package blake3_test import ( "bytes" "encoding/hex" "encoding/json" "io" "io/ioutil" "testing" "lukechampine.com/blake3" ) func toHex(data []byte) string { return hex.EncodeToString(data) } var testVectors = func() (vecs struct { Key string Cases []struct { InputLen int `json:"input_len"` Hash string `json:"hash"` KeyedHash string `json:"keyed_hash"` DeriveKey string `json:"derive_key"` } }) { data, err := ioutil.ReadFile("testdata/vectors.json") if err != nil { panic(err) } if err := json.Unmarshal(data, &vecs); err != nil { panic(err) } return }() var testInput = func() []byte { input := make([]byte, 1<<15) for i := range input { input[i] = byte(i % 251) } return input }() func TestVectors(t *testing.T) { for _, vec := range testVectors.Cases { in := testInput[:vec.InputLen] // regular h := blake3.New(len(vec.Hash)/2, nil) h.Write(in) if out := toHex(h.Sum(nil)); out != vec.Hash { t.Errorf("output did not match test vector:\n\texpected: %v...\n\t got: %v...", vec.Hash[:10], out[:10]) } // keyed h = blake3.New(len(vec.KeyedHash)/2, []byte(testVectors.Key)) h.Write(in) if out := toHex(h.Sum(nil)); out != vec.KeyedHash { t.Errorf("output did not match test vector:\n\texpected: %v...\n\t got: %v...", vec.KeyedHash[:10], out[:10]) } // derive key const ctx = "BLAKE3 2019-12-27 16:29:52 test vectors context" subKey := make([]byte, len(vec.DeriveKey)/2) blake3.DeriveKey(subKey, ctx, in) if out := toHex(subKey); out != vec.DeriveKey { t.Errorf("output did not match test vector:\n\texpected: %v...\n\t got: %v...", vec.DeriveKey[:10], subKey[:10]) } } } func TestXOF(t *testing.T) { for _, vec := range testVectors.Cases { in := testInput[:vec.InputLen] // XOF should produce same output as Sum, even when outputting 7 bytes at a time h := blake3.New(len(vec.Hash)/2, nil) h.Write(in) var xofBuf bytes.Buffer io.CopyBuffer(&xofBuf, io.LimitReader(h.XOF(), int64(len(vec.Hash)/2)), make([]byte, 7)) if out := toHex(xofBuf.Bytes()); out != vec.Hash { t.Errorf("XOF output did not match test vector:\n\texpected: %v...\n\t got: %v...", vec.Hash[:10], out[:10]) } // Should be able to Seek around in the output stream without affecting correctness seeks := []struct { offset int64 whence int }{ {0, io.SeekStart}, {17, io.SeekCurrent}, {-5, io.SeekCurrent}, {int64(h.Size()), io.SeekStart}, {int64(h.Size()), io.SeekCurrent}, } xof := h.XOF() outR := bytes.NewReader(xofBuf.Bytes()) for _, s := range seeks { outRead := make([]byte, 10) xofRead := make([]byte, 10) offset, _ := outR.Seek(s.offset, s.whence) n, _ := outR.Read(outRead) xof.Seek(s.offset, s.whence) xof.Read(xofRead[:n]) if !bytes.Equal(outRead[:n], xofRead[:n]) { t.Errorf("XOF output did not match test vector at offset %v:\n\texpected: %x...\n\t got: %x...", offset, outRead[:10], xofRead[:10]) } } } // test behavior at end of stream xof := blake3.New(0, nil).XOF() buf := make([]byte, 1024) xof.Seek(-1000, io.SeekEnd) n, err := xof.Read(buf) if n != 1000 || err != nil { t.Errorf("expected (1000, nil) when reading near end of stream, got (%v, %v)", n, err) } n, err = xof.Read(buf) if n != 0 || err != io.EOF { t.Errorf("expected (0, EOF) when reading past end of stream, got (%v, %v)", n, err) } } func TestSum(t *testing.T) { for _, vec := range testVectors.Cases { in := testInput[:vec.InputLen] var exp256 [32]byte h := blake3.New(32, nil) h.Write(in) h.Sum(exp256[:0]) if got256 := blake3.Sum256(in); exp256 != got256 { t.Errorf("Sum256 output did not match Sum output:\n\texpected: %v...\n\t got: %v...", exp256[:10], got256[:10]) } var exp512 [64]byte h = blake3.New(64, nil) h.Write(in) h.Sum(exp512[:0]) if got512 := blake3.Sum512(in); exp512 != got512 { t.Errorf("Sum512 output did not match Sum output:\n\texpected: %v...\n\t got: %v...", exp512[:10], got512[:10]) } } } type nopReader struct{} func (nopReader) Read(p []byte) (int, error) { return len(p), nil } func BenchmarkWrite(b *testing.B) { b.ReportAllocs() b.SetBytes(1) io.CopyN(blake3.New(0, nil), nopReader{}, int64(b.N)) } func BenchmarkSum256(b *testing.B) { b.ReportAllocs() buf := make([]byte, 1024) for i := 0; i < b.N; i++ { blake3.Sum256(buf) } } func BenchmarkXOF(b *testing.B) { b.ReportAllocs() b.SetBytes(1) io.CopyN(ioutil.Discard, blake3.New(0, nil).XOF(), int64(b.N)) }