package origin import ( "fmt" "net" "time" "golang.org/x/net/context" ) const ( // Waiting time before retrying a failed tunnel connection tunnelRetryDuration = time.Second * 10 // SRV record resolution TTL resolveTTL = time.Hour // Interval between registering new tunnels registrationInterval = time.Second ) type Supervisor struct { config *TunnelConfig edgeIPs []*net.TCPAddr // nextUnusedEdgeIP is the index of the next addr k edgeIPs to try nextUnusedEdgeIP int lastResolve time.Time resolverC chan resolveResult tunnelErrors chan tunnelError tunnelsConnecting map[int]chan struct{} // nextConnectedIndex and nextConnectedSignal are used to wait for all // currently-connecting tunnels to finish connecting so we can reset backoff timer nextConnectedIndex int nextConnectedSignal chan struct{} } type resolveResult struct { edgeIPs []*net.TCPAddr err error } type tunnelError struct { index int err error } func NewSupervisor(config *TunnelConfig) *Supervisor { return &Supervisor{ config: config, tunnelErrors: make(chan tunnelError), tunnelsConnecting: map[int]chan struct{}{}, } } func (s *Supervisor) Run(ctx context.Context, connectedSignal chan struct{}) error { if err := s.initialize(ctx, connectedSignal); err != nil { return err } var tunnelsWaiting []int backoff := BackoffHandler{MaxRetries: s.config.Retries, BaseTime: tunnelRetryDuration, RetryForever: true} var backoffTimer <-chan time.Time tunnelsActive := s.config.HAConnections for { select { // Context cancelled case <-ctx.Done(): for tunnelsActive > 0 { <-s.tunnelErrors tunnelsActive-- } return nil // startTunnel returned with error // (note that this may also be caused by context cancellation) case tunnelError := <-s.tunnelErrors: tunnelsActive-- if tunnelError.err != nil { logger.WithError(tunnelError.err).Warn("Tunnel disconnected due to error") tunnelsWaiting = append(tunnelsWaiting, tunnelError.index) s.waitForNextTunnel(tunnelError.index) if backoffTimer == nil { backoffTimer = backoff.BackoffTimer() } // If the error is a dial error, the problem is likely to be network related // try another addr before refreshing since we are likely to get back the // same IPs in the same order. Same problem with duplicate connection error. if s.unusedIPs() { s.replaceEdgeIP(tunnelError.index) } else { s.refreshEdgeIPs() } } // Backoff was set and its timer expired case <-backoffTimer: backoffTimer = nil for _, index := range tunnelsWaiting { go s.startTunnel(ctx, index, s.newConnectedTunnelSignal(index)) } tunnelsActive += len(tunnelsWaiting) tunnelsWaiting = nil // Tunnel successfully connected case <-s.nextConnectedSignal: if !s.waitForNextTunnel(s.nextConnectedIndex) && len(tunnelsWaiting) == 0 { // No more tunnels outstanding, clear backoff timer backoff.SetGracePeriod() } // DNS resolution returned case result := <-s.resolverC: s.lastResolve = time.Now() s.resolverC = nil if result.err == nil { logger.Debug("Service discovery refresh complete") s.edgeIPs = result.edgeIPs } else { logger.WithError(result.err).Error("Service discovery error") } } } } func (s *Supervisor) initialize(ctx context.Context, connectedSignal chan struct{}) error { edgeIPs, err := ResolveEdgeIPs(s.config.EdgeAddrs) if err != nil { logger.Infof("ResolveEdgeIPs err") return err } s.edgeIPs = edgeIPs if s.config.HAConnections > len(edgeIPs) { logger.Warnf("You requested %d HA connections but I can give you at most %d.", s.config.HAConnections, len(edgeIPs)) s.config.HAConnections = len(edgeIPs) } s.lastResolve = time.Now() // check entitlement and version too old error before attempting to register more tunnels s.nextUnusedEdgeIP = s.config.HAConnections go s.startFirstTunnel(ctx, connectedSignal) select { case <-ctx.Done(): <-s.tunnelErrors // Error can't be nil. A nil error signals that initialization succeed return fmt.Errorf("context was canceled") case tunnelError := <-s.tunnelErrors: return tunnelError.err case <-connectedSignal: } // At least one successful connection, so start the rest for i := 1; i < s.config.HAConnections; i++ { go s.startTunnel(ctx, i, make(chan struct{})) time.Sleep(registrationInterval) } return nil } // startTunnel starts the first tunnel connection. The resulting error will be sent on // s.tunnelErrors. It will send a signal via connectedSignal if registration succeed func (s *Supervisor) startFirstTunnel(ctx context.Context, connectedSignal chan struct{}) { err := ServeTunnelLoop(ctx, s.config, s.getEdgeIP(0), 0, connectedSignal) defer func() { s.tunnelErrors <- tunnelError{index: 0, err: err} }() for s.unusedIPs() { select { case <-ctx.Done(): return default: } switch err.(type) { case nil: return // try the next address if it was a dialError(network problem) or // dupConnRegisterTunnelError case dialError, dupConnRegisterTunnelError: s.replaceEdgeIP(0) default: return } err = ServeTunnelLoop(ctx, s.config, s.getEdgeIP(0), 0, connectedSignal) } } // startTunnel starts a new tunnel connection. The resulting error will be sent on // s.tunnelErrors. func (s *Supervisor) startTunnel(ctx context.Context, index int, connectedSignal chan struct{}) { err := ServeTunnelLoop(ctx, s.config, s.getEdgeIP(index), uint8(index), connectedSignal) s.tunnelErrors <- tunnelError{index: index, err: err} } func (s *Supervisor) newConnectedTunnelSignal(index int) chan struct{} { signal := make(chan struct{}) s.tunnelsConnecting[index] = signal s.nextConnectedSignal = signal s.nextConnectedIndex = index return signal } func (s *Supervisor) waitForNextTunnel(index int) bool { delete(s.tunnelsConnecting, index) s.nextConnectedSignal = nil for k, v := range s.tunnelsConnecting { s.nextConnectedIndex = k s.nextConnectedSignal = v return true } return false } func (s *Supervisor) getEdgeIP(index int) *net.TCPAddr { return s.edgeIPs[index%len(s.edgeIPs)] } func (s *Supervisor) refreshEdgeIPs() { if s.resolverC != nil { return } if time.Since(s.lastResolve) < resolveTTL { return } s.resolverC = make(chan resolveResult) go func() { edgeIPs, err := ResolveEdgeIPs(s.config.EdgeAddrs) s.resolverC <- resolveResult{edgeIPs: edgeIPs, err: err} }() } func (s *Supervisor) unusedIPs() bool { return s.nextUnusedEdgeIP < len(s.edgeIPs) } func (s *Supervisor) replaceEdgeIP(badIPIndex int) { s.edgeIPs[badIPIndex] = s.edgeIPs[s.nextUnusedEdgeIP] s.nextUnusedEdgeIP++ }