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// Copyright 2018 Google LLC
//
// 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 unix provides an implementation of the socket.Socket interface for
// the AF_UNIX protocol family.
package unix
import (
"strings"
"syscall"
"gvisor.googlesource.com/gvisor/pkg/abi/linux"
"gvisor.googlesource.com/gvisor/pkg/refs"
"gvisor.googlesource.com/gvisor/pkg/sentry/arch"
"gvisor.googlesource.com/gvisor/pkg/sentry/context"
"gvisor.googlesource.com/gvisor/pkg/sentry/fs"
"gvisor.googlesource.com/gvisor/pkg/sentry/fs/fsutil"
"gvisor.googlesource.com/gvisor/pkg/sentry/kernel"
"gvisor.googlesource.com/gvisor/pkg/sentry/kernel/kdefs"
ktime "gvisor.googlesource.com/gvisor/pkg/sentry/kernel/time"
"gvisor.googlesource.com/gvisor/pkg/sentry/socket"
"gvisor.googlesource.com/gvisor/pkg/sentry/socket/control"
"gvisor.googlesource.com/gvisor/pkg/sentry/socket/epsocket"
"gvisor.googlesource.com/gvisor/pkg/sentry/socket/unix/transport"
"gvisor.googlesource.com/gvisor/pkg/sentry/usermem"
"gvisor.googlesource.com/gvisor/pkg/syserr"
"gvisor.googlesource.com/gvisor/pkg/syserror"
"gvisor.googlesource.com/gvisor/pkg/tcpip"
"gvisor.googlesource.com/gvisor/pkg/waiter"
)
// SocketOperations is a Unix socket. It is similar to an epsocket, except it
// is backed by a transport.Endpoint instead of a tcpip.Endpoint.
//
// +stateify savable
type SocketOperations struct {
refs.AtomicRefCount
socket.ReceiveTimeout
fsutil.PipeSeek `state:"nosave"`
fsutil.NotDirReaddir `state:"nosave"`
fsutil.NoFsync `state:"nosave"`
fsutil.NoopFlush `state:"nosave"`
fsutil.NoMMap `state:"nosave"`
ep transport.Endpoint
isPacket bool
}
// New creates a new unix socket.
func New(ctx context.Context, endpoint transport.Endpoint, isPacket bool) *fs.File {
dirent := socket.NewDirent(ctx, unixSocketDevice)
defer dirent.DecRef()
return NewWithDirent(ctx, dirent, endpoint, isPacket, fs.FileFlags{Read: true, Write: true})
}
// NewWithDirent creates a new unix socket using an existing dirent.
func NewWithDirent(ctx context.Context, d *fs.Dirent, ep transport.Endpoint, isPacket bool, flags fs.FileFlags) *fs.File {
return fs.NewFile(ctx, d, flags, &SocketOperations{
ep: ep,
isPacket: isPacket,
})
}
// DecRef implements RefCounter.DecRef.
func (s *SocketOperations) DecRef() {
s.DecRefWithDestructor(func() {
s.ep.Close()
})
}
// Release implemements fs.FileOperations.Release.
func (s *SocketOperations) Release() {
// Release only decrements a reference on s because s may be referenced in
// the abstract socket namespace.
s.DecRef()
}
// Endpoint extracts the transport.Endpoint.
func (s *SocketOperations) Endpoint() transport.Endpoint {
return s.ep
}
// extractPath extracts and validates the address.
func extractPath(sockaddr []byte) (string, *syserr.Error) {
addr, err := epsocket.GetAddress(linux.AF_UNIX, sockaddr)
if err != nil {
return "", err
}
// The address is trimmed by GetAddress.
p := string(addr.Addr)
if p == "" {
// Not allowed.
return "", syserr.ErrInvalidArgument
}
if p[len(p)-1] == '/' {
// Weird, they tried to bind '/a/b/c/'?
return "", syserr.ErrIsDir
}
return p, nil
}
// GetPeerName implements the linux syscall getpeername(2) for sockets backed by
// a transport.Endpoint.
func (s *SocketOperations) GetPeerName(t *kernel.Task) (interface{}, uint32, *syserr.Error) {
addr, err := s.ep.GetRemoteAddress()
if err != nil {
return nil, 0, syserr.TranslateNetstackError(err)
}
a, l := epsocket.ConvertAddress(linux.AF_UNIX, addr)
return a, l, nil
}
// GetSockName implements the linux syscall getsockname(2) for sockets backed by
// a transport.Endpoint.
func (s *SocketOperations) GetSockName(t *kernel.Task) (interface{}, uint32, *syserr.Error) {
addr, err := s.ep.GetLocalAddress()
if err != nil {
return nil, 0, syserr.TranslateNetstackError(err)
}
a, l := epsocket.ConvertAddress(linux.AF_UNIX, addr)
return a, l, nil
}
// Ioctl implements fs.FileOperations.Ioctl.
func (s *SocketOperations) Ioctl(ctx context.Context, io usermem.IO, args arch.SyscallArguments) (uintptr, error) {
return epsocket.Ioctl(ctx, s.ep, io, args)
}
// GetSockOpt implements the linux syscall getsockopt(2) for sockets backed by
// a transport.Endpoint.
func (s *SocketOperations) GetSockOpt(t *kernel.Task, level, name, outLen int) (interface{}, *syserr.Error) {
return epsocket.GetSockOpt(t, s, s.ep, linux.AF_UNIX, s.ep.Type(), level, name, outLen)
}
// Listen implements the linux syscall listen(2) for sockets backed by
// a transport.Endpoint.
func (s *SocketOperations) Listen(t *kernel.Task, backlog int) *syserr.Error {
return s.ep.Listen(backlog)
}
// blockingAccept implements a blocking version of accept(2), that is, if no
// connections are ready to be accept, it will block until one becomes ready.
func (s *SocketOperations) blockingAccept(t *kernel.Task) (transport.Endpoint, *syserr.Error) {
// Register for notifications.
e, ch := waiter.NewChannelEntry(nil)
s.EventRegister(&e, waiter.EventIn)
defer s.EventUnregister(&e)
// Try to accept the connection; if it fails, then wait until we get a
// notification.
for {
if ep, err := s.ep.Accept(); err != syserr.ErrWouldBlock {
return ep, err
}
if err := t.Block(ch); err != nil {
return nil, syserr.FromError(err)
}
}
}
// Accept implements the linux syscall accept(2) for sockets backed by
// a transport.Endpoint.
func (s *SocketOperations) Accept(t *kernel.Task, peerRequested bool, flags int, blocking bool) (kdefs.FD, interface{}, uint32, *syserr.Error) {
// Issue the accept request to get the new endpoint.
ep, err := s.ep.Accept()
if err != nil {
if err != syserr.ErrWouldBlock || !blocking {
return 0, nil, 0, err
}
var err *syserr.Error
ep, err = s.blockingAccept(t)
if err != nil {
return 0, nil, 0, err
}
}
ns := New(t, ep, s.isPacket)
defer ns.DecRef()
if flags&linux.SOCK_NONBLOCK != 0 {
flags := ns.Flags()
flags.NonBlocking = true
ns.SetFlags(flags.Settable())
}
var addr interface{}
var addrLen uint32
if peerRequested {
// Get address of the peer.
var err *syserr.Error
addr, addrLen, err = ns.FileOperations.(*SocketOperations).GetPeerName(t)
if err != nil {
return 0, nil, 0, err
}
}
fdFlags := kernel.FDFlags{
CloseOnExec: flags&linux.SOCK_CLOEXEC != 0,
}
fd, e := t.FDMap().NewFDFrom(0, ns, fdFlags, t.ThreadGroup().Limits())
if e != nil {
return 0, nil, 0, syserr.FromError(e)
}
return fd, addr, addrLen, nil
}
// Bind implements the linux syscall bind(2) for unix sockets.
func (s *SocketOperations) Bind(t *kernel.Task, sockaddr []byte) *syserr.Error {
p, e := extractPath(sockaddr)
if e != nil {
return e
}
bep, ok := s.ep.(transport.BoundEndpoint)
if !ok {
// This socket can't be bound.
return syserr.ErrInvalidArgument
}
return s.ep.Bind(tcpip.FullAddress{Addr: tcpip.Address(p)}, func() *syserr.Error {
// Is it abstract?
if p[0] == 0 {
if t.IsNetworkNamespaced() {
return syserr.ErrInvalidEndpointState
}
if err := t.AbstractSockets().Bind(p[1:], bep, s); err != nil {
// syserr.ErrPortInUse corresponds to EADDRINUSE.
return syserr.ErrPortInUse
}
} else {
// The parent and name.
var d *fs.Dirent
var name string
cwd := t.FSContext().WorkingDirectory()
defer cwd.DecRef()
// Is there no slash at all?
if !strings.Contains(p, "/") {
d = cwd
name = p
} else {
root := t.FSContext().RootDirectory()
defer root.DecRef()
// Find the last path component, we know that something follows
// that final slash, otherwise extractPath() would have failed.
lastSlash := strings.LastIndex(p, "/")
subPath := p[:lastSlash]
if subPath == "" {
// Fix up subpath in case file is in root.
subPath = "/"
}
var err error
remainingTraversals := uint(fs.DefaultTraversalLimit)
d, err = t.MountNamespace().FindInode(t, root, cwd, subPath, &remainingTraversals)
if err != nil {
// No path available.
return syserr.ErrNoSuchFile
}
defer d.DecRef()
name = p[lastSlash+1:]
}
// Create the socket.
childDir, err := d.Bind(t, t.FSContext().RootDirectory(), name, bep, fs.FilePermissions{User: fs.PermMask{Read: true}})
if err != nil {
return syserr.ErrPortInUse
}
childDir.DecRef()
}
return nil
})
}
// extractEndpoint retrieves the transport.BoundEndpoint associated with a Unix
// socket path. The Release must be called on the transport.BoundEndpoint when
// the caller is done with it.
func extractEndpoint(t *kernel.Task, sockaddr []byte) (transport.BoundEndpoint, *syserr.Error) {
path, err := extractPath(sockaddr)
if err != nil {
return nil, err
}
// Is it abstract?
if path[0] == 0 {
if t.IsNetworkNamespaced() {
return nil, syserr.ErrInvalidArgument
}
ep := t.AbstractSockets().BoundEndpoint(path[1:])
if ep == nil {
// No socket found.
return nil, syserr.ErrConnectionRefused
}
return ep, nil
}
// Find the node in the filesystem.
root := t.FSContext().RootDirectory()
cwd := t.FSContext().WorkingDirectory()
remainingTraversals := uint(fs.DefaultTraversalLimit)
d, e := t.MountNamespace().FindInode(t, root, cwd, path, &remainingTraversals)
cwd.DecRef()
root.DecRef()
if e != nil {
return nil, syserr.FromError(e)
}
// Extract the endpoint if one is there.
ep := d.Inode.BoundEndpoint(path)
d.DecRef()
if ep == nil {
// No socket!
return nil, syserr.ErrConnectionRefused
}
return ep, nil
}
// Connect implements the linux syscall connect(2) for unix sockets.
func (s *SocketOperations) Connect(t *kernel.Task, sockaddr []byte, blocking bool) *syserr.Error {
ep, err := extractEndpoint(t, sockaddr)
if err != nil {
return err
}
defer ep.Release()
// Connect the server endpoint.
return s.ep.Connect(ep)
}
// Writev implements fs.FileOperations.Write.
func (s *SocketOperations) Write(ctx context.Context, _ *fs.File, src usermem.IOSequence, _ int64) (int64, error) {
t := kernel.TaskFromContext(ctx)
ctrl := control.New(t, s.ep, nil)
if src.NumBytes() == 0 {
nInt, err := s.ep.SendMsg([][]byte{}, ctrl, nil)
return int64(nInt), err.ToError()
}
return src.CopyInTo(ctx, &EndpointWriter{
Endpoint: s.ep,
Control: ctrl,
To: nil,
})
}
// SendMsg implements the linux syscall sendmsg(2) for unix sockets backed by
// a transport.Endpoint.
func (s *SocketOperations) SendMsg(t *kernel.Task, src usermem.IOSequence, to []byte, flags int, controlMessages socket.ControlMessages) (int, *syserr.Error) {
w := EndpointWriter{
Endpoint: s.ep,
Control: controlMessages.Unix,
To: nil,
}
if len(to) > 0 {
ep, err := extractEndpoint(t, to)
if err != nil {
return 0, err
}
defer ep.Release()
w.To = ep
}
n, err := src.CopyInTo(t, &w)
if err != syserror.ErrWouldBlock || flags&linux.MSG_DONTWAIT != 0 {
return int(n), syserr.FromError(err)
}
// We'll have to block. Register for notification and keep trying to
// send all the data.
e, ch := waiter.NewChannelEntry(nil)
s.EventRegister(&e, waiter.EventOut)
defer s.EventUnregister(&e)
total := n
for {
// Shorten src to reflect bytes previously written.
src = src.DropFirst64(n)
n, err = src.CopyInTo(t, &w)
total += n
if err != syserror.ErrWouldBlock {
break
}
if err := t.Block(ch); err != nil {
break
}
}
return int(total), syserr.FromError(err)
}
// Passcred implements transport.Credentialer.Passcred.
func (s *SocketOperations) Passcred() bool {
return s.ep.Passcred()
}
// ConnectedPasscred implements transport.Credentialer.ConnectedPasscred.
func (s *SocketOperations) ConnectedPasscred() bool {
return s.ep.ConnectedPasscred()
}
// Readiness implements waiter.Waitable.Readiness.
func (s *SocketOperations) Readiness(mask waiter.EventMask) waiter.EventMask {
return s.ep.Readiness(mask)
}
// EventRegister implements waiter.Waitable.EventRegister.
func (s *SocketOperations) EventRegister(e *waiter.Entry, mask waiter.EventMask) {
s.ep.EventRegister(e, mask)
}
// EventUnregister implements waiter.Waitable.EventUnregister.
func (s *SocketOperations) EventUnregister(e *waiter.Entry) {
s.ep.EventUnregister(e)
}
// SetSockOpt implements the linux syscall setsockopt(2) for sockets backed by
// a transport.Endpoint.
func (s *SocketOperations) SetSockOpt(t *kernel.Task, level int, name int, optVal []byte) *syserr.Error {
return epsocket.SetSockOpt(t, s, s.ep, level, name, optVal)
}
// Shutdown implements the linux syscall shutdown(2) for sockets backed by
// a transport.Endpoint.
func (s *SocketOperations) Shutdown(t *kernel.Task, how int) *syserr.Error {
f, err := epsocket.ConvertShutdown(how)
if err != nil {
return err
}
// Issue shutdown request.
return s.ep.Shutdown(f)
}
// Read implements fs.FileOperations.Read.
func (s *SocketOperations) Read(ctx context.Context, _ *fs.File, dst usermem.IOSequence, _ int64) (int64, error) {
if dst.NumBytes() == 0 {
return 0, nil
}
return dst.CopyOutFrom(ctx, &EndpointReader{
Endpoint: s.ep,
NumRights: 0,
Peek: false,
From: nil,
})
}
// RecvMsg implements the linux syscall recvmsg(2) for sockets backed by
// a transport.Endpoint.
func (s *SocketOperations) RecvMsg(t *kernel.Task, dst usermem.IOSequence, flags int, haveDeadline bool, deadline ktime.Time, senderRequested bool, controlDataLen uint64) (n int, senderAddr interface{}, senderAddrLen uint32, controlMessages socket.ControlMessages, err *syserr.Error) {
trunc := flags&linux.MSG_TRUNC != 0
peek := flags&linux.MSG_PEEK != 0
dontWait := flags&linux.MSG_DONTWAIT != 0
waitAll := flags&linux.MSG_WAITALL != 0
// Calculate the number of FDs for which we have space and if we are
// requesting credentials.
var wantCreds bool
rightsLen := int(controlDataLen) - syscall.SizeofCmsghdr
if s.Passcred() {
// Credentials take priority if they are enabled and there is space.
wantCreds = rightsLen > 0
credLen := syscall.CmsgSpace(syscall.SizeofUcred)
rightsLen -= credLen
}
// FDs are 32 bit (4 byte) ints.
numRights := rightsLen / 4
if numRights < 0 {
numRights = 0
}
r := EndpointReader{
Endpoint: s.ep,
Creds: wantCreds,
NumRights: uintptr(numRights),
Peek: peek,
}
if senderRequested {
r.From = &tcpip.FullAddress{}
}
var total int64
if n, err := dst.CopyOutFrom(t, &r); err != syserror.ErrWouldBlock || dontWait {
var from interface{}
var fromLen uint32
if r.From != nil {
from, fromLen = epsocket.ConvertAddress(linux.AF_UNIX, *r.From)
}
if trunc {
n = int64(r.MsgSize)
}
if err != nil || dontWait || !waitAll || s.isPacket || n >= dst.NumBytes() {
return int(n), from, fromLen, socket.ControlMessages{Unix: r.Control}, syserr.FromError(err)
}
// Don't overwrite any data we received.
dst = dst.DropFirst64(n)
total += n
}
// We'll have to block. Register for notification and keep trying to
// send all the data.
e, ch := waiter.NewChannelEntry(nil)
s.EventRegister(&e, waiter.EventIn)
defer s.EventUnregister(&e)
for {
if n, err := dst.CopyOutFrom(t, &r); err != syserror.ErrWouldBlock {
var from interface{}
var fromLen uint32
if r.From != nil {
from, fromLen = epsocket.ConvertAddress(linux.AF_UNIX, *r.From)
}
if trunc {
n = int64(r.MsgSize)
}
total += n
if err != nil || !waitAll || s.isPacket || n >= dst.NumBytes() {
return int(total), from, fromLen, socket.ControlMessages{Unix: r.Control}, syserr.FromError(err)
}
// Don't overwrite any data we received.
dst = dst.DropFirst64(n)
}
if err := t.BlockWithDeadline(ch, haveDeadline, deadline); err != nil {
if err == syserror.ETIMEDOUT {
return 0, nil, 0, socket.ControlMessages{}, syserr.ErrTryAgain
}
return 0, nil, 0, socket.ControlMessages{}, syserr.FromError(err)
}
}
}
// provider is a unix domain socket provider.
type provider struct{}
// Socket returns a new unix domain socket.
func (*provider) Socket(t *kernel.Task, stype transport.SockType, protocol int) (*fs.File, *syserr.Error) {
// Check arguments.
if protocol != 0 {
return nil, syserr.ErrInvalidArgument
}
// Create the endpoint and socket.
var ep transport.Endpoint
var isPacket bool
switch stype {
case linux.SOCK_DGRAM:
isPacket = true
ep = transport.NewConnectionless()
case linux.SOCK_SEQPACKET:
isPacket = true
fallthrough
case linux.SOCK_STREAM:
ep = transport.NewConnectioned(stype, t.Kernel())
default:
return nil, syserr.ErrInvalidArgument
}
return New(t, ep, isPacket), nil
}
// Pair creates a new pair of AF_UNIX connected sockets.
func (*provider) Pair(t *kernel.Task, stype transport.SockType, protocol int) (*fs.File, *fs.File, *syserr.Error) {
// Check arguments.
if protocol != 0 {
return nil, nil, syserr.ErrInvalidArgument
}
var isPacket bool
switch stype {
case linux.SOCK_STREAM:
case linux.SOCK_DGRAM, linux.SOCK_SEQPACKET:
isPacket = true
default:
return nil, nil, syserr.ErrInvalidArgument
}
// Create the endpoints and sockets.
ep1, ep2 := transport.NewPair(stype, t.Kernel())
s1 := New(t, ep1, isPacket)
s2 := New(t, ep2, isPacket)
return s1, s2, nil
}
func init() {
socket.RegisterProvider(linux.AF_UNIX, &provider{})
}
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