package archiver_test import ( "bytes" "context" "io" "testing" "time" "restic" "restic/archiver" "restic/checker" "restic/crypto" "restic/repository" . "restic/test" "restic/errors" "github.com/restic/chunker" ) var testPol = chunker.Pol(0x3DA3358B4DC173) type Rdr interface { io.ReadSeeker io.ReaderAt } func benchmarkChunkEncrypt(b testing.TB, buf, buf2 []byte, rd Rdr, key *crypto.Key) { rd.Seek(0, 0) ch := chunker.New(rd, testPol) for { chunk, err := ch.Next(buf) if errors.Cause(err) == io.EOF { break } OK(b, err) // reduce length of buf Assert(b, uint(len(chunk.Data)) == chunk.Length, "invalid length: got %d, expected %d", len(chunk.Data), chunk.Length) _, err = key.Encrypt(buf2, chunk.Data) OK(b, err) } } func BenchmarkChunkEncrypt(b *testing.B) { repo, cleanup := repository.TestRepository(b) defer cleanup() data := Random(23, 10<<20) // 10MiB rd := bytes.NewReader(data) buf := make([]byte, chunker.MaxSize) buf2 := make([]byte, chunker.MaxSize) b.ResetTimer() b.SetBytes(int64(len(data))) for i := 0; i < b.N; i++ { benchmarkChunkEncrypt(b, buf, buf2, rd, repo.Key()) } } func benchmarkChunkEncryptP(b *testing.PB, buf []byte, rd Rdr, key *crypto.Key) { ch := chunker.New(rd, testPol) for { chunk, err := ch.Next(buf) if errors.Cause(err) == io.EOF { break } // reduce length of chunkBuf key.Encrypt(chunk.Data, chunk.Data) } } func BenchmarkChunkEncryptParallel(b *testing.B) { repo, cleanup := repository.TestRepository(b) defer cleanup() data := Random(23, 10<<20) // 10MiB buf := make([]byte, chunker.MaxSize) b.ResetTimer() b.SetBytes(int64(len(data))) b.RunParallel(func(pb *testing.PB) { for pb.Next() { rd := bytes.NewReader(data) benchmarkChunkEncryptP(pb, buf, rd, repo.Key()) } }) } func archiveDirectory(b testing.TB) { repo, cleanup := repository.TestRepository(b) defer cleanup() arch := archiver.New(repo) _, id, err := arch.Snapshot(context.TODO(), nil, []string{BenchArchiveDirectory}, nil, "localhost", nil) OK(b, err) b.Logf("snapshot archived as %v", id) } func TestArchiveDirectory(t *testing.T) { if BenchArchiveDirectory == "" { t.Skip("benchdir not set, skipping TestArchiveDirectory") } archiveDirectory(t) } func BenchmarkArchiveDirectory(b *testing.B) { if BenchArchiveDirectory == "" { b.Skip("benchdir not set, skipping BenchmarkArchiveDirectory") } for i := 0; i < b.N; i++ { archiveDirectory(b) } } func countPacks(repo restic.Repository, t restic.FileType) (n uint) { for range repo.Backend().List(context.TODO(), t) { n++ } return n } func archiveWithDedup(t testing.TB) { repo, cleanup := repository.TestRepository(t) defer cleanup() if BenchArchiveDirectory == "" { t.Skip("benchdir not set, skipping TestArchiverDedup") } var cnt struct { before, after, after2 struct { packs, dataBlobs, treeBlobs uint } } // archive a few files sn := archiver.TestSnapshot(t, repo, BenchArchiveDirectory, nil) t.Logf("archived snapshot %v", sn.ID().Str()) // get archive stats cnt.before.packs = countPacks(repo, restic.DataFile) cnt.before.dataBlobs = repo.Index().Count(restic.DataBlob) cnt.before.treeBlobs = repo.Index().Count(restic.TreeBlob) t.Logf("packs %v, data blobs %v, tree blobs %v", cnt.before.packs, cnt.before.dataBlobs, cnt.before.treeBlobs) // archive the same files again, without parent snapshot sn2 := archiver.TestSnapshot(t, repo, BenchArchiveDirectory, nil) t.Logf("archived snapshot %v", sn2.ID().Str()) // get archive stats again cnt.after.packs = countPacks(repo, restic.DataFile) cnt.after.dataBlobs = repo.Index().Count(restic.DataBlob) cnt.after.treeBlobs = repo.Index().Count(restic.TreeBlob) t.Logf("packs %v, data blobs %v, tree blobs %v", cnt.after.packs, cnt.after.dataBlobs, cnt.after.treeBlobs) // if there are more data blobs, something is wrong if cnt.after.dataBlobs > cnt.before.dataBlobs { t.Fatalf("TestArchiverDedup: too many data blobs in repository: before %d, after %d", cnt.before.dataBlobs, cnt.after.dataBlobs) } // archive the same files again, with a parent snapshot sn3 := archiver.TestSnapshot(t, repo, BenchArchiveDirectory, sn2.ID()) t.Logf("archived snapshot %v, parent %v", sn3.ID().Str(), sn2.ID().Str()) // get archive stats again cnt.after2.packs = countPacks(repo, restic.DataFile) cnt.after2.dataBlobs = repo.Index().Count(restic.DataBlob) cnt.after2.treeBlobs = repo.Index().Count(restic.TreeBlob) t.Logf("packs %v, data blobs %v, tree blobs %v", cnt.after2.packs, cnt.after2.dataBlobs, cnt.after2.treeBlobs) // if there are more data blobs, something is wrong if cnt.after2.dataBlobs > cnt.before.dataBlobs { t.Fatalf("TestArchiverDedup: too many data blobs in repository: before %d, after %d", cnt.before.dataBlobs, cnt.after2.dataBlobs) } } func TestArchiveDedup(t *testing.T) { archiveWithDedup(t) } // Saves several identical chunks concurrently and later checks that there are no // unreferenced packs in the repository. See also #292 and #358. func TestParallelSaveWithDuplication(t *testing.T) { for seed := 0; seed < 10; seed++ { testParallelSaveWithDuplication(t, seed) } } func testParallelSaveWithDuplication(t *testing.T, seed int) { repo, cleanup := repository.TestRepository(t) defer cleanup() dataSizeMb := 128 duplication := 7 arch := archiver.New(repo) chunks := getRandomData(seed, dataSizeMb*1024*1024) errChannels := [](<-chan error){} // interwoven processing of subsequent chunks maxParallel := 2*duplication - 1 barrier := make(chan struct{}, maxParallel) for _, c := range chunks { for dupIdx := 0; dupIdx < duplication; dupIdx++ { errChan := make(chan error) errChannels = append(errChannels, errChan) go func(c chunker.Chunk, errChan chan<- error) { barrier <- struct{}{} id := restic.Hash(c.Data) time.Sleep(time.Duration(id[0])) err := arch.Save(context.TODO(), restic.DataBlob, c.Data, id) <-barrier errChan <- err }(c, errChan) } } for _, errChan := range errChannels { OK(t, <-errChan) } OK(t, repo.Flush()) OK(t, repo.SaveIndex(context.TODO())) chkr := createAndInitChecker(t, repo) assertNoUnreferencedPacks(t, chkr) } func getRandomData(seed int, size int) []chunker.Chunk { buf := Random(seed, size) var chunks []chunker.Chunk chunker := chunker.New(bytes.NewReader(buf), testPol) for { c, err := chunker.Next(nil) if errors.Cause(err) == io.EOF { break } chunks = append(chunks, c) } return chunks } func createAndInitChecker(t *testing.T, repo restic.Repository) *checker.Checker { chkr := checker.New(repo) hints, errs := chkr.LoadIndex(context.TODO()) if len(errs) > 0 { t.Fatalf("expected no errors, got %v: %v", len(errs), errs) } if len(hints) > 0 { t.Errorf("expected no hints, got %v: %v", len(hints), hints) } return chkr } func assertNoUnreferencedPacks(t *testing.T, chkr *checker.Checker) { errChan := make(chan error) go chkr.Packs(context.TODO(), errChan) for err := range errChan { OK(t, err) } } func TestArchiveEmptySnapshot(t *testing.T) { repo, cleanup := repository.TestRepository(t) defer cleanup() arch := archiver.New(repo) sn, id, err := arch.Snapshot(context.TODO(), nil, []string{"file-does-not-exist-123123213123", "file2-does-not-exist-too-123123123"}, nil, "localhost", nil) if err == nil { t.Errorf("expected error for empty snapshot, got nil") } if !id.IsNull() { t.Errorf("expected null ID for empty snapshot, got %v", id.Str()) } if sn != nil { t.Errorf("expected null snapshot for empty snapshot, got %v", sn) } }