platform_build_soong/apex/apex.go

2963 lines
102 KiB
Go

// Copyright (C) 2018 The Android Open Source Project
//
// 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 apex implements build rules for creating the APEX files which are container for
// lower-level system components. See https://source.android.com/devices/tech/ota/apex
package apex
import (
"fmt"
"path/filepath"
"sort"
"strings"
"github.com/google/blueprint"
"github.com/google/blueprint/bootstrap"
"github.com/google/blueprint/proptools"
"android/soong/android"
"android/soong/bpf"
"android/soong/cc"
"android/soong/dexpreopt"
prebuilt_etc "android/soong/etc"
"android/soong/filesystem"
"android/soong/java"
"android/soong/python"
"android/soong/rust"
"android/soong/sh"
)
func init() {
registerApexBuildComponents(android.InitRegistrationContext)
}
func registerApexBuildComponents(ctx android.RegistrationContext) {
ctx.RegisterModuleType("apex", BundleFactory)
ctx.RegisterModuleType("apex_test", testApexBundleFactory)
ctx.RegisterModuleType("apex_vndk", vndkApexBundleFactory)
ctx.RegisterModuleType("apex_defaults", defaultsFactory)
ctx.RegisterModuleType("prebuilt_apex", PrebuiltFactory)
ctx.RegisterModuleType("override_apex", overrideApexFactory)
ctx.RegisterModuleType("apex_set", apexSetFactory)
ctx.PreDepsMutators(RegisterPreDepsMutators)
ctx.PostDepsMutators(RegisterPostDepsMutators)
}
func RegisterPreDepsMutators(ctx android.RegisterMutatorsContext) {
ctx.TopDown("apex_vndk", apexVndkMutator).Parallel()
ctx.BottomUp("apex_vndk_deps", apexVndkDepsMutator).Parallel()
}
func RegisterPostDepsMutators(ctx android.RegisterMutatorsContext) {
ctx.TopDown("apex_info", apexInfoMutator).Parallel()
ctx.BottomUp("apex_unique", apexUniqueVariationsMutator).Parallel()
ctx.BottomUp("apex_test_for_deps", apexTestForDepsMutator).Parallel()
ctx.BottomUp("apex_test_for", apexTestForMutator).Parallel()
ctx.BottomUp("apex", apexMutator).Parallel()
ctx.BottomUp("apex_directly_in_any", apexDirectlyInAnyMutator).Parallel()
ctx.BottomUp("apex_flattened", apexFlattenedMutator).Parallel()
ctx.BottomUp("mark_platform_availability", markPlatformAvailability).Parallel()
}
type apexBundleProperties struct {
// Json manifest file describing meta info of this APEX bundle. Refer to
// system/apex/proto/apex_manifest.proto for the schema. Default: "apex_manifest.json"
Manifest *string `android:"path"`
// AndroidManifest.xml file used for the zip container of this APEX bundle. If unspecified,
// a default one is automatically generated.
AndroidManifest *string `android:"path"`
// Canonical name of this APEX bundle. Used to determine the path to the activated APEX on
// device (/apex/<apex_name>). If unspecified, follows the name property.
Apex_name *string
// Determines the file contexts file for setting the security contexts to files in this APEX
// bundle. For platform APEXes, this should points to a file under /system/sepolicy Default:
// /system/sepolicy/apex/<module_name>_file_contexts.
File_contexts *string `android:"path"`
ApexNativeDependencies
Multilib apexMultilibProperties
// List of boot images that are embedded inside this APEX bundle.
Boot_images []string
// List of java libraries that are embedded inside this APEX bundle.
Java_libs []string
// List of prebuilt files that are embedded inside this APEX bundle.
Prebuilts []string
// List of platform_compat_config files that are embedded inside this APEX bundle.
Compat_configs []string
// List of BPF programs inside this APEX bundle.
Bpfs []string
// List of filesystem images that are embedded inside this APEX bundle.
Filesystems []string
// Name of the apex_key module that provides the private key to sign this APEX bundle.
Key *string
// Specifies the certificate and the private key to sign the zip container of this APEX. If
// this is "foo", foo.x509.pem and foo.pk8 under PRODUCT_DEFAULT_DEV_CERTIFICATE are used
// as the certificate and the private key, respectively. If this is ":module", then the
// certificate and the private key are provided from the android_app_certificate module
// named "module".
Certificate *string
// The minimum SDK version that this APEX must support at minimum. This is usually set to
// the SDK version that the APEX was first introduced.
Min_sdk_version *string
// Whether this APEX is considered updatable or not. When set to true, this will enforce
// additional rules for making sure that the APEX is truly updatable. To be updatable,
// min_sdk_version should be set as well. This will also disable the size optimizations like
// symlinking to the system libs. Default is true.
Updatable *bool
// Whether this APEX is installable to one of the partitions like system, vendor, etc.
// Default: true.
Installable *bool
// Whether this APEX can be compressed or not. Setting this property to false means this
// APEX will never be compressed. When set to true, APEX will be compressed if other
// conditions, e.g, target device needs to support APEX compression, are also fulfilled.
// Default: true.
Compressible *bool
// For native libraries and binaries, use the vendor variant instead of the core (platform)
// variant. Default is false. DO NOT use this for APEXes that are installed to the system or
// system_ext partition.
Use_vendor *bool
// If set true, VNDK libs are considered as stable libs and are not included in this APEX.
// Should be only used in non-system apexes (e.g. vendor: true). Default is false.
Use_vndk_as_stable *bool
// List of SDKs that are used to build this APEX. A reference to an SDK should be either
// `name#version` or `name` which is an alias for `name#current`. If left empty,
// `platform#current` is implied. This value affects all modules included in this APEX. In
// other words, they are also built with the SDKs specified here.
Uses_sdks []string
// The type of APEX to build. Controls what the APEX payload is. Either 'image', 'zip' or
// 'both'. When set to image, contents are stored in a filesystem image inside a zip
// container. When set to zip, contents are stored in a zip container directly. This type is
// mostly for host-side debugging. When set to both, the two types are both built. Default
// is 'image'.
Payload_type *string
// The type of filesystem to use when the payload_type is 'image'. Either 'ext4' or 'f2fs'.
// Default 'ext4'.
Payload_fs_type *string
// For telling the APEX to ignore special handling for system libraries such as bionic.
// Default is false.
Ignore_system_library_special_case *bool
// Whenever apex_payload.img of the APEX should include dm-verity hashtree. Should be only
// used in tests.
Test_only_no_hashtree *bool
// Whenever apex_payload.img of the APEX should not be dm-verity signed. Should be only
// used in tests.
Test_only_unsigned_payload *bool
// Whenever apex should be compressed, regardless of product flag used. Should be only
// used in tests.
Test_only_force_compression *bool
IsCoverageVariant bool `blueprint:"mutated"`
// List of sanitizer names that this APEX is enabled for
SanitizerNames []string `blueprint:"mutated"`
PreventInstall bool `blueprint:"mutated"`
HideFromMake bool `blueprint:"mutated"`
// Internal package method for this APEX. When payload_type is image, this can be either
// imageApex or flattenedApex depending on Config.FlattenApex(). When payload_type is zip,
// this becomes zipApex.
ApexType apexPackaging `blueprint:"mutated"`
}
type ApexNativeDependencies struct {
// List of native libraries that are embedded inside this APEX.
Native_shared_libs []string
// List of JNI libraries that are embedded inside this APEX.
Jni_libs []string
// List of rust dyn libraries
Rust_dyn_libs []string
// List of native executables that are embedded inside this APEX.
Binaries []string
// List of native tests that are embedded inside this APEX.
Tests []string
// List of filesystem images that are embedded inside this APEX bundle.
Filesystems []string
}
type apexMultilibProperties struct {
// Native dependencies whose compile_multilib is "first"
First ApexNativeDependencies
// Native dependencies whose compile_multilib is "both"
Both ApexNativeDependencies
// Native dependencies whose compile_multilib is "prefer32"
Prefer32 ApexNativeDependencies
// Native dependencies whose compile_multilib is "32"
Lib32 ApexNativeDependencies
// Native dependencies whose compile_multilib is "64"
Lib64 ApexNativeDependencies
}
type apexTargetBundleProperties struct {
Target struct {
// Multilib properties only for android.
Android struct {
Multilib apexMultilibProperties
}
// Multilib properties only for host.
Host struct {
Multilib apexMultilibProperties
}
// Multilib properties only for host linux_bionic.
Linux_bionic struct {
Multilib apexMultilibProperties
}
// Multilib properties only for host linux_glibc.
Linux_glibc struct {
Multilib apexMultilibProperties
}
}
}
type apexArchBundleProperties struct {
Arch struct {
Arm struct {
ApexNativeDependencies
}
Arm64 struct {
ApexNativeDependencies
}
X86 struct {
ApexNativeDependencies
}
X86_64 struct {
ApexNativeDependencies
}
}
}
// These properties can be used in override_apex to override the corresponding properties in the
// base apex.
type overridableProperties struct {
// List of APKs that are embedded inside this APEX.
Apps []string
// List of runtime resource overlays (RROs) that are embedded inside this APEX.
Rros []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
// Logging parent value.
Logging_parent string
// Apex Container package name. Override value for attribute package:name in
// AndroidManifest.xml
Package_name string
// A txt file containing list of files that are allowed to be included in this APEX.
Allowed_files *string `android:"path"`
}
type apexBundle struct {
// Inherited structs
android.ModuleBase
android.DefaultableModuleBase
android.OverridableModuleBase
android.SdkBase
// Properties
properties apexBundleProperties
targetProperties apexTargetBundleProperties
archProperties apexArchBundleProperties
overridableProperties overridableProperties
vndkProperties apexVndkProperties // only for apex_vndk modules
///////////////////////////////////////////////////////////////////////////////////////////
// Inputs
// Keys for apex_paylaod.img
publicKeyFile android.Path
privateKeyFile android.Path
// Cert/priv-key for the zip container
containerCertificateFile android.Path
containerPrivateKeyFile android.Path
// Flags for special variants of APEX
testApex bool
vndkApex bool
artApex bool
// Tells whether this variant of the APEX bundle is the primary one or not. Only the primary
// one gets installed to the device.
primaryApexType bool
// Suffix of module name in Android.mk ".flattened", ".apex", ".zipapex", or ""
suffix string
// File system type of apex_payload.img
payloadFsType fsType
// Whether to create symlink to the system file instead of having a file inside the apex or
// not
linkToSystemLib bool
// List of files to be included in this APEX. This is filled in the first part of
// GenerateAndroidBuildActions.
filesInfo []apexFile
// List of other module names that should be installed when this APEX gets installed.
requiredDeps []string
///////////////////////////////////////////////////////////////////////////////////////////
// Outputs (final and intermediates)
// Processed apex manifest in JSONson format (for Q)
manifestJsonOut android.WritablePath
// Processed apex manifest in PB format (for R+)
manifestPbOut android.WritablePath
// Processed file_contexts files
fileContexts android.WritablePath
// Struct holding the merged notice file paths in different formats
mergedNotices android.NoticeOutputs
// The built APEX file. This is the main product.
outputFile android.WritablePath
// The built APEX file in app bundle format. This file is not directly installed to the
// device. For an APEX, multiple app bundles are created each of which is for a specific ABI
// like arm, arm64, x86, etc. Then they are processed again (outside of the Android build
// system) to be merged into a single app bundle file that Play accepts. See
// vendor/google/build/build_unbundled_mainline_module.sh for more detail.
bundleModuleFile android.WritablePath
// Target path to install this APEX. Usually out/target/product/<device>/<partition>/apex.
installDir android.InstallPath
// List of commands to create symlinks for backward compatibility. These commands will be
// attached as LOCAL_POST_INSTALL_CMD to apex package itself (for unflattened build) or
// apex_manifest (for flattened build) so that compat symlinks are always installed
// regardless of TARGET_FLATTEN_APEX setting.
compatSymlinks []string
// Text file having the list of individual files that are included in this APEX. Used for
// debugging purpose.
installedFilesFile android.WritablePath
// List of module names that this APEX is including (to be shown via *-deps-info target).
// Used for debugging purpose.
android.ApexBundleDepsInfo
// Optional list of lint report zip files for apexes that contain java or app modules
lintReports android.Paths
prebuiltFileToDelete string
isCompressed bool
// Path of API coverage generate file
apisUsedByModuleFile android.ModuleOutPath
apisBackedByModuleFile android.ModuleOutPath
}
// apexFileClass represents a type of file that can be included in APEX.
type apexFileClass int
const (
app apexFileClass = iota
appSet
etc
goBinary
javaSharedLib
nativeExecutable
nativeSharedLib
nativeTest
pyBinary
shBinary
)
// apexFile represents a file in an APEX bundle. This is created during the first half of
// GenerateAndroidBuildActions by traversing the dependencies of the APEX. Then in the second half
// of the function, this is used to create commands that copies the files into a staging directory,
// where they are packaged into the APEX file. This struct is also used for creating Make modules
// for each of the files in case when the APEX is flattened.
type apexFile struct {
// buildFile is put in the installDir inside the APEX.
builtFile android.Path
noticeFiles android.Paths
installDir string
customStem string
symlinks []string // additional symlinks
// Info for Android.mk Module name of `module` in AndroidMk. Note the generated AndroidMk
// module for apexFile is named something like <AndroidMk module name>.<apex name>[<apex
// suffix>]
androidMkModuleName string // becomes LOCAL_MODULE
class apexFileClass // becomes LOCAL_MODULE_CLASS
moduleDir string // becomes LOCAL_PATH
requiredModuleNames []string // becomes LOCAL_REQUIRED_MODULES
targetRequiredModuleNames []string // becomes LOCAL_TARGET_REQUIRED_MODULES
hostRequiredModuleNames []string // becomes LOCAL_HOST_REQUIRED_MODULES
dataPaths []android.DataPath // becomes LOCAL_TEST_DATA
jacocoReportClassesFile android.Path // only for javalibs and apps
lintDepSets java.LintDepSets // only for javalibs and apps
certificate java.Certificate // only for apps
overriddenPackageName string // only for apps
transitiveDep bool
isJniLib bool
multilib string
// TODO(jiyong): remove this
module android.Module
}
// TODO(jiyong): shorten the arglist using an option struct
func newApexFile(ctx android.BaseModuleContext, builtFile android.Path, androidMkModuleName string, installDir string, class apexFileClass, module android.Module) apexFile {
ret := apexFile{
builtFile: builtFile,
installDir: installDir,
androidMkModuleName: androidMkModuleName,
class: class,
module: module,
}
if module != nil {
ret.noticeFiles = module.NoticeFiles()
ret.moduleDir = ctx.OtherModuleDir(module)
ret.requiredModuleNames = module.RequiredModuleNames()
ret.targetRequiredModuleNames = module.TargetRequiredModuleNames()
ret.hostRequiredModuleNames = module.HostRequiredModuleNames()
ret.multilib = module.Target().Arch.ArchType.Multilib
}
return ret
}
func (af *apexFile) ok() bool {
return af.builtFile != nil && af.builtFile.String() != ""
}
// apexRelativePath returns the relative path of the given path from the install directory of this
// apexFile.
// TODO(jiyong): rename this
func (af *apexFile) apexRelativePath(path string) string {
return filepath.Join(af.installDir, path)
}
// path returns path of this apex file relative to the APEX root
func (af *apexFile) path() string {
return af.apexRelativePath(af.stem())
}
// stem returns the base filename of this apex file
func (af *apexFile) stem() string {
if af.customStem != "" {
return af.customStem
}
return af.builtFile.Base()
}
// symlinkPaths returns paths of the symlinks (if any) relative to the APEX root
func (af *apexFile) symlinkPaths() []string {
var ret []string
for _, symlink := range af.symlinks {
ret = append(ret, af.apexRelativePath(symlink))
}
return ret
}
// availableToPlatform tests whether this apexFile is from a module that can be installed to the
// platform.
func (af *apexFile) availableToPlatform() bool {
if af.module == nil {
return false
}
if am, ok := af.module.(android.ApexModule); ok {
return am.AvailableFor(android.AvailableToPlatform)
}
return false
}
////////////////////////////////////////////////////////////////////////////////////////////////////
// Mutators
//
// Brief description about mutators for APEX. The following three mutators are the most important
// ones.
//
// 1) DepsMutator: from the properties like native_shared_libs, java_libs, etc., modules are added
// to the (direct) dependencies of this APEX bundle.
//
// 2) apexInfoMutator: this is a post-deps mutator, so runs after DepsMutator. Its goal is to
// collect modules that are direct and transitive dependencies of each APEX bundle. The collected
// modules are marked as being included in the APEX via BuildForApex().
//
// 3) apexMutator: this is a post-deps mutator that runs after apexInfoMutator. For each module that
// are marked by the apexInfoMutator, apex variations are created using CreateApexVariations().
type dependencyTag struct {
blueprint.BaseDependencyTag
name string
// Determines if the dependent will be part of the APEX payload. Can be false for the
// dependencies to the signing key module, etc.
payload bool
}
var (
androidAppTag = dependencyTag{name: "androidApp", payload: true}
bpfTag = dependencyTag{name: "bpf", payload: true}
certificateTag = dependencyTag{name: "certificate"}
executableTag = dependencyTag{name: "executable", payload: true}
fsTag = dependencyTag{name: "filesystem", payload: true}
bootImageTag = dependencyTag{name: "bootImage", payload: true}
compatConfigsTag = dependencyTag{name: "compatConfig", payload: true}
javaLibTag = dependencyTag{name: "javaLib", payload: true}
jniLibTag = dependencyTag{name: "jniLib", payload: true}
keyTag = dependencyTag{name: "key"}
prebuiltTag = dependencyTag{name: "prebuilt", payload: true}
rroTag = dependencyTag{name: "rro", payload: true}
sharedLibTag = dependencyTag{name: "sharedLib", payload: true}
testForTag = dependencyTag{name: "test for"}
testTag = dependencyTag{name: "test", payload: true}
)
// TODO(jiyong): shorten this function signature
func addDependenciesForNativeModules(ctx android.BottomUpMutatorContext, nativeModules ApexNativeDependencies, target android.Target, imageVariation string) {
binVariations := target.Variations()
libVariations := append(target.Variations(), blueprint.Variation{Mutator: "link", Variation: "shared"})
rustLibVariations := append(target.Variations(), blueprint.Variation{Mutator: "rust_libraries", Variation: "dylib"})
if ctx.Device() {
binVariations = append(binVariations, blueprint.Variation{Mutator: "image", Variation: imageVariation})
libVariations = append(libVariations, blueprint.Variation{Mutator: "image", Variation: imageVariation})
rustLibVariations = append(rustLibVariations, blueprint.Variation{Mutator: "image", Variation: imageVariation})
}
// Use *FarVariation* to be able to depend on modules having conflicting variations with
// this module. This is required since arch variant of an APEX bundle is 'common' but it is
// 'arm' or 'arm64' for native shared libs.
ctx.AddFarVariationDependencies(binVariations, executableTag, nativeModules.Binaries...)
ctx.AddFarVariationDependencies(binVariations, testTag, nativeModules.Tests...)
ctx.AddFarVariationDependencies(libVariations, jniLibTag, nativeModules.Jni_libs...)
ctx.AddFarVariationDependencies(libVariations, sharedLibTag, nativeModules.Native_shared_libs...)
ctx.AddFarVariationDependencies(rustLibVariations, sharedLibTag, nativeModules.Rust_dyn_libs...)
ctx.AddFarVariationDependencies(target.Variations(), fsTag, nativeModules.Filesystems...)
}
func (a *apexBundle) combineProperties(ctx android.BottomUpMutatorContext) {
if ctx.Device() {
proptools.AppendProperties(&a.properties.Multilib, &a.targetProperties.Target.Android.Multilib, nil)
} else {
proptools.AppendProperties(&a.properties.Multilib, &a.targetProperties.Target.Host.Multilib, nil)
if ctx.Os().Bionic() {
proptools.AppendProperties(&a.properties.Multilib, &a.targetProperties.Target.Linux_bionic.Multilib, nil)
} else {
proptools.AppendProperties(&a.properties.Multilib, &a.targetProperties.Target.Linux_glibc.Multilib, nil)
}
}
}
// getImageVariation returns the image variant name for this apexBundle. In most cases, it's simply
// android.CoreVariation, but gets complicated for the vendor APEXes and the VNDK APEX.
func (a *apexBundle) getImageVariation(ctx android.BottomUpMutatorContext) string {
deviceConfig := ctx.DeviceConfig()
if a.vndkApex {
return cc.VendorVariationPrefix + a.vndkVersion(deviceConfig)
}
var prefix string
var vndkVersion string
if deviceConfig.VndkVersion() != "" {
if proptools.Bool(a.properties.Use_vendor) {
prefix = cc.VendorVariationPrefix
vndkVersion = deviceConfig.PlatformVndkVersion()
} else if a.SocSpecific() || a.DeviceSpecific() {
prefix = cc.VendorVariationPrefix
vndkVersion = deviceConfig.VndkVersion()
} else if a.ProductSpecific() {
prefix = cc.ProductVariationPrefix
vndkVersion = deviceConfig.ProductVndkVersion()
}
}
if vndkVersion == "current" {
vndkVersion = deviceConfig.PlatformVndkVersion()
}
if vndkVersion != "" {
return prefix + vndkVersion
}
return android.CoreVariation // The usual case
}
func (a *apexBundle) DepsMutator(ctx android.BottomUpMutatorContext) {
// TODO(jiyong): move this kind of checks to GenerateAndroidBuildActions?
checkUseVendorProperty(ctx, a)
// apexBundle is a multi-arch targets module. Arch variant of apexBundle is set to 'common'.
// arch-specific targets are enabled by the compile_multilib setting of the apex bundle. For
// each target os/architectures, appropriate dependencies are selected by their
// target.<os>.multilib.<type> groups and are added as (direct) dependencies.
targets := ctx.MultiTargets()
config := ctx.DeviceConfig()
imageVariation := a.getImageVariation(ctx)
a.combineProperties(ctx)
has32BitTarget := false
for _, target := range targets {
if target.Arch.ArchType.Multilib == "lib32" {
has32BitTarget = true
}
}
for i, target := range targets {
// Don't include artifacts for the host cross targets because there is no way for us
// to run those artifacts natively on host
if target.HostCross {
continue
}
var depsList []ApexNativeDependencies
// Add native modules targeting both ABIs. When multilib.* is omitted for
// native_shared_libs/jni_libs/tests, it implies multilib.both
depsList = append(depsList, a.properties.Multilib.Both)
depsList = append(depsList, ApexNativeDependencies{
Native_shared_libs: a.properties.Native_shared_libs,
Tests: a.properties.Tests,
Jni_libs: a.properties.Jni_libs,
Binaries: nil,
})
// Add native modules targeting the first ABI When multilib.* is omitted for
// binaries, it implies multilib.first
isPrimaryAbi := i == 0
if isPrimaryAbi {
depsList = append(depsList, a.properties.Multilib.First)
depsList = append(depsList, ApexNativeDependencies{
Native_shared_libs: nil,
Tests: nil,
Jni_libs: nil,
Binaries: a.properties.Binaries,
})
}
// Add native modules targeting either 32-bit or 64-bit ABI
switch target.Arch.ArchType.Multilib {
case "lib32":
depsList = append(depsList, a.properties.Multilib.Lib32)
depsList = append(depsList, a.properties.Multilib.Prefer32)
case "lib64":
depsList = append(depsList, a.properties.Multilib.Lib64)
if !has32BitTarget {
depsList = append(depsList, a.properties.Multilib.Prefer32)
}
}
// Add native modules targeting a specific arch variant
switch target.Arch.ArchType {
case android.Arm:
depsList = append(depsList, a.archProperties.Arch.Arm.ApexNativeDependencies)
case android.Arm64:
depsList = append(depsList, a.archProperties.Arch.Arm64.ApexNativeDependencies)
case android.X86:
depsList = append(depsList, a.archProperties.Arch.X86.ApexNativeDependencies)
case android.X86_64:
depsList = append(depsList, a.archProperties.Arch.X86_64.ApexNativeDependencies)
default:
panic(fmt.Errorf("unsupported arch %v\n", ctx.Arch().ArchType))
}
for _, d := range depsList {
addDependenciesForNativeModules(ctx, d, target, imageVariation)
}
}
// For prebuilt_etc, use the first variant (64 on 64/32bit device, 32 on 32bit device)
// regardless of the TARGET_PREFER_* setting. See b/144532908
archForPrebuiltEtc := config.Arches()[0]
for _, arch := range config.Arches() {
// Prefer 64-bit arch if there is any
if arch.ArchType.Multilib == "lib64" {
archForPrebuiltEtc = arch
break
}
}
ctx.AddFarVariationDependencies([]blueprint.Variation{
{Mutator: "os", Variation: ctx.Os().String()},
{Mutator: "arch", Variation: archForPrebuiltEtc.String()},
}, prebuiltTag, a.properties.Prebuilts...)
// Common-arch dependencies come next
commonVariation := ctx.Config().AndroidCommonTarget.Variations()
ctx.AddFarVariationDependencies(commonVariation, bootImageTag, a.properties.Boot_images...)
ctx.AddFarVariationDependencies(commonVariation, javaLibTag, a.properties.Java_libs...)
ctx.AddFarVariationDependencies(commonVariation, bpfTag, a.properties.Bpfs...)
ctx.AddFarVariationDependencies(commonVariation, fsTag, a.properties.Filesystems...)
ctx.AddFarVariationDependencies(commonVariation, compatConfigsTag, a.properties.Compat_configs...)
if a.artApex {
// With EMMA_INSTRUMENT_FRAMEWORK=true the ART boot image includes jacoco library.
if ctx.Config().IsEnvTrue("EMMA_INSTRUMENT_FRAMEWORK") {
ctx.AddFarVariationDependencies(commonVariation, javaLibTag, "jacocoagent")
}
}
// Dependencies for signing
if String(a.properties.Key) == "" {
ctx.PropertyErrorf("key", "missing")
return
}
ctx.AddDependency(ctx.Module(), keyTag, String(a.properties.Key))
cert := android.SrcIsModule(a.getCertString(ctx))
if cert != "" {
ctx.AddDependency(ctx.Module(), certificateTag, cert)
// empty cert is not an error. Cert and private keys will be directly found under
// PRODUCT_DEFAULT_DEV_CERTIFICATE
}
// Marks that this APEX (in fact all the modules in it) has to be built with the given SDKs.
// This field currently isn't used.
// TODO(jiyong): consider dropping this feature
// TODO(jiyong): ensure that all apexes are with non-empty uses_sdks
if len(a.properties.Uses_sdks) > 0 {
sdkRefs := []android.SdkRef{}
for _, str := range a.properties.Uses_sdks {
parsed := android.ParseSdkRef(ctx, str, "uses_sdks")
sdkRefs = append(sdkRefs, parsed)
}
a.BuildWithSdks(sdkRefs)
}
}
// DepsMutator for the overridden properties.
func (a *apexBundle) OverridablePropertiesDepsMutator(ctx android.BottomUpMutatorContext) {
if a.overridableProperties.Allowed_files != nil {
android.ExtractSourceDeps(ctx, a.overridableProperties.Allowed_files)
}
commonVariation := ctx.Config().AndroidCommonTarget.Variations()
ctx.AddFarVariationDependencies(commonVariation, androidAppTag, a.overridableProperties.Apps...)
ctx.AddFarVariationDependencies(commonVariation, rroTag, a.overridableProperties.Rros...)
}
type ApexBundleInfo struct {
Contents *android.ApexContents
}
var ApexBundleInfoProvider = blueprint.NewMutatorProvider(ApexBundleInfo{}, "apex_info")
var _ ApexInfoMutator = (*apexBundle)(nil)
// ApexInfoMutator is responsible for collecting modules that need to have apex variants. They are
// identified by doing a graph walk starting from an apexBundle. Basically, all the (direct and
// indirect) dependencies are collected. But a few types of modules that shouldn't be included in
// the apexBundle (e.g. stub libraries) are not collected. Note that a single module can be depended
// on by multiple apexBundles. In that case, the module is collected for all of the apexBundles.
//
// For each dependency between an apex and an ApexModule an ApexInfo object describing the apex
// is passed to that module's BuildForApex(ApexInfo) method which collates them all in a list.
// The apexMutator uses that list to create module variants for the apexes to which it belongs.
// The relationship between module variants and apexes is not one-to-one as variants will be
// shared between compatible apexes.
func (a *apexBundle) ApexInfoMutator(mctx android.TopDownMutatorContext) {
// The VNDK APEX is special. For the APEX, the membership is described in a very different
// way. There is no dependency from the VNDK APEX to the VNDK libraries. Instead, VNDK
// libraries are self-identified by their vndk.enabled properties. There is no need to run
// this mutator for the APEX as nothing will be collected. So, let's return fast.
if a.vndkApex {
return
}
// Special casing for APEXes on non-system (e.g., vendor, odm, etc.) partitions. They are
// provided with a property named use_vndk_as_stable, which when set to true doesn't collect
// VNDK libraries as transitive dependencies. This option is useful for reducing the size of
// the non-system APEXes because the VNDK libraries won't be included (and duped) in the
// APEX, but shared across APEXes via the VNDK APEX.
useVndk := a.SocSpecific() || a.DeviceSpecific() || (a.ProductSpecific() && mctx.Config().EnforceProductPartitionInterface())
excludeVndkLibs := useVndk && proptools.Bool(a.properties.Use_vndk_as_stable)
if !useVndk && proptools.Bool(a.properties.Use_vndk_as_stable) {
mctx.PropertyErrorf("use_vndk_as_stable", "not supported for system/system_ext APEXes")
return
}
continueApexDepsWalk := func(child, parent android.Module) bool {
am, ok := child.(android.ApexModule)
if !ok || !am.CanHaveApexVariants() {
return false
}
if !parent.(android.DepIsInSameApex).DepIsInSameApex(mctx, child) {
return false
}
if excludeVndkLibs {
if c, ok := child.(*cc.Module); ok && c.IsVndk() {
return false
}
}
// By default, all the transitive dependencies are collected, unless filtered out
// above.
return true
}
// Records whether a certain module is included in this apexBundle via direct dependency or
// inndirect dependency.
contents := make(map[string]android.ApexMembership)
mctx.WalkDeps(func(child, parent android.Module) bool {
if !continueApexDepsWalk(child, parent) {
return false
}
// If the parent is apexBundle, this child is directly depended.
_, directDep := parent.(*apexBundle)
depName := mctx.OtherModuleName(child)
contents[depName] = contents[depName].Add(directDep)
return true
})
// The membership information is saved for later access
apexContents := android.NewApexContents(contents)
mctx.SetProvider(ApexBundleInfoProvider, ApexBundleInfo{
Contents: apexContents,
})
minSdkVersion := a.minSdkVersion(mctx)
// When min_sdk_version is not set, the apex is built against FutureApiLevel.
if minSdkVersion.IsNone() {
minSdkVersion = android.FutureApiLevel
}
// This is the main part of this mutator. Mark the collected dependencies that they need to
// be built for this apexBundle.
apexInfo := android.ApexInfo{
ApexVariationName: mctx.ModuleName(),
MinSdkVersionStr: minSdkVersion.String(),
RequiredSdks: a.RequiredSdks(),
Updatable: a.Updatable(),
InApexes: []string{mctx.ModuleName()},
ApexContents: []*android.ApexContents{apexContents},
}
mctx.WalkDeps(func(child, parent android.Module) bool {
if !continueApexDepsWalk(child, parent) {
return false
}
child.(android.ApexModule).BuildForApex(apexInfo) // leave a mark!
return true
})
}
type ApexInfoMutator interface {
// ApexInfoMutator implementations must call BuildForApex(ApexInfo) on any modules that are
// depended upon by an apex and which require an apex specific variant.
ApexInfoMutator(android.TopDownMutatorContext)
}
// apexInfoMutator delegates the work of identifying which modules need an ApexInfo and apex
// specific variant to modules that support the ApexInfoMutator.
func apexInfoMutator(mctx android.TopDownMutatorContext) {
if !mctx.Module().Enabled() {
return
}
if a, ok := mctx.Module().(ApexInfoMutator); ok {
a.ApexInfoMutator(mctx)
return
}
}
// apexUniqueVariationsMutator checks if any dependencies use unique apex variations. If so, use
// unique apex variations for this module. See android/apex.go for more about unique apex variant.
// TODO(jiyong): move this to android/apex.go?
func apexUniqueVariationsMutator(mctx android.BottomUpMutatorContext) {
if !mctx.Module().Enabled() {
return
}
if am, ok := mctx.Module().(android.ApexModule); ok {
android.UpdateUniqueApexVariationsForDeps(mctx, am)
}
}
// apexTestForDepsMutator checks if this module is a test for an apex. If so, add a dependency on
// the apex in order to retrieve its contents later.
// TODO(jiyong): move this to android/apex.go?
func apexTestForDepsMutator(mctx android.BottomUpMutatorContext) {
if !mctx.Module().Enabled() {
return
}
if am, ok := mctx.Module().(android.ApexModule); ok {
if testFor := am.TestFor(); len(testFor) > 0 {
mctx.AddFarVariationDependencies([]blueprint.Variation{
{Mutator: "os", Variation: am.Target().OsVariation()},
{"arch", "common"},
}, testForTag, testFor...)
}
}
}
// TODO(jiyong): move this to android/apex.go?
func apexTestForMutator(mctx android.BottomUpMutatorContext) {
if !mctx.Module().Enabled() {
return
}
if _, ok := mctx.Module().(android.ApexModule); ok {
var contents []*android.ApexContents
for _, testFor := range mctx.GetDirectDepsWithTag(testForTag) {
abInfo := mctx.OtherModuleProvider(testFor, ApexBundleInfoProvider).(ApexBundleInfo)
contents = append(contents, abInfo.Contents)
}
mctx.SetProvider(android.ApexTestForInfoProvider, android.ApexTestForInfo{
ApexContents: contents,
})
}
}
// markPlatformAvailability marks whether or not a module can be available to platform. A module
// cannot be available to platform if 1) it is explicitly marked as not available (i.e.
// "//apex_available:platform" is absent) or 2) it depends on another module that isn't (or can't
// be) available to platform
// TODO(jiyong): move this to android/apex.go?
func markPlatformAvailability(mctx android.BottomUpMutatorContext) {
// Host and recovery are not considered as platform
if mctx.Host() || mctx.Module().InstallInRecovery() {
return
}
am, ok := mctx.Module().(android.ApexModule)
if !ok {
return
}
availableToPlatform := am.AvailableFor(android.AvailableToPlatform)
// If any of the dep is not available to platform, this module is also considered as being
// not available to platform even if it has "//apex_available:platform"
mctx.VisitDirectDeps(func(child android.Module) {
depTag := mctx.OtherModuleDependencyTag(child)
if _, ok := depTag.(android.ExcludeFromApexContentsTag); ok {
return
}
if !am.DepIsInSameApex(mctx, child) {
// if the dependency crosses apex boundary, don't consider it
return
}
if dep, ok := child.(android.ApexModule); ok && dep.NotAvailableForPlatform() {
availableToPlatform = false
// TODO(b/154889534) trigger an error when 'am' has
// "//apex_available:platform"
}
})
// Exception 1: stub libraries and native bridge libraries are always available to platform
if cc, ok := mctx.Module().(*cc.Module); ok &&
(cc.IsStubs() || cc.Target().NativeBridge == android.NativeBridgeEnabled) {
availableToPlatform = true
}
// Exception 2: bootstrap bionic libraries are also always available to platform
if cc.InstallToBootstrap(mctx.ModuleName(), mctx.Config()) {
availableToPlatform = true
}
if !availableToPlatform {
am.SetNotAvailableForPlatform()
}
}
// apexMutator visits each module and creates apex variations if the module was marked in the
// previous run of apexInfoMutator.
func apexMutator(mctx android.BottomUpMutatorContext) {
if !mctx.Module().Enabled() {
return
}
// This is the usual path.
if am, ok := mctx.Module().(android.ApexModule); ok && am.CanHaveApexVariants() {
android.CreateApexVariations(mctx, am)
return
}
// apexBundle itself is mutated so that it and its dependencies have the same apex variant.
// TODO(jiyong): document the reason why the VNDK APEX is an exception here.
if a, ok := mctx.Module().(*apexBundle); ok && !a.vndkApex {
apexBundleName := mctx.ModuleName()
mctx.CreateVariations(apexBundleName)
} else if o, ok := mctx.Module().(*OverrideApex); ok {
apexBundleName := o.GetOverriddenModuleName()
if apexBundleName == "" {
mctx.ModuleErrorf("base property is not set")
return
}
mctx.CreateVariations(apexBundleName)
}
}
// See android.UpdateDirectlyInAnyApex
// TODO(jiyong): move this to android/apex.go?
func apexDirectlyInAnyMutator(mctx android.BottomUpMutatorContext) {
if !mctx.Module().Enabled() {
return
}
if am, ok := mctx.Module().(android.ApexModule); ok {
android.UpdateDirectlyInAnyApex(mctx, am)
}
}
// apexPackaging represents a specific packaging method for an APEX.
type apexPackaging int
const (
// imageApex is a packaging method where contents are included in a filesystem image which
// is then included in a zip container. This is the most typical way of packaging.
imageApex apexPackaging = iota
// zipApex is a packaging method where contents are directly included in the zip container.
// This is used for host-side testing - because the contents are easily accessible by
// unzipping the container.
zipApex
// flattendApex is a packaging method where contents are not included in the APEX file, but
// installed to /apex/<apexname> directory on the device. This packaging method is used for
// old devices where the filesystem-based APEX file can't be supported.
flattenedApex
)
const (
// File extensions of an APEX for different packaging methods
imageApexSuffix = ".apex"
zipApexSuffix = ".zipapex"
flattenedSuffix = ".flattened"
// variant names each of which is for a packaging method
imageApexType = "image"
zipApexType = "zip"
flattenedApexType = "flattened"
ext4FsType = "ext4"
f2fsFsType = "f2fs"
)
// The suffix for the output "file", not the module
func (a apexPackaging) suffix() string {
switch a {
case imageApex:
return imageApexSuffix
case zipApex:
return zipApexSuffix
default:
panic(fmt.Errorf("unknown APEX type %d", a))
}
}
func (a apexPackaging) name() string {
switch a {
case imageApex:
return imageApexType
case zipApex:
return zipApexType
default:
panic(fmt.Errorf("unknown APEX type %d", a))
}
}
// apexFlattenedMutator creates one or more variations each of which is for a packaging method.
// TODO(jiyong): give a better name to this mutator
func apexFlattenedMutator(mctx android.BottomUpMutatorContext) {
if !mctx.Module().Enabled() {
return
}
if ab, ok := mctx.Module().(*apexBundle); ok {
var variants []string
switch proptools.StringDefault(ab.properties.Payload_type, "image") {
case "image":
// This is the normal case. Note that both image and flattend APEXes are
// created. The image type is installed to the system partition, while the
// flattened APEX is (optionally) installed to the system_ext partition.
// This is mostly for GSI which has to support wide range of devices. If GSI
// is installed on a newer (APEX-capable) device, the image APEX in the
// system will be used. However, if the same GSI is installed on an old
// device which can't support image APEX, the flattened APEX in the
// system_ext partion (which still is part of GSI) is used instead.
variants = append(variants, imageApexType, flattenedApexType)
case "zip":
variants = append(variants, zipApexType)
case "both":
variants = append(variants, imageApexType, zipApexType, flattenedApexType)
default:
mctx.PropertyErrorf("payload_type", "%q is not one of \"image\", \"zip\", or \"both\".", *ab.properties.Payload_type)
return
}
modules := mctx.CreateLocalVariations(variants...)
for i, v := range variants {
switch v {
case imageApexType:
modules[i].(*apexBundle).properties.ApexType = imageApex
case zipApexType:
modules[i].(*apexBundle).properties.ApexType = zipApex
case flattenedApexType:
modules[i].(*apexBundle).properties.ApexType = flattenedApex
// See the comment above for why system_ext.
if !mctx.Config().FlattenApex() && ab.Platform() {
modules[i].(*apexBundle).MakeAsSystemExt()
}
}
}
} else if _, ok := mctx.Module().(*OverrideApex); ok {
// payload_type is forcibly overridden to "image"
// TODO(jiyong): is this the right decision?
mctx.CreateVariations(imageApexType, flattenedApexType)
}
}
// checkUseVendorProperty checks if the use of `use_vendor` property is allowed for the given APEX.
// When use_vendor is used, native modules are built with __ANDROID_VNDK__ and __ANDROID_APEX__,
// which may cause compatibility issues. (e.g. libbinder) Even though libbinder restricts its
// availability via 'apex_available' property and relies on yet another macro
// __ANDROID_APEX_<NAME>__, we restrict usage of "use_vendor:" from other APEX modules to avoid
// similar problems.
func checkUseVendorProperty(ctx android.BottomUpMutatorContext, a *apexBundle) {
if proptools.Bool(a.properties.Use_vendor) && !android.InList(a.Name(), useVendorAllowList(ctx.Config())) {
ctx.PropertyErrorf("use_vendor", "not allowed to set use_vendor: true")
}
}
var (
useVendorAllowListKey = android.NewOnceKey("useVendorAllowList")
)
func useVendorAllowList(config android.Config) []string {
return config.Once(useVendorAllowListKey, func() interface{} {
return []string{
// swcodec uses "vendor" variants for smaller size
"com.android.media.swcodec",
"test_com.android.media.swcodec",
}
}).([]string)
}
// setUseVendorAllowListForTest overrides useVendorAllowList and must be called before the first
// call to useVendorAllowList()
func setUseVendorAllowListForTest(config android.Config, allowList []string) {
config.Once(useVendorAllowListKey, func() interface{} {
return allowList
})
}
var _ android.DepIsInSameApex = (*apexBundle)(nil)
// Implements android.DepInInSameApex
func (a *apexBundle) DepIsInSameApex(ctx android.BaseModuleContext, dep android.Module) bool {
// direct deps of an APEX bundle are all part of the APEX bundle
// TODO(jiyong): shouldn't we look into the payload field of the dependencyTag?
return true
}
var _ android.OutputFileProducer = (*apexBundle)(nil)
// Implements android.OutputFileProducer
func (a *apexBundle) OutputFiles(tag string) (android.Paths, error) {
switch tag {
case "", android.DefaultDistTag:
// This is the default dist path.
return android.Paths{a.outputFile}, nil
default:
return nil, fmt.Errorf("unsupported module reference tag %q", tag)
}
}
var _ cc.Coverage = (*apexBundle)(nil)
// Implements cc.Coverage
func (a *apexBundle) IsNativeCoverageNeeded(ctx android.BaseModuleContext) bool {
return ctx.Device() && ctx.DeviceConfig().NativeCoverageEnabled()
}
// Implements cc.Coverage
func (a *apexBundle) PreventInstall() {
a.properties.PreventInstall = true
}
// Implements cc.Coverage
func (a *apexBundle) HideFromMake() {
a.properties.HideFromMake = true
// This HideFromMake is shadowing the ModuleBase one, call through to it for now.
// TODO(ccross): untangle these
a.ModuleBase.HideFromMake()
}
// Implements cc.Coverage
func (a *apexBundle) MarkAsCoverageVariant(coverage bool) {
a.properties.IsCoverageVariant = coverage
}
// Implements cc.Coverage
func (a *apexBundle) EnableCoverageIfNeeded() {}
var _ android.ApexBundleDepsInfoIntf = (*apexBundle)(nil)
// Implements android.ApexBudleDepsInfoIntf
func (a *apexBundle) Updatable() bool {
return proptools.BoolDefault(a.properties.Updatable, true)
}
// getCertString returns the name of the cert that should be used to sign this APEX. This is
// basically from the "certificate" property, but could be overridden by the device config.
func (a *apexBundle) getCertString(ctx android.BaseModuleContext) string {
moduleName := ctx.ModuleName()
// VNDK APEXes share the same certificate. To avoid adding a new VNDK version to the
// OVERRIDE_* list, we check with the pseudo module name to see if its certificate is
// overridden.
if a.vndkApex {
moduleName = vndkApexName
}
certificate, overridden := ctx.DeviceConfig().OverrideCertificateFor(moduleName)
if overridden {
return ":" + certificate
}
return String(a.properties.Certificate)
}
// See the installable property
func (a *apexBundle) installable() bool {
return !a.properties.PreventInstall && (a.properties.Installable == nil || proptools.Bool(a.properties.Installable))
}
// See the test_only_no_hashtree property
func (a *apexBundle) testOnlyShouldSkipHashtreeGeneration() bool {
return proptools.Bool(a.properties.Test_only_no_hashtree)
}
// See the test_only_unsigned_payload property
func (a *apexBundle) testOnlyShouldSkipPayloadSign() bool {
return proptools.Bool(a.properties.Test_only_unsigned_payload)
}
// See the test_only_force_compression property
func (a *apexBundle) testOnlyShouldForceCompression() bool {
return proptools.Bool(a.properties.Test_only_force_compression)
}
// These functions are interfacing with cc/sanitizer.go. The entire APEX (along with all of its
// members) can be sanitized, either forcibly, or by the global configuration. For some of the
// sanitizers, extra dependencies can be forcibly added as well.
func (a *apexBundle) EnableSanitizer(sanitizerName string) {
if !android.InList(sanitizerName, a.properties.SanitizerNames) {
a.properties.SanitizerNames = append(a.properties.SanitizerNames, sanitizerName)
}
}
func (a *apexBundle) IsSanitizerEnabled(ctx android.BaseModuleContext, sanitizerName string) bool {
if android.InList(sanitizerName, a.properties.SanitizerNames) {
return true
}
// Then follow the global setting
globalSanitizerNames := []string{}
if a.Host() {
globalSanitizerNames = ctx.Config().SanitizeHost()
} else {
arches := ctx.Config().SanitizeDeviceArch()
if len(arches) == 0 || android.InList(a.Arch().ArchType.Name, arches) {
globalSanitizerNames = ctx.Config().SanitizeDevice()
}
}
return android.InList(sanitizerName, globalSanitizerNames)
}
func (a *apexBundle) AddSanitizerDependencies(ctx android.BottomUpMutatorContext, sanitizerName string) {
// TODO(jiyong): move this info (the sanitizer name, the lib name, etc.) to cc/sanitize.go
// Keep only the mechanism here.
if ctx.Device() && sanitizerName == "hwaddress" && strings.HasPrefix(a.Name(), "com.android.runtime") {
imageVariation := a.getImageVariation(ctx)
for _, target := range ctx.MultiTargets() {
if target.Arch.ArchType.Multilib == "lib64" {
addDependenciesForNativeModules(ctx, ApexNativeDependencies{
Native_shared_libs: []string{"libclang_rt.hwasan-aarch64-android"},
Tests: nil,
Jni_libs: nil,
Binaries: nil,
}, target, imageVariation)
break
}
}
}
}
// apexFileFor<Type> functions below create an apexFile struct for a given Soong module. The
// returned apexFile saves information about the Soong module that will be used for creating the
// build rules.
func apexFileForNativeLibrary(ctx android.BaseModuleContext, ccMod *cc.Module, handleSpecialLibs bool) apexFile {
// Decide the APEX-local directory by the multilib of the library In the future, we may
// query this to the module.
// TODO(jiyong): use the new PackagingSpec
var dirInApex string
switch ccMod.Arch().ArchType.Multilib {
case "lib32":
dirInApex = "lib"
case "lib64":
dirInApex = "lib64"
}
if ccMod.Target().NativeBridge == android.NativeBridgeEnabled {
dirInApex = filepath.Join(dirInApex, ccMod.Target().NativeBridgeRelativePath)
}
dirInApex = filepath.Join(dirInApex, ccMod.RelativeInstallPath())
if handleSpecialLibs && cc.InstallToBootstrap(ccMod.BaseModuleName(), ctx.Config()) {
// Special case for Bionic libs and other libs installed with them. This is to
// prevent those libs from being included in the search path
// /apex/com.android.runtime/${LIB}. This exclusion is required because those libs
// in the Runtime APEX are available via the legacy paths in /system/lib/. By the
// init process, the libs in the APEX are bind-mounted to the legacy paths and thus
// will be loaded into the default linker namespace (aka "platform" namespace). If
// the libs are directly in /apex/com.android.runtime/${LIB} then the same libs will
// be loaded again into the runtime linker namespace, which will result in double
// loading of them, which isn't supported.
dirInApex = filepath.Join(dirInApex, "bionic")
}
fileToCopy := ccMod.OutputFile().Path()
androidMkModuleName := ccMod.BaseModuleName() + ccMod.Properties.SubName
return newApexFile(ctx, fileToCopy, androidMkModuleName, dirInApex, nativeSharedLib, ccMod)
}
func apexFileForExecutable(ctx android.BaseModuleContext, cc *cc.Module) apexFile {
dirInApex := "bin"
if cc.Target().NativeBridge == android.NativeBridgeEnabled {
dirInApex = filepath.Join(dirInApex, cc.Target().NativeBridgeRelativePath)
}
dirInApex = filepath.Join(dirInApex, cc.RelativeInstallPath())
fileToCopy := cc.OutputFile().Path()
androidMkModuleName := cc.BaseModuleName() + cc.Properties.SubName
af := newApexFile(ctx, fileToCopy, androidMkModuleName, dirInApex, nativeExecutable, cc)
af.symlinks = cc.Symlinks()
af.dataPaths = cc.DataPaths()
return af
}
func apexFileForRustExecutable(ctx android.BaseModuleContext, rustm *rust.Module) apexFile {
dirInApex := "bin"
if rustm.Target().NativeBridge == android.NativeBridgeEnabled {
dirInApex = filepath.Join(dirInApex, rustm.Target().NativeBridgeRelativePath)
}
fileToCopy := rustm.OutputFile().Path()
androidMkModuleName := rustm.BaseModuleName() + rustm.Properties.SubName
af := newApexFile(ctx, fileToCopy, androidMkModuleName, dirInApex, nativeExecutable, rustm)
return af
}
func apexFileForRustLibrary(ctx android.BaseModuleContext, rustm *rust.Module) apexFile {
// Decide the APEX-local directory by the multilib of the library
// In the future, we may query this to the module.
var dirInApex string
switch rustm.Arch().ArchType.Multilib {
case "lib32":
dirInApex = "lib"
case "lib64":
dirInApex = "lib64"
}
if rustm.Target().NativeBridge == android.NativeBridgeEnabled {
dirInApex = filepath.Join(dirInApex, rustm.Target().NativeBridgeRelativePath)
}
fileToCopy := rustm.OutputFile().Path()
androidMkModuleName := rustm.BaseModuleName() + rustm.Properties.SubName
return newApexFile(ctx, fileToCopy, androidMkModuleName, dirInApex, nativeSharedLib, rustm)
}
func apexFileForPyBinary(ctx android.BaseModuleContext, py *python.Module) apexFile {
dirInApex := "bin"
fileToCopy := py.HostToolPath().Path()
return newApexFile(ctx, fileToCopy, py.BaseModuleName(), dirInApex, pyBinary, py)
}
func apexFileForGoBinary(ctx android.BaseModuleContext, depName string, gb bootstrap.GoBinaryTool) apexFile {
dirInApex := "bin"
s, err := filepath.Rel(android.PathForOutput(ctx).String(), gb.InstallPath())
if err != nil {
ctx.ModuleErrorf("Unable to use compiled binary at %s", gb.InstallPath())
return apexFile{}
}
fileToCopy := android.PathForOutput(ctx, s)
// NB: Since go binaries are static we don't need the module for anything here, which is
// good since the go tool is a blueprint.Module not an android.Module like we would
// normally use.
return newApexFile(ctx, fileToCopy, depName, dirInApex, goBinary, nil)
}
func apexFileForShBinary(ctx android.BaseModuleContext, sh *sh.ShBinary) apexFile {
dirInApex := filepath.Join("bin", sh.SubDir())
fileToCopy := sh.OutputFile()
af := newApexFile(ctx, fileToCopy, sh.BaseModuleName(), dirInApex, shBinary, sh)
af.symlinks = sh.Symlinks()
return af
}
func apexFileForPrebuiltEtc(ctx android.BaseModuleContext, prebuilt prebuilt_etc.PrebuiltEtcModule, depName string) apexFile {
dirInApex := filepath.Join(prebuilt.BaseDir(), prebuilt.SubDir())
fileToCopy := prebuilt.OutputFile()
return newApexFile(ctx, fileToCopy, depName, dirInApex, etc, prebuilt)
}
func apexFileForCompatConfig(ctx android.BaseModuleContext, config java.PlatformCompatConfigIntf, depName string) apexFile {
dirInApex := filepath.Join("etc", config.SubDir())
fileToCopy := config.CompatConfig()
return newApexFile(ctx, fileToCopy, depName, dirInApex, etc, config)
}
// javaModule is an interface to handle all Java modules (java_library, dex_import, etc) in the same
// way.
type javaModule interface {
android.Module
BaseModuleName() string
DexJarBuildPath() android.Path
JacocoReportClassesFile() android.Path
LintDepSets() java.LintDepSets
Stem() string
}
var _ javaModule = (*java.Library)(nil)
var _ javaModule = (*java.Import)(nil)
var _ javaModule = (*java.SdkLibrary)(nil)
var _ javaModule = (*java.DexImport)(nil)
var _ javaModule = (*java.SdkLibraryImport)(nil)
func apexFileForJavaModule(ctx android.BaseModuleContext, module javaModule) apexFile {
dirInApex := "javalib"
fileToCopy := module.DexJarBuildPath()
af := newApexFile(ctx, fileToCopy, module.BaseModuleName(), dirInApex, javaSharedLib, module)
af.jacocoReportClassesFile = module.JacocoReportClassesFile()
af.lintDepSets = module.LintDepSets()
af.customStem = module.Stem() + ".jar"
return af
}
// androidApp is an interface to handle all app modules (android_app, android_app_import, etc.) in
// the same way.
type androidApp interface {
android.Module
Privileged() bool
InstallApkName() string
OutputFile() android.Path
JacocoReportClassesFile() android.Path
Certificate() java.Certificate
BaseModuleName() string
}
var _ androidApp = (*java.AndroidApp)(nil)
var _ androidApp = (*java.AndroidAppImport)(nil)
func apexFileForAndroidApp(ctx android.BaseModuleContext, aapp androidApp) apexFile {
appDir := "app"
if aapp.Privileged() {
appDir = "priv-app"
}
dirInApex := filepath.Join(appDir, aapp.InstallApkName())
fileToCopy := aapp.OutputFile()
af := newApexFile(ctx, fileToCopy, aapp.BaseModuleName(), dirInApex, app, aapp)
af.jacocoReportClassesFile = aapp.JacocoReportClassesFile()
af.certificate = aapp.Certificate()
if app, ok := aapp.(interface {
OverriddenManifestPackageName() string
}); ok {
af.overriddenPackageName = app.OverriddenManifestPackageName()
}
return af
}
func apexFileForRuntimeResourceOverlay(ctx android.BaseModuleContext, rro java.RuntimeResourceOverlayModule) apexFile {
rroDir := "overlay"
dirInApex := filepath.Join(rroDir, rro.Theme())
fileToCopy := rro.OutputFile()
af := newApexFile(ctx, fileToCopy, rro.Name(), dirInApex, app, rro)
af.certificate = rro.Certificate()
if a, ok := rro.(interface {
OverriddenManifestPackageName() string
}); ok {
af.overriddenPackageName = a.OverriddenManifestPackageName()
}
return af
}
func apexFileForBpfProgram(ctx android.BaseModuleContext, builtFile android.Path, bpfProgram bpf.BpfModule) apexFile {
dirInApex := filepath.Join("etc", "bpf")
return newApexFile(ctx, builtFile, builtFile.Base(), dirInApex, etc, bpfProgram)
}
func apexFileForFilesystem(ctx android.BaseModuleContext, buildFile android.Path, fs filesystem.Filesystem) apexFile {
dirInApex := filepath.Join("etc", "fs")
return newApexFile(ctx, buildFile, buildFile.Base(), dirInApex, etc, fs)
}
// WalkPayloadDeps visits dependencies that contributes to the payload of this APEX. For each of the
// visited module, the `do` callback is executed. Returning true in the callback continues the visit
// to the child modules. Returning false makes the visit to continue in the sibling or the parent
// modules. This is used in check* functions below.
func (a *apexBundle) WalkPayloadDeps(ctx android.ModuleContext, do android.PayloadDepsCallback) {
ctx.WalkDeps(func(child, parent android.Module) bool {
am, ok := child.(android.ApexModule)
if !ok || !am.CanHaveApexVariants() {
return false
}
// Filter-out unwanted depedendencies
depTag := ctx.OtherModuleDependencyTag(child)
if _, ok := depTag.(android.ExcludeFromApexContentsTag); ok {
return false
}
if dt, ok := depTag.(dependencyTag); ok && !dt.payload {
return false
}
if depTag == dexpreopt.Dex2oatDepTag {
return false
}
ai := ctx.OtherModuleProvider(child, android.ApexInfoProvider).(android.ApexInfo)
externalDep := !android.InList(ctx.ModuleName(), ai.InApexes)
// Visit actually
return do(ctx, parent, am, externalDep)
})
}
// filesystem type of the apex_payload.img inside the APEX. Currently, ext4 and f2fs are supported.
type fsType int
const (
ext4 fsType = iota
f2fs
)
func (f fsType) string() string {
switch f {
case ext4:
return ext4FsType
case f2fs:
return f2fsFsType
default:
panic(fmt.Errorf("unknown APEX payload type %d", f))
}
}
// Creates build rules for an APEX. It consists of the following major steps:
//
// 1) do some validity checks such as apex_available, min_sdk_version, etc.
// 2) traverse the dependency tree to collect apexFile structs from them.
// 3) some fields in apexBundle struct are configured
// 4) generate the build rules to create the APEX. This is mostly done in builder.go.
func (a *apexBundle) GenerateAndroidBuildActions(ctx android.ModuleContext) {
////////////////////////////////////////////////////////////////////////////////////////////
// 1) do some validity checks such as apex_available, min_sdk_version, etc.
a.checkApexAvailability(ctx)
a.checkUpdatable(ctx)
a.checkMinSdkVersion(ctx)
a.checkStaticLinkingToStubLibraries(ctx)
if len(a.properties.Tests) > 0 && !a.testApex {
ctx.PropertyErrorf("tests", "property allowed only in apex_test module type")
return
}
////////////////////////////////////////////////////////////////////////////////////////////
// 2) traverse the dependency tree to collect apexFile structs from them.
// all the files that will be included in this APEX
var filesInfo []apexFile
// native lib dependencies
var provideNativeLibs []string
var requireNativeLibs []string
handleSpecialLibs := !android.Bool(a.properties.Ignore_system_library_special_case)
// TODO(jiyong): do this using WalkPayloadDeps
// TODO(jiyong): make this clean!!!
ctx.WalkDepsBlueprint(func(child, parent blueprint.Module) bool {
depTag := ctx.OtherModuleDependencyTag(child)
if _, ok := depTag.(android.ExcludeFromApexContentsTag); ok {
return false
}
depName := ctx.OtherModuleName(child)
if _, isDirectDep := parent.(*apexBundle); isDirectDep {
switch depTag {
case sharedLibTag, jniLibTag:
isJniLib := depTag == jniLibTag
if c, ok := child.(*cc.Module); ok {
fi := apexFileForNativeLibrary(ctx, c, handleSpecialLibs)
fi.isJniLib = isJniLib
filesInfo = append(filesInfo, fi)
// Collect the list of stub-providing libs except:
// - VNDK libs are only for vendors
// - bootstrap bionic libs are treated as provided by system
if c.HasStubsVariants() && !a.vndkApex && !cc.InstallToBootstrap(c.BaseModuleName(), ctx.Config()) {
provideNativeLibs = append(provideNativeLibs, fi.stem())
}
return true // track transitive dependencies
} else if r, ok := child.(*rust.Module); ok {
fi := apexFileForRustLibrary(ctx, r)
filesInfo = append(filesInfo, fi)
} else {
propertyName := "native_shared_libs"
if isJniLib {
propertyName = "jni_libs"
}
ctx.PropertyErrorf(propertyName, "%q is not a cc_library or cc_library_shared module", depName)
}
case executableTag:
if cc, ok := child.(*cc.Module); ok {
filesInfo = append(filesInfo, apexFileForExecutable(ctx, cc))
return true // track transitive dependencies
} else if sh, ok := child.(*sh.ShBinary); ok {
filesInfo = append(filesInfo, apexFileForShBinary(ctx, sh))
} else if py, ok := child.(*python.Module); ok && py.HostToolPath().Valid() {
filesInfo = append(filesInfo, apexFileForPyBinary(ctx, py))
} else if gb, ok := child.(bootstrap.GoBinaryTool); ok && a.Host() {
filesInfo = append(filesInfo, apexFileForGoBinary(ctx, depName, gb))
} else if rust, ok := child.(*rust.Module); ok {
filesInfo = append(filesInfo, apexFileForRustExecutable(ctx, rust))
return true // track transitive dependencies
} else {
ctx.PropertyErrorf("binaries", "%q is neither cc_binary, rust_binary, (embedded) py_binary, (host) blueprint_go_binary, (host) bootstrap_go_binary, nor sh_binary", depName)
}
case bootImageTag:
{
if _, ok := child.(*java.BootImageModule); !ok {
ctx.PropertyErrorf("boot_images", "%q is not a boot_image module", depName)
return false
}
bootImageInfo := ctx.OtherModuleProvider(child, java.BootImageInfoProvider).(java.BootImageInfo)
for arch, files := range bootImageInfo.AndroidBootImageFilesByArchType() {
dirInApex := filepath.Join("javalib", arch.String())
for _, f := range files {
androidMkModuleName := "javalib_" + arch.String() + "_" + filepath.Base(f.String())
// TODO(b/177892522) - consider passing in the boot image module here instead of nil
af := newApexFile(ctx, f, androidMkModuleName, dirInApex, etc, nil)
filesInfo = append(filesInfo, af)
}
}
}
case javaLibTag:
switch child.(type) {
case *java.Library, *java.SdkLibrary, *java.DexImport, *java.SdkLibraryImport, *java.Import:
af := apexFileForJavaModule(ctx, child.(javaModule))
if !af.ok() {
ctx.PropertyErrorf("java_libs", "%q is not configured to be compiled into dex", depName)
return false
}
filesInfo = append(filesInfo, af)
return true // track transitive dependencies
default:
ctx.PropertyErrorf("java_libs", "%q of type %q is not supported", depName, ctx.OtherModuleType(child))
}
case androidAppTag:
if ap, ok := child.(*java.AndroidApp); ok {
filesInfo = append(filesInfo, apexFileForAndroidApp(ctx, ap))
return true // track transitive dependencies
} else if ap, ok := child.(*java.AndroidAppImport); ok {
filesInfo = append(filesInfo, apexFileForAndroidApp(ctx, ap))
} else if ap, ok := child.(*java.AndroidTestHelperApp); ok {
filesInfo = append(filesInfo, apexFileForAndroidApp(ctx, ap))
} else if ap, ok := child.(*java.AndroidAppSet); ok {
appDir := "app"
if ap.Privileged() {
appDir = "priv-app"
}
af := newApexFile(ctx, ap.OutputFile(), ap.BaseModuleName(),
filepath.Join(appDir, ap.BaseModuleName()), appSet, ap)
af.certificate = java.PresignedCertificate
filesInfo = append(filesInfo, af)
} else {
ctx.PropertyErrorf("apps", "%q is not an android_app module", depName)
}
case rroTag:
if rro, ok := child.(java.RuntimeResourceOverlayModule); ok {
filesInfo = append(filesInfo, apexFileForRuntimeResourceOverlay(ctx, rro))
} else {
ctx.PropertyErrorf("rros", "%q is not an runtime_resource_overlay module", depName)
}
case bpfTag:
if bpfProgram, ok := child.(bpf.BpfModule); ok {
filesToCopy, _ := bpfProgram.OutputFiles("")
for _, bpfFile := range filesToCopy {
filesInfo = append(filesInfo, apexFileForBpfProgram(ctx, bpfFile, bpfProgram))
}
} else {
ctx.PropertyErrorf("bpfs", "%q is not a bpf module", depName)
}
case fsTag:
if fs, ok := child.(filesystem.Filesystem); ok {
filesInfo = append(filesInfo, apexFileForFilesystem(ctx, fs.OutputPath(), fs))
} else {
ctx.PropertyErrorf("filesystems", "%q is not a filesystem module", depName)
}
case prebuiltTag:
if prebuilt, ok := child.(prebuilt_etc.PrebuiltEtcModule); ok {
filesInfo = append(filesInfo, apexFileForPrebuiltEtc(ctx, prebuilt, depName))
} else {
ctx.PropertyErrorf("prebuilts", "%q is not a prebuilt_etc module", depName)
}
case compatConfigsTag:
if compatConfig, ok := child.(java.PlatformCompatConfigIntf); ok {
filesInfo = append(filesInfo, apexFileForCompatConfig(ctx, compatConfig, depName))
} else {
ctx.PropertyErrorf("compat_configs", "%q is not a platform_compat_config module", depName)
}
case testTag:
if ccTest, ok := child.(*cc.Module); ok {
if ccTest.IsTestPerSrcAllTestsVariation() {
// Multiple-output test module (where `test_per_src: true`).
//
// `ccTest` is the "" ("all tests") variation of a `test_per_src` module.
// We do not add this variation to `filesInfo`, as it has no output;
// however, we do add the other variations of this module as indirect
// dependencies (see below).
} else {
// Single-output test module (where `test_per_src: false`).
af := apexFileForExecutable(ctx, ccTest)
af.class = nativeTest
filesInfo = append(filesInfo, af)
}
return true // track transitive dependencies
} else {
ctx.PropertyErrorf("tests", "%q is not a cc module", depName)
}
case keyTag:
if key, ok := child.(*apexKey); ok {
a.privateKeyFile = key.privateKeyFile
a.publicKeyFile = key.publicKeyFile
} else {
ctx.PropertyErrorf("key", "%q is not an apex_key module", depName)
}
return false
case certificateTag:
if dep, ok := child.(*java.AndroidAppCertificate); ok {
a.containerCertificateFile = dep.Certificate.Pem
a.containerPrivateKeyFile = dep.Certificate.Key
} else {
ctx.ModuleErrorf("certificate dependency %q must be an android_app_certificate module", depName)
}
case android.PrebuiltDepTag:
// If the prebuilt is force disabled, remember to delete the prebuilt file
// that might have been installed in the previous builds
if prebuilt, ok := child.(prebuilt); ok && prebuilt.isForceDisabled() {
a.prebuiltFileToDelete = prebuilt.InstallFilename()
}
}
} else if !a.vndkApex {
// indirect dependencies
if am, ok := child.(android.ApexModule); ok {
// We cannot use a switch statement on `depTag` here as the checked
// tags used below are private (e.g. `cc.sharedDepTag`).
if cc.IsSharedDepTag(depTag) || cc.IsRuntimeDepTag(depTag) {
if cc, ok := child.(*cc.Module); ok {
if cc.UseVndk() && proptools.Bool(a.properties.Use_vndk_as_stable) && cc.IsVndk() {
requireNativeLibs = append(requireNativeLibs, ":vndk")
return false
}
af := apexFileForNativeLibrary(ctx, cc, handleSpecialLibs)
af.transitiveDep = true
// Always track transitive dependencies for host.
if a.Host() {
filesInfo = append(filesInfo, af)
return true
}
abInfo := ctx.Provider(ApexBundleInfoProvider).(ApexBundleInfo)
if !abInfo.Contents.DirectlyInApex(depName) && (cc.IsStubs() || cc.HasStubsVariants()) {
// If the dependency is a stubs lib, don't include it in this APEX,
// but make sure that the lib is installed on the device.
// In case no APEX is having the lib, the lib is installed to the system
// partition.
//
// Always include if we are a host-apex however since those won't have any
// system libraries.
if !am.DirectlyInAnyApex() {
// we need a module name for Make
name := cc.ImplementationModuleNameForMake(ctx)
if !proptools.Bool(a.properties.Use_vendor) {
// we don't use subName(.vendor) for a "use_vendor: true" apex
// which is supposed to be installed in /system
name += cc.Properties.SubName
}
if !android.InList(name, a.requiredDeps) {
a.requiredDeps = append(a.requiredDeps, name)
}
}
requireNativeLibs = append(requireNativeLibs, af.stem())
// Don't track further
return false
}
// If the dep is not considered to be in the same
// apex, don't add it to filesInfo so that it is not
// included in this APEX.
// TODO(jiyong): move this to at the top of the
// else-if clause for the indirect dependencies.
// Currently, that's impossible because we would
// like to record requiredNativeLibs even when
// DepIsInSameAPex is false. We also shouldn't do
// this for host.
if !am.DepIsInSameApex(ctx, am) {
return false
}
filesInfo = append(filesInfo, af)
return true // track transitive dependencies
} else if rm, ok := child.(*rust.Module); ok {
af := apexFileForRustLibrary(ctx, rm)
af.transitiveDep = true
filesInfo = append(filesInfo, af)
return true // track transitive dependencies
}
} else if cc.IsTestPerSrcDepTag(depTag) {
if cc, ok := child.(*cc.Module); ok {
af := apexFileForExecutable(ctx, cc)
// Handle modules created as `test_per_src` variations of a single test module:
// use the name of the generated test binary (`fileToCopy`) instead of the name
// of the original test module (`depName`, shared by all `test_per_src`
// variations of that module).
af.androidMkModuleName = filepath.Base(af.builtFile.String())
// these are not considered transitive dep
af.transitiveDep = false
filesInfo = append(filesInfo, af)
return true // track transitive dependencies
}
} else if cc.IsHeaderDepTag(depTag) {
// nothing
} else if java.IsJniDepTag(depTag) {
// Because APK-in-APEX embeds jni_libs transitively, we don't need to track transitive deps
return false
} else if java.IsXmlPermissionsFileDepTag(depTag) {
if prebuilt, ok := child.(prebuilt_etc.PrebuiltEtcModule); ok {
filesInfo = append(filesInfo, apexFileForPrebuiltEtc(ctx, prebuilt, depName))
}
} else if rust.IsDylibDepTag(depTag) {
if rustm, ok := child.(*rust.Module); ok && rustm.IsInstallableToApex() {
af := apexFileForRustLibrary(ctx, rustm)
af.transitiveDep = true
filesInfo = append(filesInfo, af)
return true // track transitive dependencies
}
} else if _, ok := depTag.(android.CopyDirectlyInAnyApexTag); ok {
// nothing
} else if am.CanHaveApexVariants() && am.IsInstallableToApex() {
ctx.ModuleErrorf("unexpected tag %s for indirect dependency %q", android.PrettyPrintTag(depTag), depName)
}
}
}
return false
})
if a.privateKeyFile == nil {
ctx.PropertyErrorf("key", "private_key for %q could not be found", String(a.properties.Key))
return
}
// Remove duplicates in filesInfo
removeDup := func(filesInfo []apexFile) []apexFile {
encountered := make(map[string]apexFile)
for _, f := range filesInfo {
dest := filepath.Join(f.installDir, f.builtFile.Base())
if e, ok := encountered[dest]; !ok {
encountered[dest] = f
} else {
// If a module is directly included and also transitively depended on
// consider it as directly included.
e.transitiveDep = e.transitiveDep && f.transitiveDep
encountered[dest] = e
}
}
var result []apexFile
for _, v := range encountered {
result = append(result, v)
}
return result
}
filesInfo = removeDup(filesInfo)
// Sort to have consistent build rules
sort.Slice(filesInfo, func(i, j int) bool {
return filesInfo[i].builtFile.String() < filesInfo[j].builtFile.String()
})
////////////////////////////////////////////////////////////////////////////////////////////
// 3) some fields in apexBundle struct are configured
a.installDir = android.PathForModuleInstall(ctx, "apex")
a.filesInfo = filesInfo
// Set suffix and primaryApexType depending on the ApexType
buildFlattenedAsDefault := ctx.Config().FlattenApex() && !ctx.Config().UnbundledBuildApps()
switch a.properties.ApexType {
case imageApex:
if buildFlattenedAsDefault {
a.suffix = imageApexSuffix
} else {
a.suffix = ""
a.primaryApexType = true
if ctx.Config().InstallExtraFlattenedApexes() {
a.requiredDeps = append(a.requiredDeps, a.Name()+flattenedSuffix)
}
}
case zipApex:
if proptools.String(a.properties.Payload_type) == "zip" {
a.suffix = ""
a.primaryApexType = true
} else {
a.suffix = zipApexSuffix
}
case flattenedApex:
if buildFlattenedAsDefault {
a.suffix = ""
a.primaryApexType = true
} else {
a.suffix = flattenedSuffix
}
}
switch proptools.StringDefault(a.properties.Payload_fs_type, ext4FsType) {
case ext4FsType:
a.payloadFsType = ext4
case f2fsFsType:
a.payloadFsType = f2fs
default:
ctx.PropertyErrorf("payload_fs_type", "%q is not a valid filesystem for apex [ext4, f2fs]", *a.properties.Payload_fs_type)
}
// Optimization. If we are building bundled APEX, for the files that are gathered due to the
// transitive dependencies, don't place them inside the APEX, but place a symlink pointing
// the same library in the system partition, thus effectively sharing the same libraries
// across the APEX boundary. For unbundled APEX, all the gathered files are actually placed
// in the APEX.
a.linkToSystemLib = !ctx.Config().UnbundledBuild() && a.installable() && !proptools.Bool(a.properties.Use_vendor)
// APEXes targeting other than system/system_ext partitions use vendor/product variants.
// So we can't link them to /system/lib libs which are core variants.
if a.SocSpecific() || a.DeviceSpecific() || (a.ProductSpecific() && ctx.Config().EnforceProductPartitionInterface()) {
a.linkToSystemLib = false
}
forced := ctx.Config().ForceApexSymlinkOptimization()
// We don't need the optimization for updatable APEXes, as it might give false signal
// to the system health when the APEXes are still bundled (b/149805758).
if !forced && a.Updatable() && a.properties.ApexType == imageApex {
a.linkToSystemLib = false
}
// We also don't want the optimization for host APEXes, because it doesn't make sense.
if ctx.Host() {
a.linkToSystemLib = false
}
a.compatSymlinks = makeCompatSymlinks(a.BaseModuleName(), ctx)
////////////////////////////////////////////////////////////////////////////////////////////
// 4) generate the build rules to create the APEX. This is done in builder.go.
a.buildManifest(ctx, provideNativeLibs, requireNativeLibs)
if a.properties.ApexType == flattenedApex {
a.buildFlattenedApex(ctx)
} else {
a.buildUnflattenedApex(ctx)
}
a.buildApexDependencyInfo(ctx)
a.buildLintReports(ctx)
// Append meta-files to the filesInfo list so that they are reflected in Android.mk as well.
if a.installable() {
// For flattened APEX, make sure that APEX manifest and apex_pubkey are also copied
// along with other ordinary files. (Note that this is done by apexer for
// non-flattened APEXes)
a.filesInfo = append(a.filesInfo, newApexFile(ctx, a.manifestPbOut, "apex_manifest.pb", ".", etc, nil))
// Place the public key as apex_pubkey. This is also done by apexer for
// non-flattened APEXes case.
// TODO(jiyong): Why do we need this CP rule?
copiedPubkey := android.PathForModuleOut(ctx, "apex_pubkey")
ctx.Build(pctx, android.BuildParams{
Rule: android.Cp,
Input: a.publicKeyFile,
Output: copiedPubkey,
})
a.filesInfo = append(a.filesInfo, newApexFile(ctx, copiedPubkey, "apex_pubkey", ".", etc, nil))
}
}
///////////////////////////////////////////////////////////////////////////////////////////////////
// Factory functions
//
func newApexBundle() *apexBundle {
module := &apexBundle{}
module.AddProperties(&module.properties)
module.AddProperties(&module.targetProperties)
module.AddProperties(&module.archProperties)
module.AddProperties(&module.overridableProperties)
android.InitAndroidMultiTargetsArchModule(module, android.HostAndDeviceSupported, android.MultilibCommon)
android.InitDefaultableModule(module)
android.InitSdkAwareModule(module)
android.InitOverridableModule(module, &module.overridableProperties.Overrides)
return module
}
func ApexBundleFactory(testApex bool, artApex bool) android.Module {
bundle := newApexBundle()
bundle.testApex = testApex
bundle.artApex = artApex
return bundle
}
// apex_test is an APEX for testing. The difference from the ordinary apex module type is that
// certain compatibility checks such as apex_available are not done for apex_test.
func testApexBundleFactory() android.Module {
bundle := newApexBundle()
bundle.testApex = true
return bundle
}
// apex packages other modules into an APEX file which is a packaging format for system-level
// components like binaries, shared libraries, etc.
func BundleFactory() android.Module {
return newApexBundle()
}
type Defaults struct {
android.ModuleBase
android.DefaultsModuleBase
}
// apex_defaults provides defaultable properties to other apex modules.
func defaultsFactory() android.Module {
return DefaultsFactory()
}
func DefaultsFactory(props ...interface{}) android.Module {
module := &Defaults{}
module.AddProperties(props...)
module.AddProperties(
&apexBundleProperties{},
&apexTargetBundleProperties{},
&overridableProperties{},
)
android.InitDefaultsModule(module)
return module
}
type OverrideApex struct {
android.ModuleBase
android.OverrideModuleBase
}
func (o *OverrideApex) GenerateAndroidBuildActions(ctx android.ModuleContext) {
// All the overrides happen in the base module.
}
// override_apex is used to create an apex module based on another apex module by overriding some of
// its properties.
func overrideApexFactory() android.Module {
m := &OverrideApex{}
m.AddProperties(&overridableProperties{})
android.InitAndroidMultiTargetsArchModule(m, android.DeviceSupported, android.MultilibCommon)
android.InitOverrideModule(m)
return m
}
///////////////////////////////////////////////////////////////////////////////////////////////////
// Vality check routines
//
// These are called in at the very beginning of GenerateAndroidBuildActions to flag an error when
// certain conditions are not met.
//
// TODO(jiyong): move these checks to a separate go file.
// Entures that min_sdk_version of the included modules are equal or less than the min_sdk_version
// of this apexBundle.
func (a *apexBundle) checkMinSdkVersion(ctx android.ModuleContext) {
if a.testApex || a.vndkApex {
return
}
// Meaningless to check min_sdk_version when building use_vendor modules against non-Trebleized targets
if proptools.Bool(a.properties.Use_vendor) && ctx.DeviceConfig().VndkVersion() == "" {
return
}
// apexBundle::minSdkVersion reports its own errors.
minSdkVersion := a.minSdkVersion(ctx)
android.CheckMinSdkVersion(a, ctx, minSdkVersion)
}
func (a *apexBundle) minSdkVersion(ctx android.BaseModuleContext) android.ApiLevel {
ver := proptools.String(a.properties.Min_sdk_version)
if ver == "" {
return android.NoneApiLevel
}
apiLevel, err := android.ApiLevelFromUser(ctx, ver)
if err != nil {
ctx.PropertyErrorf("min_sdk_version", "%s", err.Error())
return android.NoneApiLevel
}
return apiLevel
}
// Ensures that a lib providing stub isn't statically linked
func (a *apexBundle) checkStaticLinkingToStubLibraries(ctx android.ModuleContext) {
// Practically, we only care about regular APEXes on the device.
if ctx.Host() || a.testApex || a.vndkApex {
return
}
abInfo := ctx.Provider(ApexBundleInfoProvider).(ApexBundleInfo)
a.WalkPayloadDeps(ctx, func(ctx android.ModuleContext, from blueprint.Module, to android.ApexModule, externalDep bool) bool {
if ccm, ok := to.(*cc.Module); ok {
apexName := ctx.ModuleName()
fromName := ctx.OtherModuleName(from)
toName := ctx.OtherModuleName(to)
// If `to` is not actually in the same APEX as `from` then it does not need
// apex_available and neither do any of its dependencies.
if am, ok := from.(android.DepIsInSameApex); ok && !am.DepIsInSameApex(ctx, to) {
// As soon as the dependency graph crosses the APEX boundary, don't go further.
return false
}
// The dynamic linker and crash_dump tool in the runtime APEX is the only
// exception to this rule. It can't make the static dependencies dynamic
// because it can't do the dynamic linking for itself.
// Same rule should be applied to linkerconfig, because it should be executed
// only with static linked libraries before linker is available with ld.config.txt
if apexName == "com.android.runtime" && (fromName == "linker" || fromName == "crash_dump" || fromName == "linkerconfig") {
return false
}
isStubLibraryFromOtherApex := ccm.HasStubsVariants() && !abInfo.Contents.DirectlyInApex(toName)
if isStubLibraryFromOtherApex && !externalDep {
ctx.ModuleErrorf("%q required by %q is a native library providing stub. "+
"It shouldn't be included in this APEX via static linking. Dependency path: %s", to.String(), fromName, ctx.GetPathString(false))
}
}
return true
})
}
// Enforce that Java deps of the apex are using stable SDKs to compile
func (a *apexBundle) checkUpdatable(ctx android.ModuleContext) {
if a.Updatable() {
if String(a.properties.Min_sdk_version) == "" {
ctx.PropertyErrorf("updatable", "updatable APEXes should set min_sdk_version as well")
}
a.checkJavaStableSdkVersion(ctx)
}
}
func (a *apexBundle) checkJavaStableSdkVersion(ctx android.ModuleContext) {
// Visit direct deps only. As long as we guarantee top-level deps are using stable SDKs,
// java's checkLinkType guarantees correct usage for transitive deps
ctx.VisitDirectDepsBlueprint(func(module blueprint.Module) {
tag := ctx.OtherModuleDependencyTag(module)
switch tag {
case javaLibTag, androidAppTag:
if m, ok := module.(interface{ CheckStableSdkVersion() error }); ok {
if err := m.CheckStableSdkVersion(); err != nil {
ctx.ModuleErrorf("cannot depend on \"%v\": %v", ctx.OtherModuleName(module), err)
}
}
}
})
}
// Ensures that the all the dependencies are marked as available for this APEX
func (a *apexBundle) checkApexAvailability(ctx android.ModuleContext) {
// Let's be practical. Availability for test, host, and the VNDK apex isn't important
if ctx.Host() || a.testApex || a.vndkApex {
return
}
// Because APEXes targeting other than system/system_ext partitions can't set
// apex_available, we skip checks for these APEXes
if a.SocSpecific() || a.DeviceSpecific() || (a.ProductSpecific() && ctx.Config().EnforceProductPartitionInterface()) {
return
}
// Coverage build adds additional dependencies for the coverage-only runtime libraries.
// Requiring them and their transitive depencies with apex_available is not right
// because they just add noise.
if ctx.Config().IsEnvTrue("EMMA_INSTRUMENT") || a.IsNativeCoverageNeeded(ctx) {
return
}
a.WalkPayloadDeps(ctx, func(ctx android.ModuleContext, from blueprint.Module, to android.ApexModule, externalDep bool) bool {
// As soon as the dependency graph crosses the APEX boundary, don't go further.
if externalDep {
return false
}
apexName := ctx.ModuleName()
fromName := ctx.OtherModuleName(from)
toName := ctx.OtherModuleName(to)
// If `to` is not actually in the same APEX as `from` then it does not need
// apex_available and neither do any of its dependencies.
if am, ok := from.(android.DepIsInSameApex); ok && !am.DepIsInSameApex(ctx, to) {
// As soon as the dependency graph crosses the APEX boundary, don't go
// further.
return false
}
if to.AvailableFor(apexName) || baselineApexAvailable(apexName, toName) {
return true
}
ctx.ModuleErrorf("%q requires %q that doesn't list the APEX under 'apex_available'."+
"\n\nDependency path:%s\n\n"+
"Consider adding %q to 'apex_available' property of %q",
fromName, toName, ctx.GetPathString(true), apexName, toName)
// Visit this module's dependencies to check and report any issues with their availability.
return true
})
}
var (
apexAvailBaseline = makeApexAvailableBaseline()
inverseApexAvailBaseline = invertApexBaseline(apexAvailBaseline)
)
func baselineApexAvailable(apex, moduleName string) bool {
key := apex
moduleName = normalizeModuleName(moduleName)
if val, ok := apexAvailBaseline[key]; ok && android.InList(moduleName, val) {
return true
}
key = android.AvailableToAnyApex
if val, ok := apexAvailBaseline[key]; ok && android.InList(moduleName, val) {
return true
}
return false
}
func normalizeModuleName(moduleName string) string {
// Prebuilt modules (e.g. java_import, etc.) have "prebuilt_" prefix added by the build
// system. Trim the prefix for the check since they are confusing
moduleName = android.RemoveOptionalPrebuiltPrefix(moduleName)
if strings.HasPrefix(moduleName, "libclang_rt.") {
// This module has many arch variants that depend on the product being built.
// We don't want to list them all
moduleName = "libclang_rt"
}
if strings.HasPrefix(moduleName, "androidx.") {
// TODO(b/156996905) Set apex_available/min_sdk_version for androidx support libraries
moduleName = "androidx"
}
return moduleName
}
// Transform the map of apex -> modules to module -> apexes.
func invertApexBaseline(m map[string][]string) map[string][]string {
r := make(map[string][]string)
for apex, modules := range m {
for _, module := range modules {
r[module] = append(r[module], apex)
}
}
return r
}
// Retrieve the baseline of apexes to which the supplied module belongs.
func BaselineApexAvailable(moduleName string) []string {
return inverseApexAvailBaseline[normalizeModuleName(moduleName)]
}
// This is a map from apex to modules, which overrides the apex_available setting for that
// particular module to make it available for the apex regardless of its setting.
// TODO(b/147364041): remove this
func makeApexAvailableBaseline() map[string][]string {
// The "Module separator"s below are employed to minimize merge conflicts.
m := make(map[string][]string)
//
// Module separator
//
m["com.android.appsearch"] = []string{
"icing-java-proto-lite",
"libprotobuf-java-lite",
}
//
// Module separator
//
m["com.android.bluetooth.updatable"] = []string{
"android.hardware.audio.common@5.0",
"android.hardware.bluetooth.a2dp@1.0",
"android.hardware.bluetooth.audio@2.0",
"android.hardware.bluetooth@1.0",
"android.hardware.bluetooth@1.1",
"android.hardware.graphics.bufferqueue@1.0",
"android.hardware.graphics.bufferqueue@2.0",
"android.hardware.graphics.common@1.0",
"android.hardware.graphics.common@1.1",
"android.hardware.graphics.common@1.2",
"android.hardware.media@1.0",
"android.hidl.safe_union@1.0",
"android.hidl.token@1.0",
"android.hidl.token@1.0-utils",
"avrcp-target-service",
"avrcp_headers",
"bluetooth-protos-lite",
"bluetooth.mapsapi",
"com.android.vcard",
"dnsresolver_aidl_interface-V2-java",
"ipmemorystore-aidl-interfaces-V5-java",
"ipmemorystore-aidl-interfaces-java",
"internal_include_headers",
"lib-bt-packets",
"lib-bt-packets-avrcp",
"lib-bt-packets-base",
"libFraunhoferAAC",
"libaudio-a2dp-hw-utils",
"libaudio-hearing-aid-hw-utils",
"libbluetooth",
"libbluetooth-types",
"libbluetooth-types-header",
"libbluetooth_gd",
"libbluetooth_headers",
"libbluetooth_jni",
"libbt-audio-hal-interface",
"libbt-bta",
"libbt-common",
"libbt-hci",
"libbt-platform-protos-lite",
"libbt-protos-lite",
"libbt-sbc-decoder",
"libbt-sbc-encoder",
"libbt-stack",
"libbt-utils",
"libbtcore",
"libbtdevice",
"libbte",
"libbtif",
"libchrome",
"libevent",
"libfmq",
"libg722codec",
"libgui_headers",
"libmedia_headers",
"libmodpb64",
"libosi",
"libstagefright_foundation_headers",
"libstagefright_headers",
"libstatslog",
"libstatssocket",
"libtinyxml2",
"libudrv-uipc",
"libz",
"media_plugin_headers",
"net-utils-services-common",
"netd_aidl_interface-unstable-java",
"netd_event_listener_interface-java",
"netlink-client",
"networkstack-client",
"sap-api-java-static",
"services.net",
}
//
// Module separator
//
m["com.android.cellbroadcast"] = []string{"CellBroadcastApp", "CellBroadcastServiceModule"}
//
// Module separator
//
m["com.android.extservices"] = []string{
"error_prone_annotations",
"ExtServices-core",
"ExtServices",
"libtextclassifier-java",
"libz_current",
"textclassifier-statsd",
"TextClassifierNotificationLibNoManifest",
"TextClassifierServiceLibNoManifest",
}
//
// Module separator
//
m["com.android.neuralnetworks"] = []string{
"android.hardware.neuralnetworks@1.0",
"android.hardware.neuralnetworks@1.1",
"android.hardware.neuralnetworks@1.2",
"android.hardware.neuralnetworks@1.3",
"android.hidl.allocator@1.0",
"android.hidl.memory.token@1.0",
"android.hidl.memory@1.0",
"android.hidl.safe_union@1.0",
"libarect",
"libbuildversion",
"libmath",
"libprocpartition",
"libsync",
}
//
// Module separator
//
m["com.android.media"] = []string{
"android.frameworks.bufferhub@1.0",
"android.hardware.cas.native@1.0",
"android.hardware.cas@1.0",
"android.hardware.configstore-utils",
"android.hardware.configstore@1.0",
"android.hardware.configstore@1.1",
"android.hardware.graphics.allocator@2.0",
"android.hardware.graphics.allocator@3.0",
"android.hardware.graphics.bufferqueue@1.0",
"android.hardware.graphics.bufferqueue@2.0",
"android.hardware.graphics.common@1.0",
"android.hardware.graphics.common@1.1",
"android.hardware.graphics.common@1.2",
"android.hardware.graphics.mapper@2.0",
"android.hardware.graphics.mapper@2.1",
"android.hardware.graphics.mapper@3.0",
"android.hardware.media.omx@1.0",
"android.hardware.media@1.0",
"android.hidl.allocator@1.0",
"android.hidl.memory.token@1.0",
"android.hidl.memory@1.0",
"android.hidl.token@1.0",
"android.hidl.token@1.0-utils",
"bionic_libc_platform_headers",
"exoplayer2-extractor",
"exoplayer2-extractor-annotation-stubs",
"gl_headers",
"jsr305",
"libEGL",
"libEGL_blobCache",
"libEGL_getProcAddress",
"libFLAC",
"libFLAC-config",
"libFLAC-headers",
"libGLESv2",
"libaacextractor",
"libamrextractor",
"libarect",
"libaudio_system_headers",
"libaudioclient",
"libaudioclient_headers",
"libaudiofoundation",
"libaudiofoundation_headers",
"libaudiomanager",
"libaudiopolicy",
"libaudioutils",
"libaudioutils_fixedfft",
"libbluetooth-types-header",
"libbufferhub",
"libbufferhub_headers",
"libbufferhubqueue",
"libc_malloc_debug_backtrace",
"libcamera_client",
"libcamera_metadata",
"libdvr_headers",
"libexpat",
"libfifo",
"libflacextractor",
"libgrallocusage",
"libgraphicsenv",
"libgui",
"libgui_headers",
"libhardware_headers",
"libinput",
"liblzma",
"libmath",
"libmedia",
"libmedia_codeclist",
"libmedia_headers",
"libmedia_helper",
"libmedia_helper_headers",
"libmedia_midiiowrapper",
"libmedia_omx",
"libmediautils",
"libmidiextractor",
"libmkvextractor",
"libmp3extractor",
"libmp4extractor",
"libmpeg2extractor",
"libnativebase_headers",
"libnativewindow_headers",
"libnblog",
"liboggextractor",
"libpackagelistparser",
"libpdx",
"libpdx_default_transport",
"libpdx_headers",
"libpdx_uds",
"libprocinfo",
"libspeexresampler",
"libspeexresampler",
"libstagefright_esds",
"libstagefright_flacdec",
"libstagefright_flacdec",
"libstagefright_foundation",
"libstagefright_foundation_headers",
"libstagefright_foundation_without_imemory",
"libstagefright_headers",
"libstagefright_id3",
"libstagefright_metadatautils",
"libstagefright_mpeg2extractor",
"libstagefright_mpeg2support",
"libsync",
"libui",
"libui_headers",
"libunwindstack",
"libvibrator",
"libvorbisidec",
"libwavextractor",
"libwebm",
"media_ndk_headers",
"media_plugin_headers",
"updatable-media",
}
//
// Module separator
//
m["com.android.media.swcodec"] = []string{
"android.frameworks.bufferhub@1.0",
"android.hardware.common-ndk_platform",
"android.hardware.configstore-utils",
"android.hardware.configstore@1.0",
"android.hardware.configstore@1.1",
"android.hardware.graphics.allocator@2.0",
"android.hardware.graphics.allocator@3.0",
"android.hardware.graphics.allocator@4.0",
"android.hardware.graphics.bufferqueue@1.0",
"android.hardware.graphics.bufferqueue@2.0",
"android.hardware.graphics.common-ndk_platform",
"android.hardware.graphics.common@1.0",
"android.hardware.graphics.common@1.1",
"android.hardware.graphics.common@1.2",
"android.hardware.graphics.mapper@2.0",
"android.hardware.graphics.mapper@2.1",
"android.hardware.graphics.mapper@3.0",
"android.hardware.graphics.mapper@4.0",
"android.hardware.media.bufferpool@2.0",
"android.hardware.media.c2@1.0",
"android.hardware.media.c2@1.1",
"android.hardware.media.omx@1.0",
"android.hardware.media@1.0",
"android.hardware.media@1.0",
"android.hidl.memory.token@1.0",
"android.hidl.memory@1.0",
"android.hidl.safe_union@1.0",
"android.hidl.token@1.0",
"android.hidl.token@1.0-utils",
"libEGL",
"libFLAC",
"libFLAC-config",
"libFLAC-headers",
"libFraunhoferAAC",
"libLibGuiProperties",
"libarect",
"libaudio_system_headers",
"libaudioutils",
"libaudioutils",
"libaudioutils_fixedfft",
"libavcdec",
"libavcenc",
"libavservices_minijail",
"libavservices_minijail",
"libbinderthreadstateutils",
"libbluetooth-types-header",
"libbufferhub_headers",
"libcodec2",
"libcodec2_headers",
"libcodec2_hidl@1.0",
"libcodec2_hidl@1.1",
"libcodec2_internal",
"libcodec2_soft_aacdec",
"libcodec2_soft_aacenc",
"libcodec2_soft_amrnbdec",
"libcodec2_soft_amrnbenc",
"libcodec2_soft_amrwbdec",
"libcodec2_soft_amrwbenc",
"libcodec2_soft_av1dec_gav1",
"libcodec2_soft_avcdec",
"libcodec2_soft_avcenc",
"libcodec2_soft_common",
"libcodec2_soft_flacdec",
"libcodec2_soft_flacenc",
"libcodec2_soft_g711alawdec",
"libcodec2_soft_g711mlawdec",
"libcodec2_soft_gsmdec",
"libcodec2_soft_h263dec",
"libcodec2_soft_h263enc",
"libcodec2_soft_hevcdec",
"libcodec2_soft_hevcenc",
"libcodec2_soft_mp3dec",
"libcodec2_soft_mpeg2dec",
"libcodec2_soft_mpeg4dec",
"libcodec2_soft_mpeg4enc",
"libcodec2_soft_opusdec",
"libcodec2_soft_opusenc",
"libcodec2_soft_rawdec",
"libcodec2_soft_vorbisdec",
"libcodec2_soft_vp8dec",
"libcodec2_soft_vp8enc",
"libcodec2_soft_vp9dec",
"libcodec2_soft_vp9enc",
"libcodec2_vndk",
"libdvr_headers",
"libfmq",
"libfmq",
"libgav1",
"libgralloctypes",
"libgrallocusage",
"libgraphicsenv",
"libgsm",
"libgui_bufferqueue_static",
"libgui_headers",
"libhardware",
"libhardware_headers",
"libhevcdec",
"libhevcenc",
"libion",
"libjpeg",
"liblzma",
"libmath",
"libmedia_codecserviceregistrant",
"libmedia_headers",
"libmpeg2dec",
"libnativebase_headers",
"libnativewindow_headers",
"libpdx_headers",
"libscudo_wrapper",
"libsfplugin_ccodec_utils",
"libspeexresampler",
"libstagefright_amrnb_common",
"libstagefright_amrnbdec",
"libstagefright_amrnbenc",
"libstagefright_amrwbdec",
"libstagefright_amrwbenc",
"libstagefright_bufferpool@2.0.1",
"libstagefright_bufferqueue_helper",
"libstagefright_enc_common",
"libstagefright_flacdec",
"libstagefright_foundation",
"libstagefright_foundation_headers",
"libstagefright_headers",
"libstagefright_m4vh263dec",
"libstagefright_m4vh263enc",
"libstagefright_mp3dec",
"libsync",
"libui",
"libui_headers",
"libunwindstack",
"libvorbisidec",
"libvpx",
"libyuv",
"libyuv_static",
"media_ndk_headers",
"media_plugin_headers",
"mediaswcodec",
}
//
// Module separator
//
m["com.android.mediaprovider"] = []string{
"MediaProvider",
"MediaProviderGoogle",
"fmtlib_ndk",
"libbase_ndk",
"libfuse",
"libfuse_jni",
}
//
// Module separator
//
m["com.android.permission"] = []string{
"car-ui-lib",
"iconloader",
"kotlin-annotations",
"kotlin-stdlib",
"kotlin-stdlib-jdk7",
"kotlin-stdlib-jdk8",
"kotlinx-coroutines-android",
"kotlinx-coroutines-android-nodeps",
"kotlinx-coroutines-core",
"kotlinx-coroutines-core-nodeps",
"permissioncontroller-statsd",
"GooglePermissionController",
"PermissionController",
"SettingsLibActionBarShadow",
"SettingsLibAppPreference",
"SettingsLibBarChartPreference",
"SettingsLibLayoutPreference",
"SettingsLibProgressBar",
"SettingsLibSearchWidget",
"SettingsLibSettingsTheme",
"SettingsLibRestrictedLockUtils",
"SettingsLibHelpUtils",
}
//
// Module separator
//
m["com.android.runtime"] = []string{
"bionic_libc_platform_headers",
"libarm-optimized-routines-math",
"libc_aeabi",
"libc_bionic",
"libc_bionic_ndk",
"libc_bootstrap",
"libc_common",
"libc_common_shared",
"libc_common_static",
"libc_dns",
"libc_dynamic_dispatch",
"libc_fortify",
"libc_freebsd",
"libc_freebsd_large_stack",
"libc_gdtoa",
"libc_init_dynamic",
"libc_init_static",
"libc_jemalloc_wrapper",
"libc_netbsd",
"libc_nomalloc",
"libc_nopthread",
"libc_openbsd",
"libc_openbsd_large_stack",
"libc_openbsd_ndk",
"libc_pthread",
"libc_static_dispatch",
"libc_syscalls",
"libc_tzcode",
"libc_unwind_static",
"libdebuggerd",
"libdebuggerd_common_headers",
"libdebuggerd_handler_core",
"libdebuggerd_handler_fallback",
"libdl_static",
"libjemalloc5",
"liblinker_main",
"liblinker_malloc",
"liblz4",
"liblzma",
"libprocinfo",
"libpropertyinfoparser",
"libscudo",
"libstdc++",
"libsystemproperties",
"libtombstoned_client_static",
"libunwindstack",
"libz",
"libziparchive",
}
//
// Module separator
//
m["com.android.tethering"] = []string{
"android.hardware.tetheroffload.config-V1.0-java",
"android.hardware.tetheroffload.control-V1.0-java",
"android.hidl.base-V1.0-java",
"libcgrouprc",
"libcgrouprc_format",
"libtetherutilsjni",
"libvndksupport",
"net-utils-framework-common",
"netd_aidl_interface-V3-java",
"netlink-client",
"networkstack-aidl-interfaces-java",
"tethering-aidl-interfaces-java",
"TetheringApiCurrentLib",
}
//
// Module separator
//
m["com.android.wifi"] = []string{
"PlatformProperties",
"android.hardware.wifi-V1.0-java",
"android.hardware.wifi-V1.0-java-constants",
"android.hardware.wifi-V1.1-java",
"android.hardware.wifi-V1.2-java",
"android.hardware.wifi-V1.3-java",
"android.hardware.wifi-V1.4-java",
"android.hardware.wifi.hostapd-V1.0-java",
"android.hardware.wifi.hostapd-V1.1-java",
"android.hardware.wifi.hostapd-V1.2-java",
"android.hardware.wifi.supplicant-V1.0-java",
"android.hardware.wifi.supplicant-V1.1-java",
"android.hardware.wifi.supplicant-V1.2-java",
"android.hardware.wifi.supplicant-V1.3-java",
"android.hidl.base-V1.0-java",
"android.hidl.manager-V1.0-java",
"android.hidl.manager-V1.1-java",
"android.hidl.manager-V1.2-java",
"bouncycastle-unbundled",
"dnsresolver_aidl_interface-V2-java",
"error_prone_annotations",
"framework-wifi-pre-jarjar",
"framework-wifi-util-lib",
"ipmemorystore-aidl-interfaces-V3-java",
"ipmemorystore-aidl-interfaces-java",
"ksoap2",
"libnanohttpd",
"libwifi-jni",
"net-utils-services-common",
"netd_aidl_interface-V2-java",
"netd_aidl_interface-unstable-java",
"netd_event_listener_interface-java",
"netlink-client",
"networkstack-client",
"services.net",
"wifi-lite-protos",
"wifi-nano-protos",
"wifi-service-pre-jarjar",
"wifi-service-resources",
}
//
// Module separator
//
m["com.android.os.statsd"] = []string{
"libstatssocket",
}
//
// Module separator
//
m[android.AvailableToAnyApex] = []string{
// TODO(b/156996905) Set apex_available/min_sdk_version for androidx/extras support libraries
"androidx",
"androidx-constraintlayout_constraintlayout",
"androidx-constraintlayout_constraintlayout-nodeps",
"androidx-constraintlayout_constraintlayout-solver",
"androidx-constraintlayout_constraintlayout-solver-nodeps",
"com.google.android.material_material",
"com.google.android.material_material-nodeps",
"libatomic",
"libclang_rt",
"libgcc_stripped",
"libprofile-clang-extras",
"libprofile-clang-extras_ndk",
"libprofile-extras",
"libprofile-extras_ndk",
"libunwind",
}
return m
}
func init() {
android.AddNeverAllowRules(createApexPermittedPackagesRules(qModulesPackages())...)
android.AddNeverAllowRules(createApexPermittedPackagesRules(rModulesPackages())...)
}
func createApexPermittedPackagesRules(modules_packages map[string][]string) []android.Rule {
rules := make([]android.Rule, 0, len(modules_packages))
for module_name, module_packages := range modules_packages {
permittedPackagesRule := android.NeverAllow().
BootclasspathJar().
With("apex_available", module_name).
WithMatcher("permitted_packages", android.NotInList(module_packages)).
Because("jars that are part of the " + module_name +
" module may only allow these packages: " + strings.Join(module_packages, ",") +
". Please jarjar or move code around.")
rules = append(rules, permittedPackagesRule)
}
return rules
}
// DO NOT EDIT! These are the package prefixes that are exempted from being AOT'ed by ART.
// Adding code to the bootclasspath in new packages will cause issues on module update.
func qModulesPackages() map[string][]string {
return map[string][]string{
"com.android.conscrypt": []string{
"android.net.ssl",
"com.android.org.conscrypt",
},
"com.android.media": []string{
"android.media",
},
}
}
// DO NOT EDIT! These are the package prefixes that are exempted from being AOT'ed by ART.
// Adding code to the bootclasspath in new packages will cause issues on module update.
func rModulesPackages() map[string][]string {
return map[string][]string{
"com.android.mediaprovider": []string{
"android.provider",
},
"com.android.permission": []string{
"android.permission",
"android.app.role",
"com.android.permission",
"com.android.role",
},
"com.android.sdkext": []string{
"android.os.ext",
},
"com.android.os.statsd": []string{
"android.app",
"android.os",
"android.util",
"com.android.internal.statsd",
"com.android.server.stats",
},
"com.android.wifi": []string{
"com.android.server.wifi",
"com.android.wifi.x",
"android.hardware.wifi",
"android.net.wifi",
},
"com.android.tethering": []string{
"android.net",
},
}
}