// 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 ( "encoding/json" "fmt" "path/filepath" "strings" "github.com/google/blueprint/proptools" ) // 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 int PathFragmentId int } type pathFragment struct { Id int Label string ParentId int } // KeyValuePair represents Bazel's aquery proto, KeyValuePair. type KeyValuePair struct { Key string Value 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 int DirectArtifactIds []int TransitiveDepSetIds []int } // 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 []int Mnemonic string OutputIds []int } // 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 OutputPaths []string InputPaths []string Env []KeyValuePair Mnemonic string } // AqueryBuildStatements returns an array of BuildStatements which should be registered (and output // to a ninja file) to correspond one-to-one with the given action graph json proto (from a bazel // aquery invocation). func AqueryBuildStatements(aqueryJsonProto []byte) ([]BuildStatement, error) { buildStatements := []BuildStatement{} var aqueryResult actionGraphContainer err := json.Unmarshal(aqueryJsonProto, &aqueryResult) if err != nil { return nil, err } pathFragments := map[int]pathFragment{} for _, pathFragment := range aqueryResult.PathFragments { pathFragments[pathFragment.Id] = pathFragment } artifactIdToPath := map[int]string{} for _, artifact := range aqueryResult.Artifacts { artifactPath, err := expandPathFragment(artifact.PathFragmentId, pathFragments) if err != nil { return nil, err } artifactIdToPath[artifact.Id] = artifactPath } depsetIdToDepset := map[int]depSetOfFiles{} for _, depset := range aqueryResult.DepSetOfFiles { depsetIdToDepset[depset.Id] = depset } // depsetIdToArtifactIdsCache is a memoization of depset flattening, because flattening // may be an expensive operation. depsetIdToArtifactIdsCache := map[int][]int{} // Do a pass through all actions to identify which artifacts are middleman artifacts. // These will be omitted from the inputs of other actions. // TODO(b/180945500): Handle middleman actions; without proper handling, depending on generated // headers may cause build failures. middlemanArtifactIds := map[int]bool{} for _, actionEntry := range aqueryResult.Actions { if actionEntry.Mnemonic == "Middleman" { for _, outputId := range actionEntry.OutputIds { middlemanArtifactIds[outputId] = true } } } for _, actionEntry := range aqueryResult.Actions { if shouldSkipAction(actionEntry) { continue } outputPaths := []string{} for _, outputId := range actionEntry.OutputIds { outputPath, exists := artifactIdToPath[outputId] if !exists { return nil, fmt.Errorf("undefined outputId %d", outputId) } outputPaths = append(outputPaths, outputPath) } inputPaths := []string{} for _, inputDepSetId := range actionEntry.InputDepSetIds { inputArtifacts, err := artifactIdsFromDepsetId(depsetIdToDepset, depsetIdToArtifactIdsCache, inputDepSetId) if err != nil { return nil, err } for _, inputId := range inputArtifacts { if _, isMiddlemanArtifact := middlemanArtifactIds[inputId]; isMiddlemanArtifact { // Omit middleman artifacts. continue } inputPath, exists := artifactIdToPath[inputId] if !exists { return nil, fmt.Errorf("undefined input artifactId %d", inputId) } inputPaths = append(inputPaths, inputPath) } } buildStatement := BuildStatement{ Command: strings.Join(proptools.ShellEscapeList(actionEntry.Arguments), " "), OutputPaths: outputPaths, InputPaths: inputPaths, Env: actionEntry.EnvironmentVariables, Mnemonic: actionEntry.Mnemonic} if len(actionEntry.Arguments) < 1 { return nil, fmt.Errorf("received action with no command: [%s]", buildStatement) continue } buildStatements = append(buildStatements, buildStatement) } return buildStatements, nil } func shouldSkipAction(a action) bool { // TODO(b/180945121): Handle symlink actions. if a.Mnemonic == "Symlink" || a.Mnemonic == "SourceSymlinkManifest" || a.Mnemonic == "SymlinkTree" { return true } // TODO(b/180945500): Handle middleman actions; without proper handling, depending on generated // headers may cause build failures. 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 artifactIdsFromDepsetId(depsetIdToDepset map[int]depSetOfFiles, depsetIdToArtifactIdsCache map[int][]int, depsetId int) ([]int, error) { if result, exists := depsetIdToArtifactIdsCache[depsetId]; exists { return result, nil } if depset, exists := depsetIdToDepset[depsetId]; exists { result := depset.DirectArtifactIds for _, childId := range depset.TransitiveDepSetIds { childArtifactIds, err := artifactIdsFromDepsetId(depsetIdToDepset, depsetIdToArtifactIdsCache, childId) if err != nil { return nil, err } result = append(result, childArtifactIds...) } depsetIdToArtifactIdsCache[depsetId] = result return result, nil } else { return nil, fmt.Errorf("undefined input depsetId %d", depsetId) } } func expandPathFragment(id int, pathFragmentsMap map[int]pathFragment) (string, error) { 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...) currId = currFragment.ParentId } return filepath.Join(labels...), nil }