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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 gonet provides a Go net package compatible wrapper for a tcpip stack.
package gonet
import (
"context"
"errors"
"io"
"net"
"time"
"gvisor.dev/gvisor/pkg/sync"
"gvisor.dev/gvisor/pkg/tcpip"
"gvisor.dev/gvisor/pkg/tcpip/buffer"
"gvisor.dev/gvisor/pkg/tcpip/stack"
"gvisor.dev/gvisor/pkg/tcpip/transport/tcp"
"gvisor.dev/gvisor/pkg/tcpip/transport/udp"
"gvisor.dev/gvisor/pkg/waiter"
)
var (
errCanceled = errors.New("operation canceled")
errWouldBlock = errors.New("operation would block")
)
// timeoutError is how the net package reports timeouts.
type timeoutError struct{}
func (e *timeoutError) Error() string { return "i/o timeout" }
func (e *timeoutError) Timeout() bool { return true }
func (e *timeoutError) Temporary() bool { return true }
// A Listener is a wrapper around a tcpip endpoint that implements
// net.Listener.
type Listener struct {
stack *stack.Stack
ep tcpip.Endpoint
wq *waiter.Queue
cancel chan struct{}
}
// NewListener creates a new Listener.
func NewListener(s *stack.Stack, addr tcpip.FullAddress, network tcpip.NetworkProtocolNumber) (*Listener, error) {
// Create TCP endpoint, bind it, then start listening.
var wq waiter.Queue
ep, err := s.NewEndpoint(tcp.ProtocolNumber, network, &wq)
if err != nil {
return nil, errors.New(err.String())
}
if err := ep.Bind(addr); err != nil {
ep.Close()
return nil, &net.OpError{
Op: "bind",
Net: "tcp",
Addr: fullToTCPAddr(addr),
Err: errors.New(err.String()),
}
}
if err := ep.Listen(10); err != nil {
ep.Close()
return nil, &net.OpError{
Op: "listen",
Net: "tcp",
Addr: fullToTCPAddr(addr),
Err: errors.New(err.String()),
}
}
return &Listener{
stack: s,
ep: ep,
wq: &wq,
cancel: make(chan struct{}),
}, nil
}
// Close implements net.Listener.Close.
func (l *Listener) Close() error {
l.ep.Close()
return nil
}
// Shutdown stops the HTTP server.
func (l *Listener) Shutdown() {
l.ep.Shutdown(tcpip.ShutdownWrite | tcpip.ShutdownRead)
close(l.cancel) // broadcast cancellation
}
// Addr implements net.Listener.Addr.
func (l *Listener) Addr() net.Addr {
a, err := l.ep.GetLocalAddress()
if err != nil {
return nil
}
return fullToTCPAddr(a)
}
type deadlineTimer struct {
// mu protects the fields below.
mu sync.Mutex
readTimer *time.Timer
readCancelCh chan struct{}
writeTimer *time.Timer
writeCancelCh chan struct{}
}
func (d *deadlineTimer) init() {
d.readCancelCh = make(chan struct{})
d.writeCancelCh = make(chan struct{})
}
func (d *deadlineTimer) readCancel() <-chan struct{} {
d.mu.Lock()
c := d.readCancelCh
d.mu.Unlock()
return c
}
func (d *deadlineTimer) writeCancel() <-chan struct{} {
d.mu.Lock()
c := d.writeCancelCh
d.mu.Unlock()
return c
}
// setDeadline contains the shared logic for setting a deadline.
//
// cancelCh and timer must be pointers to deadlineTimer.readCancelCh and
// deadlineTimer.readTimer or deadlineTimer.writeCancelCh and
// deadlineTimer.writeTimer.
//
// setDeadline must only be called while holding d.mu.
func (d *deadlineTimer) setDeadline(cancelCh *chan struct{}, timer **time.Timer, t time.Time) {
if *timer != nil && !(*timer).Stop() {
*cancelCh = make(chan struct{})
}
// Create a new channel if we already closed it due to setting an already
// expired time. We won't race with the timer because we already handled
// that above.
select {
case <-*cancelCh:
*cancelCh = make(chan struct{})
default:
}
// "A zero value for t means I/O operations will not time out."
// - net.Conn.SetDeadline
if t.IsZero() {
return
}
timeout := t.Sub(time.Now())
if timeout <= 0 {
close(*cancelCh)
return
}
// Timer.Stop returns whether or not the AfterFunc has started, but
// does not indicate whether or not it has completed. Make a copy of
// the cancel channel to prevent this code from racing with the next
// call of setDeadline replacing *cancelCh.
ch := *cancelCh
*timer = time.AfterFunc(timeout, func() {
close(ch)
})
}
// SetReadDeadline implements net.Conn.SetReadDeadline and
// net.PacketConn.SetReadDeadline.
func (d *deadlineTimer) SetReadDeadline(t time.Time) error {
d.mu.Lock()
d.setDeadline(&d.readCancelCh, &d.readTimer, t)
d.mu.Unlock()
return nil
}
// SetWriteDeadline implements net.Conn.SetWriteDeadline and
// net.PacketConn.SetWriteDeadline.
func (d *deadlineTimer) SetWriteDeadline(t time.Time) error {
d.mu.Lock()
d.setDeadline(&d.writeCancelCh, &d.writeTimer, t)
d.mu.Unlock()
return nil
}
// SetDeadline implements net.Conn.SetDeadline and net.PacketConn.SetDeadline.
func (d *deadlineTimer) SetDeadline(t time.Time) error {
d.mu.Lock()
d.setDeadline(&d.readCancelCh, &d.readTimer, t)
d.setDeadline(&d.writeCancelCh, &d.writeTimer, t)
d.mu.Unlock()
return nil
}
// A Conn is a wrapper around a tcpip.Endpoint that implements the net.Conn
// interface.
type Conn struct {
deadlineTimer
wq *waiter.Queue
ep tcpip.Endpoint
// readMu serializes reads and implicitly protects read.
//
// Lock ordering:
// If both readMu and deadlineTimer.mu are to be used in a single
// request, readMu must be acquired before deadlineTimer.mu.
readMu sync.Mutex
// read contains bytes that have been read from the endpoint,
// but haven't yet been returned.
read buffer.View
}
// NewConn creates a new Conn.
func NewConn(wq *waiter.Queue, ep tcpip.Endpoint) *Conn {
c := &Conn{
wq: wq,
ep: ep,
}
c.deadlineTimer.init()
return c
}
// Accept implements net.Conn.Accept.
func (l *Listener) Accept() (net.Conn, error) {
n, wq, err := l.ep.Accept()
if err == tcpip.ErrWouldBlock {
// Create wait queue entry that notifies a channel.
waitEntry, notifyCh := waiter.NewChannelEntry(nil)
l.wq.EventRegister(&waitEntry, waiter.EventIn)
defer l.wq.EventUnregister(&waitEntry)
for {
n, wq, err = l.ep.Accept()
if err != tcpip.ErrWouldBlock {
break
}
select {
case <-l.cancel:
return nil, errCanceled
case <-notifyCh:
}
}
}
if err != nil {
return nil, &net.OpError{
Op: "accept",
Net: "tcp",
Addr: l.Addr(),
Err: errors.New(err.String()),
}
}
return NewConn(wq, n), nil
}
type opErrorer interface {
newOpError(op string, err error) *net.OpError
}
// commonRead implements the common logic between net.Conn.Read and
// net.PacketConn.ReadFrom.
func commonRead(ep tcpip.Endpoint, wq *waiter.Queue, deadline <-chan struct{}, addr *tcpip.FullAddress, errorer opErrorer, dontWait bool) ([]byte, error) {
select {
case <-deadline:
return nil, errorer.newOpError("read", &timeoutError{})
default:
}
read, _, err := ep.Read(addr)
if err == tcpip.ErrWouldBlock {
if dontWait {
return nil, errWouldBlock
}
// Create wait queue entry that notifies a channel.
waitEntry, notifyCh := waiter.NewChannelEntry(nil)
wq.EventRegister(&waitEntry, waiter.EventIn)
defer wq.EventUnregister(&waitEntry)
for {
read, _, err = ep.Read(addr)
if err != tcpip.ErrWouldBlock {
break
}
select {
case <-deadline:
return nil, errorer.newOpError("read", &timeoutError{})
case <-notifyCh:
}
}
}
if err == tcpip.ErrClosedForReceive {
return nil, io.EOF
}
if err != nil {
return nil, errorer.newOpError("read", errors.New(err.String()))
}
return read, nil
}
// Read implements net.Conn.Read.
func (c *Conn) Read(b []byte) (int, error) {
c.readMu.Lock()
defer c.readMu.Unlock()
deadline := c.readCancel()
numRead := 0
for numRead != len(b) {
if len(c.read) == 0 {
var err error
c.read, err = commonRead(c.ep, c.wq, deadline, nil, c, numRead != 0)
if err != nil {
if numRead != 0 {
return numRead, nil
}
return numRead, err
}
}
n := copy(b[numRead:], c.read)
c.read.TrimFront(n)
numRead += n
if len(c.read) == 0 {
c.read = nil
}
}
return numRead, nil
}
// Write implements net.Conn.Write.
func (c *Conn) Write(b []byte) (int, error) {
deadline := c.writeCancel()
// Check if deadlineTimer has already expired.
select {
case <-deadline:
return 0, c.newOpError("write", &timeoutError{})
default:
}
v := buffer.NewViewFromBytes(b)
// We must handle two soft failure conditions simultaneously:
// 1. Write may write nothing and return tcpip.ErrWouldBlock.
// If this happens, we need to register for notifications if we have
// not already and wait to try again.
// 2. Write may write fewer than the full number of bytes and return
// without error. In this case we need to try writing the remaining
// bytes again. I do not need to register for notifications.
//
// What is more, these two soft failure conditions can be interspersed.
// There is no guarantee that all of the condition #1s will occur before
// all of the condition #2s or visa-versa.
var (
err *tcpip.Error
nbytes int
reg bool
notifyCh chan struct{}
)
for nbytes < len(b) && (err == tcpip.ErrWouldBlock || err == nil) {
if err == tcpip.ErrWouldBlock {
if !reg {
// Only register once.
reg = true
// Create wait queue entry that notifies a channel.
var waitEntry waiter.Entry
waitEntry, notifyCh = waiter.NewChannelEntry(nil)
c.wq.EventRegister(&waitEntry, waiter.EventOut)
defer c.wq.EventUnregister(&waitEntry)
} else {
// Don't wait immediately after registration in case more data
// became available between when we last checked and when we setup
// the notification.
select {
case <-deadline:
return nbytes, c.newOpError("write", &timeoutError{})
case <-notifyCh:
}
}
}
var n int64
var resCh <-chan struct{}
n, resCh, err = c.ep.Write(tcpip.SlicePayload(v), tcpip.WriteOptions{})
nbytes += int(n)
v.TrimFront(int(n))
if resCh != nil {
select {
case <-deadline:
return nbytes, c.newOpError("write", &timeoutError{})
case <-resCh:
}
n, _, err = c.ep.Write(tcpip.SlicePayload(v), tcpip.WriteOptions{})
nbytes += int(n)
v.TrimFront(int(n))
}
}
if err == nil {
return nbytes, nil
}
return nbytes, c.newOpError("write", errors.New(err.String()))
}
// Close implements net.Conn.Close.
func (c *Conn) Close() error {
c.ep.Close()
return nil
}
// CloseRead shuts down the reading side of the TCP connection. Most callers
// should just use Close.
//
// A TCP Half-Close is performed the same as CloseRead for *net.TCPConn.
func (c *Conn) CloseRead() error {
if terr := c.ep.Shutdown(tcpip.ShutdownRead); terr != nil {
return c.newOpError("close", errors.New(terr.String()))
}
return nil
}
// CloseWrite shuts down the writing side of the TCP connection. Most callers
// should just use Close.
//
// A TCP Half-Close is performed the same as CloseWrite for *net.TCPConn.
func (c *Conn) CloseWrite() error {
if terr := c.ep.Shutdown(tcpip.ShutdownWrite); terr != nil {
return c.newOpError("close", errors.New(terr.String()))
}
return nil
}
// LocalAddr implements net.Conn.LocalAddr.
func (c *Conn) LocalAddr() net.Addr {
a, err := c.ep.GetLocalAddress()
if err != nil {
return nil
}
return fullToTCPAddr(a)
}
// RemoteAddr implements net.Conn.RemoteAddr.
func (c *Conn) RemoteAddr() net.Addr {
a, err := c.ep.GetRemoteAddress()
if err != nil {
return nil
}
return fullToTCPAddr(a)
}
func (c *Conn) newOpError(op string, err error) *net.OpError {
return &net.OpError{
Op: op,
Net: "tcp",
Source: c.LocalAddr(),
Addr: c.RemoteAddr(),
Err: err,
}
}
func fullToTCPAddr(addr tcpip.FullAddress) *net.TCPAddr {
return &net.TCPAddr{IP: net.IP(addr.Addr), Port: int(addr.Port)}
}
func fullToUDPAddr(addr tcpip.FullAddress) *net.UDPAddr {
return &net.UDPAddr{IP: net.IP(addr.Addr), Port: int(addr.Port)}
}
// DialTCP creates a new TCP Conn connected to the specified address.
func DialTCP(s *stack.Stack, addr tcpip.FullAddress, network tcpip.NetworkProtocolNumber) (*Conn, error) {
return DialContextTCP(context.Background(), s, addr, network)
}
// DialContextTCP creates a new TCP Conn connected to the specified address
// with the option of adding cancellation and timeouts.
func DialContextTCP(ctx context.Context, s *stack.Stack, addr tcpip.FullAddress, network tcpip.NetworkProtocolNumber) (*Conn, error) {
// Create TCP endpoint, then connect.
var wq waiter.Queue
ep, err := s.NewEndpoint(tcp.ProtocolNumber, network, &wq)
if err != nil {
return nil, errors.New(err.String())
}
// Create wait queue entry that notifies a channel.
//
// We do this unconditionally as Connect will always return an error.
waitEntry, notifyCh := waiter.NewChannelEntry(nil)
wq.EventRegister(&waitEntry, waiter.EventOut)
defer wq.EventUnregister(&waitEntry)
select {
case <-ctx.Done():
return nil, ctx.Err()
default:
}
err = ep.Connect(addr)
if err == tcpip.ErrConnectStarted {
select {
case <-ctx.Done():
ep.Close()
return nil, ctx.Err()
case <-notifyCh:
}
err = ep.GetSockOpt(tcpip.ErrorOption{})
}
if err != nil {
ep.Close()
return nil, &net.OpError{
Op: "connect",
Net: "tcp",
Addr: fullToTCPAddr(addr),
Err: errors.New(err.String()),
}
}
return NewConn(&wq, ep), nil
}
// A PacketConn is a wrapper around a tcpip endpoint that implements
// net.PacketConn.
type PacketConn struct {
deadlineTimer
stack *stack.Stack
ep tcpip.Endpoint
wq *waiter.Queue
}
// DialUDP creates a new PacketConn.
//
// If laddr is nil, a local address is automatically chosen.
//
// If raddr is nil, the PacketConn is left unconnected.
func DialUDP(s *stack.Stack, laddr, raddr *tcpip.FullAddress, network tcpip.NetworkProtocolNumber) (*PacketConn, error) {
var wq waiter.Queue
ep, err := s.NewEndpoint(udp.ProtocolNumber, network, &wq)
if err != nil {
return nil, errors.New(err.String())
}
if laddr != nil {
if err := ep.Bind(*laddr); err != nil {
ep.Close()
return nil, &net.OpError{
Op: "bind",
Net: "udp",
Addr: fullToUDPAddr(*laddr),
Err: errors.New(err.String()),
}
}
}
c := PacketConn{
stack: s,
ep: ep,
wq: &wq,
}
c.deadlineTimer.init()
if raddr != nil {
if err := c.ep.Connect(*raddr); err != nil {
c.ep.Close()
return nil, &net.OpError{
Op: "connect",
Net: "udp",
Addr: fullToUDPAddr(*raddr),
Err: errors.New(err.String()),
}
}
}
return &c, nil
}
func (c *PacketConn) newOpError(op string, err error) *net.OpError {
return c.newRemoteOpError(op, nil, err)
}
func (c *PacketConn) newRemoteOpError(op string, remote net.Addr, err error) *net.OpError {
return &net.OpError{
Op: op,
Net: "udp",
Source: c.LocalAddr(),
Addr: remote,
Err: err,
}
}
// RemoteAddr implements net.Conn.RemoteAddr.
func (c *PacketConn) RemoteAddr() net.Addr {
a, err := c.ep.GetRemoteAddress()
if err != nil {
return nil
}
return fullToUDPAddr(a)
}
// Read implements net.Conn.Read
func (c *PacketConn) Read(b []byte) (int, error) {
bytesRead, _, err := c.ReadFrom(b)
return bytesRead, err
}
// ReadFrom implements net.PacketConn.ReadFrom.
func (c *PacketConn) ReadFrom(b []byte) (int, net.Addr, error) {
deadline := c.readCancel()
var addr tcpip.FullAddress
read, err := commonRead(c.ep, c.wq, deadline, &addr, c, false)
if err != nil {
return 0, nil, err
}
return copy(b, read), fullToUDPAddr(addr), nil
}
func (c *PacketConn) Write(b []byte) (int, error) {
return c.WriteTo(b, nil)
}
// WriteTo implements net.PacketConn.WriteTo.
func (c *PacketConn) WriteTo(b []byte, addr net.Addr) (int, error) {
deadline := c.writeCancel()
// Check if deadline has already expired.
select {
case <-deadline:
return 0, c.newRemoteOpError("write", addr, &timeoutError{})
default:
}
// If we're being called by Write, there is no addr
wopts := tcpip.WriteOptions{}
if addr != nil {
ua := addr.(*net.UDPAddr)
wopts.To = &tcpip.FullAddress{Addr: tcpip.Address(ua.IP), Port: uint16(ua.Port)}
}
v := buffer.NewView(len(b))
copy(v, b)
n, resCh, err := c.ep.Write(tcpip.SlicePayload(v), wopts)
if resCh != nil {
select {
case <-deadline:
return int(n), c.newRemoteOpError("write", addr, &timeoutError{})
case <-resCh:
}
n, _, err = c.ep.Write(tcpip.SlicePayload(v), wopts)
}
if err == tcpip.ErrWouldBlock {
// Create wait queue entry that notifies a channel.
waitEntry, notifyCh := waiter.NewChannelEntry(nil)
c.wq.EventRegister(&waitEntry, waiter.EventOut)
defer c.wq.EventUnregister(&waitEntry)
for {
select {
case <-deadline:
return int(n), c.newRemoteOpError("write", addr, &timeoutError{})
case <-notifyCh:
}
n, _, err = c.ep.Write(tcpip.SlicePayload(v), wopts)
if err != tcpip.ErrWouldBlock {
break
}
}
}
if err == nil {
return int(n), nil
}
return int(n), c.newRemoteOpError("write", addr, errors.New(err.String()))
}
// Close implements net.PacketConn.Close.
func (c *PacketConn) Close() error {
c.ep.Close()
return nil
}
// LocalAddr implements net.PacketConn.LocalAddr.
func (c *PacketConn) LocalAddr() net.Addr {
a, err := c.ep.GetLocalAddress()
if err != nil {
return nil
}
return fullToUDPAddr(a)
}
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