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tailscale/wgengine/userspace.go

656 lines
17 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 wgengine
import (
"bufio"
"context"
"fmt"
"log"
"net"
"strconv"
"strings"
"sync"
"time"
"github.com/tailscale/wireguard-go/device"
"github.com/tailscale/wireguard-go/tun"
"github.com/tailscale/wireguard-go/wgcfg"
"tailscale.com/net/interfaces"
"tailscale.com/tailcfg"
"tailscale.com/types/logger"
"tailscale.com/wgengine/filter"
"tailscale.com/wgengine/magicsock"
"tailscale.com/wgengine/monitor"
"tailscale.com/wgengine/packet"
)
type userspaceEngine struct {
logf logger.Logf
reqCh chan struct{}
waitCh chan struct{}
tundev tun.Device
wgdev *device.Device
router Router
magicConn *magicsock.Conn
linkMon *monitor.Mon
wgLock sync.Mutex // serializes all wgdev operations
lastReconfig string
lastCfg wgcfg.Config
lastRoutes string
mu sync.Mutex
statusCallback StatusCallback
peerSequence []wgcfg.Key
endpoints []string
pingers map[wgcfg.Key]context.CancelFunc // mu must be held to call CancelFunc
linkState *interfaces.State
}
type Loggify struct {
f logger.Logf
}
func (l *Loggify) Write(b []byte) (int, error) {
l.f(string(b))
return len(b), nil
}
func NewFakeUserspaceEngine(logf logger.Logf, listenPort uint16) (Engine, error) {
logf("Starting userspace wireguard engine (FAKE tuntap device).")
tun := NewFakeTun()
return NewUserspaceEngineAdvanced(logf, tun, NewFakeRouter, listenPort)
}
// NewUserspaceEngine creates the named tun device and returns a Tailscale Engine
// running on it.
func NewUserspaceEngine(logf logger.Logf, tunname string, listenPort uint16) (Engine, error) {
logf("Starting userspace wireguard engine.")
logf("external packet routing via --tun=%s enabled", tunname)
if tunname == "" {
return nil, fmt.Errorf("--tun name must not be blank")
}
tundev, err := tun.CreateTUN(tunname, device.DefaultMTU)
if err != nil {
logf("CreateTUN: %v\n", err)
return nil, err
}
logf("CreateTUN ok.\n")
e, err := NewUserspaceEngineAdvanced(logf, tundev, newUserspaceRouter, listenPort)
if err != nil {
logf("NewUserspaceEngineAdv: %v\n", err)
tundev.Close()
return nil, err
}
return e, err
}
// NewUserspaceEngineAdvanced is like NewUserspaceEngine but takes a pre-created TUN device and allows specifing
// a custom router constructor and listening port.
func NewUserspaceEngineAdvanced(logf logger.Logf, tundev tun.Device, routerGen RouterGen, listenPort uint16) (Engine, error) {
return newUserspaceEngineAdvanced(logf, tundev, routerGen, listenPort)
}
func newUserspaceEngineAdvanced(logf logger.Logf, tundev tun.Device, routerGen RouterGen, listenPort uint16) (_ Engine, reterr error) {
e := &userspaceEngine{
logf: logf,
reqCh: make(chan struct{}, 1),
waitCh: make(chan struct{}),
tundev: tundev,
pingers: make(map[wgcfg.Key]context.CancelFunc),
}
e.linkState, _ = getLinkState()
mon, err := monitor.New(logf, func() { e.LinkChange(false) })
if err != nil {
return nil, err
}
e.linkMon = mon
endpointsFn := func(endpoints []string) {
e.mu.Lock()
e.endpoints = append(e.endpoints[:0], endpoints...)
e.mu.Unlock()
e.RequestStatus()
}
magicsockOpts := magicsock.Options{
Port: listenPort,
EndpointsFunc: endpointsFn,
}
e.magicConn, err = magicsock.Listen(magicsockOpts)
if err != nil {
return nil, fmt.Errorf("wgengine: %v", err)
}
// flags==0 because logf is already nested in another logger.
// The outer one can display the preferred log prefixes, etc.
dlog := log.New(&Loggify{logf}, "", 0)
logger := device.Logger{
Debug: dlog,
Info: dlog,
Error: dlog,
}
nofilter := func(b []byte) device.FilterResult {
// for safety, default to dropping all packets
logf("Warning: you forgot to use wgengine.SetFilterInOut()! Packet dropped.\n")
return device.FilterDrop
}
opts := &device.DeviceOptions{
Logger: &logger,
FilterIn: nofilter,
FilterOut: nofilter,
HandshakeDone: func(peerKey wgcfg.Key, allowedIPs []net.IPNet) {
// Send an unsolicited status event every time a
// handshake completes. This makes sure our UI can
// update quickly as soon as it connects to a peer.
//
// We use a goroutine here to avoid deadlocking
// wireguard, since RequestStatus() will call back
// into it, and wireguard is what called us to get
// here.
go e.RequestStatus()
// Ping every single-IP that peer routes.
// These synthetic packets are used to traverse NATs.
var ips []wgcfg.IP
for _, ipNet := range allowedIPs {
if ones, bits := ipNet.Mask.Size(); ones == bits && ones != 0 {
var ip wgcfg.IP
copy(ip.Addr[:], ipNet.IP.To16())
ips = append(ips, ip)
}
}
if len(ips) > 0 {
go e.pinger(peerKey, ips)
} else {
logf("[unexpected] peer %s has no single-IP routes: %v", peerKey.ShortString(), allowedIPs)
}
},
CreateBind: e.magicConn.CreateBind,
CreateEndpoint: e.magicConn.CreateEndpoint,
SkipBindUpdate: true,
}
e.wgdev = device.NewDevice(e.tundev, opts)
defer func() {
if reterr != nil {
e.wgdev.Close()
}
}()
e.router, err = routerGen(logf, e.wgdev, e.tundev)
if err != nil {
return nil, err
}
go func() {
up := false
for event := range e.tundev.Events() {
if event&tun.EventMTUUpdate != 0 {
mtu, err := e.tundev.MTU()
e.logf("external route MTU: %d (%v)", mtu, err)
}
if event&tun.EventUp != 0 && !up {
e.logf("external route: up")
e.RequestStatus()
up = true
}
if event&tun.EventDown != 0 && up {
e.logf("external route: down")
e.RequestStatus()
up = false
}
}
}()
e.wgdev.Up()
if err := e.router.Up(); err != nil {
e.wgdev.Close()
return nil, err
}
if err := e.router.SetRoutes(RouteSettings{Cfg: new(wgcfg.Config)}); err != nil {
e.wgdev.Close()
return nil, err
}
e.linkMon.Start()
return e, nil
}
// pinger sends ping packets for a few seconds.
//
// These generated packets are used to ensure we trigger the spray logic in
// the magicsock package for NAT traversal.
func (e *userspaceEngine) pinger(peerKey wgcfg.Key, ips []wgcfg.IP) {
e.logf("generating initial ping traffic to %s (%v)", peerKey.ShortString(), ips)
var srcIP packet.IP
e.wgLock.Lock()
if len(e.lastCfg.Addresses) > 0 {
srcIP = packet.NewIP(e.lastCfg.Addresses[0].IP.IP())
}
e.wgLock.Unlock()
if srcIP == 0 {
e.logf("generating initial ping traffic: no source IP")
return
}
e.mu.Lock()
if cancel := e.pingers[peerKey]; cancel != nil {
cancel()
}
ctx, cancel := context.WithCancel(context.Background())
e.pingers[peerKey] = cancel
e.mu.Unlock()
// sendFreq is slightly longer than sprayFreq in magicsock to ensure
// that if these ping packets are the only source of early packets
// sent to the peer, that each one will be sprayed.
const sendFreq = 300 * time.Millisecond
const stopAfter = 3 * time.Second
start := time.Now()
var dstIPs []packet.IP
for _, ip := range ips {
dstIPs = append(dstIPs, packet.NewIP(ip.IP()))
}
payload := []byte("magicsock_spray") // no meaning
defer func() {
e.mu.Lock()
defer e.mu.Unlock()
select {
case <-ctx.Done():
return
default:
}
// If the pinger context is not done, then the
// CancelFunc is still in the pingers map.
delete(e.pingers, peerKey)
}()
ipid := uint16(1)
t := time.NewTicker(sendFreq)
defer t.Stop()
for {
select {
case <-ctx.Done():
return
case <-t.C:
}
if time.Since(start) > stopAfter {
return
}
for _, dstIP := range dstIPs {
b := packet.GenICMP(srcIP, dstIP, ipid, packet.EchoRequest, 0, payload)
e.wgdev.SendPacket(b)
}
ipid++
}
}
// TODO(apenwarr): dnsDomains really ought to be in wgcfg.Config.
// However, we don't actually ever provide it to wireguard and it's not in
// the traditional wireguard config format. On the other hand, wireguard
// itself doesn't use the traditional 'dns =' setting either.
func (e *userspaceEngine) Reconfig(cfg *wgcfg.Config, dnsDomains []string) error {
e.logf("Reconfig(): configuring userspace wireguard engine.\n")
e.wgLock.Lock()
defer e.wgLock.Unlock()
e.mu.Lock()
e.peerSequence = make([]wgcfg.Key, len(cfg.Peers))
for i, p := range cfg.Peers {
e.peerSequence[i] = p.PublicKey
}
e.mu.Unlock()
// TODO(apenwarr): get rid of uapi stuff for in-process comms
uapi, err := cfg.ToUAPI()
if err != nil {
return err
}
rc := uapi + "\x00" + strings.Join(dnsDomains, "\x00")
if rc == e.lastReconfig {
e.logf("...unchanged config, skipping.\n")
return nil
}
e.lastReconfig = rc
e.lastCfg = cfg.Copy()
// Tell magicsock about the new (or initial) private key
// (which is needed by DERP) before wgdev gets it, as wgdev
// will start trying to handshake, which we want to be able to
// go over DERP.
if err := e.magicConn.SetPrivateKey(cfg.PrivateKey); err != nil {
e.logf("magicsock: %v\n", err)
}
if err := e.wgdev.Reconfig(cfg); err != nil {
e.logf("wgdev.Reconfig: %v\n", err)
return err
}
// TODO(apenwarr): only handling the first local address.
// Currently we never use more than one anyway.
var cidr wgcfg.CIDR
if len(cfg.Addresses) > 0 {
cidr = cfg.Addresses[0]
// TODO(apenwarr): this shouldn't be hardcoded in the client
cidr.Mask = 10 // route the whole cgnat range
}
rs := RouteSettings{
LocalAddr: cidr,
Cfg: cfg,
DNS: cfg.DNS,
DNSDomains: dnsDomains,
}
// TODO(apenwarr): all the parts of RouteSettings should be "relevant."
// We're checking only the "relevant" parts to see if they have
// changed, and if not, skipping SetRoutes(). But if SetRoutes()
// is getting the non-relevant parts of Cfg, it might act on them,
// and this optimization is unsafe. Probably we should not pass
// a whole Cfg object as part of RouteSettings; instead, trim it to
// just what's absolutely needed (the set of actual routes).
rss := rs.OnlyRelevantParts()
if rss != e.lastRoutes {
e.logf("Reconfiguring router. la=%v dns=%v dom=%v; new routes: %v\n",
rs.LocalAddr, rs.DNS, rs.DNSDomains, rss)
e.lastRoutes = rss
err = e.router.SetRoutes(rs)
if err != nil {
return err
}
}
e.logf("Reconfig() done.\n")
return nil
}
func (e *userspaceEngine) SetFilter(filt *filter.Filter) {
var filtin, filtout func(b []byte) device.FilterResult
if filt == nil {
e.logf("wgengine: nil filter provided; no access restrictions.\n")
} else {
ft, ft_ok := e.tundev.(*fakeTun)
filtin = func(b []byte) device.FilterResult {
runf := filter.LogDrops
//runf |= filter.HexdumpDrops
runf |= filter.LogAccepts
//runf |= filter.HexdumpAccepts
q := &packet.QDecode{}
if filt.RunIn(b, q, runf) == filter.Accept {
// Only in fake mode, answer any incoming pings
if ft_ok && q.IsEchoRequest() {
pb := q.EchoRespond()
ft.InsertRead(pb)
// We already handled it, stop.
return device.FilterDrop
}
return device.FilterAccept
}
return device.FilterDrop
}
filtout = func(b []byte) device.FilterResult {
runf := filter.LogDrops
//runf |= filter.HexdumpDrops
runf |= filter.LogAccepts
//runf |= filter.HexdumpAccepts
q := &packet.QDecode{}
if filt.RunOut(b, q, runf) == filter.Accept {
return device.FilterAccept
}
return device.FilterDrop
}
}
e.wgLock.Lock()
defer e.wgLock.Unlock()
e.wgdev.SetFilterInOut(filtin, filtout)
}
func (e *userspaceEngine) SetStatusCallback(cb StatusCallback) {
e.mu.Lock()
defer e.mu.Unlock()
e.statusCallback = cb
}
func (e *userspaceEngine) getStatusCallback() StatusCallback {
e.mu.Lock()
defer e.mu.Unlock()
return e.statusCallback
}
func (e *userspaceEngine) getStatus() (*Status, error) {
e.wgLock.Lock()
defer e.wgLock.Unlock()
if e.wgdev == nil {
// RequestStatus was invoked before the wgengine has
// finished initializing. This can happen when wgegine
// provides a callback to magicsock for endpoint
// updates that calls RequestStatus.
return nil, nil
}
// TODO(apenwarr): get rid of silly uapi stuff for in-process comms
// FIXME: get notified of status changes instead of polling.
var bb strings.Builder
bio := bufio.NewWriter(&bb)
ipcErr := e.wgdev.IpcGetOperation(bio)
if ipcErr != nil {
log.Fatalf("IpcGetOperation: %v\n", ipcErr)
}
bio.Flush()
s := Status{}
pp := make(map[wgcfg.Key]*PeerStatus)
var p *PeerStatus = &PeerStatus{}
bbs := bb.String()
lines := strings.Split(bbs, "\n")
var hst1, hst2, n int64
var err error
for _, line := range lines {
kv := strings.SplitN(line, "=", 2)
var k, v string
k = kv[0]
if len(kv) > 1 {
v = kv[1]
}
switch k {
case "public_key":
pk, err := wgcfg.ParseHexKey(v)
if err != nil {
log.Fatalf("IpcGetOperation: invalid key %#v\n", v)
}
p = &PeerStatus{}
pp[pk] = p
key := tailcfg.NodeKey(pk)
p.NodeKey = key
case "rx_bytes":
n, err = strconv.ParseInt(v, 10, 64)
p.RxBytes = ByteCount(n)
if err != nil {
log.Fatalf("IpcGetOperation: rx_bytes invalid: %#v\n", line)
}
case "tx_bytes":
n, err = strconv.ParseInt(v, 10, 64)
p.TxBytes = ByteCount(n)
if err != nil {
log.Fatalf("IpcGetOperation: tx_bytes invalid: %#v\n", line)
}
case "last_handshake_time_sec":
hst1, err = strconv.ParseInt(v, 10, 64)
if err != nil {
log.Fatalf("IpcGetOperation: hst1 invalid: %#v\n", line)
}
case "last_handshake_time_nsec":
hst2, err = strconv.ParseInt(v, 10, 64)
if err != nil {
log.Fatalf("IpcGetOperation: hst2 invalid: %#v\n", line)
}
if hst1 != 0 || hst2 != 0 {
p.LastHandshake = time.Unix(hst1, hst2)
} // else leave at time.IsZero()
}
}
e.mu.Lock()
defer e.mu.Unlock()
var peers []PeerStatus
for _, pk := range e.peerSequence {
p := pp[pk]
if p == nil {
p = &PeerStatus{}
}
peers = append(peers, *p)
}
if len(pp) != len(e.peerSequence) {
e.logf("wg status returned %v peers, expected %v\n", len(s.Peers), len(e.peerSequence))
}
return &Status{
LocalAddrs: append([]string(nil), e.endpoints...),
Peers: peers,
DERPs: e.magicConn.DERPs(),
}, nil
}
func (e *userspaceEngine) RequestStatus() {
// This is slightly tricky. e.getStatus() can theoretically get
// blocked inside wireguard for a while, and RequestStatus() is
// sometimes called from a goroutine, so we don't want a lot of
// them hanging around. On the other hand, requesting multiple
// status updates simultaneously is pointless anyway; they will
// all say the same thing.
// Enqueue at most one request. If one is in progress already, this
// adds one more to the queue. If one has been requested but not
// started, it is a no-op.
select {
case e.reqCh <- struct{}{}:
default:
}
// Dequeue at most one request. Another thread may have already
// dequeued the request we enqueued above, which is fine, since the
// information is guaranteed to be at least as recent as the current
// call to RequestStatus().
select {
case <-e.reqCh:
s, err := e.getStatus()
if s == nil && err == nil {
e.logf("RequestStatus: weird: both s and err are nil\n")
return
}
if cb := e.getStatusCallback(); cb != nil {
cb(s, err)
}
default:
}
}
func (e *userspaceEngine) Close() {
e.mu.Lock()
for key, cancel := range e.pingers {
delete(e.pingers, key)
cancel()
}
e.mu.Unlock()
r := bufio.NewReader(strings.NewReader(""))
e.wgdev.IpcSetOperation(r)
e.wgdev.Close()
e.linkMon.Close()
e.router.Close()
e.magicConn.Close()
close(e.waitCh)
}
func (e *userspaceEngine) Wait() {
<-e.waitCh
}
func (e *userspaceEngine) setLinkState(st *interfaces.State) (changed bool) {
if st == nil {
return false
}
e.mu.Lock()
defer e.mu.Unlock()
changed = e.linkState == nil || !st.Equal(e.linkState)
e.linkState = st
return changed
}
func (e *userspaceEngine) LinkChange(isExpensive bool) {
cur, err := getLinkState()
if err != nil {
e.logf("LinkChange: interfaces.GetState: %v", err)
return
}
needRebind := e.setLinkState(cur)
e.logf("LinkChange(isExpensive=%v); needsRebind=%v", isExpensive, needRebind)
why := "link-change-minor"
if needRebind {
why = "link-change-major"
e.magicConn.Rebind()
}
e.magicConn.ReSTUN(why)
if !needRebind {
return
}
e.wgLock.Lock()
defer e.wgLock.Unlock()
// TODO(crawshaw): use isExpensive=true to switch into "client mode" on macOS?
// TODO(crawshaw): when we have an incremental notion of reconfig,
// be gentler here. No need to smash in-progress connections,
// we just need to handshake again.
if e.lastReconfig == "" {
return
}
uapi := e.lastReconfig[:strings.Index(e.lastReconfig, "\x00")]
r := bufio.NewReader(strings.NewReader(uapi))
if err := e.wgdev.IpcSetOperation(r); err != nil {
e.logf("IpcSetOperation: %v\n", err)
}
}
func getLinkState() (*interfaces.State, error) {
s, err := interfaces.GetState()
if s != nil {
s.RemoveTailscaleInterfaces()
}
return s, err
}
func (e *userspaceEngine) SetNetInfoCallback(cb NetInfoCallback) {
e.magicConn.SetNetInfoCallback(cb)
}
func (e *userspaceEngine) SetDERPEnabled(v bool) {
e.magicConn.SetDERPEnabled(v)
}