platform_build_soong/cc/cc.go
Peter Collingbourne 8c7e6e2626 Add an "scs" flag for enabling shadow call stack on targets.
Shadow call stack (SCS) is a security mitigation that uses a
separate stack (the SCS) for return addresses.

The effect of setting sanitize.scs on a shared library is to build
the library and all of its static library dependencies with SCS. This
is similar to CFI and the other sanitizers.

Bug: 112907825
Bug: 119557795
Change-Id: I82fb2b38b10eac911c4d2d120b74fea4af0622ad
2018-11-19 17:39:23 -08:00

1874 lines
56 KiB
Go

// Copyright 2015 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package cc
// This file contains the module types for compiling C/C++ for Android, and converts the properties
// into the flags and filenames necessary to pass to the compiler. The final creation of the rules
// is handled in builder.go
import (
"strconv"
"strings"
"github.com/google/blueprint"
"github.com/google/blueprint/proptools"
"android/soong/android"
"android/soong/cc/config"
"android/soong/genrule"
)
func init() {
android.RegisterModuleType("cc_defaults", defaultsFactory)
android.PreDepsMutators(func(ctx android.RegisterMutatorsContext) {
ctx.BottomUp("image", imageMutator).Parallel()
ctx.BottomUp("link", LinkageMutator).Parallel()
ctx.BottomUp("vndk", vndkMutator).Parallel()
ctx.BottomUp("ndk_api", ndkApiMutator).Parallel()
ctx.BottomUp("test_per_src", testPerSrcMutator).Parallel()
ctx.BottomUp("version", versionMutator).Parallel()
ctx.BottomUp("begin", BeginMutator).Parallel()
})
android.PostDepsMutators(func(ctx android.RegisterMutatorsContext) {
ctx.TopDown("asan_deps", sanitizerDepsMutator(asan))
ctx.BottomUp("asan", sanitizerMutator(asan)).Parallel()
ctx.TopDown("hwasan_deps", sanitizerDepsMutator(hwasan))
ctx.BottomUp("hwasan", sanitizerMutator(hwasan)).Parallel()
ctx.TopDown("cfi_deps", sanitizerDepsMutator(cfi))
ctx.BottomUp("cfi", sanitizerMutator(cfi)).Parallel()
ctx.TopDown("scs_deps", sanitizerDepsMutator(scs))
ctx.BottomUp("scs", sanitizerMutator(scs)).Parallel()
ctx.TopDown("tsan_deps", sanitizerDepsMutator(tsan))
ctx.BottomUp("tsan", sanitizerMutator(tsan)).Parallel()
ctx.TopDown("sanitize_runtime_deps", sanitizerRuntimeDepsMutator)
ctx.BottomUp("coverage", coverageLinkingMutator).Parallel()
ctx.TopDown("vndk_deps", sabiDepsMutator)
ctx.TopDown("lto_deps", ltoDepsMutator)
ctx.BottomUp("lto", ltoMutator).Parallel()
})
pctx.Import("android/soong/cc/config")
}
type Deps struct {
SharedLibs, LateSharedLibs []string
StaticLibs, LateStaticLibs, WholeStaticLibs []string
HeaderLibs []string
RuntimeLibs []string
ReexportSharedLibHeaders, ReexportStaticLibHeaders, ReexportHeaderLibHeaders []string
ObjFiles []string
GeneratedSources []string
GeneratedHeaders []string
ReexportGeneratedHeaders []string
CrtBegin, CrtEnd string
// Used for host bionic
LinkerFlagsFile string
DynamicLinker string
}
type PathDeps struct {
// Paths to .so files
SharedLibs, LateSharedLibs android.Paths
// Paths to the dependencies to use for .so files (.so.toc files)
SharedLibsDeps, LateSharedLibsDeps android.Paths
// Paths to .a files
StaticLibs, LateStaticLibs, WholeStaticLibs android.Paths
// Paths to .o files
Objs Objects
StaticLibObjs Objects
WholeStaticLibObjs Objects
// Paths to generated source files
GeneratedSources android.Paths
GeneratedHeaders android.Paths
Flags, ReexportedFlags []string
ReexportedFlagsDeps android.Paths
// Paths to crt*.o files
CrtBegin, CrtEnd android.OptionalPath
// Path to the file container flags to use with the linker
LinkerFlagsFile android.OptionalPath
// Path to the dynamic linker binary
DynamicLinker android.OptionalPath
}
type Flags struct {
GlobalFlags []string // Flags that apply to C, C++, and assembly source files
ArFlags []string // Flags that apply to ar
AsFlags []string // Flags that apply to assembly source files
CFlags []string // Flags that apply to C and C++ source files
ToolingCFlags []string // Flags that apply to C and C++ source files parsed by clang LibTooling tools
ConlyFlags []string // Flags that apply to C source files
CppFlags []string // Flags that apply to C++ source files
ToolingCppFlags []string // Flags that apply to C++ source files parsed by clang LibTooling tools
YaccFlags []string // Flags that apply to Yacc source files
aidlFlags []string // Flags that apply to aidl source files
rsFlags []string // Flags that apply to renderscript source files
LdFlags []string // Flags that apply to linker command lines
libFlags []string // Flags to add libraries early to the link order
TidyFlags []string // Flags that apply to clang-tidy
SAbiFlags []string // Flags that apply to header-abi-dumper
YasmFlags []string // Flags that apply to yasm assembly source files
// Global include flags that apply to C, C++, and assembly source files
// These must be after any module include flags, which will be in GlobalFlags.
SystemIncludeFlags []string
Toolchain config.Toolchain
Tidy bool
Coverage bool
SAbiDump bool
RequiredInstructionSet string
DynamicLinker string
CFlagsDeps android.Paths // Files depended on by compiler flags
LdFlagsDeps android.Paths // Files depended on by linker flags
GroupStaticLibs bool
protoDeps android.Paths
protoFlags []string // Flags that apply to proto source files
protoOutTypeFlag string // The output type, --cpp_out for example
protoOutParams []string // Flags that modify the output of proto generated files
protoC bool // Whether to use C instead of C++
protoOptionsFile bool // Whether to look for a .options file next to the .proto
ProtoRoot bool
}
type ObjectLinkerProperties struct {
// names of other cc_object modules to link into this module using partial linking
Objs []string `android:"arch_variant"`
// if set, add an extra objcopy --prefix-symbols= step
Prefix_symbols *string
}
// Properties used to compile all C or C++ modules
type BaseProperties struct {
// Deprecated. true is the default, false is invalid.
Clang *bool `android:"arch_variant"`
// Minimum sdk version supported when compiling against the ndk
Sdk_version *string
AndroidMkSharedLibs []string `blueprint:"mutated"`
AndroidMkStaticLibs []string `blueprint:"mutated"`
AndroidMkRuntimeLibs []string `blueprint:"mutated"`
AndroidMkWholeStaticLibs []string `blueprint:"mutated"`
HideFromMake bool `blueprint:"mutated"`
PreventInstall bool `blueprint:"mutated"`
UseVndk bool `blueprint:"mutated"`
// *.logtags files, to combine together in order to generate the /system/etc/event-log-tags
// file
Logtags []string
// Make this module available when building for recovery
Recovery_available *bool
InRecovery bool `blueprint:"mutated"`
}
type VendorProperties struct {
// whether this module should be allowed to be directly depended by other
// modules with `vendor: true`, `proprietary: true`, or `vendor_available:true`.
// If set to true, two variants will be built separately, one like
// normal, and the other limited to the set of libraries and headers
// that are exposed to /vendor modules.
//
// The vendor variant may be used with a different (newer) /system,
// so it shouldn't have any unversioned runtime dependencies, or
// make assumptions about the system that may not be true in the
// future.
//
// If set to false, this module becomes inaccessible from /vendor modules.
//
// Default value is true when vndk: {enabled: true} or vendor: true.
//
// Nothing happens if BOARD_VNDK_VERSION isn't set in the BoardConfig.mk
Vendor_available *bool
// whether this module is capable of being loaded with other instance
// (possibly an older version) of the same module in the same process.
// Currently, a shared library that is a member of VNDK (vndk: {enabled: true})
// can be double loaded in a vendor process if the library is also a
// (direct and indirect) dependency of an LLNDK library. Such libraries must be
// explicitly marked as `double_loadable: true` by the owner, or the dependency
// from the LLNDK lib should be cut if the lib is not designed to be double loaded.
Double_loadable *bool
}
type ModuleContextIntf interface {
static() bool
staticBinary() bool
toolchain() config.Toolchain
useSdk() bool
sdkVersion() string
useVndk() bool
isVndk() bool
isVndkSp() bool
isVndkExt() bool
inRecovery() bool
shouldCreateVndkSourceAbiDump() bool
selectedStl() string
baseModuleName() string
getVndkExtendsModuleName() string
isPgoCompile() bool
}
type ModuleContext interface {
android.ModuleContext
ModuleContextIntf
}
type BaseModuleContext interface {
android.BaseContext
ModuleContextIntf
}
type DepsContext interface {
android.BottomUpMutatorContext
ModuleContextIntf
}
type feature interface {
begin(ctx BaseModuleContext)
deps(ctx DepsContext, deps Deps) Deps
flags(ctx ModuleContext, flags Flags) Flags
props() []interface{}
}
type compiler interface {
compilerInit(ctx BaseModuleContext)
compilerDeps(ctx DepsContext, deps Deps) Deps
compilerFlags(ctx ModuleContext, flags Flags, deps PathDeps) Flags
compilerProps() []interface{}
appendCflags([]string)
appendAsflags([]string)
compile(ctx ModuleContext, flags Flags, deps PathDeps) Objects
}
type linker interface {
linkerInit(ctx BaseModuleContext)
linkerDeps(ctx DepsContext, deps Deps) Deps
linkerFlags(ctx ModuleContext, flags Flags) Flags
linkerProps() []interface{}
link(ctx ModuleContext, flags Flags, deps PathDeps, objs Objects) android.Path
appendLdflags([]string)
}
type installer interface {
installerProps() []interface{}
install(ctx ModuleContext, path android.Path)
inData() bool
inSanitizerDir() bool
hostToolPath() android.OptionalPath
}
type dependencyTag struct {
blueprint.BaseDependencyTag
name string
library bool
reexportFlags bool
}
var (
sharedDepTag = dependencyTag{name: "shared", library: true}
sharedExportDepTag = dependencyTag{name: "shared", library: true, reexportFlags: true}
lateSharedDepTag = dependencyTag{name: "late shared", library: true}
staticDepTag = dependencyTag{name: "static", library: true}
staticExportDepTag = dependencyTag{name: "static", library: true, reexportFlags: true}
lateStaticDepTag = dependencyTag{name: "late static", library: true}
wholeStaticDepTag = dependencyTag{name: "whole static", library: true, reexportFlags: true}
headerDepTag = dependencyTag{name: "header", library: true}
headerExportDepTag = dependencyTag{name: "header", library: true, reexportFlags: true}
genSourceDepTag = dependencyTag{name: "gen source"}
genHeaderDepTag = dependencyTag{name: "gen header"}
genHeaderExportDepTag = dependencyTag{name: "gen header", reexportFlags: true}
objDepTag = dependencyTag{name: "obj"}
crtBeginDepTag = dependencyTag{name: "crtbegin"}
crtEndDepTag = dependencyTag{name: "crtend"}
linkerFlagsDepTag = dependencyTag{name: "linker flags file"}
dynamicLinkerDepTag = dependencyTag{name: "dynamic linker"}
reuseObjTag = dependencyTag{name: "reuse objects"}
ndkStubDepTag = dependencyTag{name: "ndk stub", library: true}
ndkLateStubDepTag = dependencyTag{name: "ndk late stub", library: true}
vndkExtDepTag = dependencyTag{name: "vndk extends", library: true}
runtimeDepTag = dependencyTag{name: "runtime lib"}
)
// Module contains the properties and members used by all C/C++ module types, and implements
// the blueprint.Module interface. It delegates to compiler, linker, and installer interfaces
// to construct the output file. Behavior can be customized with a Customizer interface
type Module struct {
android.ModuleBase
android.DefaultableModuleBase
android.ApexModuleBase
Properties BaseProperties
VendorProperties VendorProperties
// initialize before calling Init
hod android.HostOrDeviceSupported
multilib android.Multilib
// delegates, initialize before calling Init
features []feature
compiler compiler
linker linker
installer installer
stl *stl
sanitize *sanitize
coverage *coverage
sabi *sabi
vndkdep *vndkdep
lto *lto
pgo *pgo
androidMkSharedLibDeps []string
outputFile android.OptionalPath
cachedToolchain config.Toolchain
subAndroidMkOnce map[subAndroidMkProvider]bool
// Flags used to compile this module
flags Flags
// When calling a linker, if module A depends on module B, then A must precede B in its command
// line invocation. depsInLinkOrder stores the proper ordering of all of the transitive
// deps of this module
depsInLinkOrder android.Paths
// only non-nil when this is a shared library that reuses the objects of a static library
staticVariant *Module
}
func (c *Module) OutputFile() android.OptionalPath {
return c.outputFile
}
func (c *Module) Init() android.Module {
c.AddProperties(&c.Properties, &c.VendorProperties)
if c.compiler != nil {
c.AddProperties(c.compiler.compilerProps()...)
}
if c.linker != nil {
c.AddProperties(c.linker.linkerProps()...)
}
if c.installer != nil {
c.AddProperties(c.installer.installerProps()...)
}
if c.stl != nil {
c.AddProperties(c.stl.props()...)
}
if c.sanitize != nil {
c.AddProperties(c.sanitize.props()...)
}
if c.coverage != nil {
c.AddProperties(c.coverage.props()...)
}
if c.sabi != nil {
c.AddProperties(c.sabi.props()...)
}
if c.vndkdep != nil {
c.AddProperties(c.vndkdep.props()...)
}
if c.lto != nil {
c.AddProperties(c.lto.props()...)
}
if c.pgo != nil {
c.AddProperties(c.pgo.props()...)
}
for _, feature := range c.features {
c.AddProperties(feature.props()...)
}
c.Prefer32(func(ctx android.BaseModuleContext, base *android.ModuleBase, class android.OsClass) bool {
switch class {
case android.Device:
return ctx.Config().DevicePrefer32BitExecutables()
case android.HostCross:
// Windows builds always prefer 32-bit
return true
default:
return false
}
})
android.InitAndroidArchModule(c, c.hod, c.multilib)
android.InitDefaultableModule(c)
android.InitApexModule(c)
return c
}
// Returns true for dependency roots (binaries)
// TODO(ccross): also handle dlopenable libraries
func (c *Module) isDependencyRoot() bool {
if root, ok := c.linker.(interface {
isDependencyRoot() bool
}); ok {
return root.isDependencyRoot()
}
return false
}
func (c *Module) useVndk() bool {
return c.Properties.UseVndk
}
func (c *Module) isVndk() bool {
if vndkdep := c.vndkdep; vndkdep != nil {
return vndkdep.isVndk()
}
return false
}
func (c *Module) isPgoCompile() bool {
if pgo := c.pgo; pgo != nil {
return pgo.Properties.PgoCompile
}
return false
}
func (c *Module) isVndkSp() bool {
if vndkdep := c.vndkdep; vndkdep != nil {
return vndkdep.isVndkSp()
}
return false
}
func (c *Module) isVndkExt() bool {
if vndkdep := c.vndkdep; vndkdep != nil {
return vndkdep.isVndkExt()
}
return false
}
func (c *Module) getVndkExtendsModuleName() string {
if vndkdep := c.vndkdep; vndkdep != nil {
return vndkdep.getVndkExtendsModuleName()
}
return ""
}
// Returns true only when this module is configured to have core and vendor
// variants.
func (c *Module) hasVendorVariant() bool {
return c.isVndk() || Bool(c.VendorProperties.Vendor_available)
}
func (c *Module) inRecovery() bool {
return c.Properties.InRecovery || c.ModuleBase.InstallInRecovery()
}
func (c *Module) onlyInRecovery() bool {
return c.ModuleBase.InstallInRecovery()
}
type baseModuleContext struct {
android.BaseContext
moduleContextImpl
}
type depsContext struct {
android.BottomUpMutatorContext
moduleContextImpl
}
type moduleContext struct {
android.ModuleContext
moduleContextImpl
}
func (ctx *moduleContext) SocSpecific() bool {
return ctx.ModuleContext.SocSpecific() ||
(ctx.mod.hasVendorVariant() && ctx.mod.useVndk() && !ctx.mod.isVndk())
}
type moduleContextImpl struct {
mod *Module
ctx BaseModuleContext
}
func (ctx *moduleContextImpl) toolchain() config.Toolchain {
return ctx.mod.toolchain(ctx.ctx)
}
func (ctx *moduleContextImpl) static() bool {
return ctx.mod.static()
}
func (ctx *moduleContextImpl) staticBinary() bool {
if static, ok := ctx.mod.linker.(interface {
staticBinary() bool
}); ok {
return static.staticBinary()
}
return false
}
func (ctx *moduleContextImpl) useSdk() bool {
if ctx.ctx.Device() && !ctx.useVndk() && !ctx.inRecovery() {
return String(ctx.mod.Properties.Sdk_version) != ""
}
return false
}
func (ctx *moduleContextImpl) sdkVersion() string {
if ctx.ctx.Device() {
if ctx.useVndk() {
vndk_ver := ctx.ctx.DeviceConfig().VndkVersion()
if vndk_ver == "current" {
platform_vndk_ver := ctx.ctx.DeviceConfig().PlatformVndkVersion()
if inList(platform_vndk_ver, ctx.ctx.Config().PlatformVersionCombinedCodenames()) {
return "current"
}
return platform_vndk_ver
}
return vndk_ver
}
return String(ctx.mod.Properties.Sdk_version)
}
return ""
}
func (ctx *moduleContextImpl) useVndk() bool {
return ctx.mod.useVndk()
}
func (ctx *moduleContextImpl) isVndk() bool {
return ctx.mod.isVndk()
}
func (ctx *moduleContextImpl) isPgoCompile() bool {
return ctx.mod.isPgoCompile()
}
func (ctx *moduleContextImpl) isVndkSp() bool {
return ctx.mod.isVndkSp()
}
func (ctx *moduleContextImpl) isVndkExt() bool {
return ctx.mod.isVndkExt()
}
func (ctx *moduleContextImpl) inRecovery() bool {
return ctx.mod.inRecovery()
}
// Check whether ABI dumps should be created for this module.
func (ctx *moduleContextImpl) shouldCreateVndkSourceAbiDump() bool {
if ctx.ctx.Config().IsEnvTrue("SKIP_ABI_CHECKS") {
return false
}
if sanitize := ctx.mod.sanitize; sanitize != nil {
if !sanitize.isVariantOnProductionDevice() {
return false
}
}
if !ctx.ctx.Device() {
// Host modules do not need ABI dumps.
return false
}
if inList(ctx.baseModuleName(), llndkLibraries) {
return true
}
if inList(ctx.baseModuleName(), ndkMigratedLibs) {
return true
}
if ctx.useVndk() && ctx.isVndk() {
// Return true if this is VNDK-core, VNDK-SP, or VNDK-Ext and this is not
// VNDK-private.
return Bool(ctx.mod.VendorProperties.Vendor_available) || ctx.isVndkExt()
}
return false
}
func (ctx *moduleContextImpl) selectedStl() string {
if stl := ctx.mod.stl; stl != nil {
return stl.Properties.SelectedStl
}
return ""
}
func (ctx *moduleContextImpl) baseModuleName() string {
return ctx.mod.ModuleBase.BaseModuleName()
}
func (ctx *moduleContextImpl) getVndkExtendsModuleName() string {
return ctx.mod.getVndkExtendsModuleName()
}
func newBaseModule(hod android.HostOrDeviceSupported, multilib android.Multilib) *Module {
return &Module{
hod: hod,
multilib: multilib,
}
}
func newModule(hod android.HostOrDeviceSupported, multilib android.Multilib) *Module {
module := newBaseModule(hod, multilib)
module.features = []feature{
&tidyFeature{},
}
module.stl = &stl{}
module.sanitize = &sanitize{}
module.coverage = &coverage{}
module.sabi = &sabi{}
module.vndkdep = &vndkdep{}
module.lto = &lto{}
module.pgo = &pgo{}
return module
}
func (c *Module) Prebuilt() *android.Prebuilt {
if p, ok := c.linker.(prebuiltLinkerInterface); ok {
return p.prebuilt()
}
return nil
}
func (c *Module) Name() string {
name := c.ModuleBase.Name()
if p, ok := c.linker.(interface {
Name(string) string
}); ok {
name = p.Name(name)
}
return name
}
// orderDeps reorders dependencies into a list such that if module A depends on B, then
// A will precede B in the resultant list.
// This is convenient for passing into a linker.
// Note that directSharedDeps should be the analogous static library for each shared lib dep
func orderDeps(directStaticDeps []android.Path, directSharedDeps []android.Path, allTransitiveDeps map[android.Path][]android.Path) (orderedAllDeps []android.Path, orderedDeclaredDeps []android.Path) {
// If A depends on B, then
// Every list containing A will also contain B later in the list
// So, after concatenating all lists, the final instance of B will have come from the same
// original list as the final instance of A
// So, the final instance of B will be later in the concatenation than the final A
// So, keeping only the final instance of A and of B ensures that A is earlier in the output
// list than B
for _, dep := range directStaticDeps {
orderedAllDeps = append(orderedAllDeps, dep)
orderedAllDeps = append(orderedAllDeps, allTransitiveDeps[dep]...)
}
for _, dep := range directSharedDeps {
orderedAllDeps = append(orderedAllDeps, dep)
orderedAllDeps = append(orderedAllDeps, allTransitiveDeps[dep]...)
}
orderedAllDeps = android.LastUniquePaths(orderedAllDeps)
// We don't want to add any new dependencies into directStaticDeps (to allow the caller to
// intentionally exclude or replace any unwanted transitive dependencies), so we limit the
// resultant list to only what the caller has chosen to include in directStaticDeps
_, orderedDeclaredDeps = android.FilterPathList(orderedAllDeps, directStaticDeps)
return orderedAllDeps, orderedDeclaredDeps
}
func orderStaticModuleDeps(module *Module, staticDeps []*Module, sharedDeps []*Module) (results []android.Path) {
// convert Module to Path
allTransitiveDeps := make(map[android.Path][]android.Path, len(staticDeps))
staticDepFiles := []android.Path{}
for _, dep := range staticDeps {
allTransitiveDeps[dep.outputFile.Path()] = dep.depsInLinkOrder
staticDepFiles = append(staticDepFiles, dep.outputFile.Path())
}
sharedDepFiles := []android.Path{}
for _, sharedDep := range sharedDeps {
staticAnalogue := sharedDep.staticVariant
if staticAnalogue != nil {
allTransitiveDeps[staticAnalogue.outputFile.Path()] = staticAnalogue.depsInLinkOrder
sharedDepFiles = append(sharedDepFiles, staticAnalogue.outputFile.Path())
}
}
// reorder the dependencies based on transitive dependencies
module.depsInLinkOrder, results = orderDeps(staticDepFiles, sharedDepFiles, allTransitiveDeps)
return results
}
func (c *Module) GenerateAndroidBuildActions(actx android.ModuleContext) {
ctx := &moduleContext{
ModuleContext: actx,
moduleContextImpl: moduleContextImpl{
mod: c,
},
}
ctx.ctx = ctx
deps := c.depsToPaths(ctx)
if ctx.Failed() {
return
}
if c.Properties.Clang != nil && *c.Properties.Clang == false {
ctx.PropertyErrorf("clang", "false (GCC) is no longer supported")
}
flags := Flags{
Toolchain: c.toolchain(ctx),
}
if c.compiler != nil {
flags = c.compiler.compilerFlags(ctx, flags, deps)
}
if c.linker != nil {
flags = c.linker.linkerFlags(ctx, flags)
}
if c.stl != nil {
flags = c.stl.flags(ctx, flags)
}
if c.sanitize != nil {
flags = c.sanitize.flags(ctx, flags)
}
if c.coverage != nil {
flags = c.coverage.flags(ctx, flags)
}
if c.lto != nil {
flags = c.lto.flags(ctx, flags)
}
if c.pgo != nil {
flags = c.pgo.flags(ctx, flags)
}
for _, feature := range c.features {
flags = feature.flags(ctx, flags)
}
if ctx.Failed() {
return
}
flags.CFlags, _ = filterList(flags.CFlags, config.IllegalFlags)
flags.CppFlags, _ = filterList(flags.CppFlags, config.IllegalFlags)
flags.ConlyFlags, _ = filterList(flags.ConlyFlags, config.IllegalFlags)
flags.GlobalFlags = append(flags.GlobalFlags, deps.Flags...)
c.flags = flags
// We need access to all the flags seen by a source file.
if c.sabi != nil {
flags = c.sabi.flags(ctx, flags)
}
// Optimization to reduce size of build.ninja
// Replace the long list of flags for each file with a module-local variable
ctx.Variable(pctx, "cflags", strings.Join(flags.CFlags, " "))
ctx.Variable(pctx, "cppflags", strings.Join(flags.CppFlags, " "))
ctx.Variable(pctx, "asflags", strings.Join(flags.AsFlags, " "))
flags.CFlags = []string{"$cflags"}
flags.CppFlags = []string{"$cppflags"}
flags.AsFlags = []string{"$asflags"}
var objs Objects
if c.compiler != nil {
objs = c.compiler.compile(ctx, flags, deps)
if ctx.Failed() {
return
}
}
if c.linker != nil {
outputFile := c.linker.link(ctx, flags, deps, objs)
if ctx.Failed() {
return
}
c.outputFile = android.OptionalPathForPath(outputFile)
}
if c.installer != nil && !c.Properties.PreventInstall && c.IsForPlatform() && c.outputFile.Valid() {
c.installer.install(ctx, c.outputFile.Path())
if ctx.Failed() {
return
}
}
}
func (c *Module) toolchain(ctx BaseModuleContext) config.Toolchain {
if c.cachedToolchain == nil {
c.cachedToolchain = config.FindToolchain(ctx.Os(), ctx.Arch())
}
return c.cachedToolchain
}
func (c *Module) begin(ctx BaseModuleContext) {
if c.compiler != nil {
c.compiler.compilerInit(ctx)
}
if c.linker != nil {
c.linker.linkerInit(ctx)
}
if c.stl != nil {
c.stl.begin(ctx)
}
if c.sanitize != nil {
c.sanitize.begin(ctx)
}
if c.coverage != nil {
c.coverage.begin(ctx)
}
if c.sabi != nil {
c.sabi.begin(ctx)
}
if c.vndkdep != nil {
c.vndkdep.begin(ctx)
}
if c.lto != nil {
c.lto.begin(ctx)
}
if c.pgo != nil {
c.pgo.begin(ctx)
}
for _, feature := range c.features {
feature.begin(ctx)
}
if ctx.useSdk() {
version, err := normalizeNdkApiLevel(ctx, ctx.sdkVersion(), ctx.Arch())
if err != nil {
ctx.PropertyErrorf("sdk_version", err.Error())
}
c.Properties.Sdk_version = StringPtr(version)
}
}
func (c *Module) deps(ctx DepsContext) Deps {
deps := Deps{}
if c.compiler != nil {
deps = c.compiler.compilerDeps(ctx, deps)
}
// Add the PGO dependency (the clang_rt.profile runtime library), which
// sometimes depends on symbols from libgcc, before libgcc gets added
// in linkerDeps().
if c.pgo != nil {
deps = c.pgo.deps(ctx, deps)
}
if c.linker != nil {
deps = c.linker.linkerDeps(ctx, deps)
}
if c.stl != nil {
deps = c.stl.deps(ctx, deps)
}
if c.sanitize != nil {
deps = c.sanitize.deps(ctx, deps)
}
if c.coverage != nil {
deps = c.coverage.deps(ctx, deps)
}
if c.sabi != nil {
deps = c.sabi.deps(ctx, deps)
}
if c.vndkdep != nil {
deps = c.vndkdep.deps(ctx, deps)
}
if c.lto != nil {
deps = c.lto.deps(ctx, deps)
}
for _, feature := range c.features {
deps = feature.deps(ctx, deps)
}
deps.WholeStaticLibs = android.LastUniqueStrings(deps.WholeStaticLibs)
deps.StaticLibs = android.LastUniqueStrings(deps.StaticLibs)
deps.LateStaticLibs = android.LastUniqueStrings(deps.LateStaticLibs)
deps.SharedLibs = android.LastUniqueStrings(deps.SharedLibs)
deps.LateSharedLibs = android.LastUniqueStrings(deps.LateSharedLibs)
deps.HeaderLibs = android.LastUniqueStrings(deps.HeaderLibs)
deps.RuntimeLibs = android.LastUniqueStrings(deps.RuntimeLibs)
for _, lib := range deps.ReexportSharedLibHeaders {
if !inList(lib, deps.SharedLibs) {
ctx.PropertyErrorf("export_shared_lib_headers", "Shared library not in shared_libs: '%s'", lib)
}
}
for _, lib := range deps.ReexportStaticLibHeaders {
if !inList(lib, deps.StaticLibs) {
ctx.PropertyErrorf("export_static_lib_headers", "Static library not in static_libs: '%s'", lib)
}
}
for _, lib := range deps.ReexportHeaderLibHeaders {
if !inList(lib, deps.HeaderLibs) {
ctx.PropertyErrorf("export_header_lib_headers", "Header library not in header_libs: '%s'", lib)
}
}
for _, gen := range deps.ReexportGeneratedHeaders {
if !inList(gen, deps.GeneratedHeaders) {
ctx.PropertyErrorf("export_generated_headers", "Generated header module not in generated_headers: '%s'", gen)
}
}
return deps
}
func (c *Module) beginMutator(actx android.BottomUpMutatorContext) {
ctx := &baseModuleContext{
BaseContext: actx,
moduleContextImpl: moduleContextImpl{
mod: c,
},
}
ctx.ctx = ctx
c.begin(ctx)
}
// Split name#version into name and version
func stubsLibNameAndVersion(name string) (string, string) {
if sharp := strings.LastIndex(name, "#"); sharp != -1 && sharp != len(name)-1 {
version := name[sharp+1:]
libname := name[:sharp]
return libname, version
}
return name, ""
}
func (c *Module) DepsMutator(actx android.BottomUpMutatorContext) {
ctx := &depsContext{
BottomUpMutatorContext: actx,
moduleContextImpl: moduleContextImpl{
mod: c,
},
}
ctx.ctx = ctx
deps := c.deps(ctx)
variantNdkLibs := []string{}
variantLateNdkLibs := []string{}
if ctx.Os() == android.Android {
version := ctx.sdkVersion()
// rewriteNdkLibs takes a list of names of shared libraries and scans it for three types
// of names:
//
// 1. Name of an NDK library that refers to a prebuilt module.
// For each of these, it adds the name of the prebuilt module (which will be in
// prebuilts/ndk) to the list of nonvariant libs.
// 2. Name of an NDK library that refers to an ndk_library module.
// For each of these, it adds the name of the ndk_library module to the list of
// variant libs.
// 3. Anything else (so anything that isn't an NDK library).
// It adds these to the nonvariantLibs list.
//
// The caller can then know to add the variantLibs dependencies differently from the
// nonvariantLibs
rewriteNdkLibs := func(list []string) (nonvariantLibs []string, variantLibs []string) {
variantLibs = []string{}
nonvariantLibs = []string{}
for _, entry := range list {
// strip #version suffix out
name, _ := stubsLibNameAndVersion(entry)
if ctx.useSdk() && inList(name, ndkPrebuiltSharedLibraries) {
if !inList(name, ndkMigratedLibs) {
nonvariantLibs = append(nonvariantLibs, name+".ndk."+version)
} else {
variantLibs = append(variantLibs, name+ndkLibrarySuffix)
}
} else if ctx.useVndk() && inList(name, llndkLibraries) {
nonvariantLibs = append(nonvariantLibs, name+llndkLibrarySuffix)
} else if (ctx.Platform() || ctx.ProductSpecific()) && inList(name, vendorPublicLibraries) {
vendorPublicLib := name + vendorPublicLibrarySuffix
if actx.OtherModuleExists(vendorPublicLib) {
nonvariantLibs = append(nonvariantLibs, vendorPublicLib)
} else {
// This can happen if vendor_public_library module is defined in a
// namespace that isn't visible to the current module. In that case,
// link to the original library.
nonvariantLibs = append(nonvariantLibs, name)
}
} else {
// put name#version back
nonvariantLibs = append(nonvariantLibs, entry)
}
}
return nonvariantLibs, variantLibs
}
deps.SharedLibs, variantNdkLibs = rewriteNdkLibs(deps.SharedLibs)
deps.LateSharedLibs, variantLateNdkLibs = rewriteNdkLibs(deps.LateSharedLibs)
deps.ReexportSharedLibHeaders, _ = rewriteNdkLibs(deps.ReexportSharedLibHeaders)
}
if c.linker != nil {
if library, ok := c.linker.(*libraryDecorator); ok {
if library.buildStubs() {
// Stubs lib does not have dependency to other libraries. Don't proceed.
return
}
}
}
for _, lib := range deps.HeaderLibs {
depTag := headerDepTag
if inList(lib, deps.ReexportHeaderLibHeaders) {
depTag = headerExportDepTag
}
actx.AddVariationDependencies(nil, depTag, lib)
}
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "link", Variation: "static"},
}, wholeStaticDepTag, deps.WholeStaticLibs...)
for _, lib := range deps.StaticLibs {
depTag := staticDepTag
if inList(lib, deps.ReexportStaticLibHeaders) {
depTag = staticExportDepTag
}
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "link", Variation: "static"},
}, depTag, lib)
}
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "link", Variation: "static"},
}, lateStaticDepTag, deps.LateStaticLibs...)
// shared lib names without the #version suffix
var sharedLibNames []string
for _, lib := range deps.SharedLibs {
name, version := stubsLibNameAndVersion(lib)
sharedLibNames = append(sharedLibNames, name)
depTag := sharedDepTag
if inList(lib, deps.ReexportSharedLibHeaders) {
depTag = sharedExportDepTag
}
var variations []blueprint.Variation
variations = append(variations, blueprint.Variation{Mutator: "link", Variation: "shared"})
if version != "" && ctx.Os() == android.Android && !ctx.useVndk() && !c.inRecovery() {
variations = append(variations, blueprint.Variation{Mutator: "version", Variation: version})
}
actx.AddVariationDependencies(variations, depTag, name)
}
for _, lib := range deps.LateSharedLibs {
name, version := stubsLibNameAndVersion(lib)
if inList(name, sharedLibNames) {
// This is to handle the case that some of the late shared libs (libc, libdl, libm, ...)
// are added also to SharedLibs with version (e.g., libc#10). If not skipped, we will be
// linking against both the stubs lib and the non-stubs lib at the same time.
continue
}
depTag := lateSharedDepTag
var variations []blueprint.Variation
variations = append(variations, blueprint.Variation{Mutator: "link", Variation: "shared"})
if version != "" && ctx.Os() == android.Android && !ctx.useVndk() && !c.inRecovery() {
variations = append(variations, blueprint.Variation{Mutator: "version", Variation: version})
}
actx.AddVariationDependencies(variations, depTag, name)
}
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "link", Variation: "shared"},
}, runtimeDepTag, deps.RuntimeLibs...)
actx.AddDependency(c, genSourceDepTag, deps.GeneratedSources...)
for _, gen := range deps.GeneratedHeaders {
depTag := genHeaderDepTag
if inList(gen, deps.ReexportGeneratedHeaders) {
depTag = genHeaderExportDepTag
}
actx.AddDependency(c, depTag, gen)
}
actx.AddVariationDependencies(nil, objDepTag, deps.ObjFiles...)
if deps.CrtBegin != "" {
actx.AddVariationDependencies(nil, crtBeginDepTag, deps.CrtBegin)
}
if deps.CrtEnd != "" {
actx.AddVariationDependencies(nil, crtEndDepTag, deps.CrtEnd)
}
if deps.LinkerFlagsFile != "" {
actx.AddDependency(c, linkerFlagsDepTag, deps.LinkerFlagsFile)
}
if deps.DynamicLinker != "" {
actx.AddDependency(c, dynamicLinkerDepTag, deps.DynamicLinker)
}
version := ctx.sdkVersion()
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "ndk_api", Variation: version},
{Mutator: "link", Variation: "shared"},
}, ndkStubDepTag, variantNdkLibs...)
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "ndk_api", Variation: version},
{Mutator: "link", Variation: "shared"},
}, ndkLateStubDepTag, variantLateNdkLibs...)
if vndkdep := c.vndkdep; vndkdep != nil {
if vndkdep.isVndkExt() {
baseModuleMode := vendorMode
if actx.DeviceConfig().VndkVersion() == "" {
baseModuleMode = coreMode
}
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "image", Variation: baseModuleMode},
{Mutator: "link", Variation: "shared"},
}, vndkExtDepTag, vndkdep.getVndkExtendsModuleName())
}
}
}
func BeginMutator(ctx android.BottomUpMutatorContext) {
if c, ok := ctx.Module().(*Module); ok && c.Enabled() {
c.beginMutator(ctx)
}
}
// Whether a module can link to another module, taking into
// account NDK linking.
func checkLinkType(ctx android.ModuleContext, from *Module, to *Module, tag dependencyTag) {
if from.Target().Os != android.Android {
// Host code is not restricted
return
}
if from.Properties.UseVndk {
// Though vendor code is limited by the vendor mutator,
// each vendor-available module needs to check
// link-type for VNDK.
if from.vndkdep != nil {
from.vndkdep.vndkCheckLinkType(ctx, to, tag)
}
return
}
if String(from.Properties.Sdk_version) == "" {
// Platform code can link to anything
return
}
if from.inRecovery() {
// Recovery code is not NDK
return
}
if _, ok := to.linker.(*toolchainLibraryDecorator); ok {
// These are always allowed
return
}
if _, ok := to.linker.(*ndkPrebuiltStlLinker); ok {
// These are allowed, but they don't set sdk_version
return
}
if _, ok := to.linker.(*stubDecorator); ok {
// These aren't real libraries, but are the stub shared libraries that are included in
// the NDK.
return
}
if String(to.Properties.Sdk_version) == "" {
// NDK code linking to platform code is never okay.
ctx.ModuleErrorf("depends on non-NDK-built library %q",
ctx.OtherModuleName(to))
}
// At this point we know we have two NDK libraries, but we need to
// check that we're not linking against anything built against a higher
// API level, as it is only valid to link against older or equivalent
// APIs.
// Current can link against anything.
if String(from.Properties.Sdk_version) != "current" {
// Otherwise we need to check.
if String(to.Properties.Sdk_version) == "current" {
// Current can't be linked against by anything else.
ctx.ModuleErrorf("links %q built against newer API version %q",
ctx.OtherModuleName(to), "current")
} else {
fromApi, err := strconv.Atoi(String(from.Properties.Sdk_version))
if err != nil {
ctx.PropertyErrorf("sdk_version",
"Invalid sdk_version value (must be int or current): %q",
String(from.Properties.Sdk_version))
}
toApi, err := strconv.Atoi(String(to.Properties.Sdk_version))
if err != nil {
ctx.PropertyErrorf("sdk_version",
"Invalid sdk_version value (must be int or current): %q",
String(to.Properties.Sdk_version))
}
if toApi > fromApi {
ctx.ModuleErrorf("links %q built against newer API version %q",
ctx.OtherModuleName(to), String(to.Properties.Sdk_version))
}
}
}
// Also check that the two STL choices are compatible.
fromStl := from.stl.Properties.SelectedStl
toStl := to.stl.Properties.SelectedStl
if fromStl == "" || toStl == "" {
// Libraries that don't use the STL are unrestricted.
} else if fromStl == "ndk_system" || toStl == "ndk_system" {
// We can be permissive with the system "STL" since it is only the C++
// ABI layer, but in the future we should make sure that everyone is
// using either libc++ or nothing.
} else if getNdkStlFamily(from) != getNdkStlFamily(to) {
ctx.ModuleErrorf("uses %q and depends on %q which uses incompatible %q",
from.stl.Properties.SelectedStl, ctx.OtherModuleName(to),
to.stl.Properties.SelectedStl)
}
}
// Tests whether the dependent library is okay to be double loaded inside a single process.
// If a library is a member of VNDK and at the same time dependencies of an LLNDK library,
// it is subject to be double loaded. Such lib should be explicitly marked as double_loaded: true
// or as vndk-sp (vndk: { enabled: true, support_system_process: true}).
func checkDoubleLoadableLibries(ctx android.ModuleContext, from *Module, to *Module) {
if _, ok := from.linker.(*libraryDecorator); !ok {
return
}
if inList(ctx.ModuleName(), llndkLibraries) ||
(from.useVndk() && Bool(from.VendorProperties.Double_loadable)) {
_, depIsLlndk := to.linker.(*llndkStubDecorator)
depIsVndkSp := false
if to.vndkdep != nil && to.vndkdep.isVndkSp() {
depIsVndkSp = true
}
depIsVndk := false
if to.vndkdep != nil && to.vndkdep.isVndk() {
depIsVndk = true
}
depIsDoubleLoadable := Bool(to.VendorProperties.Double_loadable)
if !depIsLlndk && !depIsVndkSp && !depIsDoubleLoadable && depIsVndk {
ctx.ModuleErrorf("links VNDK library %q that isn't double_loadable.",
ctx.OtherModuleName(to))
}
}
}
// Convert dependencies to paths. Returns a PathDeps containing paths
func (c *Module) depsToPaths(ctx android.ModuleContext) PathDeps {
var depPaths PathDeps
directStaticDeps := []*Module{}
directSharedDeps := []*Module{}
ctx.VisitDirectDeps(func(dep android.Module) {
depName := ctx.OtherModuleName(dep)
depTag := ctx.OtherModuleDependencyTag(dep)
ccDep, _ := dep.(*Module)
if ccDep == nil {
// handling for a few module types that aren't cc Module but that are also supported
switch depTag {
case genSourceDepTag:
if genRule, ok := dep.(genrule.SourceFileGenerator); ok {
depPaths.GeneratedSources = append(depPaths.GeneratedSources,
genRule.GeneratedSourceFiles()...)
} else {
ctx.ModuleErrorf("module %q is not a gensrcs or genrule", depName)
}
// Support exported headers from a generated_sources dependency
fallthrough
case genHeaderDepTag, genHeaderExportDepTag:
if genRule, ok := dep.(genrule.SourceFileGenerator); ok {
depPaths.GeneratedHeaders = append(depPaths.GeneratedHeaders,
genRule.GeneratedDeps()...)
flags := includeDirsToFlags(genRule.GeneratedHeaderDirs())
depPaths.Flags = append(depPaths.Flags, flags)
if depTag == genHeaderExportDepTag {
depPaths.ReexportedFlags = append(depPaths.ReexportedFlags, flags)
depPaths.ReexportedFlagsDeps = append(depPaths.ReexportedFlagsDeps,
genRule.GeneratedDeps()...)
// Add these re-exported flags to help header-abi-dumper to infer the abi exported by a library.
c.sabi.Properties.ReexportedIncludeFlags = append(c.sabi.Properties.ReexportedIncludeFlags, flags)
}
} else {
ctx.ModuleErrorf("module %q is not a genrule", depName)
}
case linkerFlagsDepTag:
if genRule, ok := dep.(genrule.SourceFileGenerator); ok {
files := genRule.GeneratedSourceFiles()
if len(files) == 1 {
depPaths.LinkerFlagsFile = android.OptionalPathForPath(files[0])
} else if len(files) > 1 {
ctx.ModuleErrorf("module %q can only generate a single file if used for a linker flag file", depName)
}
} else {
ctx.ModuleErrorf("module %q is not a genrule", depName)
}
}
return
}
if dep.Target().Os != ctx.Os() {
ctx.ModuleErrorf("OS mismatch between %q and %q", ctx.ModuleName(), depName)
return
}
if dep.Target().Arch.ArchType != ctx.Arch().ArchType {
ctx.ModuleErrorf("Arch mismatch between %q and %q", ctx.ModuleName(), depName)
return
}
// re-exporting flags
if depTag == reuseObjTag {
if l, ok := ccDep.compiler.(libraryInterface); ok {
c.staticVariant = ccDep
objs, flags, deps := l.reuseObjs()
depPaths.Objs = depPaths.Objs.Append(objs)
depPaths.ReexportedFlags = append(depPaths.ReexportedFlags, flags...)
depPaths.ReexportedFlagsDeps = append(depPaths.ReexportedFlagsDeps, deps...)
return
}
}
if t, ok := depTag.(dependencyTag); ok && t.library {
if i, ok := ccDep.linker.(exportedFlagsProducer); ok {
flags := i.exportedFlags()
deps := i.exportedFlagsDeps()
depPaths.Flags = append(depPaths.Flags, flags...)
depPaths.GeneratedHeaders = append(depPaths.GeneratedHeaders, deps...)
if t.reexportFlags {
depPaths.ReexportedFlags = append(depPaths.ReexportedFlags, flags...)
depPaths.ReexportedFlagsDeps = append(depPaths.ReexportedFlagsDeps, deps...)
// Add these re-exported flags to help header-abi-dumper to infer the abi exported by a library.
// Re-exported shared library headers must be included as well since they can help us with type information
// about template instantiations (instantiated from their headers).
c.sabi.Properties.ReexportedIncludeFlags = append(c.sabi.Properties.ReexportedIncludeFlags, flags...)
}
}
checkLinkType(ctx, c, ccDep, t)
checkDoubleLoadableLibries(ctx, c, ccDep)
}
var ptr *android.Paths
var depPtr *android.Paths
linkFile := ccDep.outputFile
depFile := android.OptionalPath{}
switch depTag {
case ndkStubDepTag, sharedDepTag, sharedExportDepTag:
ptr = &depPaths.SharedLibs
depPtr = &depPaths.SharedLibsDeps
depFile = ccDep.linker.(libraryInterface).toc()
directSharedDeps = append(directSharedDeps, ccDep)
case lateSharedDepTag, ndkLateStubDepTag:
ptr = &depPaths.LateSharedLibs
depPtr = &depPaths.LateSharedLibsDeps
depFile = ccDep.linker.(libraryInterface).toc()
case staticDepTag, staticExportDepTag:
ptr = nil
directStaticDeps = append(directStaticDeps, ccDep)
case lateStaticDepTag:
ptr = &depPaths.LateStaticLibs
case wholeStaticDepTag:
ptr = &depPaths.WholeStaticLibs
staticLib, ok := ccDep.linker.(libraryInterface)
if !ok || !staticLib.static() {
ctx.ModuleErrorf("module %q not a static library", depName)
return
}
if missingDeps := staticLib.getWholeStaticMissingDeps(); missingDeps != nil {
postfix := " (required by " + ctx.OtherModuleName(dep) + ")"
for i := range missingDeps {
missingDeps[i] += postfix
}
ctx.AddMissingDependencies(missingDeps)
}
depPaths.WholeStaticLibObjs = depPaths.WholeStaticLibObjs.Append(staticLib.objs())
case headerDepTag:
// Nothing
case objDepTag:
depPaths.Objs.objFiles = append(depPaths.Objs.objFiles, linkFile.Path())
case crtBeginDepTag:
depPaths.CrtBegin = linkFile
case crtEndDepTag:
depPaths.CrtEnd = linkFile
case dynamicLinkerDepTag:
depPaths.DynamicLinker = linkFile
}
switch depTag {
case staticDepTag, staticExportDepTag, lateStaticDepTag:
staticLib, ok := ccDep.linker.(libraryInterface)
if !ok || !staticLib.static() {
ctx.ModuleErrorf("module %q not a static library", depName)
return
}
// When combining coverage files for shared libraries and executables, coverage files
// in static libraries act as if they were whole static libraries. The same goes for
// source based Abi dump files.
depPaths.StaticLibObjs.coverageFiles = append(depPaths.StaticLibObjs.coverageFiles,
staticLib.objs().coverageFiles...)
depPaths.StaticLibObjs.sAbiDumpFiles = append(depPaths.StaticLibObjs.sAbiDumpFiles,
staticLib.objs().sAbiDumpFiles...)
}
if ptr != nil {
if !linkFile.Valid() {
ctx.ModuleErrorf("module %q missing output file", depName)
return
}
*ptr = append(*ptr, linkFile.Path())
}
if depPtr != nil {
dep := depFile
if !dep.Valid() {
dep = linkFile
}
*depPtr = append(*depPtr, dep.Path())
}
makeLibName := func(depName string) string {
libName := strings.TrimSuffix(depName, llndkLibrarySuffix)
libName = strings.TrimSuffix(libName, vendorPublicLibrarySuffix)
libName = strings.TrimPrefix(libName, "prebuilt_")
isLLndk := inList(libName, llndkLibraries)
isVendorPublicLib := inList(libName, vendorPublicLibraries)
bothVendorAndCoreVariantsExist := ccDep.hasVendorVariant() || isLLndk
if c.useVndk() && bothVendorAndCoreVariantsExist {
// The vendor module in Make will have been renamed to not conflict with the core
// module, so update the dependency name here accordingly.
return libName + vendorSuffix
} else if (ctx.Platform() || ctx.ProductSpecific()) && isVendorPublicLib {
return libName + vendorPublicLibrarySuffix
} else if ccDep.inRecovery() && !ccDep.onlyInRecovery() {
return libName + recoverySuffix
} else {
return libName
}
}
// Export the shared libs to Make.
switch depTag {
case sharedDepTag, sharedExportDepTag, lateSharedDepTag:
// Note: the order of libs in this list is not important because
// they merely serve as Make dependencies and do not affect this lib itself.
c.Properties.AndroidMkSharedLibs = append(
c.Properties.AndroidMkSharedLibs, makeLibName(depName))
case staticDepTag, staticExportDepTag, lateStaticDepTag:
c.Properties.AndroidMkStaticLibs = append(
c.Properties.AndroidMkStaticLibs, makeLibName(depName))
case runtimeDepTag:
c.Properties.AndroidMkRuntimeLibs = append(
c.Properties.AndroidMkRuntimeLibs, makeLibName(depName))
case wholeStaticDepTag:
c.Properties.AndroidMkWholeStaticLibs = append(
c.Properties.AndroidMkWholeStaticLibs, makeLibName(depName))
}
})
// use the ordered dependencies as this module's dependencies
depPaths.StaticLibs = append(depPaths.StaticLibs, orderStaticModuleDeps(c, directStaticDeps, directSharedDeps)...)
// Dedup exported flags from dependencies
depPaths.Flags = android.FirstUniqueStrings(depPaths.Flags)
depPaths.GeneratedHeaders = android.FirstUniquePaths(depPaths.GeneratedHeaders)
depPaths.ReexportedFlags = android.FirstUniqueStrings(depPaths.ReexportedFlags)
depPaths.ReexportedFlagsDeps = android.FirstUniquePaths(depPaths.ReexportedFlagsDeps)
if c.sabi != nil {
c.sabi.Properties.ReexportedIncludeFlags = android.FirstUniqueStrings(c.sabi.Properties.ReexportedIncludeFlags)
}
return depPaths
}
func (c *Module) InstallInData() bool {
if c.installer == nil {
return false
}
return c.installer.inData()
}
func (c *Module) InstallInSanitizerDir() bool {
if c.installer == nil {
return false
}
if c.sanitize != nil && c.sanitize.inSanitizerDir() {
return true
}
return c.installer.inSanitizerDir()
}
func (c *Module) InstallInRecovery() bool {
return c.inRecovery()
}
func (c *Module) HostToolPath() android.OptionalPath {
if c.installer == nil {
return android.OptionalPath{}
}
return c.installer.hostToolPath()
}
func (c *Module) IntermPathForModuleOut() android.OptionalPath {
return c.outputFile
}
func (c *Module) Srcs() android.Paths {
if c.outputFile.Valid() {
return android.Paths{c.outputFile.Path()}
}
return android.Paths{}
}
func (c *Module) static() bool {
if static, ok := c.linker.(interface {
static() bool
}); ok {
return static.static()
}
return false
}
func (c *Module) getMakeLinkType() string {
if c.useVndk() {
if inList(c.Name(), vndkCoreLibraries) || inList(c.Name(), vndkSpLibraries) || inList(c.Name(), llndkLibraries) {
if inList(c.Name(), vndkPrivateLibraries) {
return "native:vndk_private"
} else {
return "native:vndk"
}
} else {
return "native:vendor"
}
} else if c.inRecovery() {
return "native:recovery"
} else if c.Target().Os == android.Android && String(c.Properties.Sdk_version) != "" {
return "native:ndk:none:none"
// TODO(b/114741097): use the correct ndk stl once build errors have been fixed
//family, link := getNdkStlFamilyAndLinkType(c)
//return fmt.Sprintf("native:ndk:%s:%s", family, link)
} else {
return "native:platform"
}
}
// Overrides ApexModule.IsInstallabeToApex()
// Only shared libraries are installable to APEX.
func (c *Module) IsInstallableToApex() bool {
if shared, ok := c.linker.(interface {
shared() bool
}); ok {
return shared.shared()
}
return false
}
//
// Defaults
//
type Defaults struct {
android.ModuleBase
android.DefaultsModuleBase
android.ApexModuleBase
}
func (*Defaults) GenerateAndroidBuildActions(ctx android.ModuleContext) {
}
func (d *Defaults) DepsMutator(ctx android.BottomUpMutatorContext) {
}
func defaultsFactory() android.Module {
return DefaultsFactory()
}
func DefaultsFactory(props ...interface{}) android.Module {
module := &Defaults{}
module.AddProperties(props...)
module.AddProperties(
&BaseProperties{},
&VendorProperties{},
&BaseCompilerProperties{},
&BaseLinkerProperties{},
&LibraryProperties{},
&FlagExporterProperties{},
&BinaryLinkerProperties{},
&TestProperties{},
&TestBinaryProperties{},
&StlProperties{},
&SanitizeProperties{},
&StripProperties{},
&InstallerProperties{},
&TidyProperties{},
&CoverageProperties{},
&SAbiProperties{},
&VndkProperties{},
&LTOProperties{},
&PgoProperties{},
&android.ProtoProperties{},
)
android.InitDefaultsModule(module)
android.InitApexModule(module)
return module
}
const (
// coreMode is the variant used for framework-private libraries, or
// SDK libraries. (which framework-private libraries can use)
coreMode = "core"
// vendorMode is the variant used for /vendor code that compiles
// against the VNDK.
vendorMode = "vendor"
recoveryMode = "recovery"
)
func squashVendorSrcs(m *Module) {
if lib, ok := m.compiler.(*libraryDecorator); ok {
lib.baseCompiler.Properties.Srcs = append(lib.baseCompiler.Properties.Srcs,
lib.baseCompiler.Properties.Target.Vendor.Srcs...)
lib.baseCompiler.Properties.Exclude_srcs = append(lib.baseCompiler.Properties.Exclude_srcs,
lib.baseCompiler.Properties.Target.Vendor.Exclude_srcs...)
}
}
func squashRecoverySrcs(m *Module) {
if lib, ok := m.compiler.(*libraryDecorator); ok {
lib.baseCompiler.Properties.Srcs = append(lib.baseCompiler.Properties.Srcs,
lib.baseCompiler.Properties.Target.Recovery.Srcs...)
lib.baseCompiler.Properties.Exclude_srcs = append(lib.baseCompiler.Properties.Exclude_srcs,
lib.baseCompiler.Properties.Target.Recovery.Exclude_srcs...)
}
}
func imageMutator(mctx android.BottomUpMutatorContext) {
if mctx.Os() != android.Android {
return
}
if g, ok := mctx.Module().(*genrule.Module); ok {
if props, ok := g.Extra.(*GenruleExtraProperties); ok {
var coreVariantNeeded bool = false
var vendorVariantNeeded bool = false
var recoveryVariantNeeded bool = false
if mctx.DeviceConfig().VndkVersion() == "" {
coreVariantNeeded = true
} else if Bool(props.Vendor_available) {
coreVariantNeeded = true
vendorVariantNeeded = true
} else if mctx.SocSpecific() || mctx.DeviceSpecific() {
vendorVariantNeeded = true
} else {
coreVariantNeeded = true
}
if Bool(props.Recovery_available) {
recoveryVariantNeeded = true
}
if recoveryVariantNeeded {
primaryArch := mctx.Config().DevicePrimaryArchType()
moduleArch := g.Target().Arch.ArchType
if moduleArch != primaryArch {
recoveryVariantNeeded = false
}
}
var variants []string
if coreVariantNeeded {
variants = append(variants, coreMode)
}
if vendorVariantNeeded {
variants = append(variants, vendorMode)
}
if recoveryVariantNeeded {
variants = append(variants, recoveryMode)
}
mod := mctx.CreateVariations(variants...)
for i, v := range variants {
if v == recoveryMode {
m := mod[i].(*genrule.Module)
m.Extra.(*GenruleExtraProperties).InRecovery = true
}
}
}
}
m, ok := mctx.Module().(*Module)
if !ok {
return
}
// Sanity check
vendorSpecific := mctx.SocSpecific() || mctx.DeviceSpecific()
if m.VendorProperties.Vendor_available != nil && vendorSpecific {
mctx.PropertyErrorf("vendor_available",
"doesn't make sense at the same time as `vendor: true`, `proprietary: true`, or `device_specific:true`")
return
}
if vndkdep := m.vndkdep; vndkdep != nil {
if vndkdep.isVndk() {
if vendorSpecific {
if !vndkdep.isVndkExt() {
mctx.PropertyErrorf("vndk",
"must set `extends: \"...\"` to vndk extension")
return
}
} else {
if vndkdep.isVndkExt() {
mctx.PropertyErrorf("vndk",
"must set `vendor: true` to set `extends: %q`",
m.getVndkExtendsModuleName())
return
}
if m.VendorProperties.Vendor_available == nil {
mctx.PropertyErrorf("vndk",
"vendor_available must be set to either true or false when `vndk: {enabled: true}`")
return
}
}
} else {
if vndkdep.isVndkSp() {
mctx.PropertyErrorf("vndk",
"must set `enabled: true` to set `support_system_process: true`")
return
}
if vndkdep.isVndkExt() {
mctx.PropertyErrorf("vndk",
"must set `enabled: true` to set `extends: %q`",
m.getVndkExtendsModuleName())
return
}
}
}
var coreVariantNeeded bool = false
var vendorVariantNeeded bool = false
var recoveryVariantNeeded bool = false
if mctx.DeviceConfig().VndkVersion() == "" {
// If the device isn't compiling against the VNDK, we always
// use the core mode.
coreVariantNeeded = true
} else if _, ok := m.linker.(*llndkStubDecorator); ok {
// LL-NDK stubs only exist in the vendor variant, since the
// real libraries will be used in the core variant.
vendorVariantNeeded = true
} else if _, ok := m.linker.(*llndkHeadersDecorator); ok {
// ... and LL-NDK headers as well
vendorVariantNeeded = true
} else if _, ok := m.linker.(*vndkPrebuiltLibraryDecorator); ok {
// Make vendor variants only for the versions in BOARD_VNDK_VERSION and
// PRODUCT_EXTRA_VNDK_VERSIONS.
vendorVariantNeeded = true
} else if m.hasVendorVariant() && !vendorSpecific {
// This will be available in both /system and /vendor
// or a /system directory that is available to vendor.
coreVariantNeeded = true
vendorVariantNeeded = true
} else if vendorSpecific && String(m.Properties.Sdk_version) == "" {
// This will be available in /vendor (or /odm) only
vendorVariantNeeded = true
} else {
// This is either in /system (or similar: /data), or is a
// modules built with the NDK. Modules built with the NDK
// will be restricted using the existing link type checks.
coreVariantNeeded = true
}
if Bool(m.Properties.Recovery_available) {
recoveryVariantNeeded = true
}
if m.ModuleBase.InstallInRecovery() {
recoveryVariantNeeded = true
coreVariantNeeded = false
}
if recoveryVariantNeeded {
primaryArch := mctx.Config().DevicePrimaryArchType()
moduleArch := m.Target().Arch.ArchType
if moduleArch != primaryArch {
recoveryVariantNeeded = false
}
}
var variants []string
if coreVariantNeeded {
variants = append(variants, coreMode)
}
if vendorVariantNeeded {
variants = append(variants, vendorMode)
}
if recoveryVariantNeeded {
variants = append(variants, recoveryMode)
}
mod := mctx.CreateVariations(variants...)
for i, v := range variants {
if v == vendorMode {
m := mod[i].(*Module)
m.Properties.UseVndk = true
squashVendorSrcs(m)
} else if v == recoveryMode {
m := mod[i].(*Module)
m.Properties.InRecovery = true
m.MakeAsPlatform()
squashRecoverySrcs(m)
}
}
}
func getCurrentNdkPrebuiltVersion(ctx DepsContext) string {
if ctx.Config().PlatformSdkVersionInt() > config.NdkMaxPrebuiltVersionInt {
return strconv.Itoa(config.NdkMaxPrebuiltVersionInt)
}
return ctx.Config().PlatformSdkVersion()
}
var Bool = proptools.Bool
var BoolDefault = proptools.BoolDefault
var BoolPtr = proptools.BoolPtr
var String = proptools.String
var StringPtr = proptools.StringPtr