package soju import ( "fmt" "sync" "time" "gopkg.in/irc.v3" ) type event interface{} type eventUpstreamMessage struct { msg *irc.Message uc *upstreamConn } type eventUpstreamConnectionError struct { net *network err error } type eventUpstreamConnected struct { uc *upstreamConn } type eventUpstreamDisconnected struct { uc *upstreamConn } type eventUpstreamError struct { uc *upstreamConn err error } type eventDownstreamMessage struct { msg *irc.Message dc *downstreamConn } type eventDownstreamConnected struct { dc *downstreamConn } type eventDownstreamDisconnected struct { dc *downstreamConn } type network struct { Network user *user ring *Ring stopped chan struct{} history map[string]uint64 lastError error lock sync.Mutex conn *upstreamConn } func newNetwork(user *user, record *Network) *network { return &network{ Network: *record, user: user, ring: NewRing(user.srv.RingCap), stopped: make(chan struct{}), history: make(map[string]uint64), } } func (net *network) forEachDownstream(f func(*downstreamConn)) { net.user.forEachDownstream(func(dc *downstreamConn) { if dc.network != nil && dc.network != net { return } f(dc) }) } func (net *network) run() { var lastTry time.Time for { select { case <-net.stopped: return default: // This space is intentionally left blank } if dur := time.Now().Sub(lastTry); dur < retryConnectMinDelay { delay := retryConnectMinDelay - dur net.user.srv.Logger.Printf("waiting %v before trying to reconnect to %q", delay.Truncate(time.Second), net.Addr) time.Sleep(delay) } lastTry = time.Now() uc, err := connectToUpstream(net) if err != nil { net.user.srv.Logger.Printf("failed to connect to upstream server %q: %v", net.Addr, err) net.user.events <- eventUpstreamConnectionError{net, fmt.Errorf("failed to connect: %v", err)} continue } uc.register() if err := uc.runUntilRegistered(); err != nil { uc.logger.Printf("failed to register: %v", err) net.user.events <- eventUpstreamConnectionError{net, fmt.Errorf("failed to register: %v", err)} uc.Close() continue } net.user.events <- eventUpstreamConnected{uc} if err := uc.readMessages(net.user.events); err != nil { uc.logger.Printf("failed to handle messages: %v", err) net.user.events <- eventUpstreamError{uc, fmt.Errorf("failed to handle messages: %v", err)} } uc.Close() net.user.events <- eventUpstreamDisconnected{uc} } } func (net *network) upstream() *upstreamConn { net.lock.Lock() defer net.lock.Unlock() return net.conn } func (net *network) Stop() { select { case <-net.stopped: return default: close(net.stopped) } if uc := net.upstream(); uc != nil { uc.Close() } } func (net *network) createUpdateChannel(ch *Channel) error { if dbCh, err := net.user.srv.db.GetChannel(net.ID, ch.Name); err == nil { ch.ID = dbCh.ID } else if err != ErrNoSuchChannel { return err } return net.user.srv.db.StoreChannel(net.ID, ch) } func (net *network) deleteChannel(name string) error { return net.user.srv.db.DeleteChannel(net.ID, name) } type user struct { User srv *Server events chan event networks []*network downstreamConns []*downstreamConn // LIST commands in progress pendingLISTs []pendingLIST } type pendingLIST struct { downstreamID uint64 // list of per-upstream LIST commands not yet sent or completed pendingCommands map[int64]*irc.Message } func newUser(srv *Server, record *User) *user { return &user{ User: *record, srv: srv, events: make(chan event, 64), } } func (u *user) forEachNetwork(f func(*network)) { for _, network := range u.networks { f(network) } } func (u *user) forEachUpstream(f func(uc *upstreamConn)) { for _, network := range u.networks { uc := network.upstream() if uc == nil { continue } f(uc) } } func (u *user) forEachDownstream(f func(dc *downstreamConn)) { for _, dc := range u.downstreamConns { f(dc) } } func (u *user) getNetwork(name string) *network { for _, network := range u.networks { if network.Addr == name { return network } if network.Name != "" && network.Name == name { return network } } return nil } func (u *user) run() { networks, err := u.srv.db.ListNetworks(u.Username) if err != nil { u.srv.Logger.Printf("failed to list networks for user %q: %v", u.Username, err) return } for _, record := range networks { network := newNetwork(u, &record) u.networks = append(u.networks, network) go network.run() } for e := range u.events { switch e := e.(type) { case eventUpstreamConnected: uc := e.uc uc.network.lock.Lock() uc.network.conn = uc uc.network.lock.Unlock() uc.updateAway() uc.forEachDownstream(func(dc *downstreamConn) { sendServiceNOTICE(dc, fmt.Sprintf("connected to %s", uc.network.GetName())) }) uc.network.lastError = nil case eventUpstreamDisconnected: uc := e.uc uc.network.lock.Lock() uc.network.conn = nil uc.network.lock.Unlock() for _, ml := range uc.messageLoggers { if err := ml.Close(); err != nil { uc.logger.Printf("failed to close message logger: %v", err) } } uc.endPendingLISTs(true) if uc.network.lastError == nil { uc.forEachDownstream(func(dc *downstreamConn) { sendServiceNOTICE(dc, fmt.Sprintf("disconnected from %s", uc.network.GetName())) }) } case eventUpstreamConnectionError: net := e.net if net.lastError == nil || net.lastError.Error() != e.err.Error() { net.forEachDownstream(func(dc *downstreamConn) { sendServiceNOTICE(dc, fmt.Sprintf("failed connecting/registering to %s: %v", net.GetName(), e.err)) }) } net.lastError = e.err case eventUpstreamError: uc := e.uc uc.forEachDownstream(func(dc *downstreamConn) { sendServiceNOTICE(dc, fmt.Sprintf("disconnected from %s: %v", uc.network.GetName(), e.err)) }) uc.network.lastError = e.err case eventUpstreamMessage: msg, uc := e.msg, e.uc if uc.isClosed() { uc.logger.Printf("ignoring message on closed connection: %v", msg) break } if err := uc.handleMessage(msg); err != nil { uc.logger.Printf("failed to handle message %q: %v", msg, err) } case eventDownstreamConnected: dc := e.dc if err := dc.welcome(); err != nil { dc.logger.Printf("failed to handle new registered connection: %v", err) break } u.downstreamConns = append(u.downstreamConns, dc) u.forEachUpstream(func(uc *upstreamConn) { uc.updateAway() }) case eventDownstreamDisconnected: dc := e.dc for net, rc := range dc.ringConsumers { seq := rc.Close() net.history[dc.clientName] = seq } for i := range u.downstreamConns { if u.downstreamConns[i] == dc { u.downstreamConns = append(u.downstreamConns[:i], u.downstreamConns[i+1:]...) break } } u.forEachUpstream(func(uc *upstreamConn) { uc.updateAway() }) case eventDownstreamMessage: msg, dc := e.msg, e.dc if dc.isClosed() { dc.logger.Printf("ignoring message on closed connection: %v", msg) break } err := dc.handleMessage(msg) if ircErr, ok := err.(ircError); ok { ircErr.Message.Prefix = dc.srv.prefix() dc.SendMessage(ircErr.Message) } else if err != nil { dc.logger.Printf("failed to handle message %q: %v", msg, err) dc.Close() } default: u.srv.Logger.Printf("received unknown event type: %T", e) } } } func (u *user) createNetwork(net *Network) (*network, error) { if net.ID != 0 { panic("tried creating an already-existing network") } network := newNetwork(u, net) err := u.srv.db.StoreNetwork(u.Username, &network.Network) if err != nil { return nil, err } u.forEachDownstream(func(dc *downstreamConn) { if dc.network == nil { consumer, _ := network.ring.NewConsumer(nil) dc.ringConsumers[network] = consumer } }) u.networks = append(u.networks, network) go network.run() return network, nil } func (u *user) deleteNetwork(id int64) error { for i, net := range u.networks { if net.ID != id { continue } if err := u.srv.db.DeleteNetwork(net.ID); err != nil { return err } u.forEachDownstream(func(dc *downstreamConn) { if dc.network != nil && dc.network == net { dc.Close() } delete(dc.ringConsumers, net) }) net.Stop() net.ring.Close() u.networks = append(u.networks[:i], u.networks[i+1:]...) return nil } panic("tried deleting a non-existing network") }