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wgengine/magicsock: send, use endpoints in CallMeMaybe messages
Fixes #1172 Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
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@ -124,13 +124,21 @@ func parsePing(ver uint8, p []byte) (m *Ping, err error) {
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// happy with its path. But usually it will.
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type CallMeMaybe struct {
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// MyNumber is what the peer believes its endpoints are.
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// Tailscale clients before 1.4 did not populate this
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// so these values should merely augment whetever the control
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// server sends. But because the client could've been idle
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// before it reached out to us, the control plane might
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// have stale info and these endpoints in CallMeMaybe
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// might contain the just-obtained-milliseconds-ago
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// STUN endpoint.
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//
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// Prior to Tailscale 1.4, the endpoints were exchanged purely
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// between nodes and the control server.
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//
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// Starting with Tailscale 1.4, clients advertise their endpoints.
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// Older clients won't use this, but newer clients should
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// use any endpoints in here that aren't included from control.
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//
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// Control might have sent stale endpoints if the client was idle
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// before contacting us. In that case, the client likely did a STUN
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// request immediately before sending the CallMeMaybe to recreate
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// their NAT port mapping, and that new good endpoint is included
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// in this field, but might not yet be in control's endpoints.
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// (And in the future, control will stop distributing endpoints
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// when clients are suitably new.)
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MyNumber []netaddr.IPPort
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}
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@ -1851,7 +1851,7 @@ func (c *Conn) handleDiscoMessage(msg []byte, src netaddr.IPPort) bool {
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}
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if de != nil {
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c.logf("magicsock: disco: %v<-%v (%v, %v) got call-me-maybe", c.discoShort, de.discoShort, de.publicKey.ShortString(), derpStr(src.String()))
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go de.handleCallMeMaybe()
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go de.handleCallMeMaybe(dm)
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}
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}
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@ -1882,6 +1882,29 @@ func (c *Conn) handlePingLocked(dm *disco.Ping, de *discoEndpoint, src netaddr.I
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}, discoVerboseLog)
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}
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// enqueueCallMeMaybe schedules a send of disco.CallMeMaybe to de via derpAddr
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// once we know that our STUN endpoint is fresh.
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//
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// derpAddr is de.derpAddr at the time of send. It's assumed the peer won't be
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// flipping primary DERPs in the 0-30ms it takes to confirm our STUN endpoint.
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// If they do, traffic will just go over DERP for a bit longer until the next
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// discovery round.
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func (c *Conn) enqueueCallMeMaybe(derpAddr netaddr.IPPort, de *discoEndpoint) {
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c.mu.Lock()
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defer c.mu.Unlock()
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// TODO(bradfitz): do a fast/lite re-STUN if our STUN info is too old
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// Currently there's no "queue" despite the method name. There will be.
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eps := make([]netaddr.IPPort, 0, len(c.lastEndpoints))
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for _, ep := range c.lastEndpoints {
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if ipp, err := netaddr.ParseIPPort(ep); err == nil {
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eps = append(eps, ipp)
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}
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}
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go de.sendDiscoMessage(derpAddr, &disco.CallMeMaybe{MyNumber: eps}, discoLog)
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}
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// setAddrToDiscoLocked records that newk is at src.
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//
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// c.mu must be held.
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@ -2841,6 +2864,7 @@ type discoEndpoint struct {
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trustBestAddrUntil time.Time // time when bestAddr expires
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sentPing map[stun.TxID]sentPing
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endpointState map[netaddr.IPPort]*endpointState
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isCallMeMaybeEP map[netaddr.IPPort]bool
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pendingCLIPings []pendingCLIPing // any outstanding "tailscale ping" commands running
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}
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@ -2905,6 +2929,10 @@ type endpointState struct {
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// updated and use it to discard old candidates.
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lastGotPing time.Time
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// callMeMaybeTime, if non-zero, is the time this endpoint
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// was advertised last via a call-me-maybe disco message.
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callMeMaybeTime time.Time
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recentPongs []pongReply // ring buffer up to pongHistoryCount entries
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recentPong uint16 // index into recentPongs of most recent; older before, wrapped
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@ -2918,11 +2946,13 @@ type endpointState struct {
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// shouldDeleteLocked reports whether we should delete this endpoint.
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func (st *endpointState) shouldDeleteLocked() bool {
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switch {
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case !st.callMeMaybeTime.IsZero():
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return false
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case st.lastGotPing.IsZero():
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// This was an endpoint from the network map. Is it still in the network map?
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return st.index == indexSentinelDeleted
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default:
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// Thiw was an endpoint discovered at runtime.
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// This was an endpoint discovered at runtime.
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return time.Since(st.lastGotPing) > sessionActiveTimeout
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}
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}
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@ -3236,13 +3266,12 @@ func (de *discoEndpoint) sendPingsLocked(now time.Time, sendCallMeMaybe bool) {
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}
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derpAddr := de.derpAddr
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if sentAny && sendCallMeMaybe && !derpAddr.IsZero() {
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// In just a bit of a time (for goroutines above to schedule and run),
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// send a message to peer via DERP informing them that we've sent
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// so our firewall ports are probably open and now would be a good time
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// for them to connect.
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time.AfterFunc(5*time.Millisecond, func() {
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de.sendDiscoMessage(derpAddr, &disco.CallMeMaybe{}, discoLog)
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})
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// Have our magicsock.Conn figure out its STUN endpoint (if
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// it doesn't know already) and then send a CallMeMaybe
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// message to our peer via DERP informing them that we've
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// sent so our firewall ports are probably open and now
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// would be a good time for them to connect.
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go de.c.enqueueCallMeMaybe(derpAddr, de)
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}
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}
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@ -3424,10 +3453,34 @@ func (st *endpointState) addPongReplyLocked(r pongReply) {
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// DERP. The contract for use of this message is that the peer has
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// already sent to us via UDP, so their stateful firewall should be
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// open. Now we can Ping back and make it through.
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func (de *discoEndpoint) handleCallMeMaybe() {
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func (de *discoEndpoint) handleCallMeMaybe(m *disco.CallMeMaybe) {
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de.mu.Lock()
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defer de.mu.Unlock()
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now := time.Now()
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for ep := range de.isCallMeMaybeEP {
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de.isCallMeMaybeEP[ep] = false // mark for deletion
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}
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if de.isCallMeMaybeEP == nil {
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de.isCallMeMaybeEP = map[netaddr.IPPort]bool{}
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}
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for _, ep := range m.MyNumber {
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de.isCallMeMaybeEP[ep] = true
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if es, ok := de.endpointState[ep]; ok {
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es.callMeMaybeTime = now
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} else {
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de.endpointState[ep] = &endpointState{callMeMaybeTime: now}
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}
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}
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// Delete any prior CalllMeMaybe endpoints that weren't included
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// in this message.
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for ep, want := range de.isCallMeMaybeEP {
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if !want {
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delete(de.isCallMeMaybeEP, ep)
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de.deleteEndpointLocked(ep)
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}
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}
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// Zero out all the lastPing times to force sendPingsLocked to send new ones,
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// even if it's been less than 5 seconds ago.
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for _, st := range de.endpointState {
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