package tarsum import ( "archive/tar" "bytes" "compress/gzip" "crypto/md5" "crypto/rand" "crypto/sha1" "crypto/sha256" "crypto/sha512" "encoding/hex" "fmt" "io" "io/ioutil" "os" "strings" "testing" ) type testLayer struct { filename string options *sizedOptions jsonfile string gzip bool tarsum string version Version hash THash } var testLayers = []testLayer{ { filename: "testdata/46af0962ab5afeb5ce6740d4d91652e69206fc991fd5328c1a94d364ad00e457/layer.tar", jsonfile: "testdata/46af0962ab5afeb5ce6740d4d91652e69206fc991fd5328c1a94d364ad00e457/json", version: Version0, tarsum: "tarsum+sha256:4095cc12fa5fdb1ab2760377e1cd0c4ecdd3e61b4f9b82319d96fcea6c9a41c6"}, { filename: "testdata/46af0962ab5afeb5ce6740d4d91652e69206fc991fd5328c1a94d364ad00e457/layer.tar", jsonfile: "testdata/46af0962ab5afeb5ce6740d4d91652e69206fc991fd5328c1a94d364ad00e457/json", version: VersionDev, tarsum: "tarsum.dev+sha256:db56e35eec6ce65ba1588c20ba6b1ea23743b59e81fb6b7f358ccbde5580345c"}, { filename: "testdata/46af0962ab5afeb5ce6740d4d91652e69206fc991fd5328c1a94d364ad00e457/layer.tar", jsonfile: "testdata/46af0962ab5afeb5ce6740d4d91652e69206fc991fd5328c1a94d364ad00e457/json", gzip: true, tarsum: "tarsum+sha256:4095cc12fa5fdb1ab2760377e1cd0c4ecdd3e61b4f9b82319d96fcea6c9a41c6"}, { // Tests existing version of TarSum when xattrs are present filename: "testdata/xattr/layer.tar", jsonfile: "testdata/xattr/json", version: Version0, tarsum: "tarsum+sha256:07e304a8dbcb215b37649fde1a699f8aeea47e60815707f1cdf4d55d25ff6ab4"}, { // Tests next version of TarSum when xattrs are present filename: "testdata/xattr/layer.tar", jsonfile: "testdata/xattr/json", version: VersionDev, tarsum: "tarsum.dev+sha256:6c58917892d77b3b357b0f9ad1e28e1f4ae4de3a8006bd3beb8beda214d8fd16"}, { filename: "testdata/511136ea3c5a64f264b78b5433614aec563103b4d4702f3ba7d4d2698e22c158/layer.tar", jsonfile: "testdata/511136ea3c5a64f264b78b5433614aec563103b4d4702f3ba7d4d2698e22c158/json", tarsum: "tarsum+sha256:c66bd5ec9f87b8f4c6135ca37684618f486a3dd1d113b138d0a177bfa39c2571"}, { options: &sizedOptions{1, 1024 * 1024, false, false}, // a 1mb file (in memory) tarsum: "tarsum+sha256:8bf12d7e67c51ee2e8306cba569398b1b9f419969521a12ffb9d8875e8836738"}, { // this tar has two files with the same path filename: "testdata/collision/collision-0.tar", tarsum: "tarsum+sha256:08653904a68d3ab5c59e65ef58c49c1581caa3c34744f8d354b3f575ea04424a"}, { // this tar has the same two files (with the same path), but reversed order. ensuring is has different hash than above filename: "testdata/collision/collision-1.tar", tarsum: "tarsum+sha256:b51c13fbefe158b5ce420d2b930eef54c5cd55c50a2ee4abdddea8fa9f081e0d"}, { // this tar has newer of collider-0.tar, ensuring is has different hash filename: "testdata/collision/collision-2.tar", tarsum: "tarsum+sha256:381547080919bb82691e995508ae20ed33ce0f6948d41cafbeb70ce20c73ee8e"}, { // this tar has newer of collider-1.tar, ensuring is has different hash filename: "testdata/collision/collision-3.tar", tarsum: "tarsum+sha256:f886e431c08143164a676805205979cd8fa535dfcef714db5515650eea5a7c0f"}, { options: &sizedOptions{1, 1024 * 1024, false, false}, // a 1mb file (in memory) tarsum: "tarsum+md5:0d7529ec7a8360155b48134b8e599f53", hash: md5THash, }, { options: &sizedOptions{1, 1024 * 1024, false, false}, // a 1mb file (in memory) tarsum: "tarsum+sha1:f1fee39c5925807ff75ef1925e7a23be444ba4df", hash: sha1Hash, }, { options: &sizedOptions{1, 1024 * 1024, false, false}, // a 1mb file (in memory) tarsum: "tarsum+sha224:6319390c0b061d639085d8748b14cd55f697cf9313805218b21cf61c", hash: sha224Hash, }, { options: &sizedOptions{1, 1024 * 1024, false, false}, // a 1mb file (in memory) tarsum: "tarsum+sha384:a578ce3ce29a2ae03b8ed7c26f47d0f75b4fc849557c62454be4b5ffd66ba021e713b48ce71e947b43aab57afd5a7636", hash: sha384Hash, }, { options: &sizedOptions{1, 1024 * 1024, false, false}, // a 1mb file (in memory) tarsum: "tarsum+sha512:e9bfb90ca5a4dfc93c46ee061a5cf9837de6d2fdf82544d6460d3147290aecfabf7b5e415b9b6e72db9b8941f149d5d69fb17a394cbfaf2eac523bd9eae21855", hash: sha512Hash, }, } type sizedOptions struct { num int64 size int64 isRand bool realFile bool } // make a tar: // * num is the number of files the tar should have // * size is the bytes per file // * isRand is whether the contents of the files should be a random chunk (otherwise it's all zeros) // * realFile will write to a TempFile, instead of an in memory buffer func sizedTar(opts sizedOptions) io.Reader { var ( fh io.ReadWriter err error ) if opts.realFile { fh, err = ioutil.TempFile("", "tarsum") if err != nil { return nil } } else { fh = bytes.NewBuffer([]byte{}) } tarW := tar.NewWriter(fh) defer tarW.Close() for i := int64(0); i < opts.num; i++ { err := tarW.WriteHeader(&tar.Header{ Name: fmt.Sprintf("/testdata%d", i), Mode: 0755, Uid: 0, Gid: 0, Size: opts.size, }) if err != nil { return nil } var rBuf []byte if opts.isRand { rBuf = make([]byte, 8) _, err = rand.Read(rBuf) if err != nil { return nil } } else { rBuf = []byte{0, 0, 0, 0, 0, 0, 0, 0} } for i := int64(0); i < opts.size/int64(8); i++ { tarW.Write(rBuf) } } return fh } func emptyTarSum(gzip bool) (TarSum, error) { reader, writer := io.Pipe() tarWriter := tar.NewWriter(writer) // Immediately close tarWriter and write-end of the // Pipe in a separate goroutine so we don't block. go func() { tarWriter.Close() writer.Close() }() return NewTarSum(reader, !gzip, Version0) } // Test errors on NewTarsumForLabel func TestNewTarSumForLabelInvalid(t *testing.T) { reader := strings.NewReader("") if _, err := NewTarSumForLabel(reader, true, "invalidlabel"); err == nil { t.Fatalf("Expected an error, got nothing.") } if _, err := NewTarSumForLabel(reader, true, "invalid+sha256"); err == nil { t.Fatalf("Expected an error, got nothing.") } if _, err := NewTarSumForLabel(reader, true, "tarsum.v1+invalid"); err == nil { t.Fatalf("Expected an error, got nothing.") } } func TestNewTarSumForLabel(t *testing.T) { layer := testLayers[0] reader, err := os.Open(layer.filename) if err != nil { t.Fatal(err) } defer reader.Close() label := strings.Split(layer.tarsum, ":")[0] ts, err := NewTarSumForLabel(reader, false, label) if err != nil { t.Fatal(err) } // Make sure it actually worked by reading a little bit of it nbByteToRead := 8 * 1024 dBuf := make([]byte, nbByteToRead) _, err = ts.Read(dBuf) if err != nil { t.Errorf("failed to read %vKB from %s: %s", nbByteToRead, layer.filename, err) } } // TestEmptyTar tests that tarsum does not fail to read an empty tar // and correctly returns the hex digest of an empty hash. func TestEmptyTar(t *testing.T) { // Test without gzip. ts, err := emptyTarSum(false) if err != nil { t.Fatal(err) } zeroBlock := make([]byte, 1024) buf := new(bytes.Buffer) n, err := io.Copy(buf, ts) if err != nil { t.Fatal(err) } if n != int64(len(zeroBlock)) || !bytes.Equal(buf.Bytes(), zeroBlock) { t.Fatalf("tarSum did not write the correct number of zeroed bytes: %d", n) } expectedSum := ts.Version().String() + "+sha256:" + hex.EncodeToString(sha256.New().Sum(nil)) resultSum := ts.Sum(nil) if resultSum != expectedSum { t.Fatalf("expected [%s] but got [%s]", expectedSum, resultSum) } // Test with gzip. ts, err = emptyTarSum(true) if err != nil { t.Fatal(err) } buf.Reset() n, err = io.Copy(buf, ts) if err != nil { t.Fatal(err) } bufgz := new(bytes.Buffer) gz := gzip.NewWriter(bufgz) n, err = io.Copy(gz, bytes.NewBuffer(zeroBlock)) gz.Close() gzBytes := bufgz.Bytes() if n != int64(len(zeroBlock)) || !bytes.Equal(buf.Bytes(), gzBytes) { t.Fatalf("tarSum did not write the correct number of gzipped-zeroed bytes: %d", n) } resultSum = ts.Sum(nil) if resultSum != expectedSum { t.Fatalf("expected [%s] but got [%s]", expectedSum, resultSum) } // Test without ever actually writing anything. if ts, err = NewTarSum(bytes.NewReader([]byte{}), true, Version0); err != nil { t.Fatal(err) } resultSum = ts.Sum(nil) if resultSum != expectedSum { t.Fatalf("expected [%s] but got [%s]", expectedSum, resultSum) } } var ( md5THash = NewTHash("md5", md5.New) sha1Hash = NewTHash("sha1", sha1.New) sha224Hash = NewTHash("sha224", sha256.New224) sha384Hash = NewTHash("sha384", sha512.New384) sha512Hash = NewTHash("sha512", sha512.New) ) // Test all the build-in read size : buf8K, buf16K, buf32K and more func TestTarSumsReadSize(t *testing.T) { // Test always on the same layer (that is big enough) layer := testLayers[0] for i := 0; i < 5; i++ { reader, err := os.Open(layer.filename) if err != nil { t.Fatal(err) } defer reader.Close() ts, err := NewTarSum(reader, false, layer.version) if err != nil { t.Fatal(err) } // Read and discard bytes so that it populates sums nbByteToRead := (i + 1) * 8 * 1024 dBuf := make([]byte, nbByteToRead) _, err = ts.Read(dBuf) if err != nil { t.Errorf("failed to read %vKB from %s: %s", nbByteToRead, layer.filename, err) continue } } } func TestTarSums(t *testing.T) { for _, layer := range testLayers { var ( fh io.Reader err error ) if len(layer.filename) > 0 { fh, err = os.Open(layer.filename) if err != nil { t.Errorf("failed to open %s: %s", layer.filename, err) continue } } else if layer.options != nil { fh = sizedTar(*layer.options) } else { // What else is there to test? t.Errorf("what to do with %#v", layer) continue } if file, ok := fh.(*os.File); ok { defer file.Close() } var ts TarSum if layer.hash == nil { // double negatives! ts, err = NewTarSum(fh, !layer.gzip, layer.version) } else { ts, err = NewTarSumHash(fh, !layer.gzip, layer.version, layer.hash) } if err != nil { t.Errorf("%q :: %q", err, layer.filename) continue } // Read variable number of bytes to test dynamic buffer dBuf := make([]byte, 1) _, err = ts.Read(dBuf) if err != nil { t.Errorf("failed to read 1B from %s: %s", layer.filename, err) continue } dBuf = make([]byte, 16*1024) _, err = ts.Read(dBuf) if err != nil { t.Errorf("failed to read 16KB from %s: %s", layer.filename, err) continue } // Read and discard remaining bytes _, err = io.Copy(ioutil.Discard, ts) if err != nil { t.Errorf("failed to copy from %s: %s", layer.filename, err) continue } var gotSum string if len(layer.jsonfile) > 0 { jfh, err := os.Open(layer.jsonfile) if err != nil { t.Errorf("failed to open %s: %s", layer.jsonfile, err) continue } defer jfh.Close() buf, err := ioutil.ReadAll(jfh) if err != nil { t.Errorf("failed to readAll %s: %s", layer.jsonfile, err) continue } gotSum = ts.Sum(buf) } else { gotSum = ts.Sum(nil) } if layer.tarsum != gotSum { t.Errorf("expecting [%s], but got [%s]", layer.tarsum, gotSum) } var expectedHashName string if layer.hash != nil { expectedHashName = layer.hash.Name() } else { expectedHashName = DefaultTHash.Name() } if expectedHashName != ts.Hash().Name() { t.Errorf("expecting hash [%v], but got [%s]", expectedHashName, ts.Hash().Name()) } } } func TestIteration(t *testing.T) { headerTests := []struct { expectedSum string // TODO(vbatts) it would be nice to get individual sums of each version Version hdr *tar.Header data []byte }{ { "tarsum+sha256:626c4a2e9a467d65c33ae81f7f3dedd4de8ccaee72af73223c4bc4718cbc7bbd", Version0, &tar.Header{ Name: "file.txt", Size: 0, Typeflag: tar.TypeReg, Devminor: 0, Devmajor: 0, }, []byte(""), }, { "tarsum.dev+sha256:6ffd43a1573a9913325b4918e124ee982a99c0f3cba90fc032a65f5e20bdd465", VersionDev, &tar.Header{ Name: "file.txt", Size: 0, Typeflag: tar.TypeReg, Devminor: 0, Devmajor: 0, }, []byte(""), }, { "tarsum.dev+sha256:b38166c059e11fb77bef30bf16fba7584446e80fcc156ff46d47e36c5305d8ef", VersionDev, &tar.Header{ Name: "another.txt", Uid: 1000, Gid: 1000, Uname: "slartibartfast", Gname: "users", Size: 4, Typeflag: tar.TypeReg, Devminor: 0, Devmajor: 0, }, []byte("test"), }, { "tarsum.dev+sha256:4cc2e71ac5d31833ab2be9b4f7842a14ce595ec96a37af4ed08f87bc374228cd", VersionDev, &tar.Header{ Name: "xattrs.txt", Uid: 1000, Gid: 1000, Uname: "slartibartfast", Gname: "users", Size: 4, Typeflag: tar.TypeReg, Xattrs: map[string]string{ "user.key1": "value1", "user.key2": "value2", }, }, []byte("test"), }, { "tarsum.dev+sha256:65f4284fa32c0d4112dd93c3637697805866415b570587e4fd266af241503760", VersionDev, &tar.Header{ Name: "xattrs.txt", Uid: 1000, Gid: 1000, Uname: "slartibartfast", Gname: "users", Size: 4, Typeflag: tar.TypeReg, Xattrs: map[string]string{ "user.KEY1": "value1", // adding different case to ensure different sum "user.key2": "value2", }, }, []byte("test"), }, { "tarsum+sha256:c12bb6f1303a9ddbf4576c52da74973c00d14c109bcfa76b708d5da1154a07fa", Version0, &tar.Header{ Name: "xattrs.txt", Uid: 1000, Gid: 1000, Uname: "slartibartfast", Gname: "users", Size: 4, Typeflag: tar.TypeReg, Xattrs: map[string]string{ "user.NOT": "CALCULATED", }, }, []byte("test"), }, } for _, htest := range headerTests { s, err := renderSumForHeader(htest.version, htest.hdr, htest.data) if err != nil { t.Fatal(err) } if s != htest.expectedSum { t.Errorf("expected sum: %q, got: %q", htest.expectedSum, s) } } } func renderSumForHeader(v Version, h *tar.Header, data []byte) (string, error) { buf := bytes.NewBuffer(nil) // first build our test tar tw := tar.NewWriter(buf) if err := tw.WriteHeader(h); err != nil { return "", err } if _, err := tw.Write(data); err != nil { return "", err } tw.Close() ts, err := NewTarSum(buf, true, v) if err != nil { return "", err } tr := tar.NewReader(ts) for { hdr, err := tr.Next() if hdr == nil || err == io.EOF { // Signals the end of the archive. break } if err != nil { return "", err } if _, err = io.Copy(ioutil.Discard, tr); err != nil { return "", err } } return ts.Sum(nil), nil } func Benchmark9kTar(b *testing.B) { buf := bytes.NewBuffer([]byte{}) fh, err := os.Open("testdata/46af0962ab5afeb5ce6740d4d91652e69206fc991fd5328c1a94d364ad00e457/layer.tar") if err != nil { b.Error(err) return } defer fh.Close() n, err := io.Copy(buf, fh) if err != nil { b.Error(err) return } reader := bytes.NewReader(buf.Bytes()) b.SetBytes(n) b.ResetTimer() for i := 0; i < b.N; i++ { reader.Seek(0, 0) ts, err := NewTarSum(reader, true, Version0) if err != nil { b.Error(err) return } io.Copy(ioutil.Discard, ts) ts.Sum(nil) } } func Benchmark9kTarGzip(b *testing.B) { buf := bytes.NewBuffer([]byte{}) fh, err := os.Open("testdata/46af0962ab5afeb5ce6740d4d91652e69206fc991fd5328c1a94d364ad00e457/layer.tar") if err != nil { b.Error(err) return } defer fh.Close() n, err := io.Copy(buf, fh) if err != nil { b.Error(err) return } reader := bytes.NewReader(buf.Bytes()) b.SetBytes(n) b.ResetTimer() for i := 0; i < b.N; i++ { reader.Seek(0, 0) ts, err := NewTarSum(reader, false, Version0) if err != nil { b.Error(err) return } io.Copy(ioutil.Discard, ts) ts.Sum(nil) } } // this is a single big file in the tar archive func Benchmark1mbSingleFileTar(b *testing.B) { benchmarkTar(b, sizedOptions{1, 1024 * 1024, true, true}, false) } // this is a single big file in the tar archive func Benchmark1mbSingleFileTarGzip(b *testing.B) { benchmarkTar(b, sizedOptions{1, 1024 * 1024, true, true}, true) } // this is 1024 1k files in the tar archive func Benchmark1kFilesTar(b *testing.B) { benchmarkTar(b, sizedOptions{1024, 1024, true, true}, false) } // this is 1024 1k files in the tar archive func Benchmark1kFilesTarGzip(b *testing.B) { benchmarkTar(b, sizedOptions{1024, 1024, true, true}, true) } func benchmarkTar(b *testing.B, opts sizedOptions, isGzip bool) { var fh *os.File tarReader := sizedTar(opts) if br, ok := tarReader.(*os.File); ok { fh = br } defer os.Remove(fh.Name()) defer fh.Close() b.SetBytes(opts.size * opts.num) b.ResetTimer() for i := 0; i < b.N; i++ { ts, err := NewTarSum(fh, !isGzip, Version0) if err != nil { b.Error(err) return } io.Copy(ioutil.Discard, ts) ts.Sum(nil) fh.Seek(0, 0) } }