platform_build_soong/android/deapexer.go
Paul Duffin 5556c5f17a Treat <x> and <x>_compressed prebuilt APEXes as being equivalent
(cherry picked from commit 1aa50564c7)

When extracting dex files from prebuilt APEXes the build fails if it
finds two or more prebuilt APEXes that could provide the dex files.
This change treats <x> and <x>_compressed APEXes as being the same
and always selects the uncompressed APEX.

Bug: 235284603
Test: m nothing
      # Added TestDuplicateButEquivalentDeapexersFromPrebuiltApexes
      # Failed without this change, works with it.
Merged-In: I805cb9dfa9f590c91585d75c4f4586b212b73d41
Change-Id: I805cb9dfa9f590c91585d75c4f4586b212b73d41
2022-06-13 13:16:53 +00:00

203 lines
8.7 KiB
Go

// 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 (
"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
}
// 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
}
// 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) DeapexerInfo {
return DeapexerInfo{
apexModuleName: apexModuleName,
exports: exports,
}
}
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
}
// 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 errors are reported with ctx.ModuleErrorf and nil is returned.
func FindDeapexerProviderForModule(ctx ModuleContext) *DeapexerInfo {
var di *DeapexerInfo
ctx.VisitDirectDepsWithTag(DeapexerTag, func(m Module) {
c := ctx.OtherModuleProvider(m, DeapexerProvider).(DeapexerInfo)
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
}
ctx.ModuleErrorf("Multiple installable prebuilt APEXes provide ambiguous deapexers: %s and %s",
di.ApexModuleName(), p.ApexModuleName())
}
di = p
})
if di != nil {
return di
}
ai := ctx.Provider(ApexInfoProvider).(ApexInfo)
ctx.ModuleErrorf("No prebuilt APEX provides a deapexer module for APEX variant %s", ai.ApexVariationName)
return nil
}
// 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
}
}