cc/ndk_sysroot.go - platform/build/soong - Git at Google

 // Copyright 2016 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

 // The platform needs to provide the following artifacts for the NDK:
 // 1. Bionic headers.
 // 2. Platform API headers.
 // 3. NDK stub shared libraries.
 // 4. Bionic static libraries.
 //
 // TODO(danalbert): All of the above need to include NOTICE files.
 //
 // Components 1 and 2: Headers
 // The bionic and platform API headers are generalized into a single
 // `ndk_headers` rule. This rule has a `from` property that indicates a base
 // directory from which headers are to be taken, and a `to` property that
 // indicates where in the sysroot they should reside relative to usr/include.
 // There is also a `srcs` property that is glob compatible for specifying which
 // headers to include.
 //
 // Component 3: Stub Libraries
 // The shared libraries in the NDK are not the actual shared libraries they
 // refer to (to prevent people from accidentally loading them), but stub
 // libraries with placeholder implementations of everything for use at build time
 // only.
 //
 // Since we don't actually need to know anything about the stub libraries aside
 // from a list of functions and globals to be exposed, we can create these for
 // every platform level in the current tree. This is handled by the
 // ndk_library rule.
 //
 // Component 4: Static Libraries
 // The NDK only provides static libraries for bionic, not the platform APIs.
 // Since these need to be the actual implementation, we can't build old versions
 // in the current platform tree. As such, legacy versions are checked in
 // prebuilt to development/ndk, and a current version is built and archived as
 // part of the platform build. The platfrom already builds these libraries, our
 // NDK build rules only need to archive them for retrieval so they can be added
 // to the prebuilts.
 //
 // TODO(danalbert): Write `ndk_static_library` rule.

 import (
 	"android/soong/android"
 	"strings"
 )

 func init() {
 	RegisterNdkModuleTypes(android.InitRegistrationContext)
 }

 func RegisterNdkModuleTypes(ctx android.RegistrationContext) {
 	ctx.RegisterModuleType("ndk_headers", NdkHeadersFactory)
 	ctx.RegisterModuleType("ndk_library", NdkLibraryFactory)
 	ctx.RegisterModuleType("versioned_ndk_headers", VersionedNdkHeadersFactory)
 	ctx.RegisterModuleType("preprocessed_ndk_headers", preprocessedNdkHeadersFactory)
 	ctx.RegisterParallelSingletonType("ndk", NdkSingleton)
 }

 func getNdkInstallBase(ctx android.PathContext) android.OutputPath {
 	return android.PathForNdkInstall(ctx)
 }

 // Returns the main install directory for the NDK sysroot. Usable with --sysroot.
 func getNdkSysrootBase(ctx android.PathContext) android.OutputPath {
 	return getNdkInstallBase(ctx).Join(ctx, "sysroot")
 }

 // The base timestamp file depends on the NDK headers and stub shared libraries,
 // but not the static libraries. This distinction is needed because the static
 // libraries themselves might need to depend on the base sysroot.
 func getNdkBaseTimestampFile(ctx android.PathContext) android.WritablePath {
 	return android.PathForOutput(ctx, "ndk_base.timestamp")
 }

 // The headers timestamp file depends only on the NDK headers.
 // This is used mainly for .tidy files that do not need any stub libraries.
 func getNdkHeadersTimestampFile(ctx android.PathContext) android.WritablePath {
 	return android.PathForOutput(ctx, "ndk_headers.timestamp")
 }

 // The full timestamp file depends on the base timestamp *and* the static
 // libraries.
 func getNdkFullTimestampFile(ctx android.PathContext) android.WritablePath {
 	return android.PathForOutput(ctx, "ndk.timestamp")
 }

 // The list of all NDK headers as they are located in the repo.
 // Used for ABI monitoring to track only structures defined in NDK headers.
 func getNdkABIHeadersFile(ctx android.PathContext) android.WritablePath {
 	return android.PathForOutput(ctx, "ndk_abi_headers.txt")
 }

 func NdkSingleton() android.Singleton {
 	return &ndkSingleton{}
 }

 // Collect all NDK exported headers paths into a file that is used to
 // detect public types that should be ABI monitored.
 //
 // Assume that we have the following code in exported header:
 //
 //	typedef struct Context Context;
 //	typedef struct Output {
 //	    ...
 //	} Output;
 //	void DoSomething(Context* ctx, Output* output);
 //
 // If none of public headers exported to end-users contain definition of
 // "struct Context", then "struct Context" layout and members shouldn't be
 // monitored. However we use DWARF information from a real library, which
 // may have access to the definition of "string Context" from
 // implementation headers, and it will leak to ABI.
 //
 // STG tool doesn't access source and header files, only DWARF information
 // from compiled library. And the DWARF contains file name where a type is
 // defined. So we need a rule to build a list of paths to public headers,
 // so STG can distinguish private types from public and do not monitor
 // private types that are not accessible to library users.
 func writeNdkAbiSrcFilter(ctx android.BuilderContext,
 	headerSrcPaths android.Paths, outputFile android.WritablePath) {
 	var filterBuilder strings.Builder
 	filterBuilder.WriteString("[decl_file_allowlist]\n")
 	for _, headerSrcPath := range headerSrcPaths {
 		filterBuilder.WriteString(headerSrcPath.String())
 		filterBuilder.WriteString("\n")
 	}

 	android.WriteFileRule(ctx, outputFile, filterBuilder.String())
 }

 type ndkSingleton struct{}

 func (n *ndkSingleton) GenerateBuildActions(ctx android.SingletonContext) {
 	var staticLibInstallPaths android.Paths
 	var headerSrcPaths android.Paths
 	var headerInstallPaths android.Paths
 	var installPaths android.Paths
 	var licensePaths android.Paths
 	ctx.VisitAllModules(func(module android.Module) {
 		if m, ok := module.(android.Module); ok && !m.Enabled(ctx) {
 			return
 		}

 		if m, ok := module.(*headerModule); ok {
 			headerSrcPaths = append(headerSrcPaths, m.srcPaths...)
 			headerInstallPaths = append(headerInstallPaths, m.installPaths...)
 			installPaths = append(installPaths, m.installPaths...)
 			licensePaths = append(licensePaths, m.licensePath)
 		}

 		if m, ok := module.(*versionedHeaderModule); ok {
 			headerSrcPaths = append(headerSrcPaths, m.srcPaths...)
 			headerInstallPaths = append(headerInstallPaths, m.installPaths...)
 			installPaths = append(installPaths, m.installPaths...)
 			licensePaths = append(licensePaths, m.licensePath)
 		}

 		if m, ok := module.(*preprocessedHeadersModule); ok {
 			headerSrcPaths = append(headerSrcPaths, m.srcPaths...)
 			headerInstallPaths = append(headerInstallPaths, m.installPaths...)
 			installPaths = append(installPaths, m.installPaths...)
 			licensePaths = append(licensePaths, m.licensePath)
 		}

 		if m, ok := module.(*Module); ok {
 			if installer, ok := m.installer.(*stubDecorator); ok && m.library.buildStubs() {
 				installPaths = append(installPaths, installer.installPath)
 			}

 			if library, ok := m.linker.(*libraryDecorator); ok {
 				if library.ndkSysrootPath != nil {
 					staticLibInstallPaths = append(
 						staticLibInstallPaths, library.ndkSysrootPath)
 				}
 			}

 			if object, ok := m.linker.(*objectLinker); ok {
 				if object.ndkSysrootPath != nil {
 					staticLibInstallPaths = append(
 						staticLibInstallPaths, object.ndkSysrootPath)
 				}
 			}
 		}
 	})

 	// Include only a single copy of each license file. The Bionic NOTICE is
 	// long and is referenced by multiple Bionic modules.
 	licensePaths = android.FirstUniquePaths(licensePaths)

 	combinedLicense := getNdkInstallBase(ctx).Join(ctx, "NOTICE")
 	ctx.Build(pctx, android.BuildParams{
 		Rule:        android.Cat,
 		Description: "combine licenses",
 		Output:      combinedLicense,
 		Inputs:      licensePaths,
 	})

 	baseDepPaths := append(installPaths, combinedLicense)

 	ctx.Build(pctx, android.BuildParams{
 		Rule:       android.Touch,
 		Output:     getNdkBaseTimestampFile(ctx),
 		Implicits:  baseDepPaths,
 		Validation: getNdkAbiDiffTimestampFile(ctx),
 	})

 	ctx.Build(pctx, android.BuildParams{
 		Rule:      android.Touch,
 		Output:    getNdkHeadersTimestampFile(ctx),
 		Implicits: headerInstallPaths,
 	})

 	writeNdkAbiSrcFilter(ctx, headerSrcPaths, getNdkABIHeadersFile(ctx))

 	fullDepPaths := append(staticLibInstallPaths, getNdkBaseTimestampFile(ctx))

 	// There's a phony "ndk" rule defined in core/main.mk that depends on this.
 	// `m ndk` will build the sysroots for the architectures in the current
 	// lunch target. `build/soong/scripts/build-ndk-prebuilts.sh` will build the
 	// sysroots for all the NDK architectures and package them so they can be
 	// imported into the NDK's build.
 	ctx.Build(pctx, android.BuildParams{
 		Rule:      android.Touch,
 		Output:    getNdkFullTimestampFile(ctx),
 		Implicits: fullDepPaths,
 	})
 }
	// Copyright 2016 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

	// The platform needs to provide the following artifacts for the NDK:
	// 1. Bionic headers.
	// 2. Platform API headers.
	// 3. NDK stub shared libraries.
	// 4. Bionic static libraries.
	//
	// TODO(danalbert): All of the above need to include NOTICE files.
	//
	// Components 1 and 2: Headers
	// The bionic and platform API headers are generalized into a single
	// `ndk_headers` rule. This rule has a `from` property that indicates a base
	// directory from which headers are to be taken, and a `to` property that
	// indicates where in the sysroot they should reside relative to usr/include.
	// There is also a `srcs` property that is glob compatible for specifying which
	// headers to include.
	//
	// Component 3: Stub Libraries
	// The shared libraries in the NDK are not the actual shared libraries they
	// refer to (to prevent people from accidentally loading them), but stub
	// libraries with placeholder implementations of everything for use at build time
	// only.
	//
	// Since we don't actually need to know anything about the stub libraries aside
	// from a list of functions and globals to be exposed, we can create these for
	// every platform level in the current tree. This is handled by the
	// ndk_library rule.
	//
	// Component 4: Static Libraries
	// The NDK only provides static libraries for bionic, not the platform APIs.
	// Since these need to be the actual implementation, we can't build old versions
	// in the current platform tree. As such, legacy versions are checked in
	// prebuilt to development/ndk, and a current version is built and archived as
	// part of the platform build. The platfrom already builds these libraries, our
	// NDK build rules only need to archive them for retrieval so they can be added
	// to the prebuilts.
	//
	// TODO(danalbert): Write `ndk_static_library` rule.

	import (
	"android/soong/android"
	"strings"
	)

	func init() {
	RegisterNdkModuleTypes(android.InitRegistrationContext)
	}

	func RegisterNdkModuleTypes(ctx android.RegistrationContext) {
	ctx.RegisterModuleType("ndk_headers", NdkHeadersFactory)
	ctx.RegisterModuleType("ndk_library", NdkLibraryFactory)
	ctx.RegisterModuleType("versioned_ndk_headers", VersionedNdkHeadersFactory)
	ctx.RegisterModuleType("preprocessed_ndk_headers", preprocessedNdkHeadersFactory)
	ctx.RegisterParallelSingletonType("ndk", NdkSingleton)
	}

	func getNdkInstallBase(ctx android.PathContext) android.OutputPath {
	return android.PathForNdkInstall(ctx)
	}

	// Returns the main install directory for the NDK sysroot. Usable with --sysroot.
	func getNdkSysrootBase(ctx android.PathContext) android.OutputPath {
	return getNdkInstallBase(ctx).Join(ctx, "sysroot")
	}

	// The base timestamp file depends on the NDK headers and stub shared libraries,
	// but not the static libraries. This distinction is needed because the static
	// libraries themselves might need to depend on the base sysroot.
	func getNdkBaseTimestampFile(ctx android.PathContext) android.WritablePath {
	return android.PathForOutput(ctx, "ndk_base.timestamp")
	}

	// The headers timestamp file depends only on the NDK headers.
	// This is used mainly for .tidy files that do not need any stub libraries.
	func getNdkHeadersTimestampFile(ctx android.PathContext) android.WritablePath {
	return android.PathForOutput(ctx, "ndk_headers.timestamp")
	}

	// The full timestamp file depends on the base timestamp and the static
	// libraries.
	func getNdkFullTimestampFile(ctx android.PathContext) android.WritablePath {
	return android.PathForOutput(ctx, "ndk.timestamp")
	}

	// The list of all NDK headers as they are located in the repo.
	// Used for ABI monitoring to track only structures defined in NDK headers.
	func getNdkABIHeadersFile(ctx android.PathContext) android.WritablePath {
	return android.PathForOutput(ctx, "ndk_abi_headers.txt")
	}

	func NdkSingleton() android.Singleton {
	return &ndkSingleton{}
	}

	// Collect all NDK exported headers paths into a file that is used to
	// detect public types that should be ABI monitored.
	//
	// Assume that we have the following code in exported header:
	//
	// typedef struct Context Context;
	// typedef struct Output {
	// ...
	// } Output;
	// void DoSomething(Context* ctx, Output* output);
	//
	// If none of public headers exported to end-users contain definition of
	// "struct Context", then "struct Context" layout and members shouldn't be
	// monitored. However we use DWARF information from a real library, which
	// may have access to the definition of "string Context" from
	// implementation headers, and it will leak to ABI.
	//
	// STG tool doesn't access source and header files, only DWARF information
	// from compiled library. And the DWARF contains file name where a type is
	// defined. So we need a rule to build a list of paths to public headers,
	// so STG can distinguish private types from public and do not monitor
	// private types that are not accessible to library users.
	func writeNdkAbiSrcFilter(ctx android.BuilderContext,
	headerSrcPaths android.Paths, outputFile android.WritablePath) {
	var filterBuilder strings.Builder
	filterBuilder.WriteString("[decl_file_allowlist]\n")
	for _, headerSrcPath := range headerSrcPaths {
	filterBuilder.WriteString(headerSrcPath.String())
	filterBuilder.WriteString("\n")
	}

	android.WriteFileRule(ctx, outputFile, filterBuilder.String())
	}

	type ndkSingleton struct{}

	func (n *ndkSingleton) GenerateBuildActions(ctx android.SingletonContext) {
	var staticLibInstallPaths android.Paths
	var headerSrcPaths android.Paths
	var headerInstallPaths android.Paths
	var installPaths android.Paths
	var licensePaths android.Paths
	ctx.VisitAllModules(func(module android.Module) {
	if m, ok := module.(android.Module); ok && !m.Enabled(ctx) {
	return
	}

	if m, ok := module.(*headerModule); ok {
	headerSrcPaths = append(headerSrcPaths, m.srcPaths...)
	headerInstallPaths = append(headerInstallPaths, m.installPaths...)
	installPaths = append(installPaths, m.installPaths...)
	licensePaths = append(licensePaths, m.licensePath)
	}

	if m, ok := module.(*versionedHeaderModule); ok {
	headerSrcPaths = append(headerSrcPaths, m.srcPaths...)
	headerInstallPaths = append(headerInstallPaths, m.installPaths...)
	installPaths = append(installPaths, m.installPaths...)
	licensePaths = append(licensePaths, m.licensePath)
	}

	if m, ok := module.(*preprocessedHeadersModule); ok {
	headerSrcPaths = append(headerSrcPaths, m.srcPaths...)
	headerInstallPaths = append(headerInstallPaths, m.installPaths...)
	installPaths = append(installPaths, m.installPaths...)
	licensePaths = append(licensePaths, m.licensePath)
	}

	if m, ok := module.(*Module); ok {
	if installer, ok := m.installer.(*stubDecorator); ok && m.library.buildStubs() {
	installPaths = append(installPaths, installer.installPath)
	}

	if library, ok := m.linker.(*libraryDecorator); ok {
	if library.ndkSysrootPath != nil {
	staticLibInstallPaths = append(
	staticLibInstallPaths, library.ndkSysrootPath)
	}
	}

	if object, ok := m.linker.(*objectLinker); ok {
	if object.ndkSysrootPath != nil {
	staticLibInstallPaths = append(
	staticLibInstallPaths, object.ndkSysrootPath)
	}
	}
	}
	})

	// Include only a single copy of each license file. The Bionic NOTICE is
	// long and is referenced by multiple Bionic modules.
	licensePaths = android.FirstUniquePaths(licensePaths)

	combinedLicense := getNdkInstallBase(ctx).Join(ctx, "NOTICE")
	ctx.Build(pctx, android.BuildParams{
	Rule: android.Cat,
	Description: "combine licenses",
	Output: combinedLicense,
	Inputs: licensePaths,
	})

	baseDepPaths := append(installPaths, combinedLicense)

	ctx.Build(pctx, android.BuildParams{
	Rule: android.Touch,
	Output: getNdkBaseTimestampFile(ctx),
	Implicits: baseDepPaths,
	Validation: getNdkAbiDiffTimestampFile(ctx),
	})

	ctx.Build(pctx, android.BuildParams{
	Rule: android.Touch,
	Output: getNdkHeadersTimestampFile(ctx),
	Implicits: headerInstallPaths,
	})

	writeNdkAbiSrcFilter(ctx, headerSrcPaths, getNdkABIHeadersFile(ctx))

	fullDepPaths := append(staticLibInstallPaths, getNdkBaseTimestampFile(ctx))

	// There's a phony "ndk" rule defined in core/main.mk that depends on this.
	// `m ndk` will build the sysroots for the architectures in the current
	// lunch target. `build/soong/scripts/build-ndk-prebuilts.sh` will build the
	// sysroots for all the NDK architectures and package them so they can be
	// imported into the NDK's build.
	ctx.Build(pctx, android.BuildParams{
	Rule: android.Touch,
	Output: getNdkFullTimestampFile(ctx),
	Implicits: fullDepPaths,
	})
	}