package main import ( "fmt" "io" "os" "path" "strings" "github.com/emirpasic/gods/trees/binaryheap" "gopkg.in/src-d/go-git.v4" . "gopkg.in/src-d/go-git.v4/_examples" "gopkg.in/src-d/go-git.v4/plumbing" "gopkg.in/src-d/go-git.v4/plumbing/cache" commitgraph_fmt "gopkg.in/src-d/go-git.v4/plumbing/format/commitgraph" "gopkg.in/src-d/go-git.v4/plumbing/object" "gopkg.in/src-d/go-git.v4/plumbing/object/commitgraph" "gopkg.in/src-d/go-git.v4/storage/filesystem" "gopkg.in/src-d/go-billy.v4" "gopkg.in/src-d/go-billy.v4/osfs" ) // Example how to resolve a revision into its commit counterpart func main() { CheckArgs("", "", "") path := os.Args[1] revision := os.Args[2] treePath := os.Args[3] // We instantiate a new repository targeting the given path (the .git folder) fs := osfs.New(path) s := filesystem.NewStorageWithOptions(fs, cache.NewObjectLRUDefault(), filesystem.Options{KeepDescriptors: true}) r, err := git.Open(s, fs) CheckIfError(err) // Resolve revision into a sha1 commit, only some revisions are resolved // look at the doc to get more details Info("git rev-parse %s", revision) h, err := r.ResolveRevision(plumbing.Revision(revision)) CheckIfError(err) commit, err := r.CommitObject(*h) CheckIfError(err) tree, err := commit.Tree() CheckIfError(err) if treePath != "" { tree, err = tree.Tree(treePath) CheckIfError(err) } var paths []string for _, entry := range tree.Entries { paths = append(paths, entry.Name) } commitNodeIndex, file := getCommitNodeIndex(r, fs) if file != nil { defer file.Close() } commitNode, err := commitNodeIndex.Get(*h) CheckIfError(err) revs, err := getLastCommitForPaths(commitNode, treePath, paths) CheckIfError(err) for path, rev := range revs { // Print one line per file (name hash message) hash := rev.Hash.String() line := strings.Split(rev.Message, "\n") fmt.Println(path, hash[:7], line[0]) } s.Close() } func getCommitNodeIndex(r *git.Repository, fs billy.Filesystem) (commitgraph.CommitNodeIndex, io.ReadCloser) { file, err := fs.Open(path.Join("objects", "info", "commit-graph")) if err == nil { index, err := commitgraph_fmt.OpenFileIndex(file) if err == nil { return commitgraph.NewGraphCommitNodeIndex(index, r.Storer), file } file.Close() } return commitgraph.NewObjectCommitNodeIndex(r.Storer), nil } type commitAndPaths struct { commit commitgraph.CommitNode // Paths that are still on the branch represented by commit paths []string // Set of hashes for the paths hashes map[string]plumbing.Hash } func getCommitTree(c commitgraph.CommitNode, treePath string) (*object.Tree, error) { tree, err := c.Tree() if err != nil { return nil, err } // Optimize deep traversals by focusing only on the specific tree if treePath != "" { tree, err = tree.Tree(treePath) if err != nil { return nil, err } } return tree, nil } func getFullPath(treePath, path string) string { if treePath != "" { if path != "" { return treePath + "/" + path } return treePath } return path } func getFileHashes(c commitgraph.CommitNode, treePath string, paths []string) (map[string]plumbing.Hash, error) { tree, err := getCommitTree(c, treePath) if err == object.ErrDirectoryNotFound { // The whole tree didn't exist, so return empty map return make(map[string]plumbing.Hash), nil } if err != nil { return nil, err } hashes := make(map[string]plumbing.Hash) for _, path := range paths { if path != "" { entry, err := tree.FindEntry(path) if err == nil { hashes[path] = entry.Hash } } else { hashes[path] = tree.Hash } } return hashes, nil } func getLastCommitForPaths(c commitgraph.CommitNode, treePath string, paths []string) (map[string]*object.Commit, error) { // We do a tree traversal with nodes sorted by commit time heap := binaryheap.NewWith(func(a, b interface{}) int { if a.(*commitAndPaths).commit.CommitTime().Before(b.(*commitAndPaths).commit.CommitTime()) { return 1 } return -1 }) resultNodes := make(map[string]commitgraph.CommitNode) initialHashes, err := getFileHashes(c, treePath, paths) if err != nil { return nil, err } // Start search from the root commit and with full set of paths heap.Push(&commitAndPaths{c, paths, initialHashes}) for { cIn, ok := heap.Pop() if !ok { break } current := cIn.(*commitAndPaths) // Load the parent commits for the one we are currently examining numParents := current.commit.NumParents() var parents []commitgraph.CommitNode for i := 0; i < numParents; i++ { parent, err := current.commit.ParentNode(i) if err != nil { break } parents = append(parents, parent) } // Examine the current commit and set of interesting paths pathUnchanged := make([]bool, len(current.paths)) parentHashes := make([]map[string]plumbing.Hash, len(parents)) for j, parent := range parents { parentHashes[j], err = getFileHashes(parent, treePath, current.paths) if err != nil { break } for i, path := range current.paths { if parentHashes[j][path] == current.hashes[path] { pathUnchanged[i] = true } } } var remainingPaths []string for i, path := range current.paths { // The results could already contain some newer change for the same path, // so don't override that and bail out on the file early. if resultNodes[path] == nil { if pathUnchanged[i] { // The path existed with the same hash in at least one parent so it could // not have been changed in this commit directly. remainingPaths = append(remainingPaths, path) } else { // There are few possible cases how can we get here: // - The path didn't exist in any parent, so it must have been created by // this commit. // - The path did exist in the parent commit, but the hash of the file has // changed. // - We are looking at a merge commit and the hash of the file doesn't // match any of the hashes being merged. This is more common for directories, // but it can also happen if a file is changed through conflict resolution. resultNodes[path] = current.commit } } } if len(remainingPaths) > 0 { // Add the parent nodes along with remaining paths to the heap for further // processing. for j, parent := range parents { // Combine remainingPath with paths available on the parent branch // and make union of them remainingPathsForParent := make([]string, 0, len(remainingPaths)) newRemainingPaths := make([]string, 0, len(remainingPaths)) for _, path := range remainingPaths { if parentHashes[j][path] == current.hashes[path] { remainingPathsForParent = append(remainingPathsForParent, path) } else { newRemainingPaths = append(newRemainingPaths, path) } } if remainingPathsForParent != nil { heap.Push(&commitAndPaths{parent, remainingPathsForParent, parentHashes[j]}) } if len(newRemainingPaths) == 0 { break } else { remainingPaths = newRemainingPaths } } } } // Post-processing result := make(map[string]*object.Commit) for path, commitNode := range resultNodes { var err error result[path], err = commitNode.Commit() if err != nil { return nil, err } } return result, nil }