// Copyright 2018 The gVisor Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Package fsgofer implements p9.File giving access to local files using // a simple mapping from a path prefix that is added to the path requested // by the sandbox. Ex: // // prefix: "/docker/imgs/alpine" // app path: /bin/ls => /docker/imgs/alpine/bin/ls package fsgofer import ( "fmt" "io" "math" "os" "path" "path/filepath" "runtime" "strconv" "sync" "syscall" "golang.org/x/sys/unix" "gvisor.dev/gvisor/pkg/abi/linux" "gvisor.dev/gvisor/pkg/fd" "gvisor.dev/gvisor/pkg/log" "gvisor.dev/gvisor/pkg/p9" "gvisor.dev/gvisor/runsc/specutils" ) const ( // invalidMode is set to a value that doesn't match any other valid // modes to ensure an unopened/closed file fails all mode checks. invalidMode = p9.OpenFlags(math.MaxUint32) openFlags = syscall.O_NOFOLLOW | syscall.O_CLOEXEC ) type fileType int const ( regular fileType = iota directory symlink socket unknown ) // String implements fmt.Stringer. func (f fileType) String() string { switch f { case regular: return "regular" case directory: return "directory" case symlink: return "symlink" case socket: return "socket" } return "unknown" } // ControlSocketAddr generates an abstract unix socket name for the given id. func ControlSocketAddr(id string) string { return fmt.Sprintf("\x00runsc-gofer.%s", id) } // Config sets configuration options for each attach point. type Config struct { // ROMount is set to true if this is a readonly mount. ROMount bool // PanicOnWrite panics on attempts to write to RO mounts. PanicOnWrite bool // HostUDS prevents HostUDSAllowed bool } type attachPoint struct { prefix string conf Config // attachedMu protects attached. attachedMu sync.Mutex attached bool // deviceMu protects devices and nextDevice. deviceMu sync.Mutex // nextDevice is the next device id that will be allocated. nextDevice uint8 // devices is a map from actual host devices to "small" integers that // can be combined with host inode to form a unique virtual inode id. devices map[uint64]uint8 } // NewAttachPoint creates a new attacher that gives local file // access to all files under 'prefix'. 'prefix' must be an absolute path. func NewAttachPoint(prefix string, c Config) (p9.Attacher, error) { // Sanity check the prefix. if !filepath.IsAbs(prefix) { return nil, fmt.Errorf("attach point prefix must be absolute %q", prefix) } return &attachPoint{ prefix: prefix, conf: c, devices: make(map[uint64]uint8), }, nil } // Attach implements p9.Attacher. func (a *attachPoint) Attach() (p9.File, error) { // dirFD (1st argument) is ignored because 'prefix' is always absolute. stat, err := statAt(-1, a.prefix) if err != nil { return nil, fmt.Errorf("stat file %q, err: %v", a.prefix, err) } // Acquire the attach point lock a.attachedMu.Lock() defer a.attachedMu.Unlock() // Hold the file descriptor we are converting into a p9.File var f *fd.FD // Apply the S_IFMT bitmask so we can detect file type appropriately switch fmtStat := stat.Mode & syscall.S_IFMT; { case fmtStat == syscall.S_IFSOCK: // Check to see if the CLI option has been set to allow the UDS mount if !a.conf.HostUDSAllowed { return nil, fmt.Errorf("host UDS support is disabled") } // Attempt to open a connection. Bubble up the failures. f, err = fd.OpenUnix(a.prefix) if err != nil { return nil, err } default: // Default to Read/Write permissions. mode := syscall.O_RDWR // If the configuration is Read Only or the mount point is a directory, // set the mode to Read Only. if a.conf.ROMount || fmtStat == syscall.S_IFDIR { mode = syscall.O_RDONLY } // Open the mount point & capture the FD. f, err = fd.Open(a.prefix, openFlags|mode, 0) if err != nil { return nil, fmt.Errorf("unable to open file %q, err: %v", a.prefix, err) } } // Close the connection if already attached. if a.attached { f.Close() return nil, fmt.Errorf("attach point already attached, prefix: %s", a.prefix) } a.attached = true // Return a localFile object to the caller with the UDS FD included. return newLocalFile(a, f, a.prefix, stat) } // makeQID returns a unique QID for the given stat buffer. func (a *attachPoint) makeQID(stat syscall.Stat_t) p9.QID { a.deviceMu.Lock() defer a.deviceMu.Unlock() // First map the host device id to a unique 8-bit integer. dev, ok := a.devices[stat.Dev] if !ok { a.devices[stat.Dev] = a.nextDevice dev = a.nextDevice a.nextDevice++ if a.nextDevice < dev { panic(fmt.Sprintf("device id overflow! map: %+v", a.devices)) } } // Construct a "virtual" inode id with the uint8 device number in the // first 8 bits, and the rest of the bits from the host inode id. maskedIno := stat.Ino & 0x00ffffffffffffff if maskedIno != stat.Ino { log.Warningf("first 8 bytes of host inode id %x will be truncated to construct virtual inode id", stat.Ino) } ino := uint64(dev)<<56 | maskedIno log.Debugf("host inode %x on device %x mapped to virtual inode %x", stat.Ino, stat.Dev, ino) return p9.QID{ Type: p9.FileMode(stat.Mode).QIDType(), Path: ino, } } // localFile implements p9.File wrapping a local file. The underlying file // is opened during Walk() and stored in 'file' to be used with other // operations. The file is opened as readonly, unless it's a symlink or there is // no read access, which requires O_PATH. 'file' is dup'ed when Walk(nil) is // called to clone the file. This reduces the number of walks that need to be // done by the host file system when files are reused. // // The file may be reopened if the requested mode in Open() is not a subset of // current mode. Consequently, 'file' could have a mode wider than requested and // must be verified before read/write operations. Before the file is opened and // after it's closed, 'mode' is set to an invalid value to prevent an unopened // file from being used. // // The reason that the file is not opened initially as read-write is for better // performance with 'overlay2' storage driver. overlay2 eagerly copies the // entire file up when it's opened in write mode, and would perform badly when type localFile struct { p9.DefaultWalkGetAttr // attachPoint is the attachPoint that serves this localFile. attachPoint *attachPoint // hostPath will be safely updated by the Renamed hook. hostPath string // file is opened when localFile is created and it's never nil. It may be // reopened if the Open() mode is wider than the mode the file was originally // opened with. file *fd.FD // mode is the mode in which the file was opened. Set to invalidMode // if localFile isn't opened. mode p9.OpenFlags // ft is the fileType for this file. ft fileType // readDirMu protects against concurrent Readdir calls. readDirMu sync.Mutex // lastDirentOffset is the last offset returned by Readdir(). If another call // to Readdir is made at the same offset, the file doesn't need to be // repositioned. This is an important optimization because the caller must // always make one extra call to detect EOF (empty result, no error). lastDirentOffset uint64 } var procSelfFD *fd.FD // OpenProcSelfFD opens the /proc/self/fd directory, which will be used to // reopen file descriptors. func OpenProcSelfFD() error { d, err := syscall.Open("/proc/self/fd", syscall.O_RDONLY|syscall.O_DIRECTORY, 0) if err != nil { return fmt.Errorf("error opening /proc/self/fd: %v", err) } procSelfFD = fd.New(d) return nil } func reopenProcFd(f *fd.FD, mode int) (*fd.FD, error) { d, err := syscall.Openat(int(procSelfFD.FD()), strconv.Itoa(f.FD()), mode&^syscall.O_NOFOLLOW, 0) if err != nil { return nil, err } return fd.New(d), nil } func openAnyFileFromParent(parent *localFile, name string) (*fd.FD, string, error) { path := path.Join(parent.hostPath, name) f, err := openAnyFile(path, func(mode int) (*fd.FD, error) { return fd.OpenAt(parent.file, name, openFlags|mode, 0) }) return f, path, err } // openAnyFile attempts to open the file in O_RDONLY and if it fails fallsback // to O_PATH. 'path' is used for logging messages only. 'fn' is what does the // actual file open and is customizable by the caller. func openAnyFile(path string, fn func(mode int) (*fd.FD, error)) (*fd.FD, error) { // Attempt to open file in the following mode in order: // 1. RDONLY | NONBLOCK: for all files, works for directories and ro mounts too. // Use non-blocking to prevent getting stuck inside open(2) for FIFOs. This option // has no effect on regular files. // 2. PATH: for symlinks modes := []int{syscall.O_RDONLY | syscall.O_NONBLOCK, unix.O_PATH} var err error var file *fd.FD for i, mode := range modes { file, err = fn(mode) if err == nil { // openat succeeded, we're done. break } switch e := extractErrno(err); e { case syscall.ENOENT: // File doesn't exist, no point in retrying. return nil, e } // openat failed. Try again with next mode, preserving 'err' in case this // was the last attempt. log.Debugf("Attempt %d to open file failed, mode: %#x, path: %q, err: %v", i, openFlags|mode, path, err) } if err != nil { // All attempts to open file have failed, return the last error. log.Debugf("Failed to open file, path: %q, err: %v", path, err) return nil, extractErrno(err) } return file, nil } func getSupportedFileType(stat syscall.Stat_t) (fileType, error) { var ft fileType switch stat.Mode & syscall.S_IFMT { case syscall.S_IFREG: ft = regular case syscall.S_IFDIR: ft = directory case syscall.S_IFLNK: ft = symlink case syscall.S_IFSOCK: ft = socket default: return unknown, syscall.EPERM } return ft, nil } func newLocalFile(a *attachPoint, file *fd.FD, path string, stat syscall.Stat_t) (*localFile, error) { ft, err := getSupportedFileType(stat) if err != nil { return nil, err } return &localFile{ attachPoint: a, hostPath: path, file: file, mode: invalidMode, ft: ft, }, nil } // newFDMaybe creates a fd.FD from a file, dup'ing the FD and setting it as // non-blocking. If anything fails, returns nil. It's better to have a file // without host FD, than to fail the operation. func newFDMaybe(file *fd.FD) *fd.FD { dupFD, err := syscall.Dup(file.FD()) // Technically, the runtime may call the finalizer on file as soon as // FD() returns. runtime.KeepAlive(file) if err != nil { return nil } dup := fd.New(dupFD) // fd is blocking; non-blocking is required. if err := syscall.SetNonblock(dup.FD(), true); err != nil { dup.Close() return nil } return dup } func stat(fd int) (syscall.Stat_t, error) { var stat syscall.Stat_t if err := syscall.Fstat(fd, &stat); err != nil { return syscall.Stat_t{}, err } return stat, nil } func fchown(fd int, uid p9.UID, gid p9.GID) error { return syscall.Fchownat(fd, "", int(uid), int(gid), linux.AT_EMPTY_PATH|unix.AT_SYMLINK_NOFOLLOW) } // Open implements p9.File. func (l *localFile) Open(mode p9.OpenFlags) (*fd.FD, p9.QID, uint32, error) { if l.isOpen() { panic(fmt.Sprintf("attempting to open already opened file: %q", l.hostPath)) } // Check if control file can be used or if a new open must be created. var newFile *fd.FD if mode == p9.ReadOnly { log.Debugf("Open reusing control file, mode: %v, %q", mode, l.hostPath) newFile = l.file } else { // Ideally reopen would call name_to_handle_at (with empty name) and // open_by_handle_at to reopen the file without using 'hostPath'. However, // name_to_handle_at and open_by_handle_at aren't supported by overlay2. log.Debugf("Open reopening file, mode: %v, %q", mode, l.hostPath) var err error newFile, err = reopenProcFd(l.file, openFlags|mode.OSFlags()) if err != nil { return nil, p9.QID{}, 0, extractErrno(err) } } stat, err := stat(newFile.FD()) if err != nil { if newFile != l.file { newFile.Close() } return nil, p9.QID{}, 0, extractErrno(err) } var fd *fd.FD if stat.Mode&syscall.S_IFMT == syscall.S_IFREG { // Donate FD for regular files only. fd = newFDMaybe(newFile) } // Close old file in case a new one was created. if newFile != l.file { if err := l.file.Close(); err != nil { log.Warningf("Error closing file %q: %v", l.hostPath, err) } l.file = newFile } l.mode = mode return fd, l.attachPoint.makeQID(stat), 0, nil } // Create implements p9.File. func (l *localFile) Create(name string, mode p9.OpenFlags, perm p9.FileMode, uid p9.UID, gid p9.GID) (*fd.FD, p9.File, p9.QID, uint32, error) { conf := l.attachPoint.conf if conf.ROMount { if conf.PanicOnWrite { panic("attempt to write to RO mount") } return nil, nil, p9.QID{}, 0, syscall.EBADF } // 'file' may be used for other operations (e.g. Walk), so read access is // always added to flags. Note that resulting file might have a wider mode // than needed for each particular case. flags := openFlags | syscall.O_CREAT | syscall.O_EXCL if mode == p9.WriteOnly { flags |= syscall.O_RDWR } else { flags |= mode.OSFlags() } child, err := fd.OpenAt(l.file, name, flags, uint32(perm.Permissions())) if err != nil { return nil, nil, p9.QID{}, 0, extractErrno(err) } cu := specutils.MakeCleanup(func() { child.Close() // Best effort attempt to remove the file in case of failure. if err := syscall.Unlinkat(l.file.FD(), name); err != nil { log.Warningf("error unlinking file %q after failure: %v", path.Join(l.hostPath, name), err) } }) defer cu.Clean() if err := fchown(child.FD(), uid, gid); err != nil { return nil, nil, p9.QID{}, 0, extractErrno(err) } stat, err := stat(child.FD()) if err != nil { return nil, nil, p9.QID{}, 0, extractErrno(err) } c := &localFile{ attachPoint: l.attachPoint, hostPath: path.Join(l.hostPath, name), file: child, mode: mode, } cu.Release() return newFDMaybe(c.file), c, l.attachPoint.makeQID(stat), 0, nil } // Mkdir implements p9.File. func (l *localFile) Mkdir(name string, perm p9.FileMode, uid p9.UID, gid p9.GID) (p9.QID, error) { conf := l.attachPoint.conf if conf.ROMount { if conf.PanicOnWrite { panic("attempt to write to RO mount") } return p9.QID{}, syscall.EBADF } if err := syscall.Mkdirat(l.file.FD(), name, uint32(perm.Permissions())); err != nil { return p9.QID{}, extractErrno(err) } cu := specutils.MakeCleanup(func() { // Best effort attempt to remove the dir in case of failure. if err := unix.Unlinkat(l.file.FD(), name, unix.AT_REMOVEDIR); err != nil { log.Warningf("error unlinking dir %q after failure: %v", path.Join(l.hostPath, name), err) } }) defer cu.Clean() // Open directory to change ownership and stat it. flags := syscall.O_DIRECTORY | syscall.O_RDONLY | openFlags f, err := fd.OpenAt(l.file, name, flags, 0) if err != nil { return p9.QID{}, extractErrno(err) } defer f.Close() if err := fchown(f.FD(), uid, gid); err != nil { return p9.QID{}, extractErrno(err) } stat, err := stat(f.FD()) if err != nil { return p9.QID{}, extractErrno(err) } cu.Release() return l.attachPoint.makeQID(stat), nil } // Walk implements p9.File. func (l *localFile) Walk(names []string) ([]p9.QID, p9.File, error) { // Duplicate current file if 'names' is empty. if len(names) == 0 { newFile, err := openAnyFile(l.hostPath, func(mode int) (*fd.FD, error) { return reopenProcFd(l.file, openFlags|mode) }) if err != nil { return nil, nil, extractErrno(err) } stat, err := stat(newFile.FD()) if err != nil { newFile.Close() return nil, nil, extractErrno(err) } c := &localFile{ attachPoint: l.attachPoint, hostPath: l.hostPath, file: newFile, mode: invalidMode, } return []p9.QID{l.attachPoint.makeQID(stat)}, c, nil } var qids []p9.QID last := l for _, name := range names { f, path, err := openAnyFileFromParent(last, name) if last != l { last.Close() } if err != nil { return nil, nil, extractErrno(err) } stat, err := stat(f.FD()) if err != nil { f.Close() return nil, nil, extractErrno(err) } c, err := newLocalFile(last.attachPoint, f, path, stat) if err != nil { f.Close() return nil, nil, extractErrno(err) } qids = append(qids, l.attachPoint.makeQID(stat)) last = c } return qids, last, nil } // StatFS implements p9.File. func (l *localFile) StatFS() (p9.FSStat, error) { var s syscall.Statfs_t if err := syscall.Fstatfs(l.file.FD(), &s); err != nil { return p9.FSStat{}, extractErrno(err) } // Populate with what's available. return p9.FSStat{ Type: uint32(s.Type), BlockSize: uint32(s.Bsize), Blocks: s.Blocks, BlocksFree: s.Bfree, BlocksAvailable: s.Bavail, Files: s.Files, FilesFree: s.Ffree, NameLength: uint32(s.Namelen), }, nil } // FSync implements p9.File. func (l *localFile) FSync() error { if !l.isOpen() { return syscall.EBADF } if err := syscall.Fsync(l.file.FD()); err != nil { return extractErrno(err) } return nil } // GetAttr implements p9.File. func (l *localFile) GetAttr(_ p9.AttrMask) (p9.QID, p9.AttrMask, p9.Attr, error) { stat, err := stat(l.file.FD()) if err != nil { return p9.QID{}, p9.AttrMask{}, p9.Attr{}, extractErrno(err) } attr := p9.Attr{ Mode: p9.FileMode(stat.Mode), UID: p9.UID(stat.Uid), GID: p9.GID(stat.Gid), NLink: stat.Nlink, RDev: stat.Rdev, Size: uint64(stat.Size), BlockSize: uint64(stat.Blksize), Blocks: uint64(stat.Blocks), ATimeSeconds: uint64(stat.Atim.Sec), ATimeNanoSeconds: uint64(stat.Atim.Nsec), MTimeSeconds: uint64(stat.Mtim.Sec), MTimeNanoSeconds: uint64(stat.Mtim.Nsec), CTimeSeconds: uint64(stat.Ctim.Sec), CTimeNanoSeconds: uint64(stat.Ctim.Nsec), } valid := p9.AttrMask{ Mode: true, UID: true, GID: true, NLink: true, RDev: true, Size: true, Blocks: true, ATime: true, MTime: true, CTime: true, } return l.attachPoint.makeQID(stat), valid, attr, nil } // SetAttr implements p9.File. Due to mismatch in file API, options // cannot be changed atomically and user may see partial changes when // an error happens. func (l *localFile) SetAttr(valid p9.SetAttrMask, attr p9.SetAttr) error { conf := l.attachPoint.conf if conf.ROMount { if conf.PanicOnWrite { panic("attempt to write to RO mount") } return syscall.EBADF } allowed := p9.SetAttrMask{ Permissions: true, UID: true, GID: true, Size: true, ATime: true, MTime: true, ATimeNotSystemTime: true, MTimeNotSystemTime: true, } if valid.Empty() { // Nothing to do. return nil } // Handle all the sanity checks up front so that the client gets a // consistent result that is not attribute dependent. if !valid.IsSubsetOf(allowed) { log.Warningf("SetAttr() failed for %q, mask: %v", l.hostPath, valid) return syscall.EPERM } // Check if it's possible to use cached file, or if another one needs to be // opened for write. f := l.file if l.ft == regular && l.mode != p9.WriteOnly && l.mode != p9.ReadWrite { var err error f, err = reopenProcFd(l.file, openFlags|os.O_WRONLY) if err != nil { return extractErrno(err) } defer f.Close() } // The semantics are to either return an error if no changes were made, // or no error if *all* changes were made. Well, this can be impossible // if the filesystem rejects at least one of the changes, especially // since some operations are not easy to undo atomically. // // This could be made better if SetAttr actually returned the changes // it did make, so the client can at least know what has changed. So // we at least attempt to make all of the changes and return a generic // error if any of them fails, which at least doesn't bias any change // over another. var err error if valid.Permissions { if cerr := syscall.Fchmod(f.FD(), uint32(attr.Permissions)); cerr != nil { log.Debugf("SetAttr fchmod failed %q, err: %v", l.hostPath, cerr) err = extractErrno(cerr) } } if valid.Size { if terr := syscall.Ftruncate(f.FD(), int64(attr.Size)); terr != nil { log.Debugf("SetAttr ftruncate failed %q, err: %v", l.hostPath, terr) err = extractErrno(terr) } } if valid.ATime || valid.MTime { utimes := [2]syscall.Timespec{ {Sec: 0, Nsec: linux.UTIME_OMIT}, {Sec: 0, Nsec: linux.UTIME_OMIT}, } if valid.ATime { if valid.ATimeNotSystemTime { utimes[0].Sec = int64(attr.ATimeSeconds) utimes[0].Nsec = int64(attr.ATimeNanoSeconds) } else { utimes[0].Nsec = linux.UTIME_NOW } } if valid.MTime { if valid.MTimeNotSystemTime { utimes[1].Sec = int64(attr.MTimeSeconds) utimes[1].Nsec = int64(attr.MTimeNanoSeconds) } else { utimes[1].Nsec = linux.UTIME_NOW } } if l.ft == symlink { // utimensat operates different that other syscalls. To operate on a // symlink it *requires* AT_SYMLINK_NOFOLLOW with dirFD and a non-empty // name. parent, err := syscall.Open(path.Dir(l.hostPath), openFlags|unix.O_PATH, 0) if err != nil { return extractErrno(err) } defer syscall.Close(parent) if terr := utimensat(parent, path.Base(l.hostPath), utimes, linux.AT_SYMLINK_NOFOLLOW); terr != nil { log.Debugf("SetAttr utimens failed %q, err: %v", l.hostPath, terr) err = extractErrno(terr) } } else { // Directories and regular files can operate directly on the fd // using empty name. if terr := utimensat(f.FD(), "", utimes, 0); terr != nil { log.Debugf("SetAttr utimens failed %q, err: %v", l.hostPath, terr) err = extractErrno(terr) } } } if valid.UID || valid.GID { uid := -1 if valid.UID { uid = int(attr.UID) } gid := -1 if valid.GID { gid = int(attr.GID) } if oerr := syscall.Fchownat(f.FD(), "", uid, gid, linux.AT_EMPTY_PATH|linux.AT_SYMLINK_NOFOLLOW); oerr != nil { log.Debugf("SetAttr fchownat failed %q, err: %v", l.hostPath, oerr) err = extractErrno(oerr) } } return err } // Allocate implements p9.File. func (l *localFile) Allocate(mode p9.AllocateMode, offset, length uint64) error { if !l.isOpen() { return syscall.EBADF } if err := syscall.Fallocate(l.file.FD(), mode.ToLinux(), int64(offset), int64(length)); err != nil { return extractErrno(err) } return nil } // Rename implements p9.File; this should never be called. func (l *localFile) Rename(p9.File, string) error { panic("rename called directly") } // RenameAt implements p9.File.RenameAt. func (l *localFile) RenameAt(oldName string, directory p9.File, newName string) error { conf := l.attachPoint.conf if conf.ROMount { if conf.PanicOnWrite { panic("attempt to write to RO mount") } return syscall.EBADF } newParent := directory.(*localFile) if err := renameat(l.file.FD(), oldName, newParent.file.FD(), newName); err != nil { return extractErrno(err) } return nil } // ReadAt implements p9.File. func (l *localFile) ReadAt(p []byte, offset uint64) (int, error) { if l.mode != p9.ReadOnly && l.mode != p9.ReadWrite { return 0, syscall.EBADF } if !l.isOpen() { return 0, syscall.EBADF } r, err := l.file.ReadAt(p, int64(offset)) switch err { case nil, io.EOF: return r, nil default: return r, extractErrno(err) } } // WriteAt implements p9.File. func (l *localFile) WriteAt(p []byte, offset uint64) (int, error) { if l.mode != p9.WriteOnly && l.mode != p9.ReadWrite { return 0, syscall.EBADF } if !l.isOpen() { return 0, syscall.EBADF } w, err := l.file.WriteAt(p, int64(offset)) if err != nil { return w, extractErrno(err) } return w, nil } // Symlink implements p9.File. func (l *localFile) Symlink(target, newName string, uid p9.UID, gid p9.GID) (p9.QID, error) { conf := l.attachPoint.conf if conf.ROMount { if conf.PanicOnWrite { panic("attempt to write to RO mount") } return p9.QID{}, syscall.EBADF } if err := unix.Symlinkat(target, l.file.FD(), newName); err != nil { return p9.QID{}, extractErrno(err) } cu := specutils.MakeCleanup(func() { // Best effort attempt to remove the symlink in case of failure. if err := syscall.Unlinkat(l.file.FD(), newName); err != nil { log.Warningf("error unlinking file %q after failure: %v", path.Join(l.hostPath, newName), err) } }) defer cu.Clean() // Open symlink to change ownership and stat it. f, err := fd.OpenAt(l.file, newName, unix.O_PATH|openFlags, 0) if err != nil { return p9.QID{}, extractErrno(err) } defer f.Close() if err := fchown(f.FD(), uid, gid); err != nil { return p9.QID{}, extractErrno(err) } stat, err := stat(f.FD()) if err != nil { return p9.QID{}, extractErrno(err) } cu.Release() return l.attachPoint.makeQID(stat), nil } // Link implements p9.File. func (l *localFile) Link(target p9.File, newName string) error { conf := l.attachPoint.conf if conf.ROMount { if conf.PanicOnWrite { panic("attempt to write to RO mount") } return syscall.EBADF } targetFile := target.(*localFile) if err := unix.Linkat(targetFile.file.FD(), "", l.file.FD(), newName, linux.AT_EMPTY_PATH); err != nil { return extractErrno(err) } return nil } // Mknod implements p9.File. // // Not implemented. func (*localFile) Mknod(_ string, _ p9.FileMode, _ uint32, _ uint32, _ p9.UID, _ p9.GID) (p9.QID, error) { // From mknod(2) man page: // "EPERM: [...] if the filesystem containing pathname does not support // the type of node requested." return p9.QID{}, syscall.EPERM } // UnlinkAt implements p9.File. func (l *localFile) UnlinkAt(name string, flags uint32) error { conf := l.attachPoint.conf if conf.ROMount { if conf.PanicOnWrite { panic("attempt to write to RO mount") } return syscall.EBADF } if err := unix.Unlinkat(l.file.FD(), name, int(flags)); err != nil { return extractErrno(err) } return nil } // Readdir implements p9.File. func (l *localFile) Readdir(offset uint64, count uint32) ([]p9.Dirent, error) { if l.mode != p9.ReadOnly && l.mode != p9.ReadWrite { return nil, syscall.EBADF } if !l.isOpen() { return nil, syscall.EBADF } // Readdirnames is a cursor over directories, so seek back to 0 to ensure it's // reading all directory contents. Take a lock because this operation is // stateful. l.readDirMu.Lock() defer l.readDirMu.Unlock() skip := uint64(0) // Check if the file is at the correct position already. If not, seek to the // beginning and read the entire directory again. if l.lastDirentOffset != offset { if _, err := syscall.Seek(l.file.FD(), 0, 0); err != nil { return nil, extractErrno(err) } skip = offset } dirents, err := l.readDirent(l.file.FD(), offset, count, skip) if err == nil { // On success, remember the offset that was returned at the current // position. l.lastDirentOffset = offset + uint64(len(dirents)) } else { // On failure, the state is unknown, force call to seek() next time. l.lastDirentOffset = math.MaxUint64 } return dirents, err } func (l *localFile) readDirent(f int, offset uint64, count uint32, skip uint64) ([]p9.Dirent, error) { // Limit 'count' to cap the slice size that is returned. const maxCount = 100000 if count > maxCount { count = maxCount } dirents := make([]p9.Dirent, 0, count) // Pre-allocate buffers that will be reused to get partial results. direntsBuf := make([]byte, 8192) names := make([]string, 0, 100) end := offset + uint64(count) for offset < end { dirSize, err := syscall.ReadDirent(f, direntsBuf) if err != nil { return dirents, err } if dirSize <= 0 { return dirents, nil } names := names[:0] _, _, names = syscall.ParseDirent(direntsBuf[:dirSize], -1, names) // Skip over entries that the caller is not interested in. if skip > 0 { if skip > uint64(len(names)) { skip -= uint64(len(names)) names = names[:0] } else { names = names[skip:] skip = 0 } } for _, name := range names { stat, err := statAt(l.file.FD(), name) if err != nil { log.Warningf("Readdir is skipping file with failed stat %q, err: %v", l.hostPath, err) continue } qid := l.attachPoint.makeQID(stat) offset++ dirents = append(dirents, p9.Dirent{ QID: qid, Type: qid.Type, Name: name, Offset: offset, }) } } return dirents, nil } // Readlink implements p9.File. func (l *localFile) Readlink() (string, error) { // Shamelessly stolen from os.Readlink (added upper bound limit to buffer). const limit = 1024 * 1024 for len := 128; len < limit; len *= 2 { b := make([]byte, len) n, err := unix.Readlinkat(l.file.FD(), "", b) if err != nil { return "", extractErrno(err) } if n < len { return string(b[:n]), nil } } return "", syscall.ENOMEM } // Flush implements p9.File. func (l *localFile) Flush() error { return nil } // Connect implements p9.File. func (l *localFile) Connect(p9.ConnectFlags) (*fd.FD, error) { return fd.OpenUnix(l.hostPath) } // Close implements p9.File. func (l *localFile) Close() error { l.mode = invalidMode err := l.file.Close() l.file = nil return err } func (l *localFile) isOpen() bool { return l.mode != invalidMode } // Renamed implements p9.Renamed. func (l *localFile) Renamed(newDir p9.File, newName string) { l.hostPath = path.Join(newDir.(*localFile).hostPath, newName) } // extractErrno tries to determine the errno. func extractErrno(err error) syscall.Errno { if err == nil { // This should never happen. The likely result will be that // some user gets the frustrating "error: SUCCESS" message. log.Warningf("extractErrno called with nil error!") return 0 } switch err { case os.ErrNotExist: return syscall.ENOENT case os.ErrExist: return syscall.EEXIST case os.ErrPermission: return syscall.EACCES case os.ErrInvalid: return syscall.EINVAL } // See if it's an errno or a common wrapped error. switch e := err.(type) { case syscall.Errno: return e case *os.PathError: return extractErrno(e.Err) case *os.LinkError: return extractErrno(e.Err) case *os.SyscallError: return extractErrno(e.Err) } // Fall back to EIO. log.Debugf("Unknown error: %v, defaulting to EIO", err) return syscall.EIO }