// Copyright (c) 2013-2016 The btcsuite developers // Use of this source code is governed by an ISC // license that can be found in the LICENSE file. package spvchain import ( "errors" "github.com/btcsuite/btcd/addrmgr" "github.com/btcsuite/btcd/connmgr" "github.com/btcsuite/btcutil/gcs" ) type getConnCountMsg struct { reply chan int32 } type getPeersMsg struct { reply chan []*serverPeer } type getOutboundGroup struct { key string reply chan int } type getAddedNodesMsg struct { reply chan []*serverPeer } type disconnectNodeMsg struct { cmp func(*serverPeer) bool reply chan error } type connectNodeMsg struct { addr string permanent bool reply chan error } type removeNodeMsg struct { cmp func(*serverPeer) bool reply chan error } type forAllPeersMsg struct { closure func(*serverPeer) } type processCFilterMsg struct { filter *gcs.Filter extended bool } // handleQuery is the central handler for all queries and commands from other // goroutines related to peer state. func (s *ChainService) handleQuery(state *peerState, querymsg interface{}) { switch msg := querymsg.(type) { case getConnCountMsg: nconnected := int32(0) state.forAllPeers(func(sp *serverPeer) { if sp.Connected() { nconnected++ } }) msg.reply <- nconnected case getPeersMsg: peers := make([]*serverPeer, 0, state.Count()) state.forAllPeers(func(sp *serverPeer) { if !sp.Connected() { return } peers = append(peers, sp) }) msg.reply <- peers case connectNodeMsg: // TODO: duplicate oneshots? // Limit max number of total peers. if state.Count() >= MaxPeers { msg.reply <- errors.New("max peers reached") return } for _, peer := range state.persistentPeers { if peer.Addr() == msg.addr { if msg.permanent { msg.reply <- errors.New("peer already connected") } else { msg.reply <- errors.New("peer exists as a permanent peer") } return } } netAddr, err := addrStringToNetAddr(msg.addr) if err != nil { msg.reply <- err return } // TODO: if too many, nuke a non-perm peer. go s.connManager.Connect(&connmgr.ConnReq{ Addr: netAddr, Permanent: msg.permanent, }) msg.reply <- nil case removeNodeMsg: found := disconnectPeer(state.persistentPeers, msg.cmp, func(sp *serverPeer) { // Keep group counts ok since we remove from // the list now. state.outboundGroups[addrmgr.GroupKey(sp.NA())]-- }) if found { msg.reply <- nil } else { msg.reply <- errors.New("peer not found") } case getOutboundGroup: count, ok := state.outboundGroups[msg.key] if ok { msg.reply <- count } else { msg.reply <- 0 } // Request a list of the persistent (added) peers. case getAddedNodesMsg: // Respond with a slice of the relavent peers. peers := make([]*serverPeer, 0, len(state.persistentPeers)) for _, sp := range state.persistentPeers { peers = append(peers, sp) } msg.reply <- peers case disconnectNodeMsg: // Check outbound peers. found := disconnectPeer(state.outboundPeers, msg.cmp, func(sp *serverPeer) { // Keep group counts ok since we remove from // the list now. state.outboundGroups[addrmgr.GroupKey(sp.NA())]-- }) if found { // If there are multiple outbound connections to the same // ip:port, continue disconnecting them all until no such // peers are found. for found { found = disconnectPeer(state.outboundPeers, msg.cmp, func(sp *serverPeer) { state.outboundGroups[addrmgr.GroupKey(sp.NA())]-- }) } msg.reply <- nil return } msg.reply <- errors.New("peer not found") case forAllPeersMsg: // Run the closure on all peers in the passed state. state.forAllPeers(msg.closure) // Even though this is a query, there's no reply channel as the // forAllPeers method doesn't return anything. An error might be // useful in the future. } //case processCFilterMsg: // TODO: make this work }