// Copyright (C) 2020 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 filesystem import ( "crypto/sha256" "fmt" "io" "path/filepath" "slices" "strconv" "strings" "android/soong/android" "android/soong/cc" "android/soong/linkerconfig" "github.com/google/blueprint" "github.com/google/blueprint/proptools" ) func init() { registerBuildComponents(android.InitRegistrationContext) } func registerBuildComponents(ctx android.RegistrationContext) { ctx.RegisterModuleType("android_filesystem", FilesystemFactory) ctx.RegisterModuleType("android_filesystem_defaults", filesystemDefaultsFactory) ctx.RegisterModuleType("android_system_image", SystemImageFactory) ctx.RegisterModuleType("avb_add_hash_footer", avbAddHashFooterFactory) ctx.RegisterModuleType("avb_add_hash_footer_defaults", avbAddHashFooterDefaultsFactory) ctx.RegisterModuleType("avb_gen_vbmeta_image", avbGenVbmetaImageFactory) ctx.RegisterModuleType("avb_gen_vbmeta_image_defaults", avbGenVbmetaImageDefaultsFactory) } type filesystem struct { android.ModuleBase android.PackagingBase android.DefaultableModuleBase properties FilesystemProperties output android.Path installDir android.InstallPath fileListFile android.Path // Keeps the entries installed from this filesystem entries []string filesystemBuilder filesystemBuilder } type filesystemBuilder interface { BuildLinkerConfigFile(ctx android.ModuleContext, builder *android.RuleBuilder, rebasedDir android.OutputPath) // Function that filters PackagingSpec in PackagingBase.GatherPackagingSpecs() FilterPackagingSpec(spec android.PackagingSpec) bool // Function that modifies PackagingSpec in PackagingBase.GatherPackagingSpecs() to customize. // For example, GSI system.img contains system_ext and product artifacts and their // relPathInPackage need to be rebased to system/system_ext and system/system_product. ModifyPackagingSpec(spec *android.PackagingSpec) // Function to check if the filesystem should not use `vintf_fragments` property, // but use `vintf_fragment` module type instead ShouldUseVintfFragmentModuleOnly() bool } var _ filesystemBuilder = (*filesystem)(nil) type SymlinkDefinition struct { Target *string Name *string } type FilesystemProperties struct { // When set to true, sign the image with avbtool. Default is false. Use_avb *bool // Path to the private key that avbtool will use to sign this filesystem image. // TODO(jiyong): allow apex_key to be specified here Avb_private_key *string `android:"path"` // Signing algorithm for avbtool. Default is SHA256_RSA4096. Avb_algorithm *string // Hash algorithm used for avbtool (for descriptors). This is passed as hash_algorithm to // avbtool. Default used by avbtool is sha1. Avb_hash_algorithm *string // The index used to prevent rollback of the image. Only used if use_avb is true. Rollback_index *int64 // Name of the partition stored in vbmeta desc. Defaults to the name of this module. Partition_name *string // Type of the filesystem. Currently, ext4, erofs, cpio, and compressed_cpio are supported. Default // is ext4. Type *string // Identifies which partition this is for //visibility:any_system_image (and others) visibility // checks, and will be used in the future for API surface checks. Partition_type *string // file_contexts file to make image. Currently, only ext4 is supported. File_contexts *string `android:"path"` // Base directory relative to root, to which deps are installed, e.g. "system". Default is "." // (root). Base_dir *string // Directories to be created under root. e.g. /dev, /proc, etc. Dirs proptools.Configurable[[]string] // Symbolic links to be created under root with "ln -sf ". Symlinks []SymlinkDefinition // Seconds since unix epoch to override timestamps of file entries Fake_timestamp *string // When set, passed to mkuserimg_mke2fs --mke2fs_uuid & --mke2fs_hash_seed. // Otherwise, they'll be set as random which might cause indeterministic build output. Uuid *string // Mount point for this image. Default is "/" Mount_point *string // If set to the name of a partition ("system", "vendor", etc), this filesystem module // will also include the contents of the make-built staging directories. If any soong // modules would be installed to the same location as a make module, they will overwrite // the make version. Include_make_built_files string // When set, builds etc/event-log-tags file by merging logtags from all dependencies. // Default is false Build_logtags *bool // Install aconfig_flags.pb file for the modules installed in this partition. Gen_aconfig_flags_pb *bool Fsverity fsverityProperties // If this property is set to true, the filesystem will call ctx.UncheckedModule(), causing // it to not be built on checkbuilds. Used for the automatic migration from make to soong // build modules, where we want to emit some not-yet-working filesystems and we don't want them // to be built. Unchecked_module *bool `blueprint:"mutated"` Erofs ErofsProperties F2fs F2fsProperties Linker_config LinkerConfigProperties // Determines if the module is auto-generated from Soong or not. If the module is // auto-generated, its deps are exempted from visibility enforcement. Is_auto_generated *bool // Path to the dev nodes description file. This is only needed for building the ramdisk // partition and should not be explicitly specified. Dev_nodes_description_file *string `android:"path" blueprint:"mutated"` } // Additional properties required to generate erofs FS partitions. type ErofsProperties struct { // Compressor and Compression level passed to mkfs.erofs. e.g. (lz4hc,9) // Please see external/erofs-utils/README for complete documentation. Compressor *string // Used as --compress-hints for mkfs.erofs Compress_hints *string `android:"path"` Sparse *bool } // Additional properties required to generate f2fs FS partitions. type F2fsProperties struct { Sparse *bool } type LinkerConfigProperties struct { // Build a linker.config.pb file Gen_linker_config *bool // List of files (in .json format) that will be converted to a linker config file (in .pb format). // The linker config file be installed in the filesystem at /etc/linker.config.pb Linker_config_srcs []string `android:"path"` } // android_filesystem packages a set of modules and their transitive dependencies into a filesystem // image. The filesystem images are expected to be mounted in the target device, which means the // modules in the filesystem image are built for the target device (i.e. Android, not Linux host). // The modules are placed in the filesystem image just like they are installed to the ordinary // partitions like system.img. For example, cc_library modules are placed under ./lib[64] directory. func FilesystemFactory() android.Module { module := &filesystem{} module.filesystemBuilder = module initFilesystemModule(module, module) return module } func initFilesystemModule(module android.DefaultableModule, filesystemModule *filesystem) { module.AddProperties(&filesystemModule.properties) android.InitPackageModule(filesystemModule) filesystemModule.PackagingBase.DepsCollectFirstTargetOnly = true filesystemModule.PackagingBase.AllowHighPriorityDeps = true android.InitAndroidMultiTargetsArchModule(module, android.DeviceSupported, android.MultilibCommon) android.InitDefaultableModule(module) android.AddLoadHook(module, func(ctx android.LoadHookContext) { filesystemModule.setDevNodesDescriptionProp() }) } type depTag struct { blueprint.BaseDependencyTag android.PackagingItemAlwaysDepTag } var dependencyTag = depTag{} type depTagWithVisibilityEnforcementBypass struct { depTag } var _ android.ExcludeFromVisibilityEnforcementTag = (*depTagWithVisibilityEnforcementBypass)(nil) func (t depTagWithVisibilityEnforcementBypass) ExcludeFromVisibilityEnforcement() {} var dependencyTagWithVisibilityEnforcementBypass = depTagWithVisibilityEnforcementBypass{} // ramdiskDevNodesDescription is the name of the filegroup module that provides the file that // contains the description of dev nodes added to the CPIO archive for the ramdisk partition. const ramdiskDevNodesDescription = "ramdisk_node_list" func (f *filesystem) setDevNodesDescriptionProp() { if proptools.String(f.properties.Partition_name) == "ramdisk" { f.properties.Dev_nodes_description_file = proptools.StringPtr(":" + ramdiskDevNodesDescription) } } func (f *filesystem) DepsMutator(ctx android.BottomUpMutatorContext) { if proptools.Bool(f.properties.Is_auto_generated) { f.AddDeps(ctx, dependencyTagWithVisibilityEnforcementBypass) } else { f.AddDeps(ctx, dependencyTag) } } type fsType int const ( ext4Type fsType = iota erofsType f2fsType compressedCpioType cpioType // uncompressed unknown ) func (fs fsType) IsUnknown() bool { return fs == unknown } type FilesystemInfo struct { // A text file containing the list of paths installed on the partition. FileListFile android.Path } var FilesystemProvider = blueprint.NewProvider[FilesystemInfo]() func GetFsTypeFromString(ctx android.EarlyModuleContext, typeStr string) fsType { switch typeStr { case "ext4": return ext4Type case "erofs": return erofsType case "f2fs": return f2fsType case "compressed_cpio": return compressedCpioType case "cpio": return cpioType default: return unknown } } func (f *filesystem) fsType(ctx android.ModuleContext) fsType { typeStr := proptools.StringDefault(f.properties.Type, "ext4") fsType := GetFsTypeFromString(ctx, typeStr) if fsType == unknown { ctx.PropertyErrorf("type", "%q not supported", typeStr) } return fsType } func (f *filesystem) installFileName() string { return f.BaseModuleName() + ".img" } func (f *filesystem) partitionName() string { return proptools.StringDefault(f.properties.Partition_name, f.Name()) } func (f *filesystem) FilterPackagingSpec(ps android.PackagingSpec) bool { // Filesystem module respects the installation semantic. A PackagingSpec from a module with // IsSkipInstall() is skipped. if ps.SkipInstall() { return false } if proptools.Bool(f.properties.Is_auto_generated) { // TODO (spandandas): Remove this. pt := f.PartitionType() return ps.Partition() == pt || strings.HasPrefix(ps.Partition(), pt+"/") } return true } func (f *filesystem) ModifyPackagingSpec(ps *android.PackagingSpec) { // Sometimes, android.modulePartition() returns a path with >1 path components. // This makes the partition field of packagingSpecs have multiple components, like // "system/product". Right now, the filesystem module doesn't look at the partition field // when deciding what path to install the file under, only the RelPathInPackage field, so // we move the later path components from partition to relPathInPackage. This should probably // be revisited in the future. prefix := f.PartitionType() + "/" if strings.HasPrefix(ps.Partition(), prefix) { subPartition := strings.TrimPrefix(ps.Partition(), prefix) ps.SetPartition(f.PartitionType()) ps.SetRelPathInPackage(filepath.Join(subPartition, ps.RelPathInPackage())) } } var pctx = android.NewPackageContext("android/soong/filesystem") func (f *filesystem) GenerateAndroidBuildActions(ctx android.ModuleContext) { validatePartitionType(ctx, f) if f.filesystemBuilder.ShouldUseVintfFragmentModuleOnly() { f.validateVintfFragments(ctx) } switch f.fsType(ctx) { case ext4Type, erofsType, f2fsType: f.output = f.buildImageUsingBuildImage(ctx) case compressedCpioType: f.output = f.buildCpioImage(ctx, true) case cpioType: f.output = f.buildCpioImage(ctx, false) default: return } f.installDir = android.PathForModuleInstall(ctx, "etc") ctx.InstallFile(f.installDir, f.installFileName(), f.output) ctx.SetOutputFiles([]android.Path{f.output}, "") fileListFile := android.PathForModuleOut(ctx, "fileList") android.WriteFileRule(ctx, fileListFile, f.installedFilesList()) android.SetProvider(ctx, FilesystemProvider, FilesystemInfo{ FileListFile: fileListFile, }) f.fileListFile = fileListFile if proptools.Bool(f.properties.Unchecked_module) { ctx.UncheckedModule() } } func (f *filesystem) validateVintfFragments(ctx android.ModuleContext) { visitedModule := map[string]bool{} packagingSpecs := f.gatherFilteredPackagingSpecs(ctx) moduleInFileSystem := func(mod android.Module) bool { for _, ps := range android.OtherModuleProviderOrDefault( ctx, mod, android.InstallFilesProvider).PackagingSpecs { if _, ok := packagingSpecs[ps.RelPathInPackage()]; ok { return true } } return false } ctx.WalkDeps(func(child, parent android.Module) bool { if visitedModule[child.Name()] { return false } if !moduleInFileSystem(child) { visitedModule[child.Name()] = true return true } if vintfFragments := child.VintfFragments(ctx); vintfFragments != nil { ctx.PropertyErrorf( "vintf_fragments", "Module %s is referenced by soong-defined filesystem %s with property vintf_fragments(%s) in use."+ " Use vintf_fragment_modules property instead.", child.Name(), f.BaseModuleName(), strings.Join(vintfFragments, ", "), ) } visitedModule[child.Name()] = true return true }) } func (f *filesystem) appendToEntry(ctx android.ModuleContext, installedFile android.Path) { partitionBaseDir := android.PathForModuleOut(ctx, "root", f.partitionName()).String() + "/" relPath, inTargetPartition := strings.CutPrefix(installedFile.String(), partitionBaseDir) if inTargetPartition { f.entries = append(f.entries, relPath) } } func (f *filesystem) installedFilesList() string { installedFilePaths := android.FirstUniqueStrings(f.entries) slices.Sort(installedFilePaths) return strings.Join(installedFilePaths, "\n") } func validatePartitionType(ctx android.ModuleContext, p partition) { if !android.InList(p.PartitionType(), validPartitions) { ctx.PropertyErrorf("partition_type", "partition_type must be one of %s, found: %s", validPartitions, p.PartitionType()) } ctx.VisitDirectDepsWithTag(android.DefaultsDepTag, func(m android.Module) { if fdm, ok := m.(*filesystemDefaults); ok { if p.PartitionType() != fdm.PartitionType() { ctx.PropertyErrorf("partition_type", "%s doesn't match with the partition type %s of the filesystem default module %s", p.PartitionType(), fdm.PartitionType(), m.Name()) } } }) } // Copy extra files/dirs that are not from the `deps` property to `rootDir`, checking for conflicts with files // already in `rootDir`. func (f *filesystem) buildNonDepsFiles(ctx android.ModuleContext, builder *android.RuleBuilder, rootDir android.OutputPath) { // create dirs and symlinks for _, dir := range f.properties.Dirs.GetOrDefault(ctx, nil) { // OutputPath.Join verifies dir builder.Command().Text("mkdir -p").Text(rootDir.Join(ctx, dir).String()) } for _, symlink := range f.properties.Symlinks { name := strings.TrimSpace(proptools.String(symlink.Name)) target := strings.TrimSpace(proptools.String(symlink.Target)) if name == "" { ctx.PropertyErrorf("symlinks", "Name can't be empty") continue } if target == "" { ctx.PropertyErrorf("symlinks", "Target can't be empty") continue } // OutputPath.Join verifies name. don't need to verify target. dst := rootDir.Join(ctx, name) builder.Command().Textf("(! [ -e %s -o -L %s ] || (echo \"%s already exists from an earlier stage of the build\" && exit 1))", dst, dst, dst) builder.Command().Text("mkdir -p").Text(filepath.Dir(dst.String())) builder.Command().Text("ln -sf").Text(proptools.ShellEscape(target)).Text(dst.String()) f.appendToEntry(ctx, dst) } } func (f *filesystem) copyPackagingSpecs(ctx android.ModuleContext, builder *android.RuleBuilder, specs map[string]android.PackagingSpec, rootDir, rebasedDir android.WritablePath) []string { rootDirSpecs := make(map[string]android.PackagingSpec) rebasedDirSpecs := make(map[string]android.PackagingSpec) for rel, spec := range specs { if spec.Partition() == "root" { rootDirSpecs[rel] = spec } else { rebasedDirSpecs[rel] = spec } } dirsToSpecs := make(map[android.WritablePath]map[string]android.PackagingSpec) dirsToSpecs[rootDir] = rootDirSpecs dirsToSpecs[rebasedDir] = rebasedDirSpecs return f.CopySpecsToDirs(ctx, builder, dirsToSpecs) } func (f *filesystem) copyFilesToProductOut(ctx android.ModuleContext, builder *android.RuleBuilder, rebasedDir android.OutputPath) { if f.Name() != ctx.Config().SoongDefinedSystemImage() { return } installPath := android.PathForModuleInPartitionInstall(ctx, f.partitionName()) builder.Command().Textf("cp -prf %s/* %s", rebasedDir, installPath) } func (f *filesystem) buildImageUsingBuildImage(ctx android.ModuleContext) android.Path { rootDir := android.PathForModuleOut(ctx, "root").OutputPath rebasedDir := rootDir if f.properties.Base_dir != nil { rebasedDir = rootDir.Join(ctx, *f.properties.Base_dir) } builder := android.NewRuleBuilder(pctx, ctx) // Wipe the root dir to get rid of leftover files from prior builds builder.Command().Textf("rm -rf %s && mkdir -p %s", rootDir, rootDir) specs := f.gatherFilteredPackagingSpecs(ctx) f.entries = f.copyPackagingSpecs(ctx, builder, specs, rootDir, rebasedDir) f.buildNonDepsFiles(ctx, builder, rootDir) f.addMakeBuiltFiles(ctx, builder, rootDir) f.buildFsverityMetadataFiles(ctx, builder, specs, rootDir, rebasedDir) f.buildEventLogtagsFile(ctx, builder, rebasedDir) f.buildAconfigFlagsFiles(ctx, builder, specs, rebasedDir) f.filesystemBuilder.BuildLinkerConfigFile(ctx, builder, rebasedDir) f.copyFilesToProductOut(ctx, builder, rebasedDir) // run host_init_verifier // Ideally we should have a concept of pluggable linters that verify the generated image. // While such concept is not implement this will do. // TODO(b/263574231): substitute with pluggable linter. builder.Command(). BuiltTool("host_init_verifier"). FlagWithArg("--out_system=", rootDir.String()+"/system") propFile, toolDeps := f.buildPropFile(ctx) output := android.PathForModuleOut(ctx, f.installFileName()) builder.Command().BuiltTool("build_image"). Text(rootDir.String()). // input directory Input(propFile). Implicits(toolDeps). Output(output). Text(rootDir.String()) // directory where to find fs_config_files|dirs // rootDir is not deleted. Might be useful for quick inspection. builder.Build("build_filesystem_image", fmt.Sprintf("Creating filesystem %s", f.BaseModuleName())) return output } func (f *filesystem) buildFileContexts(ctx android.ModuleContext) android.Path { builder := android.NewRuleBuilder(pctx, ctx) fcBin := android.PathForModuleOut(ctx, "file_contexts.bin") builder.Command().BuiltTool("sefcontext_compile"). FlagWithOutput("-o ", fcBin). Input(android.PathForModuleSrc(ctx, proptools.String(f.properties.File_contexts))) builder.Build("build_filesystem_file_contexts", fmt.Sprintf("Creating filesystem file contexts for %s", f.BaseModuleName())) return fcBin } // Calculates avb_salt from entry list (sorted) for deterministic output. func (f *filesystem) salt() string { return sha1sum(f.entries) } func (f *filesystem) buildPropFile(ctx android.ModuleContext) (android.Path, android.Paths) { var deps android.Paths var propFileString strings.Builder addStr := func(name string, value string) { propFileString.WriteString(name) propFileString.WriteRune('=') propFileString.WriteString(value) propFileString.WriteRune('\n') } addPath := func(name string, path android.Path) { addStr(name, path.String()) deps = append(deps, path) } // Type string that build_image.py accepts. fsTypeStr := func(t fsType) string { switch t { // TODO(372522486): add more types like f2fs, erofs, etc. case ext4Type: return "ext4" case erofsType: return "erofs" case f2fsType: return "f2fs" } panic(fmt.Errorf("unsupported fs type %v", t)) } addStr("fs_type", fsTypeStr(f.fsType(ctx))) addStr("mount_point", proptools.StringDefault(f.properties.Mount_point, "/")) addStr("use_dynamic_partition_size", "true") addPath("ext_mkuserimg", ctx.Config().HostToolPath(ctx, "mkuserimg_mke2fs")) // b/177813163 deps of the host tools have to be added. Remove this. for _, t := range []string{"mke2fs", "e2fsdroid", "tune2fs"} { deps = append(deps, ctx.Config().HostToolPath(ctx, t)) } if proptools.Bool(f.properties.Use_avb) { addStr("avb_hashtree_enable", "true") addPath("avb_avbtool", ctx.Config().HostToolPath(ctx, "avbtool")) algorithm := proptools.StringDefault(f.properties.Avb_algorithm, "SHA256_RSA4096") addStr("avb_algorithm", algorithm) key := android.PathForModuleSrc(ctx, proptools.String(f.properties.Avb_private_key)) addPath("avb_key_path", key) addStr("partition_name", f.partitionName()) avb_add_hashtree_footer_args := "--do_not_generate_fec" if hashAlgorithm := proptools.String(f.properties.Avb_hash_algorithm); hashAlgorithm != "" { avb_add_hashtree_footer_args += " --hash_algorithm " + hashAlgorithm } if f.properties.Rollback_index != nil { rollbackIndex := proptools.Int(f.properties.Rollback_index) if rollbackIndex < 0 { ctx.PropertyErrorf("rollback_index", "Rollback index must be non-negative") } avb_add_hashtree_footer_args += " --rollback_index " + strconv.Itoa(rollbackIndex) } securityPatchKey := "com.android.build." + f.partitionName() + ".security_patch" securityPatchValue := ctx.Config().PlatformSecurityPatch() avb_add_hashtree_footer_args += " --prop " + securityPatchKey + ":" + securityPatchValue addStr("avb_add_hashtree_footer_args", avb_add_hashtree_footer_args) addStr("avb_salt", f.salt()) } if proptools.String(f.properties.File_contexts) != "" { addPath("selinux_fc", f.buildFileContexts(ctx)) } if timestamp := proptools.String(f.properties.Fake_timestamp); timestamp != "" { addStr("timestamp", timestamp) } if uuid := proptools.String(f.properties.Uuid); uuid != "" { addStr("uuid", uuid) addStr("hash_seed", uuid) } // TODO(b/381120092): This should only be added if none of the size-related properties are set, // but currently soong built partitions don't have size properties. Make code: // https://cs.android.com/android/platform/superproject/main/+/main:build/make/core/Makefile;l=2262;drc=39cd33701c9278db0e7e481a090605f428d5b12d // Make uses system_disable_sparse but disable_sparse has the same effect, and we shouldn't need // to qualify it because each partition gets its own property file built. addStr("disable_sparse", "true") fst := f.fsType(ctx) switch fst { case erofsType: // Add erofs properties if compressor := f.properties.Erofs.Compressor; compressor != nil { addStr("erofs_default_compressor", proptools.String(compressor)) } if compressHints := f.properties.Erofs.Compress_hints; compressHints != nil { addPath("erofs_default_compress_hints", android.PathForModuleSrc(ctx, *compressHints)) } if proptools.BoolDefault(f.properties.Erofs.Sparse, true) { // https://source.corp.google.com/h/googleplex-android/platform/build/+/88b1c67239ca545b11580237242774b411f2fed9:core/Makefile;l=2292;bpv=1;bpt=0;drc=ea8f34bc1d6e63656b4ec32f2391e9d54b3ebb6b addStr("erofs_sparse_flag", "-s") } case f2fsType: if proptools.BoolDefault(f.properties.F2fs.Sparse, true) { // https://source.corp.google.com/h/googleplex-android/platform/build/+/88b1c67239ca545b11580237242774b411f2fed9:core/Makefile;l=2294;drc=ea8f34bc1d6e63656b4ec32f2391e9d54b3ebb6b;bpv=1;bpt=0 addStr("f2fs_sparse_flag", "-S") } } f.checkFsTypePropertyError(ctx, fst, fsTypeStr(fst)) propFile := android.PathForModuleOut(ctx, "prop") android.WriteFileRuleVerbatim(ctx, propFile, propFileString.String()) return propFile, deps } // This method checks if there is any property set for the fstype(s) other than // the current fstype. func (f *filesystem) checkFsTypePropertyError(ctx android.ModuleContext, t fsType, fs string) { raiseError := func(otherFsType, currentFsType string) { errMsg := fmt.Sprintf("%s is non-empty, but FS type is %s\n. Please delete %s properties if this partition should use %s\n", otherFsType, currentFsType, otherFsType, currentFsType) ctx.PropertyErrorf(otherFsType, errMsg) } if t != erofsType { if f.properties.Erofs.Compressor != nil || f.properties.Erofs.Compress_hints != nil || f.properties.Erofs.Sparse != nil { raiseError("erofs", fs) } } if t != f2fsType { if f.properties.F2fs.Sparse != nil { raiseError("f2fs", fs) } } } func (f *filesystem) buildCpioImage(ctx android.ModuleContext, compressed bool) android.Path { if proptools.Bool(f.properties.Use_avb) { ctx.PropertyErrorf("use_avb", "signing compresed cpio image using avbtool is not supported."+ "Consider adding this to bootimg module and signing the entire boot image.") } if proptools.String(f.properties.File_contexts) != "" { ctx.PropertyErrorf("file_contexts", "file_contexts is not supported for compressed cpio image.") } if f.properties.Include_make_built_files != "" { ctx.PropertyErrorf("include_make_built_files", "include_make_built_files is not supported for compressed cpio image.") } rootDir := android.PathForModuleOut(ctx, "root").OutputPath rebasedDir := rootDir if f.properties.Base_dir != nil { rebasedDir = rootDir.Join(ctx, *f.properties.Base_dir) } builder := android.NewRuleBuilder(pctx, ctx) // Wipe the root dir to get rid of leftover files from prior builds builder.Command().Textf("rm -rf %s && mkdir -p %s", rootDir, rootDir) specs := f.gatherFilteredPackagingSpecs(ctx) f.entries = f.copyPackagingSpecs(ctx, builder, specs, rootDir, rebasedDir) f.buildNonDepsFiles(ctx, builder, rootDir) f.buildFsverityMetadataFiles(ctx, builder, specs, rootDir, rebasedDir) f.buildEventLogtagsFile(ctx, builder, rebasedDir) f.buildAconfigFlagsFiles(ctx, builder, specs, rebasedDir) f.filesystemBuilder.BuildLinkerConfigFile(ctx, builder, rebasedDir) f.copyFilesToProductOut(ctx, builder, rebasedDir) output := android.PathForModuleOut(ctx, f.installFileName()) cmd := builder.Command(). BuiltTool("mkbootfs"). Text(rootDir.String()) // input directory if nodeList := f.properties.Dev_nodes_description_file; nodeList != nil { cmd.FlagWithInput("-n ", android.PathForModuleSrc(ctx, proptools.String(nodeList))) } if compressed { cmd.Text("|"). BuiltTool("lz4"). Flag("--favor-decSpeed"). // for faster boot Flag("-12"). // maximum compression level Flag("-l"). // legacy format for kernel Text(">").Output(output) } else { cmd.Text(">").Output(output) } // rootDir is not deleted. Might be useful for quick inspection. builder.Build("build_cpio_image", fmt.Sprintf("Creating filesystem %s", f.BaseModuleName())) return output } var validPartitions = []string{ "system", "userdata", "cache", "system_other", "vendor", "product", "system_ext", "odm", "vendor_dlkm", "odm_dlkm", "system_dlkm", "ramdisk", "vendor_ramdisk", } func (f *filesystem) addMakeBuiltFiles(ctx android.ModuleContext, builder *android.RuleBuilder, rootDir android.Path) { partition := f.properties.Include_make_built_files if partition == "" { return } if !slices.Contains(validPartitions, partition) { ctx.PropertyErrorf("include_make_built_files", "Expected one of %#v, found %q", validPartitions, partition) return } stampFile := fmt.Sprintf("target/product/%s/obj/PACKAGING/%s_intermediates/staging_dir.stamp", ctx.Config().DeviceName(), partition) fileListFile := fmt.Sprintf("target/product/%s/obj/PACKAGING/%s_intermediates/file_list.txt", ctx.Config().DeviceName(), partition) stagingDir := fmt.Sprintf("target/product/%s/%s", ctx.Config().DeviceName(), partition) builder.Command().BuiltTool("merge_directories"). Implicit(android.PathForArbitraryOutput(ctx, stampFile)). Text("--ignore-duplicates"). FlagWithInput("--file-list", android.PathForArbitraryOutput(ctx, fileListFile)). Text(rootDir.String()). Text(android.PathForArbitraryOutput(ctx, stagingDir).String()) } func (f *filesystem) buildEventLogtagsFile(ctx android.ModuleContext, builder *android.RuleBuilder, rebasedDir android.OutputPath) { if !proptools.Bool(f.properties.Build_logtags) { return } logtagsFilePaths := make(map[string]bool) ctx.WalkDeps(func(child, parent android.Module) bool { if logtagsInfo, ok := android.OtherModuleProvider(ctx, child, android.LogtagsProviderKey); ok { for _, path := range logtagsInfo.Logtags { logtagsFilePaths[path.String()] = true } } return true }) if len(logtagsFilePaths) == 0 { return } etcPath := rebasedDir.Join(ctx, "etc") eventLogtagsPath := etcPath.Join(ctx, "event-log-tags") builder.Command().Text("mkdir").Flag("-p").Text(etcPath.String()) cmd := builder.Command().BuiltTool("merge-event-log-tags"). FlagWithArg("-o ", eventLogtagsPath.String()). FlagWithInput("-m ", android.MergedLogtagsPath(ctx)) for _, path := range android.SortedKeys(logtagsFilePaths) { cmd.Text(path) } f.appendToEntry(ctx, eventLogtagsPath) } func (f *filesystem) BuildLinkerConfigFile(ctx android.ModuleContext, builder *android.RuleBuilder, rebasedDir android.OutputPath) { if !proptools.Bool(f.properties.Linker_config.Gen_linker_config) { return } provideModules, _ := f.getLibsForLinkerConfig(ctx) output := rebasedDir.Join(ctx, "etc", "linker.config.pb") linkerconfig.BuildLinkerConfig(ctx, builder, android.PathsForModuleSrc(ctx, f.properties.Linker_config.Linker_config_srcs), provideModules, nil, output) f.appendToEntry(ctx, output) } func (f *filesystem) ShouldUseVintfFragmentModuleOnly() bool { return false } type partition interface { PartitionType() string } func (f *filesystem) PartitionType() string { return proptools.StringDefault(f.properties.Partition_type, "system") } var _ partition = (*filesystem)(nil) var _ android.AndroidMkEntriesProvider = (*filesystem)(nil) // Implements android.AndroidMkEntriesProvider func (f *filesystem) AndroidMkEntries() []android.AndroidMkEntries { return []android.AndroidMkEntries{android.AndroidMkEntries{ Class: "ETC", OutputFile: android.OptionalPathForPath(f.output), ExtraEntries: []android.AndroidMkExtraEntriesFunc{ func(ctx android.AndroidMkExtraEntriesContext, entries *android.AndroidMkEntries) { entries.SetString("LOCAL_MODULE_PATH", f.installDir.String()) entries.SetString("LOCAL_INSTALLED_MODULE_STEM", f.installFileName()) entries.SetString("LOCAL_FILESYSTEM_FILELIST", f.fileListFile.String()) }, }, }} } // Filesystem is the public interface for the filesystem struct. Currently, it's only for the apex // package to have access to the output file. type Filesystem interface { android.Module OutputPath() android.Path // Returns the output file that is signed by avbtool. If this module is not signed, returns // nil. SignedOutputPath() android.Path } var _ Filesystem = (*filesystem)(nil) func (f *filesystem) OutputPath() android.Path { return f.output } func (f *filesystem) SignedOutputPath() android.Path { if proptools.Bool(f.properties.Use_avb) { return f.OutputPath() } return nil } // Filter the result of GatherPackagingSpecs to discard items targeting outside "system" partition. // Note that "apex" module installs its contents to "apex"(fake partition) as well // for symbol lookup by imitating "activated" paths. func (f *filesystem) gatherFilteredPackagingSpecs(ctx android.ModuleContext) map[string]android.PackagingSpec { specs := f.PackagingBase.GatherPackagingSpecsWithFilterAndModifier(ctx, f.filesystemBuilder.FilterPackagingSpec, f.filesystemBuilder.ModifyPackagingSpec) return specs } func sha1sum(values []string) string { h := sha256.New() for _, value := range values { io.WriteString(h, value) } return fmt.Sprintf("%x", h.Sum(nil)) } // Base cc.UseCoverage var _ cc.UseCoverage = (*filesystem)(nil) func (*filesystem) IsNativeCoverageNeeded(ctx cc.IsNativeCoverageNeededContext) bool { return ctx.Device() && ctx.DeviceConfig().NativeCoverageEnabled() } // android_filesystem_defaults type filesystemDefaults struct { android.ModuleBase android.DefaultsModuleBase properties FilesystemProperties } // android_filesystem_defaults is a default module for android_filesystem and android_system_image func filesystemDefaultsFactory() android.Module { module := &filesystemDefaults{} module.AddProperties(&module.properties) module.AddProperties(&android.PackagingProperties{}) android.InitDefaultsModule(module) return module } func (f *filesystemDefaults) PartitionType() string { return proptools.StringDefault(f.properties.Partition_type, "system") } var _ partition = (*filesystemDefaults)(nil) func (f *filesystemDefaults) GenerateAndroidBuildActions(ctx android.ModuleContext) { validatePartitionType(ctx, f) } // getLibsForLinkerConfig returns // 1. A list of libraries installed in this filesystem // 2. A list of dep libraries _not_ installed in this filesystem // // `linkerconfig.BuildLinkerConfig` will convert these two to a linker.config.pb for the filesystem // (1) will be added to --provideLibs if they are C libraries with a stable interface (has stubs) // (2) will be added to --requireLibs if they are C libraries with a stable interface (has stubs) func (f *filesystem) getLibsForLinkerConfig(ctx android.ModuleContext) ([]android.Module, []android.Module) { // we need "Module"s for packaging items modulesInPackageByModule := make(map[android.Module]bool) modulesInPackageByName := make(map[string]bool) deps := f.gatherFilteredPackagingSpecs(ctx) ctx.WalkDeps(func(child, parent android.Module) bool { for _, ps := range android.OtherModuleProviderOrDefault( ctx, child, android.InstallFilesProvider).PackagingSpecs { if _, ok := deps[ps.RelPathInPackage()]; ok { modulesInPackageByModule[child] = true modulesInPackageByName[child.Name()] = true return true } } return true }) provideModules := make([]android.Module, 0, len(modulesInPackageByModule)) for mod := range modulesInPackageByModule { provideModules = append(provideModules, mod) } var requireModules []android.Module ctx.WalkDeps(func(child, parent android.Module) bool { _, parentInPackage := modulesInPackageByModule[parent] _, childInPackageName := modulesInPackageByName[child.Name()] // When parent is in the package, and child (or its variant) is not, this can be from an interface. if parentInPackage && !childInPackageName { requireModules = append(requireModules, child) } return true }) return provideModules, requireModules } // Checks that the given file doesn't exceed the given size, and will also print a warning // if it's nearing the maximum size. Equivalent to assert-max-image-size in make: // https://cs.android.com/android/platform/superproject/main/+/main:build/make/core/definitions.mk;l=3455;drc=993c4de29a02a6accd60ceaaee153307e1a18d10 func assertMaxImageSize(builder *android.RuleBuilder, image android.Path, maxSize int64, addAvbLater bool) { if addAvbLater { // The value 69632 is derived from MAX_VBMETA_SIZE + MAX_FOOTER_SIZE in avbtool. // Logic copied from make: // https://cs.android.com/android/platform/superproject/main/+/main:build/make/core/Makefile;l=228;drc=a6a0007ef24e16c0b79f439beac4a118416717e6 maxSize -= 69632 } cmd := builder.Command() cmd.Textf(`file="%s"; maxsize="%d";`+ `total=$(stat -c "%%s" "$file" | tr -d '\n');`+ `if [ "$total" -gt "$maxsize" ]; then `+ ` echo "error: $file too large ($total > $maxsize)";`+ ` false;`+ `elif [ "$total" -gt $((maxsize - 32768)) ]; then `+ ` echo "WARNING: $file approaching size limit ($total now; limit $maxsize)";`+ `fi`, image, maxSize) cmd.Implicit(image) }