platform_build_soong/cc/vndk.go
Colin Cross fc0df95df5 Use single module for clang runtime libraries
The clang prebuilts now provide a single module with per-architecture
variants instead of a module per architecture.

Bug: 220019988
Test: m checkbuild
Change-Id: I39e2cf8ae14edf8510276dab38011afaef85822c
(cherry picked from commit 386ee59a23)
Merged-In:I39e2cf8ae14edf8510276dab38011afaef85822c
2022-02-28 21:01:05 +00:00

894 lines
30 KiB
Go

// Copyright 2017 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package cc
import (
"encoding/json"
"errors"
"fmt"
"path/filepath"
"sort"
"strings"
"android/soong/android"
"android/soong/cc/config"
"android/soong/etc"
"android/soong/snapshot"
"github.com/google/blueprint"
)
const (
llndkLibrariesTxt = "llndk.libraries.txt"
vndkCoreLibrariesTxt = "vndkcore.libraries.txt"
vndkSpLibrariesTxt = "vndksp.libraries.txt"
vndkPrivateLibrariesTxt = "vndkprivate.libraries.txt"
vndkProductLibrariesTxt = "vndkproduct.libraries.txt"
vndkUsingCoreVariantLibrariesTxt = "vndkcorevariant.libraries.txt"
)
func VndkLibrariesTxtModules(vndkVersion string) []string {
if vndkVersion == "current" {
return []string{
llndkLibrariesTxt,
vndkCoreLibrariesTxt,
vndkSpLibrariesTxt,
vndkPrivateLibrariesTxt,
vndkProductLibrariesTxt,
}
}
// Snapshot vndks have their own *.libraries.VER.txt files.
// Note that snapshots don't have "vndkcorevariant.libraries.VER.txt"
return []string{
insertVndkVersion(llndkLibrariesTxt, vndkVersion),
insertVndkVersion(vndkCoreLibrariesTxt, vndkVersion),
insertVndkVersion(vndkSpLibrariesTxt, vndkVersion),
insertVndkVersion(vndkPrivateLibrariesTxt, vndkVersion),
insertVndkVersion(vndkProductLibrariesTxt, vndkVersion),
}
}
type VndkProperties struct {
Vndk struct {
// declared as a VNDK or VNDK-SP module. The vendor variant
// will be installed in /system instead of /vendor partition.
//
// `vendor_available` and `product_available` must be explicitly
// set to either true or false together with `vndk: {enabled: true}`.
Enabled *bool
// declared as a VNDK-SP module, which is a subset of VNDK.
//
// `vndk: { enabled: true }` must set together.
//
// All these modules are allowed to link to VNDK-SP or LL-NDK
// modules only. Other dependency will cause link-type errors.
//
// If `support_system_process` is not set or set to false,
// the module is VNDK-core and can link to other VNDK-core,
// VNDK-SP or LL-NDK modules only.
Support_system_process *bool
// declared as a VNDK-private module.
// This module still creates the vendor and product variants refering
// to the `vendor_available: true` and `product_available: true`
// properties. However, it is only available to the other VNDK modules
// but not to the non-VNDK vendor or product modules.
Private *bool
// Extending another module
Extends *string
}
}
type vndkdep struct {
Properties VndkProperties
}
func (vndk *vndkdep) props() []interface{} {
return []interface{}{&vndk.Properties}
}
func (vndk *vndkdep) isVndk() bool {
return Bool(vndk.Properties.Vndk.Enabled)
}
func (vndk *vndkdep) isVndkSp() bool {
return Bool(vndk.Properties.Vndk.Support_system_process)
}
func (vndk *vndkdep) isVndkExt() bool {
return vndk.Properties.Vndk.Extends != nil
}
func (vndk *vndkdep) getVndkExtendsModuleName() string {
return String(vndk.Properties.Vndk.Extends)
}
func (vndk *vndkdep) typeName() string {
if !vndk.isVndk() {
return "native:vendor"
}
if !vndk.isVndkExt() {
if !vndk.isVndkSp() {
return "native:vendor:vndk"
}
return "native:vendor:vndksp"
}
if !vndk.isVndkSp() {
return "native:vendor:vndkext"
}
return "native:vendor:vndkspext"
}
// VNDK link type check from a module with UseVndk() == true.
func (vndk *vndkdep) vndkCheckLinkType(ctx android.BaseModuleContext, to *Module, tag blueprint.DependencyTag) {
if to.linker == nil {
return
}
if !vndk.isVndk() {
// Non-VNDK modules those installed to /vendor, /system/vendor,
// /product or /system/product cannot depend on VNDK-private modules
// that include VNDK-core-private, VNDK-SP-private and LLNDK-private.
if to.IsVndkPrivate() {
ctx.ModuleErrorf("non-VNDK module should not link to %q which has `private: true`", to.Name())
}
}
if lib, ok := to.linker.(*libraryDecorator); !ok || !lib.shared() {
// Check only shared libraries.
// Other (static) libraries are allowed to link.
return
}
if to.IsLlndk() {
// LL-NDK libraries are allowed to link
return
}
if !to.UseVndk() {
ctx.ModuleErrorf("(%s) should not link to %q which is not a vendor-available library",
vndk.typeName(), to.Name())
return
}
if tag == vndkExtDepTag {
// Ensure `extends: "name"` property refers a vndk module that has vendor_available
// and has identical vndk properties.
if to.vndkdep == nil || !to.vndkdep.isVndk() {
ctx.ModuleErrorf("`extends` refers a non-vndk module %q", to.Name())
return
}
if vndk.isVndkSp() != to.vndkdep.isVndkSp() {
ctx.ModuleErrorf(
"`extends` refers a module %q with mismatched support_system_process",
to.Name())
return
}
if to.IsVndkPrivate() {
ctx.ModuleErrorf(
"`extends` refers module %q which has `private: true`",
to.Name())
return
}
}
if to.vndkdep == nil {
return
}
// Check the dependencies of VNDK shared libraries.
if err := vndkIsVndkDepAllowed(vndk, to.vndkdep); err != nil {
ctx.ModuleErrorf("(%s) should not link to %q (%s): %v",
vndk.typeName(), to.Name(), to.vndkdep.typeName(), err)
return
}
}
func vndkIsVndkDepAllowed(from *vndkdep, to *vndkdep) error {
// Check the dependencies of VNDK, VNDK-Ext, VNDK-SP, VNDK-SP-Ext and vendor modules.
if from.isVndkExt() {
if from.isVndkSp() {
if to.isVndk() && !to.isVndkSp() {
return errors.New("VNDK-SP extensions must not depend on VNDK or VNDK extensions")
}
return nil
}
// VNDK-Ext may depend on VNDK, VNDK-Ext, VNDK-SP, VNDK-SP-Ext, or vendor libs.
return nil
}
if from.isVndk() {
if to.isVndkExt() {
return errors.New("VNDK-core and VNDK-SP must not depend on VNDK extensions")
}
if from.isVndkSp() {
if !to.isVndkSp() {
return errors.New("VNDK-SP must only depend on VNDK-SP")
}
return nil
}
if !to.isVndk() {
return errors.New("VNDK-core must only depend on VNDK-core or VNDK-SP")
}
return nil
}
// Vendor modules may depend on VNDK, VNDK-Ext, VNDK-SP, VNDK-SP-Ext, or vendor libs.
return nil
}
type moduleListerFunc func(ctx android.SingletonContext) (moduleNames, fileNames []string)
var (
llndkLibraries = vndkModuleLister(func(m *Module) bool { return m.VendorProperties.IsLLNDK && !m.Header() })
vndkSPLibraries = vndkModuleLister(func(m *Module) bool { return m.VendorProperties.IsVNDKSP })
vndkCoreLibraries = vndkModuleLister(func(m *Module) bool { return m.VendorProperties.IsVNDKCore })
vndkPrivateLibraries = vndkModuleLister(func(m *Module) bool { return m.VendorProperties.IsVNDKPrivate })
vndkProductLibraries = vndkModuleLister(func(m *Module) bool { return m.VendorProperties.IsVNDKProduct })
vndkUsingCoreVariantLibraries = vndkModuleLister(func(m *Module) bool { return m.VendorProperties.IsVNDKUsingCoreVariant })
)
// vndkModuleLister takes a predicate that operates on a Module and returns a moduleListerFunc
// that produces a list of module names and output file names for which the predicate returns true.
func vndkModuleLister(predicate func(*Module) bool) moduleListerFunc {
return func(ctx android.SingletonContext) (moduleNames, fileNames []string) {
ctx.VisitAllModules(func(m android.Module) {
if c, ok := m.(*Module); ok && predicate(c) {
filename, err := getVndkFileName(c)
if err != nil {
ctx.ModuleErrorf(m, "%s", err)
}
moduleNames = append(moduleNames, ctx.ModuleName(m))
fileNames = append(fileNames, filename)
}
})
moduleNames = android.SortedUniqueStrings(moduleNames)
fileNames = android.SortedUniqueStrings(fileNames)
return
}
}
// vndkModuleListRemover takes a moduleListerFunc and a prefix and returns a moduleListerFunc
// that returns the same lists as the input moduleListerFunc, but with modules with the
// given prefix removed.
func vndkModuleListRemover(lister moduleListerFunc, prefix string) moduleListerFunc {
return func(ctx android.SingletonContext) (moduleNames, fileNames []string) {
moduleNames, fileNames = lister(ctx)
filter := func(in []string) []string {
out := make([]string, 0, len(in))
for _, lib := range in {
if strings.HasPrefix(lib, prefix) {
continue
}
out = append(out, lib)
}
return out
}
return filter(moduleNames), filter(fileNames)
}
}
var vndkMustUseVendorVariantListKey = android.NewOnceKey("vndkMustUseVendorVariantListKey")
func vndkMustUseVendorVariantList(cfg android.Config) []string {
return cfg.Once(vndkMustUseVendorVariantListKey, func() interface{} {
return config.VndkMustUseVendorVariantList
}).([]string)
}
// test may call this to override global configuration(config.VndkMustUseVendorVariantList)
// when it is called, it must be before the first call to vndkMustUseVendorVariantList()
func setVndkMustUseVendorVariantListForTest(config android.Config, mustUseVendorVariantList []string) {
config.Once(vndkMustUseVendorVariantListKey, func() interface{} {
return mustUseVendorVariantList
})
}
func processVndkLibrary(mctx android.BottomUpMutatorContext, m *Module) {
if m.InProduct() {
// We may skip the steps for the product variants because they
// are already covered by the vendor variants.
return
}
name := m.BaseModuleName()
if lib := m.library; lib != nil && lib.hasStubsVariants() && name != "libz" {
// b/155456180 libz is the ONLY exception here. We don't want to make
// libz an LLNDK library because we in general can't guarantee that
// libz will behave consistently especially about the compression.
// i.e. the compressed output might be different across releases.
// As the library is an external one, it's risky to keep the compatibility
// promise if it becomes an LLNDK.
mctx.PropertyErrorf("vndk.enabled", "This library provides stubs. Shouldn't be VNDK. Consider making it as LLNDK")
}
if inList(name, vndkMustUseVendorVariantList(mctx.Config())) {
m.Properties.MustUseVendorVariant = true
}
if mctx.DeviceConfig().VndkUseCoreVariant() && !m.Properties.MustUseVendorVariant {
m.VendorProperties.IsVNDKUsingCoreVariant = true
}
if m.vndkdep.isVndkSp() {
m.VendorProperties.IsVNDKSP = true
} else {
m.VendorProperties.IsVNDKCore = true
}
if m.IsVndkPrivate() {
m.VendorProperties.IsVNDKPrivate = true
}
if Bool(m.VendorProperties.Product_available) {
m.VendorProperties.IsVNDKProduct = true
}
}
// Check for modules that mustn't be VNDK
func shouldSkipVndkMutator(m *Module) bool {
if !m.Enabled() {
return true
}
if !m.Device() {
// Skip non-device modules
return true
}
if m.Target().NativeBridge == android.NativeBridgeEnabled {
// Skip native_bridge modules
return true
}
return false
}
func IsForVndkApex(mctx android.BottomUpMutatorContext, m *Module) bool {
if shouldSkipVndkMutator(m) {
return false
}
// prebuilt vndk modules should match with device
// TODO(b/142675459): Use enabled: to select target device in vndk_prebuilt_shared
// When b/142675459 is landed, remove following check
if p, ok := m.linker.(*vndkPrebuiltLibraryDecorator); ok && !p.MatchesWithDevice(mctx.DeviceConfig()) {
return false
}
if lib, ok := m.linker.(libraryInterface); ok {
// VNDK APEX for VNDK-Lite devices will have VNDK-SP libraries from core variants
if mctx.DeviceConfig().VndkVersion() == "" {
// b/73296261: filter out libz.so because it is considered as LLNDK for VNDK-lite devices
if mctx.ModuleName() == "libz" {
return false
}
return m.ImageVariation().Variation == android.CoreVariation && lib.shared() && m.IsVndkSp() && !m.IsVndkExt()
}
useCoreVariant := m.VndkVersion() == mctx.DeviceConfig().PlatformVndkVersion() &&
mctx.DeviceConfig().VndkUseCoreVariant() && !m.MustUseVendorVariant()
return lib.shared() && m.InVendor() && m.IsVndk() && !m.IsVndkExt() && !useCoreVariant
}
return false
}
// gather list of vndk-core, vndk-sp, and ll-ndk libs
func VndkMutator(mctx android.BottomUpMutatorContext) {
m, ok := mctx.Module().(*Module)
if !ok {
return
}
if shouldSkipVndkMutator(m) {
return
}
lib, isLib := m.linker.(*libraryDecorator)
prebuiltLib, isPrebuiltLib := m.linker.(*prebuiltLibraryLinker)
if m.UseVndk() && isLib && lib.hasLLNDKStubs() {
m.VendorProperties.IsLLNDK = true
m.VendorProperties.IsVNDKPrivate = Bool(lib.Properties.Llndk.Private)
}
if m.UseVndk() && isPrebuiltLib && prebuiltLib.hasLLNDKStubs() {
m.VendorProperties.IsLLNDK = true
m.VendorProperties.IsVNDKPrivate = Bool(prebuiltLib.Properties.Llndk.Private)
}
if (isLib && lib.buildShared()) || (isPrebuiltLib && prebuiltLib.buildShared()) {
if m.vndkdep != nil && m.vndkdep.isVndk() && !m.vndkdep.isVndkExt() {
processVndkLibrary(mctx, m)
return
}
}
}
func init() {
RegisterVndkLibraryTxtTypes(android.InitRegistrationContext)
android.RegisterSingletonType("vndk-snapshot", VndkSnapshotSingleton)
}
func RegisterVndkLibraryTxtTypes(ctx android.RegistrationContext) {
ctx.RegisterSingletonModuleType("llndk_libraries_txt", llndkLibrariesTxtFactory)
ctx.RegisterSingletonModuleType("vndksp_libraries_txt", vndkSPLibrariesTxtFactory)
ctx.RegisterSingletonModuleType("vndkcore_libraries_txt", vndkCoreLibrariesTxtFactory)
ctx.RegisterSingletonModuleType("vndkprivate_libraries_txt", vndkPrivateLibrariesTxtFactory)
ctx.RegisterSingletonModuleType("vndkproduct_libraries_txt", vndkProductLibrariesTxtFactory)
ctx.RegisterSingletonModuleType("vndkcorevariant_libraries_txt", vndkUsingCoreVariantLibrariesTxtFactory)
}
type vndkLibrariesTxt struct {
android.SingletonModuleBase
lister moduleListerFunc
makeVarName string
filterOutFromMakeVar string
properties VndkLibrariesTxtProperties
outputFile android.OutputPath
moduleNames []string
fileNames []string
}
type VndkLibrariesTxtProperties struct {
Insert_vndk_version *bool
}
var _ etc.PrebuiltEtcModule = &vndkLibrariesTxt{}
var _ android.OutputFileProducer = &vndkLibrariesTxt{}
// llndk_libraries_txt is a singleton module whose content is a list of LLNDK libraries
// generated by Soong but can be referenced by other modules.
// For example, apex_vndk can depend on these files as prebuilt.
// Make uses LLNDK_LIBRARIES to determine which libraries to install.
// HWASAN is only part of the LL-NDK in builds in which libc depends on HWASAN.
// Therefore, by removing the library here, we cause it to only be installed if libc
// depends on it.
func llndkLibrariesTxtFactory() android.SingletonModule {
return newVndkLibrariesWithMakeVarFilter(llndkLibraries, "LLNDK_LIBRARIES", "libclang_rt.hwasan")
}
// vndksp_libraries_txt is a singleton module whose content is a list of VNDKSP libraries
// generated by Soong but can be referenced by other modules.
// For example, apex_vndk can depend on these files as prebuilt.
func vndkSPLibrariesTxtFactory() android.SingletonModule {
return newVndkLibrariesTxt(vndkSPLibraries, "VNDK_SAMEPROCESS_LIBRARIES")
}
// vndkcore_libraries_txt is a singleton module whose content is a list of VNDK core libraries
// generated by Soong but can be referenced by other modules.
// For example, apex_vndk can depend on these files as prebuilt.
func vndkCoreLibrariesTxtFactory() android.SingletonModule {
return newVndkLibrariesTxt(vndkCoreLibraries, "VNDK_CORE_LIBRARIES")
}
// vndkprivate_libraries_txt is a singleton module whose content is a list of VNDK private libraries
// generated by Soong but can be referenced by other modules.
// For example, apex_vndk can depend on these files as prebuilt.
func vndkPrivateLibrariesTxtFactory() android.SingletonModule {
return newVndkLibrariesTxt(vndkPrivateLibraries, "VNDK_PRIVATE_LIBRARIES")
}
// vndkproduct_libraries_txt is a singleton module whose content is a list of VNDK product libraries
// generated by Soong but can be referenced by other modules.
// For example, apex_vndk can depend on these files as prebuilt.
func vndkProductLibrariesTxtFactory() android.SingletonModule {
return newVndkLibrariesTxt(vndkProductLibraries, "VNDK_PRODUCT_LIBRARIES")
}
// vndkcorevariant_libraries_txt is a singleton module whose content is a list of VNDK libraries
// that are using the core variant, generated by Soong but can be referenced by other modules.
// For example, apex_vndk can depend on these files as prebuilt.
func vndkUsingCoreVariantLibrariesTxtFactory() android.SingletonModule {
return newVndkLibrariesTxt(vndkUsingCoreVariantLibraries, "VNDK_USING_CORE_VARIANT_LIBRARIES")
}
func newVndkLibrariesWithMakeVarFilter(lister moduleListerFunc, makeVarName string, filter string) android.SingletonModule {
m := &vndkLibrariesTxt{
lister: lister,
makeVarName: makeVarName,
filterOutFromMakeVar: filter,
}
m.AddProperties(&m.properties)
android.InitAndroidArchModule(m, android.DeviceSupported, android.MultilibCommon)
return m
}
func newVndkLibrariesTxt(lister moduleListerFunc, makeVarName string) android.SingletonModule {
return newVndkLibrariesWithMakeVarFilter(lister, makeVarName, "")
}
func insertVndkVersion(filename string, vndkVersion string) string {
if index := strings.LastIndex(filename, "."); index != -1 {
return filename[:index] + "." + vndkVersion + filename[index:]
}
return filename
}
func (txt *vndkLibrariesTxt) GenerateAndroidBuildActions(ctx android.ModuleContext) {
var filename string
if BoolDefault(txt.properties.Insert_vndk_version, true) {
filename = insertVndkVersion(txt.Name(), ctx.DeviceConfig().PlatformVndkVersion())
} else {
filename = txt.Name()
}
txt.outputFile = android.PathForModuleOut(ctx, filename).OutputPath
installPath := android.PathForModuleInstall(ctx, "etc")
ctx.InstallFile(installPath, filename, txt.outputFile)
}
func (txt *vndkLibrariesTxt) GenerateSingletonBuildActions(ctx android.SingletonContext) {
txt.moduleNames, txt.fileNames = txt.lister(ctx)
android.WriteFileRule(ctx, txt.outputFile, strings.Join(txt.fileNames, "\n"))
}
func (txt *vndkLibrariesTxt) AndroidMkEntries() []android.AndroidMkEntries {
return []android.AndroidMkEntries{android.AndroidMkEntries{
Class: "ETC",
OutputFile: android.OptionalPathForPath(txt.outputFile),
ExtraEntries: []android.AndroidMkExtraEntriesFunc{
func(ctx android.AndroidMkExtraEntriesContext, entries *android.AndroidMkEntries) {
entries.SetString("LOCAL_MODULE_STEM", txt.outputFile.Base())
},
},
}}
}
func (txt *vndkLibrariesTxt) MakeVars(ctx android.MakeVarsContext) {
filter := func(modules []string, prefix string) []string {
if prefix == "" {
return modules
}
var result []string
for _, module := range modules {
if strings.HasPrefix(module, prefix) {
continue
} else {
result = append(result, module)
}
}
return result
}
ctx.Strict(txt.makeVarName, strings.Join(filter(txt.moduleNames, txt.filterOutFromMakeVar), " "))
}
// PrebuiltEtcModule interface
func (txt *vndkLibrariesTxt) OutputFile() android.OutputPath {
return txt.outputFile
}
// PrebuiltEtcModule interface
func (txt *vndkLibrariesTxt) BaseDir() string {
return "etc"
}
// PrebuiltEtcModule interface
func (txt *vndkLibrariesTxt) SubDir() string {
return ""
}
func (txt *vndkLibrariesTxt) OutputFiles(tag string) (android.Paths, error) {
return android.Paths{txt.outputFile}, nil
}
func VndkSnapshotSingleton() android.Singleton {
return &vndkSnapshotSingleton{}
}
type vndkSnapshotSingleton struct {
vndkLibrariesFile android.OutputPath
vndkSnapshotZipFile android.OptionalPath
}
func isVndkSnapshotAware(config android.DeviceConfig, m LinkableInterface,
apexInfo android.ApexInfo) (vndkType string, isVndkSnapshotLib bool) {
if m.Target().NativeBridge == android.NativeBridgeEnabled {
return "", false
}
// !inVendor: There's product/vendor variants for VNDK libs. We only care about vendor variants.
// !installable: Snapshot only cares about "installable" modules.
// !m.IsLlndk: llndk stubs are required for building against snapshots.
// IsSnapshotPrebuilt: Snapshotting a snapshot doesn't make sense.
// !outputFile.Valid: Snapshot requires valid output file.
if !m.InVendor() || (!installable(m, apexInfo) && !m.IsLlndk()) || m.IsSnapshotPrebuilt() || !m.OutputFile().Valid() {
return "", false
}
if !m.IsSnapshotLibrary() || !m.Shared() {
return "", false
}
if m.VndkVersion() == config.PlatformVndkVersion() {
if m.IsVndk() && !m.IsVndkExt() {
if m.IsVndkSp() {
return "vndk-sp", true
} else {
return "vndk-core", true
}
} else if m.HasLlndkStubs() && m.StubsVersion() == "" {
// Use default version for the snapshot.
return "llndk-stub", true
}
}
return "", false
}
func (c *vndkSnapshotSingleton) GenerateBuildActions(ctx android.SingletonContext) {
// build these files even if PlatformVndkVersion or BoardVndkVersion is not set
c.buildVndkLibrariesTxtFiles(ctx)
// BOARD_VNDK_VERSION must be set to 'current' in order to generate a VNDK snapshot.
if ctx.DeviceConfig().VndkVersion() != "current" {
return
}
if ctx.DeviceConfig().PlatformVndkVersion() == "" {
return
}
var snapshotOutputs android.Paths
/*
VNDK snapshot zipped artifacts directory structure:
{SNAPSHOT_ARCH}/
arch-{TARGET_ARCH}-{TARGET_ARCH_VARIANT}/
shared/
vndk-core/
(VNDK-core libraries, e.g. libbinder.so)
vndk-sp/
(VNDK-SP libraries, e.g. libc++.so)
llndk-stub/
(LLNDK stub libraries)
arch-{TARGET_2ND_ARCH}-{TARGET_2ND_ARCH_VARIANT}/
shared/
vndk-core/
(VNDK-core libraries, e.g. libbinder.so)
vndk-sp/
(VNDK-SP libraries, e.g. libc++.so)
llndk-stub/
(LLNDK stub libraries)
binder32/
(This directory is newly introduced in v28 (Android P) to hold
prebuilts built for 32-bit binder interface.)
arch-{TARGET_ARCH}-{TARGE_ARCH_VARIANT}/
...
configs/
(various *.txt configuration files)
include/
(header files of same directory structure with source tree)
NOTICE_FILES/
(notice files of libraries, e.g. libcutils.so.txt)
*/
snapshotDir := "vndk-snapshot"
snapshotArchDir := filepath.Join(snapshotDir, ctx.DeviceConfig().DeviceArch())
configsDir := filepath.Join(snapshotArchDir, "configs")
noticeDir := filepath.Join(snapshotArchDir, "NOTICE_FILES")
includeDir := filepath.Join(snapshotArchDir, "include")
// set of notice files copied.
noticeBuilt := make(map[string]bool)
// paths of VNDK modules for GPL license checking
modulePaths := make(map[string]string)
// actual module names of .so files
// e.g. moduleNames["libprotobuf-cpp-full-3.9.1.so"] = "libprotobuf-cpp-full"
moduleNames := make(map[string]string)
var headers android.Paths
// installVndkSnapshotLib copies built .so file from the module.
// Also, if the build artifacts is on, write a json file which contains all exported flags
// with FlagExporterInfo.
installVndkSnapshotLib := func(m *Module, vndkType string) (android.Paths, bool) {
var ret android.Paths
targetArch := "arch-" + m.Target().Arch.ArchType.String()
if m.Target().Arch.ArchVariant != "" {
targetArch += "-" + m.Target().Arch.ArchVariant
}
libPath := m.outputFile.Path()
snapshotLibOut := filepath.Join(snapshotArchDir, targetArch, "shared", vndkType, libPath.Base())
ret = append(ret, snapshot.CopyFileRule(pctx, ctx, libPath, snapshotLibOut))
if ctx.Config().VndkSnapshotBuildArtifacts() {
prop := struct {
ExportedDirs []string `json:",omitempty"`
ExportedSystemDirs []string `json:",omitempty"`
ExportedFlags []string `json:",omitempty"`
RelativeInstallPath string `json:",omitempty"`
}{}
exportedInfo := ctx.ModuleProvider(m, FlagExporterInfoProvider).(FlagExporterInfo)
prop.ExportedFlags = exportedInfo.Flags
prop.ExportedDirs = exportedInfo.IncludeDirs.Strings()
prop.ExportedSystemDirs = exportedInfo.SystemIncludeDirs.Strings()
prop.RelativeInstallPath = m.RelativeInstallPath()
propOut := snapshotLibOut + ".json"
j, err := json.Marshal(prop)
if err != nil {
ctx.Errorf("json marshal to %q failed: %#v", propOut, err)
return nil, false
}
ret = append(ret, snapshot.WriteStringToFileRule(ctx, string(j), propOut))
}
return ret, true
}
ctx.VisitAllModules(func(module android.Module) {
m, ok := module.(*Module)
if !ok || !m.Enabled() {
return
}
apexInfo := ctx.ModuleProvider(module, android.ApexInfoProvider).(android.ApexInfo)
vndkType, ok := isVndkSnapshotAware(ctx.DeviceConfig(), m, apexInfo)
if !ok {
return
}
// For all snapshot candidates, the followings are captured.
// - .so files
// - notice files
//
// The followings are also captured if VNDK_SNAPSHOT_BUILD_ARTIFACTS.
// - .json files containing exported flags
// - exported headers from collectHeadersForSnapshot()
//
// Headers are deduplicated after visiting all modules.
// install .so files for appropriate modules.
// Also install .json files if VNDK_SNAPSHOT_BUILD_ARTIFACTS
libs, ok := installVndkSnapshotLib(m, vndkType)
if !ok {
return
}
snapshotOutputs = append(snapshotOutputs, libs...)
// These are for generating module_names.txt and module_paths.txt
stem := m.outputFile.Path().Base()
moduleNames[stem] = ctx.ModuleName(m)
modulePaths[stem] = ctx.ModuleDir(m)
if len(m.NoticeFiles()) > 0 {
noticeName := stem + ".txt"
// skip already copied notice file
if _, ok := noticeBuilt[noticeName]; !ok {
noticeBuilt[noticeName] = true
snapshotOutputs = append(snapshotOutputs, combineNoticesRule(
ctx, m.NoticeFiles(), filepath.Join(noticeDir, noticeName)))
}
}
if ctx.Config().VndkSnapshotBuildArtifacts() {
headers = append(headers, m.SnapshotHeaders()...)
}
})
// install all headers after removing duplicates
for _, header := range android.FirstUniquePaths(headers) {
snapshotOutputs = append(snapshotOutputs, snapshot.CopyFileRule(
pctx, ctx, header, filepath.Join(includeDir, header.String())))
}
// install *.libraries.txt except vndkcorevariant.libraries.txt
ctx.VisitAllModules(func(module android.Module) {
m, ok := module.(*vndkLibrariesTxt)
if !ok || !m.Enabled() || m.Name() == vndkUsingCoreVariantLibrariesTxt {
return
}
snapshotOutputs = append(snapshotOutputs, snapshot.CopyFileRule(
pctx, ctx, m.OutputFile(), filepath.Join(configsDir, m.Name())))
})
/*
module_paths.txt contains paths on which VNDK modules are defined.
e.g.,
libbase.so system/libbase
libc.so bionic/libc
...
*/
snapshotOutputs = append(snapshotOutputs, installMapListFileRule(ctx, modulePaths, filepath.Join(configsDir, "module_paths.txt")))
/*
module_names.txt contains names as which VNDK modules are defined,
because output filename and module name can be different with stem and suffix properties.
e.g.,
libcutils.so libcutils
libprotobuf-cpp-full-3.9.2.so libprotobuf-cpp-full
...
*/
snapshotOutputs = append(snapshotOutputs, installMapListFileRule(ctx, moduleNames, filepath.Join(configsDir, "module_names.txt")))
// All artifacts are ready. Sort them to normalize ninja and then zip.
sort.Slice(snapshotOutputs, func(i, j int) bool {
return snapshotOutputs[i].String() < snapshotOutputs[j].String()
})
zipPath := android.PathForOutput(ctx, snapshotDir, "android-vndk-"+ctx.DeviceConfig().DeviceArch()+".zip")
zipRule := android.NewRuleBuilder(pctx, ctx)
// filenames in rspfile from FlagWithRspFileInputList might be single-quoted. Remove it with tr
snapshotOutputList := android.PathForOutput(ctx, snapshotDir, "android-vndk-"+ctx.DeviceConfig().DeviceArch()+"_list")
rspFile := snapshotOutputList.ReplaceExtension(ctx, "rsp")
zipRule.Command().
Text("tr").
FlagWithArg("-d ", "\\'").
FlagWithRspFileInputList("< ", rspFile, snapshotOutputs).
FlagWithOutput("> ", snapshotOutputList)
zipRule.Temporary(snapshotOutputList)
zipRule.Command().
BuiltTool("soong_zip").
FlagWithOutput("-o ", zipPath).
FlagWithArg("-C ", android.PathForOutput(ctx, snapshotDir).String()).
FlagWithInput("-l ", snapshotOutputList)
zipRule.Build(zipPath.String(), "vndk snapshot "+zipPath.String())
zipRule.DeleteTemporaryFiles()
c.vndkSnapshotZipFile = android.OptionalPathForPath(zipPath)
}
func getVndkFileName(m *Module) (string, error) {
if library, ok := m.linker.(*libraryDecorator); ok {
return library.getLibNameHelper(m.BaseModuleName(), true, false) + ".so", nil
}
if prebuilt, ok := m.linker.(*prebuiltLibraryLinker); ok {
return prebuilt.libraryDecorator.getLibNameHelper(m.BaseModuleName(), true, false) + ".so", nil
}
return "", fmt.Errorf("VNDK library should have libraryDecorator or prebuiltLibraryLinker as linker: %T", m.linker)
}
func (c *vndkSnapshotSingleton) buildVndkLibrariesTxtFiles(ctx android.SingletonContext) {
// Build list of vndk libs as merged & tagged & filter-out(libclang_rt):
// Since each target have different set of libclang_rt.* files,
// keep the common set of files in vndk.libraries.txt
_, llndk := vndkModuleListRemover(llndkLibraries, "libclang_rt.")(ctx)
_, vndkcore := vndkModuleListRemover(vndkCoreLibraries, "libclang_rt.")(ctx)
_, vndksp := vndkSPLibraries(ctx)
_, vndkprivate := vndkPrivateLibraries(ctx)
_, vndkproduct := vndkModuleListRemover(vndkProductLibraries, "libclang_rt.")(ctx)
var merged []string
merged = append(merged, addPrefix(llndk, "LLNDK: ")...)
merged = append(merged, addPrefix(vndksp, "VNDK-SP: ")...)
merged = append(merged, addPrefix(vndkcore, "VNDK-core: ")...)
merged = append(merged, addPrefix(vndkprivate, "VNDK-private: ")...)
merged = append(merged, addPrefix(vndkproduct, "VNDK-product: ")...)
c.vndkLibrariesFile = android.PathForOutput(ctx, "vndk", "vndk.libraries.txt")
android.WriteFileRule(ctx, c.vndkLibrariesFile, strings.Join(merged, "\n"))
}
func (c *vndkSnapshotSingleton) MakeVars(ctx android.MakeVarsContext) {
// Make uses LLNDK_MOVED_TO_APEX_LIBRARIES to avoid installing libraries on /system if
// they been moved to an apex.
movedToApexLlndkLibraries := make(map[string]bool)
ctx.VisitAllModules(func(module android.Module) {
if library := moduleLibraryInterface(module); library != nil && library.hasLLNDKStubs() {
// Skip bionic libs, they are handled in different manner
name := library.implementationModuleName(module.(*Module).BaseModuleName())
if module.(android.ApexModule).DirectlyInAnyApex() && !isBionic(name) {
movedToApexLlndkLibraries[name] = true
}
}
})
ctx.Strict("LLNDK_MOVED_TO_APEX_LIBRARIES",
strings.Join(android.SortedStringKeys(movedToApexLlndkLibraries), " "))
ctx.Strict("VNDK_LIBRARIES_FILE", c.vndkLibrariesFile.String())
ctx.Strict("SOONG_VNDK_SNAPSHOT_ZIP", c.vndkSnapshotZipFile.String())
}