// Copyright 2020 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 bazel import ( "crypto/sha256" "encoding/base64" "encoding/json" "fmt" "path/filepath" "reflect" "regexp" "sort" "strings" "github.com/google/blueprint/proptools" ) type artifactId int type depsetId int type pathFragmentId int // artifact contains relevant portions of Bazel's aquery proto, Artifact. // Represents a single artifact, whether it's a source file or a derived output file. type artifact struct { Id artifactId PathFragmentId pathFragmentId } type pathFragment struct { Id pathFragmentId Label string ParentId pathFragmentId } // KeyValuePair represents Bazel's aquery proto, KeyValuePair. type KeyValuePair struct { Key string Value string } // AqueryDepset is a depset definition from Bazel's aquery response. This is // akin to the `depSetOfFiles` in the response proto, except: // * direct artifacts are enumerated by full path instead of by ID // * it has a hash of the depset contents, instead of an int ID (for determinism) // A depset is a data structure for efficient transitive handling of artifact // paths. A single depset consists of one or more artifact paths and one or // more "child" depsets. type AqueryDepset struct { ContentHash string DirectArtifacts []string TransitiveDepSetHashes []string } // depSetOfFiles contains relevant portions of Bazel's aquery proto, DepSetOfFiles. // Represents a data structure containing one or more files. Depsets in Bazel are an efficient // data structure for storing large numbers of file paths. type depSetOfFiles struct { Id depsetId DirectArtifactIds []artifactId TransitiveDepSetIds []depsetId } // action contains relevant portions of Bazel's aquery proto, Action. // Represents a single command line invocation in the Bazel build graph. type action struct { Arguments []string EnvironmentVariables []KeyValuePair InputDepSetIds []depsetId Mnemonic string OutputIds []artifactId TemplateContent string Substitutions []KeyValuePair } // actionGraphContainer contains relevant portions of Bazel's aquery proto, ActionGraphContainer. // An aquery response from Bazel contains a single ActionGraphContainer proto. type actionGraphContainer struct { Artifacts []artifact Actions []action DepSetOfFiles []depSetOfFiles PathFragments []pathFragment } // BuildStatement contains information to register a build statement corresponding (one to one) // with a Bazel action from Bazel's action graph. type BuildStatement struct { Command string Depfile *string OutputPaths []string SymlinkPaths []string Env []KeyValuePair Mnemonic string // Inputs of this build statement, either as unexpanded depsets or expanded // input paths. There should be no overlap between these fields; an input // path should either be included as part of an unexpanded depset or a raw // input path string, but not both. InputDepsetHashes []string InputPaths []string } // A helper type for aquery processing which facilitates retrieval of path IDs from their // less readable Bazel structures (depset and path fragment). type aqueryArtifactHandler struct { // Maps depset id to AqueryDepset, a representation of depset which is // post-processed for middleman artifact handling, unhandled artifact // dropping, content hashing, etc. depsetIdToAqueryDepset map[depsetId]AqueryDepset // Maps content hash to AqueryDepset. depsetHashToAqueryDepset map[string]AqueryDepset // depsetIdToArtifactIdsCache is a memoization of depset flattening, because flattening // may be an expensive operation. depsetHashToArtifactPathsCache map[string][]string // Maps artifact ids to fully expanded paths. artifactIdToPath map[artifactId]string } // The tokens should be substituted with the value specified here, instead of the // one returned in 'substitutions' of TemplateExpand action. var templateActionOverriddenTokens = map[string]string{ // Uses "python3" for %python_binary% instead of the value returned by aquery // which is "py3wrapper.sh". See removePy3wrapperScript. "%python_binary%": "python3", } // This pattern matches the MANIFEST file created for a py_binary target. var manifestFilePattern = regexp.MustCompile(".*/.+\\.runfiles/MANIFEST$") // The file name of py3wrapper.sh, which is used by py_binary targets. const py3wrapperFileName = "/py3wrapper.sh" func indexBy[K comparable, V any](values []V, keyFn func(v V) K) map[K]V { m := map[K]V{} for _, v := range values { m[keyFn(v)] = v } return m } func newAqueryHandler(aqueryResult actionGraphContainer) (*aqueryArtifactHandler, error) { pathFragments := indexBy(aqueryResult.PathFragments, func(pf pathFragment) pathFragmentId { return pf.Id }) artifactIdToPath := map[artifactId]string{} for _, artifact := range aqueryResult.Artifacts { artifactPath, err := expandPathFragment(artifact.PathFragmentId, pathFragments) if err != nil { return nil, err } artifactIdToPath[artifact.Id] = artifactPath } // Map middleman artifact ContentHash to input artifact depset ID. // Middleman artifacts are treated as "substitute" artifacts for mixed builds. For example, // if we find a middleman action which has outputs [foo, bar], and output [baz_middleman], then, // for each other action which has input [baz_middleman], we add [foo, bar] to the inputs for // that action instead. middlemanIdToDepsetIds := map[artifactId][]depsetId{} for _, actionEntry := range aqueryResult.Actions { if actionEntry.Mnemonic == "Middleman" { for _, outputId := range actionEntry.OutputIds { middlemanIdToDepsetIds[outputId] = actionEntry.InputDepSetIds } } } depsetIdToDepset := indexBy(aqueryResult.DepSetOfFiles, func(d depSetOfFiles) depsetId { return d.Id }) aqueryHandler := aqueryArtifactHandler{ depsetIdToAqueryDepset: map[depsetId]AqueryDepset{}, depsetHashToAqueryDepset: map[string]AqueryDepset{}, depsetHashToArtifactPathsCache: map[string][]string{}, artifactIdToPath: artifactIdToPath, } // Validate and adjust aqueryResult.DepSetOfFiles values. for _, depset := range aqueryResult.DepSetOfFiles { _, err := aqueryHandler.populateDepsetMaps(depset, middlemanIdToDepsetIds, depsetIdToDepset) if err != nil { return nil, err } } return &aqueryHandler, nil } // Ensures that the handler's depsetIdToAqueryDepset map contains an entry for the given // depset. func (a *aqueryArtifactHandler) populateDepsetMaps(depset depSetOfFiles, middlemanIdToDepsetIds map[artifactId][]depsetId, depsetIdToDepset map[depsetId]depSetOfFiles) (AqueryDepset, error) { if aqueryDepset, containsDepset := a.depsetIdToAqueryDepset[depset.Id]; containsDepset { return aqueryDepset, nil } transitiveDepsetIds := depset.TransitiveDepSetIds var directArtifactPaths []string for _, artifactId := range depset.DirectArtifactIds { path, pathExists := a.artifactIdToPath[artifactId] if !pathExists { return AqueryDepset{}, fmt.Errorf("undefined input artifactId %d", artifactId) } // Filter out any inputs which are universally dropped, and swap middleman // artifacts with their corresponding depsets. if depsetsToUse, isMiddleman := middlemanIdToDepsetIds[artifactId]; isMiddleman { // Swap middleman artifacts with their corresponding depsets and drop the middleman artifacts. transitiveDepsetIds = append(transitiveDepsetIds, depsetsToUse...) } else if strings.HasSuffix(path, py3wrapperFileName) || manifestFilePattern.MatchString(path) { // Drop these artifacts. // See go/python-binary-host-mixed-build for more details. // 1) For py3wrapper.sh, there is no action for creating py3wrapper.sh in the aquery output of // Bazel py_binary targets, so there is no Ninja build statements generated for creating it. // 2) For MANIFEST file, SourceSymlinkManifest action is in aquery output of Bazel py_binary targets, // but it doesn't contain sufficient information so no Ninja build statements are generated // for creating it. // So in mixed build mode, when these two are used as input of some Ninja build statement, // since there is no build statement to create them, they should be removed from input paths. // TODO(b/197135294): Clean up this custom runfiles handling logic when // SourceSymlinkManifest and SymlinkTree actions are supported. } else { // TODO(b/216194240): Filter out bazel tools. directArtifactPaths = append(directArtifactPaths, path) } } var childDepsetHashes []string for _, childDepsetId := range transitiveDepsetIds { childDepset, exists := depsetIdToDepset[childDepsetId] if !exists { return AqueryDepset{}, fmt.Errorf("undefined input depsetId %d (referenced by depsetId %d)", childDepsetId, depset.Id) } childAqueryDepset, err := a.populateDepsetMaps(childDepset, middlemanIdToDepsetIds, depsetIdToDepset) if err != nil { return AqueryDepset{}, err } childDepsetHashes = append(childDepsetHashes, childAqueryDepset.ContentHash) } aqueryDepset := AqueryDepset{ ContentHash: depsetContentHash(directArtifactPaths, childDepsetHashes), DirectArtifacts: directArtifactPaths, TransitiveDepSetHashes: childDepsetHashes, } a.depsetIdToAqueryDepset[depset.Id] = aqueryDepset a.depsetHashToAqueryDepset[aqueryDepset.ContentHash] = aqueryDepset return aqueryDepset, nil } // getInputPaths flattens the depsets of the given IDs and returns all transitive // input paths contained in these depsets. // This is a potentially expensive operation, and should not be invoked except // for actions which need specialized input handling. func (a *aqueryArtifactHandler) getInputPaths(depsetIds []depsetId) ([]string, error) { var inputPaths []string for _, inputDepSetId := range depsetIds { depset := a.depsetIdToAqueryDepset[inputDepSetId] inputArtifacts, err := a.artifactPathsFromDepsetHash(depset.ContentHash) if err != nil { return nil, err } for _, inputPath := range inputArtifacts { inputPaths = append(inputPaths, inputPath) } } return inputPaths, nil } func (a *aqueryArtifactHandler) artifactPathsFromDepsetHash(depsetHash string) ([]string, error) { if result, exists := a.depsetHashToArtifactPathsCache[depsetHash]; exists { return result, nil } if depset, exists := a.depsetHashToAqueryDepset[depsetHash]; exists { result := depset.DirectArtifacts for _, childHash := range depset.TransitiveDepSetHashes { childArtifactIds, err := a.artifactPathsFromDepsetHash(childHash) if err != nil { return nil, err } result = append(result, childArtifactIds...) } a.depsetHashToArtifactPathsCache[depsetHash] = result return result, nil } else { return nil, fmt.Errorf("undefined input depset hash %s", depsetHash) } } // AqueryBuildStatements returns a slice of BuildStatements and a slice of AqueryDepset // which should be registered (and output to a ninja file) to correspond with Bazel's // action graph, as described by the given action graph json proto. // BuildStatements are one-to-one with actions in the given action graph, and AqueryDepsets // are one-to-one with Bazel's depSetOfFiles objects. func AqueryBuildStatements(aqueryJsonProto []byte) ([]BuildStatement, []AqueryDepset, error) { var aqueryResult actionGraphContainer err := json.Unmarshal(aqueryJsonProto, &aqueryResult) if err != nil { return nil, nil, err } aqueryHandler, err := newAqueryHandler(aqueryResult) if err != nil { return nil, nil, err } var buildStatements []BuildStatement for _, actionEntry := range aqueryResult.Actions { if shouldSkipAction(actionEntry) { continue } var buildStatement BuildStatement if isSymlinkAction(actionEntry) { buildStatement, err = aqueryHandler.symlinkActionBuildStatement(actionEntry) } else if isTemplateExpandAction(actionEntry) && len(actionEntry.Arguments) < 1 { buildStatement, err = aqueryHandler.templateExpandActionBuildStatement(actionEntry) } else if isPythonZipperAction(actionEntry) { buildStatement, err = aqueryHandler.pythonZipperActionBuildStatement(actionEntry, buildStatements) } else if len(actionEntry.Arguments) < 1 { return nil, nil, fmt.Errorf("received action with no command: [%s]", actionEntry.Mnemonic) } else { buildStatement, err = aqueryHandler.normalActionBuildStatement(actionEntry) } if err != nil { return nil, nil, err } buildStatements = append(buildStatements, buildStatement) } depsetsByHash := map[string]AqueryDepset{} var depsets []AqueryDepset for _, aqueryDepset := range aqueryHandler.depsetIdToAqueryDepset { if prevEntry, hasKey := depsetsByHash[aqueryDepset.ContentHash]; hasKey { // Two depsets collide on hash. Ensure that their contents are identical. if !reflect.DeepEqual(aqueryDepset, prevEntry) { return nil, nil, fmt.Errorf("Two different depsets have the same hash: %v, %v", prevEntry, aqueryDepset) } } else { depsetsByHash[aqueryDepset.ContentHash] = aqueryDepset depsets = append(depsets, aqueryDepset) } } // Build Statements and depsets must be sorted by their content hash to // preserve determinism between builds (this will result in consistent ninja file // output). Note they are not sorted by their original IDs nor their Bazel ordering, // as Bazel gives nondeterministic ordering / identifiers in aquery responses. sort.Slice(buildStatements, func(i, j int) bool { // For build statements, compare output lists. In Bazel, each output file // may only have one action which generates it, so this will provide // a deterministic ordering. outputs_i := buildStatements[i].OutputPaths outputs_j := buildStatements[j].OutputPaths if len(outputs_i) != len(outputs_j) { return len(outputs_i) < len(outputs_j) } if len(outputs_i) == 0 { // No outputs for these actions, so compare commands. return buildStatements[i].Command < buildStatements[j].Command } // There may be multiple outputs, but the output ordering is deterministic. return outputs_i[0] < outputs_j[0] }) sort.Slice(depsets, func(i, j int) bool { return depsets[i].ContentHash < depsets[j].ContentHash }) return buildStatements, depsets, nil } // depsetContentHash computes and returns a SHA256 checksum of the contents of // the given depset. This content hash may serve as the depset's identifier. // Using a content hash for an identifier is superior for determinism. (For example, // using an integer identifier which depends on the order in which the depsets are // created would result in nondeterministic depset IDs.) func depsetContentHash(directPaths []string, transitiveDepsetHashes []string) string { h := sha256.New() // Use newline as delimiter, as paths cannot contain newline. h.Write([]byte(strings.Join(directPaths, "\n"))) h.Write([]byte(strings.Join(transitiveDepsetHashes, ""))) fullHash := base64.RawURLEncoding.EncodeToString(h.Sum(nil)) return fullHash } func (a *aqueryArtifactHandler) depsetContentHashes(inputDepsetIds []depsetId) ([]string, error) { var hashes []string for _, depsetId := range inputDepsetIds { if aqueryDepset, exists := a.depsetIdToAqueryDepset[depsetId]; !exists { return nil, fmt.Errorf("undefined input depsetId %d", depsetId) } else { hashes = append(hashes, aqueryDepset.ContentHash) } } return hashes, nil } func (a *aqueryArtifactHandler) normalActionBuildStatement(actionEntry action) (BuildStatement, error) { command := strings.Join(proptools.ShellEscapeListIncludingSpaces(actionEntry.Arguments), " ") inputDepsetHashes, err := a.depsetContentHashes(actionEntry.InputDepSetIds) if err != nil { return BuildStatement{}, err } outputPaths, depfile, err := a.getOutputPaths(actionEntry) if err != nil { return BuildStatement{}, err } buildStatement := BuildStatement{ Command: command, Depfile: depfile, OutputPaths: outputPaths, InputDepsetHashes: inputDepsetHashes, Env: actionEntry.EnvironmentVariables, Mnemonic: actionEntry.Mnemonic, } return buildStatement, nil } func (a *aqueryArtifactHandler) pythonZipperActionBuildStatement(actionEntry action, prevBuildStatements []BuildStatement) (BuildStatement, error) { inputPaths, err := a.getInputPaths(actionEntry.InputDepSetIds) if err != nil { return BuildStatement{}, err } outputPaths, depfile, err := a.getOutputPaths(actionEntry) if err != nil { return BuildStatement{}, err } if len(inputPaths) < 1 || len(outputPaths) != 1 { return BuildStatement{}, fmt.Errorf("Expect 1+ input and 1 output to python zipper action, got: input %q, output %q", inputPaths, outputPaths) } command := strings.Join(proptools.ShellEscapeListIncludingSpaces(actionEntry.Arguments), " ") inputPaths, command = removePy3wrapperScript(inputPaths, command) command = addCommandForPyBinaryRunfilesDir(command, inputPaths[0], outputPaths[0]) // Add the python zip file as input of the corresponding python binary stub script in Ninja build statements. // In Ninja build statements, the outputs of dependents of a python binary have python binary stub script as input, // which is not sufficient without the python zip file from which runfiles directory is created for py_binary. // // The following logic relies on that Bazel aquery output returns actions in the order that // PythonZipper is after TemplateAction of creating Python binary stub script. If later Bazel doesn't return actions // in that order, the following logic might not find the build statement generated for Python binary // stub script and the build might fail. So the check of pyBinaryFound is added to help debug in case later Bazel might change aquery output. // See go/python-binary-host-mixed-build for more details. pythonZipFilePath := outputPaths[0] pyBinaryFound := false for i := range prevBuildStatements { if len(prevBuildStatements[i].OutputPaths) == 1 && prevBuildStatements[i].OutputPaths[0]+".zip" == pythonZipFilePath { prevBuildStatements[i].InputPaths = append(prevBuildStatements[i].InputPaths, pythonZipFilePath) pyBinaryFound = true } } if !pyBinaryFound { return BuildStatement{}, fmt.Errorf("Could not find the correspondinging Python binary stub script of PythonZipper: %q", outputPaths) } buildStatement := BuildStatement{ Command: command, Depfile: depfile, OutputPaths: outputPaths, InputPaths: inputPaths, Env: actionEntry.EnvironmentVariables, Mnemonic: actionEntry.Mnemonic, } return buildStatement, nil } func (a *aqueryArtifactHandler) templateExpandActionBuildStatement(actionEntry action) (BuildStatement, error) { outputPaths, depfile, err := a.getOutputPaths(actionEntry) if err != nil { return BuildStatement{}, err } if len(outputPaths) != 1 { return BuildStatement{}, fmt.Errorf("Expect 1 output to template expand action, got: output %q", outputPaths) } expandedTemplateContent := expandTemplateContent(actionEntry) // The expandedTemplateContent is escaped for being used in double quotes and shell unescape, // and the new line characters (\n) are also changed to \\n which avoids some Ninja escape on \n, which might // change \n to space and mess up the format of Python programs. // sed is used to convert \\n back to \n before saving to output file. // See go/python-binary-host-mixed-build for more details. command := fmt.Sprintf(`/bin/bash -c 'echo "%[1]s" | sed "s/\\\\n/\\n/g" > %[2]s && chmod a+x %[2]s'`, escapeCommandlineArgument(expandedTemplateContent), outputPaths[0]) inputDepsetHashes, err := a.depsetContentHashes(actionEntry.InputDepSetIds) if err != nil { return BuildStatement{}, err } buildStatement := BuildStatement{ Command: command, Depfile: depfile, OutputPaths: outputPaths, InputDepsetHashes: inputDepsetHashes, Env: actionEntry.EnvironmentVariables, Mnemonic: actionEntry.Mnemonic, } return buildStatement, nil } func (a *aqueryArtifactHandler) symlinkActionBuildStatement(actionEntry action) (BuildStatement, error) { outputPaths, depfile, err := a.getOutputPaths(actionEntry) if err != nil { return BuildStatement{}, err } inputPaths, err := a.getInputPaths(actionEntry.InputDepSetIds) if err != nil { return BuildStatement{}, err } if len(inputPaths) != 1 || len(outputPaths) != 1 { return BuildStatement{}, fmt.Errorf("Expect 1 input and 1 output to symlink action, got: input %q, output %q", inputPaths, outputPaths) } out := outputPaths[0] outDir := proptools.ShellEscapeIncludingSpaces(filepath.Dir(out)) out = proptools.ShellEscapeIncludingSpaces(out) in := filepath.Join("$PWD", proptools.ShellEscapeIncludingSpaces(inputPaths[0])) // Use absolute paths, because some soong actions don't play well with relative paths (for example, `cp -d`). command := fmt.Sprintf("mkdir -p %[1]s && rm -f %[2]s && ln -sf %[3]s %[2]s", outDir, out, in) symlinkPaths := outputPaths[:] buildStatement := BuildStatement{ Command: command, Depfile: depfile, OutputPaths: outputPaths, InputPaths: inputPaths, Env: actionEntry.EnvironmentVariables, Mnemonic: actionEntry.Mnemonic, SymlinkPaths: symlinkPaths, } return buildStatement, nil } func (a *aqueryArtifactHandler) getOutputPaths(actionEntry action) (outputPaths []string, depfile *string, err error) { for _, outputId := range actionEntry.OutputIds { outputPath, exists := a.artifactIdToPath[outputId] if !exists { err = fmt.Errorf("undefined outputId %d", outputId) return } ext := filepath.Ext(outputPath) if ext == ".d" { if depfile != nil { err = fmt.Errorf("found multiple potential depfiles %q, %q", *depfile, outputPath) return } else { depfile = &outputPath } } else { outputPaths = append(outputPaths, outputPath) } } return } // expandTemplateContent substitutes the tokens in a template. func expandTemplateContent(actionEntry action) string { replacerString := []string{} for _, pair := range actionEntry.Substitutions { value := pair.Value if val, ok := templateActionOverriddenTokens[pair.Key]; ok { value = val } replacerString = append(replacerString, pair.Key, value) } replacer := strings.NewReplacer(replacerString...) return replacer.Replace(actionEntry.TemplateContent) } func escapeCommandlineArgument(str string) string { // \->\\, $->\$, `->\`, "->\", \n->\\n, '->'"'"' replacer := strings.NewReplacer( `\`, `\\`, `$`, `\$`, "`", "\\`", `"`, `\"`, "\n", "\\n", `'`, `'"'"'`, ) return replacer.Replace(str) } // removePy3wrapperScript removes py3wrapper.sh from the input paths and command of the action of // creating python zip file in mixed build mode. py3wrapper.sh is returned as input by aquery but // there is no action returned by aquery for creating it. So in mixed build "python3" is used // as the PYTHON_BINARY in python binary stub script, and py3wrapper.sh is not needed and should be // removed from input paths and command of creating python zip file. // See go/python-binary-host-mixed-build for more details. // TODO(b/205879240) remove this after py3wrapper.sh could be created in the mixed build mode. func removePy3wrapperScript(inputPaths []string, command string) (newInputPaths []string, newCommand string) { // Remove from inputs filteredInputPaths := []string{} for _, path := range inputPaths { if !strings.HasSuffix(path, py3wrapperFileName) { filteredInputPaths = append(filteredInputPaths, path) } } newInputPaths = filteredInputPaths // Remove from command line var re = regexp.MustCompile(`\S*` + py3wrapperFileName) newCommand = re.ReplaceAllString(command, "") return } // addCommandForPyBinaryRunfilesDir adds commands creating python binary runfiles directory. // runfiles directory is created by using MANIFEST file and MANIFEST file is the output of // SourceSymlinkManifest action is in aquery output of Bazel py_binary targets, // but since SourceSymlinkManifest doesn't contain sufficient information // so MANIFEST file could not be created, which also blocks the creation of runfiles directory. // See go/python-binary-host-mixed-build for more details. // TODO(b/197135294) create runfiles directory from MANIFEST file once it can be created from SourceSymlinkManifest action. func addCommandForPyBinaryRunfilesDir(oldCommand string, zipperCommandPath, zipFilePath string) string { // Unzip the zip file, zipFilePath looks like .zip runfilesDirName := zipFilePath[0:len(zipFilePath)-4] + ".runfiles" command := fmt.Sprintf("%s x %s -d %s", zipperCommandPath, zipFilePath, runfilesDirName) // Create a symbolic link in .runfiles/, which is the expected structure // when running the python binary stub script. command += fmt.Sprintf(" && ln -sf runfiles/__main__ %s", runfilesDirName) return oldCommand + " && " + command } func isSymlinkAction(a action) bool { return a.Mnemonic == "Symlink" || a.Mnemonic == "SolibSymlink" || a.Mnemonic == "ExecutableSymlink" } func isTemplateExpandAction(a action) bool { return a.Mnemonic == "TemplateExpand" } func isPythonZipperAction(a action) bool { return a.Mnemonic == "PythonZipper" } func shouldSkipAction(a action) bool { // TODO(b/180945121): Handle complex symlink actions. if a.Mnemonic == "SymlinkTree" || a.Mnemonic == "SourceSymlinkManifest" { return true } // Middleman actions are not handled like other actions; they are handled separately as a // preparatory step so that their inputs may be relayed to actions depending on middleman // artifacts. if a.Mnemonic == "Middleman" { return true } // Skip "Fail" actions, which are placeholder actions designed to always fail. if a.Mnemonic == "Fail" { return true } // TODO(b/180946980): Handle FileWrite. The aquery proto currently contains no information // about the contents that are written. if a.Mnemonic == "FileWrite" { return true } return false } func expandPathFragment(id pathFragmentId, pathFragmentsMap map[pathFragmentId]pathFragment) (string, error) { var labels []string currId := id // Only positive IDs are valid for path fragments. An ID of zero indicates a terminal node. for currId > 0 { currFragment, ok := pathFragmentsMap[currId] if !ok { return "", fmt.Errorf("undefined path fragment id %d", currId) } labels = append([]string{currFragment.Label}, labels...) if currId == currFragment.ParentId { return "", fmt.Errorf("Fragment cannot refer to itself as parent %#v", currFragment) } currId = currFragment.ParentId } return filepath.Join(labels...), nil }