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// Copyright 2018 Google Inc.
//
// 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 notifier implements an FD notifier implementation over RPC.
package notifier
import (
"fmt"
"sync"
"syscall"
"gvisor.googlesource.com/gvisor/pkg/sentry/socket/rpcinet/conn"
pb "gvisor.googlesource.com/gvisor/pkg/sentry/socket/rpcinet/syscall_rpc_go_proto"
"gvisor.googlesource.com/gvisor/pkg/waiter"
)
type fdInfo struct {
queue *waiter.Queue
waiting bool
}
// Notifier holds all the state necessary to issue notifications when IO events
// occur in the observed FDs.
type Notifier struct {
// rpcConn is the connection that is used for sending RPCs.
rpcConn *conn.RPCConnection
// epFD is the epoll file descriptor used to register for io
// notifications.
epFD uint32
// mu protects fdMap.
mu sync.Mutex
// fdMap maps file descriptors to their notification queues and waiting
// status.
fdMap map[uint32]*fdInfo
}
// NewRPCNotifier creates a new notifier object.
func NewRPCNotifier(cn *conn.RPCConnection) (*Notifier, error) {
id, c := cn.NewRequest(pb.SyscallRequest{Args: &pb.SyscallRequest_EpollCreate1{&pb.EpollCreate1Request{}}}, false /* ignoreResult */)
<-c
res := cn.Request(id).Result.(*pb.SyscallResponse_EpollCreate1).EpollCreate1.Result
if e, ok := res.(*pb.EpollCreate1Response_ErrorNumber); ok {
return nil, syscall.Errno(e.ErrorNumber)
}
w := &Notifier{
rpcConn: cn,
epFD: res.(*pb.EpollCreate1Response_Fd).Fd,
fdMap: make(map[uint32]*fdInfo),
}
go w.waitAndNotify() // S/R-FIXME
return w, nil
}
// waitFD waits on mask for fd. The fdMap mutex must be hold.
func (n *Notifier) waitFD(fd uint32, fi *fdInfo, mask waiter.EventMask) error {
if !fi.waiting && mask == 0 {
return nil
}
e := pb.EpollEvent{
Events: uint32(mask) | -syscall.EPOLLET,
Fd: fd,
}
switch {
case !fi.waiting && mask != 0:
id, c := n.rpcConn.NewRequest(pb.SyscallRequest{Args: &pb.SyscallRequest_EpollCtl{&pb.EpollCtlRequest{Epfd: n.epFD, Op: syscall.EPOLL_CTL_ADD, Fd: fd, Event: &e}}}, false /* ignoreResult */)
<-c
e := n.rpcConn.Request(id).Result.(*pb.SyscallResponse_EpollCtl).EpollCtl.ErrorNumber
if e != 0 {
return syscall.Errno(e)
}
fi.waiting = true
case fi.waiting && mask == 0:
id, c := n.rpcConn.NewRequest(pb.SyscallRequest{Args: &pb.SyscallRequest_EpollCtl{&pb.EpollCtlRequest{Epfd: n.epFD, Op: syscall.EPOLL_CTL_DEL, Fd: fd}}}, false /* ignoreResult */)
<-c
n.rpcConn.Request(id)
fi.waiting = false
case fi.waiting && mask != 0:
id, c := n.rpcConn.NewRequest(pb.SyscallRequest{Args: &pb.SyscallRequest_EpollCtl{&pb.EpollCtlRequest{Epfd: n.epFD, Op: syscall.EPOLL_CTL_MOD, Fd: fd, Event: &e}}}, false /* ignoreResult */)
<-c
e := n.rpcConn.Request(id).Result.(*pb.SyscallResponse_EpollCtl).EpollCtl.ErrorNumber
if e != 0 {
return syscall.Errno(e)
}
}
return nil
}
// addFD adds an FD to the list of FDs observed by n.
func (n *Notifier) addFD(fd uint32, queue *waiter.Queue) {
n.mu.Lock()
defer n.mu.Unlock()
// Panic if we're already notifying on this FD.
if _, ok := n.fdMap[fd]; ok {
panic(fmt.Sprintf("File descriptor %d added twice", fd))
}
// We have nothing to wait for at the moment. Just add it to the map.
n.fdMap[fd] = &fdInfo{queue: queue}
}
// updateFD updates the set of events the FD needs to be notified on.
func (n *Notifier) updateFD(fd uint32) error {
n.mu.Lock()
defer n.mu.Unlock()
if fi, ok := n.fdMap[fd]; ok {
return n.waitFD(fd, fi, fi.queue.Events())
}
return nil
}
// RemoveFD removes an FD from the list of FDs observed by n.
func (n *Notifier) removeFD(fd uint32) {
n.mu.Lock()
defer n.mu.Unlock()
// Remove from map, then from epoll object.
n.waitFD(fd, n.fdMap[fd], 0)
delete(n.fdMap, fd)
}
// hasFD returns true if the FD is in the list of observed FDs.
func (n *Notifier) hasFD(fd uint32) bool {
n.mu.Lock()
defer n.mu.Unlock()
_, ok := n.fdMap[fd]
return ok
}
// waitAndNotify loops waiting for io event notifications from the epoll
// object. Once notifications arrive, they are dispatched to the
// registered queue.
func (n *Notifier) waitAndNotify() error {
for {
id, c := n.rpcConn.NewRequest(pb.SyscallRequest{Args: &pb.SyscallRequest_EpollWait{&pb.EpollWaitRequest{Fd: n.epFD, NumEvents: 100, Msec: -1}}}, false /* ignoreResult */)
<-c
res := n.rpcConn.Request(id).Result.(*pb.SyscallResponse_EpollWait).EpollWait.Result
if e, ok := res.(*pb.EpollWaitResponse_ErrorNumber); ok {
err := syscall.Errno(e.ErrorNumber)
// NOTE: I don't think epoll_wait can return EAGAIN but I'm being
// conseratively careful here since exiting the notification thread
// would be really bad.
if err == syscall.EINTR || err == syscall.EAGAIN {
continue
}
return err
}
n.mu.Lock()
for _, e := range res.(*pb.EpollWaitResponse_Events).Events.Events {
if fi, ok := n.fdMap[e.Fd]; ok {
fi.queue.Notify(waiter.EventMask(e.Events))
}
}
n.mu.Unlock()
}
}
// AddFD adds an FD to the list of observed FDs.
func (n *Notifier) AddFD(fd uint32, queue *waiter.Queue) error {
n.addFD(fd, queue)
return nil
}
// UpdateFD updates the set of events the FD needs to be notified on.
func (n *Notifier) UpdateFD(fd uint32) error {
return n.updateFD(fd)
}
// RemoveFD removes an FD from the list of observed FDs.
func (n *Notifier) RemoveFD(fd uint32) {
n.removeFD(fd)
}
// HasFD returns true if the FD is in the list of observed FDs.
//
// This should only be used by tests to assert that FDs are correctly
// registered.
func (n *Notifier) HasFD(fd uint32) bool {
return n.hasFD(fd)
}
// NonBlockingPoll polls the given fd in non-blocking fashion. It is used just
// to query the FD's current state; this method will block on the RPC response
// although the syscall is non-blocking.
func (n *Notifier) NonBlockingPoll(fd uint32, mask waiter.EventMask) waiter.EventMask {
for {
id, c := n.rpcConn.NewRequest(pb.SyscallRequest{Args: &pb.SyscallRequest_Poll{&pb.PollRequest{Fd: fd, Events: uint32(mask)}}}, false /* ignoreResult */)
<-c
res := n.rpcConn.Request(id).Result.(*pb.SyscallResponse_Poll).Poll.Result
if e, ok := res.(*pb.PollResponse_ErrorNumber); ok {
if syscall.Errno(e.ErrorNumber) == syscall.EINTR {
continue
}
return mask
}
return waiter.EventMask(res.(*pb.PollResponse_Events).Events)
}
}
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