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aa6a9891b0
This version avoids doing name lookups on creating tarball that should be avoided in to not hit loading glibc shared libraries. Signed-off-by: Tonis Tiigi <tonistiigi@gmail.com>
303 lines
11 KiB
Go
303 lines
11 KiB
Go
// Copyright 2016 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package tar
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import "strings"
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// Format represents the tar archive format.
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//
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// The original tar format was introduced in Unix V7.
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// Since then, there have been multiple competing formats attempting to
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// standardize or extend the V7 format to overcome its limitations.
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// The most common formats are the USTAR, PAX, and GNU formats,
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// each with their own advantages and limitations.
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//
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// The following table captures the capabilities of each format:
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//
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// | USTAR | PAX | GNU
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// ------------------+--------+-----------+----------
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// Name | 256B | unlimited | unlimited
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// Linkname | 100B | unlimited | unlimited
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// Size | uint33 | unlimited | uint89
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// Mode | uint21 | uint21 | uint57
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// Uid/Gid | uint21 | unlimited | uint57
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// Uname/Gname | 32B | unlimited | 32B
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// ModTime | uint33 | unlimited | int89
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// AccessTime | n/a | unlimited | int89
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// ChangeTime | n/a | unlimited | int89
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// Devmajor/Devminor | uint21 | uint21 | uint57
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// ------------------+--------+-----------+----------
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// string encoding | ASCII | UTF-8 | binary
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// sub-second times | no | yes | no
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// sparse files | no | yes | yes
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//
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// The table's upper portion shows the Header fields, where each format reports
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// the maximum number of bytes allowed for each string field and
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// the integer type used to store each numeric field
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// (where timestamps are stored as the number of seconds since the Unix epoch).
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//
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// The table's lower portion shows specialized features of each format,
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// such as supported string encodings, support for sub-second timestamps,
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// or support for sparse files.
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//
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// The Writer currently provides no support for sparse files.
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type Format int
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// Constants to identify various tar formats.
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const (
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// Deliberately hide the meaning of constants from public API.
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_ Format = (1 << iota) / 4 // Sequence of 0, 0, 1, 2, 4, 8, etc...
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// FormatUnknown indicates that the format is unknown.
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FormatUnknown
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// The format of the original Unix V7 tar tool prior to standardization.
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formatV7
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// FormatUSTAR represents the USTAR header format defined in POSIX.1-1988.
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//
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// While this format is compatible with most tar readers,
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// the format has several limitations making it unsuitable for some usages.
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// Most notably, it cannot support sparse files, files larger than 8GiB,
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// filenames larger than 256 characters, and non-ASCII filenames.
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//
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// Reference:
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// http://pubs.opengroup.org/onlinepubs/9699919799/utilities/pax.html#tag_20_92_13_06
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FormatUSTAR
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// FormatPAX represents the PAX header format defined in POSIX.1-2001.
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//
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// PAX extends USTAR by writing a special file with Typeflag TypeXHeader
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// preceding the original header. This file contains a set of key-value
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// records, which are used to overcome USTAR's shortcomings, in addition to
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// providing the ability to have sub-second resolution for timestamps.
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//
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// Some newer formats add their own extensions to PAX by defining their
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// own keys and assigning certain semantic meaning to the associated values.
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// For example, sparse file support in PAX is implemented using keys
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// defined by the GNU manual (e.g., "GNU.sparse.map").
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//
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// Reference:
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// http://pubs.opengroup.org/onlinepubs/009695399/utilities/pax.html
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FormatPAX
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// FormatGNU represents the GNU header format.
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//
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// The GNU header format is older than the USTAR and PAX standards and
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// is not compatible with them. The GNU format supports
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// arbitrary file sizes, filenames of arbitrary encoding and length,
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// sparse files, and other features.
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//
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// It is recommended that PAX be chosen over GNU unless the target
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// application can only parse GNU formatted archives.
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//
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// Reference:
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// https://www.gnu.org/software/tar/manual/html_node/Standard.html
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FormatGNU
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// Schily's tar format, which is incompatible with USTAR.
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// This does not cover STAR extensions to the PAX format; these fall under
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// the PAX format.
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formatSTAR
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formatMax
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)
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func (f Format) has(f2 Format) bool { return f&f2 != 0 }
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func (f *Format) mayBe(f2 Format) { *f |= f2 }
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func (f *Format) mayOnlyBe(f2 Format) { *f &= f2 }
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func (f *Format) mustNotBe(f2 Format) { *f &^= f2 }
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var formatNames = map[Format]string{
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formatV7: "V7", FormatUSTAR: "USTAR", FormatPAX: "PAX", FormatGNU: "GNU", formatSTAR: "STAR",
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}
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func (f Format) String() string {
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var ss []string
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for f2 := Format(1); f2 < formatMax; f2 <<= 1 {
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if f.has(f2) {
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ss = append(ss, formatNames[f2])
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}
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}
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switch len(ss) {
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case 0:
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return "<unknown>"
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case 1:
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return ss[0]
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default:
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return "(" + strings.Join(ss, " | ") + ")"
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}
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}
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// Magics used to identify various formats.
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const (
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magicGNU, versionGNU = "ustar ", " \x00"
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magicUSTAR, versionUSTAR = "ustar\x00", "00"
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trailerSTAR = "tar\x00"
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)
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// Size constants from various tar specifications.
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const (
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blockSize = 512 // Size of each block in a tar stream
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nameSize = 100 // Max length of the name field in USTAR format
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prefixSize = 155 // Max length of the prefix field in USTAR format
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)
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// blockPadding computes the number of bytes needed to pad offset up to the
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// nearest block edge where 0 <= n < blockSize.
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func blockPadding(offset int64) (n int64) {
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return -offset & (blockSize - 1)
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}
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var zeroBlock block
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type block [blockSize]byte
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// Convert block to any number of formats.
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func (b *block) V7() *headerV7 { return (*headerV7)(b) }
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func (b *block) GNU() *headerGNU { return (*headerGNU)(b) }
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func (b *block) STAR() *headerSTAR { return (*headerSTAR)(b) }
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func (b *block) USTAR() *headerUSTAR { return (*headerUSTAR)(b) }
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func (b *block) Sparse() sparseArray { return sparseArray(b[:]) }
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// GetFormat checks that the block is a valid tar header based on the checksum.
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// It then attempts to guess the specific format based on magic values.
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// If the checksum fails, then FormatUnknown is returned.
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func (b *block) GetFormat() Format {
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// Verify checksum.
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var p parser
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value := p.parseOctal(b.V7().Chksum())
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chksum1, chksum2 := b.ComputeChecksum()
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if p.err != nil || (value != chksum1 && value != chksum2) {
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return FormatUnknown
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}
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// Guess the magic values.
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magic := string(b.USTAR().Magic())
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version := string(b.USTAR().Version())
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trailer := string(b.STAR().Trailer())
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switch {
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case magic == magicUSTAR && trailer == trailerSTAR:
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return formatSTAR
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case magic == magicUSTAR:
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return FormatUSTAR | FormatPAX
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case magic == magicGNU && version == versionGNU:
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return FormatGNU
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default:
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return formatV7
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}
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}
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// SetFormat writes the magic values necessary for specified format
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// and then updates the checksum accordingly.
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func (b *block) SetFormat(format Format) {
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// Set the magic values.
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switch {
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case format.has(formatV7):
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// Do nothing.
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case format.has(FormatGNU):
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copy(b.GNU().Magic(), magicGNU)
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copy(b.GNU().Version(), versionGNU)
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case format.has(formatSTAR):
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copy(b.STAR().Magic(), magicUSTAR)
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copy(b.STAR().Version(), versionUSTAR)
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copy(b.STAR().Trailer(), trailerSTAR)
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case format.has(FormatUSTAR | FormatPAX):
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copy(b.USTAR().Magic(), magicUSTAR)
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copy(b.USTAR().Version(), versionUSTAR)
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default:
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panic("invalid format")
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}
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// Update checksum.
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// This field is special in that it is terminated by a NULL then space.
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var f formatter
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field := b.V7().Chksum()
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chksum, _ := b.ComputeChecksum() // Possible values are 256..128776
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f.formatOctal(field[:7], chksum) // Never fails since 128776 < 262143
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field[7] = ' '
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}
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// ComputeChecksum computes the checksum for the header block.
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// POSIX specifies a sum of the unsigned byte values, but the Sun tar used
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// signed byte values.
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// We compute and return both.
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func (b *block) ComputeChecksum() (unsigned, signed int64) {
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for i, c := range b {
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if 148 <= i && i < 156 {
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c = ' ' // Treat the checksum field itself as all spaces.
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}
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unsigned += int64(c)
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signed += int64(int8(c))
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}
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return unsigned, signed
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}
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// Reset clears the block with all zeros.
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func (b *block) Reset() {
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*b = block{}
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}
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type headerV7 [blockSize]byte
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func (h *headerV7) Name() []byte { return h[000:][:100] }
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func (h *headerV7) Mode() []byte { return h[100:][:8] }
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func (h *headerV7) UID() []byte { return h[108:][:8] }
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func (h *headerV7) GID() []byte { return h[116:][:8] }
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func (h *headerV7) Size() []byte { return h[124:][:12] }
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func (h *headerV7) ModTime() []byte { return h[136:][:12] }
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func (h *headerV7) Chksum() []byte { return h[148:][:8] }
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func (h *headerV7) TypeFlag() []byte { return h[156:][:1] }
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func (h *headerV7) LinkName() []byte { return h[157:][:100] }
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type headerGNU [blockSize]byte
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func (h *headerGNU) V7() *headerV7 { return (*headerV7)(h) }
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func (h *headerGNU) Magic() []byte { return h[257:][:6] }
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func (h *headerGNU) Version() []byte { return h[263:][:2] }
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func (h *headerGNU) UserName() []byte { return h[265:][:32] }
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func (h *headerGNU) GroupName() []byte { return h[297:][:32] }
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func (h *headerGNU) DevMajor() []byte { return h[329:][:8] }
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func (h *headerGNU) DevMinor() []byte { return h[337:][:8] }
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func (h *headerGNU) AccessTime() []byte { return h[345:][:12] }
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func (h *headerGNU) ChangeTime() []byte { return h[357:][:12] }
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func (h *headerGNU) Sparse() sparseArray { return sparseArray(h[386:][:24*4+1]) }
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func (h *headerGNU) RealSize() []byte { return h[483:][:12] }
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type headerSTAR [blockSize]byte
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func (h *headerSTAR) V7() *headerV7 { return (*headerV7)(h) }
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func (h *headerSTAR) Magic() []byte { return h[257:][:6] }
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func (h *headerSTAR) Version() []byte { return h[263:][:2] }
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func (h *headerSTAR) UserName() []byte { return h[265:][:32] }
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func (h *headerSTAR) GroupName() []byte { return h[297:][:32] }
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func (h *headerSTAR) DevMajor() []byte { return h[329:][:8] }
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func (h *headerSTAR) DevMinor() []byte { return h[337:][:8] }
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func (h *headerSTAR) Prefix() []byte { return h[345:][:131] }
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func (h *headerSTAR) AccessTime() []byte { return h[476:][:12] }
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func (h *headerSTAR) ChangeTime() []byte { return h[488:][:12] }
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func (h *headerSTAR) Trailer() []byte { return h[508:][:4] }
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type headerUSTAR [blockSize]byte
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func (h *headerUSTAR) V7() *headerV7 { return (*headerV7)(h) }
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func (h *headerUSTAR) Magic() []byte { return h[257:][:6] }
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func (h *headerUSTAR) Version() []byte { return h[263:][:2] }
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func (h *headerUSTAR) UserName() []byte { return h[265:][:32] }
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func (h *headerUSTAR) GroupName() []byte { return h[297:][:32] }
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func (h *headerUSTAR) DevMajor() []byte { return h[329:][:8] }
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func (h *headerUSTAR) DevMinor() []byte { return h[337:][:8] }
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func (h *headerUSTAR) Prefix() []byte { return h[345:][:155] }
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type sparseArray []byte
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func (s sparseArray) Entry(i int) sparseElem { return sparseElem(s[i*24:]) }
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func (s sparseArray) IsExtended() []byte { return s[24*s.MaxEntries():][:1] }
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func (s sparseArray) MaxEntries() int { return len(s) / 24 }
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type sparseElem []byte
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func (s sparseElem) Offset() []byte { return s[00:][:12] }
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func (s sparseElem) Length() []byte { return s[12:][:12] }
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