/*
GoVPN -- simple secure free software virtual private network daemon
-Copyright (C) 2014-2016 Sergey Matveev <stargrave@stargrave.org>
+Copyright (C) 2014-2017 Sergey Matveev <stargrave@stargrave.org>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
var (
// Buffers for UDP parallel processing
- udpBufs chan []byte = make(chan []byte, 1<<8)
+ udpBufs = make(chan []byte, 1<<8)
)
func startUDP() {
if err != nil {
log.Fatalln("Can not listen on UDP:", err)
}
- log.Println("Listening on UDP:" + *bindAddr)
+ govpn.BothPrintf(`[udp-listen bind="%s"]`, *bindAddr)
udpBufs <- make([]byte, govpn.MTUMax)
go func() {
var addr string
var n int
var err error
+ var exists bool
+ var psI interface{}
var ps *PeerState
+ var hsI interface{}
var hs *govpn.Handshake
+ var addrPrevI interface{}
var addrPrev string
- var exists bool
- var peerId *govpn.PeerId
- var peer *govpn.Peer
+ var peerPrevI interface{}
+ var peerPrev *PeerState
+ var peerID *govpn.PeerID
var conf *govpn.PeerConf
for {
buf = <-udpBufs
n, raddr, err = conn.ReadFromUDP(buf)
if err != nil {
- log.Println("Unexpected error when receiving", err)
+ govpn.Printf(`[receive-failed bind="%s" err="%s"]`, *bindAddr, err)
break
}
addr = raddr.String()
- peersLock.RLock()
- ps, exists = peers[addr]
- peersLock.RUnlock()
- if !exists {
- goto CheckHandshake
+ psI, exists = peers.Load(addr)
+ if exists {
+ ps = psI.(*PeerState)
+ go func(peer *govpn.Peer, tap *govpn.TAP, buf []byte, n int) {
+ peer.PktProcess(buf[:n], tap, true)
+ udpBufs <- buf
+ }(ps.peer, ps.tap, buf, n)
+ continue
}
- go func(ps *govpn.Peer, tap *govpn.TAP, buf []byte, n int) {
- peer.PktProcess(buf[:n], tap, true)
- udpBufs <- buf
- }(ps.peer, ps.tap, buf, n)
- continue
- CheckHandshake:
- hsLock.RLock()
- hs, exists = handshakes[addr]
- hsLock.RUnlock()
+
+ hsI, exists = handshakes.Load(addr)
if !exists {
- goto CheckID
+ peerID = idsCache.Find(buf[:n])
+ if peerID == nil {
+ govpn.Printf(`[identity-unknown bind="%s" addr="%s"]`, *bindAddr, addr)
+ udpBufs <- buf
+ continue
+ }
+ conf = confs[*peerID]
+ if conf == nil {
+ govpn.Printf(
+ `[conf-get-failed bind="%s" peer="%s"]`,
+ *bindAddr, peerID.String(),
+ )
+ udpBufs <- buf
+ continue
+ }
+ hs := govpn.NewHandshake(
+ addr,
+ UDPSender{conn: conn, addr: raddr},
+ conf,
+ )
+ hs.Server(buf[:n])
+ udpBufs <- buf
+ handshakes.Store(addr, hs)
+ continue
}
- peer = hs.Server(buf[:n])
+
+ hs = hsI.(*govpn.Handshake)
+ peer := hs.Server(buf[:n])
if peer == nil {
- goto Finished
+ udpBufs <- buf
+ continue
}
-
- log.Println("Peer handshake finished:", addr, peer.Id.String())
+ govpn.Printf(
+ `[handshake-completed bind="%s" addr="%s" peer="%s"]`,
+ *bindAddr, addr, peerID.String(),
+ )
hs.Zero()
- hsLock.Lock()
- delete(handshakes, addr)
- hsLock.Unlock()
+ handshakes.Delete(addr)
go func() {
udpBufs <- make([]byte, govpn.MTUMax)
udpBufs <- make([]byte, govpn.MTUMax)
}()
- peersByIdLock.RLock()
- addrPrev, exists = peersById[*peer.Id]
- peersByIdLock.RUnlock()
+ addrPrevI, exists = peersByID.Load(*peer.ID)
if exists {
- peersLock.Lock()
- peers[addrPrev].terminator <- struct{}{}
- ps = &PeerState{
+ addrPrev = addrPrevI.(string)
+ peerPrevI, exists = peers.Load(addrPrev)
+ if exists {
+ peerPrev = peerPrevI.(*PeerState)
+ exists = peerPrev == nil
+ }
+ }
+ if exists {
+ peerPrev.terminator <- struct{}{}
+ psNew := &PeerState{
peer: peer,
- tap: peers[addrPrev].tap,
+ tap: peerPrev.tap,
terminator: make(chan struct{}),
}
- go func(ps PeerState) {
- peerReady(ps)
+ go func(peer *govpn.Peer, tap *govpn.TAP, terminator chan struct{}) {
+ govpn.PeerTapProcessor(peer, tap, terminator)
<-udpBufs
<-udpBufs
- }(*ps)
- peersByIdLock.Lock()
- kpLock.Lock()
- delete(peers, addrPrev)
- delete(knownPeers, addrPrev)
- peers[addr] = ps
- knownPeers[addr] = &peer
- peersById[*peer.Id] = addr
- peersLock.Unlock()
- peersByIdLock.Unlock()
- kpLock.Unlock()
- log.Println("Rehandshake processed:", peer.Id.String())
+ }(psNew.peer, psNew.tap, psNew.terminator)
+ peers.Delete(addrPrev)
+ peers.Store(addr, psNew)
+ knownPeers.Delete(addrPrev)
+ knownPeers.Store(addr, &peer)
+ peersByID.Store(*peer.ID, addr)
+ govpn.Printf(
+ `[rehandshake-completed bind="%s" peer="%s"]`,
+ *bindAddr, peer.ID.String(),
+ )
} else {
go func(addr string, peer *govpn.Peer) {
- ifaceName, err := callUp(peer.Id)
+ ifaceName, err := callUp(peer.ID, peer.Addr)
if err != nil {
return
}
tap, err := govpn.TAPListen(ifaceName, peer.MTU)
if err != nil {
- log.Println("Unable to create TAP:", err)
+ govpn.Printf(
+ `[tap-failed bind="%s" peer="%s" err="%s"]`,
+ *bindAddr, peer.ID.String(), err,
+ )
return
}
- ps = &PeerState{
+ psNew := &PeerState{
peer: peer,
tap: tap,
terminator: make(chan struct{}),
}
- go func(ps PeerState) {
- peerReady(ps)
+ go func(peer *govpn.Peer, tap *govpn.TAP, terminator chan struct{}) {
+ govpn.PeerTapProcessor(peer, tap, terminator)
<-udpBufs
<-udpBufs
- }(*ps)
- peersLock.Lock()
- peersByIdLock.Lock()
- kpLock.Lock()
- peers[addr] = ps
- knownPeers[addr] = &peer
- peersById[*peer.Id] = addr
- peersLock.Unlock()
- peersByIdLock.Unlock()
- kpLock.Unlock()
- log.Println("Peer created:", peer.Id.String())
+ }(psNew.peer, psNew.tap, psNew.terminator)
+ peers.Store(addr, psNew)
+ knownPeers.Store(addr, &peer)
+ peersByID.Store(*peer.ID, addr)
+ govpn.Printf(
+ `[peer-created bind="%s" peer="%s"]`,
+ *bindAddr,
+ peer.ID.String(),
+ )
}(addr, peer)
}
- goto Finished
- CheckID:
- peerId = idsCache.Find(buf[:n])
- if peerId == nil {
- log.Println("Unknown identity from:", addr)
- goto Finished
- }
- conf = confs[*peerId]
- if conf == nil {
- log.Println("Unable to get peer configuration:", peerId.String())
- goto Finished
- }
- hs = govpn.NewHandshake(
- addr,
- UDPSender{conn: conn, addr: raddr},
- conf,
- )
- hs.Server(buf[:n])
- hsLock.Lock()
- handshakes[addr] = hs
- hsLock.Unlock()
- Finished:
udpBufs <- buf
}
}()