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moby--moby/pkg/archive/archive.go
Sebastiaan van Stijn 52c1a2fae8
gofmt GoDoc comments with go1.19
Older versions of Go don't format comments, so committing this as
a separate commit, so that we can already make these changes before
we upgrade to Go 1.19.

Signed-off-by: Sebastiaan van Stijn <github@gone.nl>
2022-07-08 19:56:23 +02:00

1447 lines
43 KiB
Go

package archive // import "github.com/docker/docker/pkg/archive"
import (
"archive/tar"
"bufio"
"bytes"
"compress/bzip2"
"compress/gzip"
"context"
"encoding/binary"
"fmt"
"io"
"os"
"path/filepath"
"runtime"
"strconv"
"strings"
"syscall"
"time"
"github.com/containerd/containerd/pkg/userns"
"github.com/docker/docker/pkg/fileutils"
"github.com/docker/docker/pkg/idtools"
"github.com/docker/docker/pkg/ioutils"
"github.com/docker/docker/pkg/pools"
"github.com/docker/docker/pkg/system"
"github.com/klauspost/compress/zstd"
"github.com/pkg/errors"
"github.com/sirupsen/logrus"
exec "golang.org/x/sys/execabs"
)
type (
// Compression is the state represents if compressed or not.
Compression int
// WhiteoutFormat is the format of whiteouts unpacked
WhiteoutFormat int
// TarOptions wraps the tar options.
TarOptions struct {
IncludeFiles []string
ExcludePatterns []string
Compression Compression
NoLchown bool
IDMap idtools.IdentityMapping
ChownOpts *idtools.Identity
IncludeSourceDir bool
// WhiteoutFormat is the expected on disk format for whiteout files.
// This format will be converted to the standard format on pack
// and from the standard format on unpack.
WhiteoutFormat WhiteoutFormat
// When unpacking, specifies whether overwriting a directory with a
// non-directory is allowed and vice versa.
NoOverwriteDirNonDir bool
// For each include when creating an archive, the included name will be
// replaced with the matching name from this map.
RebaseNames map[string]string
InUserNS bool
}
)
// Archiver implements the Archiver interface and allows the reuse of most utility functions of
// this package with a pluggable Untar function. Also, to facilitate the passing of specific id
// mappings for untar, an Archiver can be created with maps which will then be passed to Untar operations.
type Archiver struct {
Untar func(io.Reader, string, *TarOptions) error
IDMapping idtools.IdentityMapping
}
// NewDefaultArchiver returns a new Archiver without any IdentityMapping
func NewDefaultArchiver() *Archiver {
return &Archiver{Untar: Untar}
}
// breakoutError is used to differentiate errors related to breaking out
// When testing archive breakout in the unit tests, this error is expected
// in order for the test to pass.
type breakoutError error
const (
// Uncompressed represents the uncompressed.
Uncompressed Compression = iota
// Bzip2 is bzip2 compression algorithm.
Bzip2
// Gzip is gzip compression algorithm.
Gzip
// Xz is xz compression algorithm.
Xz
// Zstd is zstd compression algorithm.
Zstd
)
const (
// AUFSWhiteoutFormat is the default format for whiteouts
AUFSWhiteoutFormat WhiteoutFormat = iota
// OverlayWhiteoutFormat formats whiteout according to the overlay
// standard.
OverlayWhiteoutFormat
)
const (
modeISDIR = 040000 // Directory
modeISFIFO = 010000 // FIFO
modeISREG = 0100000 // Regular file
modeISLNK = 0120000 // Symbolic link
modeISBLK = 060000 // Block special file
modeISCHR = 020000 // Character special file
modeISSOCK = 0140000 // Socket
)
// IsArchivePath checks if the (possibly compressed) file at the given path
// starts with a tar file header.
func IsArchivePath(path string) bool {
file, err := os.Open(path)
if err != nil {
return false
}
defer file.Close()
rdr, err := DecompressStream(file)
if err != nil {
return false
}
defer rdr.Close()
r := tar.NewReader(rdr)
_, err = r.Next()
return err == nil
}
const (
zstdMagicSkippableStart = 0x184D2A50
zstdMagicSkippableMask = 0xFFFFFFF0
)
var (
bzip2Magic = []byte{0x42, 0x5A, 0x68}
gzipMagic = []byte{0x1F, 0x8B, 0x08}
xzMagic = []byte{0xFD, 0x37, 0x7A, 0x58, 0x5A, 0x00}
zstdMagic = []byte{0x28, 0xb5, 0x2f, 0xfd}
)
type matcher = func([]byte) bool
func magicNumberMatcher(m []byte) matcher {
return func(source []byte) bool {
return bytes.HasPrefix(source, m)
}
}
// zstdMatcher detects zstd compression algorithm.
// Zstandard compressed data is made of one or more frames.
// There are two frame formats defined by Zstandard: Zstandard frames and Skippable frames.
// See https://tools.ietf.org/id/draft-kucherawy-dispatch-zstd-00.html#rfc.section.2 for more details.
func zstdMatcher() matcher {
return func(source []byte) bool {
if bytes.HasPrefix(source, zstdMagic) {
// Zstandard frame
return true
}
// skippable frame
if len(source) < 8 {
return false
}
// magic number from 0x184D2A50 to 0x184D2A5F.
if binary.LittleEndian.Uint32(source[:4])&zstdMagicSkippableMask == zstdMagicSkippableStart {
return true
}
return false
}
}
// DetectCompression detects the compression algorithm of the source.
func DetectCompression(source []byte) Compression {
compressionMap := map[Compression]matcher{
Bzip2: magicNumberMatcher(bzip2Magic),
Gzip: magicNumberMatcher(gzipMagic),
Xz: magicNumberMatcher(xzMagic),
Zstd: zstdMatcher(),
}
for _, compression := range []Compression{Bzip2, Gzip, Xz, Zstd} {
fn := compressionMap[compression]
if fn(source) {
return compression
}
}
return Uncompressed
}
func xzDecompress(ctx context.Context, archive io.Reader) (io.ReadCloser, error) {
args := []string{"xz", "-d", "-c", "-q"}
return cmdStream(exec.CommandContext(ctx, args[0], args[1:]...), archive)
}
func gzDecompress(ctx context.Context, buf io.Reader) (io.ReadCloser, error) {
if noPigzEnv := os.Getenv("MOBY_DISABLE_PIGZ"); noPigzEnv != "" {
noPigz, err := strconv.ParseBool(noPigzEnv)
if err != nil {
logrus.WithError(err).Warn("invalid value in MOBY_DISABLE_PIGZ env var")
}
if noPigz {
logrus.Debugf("Use of pigz is disabled due to MOBY_DISABLE_PIGZ=%s", noPigzEnv)
return gzip.NewReader(buf)
}
}
unpigzPath, err := exec.LookPath("unpigz")
if err != nil {
logrus.Debugf("unpigz binary not found, falling back to go gzip library")
return gzip.NewReader(buf)
}
logrus.Debugf("Using %s to decompress", unpigzPath)
return cmdStream(exec.CommandContext(ctx, unpigzPath, "-d", "-c"), buf)
}
func wrapReadCloser(readBuf io.ReadCloser, cancel context.CancelFunc) io.ReadCloser {
return ioutils.NewReadCloserWrapper(readBuf, func() error {
cancel()
return readBuf.Close()
})
}
// DecompressStream decompresses the archive and returns a ReaderCloser with the decompressed archive.
func DecompressStream(archive io.Reader) (io.ReadCloser, error) {
p := pools.BufioReader32KPool
buf := p.Get(archive)
bs, err := buf.Peek(10)
if err != nil && err != io.EOF {
// Note: we'll ignore any io.EOF error because there are some odd
// cases where the layer.tar file will be empty (zero bytes) and
// that results in an io.EOF from the Peek() call. So, in those
// cases we'll just treat it as a non-compressed stream and
// that means just create an empty layer.
// See Issue 18170
return nil, err
}
compression := DetectCompression(bs)
switch compression {
case Uncompressed:
readBufWrapper := p.NewReadCloserWrapper(buf, buf)
return readBufWrapper, nil
case Gzip:
ctx, cancel := context.WithCancel(context.Background())
gzReader, err := gzDecompress(ctx, buf)
if err != nil {
cancel()
return nil, err
}
readBufWrapper := p.NewReadCloserWrapper(buf, gzReader)
return wrapReadCloser(readBufWrapper, cancel), nil
case Bzip2:
bz2Reader := bzip2.NewReader(buf)
readBufWrapper := p.NewReadCloserWrapper(buf, bz2Reader)
return readBufWrapper, nil
case Xz:
ctx, cancel := context.WithCancel(context.Background())
xzReader, err := xzDecompress(ctx, buf)
if err != nil {
cancel()
return nil, err
}
readBufWrapper := p.NewReadCloserWrapper(buf, xzReader)
return wrapReadCloser(readBufWrapper, cancel), nil
case Zstd:
zstdReader, err := zstd.NewReader(buf)
if err != nil {
return nil, err
}
readBufWrapper := p.NewReadCloserWrapper(buf, zstdReader)
return readBufWrapper, nil
default:
return nil, fmt.Errorf("Unsupported compression format %s", (&compression).Extension())
}
}
// CompressStream compresses the dest with specified compression algorithm.
func CompressStream(dest io.Writer, compression Compression) (io.WriteCloser, error) {
p := pools.BufioWriter32KPool
buf := p.Get(dest)
switch compression {
case Uncompressed:
writeBufWrapper := p.NewWriteCloserWrapper(buf, buf)
return writeBufWrapper, nil
case Gzip:
gzWriter := gzip.NewWriter(dest)
writeBufWrapper := p.NewWriteCloserWrapper(buf, gzWriter)
return writeBufWrapper, nil
case Bzip2, Xz:
// archive/bzip2 does not support writing, and there is no xz support at all
// However, this is not a problem as docker only currently generates gzipped tars
return nil, fmt.Errorf("Unsupported compression format %s", (&compression).Extension())
default:
return nil, fmt.Errorf("Unsupported compression format %s", (&compression).Extension())
}
}
// TarModifierFunc is a function that can be passed to ReplaceFileTarWrapper to
// modify the contents or header of an entry in the archive. If the file already
// exists in the archive the TarModifierFunc will be called with the Header and
// a reader which will return the files content. If the file does not exist both
// header and content will be nil.
type TarModifierFunc func(path string, header *tar.Header, content io.Reader) (*tar.Header, []byte, error)
// ReplaceFileTarWrapper converts inputTarStream to a new tar stream. Files in the
// tar stream are modified if they match any of the keys in mods.
func ReplaceFileTarWrapper(inputTarStream io.ReadCloser, mods map[string]TarModifierFunc) io.ReadCloser {
pipeReader, pipeWriter := io.Pipe()
go func() {
tarReader := tar.NewReader(inputTarStream)
tarWriter := tar.NewWriter(pipeWriter)
defer inputTarStream.Close()
defer tarWriter.Close()
modify := func(name string, original *tar.Header, modifier TarModifierFunc, tarReader io.Reader) error {
header, data, err := modifier(name, original, tarReader)
switch {
case err != nil:
return err
case header == nil:
return nil
}
if header.Name == "" {
header.Name = name
}
header.Size = int64(len(data))
if err := tarWriter.WriteHeader(header); err != nil {
return err
}
if len(data) != 0 {
if _, err := tarWriter.Write(data); err != nil {
return err
}
}
return nil
}
var err error
var originalHeader *tar.Header
for {
originalHeader, err = tarReader.Next()
if err == io.EOF {
break
}
if err != nil {
pipeWriter.CloseWithError(err)
return
}
modifier, ok := mods[originalHeader.Name]
if !ok {
// No modifiers for this file, copy the header and data
if err := tarWriter.WriteHeader(originalHeader); err != nil {
pipeWriter.CloseWithError(err)
return
}
if _, err := pools.Copy(tarWriter, tarReader); err != nil {
pipeWriter.CloseWithError(err)
return
}
continue
}
delete(mods, originalHeader.Name)
if err := modify(originalHeader.Name, originalHeader, modifier, tarReader); err != nil {
pipeWriter.CloseWithError(err)
return
}
}
// Apply the modifiers that haven't matched any files in the archive
for name, modifier := range mods {
if err := modify(name, nil, modifier, nil); err != nil {
pipeWriter.CloseWithError(err)
return
}
}
pipeWriter.Close()
}()
return pipeReader
}
// Extension returns the extension of a file that uses the specified compression algorithm.
func (compression *Compression) Extension() string {
switch *compression {
case Uncompressed:
return "tar"
case Bzip2:
return "tar.bz2"
case Gzip:
return "tar.gz"
case Xz:
return "tar.xz"
case Zstd:
return "tar.zst"
}
return ""
}
// nosysFileInfo hides the system-dependent info of the wrapped FileInfo to
// prevent tar.FileInfoHeader from introspecting it and potentially calling into
// glibc.
type nosysFileInfo struct {
os.FileInfo
}
func (fi nosysFileInfo) Sys() interface{} {
// A Sys value of type *tar.Header is safe as it is system-independent.
// The tar.FileInfoHeader function copies the fields into the returned
// header without performing any OS lookups.
if sys, ok := fi.FileInfo.Sys().(*tar.Header); ok {
return sys
}
return nil
}
// sysStat, if non-nil, populates hdr from system-dependent fields of fi.
var sysStat func(fi os.FileInfo, hdr *tar.Header) error
// FileInfoHeaderNoLookups creates a partially-populated tar.Header from fi.
//
// Compared to the archive/tar.FileInfoHeader function, this function is safe to
// call from a chrooted process as it does not populate fields which would
// require operating system lookups. It behaves identically to
// tar.FileInfoHeader when fi is a FileInfo value returned from
// tar.Header.FileInfo().
//
// When fi is a FileInfo for a native file, such as returned from os.Stat() and
// os.Lstat(), the returned Header value differs from one returned from
// tar.FileInfoHeader in the following ways. The Uname and Gname fields are not
// set as OS lookups would be required to populate them. The AccessTime and
// ChangeTime fields are not currently set (not yet implemented) although that
// is subject to change. Callers which require the AccessTime or ChangeTime
// fields to be zeroed should explicitly zero them out in the returned Header
// value to avoid any compatibility issues in the future.
func FileInfoHeaderNoLookups(fi os.FileInfo, link string) (*tar.Header, error) {
hdr, err := tar.FileInfoHeader(nosysFileInfo{fi}, link)
if err != nil {
return nil, err
}
if sysStat != nil {
return hdr, sysStat(fi, hdr)
}
return hdr, nil
}
// FileInfoHeader creates a populated Header from fi.
//
// Compared to the archive/tar package, this function fills in less information
// but is safe to call from a chrooted process. The AccessTime and ChangeTime
// fields are not set in the returned header, ModTime is truncated to one-second
// precision, and the Uname and Gname fields are only set when fi is a FileInfo
// value returned from tar.Header.FileInfo(). Also, regardless of Go version,
// this function fills file type bits (e.g. hdr.Mode |= modeISDIR), which have
// been deleted since Go 1.9 archive/tar.
func FileInfoHeader(name string, fi os.FileInfo, link string) (*tar.Header, error) {
hdr, err := FileInfoHeaderNoLookups(fi, link)
if err != nil {
return nil, err
}
hdr.Format = tar.FormatPAX
hdr.ModTime = hdr.ModTime.Truncate(time.Second)
hdr.AccessTime = time.Time{}
hdr.ChangeTime = time.Time{}
hdr.Mode = fillGo18FileTypeBits(int64(chmodTarEntry(os.FileMode(hdr.Mode))), fi)
hdr.Name = canonicalTarName(name, fi.IsDir())
return hdr, nil
}
// fillGo18FileTypeBits fills type bits which have been removed on Go 1.9 archive/tar
// https://github.com/golang/go/commit/66b5a2f
func fillGo18FileTypeBits(mode int64, fi os.FileInfo) int64 {
fm := fi.Mode()
switch {
case fm.IsRegular():
mode |= modeISREG
case fi.IsDir():
mode |= modeISDIR
case fm&os.ModeSymlink != 0:
mode |= modeISLNK
case fm&os.ModeDevice != 0:
if fm&os.ModeCharDevice != 0 {
mode |= modeISCHR
} else {
mode |= modeISBLK
}
case fm&os.ModeNamedPipe != 0:
mode |= modeISFIFO
case fm&os.ModeSocket != 0:
mode |= modeISSOCK
}
return mode
}
// ReadSecurityXattrToTarHeader reads security.capability xattr from filesystem
// to a tar header
func ReadSecurityXattrToTarHeader(path string, hdr *tar.Header) error {
const (
// Values based on linux/include/uapi/linux/capability.h
xattrCapsSz2 = 20
versionOffset = 3
vfsCapRevision2 = 2
vfsCapRevision3 = 3
)
capability, _ := system.Lgetxattr(path, "security.capability")
if capability != nil {
length := len(capability)
if capability[versionOffset] == vfsCapRevision3 {
// Convert VFS_CAP_REVISION_3 to VFS_CAP_REVISION_2 as root UID makes no
// sense outside the user namespace the archive is built in.
capability[versionOffset] = vfsCapRevision2
length = xattrCapsSz2
}
hdr.Xattrs = make(map[string]string)
hdr.Xattrs["security.capability"] = string(capability[:length])
}
return nil
}
type tarWhiteoutConverter interface {
ConvertWrite(*tar.Header, string, os.FileInfo) (*tar.Header, error)
ConvertRead(*tar.Header, string) (bool, error)
}
type tarAppender struct {
TarWriter *tar.Writer
Buffer *bufio.Writer
// for hardlink mapping
SeenFiles map[uint64]string
IdentityMapping idtools.IdentityMapping
ChownOpts *idtools.Identity
// For packing and unpacking whiteout files in the
// non standard format. The whiteout files defined
// by the AUFS standard are used as the tar whiteout
// standard.
WhiteoutConverter tarWhiteoutConverter
}
func newTarAppender(idMapping idtools.IdentityMapping, writer io.Writer, chownOpts *idtools.Identity) *tarAppender {
return &tarAppender{
SeenFiles: make(map[uint64]string),
TarWriter: tar.NewWriter(writer),
Buffer: pools.BufioWriter32KPool.Get(nil),
IdentityMapping: idMapping,
ChownOpts: chownOpts,
}
}
// canonicalTarName provides a platform-independent and consistent posix-style
// path for files and directories to be archived regardless of the platform.
func canonicalTarName(name string, isDir bool) string {
name = CanonicalTarNameForPath(name)
// suffix with '/' for directories
if isDir && !strings.HasSuffix(name, "/") {
name += "/"
}
return name
}
// addTarFile adds to the tar archive a file from `path` as `name`
func (ta *tarAppender) addTarFile(path, name string) error {
fi, err := os.Lstat(path)
if err != nil {
return err
}
var link string
if fi.Mode()&os.ModeSymlink != 0 {
var err error
link, err = os.Readlink(path)
if err != nil {
return err
}
}
hdr, err := FileInfoHeader(name, fi, link)
if err != nil {
return err
}
if err := ReadSecurityXattrToTarHeader(path, hdr); err != nil {
return err
}
// if it's not a directory and has more than 1 link,
// it's hard linked, so set the type flag accordingly
if !fi.IsDir() && hasHardlinks(fi) {
inode, err := getInodeFromStat(fi.Sys())
if err != nil {
return err
}
// a link should have a name that it links too
// and that linked name should be first in the tar archive
if oldpath, ok := ta.SeenFiles[inode]; ok {
hdr.Typeflag = tar.TypeLink
hdr.Linkname = oldpath
hdr.Size = 0 // This Must be here for the writer math to add up!
} else {
ta.SeenFiles[inode] = name
}
}
// check whether the file is overlayfs whiteout
// if yes, skip re-mapping container ID mappings.
isOverlayWhiteout := fi.Mode()&os.ModeCharDevice != 0 && hdr.Devmajor == 0 && hdr.Devminor == 0
// handle re-mapping container ID mappings back to host ID mappings before
// writing tar headers/files. We skip whiteout files because they were written
// by the kernel and already have proper ownership relative to the host
if !isOverlayWhiteout && !strings.HasPrefix(filepath.Base(hdr.Name), WhiteoutPrefix) && !ta.IdentityMapping.Empty() {
fileIDPair, err := getFileUIDGID(fi.Sys())
if err != nil {
return err
}
hdr.Uid, hdr.Gid, err = ta.IdentityMapping.ToContainer(fileIDPair)
if err != nil {
return err
}
}
// explicitly override with ChownOpts
if ta.ChownOpts != nil {
hdr.Uid = ta.ChownOpts.UID
hdr.Gid = ta.ChownOpts.GID
}
if ta.WhiteoutConverter != nil {
wo, err := ta.WhiteoutConverter.ConvertWrite(hdr, path, fi)
if err != nil {
return err
}
// If a new whiteout file exists, write original hdr, then
// replace hdr with wo to be written after. Whiteouts should
// always be written after the original. Note the original
// hdr may have been updated to be a whiteout with returning
// a whiteout header
if wo != nil {
if err := ta.TarWriter.WriteHeader(hdr); err != nil {
return err
}
if hdr.Typeflag == tar.TypeReg && hdr.Size > 0 {
return fmt.Errorf("tar: cannot use whiteout for non-empty file")
}
hdr = wo
}
}
if err := ta.TarWriter.WriteHeader(hdr); err != nil {
return err
}
if hdr.Typeflag == tar.TypeReg && hdr.Size > 0 {
// We use system.OpenSequential to ensure we use sequential file
// access on Windows to avoid depleting the standby list.
// On Linux, this equates to a regular os.Open.
file, err := system.OpenSequential(path)
if err != nil {
return err
}
ta.Buffer.Reset(ta.TarWriter)
defer ta.Buffer.Reset(nil)
_, err = io.Copy(ta.Buffer, file)
file.Close()
if err != nil {
return err
}
err = ta.Buffer.Flush()
if err != nil {
return err
}
}
return nil
}
func createTarFile(path, extractDir string, hdr *tar.Header, reader io.Reader, Lchown bool, chownOpts *idtools.Identity, inUserns bool) error {
// hdr.Mode is in linux format, which we can use for sycalls,
// but for os.Foo() calls we need the mode converted to os.FileMode,
// so use hdrInfo.Mode() (they differ for e.g. setuid bits)
hdrInfo := hdr.FileInfo()
switch hdr.Typeflag {
case tar.TypeDir:
// Create directory unless it exists as a directory already.
// In that case we just want to merge the two
if fi, err := os.Lstat(path); !(err == nil && fi.IsDir()) {
if err := os.Mkdir(path, hdrInfo.Mode()); err != nil {
return err
}
}
case tar.TypeReg, tar.TypeRegA:
// Source is regular file. We use system.OpenFileSequential to use sequential
// file access to avoid depleting the standby list on Windows.
// On Linux, this equates to a regular os.OpenFile
file, err := system.OpenFileSequential(path, os.O_CREATE|os.O_WRONLY, hdrInfo.Mode())
if err != nil {
return err
}
if _, err := io.Copy(file, reader); err != nil {
file.Close()
return err
}
file.Close()
case tar.TypeBlock, tar.TypeChar:
if inUserns { // cannot create devices in a userns
return nil
}
// Handle this is an OS-specific way
if err := handleTarTypeBlockCharFifo(hdr, path); err != nil {
return err
}
case tar.TypeFifo:
// Handle this is an OS-specific way
if err := handleTarTypeBlockCharFifo(hdr, path); err != nil {
return err
}
case tar.TypeLink:
// #nosec G305 -- The target path is checked for path traversal.
targetPath := filepath.Join(extractDir, hdr.Linkname)
// check for hardlink breakout
if !strings.HasPrefix(targetPath, extractDir) {
return breakoutError(fmt.Errorf("invalid hardlink %q -> %q", targetPath, hdr.Linkname))
}
if err := os.Link(targetPath, path); err != nil {
return err
}
case tar.TypeSymlink:
// path -> hdr.Linkname = targetPath
// e.g. /extractDir/path/to/symlink -> ../2/file = /extractDir/path/2/file
targetPath := filepath.Join(filepath.Dir(path), hdr.Linkname) // #nosec G305 -- The target path is checked for path traversal.
// the reason we don't need to check symlinks in the path (with FollowSymlinkInScope) is because
// that symlink would first have to be created, which would be caught earlier, at this very check:
if !strings.HasPrefix(targetPath, extractDir) {
return breakoutError(fmt.Errorf("invalid symlink %q -> %q", path, hdr.Linkname))
}
if err := os.Symlink(hdr.Linkname, path); err != nil {
return err
}
case tar.TypeXGlobalHeader:
logrus.Debug("PAX Global Extended Headers found and ignored")
return nil
default:
return fmt.Errorf("unhandled tar header type %d", hdr.Typeflag)
}
// Lchown is not supported on Windows.
if Lchown && runtime.GOOS != "windows" {
if chownOpts == nil {
chownOpts = &idtools.Identity{UID: hdr.Uid, GID: hdr.Gid}
}
if err := os.Lchown(path, chownOpts.UID, chownOpts.GID); err != nil {
msg := "failed to Lchown %q for UID %d, GID %d"
if errors.Is(err, syscall.EINVAL) && userns.RunningInUserNS() {
msg += " (try increasing the number of subordinate IDs in /etc/subuid and /etc/subgid)"
}
return errors.Wrapf(err, msg, path, hdr.Uid, hdr.Gid)
}
}
var errors []string
for key, value := range hdr.Xattrs {
if err := system.Lsetxattr(path, key, []byte(value), 0); err != nil {
if err == syscall.ENOTSUP || err == syscall.EPERM {
// We ignore errors here because not all graphdrivers support
// xattrs *cough* old versions of AUFS *cough*. However only
// ENOTSUP should be emitted in that case, otherwise we still
// bail.
// EPERM occurs if modifying xattrs is not allowed. This can
// happen when running in userns with restrictions (ChromeOS).
errors = append(errors, err.Error())
continue
}
return err
}
}
if len(errors) > 0 {
logrus.WithFields(logrus.Fields{
"errors": errors,
}).Warn("ignored xattrs in archive: underlying filesystem doesn't support them")
}
// There is no LChmod, so ignore mode for symlink. Also, this
// must happen after chown, as that can modify the file mode
if err := handleLChmod(hdr, path, hdrInfo); err != nil {
return err
}
aTime := hdr.AccessTime
if aTime.Before(hdr.ModTime) {
// Last access time should never be before last modified time.
aTime = hdr.ModTime
}
// system.Chtimes doesn't support a NOFOLLOW flag atm
if hdr.Typeflag == tar.TypeLink {
if fi, err := os.Lstat(hdr.Linkname); err == nil && (fi.Mode()&os.ModeSymlink == 0) {
if err := system.Chtimes(path, aTime, hdr.ModTime); err != nil {
return err
}
}
} else if hdr.Typeflag != tar.TypeSymlink {
if err := system.Chtimes(path, aTime, hdr.ModTime); err != nil {
return err
}
} else {
ts := []syscall.Timespec{timeToTimespec(aTime), timeToTimespec(hdr.ModTime)}
if err := system.LUtimesNano(path, ts); err != nil && err != system.ErrNotSupportedPlatform {
return err
}
}
return nil
}
// Tar creates an archive from the directory at `path`, and returns it as a
// stream of bytes.
func Tar(path string, compression Compression) (io.ReadCloser, error) {
return TarWithOptions(path, &TarOptions{Compression: compression})
}
// TarWithOptions creates an archive from the directory at `path`, only including files whose relative
// paths are included in `options.IncludeFiles` (if non-nil) or not in `options.ExcludePatterns`.
func TarWithOptions(srcPath string, options *TarOptions) (io.ReadCloser, error) {
// Fix the source path to work with long path names. This is a no-op
// on platforms other than Windows.
srcPath = fixVolumePathPrefix(srcPath)
pm, err := fileutils.NewPatternMatcher(options.ExcludePatterns)
if err != nil {
return nil, err
}
pipeReader, pipeWriter := io.Pipe()
compressWriter, err := CompressStream(pipeWriter, options.Compression)
if err != nil {
return nil, err
}
whiteoutConverter, err := getWhiteoutConverter(options.WhiteoutFormat, options.InUserNS)
if err != nil {
return nil, err
}
go func() {
ta := newTarAppender(
options.IDMap,
compressWriter,
options.ChownOpts,
)
ta.WhiteoutConverter = whiteoutConverter
defer func() {
// Make sure to check the error on Close.
if err := ta.TarWriter.Close(); err != nil {
logrus.Errorf("Can't close tar writer: %s", err)
}
if err := compressWriter.Close(); err != nil {
logrus.Errorf("Can't close compress writer: %s", err)
}
if err := pipeWriter.Close(); err != nil {
logrus.Errorf("Can't close pipe writer: %s", err)
}
}()
// this buffer is needed for the duration of this piped stream
defer pools.BufioWriter32KPool.Put(ta.Buffer)
// In general we log errors here but ignore them because
// during e.g. a diff operation the container can continue
// mutating the filesystem and we can see transient errors
// from this
stat, err := os.Lstat(srcPath)
if err != nil {
return
}
if !stat.IsDir() {
// We can't later join a non-dir with any includes because the
// 'walk' will error if "file/." is stat-ed and "file" is not a
// directory. So, we must split the source path and use the
// basename as the include.
if len(options.IncludeFiles) > 0 {
logrus.Warn("Tar: Can't archive a file with includes")
}
dir, base := SplitPathDirEntry(srcPath)
srcPath = dir
options.IncludeFiles = []string{base}
}
if len(options.IncludeFiles) == 0 {
options.IncludeFiles = []string{"."}
}
seen := make(map[string]bool)
for _, include := range options.IncludeFiles {
rebaseName := options.RebaseNames[include]
var (
parentMatchInfo []fileutils.MatchInfo
parentDirs []string
)
walkRoot := getWalkRoot(srcPath, include)
filepath.Walk(walkRoot, func(filePath string, f os.FileInfo, err error) error {
if err != nil {
logrus.Errorf("Tar: Can't stat file %s to tar: %s", srcPath, err)
return nil
}
relFilePath, err := filepath.Rel(srcPath, filePath)
if err != nil || (!options.IncludeSourceDir && relFilePath == "." && f.IsDir()) {
// Error getting relative path OR we are looking
// at the source directory path. Skip in both situations.
return nil
}
if options.IncludeSourceDir && include == "." && relFilePath != "." {
relFilePath = strings.Join([]string{".", relFilePath}, string(filepath.Separator))
}
skip := false
// If "include" is an exact match for the current file
// then even if there's an "excludePatterns" pattern that
// matches it, don't skip it. IOW, assume an explicit 'include'
// is asking for that file no matter what - which is true
// for some files, like .dockerignore and Dockerfile (sometimes)
if include != relFilePath {
for len(parentDirs) != 0 {
lastParentDir := parentDirs[len(parentDirs)-1]
if strings.HasPrefix(relFilePath, lastParentDir+string(os.PathSeparator)) {
break
}
parentDirs = parentDirs[:len(parentDirs)-1]
parentMatchInfo = parentMatchInfo[:len(parentMatchInfo)-1]
}
var matchInfo fileutils.MatchInfo
if len(parentMatchInfo) != 0 {
skip, matchInfo, err = pm.MatchesUsingParentResults(relFilePath, parentMatchInfo[len(parentMatchInfo)-1])
} else {
skip, matchInfo, err = pm.MatchesUsingParentResults(relFilePath, fileutils.MatchInfo{})
}
if err != nil {
logrus.Errorf("Error matching %s: %v", relFilePath, err)
return err
}
if f.IsDir() {
parentDirs = append(parentDirs, relFilePath)
parentMatchInfo = append(parentMatchInfo, matchInfo)
}
}
if skip {
// If we want to skip this file and its a directory
// then we should first check to see if there's an
// excludes pattern (e.g. !dir/file) that starts with this
// dir. If so then we can't skip this dir.
// Its not a dir then so we can just return/skip.
if !f.IsDir() {
return nil
}
// No exceptions (!...) in patterns so just skip dir
if !pm.Exclusions() {
return filepath.SkipDir
}
dirSlash := relFilePath + string(filepath.Separator)
for _, pat := range pm.Patterns() {
if !pat.Exclusion() {
continue
}
if strings.HasPrefix(pat.String()+string(filepath.Separator), dirSlash) {
// found a match - so can't skip this dir
return nil
}
}
// No matching exclusion dir so just skip dir
return filepath.SkipDir
}
if seen[relFilePath] {
return nil
}
seen[relFilePath] = true
// Rename the base resource.
if rebaseName != "" {
var replacement string
if rebaseName != string(filepath.Separator) {
// Special case the root directory to replace with an
// empty string instead so that we don't end up with
// double slashes in the paths.
replacement = rebaseName
}
relFilePath = strings.Replace(relFilePath, include, replacement, 1)
}
if err := ta.addTarFile(filePath, relFilePath); err != nil {
logrus.Errorf("Can't add file %s to tar: %s", filePath, err)
// if pipe is broken, stop writing tar stream to it
if err == io.ErrClosedPipe {
return err
}
}
return nil
})
}
}()
return pipeReader, nil
}
// Unpack unpacks the decompressedArchive to dest with options.
func Unpack(decompressedArchive io.Reader, dest string, options *TarOptions) error {
tr := tar.NewReader(decompressedArchive)
trBuf := pools.BufioReader32KPool.Get(nil)
defer pools.BufioReader32KPool.Put(trBuf)
var dirs []*tar.Header
rootIDs := options.IDMap.RootPair()
whiteoutConverter, err := getWhiteoutConverter(options.WhiteoutFormat, options.InUserNS)
if err != nil {
return err
}
// Iterate through the files in the archive.
loop:
for {
hdr, err := tr.Next()
if err == io.EOF {
// end of tar archive
break
}
if err != nil {
return err
}
// ignore XGlobalHeader early to avoid creating parent directories for them
if hdr.Typeflag == tar.TypeXGlobalHeader {
logrus.Debugf("PAX Global Extended Headers found for %s and ignored", hdr.Name)
continue
}
// Normalize name, for safety and for a simple is-root check
// This keeps "../" as-is, but normalizes "/../" to "/". Or Windows:
// This keeps "..\" as-is, but normalizes "\..\" to "\".
hdr.Name = filepath.Clean(hdr.Name)
for _, exclude := range options.ExcludePatterns {
if strings.HasPrefix(hdr.Name, exclude) {
continue loop
}
}
// After calling filepath.Clean(hdr.Name) above, hdr.Name will now be in
// the filepath format for the OS on which the daemon is running. Hence
// the check for a slash-suffix MUST be done in an OS-agnostic way.
if !strings.HasSuffix(hdr.Name, string(os.PathSeparator)) {
// Not the root directory, ensure that the parent directory exists
parent := filepath.Dir(hdr.Name)
parentPath := filepath.Join(dest, parent)
if _, err := os.Lstat(parentPath); err != nil && os.IsNotExist(err) {
err = idtools.MkdirAllAndChownNew(parentPath, 0755, rootIDs)
if err != nil {
return err
}
}
}
// #nosec G305 -- The joined path is checked for path traversal.
path := filepath.Join(dest, hdr.Name)
rel, err := filepath.Rel(dest, path)
if err != nil {
return err
}
if strings.HasPrefix(rel, ".."+string(os.PathSeparator)) {
return breakoutError(fmt.Errorf("%q is outside of %q", hdr.Name, dest))
}
// If path exits we almost always just want to remove and replace it
// The only exception is when it is a directory *and* the file from
// the layer is also a directory. Then we want to merge them (i.e.
// just apply the metadata from the layer).
if fi, err := os.Lstat(path); err == nil {
if options.NoOverwriteDirNonDir && fi.IsDir() && hdr.Typeflag != tar.TypeDir {
// If NoOverwriteDirNonDir is true then we cannot replace
// an existing directory with a non-directory from the archive.
return fmt.Errorf("cannot overwrite directory %q with non-directory %q", path, dest)
}
if options.NoOverwriteDirNonDir && !fi.IsDir() && hdr.Typeflag == tar.TypeDir {
// If NoOverwriteDirNonDir is true then we cannot replace
// an existing non-directory with a directory from the archive.
return fmt.Errorf("cannot overwrite non-directory %q with directory %q", path, dest)
}
if fi.IsDir() && hdr.Name == "." {
continue
}
if !(fi.IsDir() && hdr.Typeflag == tar.TypeDir) {
if err := os.RemoveAll(path); err != nil {
return err
}
}
}
trBuf.Reset(tr)
if err := remapIDs(options.IDMap, hdr); err != nil {
return err
}
if whiteoutConverter != nil {
writeFile, err := whiteoutConverter.ConvertRead(hdr, path)
if err != nil {
return err
}
if !writeFile {
continue
}
}
if err := createTarFile(path, dest, hdr, trBuf, !options.NoLchown, options.ChownOpts, options.InUserNS); err != nil {
return err
}
// Directory mtimes must be handled at the end to avoid further
// file creation in them to modify the directory mtime
if hdr.Typeflag == tar.TypeDir {
dirs = append(dirs, hdr)
}
}
for _, hdr := range dirs {
// #nosec G305 -- The header was checked for path traversal before it was appended to the dirs slice.
path := filepath.Join(dest, hdr.Name)
if err := system.Chtimes(path, hdr.AccessTime, hdr.ModTime); err != nil {
return err
}
}
return nil
}
// Untar reads a stream of bytes from `archive`, parses it as a tar archive,
// and unpacks it into the directory at `dest`.
// The archive may be compressed with one of the following algorithms:
// identity (uncompressed), gzip, bzip2, xz.
//
// FIXME: specify behavior when target path exists vs. doesn't exist.
func Untar(tarArchive io.Reader, dest string, options *TarOptions) error {
return untarHandler(tarArchive, dest, options, true)
}
// UntarUncompressed reads a stream of bytes from `archive`, parses it as a tar archive,
// and unpacks it into the directory at `dest`.
// The archive must be an uncompressed stream.
func UntarUncompressed(tarArchive io.Reader, dest string, options *TarOptions) error {
return untarHandler(tarArchive, dest, options, false)
}
// Handler for teasing out the automatic decompression
func untarHandler(tarArchive io.Reader, dest string, options *TarOptions, decompress bool) error {
if tarArchive == nil {
return fmt.Errorf("Empty archive")
}
dest = filepath.Clean(dest)
if options == nil {
options = &TarOptions{}
}
if options.ExcludePatterns == nil {
options.ExcludePatterns = []string{}
}
r := tarArchive
if decompress {
decompressedArchive, err := DecompressStream(tarArchive)
if err != nil {
return err
}
defer decompressedArchive.Close()
r = decompressedArchive
}
return Unpack(r, dest, options)
}
// TarUntar is a convenience function which calls Tar and Untar, with the output of one piped into the other.
// If either Tar or Untar fails, TarUntar aborts and returns the error.
func (archiver *Archiver) TarUntar(src, dst string) error {
archive, err := TarWithOptions(src, &TarOptions{Compression: Uncompressed})
if err != nil {
return err
}
defer archive.Close()
options := &TarOptions{
IDMap: archiver.IDMapping,
}
return archiver.Untar(archive, dst, options)
}
// UntarPath untar a file from path to a destination, src is the source tar file path.
func (archiver *Archiver) UntarPath(src, dst string) error {
archive, err := os.Open(src)
if err != nil {
return err
}
defer archive.Close()
options := &TarOptions{
IDMap: archiver.IDMapping,
}
return archiver.Untar(archive, dst, options)
}
// CopyWithTar creates a tar archive of filesystem path `src`, and
// unpacks it at filesystem path `dst`.
// The archive is streamed directly with fixed buffering and no
// intermediary disk IO.
func (archiver *Archiver) CopyWithTar(src, dst string) error {
srcSt, err := os.Stat(src)
if err != nil {
return err
}
if !srcSt.IsDir() {
return archiver.CopyFileWithTar(src, dst)
}
// if this Archiver is set up with ID mapping we need to create
// the new destination directory with the remapped root UID/GID pair
// as owner
rootIDs := archiver.IDMapping.RootPair()
// Create dst, copy src's content into it
if err := idtools.MkdirAllAndChownNew(dst, 0755, rootIDs); err != nil {
return err
}
return archiver.TarUntar(src, dst)
}
// CopyFileWithTar emulates the behavior of the 'cp' command-line
// for a single file. It copies a regular file from path `src` to
// path `dst`, and preserves all its metadata.
func (archiver *Archiver) CopyFileWithTar(src, dst string) (err error) {
srcSt, err := os.Stat(src)
if err != nil {
return err
}
if srcSt.IsDir() {
return fmt.Errorf("Can't copy a directory")
}
// Clean up the trailing slash. This must be done in an operating
// system specific manner.
if dst[len(dst)-1] == os.PathSeparator {
dst = filepath.Join(dst, filepath.Base(src))
}
// Create the holding directory if necessary
if err := system.MkdirAll(filepath.Dir(dst), 0700); err != nil {
return err
}
r, w := io.Pipe()
errC := make(chan error, 1)
go func() {
defer close(errC)
errC <- func() error {
defer w.Close()
srcF, err := os.Open(src)
if err != nil {
return err
}
defer srcF.Close()
hdr, err := FileInfoHeaderNoLookups(srcSt, "")
if err != nil {
return err
}
hdr.Format = tar.FormatPAX
hdr.ModTime = hdr.ModTime.Truncate(time.Second)
hdr.AccessTime = time.Time{}
hdr.ChangeTime = time.Time{}
hdr.Name = filepath.Base(dst)
hdr.Mode = int64(chmodTarEntry(os.FileMode(hdr.Mode)))
if err := remapIDs(archiver.IDMapping, hdr); err != nil {
return err
}
tw := tar.NewWriter(w)
defer tw.Close()
if err := tw.WriteHeader(hdr); err != nil {
return err
}
if _, err := io.Copy(tw, srcF); err != nil {
return err
}
return nil
}()
}()
defer func() {
if er := <-errC; err == nil && er != nil {
err = er
}
}()
err = archiver.Untar(r, filepath.Dir(dst), nil)
if err != nil {
r.CloseWithError(err)
}
return err
}
// IdentityMapping returns the IdentityMapping of the archiver.
func (archiver *Archiver) IdentityMapping() idtools.IdentityMapping {
return archiver.IDMapping
}
func remapIDs(idMapping idtools.IdentityMapping, hdr *tar.Header) error {
ids, err := idMapping.ToHost(idtools.Identity{UID: hdr.Uid, GID: hdr.Gid})
hdr.Uid, hdr.Gid = ids.UID, ids.GID
return err
}
// cmdStream executes a command, and returns its stdout as a stream.
// If the command fails to run or doesn't complete successfully, an error
// will be returned, including anything written on stderr.
func cmdStream(cmd *exec.Cmd, input io.Reader) (io.ReadCloser, error) {
cmd.Stdin = input
pipeR, pipeW := io.Pipe()
cmd.Stdout = pipeW
var errBuf bytes.Buffer
cmd.Stderr = &errBuf
// Run the command and return the pipe
if err := cmd.Start(); err != nil {
return nil, err
}
// Ensure the command has exited before we clean anything up
done := make(chan struct{})
// Copy stdout to the returned pipe
go func() {
if err := cmd.Wait(); err != nil {
pipeW.CloseWithError(fmt.Errorf("%s: %s", err, errBuf.String()))
} else {
pipeW.Close()
}
close(done)
}()
return ioutils.NewReadCloserWrapper(pipeR, func() error {
// Close pipeR, and then wait for the command to complete before returning. We have to close pipeR first, as
// cmd.Wait waits for any non-file stdout/stderr/stdin to close.
err := pipeR.Close()
<-done
return err
}), nil
}
// NewTempArchive reads the content of src into a temporary file, and returns the contents
// of that file as an archive. The archive can only be read once - as soon as reading completes,
// the file will be deleted.
func NewTempArchive(src io.Reader, dir string) (*TempArchive, error) {
f, err := os.CreateTemp(dir, "")
if err != nil {
return nil, err
}
if _, err := io.Copy(f, src); err != nil {
return nil, err
}
if _, err := f.Seek(0, 0); err != nil {
return nil, err
}
st, err := f.Stat()
if err != nil {
return nil, err
}
size := st.Size()
return &TempArchive{File: f, Size: size}, nil
}
// TempArchive is a temporary archive. The archive can only be read once - as soon as reading completes,
// the file will be deleted.
type TempArchive struct {
*os.File
Size int64 // Pre-computed from Stat().Size() as a convenience
read int64
closed bool
}
// Close closes the underlying file if it's still open, or does a no-op
// to allow callers to try to close the TempArchive multiple times safely.
func (archive *TempArchive) Close() error {
if archive.closed {
return nil
}
archive.closed = true
return archive.File.Close()
}
func (archive *TempArchive) Read(data []byte) (int, error) {
n, err := archive.File.Read(data)
archive.read += int64(n)
if err != nil || archive.read == archive.Size {
archive.Close()
os.Remove(archive.File.Name())
}
return n, err
}