mirror of
https://github.com/moby/moby.git
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66720189e0
Signed-off-by: Kir Kolyshkin <kolyshkin@gmail.com> (cherry picked from commit 7b30fd0e1d8bc77f0556181c82f85d046b058f27) Signed-off-by: Sebastiaan van Stijn <github@gone.nl>
326 lines
9 KiB
Go
326 lines
9 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 (
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"bytes"
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"fmt"
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"strconv"
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"strings"
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"time"
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)
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// hasNUL reports whether the NUL character exists within s.
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func hasNUL(s string) bool {
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return strings.IndexByte(s, 0) >= 0
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}
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// isASCII reports whether the input is an ASCII C-style string.
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func isASCII(s string) bool {
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for _, c := range s {
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if c >= 0x80 || c == 0x00 {
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return false
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}
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}
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return true
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}
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// toASCII converts the input to an ASCII C-style string.
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// This a best effort conversion, so invalid characters are dropped.
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func toASCII(s string) string {
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if isASCII(s) {
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return s
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}
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b := make([]byte, 0, len(s))
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for _, c := range s {
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if c < 0x80 && c != 0x00 {
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b = append(b, byte(c))
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}
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}
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return string(b)
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}
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type parser struct {
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err error // Last error seen
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}
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type formatter struct {
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err error // Last error seen
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}
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// parseString parses bytes as a NUL-terminated C-style string.
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// If a NUL byte is not found then the whole slice is returned as a string.
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func (*parser) parseString(b []byte) string {
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if i := bytes.IndexByte(b, 0); i >= 0 {
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return string(b[:i])
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}
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return string(b)
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}
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// formatString copies s into b, NUL-terminating if possible.
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func (f *formatter) formatString(b []byte, s string) {
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if len(s) > len(b) {
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f.err = ErrFieldTooLong
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}
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copy(b, s)
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if len(s) < len(b) {
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b[len(s)] = 0
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}
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// Some buggy readers treat regular files with a trailing slash
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// in the V7 path field as a directory even though the full path
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// recorded elsewhere (e.g., via PAX record) contains no trailing slash.
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if len(s) > len(b) && b[len(b)-1] == '/' {
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n := len(strings.TrimRight(s[:len(b)], "/"))
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b[n] = 0 // Replace trailing slash with NUL terminator
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}
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}
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// fitsInBase256 reports whether x can be encoded into n bytes using base-256
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// encoding. Unlike octal encoding, base-256 encoding does not require that the
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// string ends with a NUL character. Thus, all n bytes are available for output.
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//
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// If operating in binary mode, this assumes strict GNU binary mode; which means
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// that the first byte can only be either 0x80 or 0xff. Thus, the first byte is
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// equivalent to the sign bit in two's complement form.
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func fitsInBase256(n int, x int64) bool {
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binBits := uint(n-1) * 8
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return n >= 9 || (x >= -1<<binBits && x < 1<<binBits)
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}
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// parseNumeric parses the input as being encoded in either base-256 or octal.
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// This function may return negative numbers.
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// If parsing fails or an integer overflow occurs, err will be set.
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func (p *parser) parseNumeric(b []byte) int64 {
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// Check for base-256 (binary) format first.
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// If the first bit is set, then all following bits constitute a two's
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// complement encoded number in big-endian byte order.
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if len(b) > 0 && b[0]&0x80 != 0 {
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// Handling negative numbers relies on the following identity:
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// -a-1 == ^a
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//
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// If the number is negative, we use an inversion mask to invert the
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// data bytes and treat the value as an unsigned number.
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var inv byte // 0x00 if positive or zero, 0xff if negative
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if b[0]&0x40 != 0 {
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inv = 0xff
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}
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var x uint64
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for i, c := range b {
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c ^= inv // Inverts c only if inv is 0xff, otherwise does nothing
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if i == 0 {
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c &= 0x7f // Ignore signal bit in first byte
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}
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if (x >> 56) > 0 {
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p.err = ErrHeader // Integer overflow
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return 0
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}
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x = x<<8 | uint64(c)
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}
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if (x >> 63) > 0 {
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p.err = ErrHeader // Integer overflow
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return 0
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}
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if inv == 0xff {
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return ^int64(x)
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}
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return int64(x)
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}
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// Normal case is base-8 (octal) format.
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return p.parseOctal(b)
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}
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// formatNumeric encodes x into b using base-8 (octal) encoding if possible.
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// Otherwise it will attempt to use base-256 (binary) encoding.
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func (f *formatter) formatNumeric(b []byte, x int64) {
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if fitsInOctal(len(b), x) {
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f.formatOctal(b, x)
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return
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}
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if fitsInBase256(len(b), x) {
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for i := len(b) - 1; i >= 0; i-- {
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b[i] = byte(x)
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x >>= 8
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}
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b[0] |= 0x80 // Highest bit indicates binary format
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return
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}
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f.formatOctal(b, 0) // Last resort, just write zero
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f.err = ErrFieldTooLong
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}
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func (p *parser) parseOctal(b []byte) int64 {
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// Because unused fields are filled with NULs, we need
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// to skip leading NULs. Fields may also be padded with
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// spaces or NULs.
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// So we remove leading and trailing NULs and spaces to
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// be sure.
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b = bytes.Trim(b, " \x00")
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if len(b) == 0 {
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return 0
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}
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x, perr := strconv.ParseUint(p.parseString(b), 8, 64)
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if perr != nil {
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p.err = ErrHeader
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}
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return int64(x)
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}
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func (f *formatter) formatOctal(b []byte, x int64) {
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if !fitsInOctal(len(b), x) {
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x = 0 // Last resort, just write zero
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f.err = ErrFieldTooLong
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}
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s := strconv.FormatInt(x, 8)
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// Add leading zeros, but leave room for a NUL.
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if n := len(b) - len(s) - 1; n > 0 {
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s = strings.Repeat("0", n) + s
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}
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f.formatString(b, s)
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}
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// fitsInOctal reports whether the integer x fits in a field n-bytes long
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// using octal encoding with the appropriate NUL terminator.
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func fitsInOctal(n int, x int64) bool {
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octBits := uint(n-1) * 3
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return x >= 0 && (n >= 22 || x < 1<<octBits)
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}
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// parsePAXTime takes a string of the form %d.%d as described in the PAX
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// specification. Note that this implementation allows for negative timestamps,
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// which is allowed for by the PAX specification, but not always portable.
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func parsePAXTime(s string) (time.Time, error) {
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const maxNanoSecondDigits = 9
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// Split string into seconds and sub-seconds parts.
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ss, sn := s, ""
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if pos := strings.IndexByte(s, '.'); pos >= 0 {
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ss, sn = s[:pos], s[pos+1:]
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}
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// Parse the seconds.
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secs, err := strconv.ParseInt(ss, 10, 64)
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if err != nil {
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return time.Time{}, ErrHeader
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}
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if len(sn) == 0 {
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return time.Unix(secs, 0), nil // No sub-second values
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}
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// Parse the nanoseconds.
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if strings.Trim(sn, "0123456789") != "" {
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return time.Time{}, ErrHeader
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}
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if len(sn) < maxNanoSecondDigits {
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sn += strings.Repeat("0", maxNanoSecondDigits-len(sn)) // Right pad
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} else {
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sn = sn[:maxNanoSecondDigits] // Right truncate
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}
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nsecs, _ := strconv.ParseInt(sn, 10, 64) // Must succeed
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if len(ss) > 0 && ss[0] == '-' {
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return time.Unix(secs, -1*nsecs), nil // Negative correction
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}
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return time.Unix(secs, nsecs), nil
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}
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// formatPAXTime converts ts into a time of the form %d.%d as described in the
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// PAX specification. This function is capable of negative timestamps.
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func formatPAXTime(ts time.Time) (s string) {
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secs, nsecs := ts.Unix(), ts.Nanosecond()
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if nsecs == 0 {
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return strconv.FormatInt(secs, 10)
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}
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// If seconds is negative, then perform correction.
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sign := ""
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if secs < 0 {
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sign = "-" // Remember sign
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secs = -(secs + 1) // Add a second to secs
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nsecs = -(nsecs - 1E9) // Take that second away from nsecs
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}
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return strings.TrimRight(fmt.Sprintf("%s%d.%09d", sign, secs, nsecs), "0")
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}
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// parsePAXRecord parses the input PAX record string into a key-value pair.
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// If parsing is successful, it will slice off the currently read record and
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// return the remainder as r.
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func parsePAXRecord(s string) (k, v, r string, err error) {
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// The size field ends at the first space.
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sp := strings.IndexByte(s, ' ')
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if sp == -1 {
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return "", "", s, ErrHeader
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}
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// Parse the first token as a decimal integer.
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n, perr := strconv.ParseInt(s[:sp], 10, 0) // Intentionally parse as native int
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if perr != nil || n < 5 || int64(len(s)) < n {
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return "", "", s, ErrHeader
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}
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// Extract everything between the space and the final newline.
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rec, nl, rem := s[sp+1:n-1], s[n-1:n], s[n:]
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if nl != "\n" {
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return "", "", s, ErrHeader
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}
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// The first equals separates the key from the value.
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eq := strings.IndexByte(rec, '=')
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if eq == -1 {
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return "", "", s, ErrHeader
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}
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k, v = rec[:eq], rec[eq+1:]
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if !validPAXRecord(k, v) {
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return "", "", s, ErrHeader
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}
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return k, v, rem, nil
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}
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// formatPAXRecord formats a single PAX record, prefixing it with the
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// appropriate length.
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func formatPAXRecord(k, v string) (string, error) {
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if !validPAXRecord(k, v) {
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return "", ErrHeader
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}
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const padding = 3 // Extra padding for ' ', '=', and '\n'
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size := len(k) + len(v) + padding
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size += len(strconv.Itoa(size))
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record := strconv.Itoa(size) + " " + k + "=" + v + "\n"
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// Final adjustment if adding size field increased the record size.
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if len(record) != size {
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size = len(record)
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record = strconv.Itoa(size) + " " + k + "=" + v + "\n"
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}
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return record, nil
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}
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// validPAXRecord reports whether the key-value pair is valid where each
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// record is formatted as:
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// "%d %s=%s\n" % (size, key, value)
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//
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// Keys and values should be UTF-8, but the number of bad writers out there
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// forces us to be a more liberal.
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// Thus, we only reject all keys with NUL, and only reject NULs in values
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// for the PAX version of the USTAR string fields.
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// The key must not contain an '=' character.
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func validPAXRecord(k, v string) bool {
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if k == "" || strings.IndexByte(k, '=') >= 0 {
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return false
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}
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switch k {
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case paxPath, paxLinkpath, paxUname, paxGname:
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return !hasNUL(v)
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default:
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return !hasNUL(k)
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}
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}
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