func main() { // By default, Go seeds its RNG with 1. This would cause every program to // generate the same sequence of IDs. Use the current nano time to // random numbers rand.Seed(time.Now().UnixNano()) // Get the bind and connect connection strings from command-line arguments. flag.Parse() args := flag.Args() if len(args) != 2 { log.Fatal("Must be invoked with exactly two arguments!\n") } listenStr := args[0] firstPeerStr := args[1] // Create the Kademlia instance fmt.Printf("kademlia starting up!\n") kadem := kademlia.NewKademlia(listenStr) // Confirm our server is up with a PING request and then exit. // Your code should loop forever, reading instructions from stdin and // printing their results to stdout. See README.txt for more details. _, port, _ := net.SplitHostPort(firstPeerStr) client, err := rpc.DialHTTPPath("tcp", firstPeerStr, rpc.DefaultRPCPath+port) if err != nil { log.Fatal("DialHTTP: ", err) } ping := new(kademlia.PingMessage) ping.MsgID = kademlia.NewRandomID() ping.Sender = kadem.Routes.SelfContact var pong kademlia.PongMessage err = client.Call("KademliaCore.Ping", ping, &pong) if err != nil { log.Fatal("Call: ", err) } log.Printf("ping msgID: %s\n", ping.MsgID.AsString()) log.Printf("pong msgID: %s\n", pong.MsgID.AsString()) kadem.Routes.Update(&pong.Sender) in := bufio.NewReader(os.Stdin) quit := false for !quit { line, err := in.ReadString('\n') if err != nil { log.Fatal(err) } line = strings.TrimSpace(line) if line == "" { continue } resp := executeLine(kadem, line) if resp == "quit" { quit = true } else if resp != "" { fmt.Printf("%v\n", resp) } } }
// Create a new DryMartini object with its own kademlia and RPC server func NewDryMartini(listenStr string, keylen int) *DryMartini { var err error var s *rpc.Server var dm *DryMartini dm = new(DryMartini) dm.EasyNewFlowIndex = 0 //Initialize key pair dm.KeyPair, err = rsa.GenerateKey(rand.Reader, keylen) if err != nil { dbg.Printf("Failed to generate key! %s", true, err) panic(1) } //Initialize flow struct dm.Bartender = make(map[UUID]MartiniPick) dm.Momento = make(map[UUID][]FlowIDSymmKeyPair) dm.MapFlowIndexToFlowID = make(map[int]FlowInfo) var host net.IP var port uint16 host, port, err = kademlia.AddrStrToHostPort(listenStr) //Initialize our Kademlia //portStr := strconv.FormatUint(uint64(port), 10) //var rpcPathStr string = kademlia.RpcPath+portStr var rpcPathStr = "junk" dbg.Printf("making new Kademlia with listenStr:%s, rpcPath\n", Verbose, listenStr, rpcPathStr) dm.KademliaInst, s = kademlia.NewKademlia(listenStr, &rpcPathStr) kademlia.BucketsAsArray(dm.KademliaInst) //myMartiniContact <- ip, port, public key dm.myMartiniContact.NodeIP = host.String() dm.myMartiniContact.NodePort = port dm.myMartiniContact.PubKey = dm.KeyPair.PublicKey.N.String() dm.myMartiniContact.PubExp = dm.KeyPair.PublicKey.E dbg.Printf("NewDryMartini: making new Kademlia with NodeIP: %s. NodePort:%d\n", Verbose, dm.myMartiniContact.NodeIP, dm.myMartiniContact.NodePort) /* if Verbose { dbg.Printf("NodeIP: %s\n", dm.myMartiniContact.NodeIP) dbg.Printf("NodePort: %d\n", dm.myMartiniContact.NodePort) dbg.Printf("PubKey: %s\n", dm.myMartiniContact.PubKey) dbg.Printf("PubExp: %d\n", dm.myMartiniContact.PubKey) }*/ //register err = s.Register(dm) if err != nil { dbg.Printf("Failed to register Drymartini! %s", true, err) panic(1) } return dm }
func main() { kListenStr := flag.String("l", "localhost:8000", "the address:port the kademlia instance will operate over") htmlDirPath := flag.String("d", "/home/jch570/public_html/", "the path to the directory where html files are served. file is written out to this dir") htmlFileName := flag.String("f", "dms.html", "filename where drymartini info will be written out") flag.Parse() listenStr := *kListenStr log.Printf("dmTracker listening on:%s\n", listenStr) var junk = "junk" kademInst, _ := kademlia.NewKademlia(listenStr, &junk) log.Printf("dmTracker checking querying initial core: %+v\n", coreKadems) // commenting out, for testing just going to use localhost:8000-8004 for _, apPair := range coreKadems { ipList, err := net.LookupIP(apPair.addr) if err != nil { log.Printf("error looking up addr:%s. Err:%s\n", apPair.addr, err) } kademlia.MakePingCall(kademInst, ipList[0], apPair.port) } //test should trash soon for i := 0; i < 5; i++ { ipList, err := net.LookupIP("localhost") if err != nil { log.Printf("error looking up addr\n") } kademlia.MakePingCall(kademInst, ipList[0], uint16(8000+i)) } //end junk kademlia.DoJoin(kademInst) var contacts []kademlia.Contact contacts = kademlia.BucketsAsArray(kademInst) log.Printf("local buckets as array:\n %+v\n", contacts) f, err := os.Create(*htmlDirPath + *htmlFileName) if err != nil { //"./testoutput"); if(err!=nil){// log.Printf("error creating file:%s\n", err) os.Exit(1) } f.Write([]byte("DryMartinis found:\n")) var c kademlia.Contact for _, c = range contacts { f.Write([]byte(c.AsString() + "\n")) } f.Write([]byte("last updated: " + time.Now().String())) f.Close() }
func main() { var err error var args []string var listenStr string var kadem *kademlia.Kademlia var stdInReader *bufio.Reader // By default, Go seeds its RNG with 1. This would cause every program to // generate the same sequence of IDs. rand.Seed(time.Now().UnixNano()) // Get the bind and connect connection strings from command-line arguments. flag.Parse() args = flag.Args() if len(args) != 1 { log.Fatal("Must be invoked with exactly one arguments!\n") } listenStr = args[0] //firstPeerStr = args[1] //log.Printf("First Peer: %s\n", firstPeerStr); kadem, _ = kademlia.NewKademlia(listenStr, nil) stdInReader = bufio.NewReader(os.Stdin) //input, _ := reader.ReadString('\n') /* //REMOVE: part of the initial skeleton // Confirm our server is up with a PING request and then exit. // Your code should loop forever, reading instructions from stdin and // printing their results to stdout. See README.txt for more details. client, err := rpc.DialHTTP("tcp", firstPeerStr) if err != nil { log.Fatal("DialHTTP: ", err) } ping := new(kademlia.Ping) ping.MsgID = kademlia.NewRandomID() ping.Sender = kademlia.GetNodeContactInfo(kadem) var pong kademlia.Pong err = client.Call("Kademlia.Ping", ping, &pong) if err != nil { log.Fatal("Call: ", err) } log.Printf("ping msgID: %s %s\n", ping.MsgID.AsString(), ping.Sender.AsString()) log.Printf("pong msgID: %s\n", pong.MsgID.AsString()) */ /* //REMOVE: this is just to check if the map is working tmpKey, _ := kademlia.FromString("abcd") var tmpVal []byte = make([]byte, 3) tmpVal[0] = 'f' tmpVal[1] = 'o' tmpVal[2] = 'o' kadem.ValueStore.HashMap[tmpKey] = tmpVal //~REMOVE */ var instStr string var inst *KademliaInstruction for { fmt.Printf("δώσε:") //Print prompt //read new instruction //ret, err := fmt.Scanln(&instStr) instStr, err = stdInReader.ReadString('\n') if err != nil { log.Printf("Error at Scanf: %s\n", err) panic(1) } //parse line input and create command struct inst = NewKademliaInstruction(instStr) if inst.IsExit() { log.Printf("Kademlia exiting...\n") break } //execute new instruction inst.Execute(kadem) if kadem.DoJoinFlag { go kademlia.DoJoin(kadem) } } //finalizer() }
func main() { // By default, Go seeds its RNG with 1. This would cause every program to // generate the same sequence of IDs. rand.Seed(time.Now().UnixNano()) // Get the bind and connect connection strings from command-line arguments. flag.Parse() args := flag.Args() if len(args) != 2 { log.Fatal("Must be invoked with exactly two arguments!\n") } listenStr := args[0] firstPeerStr := args[1] fmt.Printf("kademlia starting up!\n") kadem := kademlia.NewKademlia() tcpAddr, err := net.ResolveTCPAddr("tcp4", args[0]) kadem.MyContact.Host = tcpAddr.IP kadem.MyContact.Port = uint16(tcpAddr.Port) rpc.Register(kadem) rpc.HandleHTTP() l, err := net.Listen("tcp", listenStr) if err != nil { log.Fatal("Listen: ", err) } // Serve forever. go http.Serve(l, nil) // Confirm our server is up with a PING request and then exit. // Your code should loop forever, reading instructions from stdin and // printing their results to stdout. See README.txt for more details. client, err := rpc.DialHTTP("tcp", firstPeerStr) if err != nil { log.Fatal("DialHTTP: ", err) } ping := new(kademlia.Ping) ping.MsgID = kademlia.NewRandomID() var pong kademlia.Pong err = client.Call("Kademlia.Ping", ping, &pong) if err != nil { log.Fatal("Call: ", err) } //log.Printf("ping msgID: %s\n", ping.MsgID.AsString()) // log.Printf("pong msgID: %s\n", pong.MsgID.AsString()) tcpAdd, err := net.ResolveTCPAddr("tcp4", args[1]) host := tcpAdd.IP port := uint16(tcpAdd.Port) //fmt.Println(pong.Sender) nodeID := pong.Sender.NodeID cont := kademlia.Contact{nodeID, host, port} kademlia.Join(kadem, cont) for true { var command, arg1, arg2, arg3 string fmt.Scanf("%s", &command, "\n") //fmt.Print("command:", command) switch command { case "whoami": //Print your node ID kademlia.WhoAmI(kadem) case "local_find_value": //If your node has data for the given key, print it. //If your node does not have data for the given key, you should print "ERR". fmt.Scanf("%s", &arg1) key := arg1 kademlia.LocalFindValue(kadem, key) case "get_contact": //If your buckets contain a node with the given ID, printf("%v %v\n",theNode.addr,theNode.port) //If your buckers do not contain any such node, print "ERR". fmt.Scanf("%s", &arg1) ID := arg1 //fmt.Println(ID) kademlia.GetContact(kadem, ID) case "iterativeStore": //Perform the iterativeStore operation and then print the ID of the node that received the final STORE operation. fmt.Scanf("%s %s", &arg1, &arg2) key := arg1 keyId, err := kademlia.FromString(key) if err != nil { } value := arg2 //fmt.Println(key,value) storereq := kademlia.StoreRequest{} var kclosenodes *list.List storereq.Sender = kadem.MyContact storereq.MsgID = kademlia.NewRandomID() storereq.Key = keyId storereq.Value = []byte(value) kadem.IterativeStore(storereq, kclosenodes) case "iterativeFindNode": //Print a list of ≤ k closest nodes and print their IDs. You should collect the IDs in a slice and print that. fmt.Scanf("%s", &arg1) ID := arg1 //fmt.Println(ID) ID2, err := kademlia.FromString(ID) if err != nil { } //kadem.IterativeFindNode(ID2, false) case "iterativeFindValue": //printf("%v %v\n" ID, value), where ID refers to the node that finally returned the value. If you do not find a value, print "ERR". fmt.Scanf("%s", &arg1) key := arg1 //fmt.Println(key) keyId, err := kademlia.FromString(key) if err != nil { } findvalueresult := kademlia.FindValueResult{} kadem.IterativeFindValue(keyId, &findvalueresult) case "ping": fmt.Scanf("%s", &arg1) nodeID := arg1 //fmt.Println(nodeID) if strings.ContainsAny(nodeID, ":") { client, err := rpc.DialHTTP("tcp", arg1) if err != nil { log.Fatal("DialHTTP: ", err) } ping := new(kademlia.Ping) ping.MsgID = kademlia.NewRandomID() var pong kademlia.Pong err = client.Call("Kademlia.Ping", ping, &pong) if err != nil { log.Fatal("Call: ", err) fmt.Println("Err") continue } tcpAdd, err := net.ResolveTCPAddr("tcp4", arg1) host := tcpAdd.IP port := uint16(tcpAdd.Port) //fmt.Println(pong.Sender) nodeID := pong.Sender.NodeID cont := kademlia.Contact{nodeID, host, port} kademlia.Update(kadem, &cont) fmt.Println("Ping success") continue } isPing := kademlia.CallPings(kadem, nodeID) if isPing != true { fmt.Println("Error in Ping") } case "store": //Perform a store and print a blank line. fmt.Scanf("%s %s", &arg1, &arg2) nodeID := arg1 key := arg2 r := bufio.NewReader(os.Stdin) arg3, err = r.ReadString(10) //fmt.Fscanln(r, &arg3) //arg3 = bufio.ReadString('\n') value := arg3 //fmt.Println("ID: ", nodeID, "key: ", key, "value", value) isStored := kademlia.CallStore(kadem, nodeID, key, value) if isStored != true { fmt.Println("Error in Store") } case "find_node": //Perform a find_node and print its results as for iterativeFindNode. fmt.Scanf("%s %s", &arg1, &arg2) nodeID := arg1 key := arg2 //fmt.Println(nodeID, key) isFound := kademlia.CallFindNode(kadem, nodeID, key) if isFound != true { fmt.Println("Error in finding") } case "find_value": //Perform a find_value. If it returns nodes, print them as for find_node. If it returns a value, print the value as in iterativeFindValue. fmt.Scanf("%s %s", &arg1, &arg2) nodeID := arg1 key := arg2 //fmt.Println(nodeID, key) isFound := kademlia.CallFindValue(kadem, nodeID, key) if isFound != true { fmt.Println("UnSuccessful ") } break case "exit": break } if command == "exit" { break } } }
func main() { // By default, Go seeds its RNG with 1. This would cause every program to // generate the same sequence of IDs. // rand.seed() rand.Seed(time.Now().UnixNano()) // Get the bind and connect connection strings from command-line arguments. flag.Parse() args := flag.Args() if len(args) != 2 { log.Fatal("Must be invoked with exactly two arguments!\n") } listenStr := args[0] firstPeerStr := args[1] fmt.Printf("kademlia starting up!\n") kadem := kademlia.NewKademlia() //------------------------------------ // fmt.Println(kadem.NodeID) // myNodeID := kadem.WhoAmI() // fmt.Println(myNodeID) //------------------------------------ //-----initializing MyContact--------- addr, err := net.ResolveTCPAddr("tcp4", listenStr) if err != nil { log.Fatal("Call: ", err) } host1 := addr.IP port1 := uint16(addr.Port) kadem.MyContact.NodeID = kademlia.WhoAmI(kadem) kadem.MyContact.Host = host1 kadem.MyContact.Port = port1 //puttin Mycontact in the bucket kadem.KademBuckets.Update_Contact(kadem.MyContact, kadem.MyContact) //-----registering kadem object and it's functionalities---------- rpc.Register(kadem) rpc.HandleHTTP() l, err := net.Listen("tcp", listenStr) //telling the server is ON if err != nil { log.Fatal("Listen: ", err) } //--------------------------------------------------------------- // Serve forever. go http.Serve(l, nil) //--------------------------------------------------------------- // Confirm our server is up with a PING request and then exit. // Your code should loop forever, reading instructions from stdin and // printing their results to stdout. See README.txt for more details. client, err := rpc.DialHTTP("tcp", firstPeerStr) if err != nil { log.Fatal("DialHTTP: ", err) } addr1, err := net.ResolveTCPAddr("tcp4", firstPeerStr) if err != nil { log.Fatal("Call: ", err) } host2 := addr1.IP ping := new(kademlia.Ping) //creating a ping object of the ping structure in the kademlia package // net.LookupHost(127.0.0.1) // a, err := net.LookupIP("www.google.com") ping.MsgID = kademlia.NewRandomID() ping.Sender = kadem.MyContact //-------------------------------------------------------------------- var pong kademlia.Pong //declaring a pong object of the pong structure in the kademlia package, but not initializing it // calling Kademlia.Ping method passing ping as request object and pong as response object err = client.Call("Kademlia.Ping", ping, &pong) if err != nil { log.Fatal("Call: ", err) } //------------------------------------------------------------------------ // log.Printf("ping msgID: %s\n", ping.MsgID.AsString()) // log.Printf("pong msgID: %s\n", pong.MsgID.AsString()) fmt.Println("connecting server NodeID:", pong.Sender.NodeID.AsString()) // fmt.Println("connecting server host:",pong.Sender.Host) // fmt.Println("connecting server Port:",pong.Sender.Port) pong.Sender.Host = host2 kadem.KademBuckets.Update_Contact(pong.Sender, kadem.MyContact) //-------------------------------------------------------------- /* //---taking a string and getting the key for that string--- a := "my name is rishabh" fmt.Println(a) h := sha1.New() io.WriteString(h,a) b:=h.Sum(nil) fmt.Println(b) c := hex.EncodeToString(b) f, err := kademlia.FromString(c) if err != nil { log.Fatal("Call: ", err) } fmt.Println(f) */ //-------------------------------------------------------------- /* a := "my name is rishabh" f :=kademlia.StringToKey(a) // fmt.Println(f) //-------------------------------------------------------------- sreq := new(kademlia.StoreRequest) sreq.MsgID = kademlia.NewRandomID() sreq.Sender = kadem.MyContact sreq.Key = f sreq.Value = []byte(a) var sres kademlia.StoreResult fmt.Println(".....ii'm here......1") err = client.Call("Kademlia.Store", sreq, &sres) if err != nil { log.Fatal("Call: ", err) } fmt.Println(".....ii'm here......2") //------------------------------------------------------------------------ log.Printf("ping msgID: %s\n", sreq.MsgID.AsString()) log.Printf("pong msgID: %s\n", sres.MsgID.AsString()) fmt.Println(".....ii'm here......3") err = client.Call("Kademlia.Store", sreq, &sres) if err != nil { log.Fatal("Call: ", err) } fmt.Println(".....ii'm here......4") //------------------------------------------------------------------------ log.Printf("ping msgID: %s\n", sreq.MsgID.AsString()) log.Printf("pong msgID: %s\n", sres.MsgID.AsString()) */ /* a1 := new(kademlia.StoreRequest) //creating a ping object of the b1 := new(kademlia.StoreResult) //creating a ping object of the //--------------------------------------------------- a2 := new(kademlia.StoreRequest) //creating a ping object of the b2 := new(kademlia.StoreResult) //creating a ping object of the //---------------------------------------------------- err = client.Call("Kademlia.Ping", ping, &pong) if err != nil { log.Fatal("Call: ", err) } */ //---------find value------------------------- /* fvreq := new(kademlia.FindValueRequest) fvreq.MsgID = kademlia.NewRandomID() fvreq.Sender = kadem.MyContact fvreq.Key = f var fvres kademlia.FindValueResult fmt.Println(".....ii'm here......1") err = client.Call("Kademlia.FindValue", fvreq, &fvres) if err != nil { log.Fatal("Call: ", err) } fmt.Println(".....ii'm here......2") fmt.Println(string(fvres.Value)) */ //-------------------------------------------------------------------- //-------------------------------------------------------------------- r := bufio.NewReader(os.Stdin) // println("enter string:") line, err := r.ReadString(delim) if err != nil { // fmt.Println(err) // os.Exit(1) } // fmt.Println(line) token := strings.Fields(line) for token[0] != "exit" || token[0] == "" { switch token[0] { case "whoami": // fmt.Println("this is 1") a := kademlia.Whoami(kadem) fmt.Println(a) case "local_find_value": // fmt.Println("this is 2") key, err := kademlia.FromString(token[1]) // fmt.Println(id) if err == nil { kademlia.Local_find_value(kadem, key) } case "get_contact": // fmt.Println("this is 3") id, err := kademlia.FromString(token[1]) fmt.Println(id) var c kademlia.Contact if err == nil { c = kademlia.Get_contact(kadem, id) fmt.Println("Node id: ", c.NodeID) fmt.Println("IP Addr: ", c.Host) fmt.Println("Port : ", c.Port) } case "iterativeStore": // fmt.Println("this is 4") case "iterativeFindNode": // fmt.Println("this is 5") case "iterativeFindValue": // fmt.Println("this is 6") case "ping": // fmt.Println("this is 7") id, err := kademlia.FromString(token[1]) if err == nil { ping, pong, s := kademlia.Pingnode(kadem, id) client, err := rpc.DialHTTP("tcp", s) //REFPEER // s = s + ":" if err != nil { log.Fatal("DialHTTP: ", err) } err = client.Call("Kademlia.Ping", ping, &pong) if err != nil { log.Fatal("Call: ", err) } log.Printf("ping msgID: %s\n", ping.MsgID.AsString()) log.Printf("pong msgID: %s\n", pong.MsgID.AsString()) } case "store": // fmt.Println("this is 8") id, err := kademlia.FromString(token[1]) if err != nil { } key, err := kademlia.FromString(token[2]) if err != nil { } // val:=token[3] val := "" for t := 3; t < len(token); t++ { val = val + string(token[t]) + " " } sreq, sres, s := kademlia.Storenode(kadem, id, key, val) // s = s + ":" client, err := rpc.DialHTTP("tcp", s) //REFPEER) //s if err != nil { log.Fatal("DialHTTP: ", err) } err = client.Call("Kademlia.Store", sreq, &sres) if err != nil { log.Fatal("Call: ", err) } // log.Printf("sreq msgID: %s\n", sreq.MsgID.AsString()) // log.Printf("sres msgID: %s\n", sres.MsgID.AsString()) case "find_node": // fmt.Println("this is 9") id, err := kademlia.FromString(token[1]) if err != nil { } key, err := kademlia.FromString(token[2]) if err != nil { } fnreq, fnres, s := kademlia.Findnode(kadem, id, key) // s = s + ":" client, err := rpc.DialHTTP("tcp", s) //REFPEER) //s if err != nil { log.Fatal("DialHTTP: ", err) } err = client.Call("Kademlia.FindNode", fnreq, &fnres) if err != nil { log.Fatal("Call: ", err) } log.Printf("fnreq msgID: %s\n", fnreq.MsgID.AsString()) log.Printf("fnres msgID: %s\n", fnres.MsgID.AsString()) var temp_contact kademlia.Contact l := len(fnres.Nodes) for j := 0; j < l; j++ { if fnres.Nodes[j].NodeID.AsString() != "0" { fmt.Println("NodeID : ", fnres.Nodes[j].IPAddr) fmt.Println("Port : ", fnres.Nodes[j].Port) fmt.Println("Host : ", fnres.Nodes[j].NodeID.AsString()) peer3 := fmt.Sprintf("%s:%d", fnres.Nodes[j].IPAddr, fnres.Nodes[j].Port) addr3, err := net.ResolveTCPAddr("tcp4", peer3) if err != nil { log.Fatal("Call: ", err) } temp_contact.NodeID = fnres.Nodes[j].NodeID temp_contact.Host = addr3.IP //net.IP(fnres.Nodes[j].IPAddr) temp_contact.Port = fnres.Nodes[j].Port kadem.KademBuckets.Update_Contact(temp_contact, kadem.MyContact) } } //for case "find_value": // fmt.Println("this is 10") id, err := kademlia.FromString(token[1]) if err != nil { } key, err := kademlia.FromString(token[2]) if err != nil { } fvreq, fvres, s := kademlia.Findvalue(kadem, id, key) // s = s + ":" client, err := rpc.DialHTTP("tcp", s) //REFPEER) //s if err != nil { log.Fatal("DialHTTP: ", err) } err = client.Call("Kademlia.FindValue", fvreq, &fvres) if err != nil { log.Fatal("Call: ", err) } // log.Printf("fvreq msgID: %s\n", fvreq.MsgID.AsString()) // log.Printf("fvres msgID: %s\n", fvres.MsgID.AsString()) fmt.Println(string(fvres.Value)) case "exit": break default: fmt.Println("enter the correct input") } //switch line, err := r.ReadString(delim) if err != nil { fmt.Println(err) os.Exit(1) } token = strings.Fields(line) } //for } //main
func main() { // By default, Go seeds its RNG with 1. This would cause every program to // generate the same sequence of IDs. rand.Seed(time.Now().UnixNano()) // Get the bind and connect connection strings from command-line arguments. flag.Parse() args := flag.Args() if len(args) != 2 { log.Fatal("Must be invoked with exactly two arguments!\n") } listenStr := args[0] firstPeerStr := args[1] fmt.Printf("kademlia starting up!\n") kadem := kademlia.NewKademlia() myIpPort := strings.Split(listenStr, ":") if len(myIpPort) != 2 { log.Fatal("Invalid format of arg one, expected IP:PORT\n") } if strings.Contains(myIpPort[0], "localhost") { myIpPort[0] = "127.0.0.1" } ipAndPort := strings.Split(firstPeerStr, ":") if len(ipAndPort) != 2 { log.Fatal("Invalid format of arg two, expected IP:PORT\n") } port, err := strconv.Atoi(myIpPort[1]) if err != nil { log.Fatal("Could not parse local port\n") } rpc.Register(kadem) rpc.HandleHTTP() l, err := net.Listen("tcp", listenStr) if err != nil { log.Fatal("Listen: ", err) } // Serve forever. go http.Serve(l, nil) me := kademlia.Contact{NodeID: kademlia.CopyID(kadem.NodeID), Host: net.ParseIP(myIpPort[0]), Port: uint16(port)} if false == strings.Contains(listenStr, firstPeerStr) { err = kadem.Join(me, ipAndPort[0], ipAndPort[1]) if err != nil { log.Fatal("Error joinging network", err) } } fmt.Println("Finished starting up") // Confirm our server is up with a PING request and then exit. // Your code should loop forever, reading instructions from stdin and // printing their results to stdout. See README.txt for more details. input := bufio.NewReader(os.Stdin) for { commandStr, err := input.ReadString('\n') commandStr = strings.TrimRight(strings.TrimRight(commandStr, string('\n')), string(' ')) if err != nil { log.Fatal("Reading line:", err) } command_parts := strings.Split(commandStr, string(' ')) if len(commandStr) == 0 || len(command_parts) == 0 { continue } command := []byte(strings.ToLower(command_parts[0])) switch { case bytes.Equal(command, []byte("ping")): if len(command_parts) != 2 { fmt.Println("Invalid format ping\n\tping nodeID\n\tping host:port") continue } doPing(kadem, me, command_parts[1]) case bytes.Equal(command, []byte("store")): if len(command_parts) != 4 { fmt.Println("Invalid format store\n\tstore nodeid key data") continue } id, err := kademlia.FromString(command_parts[1]) if err != nil { fmt.Printf("ERR could not interpret nodeid as ID") return } con, err := kadem.ContactFromID(id) if err != nil { fmt.Println("ERR : unknown node") continue } remoteAddr := contactToAddrString(con) client, err := rpc.DialHTTP("tcp", remoteAddr) if err != nil { log.Fatal("DialHTTP: ", err) } req := kademlia.StoreRequest{MsgID: kademlia.NewRandomID(), Sender: me} req.Key, err = kademlia.FromString(command_parts[2]) if err != nil { fmt.Printf("ERR: %v\n", err) continue } req.Value = []byte(command_parts[3]) res := new(kademlia.StoreResult) err = client.Call("Kademlia.Store", req, res) if err != nil { fmt.Printf("ERR: %v\n", err) continue } _ = client.Close() fmt.Println("OK") case bytes.Equal(command, []byte("find_node")): if len(command_parts) != 3 { fmt.Println("Invalid format find_node\n\tfind_node nodeid key") continue } id, err := kademlia.FromString(command_parts[1]) if err != nil { fmt.Printf("ERR could not interpret nodeid as ID") continue } con, err := kadem.ContactFromID(id) if err != nil { fmt.Println("ERR : unknown node") continue } remoteAddr := contactToAddrString(con) client, err := rpc.DialHTTP("tcp", remoteAddr) if err != nil { log.Fatal("DialHTTP: ", err) } req := kademlia.FindNodeRequest{MsgID: kademlia.NewRandomID()} req.NodeID, err = kademlia.FromString(command_parts[2]) if err != nil { fmt.Printf("ERR: %v\n", err) continue } res := new(kademlia.FindNodeResult) err = client.Call("Kademlia.FindNode", req, res) if err != nil { fmt.Printf("ERR: %v\n", err) continue } _ = client.Close() fmt.Printf("OK\n") for _, node := range res.Nodes { fmt.Printf("%s\n", node.NodeID.AsString()) } case bytes.Equal(command, []byte("find_value")): if len(command_parts) != 3 { fmt.Println("Invalid format find_value\n\tfind_value key") continue } id, err := kademlia.FromString(command_parts[1]) if err != nil { fmt.Printf("ERR could not interpret nodeid as ID") return } con, err := kadem.ContactFromID(id) if err != nil { fmt.Println("ERR : unknown node") continue } remoteAddr := contactToAddrString(con) client, err := rpc.DialHTTP("tcp", remoteAddr) if err != nil { log.Fatal("ERR: DialHTTP -> ", err) } req := kademlia.FindValueRequest{MsgID: kademlia.NewRandomID()} req.Key, err = kademlia.FromString(command_parts[2]) if err != nil { fmt.Printf("ERR: %v\n", err) continue } res := new(kademlia.FindValueResult) err = client.Call("Kademlia.FindValue", req, res) if err != nil { fmt.Printf("ERR: %v\n", err) continue } _ = client.Close() if res.Value != nil { fmt.Printf("%s\n", string(res.Value)) } else { for _, node := range res.Nodes { fmt.Printf("%s\n", node.NodeID.AsString()) } } case bytes.Equal(command, []byte("whoami")): if len(command_parts) != 1 { fmt.Println("Invalid format get_node_id\n\twhoami") continue } fmt.Printf("%s\n", kadem.NodeID.AsString()) case bytes.Equal(command, []byte("local_find_value")): if len(command_parts) != 2 { fmt.Println("Invalid format get_local_value\n\tlocal_find_value key") continue } key, err := kademlia.FromString(command_parts[1]) if err != nil { fmt.Printf("ERR: %v\n", err) continue } var val kademlia.TimeValue val, ok := kadem.StoredData[key] if ok { fmt.Printf("OK: %s\n", string(val.Data)) } else { fmt.Printf("ERR no data for key\n") } case bytes.Equal(command, []byte("get_contact")): if len(command_parts) != 2 { fmt.Println("Invalid format get_contact\n\tget_contact nodeid") continue } key, err := kademlia.FromString(command_parts[1]) con, err := kadem.ContactFromID(key) if err != nil { fmt.Println("ERR") } else { fmt.Printf("%s %d\n", con.Host.String(), con.Port) } case bytes.Equal(command, []byte("iterativeStore")): if len(command_parts) != 3 { fmt.Println("Invalid format iterativeStore") continue } req := kademlia.StoreRequest{MsgID: kademlia.NewRandomID(), Sender: me} req.Key, err = kademlia.FromString(command_parts[1]) if err != nil { fmt.Printf("ERR: %v\n", err) continue } req.Value = []byte(command_parts[2]) res := new(kademlia.StoreResult) lastNode := kadem.IterStore(req, res) if len(lastNode.NodeID) != 0 { fmt.Printf("%s", lastNode.NodeID.AsString()) } else { fmt.Println("Could not find a neighbor") } case bytes.Equal(command, []byte("iterativefindnode")): if len(command_parts) != 2 { fmt.Println("Invalid format iterativeFindNode") continue } req := kademlia.FindNodeRequest{MsgID: kademlia.NewRandomID(), Sender: me} req.NodeID, err = kademlia.FromString(command_parts[1]) if err != nil { fmt.Printf("ERR: %v\n", err) continue } res := new(kademlia.FindNodeResult) err := kadem.IterFindNode(req, res) if err != nil { fmt.Printf("ERR: %v", err) } else { for _, node := range res.Nodes { fmt.Printf("%s", node.NodeID.AsString()) } } case bytes.Equal(command, []byte("iterativefindvalue")): if len(command_parts) != 2 { fmt.Println("Invalid format iterativeFindValue") continue } req := kademlia.FindValueRequest{MsgID: kademlia.NewRandomID(), Sender: me} req.Key, err = kademlia.FromString(command_parts[1]) if err != nil { fmt.Printf("ERR: %v\n", err) continue } res := new(kademlia.FindValueResult) err := kadem.IterFindValue(req, res) if err != nil { fmt.Printf("ERR: %v", err) } else { if res.Value != nil { fmt.Printf("%s %s\n", res.Nodes[0].NodeID.AsString(), string(res.Value)) } else { fmt.Println("ERR") } } default: fmt.Printf("Unknown command: %s\n", command_parts[0]) } } }