrebuiltDPI()[i])
}
if config.ProductAAPTPreferredConfig() != "" {
MergePropertiesFromVariant(ctx, &a.properties, dpiProps, config.ProductAAPTPreferredConfig())
}
archProps := reflect.ValueOf(a.archVariants).Elem().FieldByName("Arch")
archType := ctx.Config().AndroidFirstDeviceTarget.Arch.ArchType
MergePropertiesFromVariant(ctx, &a.properties, archProps, archType.Name)
}
func MergePropertiesFromVariant(ctx android.EarlyModuleContext,
dst interface{}, variantGroup reflect.Value, variant string) {
src := variantGroup.FieldByName(proptools.FieldNameForProperty(variant))
if !src.IsValid() {
return
}
err := proptools.ExtendMatchingProperties([]interface{}{dst}, src.Interface(), nil, proptools.OrderAppend)
if err != nil {
if propertyErr, ok := err.(*proptools.ExtendPropertyError); ok {
ctx.PropertyErrorf(propertyErr.Property, "%s", propertyErr.Err.Error())
} else {
panic(err)
}
}
}
func (a *AndroidAppImport) DepsMutator(ctx android.BottomUpMutatorContext) {
cert := android.SrcIsModule(String(a.properties.Certificate))
if cert != "" {
ctx.AddDependency(ctx.Module(), certificateTag, cert)
}
Make sdkDep/decodeSdkDep the source of truth about the sdk Previously, different parts of the build used different sources of information about the SDK (i.e. the default libraries) against which a Java module aimed at the device was built. Some used the sdk_version property, others used the no_standard_libs or no_framework_libs, some used a combination of all three. That lead to inconsistent handling in the code, e.g. some parts treated no_standard_libs: true as implying no_framework_libs: true and others did not, and also in the build files, e.g. some modules specified no_framework_libs: true and sdk_version: "system_current" which makes no sense, or no_standard_libs: true and sdk_version: "core_current" which are inconsistent. This is the first step in a refactoring to simplify the sdk selection process by replacing the no_standard_libs/no_framework_libs properties with some extra options for the sdk_version property. This change consists of: 1) Extra functions sdkContext to access the no_standard_libs and no_framework_libs properties. 2) Extra field/functions in sdkDep to store and access the value of no_standard_libs/no_framework_libs. 3) Changes to decodeSdkDep(...) to pass the values of the no_... properties through to the returned sdkDep. 4) Change all code that accesses the no_... properties directly to call decodeSdkDep(...) to get an sdkDep object and then accessing the values of the no_... properties from there. The accessor functions on sdkDep are called has...() rather than no...() as most callers of the methods invert the value anyway and !no...() is harder to reason about than has...(). The hasFrameworkLibs() function returns true if and only if no_standard_libs and no_framework_libs are false. That is consistent with all but one usage of the no_framework_libs property and that is not affected by it. Bug: 134566750 Test: m droid Change-Id: I196e3304e8bd802fb154e897397b0dd337f868e2 Exempt-From-Owner-Approval: Colin has already given +2 modulo some minor nits and this blocking other changes.
2019-06-07 17:44:37 +08:00
a.usesLibrary.deps(ctx, true)
}
func (a *AndroidAppImport) uncompressEmbeddedJniLibs(
ctx android.ModuleContext, inputPath android.Path, outputPath android.OutputPath) {
// Test apps don't need their JNI libraries stored uncompressed. As a matter of fact, messing
// with them may invalidate pre-existing signature data.
if ctx.InstallInTestcases() && (Bool(a.properties.Presigned) || a.preprocessed) {
ctx.Build(pctx, android.BuildParams{
Rule: android.Cp,
Output: outputPath,
Input: inputPath,
})
return
}
rule := android.NewRuleBuilder(pctx, ctx)
rule.Command().
Textf(`if (zipinfo %s 'lib/*.so' 2>/dev/null | grep -v ' stor ' >/dev/null) ; then`, inputPath).
BuiltTool("zip2zip").
FlagWithInput("-i ", inputPath).
FlagWithOutput("-o ", outputPath).
FlagWithArg("-0 ", "'lib/**/*.so'").
Textf(`; else cp -f %s %s; fi`, inputPath, outputPath)
rule.Build("uncompress-embedded-jni-libs", "Uncompress embedded JIN libs")
}
// Returns whether this module should have the dex file stored uncompressed in the APK.
func (a *AndroidAppImport) shouldUncompressDex(ctx android.ModuleContext) bool {
if ctx.Config().UnbundledBuild() || a.preprocessed {
return false
}
// Uncompress dex in APKs of privileged apps
if ctx.Config().UncompressPrivAppDex() && a.Privileged() {
return true
}
return shouldUncompressDex(ctx, &a.dexpreopter)
}
func (a *AndroidAppImport) uncompressDex(
ctx android.ModuleContext, inputPath android.Path, outputPath android.OutputPath) {
rule := android.NewRuleBuilder(pctx, ctx)
rule.Command().
Textf(`if (zipinfo %s '*.dex' 2>/dev/null | grep -v ' stor ' >/dev/null) ; then`, inputPath).
BuiltTool("zip2zip").
FlagWithInput("-i ", inputPath).
FlagWithOutput("-o ", outputPath).
FlagWithArg("-0 ", "'classes*.dex'").
Textf(`; else cp -f %s %s; fi`, inputPath, outputPath)
rule.Build("uncompress-dex", "Uncompress dex files")
}
func (a *AndroidAppImport) GenerateAndroidBuildActions(ctx android.ModuleContext) {
a.generateAndroidBuildActions(ctx)
}
func (a *AndroidAppImport) InstallApkName() string {
return a.BaseModuleName()
}
func (a *AndroidAppImport) generateAndroidBuildActions(ctx android.ModuleContext) {
apexInfo := ctx.Provider(android.ApexInfoProvider).(android.ApexInfo)
if !apexInfo.IsForPlatform() {
a.hideApexVariantFromMake = true
}
numCertPropsSet := 0
if String(a.properties.Certificate) != "" {
numCertPropsSet++
}
if Bool(a.properties.Presigned) {
numCertPropsSet++
}
if Bool(a.properties.Default_dev_cert) {
numCertPropsSet++
}
if numCertPropsSet != 1 {
ctx.ModuleErrorf("One and only one of certficate, presigned, and default_dev_cert properties must be set")
}
_, certificates := collectAppDeps(ctx, a, false, false)
// TODO: LOCAL_EXTRACT_APK/LOCAL_EXTRACT_DPI_APK
// TODO: LOCAL_PACKAGE_SPLITS
srcApk := a.prebuilt.SingleSourcePath(ctx)
if a.usesLibrary.enforceUsesLibraries() {
srcApk = a.usesLibrary.verifyUsesLibrariesAPK(ctx, srcApk)
}
// TODO: Install or embed JNI libraries
// Uncompress JNI libraries in the apk
jnisUncompressed := android.PathForModuleOut(ctx, "jnis-uncompressed", ctx.ModuleName()+".apk")
a.uncompressEmbeddedJniLibs(ctx, srcApk, jnisUncompressed.OutputPath)
var installDir android.InstallPath
if Bool(a.properties.Privileged) {
installDir = android.PathForModuleInstall(ctx, "priv-app", a.BaseModuleName())
} else if ctx.InstallInTestcases() {
installDir = android.PathForModuleInstall(ctx, a.BaseModuleName(), ctx.DeviceConfig().DeviceArch())
} else {
installDir = android.PathForModuleInstall(ctx, "app", a.BaseModuleName())
}
a.dexpreopter.installPath = installDir.Join(ctx, a.BaseModuleName()+".apk")
a.dexpreopter.isPresignedPrebuilt = Bool(a.properties.Presigned)
a.dexpreopter.uncompressedDex = a.shouldUncompressDex(ctx)
a.dexpreopter.enforceUsesLibs = a.usesLibrary.enforceUsesLibraries()
a.dexpreopter.classLoaderContexts = a.usesLibrary.classLoaderContextForUsesLibDeps(ctx)
dexOutput := a.dexpreopter.dexpreopt(ctx, jnisUncompressed)
if a.dexpreopter.uncompressedDex {
dexUncompressed := android.PathForModuleOut(ctx, "dex-uncompressed", ctx.ModuleName()+".apk")
a.uncompressDex(ctx, dexOutput, dexUncompressed.OutputPath)
dexOutput = dexUncompressed
}
apkFilename := proptools.StringDefault(a.properties.Filename, a.BaseModuleName()+".apk")
// TODO: Handle EXTERNAL
// Sign or align the package if package has not been preprocessed
if a.preprocessed {
a.outputFile = srcApk
a.certificate = PresignedCertificate
} else if !Bool(a.properties.Presigned) {
// If the certificate property is empty at this point, default_dev_cert must be set to true.
// Which makes processMainCert's behavior for the empty cert string WAI.
certificates = processMainCert(a.ModuleBase, String(a.properties.Certificate), certificates, ctx)
if len(certificates) != 1 {
ctx.ModuleErrorf("Unexpected number of certificates were extracted: %q", certificates)
}
a.certificate = certificates[0]
signed := android.PathForModuleOut(ctx, "signed", apkFilename)
var lineageFile android.Path
if lineage := String(a.properties.Lineage); lineage != "" {
lineageFile = android.PathForModuleSrc(ctx, lineage)
}
SignAppPackage(ctx, signed, dexOutput, certificates, nil, lineageFile)
a.outputFile = signed
} else {
alignedApk := android.PathForModuleOut(ctx, "zip-aligned", apkFilename)
TransformZipAlign(ctx, alignedApk, dexOutput)
a.outputFile = alignedApk
a.certificate = PresignedCertificate
}
// TODO: Optionally compress the output apk.
if apexInfo.IsForPlatform() {
a.installPath = ctx.InstallFile(installDir, apkFilename, a.outputFile)
}
// TODO: androidmk converter jni libs
}
func (a *AndroidAppImport) Prebuilt() *android.Prebuilt {
return &a.prebuilt
}
func (a *AndroidAppImport) Name() string {
return a.prebuilt.Name(a.ModuleBase.Name())
}
func (a *AndroidAppImport) OutputFile() android.Path {
return a.outputFile
}
func (a *AndroidAppImport) JacocoReportClassesFile() android.Path {
return nil
}
func (a *AndroidAppImport) Certificate() Certificate {
return a.certificate
}
var dpiVariantGroupType reflect.Type
var archVariantGroupType reflect.Type
func initAndroidAppImportVariantGroupTypes() {
dpiVariantGroupType = createVariantGroupType(supportedDpis, "Dpi_variants")
archNames := make([]string, len(android.ArchTypeList()))
for i, archType := range android.ArchTypeList() {
archNames[i] = archType.Name
}
archVariantGroupType = createVariantGroupType(archNames, "Arch")
}
// Populates all variant struct properties at creation time.
func (a *AndroidAppImport) populateAllVariantStructs() {
a.dpiVariants = reflect.New(dpiVariantGroupType).Interface()
a.AddProperties(a.dpiVariants)
a.archVariants = reflect.New(archVariantGroupType).Interface()
a.AddProperties(a.archVariants)
}
func (a *AndroidAppImport) Privileged() bool {
return Bool(a.properties.Privileged)
}
func (a *AndroidAppImport) DepIsInSameApex(_ android.BaseModuleContext, _ android.Module) bool {
// android_app_import might have extra dependencies via uses_libs property.
// Don't track the dependency as we don't automatically add those libraries
// to the classpath. It should be explicitly added to java_libs property of APEX
return false
}
func (a *AndroidAppImport) sdkVersion() sdkSpec {
return sdkSpecFrom("")
}
func (a *AndroidAppImport) minSdkVersion() sdkSpec {
return sdkSpecFrom("")
}
func (j *AndroidAppImport) ShouldSupportSdkVersion(ctx android.BaseModuleContext,
sdkVersion android.ApiLevel) error {
// Do not check for prebuilts against the min_sdk_version of enclosing APEX
return nil
}
func createVariantGroupType(variants []string, variantGroupName string) reflect.Type {
props := reflect.TypeOf((*AndroidAppImportProperties)(nil))
variantFields := make([]reflect.StructField, len(variants))
for i, variant := range variants {
variantFields[i] = reflect.StructField{
Name: proptools.FieldNameForProperty(variant),
Type: props,
}
}
variantGroupStruct := reflect.StructOf(variantFields)
return reflect.StructOf([]reflect.StructField{
{
Name: variantGroupName,
Type: variantGroupStruct,
},
})
}
// android_app_import imports a prebuilt apk with additional processing specified in the module.
// DPI-specific apk source files can be specified using dpi_variants. Example:
//
// android_app_import {
// name: "example_import",
// apk: "prebuilts/example.apk",
// dpi_variants: {
// mdpi: {
// apk: "prebuilts/example_mdpi.apk",
// },
// xhdpi: {
// apk: "prebuilts/example_xhdpi.apk",
// },
// },
// certificate: "PRESIGNED",
// }
func AndroidAppImportFactory() android.Module {
module := &AndroidAppImport{}
module.AddProperties(&module.properties)
module.AddProperties(&module.dexpreoptProperties)
module.AddProperties(&module.usesLibrary.usesLibraryProperties)
module.populateAllVariantStructs()
android.AddLoadHook(module, func(ctx android.LoadHookContext) {
module.processVariants(ctx)
})
android.InitApexModule(module)
android.InitAndroidMultiTargetsArchModule(module, android.DeviceSupported, android.MultilibCommon)
android.InitDefaultableModule(module)
android.InitSingleSourcePrebuiltModule(module, &module.properties, "Apk")
return module
}
type androidTestImportProperties struct {
// Whether the prebuilt apk can be installed without additional processing. Default is false.
Preprocessed *bool
}
type AndroidTestImport struct {
AndroidAppImport
testProperties testProperties
testImportProperties androidTestImportProperties
data android.Paths
}
func (a *AndroidTestImport) GenerateAndroidBuildActions(ctx android.ModuleContext) {
a.preprocessed = Bool(a.testImportProperties.Preprocessed)
a.generateAndroidBuildActions(ctx)
a.data = android.PathsForModuleSrc(ctx, a.testProperties.Data)
}
func (a *AndroidTestImport) InstallInTestcases() bool {
return true
}
// android_test_import imports a prebuilt test apk with additional processing specified in the
// module. DPI or arch variant configurations can be made as with android_app_import.
func AndroidTestImportFactory() android.Module {
module := &AndroidTestImport{}
module.AddProperties(&module.properties)
module.AddProperties(&module.dexpreoptProperties)
module.AddProperties(&module.testProperties)
module.AddProperties(&module.testImportProperties)
module.populateAllVariantStructs()
android.AddLoadHook(module, func(ctx android.LoadHookContext) {
module.processVariants(ctx)
})
module.dexpreopter.isTest = true
android.InitApexModule(module)
android.InitAndroidMultiTargetsArchModule(module, android.DeviceSupported, android.MultilibCommon)
android.InitDefaultableModule(module)
android.InitSingleSourcePrebuiltModule(module, &module.properties, "Apk")
return module
}
type RuntimeResourceOverlay struct {
android.ModuleBase
android.DefaultableModuleBase
android.OverridableModuleBase
aapt
properties RuntimeResourceOverlayProperties
overridableProperties OverridableRuntimeResourceOverlayProperties
certificate Certificate
outputFile android.Path
installDir android.InstallPath
}
type RuntimeResourceOverlayProperties struct {
// the name of a certificate in the default certificate directory or an android_app_certificate
// module name in the form ":module".
Certificate *string
// Name of the signing certificate lineage file.
Lineage *string
// optional theme name. If specified, the overlay package will be applied
// only when the ro.boot.vendor.overlay.theme system property is set to the same value.
Theme *string
// if not blank, set to the version of the sdk to compile against.
// Defaults to compiling against the current platform.
Sdk_version *string
// if not blank, set the minimum version of the sdk that the compiled artifacts will run against.
// Defaults to sdk_version if not set.
Min_sdk_version *string
// list of android_library modules whose resources are extracted and linked against statically
Static_libs []string
// list of android_app modules whose resources are extracted and linked against
Resource_libs []string
// Names of modules to be overridden. Listed modules can only be other overlays
// (in Make or Soong).
// This does not completely prevent installation of the overridden overlays, but if both
// overlays would be installed by default (in PRODUCT_PACKAGES) the other overlay will be removed
// from PRODUCT_PACKAGES.
Overrides []string
}
// RuntimeResourceOverlayModule interface is used by the apex package to gather information from
// a RuntimeResourceOverlay module.
type RuntimeResourceOverlayModule interface {
android.Module
OutputFile() android.Path
Certificate() Certificate
Theme() string
}
func (r *RuntimeResourceOverlay) DepsMutator(ctx android.BottomUpMutatorContext) {
sdkDep := decodeSdkDep(ctx, sdkContext(r))
if sdkDep.hasFrameworkLibs() {
r.aapt.deps(ctx, sdkDep)
}
cert := android.SrcIsModule(String(r.properties.Certificate))
if cert != "" {
ctx.AddDependency(ctx.Module(), certificateTag, cert)
}
ctx.AddVariationDependencies(nil, staticLibTag, r.properties.Static_libs...)
ctx.AddVariationDependencies(nil, libTag, r.properties.Resource_libs...)
}
func (r *RuntimeResourceOverlay) GenerateAndroidBuildActions(ctx android.ModuleContext) {
// Compile and link resources
r.aapt.hasNoCode = true
// Do not remove resources without default values nor dedupe resource configurations with the same value
aaptLinkFlags := []string{"--no-resource-deduping", "--no-resource-removal"}
// Allow the override of "package name" and "overlay target package name"
manifestPackageName, overridden := ctx.DeviceConfig().OverrideManifestPackageNameFor(ctx.ModuleName())
if overridden || r.overridableProperties.Package_name != nil {
// The product override variable has a priority over the package_name property.
if !overridden {
manifestPackageName = *r.overridableProperties.Package_name
}
aaptLinkFlags = append(aaptLinkFlags, generateAaptRenamePackageFlags(manifestPackageName, false)...)
}
if r.overridableProperties.Target_package_name != nil {
aaptLinkFlags = append(aaptLinkFlags,
"--rename-overlay-target-package "+*r.overridableProperties.Target_package_name)
}
Add nested class loader subcontext at the proper hierarchy level. When adding a subcontext in a class loader context tree, there are two possible cases: 1) the root of the subcontext is itself a <uses-library> and should be present as a node in the tree, or 2) the root is not a <uses-library>, but some of its dependencies are -- in that case they should be disconnected from the root, and the resulting forrest should be added at the top-level. Example: 1) C is a <uses-library>: A ├── B └── C ├── D └── E └── F 2) C is not a <uses-library>: A ├── B ├── D └── E └── F Before the patch subcontexts for transitive dependencies were added before the subcontext for the direct dependency (even if it was a <uses-library>, resulting in case-2 hierarchy when case-1 should have been used. Previosuly this didn't matter because class loader context was a flat set of libraries, but now it matters because class loader context is a tree. This patch changes the order in which libraries are added, so that direct dependencies are added before transitive ones. The context adding method now accepts an "implicit root" parameter, so that when adding transitive dependencies it can check if the corresponding direct dependency is a <uses-library> and already present in the context. Partially constructed class loader context is now propagated top-down into aapt.buildActions, so that the method can use existing part of the context to decide where the missing part should be connected. Test: lunch aosp_cf_x86_phone-userdebug && m Bug: 132357300 Change-Id: I649aff9e27494306885a4f4fc90226c399636b57
2020-11-03 23:55:11 +08:00
r.aapt.buildActions(ctx, r, nil, aaptLinkFlags...)
// Sign the built package
_, certificates := collectAppDeps(ctx, r, false, false)
certificates = processMainCert(r.ModuleBase, String(r.properties.Certificate), certificates, ctx)
signed := android.PathForModuleOut(ctx, "signed", r.Name()+".apk")
var lineageFile android.Path
if lineage := String(r.properties.Lineage); lineage != "" {
lineageFile = android.PathForModuleSrc(ctx, lineage)
}
SignAppPackage(ctx, signed, r.aapt.exportPackage, certificates, nil, lineageFile)
r.certificate = certificates[0]
r.outputFile = signed
r.installDir = android.PathForModuleInstall(ctx, "overlay", String(r.properties.Theme))
ctx.InstallFile(r.installDir, r.outputFile.Base(), r.outputFile)
}
func (r *RuntimeResourceOverlay) sdkVersion() sdkSpec {
return sdkSpecFrom(String(r.properties.Sdk_version))
}
func (r *RuntimeResourceOverlay) systemModules() string {
return ""
}
func (r *RuntimeResourceOverlay) minSdkVersion() sdkSpec {
if r.properties.Min_sdk_version != nil {
return sdkSpecFrom(*r.properties.Min_sdk_version)
}
return r.sdkVersion()
}
func (r *RuntimeResourceOverlay) targetSdkVersion() sdkSpec {
return r.sdkVersion()
}
func (r *RuntimeResourceOverlay) Certificate() Certificate {
return r.certificate
}
func (r *RuntimeResourceOverlay) OutputFile() android.Path {
return r.outputFile
}
func (r *RuntimeResourceOverlay) Theme() string {
return String(r.properties.Theme)
}
// runtime_resource_overlay generates a resource-only apk file that can overlay application and
// system resources at run time.
func RuntimeResourceOverlayFactory() android.Module {
module := &RuntimeResourceOverlay{}
module.AddProperties(
&module.properties,
&module.aaptProperties,
&module.overridableProperties)
android.InitAndroidMultiTargetsArchModule(module, android.DeviceSupported, android.MultilibCommon)
android.InitDefaultableModule(module)
android.InitOverridableModule(module, &module.properties.Overrides)
return module
}
type UsesLibraryProperties struct {
// A list of shared library modules that will be listed in uses-library tags in the AndroidManifest.xml file.
Uses_libs []string
// A list of shared library modules that will be listed in uses-library tags in the AndroidManifest.xml file with
// required=false.
Optional_uses_libs []string
// If true, the list of uses_libs and optional_uses_libs modules must match the AndroidManifest.xml file. Defaults
// to true if either uses_libs or optional_uses_libs is set. Will unconditionally default to true in the future.
Enforce_uses_libs *bool
// Optional name of the <uses-library> provided by this module. This is needed for non-SDK
// libraries, because SDK ones are automatically picked up by Soong. The <uses-library> name
// normally is the same as the module name, but there are exceptions.
Provides_uses_lib *string
}
// usesLibrary provides properties and helper functions for AndroidApp and AndroidAppImport to verify that the
// <uses-library> tags that end up in the manifest of an APK match the ones known to the build system through the
// uses_libs and optional_uses_libs properties. The build system's values are used by dexpreopt to preopt apps
// with knowledge of their shared libraries.
type usesLibrary struct {
usesLibraryProperties UsesLibraryProperties
}
func (u *usesLibrary) addLib(lib string, optional bool) {
if !android.InList(lib, u.usesLibraryProperties.Uses_libs) && !android.InList(lib, u.usesLibraryProperties.Optional_uses_libs) {
if optional {
u.usesLibraryProperties.Optional_uses_libs = append(u.usesLibraryProperties.Optional_uses_libs, lib)
} else {
u.usesLibraryProperties.Uses_libs = append(u.usesLibraryProperties.Uses_libs, lib)
}
}
}
Make sdkDep/decodeSdkDep the source of truth about the sdk Previously, different parts of the build used different sources of information about the SDK (i.e. the default libraries) against which a Java module aimed at the device was built. Some used the sdk_version property, others used the no_standard_libs or no_framework_libs, some used a combination of all three. That lead to inconsistent handling in the code, e.g. some parts treated no_standard_libs: true as implying no_framework_libs: true and others did not, and also in the build files, e.g. some modules specified no_framework_libs: true and sdk_version: "system_current" which makes no sense, or no_standard_libs: true and sdk_version: "core_current" which are inconsistent. This is the first step in a refactoring to simplify the sdk selection process by replacing the no_standard_libs/no_framework_libs properties with some extra options for the sdk_version property. This change consists of: 1) Extra functions sdkContext to access the no_standard_libs and no_framework_libs properties. 2) Extra field/functions in sdkDep to store and access the value of no_standard_libs/no_framework_libs. 3) Changes to decodeSdkDep(...) to pass the values of the no_... properties through to the returned sdkDep. 4) Change all code that accesses the no_... properties directly to call decodeSdkDep(...) to get an sdkDep object and then accessing the values of the no_... properties from there. The accessor functions on sdkDep are called has...() rather than no...() as most callers of the methods invert the value anyway and !no...() is harder to reason about than has...(). The hasFrameworkLibs() function returns true if and only if no_standard_libs and no_framework_libs are false. That is consistent with all but one usage of the no_framework_libs property and that is not affected by it. Bug: 134566750 Test: m droid Change-Id: I196e3304e8bd802fb154e897397b0dd337f868e2 Exempt-From-Owner-Approval: Colin has already given +2 modulo some minor nits and this blocking other changes.
2019-06-07 17:44:37 +08:00
func (u *usesLibrary) deps(ctx android.BottomUpMutatorContext, hasFrameworkLibs bool) {
if !ctx.Config().UnbundledBuild() {
ctx.AddVariationDependencies(nil, usesLibTag, u.usesLibraryProperties.Uses_libs...)
ctx.AddVariationDependencies(nil, usesLibTag, u.presentOptionalUsesLibs(ctx)...)
Make sdkDep/decodeSdkDep the source of truth about the sdk Previously, different parts of the build used different sources of information about the SDK (i.e. the default libraries) against which a Java module aimed at the device was built. Some used the sdk_version property, others used the no_standard_libs or no_framework_libs, some used a combination of all three. That lead to inconsistent handling in the code, e.g. some parts treated no_standard_libs: true as implying no_framework_libs: true and others did not, and also in the build files, e.g. some modules specified no_framework_libs: true and sdk_version: "system_current" which makes no sense, or no_standard_libs: true and sdk_version: "core_current" which are inconsistent. This is the first step in a refactoring to simplify the sdk selection process by replacing the no_standard_libs/no_framework_libs properties with some extra options for the sdk_version property. This change consists of: 1) Extra functions sdkContext to access the no_standard_libs and no_framework_libs properties. 2) Extra field/functions in sdkDep to store and access the value of no_standard_libs/no_framework_libs. 3) Changes to decodeSdkDep(...) to pass the values of the no_... properties through to the returned sdkDep. 4) Change all code that accesses the no_... properties directly to call decodeSdkDep(...) to get an sdkDep object and then accessing the values of the no_... properties from there. The accessor functions on sdkDep are called has...() rather than no...() as most callers of the methods invert the value anyway and !no...() is harder to reason about than has...(). The hasFrameworkLibs() function returns true if and only if no_standard_libs and no_framework_libs are false. That is consistent with all but one usage of the no_framework_libs property and that is not affected by it. Bug: 134566750 Test: m droid Change-Id: I196e3304e8bd802fb154e897397b0dd337f868e2 Exempt-From-Owner-Approval: Colin has already given +2 modulo some minor nits and this blocking other changes.
2019-06-07 17:44:37 +08:00
// Only add these extra dependencies if the module depends on framework libs. This avoids
// creating a cyclic dependency:
// e.g. framework-res -> org.apache.http.legacy -> ... -> framework-res.
if hasFrameworkLibs {
// Dexpreopt needs paths to the dex jars of these libraries in order to construct
// class loader context for dex2oat. Add them as a dependency with a special tag.
ctx.AddVariationDependencies(nil, usesLibCompat29Tag, dexpreopt.CompatUsesLibs29...)
ctx.AddVariationDependencies(nil, usesLibCompat28Tag, dexpreopt.OptionalCompatUsesLibs28...)
ctx.AddVariationDependencies(nil, usesLibCompat30Tag, dexpreopt.OptionalCompatUsesLibs30...)
}
}
}
// presentOptionalUsesLibs returns optional_uses_libs after filtering out MissingUsesLibraries, which don't exist in the
// build.
func (u *usesLibrary) presentOptionalUsesLibs(ctx android.BaseModuleContext) []string {
optionalUsesLibs, _ := android.FilterList(u.usesLibraryProperties.Optional_uses_libs, ctx.Config().MissingUsesLibraries())
return optionalUsesLibs
}
// Returns a map of module names of shared library dependencies to the paths
// to their dex jars on host and on device.
func (u *usesLibrary) classLoaderContextForUsesLibDeps(ctx android.ModuleContext) dexpreopt.ClassLoaderContextMap {
clcMap := make(dexpreopt.ClassLoaderContextMap)
if !ctx.Config().UnbundledBuild() {
ctx.VisitDirectDeps(func(m android.Module) {
if tag, ok := ctx.OtherModuleDependencyTag(m).(usesLibraryDependencyTag); ok {
dep := ctx.OtherModuleName(m)
if lib, ok := m.(Dependency); ok {
clcMap.AddContextForSdk(ctx, tag.sdkVersion, dep,
lib.DexJarBuildPath(), lib.DexJarInstallPath(), lib.ClassLoaderContexts())
} else if ctx.Config().AllowMissingDependencies() {
ctx.AddMissingDependencies([]string{dep})
} else {
ctx.ModuleErrorf("module %q in uses_libs or optional_uses_libs must be a java library", dep)
}
}
})
}
return clcMap
}
// enforceUsesLibraries returns true of <uses-library> tags should be checked against uses_libs and optional_uses_libs
// properties. Defaults to true if either of uses_libs or optional_uses_libs is specified. Will default to true
// unconditionally in the future.
func (u *usesLibrary) enforceUsesLibraries() bool {
defaultEnforceUsesLibs := len(u.usesLibraryProperties.Uses_libs) > 0 ||
len(u.usesLibraryProperties.Optional_uses_libs) > 0
return BoolDefault(u.usesLibraryProperties.Enforce_uses_libs, defaultEnforceUsesLibs)
}
// Freeze the value of `enforce_uses_libs` based on the current values of `uses_libs` and `optional_uses_libs`.
func (u *usesLibrary) freezeEnforceUsesLibraries() {
enforce := u.enforceUsesLibraries()
u.usesLibraryProperties.Enforce_uses_libs = &enforce
}
// verifyUsesLibrariesManifest checks the <uses-library> tags in an AndroidManifest.xml against the ones specified
// in the uses_libs and optional_uses_libs properties. It returns the path to a copy of the manifest.
func (u *usesLibrary) verifyUsesLibrariesManifest(ctx android.ModuleContext, manifest android.Path) android.Path {
outputFile := android.PathForModuleOut(ctx, "manifest_check", "AndroidManifest.xml")
rule := android.NewRuleBuilder(pctx, ctx)
cmd := rule.Command().BuiltTool("manifest_check").
Flag("--enforce-uses-libraries").
Input(manifest).
FlagWithOutput("-o ", outputFile)
for _, lib := range u.usesLibraryProperties.Uses_libs {
cmd.FlagWithArg("--uses-library ", lib)
}
for _, lib := range u.usesLibraryProperties.Optional_uses_libs {
cmd.FlagWithArg("--optional-uses-library ", lib)
}
rule.Build("verify_uses_libraries", "verify <uses-library>")
return outputFile
}
// verifyUsesLibrariesAPK checks the <uses-library> tags in the manifest of an APK against the ones specified
// in the uses_libs and optional_uses_libs properties. It returns the path to a copy of the APK.
func (u *usesLibrary) verifyUsesLibrariesAPK(ctx android.ModuleContext, apk android.Path) android.Path {
outputFile := android.PathForModuleOut(ctx, "verify_uses_libraries", apk.Base())
rule := android.NewRuleBuilder(pctx, ctx)
aapt := ctx.Config().HostToolPath(ctx, "aapt")
rule.Command().
Textf("aapt_binary=%s", aapt.String()).Implicit(aapt).
Textf(`uses_library_names="%s"`, strings.Join(u.usesLibraryProperties.Uses_libs, " ")).
Textf(`optional_uses_library_names="%s"`, strings.Join(u.usesLibraryProperties.Optional_uses_libs, " ")).
Tool(android.PathForSource(ctx, "build/make/core/verify_uses_libraries.sh")).Input(apk)
rule.Command().Text("cp -f").Input(apk).Output(outputFile)
rule.Build("verify_uses_libraries", "verify <uses-library>")
return outputFile
}