// Copyright 2021 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 ( "fmt" "path/filepath" "regexp" "strings" "github.com/google/blueprint/proptools" "android/soong/android" "android/soong/java/config" "android/soong/remoteexec" ) // The values allowed for Droidstubs' Api_levels_sdk_type var allowedApiLevelSdkTypes = []string{"public", "system", "module-lib", "system-server"} func init() { RegisterStubsBuildComponents(android.InitRegistrationContext) } func RegisterStubsBuildComponents(ctx android.RegistrationContext) { ctx.RegisterModuleType("stubs_defaults", StubsDefaultsFactory) ctx.RegisterModuleType("droidstubs", DroidstubsFactory) ctx.RegisterModuleType("droidstubs_host", DroidstubsHostFactory) ctx.RegisterModuleType("prebuilt_stubs_sources", PrebuiltStubsSourcesFactory) } // Droidstubs type Droidstubs struct { Javadoc android.SdkBase properties DroidstubsProperties apiFile android.Path removedApiFile android.Path nullabilityWarningsFile android.WritablePath checkCurrentApiTimestamp android.WritablePath updateCurrentApiTimestamp android.WritablePath checkLastReleasedApiTimestamp android.WritablePath apiLintTimestamp android.WritablePath apiLintReport android.WritablePath checkNullabilityWarningsTimestamp android.WritablePath annotationsZip android.WritablePath apiVersionsXml android.WritablePath metadataZip android.WritablePath metadataDir android.WritablePath } type DroidstubsProperties struct { // The generated public API filename by Metalava, defaults to _api.txt Api_filename *string // the generated removed API filename by Metalava, defaults to _removed.txt Removed_api_filename *string Check_api struct { Last_released ApiToCheck Current ApiToCheck Api_lint struct { Enabled *bool // If set, performs api_lint on any new APIs not found in the given signature file New_since *string `android:"path"` // If not blank, path to the baseline txt file for approved API lint violations. Baseline_file *string `android:"path"` } } // user can specify the version of previous released API file in order to do compatibility check. Previous_api *string `android:"path"` // is set to true, Metalava will allow framework SDK to contain annotations. Annotations_enabled *bool // a list of top-level directories containing files to merge qualifier annotations (i.e. those intended to be included in the stubs written) from. Merge_annotations_dirs []string // a list of top-level directories containing Java stub files to merge show/hide annotations from. Merge_inclusion_annotations_dirs []string // a file containing a list of classes to do nullability validation for. Validate_nullability_from_list *string // a file containing expected warnings produced by validation of nullability annotations. Check_nullability_warnings *string // if set to true, allow Metalava to generate doc_stubs source files. Defaults to false. Create_doc_stubs *bool // if set to true, cause Metalava to output Javadoc comments in the stubs source files. Defaults to false. // Has no effect if create_doc_stubs: true. Output_javadoc_comments *bool // if set to false then do not write out stubs. Defaults to true. // // TODO(b/146727827): Remove capability when we do not need to generate stubs and API separately. Generate_stubs *bool // if set to true, provides a hint to the build system that this rule uses a lot of memory, // whicih can be used for scheduling purposes High_mem *bool // if set to true, Metalava will allow framework SDK to contain API levels annotations. Api_levels_annotations_enabled *bool // Apply the api levels database created by this module rather than generating one in this droidstubs. Api_levels_module *string // the dirs which Metalava extracts API levels annotations from. Api_levels_annotations_dirs []string // the sdk kind which Metalava extracts API levels annotations from. Supports 'public', 'system', 'module-lib' and 'system-server'; defaults to public. Api_levels_sdk_type *string // the filename which Metalava extracts API levels annotations from. Defaults to android.jar. Api_levels_jar_filename *string // if set to true, collect the values used by the Dev tools and // write them in files packaged with the SDK. Defaults to false. Write_sdk_values *bool // path or filegroup to file defining extension an SDK name <-> numerical ID mapping and // what APIs exist in which SDKs; passed to metalava via --sdk-extensions-info Extensions_info_file *string `android:"path"` } // Used by xsd_config type ApiFilePath interface { ApiFilePath() android.Path } type ApiStubsSrcProvider interface { StubsSrcJar() android.Path } // Provider of information about API stubs, used by java_sdk_library. type ApiStubsProvider interface { AnnotationsZip() android.Path ApiFilePath RemovedApiFilePath() android.Path ApiStubsSrcProvider } // droidstubs passes sources files through Metalava to generate stub .java files that only contain the API to be // documented, filtering out hidden classes and methods. The resulting .java files are intended to be passed to // a droiddoc module to generate documentation. func DroidstubsFactory() android.Module { module := &Droidstubs{} module.AddProperties(&module.properties, &module.Javadoc.properties) InitDroiddocModule(module, android.HostAndDeviceSupported) android.InitSdkAwareModule(module) return module } // droidstubs_host passes sources files through Metalava to generate stub .java files that only contain the API // to be documented, filtering out hidden classes and methods. The resulting .java files are intended to be // passed to a droiddoc_host module to generate documentation. Use a droidstubs_host instead of a droidstubs // module when symbols needed by the source files are provided by java_library_host modules. func DroidstubsHostFactory() android.Module { module := &Droidstubs{} module.AddProperties(&module.properties, &module.Javadoc.properties) InitDroiddocModule(module, android.HostSupported) return module } func (d *Droidstubs) OutputFiles(tag string) (android.Paths, error) { switch tag { case "": return android.Paths{d.stubsSrcJar}, nil case ".docs.zip": return android.Paths{d.docZip}, nil case ".api.txt", android.DefaultDistTag: // This is the default dist path for dist properties that have no tag property. return android.Paths{d.apiFile}, nil case ".removed-api.txt": return android.Paths{d.removedApiFile}, nil case ".annotations.zip": return android.Paths{d.annotationsZip}, nil case ".api_versions.xml": return android.Paths{d.apiVersionsXml}, nil default: return nil, fmt.Errorf("unsupported module reference tag %q", tag) } } func (d *Droidstubs) AnnotationsZip() android.Path { return d.annotationsZip } func (d *Droidstubs) ApiFilePath() android.Path { return d.apiFile } func (d *Droidstubs) RemovedApiFilePath() android.Path { return d.removedApiFile } func (d *Droidstubs) StubsSrcJar() android.Path { return d.stubsSrcJar } var metalavaMergeAnnotationsDirTag = dependencyTag{name: "metalava-merge-annotations-dir"} var metalavaMergeInclusionAnnotationsDirTag = dependencyTag{name: "metalava-merge-inclusion-annotations-dir"} var metalavaAPILevelsAnnotationsDirTag = dependencyTag{name: "metalava-api-levels-annotations-dir"} var metalavaAPILevelsModuleTag = dependencyTag{name: "metalava-api-levels-module-tag"} func (d *Droidstubs) DepsMutator(ctx android.BottomUpMutatorContext) { d.Javadoc.addDeps(ctx) if len(d.properties.Merge_annotations_dirs) != 0 { for _, mergeAnnotationsDir := range d.properties.Merge_annotations_dirs { ctx.AddDependency(ctx.Module(), metalavaMergeAnnotationsDirTag, mergeAnnotationsDir) } } if len(d.properties.Merge_inclusion_annotations_dirs) != 0 { for _, mergeInclusionAnnotationsDir := range d.properties.Merge_inclusion_annotations_dirs { ctx.AddDependency(ctx.Module(), metalavaMergeInclusionAnnotationsDirTag, mergeInclusionAnnotationsDir) } } if len(d.properties.Api_levels_annotations_dirs) != 0 { for _, apiLevelsAnnotationsDir := range d.properties.Api_levels_annotations_dirs { ctx.AddDependency(ctx.Module(), metalavaAPILevelsAnnotationsDirTag, apiLevelsAnnotationsDir) } } if d.properties.Api_levels_module != nil { ctx.AddDependency(ctx.Module(), metalavaAPILevelsModuleTag, proptools.String(d.properties.Api_levels_module)) } } func (d *Droidstubs) stubsFlags(ctx android.ModuleContext, cmd *android.RuleBuilderCommand, stubsDir android.OptionalPath) { if apiCheckEnabled(ctx, d.properties.Check_api.Current, "current") || apiCheckEnabled(ctx, d.properties.Check_api.Last_released, "last_released") || String(d.properties.Api_filename) != "" { filename := proptools.StringDefault(d.properties.Api_filename, ctx.ModuleName()+"_api.txt") uncheckedApiFile := android.PathForModuleOut(ctx, "metalava", filename) cmd.FlagWithOutput("--api ", uncheckedApiFile) d.apiFile = uncheckedApiFile } else if sourceApiFile := proptools.String(d.properties.Check_api.Current.Api_file); sourceApiFile != "" { // If check api is disabled then make the source file available for export. d.apiFile = android.PathForModuleSrc(ctx, sourceApiFile) } if apiCheckEnabled(ctx, d.properties.Check_api.Current, "current") || apiCheckEnabled(ctx, d.properties.Check_api.Last_released, "last_released") || String(d.properties.Removed_api_filename) != "" { filename := proptools.StringDefault(d.properties.Removed_api_filename, ctx.ModuleName()+"_removed.txt") uncheckedRemovedFile := android.PathForModuleOut(ctx, "metalava", filename) cmd.FlagWithOutput("--removed-api ", uncheckedRemovedFile) d.removedApiFile = uncheckedRemovedFile } else if sourceRemovedApiFile := proptools.String(d.properties.Check_api.Current.Removed_api_file); sourceRemovedApiFile != "" { // If check api is disabled then make the source removed api file available for export. d.removedApiFile = android.PathForModuleSrc(ctx, sourceRemovedApiFile) } if Bool(d.properties.Write_sdk_values) { d.metadataDir = android.PathForModuleOut(ctx, "metalava", "metadata") cmd.FlagWithArg("--sdk-values ", d.metadataDir.String()) } if stubsDir.Valid() { if Bool(d.properties.Create_doc_stubs) { cmd.FlagWithArg("--doc-stubs ", stubsDir.String()) } else { cmd.FlagWithArg("--stubs ", stubsDir.String()) if !Bool(d.properties.Output_javadoc_comments) { cmd.Flag("--exclude-documentation-from-stubs") } } } } func (d *Droidstubs) annotationsFlags(ctx android.ModuleContext, cmd *android.RuleBuilderCommand) { if Bool(d.properties.Annotations_enabled) { cmd.Flag("--include-annotations") cmd.FlagWithArg("--exclude-annotation ", "androidx.annotation.RequiresApi") validatingNullability := strings.Contains(String(d.Javadoc.properties.Args), "--validate-nullability-from-merged-stubs") || String(d.properties.Validate_nullability_from_list) != "" migratingNullability := String(d.properties.Previous_api) != "" if migratingNullability { previousApi := android.PathForModuleSrc(ctx, String(d.properties.Previous_api)) cmd.FlagWithInput("--migrate-nullness ", previousApi) } if s := String(d.properties.Validate_nullability_from_list); s != "" { cmd.FlagWithInput("--validate-nullability-from-list ", android.PathForModuleSrc(ctx, s)) } if validatingNullability { d.nullabilityWarningsFile = android.PathForModuleOut(ctx, "metalava", ctx.ModuleName()+"_nullability_warnings.txt") cmd.FlagWithOutput("--nullability-warnings-txt ", d.nullabilityWarningsFile) } d.annotationsZip = android.PathForModuleOut(ctx, "metalava", ctx.ModuleName()+"_annotations.zip") cmd.FlagWithOutput("--extract-annotations ", d.annotationsZip) if len(d.properties.Merge_annotations_dirs) != 0 { d.mergeAnnoDirFlags(ctx, cmd) } // TODO(tnorbye): find owners to fix these warnings when annotation was enabled. cmd.FlagWithArg("--hide ", "HiddenTypedefConstant"). FlagWithArg("--hide ", "SuperfluousPrefix"). FlagWithArg("--hide ", "AnnotationExtraction"). // b/222738070 FlagWithArg("--hide ", "BannedThrow"). // b/223382732 FlagWithArg("--hide ", "ChangedDefault") } } func (d *Droidstubs) mergeAnnoDirFlags(ctx android.ModuleContext, cmd *android.RuleBuilderCommand) { ctx.VisitDirectDepsWithTag(metalavaMergeAnnotationsDirTag, func(m android.Module) { if t, ok := m.(*ExportedDroiddocDir); ok { cmd.FlagWithArg("--merge-qualifier-annotations ", t.dir.String()).Implicits(t.deps) } else { ctx.PropertyErrorf("merge_annotations_dirs", "module %q is not a metalava merge-annotations dir", ctx.OtherModuleName(m)) } }) } func (d *Droidstubs) inclusionAnnotationsFlags(ctx android.ModuleContext, cmd *android.RuleBuilderCommand) { ctx.VisitDirectDepsWithTag(metalavaMergeInclusionAnnotationsDirTag, func(m android.Module) { if t, ok := m.(*ExportedDroiddocDir); ok { cmd.FlagWithArg("--merge-inclusion-annotations ", t.dir.String()).Implicits(t.deps) } else { ctx.PropertyErrorf("merge_inclusion_annotations_dirs", "module %q is not a metalava merge-annotations dir", ctx.OtherModuleName(m)) } }) } func (d *Droidstubs) apiLevelsAnnotationsFlags(ctx android.ModuleContext, cmd *android.RuleBuilderCommand) { var apiVersions android.Path if proptools.Bool(d.properties.Api_levels_annotations_enabled) { d.apiLevelsGenerationFlags(ctx, cmd) apiVersions = d.apiVersionsXml } else { ctx.VisitDirectDepsWithTag(metalavaAPILevelsModuleTag, func(m android.Module) { if s, ok := m.(*Droidstubs); ok { apiVersions = s.apiVersionsXml } else { ctx.PropertyErrorf("api_levels_module", "module %q is not a droidstubs module", ctx.OtherModuleName(m)) } }) } if apiVersions != nil { cmd.FlagWithArg("--current-version ", ctx.Config().PlatformSdkVersion().String()) cmd.FlagWithArg("--current-codename ", ctx.Config().PlatformSdkCodename()) cmd.FlagWithInput("--apply-api-levels ", apiVersions) } } func (d *Droidstubs) apiLevelsGenerationFlags(ctx android.ModuleContext, cmd *android.RuleBuilderCommand) { if len(d.properties.Api_levels_annotations_dirs) == 0 { ctx.PropertyErrorf("api_levels_annotations_dirs", "has to be non-empty if api levels annotations was enabled!") } d.apiVersionsXml = android.PathForModuleOut(ctx, "metalava", "api-versions.xml") cmd.FlagWithOutput("--generate-api-levels ", d.apiVersionsXml) filename := proptools.StringDefault(d.properties.Api_levels_jar_filename, "android.jar") var dirs []string var extensions_dir string ctx.VisitDirectDepsWithTag(metalavaAPILevelsAnnotationsDirTag, func(m android.Module) { if t, ok := m.(*ExportedDroiddocDir); ok { extRegex := regexp.MustCompile(t.dir.String() + `/extensions/[0-9]+/public/.*\.jar`) // Grab the first extensions_dir and we find while scanning ExportedDroiddocDir.deps; // ideally this should be read from prebuiltApis.properties.Extensions_* for _, dep := range t.deps { if extRegex.MatchString(dep.String()) && d.properties.Extensions_info_file != nil { if extensions_dir == "" { extensions_dir = t.dir.String() + "/extensions" } cmd.Implicit(dep) } if dep.Base() == filename { cmd.Implicit(dep) } if filename != "android.jar" && dep.Base() == "android.jar" { // Metalava implicitly searches these patterns: // prebuilts/tools/common/api-versions/android-%/android.jar // prebuilts/sdk/%/public/android.jar // Add android.jar files from the api_levels_annotations_dirs directories to try // to satisfy these patterns. If Metalava can't find a match for an API level // between 1 and 28 in at least one pattern it will fail. cmd.Implicit(dep) } } dirs = append(dirs, t.dir.String()) } else { ctx.PropertyErrorf("api_levels_annotations_dirs", "module %q is not a metalava api-levels-annotations dir", ctx.OtherModuleName(m)) } }) // Add all relevant --android-jar-pattern patterns for Metalava. // When parsing a stub jar for a specific version, Metalava picks the first pattern that defines // an actual file present on disk (in the order the patterns were passed). For system APIs for // privileged apps that are only defined since API level 21 (Lollipop), fallback to public stubs // for older releases. Similarly, module-lib falls back to system API. var sdkDirs []string switch proptools.StringDefault(d.properties.Api_levels_sdk_type, "public") { case "system-server": sdkDirs = []string{"system-server", "module-lib", "system", "public"} case "module-lib": sdkDirs = []string{"module-lib", "system", "public"} case "system": sdkDirs = []string{"system", "public"} case "public": sdkDirs = []string{"public"} default: ctx.PropertyErrorf("api_levels_sdk_type", "needs to be one of %v", allowedApiLevelSdkTypes) return } for _, sdkDir := range sdkDirs { for _, dir := range dirs { cmd.FlagWithArg("--android-jar-pattern ", fmt.Sprintf("%s/%%/%s/%s", dir, sdkDir, filename)) } } if d.properties.Extensions_info_file != nil { if extensions_dir == "" { ctx.ModuleErrorf("extensions_info_file set, but no SDK extension dirs found") } info_file := android.PathForModuleSrc(ctx, *d.properties.Extensions_info_file) cmd.Implicit(info_file) cmd.FlagWithArg("--sdk-extensions-root ", extensions_dir) cmd.FlagWithArg("--sdk-extensions-info ", info_file.String()) } } func metalavaUseRbe(ctx android.ModuleContext) bool { return ctx.Config().UseRBE() && ctx.Config().IsEnvTrue("RBE_METALAVA") } func metalavaCmd(ctx android.ModuleContext, rule *android.RuleBuilder, javaVersion javaVersion, srcs android.Paths, srcJarList android.Path, bootclasspath, classpath classpath, homeDir android.WritablePath) *android.RuleBuilderCommand { rule.Command().Text("rm -rf").Flag(homeDir.String()) rule.Command().Text("mkdir -p").Flag(homeDir.String()) cmd := rule.Command() cmd.FlagWithArg("ANDROID_PREFS_ROOT=", homeDir.String()) if metalavaUseRbe(ctx) { rule.Remoteable(android.RemoteRuleSupports{RBE: true}) execStrategy := ctx.Config().GetenvWithDefault("RBE_METALAVA_EXEC_STRATEGY", remoteexec.LocalExecStrategy) labels := map[string]string{"type": "tool", "name": "metalava"} // TODO: metalava pool rejects these jobs pool := ctx.Config().GetenvWithDefault("RBE_METALAVA_POOL", "java16") rule.Rewrapper(&remoteexec.REParams{ Labels: labels, ExecStrategy: execStrategy, ToolchainInputs: []string{config.JavaCmd(ctx).String()}, Platform: map[string]string{remoteexec.PoolKey: pool}, }) } cmd.BuiltTool("metalava").ImplicitTool(ctx.Config().HostJavaToolPath(ctx, "metalava.jar")). Flag(config.JavacVmFlags). Flag("-J--add-opens=java.base/java.util=ALL-UNNAMED"). FlagWithArg("-encoding ", "UTF-8"). FlagWithArg("-source ", javaVersion.String()). FlagWithRspFileInputList("@", android.PathForModuleOut(ctx, "metalava.rsp"), srcs). FlagWithInput("@", srcJarList) if len(bootclasspath) > 0 { cmd.FlagWithInputList("-bootclasspath ", bootclasspath.Paths(), ":") } if len(classpath) > 0 { cmd.FlagWithInputList("-classpath ", classpath.Paths(), ":") } cmd.Flag("--no-banner"). Flag("--color"). Flag("--quiet"). Flag("--format=v2"). FlagWithArg("--repeat-errors-max ", "10"). FlagWithArg("--hide ", "UnresolvedImport"). FlagWithArg("--hide ", "InvalidNullabilityOverride"). // b/223382732 FlagWithArg("--hide ", "ChangedDefault") return cmd } func (d *Droidstubs) GenerateAndroidBuildActions(ctx android.ModuleContext) { deps := d.Javadoc.collectDeps(ctx) javaVersion := getJavaVersion(ctx, String(d.Javadoc.properties.Java_version), android.SdkContext(d)) // Create rule for metalava srcJarDir := android.PathForModuleOut(ctx, "metalava", "srcjars") rule := android.NewRuleBuilder(pctx, ctx) rule.Sbox(android.PathForModuleOut(ctx, "metalava"), android.PathForModuleOut(ctx, "metalava.sbox.textproto")). SandboxInputs() if BoolDefault(d.properties.High_mem, false) { // This metalava run uses lots of memory, restrict the number of metalava jobs that can run in parallel. rule.HighMem() } generateStubs := BoolDefault(d.properties.Generate_stubs, true) var stubsDir android.OptionalPath if generateStubs { d.Javadoc.stubsSrcJar = android.PathForModuleOut(ctx, "metalava", ctx.ModuleName()+"-"+"stubs.srcjar") stubsDir = android.OptionalPathForPath(android.PathForModuleOut(ctx, "metalava", "stubsDir")) rule.Command().Text("rm -rf").Text(stubsDir.String()) rule.Command().Text("mkdir -p").Text(stubsDir.String()) } srcJarList := zipSyncCmd(ctx, rule, srcJarDir, d.Javadoc.srcJars) homeDir := android.PathForModuleOut(ctx, "metalava", "home") cmd := metalavaCmd(ctx, rule, javaVersion, d.Javadoc.srcFiles, srcJarList, deps.bootClasspath, deps.classpath, homeDir) cmd.Implicits(d.Javadoc.implicits) d.stubsFlags(ctx, cmd, stubsDir) d.annotationsFlags(ctx, cmd) d.inclusionAnnotationsFlags(ctx, cmd) d.apiLevelsAnnotationsFlags(ctx, cmd) d.expandArgs(ctx, cmd) for _, o := range d.Javadoc.properties.Out { cmd.ImplicitOutput(android.PathForModuleGen(ctx, o)) } // Add options for the other optional tasks: API-lint and check-released. // We generate separate timestamp files for them. doApiLint := false doCheckReleased := false // Add API lint options. if BoolDefault(d.properties.Check_api.Api_lint.Enabled, false) { doApiLint = true newSince := android.OptionalPathForModuleSrc(ctx, d.properties.Check_api.Api_lint.New_since) if newSince.Valid() { cmd.FlagWithInput("--api-lint ", newSince.Path()) } else { cmd.Flag("--api-lint") } d.apiLintReport = android.PathForModuleOut(ctx, "metalava", "api_lint_report.txt") cmd.FlagWithOutput("--report-even-if-suppressed ", d.apiLintReport) // TODO: Change to ":api-lint" // TODO(b/154317059): Clean up this allowlist by baselining and/or checking in last-released. if d.Name() != "android.car-system-stubs-docs" && d.Name() != "android.car-stubs-docs" { cmd.Flag("--lints-as-errors") cmd.Flag("--warnings-as-errors") // Most lints are actually warnings. } baselineFile := android.OptionalPathForModuleSrc(ctx, d.properties.Check_api.Api_lint.Baseline_file) updatedBaselineOutput := android.PathForModuleOut(ctx, "metalava", "api_lint_baseline.txt") d.apiLintTimestamp = android.PathForModuleOut(ctx, "metalava", "api_lint.timestamp") // Note this string includes a special shell quote $' ... ', which decodes the "\n"s. // // TODO: metalava also has a slightly different message hardcoded. Should we unify this // message and metalava's one? msg := `$'` + // Enclose with $' ... ' `************************************************************\n` + `Your API changes are triggering API Lint warnings or errors.\n` + `To make these errors go away, fix the code according to the\n` + `error and/or warning messages above.\n` + `\n` + `If it is not possible to do so, there are workarounds:\n` + `\n` + `1. You can suppress the errors with @SuppressLint("")\n` + ` where the is given in brackets in the error message above.\n` if baselineFile.Valid() { cmd.FlagWithInput("--baseline:api-lint ", baselineFile.Path()) cmd.FlagWithOutput("--update-baseline:api-lint ", updatedBaselineOutput) msg += fmt.Sprintf(``+ `2. You can update the baseline by executing the following\n`+ ` command:\n`+ ` (cd $ANDROID_BUILD_TOP && cp \\\n`+ ` "%s" \\\n`+ ` "%s")\n`+ ` To submit the revised baseline.txt to the main Android\n`+ ` repository, you will need approval.\n`, updatedBaselineOutput, baselineFile.Path()) } else { msg += fmt.Sprintf(``+ `2. You can add a baseline file of existing lint failures\n`+ ` to the build rule of %s.\n`, d.Name()) } // Note the message ends with a ' (single quote), to close the $' ... ' . msg += `************************************************************\n'` cmd.FlagWithArg("--error-message:api-lint ", msg) } // Add "check released" options. (Detect incompatible API changes from the last public release) if apiCheckEnabled(ctx, d.properties.Check_api.Last_released, "last_released") { doCheckReleased = true if len(d.Javadoc.properties.Out) > 0 { ctx.PropertyErrorf("out", "out property may not be combined with check_api") } apiFile := android.PathForModuleSrc(ctx, String(d.properties.Check_api.Last_released.Api_file)) removedApiFile := android.PathForModuleSrc(ctx, String(d.properties.Check_api.Last_released.Removed_api_file)) baselineFile := android.OptionalPathForModuleSrc(ctx, d.properties.Check_api.Last_released.Baseline_file) updatedBaselineOutput := android.PathForModuleOut(ctx, "metalava", "last_released_baseline.txt") d.checkLastReleasedApiTimestamp = android.PathForModuleOut(ctx, "metalava", "check_last_released_api.timestamp") cmd.FlagWithInput("--check-compatibility:api:released ", apiFile) cmd.FlagWithInput("--check-compatibility:removed:released ", removedApiFile) if baselineFile.Valid() { cmd.FlagWithInput("--baseline:compatibility:released ", baselineFile.Path()) cmd.FlagWithOutput("--update-baseline:compatibility:released ", updatedBaselineOutput) } // Note this string includes quote ($' ... '), which decodes the "\n"s. msg := `$'\n******************************\n` + `You have tried to change the API from what has been previously released in\n` + `an SDK. Please fix the errors listed above.\n` + `******************************\n'` cmd.FlagWithArg("--error-message:compatibility:released ", msg) } if generateStubs { rule.Command(). BuiltTool("soong_zip"). Flag("-write_if_changed"). Flag("-jar"). FlagWithOutput("-o ", d.Javadoc.stubsSrcJar). FlagWithArg("-C ", stubsDir.String()). FlagWithArg("-D ", stubsDir.String()) } if Bool(d.properties.Write_sdk_values) { d.metadataZip = android.PathForModuleOut(ctx, "metalava", ctx.ModuleName()+"-metadata.zip") rule.Command(). BuiltTool("soong_zip"). Flag("-write_if_changed"). Flag("-d"). FlagWithOutput("-o ", d.metadataZip). FlagWithArg("-C ", d.metadataDir.String()). FlagWithArg("-D ", d.metadataDir.String()) } // TODO: We don't really need two separate API files, but this is a reminiscence of how // we used to run metalava separately for API lint and the "last_released" check. Unify them. if doApiLint { rule.Command().Text("touch").Output(d.apiLintTimestamp) } if doCheckReleased { rule.Command().Text("touch").Output(d.checkLastReleasedApiTimestamp) } // TODO(b/183630617): rewrapper doesn't support restat rules if !metalavaUseRbe(ctx) { rule.Restat() } zipSyncCleanupCmd(rule, srcJarDir) rule.Build("metalava", "metalava merged") if apiCheckEnabled(ctx, d.properties.Check_api.Current, "current") { if len(d.Javadoc.properties.Out) > 0 { ctx.PropertyErrorf("out", "out property may not be combined with check_api") } apiFile := android.PathForModuleSrc(ctx, String(d.properties.Check_api.Current.Api_file)) removedApiFile := android.PathForModuleSrc(ctx, String(d.properties.Check_api.Current.Removed_api_file)) baselineFile := android.OptionalPathForModuleSrc(ctx, d.properties.Check_api.Current.Baseline_file) if baselineFile.Valid() { ctx.PropertyErrorf("baseline_file", "current API check can't have a baseline file. (module %s)", ctx.ModuleName()) } d.checkCurrentApiTimestamp = android.PathForModuleOut(ctx, "metalava", "check_current_api.timestamp") rule := android.NewRuleBuilder(pctx, ctx) // Diff command line. // -F matches the closest "opening" line, such as "package android {" // and " public class Intent {". diff := `diff -u -F '{ *$'` rule.Command().Text("( true") rule.Command(). Text(diff). Input(apiFile).Input(d.apiFile) rule.Command(). Text(diff). Input(removedApiFile).Input(d.removedApiFile) msg := fmt.Sprintf(`\n******************************\n`+ `You have tried to change the API from what has been previously approved.\n\n`+ `To make these errors go away, you have two choices:\n`+ ` 1. You can add '@hide' javadoc comments (and remove @SystemApi/@TestApi/etc)\n`+ ` to the new methods, etc. shown in the above diff.\n\n`+ ` 2. You can update current.txt and/or removed.txt by executing the following command:\n`+ ` m %s-update-current-api\n\n`+ ` To submit the revised current.txt to the main Android repository,\n`+ ` you will need approval.\n`+ `******************************\n`, ctx.ModuleName()) rule.Command(). Text("touch").Output(d.checkCurrentApiTimestamp). Text(") || ("). Text("echo").Flag("-e").Flag(`"` + msg + `"`). Text("; exit 38"). Text(")") rule.Build("metalavaCurrentApiCheck", "check current API") d.updateCurrentApiTimestamp = android.PathForModuleOut(ctx, "metalava", "update_current_api.timestamp") // update API rule rule = android.NewRuleBuilder(pctx, ctx) rule.Command().Text("( true") rule.Command(). Text("cp").Flag("-f"). Input(d.apiFile).Flag(apiFile.String()) rule.Command(). Text("cp").Flag("-f"). Input(d.removedApiFile).Flag(removedApiFile.String()) msg = "failed to update public API" rule.Command(). Text("touch").Output(d.updateCurrentApiTimestamp). Text(") || ("). Text("echo").Flag("-e").Flag(`"` + msg + `"`). Text("; exit 38"). Text(")") rule.Build("metalavaCurrentApiUpdate", "update current API") } if String(d.properties.Check_nullability_warnings) != "" { if d.nullabilityWarningsFile == nil { ctx.PropertyErrorf("check_nullability_warnings", "Cannot specify check_nullability_warnings unless validating nullability") } checkNullabilityWarnings := android.PathForModuleSrc(ctx, String(d.properties.Check_nullability_warnings)) d.checkNullabilityWarningsTimestamp = android.PathForModuleOut(ctx, "metalava", "check_nullability_warnings.timestamp") msg := fmt.Sprintf(`\n******************************\n`+ `The warnings encountered during nullability annotation validation did\n`+ `not match the checked in file of expected warnings. The diffs are shown\n`+ `above. You have two options:\n`+ ` 1. Resolve the differences by editing the nullability annotations.\n`+ ` 2. Update the file of expected warnings by running:\n`+ ` cp %s %s\n`+ ` and submitting the updated file as part of your change.`, d.nullabilityWarningsFile, checkNullabilityWarnings) rule := android.NewRuleBuilder(pctx, ctx) rule.Command(). Text("("). Text("diff").Input(checkNullabilityWarnings).Input(d.nullabilityWarningsFile). Text("&&"). Text("touch").Output(d.checkNullabilityWarningsTimestamp). Text(") || ("). Text("echo").Flag("-e").Flag(`"` + msg + `"`). Text("; exit 38"). Text(")") rule.Build("nullabilityWarningsCheck", "nullability warnings check") } } func StubsDefaultsFactory() android.Module { module := &DocDefaults{} module.AddProperties( &JavadocProperties{}, &DroidstubsProperties{}, ) android.InitDefaultsModule(module) return module } var _ android.PrebuiltInterface = (*PrebuiltStubsSources)(nil) type PrebuiltStubsSourcesProperties struct { Srcs []string `android:"path"` } type PrebuiltStubsSources struct { android.ModuleBase android.DefaultableModuleBase prebuilt android.Prebuilt android.SdkBase properties PrebuiltStubsSourcesProperties stubsSrcJar android.Path } func (p *PrebuiltStubsSources) OutputFiles(tag string) (android.Paths, error) { switch tag { case "": return android.Paths{p.stubsSrcJar}, nil default: return nil, fmt.Errorf("unsupported module reference tag %q", tag) } } func (d *PrebuiltStubsSources) StubsSrcJar() android.Path { return d.stubsSrcJar } func (p *PrebuiltStubsSources) GenerateAndroidBuildActions(ctx android.ModuleContext) { if len(p.properties.Srcs) != 1 { ctx.PropertyErrorf("srcs", "must only specify one directory path or srcjar, contains %d paths", len(p.properties.Srcs)) return } src := p.properties.Srcs[0] if filepath.Ext(src) == ".srcjar" { // This is a srcjar. We can use it directly. p.stubsSrcJar = android.PathForModuleSrc(ctx, src) } else { outPath := android.PathForModuleOut(ctx, ctx.ModuleName()+"-"+"stubs.srcjar") // This is a directory. Glob the contents just in case the directory does not exist. srcGlob := src + "/**/*" srcPaths := android.PathsForModuleSrc(ctx, []string{srcGlob}) // Although PathForModuleSrc can return nil if either the path doesn't exist or // the path components are invalid it won't in this case because no components // are specified and the module directory must exist in order to get this far. srcDir := android.PathForModuleSrc(ctx).(android.SourcePath).Join(ctx, src) rule := android.NewRuleBuilder(pctx, ctx) rule.Command(). BuiltTool("soong_zip"). Flag("-write_if_changed"). Flag("-jar"). FlagWithOutput("-o ", outPath). FlagWithArg("-C ", srcDir.String()). FlagWithRspFileInputList("-r ", outPath.ReplaceExtension(ctx, "rsp"), srcPaths) rule.Restat() rule.Build("zip src", "Create srcjar from prebuilt source") p.stubsSrcJar = outPath } } func (p *PrebuiltStubsSources) Prebuilt() *android.Prebuilt { return &p.prebuilt } func (p *PrebuiltStubsSources) Name() string { return p.prebuilt.Name(p.ModuleBase.Name()) } // prebuilt_stubs_sources imports a set of java source files as if they were // generated by droidstubs. // // By default, a prebuilt_stubs_sources has a single variant that expects a // set of `.java` files generated by droidstubs. // // Specifying `host_supported: true` will produce two variants, one for use as a dependency of device modules and one // for host modules. // // Intended only for use by sdk snapshots. func PrebuiltStubsSourcesFactory() android.Module { module := &PrebuiltStubsSources{} module.AddProperties(&module.properties) android.InitPrebuiltModule(module, &module.properties.Srcs) android.InitSdkAwareModule(module) InitDroiddocModule(module, android.HostAndDeviceSupported) return module }