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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-28 13:16:40 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-28 13:16:40 +0000
commit47ab3d4a42e9ab51c465c4322d2ec233f6324e6b (patch)
treea61a0ffd83f4a3def4b36e5c8e99630c559aa723 /src/compress/gzip
parentInitial commit. (diff)
downloadgolang-1.18-47ab3d4a42e9ab51c465c4322d2ec233f6324e6b.tar.xz
golang-1.18-47ab3d4a42e9ab51c465c4322d2ec233f6324e6b.zip
Adding upstream version 1.18.10.upstream/1.18.10upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/compress/gzip')
-rw-r--r--src/compress/gzip/example_test.go128
-rw-r--r--src/compress/gzip/fuzz_test.go92
-rw-r--r--src/compress/gzip/gunzip.go290
-rw-r--r--src/compress/gzip/gunzip_test.go533
-rw-r--r--src/compress/gzip/gzip.go250
-rw-r--r--src/compress/gzip/gzip_test.go275
-rw-r--r--src/compress/gzip/issue14937_test.go77
-rw-r--r--src/compress/gzip/testdata/issue6550.gz.base641
8 files changed, 1646 insertions, 0 deletions
diff --git a/src/compress/gzip/example_test.go b/src/compress/gzip/example_test.go
new file mode 100644
index 0000000..ce29e9b
--- /dev/null
+++ b/src/compress/gzip/example_test.go
@@ -0,0 +1,128 @@
+// Copyright 2016 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.
+
+package gzip_test
+
+import (
+ "bytes"
+ "compress/gzip"
+ "fmt"
+ "io"
+ "log"
+ "os"
+ "time"
+)
+
+func Example_writerReader() {
+ var buf bytes.Buffer
+ zw := gzip.NewWriter(&buf)
+
+ // Setting the Header fields is optional.
+ zw.Name = "a-new-hope.txt"
+ zw.Comment = "an epic space opera by George Lucas"
+ zw.ModTime = time.Date(1977, time.May, 25, 0, 0, 0, 0, time.UTC)
+
+ _, err := zw.Write([]byte("A long time ago in a galaxy far, far away..."))
+ if err != nil {
+ log.Fatal(err)
+ }
+
+ if err := zw.Close(); err != nil {
+ log.Fatal(err)
+ }
+
+ zr, err := gzip.NewReader(&buf)
+ if err != nil {
+ log.Fatal(err)
+ }
+
+ fmt.Printf("Name: %s\nComment: %s\nModTime: %s\n\n", zr.Name, zr.Comment, zr.ModTime.UTC())
+
+ if _, err := io.Copy(os.Stdout, zr); err != nil {
+ log.Fatal(err)
+ }
+
+ if err := zr.Close(); err != nil {
+ log.Fatal(err)
+ }
+
+ // Output:
+ // Name: a-new-hope.txt
+ // Comment: an epic space opera by George Lucas
+ // ModTime: 1977-05-25 00:00:00 +0000 UTC
+ //
+ // A long time ago in a galaxy far, far away...
+}
+
+func ExampleReader_Multistream() {
+ var buf bytes.Buffer
+ zw := gzip.NewWriter(&buf)
+
+ var files = []struct {
+ name string
+ comment string
+ modTime time.Time
+ data string
+ }{
+ {"file-1.txt", "file-header-1", time.Date(2006, time.February, 1, 3, 4, 5, 0, time.UTC), "Hello Gophers - 1"},
+ {"file-2.txt", "file-header-2", time.Date(2007, time.March, 2, 4, 5, 6, 1, time.UTC), "Hello Gophers - 2"},
+ }
+
+ for _, file := range files {
+ zw.Name = file.name
+ zw.Comment = file.comment
+ zw.ModTime = file.modTime
+
+ if _, err := zw.Write([]byte(file.data)); err != nil {
+ log.Fatal(err)
+ }
+
+ if err := zw.Close(); err != nil {
+ log.Fatal(err)
+ }
+
+ zw.Reset(&buf)
+ }
+
+ zr, err := gzip.NewReader(&buf)
+ if err != nil {
+ log.Fatal(err)
+ }
+
+ for {
+ zr.Multistream(false)
+ fmt.Printf("Name: %s\nComment: %s\nModTime: %s\n\n", zr.Name, zr.Comment, zr.ModTime.UTC())
+
+ if _, err := io.Copy(os.Stdout, zr); err != nil {
+ log.Fatal(err)
+ }
+
+ fmt.Print("\n\n")
+
+ err = zr.Reset(&buf)
+ if err == io.EOF {
+ break
+ }
+ if err != nil {
+ log.Fatal(err)
+ }
+ }
+
+ if err := zr.Close(); err != nil {
+ log.Fatal(err)
+ }
+
+ // Output:
+ // Name: file-1.txt
+ // Comment: file-header-1
+ // ModTime: 2006-02-01 03:04:05 +0000 UTC
+ //
+ // Hello Gophers - 1
+ //
+ // Name: file-2.txt
+ // Comment: file-header-2
+ // ModTime: 2007-03-02 04:05:06 +0000 UTC
+ //
+ // Hello Gophers - 2
+}
diff --git a/src/compress/gzip/fuzz_test.go b/src/compress/gzip/fuzz_test.go
new file mode 100644
index 0000000..80d803c
--- /dev/null
+++ b/src/compress/gzip/fuzz_test.go
@@ -0,0 +1,92 @@
+// Copyright 2021 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.
+
+package gzip
+
+import (
+ "bytes"
+ "encoding/base64"
+ "io"
+ "os"
+ "path/filepath"
+ "strings"
+ "testing"
+)
+
+func FuzzReader(f *testing.F) {
+ inp := []byte("Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat. Duis aute irure dolor in reprehenderit in voluptate velit esse cillum dolore eu fugiat nulla pariatur. Excepteur sint occaecat cupidatat non proident, sunt in culpa qui officia deserunt mollit anim id est laborum.")
+ for _, level := range []int{BestSpeed, BestCompression, DefaultCompression, HuffmanOnly} {
+ b := bytes.NewBuffer(nil)
+ w, err := NewWriterLevel(b, level)
+ if err != nil {
+ f.Fatalf("failed to construct writer: %s", err)
+ }
+ _, err = w.Write(inp)
+ if err != nil {
+ f.Fatalf("failed to write: %s", err)
+ }
+ f.Add(b.Bytes())
+ }
+
+ testdata, err := os.ReadDir("testdata")
+ if err != nil {
+ f.Fatalf("failed to read testdata directory: %s", err)
+ }
+ for _, de := range testdata {
+ if de.IsDir() {
+ continue
+ }
+ b, err := os.ReadFile(filepath.Join("testdata", de.Name()))
+ if err != nil {
+ f.Fatalf("failed to read testdata: %s", err)
+ }
+
+ // decode any base64 encoded test files
+ if strings.HasPrefix(de.Name(), ".base64") {
+ b, err = base64.StdEncoding.DecodeString(string(b))
+ if err != nil {
+ f.Fatalf("failed to decode base64 testdata: %s", err)
+ }
+ }
+
+ f.Add(b)
+ }
+
+ f.Fuzz(func(t *testing.T, b []byte) {
+ for _, multistream := range []bool{true, false} {
+ r, err := NewReader(bytes.NewBuffer(b))
+ if err != nil {
+ continue
+ }
+
+ r.Multistream(multistream)
+
+ decompressed := bytes.NewBuffer(nil)
+ if _, err := io.Copy(decompressed, r); err != nil {
+ continue
+ }
+
+ if err := r.Close(); err != nil {
+ continue
+ }
+
+ for _, level := range []int{NoCompression, BestSpeed, BestCompression, DefaultCompression, HuffmanOnly} {
+ w, err := NewWriterLevel(io.Discard, level)
+ if err != nil {
+ t.Fatalf("failed to construct writer: %s", err)
+ }
+ _, err = w.Write(decompressed.Bytes())
+ if err != nil {
+ t.Fatalf("failed to write: %s", err)
+ }
+ if err := w.Flush(); err != nil {
+ t.Fatalf("failed to flush: %s", err)
+ }
+ if err := w.Close(); err != nil {
+ t.Fatalf("failed to close: %s", err)
+ }
+ }
+ }
+ })
+}
diff --git a/src/compress/gzip/gunzip.go b/src/compress/gzip/gunzip.go
new file mode 100644
index 0000000..237b2b9
--- /dev/null
+++ b/src/compress/gzip/gunzip.go
@@ -0,0 +1,290 @@
+// Copyright 2009 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.
+
+// Package gzip implements reading and writing of gzip format compressed files,
+// as specified in RFC 1952.
+package gzip
+
+import (
+ "bufio"
+ "compress/flate"
+ "encoding/binary"
+ "errors"
+ "hash/crc32"
+ "io"
+ "time"
+)
+
+const (
+ gzipID1 = 0x1f
+ gzipID2 = 0x8b
+ gzipDeflate = 8
+ flagText = 1 << 0
+ flagHdrCrc = 1 << 1
+ flagExtra = 1 << 2
+ flagName = 1 << 3
+ flagComment = 1 << 4
+)
+
+var (
+ // ErrChecksum is returned when reading GZIP data that has an invalid checksum.
+ ErrChecksum = errors.New("gzip: invalid checksum")
+ // ErrHeader is returned when reading GZIP data that has an invalid header.
+ ErrHeader = errors.New("gzip: invalid header")
+)
+
+var le = binary.LittleEndian
+
+// noEOF converts io.EOF to io.ErrUnexpectedEOF.
+func noEOF(err error) error {
+ if err == io.EOF {
+ return io.ErrUnexpectedEOF
+ }
+ return err
+}
+
+// The gzip file stores a header giving metadata about the compressed file.
+// That header is exposed as the fields of the Writer and Reader structs.
+//
+// Strings must be UTF-8 encoded and may only contain Unicode code points
+// U+0001 through U+00FF, due to limitations of the GZIP file format.
+type Header struct {
+ Comment string // comment
+ Extra []byte // "extra data"
+ ModTime time.Time // modification time
+ Name string // file name
+ OS byte // operating system type
+}
+
+// A Reader is an io.Reader that can be read to retrieve
+// uncompressed data from a gzip-format compressed file.
+//
+// In general, a gzip file can be a concatenation of gzip files,
+// each with its own header. Reads from the Reader
+// return the concatenation of the uncompressed data of each.
+// Only the first header is recorded in the Reader fields.
+//
+// Gzip files store a length and checksum of the uncompressed data.
+// The Reader will return an ErrChecksum when Read
+// reaches the end of the uncompressed data if it does not
+// have the expected length or checksum. Clients should treat data
+// returned by Read as tentative until they receive the io.EOF
+// marking the end of the data.
+type Reader struct {
+ Header // valid after NewReader or Reader.Reset
+ r flate.Reader
+ decompressor io.ReadCloser
+ digest uint32 // CRC-32, IEEE polynomial (section 8)
+ size uint32 // Uncompressed size (section 2.3.1)
+ buf [512]byte
+ err error
+ multistream bool
+}
+
+// NewReader creates a new Reader reading the given reader.
+// If r does not also implement io.ByteReader,
+// the decompressor may read more data than necessary from r.
+//
+// It is the caller's responsibility to call Close on the Reader when done.
+//
+// The Reader.Header fields will be valid in the Reader returned.
+func NewReader(r io.Reader) (*Reader, error) {
+ z := new(Reader)
+ if err := z.Reset(r); err != nil {
+ return nil, err
+ }
+ return z, nil
+}
+
+// Reset discards the Reader z's state and makes it equivalent to the
+// result of its original state from NewReader, but reading from r instead.
+// This permits reusing a Reader rather than allocating a new one.
+func (z *Reader) Reset(r io.Reader) error {
+ *z = Reader{
+ decompressor: z.decompressor,
+ multistream: true,
+ }
+ if rr, ok := r.(flate.Reader); ok {
+ z.r = rr
+ } else {
+ z.r = bufio.NewReader(r)
+ }
+ z.Header, z.err = z.readHeader()
+ return z.err
+}
+
+// Multistream controls whether the reader supports multistream files.
+//
+// If enabled (the default), the Reader expects the input to be a sequence
+// of individually gzipped data streams, each with its own header and
+// trailer, ending at EOF. The effect is that the concatenation of a sequence
+// of gzipped files is treated as equivalent to the gzip of the concatenation
+// of the sequence. This is standard behavior for gzip readers.
+//
+// Calling Multistream(false) disables this behavior; disabling the behavior
+// can be useful when reading file formats that distinguish individual gzip
+// data streams or mix gzip data streams with other data streams.
+// In this mode, when the Reader reaches the end of the data stream,
+// Read returns io.EOF. The underlying reader must implement io.ByteReader
+// in order to be left positioned just after the gzip stream.
+// To start the next stream, call z.Reset(r) followed by z.Multistream(false).
+// If there is no next stream, z.Reset(r) will return io.EOF.
+func (z *Reader) Multistream(ok bool) {
+ z.multistream = ok
+}
+
+// readString reads a NUL-terminated string from z.r.
+// It treats the bytes read as being encoded as ISO 8859-1 (Latin-1) and
+// will output a string encoded using UTF-8.
+// This method always updates z.digest with the data read.
+func (z *Reader) readString() (string, error) {
+ var err error
+ needConv := false
+ for i := 0; ; i++ {
+ if i >= len(z.buf) {
+ return "", ErrHeader
+ }
+ z.buf[i], err = z.r.ReadByte()
+ if err != nil {
+ return "", err
+ }
+ if z.buf[i] > 0x7f {
+ needConv = true
+ }
+ if z.buf[i] == 0 {
+ // Digest covers the NUL terminator.
+ z.digest = crc32.Update(z.digest, crc32.IEEETable, z.buf[:i+1])
+
+ // Strings are ISO 8859-1, Latin-1 (RFC 1952, section 2.3.1).
+ if needConv {
+ s := make([]rune, 0, i)
+ for _, v := range z.buf[:i] {
+ s = append(s, rune(v))
+ }
+ return string(s), nil
+ }
+ return string(z.buf[:i]), nil
+ }
+ }
+}
+
+// readHeader reads the GZIP header according to section 2.3.1.
+// This method does not set z.err.
+func (z *Reader) readHeader() (hdr Header, err error) {
+ if _, err = io.ReadFull(z.r, z.buf[:10]); err != nil {
+ // RFC 1952, section 2.2, says the following:
+ // A gzip file consists of a series of "members" (compressed data sets).
+ //
+ // Other than this, the specification does not clarify whether a
+ // "series" is defined as "one or more" or "zero or more". To err on the
+ // side of caution, Go interprets this to mean "zero or more".
+ // Thus, it is okay to return io.EOF here.
+ return hdr, err
+ }
+ if z.buf[0] != gzipID1 || z.buf[1] != gzipID2 || z.buf[2] != gzipDeflate {
+ return hdr, ErrHeader
+ }
+ flg := z.buf[3]
+ if t := int64(le.Uint32(z.buf[4:8])); t > 0 {
+ // Section 2.3.1, the zero value for MTIME means that the
+ // modified time is not set.
+ hdr.ModTime = time.Unix(t, 0)
+ }
+ // z.buf[8] is XFL and is currently ignored.
+ hdr.OS = z.buf[9]
+ z.digest = crc32.ChecksumIEEE(z.buf[:10])
+
+ if flg&flagExtra != 0 {
+ if _, err = io.ReadFull(z.r, z.buf[:2]); err != nil {
+ return hdr, noEOF(err)
+ }
+ z.digest = crc32.Update(z.digest, crc32.IEEETable, z.buf[:2])
+ data := make([]byte, le.Uint16(z.buf[:2]))
+ if _, err = io.ReadFull(z.r, data); err != nil {
+ return hdr, noEOF(err)
+ }
+ z.digest = crc32.Update(z.digest, crc32.IEEETable, data)
+ hdr.Extra = data
+ }
+
+ var s string
+ if flg&flagName != 0 {
+ if s, err = z.readString(); err != nil {
+ return hdr, err
+ }
+ hdr.Name = s
+ }
+
+ if flg&flagComment != 0 {
+ if s, err = z.readString(); err != nil {
+ return hdr, err
+ }
+ hdr.Comment = s
+ }
+
+ if flg&flagHdrCrc != 0 {
+ if _, err = io.ReadFull(z.r, z.buf[:2]); err != nil {
+ return hdr, noEOF(err)
+ }
+ digest := le.Uint16(z.buf[:2])
+ if digest != uint16(z.digest) {
+ return hdr, ErrHeader
+ }
+ }
+
+ z.digest = 0
+ if z.decompressor == nil {
+ z.decompressor = flate.NewReader(z.r)
+ } else {
+ z.decompressor.(flate.Resetter).Reset(z.r, nil)
+ }
+ return hdr, nil
+}
+
+// Read implements io.Reader, reading uncompressed bytes from its underlying Reader.
+func (z *Reader) Read(p []byte) (n int, err error) {
+ if z.err != nil {
+ return 0, z.err
+ }
+
+ for n == 0 {
+ n, z.err = z.decompressor.Read(p)
+ z.digest = crc32.Update(z.digest, crc32.IEEETable, p[:n])
+ z.size += uint32(n)
+ if z.err != io.EOF {
+ // In the normal case we return here.
+ return n, z.err
+ }
+
+ // Finished file; check checksum and size.
+ if _, err := io.ReadFull(z.r, z.buf[:8]); err != nil {
+ z.err = noEOF(err)
+ return n, z.err
+ }
+ digest := le.Uint32(z.buf[:4])
+ size := le.Uint32(z.buf[4:8])
+ if digest != z.digest || size != z.size {
+ z.err = ErrChecksum
+ return n, z.err
+ }
+ z.digest, z.size = 0, 0
+
+ // File is ok; check if there is another.
+ if !z.multistream {
+ return n, io.EOF
+ }
+ z.err = nil // Remove io.EOF
+
+ if _, z.err = z.readHeader(); z.err != nil {
+ return n, z.err
+ }
+ }
+
+ return n, nil
+}
+
+// Close closes the Reader. It does not close the underlying io.Reader.
+// In order for the GZIP checksum to be verified, the reader must be
+// fully consumed until the io.EOF.
+func (z *Reader) Close() error { return z.decompressor.Close() }
diff --git a/src/compress/gzip/gunzip_test.go b/src/compress/gzip/gunzip_test.go
new file mode 100644
index 0000000..6fe8ddc
--- /dev/null
+++ b/src/compress/gzip/gunzip_test.go
@@ -0,0 +1,533 @@
+// Copyright 2009 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.
+
+package gzip
+
+import (
+ "bytes"
+ "compress/flate"
+ "encoding/base64"
+ "io"
+ "os"
+ "strings"
+ "testing"
+ "time"
+)
+
+type gunzipTest struct {
+ name string
+ desc string
+ raw string
+ gzip []byte
+ err error
+}
+
+var gunzipTests = []gunzipTest{
+ { // has 1 empty fixed-huffman block
+ "empty.txt",
+ "empty.txt",
+ "",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x08, 0xf7, 0x5e, 0x14, 0x4a,
+ 0x00, 0x03, 0x65, 0x6d, 0x70, 0x74, 0x79, 0x2e,
+ 0x74, 0x78, 0x74, 0x00, 0x03, 0x00, 0x00, 0x00,
+ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+ },
+ nil,
+ },
+ {
+ "",
+ "empty - with no file name",
+ "",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x00, 0x00, 0x09, 0x6e, 0x88,
+ 0x00, 0xff, 0x01, 0x00, 0x00, 0xff, 0xff, 0x00,
+ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+ },
+ nil,
+ },
+ { // has 1 non-empty fixed huffman block
+ "hello.txt",
+ "hello.txt",
+ "hello world\n",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x08, 0xc8, 0x58, 0x13, 0x4a,
+ 0x00, 0x03, 0x68, 0x65, 0x6c, 0x6c, 0x6f, 0x2e,
+ 0x74, 0x78, 0x74, 0x00, 0xcb, 0x48, 0xcd, 0xc9,
+ 0xc9, 0x57, 0x28, 0xcf, 0x2f, 0xca, 0x49, 0xe1,
+ 0x02, 0x00, 0x2d, 0x3b, 0x08, 0xaf, 0x0c, 0x00,
+ 0x00, 0x00,
+ },
+ nil,
+ },
+ { // concatenation
+ "hello.txt",
+ "hello.txt x2",
+ "hello world\n" +
+ "hello world\n",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x08, 0xc8, 0x58, 0x13, 0x4a,
+ 0x00, 0x03, 0x68, 0x65, 0x6c, 0x6c, 0x6f, 0x2e,
+ 0x74, 0x78, 0x74, 0x00, 0xcb, 0x48, 0xcd, 0xc9,
+ 0xc9, 0x57, 0x28, 0xcf, 0x2f, 0xca, 0x49, 0xe1,
+ 0x02, 0x00, 0x2d, 0x3b, 0x08, 0xaf, 0x0c, 0x00,
+ 0x00, 0x00,
+ 0x1f, 0x8b, 0x08, 0x08, 0xc8, 0x58, 0x13, 0x4a,
+ 0x00, 0x03, 0x68, 0x65, 0x6c, 0x6c, 0x6f, 0x2e,
+ 0x74, 0x78, 0x74, 0x00, 0xcb, 0x48, 0xcd, 0xc9,
+ 0xc9, 0x57, 0x28, 0xcf, 0x2f, 0xca, 0x49, 0xe1,
+ 0x02, 0x00, 0x2d, 0x3b, 0x08, 0xaf, 0x0c, 0x00,
+ 0x00, 0x00,
+ },
+ nil,
+ },
+ { // has a fixed huffman block with some length-distance pairs
+ "shesells.txt",
+ "shesells.txt",
+ "she sells seashells by the seashore\n",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x08, 0x72, 0x66, 0x8b, 0x4a,
+ 0x00, 0x03, 0x73, 0x68, 0x65, 0x73, 0x65, 0x6c,
+ 0x6c, 0x73, 0x2e, 0x74, 0x78, 0x74, 0x00, 0x2b,
+ 0xce, 0x48, 0x55, 0x28, 0x4e, 0xcd, 0xc9, 0x29,
+ 0x06, 0x92, 0x89, 0xc5, 0x19, 0x60, 0x56, 0x52,
+ 0xa5, 0x42, 0x09, 0x58, 0x18, 0x28, 0x90, 0x5f,
+ 0x94, 0xca, 0x05, 0x00, 0x76, 0xb0, 0x3b, 0xeb,
+ 0x24, 0x00, 0x00, 0x00,
+ },
+ nil,
+ },
+ { // has dynamic huffman blocks
+ "gettysburg",
+ "gettysburg",
+ " Four score and seven years ago our fathers brought forth on\n" +
+ "this continent, a new nation, conceived in Liberty, and dedicated\n" +
+ "to the proposition that all men are created equal.\n" +
+ " Now we are engaged in a great Civil War, testing whether that\n" +
+ "nation, or any nation so conceived and so dedicated, can long\n" +
+ "endure.\n" +
+ " We are met on a great battle-field of that war.\n" +
+ " We have come to dedicate a portion of that field, as a final\n" +
+ "resting place for those who here gave their lives that that\n" +
+ "nation might live. It is altogether fitting and proper that\n" +
+ "we should do this.\n" +
+ " But, in a larger sense, we can not dedicate — we can not\n" +
+ "consecrate — we can not hallow — this ground.\n" +
+ " The brave men, living and dead, who struggled here, have\n" +
+ "consecrated it, far above our poor power to add or detract.\n" +
+ "The world will little note, nor long remember what we say here,\n" +
+ "but it can never forget what they did here.\n" +
+ " It is for us the living, rather, to be dedicated here to the\n" +
+ "unfinished work which they who fought here have thus far so\n" +
+ "nobly advanced. It is rather for us to be here dedicated to\n" +
+ "the great task remaining before us — that from these honored\n" +
+ "dead we take increased devotion to that cause for which they\n" +
+ "gave the last full measure of devotion —\n" +
+ " that we here highly resolve that these dead shall not have\n" +
+ "died in vain — that this nation, under God, shall have a new\n" +
+ "birth of freedom — and that government of the people, by the\n" +
+ "people, for the people, shall not perish from this earth.\n" +
+ "\n" +
+ "Abraham Lincoln, November 19, 1863, Gettysburg, Pennsylvania\n",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x08, 0xd1, 0x12, 0x2b, 0x4a,
+ 0x00, 0x03, 0x67, 0x65, 0x74, 0x74, 0x79, 0x73,
+ 0x62, 0x75, 0x72, 0x67, 0x00, 0x65, 0x54, 0xcd,
+ 0x6e, 0xd4, 0x30, 0x10, 0xbe, 0xfb, 0x29, 0xe6,
+ 0x01, 0x42, 0xa5, 0x0a, 0x09, 0xc1, 0x11, 0x90,
+ 0x40, 0x48, 0xa8, 0xe2, 0x80, 0xd4, 0xf3, 0x24,
+ 0x9e, 0x24, 0x56, 0xbd, 0x9e, 0xc5, 0x76, 0x76,
+ 0x95, 0x1b, 0x0f, 0xc1, 0x13, 0xf2, 0x24, 0x7c,
+ 0x63, 0x77, 0x9b, 0x4a, 0x5c, 0xaa, 0x6e, 0x6c,
+ 0xcf, 0x7c, 0x7f, 0x33, 0x44, 0x5f, 0x74, 0xcb,
+ 0x54, 0x26, 0xcd, 0x42, 0x9c, 0x3c, 0x15, 0xb9,
+ 0x48, 0xa2, 0x5d, 0x38, 0x17, 0xe2, 0x45, 0xc9,
+ 0x4e, 0x67, 0xae, 0xab, 0xe0, 0xf7, 0x98, 0x75,
+ 0x5b, 0xd6, 0x4a, 0xb3, 0xe6, 0xba, 0x92, 0x26,
+ 0x57, 0xd7, 0x50, 0x68, 0xd2, 0x54, 0x43, 0x92,
+ 0x54, 0x07, 0x62, 0x4a, 0x72, 0xa5, 0xc4, 0x35,
+ 0x68, 0x1a, 0xec, 0x60, 0x92, 0x70, 0x11, 0x4f,
+ 0x21, 0xd1, 0xf7, 0x30, 0x4a, 0xae, 0xfb, 0xd0,
+ 0x9a, 0x78, 0xf1, 0x61, 0xe2, 0x2a, 0xde, 0x55,
+ 0x25, 0xd4, 0xa6, 0x73, 0xd6, 0xb3, 0x96, 0x60,
+ 0xef, 0xf0, 0x9b, 0x2b, 0x71, 0x8c, 0x74, 0x02,
+ 0x10, 0x06, 0xac, 0x29, 0x8b, 0xdd, 0x25, 0xf9,
+ 0xb5, 0x71, 0xbc, 0x73, 0x44, 0x0f, 0x7a, 0xa5,
+ 0xab, 0xb4, 0x33, 0x49, 0x0b, 0x2f, 0xbd, 0x03,
+ 0xd3, 0x62, 0x17, 0xe9, 0x73, 0xb8, 0x84, 0x48,
+ 0x8f, 0x9c, 0x07, 0xaa, 0x52, 0x00, 0x6d, 0xa1,
+ 0xeb, 0x2a, 0xc6, 0xa0, 0x95, 0x76, 0x37, 0x78,
+ 0x9a, 0x81, 0x65, 0x7f, 0x46, 0x4b, 0x45, 0x5f,
+ 0xe1, 0x6d, 0x42, 0xe8, 0x01, 0x13, 0x5c, 0x38,
+ 0x51, 0xd4, 0xb4, 0x38, 0x49, 0x7e, 0xcb, 0x62,
+ 0x28, 0x1e, 0x3b, 0x82, 0x93, 0x54, 0x48, 0xf1,
+ 0xd2, 0x7d, 0xe4, 0x5a, 0xa3, 0xbc, 0x99, 0x83,
+ 0x44, 0x4f, 0x3a, 0x77, 0x36, 0x57, 0xce, 0xcf,
+ 0x2f, 0x56, 0xbe, 0x80, 0x90, 0x9e, 0x84, 0xea,
+ 0x51, 0x1f, 0x8f, 0xcf, 0x90, 0xd4, 0x60, 0xdc,
+ 0x5e, 0xb4, 0xf7, 0x10, 0x0b, 0x26, 0xe0, 0xff,
+ 0xc4, 0xd1, 0xe5, 0x67, 0x2e, 0xe7, 0xc8, 0x93,
+ 0x98, 0x05, 0xb8, 0xa8, 0x45, 0xc0, 0x4d, 0x09,
+ 0xdc, 0x84, 0x16, 0x2b, 0x0d, 0x9a, 0x21, 0x53,
+ 0x04, 0x8b, 0xd2, 0x0b, 0xbd, 0xa2, 0x4c, 0xa7,
+ 0x60, 0xee, 0xd9, 0xe1, 0x1d, 0xd1, 0xb7, 0x4a,
+ 0x30, 0x8f, 0x63, 0xd5, 0xa5, 0x8b, 0x33, 0x87,
+ 0xda, 0x1a, 0x18, 0x79, 0xf3, 0xe3, 0xa6, 0x17,
+ 0x94, 0x2e, 0xab, 0x6e, 0xa0, 0xe3, 0xcd, 0xac,
+ 0x50, 0x8c, 0xca, 0xa7, 0x0d, 0x76, 0x37, 0xd1,
+ 0x23, 0xe7, 0x05, 0x57, 0x8b, 0xa4, 0x22, 0x83,
+ 0xd9, 0x62, 0x52, 0x25, 0xad, 0x07, 0xbb, 0xbf,
+ 0xbf, 0xff, 0xbc, 0xfa, 0xee, 0x20, 0x73, 0x91,
+ 0x29, 0xff, 0x7f, 0x02, 0x71, 0x62, 0x84, 0xb5,
+ 0xf6, 0xb5, 0x25, 0x6b, 0x41, 0xde, 0x92, 0xb7,
+ 0x76, 0x3f, 0x91, 0x91, 0x31, 0x1b, 0x41, 0x84,
+ 0x62, 0x30, 0x0a, 0x37, 0xa4, 0x5e, 0x18, 0x3a,
+ 0x99, 0x08, 0xa5, 0xe6, 0x6d, 0x59, 0x22, 0xec,
+ 0x33, 0x39, 0x86, 0x26, 0xf5, 0xab, 0x66, 0xc8,
+ 0x08, 0x20, 0xcf, 0x0c, 0xd7, 0x47, 0x45, 0x21,
+ 0x0b, 0xf6, 0x59, 0xd5, 0xfe, 0x5c, 0x8d, 0xaa,
+ 0x12, 0x7b, 0x6f, 0xa1, 0xf0, 0x52, 0x33, 0x4f,
+ 0xf5, 0xce, 0x59, 0xd3, 0xab, 0x66, 0x10, 0xbf,
+ 0x06, 0xc4, 0x31, 0x06, 0x73, 0xd6, 0x80, 0xa2,
+ 0x78, 0xc2, 0x45, 0xcb, 0x03, 0x65, 0x39, 0xc9,
+ 0x09, 0xd1, 0x06, 0x04, 0x33, 0x1a, 0x5a, 0xf1,
+ 0xde, 0x01, 0xb8, 0x71, 0x83, 0xc4, 0xb5, 0xb3,
+ 0xc3, 0x54, 0x65, 0x33, 0x0d, 0x5a, 0xf7, 0x9b,
+ 0x90, 0x7c, 0x27, 0x1f, 0x3a, 0x58, 0xa3, 0xd8,
+ 0xfd, 0x30, 0x5f, 0xb7, 0xd2, 0x66, 0xa2, 0x93,
+ 0x1c, 0x28, 0xb7, 0xe9, 0x1b, 0x0c, 0xe1, 0x28,
+ 0x47, 0x26, 0xbb, 0xe9, 0x7d, 0x7e, 0xdc, 0x96,
+ 0x10, 0x92, 0x50, 0x56, 0x7c, 0x06, 0xe2, 0x27,
+ 0xb4, 0x08, 0xd3, 0xda, 0x7b, 0x98, 0x34, 0x73,
+ 0x9f, 0xdb, 0xf6, 0x62, 0xed, 0x31, 0x41, 0x13,
+ 0xd3, 0xa2, 0xa8, 0x4b, 0x3a, 0xc6, 0x1d, 0xe4,
+ 0x2f, 0x8c, 0xf8, 0xfb, 0x97, 0x64, 0xf4, 0xb6,
+ 0x2f, 0x80, 0x5a, 0xf3, 0x56, 0xe0, 0x40, 0x50,
+ 0xd5, 0x19, 0xd0, 0x1e, 0xfc, 0xca, 0xe5, 0xc9,
+ 0xd4, 0x60, 0x00, 0x81, 0x2e, 0xa3, 0xcc, 0xb6,
+ 0x52, 0xf0, 0xb4, 0xdb, 0x69, 0x99, 0xce, 0x7a,
+ 0x32, 0x4c, 0x08, 0xed, 0xaa, 0x10, 0x10, 0xe3,
+ 0x6f, 0xee, 0x99, 0x68, 0x95, 0x9f, 0x04, 0x71,
+ 0xb2, 0x49, 0x2f, 0x62, 0xa6, 0x5e, 0xb4, 0xef,
+ 0x02, 0xed, 0x4f, 0x27, 0xde, 0x4a, 0x0f, 0xfd,
+ 0xc1, 0xcc, 0xdd, 0x02, 0x8f, 0x08, 0x16, 0x54,
+ 0xdf, 0xda, 0xca, 0xe0, 0x82, 0xf1, 0xb4, 0x31,
+ 0x7a, 0xa9, 0x81, 0xfe, 0x90, 0xb7, 0x3e, 0xdb,
+ 0xd3, 0x35, 0xc0, 0x20, 0x80, 0x33, 0x46, 0x4a,
+ 0x63, 0xab, 0xd1, 0x0d, 0x29, 0xd2, 0xe2, 0x84,
+ 0xb8, 0xdb, 0xfa, 0xe9, 0x89, 0x44, 0x86, 0x7c,
+ 0xe8, 0x0b, 0xe6, 0x02, 0x6a, 0x07, 0x9b, 0x96,
+ 0xd0, 0xdb, 0x2e, 0x41, 0x4c, 0xa1, 0xd5, 0x57,
+ 0x45, 0x14, 0xfb, 0xe3, 0xa6, 0x72, 0x5b, 0x87,
+ 0x6e, 0x0c, 0x6d, 0x5b, 0xce, 0xe0, 0x2f, 0xe2,
+ 0x21, 0x81, 0x95, 0xb0, 0xe8, 0xb6, 0x32, 0x0b,
+ 0xb2, 0x98, 0x13, 0x52, 0x5d, 0xfb, 0xec, 0x63,
+ 0x17, 0x8a, 0x9e, 0x23, 0x22, 0x36, 0xee, 0xcd,
+ 0xda, 0xdb, 0xcf, 0x3e, 0xf1, 0xc7, 0xf1, 0x01,
+ 0x12, 0x93, 0x0a, 0xeb, 0x6f, 0xf2, 0x02, 0x15,
+ 0x96, 0x77, 0x5d, 0xef, 0x9c, 0xfb, 0x88, 0x91,
+ 0x59, 0xf9, 0x84, 0xdd, 0x9b, 0x26, 0x8d, 0x80,
+ 0xf9, 0x80, 0x66, 0x2d, 0xac, 0xf7, 0x1f, 0x06,
+ 0xba, 0x7f, 0xff, 0xee, 0xed, 0x40, 0x5f, 0xa5,
+ 0xd6, 0xbd, 0x8c, 0x5b, 0x46, 0xd2, 0x7e, 0x48,
+ 0x4a, 0x65, 0x8f, 0x08, 0x42, 0x60, 0xf7, 0x0f,
+ 0xb9, 0x16, 0x0b, 0x0c, 0x1a, 0x06, 0x00, 0x00,
+ },
+ nil,
+ },
+ { // has 1 non-empty fixed huffman block then garbage
+ "hello.txt",
+ "hello.txt + garbage",
+ "hello world\n",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x08, 0xc8, 0x58, 0x13, 0x4a,
+ 0x00, 0x03, 0x68, 0x65, 0x6c, 0x6c, 0x6f, 0x2e,
+ 0x74, 0x78, 0x74, 0x00, 0xcb, 0x48, 0xcd, 0xc9,
+ 0xc9, 0x57, 0x28, 0xcf, 0x2f, 0xca, 0x49, 0xe1,
+ 0x02, 0x00, 0x2d, 0x3b, 0x08, 0xaf, 0x0c, 0x00,
+ 0x00, 0x00, 'g', 'a', 'r', 'b', 'a', 'g', 'e', '!', '!', '!',
+ },
+ ErrHeader,
+ },
+ { // has 1 non-empty fixed huffman block not enough header
+ "hello.txt",
+ "hello.txt + garbage",
+ "hello world\n",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x08, 0xc8, 0x58, 0x13, 0x4a,
+ 0x00, 0x03, 0x68, 0x65, 0x6c, 0x6c, 0x6f, 0x2e,
+ 0x74, 0x78, 0x74, 0x00, 0xcb, 0x48, 0xcd, 0xc9,
+ 0xc9, 0x57, 0x28, 0xcf, 0x2f, 0xca, 0x49, 0xe1,
+ 0x02, 0x00, 0x2d, 0x3b, 0x08, 0xaf, 0x0c, 0x00,
+ 0x00, 0x00, gzipID1,
+ },
+ io.ErrUnexpectedEOF,
+ },
+ { // has 1 non-empty fixed huffman block but corrupt checksum
+ "hello.txt",
+ "hello.txt + corrupt checksum",
+ "hello world\n",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x08, 0xc8, 0x58, 0x13, 0x4a,
+ 0x00, 0x03, 0x68, 0x65, 0x6c, 0x6c, 0x6f, 0x2e,
+ 0x74, 0x78, 0x74, 0x00, 0xcb, 0x48, 0xcd, 0xc9,
+ 0xc9, 0x57, 0x28, 0xcf, 0x2f, 0xca, 0x49, 0xe1,
+ 0x02, 0x00, 0xff, 0xff, 0xff, 0xff, 0x0c, 0x00,
+ 0x00, 0x00,
+ },
+ ErrChecksum,
+ },
+ { // has 1 non-empty fixed huffman block but corrupt size
+ "hello.txt",
+ "hello.txt + corrupt size",
+ "hello world\n",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x08, 0xc8, 0x58, 0x13, 0x4a,
+ 0x00, 0x03, 0x68, 0x65, 0x6c, 0x6c, 0x6f, 0x2e,
+ 0x74, 0x78, 0x74, 0x00, 0xcb, 0x48, 0xcd, 0xc9,
+ 0xc9, 0x57, 0x28, 0xcf, 0x2f, 0xca, 0x49, 0xe1,
+ 0x02, 0x00, 0x2d, 0x3b, 0x08, 0xaf, 0xff, 0x00,
+ 0x00, 0x00,
+ },
+ ErrChecksum,
+ },
+ {
+ "f1l3n4m3.tXt",
+ "header with all fields used",
+ "",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x1e, 0x70, 0xf0, 0xf9, 0x4a,
+ 0x00, 0xaa, 0x09, 0x00, 0x7a, 0x7a, 0x05, 0x00,
+ 0x61, 0x62, 0x63, 0x64, 0x65, 0x66, 0x31, 0x6c,
+ 0x33, 0x6e, 0x34, 0x6d, 0x33, 0x2e, 0x74, 0x58,
+ 0x74, 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06,
+ 0x07, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e,
+ 0x0f, 0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16,
+ 0x17, 0x18, 0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e,
+ 0x1f, 0x20, 0x21, 0x22, 0x23, 0x24, 0x25, 0x26,
+ 0x27, 0x28, 0x29, 0x2a, 0x2b, 0x2c, 0x2d, 0x2e,
+ 0x2f, 0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36,
+ 0x37, 0x38, 0x39, 0x3a, 0x3b, 0x3c, 0x3d, 0x3e,
+ 0x3f, 0x40, 0x41, 0x42, 0x43, 0x44, 0x45, 0x46,
+ 0x47, 0x48, 0x49, 0x4a, 0x4b, 0x4c, 0x4d, 0x4e,
+ 0x4f, 0x50, 0x51, 0x52, 0x53, 0x54, 0x55, 0x56,
+ 0x57, 0x58, 0x59, 0x5a, 0x5b, 0x5c, 0x5d, 0x5e,
+ 0x5f, 0x60, 0x61, 0x62, 0x63, 0x64, 0x65, 0x66,
+ 0x67, 0x68, 0x69, 0x6a, 0x6b, 0x6c, 0x6d, 0x6e,
+ 0x6f, 0x70, 0x71, 0x72, 0x73, 0x74, 0x75, 0x76,
+ 0x77, 0x78, 0x79, 0x7a, 0x7b, 0x7c, 0x7d, 0x7e,
+ 0x7f, 0x80, 0x81, 0x82, 0x83, 0x84, 0x85, 0x86,
+ 0x87, 0x88, 0x89, 0x8a, 0x8b, 0x8c, 0x8d, 0x8e,
+ 0x8f, 0x90, 0x91, 0x92, 0x93, 0x94, 0x95, 0x96,
+ 0x97, 0x98, 0x99, 0x9a, 0x9b, 0x9c, 0x9d, 0x9e,
+ 0x9f, 0xa0, 0xa1, 0xa2, 0xa3, 0xa4, 0xa5, 0xa6,
+ 0xa7, 0xa8, 0xa9, 0xaa, 0xab, 0xac, 0xad, 0xae,
+ 0xaf, 0xb0, 0xb1, 0xb2, 0xb3, 0xb4, 0xb5, 0xb6,
+ 0xb7, 0xb8, 0xb9, 0xba, 0xbb, 0xbc, 0xbd, 0xbe,
+ 0xbf, 0xc0, 0xc1, 0xc2, 0xc3, 0xc4, 0xc5, 0xc6,
+ 0xc7, 0xc8, 0xc9, 0xca, 0xcb, 0xcc, 0xcd, 0xce,
+ 0xcf, 0xd0, 0xd1, 0xd2, 0xd3, 0xd4, 0xd5, 0xd6,
+ 0xd7, 0xd8, 0xd9, 0xda, 0xdb, 0xdc, 0xdd, 0xde,
+ 0xdf, 0xe0, 0xe1, 0xe2, 0xe3, 0xe4, 0xe5, 0xe6,
+ 0xe7, 0xe8, 0xe9, 0xea, 0xeb, 0xec, 0xed, 0xee,
+ 0xef, 0xf0, 0xf1, 0xf2, 0xf3, 0xf4, 0xf5, 0xf6,
+ 0xf7, 0xf8, 0xf9, 0xfa, 0xfb, 0xfc, 0xfd, 0xfe,
+ 0xff, 0x00, 0x92, 0xfd, 0x01, 0x00, 0x00, 0xff,
+ 0xff, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+ 0x00,
+ },
+ nil,
+ },
+ {
+ "",
+ "truncated gzip file amid raw-block",
+ "hello",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xff,
+ 0x00, 0x0c, 0x00, 0xf3, 0xff, 0x68, 0x65, 0x6c, 0x6c, 0x6f,
+ },
+ io.ErrUnexpectedEOF,
+ },
+ {
+ "",
+ "truncated gzip file amid fixed-block",
+ "He",
+ []byte{
+ 0x1f, 0x8b, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xff,
+ 0xf2, 0x48, 0xcd,
+ },
+ io.ErrUnexpectedEOF,
+ },
+}
+
+func TestDecompressor(t *testing.T) {
+ // Keep resetting this reader.
+ // It is intended behavior that Reader.Reset can be called on a zero-value
+ // Reader and be the equivalent as if NewReader was used instead.
+ r1 := new(Reader)
+
+ b := new(bytes.Buffer)
+ for _, tt := range gunzipTests {
+ // Test NewReader.
+ in := bytes.NewReader(tt.gzip)
+ r2, err := NewReader(in)
+ if err != nil {
+ t.Errorf("%s: NewReader: %s", tt.desc, err)
+ continue
+ }
+ defer r2.Close()
+ if tt.name != r2.Name {
+ t.Errorf("%s: got name %s", tt.desc, r2.Name)
+ }
+ b.Reset()
+ n, err := io.Copy(b, r2)
+ if err != tt.err {
+ t.Errorf("%s: io.Copy: %v want %v", tt.desc, err, tt.err)
+ }
+ s := b.String()
+ if s != tt.raw {
+ t.Errorf("%s: got %d-byte %q want %d-byte %q", tt.desc, n, s, len(tt.raw), tt.raw)
+ }
+
+ // Test Reader.Reset.
+ in = bytes.NewReader(tt.gzip)
+ err = r1.Reset(in)
+ if err != nil {
+ t.Errorf("%s: Reset: %s", tt.desc, err)
+ continue
+ }
+ if tt.name != r1.Name {
+ t.Errorf("%s: got name %s", tt.desc, r1.Name)
+ }
+ b.Reset()
+ n, err = io.Copy(b, r1)
+ if err != tt.err {
+ t.Errorf("%s: io.Copy: %v want %v", tt.desc, err, tt.err)
+ }
+ s = b.String()
+ if s != tt.raw {
+ t.Errorf("%s: got %d-byte %q want %d-byte %q", tt.desc, n, s, len(tt.raw), tt.raw)
+ }
+ }
+}
+
+func TestIssue6550(t *testing.T) {
+ // Apple’s notarization service will recursively attempt to decompress
+ // files in order to find binaries to notarize. Since the service is
+ // unable to decompress this file, it may reject the entire toolchain. Use a
+ // base64-encoded version to avoid this.
+ // See golang.org/issue/34986
+ f, err := os.Open("testdata/issue6550.gz.base64")
+ if err != nil {
+ t.Fatal(err)
+ }
+ gzip, err := NewReader(base64.NewDecoder(base64.StdEncoding, f))
+ if err != nil {
+ t.Fatalf("NewReader(testdata/issue6550.gz): %v", err)
+ }
+ defer gzip.Close()
+ done := make(chan bool, 1)
+ go func() {
+ _, err := io.Copy(io.Discard, gzip)
+ if err == nil {
+ t.Errorf("Copy succeeded")
+ } else {
+ t.Logf("Copy failed (correctly): %v", err)
+ }
+ done <- true
+ }()
+ select {
+ case <-time.After(1 * time.Second):
+ t.Errorf("Copy hung")
+ case <-done:
+ // ok
+ }
+}
+
+func TestMultistreamFalse(t *testing.T) {
+ // Find concatenation test.
+ var tt gunzipTest
+ for _, tt = range gunzipTests {
+ if strings.HasSuffix(tt.desc, " x2") {
+ goto Found
+ }
+ }
+ t.Fatal("cannot find hello.txt x2 in gunzip tests")
+
+Found:
+ br := bytes.NewReader(tt.gzip)
+ var r Reader
+ if err := r.Reset(br); err != nil {
+ t.Fatalf("first reset: %v", err)
+ }
+
+ // Expect two streams with "hello world\n", then real EOF.
+ const hello = "hello world\n"
+
+ r.Multistream(false)
+ data, err := io.ReadAll(&r)
+ if string(data) != hello || err != nil {
+ t.Fatalf("first stream = %q, %v, want %q, %v", string(data), err, hello, nil)
+ }
+
+ if err := r.Reset(br); err != nil {
+ t.Fatalf("second reset: %v", err)
+ }
+ r.Multistream(false)
+ data, err = io.ReadAll(&r)
+ if string(data) != hello || err != nil {
+ t.Fatalf("second stream = %q, %v, want %q, %v", string(data), err, hello, nil)
+ }
+
+ if err := r.Reset(br); err != io.EOF {
+ t.Fatalf("third reset: err=%v, want io.EOF", err)
+ }
+}
+
+func TestNilStream(t *testing.T) {
+ // Go liberally interprets RFC 1952 section 2.2 to mean that a gzip file
+ // consist of zero or more members. Thus, we test that a nil stream is okay.
+ _, err := NewReader(bytes.NewReader(nil))
+ if err != io.EOF {
+ t.Fatalf("NewReader(nil) on empty stream: got %v, want io.EOF", err)
+ }
+}
+
+func TestTruncatedStreams(t *testing.T) {
+ const data = "\x1f\x8b\b\x04\x00\tn\x88\x00\xff\a\x00foo bar\xcbH\xcd\xc9\xc9\xd7Q(\xcf/\xcaI\x01\x04:r\xab\xff\f\x00\x00\x00"
+
+ // Intentionally iterate starting with at least one byte in the stream.
+ for i := 1; i < len(data)-1; i++ {
+ r, err := NewReader(strings.NewReader(data[:i]))
+ if err != nil {
+ if err != io.ErrUnexpectedEOF {
+ t.Errorf("NewReader(%d) on truncated stream: got %v, want %v", i, err, io.ErrUnexpectedEOF)
+ }
+ continue
+ }
+ _, err = io.Copy(io.Discard, r)
+ if ferr, ok := err.(*flate.ReadError); ok {
+ err = ferr.Err
+ }
+ if err != io.ErrUnexpectedEOF {
+ t.Errorf("io.Copy(%d) on truncated stream: got %v, want %v", i, err, io.ErrUnexpectedEOF)
+ }
+ }
+}
+
+func TestCVE202230631(t *testing.T) {
+ var empty = []byte{0x1f, 0x8b, 0x08, 0x00, 0xa7, 0x8f, 0x43, 0x62, 0x00,
+ 0x03, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}
+ r := bytes.NewReader(bytes.Repeat(empty, 4e6))
+ z, err := NewReader(r)
+ if err != nil {
+ t.Fatalf("NewReader: got %v, want nil", err)
+ }
+ // Prior to CVE-2022-30631 fix, this would cause an unrecoverable panic due
+ // to stack exhaustion.
+ _, err = z.Read(make([]byte, 10))
+ if err != io.EOF {
+ t.Errorf("Reader.Read: got %v, want %v", err, io.EOF)
+ }
+}
diff --git a/src/compress/gzip/gzip.go b/src/compress/gzip/gzip.go
new file mode 100644
index 0000000..eaeb185
--- /dev/null
+++ b/src/compress/gzip/gzip.go
@@ -0,0 +1,250 @@
+// Copyright 2010 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.
+
+package gzip
+
+import (
+ "compress/flate"
+ "errors"
+ "fmt"
+ "hash/crc32"
+ "io"
+ "time"
+)
+
+// These constants are copied from the flate package, so that code that imports
+// "compress/gzip" does not also have to import "compress/flate".
+const (
+ NoCompression = flate.NoCompression
+ BestSpeed = flate.BestSpeed
+ BestCompression = flate.BestCompression
+ DefaultCompression = flate.DefaultCompression
+ HuffmanOnly = flate.HuffmanOnly
+)
+
+// A Writer is an io.WriteCloser.
+// Writes to a Writer are compressed and written to w.
+type Writer struct {
+ Header // written at first call to Write, Flush, or Close
+ w io.Writer
+ level int
+ wroteHeader bool
+ compressor *flate.Writer
+ digest uint32 // CRC-32, IEEE polynomial (section 8)
+ size uint32 // Uncompressed size (section 2.3.1)
+ closed bool
+ buf [10]byte
+ err error
+}
+
+// NewWriter returns a new Writer.
+// Writes to the returned writer are compressed and written to w.
+//
+// It is the caller's responsibility to call Close on the Writer when done.
+// Writes may be buffered and not flushed until Close.
+//
+// Callers that wish to set the fields in Writer.Header must do so before
+// the first call to Write, Flush, or Close.
+func NewWriter(w io.Writer) *Writer {
+ z, _ := NewWriterLevel(w, DefaultCompression)
+ return z
+}
+
+// NewWriterLevel is like NewWriter but specifies the compression level instead
+// of assuming DefaultCompression.
+//
+// The compression level can be DefaultCompression, NoCompression, HuffmanOnly
+// or any integer value between BestSpeed and BestCompression inclusive.
+// The error returned will be nil if the level is valid.
+func NewWriterLevel(w io.Writer, level int) (*Writer, error) {
+ if level < HuffmanOnly || level > BestCompression {
+ return nil, fmt.Errorf("gzip: invalid compression level: %d", level)
+ }
+ z := new(Writer)
+ z.init(w, level)
+ return z, nil
+}
+
+func (z *Writer) init(w io.Writer, level int) {
+ compressor := z.compressor
+ if compressor != nil {
+ compressor.Reset(w)
+ }
+ *z = Writer{
+ Header: Header{
+ OS: 255, // unknown
+ },
+ w: w,
+ level: level,
+ compressor: compressor,
+ }
+}
+
+// Reset discards the Writer z's state and makes it equivalent to the
+// result of its original state from NewWriter or NewWriterLevel, but
+// writing to w instead. This permits reusing a Writer rather than
+// allocating a new one.
+func (z *Writer) Reset(w io.Writer) {
+ z.init(w, z.level)
+}
+
+// writeBytes writes a length-prefixed byte slice to z.w.
+func (z *Writer) writeBytes(b []byte) error {
+ if len(b) > 0xffff {
+ return errors.New("gzip.Write: Extra data is too large")
+ }
+ le.PutUint16(z.buf[:2], uint16(len(b)))
+ _, err := z.w.Write(z.buf[:2])
+ if err != nil {
+ return err
+ }
+ _, err = z.w.Write(b)
+ return err
+}
+
+// writeString writes a UTF-8 string s in GZIP's format to z.w.
+// GZIP (RFC 1952) specifies that strings are NUL-terminated ISO 8859-1 (Latin-1).
+func (z *Writer) writeString(s string) (err error) {
+ // GZIP stores Latin-1 strings; error if non-Latin-1; convert if non-ASCII.
+ needconv := false
+ for _, v := range s {
+ if v == 0 || v > 0xff {
+ return errors.New("gzip.Write: non-Latin-1 header string")
+ }
+ if v > 0x7f {
+ needconv = true
+ }
+ }
+ if needconv {
+ b := make([]byte, 0, len(s))
+ for _, v := range s {
+ b = append(b, byte(v))
+ }
+ _, err = z.w.Write(b)
+ } else {
+ _, err = io.WriteString(z.w, s)
+ }
+ if err != nil {
+ return err
+ }
+ // GZIP strings are NUL-terminated.
+ z.buf[0] = 0
+ _, err = z.w.Write(z.buf[:1])
+ return err
+}
+
+// Write writes a compressed form of p to the underlying io.Writer. The
+// compressed bytes are not necessarily flushed until the Writer is closed.
+func (z *Writer) Write(p []byte) (int, error) {
+ if z.err != nil {
+ return 0, z.err
+ }
+ var n int
+ // Write the GZIP header lazily.
+ if !z.wroteHeader {
+ z.wroteHeader = true
+ z.buf = [10]byte{0: gzipID1, 1: gzipID2, 2: gzipDeflate}
+ if z.Extra != nil {
+ z.buf[3] |= 0x04
+ }
+ if z.Name != "" {
+ z.buf[3] |= 0x08
+ }
+ if z.Comment != "" {
+ z.buf[3] |= 0x10
+ }
+ if z.ModTime.After(time.Unix(0, 0)) {
+ // Section 2.3.1, the zero value for MTIME means that the
+ // modified time is not set.
+ le.PutUint32(z.buf[4:8], uint32(z.ModTime.Unix()))
+ }
+ if z.level == BestCompression {
+ z.buf[8] = 2
+ } else if z.level == BestSpeed {
+ z.buf[8] = 4
+ }
+ z.buf[9] = z.OS
+ _, z.err = z.w.Write(z.buf[:10])
+ if z.err != nil {
+ return 0, z.err
+ }
+ if z.Extra != nil {
+ z.err = z.writeBytes(z.Extra)
+ if z.err != nil {
+ return 0, z.err
+ }
+ }
+ if z.Name != "" {
+ z.err = z.writeString(z.Name)
+ if z.err != nil {
+ return 0, z.err
+ }
+ }
+ if z.Comment != "" {
+ z.err = z.writeString(z.Comment)
+ if z.err != nil {
+ return 0, z.err
+ }
+ }
+ if z.compressor == nil {
+ z.compressor, _ = flate.NewWriter(z.w, z.level)
+ }
+ }
+ z.size += uint32(len(p))
+ z.digest = crc32.Update(z.digest, crc32.IEEETable, p)
+ n, z.err = z.compressor.Write(p)
+ return n, z.err
+}
+
+// Flush flushes any pending compressed data to the underlying writer.
+//
+// It is useful mainly in compressed network protocols, to ensure that
+// a remote reader has enough data to reconstruct a packet. Flush does
+// not return until the data has been written. If the underlying
+// writer returns an error, Flush returns that error.
+//
+// In the terminology of the zlib library, Flush is equivalent to Z_SYNC_FLUSH.
+func (z *Writer) Flush() error {
+ if z.err != nil {
+ return z.err
+ }
+ if z.closed {
+ return nil
+ }
+ if !z.wroteHeader {
+ z.Write(nil)
+ if z.err != nil {
+ return z.err
+ }
+ }
+ z.err = z.compressor.Flush()
+ return z.err
+}
+
+// Close closes the Writer by flushing any unwritten data to the underlying
+// io.Writer and writing the GZIP footer.
+// It does not close the underlying io.Writer.
+func (z *Writer) Close() error {
+ if z.err != nil {
+ return z.err
+ }
+ if z.closed {
+ return nil
+ }
+ z.closed = true
+ if !z.wroteHeader {
+ z.Write(nil)
+ if z.err != nil {
+ return z.err
+ }
+ }
+ z.err = z.compressor.Close()
+ if z.err != nil {
+ return z.err
+ }
+ le.PutUint32(z.buf[:4], z.digest)
+ le.PutUint32(z.buf[4:8], z.size)
+ _, z.err = z.w.Write(z.buf[:8])
+ return z.err
+}
diff --git a/src/compress/gzip/gzip_test.go b/src/compress/gzip/gzip_test.go
new file mode 100644
index 0000000..12c8e18
--- /dev/null
+++ b/src/compress/gzip/gzip_test.go
@@ -0,0 +1,275 @@
+// Copyright 2010 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.
+
+package gzip
+
+import (
+ "bufio"
+ "bytes"
+ "io"
+ "reflect"
+ "testing"
+ "time"
+)
+
+// TestEmpty tests that an empty payload still forms a valid GZIP stream.
+func TestEmpty(t *testing.T) {
+ buf := new(bytes.Buffer)
+
+ if err := NewWriter(buf).Close(); err != nil {
+ t.Fatalf("Writer.Close: %v", err)
+ }
+
+ r, err := NewReader(buf)
+ if err != nil {
+ t.Fatalf("NewReader: %v", err)
+ }
+ if want := (Header{OS: 255}); !reflect.DeepEqual(r.Header, want) {
+ t.Errorf("Header mismatch:\ngot %#v\nwant %#v", r.Header, want)
+ }
+ b, err := io.ReadAll(r)
+ if err != nil {
+ t.Fatalf("ReadAll: %v", err)
+ }
+ if len(b) != 0 {
+ t.Fatalf("got %d bytes, want 0", len(b))
+ }
+ if err := r.Close(); err != nil {
+ t.Fatalf("Reader.Close: %v", err)
+ }
+}
+
+// TestRoundTrip tests that gzipping and then gunzipping is the identity
+// function.
+func TestRoundTrip(t *testing.T) {
+ buf := new(bytes.Buffer)
+
+ w := NewWriter(buf)
+ w.Comment = "comment"
+ w.Extra = []byte("extra")
+ w.ModTime = time.Unix(1e8, 0)
+ w.Name = "name"
+ if _, err := w.Write([]byte("payload")); err != nil {
+ t.Fatalf("Write: %v", err)
+ }
+ if err := w.Close(); err != nil {
+ t.Fatalf("Writer.Close: %v", err)
+ }
+
+ r, err := NewReader(buf)
+ if err != nil {
+ t.Fatalf("NewReader: %v", err)
+ }
+ b, err := io.ReadAll(r)
+ if err != nil {
+ t.Fatalf("ReadAll: %v", err)
+ }
+ if string(b) != "payload" {
+ t.Fatalf("payload is %q, want %q", string(b), "payload")
+ }
+ if r.Comment != "comment" {
+ t.Fatalf("comment is %q, want %q", r.Comment, "comment")
+ }
+ if string(r.Extra) != "extra" {
+ t.Fatalf("extra is %q, want %q", r.Extra, "extra")
+ }
+ if r.ModTime.Unix() != 1e8 {
+ t.Fatalf("mtime is %d, want %d", r.ModTime.Unix(), uint32(1e8))
+ }
+ if r.Name != "name" {
+ t.Fatalf("name is %q, want %q", r.Name, "name")
+ }
+ if err := r.Close(); err != nil {
+ t.Fatalf("Reader.Close: %v", err)
+ }
+}
+
+// TestLatin1 tests the internal functions for converting to and from Latin-1.
+func TestLatin1(t *testing.T) {
+ latin1 := []byte{0xc4, 'u', 0xdf, 'e', 'r', 'u', 'n', 'g', 0}
+ utf8 := "Äußerung"
+ z := Reader{r: bufio.NewReader(bytes.NewReader(latin1))}
+ s, err := z.readString()
+ if err != nil {
+ t.Fatalf("readString: %v", err)
+ }
+ if s != utf8 {
+ t.Fatalf("read latin-1: got %q, want %q", s, utf8)
+ }
+
+ buf := bytes.NewBuffer(make([]byte, 0, len(latin1)))
+ c := Writer{w: buf}
+ if err = c.writeString(utf8); err != nil {
+ t.Fatalf("writeString: %v", err)
+ }
+ s = buf.String()
+ if s != string(latin1) {
+ t.Fatalf("write utf-8: got %q, want %q", s, string(latin1))
+ }
+}
+
+// TestLatin1RoundTrip tests that metadata that is representable in Latin-1
+// survives a round trip.
+func TestLatin1RoundTrip(t *testing.T) {
+ testCases := []struct {
+ name string
+ ok bool
+ }{
+ {"", true},
+ {"ASCII is OK", true},
+ {"unless it contains a NUL\x00", false},
+ {"no matter where \x00 occurs", false},
+ {"\x00\x00\x00", false},
+ {"Látin-1 also passes (U+00E1)", true},
+ {"but LĀtin Extended-A (U+0100) does not", false},
+ {"neither does 日本語", false},
+ {"invalid UTF-8 also \xffails", false},
+ {"\x00 as does Látin-1 with NUL", false},
+ }
+ for _, tc := range testCases {
+ buf := new(bytes.Buffer)
+
+ w := NewWriter(buf)
+ w.Name = tc.name
+ err := w.Close()
+ if (err == nil) != tc.ok {
+ t.Errorf("Writer.Close: name = %q, err = %v", tc.name, err)
+ continue
+ }
+ if !tc.ok {
+ continue
+ }
+
+ r, err := NewReader(buf)
+ if err != nil {
+ t.Errorf("NewReader: %v", err)
+ continue
+ }
+ _, err = io.ReadAll(r)
+ if err != nil {
+ t.Errorf("ReadAll: %v", err)
+ continue
+ }
+ if r.Name != tc.name {
+ t.Errorf("name is %q, want %q", r.Name, tc.name)
+ continue
+ }
+ if err := r.Close(); err != nil {
+ t.Errorf("Reader.Close: %v", err)
+ continue
+ }
+ }
+}
+
+func TestWriterFlush(t *testing.T) {
+ buf := new(bytes.Buffer)
+
+ w := NewWriter(buf)
+ w.Comment = "comment"
+ w.Extra = []byte("extra")
+ w.ModTime = time.Unix(1e8, 0)
+ w.Name = "name"
+
+ n0 := buf.Len()
+ if n0 != 0 {
+ t.Fatalf("buffer size = %d before writes; want 0", n0)
+ }
+
+ if err := w.Flush(); err != nil {
+ t.Fatal(err)
+ }
+
+ n1 := buf.Len()
+ if n1 == 0 {
+ t.Fatal("no data after first flush")
+ }
+
+ w.Write([]byte("x"))
+
+ n2 := buf.Len()
+ if n1 != n2 {
+ t.Fatalf("after writing a single byte, size changed from %d to %d; want no change", n1, n2)
+ }
+
+ if err := w.Flush(); err != nil {
+ t.Fatal(err)
+ }
+
+ n3 := buf.Len()
+ if n2 == n3 {
+ t.Fatal("Flush didn't flush any data")
+ }
+}
+
+// Multiple gzip files concatenated form a valid gzip file.
+func TestConcat(t *testing.T) {
+ var buf bytes.Buffer
+ w := NewWriter(&buf)
+ w.Write([]byte("hello "))
+ w.Close()
+ w = NewWriter(&buf)
+ w.Write([]byte("world\n"))
+ w.Close()
+
+ r, err := NewReader(&buf)
+ if err != nil {
+ t.Fatal(err)
+ }
+ data, err := io.ReadAll(r)
+ if string(data) != "hello world\n" || err != nil {
+ t.Fatalf("ReadAll = %q, %v, want %q, nil", data, err, "hello world")
+ }
+}
+
+func TestWriterReset(t *testing.T) {
+ buf := new(bytes.Buffer)
+ buf2 := new(bytes.Buffer)
+ z := NewWriter(buf)
+ msg := []byte("hello world")
+ z.Write(msg)
+ z.Close()
+ z.Reset(buf2)
+ z.Write(msg)
+ z.Close()
+ if buf.String() != buf2.String() {
+ t.Errorf("buf2 %q != original buf of %q", buf2.String(), buf.String())
+ }
+}
+
+type limitedWriter struct {
+ N int
+}
+
+func (l *limitedWriter) Write(p []byte) (n int, err error) {
+ if n := l.N; n < len(p) {
+ l.N = 0
+ return n, io.ErrShortWrite
+ }
+ l.N -= len(p)
+ return len(p), nil
+}
+
+// Write should never return more bytes than the input slice.
+func TestLimitedWrite(t *testing.T) {
+ msg := []byte("a")
+
+ for lim := 2; lim < 20; lim++ {
+ z := NewWriter(&limitedWriter{lim})
+ if n, _ := z.Write(msg); n > len(msg) {
+ t.Errorf("Write() = %d, want %d or less", n, len(msg))
+ }
+
+ z.Reset(&limitedWriter{lim})
+ z.Header = Header{
+ Comment: "comment",
+ Extra: []byte("extra"),
+ ModTime: time.Now(),
+ Name: "name",
+ OS: 1,
+ }
+ if n, _ := z.Write(msg); n > len(msg) {
+ t.Errorf("Write() = %d, want %d or less", n, len(msg))
+ }
+ }
+}
diff --git a/src/compress/gzip/issue14937_test.go b/src/compress/gzip/issue14937_test.go
new file mode 100644
index 0000000..faee9bd
--- /dev/null
+++ b/src/compress/gzip/issue14937_test.go
@@ -0,0 +1,77 @@
+// Copyright 2016 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.
+
+package gzip
+
+import (
+ "internal/testenv"
+ "io/fs"
+ "os"
+ "path/filepath"
+ "runtime"
+ "strings"
+ "testing"
+)
+
+// TestGZIPFilesHaveZeroMTimes checks that every .gz file in the tree
+// has a zero MTIME. This is a requirement for the Debian maintainers
+// to be able to have deterministic packages.
+//
+// See https://golang.org/issue/14937.
+func TestGZIPFilesHaveZeroMTimes(t *testing.T) {
+ // To avoid spurious false positives due to untracked GZIP files that
+ // may be in the user's GOROOT (Issue 18604), we only run this test on
+ // the builders, which should have a clean checkout of the tree.
+ if testenv.Builder() == "" {
+ t.Skip("skipping test on non-builder")
+ }
+ if !testenv.HasSrc() {
+ t.Skip("skipping; no GOROOT available")
+ }
+
+ goroot, err := filepath.EvalSymlinks(runtime.GOROOT())
+ if err != nil {
+ t.Fatal("error evaluating GOROOT: ", err)
+ }
+ var files []string
+ err = filepath.WalkDir(goroot, func(path string, info fs.DirEntry, err error) error {
+ if err != nil {
+ return err
+ }
+ if !info.IsDir() && strings.HasSuffix(path, ".gz") {
+ files = append(files, path)
+ }
+ return nil
+ })
+ if err != nil {
+ if os.IsNotExist(err) {
+ t.Skipf("skipping: GOROOT directory not found: %s", runtime.GOROOT())
+ }
+ t.Fatal("error collecting list of .gz files in GOROOT: ", err)
+ }
+ if len(files) == 0 {
+ t.Fatal("expected to find some .gz files under GOROOT")
+ }
+ for _, path := range files {
+ checkZeroMTime(t, path)
+ }
+}
+
+func checkZeroMTime(t *testing.T, path string) {
+ f, err := os.Open(path)
+ if err != nil {
+ t.Error(err)
+ return
+ }
+ defer f.Close()
+ gz, err := NewReader(f)
+ if err != nil {
+ t.Errorf("cannot read gzip file %s: %s", path, err)
+ return
+ }
+ defer gz.Close()
+ if !gz.ModTime.IsZero() {
+ t.Errorf("gzip file %s has non-zero mtime (%s)", path, gz.ModTime)
+ }
+}
diff --git a/src/compress/gzip/testdata/issue6550.gz.base64 b/src/compress/gzip/testdata/issue6550.gz.base64
new file mode 100644
index 0000000..f2509ff
--- /dev/null
+++ b/src/compress/gzip/testdata/issue6550.gz.base64
@@ -0,0 +1 @@
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
generated by cgit v1.2.3 (git 2.39.1) at 2024-11-22 18:15:01 +0000