// Copyright 2016 Google Inc. All Rights Reserved. // // Distributed under MIT license. // See file LICENSE for detail or copy at https://opensource.org/licenses/MIT package brotli import ( "bytes" "compress/gzip" "fmt" "io" "io/ioutil" "math" "math/rand" "os" "testing" "time" "github.com/andybalholm/brotli/matchfinder" ) func checkCompressedData(compressedData, wantOriginalData []byte) error { uncompressed, err := Decode(compressedData) if err != nil { return fmt.Errorf("brotli decompress failed: %v", err) } if !bytes.Equal(uncompressed, wantOriginalData) { if len(wantOriginalData) != len(uncompressed) { return fmt.Errorf(""+ "Data doesn't uncompress to the original value.\n"+ "Length of original: %v\n"+ "Length of uncompressed: %v", len(wantOriginalData), len(uncompressed)) } for i := range wantOriginalData { if wantOriginalData[i] != uncompressed[i] { return fmt.Errorf(""+ "Data doesn't uncompress to the original value.\n"+ "Original at %v is %v\n"+ "Uncompressed at %v is %v", i, wantOriginalData[i], i, uncompressed[i]) } } } return nil } func TestEncoderNoWrite(t *testing.T) { out := bytes.Buffer{} e := NewWriterOptions(&out, WriterOptions{Quality: 5}) if err := e.Close(); err != nil { t.Errorf("Close()=%v, want nil", err) } // Check Write after close. if _, err := e.Write([]byte("hi")); err == nil { t.Errorf("No error after Close() + Write()") } } func TestEncoderEmptyWrite(t *testing.T) { out := bytes.Buffer{} e := NewWriterOptions(&out, WriterOptions{Quality: 5}) n, err := e.Write([]byte("")) if n != 0 || err != nil { t.Errorf("Write()=%v,%v, want 0, nil", n, err) } if err := e.Close(); err != nil { t.Errorf("Close()=%v, want nil", err) } } func TestIssue22(t *testing.T) { f, err := os.Open("testdata/issue22.gz") if err != nil { t.Fatalf("Error opening test data file: %v", err) } defer f.Close() zr, err := gzip.NewReader(f) if err != nil { t.Fatalf("Error creating gzip reader: %v", err) } data, err := io.ReadAll(zr) if err != nil { t.Fatalf("Error reading test data: %v", err) } if len(data) != 2851073 { t.Fatalf("Wrong length for test data: got %d, want 2851073", len(data)) } for level := BestSpeed; level <= BestCompression; level++ { out := bytes.Buffer{} e := NewWriterOptions(&out, WriterOptions{Quality: level}) n, err := e.Write(data) if err != nil { t.Errorf("Error compressing data: %v", err) } if int(n) != len(data) { t.Errorf("Write() n=%v, want %v", n, len(data)) } if err := e.Close(); err != nil { t.Errorf("Close Error after writing %d bytes: %v", n, err) } if err := checkCompressedData(out.Bytes(), data); err != nil { t.Errorf("Error decompressing data at level %d: %v", level, err) } } } func TestWriterV2(t *testing.T) { for level := BestSpeed; level <= BestCompression; level++ { // Test basic encoder usage. input := []byte("

Hello world

") out := bytes.Buffer{} e := NewWriterV2(&out, level) in := bytes.NewReader([]byte(input)) n, err := io.Copy(e, in) if err != nil { t.Errorf("Copy Error: %v", err) } if int(n) != len(input) { t.Errorf("Copy() n=%v, want %v", n, len(input)) } if err := e.Close(); err != nil { t.Errorf("Close Error after copied %d bytes: %v", n, err) } if err := checkCompressedData(out.Bytes(), input); err != nil { t.Error(err) } out2 := bytes.Buffer{} e.Reset(&out2) n2, err := e.Write(input) if err != nil { t.Errorf("Write error after Reset: %v", err) } if n2 != len(input) { t.Errorf("Write() after Reset n=%d, want %d", n2, len(input)) } if err := e.Close(); err != nil { t.Errorf("Close error after Reset (copied %d) bytes: %v", n2, err) } if !bytes.Equal(out.Bytes(), out2.Bytes()) { t.Error("Compressed data after Reset doesn't equal first time") } } } func TestEncoderStreams(t *testing.T) { // Test that output is streamed. // Adjust window size to ensure the encoder outputs at least enough bytes // to fill the window. const lgWin = 16 windowSize := int(math.Pow(2, lgWin)) input := make([]byte, 8*windowSize) rand.Read(input) out := bytes.Buffer{} e := NewWriterOptions(&out, WriterOptions{Quality: 11, LGWin: lgWin}) halfInput := input[:len(input)/2] in := bytes.NewReader(halfInput) n, err := io.Copy(e, in) if err != nil { t.Errorf("Copy Error: %v", err) } // We've fed more data than the sliding window size. Check that some // compressed data has been output. if out.Len() == 0 { t.Errorf("Output length is 0 after %d bytes written", n) } if err := e.Close(); err != nil { t.Errorf("Close Error after copied %d bytes: %v", n, err) } if err := checkCompressedData(out.Bytes(), halfInput); err != nil { t.Error(err) } } func TestEncoderLargeInput(t *testing.T) { for level := BestSpeed; level <= BestCompression; level++ { input := make([]byte, 1000000) rand.Read(input) out := bytes.Buffer{} e := NewWriterOptions(&out, WriterOptions{Quality: level}) in := bytes.NewReader(input) n, err := io.Copy(e, in) if err != nil { t.Errorf("Copy Error: %v", err) } if int(n) != len(input) { t.Errorf("Copy() n=%v, want %v", n, len(input)) } if err := e.Close(); err != nil { t.Errorf("Close Error after copied %d bytes: %v", n, err) } if err := checkCompressedData(out.Bytes(), input); err != nil { t.Error(err) } out2 := bytes.Buffer{} e.Reset(&out2) n2, err := e.Write(input) if err != nil { t.Errorf("Write error after Reset: %v", err) } if n2 != len(input) { t.Errorf("Write() after Reset n=%d, want %d", n2, len(input)) } if err := e.Close(); err != nil { t.Errorf("Close error after Reset (copied %d) bytes: %v", n2, err) } if !bytes.Equal(out.Bytes(), out2.Bytes()) { t.Error("Compressed data after Reset doesn't equal first time") } } } func TestEncoderFlush(t *testing.T) { input := make([]byte, 1000) rand.Read(input) out := bytes.Buffer{} e := NewWriterOptions(&out, WriterOptions{Quality: 5}) in := bytes.NewReader(input) _, err := io.Copy(e, in) if err != nil { t.Fatalf("Copy Error: %v", err) } if err := e.Flush(); err != nil { t.Fatalf("Flush(): %v", err) } if out.Len() == 0 { t.Fatalf("0 bytes written after Flush()") } decompressed := make([]byte, 1000) reader := NewReader(bytes.NewReader(out.Bytes())) n, err := reader.Read(decompressed) if n != len(decompressed) || err != nil { t.Errorf("Expected <%v, nil>, but <%v, %v>", len(decompressed), n, err) } if !bytes.Equal(decompressed, input) { t.Errorf(""+ "Decompress after flush: %v\n"+ "%q\n"+ "want:\n%q", err, decompressed, input) } if err := e.Close(); err != nil { t.Errorf("Close(): %v", err) } } type readerWithTimeout struct { io.Reader } func (r readerWithTimeout) Read(p []byte) (int, error) { type result struct { n int err error } ch := make(chan result) go func() { n, err := r.Reader.Read(p) ch <- result{n, err} }() select { case result := <-ch: return result.n, result.err case <-time.After(5 * time.Second): return 0, fmt.Errorf("read timed out") } } func TestDecoderStreaming(t *testing.T) { pr, pw := io.Pipe() writer := NewWriterOptions(pw, WriterOptions{Quality: 5, LGWin: 20}) reader := readerWithTimeout{NewReader(pr)} defer func() { go ioutil.ReadAll(pr) // swallow the "EOF" token from writer.Close if err := writer.Close(); err != nil { t.Errorf("writer.Close: %v", err) } }() ch := make(chan []byte) errch := make(chan error) go func() { for { segment, ok := <-ch if !ok { return } if n, err := writer.Write(segment); err != nil || n != len(segment) { errch <- fmt.Errorf("write=%v,%v, want %v,%v", n, err, len(segment), nil) return } if err := writer.Flush(); err != nil { errch <- fmt.Errorf("flush: %v", err) return } } }() defer close(ch) segments := [...][]byte{ []byte("first"), []byte("second"), []byte("third"), } for k, segment := range segments { t.Run(fmt.Sprintf("Segment%d", k), func(t *testing.T) { select { case ch <- segment: case err := <-errch: t.Fatalf("write: %v", err) case <-time.After(5 * time.Second): t.Fatalf("timed out") } wantLen := len(segment) got := make([]byte, wantLen) if n, err := reader.Read(got); err != nil || n != wantLen || !bytes.Equal(got, segment) { t.Fatalf("read[%d]=%q,%v,%v, want %q,%v,%v", k, got, n, err, segment, wantLen, nil) } }) } } func TestReader(t *testing.T) { content := bytes.Repeat([]byte("hello world!"), 10000) encoded, _ := Encode(content, WriterOptions{Quality: 5}) r := NewReader(bytes.NewReader(encoded)) var decodedOutput bytes.Buffer n, err := io.Copy(&decodedOutput, r) if err != nil { t.Fatalf("Copy(): n=%v, err=%v", n, err) } if got := decodedOutput.Bytes(); !bytes.Equal(got, content) { t.Errorf(""+ "Reader output:\n"+ "%q\n"+ "want:\n"+ "<%d bytes>", got, len(content)) } r.Reset(bytes.NewReader(encoded)) decodedOutput.Reset() n, err = io.Copy(&decodedOutput, r) if err != nil { t.Fatalf("After Reset: Copy(): n=%v, err=%v", n, err) } if got := decodedOutput.Bytes(); !bytes.Equal(got, content) { t.Errorf("After Reset: "+ "Reader output:\n"+ "%q\n"+ "want:\n"+ "<%d bytes>", got, len(content)) } } func TestDecode(t *testing.T) { content := bytes.Repeat([]byte("hello world!"), 10000) encoded, _ := Encode(content, WriterOptions{Quality: 5}) decoded, err := Decode(encoded) if err != nil { t.Errorf("Decode: %v", err) } if !bytes.Equal(decoded, content) { t.Errorf(""+ "Decode content:\n"+ "%q\n"+ "want:\n"+ "<%d bytes>", decoded, len(content)) } } func TestQuality(t *testing.T) { content := bytes.Repeat([]byte("hello world!"), 10000) for q := 0; q < 12; q++ { encoded, _ := Encode(content, WriterOptions{Quality: q}) decoded, err := Decode(encoded) if err != nil { t.Errorf("Decode: %v", err) } if !bytes.Equal(decoded, content) { t.Errorf(""+ "Decode content:\n"+ "%q\n"+ "want:\n"+ "<%d bytes>", decoded, len(content)) } } } func TestDecodeFuzz(t *testing.T) { // Test that the decoder terminates with corrupted input. content := bytes.Repeat([]byte("hello world!"), 100) rnd := rand.New(rand.NewSource(0)) encoded, err := Encode(content, WriterOptions{Quality: 5}) if err != nil { t.Fatalf("Encode(<%d bytes>, _) = _, %s", len(content), err) } if len(encoded) == 0 { t.Fatalf("Encode(<%d bytes>, _) produced empty output", len(content)) } for i := 0; i < 100; i++ { enc := append([]byte{}, encoded...) for j := 0; j < 5; j++ { enc[rnd.Intn(len(enc))] = byte(rnd.Intn(256)) } Decode(enc) } } func TestDecodeTrailingData(t *testing.T) { content := bytes.Repeat([]byte("hello world!"), 100) encoded, _ := Encode(content, WriterOptions{Quality: 5}) _, err := Decode(append(encoded, 0)) if err == nil { t.Errorf("Expected 'excessive input' error") } } func TestEncodeDecode(t *testing.T) { for _, test := range []struct { data []byte repeats int }{ {nil, 0}, {[]byte("A"), 1}, {[]byte("

Hello world

"), 10}, {[]byte("

Hello world

"), 1000}, } { t.Logf("case %q x %d", test.data, test.repeats) input := bytes.Repeat(test.data, test.repeats) encoded, err := Encode(input, WriterOptions{Quality: 5}) if err != nil { t.Errorf("Encode: %v", err) } // Inputs are compressible, but may be too small to compress. if maxSize := len(input)/2 + 20; len(encoded) >= maxSize { t.Errorf(""+ "Encode returned %d bytes, want <%d\n"+ "Encoded=%q", len(encoded), maxSize, encoded) } decoded, err := Decode(encoded) if err != nil { t.Errorf("Decode: %v", err) } if !bytes.Equal(decoded, input) { var want string if len(input) > 320 { want = fmt.Sprintf("<%d bytes>", len(input)) } else { want = fmt.Sprintf("%q", input) } t.Errorf(""+ "Decode content:\n"+ "%q\n"+ "want:\n"+ "%s", decoded, want) } } } func TestErrorReset(t *testing.T) { compress := func(input []byte) []byte { var buf bytes.Buffer writer := new(Writer) writer.Reset(&buf) writer.Write(input) writer.Close() return buf.Bytes() } corruptReader := func(reader *Reader) { buf := bytes.NewBuffer([]byte("trash")) reader.Reset(buf) _, err := io.ReadAll(reader) if err == nil { t.Fatalf("successively decompressed invalid input") } } decompress := func(input []byte, reader *Reader) []byte { buf := bytes.NewBuffer(input) reader.Reset(buf) output, err := io.ReadAll(reader) if err != nil { t.Fatalf("failed to decompress data %s", err.Error()) } return output } source := []byte("text") compressed := compress(source) reader := new(Reader) corruptReader(reader) decompressed := decompress(compressed, reader) if string(source) != string(decompressed) { t.Fatalf("decompressed data does not match original state") } } // Encode returns content encoded with Brotli. func Encode(content []byte, options WriterOptions) ([]byte, error) { var buf bytes.Buffer writer := NewWriterOptions(&buf, options) _, err := writer.Write(content) if closeErr := writer.Close(); err == nil { err = closeErr } return buf.Bytes(), err } // Decode decodes Brotli encoded data. func Decode(encodedData []byte) ([]byte, error) { r := NewReader(bytes.NewReader(encodedData)) return ioutil.ReadAll(r) } func BenchmarkEncodeLevels(b *testing.B) { opticks, err := ioutil.ReadFile("testdata/Isaac.Newton-Opticks.txt") if err != nil { b.Fatal(err) } for level := BestSpeed; level <= BestCompression; level++ { b.Run(fmt.Sprintf("%d", level), func(b *testing.B) { b.ReportAllocs() b.SetBytes(int64(len(opticks))) for i := 0; i < b.N; i++ { w := NewWriterLevel(ioutil.Discard, level) w.Write(opticks) w.Close() } }) } } func BenchmarkEncodeLevelsReset(b *testing.B) { opticks, err := ioutil.ReadFile("testdata/Isaac.Newton-Opticks.txt") if err != nil { b.Fatal(err) } for level := BestSpeed; level <= BestCompression; level++ { buf := new(bytes.Buffer) w := NewWriterLevel(buf, level) w.Write(opticks) w.Close() b.Run(fmt.Sprintf("%d", level), func(b *testing.B) { b.ReportAllocs() b.ReportMetric(float64(len(opticks))/float64(buf.Len()), "ratio") b.SetBytes(int64(len(opticks))) for i := 0; i < b.N; i++ { w.Reset(ioutil.Discard) w.Write(opticks) w.Close() } }) } } func BenchmarkEncodeLevelsResetV2(b *testing.B) { opticks, err := ioutil.ReadFile("testdata/Isaac.Newton-Opticks.txt") if err != nil { b.Fatal(err) } for level := BestSpeed; level <= 7; level++ { buf := new(bytes.Buffer) w := NewWriterV2(buf, level) w.Write(opticks) w.Close() b.Run(fmt.Sprintf("%d", level), func(b *testing.B) { b.ReportAllocs() b.ReportMetric(float64(len(opticks))/float64(buf.Len()), "ratio") b.SetBytes(int64(len(opticks))) for i := 0; i < b.N; i++ { w.Reset(ioutil.Discard) w.Write(opticks) w.Close() } }) } } func BenchmarkDecodeLevels(b *testing.B) { opticks, err := ioutil.ReadFile("testdata/Isaac.Newton-Opticks.txt") if err != nil { b.Fatal(err) } for level := BestSpeed; level <= BestCompression; level++ { buf := new(bytes.Buffer) w := NewWriterLevel(buf, level) w.Write(opticks) w.Close() compressed := buf.Bytes() b.Run(fmt.Sprintf("%d", level), func(b *testing.B) { b.ReportAllocs() b.SetBytes(int64(len(opticks))) for i := 0; i < b.N; i++ { io.Copy(ioutil.Discard, NewReader(bytes.NewReader(compressed))) } }) } } func test(t *testing.T, filename string, m matchfinder.MatchFinder, blockSize int) { data, err := ioutil.ReadFile(filename) if err != nil { t.Fatal(err) } b := new(bytes.Buffer) w := &matchfinder.Writer{ Dest: b, MatchFinder: m, Encoder: &Encoder{}, BlockSize: blockSize, } w.Write(data) w.Close() compressed := b.Bytes() sr := NewReader(bytes.NewReader(compressed)) decompressed, err := ioutil.ReadAll(sr) if err != nil { t.Fatal(err) } if !bytes.Equal(decompressed, data) { t.Fatal("decompressed output doesn't match") } } func benchmark(b *testing.B, filename string, m matchfinder.MatchFinder, blockSize int) { b.StopTimer() b.ReportAllocs() data, err := ioutil.ReadFile(filename) if err != nil { b.Fatal(err) } b.SetBytes(int64(len(data))) buf := new(bytes.Buffer) w := &matchfinder.Writer{ Dest: buf, MatchFinder: m, Encoder: &Encoder{}, BlockSize: blockSize, } w.Write(data) w.Close() b.ReportMetric(float64(len(data))/float64(buf.Len()), "ratio") b.StartTimer() for i := 0; i < b.N; i++ { w.Reset(ioutil.Discard) w.Write(data) w.Close() } } func TestEncodeM4(t *testing.T) { test(t, "testdata/Isaac.Newton-Opticks.txt", &matchfinder.M4{MaxDistance: 1 << 18, DistanceBitCost: 57}, 1<<16) } func BenchmarkEncodeM4(b *testing.B) { benchmark(b, "testdata/Isaac.Newton-Opticks.txt", &matchfinder.M4{MaxDistance: 1 << 20, DistanceBitCost: 57}, 1<<16) } func TestEncodeM4Chain1(t *testing.T) { test(t, "testdata/Isaac.Newton-Opticks.txt", &matchfinder.M4{MaxDistance: 1 << 18, ChainLength: 1, DistanceBitCost: 57}, 1<<16) } func BenchmarkEncodeM4Chain1(b *testing.B) { benchmark(b, "testdata/Isaac.Newton-Opticks.txt", &matchfinder.M4{MaxDistance: 1 << 20, ChainLength: 1, DistanceBitCost: 57}, 1<<16) } func BenchmarkEncodeM4Chain2(b *testing.B) { benchmark(b, "testdata/Isaac.Newton-Opticks.txt", &matchfinder.M4{MaxDistance: 1 << 20, ChainLength: 2, DistanceBitCost: 57}, 1<<16) } func BenchmarkEncodeM4Chain4(b *testing.B) { benchmark(b, "testdata/Isaac.Newton-Opticks.txt", &matchfinder.M4{MaxDistance: 1 << 20, ChainLength: 4, DistanceBitCost: 57}, 1<<16) } func BenchmarkEncodeM4Chain8(b *testing.B) { benchmark(b, "testdata/Isaac.Newton-Opticks.txt", &matchfinder.M4{MaxDistance: 1 << 20, ChainLength: 8, HashLen: 5, DistanceBitCost: 57}, 1<<16) } func BenchmarkEncodeM4Chain16(b *testing.B) { benchmark(b, "testdata/Isaac.Newton-Opticks.txt", &matchfinder.M4{MaxDistance: 1 << 20, ChainLength: 16, HashLen: 5, DistanceBitCost: 57}, 1<<16) } func BenchmarkEncodeM4Chain32(b *testing.B) { benchmark(b, "testdata/Isaac.Newton-Opticks.txt", &matchfinder.M4{MaxDistance: 1 << 20, ChainLength: 32, HashLen: 5, DistanceBitCost: 57}, 1<<16) } func BenchmarkEncodeM4Chain64(b *testing.B) { benchmark(b, "testdata/Isaac.Newton-Opticks.txt", &matchfinder.M4{MaxDistance: 1 << 20, ChainLength: 64, HashLen: 5, DistanceBitCost: 57}, 1<<16) } func BenchmarkEncodeM4Chain128(b *testing.B) { benchmark(b, "testdata/Isaac.Newton-Opticks.txt", &matchfinder.M4{MaxDistance: 1 << 20, ChainLength: 128, HashLen: 5, DistanceBitCost: 57}, 1<<16) } func BenchmarkEncodeM4Chain256(b *testing.B) { benchmark(b, "testdata/Isaac.Newton-Opticks.txt", &matchfinder.M4{MaxDistance: 1 << 20, ChainLength: 256, HashLen: 5, DistanceBitCost: 57}, 1<<16) } func TestEncodeM0(t *testing.T) { test(t, "testdata/Isaac.Newton-Opticks.txt", matchfinder.M0{}, 1<<16) } func BenchmarkEncodeM0(b *testing.B) { benchmark(b, "testdata/Isaac.Newton-Opticks.txt", matchfinder.M0{}, 1<<16) } func TestEncodeM0Lazy(t *testing.T) { test(t, "testdata/Isaac.Newton-Opticks.txt", matchfinder.M0{Lazy: true}, 1<<16) } func BenchmarkEncodeM0Lazy(b *testing.B) { benchmark(b, "testdata/Isaac.Newton-Opticks.txt", matchfinder.M0{Lazy: true}, 1<<16) }