mirrors
/
tar-split
mirror of https://github.com/vbatts/tar-split.git
1
0
Fork 1
Code Releases Activity

Merge pull request #48 from kolyshkin/go111 

rebase to go-1.11's archive/tar
This commit is contained in:
Vincent Batts 2018-09-06 08:34:40 -04:00 committed by GitHub
parent e489928272 3a386a2750
commit 61b49a82bb
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
38 changed files with 5820 additions and 2618 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

7
.travis.yml
View File

@ -1,11 +1,8 @@
language: go language: go
go: go:
- tip - tip
- 1.x - 1.11.x
- 1.8.x - 1.10.x
- 1.7.x
- 1.6.x
- 1.5.x
# let us have pretty, fast Docker-based Travis workers! # let us have pretty, fast Docker-based Travis workers!
sudo: false sudo: false

3
README.md
View File

@ -67,7 +67,7 @@ Do not break the API of stdlib `archive/tar` in our fork (ideally find an upstre
## Std Version ## Std Version
The version of golang stdlib `archive/tar` is from go1.6 The version of golang stdlib `archive/tar` is from go1.11
It is minimally extended to expose the raw bytes of the TAR, rather than just the marshalled headers and file stream. It is minimally extended to expose the raw bytes of the TAR, rather than just the marshalled headers and file stream.
@ -135,4 +135,3 @@ bytes-per-file rate for the storage implications.
## License ## License
See [LICENSE](LICENSE) See [LICENSE](LICENSE)

689
archive/tar/common.go
View File

@ -3,70 +3,528 @@
// license that can be found in the LICENSE file. // license that can be found in the LICENSE file.
// Package tar implements access to tar archives. // Package tar implements access to tar archives.
// It aims to cover most of the variations, including those produced
// by GNU and BSD tars.
// //
// References: // Tape archives (tar) are a file format for storing a sequence of files that
// http://www.freebsd.org/cgi/man.cgi?query=tar&sektion=5 // can be read and written in a streaming manner.
// http://www.gnu.org/software/tar/manual/html_node/Standard.html // This package aims to cover most variations of the format,
// http://pubs.opengroup.org/onlinepubs/9699919799/utilities/pax.html // including those produced by GNU and BSD tar tools.
package tar package tar
import ( import (
"bytes"
"errors" "errors"
"fmt" "fmt"
"math"
"os" "os"
"path" "path"
"reflect"
"strconv"
"strings"
"time" "time"
) )
const ( // BUG: Use of the Uid and Gid fields in Header could overflow on 32-bit
blockSize = 512 // architectures. If a large value is encountered when decoding, the result
// stored in Header will be the truncated version.
// Types var (
TypeReg = '0' // regular file ErrHeader = errors.New("archive/tar: invalid tar header")
TypeRegA = '\x00' // regular file ErrWriteTooLong = errors.New("archive/tar: write too long")
TypeLink = '1' // hard link ErrFieldTooLong = errors.New("archive/tar: header field too long")
TypeSymlink = '2' // symbolic link ErrWriteAfterClose = errors.New("archive/tar: write after close")
TypeChar = '3' // character device node errMissData = errors.New("archive/tar: sparse file references non-existent data")
TypeBlock = '4' // block device node errUnrefData = errors.New("archive/tar: sparse file contains unreferenced data")
TypeDir = '5' // directory errWriteHole = errors.New("archive/tar: write non-NUL byte in sparse hole")
TypeFifo = '6' // fifo node
TypeCont = '7' // reserved
TypeXHeader = 'x' // extended header
TypeXGlobalHeader = 'g' // global extended header
TypeGNULongName = 'L' // Next file has a long name
TypeGNULongLink = 'K' // Next file symlinks to a file w/ a long name
TypeGNUSparse = 'S' // sparse file
) )
type headerError []string
func (he headerError) Error() string {
const prefix = "archive/tar: cannot encode header"
var ss []string
for _, s := range he {
if s != "" {
ss = append(ss, s)
}
}
if len(ss) == 0 {
return prefix
}
return fmt.Sprintf("%s: %v", prefix, strings.Join(ss, "; and "))
}
// Type flags for Header.Typeflag.
const (
// Type '0' indicates a regular file.
TypeReg = '0'
TypeRegA = '\x00' // Deprecated: Use TypeReg instead.
// Type '1' to '6' are header-only flags and may not have a data body.
TypeLink = '1' // Hard link
TypeSymlink = '2' // Symbolic link
TypeChar = '3' // Character device node
TypeBlock = '4' // Block device node
TypeDir = '5' // Directory
TypeFifo = '6' // FIFO node
// Type '7' is reserved.
TypeCont = '7'
// Type 'x' is used by the PAX format to store key-value records that
// are only relevant to the next file.
// This package transparently handles these types.
TypeXHeader = 'x'
// Type 'g' is used by the PAX format to store key-value records that
// are relevant to all subsequent files.
// This package only supports parsing and composing such headers,
// but does not currently support persisting the global state across files.
TypeXGlobalHeader = 'g'
// Type 'S' indicates a sparse file in the GNU format.
TypeGNUSparse = 'S'
// Types 'L' and 'K' are used by the GNU format for a meta file
// used to store the path or link name for the next file.
// This package transparently handles these types.
TypeGNULongName = 'L'
TypeGNULongLink = 'K'
)
// Keywords for PAX extended header records.
const (
paxNone = "" // Indicates that no PAX key is suitable
paxPath = "path"
paxLinkpath = "linkpath"
paxSize = "size"
paxUid = "uid"
paxGid = "gid"
paxUname = "uname"
paxGname = "gname"
paxMtime = "mtime"
paxAtime = "atime"
paxCtime = "ctime" // Removed from later revision of PAX spec, but was valid
paxCharset = "charset" // Currently unused
paxComment = "comment" // Currently unused
paxSchilyXattr = "SCHILY.xattr."
// Keywords for GNU sparse files in a PAX extended header.
paxGNUSparse = "GNU.sparse."
paxGNUSparseNumBlocks = "GNU.sparse.numblocks"
paxGNUSparseOffset = "GNU.sparse.offset"
paxGNUSparseNumBytes = "GNU.sparse.numbytes"
paxGNUSparseMap = "GNU.sparse.map"
paxGNUSparseName = "GNU.sparse.name"
paxGNUSparseMajor = "GNU.sparse.major"
paxGNUSparseMinor = "GNU.sparse.minor"
paxGNUSparseSize = "GNU.sparse.size"
paxGNUSparseRealSize = "GNU.sparse.realsize"
)
// basicKeys is a set of the PAX keys for which we have built-in support.
// This does not contain "charset" or "comment", which are both PAX-specific,
// so adding them as first-class features of Header is unlikely.
// Users can use the PAXRecords field to set it themselves.
var basicKeys = map[string]bool{
paxPath: true, paxLinkpath: true, paxSize: true, paxUid: true, paxGid: true,
paxUname: true, paxGname: true, paxMtime: true, paxAtime: true, paxCtime: true,
}
// A Header represents a single header in a tar archive. // A Header represents a single header in a tar archive.
// Some fields may not be populated. // Some fields may not be populated.
//
// For forward compatibility, users that retrieve a Header from Reader.Next,
// mutate it in some ways, and then pass it back to Writer.WriteHeader
// should do so by creating a new Header and copying the fields
// that they are interested in preserving.
type Header struct { type Header struct {
Name string // name of header file entry // Typeflag is the type of header entry.
Mode int64 // permission and mode bits // The zero value is automatically promoted to either TypeReg or TypeDir
Uid int // user id of owner // depending on the presence of a trailing slash in Name.
Gid int // group id of owner Typeflag byte
Size int64 // length in bytes
ModTime time.Time // modified time Name string // Name of file entry
Typeflag byte // type of header entry Linkname string // Target name of link (valid for TypeLink or TypeSymlink)
Linkname string // target name of link
Uname string // user name of owner Size int64 // Logical file size in bytes
Gname string // group name of owner Mode int64 // Permission and mode bits
Devmajor int64 // major number of character or block device Uid int // User ID of owner
Devminor int64 // minor number of character or block device Gid int // Group ID of owner
AccessTime time.Time // access time Uname string // User name of owner
ChangeTime time.Time // status change time Gname string // Group name of owner
Xattrs map[string]string
// If the Format is unspecified, then Writer.WriteHeader rounds ModTime
// to the nearest second and ignores the AccessTime and ChangeTime fields.
//
// To use AccessTime or ChangeTime, specify the Format as PAX or GNU.
// To use sub-second resolution, specify the Format as PAX.
ModTime time.Time // Modification time
AccessTime time.Time // Access time (requires either PAX or GNU support)
ChangeTime time.Time // Change time (requires either PAX or GNU support)
Devmajor int64 // Major device number (valid for TypeChar or TypeBlock)
Devminor int64 // Minor device number (valid for TypeChar or TypeBlock)
// Xattrs stores extended attributes as PAX records under the
// "SCHILY.xattr." namespace.
//
// The following are semantically equivalent:
// h.Xattrs[key] = value
// h.PAXRecords["SCHILY.xattr."+key] = value
//
// When Writer.WriteHeader is called, the contents of Xattrs will take
// precedence over those in PAXRecords.
//
// Deprecated: Use PAXRecords instead.
Xattrs map[string]string
// PAXRecords is a map of PAX extended header records.
//
// User-defined records should have keys of the following form:
// VENDOR.keyword
// Where VENDOR is some namespace in all uppercase, and keyword may
// not contain the '=' character (e.g., "GOLANG.pkg.version").
// The key and value should be non-empty UTF-8 strings.
//
// When Writer.WriteHeader is called, PAX records derived from the
// other fields in Header take precedence over PAXRecords.
PAXRecords map[string]string
// Format specifies the format of the tar header.
//
// This is set by Reader.Next as a best-effort guess at the format.
// Since the Reader liberally reads some non-compliant files,
// it is possible for this to be FormatUnknown.
//
// If the format is unspecified when Writer.WriteHeader is called,
// then it uses the first format (in the order of USTAR, PAX, GNU)
// capable of encoding this Header (see Format).
Format Format
} }
// File name constants from the tar spec. // sparseEntry represents a Length-sized fragment at Offset in the file.
const ( type sparseEntry struct{ Offset, Length int64 }
fileNameSize = 100 // Maximum number of bytes in a standard tar name.
fileNamePrefixSize = 155 // Maximum number of ustar extension bytes. func (s sparseEntry) endOffset() int64 { return s.Offset + s.Length }
// A sparse file can be represented as either a sparseDatas or a sparseHoles.
// As long as the total size is known, they are equivalent and one can be
// converted to the other form and back. The various tar formats with sparse
// file support represent sparse files in the sparseDatas form. That is, they
// specify the fragments in the file that has data, and treat everything else as
// having zero bytes. As such, the encoding and decoding logic in this package
// deals with sparseDatas.
//
// However, the external API uses sparseHoles instead of sparseDatas because the
// zero value of sparseHoles logically represents a normal file (i.e., there are
// no holes in it). On the other hand, the zero value of sparseDatas implies
// that the file has no data in it, which is rather odd.
//
// As an example, if the underlying raw file contains the 10-byte data:
// var compactFile = "abcdefgh"
//
// And the sparse map has the following entries:
// var spd sparseDatas = []sparseEntry{
// {Offset: 2, Length: 5}, // Data fragment for 2..6
// {Offset: 18, Length: 3}, // Data fragment for 18..20
// }
// var sph sparseHoles = []sparseEntry{
// {Offset: 0, Length: 2}, // Hole fragment for 0..1
// {Offset: 7, Length: 11}, // Hole fragment for 7..17
// {Offset: 21, Length: 4}, // Hole fragment for 21..24
// }
//
// Then the content of the resulting sparse file with a Header.Size of 25 is:
// var sparseFile = "\x00"*2 + "abcde" + "\x00"*11 + "fgh" + "\x00"*4
type (
sparseDatas []sparseEntry
sparseHoles []sparseEntry
) )
// validateSparseEntries reports whether sp is a valid sparse map.
// It does not matter whether sp represents data fragments or hole fragments.
func validateSparseEntries(sp []sparseEntry, size int64) bool {
// Validate all sparse entries. These are the same checks as performed by
// the BSD tar utility.
if size < 0 {
return false
}
var pre sparseEntry
for _, cur := range sp {
switch {
case cur.Offset < 0 || cur.Length < 0:
return false // Negative values are never okay
case cur.Offset > math.MaxInt64-cur.Length:
return false // Integer overflow with large length
case cur.endOffset() > size:
return false // Region extends beyond the actual size
case pre.endOffset() > cur.Offset:
return false // Regions cannot overlap and must be in order
}
pre = cur
}
return true
}
// alignSparseEntries mutates src and returns dst where each fragment's
// starting offset is aligned up to the nearest block edge, and each
// ending offset is aligned down to the nearest block edge.
//
// Even though the Go tar Reader and the BSD tar utility can handle entries
// with arbitrary offsets and lengths, the GNU tar utility can only handle
// offsets and lengths that are multiples of blockSize.
func alignSparseEntries(src []sparseEntry, size int64) []sparseEntry {
dst := src[:0]
for _, s := range src {
pos, end := s.Offset, s.endOffset()
pos += blockPadding(+pos) // Round-up to nearest blockSize
if end != size {
end -= blockPadding(-end) // Round-down to nearest blockSize
}
if pos < end {
dst = append(dst, sparseEntry{Offset: pos, Length: end - pos})
}
}
return dst
}
// invertSparseEntries converts a sparse map from one form to the other.
// If the input is sparseHoles, then it will output sparseDatas and vice-versa.
// The input must have been already validated.
//
// This function mutates src and returns a normalized map where:
// * adjacent fragments are coalesced together
// * only the last fragment may be empty
// * the endOffset of the last fragment is the total size
func invertSparseEntries(src []sparseEntry, size int64) []sparseEntry {
dst := src[:0]
var pre sparseEntry
for _, cur := range src {
if cur.Length == 0 {
continue // Skip empty fragments
}
pre.Length = cur.Offset - pre.Offset
if pre.Length > 0 {
dst = append(dst, pre) // Only add non-empty fragments
}
pre.Offset = cur.endOffset()
}
pre.Length = size - pre.Offset // Possibly the only empty fragment
return append(dst, pre)
}
// fileState tracks the number of logical (includes sparse holes) and physical
// (actual in tar archive) bytes remaining for the current file.
//
// Invariant: LogicalRemaining >= PhysicalRemaining
type fileState interface {
LogicalRemaining() int64
PhysicalRemaining() int64
}
// allowedFormats determines which formats can be used.
// The value returned is the logical OR of multiple possible formats.
// If the value is FormatUnknown, then the input Header cannot be encoded
// and an error is returned explaining why.
//
// As a by-product of checking the fields, this function returns paxHdrs, which
// contain all fields that could not be directly encoded.
// A value receiver ensures that this method does not mutate the source Header.
func (h Header) allowedFormats() (format Format, paxHdrs map[string]string, err error) {
format = FormatUSTAR | FormatPAX | FormatGNU
paxHdrs = make(map[string]string)
var whyNoUSTAR, whyNoPAX, whyNoGNU string
var preferPAX bool // Prefer PAX over USTAR
verifyString := func(s string, size int, name, paxKey string) {
// NUL-terminator is optional for path and linkpath.
// Technically, it is required for uname and gname,
// but neither GNU nor BSD tar checks for it.
tooLong := len(s) > size
allowLongGNU := paxKey == paxPath || paxKey == paxLinkpath
if hasNUL(s) || (tooLong && !allowLongGNU) {
whyNoGNU = fmt.Sprintf("GNU cannot encode %s=%q", name, s)
format.mustNotBe(FormatGNU)
}
if !isASCII(s) || tooLong {
canSplitUSTAR := paxKey == paxPath
if _, _, ok := splitUSTARPath(s); !canSplitUSTAR || !ok {
whyNoUSTAR = fmt.Sprintf("USTAR cannot encode %s=%q", name, s)
format.mustNotBe(FormatUSTAR)
}
if paxKey == paxNone {
whyNoPAX = fmt.Sprintf("PAX cannot encode %s=%q", name, s)
format.mustNotBe(FormatPAX)
} else {
paxHdrs[paxKey] = s
}
}
if v, ok := h.PAXRecords[paxKey]; ok && v == s {
paxHdrs[paxKey] = v
}
}
verifyNumeric := func(n int64, size int, name, paxKey string) {
if !fitsInBase256(size, n) {
whyNoGNU = fmt.Sprintf("GNU cannot encode %s=%d", name, n)
format.mustNotBe(FormatGNU)
}
if !fitsInOctal(size, n) {
whyNoUSTAR = fmt.Sprintf("USTAR cannot encode %s=%d", name, n)
format.mustNotBe(FormatUSTAR)
if paxKey == paxNone {
whyNoPAX = fmt.Sprintf("PAX cannot encode %s=%d", name, n)
format.mustNotBe(FormatPAX)
} else {
paxHdrs[paxKey] = strconv.FormatInt(n, 10)
}
}
if v, ok := h.PAXRecords[paxKey]; ok && v == strconv.FormatInt(n, 10) {
paxHdrs[paxKey] = v
}
}
verifyTime := func(ts time.Time, size int, name, paxKey string) {
if ts.IsZero() {
return // Always okay
}
if !fitsInBase256(size, ts.Unix()) {
whyNoGNU = fmt.Sprintf("GNU cannot encode %s=%v", name, ts)
format.mustNotBe(FormatGNU)
}
isMtime := paxKey == paxMtime
fitsOctal := fitsInOctal(size, ts.Unix())
if (isMtime && !fitsOctal) || !isMtime {
whyNoUSTAR = fmt.Sprintf("USTAR cannot encode %s=%v", name, ts)
format.mustNotBe(FormatUSTAR)
}
needsNano := ts.Nanosecond() != 0
if !isMtime || !fitsOctal || needsNano {
preferPAX = true // USTAR may truncate sub-second measurements
if paxKey == paxNone {
whyNoPAX = fmt.Sprintf("PAX cannot encode %s=%v", name, ts)
format.mustNotBe(FormatPAX)
} else {
paxHdrs[paxKey] = formatPAXTime(ts)
}
}
if v, ok := h.PAXRecords[paxKey]; ok && v == formatPAXTime(ts) {
paxHdrs[paxKey] = v
}
}
// Check basic fields.
var blk block
v7 := blk.V7()
ustar := blk.USTAR()
gnu := blk.GNU()
verifyString(h.Name, len(v7.Name()), "Name", paxPath)
verifyString(h.Linkname, len(v7.LinkName()), "Linkname", paxLinkpath)
verifyString(h.Uname, len(ustar.UserName()), "Uname", paxUname)
verifyString(h.Gname, len(ustar.GroupName()), "Gname", paxGname)
verifyNumeric(h.Mode, len(v7.Mode()), "Mode", paxNone)
verifyNumeric(int64(h.Uid), len(v7.UID()), "Uid", paxUid)
verifyNumeric(int64(h.Gid), len(v7.GID()), "Gid", paxGid)
verifyNumeric(h.Size, len(v7.Size()), "Size", paxSize)
verifyNumeric(h.Devmajor, len(ustar.DevMajor()), "Devmajor", paxNone)
verifyNumeric(h.Devminor, len(ustar.DevMinor()), "Devminor", paxNone)
verifyTime(h.ModTime, len(v7.ModTime()), "ModTime", paxMtime)
verifyTime(h.AccessTime, len(gnu.AccessTime()), "AccessTime", paxAtime)
verifyTime(h.ChangeTime, len(gnu.ChangeTime()), "ChangeTime", paxCtime)
// Check for header-only types.
var whyOnlyPAX, whyOnlyGNU string
switch h.Typeflag {
case TypeReg, TypeChar, TypeBlock, TypeFifo, TypeGNUSparse:
// Exclude TypeLink and TypeSymlink, since they may reference directories.
if strings.HasSuffix(h.Name, "/") {
return FormatUnknown, nil, headerError{"filename may not have trailing slash"}
}
case TypeXHeader, TypeGNULongName, TypeGNULongLink:
return FormatUnknown, nil, headerError{"cannot manually encode TypeXHeader, TypeGNULongName, or TypeGNULongLink headers"}
case TypeXGlobalHeader:
h2 := Header{Name: h.Name, Typeflag: h.Typeflag, Xattrs: h.Xattrs, PAXRecords: h.PAXRecords, Format: h.Format}
if !reflect.DeepEqual(h, h2) {
return FormatUnknown, nil, headerError{"only PAXRecords should be set for TypeXGlobalHeader"}
}
whyOnlyPAX = "only PAX supports TypeXGlobalHeader"
format.mayOnlyBe(FormatPAX)
}
if !isHeaderOnlyType(h.Typeflag) && h.Size < 0 {
return FormatUnknown, nil, headerError{"negative size on header-only type"}
}
// Check PAX records.
if len(h.Xattrs) > 0 {
for k, v := range h.Xattrs {
paxHdrs[paxSchilyXattr+k] = v
}
whyOnlyPAX = "only PAX supports Xattrs"
format.mayOnlyBe(FormatPAX)
}
if len(h.PAXRecords) > 0 {
for k, v := range h.PAXRecords {
switch _, exists := paxHdrs[k]; {
case exists:
continue // Do not overwrite existing records
case h.Typeflag == TypeXGlobalHeader:
paxHdrs[k] = v // Copy all records
case !basicKeys[k] && !strings.HasPrefix(k, paxGNUSparse):
paxHdrs[k] = v // Ignore local records that may conflict
}
}
whyOnlyPAX = "only PAX supports PAXRecords"
format.mayOnlyBe(FormatPAX)
}
for k, v := range paxHdrs {
if !validPAXRecord(k, v) {
return FormatUnknown, nil, headerError{fmt.Sprintf("invalid PAX record: %q", k+" = "+v)}
}
}
// TODO(dsnet): Re-enable this when adding sparse support.
// See https://golang.org/issue/22735
/*
// Check sparse files.
if len(h.SparseHoles) > 0 || h.Typeflag == TypeGNUSparse {
if isHeaderOnlyType(h.Typeflag) {
return FormatUnknown, nil, headerError{"header-only type cannot be sparse"}
}
if !validateSparseEntries(h.SparseHoles, h.Size) {
return FormatUnknown, nil, headerError{"invalid sparse holes"}
}
if h.Typeflag == TypeGNUSparse {
whyOnlyGNU = "only GNU supports TypeGNUSparse"
format.mayOnlyBe(FormatGNU)
} else {
whyNoGNU = "GNU supports sparse files only with TypeGNUSparse"
format.mustNotBe(FormatGNU)
}
whyNoUSTAR = "USTAR does not support sparse files"
format.mustNotBe(FormatUSTAR)
}
*/
// Check desired format.
if wantFormat := h.Format; wantFormat != FormatUnknown {
if wantFormat.has(FormatPAX) && !preferPAX {
wantFormat.mayBe(FormatUSTAR) // PAX implies USTAR allowed too
}
format.mayOnlyBe(wantFormat) // Set union of formats allowed and format wanted
}
if format == FormatUnknown {
switch h.Format {
case FormatUSTAR:
err = headerError{"Format specifies USTAR", whyNoUSTAR, whyOnlyPAX, whyOnlyGNU}
case FormatPAX:
err = headerError{"Format specifies PAX", whyNoPAX, whyOnlyGNU}
case FormatGNU:
err = headerError{"Format specifies GNU", whyNoGNU, whyOnlyPAX}
default:
err = headerError{whyNoUSTAR, whyNoPAX, whyNoGNU, whyOnlyPAX, whyOnlyGNU}
}
}
return format, paxHdrs, err
}
// FileInfo returns an os.FileInfo for the Header. // FileInfo returns an os.FileInfo for the Header.
func (h *Header) FileInfo() os.FileInfo { func (h *Header) FileInfo() os.FileInfo {
return headerFileInfo{h} return headerFileInfo{h}
@ -97,63 +555,43 @@ func (fi headerFileInfo) Mode() (mode os.FileMode) {
// Set setuid, setgid and sticky bits. // Set setuid, setgid and sticky bits.
if fi.h.Mode&c_ISUID != 0 { if fi.h.Mode&c_ISUID != 0 {
// setuid
mode |= os.ModeSetuid mode |= os.ModeSetuid
} }
if fi.h.Mode&c_ISGID != 0 { if fi.h.Mode&c_ISGID != 0 {
// setgid
mode |= os.ModeSetgid mode |= os.ModeSetgid
} }
if fi.h.Mode&c_ISVTX != 0 { if fi.h.Mode&c_ISVTX != 0 {
// sticky
mode |= os.ModeSticky mode |= os.ModeSticky
} }
// Set file mode bits. // Set file mode bits; clear perm, setuid, setgid, and sticky bits.
// clear perm, setuid, setgid and sticky bits. switch m := os.FileMode(fi.h.Mode) &^ 07777; m {
m := os.FileMode(fi.h.Mode) &^ 07777 case c_ISDIR:
if m == c_ISDIR {
// directory
mode |= os.ModeDir mode |= os.ModeDir
} case c_ISFIFO:
if m == c_ISFIFO {
// named pipe (FIFO)
mode |= os.ModeNamedPipe mode |= os.ModeNamedPipe
} case c_ISLNK:
if m == c_ISLNK {
// symbolic link
mode |= os.ModeSymlink mode |= os.ModeSymlink
} case c_ISBLK:
if m == c_ISBLK {
// device file
mode |= os.ModeDevice mode |= os.ModeDevice
} case c_ISCHR:
if m == c_ISCHR {
// Unix character device
mode |= os.ModeDevice mode |= os.ModeDevice
mode |= os.ModeCharDevice mode |= os.ModeCharDevice
} case c_ISSOCK:
if m == c_ISSOCK {
// Unix domain socket
mode |= os.ModeSocket mode |= os.ModeSocket
} }
switch fi.h.Typeflag { switch fi.h.Typeflag {
case TypeSymlink: case TypeSymlink:
// symbolic link
mode |= os.ModeSymlink mode |= os.ModeSymlink
case TypeChar: case TypeChar:
// character device node
mode |= os.ModeDevice mode |= os.ModeDevice
mode |= os.ModeCharDevice mode |= os.ModeCharDevice
case TypeBlock: case TypeBlock:
// block device node
mode |= os.ModeDevice mode |= os.ModeDevice
case TypeDir: case TypeDir:
// directory
mode |= os.ModeDir mode |= os.ModeDir
case TypeFifo: case TypeFifo:
// fifo node
mode |= os.ModeNamedPipe mode |= os.ModeNamedPipe
} }
@ -163,11 +601,15 @@ func (fi headerFileInfo) Mode() (mode os.FileMode) {
// sysStat, if non-nil, populates h from system-dependent fields of fi. // sysStat, if non-nil, populates h from system-dependent fields of fi.
var sysStat func(fi os.FileInfo, h *Header) error var sysStat func(fi os.FileInfo, h *Header) error
// Mode constants from the tar spec.
const ( const (
c_ISUID = 04000 // Set uid // Mode constants from the USTAR spec:
c_ISGID = 02000 // Set gid // See http://pubs.opengroup.org/onlinepubs/9699919799/utilities/pax.html#tag_20_92_13_06
c_ISVTX = 01000 // Save text (sticky bit) c_ISUID = 04000 // Set uid
c_ISGID = 02000 // Set gid
c_ISVTX = 01000 // Save text (sticky bit)
// Common Unix mode constants; these are not defined in any common tar standard.
// Header.FileInfo understands these, but FileInfoHeader will never produce these.
c_ISDIR = 040000 // Directory c_ISDIR = 040000 // Directory
c_ISFIFO = 010000 // FIFO c_ISFIFO = 010000 // FIFO
c_ISREG = 0100000 // Regular file c_ISREG = 0100000 // Regular file
@ -177,33 +619,16 @@ const (
c_ISSOCK = 0140000 // Socket c_ISSOCK = 0140000 // Socket
) )
// Keywords for the PAX Extended Header
const (
paxAtime = "atime"
paxCharset = "charset"
paxComment = "comment"
paxCtime = "ctime" // please note that ctime is not a valid pax header.
paxGid = "gid"
paxGname = "gname"
paxLinkpath = "linkpath"
paxMtime = "mtime"
paxPath = "path"
paxSize = "size"
paxUid = "uid"
paxUname = "uname"
paxXattr = "SCHILY.xattr."
paxNone = ""
)
// FileInfoHeader creates a partially-populated Header from fi. // FileInfoHeader creates a partially-populated Header from fi.
// If fi describes a symlink, FileInfoHeader records link as the link target. // If fi describes a symlink, FileInfoHeader records link as the link target.
// If fi describes a directory, a slash is appended to the name. // If fi describes a directory, a slash is appended to the name.
// Because os.FileInfo's Name method returns only the base name of //
// the file it describes, it may be necessary to modify the Name field // Since os.FileInfo's Name method only returns the base name of
// of the returned header to provide the full path name of the file. // the file it describes, it may be necessary to modify Header.Name
// to provide the full path name of the file.
func FileInfoHeader(fi os.FileInfo, link string) (*Header, error) { func FileInfoHeader(fi os.FileInfo, link string) (*Header, error) {
if fi == nil { if fi == nil {
return nil, errors.New("tar: FileInfo is nil") return nil, errors.New("archive/tar: FileInfo is nil")
} }
fm := fi.Mode() fm := fi.Mode()
h := &Header{ h := &Header{
@ -213,30 +638,24 @@ func FileInfoHeader(fi os.FileInfo, link string) (*Header, error) {
} }
switch { switch {
case fm.IsRegular(): case fm.IsRegular():
h.Mode |= c_ISREG
h.Typeflag = TypeReg h.Typeflag = TypeReg
h.Size = fi.Size() h.Size = fi.Size()
case fi.IsDir(): case fi.IsDir():
h.Typeflag = TypeDir h.Typeflag = TypeDir
h.Mode |= c_ISDIR
h.Name += "/" h.Name += "/"
case fm&os.ModeSymlink != 0: case fm&os.ModeSymlink != 0:
h.Typeflag = TypeSymlink h.Typeflag = TypeSymlink
h.Mode |= c_ISLNK
h.Linkname = link h.Linkname = link
case fm&os.ModeDevice != 0: case fm&os.ModeDevice != 0:
if fm&os.ModeCharDevice != 0 { if fm&os.ModeCharDevice != 0 {
h.Mode |= c_ISCHR
h.Typeflag = TypeChar h.Typeflag = TypeChar
} else { } else {
h.Mode |= c_ISBLK
h.Typeflag = TypeBlock h.Typeflag = TypeBlock
} }
case fm&os.ModeNamedPipe != 0: case fm&os.ModeNamedPipe != 0:
h.Typeflag = TypeFifo h.Typeflag = TypeFifo
h.Mode |= c_ISFIFO
case fm&os.ModeSocket != 0: case fm&os.ModeSocket != 0:
h.Mode |= c_ISSOCK return nil, fmt.Errorf("archive/tar: sockets not supported")
default: default:
return nil, fmt.Errorf("archive/tar: unknown file mode %v", fm) return nil, fmt.Errorf("archive/tar: unknown file mode %v", fm)
} }
@ -272,6 +691,12 @@ func FileInfoHeader(fi os.FileInfo, link string) (*Header, error) {
h.Size = 0 h.Size = 0
h.Linkname = sys.Linkname h.Linkname = sys.Linkname
} }
if sys.PAXRecords != nil {
h.PAXRecords = make(map[string]string)
for k, v := range sys.PAXRecords {
h.PAXRecords[k] = v
}
}
} }
if sysStat != nil { if sysStat != nil {
return h, sysStat(fi, h) return h, sysStat(fi, h)
@ -279,55 +704,6 @@ func FileInfoHeader(fi os.FileInfo, link string) (*Header, error) {
return h, nil return h, nil
} }
var zeroBlock = make([]byte, blockSize)
// POSIX specifies a sum of the unsigned byte values, but the Sun tar uses signed byte values.
// We compute and return both.
func checksum(header []byte) (unsigned int64, signed int64) {
for i := 0; i < len(header); i++ {
if i == 148 {
// The chksum field (header[148:156]) is special: it should be treated as space bytes.
unsigned += ' ' * 8
signed += ' ' * 8
i += 7
continue
}
unsigned += int64(header[i])
signed += int64(int8(header[i]))
}
return
}
type slicer []byte
func (sp *slicer) next(n int) (b []byte) {
s := *sp
b, *sp = s[0:n], s[n:]
return
}
func isASCII(s string) bool {
for _, c := range s {
if c >= 0x80 {
return false
}
}
return true
}
func toASCII(s string) string {
if isASCII(s) {
return s
}
var buf bytes.Buffer
for _, c := range s {
if c < 0x80 {
buf.WriteByte(byte(c))
}
}
return buf.String()
}
// isHeaderOnlyType checks if the given type flag is of the type that has no // isHeaderOnlyType checks if the given type flag is of the type that has no
// data section even if a size is specified. // data section even if a size is specified.
func isHeaderOnlyType(flag byte) bool { func isHeaderOnlyType(flag byte) bool {
@ -338,3 +714,10 @@ func isHeaderOnlyType(flag byte) bool {
return false return false
} }
} }
func min(a, b int64) int64 {
if a < b {
return a
}
return b
}

33
archive/tar/example_test.go
View File

@ -13,14 +13,10 @@ import (
"os" "os"
) )
func Example() { func Example_minimal() {
// Create a buffer to write our archive to. // Create and add some files to the archive.
buf := new(bytes.Buffer) var buf bytes.Buffer
tw := tar.NewWriter(&buf)
// Create a new tar archive.
tw := tar.NewWriter(buf)
// Add some files to the archive.
var files = []struct { var files = []struct {
Name, Body string Name, Body string
}{ }{
@ -35,34 +31,29 @@ func Example() {
Size: int64(len(file.Body)), Size: int64(len(file.Body)),
} }
if err := tw.WriteHeader(hdr); err != nil { if err := tw.WriteHeader(hdr); err != nil {
log.Fatalln(err) log.Fatal(err)
} }
if _, err := tw.Write([]byte(file.Body)); err != nil { if _, err := tw.Write([]byte(file.Body)); err != nil {
log.Fatalln(err) log.Fatal(err)
} }
} }
// Make sure to check the error on Close.
if err := tw.Close(); err != nil { if err := tw.Close(); err != nil {
log.Fatalln(err) log.Fatal(err)
} }
// Open the tar archive for reading. // Open and iterate through the files in the archive.
r := bytes.NewReader(buf.Bytes()) tr := tar.NewReader(&buf)
tr := tar.NewReader(r)
// Iterate through the files in the archive.
for { for {
hdr, err := tr.Next() hdr, err := tr.Next()
if err == io.EOF { if err == io.EOF {
// end of tar archive break // End of archive
break
} }
if err != nil { if err != nil {
log.Fatalln(err) log.Fatal(err)
} }
fmt.Printf("Contents of %s:\n", hdr.Name) fmt.Printf("Contents of %s:\n", hdr.Name)
if _, err := io.Copy(os.Stdout, tr); err != nil { if _, err := io.Copy(os.Stdout, tr); err != nil {
log.Fatalln(err) log.Fatal(err)
} }
fmt.Println() fmt.Println()
} }

303
archive/tar/format.go Normal file
View File

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

1463
archive/tar/reader.go
View File

File diff suppressed because it is too large Load Diff

2055
archive/tar/reader_test.go
View File

File diff suppressed because it is too large Load Diff

0
archive/tar/stat_atim.go → archive/tar/stat_actime1.go
View File

0
archive/tar/stat_atimespec.go → archive/tar/stat_actime2.go
View File

72
archive/tar/stat_unix.go
View File

@ -8,6 +8,10 @@ package tar
import ( import (
"os" "os"
"os/user"
"runtime"
"strconv"
"sync"
"syscall" "syscall"
) )
@ -15,6 +19,10 @@ func init() {
sysStat = statUnix sysStat = statUnix
} }
// userMap and groupMap caches UID and GID lookups for performance reasons.
// The downside is that renaming uname or gname by the OS never takes effect.
var userMap, groupMap sync.Map // map[int]string
func statUnix(fi os.FileInfo, h *Header) error { func statUnix(fi os.FileInfo, h *Header) error {
sys, ok := fi.Sys().(*syscall.Stat_t) sys, ok := fi.Sys().(*syscall.Stat_t)
if !ok { if !ok {
@ -22,11 +30,67 @@ func statUnix(fi os.FileInfo, h *Header) error {
} }
h.Uid = int(sys.Uid) h.Uid = int(sys.Uid)
h.Gid = int(sys.Gid) h.Gid = int(sys.Gid)
// TODO(bradfitz): populate username & group. os/user
// doesn't cache LookupId lookups, and lacks group // Best effort at populating Uname and Gname.
// lookup functions. // The os/user functions may fail for any number of reasons
// (not implemented on that platform, cgo not enabled, etc).
if u, ok := userMap.Load(h.Uid); ok {
h.Uname = u.(string)
} else if u, err := user.LookupId(strconv.Itoa(h.Uid)); err == nil {
h.Uname = u.Username
userMap.Store(h.Uid, h.Uname)
}
if g, ok := groupMap.Load(h.Gid); ok {
h.Gname = g.(string)
} else if g, err := user.LookupGroupId(strconv.Itoa(h.Gid)); err == nil {
h.Gname = g.Name
groupMap.Store(h.Gid, h.Gname)
}
h.AccessTime = statAtime(sys) h.AccessTime = statAtime(sys)
h.ChangeTime = statCtime(sys) h.ChangeTime = statCtime(sys)
// TODO(bradfitz): major/minor device numbers?
// Best effort at populating Devmajor and Devminor.
if h.Typeflag == TypeChar || h.Typeflag == TypeBlock {
dev := uint64(sys.Rdev) // May be int32 or uint32
switch runtime.GOOS {
case "linux":
// Copied from golang.org/x/sys/unix/dev_linux.go.
major := uint32((dev & 0x00000000000fff00) >> 8)
major |= uint32((dev & 0xfffff00000000000) >> 32)
minor := uint32((dev & 0x00000000000000ff) >> 0)
minor |= uint32((dev & 0x00000ffffff00000) >> 12)
h.Devmajor, h.Devminor = int64(major), int64(minor)
case "darwin":
// Copied from golang.org/x/sys/unix/dev_darwin.go.
major := uint32((dev >> 24) & 0xff)
minor := uint32(dev & 0xffffff)
h.Devmajor, h.Devminor = int64(major), int64(minor)
case "dragonfly":
// Copied from golang.org/x/sys/unix/dev_dragonfly.go.
major := uint32((dev >> 8) & 0xff)
minor := uint32(dev & 0xffff00ff)
h.Devmajor, h.Devminor = int64(major), int64(minor)
case "freebsd":
// Copied from golang.org/x/sys/unix/dev_freebsd.go.
major := uint32((dev >> 8) & 0xff)
minor := uint32(dev & 0xffff00ff)
h.Devmajor, h.Devminor = int64(major), int64(minor)
case "netbsd":
// Copied from golang.org/x/sys/unix/dev_netbsd.go.
major := uint32((dev & 0x000fff00) >> 8)
minor := uint32((dev & 0x000000ff) >> 0)
minor |= uint32((dev & 0xfff00000) >> 12)
h.Devmajor, h.Devminor = int64(major), int64(minor)
case "openbsd":
// Copied from golang.org/x/sys/unix/dev_openbsd.go.
major := uint32((dev & 0x0000ff00) >> 8)
minor := uint32((dev & 0x000000ff) >> 0)
minor |= uint32((dev & 0xffff0000) >> 8)
h.Devmajor, h.Devminor = int64(major), int64(minor)
default:
// TODO: Implement solaris (see https://golang.org/issue/8106)
}
}
return nil return nil
} }

326
archive/tar/strconv.go Normal file
View File

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

434
archive/tar/strconv_test.go Normal file
View File

@ -0,0 +1,434 @@
// 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 tar
import (
"math"
"strings"
"testing"
"time"
)
func TestFitsInBase256(t *testing.T) {
vectors := []struct {
in int64
width int
ok bool
}{
{+1, 8, true},
{0, 8, true},
{-1, 8, true},
{1 << 56, 8, false},
{(1 << 56) - 1, 8, true},
{-1 << 56, 8, true},
{(-1 << 56) - 1, 8, false},
{121654, 8, true},
{-9849849, 8, true},
{math.MaxInt64, 9, true},
{0, 9, true},
{math.MinInt64, 9, true},
{math.MaxInt64, 12, true},
{0, 12, true},
{math.MinInt64, 12, true},
}
for _, v := range vectors {
ok := fitsInBase256(v.width, v.in)
if ok != v.ok {
t.Errorf("fitsInBase256(%d, %d): got %v, want %v", v.in, v.width, ok, v.ok)
}
}
}
func TestParseNumeric(t *testing.T) {
vectors := []struct {
in string
want int64
ok bool
}{
// Test base-256 (binary) encoded values.
{"", 0, true},
{"\x80", 0, true},
{"\x80\x00", 0, true},
{"\x80\x00\x00", 0, true},
{"\xbf", (1 << 6) - 1, true},
{"\xbf\xff", (1 << 14) - 1, true},
{"\xbf\xff\xff", (1 << 22) - 1, true},
{"\xff", -1, true},
{"\xff\xff", -1, true},
{"\xff\xff\xff", -1, true},
{"\xc0", -1 * (1 << 6), true},
{"\xc0\x00", -1 * (1 << 14), true},
{"\xc0\x00\x00", -1 * (1 << 22), true},
{"\x87\x76\xa2\x22\xeb\x8a\x72\x61", 537795476381659745, true},
{"\x80\x00\x00\x00\x07\x76\xa2\x22\xeb\x8a\x72\x61", 537795476381659745, true},
{"\xf7\x76\xa2\x22\xeb\x8a\x72\x61", -615126028225187231, true},
{"\xff\xff\xff\xff\xf7\x76\xa2\x22\xeb\x8a\x72\x61", -615126028225187231, true},
{"\x80\x7f\xff\xff\xff\xff\xff\xff\xff", math.MaxInt64, true},
{"\x80\x80\x00\x00\x00\x00\x00\x00\x00", 0, false},
{"\xff\x80\x00\x00\x00\x00\x00\x00\x00", math.MinInt64, true},
{"\xff\x7f\xff\xff\xff\xff\xff\xff\xff", 0, false},
{"\xf5\xec\xd1\xc7\x7e\x5f\x26\x48\x81\x9f\x8f\x9b", 0, false},
// Test base-8 (octal) encoded values.
{"0000000\x00", 0, true},
{" \x0000000\x00", 0, true},
{" \x0000003\x00", 3, true},
{"00000000227\x00", 0227, true},
{"032033\x00 ", 032033, true},
{"320330\x00 ", 0320330, true},
{"0000660\x00 ", 0660, true},
{"\x00 0000660\x00 ", 0660, true},
{"0123456789abcdef", 0, false},
{"0123456789\x00abcdef", 0, false},
{"01234567\x0089abcdef", 342391, true},
{"0123\x7e\x5f\x264123", 0, false},
}
for _, v := range vectors {
var p parser
got := p.parseNumeric([]byte(v.in))
ok := (p.err == nil)
if ok != v.ok {
if v.ok {
t.Errorf("parseNumeric(%q): got parsing failure, want success", v.in)
} else {
t.Errorf("parseNumeric(%q): got parsing success, want failure", v.in)
}
}
if ok && got != v.want {
t.Errorf("parseNumeric(%q): got %d, want %d", v.in, got, v.want)
}
}
}
func TestFormatNumeric(t *testing.T) {
vectors := []struct {
in int64
want string
ok bool
}{
// Test base-8 (octal) encoded values.
{0, "0\x00", true},
{7, "7\x00", true},
{8, "\x80\x08", true},
{077, "77\x00", true},
{0100, "\x80\x00\x40", true},
{0, "0000000\x00", true},
{0123, "0000123\x00", true},
{07654321, "7654321\x00", true},
{07777777, "7777777\x00", true},
{010000000, "\x80\x00\x00\x00\x00\x20\x00\x00", true},
{0, "00000000000\x00", true},
{000001234567, "00001234567\x00", true},
{076543210321, "76543210321\x00", true},
{012345670123, "12345670123\x00", true},
{077777777777, "77777777777\x00", true},
{0100000000000, "\x80\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\x00", true},
{math.MaxInt64, "777777777777777777777\x00", true},
// Test base-256 (binary) encoded values.
{-1, "\xff", true},
{-1, "\xff\xff", true},
{-1, "\xff\xff\xff", true},
{(1 << 0), "0", false},
{(1 << 8) - 1, "\x80\xff", true},
{(1 << 8), "0\x00", false},
{(1 << 16) - 1, "\x80\xff\xff", true},
{(1 << 16), "00\x00", false},
{-1 * (1 << 0), "\xff", true},
{-1*(1<<0) - 1, "0", false},
{-1 * (1 << 8), "\xff\x00", true},
{-1*(1<<8) - 1, "0\x00", false},
{-1 * (1 << 16), "\xff\x00\x00", true},
{-1*(1<<16) - 1, "00\x00", false},
{537795476381659745, "0000000\x00", false},
{537795476381659745, "\x80\x00\x00\x00\x07\x76\xa2\x22\xeb\x8a\x72\x61", true},
{-615126028225187231, "0000000\x00", false},
{-615126028225187231, "\xff\xff\xff\xff\xf7\x76\xa2\x22\xeb\x8a\x72\x61", true},
{math.MaxInt64, "0000000\x00", false},
{math.MaxInt64, "\x80\x00\x00\x00\x7f\xff\xff\xff\xff\xff\xff\xff", true},
{math.MinInt64, "0000000\x00", false},
{math.MinInt64, "\xff\xff\xff\xff\x80\x00\x00\x00\x00\x00\x00\x00", true},
{math.MaxInt64, "\x80\x7f\xff\xff\xff\xff\xff\xff\xff", true},
{math.MinInt64, "\xff\x80\x00\x00\x00\x00\x00\x00\x00", true},
}
for _, v := range vectors {
var f formatter
got := make([]byte, len(v.want))
f.formatNumeric(got, v.in)
ok := (f.err == nil)
if ok != v.ok {
if v.ok {
t.Errorf("formatNumeric(%d): got formatting failure, want success", v.in)
} else {
t.Errorf("formatNumeric(%d): got formatting success, want failure", v.in)
}
}
if string(got) != v.want {
t.Errorf("formatNumeric(%d): got %q, want %q", v.in, got, v.want)
}
}
}
func TestFitsInOctal(t *testing.T) {
vectors := []struct {
input int64
width int
ok bool
}{
{-1, 1, false},
{-1, 2, false},
{-1, 3, false},
{0, 1, true},
{0 + 1, 1, false},
{0, 2, true},
{07, 2, true},
{07 + 1, 2, false},
{0, 4, true},
{0777, 4, true},
{0777 + 1, 4, false},
{0, 8, true},
{07777777, 8, true},
{07777777 + 1, 8, false},
{0, 12, true},
{077777777777, 12, true},
{077777777777 + 1, 12, false},
{math.MaxInt64, 22, true},
{012345670123, 12, true},
{01564164, 12, true},
{-012345670123, 12, false},
{-01564164, 12, false},
{-1564164, 30, false},
}
for _, v := range vectors {
ok := fitsInOctal(v.width, v.input)
if ok != v.ok {
t.Errorf("checkOctal(%d, %d): got %v, want %v", v.input, v.width, ok, v.ok)
}
}
}
func TestParsePAXTime(t *testing.T) {
vectors := []struct {
in string
want time.Time
ok bool
}{
{"1350244992.023960108", time.Unix(1350244992, 23960108), true},
{"1350244992.02396010", time.Unix(1350244992, 23960100), true},
{"1350244992.0239601089", time.Unix(1350244992, 23960108), true},
{"1350244992.3", time.Unix(1350244992, 300000000), true},
{"1350244992", time.Unix(1350244992, 0), true},
{"-1.000000001", time.Unix(-1, -1e0+0e0), true},
{"-1.000001", time.Unix(-1, -1e3+0e0), true},
{"-1.001000", time.Unix(-1, -1e6+0e0), true},
{"-1", time.Unix(-1, -0e0+0e0), true},
{"-1.999000", time.Unix(-1, -1e9+1e6), true},
{"-1.999999", time.Unix(-1, -1e9+1e3), true},
{"-1.999999999", time.Unix(-1, -1e9+1e0), true},
{"0.000000001", time.Unix(0, 1e0+0e0), true},
{"0.000001", time.Unix(0, 1e3+0e0), true},
{"0.001000", time.Unix(0, 1e6+0e0), true},
{"0", time.Unix(0, 0e0), true},
{"0.999000", time.Unix(0, 1e9-1e6), true},
{"0.999999", time.Unix(0, 1e9-1e3), true},
{"0.999999999", time.Unix(0, 1e9-1e0), true},
{"1.000000001", time.Unix(+1, +1e0-0e0), true},
{"1.000001", time.Unix(+1, +1e3-0e0), true},
{"1.001000", time.Unix(+1, +1e6-0e0), true},
{"1", time.Unix(+1, +0e0-0e0), true},
{"1.999000", time.Unix(+1, +1e9-1e6), true},
{"1.999999", time.Unix(+1, +1e9-1e3), true},
{"1.999999999", time.Unix(+1, +1e9-1e0), true},
{"-1350244992.023960108", time.Unix(-1350244992, -23960108), true},
{"-1350244992.02396010", time.Unix(-1350244992, -23960100), true},
{"-1350244992.0239601089", time.Unix(-1350244992, -23960108), true},
{"-1350244992.3", time.Unix(-1350244992, -300000000), true},
{"-1350244992", time.Unix(-1350244992, 0), true},
{"", time.Time{}, false},
{"0", time.Unix(0, 0), true},
{"1.", time.Unix(1, 0), true},
{"0.0", time.Unix(0, 0), true},
{".5", time.Time{}, false},
{"-1.3", time.Unix(-1, -3e8), true},
{"-1.0", time.Unix(-1, -0e0), true},
{"-0.0", time.Unix(-0, -0e0), true},
{"-0.1", time.Unix(-0, -1e8), true},
{"-0.01", time.Unix(-0, -1e7), true},
{"-0.99", time.Unix(-0, -99e7), true},
{"-0.98", time.Unix(-0, -98e7), true},
{"-1.1", time.Unix(-1, -1e8), true},
{"-1.01", time.Unix(-1, -1e7), true},
{"-2.99", time.Unix(-2, -99e7), true},
{"-5.98", time.Unix(-5, -98e7), true},
{"-", time.Time{}, false},
{"+", time.Time{}, false},
{"-1.-1", time.Time{}, false},
{"99999999999999999999999999999999999999999999999", time.Time{}, false},
{"0.123456789abcdef", time.Time{}, false},
{"foo", time.Time{}, false},
{"\x00", time.Time{}, false},
{"𝟵𝟴𝟳𝟲𝟱.𝟰𝟯𝟮𝟭𝟬", time.Time{}, false}, // Unicode numbers (U+1D7EC to U+1D7F5)
{"98765﹒43210", time.Time{}, false}, // Unicode period (U+FE52)
}
for _, v := range vectors {
ts, err := parsePAXTime(v.in)
ok := (err == nil)
if v.ok != ok {
if v.ok {
t.Errorf("parsePAXTime(%q): got parsing failure, want success", v.in)
} else {
t.Errorf("parsePAXTime(%q): got parsing success, want failure", v.in)
}
}
if ok && !ts.Equal(v.want) {
t.Errorf("parsePAXTime(%q): got (%ds %dns), want (%ds %dns)",
v.in, ts.Unix(), ts.Nanosecond(), v.want.Unix(), v.want.Nanosecond())
}
}
}
func TestFormatPAXTime(t *testing.T) {
vectors := []struct {
sec, nsec int64
want string
}{
{1350244992, 0, "1350244992"},
{1350244992, 300000000, "1350244992.3"},
{1350244992, 23960100, "1350244992.0239601"},
{1350244992, 23960108, "1350244992.023960108"},
{+1, +1E9 - 1E0, "1.999999999"},
{+1, +1E9 - 1E3, "1.999999"},
{+1, +1E9 - 1E6, "1.999"},
{+1, +0E0 - 0E0, "1"},
{+1, +1E6 - 0E0, "1.001"},
{+1, +1E3 - 0E0, "1.000001"},
{+1, +1E0 - 0E0, "1.000000001"},
{0, 1E9 - 1E0, "0.999999999"},
{0, 1E9 - 1E3, "0.999999"},
{0, 1E9 - 1E6, "0.999"},
{0, 0E0, "0"},
{0, 1E6 + 0E0, "0.001"},
{0, 1E3 + 0E0, "0.000001"},
{0, 1E0 + 0E0, "0.000000001"},
{-1, -1E9 + 1E0, "-1.999999999"},
{-1, -1E9 + 1E3, "-1.999999"},
{-1, -1E9 + 1E6, "-1.999"},
{-1, -0E0 + 0E0, "-1"},
{-1, -1E6 + 0E0, "-1.001"},
{-1, -1E3 + 0E0, "-1.000001"},
{-1, -1E0 + 0E0, "-1.000000001"},
{-1350244992, 0, "-1350244992"},
{-1350244992, -300000000, "-1350244992.3"},
{-1350244992, -23960100, "-1350244992.0239601"},
{-1350244992, -23960108, "-1350244992.023960108"},
}
for _, v := range vectors {
got := formatPAXTime(time.Unix(v.sec, v.nsec))
if got != v.want {
t.Errorf("formatPAXTime(%ds, %dns): got %q, want %q",
v.sec, v.nsec, got, v.want)
}
}
}
func TestParsePAXRecord(t *testing.T) {
medName := strings.Repeat("CD", 50)
longName := strings.Repeat("AB", 100)
vectors := []struct {
in string
wantRes string
wantKey string
wantVal string
ok bool
}{
{"6 k=v\n\n", "\n", "k", "v", true},
{"19 path=/etc/hosts\n", "", "path", "/etc/hosts", true},
{"210 path=" + longName + "\nabc", "abc", "path", longName, true},
{"110 path=" + medName + "\n", "", "path", medName, true},
{"9 foo=ba\n", "", "foo", "ba", true},
{"11 foo=bar\n\x00", "\x00", "foo", "bar", true},
{"18 foo=b=\nar=\n==\x00\n", "", "foo", "b=\nar=\n==\x00", true},
{"27 foo=hello9 foo=ba\nworld\n", "", "foo", "hello9 foo=ba\nworld", true},
{"27 ☺☻☹=日a本b語ç\nmeow mix", "meow mix", "☺☻☹", "日a本b語ç", true},
{"17 \x00hello=\x00world\n", "17 \x00hello=\x00world\n", "", "", false},
{"1 k=1\n", "1 k=1\n", "", "", false},
{"6 k~1\n", "6 k~1\n", "", "", false},
{"6_k=1\n", "6_k=1\n", "", "", false},
{"6 k=1 ", "6 k=1 ", "", "", false},
{"632 k=1\n", "632 k=1\n", "", "", false},
{"16 longkeyname=hahaha\n", "16 longkeyname=hahaha\n", "", "", false},
{"3 somelongkey=\n", "3 somelongkey=\n", "", "", false},
{"50 tooshort=\n", "50 tooshort=\n", "", "", false},
}
for _, v := range vectors {
key, val, res, err := parsePAXRecord(v.in)
ok := (err == nil)
if ok != v.ok {
if v.ok {
t.Errorf("parsePAXRecord(%q): got parsing failure, want success", v.in)
} else {
t.Errorf("parsePAXRecord(%q): got parsing success, want failure", v.in)
}
}
if v.ok && (key != v.wantKey || val != v.wantVal) {
t.Errorf("parsePAXRecord(%q): got (%q: %q), want (%q: %q)",
v.in, key, val, v.wantKey, v.wantVal)
}
if res != v.wantRes {
t.Errorf("parsePAXRecord(%q): got residual %q, want residual %q",
v.in, res, v.wantRes)
}
}
}
func TestFormatPAXRecord(t *testing.T) {
medName := strings.Repeat("CD", 50)
longName := strings.Repeat("AB", 100)
vectors := []struct {
inKey string
inVal string
want string
ok bool
}{
{"k", "v", "6 k=v\n", true},
{"path", "/etc/hosts", "19 path=/etc/hosts\n", true},
{"path", longName, "210 path=" + longName + "\n", true},
{"path", medName, "110 path=" + medName + "\n", true},
{"foo", "ba", "9 foo=ba\n", true},
{"foo", "bar", "11 foo=bar\n", true},
{"foo", "b=\nar=\n==\x00", "18 foo=b=\nar=\n==\x00\n", true},
{"foo", "hello9 foo=ba\nworld", "27 foo=hello9 foo=ba\nworld\n", true},
{"☺☻☹", "日a本b語ç", "27 ☺☻☹=日a本b語ç\n", true},
{"xhello", "\x00world", "17 xhello=\x00world\n", true},
{"path", "null\x00", "", false},
{"null\x00", "value", "", false},
{paxSchilyXattr + "key", "null\x00", "26 SCHILY.xattr.key=null\x00\n", true},
}
for _, v := range vectors {
got, err := formatPAXRecord(v.inKey, v.inVal)
ok := (err == nil)
if ok != v.ok {
if v.ok {
t.Errorf("formatPAXRecord(%q, %q): got format failure, want success", v.inKey, v.inVal)
} else {
t.Errorf("formatPAXRecord(%q, %q): got format success, want failure", v.inKey, v.inVal)
}
}
if got != v.want {
t.Errorf("formatPAXRecord(%q, %q): got %q, want %q",
v.inKey, v.inVal, got, v.want)
}
}
}

819
archive/tar/tar_test.go
View File

@ -6,15 +6,208 @@ package tar
import ( import (
"bytes" "bytes"
"errors"
"fmt"
"io"
"io/ioutil" "io/ioutil"
"math"
"os" "os"
"path" "path"
"path/filepath"
"reflect" "reflect"
"runtime"
"strings" "strings"
"testing" "testing"
"time" "time"
) )
type testError struct{ error }
type fileOps []interface{} // []T where T is (string | int64)
// testFile is an io.ReadWriteSeeker where the IO operations performed
// on it must match the list of operations in ops.
type testFile struct {
ops fileOps
pos int64
}
func (f *testFile) Read(b []byte) (int, error) {
if len(b) == 0 {
return 0, nil
}
if len(f.ops) == 0 {
return 0, io.EOF
}
s, ok := f.ops[0].(string)
if !ok {
return 0, errors.New("unexpected Read operation")
}
n := copy(b, s)
if len(s) > n {
f.ops[0] = s[n:]
} else {
f.ops = f.ops[1:]
}
f.pos += int64(len(b))
return n, nil
}
func (f *testFile) Write(b []byte) (int, error) {
if len(b) == 0 {
return 0, nil
}
if len(f.ops) == 0 {
return 0, errors.New("unexpected Write operation")
}
s, ok := f.ops[0].(string)
if !ok {
return 0, errors.New("unexpected Write operation")
}
if !strings.HasPrefix(s, string(b)) {
return 0, testError{fmt.Errorf("got Write(%q), want Write(%q)", b, s)}
}
if len(s) > len(b) {
f.ops[0] = s[len(b):]
} else {
f.ops = f.ops[1:]
}
f.pos += int64(len(b))
return len(b), nil
}
func (f *testFile) Seek(pos int64, whence int) (int64, error) {
if pos == 0 && whence == io.SeekCurrent {
return f.pos, nil
}
if len(f.ops) == 0 {
return 0, errors.New("unexpected Seek operation")
}
s, ok := f.ops[0].(int64)
if !ok {
return 0, errors.New("unexpected Seek operation")
}
if s != pos || whence != io.SeekCurrent {
return 0, testError{fmt.Errorf("got Seek(%d, %d), want Seek(%d, %d)", pos, whence, s, io.SeekCurrent)}
}
f.pos += s
f.ops = f.ops[1:]
return f.pos, nil
}
func equalSparseEntries(x, y []sparseEntry) bool {
return (len(x) == 0 && len(y) == 0) || reflect.DeepEqual(x, y)
}
func TestSparseEntries(t *testing.T) {
vectors := []struct {
in []sparseEntry
size int64
wantValid bool // Result of validateSparseEntries
wantAligned []sparseEntry // Result of alignSparseEntries
wantInverted []sparseEntry // Result of invertSparseEntries
}{{
in: []sparseEntry{}, size: 0,
wantValid: true,
wantInverted: []sparseEntry{{0, 0}},
}, {
in: []sparseEntry{}, size: 5000,
wantValid: true,
wantInverted: []sparseEntry{{0, 5000}},
}, {
in: []sparseEntry{{0, 5000}}, size: 5000,
wantValid: true,
wantAligned: []sparseEntry{{0, 5000}},
wantInverted: []sparseEntry{{5000, 0}},
}, {
in: []sparseEntry{{1000, 4000}}, size: 5000,
wantValid: true,
wantAligned: []sparseEntry{{1024, 3976}},
wantInverted: []sparseEntry{{0, 1000}, {5000, 0}},
}, {
in: []sparseEntry{{0, 3000}}, size: 5000,
wantValid: true,
wantAligned: []sparseEntry{{0, 2560}},
wantInverted: []sparseEntry{{3000, 2000}},
}, {
in: []sparseEntry{{3000, 2000}}, size: 5000,
wantValid: true,
wantAligned: []sparseEntry{{3072, 1928}},
wantInverted: []sparseEntry{{0, 3000}, {5000, 0}},
}, {
in: []sparseEntry{{2000, 2000}}, size: 5000,
wantValid: true,
wantAligned: []sparseEntry{{2048, 1536}},
wantInverted: []sparseEntry{{0, 2000}, {4000, 1000}},
}, {
in: []sparseEntry{{0, 2000}, {8000, 2000}}, size: 10000,
wantValid: true,
wantAligned: []sparseEntry{{0, 1536}, {8192, 1808}},
wantInverted: []sparseEntry{{2000, 6000}, {10000, 0}},
}, {
in: []sparseEntry{{0, 2000}, {2000, 2000}, {4000, 0}, {4000, 3000}, {7000, 1000}, {8000, 0}, {8000, 2000}}, size: 10000,
wantValid: true,
wantAligned: []sparseEntry{{0, 1536}, {2048, 1536}, {4096, 2560}, {7168, 512}, {8192, 1808}},
wantInverted: []sparseEntry{{10000, 0}},
}, {
in: []sparseEntry{{0, 0}, {1000, 0}, {2000, 0}, {3000, 0}, {4000, 0}, {5000, 0}}, size: 5000,
wantValid: true,
wantInverted: []sparseEntry{{0, 5000}},
}, {
in: []sparseEntry{{1, 0}}, size: 0,
wantValid: false,
}, {
in: []sparseEntry{{-1, 0}}, size: 100,
wantValid: false,
}, {
in: []sparseEntry{{0, -1}}, size: 100,
wantValid: false,
}, {
in: []sparseEntry{{0, 0}}, size: -100,
wantValid: false,
}, {
in: []sparseEntry{{math.MaxInt64, 3}, {6, -5}}, size: 35,
wantValid: false,
}, {
in: []sparseEntry{{1, 3}, {6, -5}}, size: 35,
wantValid: false,
}, {
in: []sparseEntry{{math.MaxInt64, math.MaxInt64}}, size: math.MaxInt64,
wantValid: false,
}, {
in: []sparseEntry{{3, 3}}, size: 5,
wantValid: false,
}, {
in: []sparseEntry{{2, 0}, {1, 0}, {0, 0}}, size: 3,
wantValid: false,
}, {
in: []sparseEntry{{1, 3}, {2, 2}}, size: 10,
wantValid: false,
}}
for i, v := range vectors {
gotValid := validateSparseEntries(v.in, v.size)
if gotValid != v.wantValid {
t.Errorf("test %d, validateSparseEntries() = %v, want %v", i, gotValid, v.wantValid)
}
if !v.wantValid {
continue
}
gotAligned := alignSparseEntries(append([]sparseEntry{}, v.in...), v.size)
if !equalSparseEntries(gotAligned, v.wantAligned) {
t.Errorf("test %d, alignSparseEntries():\ngot %v\nwant %v", i, gotAligned, v.wantAligned)
}
gotInverted := invertSparseEntries(append([]sparseEntry{}, v.in...), v.size)
if !equalSparseEntries(gotInverted, v.wantInverted) {
t.Errorf("test %d, inverseSparseEntries():\ngot %v\nwant %v", i, gotInverted, v.wantInverted)
}
}
}
func TestFileInfoHeader(t *testing.T) { func TestFileInfoHeader(t *testing.T) {
fi, err := os.Stat("testdata/small.txt") fi, err := os.Stat("testdata/small.txt")
if err != nil { if err != nil {
@ -27,7 +220,7 @@ func TestFileInfoHeader(t *testing.T) {
if g, e := h.Name, "small.txt"; g != e { if g, e := h.Name, "small.txt"; g != e {
t.Errorf("Name = %q; want %q", g, e) t.Errorf("Name = %q; want %q", g, e)
} }
if g, e := h.Mode, int64(fi.Mode().Perm())|c_ISREG; g != e { if g, e := h.Mode, int64(fi.Mode().Perm()); g != e {
t.Errorf("Mode = %#o; want %#o", g, e) t.Errorf("Mode = %#o; want %#o", g, e)
} }
if g, e := h.Size, int64(5); g != e { if g, e := h.Size, int64(5); g != e {
@ -55,7 +248,7 @@ func TestFileInfoHeaderDir(t *testing.T) {
t.Errorf("Name = %q; want %q", g, e) t.Errorf("Name = %q; want %q", g, e)
} }
// Ignoring c_ISGID for golang.org/issue/4867 // Ignoring c_ISGID for golang.org/issue/4867
if g, e := h.Mode&^c_ISGID, int64(fi.Mode().Perm())|c_ISDIR; g != e { if g, e := h.Mode&^c_ISGID, int64(fi.Mode().Perm()); g != e {
t.Errorf("Mode = %#o; want %#o", g, e) t.Errorf("Mode = %#o; want %#o", g, e)
} }
if g, e := h.Size, int64(0); g != e { if g, e := h.Size, int64(0); g != e {
@ -67,38 +260,55 @@ func TestFileInfoHeaderDir(t *testing.T) {
} }
func TestFileInfoHeaderSymlink(t *testing.T) { func TestFileInfoHeaderSymlink(t *testing.T) {
h, err := FileInfoHeader(symlink{}, "some-target") switch runtime.GOOS {
case "android", "nacl", "plan9", "windows":
t.Skip("symlinks not supported")
}
tmpdir, err := ioutil.TempDir("", "TestFileInfoHeaderSymlink")
if err != nil { if err != nil {
t.Fatal(err) t.Fatal(err)
} }
if g, e := h.Name, "some-symlink"; g != e { defer os.RemoveAll(tmpdir)
link := filepath.Join(tmpdir, "link")
target := tmpdir
err = os.Symlink(target, link)
if err != nil {
t.Fatal(err)
}
fi, err := os.Lstat(link)
if err != nil {
t.Fatal(err)
}
h, err := FileInfoHeader(fi, target)
if err != nil {
t.Fatal(err)
}
if g, e := h.Name, fi.Name(); g != e {
t.Errorf("Name = %q; want %q", g, e) t.Errorf("Name = %q; want %q", g, e)
} }
if g, e := h.Linkname, "some-target"; g != e { if g, e := h.Linkname, target; g != e {
t.Errorf("Linkname = %q; want %q", g, e) t.Errorf("Linkname = %q; want %q", g, e)
} }
if g, e := h.Typeflag, byte(TypeSymlink); g != e {
t.Errorf("Typeflag = %v; want %v", g, e)
}
} }
type symlink struct{}
func (symlink) Name() string { return "some-symlink" }
func (symlink) Size() int64 { return 0 }
func (symlink) Mode() os.FileMode { return os.ModeSymlink }
func (symlink) ModTime() time.Time { return time.Time{} }
func (symlink) IsDir() bool { return false }
func (symlink) Sys() interface{} { return nil }
func TestRoundTrip(t *testing.T) { func TestRoundTrip(t *testing.T) {
data := []byte("some file contents") data := []byte("some file contents")
var b bytes.Buffer var b bytes.Buffer
tw := NewWriter(&b) tw := NewWriter(&b)
hdr := &Header{ hdr := &Header{
Name: "file.txt", Name: "file.txt",
Uid: 1 << 21, // too big for 8 octal digits Uid: 1 << 21, // Too big for 8 octal digits
Size: int64(len(data)), Size: int64(len(data)),
// https://github.com/golang/go/commit/0e3355903d2ebcf5ee9e76096f51ac9a116a9dbb#diff-d7bf2a98d7b57b6ff754ca406f1b7581R105 ModTime: time.Now().Round(time.Second),
ModTime: time.Now().AddDate(0, 0, 0).Round(1 * time.Second), PAXRecords: map[string]string{"uid": "2097152"},
Format: FormatPAX,
Typeflag: TypeReg,
} }
if err := tw.WriteHeader(hdr); err != nil { if err := tw.WriteHeader(hdr); err != nil {
t.Fatalf("tw.WriteHeader: %v", err) t.Fatalf("tw.WriteHeader: %v", err)
@ -134,191 +344,514 @@ type headerRoundTripTest struct {
} }
func TestHeaderRoundTrip(t *testing.T) { func TestHeaderRoundTrip(t *testing.T) {
golden := []headerRoundTripTest{ vectors := []headerRoundTripTest{{
// regular file. // regular file.
{ h: &Header{
h: &Header{ Name: "test.txt",
Name: "test.txt", Mode: 0644,
Mode: 0644 | c_ISREG, Size: 12,
Size: 12, ModTime: time.Unix(1360600916, 0),
ModTime: time.Unix(1360600916, 0), Typeflag: TypeReg,
Typeflag: TypeReg,
},
fm: 0644,
}, },
fm: 0644,
}, {
// symbolic link. // symbolic link.
{ h: &Header{
h: &Header{ Name: "link.txt",
Name: "link.txt", Mode: 0777,
Mode: 0777 | c_ISLNK, Size: 0,
Size: 0, ModTime: time.Unix(1360600852, 0),
ModTime: time.Unix(1360600852, 0), Typeflag: TypeSymlink,
Typeflag: TypeSymlink,
},
fm: 0777 | os.ModeSymlink,
}, },
fm: 0777 | os.ModeSymlink,
}, {
// character device node. // character device node.
{ h: &Header{
h: &Header{ Name: "dev/null",
Name: "dev/null", Mode: 0666,
Mode: 0666 | c_ISCHR, Size: 0,
Size: 0, ModTime: time.Unix(1360578951, 0),
ModTime: time.Unix(1360578951, 0), Typeflag: TypeChar,
Typeflag: TypeChar,
},
fm: 0666 | os.ModeDevice | os.ModeCharDevice,
}, },
fm: 0666 | os.ModeDevice | os.ModeCharDevice,
}, {
// block device node. // block device node.
{ h: &Header{
h: &Header{ Name: "dev/sda",
Name: "dev/sda", Mode: 0660,
Mode: 0660 | c_ISBLK, Size: 0,
Size: 0, ModTime: time.Unix(1360578954, 0),
ModTime: time.Unix(1360578954, 0), Typeflag: TypeBlock,
Typeflag: TypeBlock,
},
fm: 0660 | os.ModeDevice,
}, },
fm: 0660 | os.ModeDevice,
}, {
// directory. // directory.
{ h: &Header{
h: &Header{ Name: "dir/",
Name: "dir/", Mode: 0755,
Mode: 0755 | c_ISDIR, Size: 0,
Size: 0, ModTime: time.Unix(1360601116, 0),
ModTime: time.Unix(1360601116, 0), Typeflag: TypeDir,
Typeflag: TypeDir,
},
fm: 0755 | os.ModeDir,
}, },
fm: 0755 | os.ModeDir,
}, {
// fifo node. // fifo node.
{ h: &Header{
h: &Header{ Name: "dev/initctl",
Name: "dev/initctl", Mode: 0600,
Mode: 0600 | c_ISFIFO, Size: 0,
Size: 0, ModTime: time.Unix(1360578949, 0),
ModTime: time.Unix(1360578949, 0), Typeflag: TypeFifo,
Typeflag: TypeFifo,
},
fm: 0600 | os.ModeNamedPipe,
}, },
fm: 0600 | os.ModeNamedPipe,
}, {
// setuid. // setuid.
{ h: &Header{
h: &Header{ Name: "bin/su",
Name: "bin/su", Mode: 0755 | c_ISUID,
Mode: 0755 | c_ISREG | c_ISUID, Size: 23232,
Size: 23232, ModTime: time.Unix(1355405093, 0),
ModTime: time.Unix(1355405093, 0), Typeflag: TypeReg,
Typeflag: TypeReg,
},
fm: 0755 | os.ModeSetuid,
}, },
fm: 0755 | os.ModeSetuid,
}, {
// setguid. // setguid.
{ h: &Header{
h: &Header{ Name: "group.txt",
Name: "group.txt", Mode: 0750 | c_ISGID,
Mode: 0750 | c_ISREG | c_ISGID, Size: 0,
Size: 0, ModTime: time.Unix(1360602346, 0),
ModTime: time.Unix(1360602346, 0), Typeflag: TypeReg,
Typeflag: TypeReg,
},
fm: 0750 | os.ModeSetgid,
}, },
fm: 0750 | os.ModeSetgid,
}, {
// sticky. // sticky.
{ h: &Header{
h: &Header{ Name: "sticky.txt",
Name: "sticky.txt", Mode: 0600 | c_ISVTX,
Mode: 0600 | c_ISREG | c_ISVTX, Size: 7,
Size: 7, ModTime: time.Unix(1360602540, 0),
ModTime: time.Unix(1360602540, 0), Typeflag: TypeReg,
Typeflag: TypeReg,
},
fm: 0600 | os.ModeSticky,
}, },
fm: 0600 | os.ModeSticky,
}, {
// hard link. // hard link.
{ h: &Header{
h: &Header{ Name: "hard.txt",
Name: "hard.txt", Mode: 0644,
Mode: 0644 | c_ISREG, Size: 0,
Size: 0, Linkname: "file.txt",
Linkname: "file.txt", ModTime: time.Unix(1360600916, 0),
ModTime: time.Unix(1360600916, 0), Typeflag: TypeLink,
Typeflag: TypeLink,
},
fm: 0644,
}, },
fm: 0644,
}, {
// More information. // More information.
{ h: &Header{
h: &Header{ Name: "info.txt",
Name: "info.txt", Mode: 0600,
Mode: 0600 | c_ISREG, Size: 0,
Size: 0, Uid: 1000,
Uid: 1000, Gid: 1000,
Gid: 1000, ModTime: time.Unix(1360602540, 0),
ModTime: time.Unix(1360602540, 0), Uname: "slartibartfast",
Uname: "slartibartfast", Gname: "users",
Gname: "users", Typeflag: TypeReg,
Typeflag: TypeReg,
},
fm: 0600,
}, },
} fm: 0600,
}}
for i, g := range golden { for i, v := range vectors {
fi := g.h.FileInfo() fi := v.h.FileInfo()
h2, err := FileInfoHeader(fi, "") h2, err := FileInfoHeader(fi, "")
if err != nil { if err != nil {
t.Error(err) t.Error(err)
continue continue
} }
if strings.Contains(fi.Name(), "/") { if strings.Contains(fi.Name(), "/") {
t.Errorf("FileInfo of %q contains slash: %q", g.h.Name, fi.Name()) t.Errorf("FileInfo of %q contains slash: %q", v.h.Name, fi.Name())
} }
name := path.Base(g.h.Name) name := path.Base(v.h.Name)
if fi.IsDir() { if fi.IsDir() {
name += "/" name += "/"
} }
if got, want := h2.Name, name; got != want { if got, want := h2.Name, name; got != want {
t.Errorf("i=%d: Name: got %v, want %v", i, got, want) t.Errorf("i=%d: Name: got %v, want %v", i, got, want)
} }
if got, want := h2.Size, g.h.Size; got != want { if got, want := h2.Size, v.h.Size; got != want {
t.Errorf("i=%d: Size: got %v, want %v", i, got, want) t.Errorf("i=%d: Size: got %v, want %v", i, got, want)
} }
if got, want := h2.Uid, g.h.Uid; got != want { if got, want := h2.Uid, v.h.Uid; got != want {
t.Errorf("i=%d: Uid: got %d, want %d", i, got, want) t.Errorf("i=%d: Uid: got %d, want %d", i, got, want)
} }
if got, want := h2.Gid, g.h.Gid; got != want { if got, want := h2.Gid, v.h.Gid; got != want {
t.Errorf("i=%d: Gid: got %d, want %d", i, got, want) t.Errorf("i=%d: Gid: got %d, want %d", i, got, want)
} }
if got, want := h2.Uname, g.h.Uname; got != want { if got, want := h2.Uname, v.h.Uname; got != want {
t.Errorf("i=%d: Uname: got %q, want %q", i, got, want) t.Errorf("i=%d: Uname: got %q, want %q", i, got, want)
} }
if got, want := h2.Gname, g.h.Gname; got != want { if got, want := h2.Gname, v.h.Gname; got != want {
t.Errorf("i=%d: Gname: got %q, want %q", i, got, want) t.Errorf("i=%d: Gname: got %q, want %q", i, got, want)
} }
if got, want := h2.Linkname, g.h.Linkname; got != want { if got, want := h2.Linkname, v.h.Linkname; got != want {
t.Errorf("i=%d: Linkname: got %v, want %v", i, got, want) t.Errorf("i=%d: Linkname: got %v, want %v", i, got, want)
} }
if got, want := h2.Typeflag, g.h.Typeflag; got != want { if got, want := h2.Typeflag, v.h.Typeflag; got != want {
t.Logf("%#v %#v", g.h, fi.Sys()) t.Logf("%#v %#v", v.h, fi.Sys())
t.Errorf("i=%d: Typeflag: got %q, want %q", i, got, want) t.Errorf("i=%d: Typeflag: got %q, want %q", i, got, want)
} }
if got, want := h2.Mode, g.h.Mode; got != want { if got, want := h2.Mode, v.h.Mode; got != want {
t.Errorf("i=%d: Mode: got %o, want %o", i, got, want) t.Errorf("i=%d: Mode: got %o, want %o", i, got, want)
} }
if got, want := fi.Mode(), g.fm; got != want { if got, want := fi.Mode(), v.fm; got != want {
t.Errorf("i=%d: fi.Mode: got %o, want %o", i, got, want) t.Errorf("i=%d: fi.Mode: got %o, want %o", i, got, want)
} }
if got, want := h2.AccessTime, g.h.AccessTime; got != want { if got, want := h2.AccessTime, v.h.AccessTime; got != want {
t.Errorf("i=%d: AccessTime: got %v, want %v", i, got, want) t.Errorf("i=%d: AccessTime: got %v, want %v", i, got, want)
} }
if got, want := h2.ChangeTime, g.h.ChangeTime; got != want { if got, want := h2.ChangeTime, v.h.ChangeTime; got != want {
t.Errorf("i=%d: ChangeTime: got %v, want %v", i, got, want) t.Errorf("i=%d: ChangeTime: got %v, want %v", i, got, want)
} }
if got, want := h2.ModTime, g.h.ModTime; got != want { if got, want := h2.ModTime, v.h.ModTime; got != want {
t.Errorf("i=%d: ModTime: got %v, want %v", i, got, want) t.Errorf("i=%d: ModTime: got %v, want %v", i, got, want)
} }
if sysh, ok := fi.Sys().(*Header); !ok || sysh != g.h { if sysh, ok := fi.Sys().(*Header); !ok || sysh != v.h {
t.Errorf("i=%d: Sys didn't return original *Header", i) t.Errorf("i=%d: Sys didn't return original *Header", i)
} }
} }
} }
func TestHeaderAllowedFormats(t *testing.T) {
vectors := []struct {
header *Header // Input header
paxHdrs map[string]string // Expected PAX headers that may be needed
formats Format // Expected formats that can encode the header
}{{
header: &Header{},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{Size: 077777777777},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{Size: 077777777777, Format: FormatUSTAR},
formats: FormatUSTAR,
}, {
header: &Header{Size: 077777777777, Format: FormatPAX},
formats: FormatUSTAR | FormatPAX,
}, {
header: &Header{Size: 077777777777, Format: FormatGNU},
formats: FormatGNU,
}, {
header: &Header{Size: 077777777777 + 1},
paxHdrs: map[string]string{paxSize: "8589934592"},
formats: FormatPAX | FormatGNU,
}, {
header: &Header{Size: 077777777777 + 1, Format: FormatPAX},
paxHdrs: map[string]string{paxSize: "8589934592"},
formats: FormatPAX,
}, {
header: &Header{Size: 077777777777 + 1, Format: FormatGNU},
paxHdrs: map[string]string{paxSize: "8589934592"},
formats: FormatGNU,
}, {
header: &Header{Mode: 07777777},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{Mode: 07777777 + 1},
formats: FormatGNU,
}, {
header: &Header{Devmajor: -123},
formats: FormatGNU,
}, {
header: &Header{Devmajor: 1<<56 - 1},
formats: FormatGNU,
}, {
header: &Header{Devmajor: 1 << 56},
formats: FormatUnknown,
}, {
header: &Header{Devmajor: -1 << 56},
formats: FormatGNU,
}, {
header: &Header{Devmajor: -1<<56 - 1},
formats: FormatUnknown,
}, {
header: &Header{Name: "用戶名", Devmajor: -1 << 56},
formats: FormatGNU,
}, {
header: &Header{Size: math.MaxInt64},
paxHdrs: map[string]string{paxSize: "9223372036854775807"},
formats: FormatPAX | FormatGNU,
}, {
header: &Header{Size: math.MinInt64},
paxHdrs: map[string]string{paxSize: "-9223372036854775808"},
formats: FormatUnknown,
}, {
header: &Header{Uname: "0123456789abcdef0123456789abcdef"},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{Uname: "0123456789abcdef0123456789abcdefx"},
paxHdrs: map[string]string{paxUname: "0123456789abcdef0123456789abcdefx"},
formats: FormatPAX,
}, {
header: &Header{Name: "foobar"},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{Name: strings.Repeat("a", nameSize)},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{Name: strings.Repeat("a", nameSize+1)},
paxHdrs: map[string]string{paxPath: strings.Repeat("a", nameSize+1)},
formats: FormatPAX | FormatGNU,
}, {
header: &Header{Linkname: "用戶名"},
paxHdrs: map[string]string{paxLinkpath: "用戶名"},
formats: FormatPAX | FormatGNU,
}, {
header: &Header{Linkname: strings.Repeat("用戶名\x00", nameSize)},
paxHdrs: map[string]string{paxLinkpath: strings.Repeat("用戶名\x00", nameSize)},
formats: FormatUnknown,
}, {
header: &Header{Linkname: "\x00hello"},
paxHdrs: map[string]string{paxLinkpath: "\x00hello"},
formats: FormatUnknown,
}, {
header: &Header{Uid: 07777777},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{Uid: 07777777 + 1},
paxHdrs: map[string]string{paxUid: "2097152"},
formats: FormatPAX | FormatGNU,
}, {
header: &Header{Xattrs: nil},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{Xattrs: map[string]string{"foo": "bar"}},
paxHdrs: map[string]string{paxSchilyXattr + "foo": "bar"},
formats: FormatPAX,
}, {
header: &Header{Xattrs: map[string]string{"foo": "bar"}, Format: FormatGNU},
paxHdrs: map[string]string{paxSchilyXattr + "foo": "bar"},
formats: FormatUnknown,
}, {
header: &Header{Xattrs: map[string]string{"用戶名": "\x00hello"}},
paxHdrs: map[string]string{paxSchilyXattr + "用戶名": "\x00hello"},
formats: FormatPAX,
}, {
header: &Header{Xattrs: map[string]string{"foo=bar": "baz"}},
formats: FormatUnknown,
}, {
header: &Header{Xattrs: map[string]string{"foo": ""}},
paxHdrs: map[string]string{paxSchilyXattr + "foo": ""},
formats: FormatPAX,
}, {
header: &Header{ModTime: time.Unix(0, 0)},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{ModTime: time.Unix(077777777777, 0)},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{ModTime: time.Unix(077777777777+1, 0)},
paxHdrs: map[string]string{paxMtime: "8589934592"},
formats: FormatPAX | FormatGNU,
}, {
header: &Header{ModTime: time.Unix(math.MaxInt64, 0)},
paxHdrs: map[string]string{paxMtime: "9223372036854775807"},
formats: FormatPAX | FormatGNU,
}, {
header: &Header{ModTime: time.Unix(math.MaxInt64, 0), Format: FormatUSTAR},
paxHdrs: map[string]string{paxMtime: "9223372036854775807"},
formats: FormatUnknown,
}, {
header: &Header{ModTime: time.Unix(-1, 0)},
paxHdrs: map[string]string{paxMtime: "-1"},
formats: FormatPAX | FormatGNU,
}, {
header: &Header{ModTime: time.Unix(1, 500)},
paxHdrs: map[string]string{paxMtime: "1.0000005"},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{ModTime: time.Unix(1, 0)},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{ModTime: time.Unix(1, 0), Format: FormatPAX},
formats: FormatUSTAR | FormatPAX,
}, {
header: &Header{ModTime: time.Unix(1, 500), Format: FormatUSTAR},
paxHdrs: map[string]string{paxMtime: "1.0000005"},
formats: FormatUSTAR,
}, {
header: &Header{ModTime: time.Unix(1, 500), Format: FormatPAX},
paxHdrs: map[string]string{paxMtime: "1.0000005"},
formats: FormatPAX,
}, {
header: &Header{ModTime: time.Unix(1, 500), Format: FormatGNU},
paxHdrs: map[string]string{paxMtime: "1.0000005"},
formats: FormatGNU,
}, {
header: &Header{ModTime: time.Unix(-1, 500)},
paxHdrs: map[string]string{paxMtime: "-0.9999995"},
formats: FormatPAX | FormatGNU,
}, {
header: &Header{ModTime: time.Unix(-1, 500), Format: FormatGNU},
paxHdrs: map[string]string{paxMtime: "-0.9999995"},
formats: FormatGNU,
}, {
header: &Header{AccessTime: time.Unix(0, 0)},
paxHdrs: map[string]string{paxAtime: "0"},
formats: FormatPAX | FormatGNU,
}, {
header: &Header{AccessTime: time.Unix(0, 0), Format: FormatUSTAR},
paxHdrs: map[string]string{paxAtime: "0"},
formats: FormatUnknown,
}, {
header: &Header{AccessTime: time.Unix(0, 0), Format: FormatPAX},
paxHdrs: map[string]string{paxAtime: "0"},
formats: FormatPAX,
}, {
header: &Header{AccessTime: time.Unix(0, 0), Format: FormatGNU},
paxHdrs: map[string]string{paxAtime: "0"},
formats: FormatGNU,
}, {
header: &Header{AccessTime: time.Unix(-123, 0)},
paxHdrs: map[string]string{paxAtime: "-123"},
formats: FormatPAX | FormatGNU,
}, {
header: &Header{AccessTime: time.Unix(-123, 0), Format: FormatPAX},
paxHdrs: map[string]string{paxAtime: "-123"},
formats: FormatPAX,
}, {
header: &Header{ChangeTime: time.Unix(123, 456)},
paxHdrs: map[string]string{paxCtime: "123.000000456"},
formats: FormatPAX | FormatGNU,
}, {
header: &Header{ChangeTime: time.Unix(123, 456), Format: FormatUSTAR},
paxHdrs: map[string]string{paxCtime: "123.000000456"},
formats: FormatUnknown,
}, {
header: &Header{ChangeTime: time.Unix(123, 456), Format: FormatGNU},
paxHdrs: map[string]string{paxCtime: "123.000000456"},
formats: FormatGNU,
}, {
header: &Header{ChangeTime: time.Unix(123, 456), Format: FormatPAX},
paxHdrs: map[string]string{paxCtime: "123.000000456"},
formats: FormatPAX,
}, {
header: &Header{Name: "foo/", Typeflag: TypeDir},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}, {
header: &Header{Name: "foo/", Typeflag: TypeReg},
formats: FormatUnknown,
}, {
header: &Header{Name: "foo/", Typeflag: TypeSymlink},
formats: FormatUSTAR | FormatPAX | FormatGNU,
}}
for i, v := range vectors {
formats, paxHdrs, err := v.header.allowedFormats()
if formats != v.formats {
t.Errorf("test %d, allowedFormats(): got %v, want %v", i, formats, v.formats)
}
if formats&FormatPAX > 0 && !reflect.DeepEqual(paxHdrs, v.paxHdrs) && !(len(paxHdrs) == 0 && len(v.paxHdrs) == 0) {
t.Errorf("test %d, allowedFormats():\ngot %v\nwant %s", i, paxHdrs, v.paxHdrs)
}
if (formats != FormatUnknown) && (err != nil) {
t.Errorf("test %d, unexpected error: %v", i, err)
}
if (formats == FormatUnknown) && (err == nil) {
t.Errorf("test %d, got nil-error, want non-nil error", i)
}
}
}
func Benchmark(b *testing.B) {
type file struct {
hdr *Header
body []byte
}
vectors := []struct {
label string
files []file
}{{
"USTAR",
[]file{{
&Header{Name: "bar", Mode: 0640, Size: int64(3)},
[]byte("foo"),
}, {
&Header{Name: "world", Mode: 0640, Size: int64(5)},
[]byte("hello"),
}},
}, {
"GNU",
[]file{{
&Header{Name: "bar", Mode: 0640, Size: int64(3), Devmajor: -1},
[]byte("foo"),
}, {
&Header{Name: "world", Mode: 0640, Size: int64(5), Devmajor: -1},
[]byte("hello"),
}},
}, {
"PAX",
[]file{{
&Header{Name: "bar", Mode: 0640, Size: int64(3), Xattrs: map[string]string{"foo": "bar"}},
[]byte("foo"),
}, {
&Header{Name: "world", Mode: 0640, Size: int64(5), Xattrs: map[string]string{"foo": "bar"}},
[]byte("hello"),
}},
}}
b.Run("Writer", func(b *testing.B) {
for _, v := range vectors {
b.Run(v.label, func(b *testing.B) {
b.ReportAllocs()
for i := 0; i < b.N; i++ {
// Writing to ioutil.Discard because we want to
// test purely the writer code and not bring in disk performance into this.
tw := NewWriter(ioutil.Discard)
for _, file := range v.files {
if err := tw.WriteHeader(file.hdr); err != nil {
b.Errorf("unexpected WriteHeader error: %v", err)
}
if _, err := tw.Write(file.body); err != nil {
b.Errorf("unexpected Write error: %v", err)
}
}
if err := tw.Close(); err != nil {
b.Errorf("unexpected Close error: %v", err)
}
}
})
}
})
b.Run("Reader", func(b *testing.B) {
for _, v := range vectors {
var buf bytes.Buffer
var r bytes.Reader
// Write the archive to a byte buffer.
tw := NewWriter(&buf)
for _, file := range v.files {
tw.WriteHeader(file.hdr)
tw.Write(file.body)
}
tw.Close()
b.Run(v.label, func(b *testing.B) {
b.ReportAllocs()
// Read from the byte buffer.
for i := 0; i < b.N; i++ {
r.Reset(buf.Bytes())
tr := NewReader(&r)
if _, err := tr.Next(); err != nil {
b.Errorf("unexpected Next error: %v", err)
}
if _, err := io.Copy(ioutil.Discard, tr); err != nil {
b.Errorf("unexpected Copy error : %v", err)
}
}
})
}
})
}

BIN
archive/tar/testdata/file-and-dir.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/gnu-incremental.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/gnu-long-nul.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/gnu-nil-sparse-data.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/gnu-nil-sparse-hole.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/gnu-not-utf8.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/gnu-sparse-big.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/gnu-utf8.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/invalid-go17.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/pax-bad-hdr-file.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/pax-bad-mtime-file.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/pax-global-records.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/pax-nil-sparse-data.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/pax-nil-sparse-hole.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/pax-nul-path.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/pax-nul-xattrs.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/pax-pos-size-file.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/pax-records.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/pax-sparse-big.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/trailing-slash.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/ustar-file-devs.tar vendored Normal file
View File

Binary file not shown.

BIN
archive/tar/testdata/writer-big-long.tar vendored
View File

Binary file not shown.

BIN
archive/tar/testdata/writer-big.tar vendored
View File

Binary file not shown.

925
archive/tar/writer.go
View File

@ -4,295 +4,410 @@
package tar package tar
// TODO(dsymonds):
// - catch more errors (no first header, etc.)
import ( import (
"bytes"
"errors"
"fmt" "fmt"
"io" "io"
"path" "path"
"sort" "sort"
"strconv"
"strings" "strings"
"time" "time"
) )
var ( // Writer provides sequential writing of a tar archive.
ErrWriteTooLong = errors.New("archive/tar: write too long") // Write.WriteHeader begins a new file with the provided Header,
ErrFieldTooLong = errors.New("archive/tar: header field too long") // and then Writer can be treated as an io.Writer to supply that file's data.
ErrWriteAfterClose = errors.New("archive/tar: write after close")
errInvalidHeader = errors.New("archive/tar: header field too long or contains invalid values")
)
// A Writer provides sequential writing of a tar archive in POSIX.1 format.
// A tar archive consists of a sequence of files.
// Call WriteHeader to begin a new file, and then call Write to supply that file's data,
// writing at most hdr.Size bytes in total.
type Writer struct { type Writer struct {
w io.Writer w io.Writer
err error pad int64 // Amount of padding to write after current file entry
nb int64 // number of unwritten bytes for current file entry curr fileWriter // Writer for current file entry
pad int64 // amount of padding to write after current file entry hdr Header // Shallow copy of Header that is safe for mutations
closed bool blk block // Buffer to use as temporary local storage
usedBinary bool // whether the binary numeric field extension was used
preferPax bool // use pax header instead of binary numeric header
hdrBuff [blockSize]byte // buffer to use in writeHeader when writing a regular header
paxHdrBuff [blockSize]byte // buffer to use in writeHeader when writing a pax header
}
type formatter struct { // err is a persistent error.
err error // Last error seen // It is only the responsibility of every exported method of Writer to
// ensure that this error is sticky.
err error
} }
// NewWriter creates a new Writer writing to w. // NewWriter creates a new Writer writing to w.
func NewWriter(w io.Writer) *Writer { return &Writer{w: w} } func NewWriter(w io.Writer) *Writer {
return &Writer{w: w, curr: &regFileWriter{w, 0}}
// Flush finishes writing the current file (optional).
func (tw *Writer) Flush() error {
if tw.nb > 0 {
tw.err = fmt.Errorf("archive/tar: missed writing %d bytes", tw.nb)
return tw.err
}
n := tw.nb + tw.pad
for n > 0 && tw.err == nil {
nr := n
if nr > blockSize {
nr = blockSize
}
var nw int
nw, tw.err = tw.w.Write(zeroBlock[0:nr])
n -= int64(nw)
}
tw.nb = 0
tw.pad = 0
return tw.err
} }
// Write s into b, terminating it with a NUL if there is room. type fileWriter interface {
func (f *formatter) formatString(b []byte, s string) { io.Writer
if len(s) > len(b) { fileState
f.err = ErrFieldTooLong
return ReadFrom(io.Reader) (int64, error)
}
ascii := toASCII(s)
copy(b, ascii)
if len(ascii) < len(b) {
b[len(ascii)] = 0
}
} }
// Encode x as an octal ASCII string and write it into b with leading zeros. // Flush finishes writing the current file's block padding.
func (f *formatter) formatOctal(b []byte, x int64) { // The current file must be fully written before Flush can be called.
s := strconv.FormatInt(x, 8)
// leading zeros, but leave room for a NUL.
for len(s)+1 < len(b) {
s = "0" + s
}
f.formatString(b, s)
}
// fitsInBase256 reports whether x can be encoded into n bytes using base-256
// encoding. Unlike octal encoding, base-256 encoding does not require that the
// string ends with a NUL character. Thus, all n bytes are available for output.
// //
// If operating in binary mode, this assumes strict GNU binary mode; which means // This is unnecessary as the next call to WriteHeader or Close
// that the first byte can only be either 0x80 or 0xff. Thus, the first byte is // will implicitly flush out the file's padding.
// equivalent to the sign bit in two's complement form. func (tw *Writer) Flush() error {
func fitsInBase256(n int, x int64) bool {
var binBits = uint(n-1) * 8
return n >= 9 || (x >= -1<<binBits && x < 1<<binBits)
}
// Write x into b, as binary (GNUtar/star extension).
func (f *formatter) formatNumeric(b []byte, x int64) {
if fitsInBase256(len(b), x) {
for i := len(b) - 1; i >= 0; i-- {
b[i] = byte(x)
x >>= 8
}
b[0] |= 0x80 // Highest bit indicates binary format
return
}
f.formatOctal(b, 0) // Last resort, just write zero
f.err = ErrFieldTooLong
}
var (
minTime = time.Unix(0, 0)
// There is room for 11 octal digits (33 bits) of mtime.
maxTime = minTime.Add((1<<33 - 1) * time.Second)
)
// WriteHeader writes hdr and prepares to accept the file's contents.
// WriteHeader calls Flush if it is not the first header.
// Calling after a Close will return ErrWriteAfterClose.
func (tw *Writer) WriteHeader(hdr *Header) error {
return tw.writeHeader(hdr, true)
}
// WriteHeader writes hdr and prepares to accept the file's contents.
// WriteHeader calls Flush if it is not the first header.
// Calling after a Close will return ErrWriteAfterClose.
// As this method is called internally by writePax header to allow it to
// suppress writing the pax header.
func (tw *Writer) writeHeader(hdr *Header, allowPax bool) error {
if tw.closed {
return ErrWriteAfterClose
}
if tw.err == nil {
tw.Flush()
}
if tw.err != nil { if tw.err != nil {
return tw.err return tw.err
} }
if nb := tw.curr.LogicalRemaining(); nb > 0 {
// a map to hold pax header records, if any are needed return fmt.Errorf("archive/tar: missed writing %d bytes", nb)
paxHeaders := make(map[string]string)
// TODO(shanemhansen): we might want to use PAX headers for
// subsecond time resolution, but for now let's just capture
// too long fields or non ascii characters
var f formatter
var header []byte
// We need to select which scratch buffer to use carefully,
// since this method is called recursively to write PAX headers.
// If allowPax is true, this is the non-recursive call, and we will use hdrBuff.
// If allowPax is false, we are being called by writePAXHeader, and hdrBuff is
// already being used by the non-recursive call, so we must use paxHdrBuff.
header = tw.hdrBuff[:]
if !allowPax {
header = tw.paxHdrBuff[:]
} }
copy(header, zeroBlock) if _, tw.err = tw.w.Write(zeroBlock[:tw.pad]); tw.err != nil {
s := slicer(header)
// Wrappers around formatter that automatically sets paxHeaders if the
// argument extends beyond the capacity of the input byte slice.
var formatString = func(b []byte, s string, paxKeyword string) {
needsPaxHeader := paxKeyword != paxNone && len(s) > len(b) || !isASCII(s)
if needsPaxHeader {
paxHeaders[paxKeyword] = s
return
}
f.formatString(b, s)
}
var formatNumeric = func(b []byte, x int64, paxKeyword string) {
// Try octal first.
s := strconv.FormatInt(x, 8)
if len(s) < len(b) {
f.formatOctal(b, x)
return
}
// If it is too long for octal, and PAX is preferred, use a PAX header.
if paxKeyword != paxNone && tw.preferPax {
f.formatOctal(b, 0)
s := strconv.FormatInt(x, 10)
paxHeaders[paxKeyword] = s
return
}
tw.usedBinary = true
f.formatNumeric(b, x)
}
// keep a reference to the filename to allow to overwrite it later if we detect that we can use ustar longnames instead of pax
pathHeaderBytes := s.next(fileNameSize)
formatString(pathHeaderBytes, hdr.Name, paxPath)
// Handle out of range ModTime carefully.
var modTime int64
if !hdr.ModTime.Before(minTime) && !hdr.ModTime.After(maxTime) {
modTime = hdr.ModTime.Unix()
}
f.formatOctal(s.next(8), hdr.Mode) // 100:108
formatNumeric(s.next(8), int64(hdr.Uid), paxUid) // 108:116
formatNumeric(s.next(8), int64(hdr.Gid), paxGid) // 116:124
formatNumeric(s.next(12), hdr.Size, paxSize) // 124:136
formatNumeric(s.next(12), modTime, paxNone) // 136:148 --- consider using pax for finer granularity
s.next(8) // chksum (148:156)
s.next(1)[0] = hdr.Typeflag // 156:157
formatString(s.next(100), hdr.Linkname, paxLinkpath)
copy(s.next(8), []byte("ustar\x0000")) // 257:265
formatString(s.next(32), hdr.Uname, paxUname) // 265:297
formatString(s.next(32), hdr.Gname, paxGname) // 297:329
formatNumeric(s.next(8), hdr.Devmajor, paxNone) // 329:337
formatNumeric(s.next(8), hdr.Devminor, paxNone) // 337:345
// keep a reference to the prefix to allow to overwrite it later if we detect that we can use ustar longnames instead of pax
prefixHeaderBytes := s.next(155)
formatString(prefixHeaderBytes, "", paxNone) // 345:500 prefix
// Use the GNU magic instead of POSIX magic if we used any GNU extensions.
if tw.usedBinary {
copy(header[257:265], []byte("ustar \x00"))
}
_, paxPathUsed := paxHeaders[paxPath]
// try to use a ustar header when only the name is too long
if !tw.preferPax && len(paxHeaders) == 1 && paxPathUsed {
prefix, suffix, ok := splitUSTARPath(hdr.Name)
if ok {
// Since we can encode in USTAR format, disable PAX header.
delete(paxHeaders, paxPath)
// Update the path fields
formatString(pathHeaderBytes, suffix, paxNone)
formatString(prefixHeaderBytes, prefix, paxNone)
}
}
// The chksum field is terminated by a NUL and a space.
// This is different from the other octal fields.
chksum, _ := checksum(header)
f.formatOctal(header[148:155], chksum) // Never fails
header[155] = ' '
// Check if there were any formatting errors.
if f.err != nil {
tw.err = f.err
return tw.err return tw.err
} }
tw.pad = 0
return nil
}
if allowPax { // WriteHeader writes hdr and prepares to accept the file's contents.
for k, v := range hdr.Xattrs { // The Header.Size determines how many bytes can be written for the next file.
paxHeaders[paxXattr+k] = v // If the current file is not fully written, then this returns an error.
// This implicitly flushes any padding necessary before writing the header.
func (tw *Writer) WriteHeader(hdr *Header) error {
if err := tw.Flush(); err != nil {
return err
}
tw.hdr = *hdr // Shallow copy of Header
// Avoid usage of the legacy TypeRegA flag, and automatically promote
// it to use TypeReg or TypeDir.
if tw.hdr.Typeflag == TypeRegA {
if strings.HasSuffix(tw.hdr.Name, "/") {
tw.hdr.Typeflag = TypeDir
} else {
tw.hdr.Typeflag = TypeReg
} }
} }
if len(paxHeaders) > 0 { // Round ModTime and ignore AccessTime and ChangeTime unless
if !allowPax { // the format is explicitly chosen.
return errInvalidHeader // This ensures nominal usage of WriteHeader (without specifying the format)
// does not always result in the PAX format being chosen, which
// causes a 1KiB increase to every header.
if tw.hdr.Format == FormatUnknown {
tw.hdr.ModTime = tw.hdr.ModTime.Round(time.Second)
tw.hdr.AccessTime = time.Time{}
tw.hdr.ChangeTime = time.Time{}
}
allowedFormats, paxHdrs, err := tw.hdr.allowedFormats()
switch {
case allowedFormats.has(FormatUSTAR):
tw.err = tw.writeUSTARHeader(&tw.hdr)
return tw.err
case allowedFormats.has(FormatPAX):
tw.err = tw.writePAXHeader(&tw.hdr, paxHdrs)
return tw.err
case allowedFormats.has(FormatGNU):
tw.err = tw.writeGNUHeader(&tw.hdr)
return tw.err
default:
return err // Non-fatal error
}
}
func (tw *Writer) writeUSTARHeader(hdr *Header) error {
// Check if we can use USTAR prefix/suffix splitting.
var namePrefix string
if prefix, suffix, ok := splitUSTARPath(hdr.Name); ok {
namePrefix, hdr.Name = prefix, suffix
}
// Pack the main header.
var f formatter
blk := tw.templateV7Plus(hdr, f.formatString, f.formatOctal)
f.formatString(blk.USTAR().Prefix(), namePrefix)
blk.SetFormat(FormatUSTAR)
if f.err != nil {
return f.err // Should never happen since header is validated
}
return tw.writeRawHeader(blk, hdr.Size, hdr.Typeflag)
}
func (tw *Writer) writePAXHeader(hdr *Header, paxHdrs map[string]string) error {
realName, realSize := hdr.Name, hdr.Size
// TODO(dsnet): Re-enable this when adding sparse support.
// See https://golang.org/issue/22735
/*
// Handle sparse files.
var spd sparseDatas
var spb []byte
if len(hdr.SparseHoles) > 0 {
sph := append([]sparseEntry{}, hdr.SparseHoles...) // Copy sparse map
sph = alignSparseEntries(sph, hdr.Size)
spd = invertSparseEntries(sph, hdr.Size)
// Format the sparse map.
hdr.Size = 0 // Replace with encoded size
spb = append(strconv.AppendInt(spb, int64(len(spd)), 10), '\n')
for _, s := range spd {
hdr.Size += s.Length
spb = append(strconv.AppendInt(spb, s.Offset, 10), '\n')
spb = append(strconv.AppendInt(spb, s.Length, 10), '\n')
}
pad := blockPadding(int64(len(spb)))
spb = append(spb, zeroBlock[:pad]...)
hdr.Size += int64(len(spb)) // Accounts for encoded sparse map
// Add and modify appropriate PAX records.
dir, file := path.Split(realName)
hdr.Name = path.Join(dir, "GNUSparseFile.0", file)
paxHdrs[paxGNUSparseMajor] = "1"
paxHdrs[paxGNUSparseMinor] = "0"
paxHdrs[paxGNUSparseName] = realName
paxHdrs[paxGNUSparseRealSize] = strconv.FormatInt(realSize, 10)
paxHdrs[paxSize] = strconv.FormatInt(hdr.Size, 10)
delete(paxHdrs, paxPath) // Recorded by paxGNUSparseName
} }
if err := tw.writePAXHeader(hdr, paxHeaders); err != nil { */
_ = realSize
// Write PAX records to the output.
isGlobal := hdr.Typeflag == TypeXGlobalHeader
if len(paxHdrs) > 0 || isGlobal {
// Sort keys for deterministic ordering.
var keys []string
for k := range paxHdrs {
keys = append(keys, k)
}
sort.Strings(keys)
// Write each record to a buffer.
var buf strings.Builder
for _, k := range keys {
rec, err := formatPAXRecord(k, paxHdrs[k])
if err != nil {
return err
}
buf.WriteString(rec)
}
// Write the extended header file.
var name string
var flag byte
if isGlobal {
name = realName
if name == "" {
name = "GlobalHead.0.0"
}
flag = TypeXGlobalHeader
} else {
dir, file := path.Split(realName)
name = path.Join(dir, "PaxHeaders.0", file)
flag = TypeXHeader
}
data := buf.String()
if err := tw.writeRawFile(name, data, flag, FormatPAX); err != nil || isGlobal {
return err // Global headers return here
}
}
// Pack the main header.
var f formatter // Ignore errors since they are expected
fmtStr := func(b []byte, s string) { f.formatString(b, toASCII(s)) }
blk := tw.templateV7Plus(hdr, fmtStr, f.formatOctal)
blk.SetFormat(FormatPAX)
if err := tw.writeRawHeader(blk, hdr.Size, hdr.Typeflag); err != nil {
return err
}
// TODO(dsnet): Re-enable this when adding sparse support.
// See https://golang.org/issue/22735
/*
// Write the sparse map and setup the sparse writer if necessary.
if len(spd) > 0 {
// Use tw.curr since the sparse map is accounted for in hdr.Size.
if _, err := tw.curr.Write(spb); err != nil {
return err
}
tw.curr = &sparseFileWriter{tw.curr, spd, 0}
}
*/
return nil
}
func (tw *Writer) writeGNUHeader(hdr *Header) error {
// Use long-link files if Name or Linkname exceeds the field size.
const longName = "././@LongLink"
if len(hdr.Name) > nameSize {
data := hdr.Name + "\x00"
if err := tw.writeRawFile(longName, data, TypeGNULongName, FormatGNU); err != nil {
return err
}
}
if len(hdr.Linkname) > nameSize {
data := hdr.Linkname + "\x00"
if err := tw.writeRawFile(longName, data, TypeGNULongLink, FormatGNU); err != nil {
return err return err
} }
} }
tw.nb = int64(hdr.Size)
tw.pad = (blockSize - (tw.nb % blockSize)) % blockSize
_, tw.err = tw.w.Write(header) // Pack the main header.
return tw.err var f formatter // Ignore errors since they are expected
var spd sparseDatas
var spb []byte
blk := tw.templateV7Plus(hdr, f.formatString, f.formatNumeric)
if !hdr.AccessTime.IsZero() {
f.formatNumeric(blk.GNU().AccessTime(), hdr.AccessTime.Unix())
}
if !hdr.ChangeTime.IsZero() {
f.formatNumeric(blk.GNU().ChangeTime(), hdr.ChangeTime.Unix())
}
// TODO(dsnet): Re-enable this when adding sparse support.
// See https://golang.org/issue/22735
/*
if hdr.Typeflag == TypeGNUSparse {
sph := append([]sparseEntry{}, hdr.SparseHoles...) // Copy sparse map
sph = alignSparseEntries(sph, hdr.Size)
spd = invertSparseEntries(sph, hdr.Size)
// Format the sparse map.
formatSPD := func(sp sparseDatas, sa sparseArray) sparseDatas {
for i := 0; len(sp) > 0 && i < sa.MaxEntries(); i++ {
f.formatNumeric(sa.Entry(i).Offset(), sp[0].Offset)
f.formatNumeric(sa.Entry(i).Length(), sp[0].Length)
sp = sp[1:]
}
if len(sp) > 0 {
sa.IsExtended()[0] = 1
}
return sp
}
sp2 := formatSPD(spd, blk.GNU().Sparse())
for len(sp2) > 0 {
var spHdr block
sp2 = formatSPD(sp2, spHdr.Sparse())
spb = append(spb, spHdr[:]...)
}
// Update size fields in the header block.
realSize := hdr.Size
hdr.Size = 0 // Encoded size; does not account for encoded sparse map
for _, s := range spd {
hdr.Size += s.Length
}
copy(blk.V7().Size(), zeroBlock[:]) // Reset field
f.formatNumeric(blk.V7().Size(), hdr.Size)
f.formatNumeric(blk.GNU().RealSize(), realSize)
}
*/
blk.SetFormat(FormatGNU)
if err := tw.writeRawHeader(blk, hdr.Size, hdr.Typeflag); err != nil {
return err
}
// Write the extended sparse map and setup the sparse writer if necessary.
if len(spd) > 0 {
// Use tw.w since the sparse map is not accounted for in hdr.Size.
if _, err := tw.w.Write(spb); err != nil {
return err
}
tw.curr = &sparseFileWriter{tw.curr, spd, 0}
}
return nil
}
type (
stringFormatter func([]byte, string)
numberFormatter func([]byte, int64)
)
// templateV7Plus fills out the V7 fields of a block using values from hdr.
// It also fills out fields (uname, gname, devmajor, devminor) that are
// shared in the USTAR, PAX, and GNU formats using the provided formatters.
//
// The block returned is only valid until the next call to
// templateV7Plus or writeRawFile.
func (tw *Writer) templateV7Plus(hdr *Header, fmtStr stringFormatter, fmtNum numberFormatter) *block {
tw.blk.Reset()
modTime := hdr.ModTime
if modTime.IsZero() {
modTime = time.Unix(0, 0)
}
v7 := tw.blk.V7()
v7.TypeFlag()[0] = hdr.Typeflag
fmtStr(v7.Name(), hdr.Name)
fmtStr(v7.LinkName(), hdr.Linkname)
fmtNum(v7.Mode(), hdr.Mode)
fmtNum(v7.UID(), int64(hdr.Uid))
fmtNum(v7.GID(), int64(hdr.Gid))
fmtNum(v7.Size(), hdr.Size)
fmtNum(v7.ModTime(), modTime.Unix())
ustar := tw.blk.USTAR()
fmtStr(ustar.UserName(), hdr.Uname)
fmtStr(ustar.GroupName(), hdr.Gname)
fmtNum(ustar.DevMajor(), hdr.Devmajor)
fmtNum(ustar.DevMinor(), hdr.Devminor)
return &tw.blk
}
// writeRawFile writes a minimal file with the given name and flag type.
// It uses format to encode the header format and will write data as the body.
// It uses default values for all of the other fields (as BSD and GNU tar does).
func (tw *Writer) writeRawFile(name, data string, flag byte, format Format) error {
tw.blk.Reset()
// Best effort for the filename.
name = toASCII(name)
if len(name) > nameSize {
name = name[:nameSize]
}
name = strings.TrimRight(name, "/")
var f formatter
v7 := tw.blk.V7()
v7.TypeFlag()[0] = flag
f.formatString(v7.Name(), name)
f.formatOctal(v7.Mode(), 0)
f.formatOctal(v7.UID(), 0)
f.formatOctal(v7.GID(), 0)
f.formatOctal(v7.Size(), int64(len(data))) // Must be < 8GiB
f.formatOctal(v7.ModTime(), 0)
tw.blk.SetFormat(format)
if f.err != nil {
return f.err // Only occurs if size condition is violated
}
// Write the header and data.
if err := tw.writeRawHeader(&tw.blk, int64(len(data)), flag); err != nil {
return err
}
_, err := io.WriteString(tw, data)
return err
}
// writeRawHeader writes the value of blk, regardless of its value.
// It sets up the Writer such that it can accept a file of the given size.
// If the flag is a special header-only flag, then the size is treated as zero.
func (tw *Writer) writeRawHeader(blk *block, size int64, flag byte) error {
if err := tw.Flush(); err != nil {
return err
}
if _, err := tw.w.Write(blk[:]); err != nil {
return err
}
if isHeaderOnlyType(flag) {
size = 0
}
tw.curr = &regFileWriter{tw.w, size}
tw.pad = blockPadding(size)
return nil
} }
// splitUSTARPath splits a path according to USTAR prefix and suffix rules. // splitUSTARPath splits a path according to USTAR prefix and suffix rules.
// If the path is not splittable, then it will return ("", "", false). // If the path is not splittable, then it will return ("", "", false).
func splitUSTARPath(name string) (prefix, suffix string, ok bool) { func splitUSTARPath(name string) (prefix, suffix string, ok bool) {
length := len(name) length := len(name)
if length <= fileNameSize || !isASCII(name) { if length <= nameSize || !isASCII(name) {
return "", "", false return "", "", false
} else if length > fileNamePrefixSize+1 { } else if length > prefixSize+1 {
length = fileNamePrefixSize + 1 length = prefixSize + 1
} else if name[length-1] == '/' { } else if name[length-1] == '/' {
length-- length--
} }
@ -300,117 +415,239 @@ func splitUSTARPath(name string) (prefix, suffix string, ok bool) {
i := strings.LastIndex(name[:length], "/") i := strings.LastIndex(name[:length], "/")
nlen := len(name) - i - 1 // nlen is length of suffix nlen := len(name) - i - 1 // nlen is length of suffix
plen := i // plen is length of prefix plen := i // plen is length of prefix
if i <= 0 || nlen > fileNameSize || nlen == 0 || plen > fileNamePrefixSize { if i <= 0 || nlen > nameSize || nlen == 0 || plen > prefixSize {
return "", "", false return "", "", false
} }
return name[:i], name[i+1:], true return name[:i], name[i+1:], true
} }
// writePaxHeader writes an extended pax header to the // Write writes to the current file in the tar archive.
// archive.
func (tw *Writer) writePAXHeader(hdr *Header, paxHeaders map[string]string) error {
// Prepare extended header
ext := new(Header)
ext.Typeflag = TypeXHeader
// Setting ModTime is required for reader parsing to
// succeed, and seems harmless enough.
ext.ModTime = hdr.ModTime
// The spec asks that we namespace our pseudo files
// with the current pid. However, this results in differing outputs
// for identical inputs. As such, the constant 0 is now used instead.
// golang.org/issue/12358
dir, file := path.Split(hdr.Name)
fullName := path.Join(dir, "PaxHeaders.0", file)
ascii := toASCII(fullName)
if len(ascii) > 100 {
ascii = ascii[:100]
}
ext.Name = ascii
// Construct the body
var buf bytes.Buffer
// Keys are sorted before writing to body to allow deterministic output.
var keys []string
for k := range paxHeaders {
keys = append(keys, k)
}
sort.Strings(keys)
for _, k := range keys {
fmt.Fprint(&buf, formatPAXRecord(k, paxHeaders[k]))
}
ext.Size = int64(len(buf.Bytes()))
if err := tw.writeHeader(ext, false); err != nil {
return err
}
if _, err := tw.Write(buf.Bytes()); err != nil {
return err
}
if err := tw.Flush(); err != nil {
return err
}
return nil
}
// formatPAXRecord formats a single PAX record, prefixing it with the
// appropriate length.
func formatPAXRecord(k, v string) string {
const padding = 3 // Extra padding for ' ', '=', and '\n'
size := len(k) + len(v) + padding
size += len(strconv.Itoa(size))
record := fmt.Sprintf("%d %s=%s\n", size, k, v)
// Final adjustment if adding size field increased the record size.
if len(record) != size {
size = len(record)
record = fmt.Sprintf("%d %s=%s\n", size, k, v)
}
return record
}
// Write writes to the current entry in the tar archive.
// Write returns the error ErrWriteTooLong if more than // Write returns the error ErrWriteTooLong if more than
// hdr.Size bytes are written after WriteHeader. // Header.Size bytes are written after WriteHeader.
func (tw *Writer) Write(b []byte) (n int, err error) { //
if tw.closed { // Calling Write on special types like TypeLink, TypeSymlink, TypeChar,
err = ErrWriteAfterClose // TypeBlock, TypeDir, and TypeFifo returns (0, ErrWriteTooLong) regardless
return // of what the Header.Size claims.
func (tw *Writer) Write(b []byte) (int, error) {
if tw.err != nil {
return 0, tw.err
} }
overwrite := false n, err := tw.curr.Write(b)
if int64(len(b)) > tw.nb { if err != nil && err != ErrWriteTooLong {
b = b[0:tw.nb] tw.err = err
overwrite = true
} }
n, err = tw.w.Write(b) return n, err
tw.nb -= int64(n)
if err == nil && overwrite {
err = ErrWriteTooLong
return
}
tw.err = err
return
} }
// Close closes the tar archive, flushing any unwritten // readFrom populates the content of the current file by reading from r.
// data to the underlying writer. // The bytes read must match the number of remaining bytes in the current file.
func (tw *Writer) Close() error { //
if tw.err != nil || tw.closed { // If the current file is sparse and r is an io.ReadSeeker,
return tw.err // then readFrom uses Seek to skip past holes defined in Header.SparseHoles,
// assuming that skipped regions are all NULs.
// This always reads the last byte to ensure r is the right size.
//
// TODO(dsnet): Re-export this when adding sparse file support.
// See https://golang.org/issue/22735
func (tw *Writer) readFrom(r io.Reader) (int64, error) {
if tw.err != nil {
return 0, tw.err
}
n, err := tw.curr.ReadFrom(r)
if err != nil && err != ErrWriteTooLong {
tw.err = err
}
return n, err
}
// Close closes the tar archive by flushing the padding, and writing the footer.
// If the current file (from a prior call to WriteHeader) is not fully written,
// then this returns an error.
func (tw *Writer) Close() error {
if tw.err == ErrWriteAfterClose {
return nil
} }
tw.Flush()
tw.closed = true
if tw.err != nil { if tw.err != nil {
return tw.err return tw.err
} }
// trailer: two zero blocks // Trailer: two zero blocks.
for i := 0; i < 2; i++ { err := tw.Flush()
_, tw.err = tw.w.Write(zeroBlock) for i := 0; i < 2 && err == nil; i++ {
if tw.err != nil { _, err = tw.w.Write(zeroBlock[:])
break }
// Ensure all future actions are invalid.
tw.err = ErrWriteAfterClose
return err // Report IO errors
}
// regFileWriter is a fileWriter for writing data to a regular file entry.
type regFileWriter struct {
w io.Writer // Underlying Writer
nb int64 // Number of remaining bytes to write
}
func (fw *regFileWriter) Write(b []byte) (n int, err error) {
overwrite := int64(len(b)) > fw.nb
if overwrite {
b = b[:fw.nb]
}
if len(b) > 0 {
n, err = fw.w.Write(b)
fw.nb -= int64(n)
}
switch {
case err != nil:
return n, err
case overwrite:
return n, ErrWriteTooLong
default:
return n, nil
}
}
func (fw *regFileWriter) ReadFrom(r io.Reader) (int64, error) {
return io.Copy(struct{ io.Writer }{fw}, r)
}
func (fw regFileWriter) LogicalRemaining() int64 {
return fw.nb
}
func (fw regFileWriter) PhysicalRemaining() int64 {
return fw.nb
}
// sparseFileWriter is a fileWriter for writing data to a sparse file entry.
type sparseFileWriter struct {
fw fileWriter // Underlying fileWriter
sp sparseDatas // Normalized list of data fragments
pos int64 // Current position in sparse file
}
func (sw *sparseFileWriter) Write(b []byte) (n int, err error) {
overwrite := int64(len(b)) > sw.LogicalRemaining()
if overwrite {
b = b[:sw.LogicalRemaining()]
}
b0 := b
endPos := sw.pos + int64(len(b))
for endPos > sw.pos && err == nil {
var nf int // Bytes written in fragment
dataStart, dataEnd := sw.sp[0].Offset, sw.sp[0].endOffset()
if sw.pos < dataStart { // In a hole fragment
bf := b[:min(int64(len(b)), dataStart-sw.pos)]
nf, err = zeroWriter{}.Write(bf)
} else { // In a data fragment
bf := b[:min(int64(len(b)), dataEnd-sw.pos)]
nf, err = sw.fw.Write(bf)
}
b = b[nf:]
sw.pos += int64(nf)
if sw.pos >= dataEnd && len(sw.sp) > 1 {
sw.sp = sw.sp[1:] // Ensure last fragment always remains
} }
} }
return tw.err
n = len(b0) - len(b)
switch {
case err == ErrWriteTooLong:
return n, errMissData // Not possible; implies bug in validation logic
case err != nil:
return n, err
case sw.LogicalRemaining() == 0 && sw.PhysicalRemaining() > 0:
return n, errUnrefData // Not possible; implies bug in validation logic
case overwrite:
return n, ErrWriteTooLong
default:
return n, nil
}
}
func (sw *sparseFileWriter) ReadFrom(r io.Reader) (n int64, err error) {
rs, ok := r.(io.ReadSeeker)
if ok {
if _, err := rs.Seek(0, io.SeekCurrent); err != nil {
ok = false // Not all io.Seeker can really seek
}
}
if !ok {
return io.Copy(struct{ io.Writer }{sw}, r)
}
var readLastByte bool
pos0 := sw.pos
for sw.LogicalRemaining() > 0 && !readLastByte && err == nil {
var nf int64 // Size of fragment
dataStart, dataEnd := sw.sp[0].Offset, sw.sp[0].endOffset()
if sw.pos < dataStart { // In a hole fragment
nf = dataStart - sw.pos
if sw.PhysicalRemaining() == 0 {
readLastByte = true
nf--
}
_, err = rs.Seek(nf, io.SeekCurrent)
} else { // In a data fragment
nf = dataEnd - sw.pos
nf, err = io.CopyN(sw.fw, rs, nf)
}
sw.pos += nf
if sw.pos >= dataEnd && len(sw.sp) > 1 {
sw.sp = sw.sp[1:] // Ensure last fragment always remains
}
}
// If the last fragment is a hole, then seek to 1-byte before EOF, and
// read a single byte to ensure the file is the right size.
if readLastByte && err == nil {
_, err = mustReadFull(rs, []byte{0})
sw.pos++
}
n = sw.pos - pos0
switch {
case err == io.EOF:
return n, io.ErrUnexpectedEOF
case err == ErrWriteTooLong:
return n, errMissData // Not possible; implies bug in validation logic
case err != nil:
return n, err
case sw.LogicalRemaining() == 0 && sw.PhysicalRemaining() > 0:
return n, errUnrefData // Not possible; implies bug in validation logic
default:
return n, ensureEOF(rs)
}
}
func (sw sparseFileWriter) LogicalRemaining() int64 {
return sw.sp[len(sw.sp)-1].endOffset() - sw.pos
}
func (sw sparseFileWriter) PhysicalRemaining() int64 {
return sw.fw.PhysicalRemaining()
}
// zeroWriter may only be written with NULs, otherwise it returns errWriteHole.
type zeroWriter struct{}
func (zeroWriter) Write(b []byte) (int, error) {
for i, c := range b {
if c != 0 {
return i, errWriteHole
}
}
return len(b), nil
}
// ensureEOF checks whether r is at EOF, reporting ErrWriteTooLong if not so.
func ensureEOF(r io.Reader) error {
n, err := tryReadFull(r, []byte{0})
switch {
case n > 0:
return ErrWriteTooLong
case err == io.EOF:
return nil
default:
return err
}
} }

1309
archive/tar/writer_test.go
View File

File diff suppressed because it is too large Load Diff