platform_build_soong/cc/linkable.go

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package cc
import (
"android/soong/android"
"android/soong/bazel/cquery"
"github.com/google/blueprint"
)
// PlatformSanitizeable is an interface for sanitizing platform modules.
type PlatformSanitizeable interface {
LinkableInterface
// SanitizePropDefined returns whether the Sanitizer properties struct for this module is defined.
SanitizePropDefined() bool
// IsDependencyRoot returns whether a module is of a type which cannot be a linkage dependency
// of another module. For example, cc_binary and rust_binary represent dependency roots as other
// modules cannot have linkage dependencies against these types.
IsDependencyRoot() bool
// IsSanitizerEnabled returns whether a sanitizer is enabled.
IsSanitizerEnabled(t SanitizerType) bool
// IsSanitizerExplicitlyDisabled returns whether a sanitizer has been explicitly disabled (set to false) rather
// than left undefined.
IsSanitizerExplicitlyDisabled(t SanitizerType) bool
// SanitizeDep returns the value of the SanitizeDep flag, which is set if a module is a dependency of a
// sanitized module.
SanitizeDep() bool
// SetSanitizer enables or disables the specified sanitizer type if it's supported, otherwise this should panic.
SetSanitizer(t SanitizerType, b bool)
// SetSanitizerDep returns true if the module is statically linked.
SetSanitizeDep(b bool)
// StaticallyLinked returns true if the module is statically linked.
StaticallyLinked() bool
// SetInSanitizerDir sets the module installation to the sanitizer directory.
SetInSanitizerDir()
// SanitizeNever returns true if this module should never be sanitized.
SanitizeNever() bool
// SanitizerSupported returns true if a sanitizer type is supported by this modules compiler.
SanitizerSupported(t SanitizerType) bool
// MinimalRuntimeDep returns true if this module needs to link the minimal UBSan runtime,
// either because it requires it or because a dependent module which requires it to be linked in this module.
MinimalRuntimeDep() bool
// UbsanRuntimeDep returns true if this module needs to link the full UBSan runtime,
// either because it requires it or because a dependent module which requires it to be linked in this module.
UbsanRuntimeDep() bool
// UbsanRuntimeNeeded returns true if the full UBSan runtime is required by this module.
UbsanRuntimeNeeded() bool
// MinimalRuntimeNeeded returns true if the minimal UBSan runtime is required by this module
MinimalRuntimeNeeded() bool
// SanitizableDepTagChecker returns a SantizableDependencyTagChecker function type.
SanitizableDepTagChecker() SantizableDependencyTagChecker
}
// SantizableDependencyTagChecker functions check whether or not a dependency
// tag can be sanitized. These functions should return true if the tag can be
// sanitized, otherwise they should return false. These functions should also
// handle all possible dependency tags in the dependency tree. For example,
// Rust modules can depend on both Rust and CC libraries, so the Rust module
// implementation should handle tags from both.
type SantizableDependencyTagChecker func(tag blueprint.DependencyTag) bool
// Snapshottable defines those functions necessary for handling module snapshots.
type Snapshottable interface {
// SnapshotHeaders returns a list of header paths provided by this module.
SnapshotHeaders() android.Paths
// ExcludeFromVendorSnapshot returns true if this module should be otherwise excluded from the vendor snapshot.
ExcludeFromVendorSnapshot() bool
// ExcludeFromRecoverySnapshot returns true if this module should be otherwise excluded from the recovery snapshot.
ExcludeFromRecoverySnapshot() bool
// SnapshotLibrary returns true if this module is a snapshot library.
IsSnapshotLibrary() bool
// SnapshotRuntimeLibs returns a list of libraries needed by this module at runtime but which aren't build dependencies.
SnapshotRuntimeLibs() []string
// SnapshotSharedLibs returns the list of shared library dependencies for this module.
SnapshotSharedLibs() []string
// IsSnapshotPrebuilt returns true if this module is a snapshot prebuilt.
IsSnapshotPrebuilt() bool
}
// LinkableInterface is an interface for a type of module that is linkable in a C++ library.
type LinkableInterface interface {
android.Module
Snapshottable
Module() android.Module
CcLibrary() bool
CcLibraryInterface() bool
// BaseModuleName returns the android.ModuleBase.BaseModuleName() value for this module.
BaseModuleName() string
OutputFile() android.OptionalPath
CoverageFiles() android.Paths
NonCcVariants() bool
SelectedStl() string
BuildStaticVariant() bool
BuildSharedVariant() bool
SetStatic()
SetShared()
IsPrebuilt() bool
Toc() android.OptionalPath
Host() bool
InRamdisk() bool
OnlyInRamdisk() bool
InVendorRamdisk() bool
OnlyInVendorRamdisk() bool
InRecovery() bool
OnlyInRecovery() bool
InVendor() bool
UseSdk() bool
// IsLlndk returns true for both LLNDK (public) and LLNDK-private libs.
IsLlndk() bool
// IsLlndkPublic returns true only for LLNDK (public) libs.
IsLlndkPublic() bool
// HasLlndkStubs returns true if this library has a variant that will build LLNDK stubs.
HasLlndkStubs() bool
// NeedsLlndkVariants returns true if this module has LLNDK stubs or provides LLNDK headers.
NeedsLlndkVariants() bool
// NeedsVendorPublicLibraryVariants returns true if this module has vendor public library stubs.
NeedsVendorPublicLibraryVariants() bool
//StubsVersion returns the stubs version for this module.
StubsVersion() string
// UseVndk 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.
UseVndk() bool
// IsVndkSp returns true if this is a VNDK-SP module.
IsVndkSp() bool
MustUseVendorVariant() bool
IsVndk() bool
IsVndkExt() bool
IsVndkPrivate() bool
HasVendorVariant() bool
HasProductVariant() bool
HasNonSystemVariants() bool
InProduct() bool
// SubName returns the modules SubName, used for image and NDK/SDK variations.
SubName() string
SdkVersion() string
Versioned CRT objects are built with correct __ANDROID_API__ Background: `min_sdk_version` of a crt object is the oldest SDK version that the crt object supports. When it's set to for example 16, Soong creates a number of versioned variants of the crt object starting from 16 to the latest version. The variant for version X is provided to NDK clients having `min_sdk_version` set to X. Problem: all versioned variants of a crt object were built with `-target <arch>-linux-android16`. Therefore they all have been with `#define __ANDROID_API__ 16`. This is because the mutated variants still have the same min_sdk_version property and the clang triple follows min_sdk_version, not sdk_version. This is too conservative and against our intention to provide the latest crt object that matches with the min_sdk_version of the client. In the other hand, the platform(non-sdk) variant of the crt object doesn't have such a problem. min_sdk_version is completely ignored. However, this is a bug and will be fixed by aosp/1640364. As a side effect of the fixing, the platform variant will begin to built with a very old __ANDROID_API__ which unnecessarily turns off the new platform features like the TLS segment over-alignment. This change fixes the problems: * For the versioned variants of crt objects, we set both `min_sdk_version` and `sdk_versio` to the version that the variant is created for. * For the platform variant of crt objects, `min_sdk_version` is force reset to "current". Bug: 183191008 Test: m Change-Id: I8c9d0fcea816de8cd1532dac4a47eee4f726c037
2021-03-19 14:18:04 +01:00
MinSdkVersion() string
AlwaysSdk() bool
Don't create version variants for SDK variants When a lib has sdk_version set, an SDK variant and a platform variant are created by the sdkMutator. Then by the versionMutator, if the library had 'stubs.versions' property, one or more versioned variants and one impl variant are created for each of the two (SDK and platform) variants. As a concrete example, cc_library { name: "foo", sdk_version: "current", stubs: { versions: ["1", "2"], }, } would create 6 variants: 1) (sdk: "", version: "") 2) (sdk: "", version: "1") 3) (sdk: "", version: "2") 4) (sdk: "sdk", version: "") 5) (sdk: "sdk", version: "1") 6) (sdk: "sdk", version: "2") This is somewhat uncessary because the need for the SDK mutator is to have the platform variant (sdk:"") of a lib where sdk_version is unset, which actually makes sens for the impl variant (version:""), but not the versioned variants (version:"1" or version:"2"). This is not only unncessary, but also causes duplicate module definitions in the Make side when doing an unbundled build. Specifically, The #1 and #4 above both are emitted to Make and get the same name "foo". To fix the problem and not to create unnecessary variants, the versioned variants are no longer created for the sdk variant. So, foo now has the following variants only. 1) (sdk: "", version: "") // not emitted to Make (by versionMutator) 2) (sdk: "", version: "1") // not emitted to Make (by versionMutator) 3) (sdk: "", version: "2") // emitted to Make (by versionMutator) 4) (sdk: "sdk", version: "") // not emitted to Make (by versionMutator) Bug: 159106705 Test: Add sdk_version:"minimum" to libnativehelper in libnativehelper/Android.bp. m SOONG_ALLOW_MISSING_DEPENDENCIES=true TARGET_BUILD_UNBUNDLED=true libnativehelper Change-Id: I6f02f4189e5504286174ccff1642166da82d00c9
2020-06-16 14:58:53 +02:00
IsSdkVariant() bool
SplitPerApiLevel() bool
// SetPreventInstall sets the PreventInstall property to 'true' for this module.
SetPreventInstall()
// SetHideFromMake sets the HideFromMake property to 'true' for this module.
SetHideFromMake()
// KernelHeadersDecorator returns true if this is a kernel headers decorator module.
// This is specific to cc and should always return false for all other packages.
KernelHeadersDecorator() bool
// HiddenFromMake returns true if this module is hidden from Make.
HiddenFromMake() bool
// RelativeInstallPath returns the relative install path for this module.
RelativeInstallPath() string
// Binary returns true if this is a binary module.
Binary() bool
// Object returns true if this is an object module.
Object() bool
// Rlib returns true if this is an rlib module.
Rlib() bool
// Dylib returns true if this is an dylib module.
Dylib() bool
// Static returns true if this is a static library module.
Static() bool
// Shared returns true if this is a shared library module.
Shared() bool
// Header returns true if this is a library headers module.
Header() bool
// EverInstallable returns true if the module is ever installable
EverInstallable() bool
// PreventInstall returns true if this module is prevented from installation.
PreventInstall() bool
// InstallInData returns true if this module is installed in data.
InstallInData() bool
// Installable returns a bool pointer to the module installable property.
Installable() *bool
// Symlinks returns a list of symlinks that should be created for this module.
Symlinks() []string
// VndkVersion returns the VNDK version string for this module.
VndkVersion() string
}
var (
// Dependency tag for crtbegin, an object file responsible for initialization.
CrtBeginDepTag = dependencyTag{name: "crtbegin"}
// Dependency tag for crtend, an object file responsible for program termination.
CrtEndDepTag = dependencyTag{name: "crtend"}
// Dependency tag for coverage library.
CoverageDepTag = dependencyTag{name: "coverage"}
)
// GetImageVariantType returns the ImageVariantType string value for the given module
// (these are defined in cc/image.go).
func GetImageVariantType(c LinkableInterface) ImageVariantType {
if c.Host() {
return hostImageVariant
} else if c.InVendor() {
return vendorImageVariant
} else if c.InProduct() {
return productImageVariant
} else if c.InRamdisk() {
return ramdiskImageVariant
} else if c.InVendorRamdisk() {
return vendorRamdiskImageVariant
} else if c.InRecovery() {
return recoveryImageVariant
} else {
return coreImageVariant
}
}
// DepTagMakeSuffix returns the makeSuffix value of a particular library dependency tag.
// Returns an empty string if not a library dependency tag.
func DepTagMakeSuffix(depTag blueprint.DependencyTag) string {
if libDepTag, ok := depTag.(libraryDependencyTag); ok {
return libDepTag.makeSuffix
}
return ""
}
// SharedDepTag returns the dependency tag for any C++ shared libraries.
func SharedDepTag() blueprint.DependencyTag {
return libraryDependencyTag{Kind: sharedLibraryDependency}
}
// StaticDepTag returns the dependency tag for any C++ static libraries.
func StaticDepTag(wholeStatic bool) blueprint.DependencyTag {
return libraryDependencyTag{Kind: staticLibraryDependency, wholeStatic: wholeStatic}
}
// IsWholeStaticLib whether a dependency tag is a whole static library dependency.
func IsWholeStaticLib(depTag blueprint.DependencyTag) bool {
if tag, ok := depTag.(libraryDependencyTag); ok {
return tag.wholeStatic
}
return false
}
// HeaderDepTag returns the dependency tag for any C++ "header-only" libraries.
func HeaderDepTag() blueprint.DependencyTag {
return libraryDependencyTag{Kind: headerLibraryDependency}
}
// SharedLibraryInfo is a provider to propagate information about a shared C++ library.
type SharedLibraryInfo struct {
SharedLibrary android.Path
Target android.Target
TableOfContents android.OptionalPath
// should be obtained from static analogue
TransitiveStaticLibrariesForOrdering *android.DepSet
}
var SharedLibraryInfoProvider = blueprint.NewProvider(SharedLibraryInfo{})
// SharedStubLibrary is a struct containing information about a stub shared library.
// Stub libraries are used for cross-APEX dependencies; when a library is to depend on a shared
// library in another APEX, it must depend on the stub version of that library.
type SharedStubLibrary struct {
// The version of the stub (corresponding to the stable version of the shared library being
// stubbed).
Version string
SharedLibraryInfo SharedLibraryInfo
FlagExporterInfo FlagExporterInfo
}
// SharedLibraryStubsInfo is a provider to propagate information about all shared library stubs
// which are dependencies of a library.
// Stub libraries are used for cross-APEX dependencies; when a library is to depend on a shared
// library in another APEX, it must depend on the stub version of that library.
type SharedLibraryStubsInfo struct {
SharedStubLibraries []SharedStubLibrary
IsLLNDK bool
}
var SharedLibraryStubsProvider = blueprint.NewProvider(SharedLibraryStubsInfo{})
// StaticLibraryInfo is a provider to propagate information about a static C++ library.
type StaticLibraryInfo struct {
StaticLibrary android.Path
Objects Objects
ReuseObjects Objects
// This isn't the actual transitive DepSet, shared library dependencies have been
// converted into static library analogues. It is only used to order the static
// library dependencies that were specified for the current module.
TransitiveStaticLibrariesForOrdering *android.DepSet
}
var StaticLibraryInfoProvider = blueprint.NewProvider(StaticLibraryInfo{})
// HeaderLibraryInfo is a marker provider that identifies a module as a header library.
type HeaderLibraryInfo struct {
}
// HeaderLibraryInfoProvider is a marker provider that identifies a module as a header library.
var HeaderLibraryInfoProvider = blueprint.NewProvider(HeaderLibraryInfo{})
// FlagExporterInfo is a provider to propagate transitive library information
// pertaining to exported include paths and flags.
type FlagExporterInfo struct {
IncludeDirs android.Paths // Include directories to be included with -I
SystemIncludeDirs android.Paths // System include directories to be included with -isystem
Flags []string // Exported raw flags.
Deps android.Paths
GeneratedHeaders android.Paths
}
var FlagExporterInfoProvider = blueprint.NewProvider(FlagExporterInfo{})
// flagExporterInfoFromCcInfo populates FlagExporterInfo provider with information from Bazel.
func flagExporterInfoFromCcInfo(ctx android.ModuleContext, ccInfo cquery.CcInfo) FlagExporterInfo {
includes := android.PathsForBazelOut(ctx, ccInfo.Includes)
systemIncludes := android.PathsForBazelOut(ctx, ccInfo.SystemIncludes)
return FlagExporterInfo{
IncludeDirs: android.FirstUniquePaths(includes),
SystemIncludeDirs: android.FirstUniquePaths(systemIncludes),
}
}