android/deapexer.go - android_build_soong - Gitiles

 // Copyright (C) 2021 The Android Open Source Project
 //
 // 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 android

 import (
 	"fmt"
 	"strings"

 	"github.com/google/blueprint"
 )

 // Provides support for interacting with the `deapexer` module to which a `prebuilt_apex` module
 // will delegate the work to export files from a prebuilt '.apex` file.
 //
 // The actual processing that is done is quite convoluted but it is all about combining information
 // from multiple different sources in order to allow a prebuilt module to use a file extracted from
 // an apex file. As follows:
 //
 // 1. A prebuilt module, e.g. prebuilt_bootclasspath_fragment or java_import needs to use a file
 //    from a prebuilt_apex/apex_set. It knows the path of the file within the apex but does not know
 //    where the apex file is or what apex to use.
 //
 // 2. The connection between the prebuilt module and the prebuilt_apex/apex_set is created through
 //    use of an exported_... property on the latter. That causes four things to occur:
 //    a. A `deapexer` mopdule is created by the prebuilt_apex/apex_set to extract files from the
 //       apex file.
 //    b. A dependency is added from the prebuilt_apex/apex_set modules onto the prebuilt modules
 //       listed in those properties.
 //    c. An APEX variant is created for each of those prebuilt modules.
 //    d. A dependency is added from the prebuilt modules to the `deapexer` module.
 //
 // 3. The prebuilt_apex/apex_set modules do not know which files are available in the apex file.
 //    That information could be specified on the prebuilt_apex/apex_set modules but without
 //    automated generation of those modules it would be expensive to maintain. So, instead they
 //    obtain that information from the prebuilt modules. They do not know what files are actually in
 //    the apex file either but they know what files they need from it. So, the
 //    prebuilt_apex/apex_set modules obtain the files that should be in the apex file from those
 //    modules and then pass those onto the `deapexer` module.
 //
 // 4. The `deapexer` module's ninja rule extracts all the files from the apex file into an output
 //    directory and checks that all the expected files are there. The expected files are declared as
 //    the outputs of the ninja rule so they are available to other modules.
 //
 // 5. The prebuilt modules then retrieve the paths to the files that they needed from the `deapexer`
 //    module.
 //
 // The files that are passed to `deapexer` and those that are passed back have a unique identifier
 // that links them together. e.g. If the `deapexer` is passed something like this:
 //     javalib/core-libart.jar -> javalib/core-libart.jar
 // it will return something like this:
 //     javalib/core-libart.jar -> out/soong/.....deapexer.../javalib/core-libart.jar
 //
 // The reason why the `deapexer` module is separate from the prebuilt_apex/apex_set is to avoid
 // cycles. e.g.
 //   prebuilt_apex "com.android.art" depends upon java_import "core-libart":
 //       This is so it can create an APEX variant of the latter and obtain information about the
 //       files that it needs from the apex file.
 //   java_import "core-libart" depends upon `deapexer` module:
 //       This is so it can retrieve the paths to the files it needs.

 // The information exported by the `deapexer` module, access it using `DeapxerInfoProvider`.
 type DeapexerInfo struct {
 	apexModuleName string

 	// map from the name of an exported file from a prebuilt_apex to the path to that file. The
 	// exported file name is the apex relative path, e.g. javalib/core-libart.jar.
 	//
 	// See Prebuilt.ApexInfoMutator for more information.
 	exports map[string]WritablePath

 	// name of the java libraries exported from the apex
 	// e.g. core-libart
 	exportedModuleNames []string

 	// name of the java libraries exported from the apex that should be dexpreopt'd with the .prof
 	// file embedded in the apex
 	dexpreoptProfileGuidedExportedModuleNames []string
 }

 // ApexModuleName returns the name of the APEX module that provided the info.
 func (i DeapexerInfo) ApexModuleName() string {
 	return i.apexModuleName
 }

 // PrebuiltExportPath provides the path, or nil if not available, of a file exported from the
 // prebuilt_apex that created this ApexInfo.
 //
 // The exported file is identified by the apex relative path, e.g. "javalib/core-libart.jar".
 //
 // See apex/deapexer.go for more information.
 func (i DeapexerInfo) PrebuiltExportPath(apexRelativePath string) WritablePath {
 	path := i.exports[apexRelativePath]
 	return path
 }

 func (i DeapexerInfo) GetExportedModuleNames() []string {
 	return i.exportedModuleNames
 }

 // Provider that can be used from within the `GenerateAndroidBuildActions` of a module that depends
 // on a `deapexer` module to retrieve its `DeapexerInfo`.
 var DeapexerProvider = blueprint.NewProvider[DeapexerInfo]()

 // NewDeapexerInfo creates and initializes a DeapexerInfo that is suitable
 // for use with a prebuilt_apex module.
 //
 // See apex/deapexer.go for more information.
 func NewDeapexerInfo(apexModuleName string, exports map[string]WritablePath, moduleNames []string) DeapexerInfo {
 	return DeapexerInfo{
 		apexModuleName:      apexModuleName,
 		exports:             exports,
 		exportedModuleNames: moduleNames,
 	}
 }

 func (i *DeapexerInfo) GetDexpreoptProfileGuidedExportedModuleNames() []string {
 	return i.dexpreoptProfileGuidedExportedModuleNames
 }

 func (i *DeapexerInfo) AddDexpreoptProfileGuidedExportedModuleNames(names ...string) {
 	i.dexpreoptProfileGuidedExportedModuleNames = append(i.dexpreoptProfileGuidedExportedModuleNames, names...)
 }

 type deapexerTagStruct struct {
 	blueprint.BaseDependencyTag
 }

 // Mark this tag so dependencies that use it are excluded from APEX contents.
 func (t deapexerTagStruct) ExcludeFromApexContents() {}

 var _ ExcludeFromApexContentsTag = DeapexerTag

 // A tag that is used for dependencies on the `deapexer` module.
 var DeapexerTag = deapexerTagStruct{}

 // RequiredFilesFromPrebuiltApex must be implemented by modules that require files to be exported
 // from a prebuilt_apex/apex_set.
 type RequiredFilesFromPrebuiltApex interface {
 	// RequiredFilesFromPrebuiltApex returns a list of the file paths (relative to the root of the
 	// APEX's contents) that the implementing module requires from within a prebuilt .apex file.
 	//
 	// For each file path this will cause the file to be extracted out of the prebuilt .apex file, and
 	// the path to the extracted file will be stored in the DeapexerInfo using the APEX relative file
 	// path as the key, The path can then be retrieved using the PrebuiltExportPath(key) method.
 	RequiredFilesFromPrebuiltApex(ctx BaseModuleContext) []string

 	// Returns true if a transitive dependency of an apex should use a .prof file to guide dexpreopt
 	UseProfileGuidedDexpreopt() bool
 }

 // Marker interface that identifies dependencies on modules that may require files from a prebuilt
 // apex.
 type RequiresFilesFromPrebuiltApexTag interface {
 	blueprint.DependencyTag

 	// Method that differentiates this interface from others.
 	RequiresFilesFromPrebuiltApex()
 }

 // FindDeapexerProviderForModule searches through the direct dependencies of the current context
 // module for a DeapexerTag dependency and returns its DeapexerInfo. If a single nonambiguous
 // deapexer module isn't found then it returns it an error
 // clients should check the value of error and call ctx.ModuleErrof if a non nil error is received
 func FindDeapexerProviderForModule(ctx ModuleContext) (*DeapexerInfo, error) {
 	var di *DeapexerInfo
 	var err error
 	ctx.VisitDirectDepsWithTag(DeapexerTag, func(m Module) {
 		if err != nil {
 			// An err has been found. Do not visit further.
 			return
 		}
 		c, _ := OtherModuleProvider(ctx, m, DeapexerProvider)
 		p := &c
 		if di != nil {
 			// If two DeapexerInfo providers have been found then check if they are
 			// equivalent. If they are then use the selected one, otherwise fail.
 			if selected := equivalentDeapexerInfoProviders(di, p); selected != nil {
 				di = selected
 				return
 			}
 			err = fmt.Errorf("Multiple installable prebuilt APEXes provide ambiguous deapexers: %s and %s", di.ApexModuleName(), p.ApexModuleName())
 		}
 		di = p
 	})
 	if err != nil {
 		return nil, err
 	}
 	if di != nil {
 		return di, nil
 	}
 	ai, _ := ModuleProvider(ctx, ApexInfoProvider)
 	return nil, fmt.Errorf("No prebuilt APEX provides a deapexer module for APEX variant %s", ai.ApexVariationName)
 }

 // removeCompressedApexSuffix removes the _compressed suffix from the name if present.
 func removeCompressedApexSuffix(name string) string {
 	return strings.TrimSuffix(name, "_compressed")
 }

 // equivalentDeapexerInfoProviders checks to make sure that the two DeapexerInfo structures are
 // equivalent.
 //
 // At the moment <x> and <x>_compressed APEXes are treated as being equivalent.
 //
 // If they are not equivalent then this returns nil, otherwise, this returns the DeapexerInfo that
 // should be used by the build, which is always the uncompressed one. That ensures that the behavior
 // of the build is not dependent on which prebuilt APEX is visited first.
 func equivalentDeapexerInfoProviders(p1 *DeapexerInfo, p2 *DeapexerInfo) *DeapexerInfo {
 	n1 := removeCompressedApexSuffix(p1.ApexModuleName())
 	n2 := removeCompressedApexSuffix(p2.ApexModuleName())

 	// If the names don't match then they are not equivalent.
 	if n1 != n2 {
 		return nil
 	}

 	// Select the uncompressed APEX.
 	if n1 == removeCompressedApexSuffix(n1) {
 		return p1
 	} else {
 		return p2
 	}
 }
	// Copyright (C) 2021 The Android Open Source Project
	//
	// 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 android

	import (
	"fmt"
	"strings"

	"github.com/google/blueprint"
	)

	// Provides support for interacting with the `deapexer` module to which a `prebuilt_apex` module
	// will delegate the work to export files from a prebuilt '.apex` file.
	//
	// The actual processing that is done is quite convoluted but it is all about combining information
	// from multiple different sources in order to allow a prebuilt module to use a file extracted from
	// an apex file. As follows:
	//
	// 1. A prebuilt module, e.g. prebuilt_bootclasspath_fragment or java_import needs to use a file
	// from a prebuilt_apex/apex_set. It knows the path of the file within the apex but does not know
	// where the apex file is or what apex to use.
	//
	// 2. The connection between the prebuilt module and the prebuilt_apex/apex_set is created through
	// use of an exported_... property on the latter. That causes four things to occur:
	// a. A `deapexer` mopdule is created by the prebuilt_apex/apex_set to extract files from the
	// apex file.
	// b. A dependency is added from the prebuilt_apex/apex_set modules onto the prebuilt modules
	// listed in those properties.
	// c. An APEX variant is created for each of those prebuilt modules.
	// d. A dependency is added from the prebuilt modules to the `deapexer` module.
	//
	// 3. The prebuilt_apex/apex_set modules do not know which files are available in the apex file.
	// That information could be specified on the prebuilt_apex/apex_set modules but without
	// automated generation of those modules it would be expensive to maintain. So, instead they
	// obtain that information from the prebuilt modules. They do not know what files are actually in
	// the apex file either but they know what files they need from it. So, the
	// prebuilt_apex/apex_set modules obtain the files that should be in the apex file from those
	// modules and then pass those onto the `deapexer` module.
	//
	// 4. The `deapexer` module's ninja rule extracts all the files from the apex file into an output
	// directory and checks that all the expected files are there. The expected files are declared as
	// the outputs of the ninja rule so they are available to other modules.
	//
	// 5. The prebuilt modules then retrieve the paths to the files that they needed from the `deapexer`
	// module.
	//
	// The files that are passed to `deapexer` and those that are passed back have a unique identifier
	// that links them together. e.g. If the `deapexer` is passed something like this:
	// javalib/core-libart.jar -> javalib/core-libart.jar
	// it will return something like this:
	// javalib/core-libart.jar -> out/soong/.....deapexer.../javalib/core-libart.jar
	//
	// The reason why the `deapexer` module is separate from the prebuilt_apex/apex_set is to avoid
	// cycles. e.g.
	// prebuilt_apex "com.android.art" depends upon java_import "core-libart":
	// This is so it can create an APEX variant of the latter and obtain information about the
	// files that it needs from the apex file.
	// java_import "core-libart" depends upon `deapexer` module:
	// This is so it can retrieve the paths to the files it needs.

	// The information exported by the `deapexer` module, access it using `DeapxerInfoProvider`.
	type DeapexerInfo struct {
	apexModuleName string

	// map from the name of an exported file from a prebuilt_apex to the path to that file. The
	// exported file name is the apex relative path, e.g. javalib/core-libart.jar.
	//
	// See Prebuilt.ApexInfoMutator for more information.
	exports map[string]WritablePath

	// name of the java libraries exported from the apex
	// e.g. core-libart
	exportedModuleNames []string

	// name of the java libraries exported from the apex that should be dexpreopt'd with the .prof
	// file embedded in the apex
	dexpreoptProfileGuidedExportedModuleNames []string
	}

	// ApexModuleName returns the name of the APEX module that provided the info.
	func (i DeapexerInfo) ApexModuleName() string {
	return i.apexModuleName
	}

	// PrebuiltExportPath provides the path, or nil if not available, of a file exported from the
	// prebuilt_apex that created this ApexInfo.
	//
	// The exported file is identified by the apex relative path, e.g. "javalib/core-libart.jar".
	//
	// See apex/deapexer.go for more information.
	func (i DeapexerInfo) PrebuiltExportPath(apexRelativePath string) WritablePath {
	path := i.exports[apexRelativePath]
	return path
	}

	func (i DeapexerInfo) GetExportedModuleNames() []string {
	return i.exportedModuleNames
	}

	// Provider that can be used from within the `GenerateAndroidBuildActions` of a module that depends
	// on a `deapexer` module to retrieve its `DeapexerInfo`.
	var DeapexerProvider = blueprint.NewProvider[DeapexerInfo]()

	// NewDeapexerInfo creates and initializes a DeapexerInfo that is suitable
	// for use with a prebuilt_apex module.
	//
	// See apex/deapexer.go for more information.
	func NewDeapexerInfo(apexModuleName string, exports map[string]WritablePath, moduleNames []string) DeapexerInfo {
	return DeapexerInfo{
	apexModuleName: apexModuleName,
	exports: exports,
	exportedModuleNames: moduleNames,
	}
	}

	func (i *DeapexerInfo) GetDexpreoptProfileGuidedExportedModuleNames() []string {
	return i.dexpreoptProfileGuidedExportedModuleNames
	}

	func (i *DeapexerInfo) AddDexpreoptProfileGuidedExportedModuleNames(names ...string) {
	i.dexpreoptProfileGuidedExportedModuleNames = append(i.dexpreoptProfileGuidedExportedModuleNames, names...)
	}

	type deapexerTagStruct struct {
	blueprint.BaseDependencyTag
	}

	// Mark this tag so dependencies that use it are excluded from APEX contents.
	func (t deapexerTagStruct) ExcludeFromApexContents() {}

	var _ ExcludeFromApexContentsTag = DeapexerTag

	// A tag that is used for dependencies on the `deapexer` module.
	var DeapexerTag = deapexerTagStruct{}

	// RequiredFilesFromPrebuiltApex must be implemented by modules that require files to be exported
	// from a prebuilt_apex/apex_set.
	type RequiredFilesFromPrebuiltApex interface {
	// RequiredFilesFromPrebuiltApex returns a list of the file paths (relative to the root of the
	// APEX's contents) that the implementing module requires from within a prebuilt .apex file.
	//
	// For each file path this will cause the file to be extracted out of the prebuilt .apex file, and
	// the path to the extracted file will be stored in the DeapexerInfo using the APEX relative file
	// path as the key, The path can then be retrieved using the PrebuiltExportPath(key) method.
	RequiredFilesFromPrebuiltApex(ctx BaseModuleContext) []string

	// Returns true if a transitive dependency of an apex should use a .prof file to guide dexpreopt
	UseProfileGuidedDexpreopt() bool
	}

	// Marker interface that identifies dependencies on modules that may require files from a prebuilt
	// apex.
	type RequiresFilesFromPrebuiltApexTag interface {
	blueprint.DependencyTag

	// Method that differentiates this interface from others.
	RequiresFilesFromPrebuiltApex()
	}

	// FindDeapexerProviderForModule searches through the direct dependencies of the current context
	// module for a DeapexerTag dependency and returns its DeapexerInfo. If a single nonambiguous
	// deapexer module isn't found then it returns it an error
	// clients should check the value of error and call ctx.ModuleErrof if a non nil error is received
	func FindDeapexerProviderForModule(ctx ModuleContext) (*DeapexerInfo, error) {
	var di *DeapexerInfo
	var err error
	ctx.VisitDirectDepsWithTag(DeapexerTag, func(m Module) {
	if err != nil {
	// An err has been found. Do not visit further.
	return
	}
	c, _ := OtherModuleProvider(ctx, m, DeapexerProvider)
	p := &c
	if di != nil {
	// If two DeapexerInfo providers have been found then check if they are
	// equivalent. If they are then use the selected one, otherwise fail.
	if selected := equivalentDeapexerInfoProviders(di, p); selected != nil {
	di = selected
	return
	}
	err = fmt.Errorf("Multiple installable prebuilt APEXes provide ambiguous deapexers: %s and %s", di.ApexModuleName(), p.ApexModuleName())
	}
	di = p
	})
	if err != nil {
	return nil, err
	}
	if di != nil {
	return di, nil
	}
	ai, _ := ModuleProvider(ctx, ApexInfoProvider)
	return nil, fmt.Errorf("No prebuilt APEX provides a deapexer module for APEX variant %s", ai.ApexVariationName)
	}

	// removeCompressedApexSuffix removes the _compressed suffix from the name if present.
	func removeCompressedApexSuffix(name string) string {
	return strings.TrimSuffix(name, "_compressed")
	}

	// equivalentDeapexerInfoProviders checks to make sure that the two DeapexerInfo structures are
	// equivalent.
	//
	// At the moment <x> and <x>_compressed APEXes are treated as being equivalent.
	//
	// If they are not equivalent then this returns nil, otherwise, this returns the DeapexerInfo that
	// should be used by the build, which is always the uncompressed one. That ensures that the behavior
	// of the build is not dependent on which prebuilt APEX is visited first.
	func equivalentDeapexerInfoProviders(p1 DeapexerInfo, p2 DeapexerInfo) *DeapexerInfo {
	n1 := removeCompressedApexSuffix(p1.ApexModuleName())
	n2 := removeCompressedApexSuffix(p2.ApexModuleName())

	// If the names don't match then they are not equivalent.
	if n1 != n2 {
	return nil
	}

	// Select the uncompressed APEX.
	if n1 == removeCompressedApexSuffix(n1) {
	return p1
	} else {
	return p2
	}
	}