// Copyright 2011 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Tests that involve both reading and writing. package zip import ( "bytes" "errors" "fmt" "hash" "internal/race" "internal/testenv" "io" "io/ioutil" "sort" "strings" "testing" "time" ) func TestOver65kFiles(t *testing.T) { if testing.Short() && testenv.Builder() == "" { t.Skip("skipping in short mode") } buf := new(bytes.Buffer) w := NewWriter(buf) const nFiles = (1 << 16) + 42 for i := 0; i < nFiles; i++ { _, err := w.CreateHeader(&FileHeader{ Name: fmt.Sprintf("%d.dat", i), Method: Store, // avoid Issue 6136 and Issue 6138 }) if err != nil { t.Fatalf("creating file %d: %v", i, err) } } if err := w.Close(); err != nil { t.Fatalf("Writer.Close: %v", err) } s := buf.String() zr, err := NewReader(strings.NewReader(s), int64(len(s))) if err != nil { t.Fatalf("NewReader: %v", err) } if got := len(zr.File); got != nFiles { t.Fatalf("File contains %d files, want %d", got, nFiles) } for i := 0; i < nFiles; i++ { want := fmt.Sprintf("%d.dat", i) if zr.File[i].Name != want { t.Fatalf("File(%d) = %q, want %q", i, zr.File[i].Name, want) } } } func TestModTime(t *testing.T) { var testTime = time.Date(2009, time.November, 10, 23, 45, 58, 0, time.UTC) fh := new(FileHeader) fh.SetModTime(testTime) outTime := fh.ModTime() if !outTime.Equal(testTime) { t.Errorf("times don't match: got %s, want %s", outTime, testTime) } } func testHeaderRoundTrip(fh *FileHeader, wantUncompressedSize uint32, wantUncompressedSize64 uint64, t *testing.T) { fi := fh.FileInfo() fh2, err := FileInfoHeader(fi) if err != nil { t.Fatal(err) } if got, want := fh2.Name, fh.Name; got != want { t.Errorf("Name: got %s, want %s\n", got, want) } if got, want := fh2.UncompressedSize, wantUncompressedSize; got != want { t.Errorf("UncompressedSize: got %d, want %d\n", got, want) } if got, want := fh2.UncompressedSize64, wantUncompressedSize64; got != want { t.Errorf("UncompressedSize64: got %d, want %d\n", got, want) } if got, want := fh2.ModifiedTime, fh.ModifiedTime; got != want { t.Errorf("ModifiedTime: got %d, want %d\n", got, want) } if got, want := fh2.ModifiedDate, fh.ModifiedDate; got != want { t.Errorf("ModifiedDate: got %d, want %d\n", got, want) } if sysfh, ok := fi.Sys().(*FileHeader); !ok && sysfh != fh { t.Errorf("Sys didn't return original *FileHeader") } } func TestFileHeaderRoundTrip(t *testing.T) { fh := &FileHeader{ Name: "foo.txt", UncompressedSize: 987654321, ModifiedTime: 1234, ModifiedDate: 5678, } testHeaderRoundTrip(fh, fh.UncompressedSize, uint64(fh.UncompressedSize), t) } func TestFileHeaderRoundTrip64(t *testing.T) { fh := &FileHeader{ Name: "foo.txt", UncompressedSize64: 9876543210, ModifiedTime: 1234, ModifiedDate: 5678, } testHeaderRoundTrip(fh, uint32max, fh.UncompressedSize64, t) } type repeatedByte struct { off int64 b byte n int64 } // rleBuffer is a run-length-encoded byte buffer. // It's an io.Writer (like a bytes.Buffer) and also an io.ReaderAt, // allowing random-access reads. type rleBuffer struct { buf []repeatedByte } func (r *rleBuffer) Size() int64 { if len(r.buf) == 0 { return 0 } last := &r.buf[len(r.buf)-1] return last.off + last.n } func (r *rleBuffer) Write(p []byte) (n int, err error) { var rp *repeatedByte if len(r.buf) > 0 { rp = &r.buf[len(r.buf)-1] // Fast path, if p is entirely the same byte repeated. if lastByte := rp.b; len(p) > 0 && p[0] == lastByte { all := true for _, b := range p { if b != lastByte { all = false break } } if all { rp.n += int64(len(p)) return len(p), nil } } } for _, b := range p { if rp == nil || rp.b != b { r.buf = append(r.buf, repeatedByte{r.Size(), b, 1}) rp = &r.buf[len(r.buf)-1] } else { rp.n++ } } return len(p), nil } func (r *rleBuffer) ReadAt(p []byte, off int64) (n int, err error) { if len(p) == 0 { return } skipParts := sort.Search(len(r.buf), func(i int) bool { part := &r.buf[i] return part.off+part.n > off }) parts := r.buf[skipParts:] if len(parts) > 0 { skipBytes := off - parts[0].off for len(parts) > 0 { part := parts[0] for i := skipBytes; i < part.n; i++ { if n == len(p) { return } p[n] = part.b n++ } parts = parts[1:] skipBytes = 0 } } if n != len(p) { err = io.ErrUnexpectedEOF } return } // Just testing the rleBuffer used in the Zip64 test above. Not used by the zip code. func TestRLEBuffer(t *testing.T) { b := new(rleBuffer) var all []byte writes := []string{"abcdeee", "eeeeeee", "eeeefghaaiii"} for _, w := range writes { b.Write([]byte(w)) all = append(all, w...) } if len(b.buf) != 10 { t.Fatalf("len(b.buf) = %d; want 10", len(b.buf)) } for i := 0; i < len(all); i++ { for j := 0; j < len(all)-i; j++ { buf := make([]byte, j) n, err := b.ReadAt(buf, int64(i)) if err != nil || n != len(buf) { t.Errorf("ReadAt(%d, %d) = %d, %v; want %d, nil", i, j, n, err, len(buf)) } if !bytes.Equal(buf, all[i:i+j]) { t.Errorf("ReadAt(%d, %d) = %q; want %q", i, j, buf, all[i:i+j]) } } } } // fakeHash32 is a dummy Hash32 that always returns 0. type fakeHash32 struct { hash.Hash32 } func (fakeHash32) Write(p []byte) (int, error) { return len(p), nil } func (fakeHash32) Sum32() uint32 { return 0 } func TestZip64(t *testing.T) { if testing.Short() { t.Skip("slow test; skipping") } t.Parallel() const size = 1 << 32 // before the "END\n" part buf := testZip64(t, size) testZip64DirectoryRecordLength(buf, t) } func TestZip64EdgeCase(t *testing.T) { if testing.Short() { t.Skip("slow test; skipping") } t.Parallel() // Test a zip file with uncompressed size 0xFFFFFFFF. // That's the magic marker for a 64-bit file, so even though // it fits in a 32-bit field we must use the 64-bit field. // Go 1.5 and earlier got this wrong, // writing an invalid zip file. const size = 1<<32 - 1 - int64(len("END\n")) // before the "END\n" part buf := testZip64(t, size) testZip64DirectoryRecordLength(buf, t) } // Tests that we generate a zip64 file if the the directory at offset // 0xFFFFFFFF, but not before. func TestZip64DirectoryOffset(t *testing.T) { if testing.Short() && race.Enabled { t.Skip("skipping in short mode") } t.Parallel() const filename = "huge.txt" gen := func(wantOff uint64) func(*Writer) { return func(w *Writer) { w.testHookCloseSizeOffset = func(size, off uint64) { if off != wantOff { t.Errorf("central directory offset = %d (%x); want %d", off, off, wantOff) } } f, err := w.CreateHeader(&FileHeader{ Name: filename, Method: Store, }) if err != nil { t.Fatal(err) } f.(*fileWriter).crc32 = fakeHash32{} size := wantOff - fileHeaderLen - uint64(len(filename)) - dataDescriptorLen if _, err := io.CopyN(f, zeros{}, int64(size)); err != nil { t.Fatal(err) } if err := w.Close(); err != nil { t.Fatal(err) } } } t.Run("uint32max-2_NoZip64", func(t *testing.T) { t.Parallel() if generatesZip64(t, gen(0xfffffffe)) { t.Error("unexpected zip64") } }) t.Run("uint32max-1_Zip64", func(t *testing.T) { t.Parallel() if !generatesZip64(t, gen(0xffffffff)) { t.Error("expected zip64") } }) } // At 16k records, we need to generate a zip64 file. func TestZip64ManyRecords(t *testing.T) { if testing.Short() && race.Enabled { t.Skip("skipping in short mode") } t.Parallel() gen := func(numRec int) func(*Writer) { return func(w *Writer) { for i := 0; i < numRec; i++ { _, err := w.CreateHeader(&FileHeader{ Name: "a.txt", Method: Store, }) if err != nil { t.Fatal(err) } } if err := w.Close(); err != nil { t.Fatal(err) } } } // 16k-1 records shouldn't make a zip64: t.Run("uint16max-1_NoZip64", func(t *testing.T) { t.Parallel() if generatesZip64(t, gen(0xfffe)) { t.Error("unexpected zip64") } }) // 16k records should make a zip64: t.Run("uint16max_Zip64", func(t *testing.T) { t.Parallel() if !generatesZip64(t, gen(0xffff)) { t.Error("expected zip64") } }) } // suffixSaver is an io.Writer & io.ReaderAt that remembers the last 0 // to 'keep' bytes of data written to it. Call Suffix to get the // suffix bytes. type suffixSaver struct { keep int buf []byte start int size int64 } func (ss *suffixSaver) Size() int64 { return ss.size } var errDiscardedBytes = errors.New("ReadAt of discarded bytes") func (ss *suffixSaver) ReadAt(p []byte, off int64) (n int, err error) { back := ss.size - off if back > int64(ss.keep) { return 0, errDiscardedBytes } suf := ss.Suffix() n = copy(p, suf[len(suf)-int(back):]) if n != len(p) { err = io.EOF } return } func (ss *suffixSaver) Suffix() []byte { if len(ss.buf) < ss.keep { return ss.buf } buf := make([]byte, ss.keep) n := copy(buf, ss.buf[ss.start:]) copy(buf[n:], ss.buf[:]) return buf } func (ss *suffixSaver) Write(p []byte) (n int, err error) { n = len(p) ss.size += int64(len(p)) if len(ss.buf) < ss.keep { space := ss.keep - len(ss.buf) add := len(p) if add > space { add = space } ss.buf = append(ss.buf, p[:add]...) p = p[add:] } for len(p) > 0 { n := copy(ss.buf[ss.start:], p) p = p[n:] ss.start += n if ss.start == ss.keep { ss.start = 0 } } return } // generatesZip64 reports whether f wrote a zip64 file. // f is also responsible for closing w. func generatesZip64(t *testing.T, f func(w *Writer)) bool { ss := &suffixSaver{keep: 10 << 20} w := NewWriter(ss) f(w) return suffixIsZip64(t, ss) } type sizedReaderAt interface { io.ReaderAt Size() int64 } func suffixIsZip64(t *testing.T, zip sizedReaderAt) bool { d := make([]byte, 1024) if _, err := zip.ReadAt(d, zip.Size()-int64(len(d))); err != nil { t.Fatalf("ReadAt: %v", err) } sigOff := findSignatureInBlock(d) if sigOff == -1 { t.Errorf("failed to find signature in block") return false } dirOff, err := findDirectory64End(zip, zip.Size()-int64(len(d))+int64(sigOff)) if err != nil { t.Fatalf("findDirectory64End: %v", err) } if dirOff == -1 { return false } d = make([]byte, directory64EndLen) if _, err := zip.ReadAt(d, dirOff); err != nil { t.Fatalf("ReadAt(off=%d): %v", dirOff, err) } b := readBuf(d) if sig := b.uint32(); sig != directory64EndSignature { return false } size := b.uint64() if size != directory64EndLen-12 { t.Errorf("expected length of %d, got %d", directory64EndLen-12, size) } return true } // Zip64 is required if the total size of the records is uint32max. func TestZip64LargeDirectory(t *testing.T) { if testing.Short() { t.Skip("skipping in short mode") } t.Parallel() // gen returns a func that writes a zip with a wantLen bytes // of central directory. gen := func(wantLen int64) func(*Writer) { return func(w *Writer) { w.testHookCloseSizeOffset = func(size, off uint64) { if size != uint64(wantLen) { t.Errorf("Close central directory size = %d; want %d", size, wantLen) } } uint16string := strings.Repeat(".", uint16max) remain := wantLen for remain > 0 { commentLen := int(uint16max) - directoryHeaderLen - 1 thisRecLen := directoryHeaderLen + int(uint16max) + commentLen if int64(thisRecLen) > remain { remove := thisRecLen - int(remain) commentLen -= remove thisRecLen -= remove } remain -= int64(thisRecLen) f, err := w.CreateHeader(&FileHeader{ Name: uint16string, Comment: uint16string[:commentLen], }) if err != nil { t.Fatalf("CreateHeader: %v", err) } f.(*fileWriter).crc32 = fakeHash32{} } if err := w.Close(); err != nil { t.Fatalf("Close: %v", err) } } } t.Run("uint32max-1_NoZip64", func(t *testing.T) { t.Parallel() if generatesZip64(t, gen(uint32max-1)) { t.Error("unexpected zip64") } }) t.Run("uint32max_HasZip64", func(t *testing.T) { t.Parallel() if !generatesZip64(t, gen(uint32max)) { t.Error("expected zip64") } }) } func testZip64(t testing.TB, size int64) *rleBuffer { const chunkSize = 1024 chunks := int(size / chunkSize) // write size bytes plus "END\n" to a zip file buf := new(rleBuffer) w := NewWriter(buf) f, err := w.CreateHeader(&FileHeader{ Name: "huge.txt", Method: Store, }) if err != nil { t.Fatal(err) } f.(*fileWriter).crc32 = fakeHash32{} chunk := make([]byte, chunkSize) for i := range chunk { chunk[i] = '.' } for i := 0; i < chunks; i++ { _, err := f.Write(chunk) if err != nil { t.Fatal("write chunk:", err) } } if frag := int(size % chunkSize); frag > 0 { _, err := f.Write(chunk[:frag]) if err != nil { t.Fatal("write chunk:", err) } } end := []byte("END\n") _, err = f.Write(end) if err != nil { t.Fatal("write end:", err) } if err := w.Close(); err != nil { t.Fatal(err) } // read back zip file and check that we get to the end of it r, err := NewReader(buf, int64(buf.Size())) if err != nil { t.Fatal("reader:", err) } f0 := r.File[0] rc, err := f0.Open() if err != nil { t.Fatal("opening:", err) } rc.(*checksumReader).hash = fakeHash32{} for i := 0; i < chunks; i++ { _, err := io.ReadFull(rc, chunk) if err != nil { t.Fatal("read:", err) } } if frag := int(size % chunkSize); frag > 0 { _, err := io.ReadFull(rc, chunk[:frag]) if err != nil { t.Fatal("read:", err) } } gotEnd, err := ioutil.ReadAll(rc) if err != nil { t.Fatal("read end:", err) } if !bytes.Equal(gotEnd, end) { t.Errorf("End of zip64 archive %q, want %q", gotEnd, end) } err = rc.Close() if err != nil { t.Fatal("closing:", err) } if size+int64(len("END\n")) >= 1<<32-1 { if got, want := f0.UncompressedSize, uint32(uint32max); got != want { t.Errorf("UncompressedSize %#x, want %#x", got, want) } } if got, want := f0.UncompressedSize64, uint64(size)+uint64(len(end)); got != want { t.Errorf("UncompressedSize64 %#x, want %#x", got, want) } return buf } // Issue 9857 func testZip64DirectoryRecordLength(buf *rleBuffer, t *testing.T) { if !suffixIsZip64(t, buf) { t.Fatal("not a zip64") } } func testValidHeader(h *FileHeader, t *testing.T) { var buf bytes.Buffer z := NewWriter(&buf) f, err := z.CreateHeader(h) if err != nil { t.Fatalf("error creating header: %v", err) } if _, err := f.Write([]byte("hi")); err != nil { t.Fatalf("error writing content: %v", err) } if err := z.Close(); err != nil { t.Fatalf("error closing zip writer: %v", err) } b := buf.Bytes() zf, err := NewReader(bytes.NewReader(b), int64(len(b))) if err != nil { t.Fatalf("got %v, expected nil", err) } zh := zf.File[0].FileHeader if zh.Name != h.Name || zh.Method != h.Method || zh.UncompressedSize64 != uint64(len("hi")) { t.Fatalf("got %q/%d/%d expected %q/%d/%d", zh.Name, zh.Method, zh.UncompressedSize64, h.Name, h.Method, len("hi")) } } // Issue 4302. func TestHeaderInvalidTagAndSize(t *testing.T) { const timeFormat = "20060102T150405.000.txt" ts := time.Now() filename := ts.Format(timeFormat) h := FileHeader{ Name: filename, Method: Deflate, Extra: []byte(ts.Format(time.RFC3339Nano)), // missing tag and len, but Extra is best-effort parsing } h.SetModTime(ts) testValidHeader(&h, t) } func TestHeaderTooShort(t *testing.T) { h := FileHeader{ Name: "foo.txt", Method: Deflate, Extra: []byte{zip64ExtraId}, // missing size and second half of tag, but Extra is best-effort parsing } testValidHeader(&h, t) } func TestHeaderIgnoredSize(t *testing.T) { h := FileHeader{ Name: "foo.txt", Method: Deflate, Extra: []byte{zip64ExtraId & 0xFF, zip64ExtraId >> 8, 24, 0, 1, 2, 3, 4, 5, 6, 7, 8, 1, 2, 3, 4, 5, 6, 7, 8, 1, 2, 3, 4, 5, 6, 7, 8, 1, 2, 3, 4, 5, 6, 7, 8}, // bad size but shouldn't be consulted } testValidHeader(&h, t) } // Issue 4393. It is valid to have an extra data header // which contains no body. func TestZeroLengthHeader(t *testing.T) { h := FileHeader{ Name: "extadata.txt", Method: Deflate, Extra: []byte{ 85, 84, 5, 0, 3, 154, 144, 195, 77, // tag 21589 size 5 85, 120, 0, 0, // tag 30805 size 0 }, } testValidHeader(&h, t) } // Just benchmarking how fast the Zip64 test above is. Not related to // our zip performance, since the test above disabled CRC32 and flate. func BenchmarkZip64Test(b *testing.B) { for i := 0; i < b.N; i++ { testZip64(b, 1<<26) } } func TestSuffixSaver(t *testing.T) { const keep = 10 ss := &suffixSaver{keep: keep} ss.Write([]byte("abc")) if got := string(ss.Suffix()); got != "abc" { t.Errorf("got = %q; want abc", got) } ss.Write([]byte("defghijklmno")) if got := string(ss.Suffix()); got != "fghijklmno" { t.Errorf("got = %q; want fghijklmno", got) } if got, want := ss.Size(), int64(len("abc")+len("defghijklmno")); got != want { t.Errorf("Size = %d; want %d", got, want) } buf := make([]byte, ss.Size()) for off := int64(0); off < ss.Size(); off++ { for size := 1; size <= int(ss.Size()-off); size++ { readBuf := buf[:size] n, err := ss.ReadAt(readBuf, off) if off < ss.Size()-keep { if err != errDiscardedBytes { t.Errorf("off %d, size %d = %v, %v (%q); want errDiscardedBytes", off, size, n, err, readBuf[:n]) } continue } want := "abcdefghijklmno"[off : off+int64(size)] got := string(readBuf[:n]) if err != nil || got != want { t.Errorf("off %d, size %d = %v, %v (%q); want %q", off, size, n, err, got, want) } } } } type zeros struct{} func (zeros) Read(p []byte) (int, error) { for i := range p { p[i] = 0 } return len(p), nil }