// 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 host import ( "fmt" "sync/atomic" "golang.org/x/sys/unix" "gvisor.dev/gvisor/pkg/abi/linux" "gvisor.dev/gvisor/pkg/context" "gvisor.dev/gvisor/pkg/errors/linuxerr" "gvisor.dev/gvisor/pkg/fd" "gvisor.dev/gvisor/pkg/fdnotifier" "gvisor.dev/gvisor/pkg/refs" "gvisor.dev/gvisor/pkg/sentry/fs" "gvisor.dev/gvisor/pkg/sentry/socket/control" unixsocket "gvisor.dev/gvisor/pkg/sentry/socket/unix" "gvisor.dev/gvisor/pkg/sentry/socket/unix/transport" "gvisor.dev/gvisor/pkg/sentry/uniqueid" "gvisor.dev/gvisor/pkg/sync" "gvisor.dev/gvisor/pkg/syserr" "gvisor.dev/gvisor/pkg/tcpip" "gvisor.dev/gvisor/pkg/unet" "gvisor.dev/gvisor/pkg/waiter" ) // LINT.IfChange // ConnectedEndpoint is a host FD backed implementation of // transport.ConnectedEndpoint and transport.Receiver. // // +stateify savable type ConnectedEndpoint struct { // ref keeps track of references to a connectedEndpoint. ref refs.AtomicRefCount queue *waiter.Queue path string // If srfd >= 0, it is the host FD that file was imported from. srfd int `state:"wait"` // stype is the type of Unix socket. stype linux.SockType // sndbuf is the size of the send buffer. // // N.B. When this is smaller than the host size, we present it via // GetSockOpt and message splitting/rejection in SendMsg, but do not // prevent lots of small messages from filling the real send buffer // size on the host. sndbuf int64 `state:"nosave"` // mu protects the fields below. mu sync.RWMutex `state:"nosave"` // file is an *fd.FD containing the FD backing this endpoint. It must be // set to nil if it has been closed. file *fd.FD `state:"nosave"` } // init performs initialization required for creating new ConnectedEndpoints and // for restoring them. func (c *ConnectedEndpoint) init() *syserr.Error { family, err := unix.GetsockoptInt(c.file.FD(), unix.SOL_SOCKET, unix.SO_DOMAIN) if err != nil { return syserr.FromError(err) } if family != unix.AF_UNIX { // We only allow Unix sockets. return tcpip.SyserrInvalidEndpointState } stype, err := unix.GetsockoptInt(c.file.FD(), unix.SOL_SOCKET, unix.SO_TYPE) if err != nil { return syserr.FromError(err) } if err := unix.SetNonblock(c.file.FD(), true); err != nil { return syserr.FromError(err) } sndbuf, err := unix.GetsockoptInt(c.file.FD(), unix.SOL_SOCKET, unix.SO_SNDBUF) if err != nil { return syserr.FromError(err) } c.stype = linux.SockType(stype) c.sndbuf = int64(sndbuf) return nil } // NewConnectedEndpoint creates a new ConnectedEndpoint backed by a host FD // that will pretend to be bound at a given sentry path. // // The caller is responsible for calling Init(). Additionaly, Release needs to // be called twice because ConnectedEndpoint is both a transport.Receiver and // transport.ConnectedEndpoint. func NewConnectedEndpoint(ctx context.Context, file *fd.FD, queue *waiter.Queue, path string) (*ConnectedEndpoint, *syserr.Error) { e := ConnectedEndpoint{ path: path, queue: queue, file: file, srfd: -1, } if err := e.init(); err != nil { return nil, err } // AtomicRefCounters start off with a single reference. We need two. e.ref.IncRef() e.ref.EnableLeakCheck("host.ConnectedEndpoint") return &e, nil } // Init will do initialization required without holding other locks. func (c *ConnectedEndpoint) Init() { if err := fdnotifier.AddFD(int32(c.file.FD()), c.queue); err != nil { panic(err) } } // NewSocketWithDirent allocates a new unix socket with host endpoint. // // This is currently only used by unsaveable Gofer nodes. // // NewSocketWithDirent takes ownership of f on success. func NewSocketWithDirent(ctx context.Context, d *fs.Dirent, f *fd.FD, flags fs.FileFlags) (*fs.File, error) { f2 := fd.New(f.FD()) var q waiter.Queue e, err := NewConnectedEndpoint(ctx, f2, &q, "" /* path */) if err != nil { f2.Release() return nil, err.ToError() } // Take ownship of the FD. f.Release() e.Init() ep := transport.NewExternal(ctx, e.stype, uniqueid.GlobalProviderFromContext(ctx), &q, e, e) return unixsocket.NewWithDirent(ctx, d, ep, e.stype, flags), nil } // newSocket allocates a new unix socket with host endpoint. func newSocket(ctx context.Context, orgfd int, saveable bool) (*fs.File, error) { ownedfd := orgfd srfd := -1 if saveable { var err error ownedfd, err = unix.Dup(orgfd) if err != nil { return nil, err } srfd = orgfd } f := fd.New(ownedfd) var q waiter.Queue e, err := NewConnectedEndpoint(ctx, f, &q, "" /* path */) if err != nil { if saveable { f.Close() } else { f.Release() } return nil, err.ToError() } e.srfd = srfd e.Init() ep := transport.NewExternal(ctx, e.stype, uniqueid.GlobalProviderFromContext(ctx), &q, e, e) return unixsocket.New(ctx, ep, e.stype), nil } // Send implements transport.ConnectedEndpoint.Send. func (c *ConnectedEndpoint) Send(ctx context.Context, data [][]byte, controlMessages transport.ControlMessages, from tcpip.FullAddress) (int64, bool, *syserr.Error) { c.mu.RLock() defer c.mu.RUnlock() if !controlMessages.Empty() { return 0, false, tcpip.SyserrInvalidEndpointState } // Since stream sockets don't preserve message boundaries, we can write // only as much of the message as fits in the send buffer. truncate := c.stype == linux.SOCK_STREAM n, totalLen, err := fdWriteVec(c.file.FD(), data, c.SendMaxQueueSize(), truncate) if n < totalLen && err == nil { // The host only returns a short write if it would otherwise // block (and only for stream sockets). err = linuxerr.EAGAIN } if n > 0 && !linuxerr.Equals(linuxerr.EAGAIN, err) { // The caller may need to block to send more data, but // otherwise there isn't anything that can be done about an // error with a partial write. err = nil } // There is no need for the callee to call SendNotify because fdWriteVec // uses the host's sendmsg(2) and the host kernel's queue. return n, false, syserr.FromError(err) } // SendNotify implements transport.ConnectedEndpoint.SendNotify. func (c *ConnectedEndpoint) SendNotify() {} // CloseSend implements transport.ConnectedEndpoint.CloseSend. func (c *ConnectedEndpoint) CloseSend() { c.mu.Lock() defer c.mu.Unlock() if err := unix.Shutdown(c.file.FD(), unix.SHUT_WR); err != nil { // A well-formed UDS shutdown can't fail. See // net/unix/af_unix.c:unix_shutdown. panic(fmt.Sprintf("failed write shutdown on host socket %+v: %v", c, err)) } } // CloseNotify implements transport.ConnectedEndpoint.CloseNotify. func (c *ConnectedEndpoint) CloseNotify() {} // Writable implements transport.ConnectedEndpoint.Writable. func (c *ConnectedEndpoint) Writable() bool { c.mu.RLock() defer c.mu.RUnlock() return fdnotifier.NonBlockingPoll(int32(c.file.FD()), waiter.WritableEvents)&waiter.WritableEvents != 0 } // Passcred implements transport.ConnectedEndpoint.Passcred. func (c *ConnectedEndpoint) Passcred() bool { // We don't support credential passing for host sockets. return false } // GetLocalAddress implements transport.ConnectedEndpoint.GetLocalAddress. func (c *ConnectedEndpoint) GetLocalAddress() (tcpip.FullAddress, tcpip.Error) { return tcpip.FullAddress{Addr: tcpip.Address(c.path)}, nil } // EventUpdate implements transport.ConnectedEndpoint.EventUpdate. func (c *ConnectedEndpoint) EventUpdate() { c.mu.RLock() defer c.mu.RUnlock() if c.file.FD() != -1 { fdnotifier.UpdateFD(int32(c.file.FD())) } } // Recv implements transport.Receiver.Recv. func (c *ConnectedEndpoint) Recv(ctx context.Context, data [][]byte, creds bool, numRights int, peek bool) (int64, int64, transport.ControlMessages, bool, tcpip.FullAddress, bool, *syserr.Error) { c.mu.RLock() defer c.mu.RUnlock() var cm unet.ControlMessage if numRights > 0 { cm.EnableFDs(int(numRights)) } // N.B. Unix sockets don't have a receive buffer, the send buffer // serves both purposes. rl, ml, cl, cTrunc, err := fdReadVec(c.file.FD(), data, []byte(cm), peek, c.RecvMaxQueueSize()) if rl > 0 && err != nil { // We got some data, so all we need to do on error is return // the data that we got. Short reads are fine, no need to // block. err = nil } if err != nil { return 0, 0, transport.ControlMessages{}, false, tcpip.FullAddress{}, false, syserr.FromError(err) } // There is no need for the callee to call RecvNotify because fdReadVec uses // the host's recvmsg(2) and the host kernel's queue. // Trim the control data if we received less than the full amount. if cl < uint64(len(cm)) { cm = cm[:cl] } // Avoid extra allocations in the case where there isn't any control data. if len(cm) == 0 { return rl, ml, transport.ControlMessages{}, cTrunc, tcpip.FullAddress{Addr: tcpip.Address(c.path)}, false, nil } fds, err := cm.ExtractFDs() if err != nil { return 0, 0, transport.ControlMessages{}, false, tcpip.FullAddress{}, false, syserr.FromError(err) } if len(fds) == 0 { return rl, ml, transport.ControlMessages{}, cTrunc, tcpip.FullAddress{Addr: tcpip.Address(c.path)}, false, nil } return rl, ml, control.New(nil, nil, newSCMRights(fds)), cTrunc, tcpip.FullAddress{Addr: tcpip.Address(c.path)}, false, nil } // close releases all resources related to the endpoint. func (c *ConnectedEndpoint) close(context.Context) { fdnotifier.RemoveFD(int32(c.file.FD())) c.file.Close() c.file = nil } // RecvNotify implements transport.Receiver.RecvNotify. func (c *ConnectedEndpoint) RecvNotify() {} // CloseRecv implements transport.Receiver.CloseRecv. func (c *ConnectedEndpoint) CloseRecv() { c.mu.Lock() defer c.mu.Unlock() if err := unix.Shutdown(c.file.FD(), unix.SHUT_RD); err != nil { // A well-formed UDS shutdown can't fail. See // net/unix/af_unix.c:unix_shutdown. panic(fmt.Sprintf("failed read shutdown on host socket %+v: %v", c, err)) } } // Readable implements transport.Receiver.Readable. func (c *ConnectedEndpoint) Readable() bool { c.mu.RLock() defer c.mu.RUnlock() return fdnotifier.NonBlockingPoll(int32(c.file.FD()), waiter.ReadableEvents)&waiter.ReadableEvents != 0 } // SendQueuedSize implements transport.Receiver.SendQueuedSize. func (c *ConnectedEndpoint) SendQueuedSize() int64 { // TODO(gvisor.dev/issue/273): SendQueuedSize isn't supported for host // sockets because we don't allow the sentry to call ioctl(2). return -1 } // RecvQueuedSize implements transport.Receiver.RecvQueuedSize. func (c *ConnectedEndpoint) RecvQueuedSize() int64 { // TODO(gvisor.dev/issue/273): RecvQueuedSize isn't supported for host // sockets because we don't allow the sentry to call ioctl(2). return -1 } // SendMaxQueueSize implements transport.Receiver.SendMaxQueueSize. func (c *ConnectedEndpoint) SendMaxQueueSize() int64 { return atomic.LoadInt64(&c.sndbuf) } // RecvMaxQueueSize implements transport.Receiver.RecvMaxQueueSize. func (c *ConnectedEndpoint) RecvMaxQueueSize() int64 { // N.B. Unix sockets don't use the receive buffer. We'll claim it is // the same size as the send buffer. return atomic.LoadInt64(&c.sndbuf) } // Release implements transport.ConnectedEndpoint.Release and transport.Receiver.Release. func (c *ConnectedEndpoint) Release(ctx context.Context) { c.ref.DecRefWithDestructor(ctx, c.close) } // CloseUnread implements transport.ConnectedEndpoint.CloseUnread. func (c *ConnectedEndpoint) CloseUnread() {} // SetSendBufferSize implements transport.ConnectedEndpoint.SetSendBufferSize. func (c *ConnectedEndpoint) SetSendBufferSize(v int64) (newSz int64) { // gVisor does not permit setting of SO_SNDBUF for host backed unix // domain sockets. return atomic.LoadInt64(&c.sndbuf) } // SetReceiveBufferSize implements transport.ConnectedEndpoint.SetReceiveBufferSize. func (c *ConnectedEndpoint) SetReceiveBufferSize(v int64) (newSz int64) { // gVisor does not permit setting of SO_RCVBUF for host backed unix // domain sockets. Receive buffer does not have any effect for unix // sockets and we claim to be the same as send buffer. return atomic.LoadInt64(&c.sndbuf) } // LINT.ThenChange(../../fsimpl/host/socket.go)