platform_build_soong/cc/cc.go
Colin Cross aede88c1c7 Reland: Deduplicate APEX variants that would build identically
APEX variants that share the same SDK version and updatability
almost always use identical command line arguments to build but
with different intermediates directories.  This causes unnecessary
build time and disk space for duplicated work.

Deduplicate APEX variants that would build identically.  Create
aliases from the per-APEX variations to the new shared variations
so that the APEX modules can continue to depend on them via the
APEX name as the variation.

This has one significant change in behavior.  Before this change,
if an APEX had two libraries in its direct dependencies and one
of those libraries depended on the other, and the second library
had stubs, then the first library would depend on the implementation
of the second library and not the stubs.  After this change, if
the first library is also present in a second APEX but the second
library is not, then the common variant shared between the two
APEXes would use the stubs, not the implementation.

In a correctly configured set of build rules this change will
be irrelevant, because if the compilation worked for the second
APEX using stubs then it will work for the common variant using
stubs.  However, if an incorrect change to the build rules is
made this could lead to confusing errors, as a previously-working
common variant could suddenly stop building when a module is added
to a new APEX without its dependencies that require implementation
APIs to compile.

This change reduces the number of modules in an AOSP arm64-userdebug
build by 3% (52242 to 50586), reduces the number of variants of the
libcutils module from 74 to 53, and reduces the number of variants
of the massive libart[d] modules from 44 to 32.

This relands I0529837476a253c32b3dfb98dcccf107427c742c with a fix
to always mark permissions XML files of java_sdk_library modules as
unique per apex since they contain the APEX filename, and a fix
to UpdateUniqueApexVariationsForDeps to check ApexInfo.InApexes
instead of DepIsInSameApex to check if two modules are in the same
apex to account for a module that depends on another in a way that
doesn't normally include the dependency in the APEX (e.g. a libs
property), but the dependency is directly included in the APEX.

Bug: 164216768
Test: go test ./build/soong/apex/...
Change-Id: I2ae170601f764e5b88d0be2e0e6adc84e3a4d9cc
2020-08-19 10:21:17 -07:00

3141 lines
94 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 (
"fmt"
"io"
"strconv"
"strings"
"github.com/google/blueprint"
"github.com/google/blueprint/proptools"
"android/soong/android"
"android/soong/cc/config"
"android/soong/genrule"
)
func init() {
RegisterCCBuildComponents(android.InitRegistrationContext)
pctx.Import("android/soong/cc/config")
}
func RegisterCCBuildComponents(ctx android.RegistrationContext) {
ctx.RegisterModuleType("cc_defaults", defaultsFactory)
ctx.PreDepsMutators(func(ctx android.RegisterMutatorsContext) {
ctx.BottomUp("sdk", sdkMutator).Parallel()
ctx.BottomUp("vndk", VndkMutator).Parallel()
ctx.BottomUp("link", LinkageMutator).Parallel()
ctx.BottomUp("ndk_api", NdkApiMutator).Parallel()
ctx.BottomUp("test_per_src", TestPerSrcMutator).Parallel()
ctx.BottomUp("version", VersionMutator).Parallel()
ctx.BottomUp("begin", BeginMutator).Parallel()
ctx.BottomUp("sysprop_cc", SyspropMutator).Parallel()
ctx.BottomUp("vendor_snapshot", VendorSnapshotMutator).Parallel()
ctx.BottomUp("vendor_snapshot_source", VendorSnapshotSourceMutator).Parallel()
})
ctx.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("fuzzer_deps", sanitizerDepsMutator(fuzzer))
ctx.BottomUp("fuzzer", sanitizerMutator(fuzzer)).Parallel()
// cfi mutator shouldn't run before sanitizers that return true for
// incompatibleWithCfi()
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).Parallel()
ctx.BottomUp("sanitize_runtime", sanitizerRuntimeMutator).Parallel()
ctx.BottomUp("coverage", coverageMutator).Parallel()
ctx.TopDown("vndk_deps", sabiDepsMutator)
ctx.TopDown("lto_deps", ltoDepsMutator)
ctx.BottomUp("lto", ltoMutator).Parallel()
ctx.TopDown("double_loadable", checkDoubleLoadableLibraries).Parallel()
})
android.RegisterSingletonType("kythe_extract_all", kytheExtractAllFactory)
}
type Deps struct {
SharedLibs, LateSharedLibs []string
StaticLibs, LateStaticLibs, WholeStaticLibs []string
HeaderLibs []string
RuntimeLibs []string
// Used for data dependencies adjacent to tests
DataLibs []string
StaticUnwinderIfLegacy bool
ReexportSharedLibHeaders, ReexportStaticLibHeaders, ReexportHeaderLibHeaders []string
ObjFiles []string
GeneratedSources []string
GeneratedHeaders []string
GeneratedDeps []string
ReexportGeneratedHeaders []string
CrtBegin, CrtEnd string
// Used for host bionic
LinkerFlagsFile string
DynamicLinker string
}
type PathDeps struct {
// Paths to .so files
SharedLibs, EarlySharedLibs, LateSharedLibs android.Paths
// Paths to the dependencies to use for .so files (.so.toc files)
SharedLibsDeps, EarlySharedLibsDeps, LateSharedLibsDeps android.Paths
// Paths to .a files
StaticLibs, LateStaticLibs, WholeStaticLibs android.Paths
// Paths to .o files
Objs Objects
// Paths to .o files in dependencies that provide them. Note that these lists
// aren't complete since prebuilt modules don't provide the .o files.
StaticLibObjs Objects
WholeStaticLibObjs Objects
// Paths to .a files in prebuilts. Complements WholeStaticLibObjs to contain
// the libs from all whole_static_lib dependencies.
WholeStaticLibsFromPrebuilts android.Paths
// Paths to generated source files
GeneratedSources android.Paths
GeneratedDeps android.Paths
Flags []string
IncludeDirs android.Paths
SystemIncludeDirs android.Paths
ReexportedDirs android.Paths
ReexportedSystemDirs android.Paths
ReexportedFlags []string
ReexportedGeneratedHeaders android.Paths
ReexportedDeps 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
}
// LocalOrGlobalFlags contains flags that need to have values set globally by the build system or locally by the module
// tracked separately, in order to maintain the required ordering (most of the global flags need to go first on the
// command line so they can be overridden by the local module flags).
type LocalOrGlobalFlags struct {
CommonFlags []string // Flags that apply to C, C++, and assembly source files
AsFlags []string // Flags that apply to assembly source files
YasmFlags []string // Flags that apply to yasm 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
LdFlags []string // Flags that apply to linker command lines
}
type Flags struct {
Local LocalOrGlobalFlags
Global LocalOrGlobalFlags
aidlFlags []string // Flags that apply to aidl source files
rsFlags []string // Flags that apply to renderscript source files
libFlags []string // Flags to add libraries early to the link order
extraLibFlags []string // Flags to add libraries late in the link order after LdFlags
TidyFlags []string // Flags that apply to clang-tidy
SAbiFlags []string // Flags that apply to header-abi-dumper
// Global include flags that apply to C, C++, and assembly source files
// These must be after any module include flags, which will be in CommonFlags.
SystemIncludeFlags []string
Toolchain config.Toolchain
Tidy bool
GcovCoverage bool
SAbiDump bool
EmitXrefs bool // If true, generate Ninja rules to generate emitXrefs input files for Kythe
RequiredInstructionSet string
DynamicLinker string
CFlagsDeps android.Paths // Files depended on by compiler flags
LdFlagsDeps android.Paths // Files depended on by linker flags
AssemblerWithCpp bool
GroupStaticLibs bool
proto android.ProtoFlags
protoC bool // Whether to use C instead of C++
protoOptionsFile bool // Whether to look for a .options file next to the .proto
Yacc *YaccProperties
}
// 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. Setting this property causes
// two variants to be built, one for the platform and one for apps.
Sdk_version *string
// Minimum sdk version that the artifact should support when it runs as part of mainline modules(APEX).
Min_sdk_version *string
// If true, always create an sdk variant and don't create a platform variant.
Sdk_variant_only *bool
AndroidMkSharedLibs []string `blueprint:"mutated"`
AndroidMkStaticLibs []string `blueprint:"mutated"`
AndroidMkRuntimeLibs []string `blueprint:"mutated"`
AndroidMkWholeStaticLibs []string `blueprint:"mutated"`
AndroidMkHeaderLibs []string `blueprint:"mutated"`
HideFromMake bool `blueprint:"mutated"`
PreventInstall bool `blueprint:"mutated"`
ApexesProvidingSharedLibs []string `blueprint:"mutated"`
ImageVariationPrefix string `blueprint:"mutated"`
VndkVersion string `blueprint:"mutated"`
SubName string `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 ramdisk
Ramdisk_available *bool
// Make this module available when building for recovery
Recovery_available *bool
// Set by imageMutator
CoreVariantNeeded bool `blueprint:"mutated"`
RamdiskVariantNeeded bool `blueprint:"mutated"`
RecoveryVariantNeeded bool `blueprint:"mutated"`
ExtraVariants []string `blueprint:"mutated"`
// Allows this module to use non-APEX version of libraries. Useful
// for building binaries that are started before APEXes are activated.
Bootstrap *bool
// Even if DeviceConfig().VndkUseCoreVariant() is set, this module must use vendor variant.
// see soong/cc/config/vndk.go
MustUseVendorVariant bool `blueprint:"mutated"`
// Used by vendor snapshot to record dependencies from snapshot modules.
SnapshotSharedLibs []string `blueprint:"mutated"`
SnapshotRuntimeLibs []string `blueprint:"mutated"`
Installable *bool
// Set by factories of module types that can only be referenced from variants compiled against
// the SDK.
AlwaysSdk bool `blueprint:"mutated"`
// Variant is an SDK variant created by sdkMutator
IsSdkVariant bool `blueprint:"mutated"`
// Set when both SDK and platform variants are exported to Make to trigger renaming the SDK
// variant to have a ".sdk" suffix.
SdkAndPlatformVariantVisibleToMake 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`.
// In addition, this module should be allowed to be directly depended by
// product modules with `product_specific: true`.
// If set to true, three variants will be built separately, one like
// normal, another limited to the set of libraries and headers
// that are exposed to /vendor modules, and the other to /product modules.
//
// The vendor and product variants 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 or /product
// 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
// If PRODUCT_PRODUCT_VNDK_VERSION isn't set, product variant will not be used.
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
header() bool
binary() bool
object() bool
toolchain() config.Toolchain
canUseSdk() bool
useSdk() bool
sdkVersion() string
useVndk() bool
isNdk() bool
isLlndk(config android.Config) bool
isLlndkPublic(config android.Config) bool
isVndkPrivate(config android.Config) bool
isVndk() bool
isVndkSp() bool
isVndkExt() bool
inProduct() bool
inVendor() bool
inRamdisk() bool
inRecovery() bool
shouldCreateSourceAbiDump() bool
selectedStl() string
baseModuleName() string
getVndkExtendsModuleName() string
isPgoCompile() bool
isNDKStubLibrary() bool
useClangLld(actx ModuleContext) bool
isForPlatform() bool
apexVariationName() string
apexSdkVersion() int
hasStubsVariants() bool
isStubs() bool
bootstrap() bool
mustUseVendorVariant() bool
nativeCoverage() bool
}
type ModuleContext interface {
android.ModuleContext
ModuleContextIntf
}
type BaseModuleContext interface {
android.BaseModuleContext
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{}
useClangLld(actx ModuleContext) bool
link(ctx ModuleContext, flags Flags, deps PathDeps, objs Objects) android.Path
appendLdflags([]string)
unstrippedOutputFilePath() android.Path
nativeCoverage() bool
coverageOutputFilePath() android.OptionalPath
// Get the deps that have been explicitly specified in the properties.
// Only updates the
linkerSpecifiedDeps(specifiedDeps specifiedDeps) specifiedDeps
}
type specifiedDeps struct {
sharedLibs []string
systemSharedLibs []string // Note nil and [] are semantically distinct.
}
type installer interface {
installerProps() []interface{}
install(ctx ModuleContext, path android.Path)
everInstallable() bool
inData() bool
inSanitizerDir() bool
hostToolPath() android.OptionalPath
relativeInstallPath() string
makeUninstallable(mod *Module)
}
type xref interface {
XrefCcFiles() android.Paths
}
type libraryDependencyKind int
const (
headerLibraryDependency = iota
sharedLibraryDependency
staticLibraryDependency
)
func (k libraryDependencyKind) String() string {
switch k {
case headerLibraryDependency:
return "headerLibraryDependency"
case sharedLibraryDependency:
return "sharedLibraryDependency"
case staticLibraryDependency:
return "staticLibraryDependency"
default:
panic(fmt.Errorf("unknown libraryDependencyKind %d", k))
}
}
type libraryDependencyOrder int
const (
earlyLibraryDependency = -1
normalLibraryDependency = 0
lateLibraryDependency = 1
)
func (o libraryDependencyOrder) String() string {
switch o {
case earlyLibraryDependency:
return "earlyLibraryDependency"
case normalLibraryDependency:
return "normalLibraryDependency"
case lateLibraryDependency:
return "lateLibraryDependency"
default:
panic(fmt.Errorf("unknown libraryDependencyOrder %d", o))
}
}
// libraryDependencyTag is used to tag dependencies on libraries. Unlike many dependency
// tags that have a set of predefined tag objects that are reused for each dependency, a
// libraryDependencyTag is designed to contain extra metadata and is constructed as needed.
// That means that comparing a libraryDependencyTag for equality will only be equal if all
// of the metadata is equal. Most usages will want to type assert to libraryDependencyTag and
// then check individual metadata fields instead.
type libraryDependencyTag struct {
blueprint.BaseDependencyTag
// These are exported so that fmt.Printf("%#v") can call their String methods.
Kind libraryDependencyKind
Order libraryDependencyOrder
wholeStatic bool
reexportFlags bool
explicitlyVersioned bool
dataLib bool
ndk bool
staticUnwinder bool
makeSuffix string
}
// header returns true if the libraryDependencyTag is tagging a header lib dependency.
func (d libraryDependencyTag) header() bool {
return d.Kind == headerLibraryDependency
}
// shared returns true if the libraryDependencyTag is tagging a shared lib dependency.
func (d libraryDependencyTag) shared() bool {
return d.Kind == sharedLibraryDependency
}
// shared returns true if the libraryDependencyTag is tagging a static lib dependency.
func (d libraryDependencyTag) static() bool {
return d.Kind == staticLibraryDependency
}
// dependencyTag is used for tagging miscellanous dependency types that don't fit into
// libraryDependencyTag. Each tag object is created globally and reused for multiple
// dependencies (although since the object contains no references, assigning a tag to a
// variable and modifying it will not modify the original). Users can compare the tag
// returned by ctx.OtherModuleDependencyTag against the global original
type dependencyTag struct {
blueprint.BaseDependencyTag
name string
}
var (
genSourceDepTag = dependencyTag{name: "gen source"}
genHeaderDepTag = dependencyTag{name: "gen header"}
genHeaderExportDepTag = dependencyTag{name: "gen header export"}
objDepTag = dependencyTag{name: "obj"}
linkerFlagsDepTag = dependencyTag{name: "linker flags file"}
dynamicLinkerDepTag = dependencyTag{name: "dynamic linker"}
reuseObjTag = dependencyTag{name: "reuse objects"}
staticVariantTag = dependencyTag{name: "static variant"}
vndkExtDepTag = dependencyTag{name: "vndk extends"}
dataLibDepTag = dependencyTag{name: "data lib"}
runtimeDepTag = dependencyTag{name: "runtime lib"}
testPerSrcDepTag = dependencyTag{name: "test_per_src"}
)
func IsSharedDepTag(depTag blueprint.DependencyTag) bool {
ccLibDepTag, ok := depTag.(libraryDependencyTag)
return ok && ccLibDepTag.shared()
}
func IsStaticDepTag(depTag blueprint.DependencyTag) bool {
ccLibDepTag, ok := depTag.(libraryDependencyTag)
return ok && ccLibDepTag.static()
}
func IsRuntimeDepTag(depTag blueprint.DependencyTag) bool {
ccDepTag, ok := depTag.(dependencyTag)
return ok && ccDepTag == runtimeDepTag
}
func IsTestPerSrcDepTag(depTag blueprint.DependencyTag) bool {
ccDepTag, ok := depTag.(dependencyTag)
return ok && ccDepTag == testPerSrcDepTag
}
// 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
android.SdkBase
Properties BaseProperties
VendorProperties VendorProperties
// initialize before calling Init
hod android.HostOrDeviceSupported
multilib android.Multilib
// Allowable SdkMemberTypes of this module type.
sdkMemberTypes []android.SdkMemberType
// 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
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 LinkableInterface
makeLinkType string
// Kythe (source file indexer) paths for this compilation module
kytheFiles android.Paths
// For apex variants, this is set as apex.min_sdk_version
apexSdkVersion int
}
func (c *Module) Toc() android.OptionalPath {
if c.linker != nil {
if library, ok := c.linker.(libraryInterface); ok {
return library.toc()
}
}
panic(fmt.Errorf("Toc() called on non-library module: %q", c.BaseModuleName()))
}
func (c *Module) ApiLevel() string {
if c.linker != nil {
if stub, ok := c.linker.(*stubDecorator); ok {
return stub.properties.ApiLevel
}
}
panic(fmt.Errorf("ApiLevel() called on non-stub library module: %q", c.BaseModuleName()))
}
func (c *Module) Static() bool {
if c.linker != nil {
if library, ok := c.linker.(libraryInterface); ok {
return library.static()
}
}
panic(fmt.Errorf("Static() called on non-library module: %q", c.BaseModuleName()))
}
func (c *Module) Shared() bool {
if c.linker != nil {
if library, ok := c.linker.(libraryInterface); ok {
return library.shared()
}
}
panic(fmt.Errorf("Shared() called on non-library module: %q", c.BaseModuleName()))
}
func (c *Module) SelectedStl() string {
if c.stl != nil {
return c.stl.Properties.SelectedStl
}
return ""
}
func (c *Module) ToolchainLibrary() bool {
if _, ok := c.linker.(*toolchainLibraryDecorator); ok {
return true
}
return false
}
func (c *Module) NdkPrebuiltStl() bool {
if _, ok := c.linker.(*ndkPrebuiltStlLinker); ok {
return true
}
return false
}
func (c *Module) StubDecorator() bool {
if _, ok := c.linker.(*stubDecorator); ok {
return true
}
return false
}
func (c *Module) SdkVersion() string {
return String(c.Properties.Sdk_version)
}
func (c *Module) MinSdkVersion() string {
return String(c.Properties.Min_sdk_version)
}
func (c *Module) SplitPerApiLevel() bool {
if linker, ok := c.linker.(*objectLinker); ok {
return linker.isCrt()
}
return false
}
func (c *Module) AlwaysSdk() bool {
return c.Properties.AlwaysSdk || Bool(c.Properties.Sdk_variant_only)
}
func (c *Module) IncludeDirs() android.Paths {
if c.linker != nil {
if library, ok := c.linker.(exportedFlagsProducer); ok {
return library.exportedDirs()
}
}
panic(fmt.Errorf("IncludeDirs called on non-exportedFlagsProducer module: %q", c.BaseModuleName()))
}
func (c *Module) HasStaticVariant() bool {
if c.staticVariant != nil {
return true
}
return false
}
func (c *Module) GetStaticVariant() LinkableInterface {
return c.staticVariant
}
func (c *Module) SetDepsInLinkOrder(depsInLinkOrder []android.Path) {
c.depsInLinkOrder = depsInLinkOrder
}
func (c *Module) GetDepsInLinkOrder() []android.Path {
return c.depsInLinkOrder
}
func (c *Module) StubsVersions() []string {
if c.linker != nil {
if library, ok := c.linker.(*libraryDecorator); ok {
return library.Properties.Stubs.Versions
}
}
panic(fmt.Errorf("StubsVersions called on non-library module: %q", c.BaseModuleName()))
}
func (c *Module) CcLibrary() bool {
if c.linker != nil {
if _, ok := c.linker.(*libraryDecorator); ok {
return true
}
}
return false
}
func (c *Module) CcLibraryInterface() bool {
if _, ok := c.linker.(libraryInterface); ok {
return true
}
return false
}
func (c *Module) NonCcVariants() bool {
return false
}
func (c *Module) SetBuildStubs() {
if c.linker != nil {
if library, ok := c.linker.(*libraryDecorator); ok {
library.MutatedProperties.BuildStubs = true
c.Properties.HideFromMake = true
c.sanitize = nil
c.stl = nil
c.Properties.PreventInstall = true
return
}
if _, ok := c.linker.(*llndkStubDecorator); ok {
c.Properties.HideFromMake = true
return
}
}
panic(fmt.Errorf("SetBuildStubs called on non-library module: %q", c.BaseModuleName()))
}
func (c *Module) BuildStubs() bool {
if c.linker != nil {
if library, ok := c.linker.(*libraryDecorator); ok {
return library.buildStubs()
}
}
panic(fmt.Errorf("BuildStubs called on non-library module: %q", c.BaseModuleName()))
}
func (c *Module) SetStubsVersions(version string) {
if c.linker != nil {
if library, ok := c.linker.(*libraryDecorator); ok {
library.MutatedProperties.StubsVersion = version
return
}
if llndk, ok := c.linker.(*llndkStubDecorator); ok {
llndk.libraryDecorator.MutatedProperties.StubsVersion = version
return
}
}
panic(fmt.Errorf("SetStubsVersions called on non-library module: %q", c.BaseModuleName()))
}
func (c *Module) StubsVersion() string {
if c.linker != nil {
if library, ok := c.linker.(*libraryDecorator); ok {
return library.MutatedProperties.StubsVersion
}
if llndk, ok := c.linker.(*llndkStubDecorator); ok {
return llndk.libraryDecorator.MutatedProperties.StubsVersion
}
}
panic(fmt.Errorf("StubsVersion called on non-library module: %q", c.BaseModuleName()))
}
func (c *Module) SetStatic() {
if c.linker != nil {
if library, ok := c.linker.(libraryInterface); ok {
library.setStatic()
return
}
}
panic(fmt.Errorf("SetStatic called on non-library module: %q", c.BaseModuleName()))
}
func (c *Module) SetShared() {
if c.linker != nil {
if library, ok := c.linker.(libraryInterface); ok {
library.setShared()
return
}
}
panic(fmt.Errorf("SetShared called on non-library module: %q", c.BaseModuleName()))
}
func (c *Module) BuildStaticVariant() bool {
if c.linker != nil {
if library, ok := c.linker.(libraryInterface); ok {
return library.buildStatic()
}
}
panic(fmt.Errorf("BuildStaticVariant called on non-library module: %q", c.BaseModuleName()))
}
func (c *Module) BuildSharedVariant() bool {
if c.linker != nil {
if library, ok := c.linker.(libraryInterface); ok {
return library.buildShared()
}
}
panic(fmt.Errorf("BuildSharedVariant called on non-library module: %q", c.BaseModuleName()))
}
func (c *Module) Module() android.Module {
return c
}
func (c *Module) OutputFile() android.OptionalPath {
return c.outputFile
}
func (c *Module) CoverageFiles() android.Paths {
if c.linker != nil {
if library, ok := c.linker.(libraryInterface); ok {
return library.objs().coverageFiles
}
}
panic(fmt.Errorf("CoverageFiles called on non-library module: %q", c.BaseModuleName()))
}
var _ LinkableInterface = (*Module)(nil)
func (c *Module) UnstrippedOutputFile() android.Path {
if c.linker != nil {
return c.linker.unstrippedOutputFilePath()
}
return nil
}
func (c *Module) CoverageOutputFile() android.OptionalPath {
if c.linker != nil {
return c.linker.coverageOutputFilePath()
}
return android.OptionalPath{}
}
func (c *Module) RelativeInstallPath() string {
if c.installer != nil {
return c.installer.relativeInstallPath()
}
return ""
}
func (c *Module) VndkVersion() string {
return c.Properties.VndkVersion
}
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 {
// Windows builds always prefer 32-bit
return class == android.HostCross
})
android.InitAndroidArchModule(c, c.hod, c.multilib)
android.InitApexModule(c)
android.InitSdkAwareModule(c)
android.InitDefaultableModule(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
}
// Returns true if the module is using VNDK libraries instead of the libraries in /system/lib or /system/lib64.
// "product" and "vendor" variant modules return true for this function.
// When BOARD_VNDK_VERSION is set, vendor variants of "vendor_available: true", "vendor: true",
// "soc_specific: true" and more vendor installed modules are included here.
// When PRODUCT_PRODUCT_VNDK_VERSION is set, product variants of "vendor_available: true" or
// "product_specific: true" modules are included here.
func (c *Module) UseVndk() bool {
return c.Properties.VndkVersion != ""
}
func (c *Module) canUseSdk() bool {
return c.Os() == android.Android && !c.UseVndk() && !c.InRamdisk() && !c.InRecovery()
}
func (c *Module) UseSdk() bool {
if c.canUseSdk() {
return String(c.Properties.Sdk_version) != "" || c.SplitPerApiLevel()
}
return false
}
func (c *Module) isCoverageVariant() bool {
return c.coverage.Properties.IsCoverageVariant
}
func (c *Module) IsNdk() bool {
return inList(c.Name(), ndkKnownLibs)
}
func (c *Module) isLlndk(config android.Config) bool {
// Returns true for both LLNDK (public) and LLNDK-private libs.
return isLlndkLibrary(c.BaseModuleName(), config)
}
func (c *Module) isLlndkPublic(config android.Config) bool {
// Returns true only for LLNDK (public) libs.
name := c.BaseModuleName()
return isLlndkLibrary(name, config) && !isVndkPrivateLibrary(name, config)
}
func (c *Module) isVndkPrivate(config android.Config) bool {
// Returns true for LLNDK-private, VNDK-SP-private, and VNDK-core-private.
return isVndkPrivateLibrary(c.BaseModuleName(), config)
}
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) isNDKStubLibrary() bool {
if _, ok := c.compiler.(*stubDecorator); ok {
return true
}
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) MustUseVendorVariant() bool {
return c.isVndkSp() || c.Properties.MustUseVendorVariant
}
func (c *Module) getVndkExtendsModuleName() string {
if vndkdep := c.vndkdep; vndkdep != nil {
return vndkdep.getVndkExtendsModuleName()
}
return ""
}
func (c *Module) IsStubs() bool {
if library, ok := c.linker.(*libraryDecorator); ok {
return library.buildStubs()
} else if _, ok := c.linker.(*llndkStubDecorator); ok {
return true
}
return false
}
func (c *Module) HasStubsVariants() bool {
if library, ok := c.linker.(*libraryDecorator); ok {
return len(library.Properties.Stubs.Versions) > 0
}
if library, ok := c.linker.(*prebuiltLibraryLinker); ok {
return len(library.Properties.Stubs.Versions) > 0
}
return false
}
func (c *Module) bootstrap() bool {
return Bool(c.Properties.Bootstrap)
}
func (c *Module) nativeCoverage() bool {
// Bug: http://b/137883967 - native-bridge modules do not currently work with coverage
if c.Target().NativeBridge == android.NativeBridgeEnabled {
return false
}
return c.linker != nil && c.linker.nativeCoverage()
}
func (c *Module) isSnapshotPrebuilt() bool {
if p, ok := c.linker.(interface{ isSnapshotPrebuilt() bool }); ok {
return p.isSnapshotPrebuilt()
}
return false
}
func (c *Module) ExportedIncludeDirs() android.Paths {
if flagsProducer, ok := c.linker.(exportedFlagsProducer); ok {
return flagsProducer.exportedDirs()
}
return nil
}
func (c *Module) ExportedSystemIncludeDirs() android.Paths {
if flagsProducer, ok := c.linker.(exportedFlagsProducer); ok {
return flagsProducer.exportedSystemDirs()
}
return nil
}
func (c *Module) ExportedFlags() []string {
if flagsProducer, ok := c.linker.(exportedFlagsProducer); ok {
return flagsProducer.exportedFlags()
}
return nil
}
func (c *Module) ExportedDeps() android.Paths {
if flagsProducer, ok := c.linker.(exportedFlagsProducer); ok {
return flagsProducer.exportedDeps()
}
return nil
}
func (c *Module) ExportedGeneratedHeaders() android.Paths {
if flagsProducer, ok := c.linker.(exportedFlagsProducer); ok {
return flagsProducer.exportedGeneratedHeaders()
}
return nil
}
func isBionic(name string) bool {
switch name {
case "libc", "libm", "libdl", "libdl_android", "linker":
return true
}
return false
}
func InstallToBootstrap(name string, config android.Config) bool {
if name == "libclang_rt.hwasan-aarch64-android" {
return true
}
return isBionic(name)
}
func (c *Module) XrefCcFiles() android.Paths {
return c.kytheFiles
}
type baseModuleContext struct {
android.BaseModuleContext
moduleContextImpl
}
type depsContext struct {
android.BottomUpMutatorContext
moduleContextImpl
}
type moduleContext struct {
android.ModuleContext
moduleContextImpl
}
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 {
return ctx.mod.staticBinary()
}
func (ctx *moduleContextImpl) header() bool {
return ctx.mod.header()
}
func (ctx *moduleContextImpl) binary() bool {
return ctx.mod.binary()
}
func (ctx *moduleContextImpl) object() bool {
return ctx.mod.object()
}
func (ctx *moduleContextImpl) canUseSdk() bool {
return ctx.mod.canUseSdk()
}
func (ctx *moduleContextImpl) useSdk() bool {
return ctx.mod.UseSdk()
}
func (ctx *moduleContextImpl) sdkVersion() string {
if ctx.ctx.Device() {
if ctx.useVndk() {
vndkVer := ctx.mod.VndkVersion()
if inList(vndkVer, ctx.ctx.Config().PlatformVersionActiveCodenames()) {
return "current"
}
return vndkVer
}
return String(ctx.mod.Properties.Sdk_version)
}
return ""
}
func (ctx *moduleContextImpl) useVndk() bool {
return ctx.mod.UseVndk()
}
func (ctx *moduleContextImpl) isNdk() bool {
return ctx.mod.IsNdk()
}
func (ctx *moduleContextImpl) isLlndk(config android.Config) bool {
return ctx.mod.isLlndk(config)
}
func (ctx *moduleContextImpl) isLlndkPublic(config android.Config) bool {
return ctx.mod.isLlndkPublic(config)
}
func (ctx *moduleContextImpl) isVndkPrivate(config android.Config) bool {
return ctx.mod.isVndkPrivate(config)
}
func (ctx *moduleContextImpl) isVndk() bool {
return ctx.mod.IsVndk()
}
func (ctx *moduleContextImpl) isPgoCompile() bool {
return ctx.mod.isPgoCompile()
}
func (ctx *moduleContextImpl) isNDKStubLibrary() bool {
return ctx.mod.isNDKStubLibrary()
}
func (ctx *moduleContextImpl) isVndkSp() bool {
return ctx.mod.isVndkSp()
}
func (ctx *moduleContextImpl) isVndkExt() bool {
return ctx.mod.isVndkExt()
}
func (ctx *moduleContextImpl) mustUseVendorVariant() bool {
return ctx.mod.MustUseVendorVariant()
}
// Check whether ABI dumps should be created for this module.
func (ctx *moduleContextImpl) shouldCreateSourceAbiDump() bool {
if ctx.ctx.Config().IsEnvTrue("SKIP_ABI_CHECKS") {
return false
}
// Coverage builds have extra symbols.
if ctx.mod.isCoverageVariant() {
return false
}
if ctx.ctx.Fuchsia() {
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 ctx.isStubs() || ctx.isNDKStubLibrary() {
// Stubs do not need ABI dumps.
return false
}
return true
}
func (ctx *moduleContextImpl) selectedStl() string {
if stl := ctx.mod.stl; stl != nil {
return stl.Properties.SelectedStl
}
return ""
}
func (ctx *moduleContextImpl) useClangLld(actx ModuleContext) bool {
return ctx.mod.linker.useClangLld(actx)
}
func (ctx *moduleContextImpl) baseModuleName() string {
return ctx.mod.ModuleBase.BaseModuleName()
}
func (ctx *moduleContextImpl) getVndkExtendsModuleName() string {
return ctx.mod.getVndkExtendsModuleName()
}
func (ctx *moduleContextImpl) isForPlatform() bool {
return ctx.mod.IsForPlatform()
}
func (ctx *moduleContextImpl) apexVariationName() string {
return ctx.mod.ApexVariationName()
}
func (ctx *moduleContextImpl) apexSdkVersion() int {
return ctx.mod.apexSdkVersion
}
func (ctx *moduleContextImpl) hasStubsVariants() bool {
return ctx.mod.HasStubsVariants()
}
func (ctx *moduleContextImpl) isStubs() bool {
return ctx.mod.IsStubs()
}
func (ctx *moduleContextImpl) bootstrap() bool {
return ctx.mod.bootstrap()
}
func (ctx *moduleContextImpl) nativeCoverage() bool {
return ctx.mod.nativeCoverage()
}
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
}
func (c *Module) Symlinks() []string {
if p, ok := c.installer.(interface {
symlinkList() []string
}); ok {
return p.symlinkList()
}
return nil
}
// 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 LinkableInterface, staticDeps []LinkableInterface, sharedDeps []LinkableInterface) (results []android.Path) {
// convert Module to Path
var depsInLinkOrder []android.Path
allTransitiveDeps := make(map[android.Path][]android.Path, len(staticDeps))
staticDepFiles := []android.Path{}
for _, dep := range staticDeps {
// The OutputFile may not be valid for a variant not present, and the AllowMissingDependencies flag is set.
if dep.OutputFile().Valid() {
allTransitiveDeps[dep.OutputFile().Path()] = dep.GetDepsInLinkOrder()
staticDepFiles = append(staticDepFiles, dep.OutputFile().Path())
}
}
sharedDepFiles := []android.Path{}
for _, sharedDep := range sharedDeps {
if sharedDep.HasStaticVariant() {
staticAnalogue := sharedDep.GetStaticVariant()
allTransitiveDeps[staticAnalogue.OutputFile().Path()] = staticAnalogue.GetDepsInLinkOrder()
sharedDepFiles = append(sharedDepFiles, staticAnalogue.OutputFile().Path())
}
}
// reorder the dependencies based on transitive dependencies
depsInLinkOrder, results = orderDeps(staticDepFiles, sharedDepFiles, allTransitiveDeps)
module.SetDepsInLinkOrder(depsInLinkOrder)
return results
}
func (c *Module) IsTestPerSrcAllTestsVariation() bool {
test, ok := c.linker.(testPerSrc)
return ok && test.isAllTestsVariation()
}
func (c *Module) DataPaths() []android.DataPath {
if p, ok := c.installer.(interface {
dataPaths() []android.DataPath
}); ok {
return p.dataPaths()
}
return nil
}
func (c *Module) getNameSuffixWithVndkVersion(ctx android.ModuleContext) string {
// Returns the name suffix for product and vendor variants. If the VNDK version is not
// "current", it will append the VNDK version to the name suffix.
var vndkVersion string
var nameSuffix string
if c.inProduct() {
vndkVersion = ctx.DeviceConfig().ProductVndkVersion()
nameSuffix = productSuffix
} else {
vndkVersion = ctx.DeviceConfig().VndkVersion()
nameSuffix = vendorSuffix
}
if vndkVersion == "current" {
vndkVersion = ctx.DeviceConfig().PlatformVndkVersion()
}
if c.Properties.VndkVersion != vndkVersion {
// add version suffix only if the module is using different vndk version than the
// version in product or vendor partition.
nameSuffix += "." + c.Properties.VndkVersion
}
return nameSuffix
}
func (c *Module) GenerateAndroidBuildActions(actx android.ModuleContext) {
// Handle the case of a test module split by `test_per_src` mutator.
//
// The `test_per_src` mutator adds an extra variation named "", depending on all the other
// `test_per_src` variations of the test module. Set `outputFile` to an empty path for this
// module and return early, as this module does not produce an output file per se.
if c.IsTestPerSrcAllTestsVariation() {
c.outputFile = android.OptionalPath{}
return
}
c.makeLinkType = c.getMakeLinkType(actx)
c.Properties.SubName = ""
if c.Target().NativeBridge == android.NativeBridgeEnabled {
c.Properties.SubName += nativeBridgeSuffix
}
_, llndk := c.linker.(*llndkStubDecorator)
_, llndkHeader := c.linker.(*llndkHeadersDecorator)
if llndk || llndkHeader || (c.UseVndk() && c.HasVendorVariant()) {
// .vendor.{version} suffix is added for vendor variant or .product.{version} suffix is
// added for product variant only when we have vendor and product variants with core
// variant. The suffix is not added for vendor-only or product-only module.
c.Properties.SubName += c.getNameSuffixWithVndkVersion(actx)
} else if _, ok := c.linker.(*vndkPrebuiltLibraryDecorator); ok {
// .vendor suffix is added for backward compatibility with VNDK snapshot whose names with
// such suffixes are already hard-coded in prebuilts/vndk/.../Android.bp.
c.Properties.SubName += vendorSuffix
} else if c.InRamdisk() && !c.OnlyInRamdisk() {
c.Properties.SubName += ramdiskSuffix
} else if c.InRecovery() && !c.OnlyInRecovery() {
c.Properties.SubName += recoverySuffix
} else if c.IsSdkVariant() && (c.Properties.SdkAndPlatformVariantVisibleToMake || c.SplitPerApiLevel()) {
c.Properties.SubName += sdkSuffix
if c.SplitPerApiLevel() {
c.Properties.SubName += "." + c.SdkVersion()
}
}
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),
EmitXrefs: ctx.Config().EmitXrefRules(),
}
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, deps = c.coverage.flags(ctx, flags, deps)
}
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.Local.CFlags, _ = filterList(flags.Local.CFlags, config.IllegalFlags)
flags.Local.CppFlags, _ = filterList(flags.Local.CppFlags, config.IllegalFlags)
flags.Local.ConlyFlags, _ = filterList(flags.Local.ConlyFlags, config.IllegalFlags)
flags.Local.CommonFlags = append(flags.Local.CommonFlags, deps.Flags...)
for _, dir := range deps.IncludeDirs {
flags.Local.CommonFlags = append(flags.Local.CommonFlags, "-I"+dir.String())
}
for _, dir := range deps.SystemIncludeDirs {
flags.Local.CommonFlags = append(flags.Local.CommonFlags, "-isystem "+dir.String())
}
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)
}
flags.AssemblerWithCpp = inList("-xassembler-with-cpp", flags.Local.AsFlags)
// 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.Local.CFlags, " "))
ctx.Variable(pctx, "cppflags", strings.Join(flags.Local.CppFlags, " "))
ctx.Variable(pctx, "asflags", strings.Join(flags.Local.AsFlags, " "))
flags.Local.CFlags = []string{"$cflags"}
flags.Local.CppFlags = []string{"$cppflags"}
flags.Local.AsFlags = []string{"$asflags"}
var objs Objects
if c.compiler != nil {
objs = c.compiler.compile(ctx, flags, deps)
if ctx.Failed() {
return
}
c.kytheFiles = objs.kytheFiles
}
if c.linker != nil {
outputFile := c.linker.link(ctx, flags, deps, objs)
if ctx.Failed() {
return
}
c.outputFile = android.OptionalPathForPath(outputFile)
// If a lib is directly included in any of the APEXes, unhide the stubs
// variant having the latest version gets visible to make. In addition,
// the non-stubs variant is renamed to <libname>.bootstrap. This is to
// force anything in the make world to link against the stubs library.
// (unless it is explicitly referenced via .bootstrap suffix or the
// module is marked with 'bootstrap: true').
if c.HasStubsVariants() &&
android.DirectlyInAnyApex(ctx, ctx.baseModuleName()) && !c.InRamdisk() &&
!c.InRecovery() && !c.UseVndk() && !c.static() && !c.isCoverageVariant() &&
c.IsStubs() {
c.Properties.HideFromMake = false // unhide
// Note: this is still non-installable
}
// glob exported headers for snapshot, if BOARD_VNDK_VERSION is current.
if i, ok := c.linker.(snapshotLibraryInterface); ok && ctx.DeviceConfig().VndkVersion() == "current" {
if isSnapshotAware(ctx, c) {
i.collectHeadersForSnapshot(ctx)
}
}
}
if c.installable() {
c.installer.install(ctx, c.outputFile.Path())
if ctx.Failed() {
return
}
} else if !proptools.BoolDefault(c.Properties.Installable, true) {
// If the module has been specifically configure to not be installed then
// skip the installation as otherwise it will break when running inside make
// as the output path to install will not be specified. Not all uninstallable
// modules can skip installation as some are needed for resolving make side
// dependencies.
c.SkipInstall()
}
}
func (c *Module) toolchain(ctx android.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() && c.IsSdkVariant() {
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{
BaseModuleContext: 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 GetCrtVariations(ctx android.BottomUpMutatorContext,
m LinkableInterface) []blueprint.Variation {
if ctx.Os() != android.Android {
return nil
}
if m.UseSdk() {
return []blueprint.Variation{
{Mutator: "sdk", Variation: "sdk"},
{Mutator: "ndk_api", Variation: m.SdkVersion()},
}
}
return []blueprint.Variation{
{Mutator: "sdk", Variation: ""},
}
}
func (c *Module) DepsMutator(actx android.BottomUpMutatorContext) {
if !c.Enabled() {
return
}
ctx := &depsContext{
BottomUpMutatorContext: actx,
moduleContextImpl: moduleContextImpl{
mod: c,
},
}
ctx.ctx = ctx
deps := c.deps(ctx)
variantNdkLibs := []string{}
variantLateNdkLibs := []string{}
if ctx.Os() == android.Android {
// rewriteLibs 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
vendorPublicLibraries := vendorPublicLibraries(actx.Config())
vendorSnapshotSharedLibs := vendorSnapshotSharedLibs(actx.Config())
rewriteVendorLibs := func(lib string) string {
if isLlndkLibrary(lib, ctx.Config()) {
return lib + llndkLibrarySuffix
}
// only modules with BOARD_VNDK_VERSION uses snapshot.
if c.VndkVersion() != actx.DeviceConfig().VndkVersion() {
return lib
}
if snapshot, ok := vendorSnapshotSharedLibs.get(lib, actx.Arch().ArchType); ok {
return snapshot
}
return lib
}
rewriteLibs := 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, ndkKnownLibs) {
variantLibs = append(variantLibs, name+ndkLibrarySuffix)
} else if ctx.useVndk() {
nonvariantLibs = append(nonvariantLibs, rewriteVendorLibs(entry))
} 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 = rewriteLibs(deps.SharedLibs)
deps.LateSharedLibs, variantLateNdkLibs = rewriteLibs(deps.LateSharedLibs)
deps.ReexportSharedLibHeaders, _ = rewriteLibs(deps.ReexportSharedLibHeaders)
if ctx.useVndk() {
for idx, lib := range deps.RuntimeLibs {
deps.RuntimeLibs[idx] = rewriteVendorLibs(lib)
}
}
}
buildStubs := false
if c.linker != nil {
if library, ok := c.linker.(*libraryDecorator); ok {
if library.buildStubs() {
buildStubs = true
}
}
}
rewriteSnapshotLibs := func(lib string, snapshotMap *snapshotMap) string {
// only modules with BOARD_VNDK_VERSION uses snapshot.
if c.VndkVersion() != actx.DeviceConfig().VndkVersion() {
return lib
}
if snapshot, ok := snapshotMap.get(lib, actx.Arch().ArchType); ok {
return snapshot
}
return lib
}
vendorSnapshotHeaderLibs := vendorSnapshotHeaderLibs(actx.Config())
for _, lib := range deps.HeaderLibs {
depTag := libraryDependencyTag{Kind: headerLibraryDependency}
if inList(lib, deps.ReexportHeaderLibHeaders) {
depTag.reexportFlags = true
}
lib = rewriteSnapshotLibs(lib, vendorSnapshotHeaderLibs)
if buildStubs {
actx.AddFarVariationDependencies(append(ctx.Target().Variations(), c.ImageVariation()),
depTag, lib)
} else {
actx.AddVariationDependencies(nil, depTag, lib)
}
}
if buildStubs {
// Stubs lib does not have dependency to other static/shared libraries.
// Don't proceed.
return
}
syspropImplLibraries := syspropImplLibraries(actx.Config())
vendorSnapshotStaticLibs := vendorSnapshotStaticLibs(actx.Config())
for _, lib := range deps.WholeStaticLibs {
depTag := libraryDependencyTag{Kind: staticLibraryDependency, wholeStatic: true, reexportFlags: true}
if impl, ok := syspropImplLibraries[lib]; ok {
lib = impl
}
lib = rewriteSnapshotLibs(lib, vendorSnapshotStaticLibs)
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "link", Variation: "static"},
}, depTag, lib)
}
for _, lib := range deps.StaticLibs {
depTag := libraryDependencyTag{Kind: staticLibraryDependency}
if inList(lib, deps.ReexportStaticLibHeaders) {
depTag.reexportFlags = true
}
if impl, ok := syspropImplLibraries[lib]; ok {
lib = impl
}
lib = rewriteSnapshotLibs(lib, vendorSnapshotStaticLibs)
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "link", Variation: "static"},
}, depTag, lib)
}
// staticUnwinderDep is treated as staticDep for Q apexes
// so that native libraries/binaries are linked with static unwinder
// because Q libc doesn't have unwinder APIs
if deps.StaticUnwinderIfLegacy {
depTag := libraryDependencyTag{Kind: staticLibraryDependency, staticUnwinder: true}
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "link", Variation: "static"},
}, depTag, rewriteSnapshotLibs(staticUnwinder(actx), vendorSnapshotStaticLibs))
}
for _, lib := range deps.LateStaticLibs {
depTag := libraryDependencyTag{Kind: staticLibraryDependency, Order: lateLibraryDependency}
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "link", Variation: "static"},
}, depTag, rewriteSnapshotLibs(lib, vendorSnapshotStaticLibs))
}
addSharedLibDependencies := func(depTag libraryDependencyTag, name string, version string) {
var variations []blueprint.Variation
variations = append(variations, blueprint.Variation{Mutator: "link", Variation: "shared"})
if version != "" && VersionVariantAvailable(c) {
// Version is explicitly specified. i.e. libFoo#30
variations = append(variations, blueprint.Variation{Mutator: "version", Variation: version})
depTag.explicitlyVersioned = true
}
actx.AddVariationDependencies(variations, depTag, name)
// If the version is not specified, add dependency to all stubs libraries.
// The stubs library will be used when the depending module is built for APEX and
// the dependent module is not in the same APEX.
if version == "" && VersionVariantAvailable(c) {
for _, ver := range stubsVersionsFor(actx.Config())[name] {
// Note that depTag.ExplicitlyVersioned is false in this case.
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "link", Variation: "shared"},
{Mutator: "version", Variation: ver},
}, depTag, name)
}
}
}
// shared lib names without the #version suffix
var sharedLibNames []string
for _, lib := range deps.SharedLibs {
depTag := libraryDependencyTag{Kind: sharedLibraryDependency}
if inList(lib, deps.ReexportSharedLibHeaders) {
depTag.reexportFlags = true
}
if impl, ok := syspropImplLibraries[lib]; ok {
lib = impl
}
name, version := StubsLibNameAndVersion(lib)
sharedLibNames = append(sharedLibNames, name)
addSharedLibDependencies(depTag, name, version)
}
for _, lib := range deps.LateSharedLibs {
if inList(lib, 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 := libraryDependencyTag{Kind: sharedLibraryDependency, Order: lateLibraryDependency}
addSharedLibDependencies(depTag, lib, "")
}
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "link", Variation: "shared"},
}, dataLibDepTag, deps.DataLibs...)
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...)
vendorSnapshotObjects := vendorSnapshotObjects(actx.Config())
crtVariations := GetCrtVariations(ctx, c)
if deps.CrtBegin != "" {
actx.AddVariationDependencies(crtVariations, CrtBeginDepTag,
rewriteSnapshotLibs(deps.CrtBegin, vendorSnapshotObjects))
}
if deps.CrtEnd != "" {
actx.AddVariationDependencies(crtVariations, CrtEndDepTag,
rewriteSnapshotLibs(deps.CrtEnd, vendorSnapshotObjects))
}
if deps.LinkerFlagsFile != "" {
actx.AddDependency(c, linkerFlagsDepTag, deps.LinkerFlagsFile)
}
if deps.DynamicLinker != "" {
actx.AddDependency(c, dynamicLinkerDepTag, deps.DynamicLinker)
}
version := ctx.sdkVersion()
ndkStubDepTag := libraryDependencyTag{Kind: sharedLibraryDependency, ndk: true, makeSuffix: "." + version}
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "ndk_api", Variation: version},
{Mutator: "link", Variation: "shared"},
}, ndkStubDepTag, variantNdkLibs...)
ndkLateStubDepTag := libraryDependencyTag{Kind: sharedLibraryDependency, Order: lateLibraryDependency, ndk: true, makeSuffix: "." + version}
actx.AddVariationDependencies([]blueprint.Variation{
{Mutator: "ndk_api", Variation: version},
{Mutator: "link", Variation: "shared"},
}, ndkLateStubDepTag, variantLateNdkLibs...)
if vndkdep := c.vndkdep; vndkdep != nil {
if vndkdep.isVndkExt() {
actx.AddVariationDependencies([]blueprint.Variation{
c.ImageVariation(),
{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 LinkableInterface, to LinkableInterface,
tag blueprint.DependencyTag) {
switch t := tag.(type) {
case dependencyTag:
if t != vndkExtDepTag {
return
}
case libraryDependencyTag:
default:
return
}
if from.Module().Target().Os != android.Android {
// Host code is not restricted
return
}
// VNDK is cc.Module supported only for now.
if ccFrom, ok := from.(*Module); ok && from.UseVndk() {
// Though vendor code is limited by the vendor mutator,
// each vendor-available module needs to check
// link-type for VNDK.
if ccTo, ok := to.(*Module); ok {
if ccFrom.vndkdep != nil {
ccFrom.vndkdep.vndkCheckLinkType(ctx, ccTo, tag)
}
} else {
ctx.ModuleErrorf("Attempting to link VNDK cc.Module with unsupported module type")
}
return
}
if from.SdkVersion() == "" {
// Platform code can link to anything
return
}
if from.InRamdisk() {
// Ramdisk code is not NDK
return
}
if from.InRecovery() {
// Recovery code is not NDK
return
}
if to.ToolchainLibrary() {
// These are always allowed
return
}
if to.NdkPrebuiltStl() {
// These are allowed, but they don't set sdk_version
return
}
if to.StubDecorator() {
// These aren't real libraries, but are the stub shared libraries that are included in
// the NDK.
return
}
if strings.HasPrefix(ctx.ModuleName(), "libclang_rt.") && to.Module().Name() == "libc++" {
// Bug: http://b/121358700 - Allow libclang_rt.* shared libraries (with sdk_version)
// to link to libc++ (non-NDK and without sdk_version).
return
}
if to.SdkVersion() == "" {
// NDK code linking to platform code is never okay.
ctx.ModuleErrorf("depends on non-NDK-built library %q",
ctx.OtherModuleName(to.Module()))
return
}
// 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 from.SdkVersion() != "current" {
// Otherwise we need to check.
if to.SdkVersion() == "current" {
// Current can't be linked against by anything else.
ctx.ModuleErrorf("links %q built against newer API version %q",
ctx.OtherModuleName(to.Module()), "current")
} else {
fromApi, err := strconv.Atoi(from.SdkVersion())
if err != nil {
ctx.PropertyErrorf("sdk_version",
"Invalid sdk_version value (must be int or current): %q",
from.SdkVersion())
}
toApi, err := strconv.Atoi(to.SdkVersion())
if err != nil {
ctx.PropertyErrorf("sdk_version",
"Invalid sdk_version value (must be int or current): %q",
to.SdkVersion())
}
if toApi > fromApi {
ctx.ModuleErrorf("links %q built against newer API version %q",
ctx.OtherModuleName(to.Module()), to.SdkVersion())
}
}
}
// Also check that the two STL choices are compatible.
fromStl := from.SelectedStl()
toStl := to.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.SelectedStl(), ctx.OtherModuleName(to.Module()),
to.SelectedStl())
}
}
// Tests whether the dependent library is okay to be double loaded inside a single process.
// If a library has a vendor variant and is a (transitive) dependency of an LLNDK library,
// it is subject to be double loaded. Such lib should be explicitly marked as double_loadable: true
// or as vndk-sp (vndk: { enabled: true, support_system_process: true}).
func checkDoubleLoadableLibraries(ctx android.TopDownMutatorContext) {
check := func(child, parent android.Module) bool {
to, ok := child.(*Module)
if !ok {
// follow thru cc.Defaults, etc.
return true
}
if lib, ok := to.linker.(*libraryDecorator); !ok || !lib.shared() {
return false
}
// if target lib has no vendor variant, keep checking dependency graph
if !to.HasVendorVariant() {
return true
}
if to.isVndkSp() || to.isLlndk(ctx.Config()) || Bool(to.VendorProperties.Double_loadable) {
return false
}
var stringPath []string
for _, m := range ctx.GetWalkPath() {
stringPath = append(stringPath, m.Name())
}
ctx.ModuleErrorf("links a library %q which is not LL-NDK, "+
"VNDK-SP, or explicitly marked as 'double_loadable:true'. "+
"(dependency: %s)", ctx.OtherModuleName(to), strings.Join(stringPath, " -> "))
return false
}
if module, ok := ctx.Module().(*Module); ok {
if lib, ok := module.linker.(*libraryDecorator); ok && lib.shared() {
if module.isLlndk(ctx.Config()) || Bool(module.VendorProperties.Double_loadable) {
ctx.WalkDeps(check)
}
}
}
}
// Convert dependencies to paths. Returns a PathDeps containing paths
func (c *Module) depsToPaths(ctx android.ModuleContext) PathDeps {
var depPaths PathDeps
directStaticDeps := []LinkableInterface{}
directSharedDeps := []LinkableInterface{}
reexportExporter := func(exporter exportedFlagsProducer) {
depPaths.ReexportedDirs = append(depPaths.ReexportedDirs, exporter.exportedDirs()...)
depPaths.ReexportedSystemDirs = append(depPaths.ReexportedSystemDirs, exporter.exportedSystemDirs()...)
depPaths.ReexportedFlags = append(depPaths.ReexportedFlags, exporter.exportedFlags()...)
depPaths.ReexportedDeps = append(depPaths.ReexportedDeps, exporter.exportedDeps()...)
depPaths.ReexportedGeneratedHeaders = append(depPaths.ReexportedGeneratedHeaders, exporter.exportedGeneratedHeaders()...)
}
// For the dependency from platform to apex, use the latest stubs
c.apexSdkVersion = android.FutureApiLevel
if !c.IsForPlatform() {
c.apexSdkVersion = c.ApexProperties.Info.MinSdkVersion
}
if android.InList("hwaddress", ctx.Config().SanitizeDevice()) {
// In hwasan build, we override apexSdkVersion to the FutureApiLevel(10000)
// so that even Q(29/Android10) apexes could use the dynamic unwinder by linking the newer stubs(e.g libc(R+)).
// (b/144430859)
c.apexSdkVersion = android.FutureApiLevel
}
ctx.VisitDirectDeps(func(dep android.Module) {
depName := ctx.OtherModuleName(dep)
depTag := ctx.OtherModuleDependencyTag(dep)
ccDep, ok := dep.(LinkableInterface)
if !ok {
// 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.GeneratedDeps = append(depPaths.GeneratedDeps,
genRule.GeneratedDeps()...)
dirs := genRule.GeneratedHeaderDirs()
depPaths.IncludeDirs = append(depPaths.IncludeDirs, dirs...)
if depTag == genHeaderExportDepTag {
depPaths.ReexportedDirs = append(depPaths.ReexportedDirs, dirs...)
depPaths.ReexportedGeneratedHeaders = append(depPaths.ReexportedGeneratedHeaders,
genRule.GeneratedSourceFiles()...)
depPaths.ReexportedDeps = append(depPaths.ReexportedDeps, genRule.GeneratedDeps()...)
// Add these re-exported flags to help header-abi-dumper to infer the abi exported by a library.
c.sabi.Properties.ReexportedIncludes = append(c.sabi.Properties.ReexportedIncludes, dirs.Strings()...)
}
} 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 depTag == android.ProtoPluginDepTag {
return
}
if depTag == llndkImplDep {
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(%v) and %q(%v)",
ctx.ModuleName(), ctx.Arch().ArchType, depName, dep.Target().Arch.ArchType)
return
}
// re-exporting flags
if depTag == reuseObjTag {
// reusing objects only make sense for cc.Modules.
if ccReuseDep, ok := ccDep.(*Module); ok && ccDep.CcLibraryInterface() {
c.staticVariant = ccDep
objs, exporter := ccReuseDep.compiler.(libraryInterface).reuseObjs()
depPaths.Objs = depPaths.Objs.Append(objs)
reexportExporter(exporter)
return
}
}
if depTag == staticVariantTag {
// staticVariants are a cc.Module specific concept.
if _, ok := ccDep.(*Module); ok && ccDep.CcLibraryInterface() {
c.staticVariant = ccDep
return
}
}
checkLinkType(ctx, c, ccDep, depTag)
linkFile := ccDep.OutputFile()
if libDepTag, ok := depTag.(libraryDependencyTag); ok {
// Only use static unwinder for legacy (min_sdk_version = 29) apexes (b/144430859)
if libDepTag.staticUnwinder && c.apexSdkVersion > android.SdkVersion_Android10 {
return
}
if ccDep.CcLibrary() && !libDepTag.static() {
depIsStubs := ccDep.BuildStubs()
depHasStubs := VersionVariantAvailable(c) && ccDep.HasStubsVariants()
depInSameApexes := android.DirectlyInAllApexes(c.InApexes(), depName)
depInPlatform := !android.DirectlyInAnyApex(ctx, depName)
var useThisDep bool
if depIsStubs && libDepTag.explicitlyVersioned {
// Always respect dependency to the versioned stubs (i.e. libX#10)
useThisDep = true
} else if !depHasStubs {
// Use non-stub variant if that is the only choice
// (i.e. depending on a lib without stubs.version property)
useThisDep = true
} else if c.IsForPlatform() {
// If not building for APEX, use stubs only when it is from
// an APEX (and not from platform)
useThisDep = (depInPlatform != depIsStubs)
if c.bootstrap() {
// However, for host, ramdisk, recovery or bootstrap modules,
// always link to non-stub variant
useThisDep = !depIsStubs
}
for _, testFor := range c.TestFor() {
// Another exception: if this module is bundled with an APEX, then
// it is linked with the non-stub variant of a module in the APEX
// as if this is part of the APEX.
if android.DirectlyInApex(testFor, depName) {
useThisDep = !depIsStubs
break
}
}
} else {
// If building for APEX, use stubs when the parent is in any APEX that
// the child is not in.
useThisDep = (depInSameApexes != depIsStubs)
}
// when to use (unspecified) stubs, check min_sdk_version and choose the right one
if useThisDep && depIsStubs && !libDepTag.explicitlyVersioned {
versionToUse, err := c.ChooseSdkVersion(ccDep.StubsVersions(), c.apexSdkVersion)
if err != nil {
ctx.OtherModuleErrorf(dep, err.Error())
return
}
if versionToUse != ccDep.StubsVersion() {
useThisDep = false
}
}
if !useThisDep {
return // stop processing this dep
}
}
if c.UseVndk() {
if m, ok := ccDep.(*Module); ok && m.IsStubs() { // LLNDK
// by default, use current version of LLNDK
versionToUse := ""
versions := stubsVersionsFor(ctx.Config())[depName]
if c.ApexVariationName() != "" && len(versions) > 0 {
// if this is for use_vendor apex && dep has stubsVersions
// apply the same rule of apex sdk enforcement to choose right version
var err error
versionToUse, err = c.ChooseSdkVersion(versions, c.apexSdkVersion)
if err != nil {
ctx.OtherModuleErrorf(dep, err.Error())
return
}
}
if versionToUse != ccDep.StubsVersion() {
return
}
}
}
depPaths.IncludeDirs = append(depPaths.IncludeDirs, ccDep.IncludeDirs()...)
// Exporting flags only makes sense for cc.Modules
if _, ok := ccDep.(*Module); ok {
if i, ok := ccDep.(*Module).linker.(exportedFlagsProducer); ok {
depPaths.SystemIncludeDirs = append(depPaths.SystemIncludeDirs, i.exportedSystemDirs()...)
depPaths.GeneratedDeps = append(depPaths.GeneratedDeps, i.exportedDeps()...)
depPaths.Flags = append(depPaths.Flags, i.exportedFlags()...)
if libDepTag.reexportFlags {
reexportExporter(i)
// 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).
// -isystem headers are not included since for bionic libraries, abi-filtering is taken care of by version
// scripts.
c.sabi.Properties.ReexportedIncludes = append(
c.sabi.Properties.ReexportedIncludes, i.exportedDirs().Strings()...)
}
}
}
var ptr *android.Paths
var depPtr *android.Paths
depFile := android.OptionalPath{}
switch {
case libDepTag.header():
// nothing
case libDepTag.shared():
ptr = &depPaths.SharedLibs
switch libDepTag.Order {
case earlyLibraryDependency:
ptr = &depPaths.EarlySharedLibs
depPtr = &depPaths.EarlySharedLibsDeps
case normalLibraryDependency:
ptr = &depPaths.SharedLibs
depPtr = &depPaths.SharedLibsDeps
directSharedDeps = append(directSharedDeps, ccDep)
case lateLibraryDependency:
ptr = &depPaths.LateSharedLibs
depPtr = &depPaths.LateSharedLibsDeps
default:
panic(fmt.Errorf("unexpected library dependency order %d", libDepTag.Order))
}
depFile = ccDep.Toc()
case libDepTag.static():
if libDepTag.wholeStatic {
ptr = &depPaths.WholeStaticLibs
if !ccDep.CcLibraryInterface() || !ccDep.Static() {
ctx.ModuleErrorf("module %q not a static library", depName)
return
}
// Because the static library objects are included, this only makes sense
// in the context of proper cc.Modules.
if ccWholeStaticLib, ok := ccDep.(*Module); ok {
staticLib := ccWholeStaticLib.linker.(libraryInterface)
if missingDeps := staticLib.getWholeStaticMissingDeps(); missingDeps != nil {
postfix := " (required by " + ctx.OtherModuleName(dep) + ")"
for i := range missingDeps {
missingDeps[i] += postfix
}
ctx.AddMissingDependencies(missingDeps)
}
if _, ok := ccWholeStaticLib.linker.(prebuiltLinkerInterface); ok {
depPaths.WholeStaticLibsFromPrebuilts = append(depPaths.WholeStaticLibsFromPrebuilts, linkFile.Path())
} else {
depPaths.WholeStaticLibObjs = depPaths.WholeStaticLibObjs.Append(staticLib.objs())
}
} else {
ctx.ModuleErrorf(
"non-cc.Modules cannot be included as whole static libraries.", depName)
return
}
} else {
switch libDepTag.Order {
case earlyLibraryDependency:
panic(fmt.Errorf("early static libs not suppported"))
case normalLibraryDependency:
// static dependencies will be handled separately so they can be ordered
// using transitive dependencies.
ptr = nil
directStaticDeps = append(directStaticDeps, ccDep)
case lateLibraryDependency:
ptr = &depPaths.LateStaticLibs
default:
panic(fmt.Errorf("unexpected library dependency order %d", libDepTag.Order))
}
}
}
if libDepTag.static() && !libDepTag.wholeStatic {
if !ccDep.CcLibraryInterface() || !ccDep.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.
if c, ok := ccDep.(*Module); ok {
staticLib := c.linker.(libraryInterface)
depPaths.StaticLibObjs.coverageFiles = append(depPaths.StaticLibObjs.coverageFiles,
staticLib.objs().coverageFiles...)
depPaths.StaticLibObjs.sAbiDumpFiles = append(depPaths.StaticLibObjs.sAbiDumpFiles,
staticLib.objs().sAbiDumpFiles...)
} else if c, ok := ccDep.(LinkableInterface); ok {
// Handle non-CC modules here
depPaths.StaticLibObjs.coverageFiles = append(depPaths.StaticLibObjs.coverageFiles,
c.CoverageFiles()...)
}
}
if ptr != nil {
if !linkFile.Valid() {
if !ctx.Config().AllowMissingDependencies() {
ctx.ModuleErrorf("module %q missing output file", depName)
} else {
ctx.AddMissingDependencies([]string{depName})
}
return
}
*ptr = append(*ptr, linkFile.Path())
}
if depPtr != nil {
dep := depFile
if !dep.Valid() {
dep = linkFile
}
*depPtr = append(*depPtr, dep.Path())
}
makeLibName := c.makeLibName(ctx, ccDep, depName) + libDepTag.makeSuffix
switch {
case libDepTag.header():
c.Properties.AndroidMkHeaderLibs = append(
c.Properties.AndroidMkHeaderLibs, makeLibName)
case libDepTag.shared():
if ccDep.CcLibrary() {
if ccDep.BuildStubs() && android.InAnyApex(depName) {
// Add the dependency to the APEX(es) providing the library so that
// m <module> can trigger building the APEXes as well.
for _, an := range android.GetApexesForModule(depName) {
c.Properties.ApexesProvidingSharedLibs = append(
c.Properties.ApexesProvidingSharedLibs, an)
}
}
}
// 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)
// Record baseLibName for snapshots.
c.Properties.SnapshotSharedLibs = append(c.Properties.SnapshotSharedLibs, baseLibName(depName))
case libDepTag.static():
if libDepTag.wholeStatic {
c.Properties.AndroidMkWholeStaticLibs = append(
c.Properties.AndroidMkWholeStaticLibs, makeLibName)
} else {
c.Properties.AndroidMkStaticLibs = append(
c.Properties.AndroidMkStaticLibs, makeLibName)
}
}
} else {
switch depTag {
case runtimeDepTag:
c.Properties.AndroidMkRuntimeLibs = append(
c.Properties.AndroidMkRuntimeLibs, c.makeLibName(ctx, ccDep, depName)+libDepTag.makeSuffix)
// Record baseLibName for snapshots.
c.Properties.SnapshotRuntimeLibs = append(c.Properties.SnapshotRuntimeLibs, baseLibName(depName))
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
}
}
})
// 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.IncludeDirs = android.FirstUniquePaths(depPaths.IncludeDirs)
depPaths.SystemIncludeDirs = android.FirstUniquePaths(depPaths.SystemIncludeDirs)
depPaths.GeneratedDeps = android.FirstUniquePaths(depPaths.GeneratedDeps)
depPaths.ReexportedDirs = android.FirstUniquePaths(depPaths.ReexportedDirs)
depPaths.ReexportedSystemDirs = android.FirstUniquePaths(depPaths.ReexportedSystemDirs)
depPaths.ReexportedFlags = android.FirstUniqueStrings(depPaths.ReexportedFlags)
depPaths.ReexportedDeps = android.FirstUniquePaths(depPaths.ReexportedDeps)
depPaths.ReexportedGeneratedHeaders = android.FirstUniquePaths(depPaths.ReexportedGeneratedHeaders)
if c.sabi != nil {
c.sabi.Properties.ReexportedIncludes = android.FirstUniqueStrings(c.sabi.Properties.ReexportedIncludes)
}
return depPaths
}
// baseLibName trims known prefixes and suffixes
func baseLibName(depName string) string {
libName := strings.TrimSuffix(depName, llndkLibrarySuffix)
libName = strings.TrimSuffix(libName, vendorPublicLibrarySuffix)
libName = strings.TrimPrefix(libName, "prebuilt_")
return libName
}
func (c *Module) makeLibName(ctx android.ModuleContext, ccDep LinkableInterface, depName string) string {
vendorSuffixModules := vendorSuffixModules(ctx.Config())
vendorPublicLibraries := vendorPublicLibraries(ctx.Config())
libName := baseLibName(depName)
isLLndk := isLlndkLibrary(libName, ctx.Config())
isVendorPublicLib := inList(libName, *vendorPublicLibraries)
bothVendorAndCoreVariantsExist := ccDep.HasVendorVariant() || isLLndk
if c, ok := ccDep.(*Module); ok {
// Use base module name for snapshots when exporting to Makefile.
if c.isSnapshotPrebuilt() {
baseName := c.BaseModuleName()
if c.IsVndk() {
return baseName + ".vendor"
}
if vendorSuffixModules[baseName] {
return baseName + ".vendor"
} else {
return baseName
}
}
}
if ctx.DeviceConfig().VndkUseCoreVariant() && ccDep.IsVndk() && !ccDep.MustUseVendorVariant() && !c.InRamdisk() && !c.InRecovery() {
// The vendor module is a no-vendor-variant VNDK library. Depend on the
// core module instead.
return libName
} else 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 + c.getNameSuffixWithVndkVersion(ctx)
} else if (ctx.Platform() || ctx.ProductSpecific()) && isVendorPublicLib {
return libName + vendorPublicLibrarySuffix
} else if ccDep.InRamdisk() && !ccDep.OnlyInRamdisk() {
return libName + ramdiskSuffix
} else if ccDep.InRecovery() && !ccDep.OnlyInRecovery() {
return libName + recoverySuffix
} else if ccDep.Module().Target().NativeBridge == android.NativeBridgeEnabled {
return libName + nativeBridgeSuffix
} else {
return libName
}
}
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) InstallInRamdisk() bool {
return c.InRamdisk()
}
func (c *Module) InstallInRecovery() bool {
return c.InRecovery()
}
func (c *Module) MakeUninstallable() {
if c.installer == nil {
c.ModuleBase.MakeUninstallable()
return
}
c.installer.makeUninstallable(c)
}
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) OutputFiles(tag string) (android.Paths, error) {
switch tag {
case "":
if c.outputFile.Valid() {
return android.Paths{c.outputFile.Path()}, nil
}
return android.Paths{}, nil
default:
return nil, fmt.Errorf("unsupported module reference tag %q", tag)
}
}
func (c *Module) static() bool {
if static, ok := c.linker.(interface {
static() bool
}); ok {
return static.static()
}
return false
}
func (c *Module) staticBinary() bool {
if static, ok := c.linker.(interface {
staticBinary() bool
}); ok {
return static.staticBinary()
}
return false
}
func (c *Module) header() bool {
if h, ok := c.linker.(interface {
header() bool
}); ok {
return h.header()
}
return false
}
func (c *Module) binary() bool {
if b, ok := c.linker.(interface {
binary() bool
}); ok {
return b.binary()
}
return false
}
func (c *Module) object() bool {
if o, ok := c.linker.(interface {
object() bool
}); ok {
return o.object()
}
return false
}
func (c *Module) getMakeLinkType(actx android.ModuleContext) string {
if c.UseVndk() {
if lib, ok := c.linker.(*llndkStubDecorator); ok {
if Bool(lib.Properties.Vendor_available) {
return "native:vndk"
}
return "native:vndk_private"
}
if c.IsVndk() && !c.isVndkExt() {
if Bool(c.VendorProperties.Vendor_available) {
return "native:vndk"
}
return "native:vndk_private"
}
if c.inProduct() {
return "native:product"
}
return "native:vendor"
} else if c.InRamdisk() {
return "native:ramdisk"
} 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 if actx.DeviceConfig().VndkUseCoreVariant() && !c.MustUseVendorVariant() {
return "native:platform_vndk"
} else {
return "native:platform"
}
}
// Overrides ApexModule.IsInstallabeToApex()
// Only shared/runtime libraries and "test_per_src" tests are installable to APEX.
func (c *Module) IsInstallableToApex() bool {
if shared, ok := c.linker.(interface {
shared() bool
}); ok {
// Stub libs and prebuilt libs in a versioned SDK are not
// installable to APEX even though they are shared libs.
return shared.shared() && !c.IsStubs() && c.ContainingSdk().Unversioned()
} else if _, ok := c.linker.(testPerSrc); ok {
return true
}
return false
}
func (c *Module) AvailableFor(what string) bool {
if linker, ok := c.linker.(interface {
availableFor(string) bool
}); ok {
return c.ApexModuleBase.AvailableFor(what) || linker.availableFor(what)
} else {
return c.ApexModuleBase.AvailableFor(what)
}
}
func (c *Module) TestFor() []string {
if test, ok := c.linker.(interface {
testFor() []string
}); ok {
return test.testFor()
} else {
return c.ApexModuleBase.TestFor()
}
}
func (c *Module) UniqueApexVariations() bool {
if u, ok := c.compiler.(interface {
uniqueApexVariations() bool
}); ok {
return u.uniqueApexVariations()
} else {
return false
}
}
// Return true if the module is ever installable.
func (c *Module) EverInstallable() bool {
return c.installer != nil &&
// Check to see whether the module is actually ever installable.
c.installer.everInstallable()
}
func (c *Module) installable() bool {
ret := c.EverInstallable() &&
// Check to see whether the module has been configured to not be installed.
proptools.BoolDefault(c.Properties.Installable, true) &&
!c.Properties.PreventInstall && c.outputFile.Valid()
// The platform variant doesn't need further condition. Apex variants however might not
// be installable because it will likely to be included in the APEX and won't appear
// in the system partition.
if c.IsForPlatform() {
return ret
}
// Special case for modules that are configured to be installed to /data, which includes
// test modules. For these modules, both APEX and non-APEX variants are considered as
// installable. This is because even the APEX variants won't be included in the APEX, but
// will anyway be installed to /data/*.
// See b/146995717
if c.InstallInData() {
return ret
}
return false
}
func (c *Module) AndroidMkWriteAdditionalDependenciesForSourceAbiDiff(w io.Writer) {
if c.linker != nil {
if library, ok := c.linker.(*libraryDecorator); ok {
library.androidMkWriteAdditionalDependenciesForSourceAbiDiff(w)
}
}
}
func (c *Module) DepIsInSameApex(ctx android.BaseModuleContext, dep android.Module) bool {
depTag := ctx.OtherModuleDependencyTag(dep)
libDepTag, isLibDepTag := depTag.(libraryDependencyTag)
if cc, ok := dep.(*Module); ok {
if cc.HasStubsVariants() {
if isLibDepTag && libDepTag.shared() {
// dynamic dep to a stubs lib crosses APEX boundary
return false
}
if IsRuntimeDepTag(depTag) {
// runtime dep to a stubs lib also crosses APEX boundary
return false
}
}
if isLibDepTag && c.static() && libDepTag.shared() {
// shared_lib dependency from a static lib is considered as crossing
// the APEX boundary because the dependency doesn't actually is
// linked; the dependency is used only during the compilation phase.
return false
}
}
if depTag == llndkImplDep {
// We don't track beyond LLNDK
return false
}
return true
}
// b/154667674: refactor this to handle "current" in a consistent way
func decodeSdkVersionString(ctx android.BaseModuleContext, versionString string) (int, error) {
if versionString == "" {
return 0, fmt.Errorf("not specified")
}
if versionString == "current" {
if ctx.Config().PlatformSdkCodename() == "REL" {
return ctx.Config().PlatformSdkVersionInt(), nil
}
return android.FutureApiLevel, nil
}
return android.ApiStrToNum(ctx, versionString)
}
func (c *Module) ShouldSupportSdkVersion(ctx android.BaseModuleContext, sdkVersion int) error {
// We ignore libclang_rt.* prebuilt libs since they declare sdk_version: 14(b/121358700)
if strings.HasPrefix(ctx.OtherModuleName(c), "libclang_rt") {
return nil
}
// b/154569636: set min_sdk_version correctly for toolchain_libraries
if c.ToolchainLibrary() {
return nil
}
// We don't check for prebuilt modules
if _, ok := c.linker.(prebuiltLinkerInterface); ok {
return nil
}
minSdkVersion := c.MinSdkVersion()
if minSdkVersion == "apex_inherit" {
return nil
}
if minSdkVersion == "" {
// JNI libs within APK-in-APEX fall into here
// Those are okay to set sdk_version instead
// We don't have to check if this is a SDK variant because
// non-SDK variant resets sdk_version, which works too.
minSdkVersion = c.SdkVersion()
}
ver, err := decodeSdkVersionString(ctx, minSdkVersion)
if err != nil {
return err
}
if ver > sdkVersion {
return fmt.Errorf("newer SDK(%v)", ver)
}
return nil
}
//
// Defaults
//
type Defaults struct {
android.ModuleBase
android.DefaultsModuleBase
android.ApexModuleBase
}
// cc_defaults provides a set of properties that can be inherited by other cc
// modules. A module can use the properties from a cc_defaults using
// `defaults: ["<:default_module_name>"]`. Properties of both modules are
// merged (when possible) by prepending the default module's values to the
// depending module's values.
func defaultsFactory() android.Module {
return DefaultsFactory()
}
func DefaultsFactory(props ...interface{}) android.Module {
module := &Defaults{}
module.AddProperties(props...)
module.AddProperties(
&BaseProperties{},
&VendorProperties{},
&BaseCompilerProperties{},
&BaseLinkerProperties{},
&ObjectLinkerProperties{},
&LibraryProperties{},
&StaticProperties{},
&SharedProperties{},
&FlagExporterProperties{},
&BinaryLinkerProperties{},
&TestProperties{},
&TestBinaryProperties{},
&BenchmarkProperties{},
&FuzzProperties{},
&StlProperties{},
&SanitizeProperties{},
&StripProperties{},
&InstallerProperties{},
&TidyProperties{},
&CoverageProperties{},
&SAbiProperties{},
&VndkProperties{},
&LTOProperties{},
&PgoProperties{},
&android.ProtoProperties{},
)
android.InitDefaultsModule(module)
return module
}
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...)
lib.baseCompiler.Properties.Exclude_generated_sources = append(lib.baseCompiler.Properties.Exclude_generated_sources,
lib.baseCompiler.Properties.Target.Vendor.Exclude_generated_sources...)
}
}
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...)
lib.baseCompiler.Properties.Exclude_generated_sources = append(lib.baseCompiler.Properties.Exclude_generated_sources,
lib.baseCompiler.Properties.Target.Recovery.Exclude_generated_sources...)
}
}
func (c *Module) IsSdkVariant() bool {
return c.Properties.IsSdkVariant || c.AlwaysSdk()
}
func getCurrentNdkPrebuiltVersion(ctx DepsContext) string {
if ctx.Config().PlatformSdkVersionInt() > config.NdkMaxPrebuiltVersionInt {
return strconv.Itoa(config.NdkMaxPrebuiltVersionInt)
}
return ctx.Config().PlatformSdkVersion()
}
func kytheExtractAllFactory() android.Singleton {
return &kytheExtractAllSingleton{}
}
type kytheExtractAllSingleton struct {
}
func (ks *kytheExtractAllSingleton) GenerateBuildActions(ctx android.SingletonContext) {
var xrefTargets android.Paths
ctx.VisitAllModules(func(module android.Module) {
if ccModule, ok := module.(xref); ok {
xrefTargets = append(xrefTargets, ccModule.XrefCcFiles()...)
}
})
// TODO(asmundak): Perhaps emit a rule to output a warning if there were no xrefTargets
if len(xrefTargets) > 0 {
ctx.Phony("xref_cxx", xrefTargets...)
}
}
var Bool = proptools.Bool
var BoolDefault = proptools.BoolDefault
var BoolPtr = proptools.BoolPtr
var String = proptools.String
var StringPtr = proptools.StringPtr