// Copyright 2018 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 android import ( "crypto/sha256" "fmt" "path/filepath" "sort" "strings" "testing" "github.com/google/blueprint" "github.com/google/blueprint/proptools" "google.golang.org/protobuf/encoding/prototext" "google.golang.org/protobuf/proto" "android/soong/cmd/sbox/sbox_proto" "android/soong/remoteexec" "android/soong/response" "android/soong/shared" ) const sboxSandboxBaseDir = "__SBOX_SANDBOX_DIR__" const sboxOutSubDir = "out" const sboxToolsSubDir = "tools" const sboxOutDir = sboxSandboxBaseDir + "/" + sboxOutSubDir // RuleBuilder provides an alternative to ModuleContext.Rule and ModuleContext.Build to add a command line to the build // graph. type RuleBuilder struct { pctx PackageContext ctx BuilderContext commands []*RuleBuilderCommand installs RuleBuilderInstalls temporariesSet map[WritablePath]bool restat bool sbox bool highmem bool remoteable RemoteRuleSupports rbeParams *remoteexec.REParams outDir WritablePath sboxOutSubDir string sboxTools bool sboxInputs bool sboxManifestPath WritablePath missingDeps []string } // NewRuleBuilder returns a newly created RuleBuilder. func NewRuleBuilder(pctx PackageContext, ctx BuilderContext) *RuleBuilder { return &RuleBuilder{ pctx: pctx, ctx: ctx, temporariesSet: make(map[WritablePath]bool), sboxOutSubDir: sboxOutSubDir, } } // SetSboxOutDirDirAsEmpty sets the out subdirectory to an empty string // This is useful for sandboxing actions that change the execution root to a path in out/ (e.g mixed builds) // For such actions, SetSboxOutDirDirAsEmpty ensures that the path does not become $SBOX_SANDBOX_DIR/out/out/bazel/output/execroot/__main__/... func (rb *RuleBuilder) SetSboxOutDirDirAsEmpty() *RuleBuilder { rb.sboxOutSubDir = "" return rb } // RuleBuilderInstall is a tuple of install from and to locations. type RuleBuilderInstall struct { From Path To string } type RuleBuilderInstalls []RuleBuilderInstall // String returns the RuleBuilderInstalls in the form used by $(call copy-many-files) in Make, a space separated // list of from:to tuples. func (installs RuleBuilderInstalls) String() string { sb := strings.Builder{} for i, install := range installs { if i != 0 { sb.WriteRune(' ') } sb.WriteString(install.From.String()) sb.WriteRune(':') sb.WriteString(install.To) } return sb.String() } // MissingDeps adds modules to the list of missing dependencies. If MissingDeps // is called with a non-empty input, any call to Build will result in a rule // that will print an error listing the missing dependencies and fail. // MissingDeps should only be called if Config.AllowMissingDependencies() is // true. func (r *RuleBuilder) MissingDeps(missingDeps []string) { r.missingDeps = append(r.missingDeps, missingDeps...) } // Restat marks the rule as a restat rule, which will be passed to ModuleContext.Rule in BuildParams.Restat. func (r *RuleBuilder) Restat() *RuleBuilder { r.restat = true return r } // HighMem marks the rule as a high memory rule, which will limit how many run in parallel with other high memory // rules. func (r *RuleBuilder) HighMem() *RuleBuilder { r.highmem = true return r } // Remoteable marks the rule as supporting remote execution. func (r *RuleBuilder) Remoteable(supports RemoteRuleSupports) *RuleBuilder { r.remoteable = supports return r } // Rewrapper marks the rule as running inside rewrapper using the given params in order to support // running on RBE. During RuleBuilder.Build the params will be combined with the inputs, outputs // and tools known to RuleBuilder to prepend an appropriate rewrapper command line to the rule's // command line. func (r *RuleBuilder) Rewrapper(params *remoteexec.REParams) *RuleBuilder { if !r.sboxInputs { panic(fmt.Errorf("RuleBuilder.Rewrapper must be called after RuleBuilder.SandboxInputs")) } r.rbeParams = params return r } // Sbox marks the rule as needing to be wrapped by sbox. The outputDir should point to the output // directory that sbox will wipe. It should not be written to by any other rule. manifestPath should // point to a location where sbox's manifest will be written and must be outside outputDir. sbox // will ensure that all outputs have been written, and will discard any output files that were not // specified. func (r *RuleBuilder) Sbox(outputDir WritablePath, manifestPath WritablePath) *RuleBuilder { if r.sbox { panic("Sbox() may not be called more than once") } if len(r.commands) > 0 { panic("Sbox() may not be called after Command()") } r.sbox = true r.outDir = outputDir r.sboxManifestPath = manifestPath return r } // SandboxTools enables tool sandboxing for the rule by copying any referenced tools into the // sandbox. func (r *RuleBuilder) SandboxTools() *RuleBuilder { if !r.sbox { panic("SandboxTools() must be called after Sbox()") } if len(r.commands) > 0 { panic("SandboxTools() may not be called after Command()") } r.sboxTools = true return r } // SandboxInputs enables input sandboxing for the rule by copying any referenced inputs into the // sandbox. It also implies SandboxTools(). // // Sandboxing inputs requires RuleBuilder to be aware of all references to input paths. Paths // that are passed to RuleBuilder outside of the methods that expect inputs, for example // FlagWithArg, must use RuleBuilderCommand.PathForInput to translate the path to one that matches // the sandbox layout. func (r *RuleBuilder) SandboxInputs() *RuleBuilder { if !r.sbox { panic("SandboxInputs() must be called after Sbox()") } if len(r.commands) > 0 { panic("SandboxInputs() may not be called after Command()") } r.sboxTools = true r.sboxInputs = true return r } // Install associates an output of the rule with an install location, which can be retrieved later using // RuleBuilder.Installs. func (r *RuleBuilder) Install(from Path, to string) { r.installs = append(r.installs, RuleBuilderInstall{from, to}) } // Command returns a new RuleBuilderCommand for the rule. The commands will be ordered in the rule by when they were // created by this method. That can be mutated through their methods in any order, as long as the mutations do not // race with any call to Build. func (r *RuleBuilder) Command() *RuleBuilderCommand { command := &RuleBuilderCommand{ rule: r, } r.commands = append(r.commands, command) return command } // Temporary marks an output of a command as an intermediate file that will be used as an input to another command // in the same rule, and should not be listed in Outputs. func (r *RuleBuilder) Temporary(path WritablePath) { r.temporariesSet[path] = true } // DeleteTemporaryFiles adds a command to the rule that deletes any outputs that have been marked using Temporary // when the rule runs. DeleteTemporaryFiles should be called after all calls to Temporary. func (r *RuleBuilder) DeleteTemporaryFiles() { var temporariesList WritablePaths for intermediate := range r.temporariesSet { temporariesList = append(temporariesList, intermediate) } sort.Slice(temporariesList, func(i, j int) bool { return temporariesList[i].String() < temporariesList[j].String() }) r.Command().Text("rm").Flag("-f").Outputs(temporariesList) } // Inputs returns the list of paths that were passed to the RuleBuilderCommand methods that take // input paths, such as RuleBuilderCommand.Input, RuleBuilderCommand.Implicit, or // RuleBuilderCommand.FlagWithInput. Inputs to a command that are also outputs of another command // in the same RuleBuilder are filtered out. The list is sorted and duplicates removed. func (r *RuleBuilder) Inputs() Paths { outputs := r.outputSet() depFiles := r.depFileSet() inputs := make(map[string]Path) for _, c := range r.commands { for _, input := range append(c.inputs, c.implicits...) { inputStr := input.String() if _, isOutput := outputs[inputStr]; !isOutput { if _, isDepFile := depFiles[inputStr]; !isDepFile { inputs[input.String()] = input } } } } var inputList Paths for _, input := range inputs { inputList = append(inputList, input) } sort.Slice(inputList, func(i, j int) bool { return inputList[i].String() < inputList[j].String() }) return inputList } // OrderOnlys returns the list of paths that were passed to the RuleBuilderCommand.OrderOnly or // RuleBuilderCommand.OrderOnlys. The list is sorted and duplicates removed. func (r *RuleBuilder) OrderOnlys() Paths { orderOnlys := make(map[string]Path) for _, c := range r.commands { for _, orderOnly := range c.orderOnlys { orderOnlys[orderOnly.String()] = orderOnly } } var orderOnlyList Paths for _, orderOnly := range orderOnlys { orderOnlyList = append(orderOnlyList, orderOnly) } sort.Slice(orderOnlyList, func(i, j int) bool { return orderOnlyList[i].String() < orderOnlyList[j].String() }) return orderOnlyList } // Validations returns the list of paths that were passed to RuleBuilderCommand.Validation or // RuleBuilderCommand.Validations. The list is sorted and duplicates removed. func (r *RuleBuilder) Validations() Paths { validations := make(map[string]Path) for _, c := range r.commands { for _, validation := range c.validations { validations[validation.String()] = validation } } var validationList Paths for _, validation := range validations { validationList = append(validationList, validation) } sort.Slice(validationList, func(i, j int) bool { return validationList[i].String() < validationList[j].String() }) return validationList } func (r *RuleBuilder) outputSet() map[string]WritablePath { outputs := make(map[string]WritablePath) for _, c := range r.commands { for _, output := range c.outputs { outputs[output.String()] = output } } return outputs } // Outputs returns the list of paths that were passed to the RuleBuilderCommand methods that take // output paths, such as RuleBuilderCommand.Output, RuleBuilderCommand.ImplicitOutput, or // RuleBuilderCommand.FlagWithInput. The list is sorted and duplicates removed. func (r *RuleBuilder) Outputs() WritablePaths { outputs := r.outputSet() var outputList WritablePaths for _, output := range outputs { if !r.temporariesSet[output] { outputList = append(outputList, output) } } sort.Slice(outputList, func(i, j int) bool { return outputList[i].String() < outputList[j].String() }) return outputList } func (r *RuleBuilder) depFileSet() map[string]WritablePath { depFiles := make(map[string]WritablePath) for _, c := range r.commands { for _, depFile := range c.depFiles { depFiles[depFile.String()] = depFile } } return depFiles } // DepFiles returns the list of paths that were passed to the RuleBuilderCommand methods that take depfile paths, such // as RuleBuilderCommand.DepFile or RuleBuilderCommand.FlagWithDepFile. func (r *RuleBuilder) DepFiles() WritablePaths { var depFiles WritablePaths for _, c := range r.commands { for _, depFile := range c.depFiles { depFiles = append(depFiles, depFile) } } return depFiles } // Installs returns the list of tuples passed to Install. func (r *RuleBuilder) Installs() RuleBuilderInstalls { return append(RuleBuilderInstalls(nil), r.installs...) } func (r *RuleBuilder) toolsSet() map[string]Path { tools := make(map[string]Path) for _, c := range r.commands { for _, tool := range c.tools { tools[tool.String()] = tool } } return tools } // Tools returns the list of paths that were passed to the RuleBuilderCommand.Tool method. The // list is sorted and duplicates removed. func (r *RuleBuilder) Tools() Paths { toolsSet := r.toolsSet() var toolsList Paths for _, tool := range toolsSet { toolsList = append(toolsList, tool) } sort.Slice(toolsList, func(i, j int) bool { return toolsList[i].String() < toolsList[j].String() }) return toolsList } // RspFileInputs returns the list of paths that were passed to the RuleBuilderCommand.FlagWithRspFileInputList method. func (r *RuleBuilder) RspFileInputs() Paths { var rspFileInputs Paths for _, c := range r.commands { for _, rspFile := range c.rspFiles { rspFileInputs = append(rspFileInputs, rspFile.paths...) } } return rspFileInputs } func (r *RuleBuilder) rspFiles() []rspFileAndPaths { var rspFiles []rspFileAndPaths for _, c := range r.commands { rspFiles = append(rspFiles, c.rspFiles...) } return rspFiles } // Commands returns a slice containing the built command line for each call to RuleBuilder.Command. func (r *RuleBuilder) Commands() []string { var commands []string for _, c := range r.commands { commands = append(commands, c.String()) } return commands } // BuilderContext is a subset of ModuleContext and SingletonContext. type BuilderContext interface { PathContext Rule(PackageContext, string, blueprint.RuleParams, ...string) blueprint.Rule Build(PackageContext, BuildParams) } var _ BuilderContext = ModuleContext(nil) var _ BuilderContext = SingletonContext(nil) func (r *RuleBuilder) depFileMergerCmd(depFiles WritablePaths) *RuleBuilderCommand { return r.Command(). builtToolWithoutDeps("dep_fixer"). Inputs(depFiles.Paths()) } // BuildWithNinjaVars adds the built command line to the build graph, with dependencies on Inputs and Tools, and output files for // Outputs. This function will not escape Ninja variables, so it may be used to write sandbox manifests using Ninja variables. func (r *RuleBuilder) BuildWithUnescapedNinjaVars(name string, desc string) { r.build(name, desc, false) } // Build adds the built command line to the build graph, with dependencies on Inputs and Tools, and output files for // Outputs. func (r *RuleBuilder) Build(name string, desc string) { r.build(name, desc, true) } func (r *RuleBuilder) build(name string, desc string, ninjaEscapeCommandString bool) { name = ninjaNameEscape(name) if len(r.missingDeps) > 0 { r.ctx.Build(r.pctx, BuildParams{ Rule: ErrorRule, Outputs: r.Outputs(), Description: desc, Args: map[string]string{ "error": "missing dependencies: " + strings.Join(r.missingDeps, ", "), }, }) return } var depFile WritablePath var depFormat blueprint.Deps if depFiles := r.DepFiles(); len(depFiles) > 0 { depFile = depFiles[0] depFormat = blueprint.DepsGCC if len(depFiles) > 1 { // Add a command locally that merges all depfiles together into the first depfile. r.depFileMergerCmd(depFiles) if r.sbox { // Check for Rel() errors, as all depfiles should be in the output dir. Errors // will be reported to the ctx. for _, path := range depFiles[1:] { Rel(r.ctx, r.outDir.String(), path.String()) } } } } tools := r.Tools() commands := r.Commands() outputs := r.Outputs() inputs := r.Inputs() rspFiles := r.rspFiles() if len(commands) == 0 { return } if len(outputs) == 0 { panic("No outputs specified from any Commands") } commandString := strings.Join(commands, " && ") if r.sbox { // If running the command inside sbox, write the rule data out to an sbox // manifest.textproto. manifest := sbox_proto.Manifest{} command := sbox_proto.Command{} manifest.Commands = append(manifest.Commands, &command) command.Command = proto.String(commandString) if depFile != nil { manifest.OutputDepfile = proto.String(depFile.String()) } // If sandboxing tools is enabled, add copy rules to the manifest to copy each tool // into the sbox directory. if r.sboxTools { for _, tool := range tools { command.CopyBefore = append(command.CopyBefore, &sbox_proto.Copy{ From: proto.String(tool.String()), To: proto.String(sboxPathForToolRel(r.ctx, tool)), }) } for _, c := range r.commands { for _, tool := range c.packagedTools { command.CopyBefore = append(command.CopyBefore, &sbox_proto.Copy{ From: proto.String(tool.srcPath.String()), To: proto.String(sboxPathForPackagedToolRel(tool)), Executable: proto.Bool(tool.executable), }) tools = append(tools, tool.srcPath) } } } // If sandboxing inputs is enabled, add copy rules to the manifest to copy each input // into the sbox directory. if r.sboxInputs { for _, input := range inputs { command.CopyBefore = append(command.CopyBefore, &sbox_proto.Copy{ From: proto.String(input.String()), To: proto.String(r.sboxPathForInputRel(input)), }) } // If using rsp files copy them and their contents into the sbox directory with // the appropriate path mappings. for _, rspFile := range rspFiles { command.RspFiles = append(command.RspFiles, &sbox_proto.RspFile{ File: proto.String(rspFile.file.String()), // These have to match the logic in sboxPathForInputRel PathMappings: []*sbox_proto.PathMapping{ { From: proto.String(r.outDir.String()), To: proto.String(sboxOutSubDir), }, { From: proto.String(r.ctx.Config().OutDir()), To: proto.String(sboxOutSubDir), }, }, }) } command.Chdir = proto.Bool(true) } // Add copy rules to the manifest to copy each output file from the sbox directory. // to the output directory after running the commands. for _, output := range outputs { rel := Rel(r.ctx, r.outDir.String(), output.String()) command.CopyAfter = append(command.CopyAfter, &sbox_proto.Copy{ From: proto.String(filepath.Join(r.sboxOutSubDir, rel)), To: proto.String(output.String()), }) } // Outputs that were marked Temporary will not be checked that they are in the output // directory by the loop above, check them here. for path := range r.temporariesSet { Rel(r.ctx, r.outDir.String(), path.String()) } // Add a hash of the list of input files to the manifest so that the textproto file // changes when the list of input files changes and causes the sbox rule that // depends on it to rerun. command.InputHash = proto.String(hashSrcFiles(inputs)) // Verify that the manifest textproto is not inside the sbox output directory, otherwise // it will get deleted when the sbox rule clears its output directory. _, manifestInOutDir := MaybeRel(r.ctx, r.outDir.String(), r.sboxManifestPath.String()) if manifestInOutDir { ReportPathErrorf(r.ctx, "sbox rule %q manifestPath %q must not be in outputDir %q", name, r.sboxManifestPath.String(), r.outDir.String()) } // Create a rule to write the manifest as textproto. Pretty print it by indenting and // splitting across multiple lines. pbText, err := prototext.MarshalOptions{Indent: " "}.Marshal(&manifest) if err != nil { ReportPathErrorf(r.ctx, "sbox manifest failed to marshal: %q", err) } if ninjaEscapeCommandString { WriteFileRule(r.ctx, r.sboxManifestPath, string(pbText)) } else { // We need to have a rule to write files that is // defined on the RuleBuilder's pctx in order to // write Ninja variables in the string. // The WriteFileRule function above rule can only write // raw strings because it is defined on the android // package's pctx, and it can't access variables defined // in another context. r.ctx.Build(r.pctx, BuildParams{ Rule: r.ctx.Rule(r.pctx, "unescapedWriteFile", blueprint.RuleParams{ Command: `rm -rf ${out} && cat ${out}.rsp > ${out}`, Rspfile: "${out}.rsp", RspfileContent: "${content}", Description: "write file", }, "content"), Output: r.sboxManifestPath, Description: "write sbox manifest " + r.sboxManifestPath.Base(), Args: map[string]string{ "content": string(pbText), }, }) } // Generate a new string to use as the command line of the sbox rule. This uses // a RuleBuilderCommand as a convenience method of building the command line, then // converts it to a string to replace commandString. sboxCmd := &RuleBuilderCommand{ rule: &RuleBuilder{ ctx: r.ctx, }, } sboxCmd.builtToolWithoutDeps("sbox"). FlagWithArg("--sandbox-path ", shared.TempDirForOutDir(PathForOutput(r.ctx).String())). FlagWithArg("--output-dir ", r.outDir.String()). FlagWithInput("--manifest ", r.sboxManifestPath) if r.restat { sboxCmd.Flag("--write-if-changed") } // Replace the command string, and add the sbox tool and manifest textproto to the // dependencies of the final sbox rule. commandString = sboxCmd.buf.String() tools = append(tools, sboxCmd.tools...) inputs = append(inputs, sboxCmd.inputs...) if r.rbeParams != nil { // RBE needs a list of input files to copy to the remote builder. For inputs already // listed in an rsp file, pass the rsp file directly to rewrapper. For the rest, // create a new rsp file to pass to rewrapper. var remoteRspFiles Paths var remoteInputs Paths remoteInputs = append(remoteInputs, inputs...) remoteInputs = append(remoteInputs, tools...) for _, rspFile := range rspFiles { remoteInputs = append(remoteInputs, rspFile.file) remoteRspFiles = append(remoteRspFiles, rspFile.file) } if len(remoteInputs) > 0 { inputsListFile := r.sboxManifestPath.ReplaceExtension(r.ctx, "rbe_inputs.list") writeRspFileRule(r.ctx, inputsListFile, remoteInputs) remoteRspFiles = append(remoteRspFiles, inputsListFile) // Add the new rsp file as an extra input to the rule. inputs = append(inputs, inputsListFile) } r.rbeParams.OutputFiles = outputs.Strings() r.rbeParams.RSPFiles = remoteRspFiles.Strings() rewrapperCommand := r.rbeParams.NoVarTemplate(r.ctx.Config().RBEWrapper()) commandString = rewrapperCommand + " bash -c '" + strings.ReplaceAll(commandString, `'`, `'\''`) + "'" } } else { // If not using sbox the rule will run the command directly, put the hash of the // list of input files in a comment at the end of the command line to ensure ninja // reruns the rule when the list of input files changes. commandString += " # hash of input list: " + hashSrcFiles(inputs) } // Ninja doesn't like multiple outputs when depfiles are enabled, move all but the first output to // ImplicitOutputs. RuleBuilder doesn't use "$out", so the distinction between Outputs and // ImplicitOutputs doesn't matter. output := outputs[0] implicitOutputs := outputs[1:] var rspFile, rspFileContent string var rspFileInputs Paths if len(rspFiles) > 0 { // The first rsp files uses Ninja's rsp file support for the rule rspFile = rspFiles[0].file.String() // Use "$in" for rspFileContent to avoid duplicating the list of files in the dependency // list and in the contents of the rsp file. Inputs to the rule that are not in the // rsp file will be listed in Implicits instead of Inputs so they don't show up in "$in". rspFileContent = "$in" rspFileInputs = append(rspFileInputs, rspFiles[0].paths...) for _, rspFile := range rspFiles[1:] { // Any additional rsp files need an extra rule to write the file. writeRspFileRule(r.ctx, rspFile.file, rspFile.paths) // The main rule needs to depend on the inputs listed in the extra rsp file. inputs = append(inputs, rspFile.paths...) // The main rule needs to depend on the extra rsp file. inputs = append(inputs, rspFile.file) } } var pool blueprint.Pool if r.ctx.Config().UseGoma() && r.remoteable.Goma { // When USE_GOMA=true is set and the rule is supported by goma, allow jobs to run outside the local pool. } else if r.ctx.Config().UseRBE() && r.remoteable.RBE { // When USE_RBE=true is set and the rule is supported by RBE, use the remotePool. pool = remotePool } else if r.highmem { pool = highmemPool } else if r.ctx.Config().UseRemoteBuild() { pool = localPool } if ninjaEscapeCommandString { commandString = proptools.NinjaEscape(commandString) } r.ctx.Build(r.pctx, BuildParams{ Rule: r.ctx.Rule(r.pctx, name, blueprint.RuleParams{ Command: commandString, CommandDeps: proptools.NinjaEscapeList(tools.Strings()), Restat: r.restat, Rspfile: proptools.NinjaEscape(rspFile), RspfileContent: rspFileContent, Pool: pool, }), Inputs: rspFileInputs, Implicits: inputs, OrderOnly: r.OrderOnlys(), Validations: r.Validations(), Output: output, ImplicitOutputs: implicitOutputs, Depfile: depFile, Deps: depFormat, Description: desc, }) } // RuleBuilderCommand is a builder for a command in a command line. It can be mutated by its methods to add to the // command and track dependencies. The methods mutate the RuleBuilderCommand in place, as well as return the // RuleBuilderCommand, so they can be used chained or unchained. All methods that add text implicitly add a single // space as a separator from the previous method. type RuleBuilderCommand struct { rule *RuleBuilder buf strings.Builder inputs Paths implicits Paths orderOnlys Paths validations Paths outputs WritablePaths depFiles WritablePaths tools Paths packagedTools []PackagingSpec rspFiles []rspFileAndPaths } type rspFileAndPaths struct { file WritablePath paths Paths } func checkPathNotNil(path Path) { if path == nil { panic("rule_builder paths cannot be nil") } } func (c *RuleBuilderCommand) addInput(path Path) string { checkPathNotNil(path) c.inputs = append(c.inputs, path) return c.PathForInput(path) } func (c *RuleBuilderCommand) addImplicit(path Path) { checkPathNotNil(path) c.implicits = append(c.implicits, path) } func (c *RuleBuilderCommand) addOrderOnly(path Path) { checkPathNotNil(path) c.orderOnlys = append(c.orderOnlys, path) } // PathForInput takes an input path and returns the appropriate path to use on the command line. If // sbox was enabled via a call to RuleBuilder.Sbox() and the path was an output path it returns a // path with the placeholder prefix used for outputs in sbox. If sbox is not enabled it returns the // original path. func (c *RuleBuilderCommand) PathForInput(path Path) string { if c.rule.sbox { rel, inSandbox := c.rule._sboxPathForInputRel(path) if inSandbox { rel = filepath.Join(sboxSandboxBaseDir, rel) } return rel } return path.String() } // PathsForInputs takes a list of input paths and returns the appropriate paths to use on the // command line. If sbox was enabled via a call to RuleBuilder.Sbox() a path was an output path, it // returns the path with the placeholder prefix used for outputs in sbox. If sbox is not enabled it // returns the original paths. func (c *RuleBuilderCommand) PathsForInputs(paths Paths) []string { ret := make([]string, len(paths)) for i, path := range paths { ret[i] = c.PathForInput(path) } return ret } // PathForOutput takes an output path and returns the appropriate path to use on the command // line. If sbox was enabled via a call to RuleBuilder.Sbox(), it returns a path with the // placeholder prefix used for outputs in sbox. If sbox is not enabled it returns the // original path. func (c *RuleBuilderCommand) PathForOutput(path WritablePath) string { if c.rule.sbox { // Errors will be handled in RuleBuilder.Build where we have a context to report them rel, _, _ := maybeRelErr(c.rule.outDir.String(), path.String()) return filepath.Join(sboxOutDir, rel) } return path.String() } func sboxPathForToolRel(ctx BuilderContext, path Path) string { // Errors will be handled in RuleBuilder.Build where we have a context to report them toolDir := pathForInstall(ctx, ctx.Config().BuildOS, ctx.Config().BuildArch, "") relOutSoong, isRelOutSoong, _ := maybeRelErr(toolDir.String(), path.String()) if isRelOutSoong { // The tool is in the Soong output directory, it will be copied to __SBOX_OUT_DIR__/tools/out return filepath.Join(sboxToolsSubDir, "out", relOutSoong) } // The tool is in the source directory, it will be copied to __SBOX_OUT_DIR__/tools/src return filepath.Join(sboxToolsSubDir, "src", path.String()) } func (r *RuleBuilder) _sboxPathForInputRel(path Path) (rel string, inSandbox bool) { // Errors will be handled in RuleBuilder.Build where we have a context to report them rel, isRelSboxOut, _ := maybeRelErr(r.outDir.String(), path.String()) if isRelSboxOut { return filepath.Join(sboxOutSubDir, rel), true } if r.sboxInputs { // When sandboxing inputs all inputs have to be copied into the sandbox. Input files that // are outputs of other rules could be an arbitrary absolute path if OUT_DIR is set, so they // will be copied to relative paths under __SBOX_OUT_DIR__/out. rel, isRelOut, _ := maybeRelErr(r.ctx.Config().OutDir(), path.String()) if isRelOut { return filepath.Join(sboxOutSubDir, rel), true } } return path.String(), false } func (r *RuleBuilder) sboxPathForInputRel(path Path) string { rel, _ := r._sboxPathForInputRel(path) return rel } func (r *RuleBuilder) sboxPathsForInputsRel(paths Paths) []string { ret := make([]string, len(paths)) for i, path := range paths { ret[i] = r.sboxPathForInputRel(path) } return ret } func sboxPathForPackagedToolRel(spec PackagingSpec) string { return filepath.Join(sboxToolsSubDir, "out", spec.relPathInPackage) } // PathForPackagedTool takes a PackageSpec for a tool and returns the corresponding path for the // tool after copying it into the sandbox. This can be used on the RuleBuilder command line to // reference the tool. func (c *RuleBuilderCommand) PathForPackagedTool(spec PackagingSpec) string { if !c.rule.sboxTools { panic("PathForPackagedTool() requires SandboxTools()") } return filepath.Join(sboxSandboxBaseDir, sboxPathForPackagedToolRel(spec)) } // PathForTool takes a path to a tool, which may be an output file or a source file, and returns // the corresponding path for the tool in the sbox sandbox if sbox is enabled, or the original path // if it is not. This can be used on the RuleBuilder command line to reference the tool. func (c *RuleBuilderCommand) PathForTool(path Path) string { if c.rule.sbox && c.rule.sboxTools { return filepath.Join(sboxSandboxBaseDir, sboxPathForToolRel(c.rule.ctx, path)) } return path.String() } // PathsForTools takes a list of paths to tools, which may be output files or source files, and // returns the corresponding paths for the tools in the sbox sandbox if sbox is enabled, or the // original paths if it is not. This can be used on the RuleBuilder command line to reference the tool. func (c *RuleBuilderCommand) PathsForTools(paths Paths) []string { if c.rule.sbox && c.rule.sboxTools { var ret []string for _, path := range paths { ret = append(ret, filepath.Join(sboxSandboxBaseDir, sboxPathForToolRel(c.rule.ctx, path))) } return ret } return paths.Strings() } // PackagedTool adds the specified tool path to the command line. It can only be used with tool // sandboxing enabled by SandboxTools(), and will copy the tool into the sandbox. func (c *RuleBuilderCommand) PackagedTool(spec PackagingSpec) *RuleBuilderCommand { if !c.rule.sboxTools { panic("PackagedTool() requires SandboxTools()") } c.packagedTools = append(c.packagedTools, spec) c.Text(sboxPathForPackagedToolRel(spec)) return c } // ImplicitPackagedTool copies the specified tool into the sandbox without modifying the command // line. It can only be used with tool sandboxing enabled by SandboxTools(). func (c *RuleBuilderCommand) ImplicitPackagedTool(spec PackagingSpec) *RuleBuilderCommand { if !c.rule.sboxTools { panic("ImplicitPackagedTool() requires SandboxTools()") } c.packagedTools = append(c.packagedTools, spec) return c } // ImplicitPackagedTools copies the specified tools into the sandbox without modifying the command // line. It can only be used with tool sandboxing enabled by SandboxTools(). func (c *RuleBuilderCommand) ImplicitPackagedTools(specs []PackagingSpec) *RuleBuilderCommand { if !c.rule.sboxTools { panic("ImplicitPackagedTools() requires SandboxTools()") } c.packagedTools = append(c.packagedTools, specs...) return c } // Text adds the specified raw text to the command line. The text should not contain input or output paths or the // rule will not have them listed in its dependencies or outputs. func (c *RuleBuilderCommand) Text(text string) *RuleBuilderCommand { if c.buf.Len() > 0 { c.buf.WriteByte(' ') } c.buf.WriteString(text) return c } // Textf adds the specified formatted text to the command line. The text should not contain input or output paths or // the rule will not have them listed in its dependencies or outputs. func (c *RuleBuilderCommand) Textf(format string, a ...interface{}) *RuleBuilderCommand { return c.Text(fmt.Sprintf(format, a...)) } // Flag adds the specified raw text to the command line. The text should not contain input or output paths or the // rule will not have them listed in its dependencies or outputs. func (c *RuleBuilderCommand) Flag(flag string) *RuleBuilderCommand { return c.Text(flag) } // OptionalFlag adds the specified raw text to the command line if it is not nil. The text should not contain input or // output paths or the rule will not have them listed in its dependencies or outputs. func (c *RuleBuilderCommand) OptionalFlag(flag *string) *RuleBuilderCommand { if flag != nil { c.Text(*flag) } return c } // Flags adds the specified raw text to the command line. The text should not contain input or output paths or the // rule will not have them listed in its dependencies or outputs. func (c *RuleBuilderCommand) Flags(flags []string) *RuleBuilderCommand { for _, flag := range flags { c.Text(flag) } return c } // FlagWithArg adds the specified flag and argument text to the command line, with no separator between them. The flag // and argument should not contain input or output paths or the rule will not have them listed in its dependencies or // outputs. func (c *RuleBuilderCommand) FlagWithArg(flag, arg string) *RuleBuilderCommand { return c.Text(flag + arg) } // FlagForEachArg adds the specified flag joined with each argument to the command line. The result is identical to // calling FlagWithArg for argument. func (c *RuleBuilderCommand) FlagForEachArg(flag string, args []string) *RuleBuilderCommand { for _, arg := range args { c.FlagWithArg(flag, arg) } return c } // FlagWithList adds the specified flag and list of arguments to the command line, with the arguments joined by sep // and no separator between the flag and arguments. The flag and arguments should not contain input or output paths or // the rule will not have them listed in its dependencies or outputs. func (c *RuleBuilderCommand) FlagWithList(flag string, list []string, sep string) *RuleBuilderCommand { return c.Text(flag + strings.Join(list, sep)) } // Tool adds the specified tool path to the command line. The path will be also added to the dependencies returned by // RuleBuilder.Tools. func (c *RuleBuilderCommand) Tool(path Path) *RuleBuilderCommand { checkPathNotNil(path) c.tools = append(c.tools, path) return c.Text(c.PathForTool(path)) } // Tool adds the specified tool path to the dependencies returned by RuleBuilder.Tools. func (c *RuleBuilderCommand) ImplicitTool(path Path) *RuleBuilderCommand { checkPathNotNil(path) c.tools = append(c.tools, path) return c } // Tool adds the specified tool path to the dependencies returned by RuleBuilder.Tools. func (c *RuleBuilderCommand) ImplicitTools(paths Paths) *RuleBuilderCommand { for _, path := range paths { c.ImplicitTool(path) } return c } // BuiltTool adds the specified tool path that was built using a host Soong module to the command line. The path will // be also added to the dependencies returned by RuleBuilder.Tools. // // It is equivalent to: // // cmd.Tool(ctx.Config().HostToolPath(ctx, tool)) func (c *RuleBuilderCommand) BuiltTool(tool string) *RuleBuilderCommand { if c.rule.ctx.Config().UseHostMusl() { // If the host is using musl, assume that the tool was built against musl libc and include // libc_musl.so in the sandbox. // TODO(ccross): if we supported adding new dependencies during GenerateAndroidBuildActions // this could be a dependency + TransitivePackagingSpecs. c.ImplicitTool(c.rule.ctx.Config().HostJNIToolPath(c.rule.ctx, "libc_musl")) } return c.builtToolWithoutDeps(tool) } // builtToolWithoutDeps is similar to BuiltTool, but doesn't add any dependencies. It is used // internally by RuleBuilder for helper tools that are known to be compiled statically. func (c *RuleBuilderCommand) builtToolWithoutDeps(tool string) *RuleBuilderCommand { return c.Tool(c.rule.ctx.Config().HostToolPath(c.rule.ctx, tool)) } // PrebuiltBuildTool adds the specified tool path from prebuils/build-tools. The path will be also added to the // dependencies returned by RuleBuilder.Tools. // // It is equivalent to: // // cmd.Tool(ctx.Config().PrebuiltBuildTool(ctx, tool)) func (c *RuleBuilderCommand) PrebuiltBuildTool(ctx PathContext, tool string) *RuleBuilderCommand { return c.Tool(ctx.Config().PrebuiltBuildTool(ctx, tool)) } // Input adds the specified input path to the command line. The path will also be added to the dependencies returned by // RuleBuilder.Inputs. func (c *RuleBuilderCommand) Input(path Path) *RuleBuilderCommand { return c.Text(c.addInput(path)) } // Inputs adds the specified input paths to the command line, separated by spaces. The paths will also be added to the // dependencies returned by RuleBuilder.Inputs. func (c *RuleBuilderCommand) Inputs(paths Paths) *RuleBuilderCommand { for _, path := range paths { c.Input(path) } return c } // Implicit adds the specified input path to the dependencies returned by RuleBuilder.Inputs without modifying the // command line. func (c *RuleBuilderCommand) Implicit(path Path) *RuleBuilderCommand { c.addImplicit(path) return c } // Implicits adds the specified input paths to the dependencies returned by RuleBuilder.Inputs without modifying the // command line. func (c *RuleBuilderCommand) Implicits(paths Paths) *RuleBuilderCommand { for _, path := range paths { c.addImplicit(path) } return c } // GetImplicits returns the command's implicit inputs. func (c *RuleBuilderCommand) GetImplicits() Paths { return c.implicits } // OrderOnly adds the specified input path to the dependencies returned by RuleBuilder.OrderOnlys // without modifying the command line. func (c *RuleBuilderCommand) OrderOnly(path Path) *RuleBuilderCommand { c.addOrderOnly(path) return c } // OrderOnlys adds the specified input paths to the dependencies returned by RuleBuilder.OrderOnlys // without modifying the command line. func (c *RuleBuilderCommand) OrderOnlys(paths Paths) *RuleBuilderCommand { for _, path := range paths { c.addOrderOnly(path) } return c } // Validation adds the specified input path to the validation dependencies by // RuleBuilder.Validations without modifying the command line. func (c *RuleBuilderCommand) Validation(path Path) *RuleBuilderCommand { checkPathNotNil(path) c.validations = append(c.validations, path) return c } // Validations adds the specified input paths to the validation dependencies by // RuleBuilder.Validations without modifying the command line. func (c *RuleBuilderCommand) Validations(paths Paths) *RuleBuilderCommand { for _, path := range paths { c.Validation(path) } return c } // Output adds the specified output path to the command line. The path will also be added to the outputs returned by // RuleBuilder.Outputs. func (c *RuleBuilderCommand) Output(path WritablePath) *RuleBuilderCommand { checkPathNotNil(path) c.outputs = append(c.outputs, path) return c.Text(c.PathForOutput(path)) } // Outputs adds the specified output paths to the command line, separated by spaces. The paths will also be added to // the outputs returned by RuleBuilder.Outputs. func (c *RuleBuilderCommand) Outputs(paths WritablePaths) *RuleBuilderCommand { for _, path := range paths { c.Output(path) } return c } // OutputDir adds the output directory to the command line. This is only available when used with RuleBuilder.Sbox, // and will be the temporary output directory managed by sbox, not the final one. func (c *RuleBuilderCommand) OutputDir(subPathComponents ...string) *RuleBuilderCommand { if !c.rule.sbox { panic("OutputDir only valid with Sbox") } path := sboxOutDir if len(subPathComponents) > 0 { path = filepath.Join(append([]string{sboxOutDir}, subPathComponents...)...) } return c.Text(path) } // DepFile adds the specified depfile path to the paths returned by RuleBuilder.DepFiles and adds it to the command // line, and causes RuleBuilder.Build file to set the depfile flag for ninja. If multiple depfiles are added to // commands in a single RuleBuilder then RuleBuilder.Build will add an extra command to merge the depfiles together. func (c *RuleBuilderCommand) DepFile(path WritablePath) *RuleBuilderCommand { checkPathNotNil(path) c.depFiles = append(c.depFiles, path) return c.Text(c.PathForOutput(path)) } // ImplicitOutput adds the specified output path to the dependencies returned by RuleBuilder.Outputs without modifying // the command line. func (c *RuleBuilderCommand) ImplicitOutput(path WritablePath) *RuleBuilderCommand { c.outputs = append(c.outputs, path) return c } // ImplicitOutputs adds the specified output paths to the dependencies returned by RuleBuilder.Outputs without modifying // the command line. func (c *RuleBuilderCommand) ImplicitOutputs(paths WritablePaths) *RuleBuilderCommand { c.outputs = append(c.outputs, paths...) return c } // ImplicitDepFile adds the specified depfile path to the paths returned by RuleBuilder.DepFiles without modifying // the command line, and causes RuleBuilder.Build file to set the depfile flag for ninja. If multiple depfiles // are added to commands in a single RuleBuilder then RuleBuilder.Build will add an extra command to merge the // depfiles together. func (c *RuleBuilderCommand) ImplicitDepFile(path WritablePath) *RuleBuilderCommand { c.depFiles = append(c.depFiles, path) return c } // FlagWithInput adds the specified flag and input path to the command line, with no separator between them. The path // will also be added to the dependencies returned by RuleBuilder.Inputs. func (c *RuleBuilderCommand) FlagWithInput(flag string, path Path) *RuleBuilderCommand { return c.Text(flag + c.addInput(path)) } // FlagWithInputList adds the specified flag and input paths to the command line, with the inputs joined by sep // and no separator between the flag and inputs. The input paths will also be added to the dependencies returned by // RuleBuilder.Inputs. func (c *RuleBuilderCommand) FlagWithInputList(flag string, paths Paths, sep string) *RuleBuilderCommand { strs := make([]string, len(paths)) for i, path := range paths { strs[i] = c.addInput(path) } return c.FlagWithList(flag, strs, sep) } // FlagForEachInput adds the specified flag joined with each input path to the command line. The input paths will also // be added to the dependencies returned by RuleBuilder.Inputs. The result is identical to calling FlagWithInput for // each input path. func (c *RuleBuilderCommand) FlagForEachInput(flag string, paths Paths) *RuleBuilderCommand { for _, path := range paths { c.FlagWithInput(flag, path) } return c } // FlagWithOutput adds the specified flag and output path to the command line, with no separator between them. The path // will also be added to the outputs returned by RuleBuilder.Outputs. func (c *RuleBuilderCommand) FlagWithOutput(flag string, path WritablePath) *RuleBuilderCommand { c.outputs = append(c.outputs, path) return c.Text(flag + c.PathForOutput(path)) } // FlagWithDepFile adds the specified flag and depfile path to the command line, with no separator between them. The path // will also be added to the outputs returned by RuleBuilder.Outputs. func (c *RuleBuilderCommand) FlagWithDepFile(flag string, path WritablePath) *RuleBuilderCommand { c.depFiles = append(c.depFiles, path) return c.Text(flag + c.PathForOutput(path)) } // FlagWithRspFileInputList adds the specified flag and path to an rspfile to the command line, with // no separator between them. The paths will be written to the rspfile. If sbox is enabled, the // rspfile must be outside the sbox directory. The first use of FlagWithRspFileInputList in any // RuleBuilderCommand of a RuleBuilder will use Ninja's rsp file support for the rule, additional // uses will result in an auxiliary rules to write the rspFile contents. func (c *RuleBuilderCommand) FlagWithRspFileInputList(flag string, rspFile WritablePath, paths Paths) *RuleBuilderCommand { // Use an empty slice if paths is nil, the non-nil slice is used as an indicator that the rsp file must be // generated. if paths == nil { paths = Paths{} } c.rspFiles = append(c.rspFiles, rspFileAndPaths{rspFile, paths}) if c.rule.sbox { if _, isRel, _ := maybeRelErr(c.rule.outDir.String(), rspFile.String()); isRel { panic(fmt.Errorf("FlagWithRspFileInputList rspfile %q must not be inside out dir %q", rspFile.String(), c.rule.outDir.String())) } } c.FlagWithArg(flag, c.PathForInput(rspFile)) return c } // String returns the command line. func (c *RuleBuilderCommand) String() string { return c.buf.String() } // RuleBuilderSboxProtoForTests takes the BuildParams for the manifest passed to RuleBuilder.Sbox() // and returns sbox testproto generated by the RuleBuilder. func RuleBuilderSboxProtoForTests(t *testing.T, ctx *TestContext, params TestingBuildParams) *sbox_proto.Manifest { t.Helper() content := ContentFromFileRuleForTests(t, ctx, params) manifest := sbox_proto.Manifest{} err := prototext.Unmarshal([]byte(content), &manifest) if err != nil { t.Fatalf("failed to unmarshal manifest: %s", err.Error()) } return &manifest } func ninjaNameEscape(s string) string { b := []byte(s) escaped := false for i, c := range b { valid := (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || (c >= '0' && c <= '9') || (c == '_') || (c == '-') || (c == '.') if !valid { b[i] = '_' escaped = true } } if escaped { s = string(b) } return s } // hashSrcFiles returns a hash of the list of source files. It is used to ensure the command line // or the sbox textproto manifest change even if the input files are not listed on the command line. func hashSrcFiles(srcFiles Paths) string { h := sha256.New() srcFileList := strings.Join(srcFiles.Strings(), "\n") h.Write([]byte(srcFileList)) return fmt.Sprintf("%x", h.Sum(nil)) } // BuilderContextForTesting returns a BuilderContext for the given config that can be used for tests // that need to call methods that take a BuilderContext. func BuilderContextForTesting(config Config) BuilderContext { pathCtx := PathContextForTesting(config) return builderContextForTests{ PathContext: pathCtx, } } type builderContextForTests struct { PathContext } func (builderContextForTests) Rule(PackageContext, string, blueprint.RuleParams, ...string) blueprint.Rule { return nil } func (builderContextForTests) Build(PackageContext, BuildParams) {} func writeRspFileRule(ctx BuilderContext, rspFile WritablePath, paths Paths) { buf := &strings.Builder{} err := response.WriteRspFile(buf, paths.Strings()) if err != nil { // There should never be I/O errors writing to a bytes.Buffer. panic(err) } WriteFileRule(ctx, rspFile, buf.String()) }