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|
// Package fusefrontend interfaces directly with the go-fuse library.
package fusefrontend
// FUSE operations on paths
import (
"os"
"path/filepath"
"sync"
"syscall"
"time"
"golang.org/x/sys/unix"
"github.com/hanwen/go-fuse/fuse"
"github.com/hanwen/go-fuse/fuse/nodefs"
"github.com/hanwen/go-fuse/fuse/pathfs"
"github.com/rfjakob/gocryptfs/internal/contentenc"
"github.com/rfjakob/gocryptfs/internal/cryptocore"
"github.com/rfjakob/gocryptfs/internal/nametransform"
"github.com/rfjakob/gocryptfs/internal/serialize_reads"
"github.com/rfjakob/gocryptfs/internal/syscallcompat"
"github.com/rfjakob/gocryptfs/internal/tlog"
)
// FS implements the go-fuse virtual filesystem interface.
type FS struct {
pathfs.FileSystem // loopbackFileSystem, see go-fuse/fuse/pathfs/loopback.go
args Args // Stores configuration arguments
// dirIVLock: Lock()ed if any "gocryptfs.diriv" file is modified
// Readers must RLock() it to prevent them from seeing intermediate
// states
dirIVLock sync.RWMutex
// Filename encryption helper
nameTransform *nametransform.NameTransform
// Content encryption helper
contentEnc *contentenc.ContentEnc
// This lock is used by openWriteOnlyFile() to block concurrent opens while
// it relaxes the permissions on a file.
openWriteOnlyLock sync.RWMutex
}
var _ pathfs.FileSystem = &FS{} // Verify that interface is implemented.
// NewFS returns a new encrypted FUSE overlay filesystem.
func NewFS(masterkey []byte, args Args) *FS {
cryptoCore := cryptocore.New(masterkey, args.CryptoBackend, contentenc.DefaultIVBits, args.HKDF, args.ForceDecode)
contentEnc := contentenc.New(cryptoCore, contentenc.DefaultBS, args.ForceDecode)
nameTransform := nametransform.New(cryptoCore.EMECipher, args.LongNames, args.Raw64)
if args.SerializeReads {
serialize_reads.InitSerializer()
}
return &FS{
FileSystem: pathfs.NewLoopbackFileSystem(args.Cipherdir),
args: args,
nameTransform: nameTransform,
contentEnc: contentEnc,
}
}
// GetAttr implements pathfs.Filesystem.
func (fs *FS) GetAttr(name string, context *fuse.Context) (*fuse.Attr, fuse.Status) {
tlog.Debug.Printf("FS.GetAttr('%s')", name)
if fs.isFiltered(name) {
return nil, fuse.EPERM
}
cName, err := fs.encryptPath(name)
if err != nil {
return nil, fuse.ToStatus(err)
}
a, status := fs.FileSystem.GetAttr(cName, context)
if a == nil {
tlog.Debug.Printf("FS.GetAttr failed: %s", status.String())
return a, status
}
if a.IsRegular() {
a.Size = fs.contentEnc.CipherSizeToPlainSize(a.Size)
} else if a.IsSymlink() {
target, _ := fs.Readlink(name, context)
a.Size = uint64(len(target))
}
if fs.args.ForceOwner != nil {
a.Owner = *fs.args.ForceOwner
}
return a, status
}
// mangleOpenFlags is used by Create() and Open() to convert the open flags the user
// wants to the flags we internally use to open the backing file.
func (fs *FS) mangleOpenFlags(flags uint32) (newFlags int) {
newFlags = int(flags)
// Convert WRONLY to RDWR. We always need read access to do read-modify-write cycles.
if newFlags&os.O_WRONLY > 0 {
newFlags = newFlags ^ os.O_WRONLY | os.O_RDWR
}
// We also cannot open the file in append mode, we need to seek back for RMW
newFlags = newFlags &^ os.O_APPEND
return newFlags
}
// Open implements pathfs.Filesystem.
func (fs *FS) Open(path string, flags uint32, context *fuse.Context) (fuseFile nodefs.File, status fuse.Status) {
if fs.isFiltered(path) {
return nil, fuse.EPERM
}
// Taking this lock makes sure we don't race openWriteOnlyFile()
fs.openWriteOnlyLock.RLock()
defer fs.openWriteOnlyLock.RUnlock()
newFlags := fs.mangleOpenFlags(flags)
cPath, err := fs.getBackingPath(path)
if err != nil {
tlog.Debug.Printf("Open: getBackingPath: %v", err)
return nil, fuse.ToStatus(err)
}
tlog.Debug.Printf("Open: %s", cPath)
f, err := os.OpenFile(cPath, newFlags, 0)
if err != nil {
sysErr := err.(*os.PathError).Err
if sysErr == syscall.EMFILE {
var lim syscall.Rlimit
syscall.Getrlimit(syscall.RLIMIT_NOFILE, &lim)
tlog.Warn.Printf("Open %q: too many open files. Current \"ulimit -n\": %d", cPath, lim.Cur)
}
if sysErr == syscall.EACCES && (int(flags)&os.O_WRONLY > 0) {
return fs.openWriteOnlyFile(cPath, newFlags)
}
return nil, fuse.ToStatus(err)
}
return NewFile(f, fs)
}
// Due to RMW, we always need read permissions on the backing file. This is a
// problem if the file permissions do not allow reading (i.e. 0200 permissions).
// This function works around that problem by chmod'ing the file, obtaining a fd,
// and chmod'ing it back.
func (fs *FS) openWriteOnlyFile(cPath string, newFlags int) (fuseFile nodefs.File, status fuse.Status) {
woFd, err := os.OpenFile(cPath, os.O_WRONLY, 0)
if err != nil {
return nil, fuse.ToStatus(err)
}
defer woFd.Close()
fi, err := woFd.Stat()
if err != nil {
return nil, fuse.ToStatus(err)
}
perms := fi.Mode().Perm()
// Verify that we don't have read permissions
if perms&0400 != 0 {
tlog.Warn.Printf("openWriteOnlyFile: unexpected permissions %#o, returning EPERM", perms)
return nil, fuse.ToStatus(syscall.EPERM)
}
// Upgrade the lock to block other Open()s and downgrade again on return
fs.openWriteOnlyLock.RUnlock()
fs.openWriteOnlyLock.Lock()
defer func() {
fs.openWriteOnlyLock.Unlock()
fs.openWriteOnlyLock.RLock()
}()
// Relax permissions and revert on return
err = woFd.Chmod(perms | 0400)
if err != nil {
tlog.Warn.Printf("openWriteOnlyFile: changing permissions failed: %v", err)
return nil, fuse.ToStatus(err)
}
defer func() {
err2 := woFd.Chmod(perms)
if err2 != nil {
tlog.Warn.Printf("openWriteOnlyFile: reverting permissions failed: %v", err2)
}
}()
rwFd, err := os.OpenFile(cPath, newFlags, 0)
if err != nil {
return nil, fuse.ToStatus(err)
}
return NewFile(rwFd, fs)
}
// Create implements pathfs.Filesystem.
func (fs *FS) Create(path string, flags uint32, mode uint32, context *fuse.Context) (fuseFile nodefs.File, code fuse.Status) {
if fs.isFiltered(path) {
return nil, fuse.EPERM
}
newFlags := fs.mangleOpenFlags(flags)
cPath, err := fs.getBackingPath(path)
if err != nil {
return nil, fuse.ToStatus(err)
}
var fd *os.File
cName := filepath.Base(cPath)
// Handle long file name
if nametransform.IsLongContent(cName) {
var dirfd *os.File
dirfd, err = os.Open(filepath.Dir(cPath))
if err != nil {
return nil, fuse.ToStatus(err)
}
defer dirfd.Close()
// Create ".name"
err = fs.nameTransform.WriteLongName(dirfd, cName, path)
if err != nil {
return nil, fuse.ToStatus(err)
}
// Create content
var fdRaw int
fdRaw, err = syscallcompat.Openat(int(dirfd.Fd()), cName, newFlags|os.O_CREATE, mode)
if err != nil {
nametransform.DeleteLongName(dirfd, cName)
return nil, fuse.ToStatus(err)
}
fd = os.NewFile(uintptr(fdRaw), cName)
} else {
// Normal (short) file name
fd, err = os.OpenFile(cPath, newFlags|os.O_CREATE, os.FileMode(mode))
if err != nil {
return nil, fuse.ToStatus(err)
}
}
// Set owner
if fs.args.PreserveOwner {
err = fd.Chown(int(context.Owner.Uid), int(context.Owner.Gid))
if err != nil {
tlog.Warn.Printf("Create: fd.Chown failed: %v", err)
}
}
return NewFile(fd, fs)
}
// Chmod implements pathfs.Filesystem.
func (fs *FS) Chmod(path string, mode uint32, context *fuse.Context) (code fuse.Status) {
if fs.isFiltered(path) {
return fuse.EPERM
}
cPath, err := fs.getBackingPath(path)
if err != nil {
return fuse.ToStatus(err)
}
// os.Chmod goes through the "syscallMode" translation function that messes
// up the suid and sgid bits. So use syscall.Chmod directly.
err = syscall.Chmod(cPath, mode)
return fuse.ToStatus(err)
}
// Chown implements pathfs.Filesystem.
func (fs *FS) Chown(path string, uid uint32, gid uint32, context *fuse.Context) (code fuse.Status) {
if fs.isFiltered(path) {
return fuse.EPERM
}
cPath, err := fs.getBackingPath(path)
if err != nil {
return fuse.ToStatus(err)
}
code = fuse.ToStatus(os.Lchown(cPath, int(uid), int(gid)))
if !code.Ok() {
return code
}
if !fs.args.PlaintextNames {
// When filename encryption is active, every directory contains
// a "gocryptfs.diriv" file. This file should also change the owner.
// Instead of checking if "cPath" is a directory, we just blindly
// execute the Lchown on "cPath/gocryptfs.diriv" and ignore errors.
dirIVPath := filepath.Join(cPath, nametransform.DirIVFilename)
os.Lchown(dirIVPath, int(uid), int(gid))
}
return fuse.OK
}
// Mknod implements pathfs.Filesystem.
func (fs *FS) Mknod(path string, mode uint32, dev uint32, context *fuse.Context) (code fuse.Status) {
if fs.isFiltered(path) {
return fuse.EPERM
}
dirfd, cName, err := fs.openBackingPath(path)
if err != nil {
return fuse.ToStatus(err)
}
defer dirfd.Close()
// Create ".name" file to store long file name (except in PlaintextNames mode)
if !fs.args.PlaintextNames && nametransform.IsLongContent(cName) {
err = fs.nameTransform.WriteLongName(dirfd, cName, path)
if err != nil {
return fuse.ToStatus(err)
}
// Create "gocryptfs.longfile." device node
err = syscallcompat.Mknodat(int(dirfd.Fd()), cName, mode, int(dev))
if err != nil {
nametransform.DeleteLongName(dirfd, cName)
}
} else {
// Create regular device node
err = syscallcompat.Mknodat(int(dirfd.Fd()), cName, mode, int(dev))
}
if err != nil {
return fuse.ToStatus(err)
}
// Set owner
if fs.args.PreserveOwner {
err = syscallcompat.Fchownat(int(dirfd.Fd()), cName, int(context.Owner.Uid),
int(context.Owner.Gid), unix.AT_SYMLINK_NOFOLLOW)
if err != nil {
tlog.Warn.Printf("Mknod: Fchownat failed: %v", err)
}
}
return fuse.OK
}
// Truncate implements pathfs.Filesystem.
// Support truncate(2) by opening the file and calling ftruncate(2)
// While the glibc "truncate" wrapper seems to always use ftruncate, fsstress from
// xfstests uses this a lot by calling "truncate64" directly.
func (fs *FS) Truncate(path string, offset uint64, context *fuse.Context) (code fuse.Status) {
file, code := fs.Open(path, uint32(os.O_RDWR), context)
if code != fuse.OK {
return code
}
code = file.Truncate(offset)
file.Release()
return code
}
// Utimens implements pathfs.Filesystem.
func (fs *FS) Utimens(path string, a *time.Time, m *time.Time, context *fuse.Context) (code fuse.Status) {
if fs.isFiltered(path) {
return fuse.EPERM
}
cPath, err := fs.encryptPath(path)
if err != nil {
return fuse.ToStatus(err)
}
return fs.FileSystem.Utimens(cPath, a, m, context)
}
// StatFs implements pathfs.Filesystem.
func (fs *FS) StatFs(path string) *fuse.StatfsOut {
if fs.isFiltered(path) {
return nil
}
cPath, err := fs.encryptPath(path)
if err != nil {
return nil
}
return fs.FileSystem.StatFs(cPath)
}
// Readlink implements pathfs.Filesystem.
func (fs *FS) Readlink(path string, context *fuse.Context) (out string, status fuse.Status) {
cPath, err := fs.getBackingPath(path)
if err != nil {
return "", fuse.ToStatus(err)
}
cTarget, err := os.Readlink(cPath)
if err != nil {
return "", fuse.ToStatus(err)
}
if fs.args.PlaintextNames {
return cTarget, fuse.OK
}
// Symlinks are encrypted like file contents (GCM) and base64-encoded
cBinTarget, err := fs.nameTransform.B64.DecodeString(cTarget)
if err != nil {
tlog.Warn.Printf("Readlink: %v", err)
return "", fuse.EIO
}
target, err := fs.contentEnc.DecryptBlock([]byte(cBinTarget), 0, nil)
if err != nil {
tlog.Warn.Printf("Readlink: %v", err)
return "", fuse.EIO
}
return string(target), fuse.OK
}
// Unlink implements pathfs.Filesystem.
func (fs *FS) Unlink(path string, context *fuse.Context) (code fuse.Status) {
if fs.isFiltered(path) {
return fuse.EPERM
}
cPath, err := fs.getBackingPath(path)
if err != nil {
return fuse.ToStatus(err)
}
cName := filepath.Base(cPath)
if !fs.args.PlaintextNames && nametransform.IsLongContent(cName) {
var dirfd *os.File
dirfd, err = os.Open(filepath.Dir(cPath))
if err != nil {
return fuse.ToStatus(err)
}
defer dirfd.Close()
// Delete content
err = syscallcompat.Unlinkat(int(dirfd.Fd()), cName)
if err != nil {
return fuse.ToStatus(err)
}
// Delete ".name"
err = nametransform.DeleteLongName(dirfd, cName)
if err != nil {
tlog.Warn.Printf("Unlink: could not delete .name file: %v", err)
}
return fuse.ToStatus(err)
}
err = syscall.Unlink(cPath)
return fuse.ToStatus(err)
}
// Symlink implements pathfs.Filesystem.
func (fs *FS) Symlink(target string, linkName string, context *fuse.Context) (code fuse.Status) {
tlog.Debug.Printf("Symlink(\"%s\", \"%s\")", target, linkName)
if fs.isFiltered(linkName) {
return fuse.EPERM
}
dirfd, cName, err := fs.openBackingPath(linkName)
if err != nil {
return fuse.ToStatus(err)
}
defer dirfd.Close()
var cTarget string = target
if !fs.args.PlaintextNames {
// Symlinks are encrypted like file contents (GCM) and base64-encoded
cBinTarget := fs.contentEnc.EncryptBlock([]byte(target), 0, nil)
cTarget = fs.nameTransform.B64.EncodeToString(cBinTarget)
}
// Create ".name" file to store long file name (except in PlaintextNames mode)
if !fs.args.PlaintextNames && nametransform.IsLongContent(cName) {
err = fs.nameTransform.WriteLongName(dirfd, cName, linkName)
if err != nil {
return fuse.ToStatus(err)
}
// Create "gocryptfs.longfile." symlink
err = syscallcompat.Symlinkat(cTarget, int(dirfd.Fd()), cName)
if err != nil {
nametransform.DeleteLongName(dirfd, cName)
}
} else {
// Create symlink
err = syscallcompat.Symlinkat(cTarget, int(dirfd.Fd()), cName)
}
if err != nil {
return fuse.ToStatus(err)
}
// Set owner
if fs.args.PreserveOwner {
err = syscallcompat.Fchownat(int(dirfd.Fd()), cName, int(context.Owner.Uid),
int(context.Owner.Gid), unix.AT_SYMLINK_NOFOLLOW)
if err != nil {
tlog.Warn.Printf("Symlink: Fchownat failed: %v", err)
}
}
return fuse.OK
}
// Rename implements pathfs.Filesystem.
func (fs *FS) Rename(oldPath string, newPath string, context *fuse.Context) (code fuse.Status) {
if fs.isFiltered(newPath) {
return fuse.EPERM
}
cOldPath, err := fs.getBackingPath(oldPath)
if err != nil {
return fuse.ToStatus(err)
}
cNewPath, err := fs.getBackingPath(newPath)
if err != nil {
return fuse.ToStatus(err)
}
// The Rename may cause a directory to take the place of another directory.
// That directory may still be in the DirIV cache, clear it.
fs.nameTransform.DirIVCache.Clear()
// Handle long source file name
var oldDirFd *os.File
var finalOldDirFd int
var finalOldPath = cOldPath
cOldName := filepath.Base(cOldPath)
if nametransform.IsLongContent(cOldName) {
oldDirFd, err = os.Open(filepath.Dir(cOldPath))
if err != nil {
return fuse.ToStatus(err)
}
defer oldDirFd.Close()
finalOldDirFd = int(oldDirFd.Fd())
// Use relative path
finalOldPath = cOldName
}
// Handle long destination file name
var newDirFd *os.File
var finalNewDirFd int
var finalNewPath = cNewPath
cNewName := filepath.Base(cNewPath)
if nametransform.IsLongContent(cNewName) {
newDirFd, err = os.Open(filepath.Dir(cNewPath))
if err != nil {
return fuse.ToStatus(err)
}
defer newDirFd.Close()
finalNewDirFd = int(newDirFd.Fd())
// Use relative path
finalNewPath = cNewName
// Create destination .name file
err = fs.nameTransform.WriteLongName(newDirFd, cNewName, newPath)
// Failure to write the .name file is expected when the target path already
// exists. Since hashes are pretty unique, there is no need to modify the
// file anyway. We still set newDirFd to nil to ensure that we do not delete
// the file on error.
if err == syscall.EEXIST {
newDirFd = nil
} else if err != nil {
return fuse.ToStatus(err)
}
}
// Actual rename
tlog.Debug.Printf("Renameat oldfd=%d oldpath=%s newfd=%d newpath=%s\n", finalOldDirFd, finalOldPath, finalNewDirFd, finalNewPath)
err = syscallcompat.Renameat(finalOldDirFd, finalOldPath, finalNewDirFd, finalNewPath)
if err == syscall.ENOTEMPTY || err == syscall.EEXIST {
// If an empty directory is overwritten we will always get an error as
// the "empty" directory will still contain gocryptfs.diriv.
// Interestingly, ext4 returns ENOTEMPTY while xfs returns EEXIST.
// We handle that by trying to fs.Rmdir() the target directory and trying
// again.
tlog.Debug.Printf("Rename: Handling ENOTEMPTY")
if fs.Rmdir(newPath, context) == fuse.OK {
err = syscallcompat.Renameat(finalOldDirFd, finalOldPath, finalNewDirFd, finalNewPath)
}
}
if err != nil {
if newDirFd != nil {
// Roll back .name creation
nametransform.DeleteLongName(newDirFd, cNewName)
}
return fuse.ToStatus(err)
}
if oldDirFd != nil {
nametransform.DeleteLongName(oldDirFd, cOldName)
}
return fuse.OK
}
// Link implements pathfs.Filesystem.
func (fs *FS) Link(oldPath string, newPath string, context *fuse.Context) (code fuse.Status) {
if fs.isFiltered(newPath) {
return fuse.EPERM
}
cOldPath, err := fs.getBackingPath(oldPath)
if err != nil {
return fuse.ToStatus(err)
}
cNewPath, err := fs.getBackingPath(newPath)
if err != nil {
return fuse.ToStatus(err)
}
// Handle long file name
cNewName := filepath.Base(cNewPath)
if nametransform.IsLongContent(cNewName) {
dirfd, err := os.Open(filepath.Dir(cNewPath))
if err != nil {
return fuse.ToStatus(err)
}
defer dirfd.Close()
err = fs.nameTransform.WriteLongName(dirfd, cNewName, newPath)
if err != nil {
return fuse.ToStatus(err)
}
// TODO Use syscall.Linkat once it is available in Go (it is not in Go
// 1.6).
err = syscall.Link(cOldPath, cNewPath)
if err != nil {
nametransform.DeleteLongName(dirfd, cNewName)
}
return fuse.ToStatus(err)
}
return fuse.ToStatus(os.Link(cOldPath, cNewPath))
}
// Access implements pathfs.Filesystem.
func (fs *FS) Access(path string, mode uint32, context *fuse.Context) (code fuse.Status) {
if fs.isFiltered(path) {
return fuse.EPERM
}
cPath, err := fs.getBackingPath(path)
if err != nil {
return fuse.ToStatus(err)
}
return fuse.ToStatus(syscall.Access(cPath, mode))
}
// GetXAttr implements pathfs.Filesystem.
func (fs *FS) GetXAttr(name string, attr string, context *fuse.Context) ([]byte, fuse.Status) {
return nil, fuse.ENOSYS
}
// SetXAttr implements pathfs.Filesystem.
func (fs *FS) SetXAttr(name string, attr string, data []byte, flags int, context *fuse.Context) fuse.Status {
return fuse.ENOSYS
}
// ListXAttr implements pathfs.Filesystem.
func (fs *FS) ListXAttr(name string, context *fuse.Context) ([]string, fuse.Status) {
return nil, fuse.ENOSYS
}
// RemoveXAttr implements pathfs.Filesystem.
func (fs *FS) RemoveXAttr(name string, attr string, context *fuse.Context) fuse.Status {
return fuse.ENOSYS
}
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