| // 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 tar |
| |
| import ( |
| "bytes" |
| "io" |
| "strconv" |
| "strings" |
| "time" |
| ) |
| |
| // Reader provides sequential access to the contents of a tar archive. |
| // Reader.Next advances to the next file in the archive (including the first), |
| // and then Reader can be treated as an io.Reader to access the file's data. |
| type Reader struct { |
| r io.Reader |
| pad int64 // Amount of padding (ignored) after current file entry |
| curr fileReader // Reader for current file entry |
| blk block // Buffer to use as temporary local storage |
| |
| // err is a persistent error. |
| // It is only the responsibility of every exported method of Reader to |
| // ensure that this error is sticky. |
| err error |
| } |
| |
| type fileReader interface { |
| io.Reader |
| fileState |
| |
| WriteTo(io.Writer) (int64, error) |
| } |
| |
| // NewReader creates a new Reader reading from r. |
| func NewReader(r io.Reader) *Reader { |
| return &Reader{r: r, curr: ®FileReader{r, 0}} |
| } |
| |
| // Next advances to the next entry in the tar archive. |
| // The Header.Size determines how many bytes can be read for the next file. |
| // Any remaining data in the current file is automatically discarded. |
| // |
| // io.EOF is returned at the end of the input. |
| func (tr *Reader) Next() (*Header, error) { |
| if tr.err != nil { |
| return nil, tr.err |
| } |
| hdr, err := tr.next() |
| tr.err = err |
| return hdr, err |
| } |
| |
| func (tr *Reader) next() (*Header, error) { |
| var paxHdrs map[string]string |
| var gnuLongName, gnuLongLink string |
| |
| // Externally, Next iterates through the tar archive as if it is a series of |
| // files. Internally, the tar format often uses fake "files" to add meta |
| // data that describes the next file. These meta data "files" should not |
| // normally be visible to the outside. As such, this loop iterates through |
| // one or more "header files" until it finds a "normal file". |
| format := FormatUSTAR | FormatPAX | FormatGNU |
| for { |
| // Discard the remainder of the file and any padding. |
| if err := discard(tr.r, tr.curr.physicalRemaining()); err != nil { |
| return nil, err |
| } |
| if _, err := tryReadFull(tr.r, tr.blk[:tr.pad]); err != nil { |
| return nil, err |
| } |
| tr.pad = 0 |
| |
| hdr, rawHdr, err := tr.readHeader() |
| if err != nil { |
| return nil, err |
| } |
| if err := tr.handleRegularFile(hdr); err != nil { |
| return nil, err |
| } |
| format.mayOnlyBe(hdr.Format) |
| |
| // Check for PAX/GNU special headers and files. |
| switch hdr.Typeflag { |
| case TypeXHeader, TypeXGlobalHeader: |
| format.mayOnlyBe(FormatPAX) |
| paxHdrs, err = parsePAX(tr) |
| if err != nil { |
| return nil, err |
| } |
| if hdr.Typeflag == TypeXGlobalHeader { |
| mergePAX(hdr, paxHdrs) |
| return &Header{ |
| Name: hdr.Name, |
| Typeflag: hdr.Typeflag, |
| Xattrs: hdr.Xattrs, |
| PAXRecords: hdr.PAXRecords, |
| Format: format, |
| }, nil |
| } |
| continue // This is a meta header affecting the next header |
| case TypeGNULongName, TypeGNULongLink: |
| format.mayOnlyBe(FormatGNU) |
| realname, err := io.ReadAll(tr) |
| if err != nil { |
| return nil, err |
| } |
| |
| var p parser |
| switch hdr.Typeflag { |
| case TypeGNULongName: |
| gnuLongName = p.parseString(realname) |
| case TypeGNULongLink: |
| gnuLongLink = p.parseString(realname) |
| } |
| continue // This is a meta header affecting the next header |
| default: |
| // The old GNU sparse format is handled here since it is technically |
| // just a regular file with additional attributes. |
| |
| if err := mergePAX(hdr, paxHdrs); err != nil { |
| return nil, err |
| } |
| if gnuLongName != "" { |
| hdr.Name = gnuLongName |
| } |
| if gnuLongLink != "" { |
| hdr.Linkname = gnuLongLink |
| } |
| if hdr.Typeflag == TypeRegA { |
| if strings.HasSuffix(hdr.Name, "/") { |
| hdr.Typeflag = TypeDir // Legacy archives use trailing slash for directories |
| } else { |
| hdr.Typeflag = TypeReg |
| } |
| } |
| |
| // The extended headers may have updated the size. |
| // Thus, setup the regFileReader again after merging PAX headers. |
| if err := tr.handleRegularFile(hdr); err != nil { |
| return nil, err |
| } |
| |
| // Sparse formats rely on being able to read from the logical data |
| // section; there must be a preceding call to handleRegularFile. |
| if err := tr.handleSparseFile(hdr, rawHdr); err != nil { |
| return nil, err |
| } |
| |
| // Set the final guess at the format. |
| if format.has(FormatUSTAR) && format.has(FormatPAX) { |
| format.mayOnlyBe(FormatUSTAR) |
| } |
| hdr.Format = format |
| return hdr, nil // This is a file, so stop |
| } |
| } |
| } |
| |
| // handleRegularFile sets up the current file reader and padding such that it |
| // can only read the following logical data section. It will properly handle |
| // special headers that contain no data section. |
| func (tr *Reader) handleRegularFile(hdr *Header) error { |
| nb := hdr.Size |
| if isHeaderOnlyType(hdr.Typeflag) { |
| nb = 0 |
| } |
| if nb < 0 { |
| return ErrHeader |
| } |
| |
| tr.pad = blockPadding(nb) |
| tr.curr = ®FileReader{r: tr.r, nb: nb} |
| return nil |
| } |
| |
| // handleSparseFile checks if the current file is a sparse format of any type |
| // and sets the curr reader appropriately. |
| func (tr *Reader) handleSparseFile(hdr *Header, rawHdr *block) error { |
| var spd sparseDatas |
| var err error |
| if hdr.Typeflag == TypeGNUSparse { |
| spd, err = tr.readOldGNUSparseMap(hdr, rawHdr) |
| } else { |
| spd, err = tr.readGNUSparsePAXHeaders(hdr) |
| } |
| |
| // If sp is non-nil, then this is a sparse file. |
| // Note that it is possible for len(sp) == 0. |
| if err == nil && spd != nil { |
| if isHeaderOnlyType(hdr.Typeflag) || !validateSparseEntries(spd, hdr.Size) { |
| return ErrHeader |
| } |
| sph := invertSparseEntries(spd, hdr.Size) |
| tr.curr = &sparseFileReader{tr.curr, sph, 0} |
| } |
| return err |
| } |
| |
| // readGNUSparsePAXHeaders checks the PAX headers for GNU sparse headers. |
| // If they are found, then this function reads the sparse map and returns it. |
| // This assumes that 0.0 headers have already been converted to 0.1 headers |
| // by the PAX header parsing logic. |
| func (tr *Reader) readGNUSparsePAXHeaders(hdr *Header) (sparseDatas, error) { |
| // Identify the version of GNU headers. |
| var is1x0 bool |
| major, minor := hdr.PAXRecords[paxGNUSparseMajor], hdr.PAXRecords[paxGNUSparseMinor] |
| switch { |
| case major == "0" && (minor == "0" || minor == "1"): |
| is1x0 = false |
| case major == "1" && minor == "0": |
| is1x0 = true |
| case major != "" || minor != "": |
| return nil, nil // Unknown GNU sparse PAX version |
| case hdr.PAXRecords[paxGNUSparseMap] != "": |
| is1x0 = false // 0.0 and 0.1 did not have explicit version records, so guess |
| default: |
| return nil, nil // Not a PAX format GNU sparse file. |
| } |
| hdr.Format.mayOnlyBe(FormatPAX) |
| |
| // Update hdr from GNU sparse PAX headers. |
| if name := hdr.PAXRecords[paxGNUSparseName]; name != "" { |
| hdr.Name = name |
| } |
| size := hdr.PAXRecords[paxGNUSparseSize] |
| if size == "" { |
| size = hdr.PAXRecords[paxGNUSparseRealSize] |
| } |
| if size != "" { |
| n, err := strconv.ParseInt(size, 10, 64) |
| if err != nil { |
| return nil, ErrHeader |
| } |
| hdr.Size = n |
| } |
| |
| // Read the sparse map according to the appropriate format. |
| if is1x0 { |
| return readGNUSparseMap1x0(tr.curr) |
| } |
| return readGNUSparseMap0x1(hdr.PAXRecords) |
| } |
| |
| // mergePAX merges paxHdrs into hdr for all relevant fields of Header. |
| func mergePAX(hdr *Header, paxHdrs map[string]string) (err error) { |
| for k, v := range paxHdrs { |
| if v == "" { |
| continue // Keep the original USTAR value |
| } |
| var id64 int64 |
| switch k { |
| case paxPath: |
| hdr.Name = v |
| case paxLinkpath: |
| hdr.Linkname = v |
| case paxUname: |
| hdr.Uname = v |
| case paxGname: |
| hdr.Gname = v |
| case paxUid: |
| id64, err = strconv.ParseInt(v, 10, 64) |
| hdr.Uid = int(id64) // Integer overflow possible |
| case paxGid: |
| id64, err = strconv.ParseInt(v, 10, 64) |
| hdr.Gid = int(id64) // Integer overflow possible |
| case paxAtime: |
| hdr.AccessTime, err = parsePAXTime(v) |
| case paxMtime: |
| hdr.ModTime, err = parsePAXTime(v) |
| case paxCtime: |
| hdr.ChangeTime, err = parsePAXTime(v) |
| case paxSize: |
| hdr.Size, err = strconv.ParseInt(v, 10, 64) |
| default: |
| if strings.HasPrefix(k, paxSchilyXattr) { |
| if hdr.Xattrs == nil { |
| hdr.Xattrs = make(map[string]string) |
| } |
| hdr.Xattrs[k[len(paxSchilyXattr):]] = v |
| } |
| } |
| if err != nil { |
| return ErrHeader |
| } |
| } |
| hdr.PAXRecords = paxHdrs |
| return nil |
| } |
| |
| // parsePAX parses PAX headers. |
| // If an extended header (type 'x') is invalid, ErrHeader is returned |
| func parsePAX(r io.Reader) (map[string]string, error) { |
| buf, err := io.ReadAll(r) |
| if err != nil { |
| return nil, err |
| } |
| sbuf := string(buf) |
| |
| // For GNU PAX sparse format 0.0 support. |
| // This function transforms the sparse format 0.0 headers into format 0.1 |
| // headers since 0.0 headers were not PAX compliant. |
| var sparseMap []string |
| |
| paxHdrs := make(map[string]string) |
| for len(sbuf) > 0 { |
| key, value, residual, err := parsePAXRecord(sbuf) |
| if err != nil { |
| return nil, ErrHeader |
| } |
| sbuf = residual |
| |
| switch key { |
| case paxGNUSparseOffset, paxGNUSparseNumBytes: |
| // Validate sparse header order and value. |
| if (len(sparseMap)%2 == 0 && key != paxGNUSparseOffset) || |
| (len(sparseMap)%2 == 1 && key != paxGNUSparseNumBytes) || |
| strings.Contains(value, ",") { |
| return nil, ErrHeader |
| } |
| sparseMap = append(sparseMap, value) |
| default: |
| paxHdrs[key] = value |
| } |
| } |
| if len(sparseMap) > 0 { |
| paxHdrs[paxGNUSparseMap] = strings.Join(sparseMap, ",") |
| } |
| return paxHdrs, nil |
| } |
| |
| // readHeader reads the next block header and assumes that the underlying reader |
| // is already aligned to a block boundary. It returns the raw block of the |
| // header in case further processing is required. |
| // |
| // The err will be set to io.EOF only when one of the following occurs: |
| // * Exactly 0 bytes are read and EOF is hit. |
| // * Exactly 1 block of zeros is read and EOF is hit. |
| // * At least 2 blocks of zeros are read. |
| func (tr *Reader) readHeader() (*Header, *block, error) { |
| // Two blocks of zero bytes marks the end of the archive. |
| if _, err := io.ReadFull(tr.r, tr.blk[:]); err != nil { |
| return nil, nil, err // EOF is okay here; exactly 0 bytes read |
| } |
| if bytes.Equal(tr.blk[:], zeroBlock[:]) { |
| if _, err := io.ReadFull(tr.r, tr.blk[:]); err != nil { |
| return nil, nil, err // EOF is okay here; exactly 1 block of zeros read |
| } |
| if bytes.Equal(tr.blk[:], zeroBlock[:]) { |
| return nil, nil, io.EOF // normal EOF; exactly 2 block of zeros read |
| } |
| return nil, nil, ErrHeader // Zero block and then non-zero block |
| } |
| |
| // Verify the header matches a known format. |
| format := tr.blk.getFormat() |
| if format == FormatUnknown { |
| return nil, nil, ErrHeader |
| } |
| |
| var p parser |
| hdr := new(Header) |
| |
| // Unpack the V7 header. |
| v7 := tr.blk.toV7() |
| hdr.Typeflag = v7.typeFlag()[0] |
| hdr.Name = p.parseString(v7.name()) |
| hdr.Linkname = p.parseString(v7.linkName()) |
| hdr.Size = p.parseNumeric(v7.size()) |
| hdr.Mode = p.parseNumeric(v7.mode()) |
| hdr.Uid = int(p.parseNumeric(v7.uid())) |
| hdr.Gid = int(p.parseNumeric(v7.gid())) |
| hdr.ModTime = time.Unix(p.parseNumeric(v7.modTime()), 0) |
| |
| // Unpack format specific fields. |
| if format > formatV7 { |
| ustar := tr.blk.toUSTAR() |
| hdr.Uname = p.parseString(ustar.userName()) |
| hdr.Gname = p.parseString(ustar.groupName()) |
| hdr.Devmajor = p.parseNumeric(ustar.devMajor()) |
| hdr.Devminor = p.parseNumeric(ustar.devMinor()) |
| |
| var prefix string |
| switch { |
| case format.has(FormatUSTAR | FormatPAX): |
| hdr.Format = format |
| ustar := tr.blk.toUSTAR() |
| prefix = p.parseString(ustar.prefix()) |
| |
| // For Format detection, check if block is properly formatted since |
| // the parser is more liberal than what USTAR actually permits. |
| notASCII := func(r rune) bool { return r >= 0x80 } |
| if bytes.IndexFunc(tr.blk[:], notASCII) >= 0 { |
| hdr.Format = FormatUnknown // Non-ASCII characters in block. |
| } |
| nul := func(b []byte) bool { return int(b[len(b)-1]) == 0 } |
| if !(nul(v7.size()) && nul(v7.mode()) && nul(v7.uid()) && nul(v7.gid()) && |
| nul(v7.modTime()) && nul(ustar.devMajor()) && nul(ustar.devMinor())) { |
| hdr.Format = FormatUnknown // Numeric fields must end in NUL |
| } |
| case format.has(formatSTAR): |
| star := tr.blk.toSTAR() |
| prefix = p.parseString(star.prefix()) |
| hdr.AccessTime = time.Unix(p.parseNumeric(star.accessTime()), 0) |
| hdr.ChangeTime = time.Unix(p.parseNumeric(star.changeTime()), 0) |
| case format.has(FormatGNU): |
| hdr.Format = format |
| var p2 parser |
| gnu := tr.blk.toGNU() |
| if b := gnu.accessTime(); b[0] != 0 { |
| hdr.AccessTime = time.Unix(p2.parseNumeric(b), 0) |
| } |
| if b := gnu.changeTime(); b[0] != 0 { |
| hdr.ChangeTime = time.Unix(p2.parseNumeric(b), 0) |
| } |
| |
| // Prior to Go1.8, the Writer had a bug where it would output |
| // an invalid tar file in certain rare situations because the logic |
| // incorrectly believed that the old GNU format had a prefix field. |
| // This is wrong and leads to an output file that mangles the |
| // atime and ctime fields, which are often left unused. |
| // |
| // In order to continue reading tar files created by former, buggy |
| // versions of Go, we skeptically parse the atime and ctime fields. |
| // If we are unable to parse them and the prefix field looks like |
| // an ASCII string, then we fallback on the pre-Go1.8 behavior |
| // of treating these fields as the USTAR prefix field. |
| // |
| // Note that this will not use the fallback logic for all possible |
| // files generated by a pre-Go1.8 toolchain. If the generated file |
| // happened to have a prefix field that parses as valid |
| // atime and ctime fields (e.g., when they are valid octal strings), |
| // then it is impossible to distinguish between a valid GNU file |
| // and an invalid pre-Go1.8 file. |
| // |
| // See https://golang.org/issues/12594 |
| // See https://golang.org/issues/21005 |
| if p2.err != nil { |
| hdr.AccessTime, hdr.ChangeTime = time.Time{}, time.Time{} |
| ustar := tr.blk.toUSTAR() |
| if s := p.parseString(ustar.prefix()); isASCII(s) { |
| prefix = s |
| } |
| hdr.Format = FormatUnknown // Buggy file is not GNU |
| } |
| } |
| if len(prefix) > 0 { |
| hdr.Name = prefix + "/" + hdr.Name |
| } |
| } |
| return hdr, &tr.blk, p.err |
| } |
| |
| // readOldGNUSparseMap reads the sparse map from the old GNU sparse format. |
| // The sparse map is stored in the tar header if it's small enough. |
| // If it's larger than four entries, then one or more extension headers are used |
| // to store the rest of the sparse map. |
| // |
| // The Header.Size does not reflect the size of any extended headers used. |
| // Thus, this function will read from the raw io.Reader to fetch extra headers. |
| // This method mutates blk in the process. |
| func (tr *Reader) readOldGNUSparseMap(hdr *Header, blk *block) (sparseDatas, error) { |
| // Make sure that the input format is GNU. |
| // Unfortunately, the STAR format also has a sparse header format that uses |
| // the same type flag but has a completely different layout. |
| if blk.getFormat() != FormatGNU { |
| return nil, ErrHeader |
| } |
| hdr.Format.mayOnlyBe(FormatGNU) |
| |
| var p parser |
| hdr.Size = p.parseNumeric(blk.toGNU().realSize()) |
| if p.err != nil { |
| return nil, p.err |
| } |
| s := blk.toGNU().sparse() |
| spd := make(sparseDatas, 0, s.maxEntries()) |
| for { |
| for i := 0; i < s.maxEntries(); i++ { |
| // This termination condition is identical to GNU and BSD tar. |
| if s.entry(i).offset()[0] == 0x00 { |
| break // Don't return, need to process extended headers (even if empty) |
| } |
| offset := p.parseNumeric(s.entry(i).offset()) |
| length := p.parseNumeric(s.entry(i).length()) |
| if p.err != nil { |
| return nil, p.err |
| } |
| spd = append(spd, sparseEntry{Offset: offset, Length: length}) |
| } |
| |
| if s.isExtended()[0] > 0 { |
| // There are more entries. Read an extension header and parse its entries. |
| if _, err := mustReadFull(tr.r, blk[:]); err != nil { |
| return nil, err |
| } |
| s = blk.toSparse() |
| continue |
| } |
| return spd, nil // Done |
| } |
| } |
| |
| // readGNUSparseMap1x0 reads the sparse map as stored in GNU's PAX sparse format |
| // version 1.0. The format of the sparse map consists of a series of |
| // newline-terminated numeric fields. The first field is the number of entries |
| // and is always present. Following this are the entries, consisting of two |
| // fields (offset, length). This function must stop reading at the end |
| // boundary of the block containing the last newline. |
| // |
| // Note that the GNU manual says that numeric values should be encoded in octal |
| // format. However, the GNU tar utility itself outputs these values in decimal. |
| // As such, this library treats values as being encoded in decimal. |
| func readGNUSparseMap1x0(r io.Reader) (sparseDatas, error) { |
| var ( |
| cntNewline int64 |
| buf bytes.Buffer |
| blk block |
| ) |
| |
| // feedTokens copies data in blocks from r into buf until there are |
| // at least cnt newlines in buf. It will not read more blocks than needed. |
| feedTokens := func(n int64) error { |
| for cntNewline < n { |
| if _, err := mustReadFull(r, blk[:]); err != nil { |
| return err |
| } |
| buf.Write(blk[:]) |
| for _, c := range blk { |
| if c == '\n' { |
| cntNewline++ |
| } |
| } |
| } |
| return nil |
| } |
| |
| // nextToken gets the next token delimited by a newline. This assumes that |
| // at least one newline exists in the buffer. |
| nextToken := func() string { |
| cntNewline-- |
| tok, _ := buf.ReadString('\n') |
| return strings.TrimRight(tok, "\n") |
| } |
| |
| // Parse for the number of entries. |
| // Use integer overflow resistant math to check this. |
| if err := feedTokens(1); err != nil { |
| return nil, err |
| } |
| numEntries, err := strconv.ParseInt(nextToken(), 10, 0) // Intentionally parse as native int |
| if err != nil || numEntries < 0 || int(2*numEntries) < int(numEntries) { |
| return nil, ErrHeader |
| } |
| |
| // Parse for all member entries. |
| // numEntries is trusted after this since a potential attacker must have |
| // committed resources proportional to what this library used. |
| if err := feedTokens(2 * numEntries); err != nil { |
| return nil, err |
| } |
| spd := make(sparseDatas, 0, numEntries) |
| for i := int64(0); i < numEntries; i++ { |
| offset, err1 := strconv.ParseInt(nextToken(), 10, 64) |
| length, err2 := strconv.ParseInt(nextToken(), 10, 64) |
| if err1 != nil || err2 != nil { |
| return nil, ErrHeader |
| } |
| spd = append(spd, sparseEntry{Offset: offset, Length: length}) |
| } |
| return spd, nil |
| } |
| |
| // readGNUSparseMap0x1 reads the sparse map as stored in GNU's PAX sparse format |
| // version 0.1. The sparse map is stored in the PAX headers. |
| func readGNUSparseMap0x1(paxHdrs map[string]string) (sparseDatas, error) { |
| // Get number of entries. |
| // Use integer overflow resistant math to check this. |
| numEntriesStr := paxHdrs[paxGNUSparseNumBlocks] |
| numEntries, err := strconv.ParseInt(numEntriesStr, 10, 0) // Intentionally parse as native int |
| if err != nil || numEntries < 0 || int(2*numEntries) < int(numEntries) { |
| return nil, ErrHeader |
| } |
| |
| // There should be two numbers in sparseMap for each entry. |
| sparseMap := strings.Split(paxHdrs[paxGNUSparseMap], ",") |
| if len(sparseMap) == 1 && sparseMap[0] == "" { |
| sparseMap = sparseMap[:0] |
| } |
| if int64(len(sparseMap)) != 2*numEntries { |
| return nil, ErrHeader |
| } |
| |
| // Loop through the entries in the sparse map. |
| // numEntries is trusted now. |
| spd := make(sparseDatas, 0, numEntries) |
| for len(sparseMap) >= 2 { |
| offset, err1 := strconv.ParseInt(sparseMap[0], 10, 64) |
| length, err2 := strconv.ParseInt(sparseMap[1], 10, 64) |
| if err1 != nil || err2 != nil { |
| return nil, ErrHeader |
| } |
| spd = append(spd, sparseEntry{Offset: offset, Length: length}) |
| sparseMap = sparseMap[2:] |
| } |
| return spd, nil |
| } |
| |
| // Read reads from the current file in the tar archive. |
| // It returns (0, io.EOF) when it reaches the end of that file, |
| // until Next is called to advance to the next file. |
| // |
| // If the current file is sparse, then the regions marked as a hole |
| // are read back as NUL-bytes. |
| // |
| // Calling Read on special types like TypeLink, TypeSymlink, TypeChar, |
| // TypeBlock, TypeDir, and TypeFifo returns (0, io.EOF) regardless of what |
| // the Header.Size claims. |
| func (tr *Reader) Read(b []byte) (int, error) { |
| if tr.err != nil { |
| return 0, tr.err |
| } |
| n, err := tr.curr.Read(b) |
| if err != nil && err != io.EOF { |
| tr.err = err |
| } |
| return n, err |
| } |
| |
| // writeTo writes the content of the current file to w. |
| // The bytes written matches the number of remaining bytes in the current file. |
| // |
| // If the current file is sparse and w is an io.WriteSeeker, |
| // then writeTo uses Seek to skip past holes defined in Header.SparseHoles, |
| // assuming that skipped regions are filled with NULs. |
| // This always writes the last byte to ensure w is the right size. |
| // |
| // TODO(dsnet): Re-export this when adding sparse file support. |
| // See https://golang.org/issue/22735 |
| func (tr *Reader) writeTo(w io.Writer) (int64, error) { |
| if tr.err != nil { |
| return 0, tr.err |
| } |
| n, err := tr.curr.WriteTo(w) |
| if err != nil { |
| tr.err = err |
| } |
| return n, err |
| } |
| |
| // regFileReader is a fileReader for reading data from a regular file entry. |
| type regFileReader struct { |
| r io.Reader // Underlying Reader |
| nb int64 // Number of remaining bytes to read |
| } |
| |
| func (fr *regFileReader) Read(b []byte) (n int, err error) { |
| if int64(len(b)) > fr.nb { |
| b = b[:fr.nb] |
| } |
| if len(b) > 0 { |
| n, err = fr.r.Read(b) |
| fr.nb -= int64(n) |
| } |
| switch { |
| case err == io.EOF && fr.nb > 0: |
| return n, io.ErrUnexpectedEOF |
| case err == nil && fr.nb == 0: |
| return n, io.EOF |
| default: |
| return n, err |
| } |
| } |
| |
| func (fr *regFileReader) WriteTo(w io.Writer) (int64, error) { |
| return io.Copy(w, struct{ io.Reader }{fr}) |
| } |
| |
| // logicalRemaining implements fileState.logicalRemaining. |
| func (fr regFileReader) logicalRemaining() int64 { |
| return fr.nb |
| } |
| |
| // logicalRemaining implements fileState.physicalRemaining. |
| func (fr regFileReader) physicalRemaining() int64 { |
| return fr.nb |
| } |
| |
| // sparseFileReader is a fileReader for reading data from a sparse file entry. |
| type sparseFileReader struct { |
| fr fileReader // Underlying fileReader |
| sp sparseHoles // Normalized list of sparse holes |
| pos int64 // Current position in sparse file |
| } |
| |
| func (sr *sparseFileReader) Read(b []byte) (n int, err error) { |
| finished := int64(len(b)) >= sr.logicalRemaining() |
| if finished { |
| b = b[:sr.logicalRemaining()] |
| } |
| |
| b0 := b |
| endPos := sr.pos + int64(len(b)) |
| for endPos > sr.pos && err == nil { |
| var nf int // Bytes read in fragment |
| holeStart, holeEnd := sr.sp[0].Offset, sr.sp[0].endOffset() |
| if sr.pos < holeStart { // In a data fragment |
| bf := b[:min(int64(len(b)), holeStart-sr.pos)] |
| nf, err = tryReadFull(sr.fr, bf) |
| } else { // In a hole fragment |
| bf := b[:min(int64(len(b)), holeEnd-sr.pos)] |
| nf, err = tryReadFull(zeroReader{}, bf) |
| } |
| b = b[nf:] |
| sr.pos += int64(nf) |
| if sr.pos >= holeEnd && len(sr.sp) > 1 { |
| sr.sp = sr.sp[1:] // Ensure last fragment always remains |
| } |
| } |
| |
| n = len(b0) - len(b) |
| switch { |
| case err == io.EOF: |
| return n, errMissData // Less data in dense file than sparse file |
| case err != nil: |
| return n, err |
| case sr.logicalRemaining() == 0 && sr.physicalRemaining() > 0: |
| return n, errUnrefData // More data in dense file than sparse file |
| case finished: |
| return n, io.EOF |
| default: |
| return n, nil |
| } |
| } |
| |
| func (sr *sparseFileReader) WriteTo(w io.Writer) (n int64, err error) { |
| ws, ok := w.(io.WriteSeeker) |
| if ok { |
| if _, err := ws.Seek(0, io.SeekCurrent); err != nil { |
| ok = false // Not all io.Seeker can really seek |
| } |
| } |
| if !ok { |
| return io.Copy(w, struct{ io.Reader }{sr}) |
| } |
| |
| var writeLastByte bool |
| pos0 := sr.pos |
| for sr.logicalRemaining() > 0 && !writeLastByte && err == nil { |
| var nf int64 // Size of fragment |
| holeStart, holeEnd := sr.sp[0].Offset, sr.sp[0].endOffset() |
| if sr.pos < holeStart { // In a data fragment |
| nf = holeStart - sr.pos |
| nf, err = io.CopyN(ws, sr.fr, nf) |
| } else { // In a hole fragment |
| nf = holeEnd - sr.pos |
| if sr.physicalRemaining() == 0 { |
| writeLastByte = true |
| nf-- |
| } |
| _, err = ws.Seek(nf, io.SeekCurrent) |
| } |
| sr.pos += nf |
| if sr.pos >= holeEnd && len(sr.sp) > 1 { |
| sr.sp = sr.sp[1:] // Ensure last fragment always remains |
| } |
| } |
| |
| // If the last fragment is a hole, then seek to 1-byte before EOF, and |
| // write a single byte to ensure the file is the right size. |
| if writeLastByte && err == nil { |
| _, err = ws.Write([]byte{0}) |
| sr.pos++ |
| } |
| |
| n = sr.pos - pos0 |
| switch { |
| case err == io.EOF: |
| return n, errMissData // Less data in dense file than sparse file |
| case err != nil: |
| return n, err |
| case sr.logicalRemaining() == 0 && sr.physicalRemaining() > 0: |
| return n, errUnrefData // More data in dense file than sparse file |
| default: |
| return n, nil |
| } |
| } |
| |
| func (sr sparseFileReader) logicalRemaining() int64 { |
| return sr.sp[len(sr.sp)-1].endOffset() - sr.pos |
| } |
| func (sr sparseFileReader) physicalRemaining() int64 { |
| return sr.fr.physicalRemaining() |
| } |
| |
| type zeroReader struct{} |
| |
| func (zeroReader) Read(b []byte) (int, error) { |
| for i := range b { |
| b[i] = 0 |
| } |
| return len(b), nil |
| } |
| |
| // mustReadFull is like io.ReadFull except it returns |
| // io.ErrUnexpectedEOF when io.EOF is hit before len(b) bytes are read. |
| func mustReadFull(r io.Reader, b []byte) (int, error) { |
| n, err := tryReadFull(r, b) |
| if err == io.EOF { |
| err = io.ErrUnexpectedEOF |
| } |
| return n, err |
| } |
| |
| // tryReadFull is like io.ReadFull except it returns |
| // io.EOF when it is hit before len(b) bytes are read. |
| func tryReadFull(r io.Reader, b []byte) (n int, err error) { |
| for len(b) > n && err == nil { |
| var nn int |
| nn, err = r.Read(b[n:]) |
| n += nn |
| } |
| if len(b) == n && err == io.EOF { |
| err = nil |
| } |
| return n, err |
| } |
| |
| // discard skips n bytes in r, reporting an error if unable to do so. |
| func discard(r io.Reader, n int64) error { |
| // If possible, Seek to the last byte before the end of the data section. |
| // Do this because Seek is often lazy about reporting errors; this will mask |
| // the fact that the stream may be truncated. We can rely on the |
| // io.CopyN done shortly afterwards to trigger any IO errors. |
| var seekSkipped int64 // Number of bytes skipped via Seek |
| if sr, ok := r.(io.Seeker); ok && n > 1 { |
| // Not all io.Seeker can actually Seek. For example, os.Stdin implements |
| // io.Seeker, but calling Seek always returns an error and performs |
| // no action. Thus, we try an innocent seek to the current position |
| // to see if Seek is really supported. |
| pos1, err := sr.Seek(0, io.SeekCurrent) |
| if pos1 >= 0 && err == nil { |
| // Seek seems supported, so perform the real Seek. |
| pos2, err := sr.Seek(n-1, io.SeekCurrent) |
| if pos2 < 0 || err != nil { |
| return err |
| } |
| seekSkipped = pos2 - pos1 |
| } |
| } |
| |
| copySkipped, err := io.CopyN(io.Discard, r, n-seekSkipped) |
| if err == io.EOF && seekSkipped+copySkipped < n { |
| err = io.ErrUnexpectedEOF |
| } |
| return err |
| } |