add new switchMsg struct to replace old anc/hop/res approach

This commit is contained in:
Arceliar 2018-06-06 21:11:10 -05:00
parent 690d29435d
commit 6811759fc9
2 changed files with 137 additions and 9 deletions

View File

@ -205,11 +205,13 @@ func (p *peer) linkLoop() {
case counter%4 == 0: case counter%4 == 0:
update = true update = true
} }
if update { if true || update {
// TODO change update logic, the new switchMsg works differently
if p.msgAnc != nil { if p.msgAnc != nil {
lastRSeq = p.msgAnc.Seq lastRSeq = p.msgAnc.Seq
} }
p.sendSwitchAnnounce() p.sendSwitchMsg()
//p.sendSwitchAnnounce()
} }
counter = (counter + 1) % 4 counter = (counter + 1) % 4
} }
@ -236,10 +238,11 @@ func (p *peer) handlePacket(packet []byte) {
} }
func (p *peer) handleTraffic(packet []byte, pTypeLen int) { func (p *peer) handleTraffic(packet []byte, pTypeLen int) {
if p.port != 0 && p.msgAnc == nil { //if p.port != 0 && p.msgAnc == nil {
// Drop traffic until the peer manages to send us at least one anc // // Drop traffic until the peer manages to send us at least one anc
return // // TODO? equivalent for new switch format?
} // return
//}
ttl, ttlLen := wire_decode_uint64(packet[pTypeLen:]) ttl, ttlLen := wire_decode_uint64(packet[pTypeLen:])
ttlBegin := pTypeLen ttlBegin := pTypeLen
ttlEnd := pTypeLen + ttlLen ttlEnd := pTypeLen + ttlLen
@ -298,6 +301,8 @@ func (p *peer) handleLinkTraffic(bs []byte) {
return return
} }
switch pType { switch pType {
case wire_SwitchMsg:
p.handleSwitchMsg(payload)
case wire_SwitchAnnounce: case wire_SwitchAnnounce:
p.handleSwitchAnnounce(payload) p.handleSwitchAnnounce(payload)
case wire_SwitchHopRequest: case wire_SwitchHopRequest:
@ -467,12 +472,79 @@ func (p *peer) processSwitchMessage() {
if len(coords) == 0 { if len(coords) == 0 {
return return
} }
// Reuse locator, set the coords to the peer's coords, to use in dht
msg.locator.coords = coords[:len(coords)-1]
// Pass a mesage to the dht informing it that this peer (still) exists // Pass a mesage to the dht informing it that this peer (still) exists
l := msg.locator
l.coords = l.coords[:len(l.coords)-1]
dinfo := dhtInfo{ dinfo := dhtInfo{
key: p.box, key: p.box,
coords: msg.locator.getCoords(), coords: l.getCoords(),
}
p.core.dht.peers <- &dinfo
p.core.log.Println("DEBUG: peers<-&dhtInfo", dinfo, p.box, msg)
}
func (p *peer) sendSwitchMsg() {
info, sigs := p.core.switchTable.createMessage(p.port)
var msg switchMsg
msg.Root, msg.TStamp = info.locator.root, info.locator.tstamp
for idx, sig := range sigs {
hop := switchMsgHop{
Port: info.locator.coords[idx],
Next: sig.next,
Sig: sig.sig,
}
msg.Hops = append(msg.Hops, hop)
}
msg.Hops = append(msg.Hops, switchMsgHop{
Port: p.port,
Next: p.sig,
Sig: *sign(&p.core.sigPriv, getBytesForSig(&p.sig, &info.locator)),
})
packet := msg.encode()
var test switchMsg
test.decode(packet)
//p.core.log.Println("Encoded msg:", msg, "; bytes:", packet)
p.sendLinkPacket(packet)
}
func (p *peer) handleSwitchMsg(packet []byte) {
var msg switchMsg
msg.decode(packet)
//p.core.log.Println("Decoded msg:", msg, "; bytes:", packet)
if len(msg.Hops) < 1 {
p.throttle++
panic("FIXME testing")
return
}
var info switchMessage
var sigs []sigInfo
info.locator.root = msg.Root
info.locator.tstamp = msg.TStamp
thisHopKey := &msg.Root
for _, hop := range msg.Hops {
var sig sigInfo
sig.next = hop.Next
sig.sig = hop.Sig
sigs = append(sigs, sig)
info.locator.coords = append(info.locator.coords, hop.Port)
// TODO check signatures
bs := getBytesForSig(&hop.Next, &info.locator)
if !p.core.sigs.check(thisHopKey, &hop.Sig, bs) {
//p.throttle++
//panic("FIXME testing")
//return
}
thisHopKey = &hop.Next
}
info.from = p.sig
info.seq = uint64(time.Now().Unix())
p.core.switchTable.handleMessage(&info, p.port, sigs)
// Pass a mesage to the dht informing it that this peer (still) exists
l := info.locator
l.coords = l.coords[:len(l.coords)-1]
dinfo := dhtInfo{
key: p.box,
coords: l.getCoords(),
} }
p.core.dht.peers <- &dinfo p.core.dht.peers <- &dinfo
} }

View File

@ -12,6 +12,7 @@ const (
wire_Traffic = iota // data being routed somewhere, handle for crypto wire_Traffic = iota // data being routed somewhere, handle for crypto
wire_ProtocolTraffic // protocol traffic, pub keys for crypto wire_ProtocolTraffic // protocol traffic, pub keys for crypto
wire_LinkProtocolTraffic // link proto traffic, pub keys for crypto wire_LinkProtocolTraffic // link proto traffic, pub keys for crypto
wire_SwitchMsg // inside link protocol traffic header
wire_SwitchAnnounce // inside protocol traffic header wire_SwitchAnnounce // inside protocol traffic header
wire_SwitchHopRequest // inside protocol traffic header wire_SwitchHopRequest // inside protocol traffic header
wire_SwitchHop // inside protocol traffic header wire_SwitchHop // inside protocol traffic header
@ -117,6 +118,61 @@ func wire_decode_coords(packet []byte) ([]byte, int) {
//////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////////
type switchMsg struct {
Root sigPubKey
TStamp int64
Hops []switchMsgHop
}
type switchMsgHop struct {
Port switchPort
Next sigPubKey
Sig sigBytes
}
func (m *switchMsg) encode() []byte {
bs := wire_encode_uint64(wire_SwitchMsg)
bs = append(bs, m.Root[:]...)
bs = append(bs, wire_encode_uint64(wire_intToUint(m.TStamp))...)
for _, hop := range m.Hops {
bs = append(bs, wire_encode_uint64(uint64(hop.Port))...)
bs = append(bs, hop.Next[:]...)
bs = append(bs, hop.Sig[:]...)
}
return bs
}
func (m *switchMsg) decode(bs []byte) bool {
var pType uint64
var tstamp uint64
switch {
case !wire_chop_uint64(&pType, &bs):
return false
case pType != wire_SwitchMsg:
return false
case !wire_chop_slice(m.Root[:], &bs):
return false
case !wire_chop_uint64(&tstamp, &bs):
return false
}
m.TStamp = wire_intFromUint(tstamp)
for len(bs) > 0 {
var hop switchMsgHop
switch {
case !wire_chop_uint64((*uint64)(&hop.Port), &bs):
return false
case !wire_chop_slice(hop.Next[:], &bs):
return false
case !wire_chop_slice(hop.Sig[:], &bs):
return false
}
m.Hops = append(m.Hops, hop)
}
return true
}
////////////////////////////////////////////////////////////////////////////////
// Announces that we can send parts of a Message with a particular seq // Announces that we can send parts of a Message with a particular seq
type msgAnnounce struct { type msgAnnounce struct {
Root sigPubKey Root sigPubKey