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|
// 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 p9
import (
"fmt"
"io"
"os"
"path"
"strings"
"sync/atomic"
"syscall"
"gvisor.dev/gvisor/pkg/fd"
"gvisor.dev/gvisor/pkg/log"
)
// ExtractErrno extracts a syscall.Errno from a error, best effort.
func ExtractErrno(err error) syscall.Errno {
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
}
// Attempt to unwrap.
switch e := err.(type) {
case syscall.Errno:
return e
case *os.PathError:
return ExtractErrno(e.Err)
case *os.SyscallError:
return ExtractErrno(e.Err)
}
// Default case.
log.Warningf("unknown error: %v", err)
return syscall.EIO
}
// newErr returns a new error message from an error.
func newErr(err error) *Rlerror {
return &Rlerror{Error: uint32(ExtractErrno(err))}
}
// handler is implemented for server-handled messages.
//
// See server.go for call information.
type handler interface {
// Handle handles the given message.
//
// This may modify the server state. The handle function must return a
// message which will be sent back to the client. It may be useful to
// use newErr to automatically extract an error message.
handle(cs *connState) message
}
// handle implements handler.handle.
func (t *Tversion) handle(cs *connState) message {
if t.MSize == 0 {
return newErr(syscall.EINVAL)
}
if t.MSize > maximumLength {
return newErr(syscall.EINVAL)
}
atomic.StoreUint32(&cs.messageSize, t.MSize)
requested, ok := parseVersion(t.Version)
if !ok {
return newErr(syscall.EINVAL)
}
// The server cannot support newer versions that it doesn't know about. In this
// case we return EAGAIN to tell the client to try again with a lower version.
if requested > highestSupportedVersion {
return newErr(syscall.EAGAIN)
}
// From Tversion(9P): "The server may respond with the client’s version
// string, or a version string identifying an earlier defined protocol version".
atomic.StoreUint32(&cs.version, requested)
return &Rversion{
MSize: t.MSize,
Version: t.Version,
}
}
// handle implements handler.handle.
func (t *Tflush) handle(cs *connState) message {
cs.WaitTag(t.OldTag)
return &Rflush{}
}
// checkSafeName validates the name and returns nil or returns an error.
func checkSafeName(name string) error {
if name != "" && !strings.Contains(name, "/") && name != "." && name != ".." {
return nil
}
return syscall.EINVAL
}
// handle implements handler.handle.
func (t *Tclunk) handle(cs *connState) message {
if !cs.DeleteFID(t.FID) {
return newErr(syscall.EBADF)
}
return &Rclunk{}
}
// handle implements handler.handle.
func (t *Tremove) handle(cs *connState) message {
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
// Frustratingly, because we can't be guaranteed that a rename is not
// occurring simultaneously with this removal, we need to acquire the
// global rename lock for this kind of remove operation to ensure that
// ref.parent does not change out from underneath us.
//
// This is why Tremove is a bad idea, and clients should generally use
// Tunlinkat. All p9 clients will use Tunlinkat.
err := ref.safelyGlobal(func() error {
// Is this a root? Can't remove that.
if ref.isRoot() {
return syscall.EINVAL
}
// N.B. this remove operation is permitted, even if the file is open.
// See also rename below for reasoning.
// Is this file already deleted?
if ref.isDeleted() {
return syscall.EINVAL
}
// Retrieve the file's proper name.
name := ref.parent.pathNode.nameFor(ref)
// Attempt the removal.
if err := ref.parent.file.UnlinkAt(name, 0); err != nil {
return err
}
// Mark all relevant fids as deleted. We don't need to lock any
// individual nodes because we already hold the global lock.
ref.parent.markChildDeleted(name)
return nil
})
// "The remove request asks the file server both to remove the file
// represented by fid and to clunk the fid, even if the remove fails."
//
// "It is correct to consider remove to be a clunk with the side effect
// of removing the file if permissions allow."
// https://swtch.com/plan9port/man/man9/remove.html
if !cs.DeleteFID(t.FID) {
return newErr(syscall.EBADF)
}
if err != nil {
return newErr(err)
}
return &Rremove{}
}
// handle implements handler.handle.
//
// We don't support authentication, so this just returns ENOSYS.
func (t *Tauth) handle(cs *connState) message {
return newErr(syscall.ENOSYS)
}
// handle implements handler.handle.
func (t *Tattach) handle(cs *connState) message {
// Ensure no authentication FID is provided.
if t.Auth.AuthenticationFID != NoFID {
return newErr(syscall.EINVAL)
}
// Must provide an absolute path.
if path.IsAbs(t.Auth.AttachName) {
// Trim off the leading / if the path is absolute. We always
// treat attach paths as absolute and call attach with the root
// argument on the server file for clarity.
t.Auth.AttachName = t.Auth.AttachName[1:]
}
// Do the attach on the root.
sf, err := cs.server.attacher.Attach()
if err != nil {
return newErr(err)
}
qid, valid, attr, err := sf.GetAttr(AttrMaskAll())
if err != nil {
sf.Close() // Drop file.
return newErr(err)
}
if !valid.Mode {
sf.Close() // Drop file.
return newErr(syscall.EINVAL)
}
// Build a transient reference.
root := &fidRef{
server: cs.server,
parent: nil,
file: sf,
refs: 1,
mode: attr.Mode.FileType(),
pathNode: cs.server.pathTree,
}
defer root.DecRef()
// Attach the root?
if len(t.Auth.AttachName) == 0 {
cs.InsertFID(t.FID, root)
return &Rattach{QID: qid}
}
// We want the same traversal checks to apply on attach, so always
// attach at the root and use the regular walk paths.
names := strings.Split(t.Auth.AttachName, "/")
_, newRef, _, _, err := doWalk(cs, root, names, false)
if err != nil {
return newErr(err)
}
defer newRef.DecRef()
// Insert the FID.
cs.InsertFID(t.FID, newRef)
return &Rattach{QID: qid}
}
// CanOpen returns whether this file open can be opened, read and written to.
//
// This includes everything except symlinks and sockets.
func CanOpen(mode FileMode) bool {
return mode.IsRegular() || mode.IsDir() || mode.IsNamedPipe() || mode.IsBlockDevice() || mode.IsCharacterDevice()
}
// handle implements handler.handle.
func (t *Tlopen) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
ref.openedMu.Lock()
defer ref.openedMu.Unlock()
// Has it been opened already?
if ref.opened || !CanOpen(ref.mode) {
return newErr(syscall.EINVAL)
}
if ref.mode.IsDir() {
// Directory must be opened ReadOnly.
if t.Flags&OpenFlagsModeMask != ReadOnly {
return newErr(syscall.EISDIR)
}
// Directory not truncatable.
if t.Flags&OpenTruncate != 0 {
return newErr(syscall.EISDIR)
}
}
var (
qid QID
ioUnit uint32
osFile *fd.FD
)
if err := ref.safelyRead(func() (err error) {
// Has it been deleted already?
if ref.isDeleted() {
return syscall.EINVAL
}
// Do the open.
osFile, qid, ioUnit, err = ref.file.Open(t.Flags)
return err
}); err != nil {
return newErr(err)
}
// Mark file as opened and set open mode.
ref.opened = true
ref.openFlags = t.Flags
rlopen := &Rlopen{QID: qid, IoUnit: ioUnit}
rlopen.SetFilePayload(osFile)
return rlopen
}
func (t *Tlcreate) do(cs *connState, uid UID) (*Rlcreate, error) {
// Don't allow complex names.
if err := checkSafeName(t.Name); err != nil {
return nil, err
}
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return nil, syscall.EBADF
}
defer ref.DecRef()
var (
osFile *fd.FD
nsf File
qid QID
ioUnit uint32
newRef *fidRef
)
if err := ref.safelyWrite(func() (err error) {
// Don't allow creation from non-directories or deleted directories.
if ref.isDeleted() || !ref.mode.IsDir() {
return syscall.EINVAL
}
// Not allowed on open directories.
if _, opened := ref.OpenFlags(); opened {
return syscall.EINVAL
}
// Do the create.
osFile, nsf, qid, ioUnit, err = ref.file.Create(t.Name, t.OpenFlags, t.Permissions, uid, t.GID)
if err != nil {
return err
}
newRef = &fidRef{
server: cs.server,
parent: ref,
file: nsf,
opened: true,
openFlags: t.OpenFlags,
mode: ModeRegular,
pathNode: ref.pathNode.pathNodeFor(t.Name),
}
ref.pathNode.addChild(newRef, t.Name)
ref.IncRef() // Acquire parent reference.
return nil
}); err != nil {
return nil, err
}
// Replace the FID reference.
cs.InsertFID(t.FID, newRef)
rlcreate := &Rlcreate{Rlopen: Rlopen{QID: qid, IoUnit: ioUnit}}
rlcreate.SetFilePayload(osFile)
return rlcreate, nil
}
// handle implements handler.handle.
func (t *Tlcreate) handle(cs *connState) message {
rlcreate, err := t.do(cs, NoUID)
if err != nil {
return newErr(err)
}
return rlcreate
}
// handle implements handler.handle.
func (t *Tsymlink) handle(cs *connState) message {
rsymlink, err := t.do(cs, NoUID)
if err != nil {
return newErr(err)
}
return rsymlink
}
func (t *Tsymlink) do(cs *connState, uid UID) (*Rsymlink, error) {
// Don't allow complex names.
if err := checkSafeName(t.Name); err != nil {
return nil, err
}
// Lookup the FID.
ref, ok := cs.LookupFID(t.Directory)
if !ok {
return nil, syscall.EBADF
}
defer ref.DecRef()
var qid QID
if err := ref.safelyWrite(func() (err error) {
// Don't allow symlinks from non-directories or deleted directories.
if ref.isDeleted() || !ref.mode.IsDir() {
return syscall.EINVAL
}
// Not allowed on open directories.
if _, opened := ref.OpenFlags(); opened {
return syscall.EINVAL
}
// Do the symlink.
qid, err = ref.file.Symlink(t.Target, t.Name, uid, t.GID)
return err
}); err != nil {
return nil, err
}
return &Rsymlink{QID: qid}, nil
}
// handle implements handler.handle.
func (t *Tlink) handle(cs *connState) message {
// Don't allow complex names.
if err := checkSafeName(t.Name); err != nil {
return newErr(err)
}
// Lookup the FID.
ref, ok := cs.LookupFID(t.Directory)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
// Lookup the other FID.
refTarget, ok := cs.LookupFID(t.Target)
if !ok {
return newErr(syscall.EBADF)
}
defer refTarget.DecRef()
if err := ref.safelyWrite(func() (err error) {
// Don't allow create links from non-directories or deleted directories.
if ref.isDeleted() || !ref.mode.IsDir() {
return syscall.EINVAL
}
// Not allowed on open directories.
if _, opened := ref.OpenFlags(); opened {
return syscall.EINVAL
}
// Do the link.
return ref.file.Link(refTarget.file, t.Name)
}); err != nil {
return newErr(err)
}
return &Rlink{}
}
// handle implements handler.handle.
func (t *Trenameat) handle(cs *connState) message {
// Don't allow complex names.
if err := checkSafeName(t.OldName); err != nil {
return newErr(err)
}
if err := checkSafeName(t.NewName); err != nil {
return newErr(err)
}
// Lookup the FID.
ref, ok := cs.LookupFID(t.OldDirectory)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
// Lookup the other FID.
refTarget, ok := cs.LookupFID(t.NewDirectory)
if !ok {
return newErr(syscall.EBADF)
}
defer refTarget.DecRef()
// Perform the rename holding the global lock.
if err := ref.safelyGlobal(func() (err error) {
// Don't allow renaming across deleted directories.
if ref.isDeleted() || !ref.mode.IsDir() || refTarget.isDeleted() || !refTarget.mode.IsDir() {
return syscall.EINVAL
}
// Not allowed on open directories.
if _, opened := ref.OpenFlags(); opened {
return syscall.EINVAL
}
// Is this the same file? If yes, short-circuit and return success.
if ref.pathNode == refTarget.pathNode && t.OldName == t.NewName {
return nil
}
// Attempt the actual rename.
if err := ref.file.RenameAt(t.OldName, refTarget.file, t.NewName); err != nil {
return err
}
// Update the path tree.
ref.renameChildTo(t.OldName, refTarget, t.NewName)
return nil
}); err != nil {
return newErr(err)
}
return &Rrenameat{}
}
// handle implements handler.handle.
func (t *Tunlinkat) handle(cs *connState) message {
// Don't allow complex names.
if err := checkSafeName(t.Name); err != nil {
return newErr(err)
}
// Lookup the FID.
ref, ok := cs.LookupFID(t.Directory)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
if err := ref.safelyWrite(func() (err error) {
// Don't allow deletion from non-directories or deleted directories.
if ref.isDeleted() || !ref.mode.IsDir() {
return syscall.EINVAL
}
// Not allowed on open directories.
if _, opened := ref.OpenFlags(); opened {
return syscall.EINVAL
}
// Before we do the unlink itself, we need to ensure that there
// are no operations in flight on associated path node. The
// child's path node lock must be held to ensure that the
// unlinkat marking the child deleted below is atomic with
// respect to any other read or write operations.
//
// This is one case where we have a lock ordering issue, but
// since we always acquire deeper in the hierarchy, we know
// that we are free of lock cycles.
childPathNode := ref.pathNode.pathNodeFor(t.Name)
childPathNode.opMu.Lock()
defer childPathNode.opMu.Unlock()
// Do the unlink.
err = ref.file.UnlinkAt(t.Name, t.Flags)
if err != nil {
return err
}
// Mark the path as deleted.
ref.markChildDeleted(t.Name)
return nil
}); err != nil {
return newErr(err)
}
return &Runlinkat{}
}
// handle implements handler.handle.
func (t *Trename) handle(cs *connState) message {
// Don't allow complex names.
if err := checkSafeName(t.Name); err != nil {
return newErr(err)
}
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
// Lookup the target.
refTarget, ok := cs.LookupFID(t.Directory)
if !ok {
return newErr(syscall.EBADF)
}
defer refTarget.DecRef()
if err := ref.safelyGlobal(func() (err error) {
// Don't allow a root rename.
if ref.isRoot() {
return syscall.EINVAL
}
// Don't allow renaming deleting entries, or target non-directories.
if ref.isDeleted() || refTarget.isDeleted() || !refTarget.mode.IsDir() {
return syscall.EINVAL
}
// If the parent is deleted, but we not, something is seriously wrong.
// It's fail to die at this point with an assertion failure.
if ref.parent.isDeleted() {
panic(fmt.Sprintf("parent %+v deleted, child %+v is not", ref.parent, ref))
}
// N.B. The rename operation is allowed to proceed on open files. It
// does impact the state of its parent, but this is merely a sanity
// check in any case, and the operation is safe. There may be other
// files corresponding to the same path that are renamed anyways.
// Check for the exact same file and short-circuit.
oldName := ref.parent.pathNode.nameFor(ref)
if ref.parent.pathNode == refTarget.pathNode && oldName == t.Name {
return nil
}
// Call the rename method on the parent.
if err := ref.parent.file.RenameAt(oldName, refTarget.file, t.Name); err != nil {
return err
}
// Update the path tree.
ref.parent.renameChildTo(oldName, refTarget, t.Name)
return nil
}); err != nil {
return newErr(err)
}
return &Rrename{}
}
// handle implements handler.handle.
func (t *Treadlink) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
var target string
if err := ref.safelyRead(func() (err error) {
// Don't allow readlink on deleted files. There is no need to
// check if this file is opened because symlinks cannot be
// opened.
if ref.isDeleted() || !ref.mode.IsSymlink() {
return syscall.EINVAL
}
// Do the read.
target, err = ref.file.Readlink()
return err
}); err != nil {
return newErr(err)
}
return &Rreadlink{target}
}
// handle implements handler.handle.
func (t *Tread) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
// Constrain the size of the read buffer.
if int(t.Count) > int(maximumLength) {
return newErr(syscall.ENOBUFS)
}
var (
data = make([]byte, t.Count)
n int
)
if err := ref.safelyRead(func() (err error) {
// Has it been opened already?
openFlags, opened := ref.OpenFlags()
if !opened {
return syscall.EINVAL
}
// Can it be read? Check permissions.
if openFlags&OpenFlagsModeMask == WriteOnly {
return syscall.EPERM
}
n, err = ref.file.ReadAt(data, t.Offset)
return err
}); err != nil && err != io.EOF {
return newErr(err)
}
return &Rread{Data: data[:n]}
}
// handle implements handler.handle.
func (t *Twrite) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
var n int
if err := ref.safelyRead(func() (err error) {
// Has it been opened already?
openFlags, opened := ref.OpenFlags()
if !opened {
return syscall.EINVAL
}
// Can it be written? Check permissions.
if openFlags&OpenFlagsModeMask == ReadOnly {
return syscall.EPERM
}
n, err = ref.file.WriteAt(t.Data, t.Offset)
return err
}); err != nil {
return newErr(err)
}
return &Rwrite{Count: uint32(n)}
}
// handle implements handler.handle.
func (t *Tmknod) handle(cs *connState) message {
rmknod, err := t.do(cs, NoUID)
if err != nil {
return newErr(err)
}
return rmknod
}
func (t *Tmknod) do(cs *connState, uid UID) (*Rmknod, error) {
// Don't allow complex names.
if err := checkSafeName(t.Name); err != nil {
return nil, err
}
// Lookup the FID.
ref, ok := cs.LookupFID(t.Directory)
if !ok {
return nil, syscall.EBADF
}
defer ref.DecRef()
var qid QID
if err := ref.safelyWrite(func() (err error) {
// Don't allow mknod on deleted files.
if ref.isDeleted() || !ref.mode.IsDir() {
return syscall.EINVAL
}
// Not allowed on open directories.
if _, opened := ref.OpenFlags(); opened {
return syscall.EINVAL
}
// Do the mknod.
qid, err = ref.file.Mknod(t.Name, t.Mode, t.Major, t.Minor, uid, t.GID)
return err
}); err != nil {
return nil, err
}
return &Rmknod{QID: qid}, nil
}
// handle implements handler.handle.
func (t *Tmkdir) handle(cs *connState) message {
rmkdir, err := t.do(cs, NoUID)
if err != nil {
return newErr(err)
}
return rmkdir
}
func (t *Tmkdir) do(cs *connState, uid UID) (*Rmkdir, error) {
// Don't allow complex names.
if err := checkSafeName(t.Name); err != nil {
return nil, err
}
// Lookup the FID.
ref, ok := cs.LookupFID(t.Directory)
if !ok {
return nil, syscall.EBADF
}
defer ref.DecRef()
var qid QID
if err := ref.safelyWrite(func() (err error) {
// Don't allow mkdir on deleted files.
if ref.isDeleted() || !ref.mode.IsDir() {
return syscall.EINVAL
}
// Not allowed on open directories.
if _, opened := ref.OpenFlags(); opened {
return syscall.EINVAL
}
// Do the mkdir.
qid, err = ref.file.Mkdir(t.Name, t.Permissions, uid, t.GID)
return err
}); err != nil {
return nil, err
}
return &Rmkdir{QID: qid}, nil
}
// handle implements handler.handle.
func (t *Tgetattr) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
// We allow getattr on deleted files. Depending on the backing
// implementation, it's possible that races exist that might allow
// fetching attributes of other files. But we need to generally allow
// refreshing attributes and this is a minor leak, if at all.
var (
qid QID
valid AttrMask
attr Attr
)
if err := ref.safelyRead(func() (err error) {
qid, valid, attr, err = ref.file.GetAttr(t.AttrMask)
return err
}); err != nil {
return newErr(err)
}
return &Rgetattr{QID: qid, Valid: valid, Attr: attr}
}
// handle implements handler.handle.
func (t *Tsetattr) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
if err := ref.safelyWrite(func() error {
// We don't allow setattr on files that have been deleted.
// This might be technically incorrect, as it's possible that
// there were multiple links and you can still change the
// corresponding inode information.
if ref.isDeleted() {
return syscall.EINVAL
}
// Set the attributes.
return ref.file.SetAttr(t.Valid, t.SetAttr)
}); err != nil {
return newErr(err)
}
return &Rsetattr{}
}
// handle implements handler.handle.
func (t *Tallocate) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
if err := ref.safelyWrite(func() error {
// Has it been opened already?
openFlags, opened := ref.OpenFlags()
if !opened {
return syscall.EINVAL
}
// Can it be written? Check permissions.
if openFlags&OpenFlagsModeMask == ReadOnly {
return syscall.EBADF
}
// We don't allow allocate on files that have been deleted.
if ref.isDeleted() {
return syscall.EINVAL
}
return ref.file.Allocate(t.Mode, t.Offset, t.Length)
}); err != nil {
return newErr(err)
}
return &Rallocate{}
}
// handle implements handler.handle.
func (t *Txattrwalk) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
// We don't support extended attributes.
return newErr(syscall.ENODATA)
}
// handle implements handler.handle.
func (t *Txattrcreate) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
// We don't support extended attributes.
return newErr(syscall.ENOSYS)
}
// handle implements handler.handle.
func (t *Treaddir) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.Directory)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
var entries []Dirent
if err := ref.safelyRead(func() (err error) {
// Don't allow reading deleted directories.
if ref.isDeleted() || !ref.mode.IsDir() {
return syscall.EINVAL
}
// Has it been opened already?
if _, opened := ref.OpenFlags(); !opened {
return syscall.EINVAL
}
// Read the entries.
entries, err = ref.file.Readdir(t.Offset, t.Count)
if err != nil && err != io.EOF {
return err
}
return nil
}); err != nil {
return newErr(err)
}
return &Rreaddir{Count: t.Count, Entries: entries}
}
// handle implements handler.handle.
func (t *Tfsync) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
if err := ref.safelyRead(func() (err error) {
// Has it been opened already?
if _, opened := ref.OpenFlags(); !opened {
return syscall.EINVAL
}
// Perform the sync.
return ref.file.FSync()
}); err != nil {
return newErr(err)
}
return &Rfsync{}
}
// handle implements handler.handle.
func (t *Tstatfs) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
st, err := ref.file.StatFS()
if err != nil {
return newErr(err)
}
return &Rstatfs{st}
}
// handle implements handler.handle.
func (t *Tflushf) handle(cs *connState) message {
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
if err := ref.safelyRead(ref.file.Flush); err != nil {
return newErr(err)
}
return &Rflushf{}
}
// walkOne walks zero or one path elements.
//
// The slice passed as qids is append and returned.
func walkOne(qids []QID, from File, names []string, getattr bool) ([]QID, File, AttrMask, Attr, error) {
if len(names) > 1 {
// We require exactly zero or one elements.
return nil, nil, AttrMask{}, Attr{}, syscall.EINVAL
}
var (
localQIDs []QID
sf File
valid AttrMask
attr Attr
err error
)
switch {
case getattr:
localQIDs, sf, valid, attr, err = from.WalkGetAttr(names)
// Can't put fallthrough in the if because Go.
if err != syscall.ENOSYS {
break
}
fallthrough
default:
localQIDs, sf, err = from.Walk(names)
if err != nil {
// No way to walk this element.
break
}
if getattr {
_, valid, attr, err = sf.GetAttr(AttrMaskAll())
if err != nil {
// Don't leak the file.
sf.Close()
}
}
}
if err != nil {
// Error walking, don't return anything.
return nil, nil, AttrMask{}, Attr{}, err
}
if len(localQIDs) != 1 {
// Expected a single QID.
sf.Close()
return nil, nil, AttrMask{}, Attr{}, syscall.EINVAL
}
return append(qids, localQIDs...), sf, valid, attr, nil
}
// doWalk walks from a given fidRef.
//
// This enforces that all intermediate nodes are walkable (directories). The
// fidRef returned (newRef) has a reference associated with it that is now
// owned by the caller and must be handled appropriately.
func doWalk(cs *connState, ref *fidRef, names []string, getattr bool) (qids []QID, newRef *fidRef, valid AttrMask, attr Attr, err error) {
// Check the names.
for _, name := range names {
err = checkSafeName(name)
if err != nil {
return
}
}
// Has it been opened already?
if _, opened := ref.OpenFlags(); opened {
err = syscall.EBUSY
return
}
// Is this an empty list? Handle specially. We don't actually need to
// validate anything since this is always permitted.
if len(names) == 0 {
var sf File // Temporary.
if err := ref.maybeParent().safelyRead(func() (err error) {
// Clone the single element.
qids, sf, valid, attr, err = walkOne(nil, ref.file, nil, getattr)
if err != nil {
return err
}
newRef = &fidRef{
server: cs.server,
parent: ref.parent,
file: sf,
mode: ref.mode,
pathNode: ref.pathNode,
// For the clone case, the cloned fid must
// preserve the deleted property of the
// original FID.
deleted: ref.deleted,
}
if !ref.isRoot() {
if !newRef.isDeleted() {
// Add only if a non-root node; the same node.
ref.parent.pathNode.addChild(newRef, ref.parent.pathNode.nameFor(ref))
}
ref.parent.IncRef() // Acquire parent reference.
}
// doWalk returns a reference.
newRef.IncRef()
return nil
}); err != nil {
return nil, nil, AttrMask{}, Attr{}, err
}
// Do not return the new QID.
return nil, newRef, valid, attr, nil
}
// Do the walk, one element at a time.
walkRef := ref
walkRef.IncRef()
for i := 0; i < len(names); i++ {
// We won't allow beyond past symlinks; stop here if this isn't
// a proper directory and we have additional paths to walk.
if !walkRef.mode.IsDir() {
walkRef.DecRef() // Drop walk reference; no lock required.
return nil, nil, AttrMask{}, Attr{}, syscall.EINVAL
}
var sf File // Temporary.
if err := walkRef.safelyRead(func() (err error) {
// Pass getattr = true to walkOne since we need the file type for
// newRef.
qids, sf, valid, attr, err = walkOne(qids, walkRef.file, names[i:i+1], true)
if err != nil {
return err
}
// Note that we don't need to acquire a lock on any of
// these individual instances. That's because they are
// not actually addressable via a FID. They are
// anonymous. They exist in the tree for tracking
// purposes.
newRef := &fidRef{
server: cs.server,
parent: walkRef,
file: sf,
mode: attr.Mode.FileType(),
pathNode: walkRef.pathNode.pathNodeFor(names[i]),
}
walkRef.pathNode.addChild(newRef, names[i])
// We allow our walk reference to become the new parent
// reference here and so we don't IncRef. Instead, just
// set walkRef to the newRef above and acquire a new
// walk reference.
walkRef = newRef
walkRef.IncRef()
return nil
}); err != nil {
walkRef.DecRef() // Drop the old walkRef.
return nil, nil, AttrMask{}, Attr{}, err
}
}
// Success.
return qids, walkRef, valid, attr, nil
}
// handle implements handler.handle.
func (t *Twalk) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
// Do the walk.
qids, newRef, _, _, err := doWalk(cs, ref, t.Names, false)
if err != nil {
return newErr(err)
}
defer newRef.DecRef()
// Install the new FID.
cs.InsertFID(t.NewFID, newRef)
return &Rwalk{QIDs: qids}
}
// handle implements handler.handle.
func (t *Twalkgetattr) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
// Do the walk.
qids, newRef, valid, attr, err := doWalk(cs, ref, t.Names, true)
if err != nil {
return newErr(err)
}
defer newRef.DecRef()
// Install the new FID.
cs.InsertFID(t.NewFID, newRef)
return &Rwalkgetattr{QIDs: qids, Valid: valid, Attr: attr}
}
// handle implements handler.handle.
func (t *Tucreate) handle(cs *connState) message {
rlcreate, err := t.Tlcreate.do(cs, t.UID)
if err != nil {
return newErr(err)
}
return &Rucreate{*rlcreate}
}
// handle implements handler.handle.
func (t *Tumkdir) handle(cs *connState) message {
rmkdir, err := t.Tmkdir.do(cs, t.UID)
if err != nil {
return newErr(err)
}
return &Rumkdir{*rmkdir}
}
// handle implements handler.handle.
func (t *Tusymlink) handle(cs *connState) message {
rsymlink, err := t.Tsymlink.do(cs, t.UID)
if err != nil {
return newErr(err)
}
return &Rusymlink{*rsymlink}
}
// handle implements handler.handle.
func (t *Tumknod) handle(cs *connState) message {
rmknod, err := t.Tmknod.do(cs, t.UID)
if err != nil {
return newErr(err)
}
return &Rumknod{*rmknod}
}
// handle implements handler.handle.
func (t *Tlconnect) handle(cs *connState) message {
// Lookup the FID.
ref, ok := cs.LookupFID(t.FID)
if !ok {
return newErr(syscall.EBADF)
}
defer ref.DecRef()
var osFile *fd.FD
if err := ref.safelyRead(func() (err error) {
// Don't allow connecting to deleted files.
if ref.isDeleted() || !ref.mode.IsSocket() {
return syscall.EINVAL
}
// Do the connect.
osFile, err = ref.file.Connect(t.Flags)
return err
}); err != nil {
return newErr(err)
}
rlconnect := &Rlconnect{}
rlconnect.SetFilePayload(osFile)
return rlconnect
}
// handle implements handler.handle.
func (t *Tchannel) handle(cs *connState) message {
// Ensure that channels are enabled.
if err := cs.initializeChannels(); err != nil {
return newErr(err)
}
// Lookup the given channel.
ch := cs.lookupChannel(t.ID)
if ch == nil {
return newErr(syscall.ENOSYS)
}
// Return the payload. Note that we need to duplicate the file
// descriptor for the channel allocator, because sending is a
// destructive operation between sendRecvLegacy (and now the newer
// channel send operations). Same goes for the client FD.
rchannel := &Rchannel{
Offset: uint64(ch.desc.Offset),
Length: uint64(ch.desc.Length),
}
switch t.Control {
case 0:
// Open the main data channel.
mfd, err := syscall.Dup(int(cs.channelAlloc.FD()))
if err != nil {
return newErr(err)
}
rchannel.SetFilePayload(fd.New(mfd))
case 1:
cfd, err := syscall.Dup(ch.client.FD())
if err != nil {
return newErr(err)
}
rchannel.SetFilePayload(fd.New(cfd))
default:
return newErr(syscall.EINVAL)
}
return rchannel
}
|