// 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 ( "strings" "android/soong/android" ) func init() { RegisterHiddenApiSingletonComponents(android.InitRegistrationContext) } func RegisterHiddenApiSingletonComponents(ctx android.RegistrationContext) { ctx.RegisterParallelSingletonType("hiddenapi", hiddenAPISingletonFactory) } var PrepareForTestWithHiddenApiBuildComponents = android.FixtureRegisterWithContext(RegisterHiddenApiSingletonComponents) type hiddenAPISingletonPathsStruct struct { // The path to the CSV file that contains the flags that will be encoded into the dex boot jars. // // It is created by the generate_hiddenapi_lists.py tool that is passed the stubFlags along with // a number of additional files that are used to augment the information in the stubFlags with // manually curated data. flags android.OutputPath // The path to the CSV index file that contains mappings from Java signature to source location // information for all Java elements annotated with the UnsupportedAppUsage annotation in the // source of all the boot jars. // // It is created by the merge_csv tool which merges all the hiddenAPI.indexCSVPath files that have // been created by the rest of the build. That includes the index files generated for // -hiddenapi modules. index android.OutputPath // The path to the CSV metadata file that contains mappings from Java signature to the value of // properties specified on UnsupportedAppUsage annotations in the source of all the boot jars. // // It is created by the merge_csv tool which merges all the hiddenAPI.metadataCSVPath files that // have been created by the rest of the build. That includes the metadata files generated for // -hiddenapi modules. metadata android.OutputPath // The path to the CSV metadata file that contains mappings from Java signature to flags obtained // from the public, system and test API stubs. // // This is created by the hiddenapi tool which is given dex files for the public, system and test // API stubs (including product specific stubs) along with dex boot jars, so does not include // -hiddenapi modules. For each API surface (i.e. public, system, test) it records which // members in the dex boot jars match a member in the dex stub jars for that API surface and then // outputs a file containing the signatures of all members in the dex boot jars along with the // flags that indicate which API surface it belongs, if any. // // e.g. a dex member that matches a member in the public dex stubs would have flags // "public-api,system-api,test-api" set (as system and test are both supersets of public). A dex // member that didn't match a member in any of the dex stubs is still output it just has an empty // set of flags. // // The notion of matching is quite complex, it is not restricted to just exact matching but also // follows the Java inheritance rules. e.g. if a method is public then all overriding/implementing // methods are also public. If an interface method is public and a class inherits an // implementation of that method from a super class then that super class method is also public. // That ensures that any method that can be called directly by an App through a public method is // visible to that App. // // Propagating the visibility of members across the inheritance hierarchy at build time will cause // problems when modularizing and unbundling as it that propagation can cross module boundaries. // e.g. Say that a private framework class implements a public interface and inherits an // implementation of one of its methods from a core platform ART class. In that case the ART // implementation method needs to be marked as public which requires the build to have access to // the framework implementation classes at build time. The work to rectify this is being tracked // at http://b/178693149. // // This file (or at least those items marked as being in the public-api) is used by hiddenapi when // creating the metadata and flags for the individual modules in order to perform consistency // checks and filter out bridge methods that are part of the public API. The latter relies on the // propagation of visibility across the inheritance hierarchy. stubFlags android.OutputPath } var hiddenAPISingletonPathsKey = android.NewOnceKey("hiddenAPISingletonPathsKey") // hiddenAPISingletonPaths creates all the paths for singleton files the first time it is called, which may be // from a ModuleContext that needs to reference a file that will be created by a singleton rule that hasn't // yet been created. func hiddenAPISingletonPaths(ctx android.PathContext) hiddenAPISingletonPathsStruct { return ctx.Config().Once(hiddenAPISingletonPathsKey, func() interface{} { // Make the paths relative to the out/soong/hiddenapi directory instead of to the out/soong/ // directory. This ensures that if they are used as java_resources they do not end up in a // hiddenapi directory in the resulting APK. hiddenapiDir := android.PathForOutput(ctx, "hiddenapi") return hiddenAPISingletonPathsStruct{ flags: hiddenapiDir.Join(ctx, "hiddenapi-flags.csv"), index: hiddenapiDir.Join(ctx, "hiddenapi-index.csv"), metadata: hiddenapiDir.Join(ctx, "hiddenapi-unsupported.csv"), stubFlags: hiddenapiDir.Join(ctx, "hiddenapi-stub-flags.txt"), } }).(hiddenAPISingletonPathsStruct) } func hiddenAPISingletonFactory() android.Singleton { return &hiddenAPISingleton{} } type hiddenAPISingleton struct { } // hiddenAPI singleton rules func (h *hiddenAPISingleton) GenerateBuildActions(ctx android.SingletonContext) { // Don't run any hiddenapi rules if hiddenapi checks are disabled if ctx.Config().DisableHiddenApiChecks() { return } // If there is a prebuilt hiddenapi dir, generate rules to use the // files within. Generally, we build the hiddenapi files from source // during the build, ensuring consistency. It's possible, in a split // build (framework and vendor) scenario, for the vendor build to use // prebuilt hiddenapi files from the framework build. In this scenario, // the framework and vendor builds must use the same source to ensure // consistency. if ctx.Config().PrebuiltHiddenApiDir(ctx) != "" { prebuiltFlagsRule(ctx) prebuiltIndexRule(ctx) return } } // Checks to see whether the supplied module variant is in the list of boot jars. // // TODO(b/179354495): Avoid having to perform this type of check. func isModuleInConfiguredList(ctx android.BaseModuleContext, module android.Module, configuredBootJars android.ConfiguredJarList) bool { name := ctx.OtherModuleName(module) // Strip a prebuilt_ prefix so that this can match a prebuilt module that has not been renamed. name = android.RemoveOptionalPrebuiltPrefix(name) // Ignore any module that is not listed in the boot image configuration. index := configuredBootJars.IndexOfJar(name) if index == -1 { return false } // It is an error if the module is not an ApexModule. if _, ok := module.(android.ApexModule); !ok { ctx.ModuleErrorf("%s is configured in boot jars but does not support being added to an apex", ctx.OtherModuleName(module)) return false } apexInfo := ctx.OtherModuleProvider(module, android.ApexInfoProvider).(android.ApexInfo) // Now match the apex part of the boot image configuration. requiredApex := configuredBootJars.Apex(index) if android.IsConfiguredJarForPlatform(requiredApex) { if len(apexInfo.InApexVariants) != 0 { // A platform variant is required but this is for an apex so ignore it. return false } } else if !apexInfo.InApexVariant(requiredApex) { // An apex variant for a specific apex is required but this is the wrong apex. return false } return true } func prebuiltFlagsRule(ctx android.SingletonContext) { outputPath := hiddenAPISingletonPaths(ctx).flags inputPath := android.PathForSource(ctx, ctx.Config().PrebuiltHiddenApiDir(ctx), "hiddenapi-flags.csv") ctx.Build(pctx, android.BuildParams{ Rule: android.Cp, Output: outputPath, Input: inputPath, }) } func prebuiltIndexRule(ctx android.SingletonContext) { outputPath := hiddenAPISingletonPaths(ctx).index inputPath := android.PathForSource(ctx, ctx.Config().PrebuiltHiddenApiDir(ctx), "hiddenapi-index.csv") ctx.Build(pctx, android.BuildParams{ Rule: android.Cp, Output: outputPath, Input: inputPath, }) } // tempPathForRestat creates a path of the same type as the supplied type but with a name of // .tmp. // // e.g. If path is an OutputPath for out/soong/hiddenapi/hiddenapi-flags.csv then this will return // an OutputPath for out/soong/hiddenapi/hiddenapi-flags.csv.tmp func tempPathForRestat(ctx android.PathContext, path android.WritablePath) android.WritablePath { extWithoutLeadingDot := strings.TrimPrefix(path.Ext(), ".") return path.ReplaceExtension(ctx, extWithoutLeadingDot+".tmp") } // commitChangeForRestat adds a command to a rule that updates outputPath from tempPath if they are different. It // also marks the rule as restat and marks the tempPath as a temporary file that should not be considered an output of // the rule. func commitChangeForRestat(rule *android.RuleBuilder, tempPath, outputPath android.WritablePath) { rule.Restat() rule.Temporary(tempPath) rule.Command(). Text("("). Text("if"). Text("cmp -s").Input(tempPath).Output(outputPath).Text(";"). Text("then"). Text("rm").Input(tempPath).Text(";"). Text("else"). Text("mv").Input(tempPath).Output(outputPath).Text(";"). Text("fi"). Text(")") }