import (
"log"
"net"
- "time"
"govpn"
)
return c.conn.WriteToUDP(data, c.addr)
}
-func (c UDPSender) Reorderable() bool {
- return true
-}
+var (
+ // Buffers for UDP parallel processing
+ udpBufs chan []byte = make(chan []byte, 1<<8)
+)
-func startUDP(sink chan Pkt) {
+func startUDP() {
bind, err := net.ResolveUDPAddr("udp", *bindAddr)
- ready := make(chan struct{})
if err != nil {
log.Fatalln("Can not resolve bind address:", err)
}
- lconn, err := net.ListenUDP("udp", bind)
+ conn, err := net.ListenUDP("udp", bind)
if err != nil {
log.Fatalln("Can not listen on UDP:", err)
}
- log.Println("Listening on UDP", *bindAddr)
+ log.Println("Listening on UDP:" + *bindAddr)
+
+ udpBufs <- make([]byte, govpn.MTU)
go func() {
- buf := make([]byte, govpn.MTU)
- var n int
+ var buf []byte
var raddr *net.UDPAddr
+ var addr string
+ var n int
var err error
+ var ps *PeerState
+ var hs *govpn.Handshake
+ var addrPrev string
+ var exists bool
+ var peerId *govpn.PeerId
+ var peer *govpn.Peer
+ var conf *govpn.PeerConf
for {
- <-ready
- lconn.SetReadDeadline(time.Now().Add(time.Second))
- n, raddr, err = lconn.ReadFromUDP(buf)
+ buf = <-udpBufs
+ n, raddr, err = conn.ReadFromUDP(buf)
if err != nil {
- sink <- Pkt{ready: ready}
- continue
+ log.Println("Unexpected error when receiving", err)
+ break
+ }
+ addr = raddr.String()
+
+ peersLock.RLock()
+ ps, exists = peers[addr]
+ peersLock.RUnlock()
+ if !exists {
+ goto CheckHandshake
+ }
+ 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()
+ if !exists {
+ goto CheckID
+ }
+ peer = hs.Server(buf[:n])
+ if peer == nil {
+ goto Finished
+ }
+
+ log.Println("Peer handshake finished:", addr, peer.Id.String())
+ hs.Zero()
+ hsLock.Lock()
+ delete(handshakes, addr)
+ hsLock.Unlock()
+
+ go func() {
+ udpBufs <- make([]byte, govpn.MTU)
+ udpBufs <- make([]byte, govpn.MTU)
+ }()
+ peersByIdLock.RLock()
+ addrPrev, exists = peersById[*peer.Id]
+ peersByIdLock.RUnlock()
+ if exists {
+ peersLock.RLock()
+ ps = &PeerState{
+ peer: peer,
+ tap: peers[addrPrev].tap,
+ terminator: peers[addrPrev].terminator,
+ }
+ peersLock.RUnlock()
+ ps.terminator <- struct{}{}
+ peersLock.Lock()
+ peersByIdLock.Lock()
+ kpLock.Lock()
+ delete(peers, addrPrev)
+ delete(knownPeers, addrPrev)
+ delete(peersById, *peer.Id)
+ peers[addr] = ps
+ knownPeers[addr] = &peer
+ peersById[*peer.Id] = addr
+ peersLock.Unlock()
+ peersByIdLock.Unlock()
+ kpLock.Unlock()
+ go func(ps PeerState) {
+ peerReady(ps)
+ <-udpBufs
+ <-udpBufs
+ }(*ps)
+ log.Println("Rehandshake processed:", peer.Id.String())
+ } else {
+ go func(addr string, peer *govpn.Peer) {
+ ifaceName, err := callUp(peer.Id)
+ if err != nil {
+ return
+ }
+ tap, err := govpn.TAPListen(ifaceName)
+ if err != nil {
+ log.Println("Unable to create TAP:", err)
+ return
+ }
+ ps = &PeerState{
+ peer: peer,
+ tap: tap,
+ terminator: make(chan struct{}, 1),
+ }
+ go func(ps PeerState) {
+ peerReady(ps)
+ <-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())
+ }(addr, peer)
+ }
+ goto Finished
+ CheckID:
+ peerId = govpn.IDsCache.Find(buf[:n])
+ if peerId == nil {
+ log.Println("Unknown identity from:", addr)
+ goto Finished
}
- sink <- Pkt{
- raddr.String(),
- UDPSender{lconn, raddr},
- buf[:n],
- ready,
+ conf = peerId.Conf()
+ 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
}
}()
- ready <- struct{}{}
}