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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 control provides internal representations of socket control
// messages.
package control
import (
"gvisor.dev/gvisor/pkg/abi/linux"
"gvisor.dev/gvisor/pkg/bits"
"gvisor.dev/gvisor/pkg/context"
"gvisor.dev/gvisor/pkg/errors/linuxerr"
"gvisor.dev/gvisor/pkg/hostarch"
"gvisor.dev/gvisor/pkg/marshal"
"gvisor.dev/gvisor/pkg/marshal/primitive"
"gvisor.dev/gvisor/pkg/sentry/fs"
"gvisor.dev/gvisor/pkg/sentry/kernel"
"gvisor.dev/gvisor/pkg/sentry/kernel/auth"
"gvisor.dev/gvisor/pkg/sentry/socket"
"gvisor.dev/gvisor/pkg/sentry/socket/unix/transport"
"gvisor.dev/gvisor/pkg/syserror"
)
const maxInt = int(^uint(0) >> 1)
// SCMCredentials represents a SCM_CREDENTIALS socket control message.
type SCMCredentials interface {
transport.CredentialsControlMessage
// Credentials returns properly namespaced values for the sender's pid, uid
// and gid.
Credentials(t *kernel.Task) (kernel.ThreadID, auth.UID, auth.GID)
}
// LINT.IfChange
// SCMRights represents a SCM_RIGHTS socket control message.
type SCMRights interface {
transport.RightsControlMessage
// Files returns up to max RightsFiles.
//
// Returned files are consumed and ownership is transferred to the caller.
// Subsequent calls to Files will return the next files.
Files(ctx context.Context, max int) (rf RightsFiles, truncated bool)
}
// RightsFiles represents a SCM_RIGHTS socket control message. A reference is
// maintained for each fs.File and is release either when an FD is created or
// when the Release method is called.
//
// +stateify savable
type RightsFiles []*fs.File
// NewSCMRights creates a new SCM_RIGHTS socket control message representation
// using local sentry FDs.
func NewSCMRights(t *kernel.Task, fds []int32) (SCMRights, error) {
files := make(RightsFiles, 0, len(fds))
for _, fd := range fds {
file := t.GetFile(fd)
if file == nil {
files.Release(t)
return nil, syserror.EBADF
}
files = append(files, file)
}
return &files, nil
}
// Files implements SCMRights.Files.
func (fs *RightsFiles) Files(ctx context.Context, max int) (RightsFiles, bool) {
n := max
var trunc bool
if l := len(*fs); n > l {
n = l
} else if n < l {
trunc = true
}
rf := (*fs)[:n]
*fs = (*fs)[n:]
return rf, trunc
}
// Clone implements transport.RightsControlMessage.Clone.
func (fs *RightsFiles) Clone() transport.RightsControlMessage {
nfs := append(RightsFiles(nil), *fs...)
for _, nf := range nfs {
nf.IncRef()
}
return &nfs
}
// Release implements transport.RightsControlMessage.Release.
func (fs *RightsFiles) Release(ctx context.Context) {
for _, f := range *fs {
f.DecRef(ctx)
}
*fs = nil
}
// rightsFDs gets up to the specified maximum number of FDs.
func rightsFDs(t *kernel.Task, rights SCMRights, cloexec bool, max int) ([]int32, bool) {
files, trunc := rights.Files(t, max)
fds := make([]int32, 0, len(files))
for i := 0; i < max && len(files) > 0; i++ {
fd, err := t.NewFDFrom(0, files[0], kernel.FDFlags{
CloseOnExec: cloexec,
})
files[0].DecRef(t)
files = files[1:]
if err != nil {
t.Warningf("Error inserting FD: %v", err)
// This is what Linux does.
break
}
fds = append(fds, int32(fd))
}
return fds, trunc
}
// PackRights packs as many FDs as will fit into the unused capacity of buf.
func PackRights(t *kernel.Task, rights SCMRights, cloexec bool, buf []byte, flags int) ([]byte, int) {
maxFDs := (cap(buf) - len(buf) - linux.SizeOfControlMessageHeader) / 4
// Linux does not return any FDs if none fit.
if maxFDs <= 0 {
flags |= linux.MSG_CTRUNC
return buf, flags
}
fds, trunc := rightsFDs(t, rights, cloexec, maxFDs)
if trunc {
flags |= linux.MSG_CTRUNC
}
align := t.Arch().Width()
return putCmsg(buf, flags, linux.SCM_RIGHTS, align, fds)
}
// LINT.ThenChange(./control_vfs2.go)
// scmCredentials represents an SCM_CREDENTIALS socket control message.
//
// +stateify savable
type scmCredentials struct {
t *kernel.Task
kuid auth.KUID
kgid auth.KGID
}
// NewSCMCredentials creates a new SCM_CREDENTIALS socket control message
// representation.
func NewSCMCredentials(t *kernel.Task, cred linux.ControlMessageCredentials) (SCMCredentials, error) {
tcred := t.Credentials()
kuid, err := tcred.UseUID(auth.UID(cred.UID))
if err != nil {
return nil, err
}
kgid, err := tcred.UseGID(auth.GID(cred.GID))
if err != nil {
return nil, err
}
if kernel.ThreadID(cred.PID) != t.ThreadGroup().ID() && !t.HasCapabilityIn(linux.CAP_SYS_ADMIN, t.PIDNamespace().UserNamespace()) {
return nil, syserror.EPERM
}
return &scmCredentials{t, kuid, kgid}, nil
}
// Equals implements transport.CredentialsControlMessage.Equals.
func (c *scmCredentials) Equals(oc transport.CredentialsControlMessage) bool {
if oc, _ := oc.(*scmCredentials); oc != nil && *c == *oc {
return true
}
return false
}
func putUint64(buf []byte, n uint64) []byte {
hostarch.ByteOrder.PutUint64(buf[len(buf):len(buf)+8], n)
return buf[:len(buf)+8]
}
func putUint32(buf []byte, n uint32) []byte {
hostarch.ByteOrder.PutUint32(buf[len(buf):len(buf)+4], n)
return buf[:len(buf)+4]
}
// putCmsg writes a control message header and as much data as will fit into
// the unused capacity of a buffer.
func putCmsg(buf []byte, flags int, msgType uint32, align uint, data []int32) ([]byte, int) {
space := bits.AlignDown(cap(buf)-len(buf), 4)
// We can't write to space that doesn't exist, so if we are going to align
// the available space, we must align down.
//
// align must be >= 4 and each data int32 is 4 bytes. The length of the
// header is already aligned, so if we align to the width of the data there
// are two cases:
// 1. The aligned length is less than the length of the header. The
// unaligned length was also less than the length of the header, so we
// can't write anything.
// 2. The aligned length is greater than or equal to the length of the
// header. We can write the header plus zero or more bytes of data. We can't
// write a partial int32, so the length of the message will be
// min(aligned length, header + data).
if space < linux.SizeOfControlMessageHeader {
flags |= linux.MSG_CTRUNC
return buf, flags
}
length := 4*len(data) + linux.SizeOfControlMessageHeader
if length > space {
length = space
}
buf = putUint64(buf, uint64(length))
buf = putUint32(buf, linux.SOL_SOCKET)
buf = putUint32(buf, msgType)
for _, d := range data {
if len(buf)+4 > cap(buf) {
flags |= linux.MSG_CTRUNC
break
}
buf = putUint32(buf, uint32(d))
}
return alignSlice(buf, align), flags
}
func putCmsgStruct(buf []byte, msgLevel, msgType uint32, align uint, data marshal.Marshallable) []byte {
if cap(buf)-len(buf) < linux.SizeOfControlMessageHeader {
return buf
}
ob := buf
buf = putUint64(buf, uint64(linux.SizeOfControlMessageHeader))
buf = putUint32(buf, msgLevel)
buf = putUint32(buf, msgType)
hdrBuf := buf
buf = append(buf, marshal.Marshal(data)...)
// If the control message data brought us over capacity, omit it.
if cap(buf) != cap(ob) {
return hdrBuf
}
// Update control message length to include data.
putUint64(ob, uint64(len(buf)-len(ob)))
return alignSlice(buf, align)
}
// Credentials implements SCMCredentials.Credentials.
func (c *scmCredentials) Credentials(t *kernel.Task) (kernel.ThreadID, auth.UID, auth.GID) {
// "When a process's user and group IDs are passed over a UNIX domain
// socket to a process in a different user namespace (see the description
// of SCM_CREDENTIALS in unix(7)), they are translated into the
// corresponding values as per the receiving process's user and group ID
// mappings." - user_namespaces(7)
pid := t.PIDNamespace().IDOfTask(c.t)
uid := c.kuid.In(t.UserNamespace()).OrOverflow()
gid := c.kgid.In(t.UserNamespace()).OrOverflow()
return pid, uid, gid
}
// PackCredentials packs the credentials in the control message (or default
// credentials if none) into a buffer.
func PackCredentials(t *kernel.Task, creds SCMCredentials, buf []byte, flags int) ([]byte, int) {
align := t.Arch().Width()
// Default credentials if none are available.
pid := kernel.ThreadID(0)
uid := auth.UID(auth.NobodyKUID)
gid := auth.GID(auth.NobodyKGID)
if creds != nil {
pid, uid, gid = creds.Credentials(t)
}
c := []int32{int32(pid), int32(uid), int32(gid)}
return putCmsg(buf, flags, linux.SCM_CREDENTIALS, align, c)
}
// alignSlice extends a slice's length (up to the capacity) to align it.
func alignSlice(buf []byte, align uint) []byte {
aligned := bits.AlignUp(len(buf), align)
if aligned > cap(buf) {
// Linux allows unaligned data if there isn't room for alignment.
// Since there isn't room for alignment, there isn't room for any
// additional messages either.
return buf
}
return buf[:aligned]
}
// PackTimestamp packs a SO_TIMESTAMP socket control message.
func PackTimestamp(t *kernel.Task, timestamp int64, buf []byte) []byte {
timestampP := linux.NsecToTimeval(timestamp)
return putCmsgStruct(
buf,
linux.SOL_SOCKET,
linux.SO_TIMESTAMP,
t.Arch().Width(),
×tampP,
)
}
// PackInq packs a TCP_INQ socket control message.
func PackInq(t *kernel.Task, inq int32, buf []byte) []byte {
return putCmsgStruct(
buf,
linux.SOL_TCP,
linux.TCP_INQ,
t.Arch().Width(),
primitive.AllocateInt32(inq),
)
}
// PackTOS packs an IP_TOS socket control message.
func PackTOS(t *kernel.Task, tos uint8, buf []byte) []byte {
return putCmsgStruct(
buf,
linux.SOL_IP,
linux.IP_TOS,
t.Arch().Width(),
primitive.AllocateUint8(tos),
)
}
// PackTClass packs an IPV6_TCLASS socket control message.
func PackTClass(t *kernel.Task, tClass uint32, buf []byte) []byte {
return putCmsgStruct(
buf,
linux.SOL_IPV6,
linux.IPV6_TCLASS,
t.Arch().Width(),
primitive.AllocateUint32(tClass),
)
}
// PackIPPacketInfo packs an IP_PKTINFO socket control message.
func PackIPPacketInfo(t *kernel.Task, packetInfo *linux.ControlMessageIPPacketInfo, buf []byte) []byte {
return putCmsgStruct(
buf,
linux.SOL_IP,
linux.IP_PKTINFO,
t.Arch().Width(),
packetInfo,
)
}
// PackOriginalDstAddress packs an IP_RECVORIGINALDSTADDR socket control message.
func PackOriginalDstAddress(t *kernel.Task, originalDstAddress linux.SockAddr, buf []byte) []byte {
var level uint32
var optType uint32
switch originalDstAddress.(type) {
case *linux.SockAddrInet:
level = linux.SOL_IP
optType = linux.IP_RECVORIGDSTADDR
case *linux.SockAddrInet6:
level = linux.SOL_IPV6
optType = linux.IPV6_RECVORIGDSTADDR
default:
panic("invalid address type, must be an IP address for IP_RECVORIGINALDSTADDR cmsg")
}
return putCmsgStruct(
buf, level, optType, t.Arch().Width(), originalDstAddress)
}
// PackSockExtendedErr packs an IP*_RECVERR socket control message.
func PackSockExtendedErr(t *kernel.Task, sockErr linux.SockErrCMsg, buf []byte) []byte {
return putCmsgStruct(
buf,
sockErr.CMsgLevel(),
sockErr.CMsgType(),
t.Arch().Width(),
sockErr,
)
}
// PackControlMessages packs control messages into the given buffer.
//
// We skip control messages specific to Unix domain sockets.
//
// Note that some control messages may be truncated if they do not fit under
// the capacity of buf.
func PackControlMessages(t *kernel.Task, cmsgs socket.ControlMessages, buf []byte) []byte {
if cmsgs.IP.HasTimestamp {
buf = PackTimestamp(t, cmsgs.IP.Timestamp, buf)
}
if cmsgs.IP.HasInq {
// In Linux, TCP_CM_INQ is added after SO_TIMESTAMP.
buf = PackInq(t, cmsgs.IP.Inq, buf)
}
if cmsgs.IP.HasTOS {
buf = PackTOS(t, cmsgs.IP.TOS, buf)
}
if cmsgs.IP.HasTClass {
buf = PackTClass(t, cmsgs.IP.TClass, buf)
}
if cmsgs.IP.HasIPPacketInfo {
buf = PackIPPacketInfo(t, &cmsgs.IP.PacketInfo, buf)
}
if cmsgs.IP.OriginalDstAddress != nil {
buf = PackOriginalDstAddress(t, cmsgs.IP.OriginalDstAddress, buf)
}
if cmsgs.IP.SockErr != nil {
buf = PackSockExtendedErr(t, cmsgs.IP.SockErr, buf)
}
return buf
}
// cmsgSpace is equivalent to CMSG_SPACE in Linux.
func cmsgSpace(t *kernel.Task, dataLen int) int {
return linux.SizeOfControlMessageHeader + bits.AlignUp(dataLen, t.Arch().Width())
}
// CmsgsSpace returns the number of bytes needed to fit the control messages
// represented in cmsgs.
func CmsgsSpace(t *kernel.Task, cmsgs socket.ControlMessages) int {
space := 0
if cmsgs.IP.HasTimestamp {
space += cmsgSpace(t, linux.SizeOfTimeval)
}
if cmsgs.IP.HasInq {
space += cmsgSpace(t, linux.SizeOfControlMessageInq)
}
if cmsgs.IP.HasTOS {
space += cmsgSpace(t, linux.SizeOfControlMessageTOS)
}
if cmsgs.IP.HasTClass {
space += cmsgSpace(t, linux.SizeOfControlMessageTClass)
}
if cmsgs.IP.HasIPPacketInfo {
space += cmsgSpace(t, linux.SizeOfControlMessageIPPacketInfo)
}
if cmsgs.IP.OriginalDstAddress != nil {
space += cmsgSpace(t, cmsgs.IP.OriginalDstAddress.SizeBytes())
}
if cmsgs.IP.SockErr != nil {
space += cmsgSpace(t, cmsgs.IP.SockErr.SizeBytes())
}
return space
}
// Parse parses a raw socket control message into portable objects.
func Parse(t *kernel.Task, socketOrEndpoint interface{}, buf []byte, width uint) (socket.ControlMessages, error) {
var (
cmsgs socket.ControlMessages
fds linux.ControlMessageRights
)
for i := 0; i < len(buf); {
if i+linux.SizeOfControlMessageHeader > len(buf) {
return cmsgs, linuxerr.EINVAL
}
var h linux.ControlMessageHeader
h.UnmarshalUnsafe(buf[i : i+linux.SizeOfControlMessageHeader])
if h.Length < uint64(linux.SizeOfControlMessageHeader) {
return socket.ControlMessages{}, linuxerr.EINVAL
}
if h.Length > uint64(len(buf)-i) {
return socket.ControlMessages{}, linuxerr.EINVAL
}
i += linux.SizeOfControlMessageHeader
length := int(h.Length) - linux.SizeOfControlMessageHeader
switch h.Level {
case linux.SOL_SOCKET:
switch h.Type {
case linux.SCM_RIGHTS:
rightsSize := bits.AlignDown(length, linux.SizeOfControlMessageRight)
numRights := rightsSize / linux.SizeOfControlMessageRight
if len(fds)+numRights > linux.SCM_MAX_FD {
return socket.ControlMessages{}, linuxerr.EINVAL
}
for j := i; j < i+rightsSize; j += linux.SizeOfControlMessageRight {
fds = append(fds, int32(hostarch.ByteOrder.Uint32(buf[j:j+linux.SizeOfControlMessageRight])))
}
i += bits.AlignUp(length, width)
case linux.SCM_CREDENTIALS:
if length < linux.SizeOfControlMessageCredentials {
return socket.ControlMessages{}, linuxerr.EINVAL
}
var creds linux.ControlMessageCredentials
creds.UnmarshalUnsafe(buf[i : i+linux.SizeOfControlMessageCredentials])
scmCreds, err := NewSCMCredentials(t, creds)
if err != nil {
return socket.ControlMessages{}, err
}
cmsgs.Unix.Credentials = scmCreds
i += bits.AlignUp(length, width)
case linux.SO_TIMESTAMP:
if length < linux.SizeOfTimeval {
return socket.ControlMessages{}, linuxerr.EINVAL
}
var ts linux.Timeval
ts.UnmarshalUnsafe(buf[i : i+linux.SizeOfTimeval])
cmsgs.IP.Timestamp = ts.ToNsecCapped()
cmsgs.IP.HasTimestamp = true
i += bits.AlignUp(length, width)
default:
// Unknown message type.
return socket.ControlMessages{}, linuxerr.EINVAL
}
case linux.SOL_IP:
switch h.Type {
case linux.IP_TOS:
if length < linux.SizeOfControlMessageTOS {
return socket.ControlMessages{}, linuxerr.EINVAL
}
cmsgs.IP.HasTOS = true
var tos primitive.Uint8
tos.UnmarshalUnsafe(buf[i : i+linux.SizeOfControlMessageTOS])
cmsgs.IP.TOS = uint8(tos)
i += bits.AlignUp(length, width)
case linux.IP_PKTINFO:
if length < linux.SizeOfControlMessageIPPacketInfo {
return socket.ControlMessages{}, linuxerr.EINVAL
}
cmsgs.IP.HasIPPacketInfo = true
var packetInfo linux.ControlMessageIPPacketInfo
packetInfo.UnmarshalUnsafe(buf[i : i+linux.SizeOfControlMessageIPPacketInfo])
cmsgs.IP.PacketInfo = packetInfo
i += bits.AlignUp(length, width)
case linux.IP_RECVORIGDSTADDR:
var addr linux.SockAddrInet
if length < addr.SizeBytes() {
return socket.ControlMessages{}, linuxerr.EINVAL
}
addr.UnmarshalUnsafe(buf[i : i+addr.SizeBytes()])
cmsgs.IP.OriginalDstAddress = &addr
i += bits.AlignUp(length, width)
case linux.IP_RECVERR:
var errCmsg linux.SockErrCMsgIPv4
if length < errCmsg.SizeBytes() {
return socket.ControlMessages{}, linuxerr.EINVAL
}
errCmsg.UnmarshalBytes(buf[i : i+errCmsg.SizeBytes()])
cmsgs.IP.SockErr = &errCmsg
i += bits.AlignUp(length, width)
default:
return socket.ControlMessages{}, linuxerr.EINVAL
}
case linux.SOL_IPV6:
switch h.Type {
case linux.IPV6_TCLASS:
if length < linux.SizeOfControlMessageTClass {
return socket.ControlMessages{}, linuxerr.EINVAL
}
cmsgs.IP.HasTClass = true
var tclass primitive.Uint32
tclass.UnmarshalUnsafe(buf[i : i+linux.SizeOfControlMessageTClass])
cmsgs.IP.TClass = uint32(tclass)
i += bits.AlignUp(length, width)
case linux.IPV6_RECVORIGDSTADDR:
var addr linux.SockAddrInet6
if length < addr.SizeBytes() {
return socket.ControlMessages{}, linuxerr.EINVAL
}
addr.UnmarshalUnsafe(buf[i : i+addr.SizeBytes()])
cmsgs.IP.OriginalDstAddress = &addr
i += bits.AlignUp(length, width)
case linux.IPV6_RECVERR:
var errCmsg linux.SockErrCMsgIPv6
if length < errCmsg.SizeBytes() {
return socket.ControlMessages{}, linuxerr.EINVAL
}
errCmsg.UnmarshalBytes(buf[i : i+errCmsg.SizeBytes()])
cmsgs.IP.SockErr = &errCmsg
i += bits.AlignUp(length, width)
default:
return socket.ControlMessages{}, linuxerr.EINVAL
}
default:
return socket.ControlMessages{}, linuxerr.EINVAL
}
}
if cmsgs.Unix.Credentials == nil {
cmsgs.Unix.Credentials = makeCreds(t, socketOrEndpoint)
}
if len(fds) > 0 {
if kernel.VFS2Enabled {
rights, err := NewSCMRightsVFS2(t, fds)
if err != nil {
return socket.ControlMessages{}, err
}
cmsgs.Unix.Rights = rights
} else {
rights, err := NewSCMRights(t, fds)
if err != nil {
return socket.ControlMessages{}, err
}
cmsgs.Unix.Rights = rights
}
}
return cmsgs, nil
}
func makeCreds(t *kernel.Task, socketOrEndpoint interface{}) SCMCredentials {
if t == nil || socketOrEndpoint == nil {
return nil
}
if cr, ok := socketOrEndpoint.(transport.Credentialer); ok && (cr.Passcred() || cr.ConnectedPasscred()) {
return MakeCreds(t)
}
return nil
}
// MakeCreds creates default SCMCredentials.
func MakeCreds(t *kernel.Task) SCMCredentials {
if t == nil {
return nil
}
tcred := t.Credentials()
return &scmCredentials{t, tcred.EffectiveKUID, tcred.EffectiveKGID}
}
// LINT.IfChange
// New creates default control messages if needed.
func New(t *kernel.Task, socketOrEndpoint interface{}, rights SCMRights) transport.ControlMessages {
return transport.ControlMessages{
Credentials: makeCreds(t, socketOrEndpoint),
Rights: rights,
}
}
// LINT.ThenChange(./control_vfs2.go)
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