// applyDeltaOnce pushes one piece of info into the network func (srv *Server) applyDeltaOnce(key ChordKey, meta Neighbor) { kilog.Debug("directory: beginning push to %x", key.ToBytes()) rawsok, err := kiricom.EasyDial(fmt.Sprintf("%v:%v", meta.Address, meta.Port), nil, meta.Secret) if err != nil { kilog.Debug("directory: push to %x failed due to %v", key.ToBytes(), err.Error()) return } defer rawsok.Close() sok, err := kiss.KiSSAnonHandshake(kiss.NewDirectVerifier(meta.PubKey), rawsok) if err != nil { kilog.Debug("directory: push to %x failed in KiSS due to %v", key.ToBytes(), err.Error()) return } defer sok.Close() srv.Lock() neighs, err := srv.crd.Neighs(key) if err != nil { panic("WTF is going on here") } srv.Unlock() var msg textprot.NeighInfo // expires 1hr from now msg.Json.Expires = int(time.Now().Add(time.Hour).Unix()) msg.Json.IssuedTo = meta.PubKey for _, nay := range neighs { msg.Json.NeighList = append(msg.Json.NeighList, nay.ToBytes()) } msg.Signat = srv.prv.Sign(msg.Json.HashValue()) // send the message req := textprot.TextReq{ Verb: "NEIGH_PUSH", Blob: msg.ToString(), } err = req.WriteTo(sok) if err != nil { kilog.Debug("directory: push to %x failed while pushing due to %v", key.ToBytes(), err.Error()) return } //fmt.Println(msg.ToString()) // get msg back err = req.ReadFrom(sok) if err != nil { kilog.Debug("directory: push to %x failed at the final stage", key.ToBytes()) return } kilog.Debug("directory: push to %x succeeded", key.ToBytes()) }
func (ns *NodeState) do_NEIGH_LIST(sok io.ReadWriteCloser, req textprot.TextReq) (err error) { var response textprot.TextReq defer func() { err = response.WriteTo(sok) }() ns.RLock() defer ns.RUnlock() if ns.sigNeighs.Signat == nil { response = textprot.TextReq{Verb: "NOPE"} return } // signeighs is fine now, let's do the magic! response = textprot.TextReq{ Verb: "OKAY", Blob: ns.sigNeighs.ToString(), } return }
func (clnt *Client) execCmd(req textprot.TextReq) (resp textprot.TextReq, err error) { err = req.WriteTo(clnt.sok) if err != nil { clnt.sok.Close() err = ErrBadSocket return } err = resp.ReadFrom(clnt.sok) if err != nil { clnt.sok.Close() err = ErrBadSocket return } fmt.Println(resp) if resp.Verb != "OKAY" { err = ErrRejectedReq return } return }
func (ns *NodeState) do_NEIGH_CONNECT(sok io.ReadWriteCloser, req textprot.TextReq) (err error) { // decode the hex if len(req.Args) == 0 { err = errors.New("core2core: server got truncated NEIGH_CONNECT") return } hexstr := req.Args[0] bts, err := hex.DecodeString(hexstr) if err != nil { return } kilog.Debug("core2core: NEIGH_CONNECT received to %x", bts) // read-lock the state; release when done searching ns.RLock() // linear search for the next hop found := false var nxtneigh directory.Neighbor for _, val := range ns.fulNeighs { if subtle.ConstantTimeCompare(val.PubKey, bts) == 1 { nxtneigh = val found = found || true // don't break, precaution against side channels } else { found = found || false } } ns.RUnlock() if !found { response := textprot.TextReq{ Verb: "NOPE", } err = response.WriteTo(sok) kilog.Debug("core2core: NEIGH_CONNECT to %x failed due to not found", bts) return } // easydial to the next hop hostport := fmt.Sprintf("%v:%v", nxtneigh.Address, nxtneigh.Port) nxtsok, err := kiricom.EasyDial(hostport, nil, nxtneigh.Secret) if err != nil { return } defer nxtsok.Close() // reply OKAY response := textprot.TextReq{ Verb: "OKAY", } err = response.WriteTo(sok) if err != nil { return } kilog.Debug("core2core: NEIGH_CONNECT success to %x", bts) // begin tunneling go func() { defer nxtsok.Close() defer sok.Close() io.Copy(nxtsok, sok) }() defer sok.Close() io.Copy(sok, nxtsok) return nil }