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tailscale/wgengine/netstack/netstack.go

611 lines
19 KiB
Go

// Copyright (c) 2020 Tailscale Inc & AUTHORS All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Package netstack wires up gVisor's netstack into Tailscale.
package netstack
import (
"context"
"errors"
"fmt"
"io"
"log"
"net"
"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"inet.af/netaddr"
"inet.af/netstack/tcpip"
"inet.af/netstack/tcpip/adapters/gonet"
"inet.af/netstack/tcpip/buffer"
"inet.af/netstack/tcpip/header"
"inet.af/netstack/tcpip/link/channel"
"inet.af/netstack/tcpip/network/ipv4"
"inet.af/netstack/tcpip/network/ipv6"
"inet.af/netstack/tcpip/stack"
"inet.af/netstack/tcpip/transport/icmp"
"inet.af/netstack/tcpip/transport/tcp"
"inet.af/netstack/tcpip/transport/udp"
"inet.af/netstack/waiter"
"tailscale.com/net/packet"
"tailscale.com/net/tsaddr"
"tailscale.com/net/tstun"
"tailscale.com/types/logger"
"tailscale.com/types/netmap"
"tailscale.com/util/dnsname"
"tailscale.com/wgengine"
"tailscale.com/wgengine/filter"
"tailscale.com/wgengine/magicsock"
)
const debugNetstack = false
// Impl contains the state for the netstack implementation,
// and implements wgengine.FakeImpl to act as a userspace network
// stack when Tailscale is running in fake mode.
type Impl struct {
// ForwardTCPIn, if non-nil, handles forwarding an inbound TCP
// connection.
// TODO(bradfitz): provide mechanism for tsnet to reject a
// port other than accepting it and closing it.
ForwardTCPIn func(c net.Conn, port uint16)
ipstack *stack.Stack
linkEP *channel.Endpoint
tundev *tstun.Wrapper
e wgengine.Engine
mc *magicsock.Conn
logf logger.Logf
onlySubnets bool // whether we only want to handle subnet relaying
// atomicIsLocalIPFunc holds a func that reports whether an IP
// is a local (non-subnet) Tailscale IP address of this
// machine. It's always a non-nil func. It's changed on netmap
// updates.
atomicIsLocalIPFunc atomic.Value // of func(netaddr.IP) bool
mu sync.Mutex
dns DNSMap
// connsOpenBySubnetIP keeps track of number of connections open
// for each subnet IP temporarily registered on netstack for active
// TCP connections, so they can be unregistered when connections are
// closed.
connsOpenBySubnetIP map[netaddr.IP]int
}
const nicID = 1
const mtu = 1500
// Create creates and populates a new Impl.
func Create(logf logger.Logf, tundev *tstun.Wrapper, e wgengine.Engine, mc *magicsock.Conn, onlySubnets bool) (*Impl, error) {
if mc == nil {
return nil, errors.New("nil magicsock.Conn")
}
if tundev == nil {
return nil, errors.New("nil tundev")
}
if logf == nil {
return nil, errors.New("nil logger")
}
if e == nil {
return nil, errors.New("nil Engine")
}
ipstack := stack.New(stack.Options{
NetworkProtocols: []stack.NetworkProtocolFactory{ipv4.NewProtocol, ipv6.NewProtocol},
TransportProtocols: []stack.TransportProtocolFactory{tcp.NewProtocol, udp.NewProtocol, icmp.NewProtocol4, icmp.NewProtocol6},
})
linkEP := channel.New(512, mtu, "")
if tcpipProblem := ipstack.CreateNIC(nicID, linkEP); tcpipProblem != nil {
return nil, fmt.Errorf("could not create netstack NIC: %v", tcpipProblem)
}
// By default the netstack NIC will only accept packets for the IPs
// registered to it. Since in some cases we dynamically register IPs
// based on the packets that arrive, the NIC needs to accept all
// incoming packets. The NIC won't receive anything it isn't meant to
// since Wireguard will only send us packets that are meant for us.
ipstack.SetPromiscuousMode(nicID, true)
// Add IPv4 and IPv6 default routes, so all incoming packets from the Tailscale side
// are handled by the one fake NIC we use.
ipv4Subnet, _ := tcpip.NewSubnet(tcpip.Address(strings.Repeat("\x00", 4)), tcpip.AddressMask(strings.Repeat("\x00", 4)))
ipv6Subnet, _ := tcpip.NewSubnet(tcpip.Address(strings.Repeat("\x00", 16)), tcpip.AddressMask(strings.Repeat("\x00", 16)))
ipstack.SetRouteTable([]tcpip.Route{
{
Destination: ipv4Subnet,
NIC: nicID,
},
{
Destination: ipv6Subnet,
NIC: nicID,
},
})
ns := &Impl{
logf: logf,
ipstack: ipstack,
linkEP: linkEP,
tundev: tundev,
e: e,
mc: mc,
connsOpenBySubnetIP: make(map[netaddr.IP]int),
onlySubnets: onlySubnets,
}
ns.atomicIsLocalIPFunc.Store(tsaddr.NewContainsIPFunc(nil))
return ns, nil
}
// Start sets up all the handlers so netstack can start working. Implements
// wgengine.FakeImpl.
func (ns *Impl) Start() error {
ns.e.AddNetworkMapCallback(ns.updateIPs)
// size = 0 means use default buffer size
const tcpReceiveBufferSize = 0
const maxInFlightConnectionAttempts = 16
tcpFwd := tcp.NewForwarder(ns.ipstack, tcpReceiveBufferSize, maxInFlightConnectionAttempts, ns.acceptTCP)
udpFwd := udp.NewForwarder(ns.ipstack, ns.acceptUDP)
ns.ipstack.SetTransportProtocolHandler(tcp.ProtocolNumber, func(tei stack.TransportEndpointID, pb *stack.PacketBuffer) bool {
addr := tei.LocalAddress
var pn tcpip.NetworkProtocolNumber
if addr.To4() != "" {
pn = ipv4.ProtocolNumber
} else {
pn = ipv6.ProtocolNumber
}
ip, ok := netaddr.FromStdIP(net.IP(addr))
if !ok {
ns.logf("netstack: could not parse local address %s for incoming TCP connection", ip)
return false
}
if !ns.isLocalIP(ip) {
ns.addSubnetAddress(pn, ip)
}
return tcpFwd.HandlePacket(tei, pb)
})
ns.ipstack.SetTransportProtocolHandler(udp.ProtocolNumber, udpFwd.HandlePacket)
go ns.injectOutbound()
ns.tundev.PostFilterIn = ns.injectInbound
return nil
}
// DNSMap maps MagicDNS names (both base + FQDN) to their first IP.
// It should not be mutated once created.
type DNSMap map[string]netaddr.IP
func DNSMapFromNetworkMap(nm *netmap.NetworkMap) DNSMap {
ret := make(DNSMap)
suffix := nm.MagicDNSSuffix()
if nm.Name != "" && len(nm.Addresses) > 0 {
ip := nm.Addresses[0].IP()
ret[strings.TrimRight(nm.Name, ".")] = ip
if dnsname.HasSuffix(nm.Name, suffix) {
ret[dnsname.TrimSuffix(nm.Name, suffix)] = ip
}
}
for _, p := range nm.Peers {
if p.Name != "" && len(p.Addresses) > 0 {
ip := p.Addresses[0].IP()
ret[strings.TrimRight(p.Name, ".")] = ip
if dnsname.HasSuffix(p.Name, suffix) {
ret[dnsname.TrimSuffix(p.Name, suffix)] = ip
}
}
}
return ret
}
func (ns *Impl) updateDNS(nm *netmap.NetworkMap) {
ns.mu.Lock()
defer ns.mu.Unlock()
ns.dns = DNSMapFromNetworkMap(nm)
}
func (ns *Impl) addSubnetAddress(pn tcpip.NetworkProtocolNumber, ip netaddr.IP) {
ns.mu.Lock()
ns.connsOpenBySubnetIP[ip]++
needAdd := ns.connsOpenBySubnetIP[ip] == 1
ns.mu.Unlock()
// Only register address into netstack for first concurrent connection.
if needAdd {
ns.ipstack.AddAddress(nicID, pn, tcpip.Address(ip.IPAddr().IP))
}
}
func (ns *Impl) removeSubnetAddress(ip netaddr.IP) {
ns.mu.Lock()
defer ns.mu.Unlock()
ns.connsOpenBySubnetIP[ip]--
// Only unregister address from netstack after last concurrent connection.
if ns.connsOpenBySubnetIP[ip] == 0 {
ns.ipstack.RemoveAddress(nicID, tcpip.Address(ip.IPAddr().IP))
delete(ns.connsOpenBySubnetIP, ip)
}
}
func ipPrefixToAddressWithPrefix(ipp netaddr.IPPrefix) tcpip.AddressWithPrefix {
return tcpip.AddressWithPrefix{
Address: tcpip.Address(ipp.IP().IPAddr().IP),
PrefixLen: int(ipp.Bits()),
}
}
func (ns *Impl) updateIPs(nm *netmap.NetworkMap) {
ns.atomicIsLocalIPFunc.Store(tsaddr.NewContainsIPFunc(nm.Addresses))
ns.updateDNS(nm)
oldIPs := make(map[tcpip.AddressWithPrefix]bool)
for _, protocolAddr := range ns.ipstack.AllAddresses()[nicID] {
oldIPs[protocolAddr.AddressWithPrefix] = true
}
newIPs := make(map[tcpip.AddressWithPrefix]bool)
isAddr := map[netaddr.IPPrefix]bool{}
for _, ipp := range nm.SelfNode.Addresses {
isAddr[ipp] = true
}
for _, ipp := range nm.SelfNode.AllowedIPs {
if ns.onlySubnets && isAddr[ipp] {
continue
}
newIPs[ipPrefixToAddressWithPrefix(ipp)] = true
}
ipsToBeAdded := make(map[tcpip.AddressWithPrefix]bool)
for ipp := range newIPs {
if !oldIPs[ipp] {
ipsToBeAdded[ipp] = true
}
}
ipsToBeRemoved := make(map[tcpip.AddressWithPrefix]bool)
for ip := range oldIPs {
if !newIPs[ip] {
ipsToBeRemoved[ip] = true
}
}
ns.mu.Lock()
for ip := range ns.connsOpenBySubnetIP {
ipp := tcpip.Address(ip.IPAddr().IP).WithPrefix()
delete(ipsToBeRemoved, ipp)
}
ns.mu.Unlock()
for ipp := range ipsToBeRemoved {
err := ns.ipstack.RemoveAddress(nicID, ipp.Address)
if err != nil {
ns.logf("netstack: could not deregister IP %s: %v", ipp, err)
} else {
ns.logf("[v2] netstack: deregistered IP %s", ipp)
}
}
for ipp := range ipsToBeAdded {
var err tcpip.Error
if ipp.Address.To4() == "" {
err = ns.ipstack.AddAddressWithPrefix(nicID, ipv6.ProtocolNumber, ipp)
} else {
err = ns.ipstack.AddAddressWithPrefix(nicID, ipv4.ProtocolNumber, ipp)
}
if err != nil {
ns.logf("netstack: could not register IP %s: %v", ipp, err)
} else {
ns.logf("[v2] netstack: registered IP %s", ipp)
}
}
}
// Resolve resolves addr into an IP:port using first the MagicDNS contents
// of m, else using the system resolver.
func (m DNSMap) Resolve(ctx context.Context, addr string) (netaddr.IPPort, error) {
ipp, pippErr := netaddr.ParseIPPort(addr)
if pippErr == nil {
return ipp, nil
}
host, port, err := net.SplitHostPort(addr)
if err != nil {
// addr is malformed.
return netaddr.IPPort{}, err
}
if net.ParseIP(host) != nil {
// The host part of addr was an IP, so the netaddr.ParseIPPort above should've
// passed. Must've been a bad port number. Return the original error.
return netaddr.IPPort{}, pippErr
}
port16, err := strconv.ParseUint(port, 10, 16)
if err != nil {
return netaddr.IPPort{}, fmt.Errorf("invalid port in address %q", addr)
}
// Host is not an IP, so assume it's a DNS name.
// Try MagicDNS first, else otherwise a real DNS lookup.
ip := m[host]
if !ip.IsZero() {
return netaddr.IPPortFrom(ip, uint16(port16)), nil
}
// No MagicDNS name so try real DNS.
var r net.Resolver
ips, err := r.LookupIP(ctx, "ip", host)
if err != nil {
return netaddr.IPPort{}, err
}
if len(ips) == 0 {
return netaddr.IPPort{}, fmt.Errorf("DNS lookup returned no results for %q", host)
}
ip, _ = netaddr.FromStdIP(ips[0])
return netaddr.IPPortFrom(ip, uint16(port16)), nil
}
func (ns *Impl) DialContextTCP(ctx context.Context, addr string) (*gonet.TCPConn, error) {
ns.mu.Lock()
dnsMap := ns.dns
ns.mu.Unlock()
remoteIPPort, err := dnsMap.Resolve(ctx, addr)
if err != nil {
return nil, err
}
remoteAddress := tcpip.FullAddress{
NIC: nicID,
Addr: tcpip.Address(remoteIPPort.IP().IPAddr().IP),
Port: remoteIPPort.Port(),
}
var ipType tcpip.NetworkProtocolNumber
if remoteIPPort.IP().Is4() {
ipType = ipv4.ProtocolNumber
} else {
ipType = ipv6.ProtocolNumber
}
return gonet.DialContextTCP(ctx, ns.ipstack, remoteAddress, ipType)
}
func (ns *Impl) injectOutbound() {
for {
packetInfo, ok := ns.linkEP.ReadContext(context.Background())
if !ok {
ns.logf("[v2] ReadContext-for-write = ok=false")
continue
}
pkt := packetInfo.Pkt
hdrNetwork := pkt.NetworkHeader()
hdrTransport := pkt.TransportHeader()
full := make([]byte, 0, pkt.Size())
full = append(full, hdrNetwork.View()...)
full = append(full, hdrTransport.View()...)
full = append(full, pkt.Data().AsRange().AsView()...)
if debugNetstack {
ns.logf("[v2] packet Write out: % x", full)
}
if err := ns.tundev.InjectOutbound(full); err != nil {
log.Printf("netstack inject outbound: %v", err)
return
}
}
}
// isLocalIP reports whether ip is a Tailscale IP assigned to this
// node directly (but not a subnet-routed IP).
func (ns *Impl) isLocalIP(ip netaddr.IP) bool {
return ns.atomicIsLocalIPFunc.Load().(func(netaddr.IP) bool)(ip)
}
func (ns *Impl) injectInbound(p *packet.Parsed, t *tstun.Wrapper) filter.Response {
if ns.onlySubnets && ns.isLocalIP(p.Dst.IP()) {
// In hybrid ("only subnets") mode, bail out early if
// the traffic is destined for an actual Tailscale
// address. The real host OS interface will handle it.
return filter.Accept
}
var pn tcpip.NetworkProtocolNumber
switch p.IPVersion {
case 4:
pn = header.IPv4ProtocolNumber
case 6:
pn = header.IPv6ProtocolNumber
}
if debugNetstack {
ns.logf("[v2] packet in (from %v): % x", p.Src, p.Buffer())
}
vv := buffer.View(append([]byte(nil), p.Buffer()...)).ToVectorisedView()
packetBuf := stack.NewPacketBuffer(stack.PacketBufferOptions{
Data: vv,
})
ns.linkEP.InjectInbound(pn, packetBuf)
// We've now delivered this to netstack, so we're done.
// Instead of returning a filter.Accept here (which would also
// potentially deliver it to the host OS), and instead of
// filter.Drop (which would log about rejected traffic),
// instead return filter.DropSilently which just quietly stops
// processing it in the tstun TUN wrapper.
return filter.DropSilently
}
func (ns *Impl) acceptTCP(r *tcp.ForwarderRequest) {
reqDetails := r.ID()
if debugNetstack {
ns.logf("[v2] TCP ForwarderRequest: %s", stringifyTEI(reqDetails))
}
dialAddr := reqDetails.LocalAddress
dialNetAddr, _ := netaddr.FromStdIP(net.IP(dialAddr))
isTailscaleIP := tsaddr.IsTailscaleIP(dialNetAddr)
defer func() {
if !isTailscaleIP {
// if this is a subnet IP, we added this in before the TCP handshake
// so netstack is happy TCP-handshaking as a subnet IP
ns.removeSubnetAddress(dialNetAddr)
}
}()
var wq waiter.Queue
ep, err := r.CreateEndpoint(&wq)
if err != nil {
r.Complete(true)
return
}
r.Complete(false)
c := gonet.NewTCPConn(&wq, ep)
if ns.ForwardTCPIn != nil {
ns.ForwardTCPIn(c, reqDetails.LocalPort)
return
}
if isTailscaleIP {
dialAddr = tcpip.Address(net.ParseIP("127.0.0.1")).To4()
}
ns.forwardTCP(c, &wq, dialAddr, reqDetails.LocalPort)
}
func (ns *Impl) forwardTCP(client *gonet.TCPConn, wq *waiter.Queue, dialAddr tcpip.Address, dialPort uint16) {
defer client.Close()
dialAddrStr := net.JoinHostPort(dialAddr.String(), strconv.Itoa(int(dialPort)))
ns.logf("[v2] netstack: forwarding incoming connection to %s", dialAddrStr)
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
waitEntry, notifyCh := waiter.NewChannelEntry(nil)
wq.EventRegister(&waitEntry, waiter.EventHUp)
defer wq.EventUnregister(&waitEntry)
done := make(chan bool)
// netstack doesn't close the notification channel automatically if there was no
// hup signal, so we close done after we're done to not leak the goroutine below.
defer close(done)
go func() {
select {
case <-notifyCh:
case <-done:
}
cancel()
}()
var stdDialer net.Dialer
server, err := stdDialer.DialContext(ctx, "tcp", dialAddrStr)
if err != nil {
ns.logf("netstack: could not connect to local server at %s: %v", dialAddrStr, err)
return
}
defer server.Close()
backendLocalAddr := server.LocalAddr().(*net.TCPAddr)
backendLocalIPPort, _ := netaddr.FromStdAddr(backendLocalAddr.IP, backendLocalAddr.Port, backendLocalAddr.Zone)
clientRemoteIP, _ := netaddr.FromStdIP(client.RemoteAddr().(*net.TCPAddr).IP)
ns.e.RegisterIPPortIdentity(backendLocalIPPort, clientRemoteIP)
defer ns.e.UnregisterIPPortIdentity(backendLocalIPPort)
connClosed := make(chan error, 2)
go func() {
_, err := io.Copy(server, client)
connClosed <- err
}()
go func() {
_, err := io.Copy(client, server)
connClosed <- err
}()
err = <-connClosed
if err != nil {
ns.logf("proxy connection closed with error: %v", err)
}
ns.logf("[v2] netstack: forwarder connection to %s closed", dialAddrStr)
}
func (ns *Impl) acceptUDP(r *udp.ForwarderRequest) {
reqDetails := r.ID()
if debugNetstack {
ns.logf("[v2] UDP ForwarderRequest: %v", stringifyTEI(reqDetails))
}
var wq waiter.Queue
ep, err := r.CreateEndpoint(&wq)
if err != nil {
ns.logf("acceptUDP: could not create endpoint: %v", err)
return
}
localAddr, err := ep.GetLocalAddress()
if err != nil {
return
}
remoteAddr, err := ep.GetRemoteAddress()
if err != nil {
return
}
c := gonet.NewUDPConn(ns.ipstack, &wq, ep)
go ns.forwardUDP(c, &wq, localAddr, remoteAddr)
}
func (ns *Impl) forwardUDP(client *gonet.UDPConn, wq *waiter.Queue, clientLocalAddr, clientRemoteAddr tcpip.FullAddress) {
port := clientLocalAddr.Port
ns.logf("[v2] netstack: forwarding incoming UDP connection on port %v", port)
backendListenAddr := &net.UDPAddr{IP: net.ParseIP("127.0.0.1"), Port: int(clientRemoteAddr.Port)}
backendRemoteAddr := &net.UDPAddr{IP: net.ParseIP("127.0.0.1"), Port: int(port)}
backendConn, err := net.ListenUDP("udp4", backendListenAddr)
if err != nil {
ns.logf("netstack: could not bind local port %v: %v, trying again with random port", clientRemoteAddr.Port, err)
backendListenAddr.Port = 0
backendConn, err = net.ListenUDP("udp4", backendListenAddr)
if err != nil {
ns.logf("netstack: could not connect to local UDP server on port %v: %v", port, err)
return
}
}
backendLocalAddr := backendConn.LocalAddr().(*net.UDPAddr)
backendLocalIPPort, ok := netaddr.FromStdAddr(backendListenAddr.IP, backendLocalAddr.Port, backendLocalAddr.Zone)
if !ok {
ns.logf("could not get backend local IP:port from %v:%v", backendLocalAddr.IP, backendLocalAddr.Port)
}
clientRemoteIP, _ := netaddr.FromStdIP(net.ParseIP(clientRemoteAddr.Addr.String()))
ns.e.RegisterIPPortIdentity(backendLocalIPPort, clientRemoteIP)
ctx, cancel := context.WithCancel(context.Background())
timer := time.AfterFunc(2*time.Minute, func() {
ns.e.UnregisterIPPortIdentity(backendLocalIPPort)
ns.logf("netstack: UDP session between %s and %s timed out", clientRemoteAddr, backendRemoteAddr)
cancel()
client.Close()
backendConn.Close()
})
extend := func() {
timer.Reset(2 * time.Minute)
}
startPacketCopy(ctx, cancel, client, &net.UDPAddr{
IP: net.ParseIP(clientRemoteAddr.Addr.String()),
Port: int(clientRemoteAddr.Port),
}, backendConn, ns.logf, extend)
startPacketCopy(ctx, cancel, backendConn, backendRemoteAddr, client, ns.logf, extend)
}
func startPacketCopy(ctx context.Context, cancel context.CancelFunc, dst net.PacketConn, dstAddr net.Addr, src net.PacketConn, logf logger.Logf, extend func()) {
go func() {
defer cancel() // tear down the other direction's copy
pkt := make([]byte, mtu)
for {
select {
case <-ctx.Done():
return
default:
n, srcAddr, err := src.ReadFrom(pkt)
if err != nil {
if ctx.Err() == nil {
logf("read packet from %s failed: %v", srcAddr, err)
}
return
}
_, err = dst.WriteTo(pkt[:n], dstAddr)
if err != nil {
if ctx.Err() == nil {
logf("write packet to %s failed: %v", dstAddr, err)
}
return
}
if debugNetstack {
logf("[v2] wrote UDP packet %s -> %s", srcAddr, dstAddr)
}
extend()
}
}
}()
}
func stringifyTEI(tei stack.TransportEndpointID) string {
localHostPort := net.JoinHostPort(tei.LocalAddress.String(), strconv.Itoa(int(tei.LocalPort)))
remoteHostPort := net.JoinHostPort(tei.RemoteAddress.String(), strconv.Itoa(int(tei.RemotePort)))
return fmt.Sprintf("%s -> %s", remoteHostPort, localHostPort)
}