// Get Encrypted Public Key from database. func GetPubkey(log chan string, addrHash objects.Hash) *objects.EncryptedPubkey { mutex.Lock() defer mutex.Unlock() hash := addrHash.GetBytes() if hashList == nil || dbConn == nil { return nil } if hashList[string(hash)] != PUBKEY { return nil } for s, err := dbConn.Query("SELECT payload FROM pubkey WHERE hash=?", hash); err == nil; err = s.Next() { var payload []byte s.Scan(&payload) // Assigns 1st column to rowid, the rest to row pub := new(objects.EncryptedPubkey) pub.AddrHash = addrHash copy(pub.IV[:], payload[:16]) pub.Payload = payload[16:] return pub } // Not Found return nil }
func checkPubkey(config *api.ApiConfig, addrHash objects.Hash) []byte { // First check local DB detail, err := localdb.GetAddressDetail(addrHash) if err != nil { // If not in database, won't be able to decrypt anyway! return nil } if len(detail.Pubkey) > 0 { if db.Contains(addrHash) != db.PUBKEY { enc := new(objects.EncryptedPubkey) enc.IV, enc.Payload, _ = encryption.SymmetricEncrypt(detail.Address, string(detail.Pubkey)) enc.AddrHash = objects.MakeHash(detail.Address) config.RecvQueue <- *objects.MakeFrame(objects.PUBKEY, objects.BROADCAST, enc) } return detail.Pubkey } // If not there, check local database if db.Contains(addrHash) == db.PUBKEY { enc := db.GetPubkey(config.Log, addrHash) pubkey := encryption.SymmetricDecrypt(enc.IV, detail.Address, enc.Payload) pubkey = pubkey[:65] // Check public Key x, y := encryption.UnmarshalPubkey(pubkey) if x == nil { config.Log <- "Decrypted Public Key Invalid" return nil } address2 := encryption.GetAddress(config.Log, x, y) if string(detail.Address) != string(address2) { config.Log <- "Decrypted Public Key doesn't match provided address!" return nil } detail.Pubkey = pubkey err := localdb.AddUpdateAddress(detail) if err != nil { config.Log <- "Error adding pubkey to local database!" return nil } return pubkey } // If not there, send a pubkey request config.RecvQueue <- *objects.MakeFrame(objects.PUBKEY_REQUEST, objects.BROADCAST, &addrHash) return nil }
func (service *EMPService) CreateAddress(r *http.Request, args *NilParam, reply *objects.AddressDetail) error { if !basicAuth(service.Config, r) { service.Config.Log <- fmt.Sprintf("Unauthorized RPC Request from: %s", r.RemoteAddr) return errors.New("Unauthorized") } // Create Address priv, x, y := encryption.CreateKey(service.Config.Log) reply.Privkey = priv if x == nil { return errors.New("Key Pair Generation Error") } reply.Pubkey = encryption.MarshalPubkey(x, y) reply.IsRegistered = true reply.Address = encryption.GetAddress(service.Config.Log, x, y) if reply.Address == nil { return errors.New("Could not create address, function returned nil.") } reply.String = encryption.AddressToString(reply.Address) // Add Address to Database err := localdb.AddUpdateAddress(reply) if err != nil { service.Config.Log <- fmt.Sprintf("Error Adding Address: ", err) return err } // Send Pubkey to Network encPub := new(objects.EncryptedPubkey) encPub.AddrHash = objects.MakeHash(reply.Address) encPub.IV, encPub.Payload, err = encryption.SymmetricEncrypt(reply.Address, string(reply.Pubkey)) if err != nil { service.Config.Log <- fmt.Sprintf("Error Encrypting Pubkey: ", err) return nil } // Record Pubkey for Network service.Config.RecvQueue <- *objects.MakeFrame(objects.PUBKEY, objects.BROADCAST, encPub) return nil }
// Starts a new TCP Server wth configuration specified in ApiConfig. // Server will terminate cleanly only when data is sent to the Quit channel. // // See (struct ApiConfig) for details. func Start(config *ApiConfig) { var err error var frame quibit.Frame defer quit(config) config.Log <- "Starting api..." // Start Database Services err = db.Initialize(config.Log, config.DbFile) defer db.Cleanup() if err != nil { config.Log <- fmt.Sprintf("Error initializing database: %s", err) config.Log <- "Quit" return } config.LocalVersion.Timestamp = time.Now().Round(time.Second) locVersion := objects.MakeFrame(objects.VERSION, objects.REQUEST, &config.LocalVersion) for str, _ := range config.NodeList.Nodes { locVersion.Peer = str config.SendQueue <- *locVersion } // Set Up Clocks second := time.Tick(2 * time.Second) minute := time.Tick(time.Minute) for { select { case frame = <-config.RecvQueue: config.Log <- fmt.Sprintf("Received %s frame...", CmdString(frame.Header.Command)) switch frame.Header.Command { case objects.VERSION: version := new(objects.Version) err = version.FromBytes(frame.Payload) if err != nil { config.Log <- fmt.Sprintf("Error parsing version: %s", err) } else { fVERSION(config, frame, version) } case objects.PEER: nodeList := new(objects.NodeList) err = nodeList.FromBytes(frame.Payload) if err != nil { config.Log <- fmt.Sprintf("Error parsing peer list: %s", err) } else { fPEER(config, frame, nodeList) } case objects.OBJ: obj := new(objects.Obj) err = obj.FromBytes(frame.Payload) if err != nil { config.Log <- fmt.Sprintf("Error parsing obj list: %s", err) } else { fOBJ(config, frame, obj) } case objects.GETOBJ: getObj := new(objects.Hash) if len(frame.Payload) == 0 { break } err = getObj.FromBytes(frame.Payload) if err != nil { config.Log <- fmt.Sprintf("Error parsing getobj hash: %s", err) } else { fGETOBJ(config, frame, getObj) } case objects.PUBKEY_REQUEST: pubReq := new(objects.Hash) err = pubReq.FromBytes(frame.Payload) if err != nil { config.Log <- fmt.Sprintf("Error parsing pubkey request hash: %s", err) } else { fPUBKEY_REQUEST(config, frame, pubReq) } case objects.PUBKEY: pub := new(objects.EncryptedPubkey) err = pub.FromBytes(frame.Payload) if err != nil { config.Log <- fmt.Sprintf("Error parsing pubkey: %s", err) } else { fPUBKEY(config, frame, pub) } case objects.MSG: msg := new(objects.Message) err = msg.FromBytes(frame.Payload) if err != nil { config.Log <- fmt.Sprintf("Error parsing message: %s", err) } else { fMSG(config, frame, msg) } case objects.PUB: msg := new(objects.Message) err = msg.FromBytes(frame.Payload) if err != nil { config.Log <- fmt.Sprintf("Error parsing publication: %s", err) } else { fPUB(config, frame, msg) } case objects.PURGE: purge := new(objects.Purge) err = purge.FromBytes(frame.Payload) if err != nil { config.Log <- fmt.Sprintf("Error parsing purge: %s", err) } else { fPURGE(config, frame, purge) } case objects.CHECKTXID: chkTxid := new(objects.Hash) if len(frame.Payload) == 0 { break } err = chkTxid.FromBytes(frame.Payload) if err != nil { config.Log <- fmt.Sprintf("Error parsing checktxid hash: %s", err) } else { fCHECKTXID(config, frame, chkTxid) } default: config.Log <- fmt.Sprintf("Received invalid frame for command: %d", frame.Header.Command) } case <-config.Quit: fmt.Println() // Dump Nodes to File DumpNodes(config) return case <-second: // Reconnection Logic for key, node := range config.NodeList.Nodes { peer := quibit.GetPeer(key) if peer == nil || !peer.IsConnected() { quibit.KillPeer(key) if node.Attempts >= 3 { config.Log <- fmt.Sprintf("Max connection attempts reached for %s, disconnecting...", key) // Max Attempts Reached, disconnect delete(config.NodeList.Nodes, key) } else { config.Log <- fmt.Sprintf("Disconnected from peer %s, trying to reconnect...", key) peer = new(quibit.Peer) peer.IP = node.IP peer.Port = node.Port config.PeerQueue <- *peer runtime.Gosched() peer = nil node.Attempts++ config.NodeList.Nodes[key] = node locVersion.Peer = key config.SendQueue <- *locVersion } } } if len(config.NodeList.Nodes) < 1 { config.Log <- "All connections lost, re-bootstrapping..." for i, str := range config.Bootstrap { if i >= bufLen { break } p := new(quibit.Peer) n := new(objects.Node) err := n.FromString(str) if err != nil { fmt.Println("Error Decoding Peer ", str, ": ", err) continue } p.IP = n.IP p.Port = n.Port config.PeerQueue <- *p runtime.Gosched() config.NodeList.Nodes[n.String()] = *n } for str, _ := range config.NodeList.Nodes { locVersion.Peer = str config.SendQueue <- *locVersion } } case <-minute: // Dump old messages err = db.SweepMessages(30 * 24 * time.Hour) if err != nil { config.Log <- fmt.Sprintf("Error Sweeping Messages: %s", err) } } } // Should NEVER get here! panic("Must've been a cosmic ray!") }