// Copyright 2020 The Gitea Authors. All rights reserved. // SPDX-License-Identifier: MIT package archiver import ( "context" "errors" "fmt" "io" "os" "strings" "time" "code.gitea.io/gitea/models/db" repo_model "code.gitea.io/gitea/models/repo" "code.gitea.io/gitea/modules/git" "code.gitea.io/gitea/modules/gitrepo" "code.gitea.io/gitea/modules/graceful" "code.gitea.io/gitea/modules/log" "code.gitea.io/gitea/modules/process" "code.gitea.io/gitea/modules/queue" "code.gitea.io/gitea/modules/setting" "code.gitea.io/gitea/modules/storage" ) // ArchiveRequest defines the parameters of an archive request, which notably // includes the specific repository being archived as well as the commit, the // name by which it was requested, and the kind of archive being requested. // This is entirely opaque to external entities, though, and mostly used as a // handle elsewhere. type ArchiveRequest struct { RepoID int64 refName string Type git.ArchiveType CommitID string ReleaseID int64 } // ErrUnknownArchiveFormat request archive format is not supported type ErrUnknownArchiveFormat struct { RequestFormat string } // Error implements error func (err ErrUnknownArchiveFormat) Error() string { return fmt.Sprintf("unknown format: %s", err.RequestFormat) } // Is implements error func (ErrUnknownArchiveFormat) Is(err error) bool { _, ok := err.(ErrUnknownArchiveFormat) return ok } // RepoRefNotFoundError is returned when a requested reference (commit, tag) was not found. type RepoRefNotFoundError struct { RefName string } // Error implements error. func (e RepoRefNotFoundError) Error() string { return fmt.Sprintf("unrecognized repository reference: %s", e.RefName) } func (e RepoRefNotFoundError) Is(err error) bool { _, ok := err.(RepoRefNotFoundError) return ok } func ParseFileName(uri string) (ext string, tp git.ArchiveType, err error) { switch { case strings.HasSuffix(uri, ".zip"): ext = ".zip" tp = git.ZIP case strings.HasSuffix(uri, ".tar.gz"): ext = ".tar.gz" tp = git.TARGZ case strings.HasSuffix(uri, ".bundle"): ext = ".bundle" tp = git.BUNDLE default: return "", 0, ErrUnknownArchiveFormat{RequestFormat: uri} } return ext, tp, nil } // NewRequest creates an archival request, based on the URI. The // resulting ArchiveRequest is suitable for being passed to Await() // if it's determined that the request still needs to be satisfied. func NewRequest(ctx context.Context, repoID int64, repo *git.Repository, refName string, fileType git.ArchiveType) (*ArchiveRequest, error) { if fileType < git.ZIP || fileType > git.BUNDLE { return nil, ErrUnknownArchiveFormat{RequestFormat: fileType.String()} } r := &ArchiveRequest{ RepoID: repoID, refName: refName, Type: fileType, } // Get corresponding commit. commitID, err := repo.ConvertToGitID(r.refName) if err != nil { return nil, RepoRefNotFoundError{RefName: r.refName} } r.CommitID = commitID.String() release, err := repo_model.GetRelease(ctx, repoID, r.refName) if err != nil { if !repo_model.IsErrReleaseNotExist(err) { return nil, err } } if release != nil { r.ReleaseID = release.ID } return r, nil } // GetArchiveName returns the name of the caller, based on the ref used by the // caller to create this request. func (aReq *ArchiveRequest) GetArchiveName() string { return strings.ReplaceAll(aReq.refName, "/", "-") + "." + aReq.Type.String() } // Await awaits the completion of an ArchiveRequest. If the archive has // already been prepared the method returns immediately. Otherwise an archiver // process will be started and its completion awaited. On success the returned // RepoArchiver may be used to download the archive. Note that even if the // context is cancelled/times out a started archiver will still continue to run // in the background. func (aReq *ArchiveRequest) Await(ctx context.Context) (*repo_model.RepoArchiver, error) { archiver, err := repo_model.GetRepoArchiver(ctx, aReq.RepoID, aReq.Type, aReq.CommitID) if err != nil { return nil, fmt.Errorf("models.GetRepoArchiver: %w", err) } if archiver != nil { archiver.ReleaseID = aReq.ReleaseID } if archiver != nil && archiver.Status == repo_model.ArchiverReady { // Archive already generated, we're done. return archiver, nil } if err := StartArchive(aReq); err != nil { return nil, fmt.Errorf("archiver.StartArchive: %w", err) } poll := time.NewTicker(time.Second * 1) defer poll.Stop() for { select { case <-graceful.GetManager().HammerContext().Done(): // System stopped. return nil, graceful.GetManager().HammerContext().Err() case <-ctx.Done(): return nil, ctx.Err() case <-poll.C: archiver, err = repo_model.GetRepoArchiver(ctx, aReq.RepoID, aReq.Type, aReq.CommitID) if err != nil { return nil, fmt.Errorf("repo_model.GetRepoArchiver: %w", err) } if archiver != nil && archiver.Status == repo_model.ArchiverReady { archiver.ReleaseID = aReq.ReleaseID return archiver, nil } } } } // doArchive satisfies the ArchiveRequest being passed in. Processing // will occur in a separate goroutine, as this phase may take a while to // complete. If the archive already exists, doArchive will not do // anything. In all cases, the caller should be examining the *ArchiveRequest // being returned for completion, as it may be different than the one they passed // in. func doArchive(ctx context.Context, r *ArchiveRequest) (*repo_model.RepoArchiver, error) { ctx, _, finished := process.GetManager().AddContext(ctx, fmt.Sprintf("ArchiveRequest[%d]: %s", r.RepoID, r.GetArchiveName())) defer finished() archiver, err := repo_model.GetRepoArchiver(ctx, r.RepoID, r.Type, r.CommitID) if err != nil { return nil, err } if archiver != nil { // FIXME: If another process are generating it, we think it's not ready and just return // Or we should wait until the archive generated. if archiver.Status == repo_model.ArchiverGenerating { return nil, nil } } else { archiver = &repo_model.RepoArchiver{ RepoID: r.RepoID, Type: r.Type, CommitID: r.CommitID, Status: repo_model.ArchiverGenerating, } if err := db.Insert(ctx, archiver); err != nil { return nil, err } } rPath := archiver.RelativePath() _, err = storage.RepoArchives.Stat(rPath) if err == nil { if archiver.Status == repo_model.ArchiverGenerating { archiver.Status = repo_model.ArchiverReady if err = repo_model.UpdateRepoArchiverStatus(ctx, archiver); err != nil { return nil, err } } return archiver, nil } if !errors.Is(err, os.ErrNotExist) { return nil, fmt.Errorf("unable to stat archive: %w", err) } rd, w := io.Pipe() defer func() { w.Close() rd.Close() }() done := make(chan error, 1) // Ensure that there is some capacity which will ensure that the goroutine below can always finish repo, err := repo_model.GetRepositoryByID(ctx, archiver.RepoID) if err != nil { return nil, fmt.Errorf("archiver.LoadRepo failed: %w", err) } gitRepo, err := gitrepo.OpenRepository(ctx, repo) if err != nil { return nil, err } defer gitRepo.Close() go func(done chan error, w *io.PipeWriter, archiver *repo_model.RepoArchiver, gitRepo *git.Repository) { defer func() { if r := recover(); r != nil { done <- fmt.Errorf("%v", r) } }() if archiver.Type == git.BUNDLE { err = gitRepo.CreateBundle( ctx, archiver.CommitID, w, ) } else { err = gitRepo.CreateArchive( ctx, archiver.Type, w, setting.Repository.PrefixArchiveFiles, archiver.CommitID, ) } _ = w.CloseWithError(err) done <- err }(done, w, archiver, gitRepo) // TODO: add lfs data to zip // TODO: add submodule data to zip if _, err := storage.RepoArchives.Save(rPath, rd, -1); err != nil { return nil, fmt.Errorf("unable to write archive: %w", err) } err = <-done if err != nil { return nil, err } if archiver.Status == repo_model.ArchiverGenerating { archiver.Status = repo_model.ArchiverReady if err = repo_model.UpdateRepoArchiverStatus(ctx, archiver); err != nil { return nil, err } } return archiver, nil } var archiverQueue *queue.WorkerPoolQueue[*ArchiveRequest] // Init initializes archiver func Init(ctx context.Context) error { handler := func(items ...*ArchiveRequest) []*ArchiveRequest { for _, archiveReq := range items { log.Trace("ArchiverData Process: %#v", archiveReq) if archiver, err := doArchive(ctx, archiveReq); err != nil { log.Error("Archive %v failed: %v", archiveReq, err) } else { log.Trace("ArchiverData Success: %#v", archiver) } } return nil } archiverQueue = queue.CreateUniqueQueue(graceful.GetManager().ShutdownContext(), "repo-archive", handler) if archiverQueue == nil { return errors.New("unable to create repo-archive queue") } go graceful.GetManager().RunWithCancel(archiverQueue) return nil } // StartArchive push the archive request to the queue func StartArchive(request *ArchiveRequest) error { has, err := archiverQueue.Has(request) if err != nil { return err } if has { return nil } return archiverQueue.Push(request) } func deleteOldRepoArchiver(ctx context.Context, archiver *repo_model.RepoArchiver) error { if _, err := db.DeleteByID[repo_model.RepoArchiver](ctx, archiver.ID); err != nil { return err } p := archiver.RelativePath() if err := storage.RepoArchives.Delete(p); err != nil { log.Error("delete repo archive file failed: %v", err) } return nil } // DeleteOldRepositoryArchives deletes old repository archives. func DeleteOldRepositoryArchives(ctx context.Context, olderThan time.Duration) error { log.Trace("Doing: ArchiveCleanup") for { archivers, err := db.Find[repo_model.RepoArchiver](ctx, repo_model.FindRepoArchiversOption{ ListOptions: db.ListOptions{ PageSize: 100, Page: 1, }, OlderThan: olderThan, }) if err != nil { log.Trace("Error: ArchiveClean: %v", err) return err } for _, archiver := range archivers { if err := deleteOldRepoArchiver(ctx, archiver); err != nil { return err } } if len(archivers) < 100 { break } } log.Trace("Finished: ArchiveCleanup") return nil } // DeleteRepositoryArchives deletes all repositories' archives. func DeleteRepositoryArchives(ctx context.Context) error { if err := repo_model.DeleteAllRepoArchives(ctx); err != nil { return err } return storage.Clean(storage.RepoArchives) }