platform_build_soong/java/hiddenapi.go

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// Copyright 2019 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 java
import (
"github.com/google/blueprint"
"android/soong/android"
)
var hiddenAPIGenerateCSVRule = pctx.AndroidStaticRule("hiddenAPIGenerateCSV", blueprint.RuleParams{
Command: "${config.Class2NonSdkList} --stub-api-flags ${stubAPIFlags} $in $outFlag $out",
CommandDeps: []string{"${config.Class2NonSdkList}"},
}, "outFlag", "stubAPIFlags")
type hiddenAPI struct {
// The name of the module as it would be used in the boot jars configuration, e.g. without any
// prebuilt_ prefix (if it is a prebuilt) and without any ".impl" suffix if it is a
// java_sdk_library implementation library.
configurationName string
// True if the module containing this structure contributes to the hiddenapi information or has
// that information encoded within it.
active bool
// Identifies the active module variant which will be used as the source of hiddenapi information.
//
// A class may be compiled into a number of different module variants each of which will need the
// hiddenapi information encoded into it and so will be marked as active. However, only one of
// them must be used as a source of information by hiddenapi otherwise it will end up with
// duplicate entries. That module will have primary=true.
//
// Note, that modules <x>-hiddenapi that provide additional annotation information for module <x>
// that is on the bootclasspath are marked as primary=true as they are the primary source of that
// annotation information.
primary bool
// The path to the dex jar that is in the boot class path. If this is nil then the associated
// module is not a boot jar, but could be one of the <x>-hiddenapi modules that provide additional
// annotations for the <x> boot dex jar but which do not actually provide a boot dex jar
// themselves.
//
// This must be the path to the unencoded dex jar as the encoded dex jar indirectly depends on
// this file so using the encoded dex jar here would result in a cycle in the ninja rules.
bootDexJarPath android.Path
// The path to the CSV file that contains mappings from Java signature to various flags derived
// from annotations in the source, e.g. whether it is public or the sdk version above which it
// can no longer be used.
//
// It is created by the Class2NonSdkList tool which processes the .class files in the class
// implementation jar looking for UnsupportedAppUsage and CovariantReturnType annotations. The
// tool also consumes the hiddenAPISingletonPathsStruct.stubFlags file in order to perform
// consistency checks on the information in the annotations and to filter out bridge methods
// that are already part of the public API.
flagsCSVPath android.Path
// The path to the CSV file that contains mappings from Java signature to the value of properties
// specified on UnsupportedAppUsage annotations in the source.
//
// Like the flagsCSVPath file this is also created by the Class2NonSdkList in the same way.
// Although the two files could potentially be created in a single invocation of the
// Class2NonSdkList at the moment they are created using their own invocation, with the behavior
// being determined by the property that is used.
metadataCSVPath android.Path
// The path to the CSV file that contains mappings from Java signature to source location
// information.
//
// It is created by the merge_csv tool which processes the class implementation jar, extracting
// all the files ending in .uau (which are CSV files) and merges them together. The .uau files are
// created by the unsupported app usage annotation processor during compilation of the class
// implementation jar.
indexCSVPath android.Path
}
func (h *hiddenAPI) flagsCSV() android.Path {
return h.flagsCSVPath
}
func (h *hiddenAPI) metadataCSV() android.Path {
return h.metadataCSVPath
}
func (h *hiddenAPI) bootDexJar() android.Path {
return h.bootDexJarPath
}
func (h *hiddenAPI) indexCSV() android.Path {
return h.indexCSVPath
}
type hiddenAPIIntf interface {
bootDexJar() android.Path
flagsCSV() android.Path
indexCSV() android.Path
metadataCSV() android.Path
}
var _ hiddenAPIIntf = (*hiddenAPI)(nil)
// hiddenAPISupportingModule is the interface that is implemented by any module that supports
// contributing to the hidden API processing.
type hiddenAPISupportingModule interface {
android.Module
hiddenAPIIntf
}
// Initialize the hiddenapi structure
func (h *hiddenAPI) initHiddenAPI(ctx android.BaseModuleContext, configurationName string) {
// If hiddenapi processing is disabled treat this as inactive.
if ctx.Config().IsEnvTrue("UNSAFE_DISABLE_HIDDENAPI_FLAGS") {
return
}
h.configurationName = configurationName
// It is important that hiddenapi information is only gathered for/from modules that are actually
// on the boot jars list because the runtime only enforces access to the hidden API for the
// bootclassloader. If information is gathered for modules not on the list then that will cause
// failures in the CtsHiddenApiBlocklist... tests.
module := ctx.Module()
h.active = isModuleInBootClassPath(ctx, module)
if !h.active {
// The rest of the properties will be ignored if active is false.
return
}
// Determine whether this module is the primary module or not.
primary := true
// A prebuilt module is only primary if it is preferred and conversely a source module is only
// primary if it has not been replaced by a prebuilt module.
if pi, ok := module.(android.PrebuiltInterface); ok {
if p := pi.Prebuilt(); p != nil {
primary = p.UsePrebuilt()
}
} else {
// The only module that will pass a different configurationName to its module name to this
// method is the implementation library of a java_sdk_library. It has a configuration name of
// <x> the same as its parent java_sdk_library but a module name of <x>.impl. It is not the
// primary module, the java_sdk_library with the name of <x> is.
primary = configurationName == ctx.ModuleName()
// A source module that has been replaced by a prebuilt can never be the primary module.
if module.IsReplacedByPrebuilt() {
ctx.VisitDirectDepsWithTag(android.PrebuiltDepTag, func(prebuilt android.Module) {
if h, ok := prebuilt.(hiddenAPIIntf); ok && h.bootDexJar() != nil {
primary = false
} else {
ctx.ModuleErrorf(
"hiddenapi has determined that the source module %q should be ignored as it has been"+
" replaced by the prebuilt module %q but unfortunately it does not provide a"+
" suitable boot dex jar", ctx.ModuleName(), ctx.OtherModuleName(prebuilt))
}
})
}
}
h.primary = primary
}
func isModuleInBootClassPath(ctx android.BaseModuleContext, module android.Module) bool {
// Get the configured non-updatable and updatable boot jars.
nonUpdatableBootJars := ctx.Config().NonUpdatableBootJars()
updatableBootJars := ctx.Config().UpdatableBootJars()
active := isModuleInConfiguredList(ctx, module, nonUpdatableBootJars) ||
isModuleInConfiguredList(ctx, module, updatableBootJars)
return active
}
// hiddenAPIExtractAndEncode is called by any module that could contribute to the hiddenapi
// processing.
//
// It ignores any module that has not had initHiddenApi() called on it and which is not in the boot
// jar list.
//
// Otherwise, it generates ninja rules to do the following:
// 1. Extract information needed for hiddenapi processing from the module and output it into CSV
// files.
// 2. Conditionally adds the supplied dex file to the list of files used to generate the
// hiddenAPISingletonPathsStruct.stubsFlag file.
// 3. Conditionally creates a copy of the supplied dex file into which it has encoded the hiddenapi
// flags and returns this instead of the supplied dex jar, otherwise simply returns the supplied
// dex jar.
func (h *hiddenAPI) hiddenAPIExtractAndEncode(ctx android.ModuleContext, dexJar android.OutputPath,
implementationJar android.Path, uncompressDex bool) android.OutputPath {
if !h.active {
return dexJar
}
h.hiddenAPIExtractInformation(ctx, dexJar, implementationJar)
hiddenAPIJar := android.PathForModuleOut(ctx, "hiddenapi", h.configurationName+".jar").OutputPath
// Create a copy of the dex jar which has been encoded with hiddenapi flags.
hiddenAPIEncodeDex(ctx, hiddenAPIJar, dexJar, uncompressDex)
// Use the encoded dex jar from here onwards.
dexJar = hiddenAPIJar
return dexJar
}
// hiddenAPIExtractInformation generates ninja rules to extract the information from the classes
// jar, and outputs it to the appropriate module specific CSV file.
//
// It also makes the dex jar available for use when generating the
// hiddenAPISingletonPathsStruct.stubFlags.
func (h *hiddenAPI) hiddenAPIExtractInformation(ctx android.ModuleContext, dexJar, classesJar android.Path) {
if !h.active {
return
}
// More than one library with the same classes may need to be encoded but only one should be
// used as a source of information for hidden API processing otherwise it will result in
// duplicate entries in the files.
if !h.primary {
return
}
classesJars := android.Paths{classesJar}
ctx.VisitDirectDepsWithTag(hiddenApiAnnotationsTag, func(dep android.Module) {
javaInfo := ctx.OtherModuleProvider(dep, JavaInfoProvider).(JavaInfo)
classesJars = append(classesJars, javaInfo.ImplementationJars...)
})
stubFlagsCSV := hiddenAPISingletonPaths(ctx).stubFlags
flagsCSV := android.PathForModuleOut(ctx, "hiddenapi", "flags.csv")
ctx.Build(pctx, android.BuildParams{
Rule: hiddenAPIGenerateCSVRule,
Description: "hiddenapi flags",
Inputs: classesJars,
Output: flagsCSV,
Implicit: stubFlagsCSV,
Args: map[string]string{
"outFlag": "--write-flags-csv",
"stubAPIFlags": stubFlagsCSV.String(),
},
})
h.flagsCSVPath = flagsCSV
metadataCSV := android.PathForModuleOut(ctx, "hiddenapi", "metadata.csv")
ctx.Build(pctx, android.BuildParams{
Rule: hiddenAPIGenerateCSVRule,
Description: "hiddenapi metadata",
Inputs: classesJars,
Output: metadataCSV,
Implicit: stubFlagsCSV,
Args: map[string]string{
"outFlag": "--write-metadata-csv",
"stubAPIFlags": stubFlagsCSV.String(),
},
})
h.metadataCSVPath = metadataCSV
indexCSV := android.PathForModuleOut(ctx, "hiddenapi", "index.csv")
rule := android.NewRuleBuilder(pctx, ctx)
rule.Command().
BuiltTool("merge_csv").
Flag("--zip_input").
Flag("--key_field signature").
FlagWithOutput("--output=", indexCSV).
Inputs(classesJars)
rule.Build("merged-hiddenapi-index", "Merged Hidden API index")
h.indexCSVPath = indexCSV
// Save the unencoded dex jar so it can be used when generating the
// hiddenAPISingletonPathsStruct.stubFlags file.
h.bootDexJarPath = dexJar
}
var hiddenAPIEncodeDexRule = pctx.AndroidStaticRule("hiddenAPIEncodeDex", blueprint.RuleParams{
Command: `rm -rf $tmpDir && mkdir -p $tmpDir && mkdir $tmpDir/dex-input && mkdir $tmpDir/dex-output &&
unzip -qoDD $in 'classes*.dex' -d $tmpDir/dex-input &&
for INPUT_DEX in $$(find $tmpDir/dex-input -maxdepth 1 -name 'classes*.dex' | sort); do
echo "--input-dex=$${INPUT_DEX}";
echo "--output-dex=$tmpDir/dex-output/$$(basename $${INPUT_DEX})";
done | xargs ${config.HiddenAPI} encode --api-flags=$flagsCsv $hiddenapiFlags &&
${config.SoongZipCmd} $soongZipFlags -o $tmpDir/dex.jar -C $tmpDir/dex-output -f "$tmpDir/dex-output/classes*.dex" &&
${config.MergeZipsCmd} -D -zipToNotStrip $tmpDir/dex.jar -stripFile "classes*.dex" -stripFile "**/*.uau" $out $tmpDir/dex.jar $in`,
CommandDeps: []string{
"${config.HiddenAPI}",
"${config.SoongZipCmd}",
"${config.MergeZipsCmd}",
},
}, "flagsCsv", "hiddenapiFlags", "tmpDir", "soongZipFlags")
func hiddenAPIEncodeDex(ctx android.ModuleContext, output android.WritablePath, dexInput android.Path,
uncompressDex bool) {
flagsCSV := hiddenAPISingletonPaths(ctx).flags
// The encode dex rule requires unzipping and rezipping the classes.dex files, ensure that if it was uncompressed
// in the input it stays uncompressed in the output.
soongZipFlags := ""
hiddenapiFlags := ""
tmpOutput := output
tmpDir := android.PathForModuleOut(ctx, "hiddenapi", "dex")
if uncompressDex {
soongZipFlags = "-L 0"
tmpOutput = android.PathForModuleOut(ctx, "hiddenapi", "unaligned", "unaligned.jar")
tmpDir = android.PathForModuleOut(ctx, "hiddenapi", "unaligned")
}
enforceHiddenApiFlagsToAllMembers := true
// If frameworks/base doesn't exist we must be building with the 'master-art' manifest.
// Disable assertion that all methods/fields have hidden API flags assigned.
if !ctx.Config().FrameworksBaseDirExists(ctx) {
enforceHiddenApiFlagsToAllMembers = false
}
// b/149353192: when a module is instrumented, jacoco adds synthetic members
// $jacocoData and $jacocoInit. Since they don't exist when building the hidden API flags,
// don't complain when we don't find hidden API flags for the synthetic members.
if j, ok := ctx.Module().(interface {
shouldInstrument(android.BaseModuleContext) bool
}); ok && j.shouldInstrument(ctx) {
enforceHiddenApiFlagsToAllMembers = false
}
if !enforceHiddenApiFlagsToAllMembers {
hiddenapiFlags = "--no-force-assign-all"
}
ctx.Build(pctx, android.BuildParams{
Rule: hiddenAPIEncodeDexRule,
Description: "hiddenapi encode dex",
Input: dexInput,
Output: tmpOutput,
Implicit: flagsCSV,
Args: map[string]string{
"flagsCsv": flagsCSV.String(),
"tmpDir": tmpDir.String(),
"soongZipFlags": soongZipFlags,
"hiddenapiFlags": hiddenapiFlags,
},
})
if uncompressDex {
TransformZipAlign(ctx, output, tmpOutput)
}
}
type hiddenApiAnnotationsDependencyTag struct {
blueprint.BaseDependencyTag
}
// Tag used to mark dependencies on java_library instances that contains Java source files whose
// sole purpose is to provide additional hiddenapi annotations.
var hiddenApiAnnotationsTag hiddenApiAnnotationsDependencyTag
// Mark this tag so dependencies that use it are excluded from APEX contents.
func (t hiddenApiAnnotationsDependencyTag) ExcludeFromApexContents() {}
var _ android.ExcludeFromApexContentsTag = hiddenApiAnnotationsTag