// Copyright 2017 The go-ethereum Authors // This file is part of go-ethereum. // // go-ethereum is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // go-ethereum is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with go-ethereum. If not, see . // This is a simple Whisper node. It could be used as a stand-alone bootstrap node. // Also, could be used for different test and diagnostics purposes. package main import ( "bufio" "crypto/ecdsa" "crypto/sha512" "encoding/binary" "encoding/hex" "flag" "fmt" "io/ioutil" "os" "path/filepath" "strconv" "strings" "time" "github.com/ethereum/go-ethereum/cmd/utils" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/console" "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/log" "github.com/ethereum/go-ethereum/p2p" "github.com/ethereum/go-ethereum/p2p/discover" "github.com/ethereum/go-ethereum/p2p/nat" "github.com/ethereum/go-ethereum/whisper/mailserver" whisper "github.com/ethereum/go-ethereum/whisper/whisperv6" "golang.org/x/crypto/pbkdf2" ) const quitCommand = "~Q" // singletons var ( server *p2p.Server shh *whisper.Whisper done chan struct{} mailServer mailserver.WMailServer input = bufio.NewReader(os.Stdin) ) // encryption var ( symKey []byte pub *ecdsa.PublicKey asymKey *ecdsa.PrivateKey nodeid *ecdsa.PrivateKey topic whisper.TopicType asymKeyID string asymFilterID string symFilterID string symPass string msPassword string ) // cmd arguments var ( bootstrapMode = flag.Bool("standalone", false, "boostrap node: don't actively connect to peers, wait for incoming connections") forwarderMode = flag.Bool("forwarder", false, "forwarder mode: only forward messages, neither send nor decrypt messages") mailServerMode = flag.Bool("mailserver", false, "mail server mode: delivers expired messages on demand") requestMail = flag.Bool("mailclient", false, "request expired messages from the bootstrap server") asymmetricMode = flag.Bool("asym", false, "use asymmetric encryption") generateKey = flag.Bool("generatekey", false, "generate and show the private key") fileExMode = flag.Bool("fileexchange", false, "file exchange mode") testMode = flag.Bool("test", false, "use of predefined parameters for diagnostics") echoMode = flag.Bool("echo", false, "echo mode: prints some arguments for diagnostics") argVerbosity = flag.Int("verbosity", int(log.LvlError), "log verbosity level") argTTL = flag.Uint("ttl", 30, "time-to-live for messages in seconds") argWorkTime = flag.Uint("work", 5, "work time in seconds") argMaxSize = flag.Uint("maxsize", uint(whisper.DefaultMaxMessageSize), "max size of message") argPoW = flag.Float64("pow", whisper.DefaultMinimumPoW, "PoW for normal messages in float format (e.g. 2.7)") argServerPoW = flag.Float64("mspow", whisper.DefaultMinimumPoW, "PoW requirement for Mail Server request") argIP = flag.String("ip", "", "IP address and port of this node (e.g. 127.0.0.1:30303)") argPub = flag.String("pub", "", "public key for asymmetric encryption") argDBPath = flag.String("dbpath", "", "path to the server's DB directory") argIDFile = flag.String("idfile", "", "file name with node id (private key)") argEnode = flag.String("boot", "", "bootstrap node you want to connect to (e.g. enode://e454......08d50@52.176.211.200:16428)") argTopic = flag.String("topic", "", "topic in hexadecimal format (e.g. 70a4beef)") argSaveDir = flag.String("savedir", "", "directory where incoming messages will be saved as files") ) func main() { processArgs() initialize() run() } func processArgs() { flag.Parse() if len(*argIDFile) > 0 { var err error nodeid, err = crypto.LoadECDSA(*argIDFile) if err != nil { utils.Fatalf("Failed to load file [%s]: %s.", *argIDFile, err) } } const enodePrefix = "enode://" if len(*argEnode) > 0 { if (*argEnode)[:len(enodePrefix)] != enodePrefix { *argEnode = enodePrefix + *argEnode } } if len(*argTopic) > 0 { x, err := hex.DecodeString(*argTopic) if err != nil { utils.Fatalf("Failed to parse the topic: %s", err) } topic = whisper.BytesToTopic(x) } if *asymmetricMode && len(*argPub) > 0 { pub = crypto.ToECDSAPub(common.FromHex(*argPub)) if !isKeyValid(pub) { utils.Fatalf("invalid public key") } } if len(*argSaveDir) > 0 { if _, err := os.Stat(*argSaveDir); os.IsNotExist(err) { utils.Fatalf("Download directory '%s' does not exist", *argSaveDir) } } else if *fileExMode { utils.Fatalf("Parameter 'savedir' is mandatory for file exchange mode") } if *echoMode { echo() } } func echo() { fmt.Printf("ttl = %d \n", *argTTL) fmt.Printf("workTime = %d \n", *argWorkTime) fmt.Printf("pow = %f \n", *argPoW) fmt.Printf("mspow = %f \n", *argServerPoW) fmt.Printf("ip = %s \n", *argIP) fmt.Printf("pub = %s \n", common.ToHex(crypto.FromECDSAPub(pub))) fmt.Printf("idfile = %s \n", *argIDFile) fmt.Printf("dbpath = %s \n", *argDBPath) fmt.Printf("boot = %s \n", *argEnode) } func initialize() { log.Root().SetHandler(log.LvlFilterHandler(log.Lvl(*argVerbosity), log.StreamHandler(os.Stderr, log.TerminalFormat(false)))) done = make(chan struct{}) var peers []*discover.Node var err error if *generateKey { key, err := crypto.GenerateKey() if err != nil { utils.Fatalf("Failed to generate private key: %s", err) } k := hex.EncodeToString(crypto.FromECDSA(key)) fmt.Printf("Random private key: %s \n", k) os.Exit(0) } if *testMode { symPass = "wwww" // ascii code: 0x77777777 msPassword = "wwww" } if *bootstrapMode { if len(*argIP) == 0 { argIP = scanLineA("Please enter your IP and port (e.g. 127.0.0.1:30348): ") } } else { if len(*argEnode) == 0 { argEnode = scanLineA("Please enter the peer's enode: ") } peer := discover.MustParseNode(*argEnode) peers = append(peers, peer) } cfg := &whisper.Config{ MaxMessageSize: uint32(*argMaxSize), MinimumAcceptedPOW: *argPoW, } if *mailServerMode { if len(msPassword) == 0 { msPassword, err = console.Stdin.PromptPassword("Please enter the Mail Server password: ") if err != nil { utils.Fatalf("Failed to read Mail Server password: %s", err) } } shh = whisper.New(cfg) shh.RegisterServer(&mailServer) mailServer.Init(shh, *argDBPath, msPassword, *argServerPoW) } else { shh = whisper.New(cfg) } if *argPoW != whisper.DefaultMinimumPoW { err := shh.SetMinimumPoW(*argPoW) if err != nil { utils.Fatalf("Failed to set PoW: %s", err) } } if uint32(*argMaxSize) != whisper.DefaultMaxMessageSize { err := shh.SetMaxMessageSize(uint32(*argMaxSize)) if err != nil { utils.Fatalf("Failed to set max message size: %s", err) } } asymKeyID, err = shh.NewKeyPair() if err != nil { utils.Fatalf("Failed to generate a new key pair: %s", err) } asymKey, err = shh.GetPrivateKey(asymKeyID) if err != nil { utils.Fatalf("Failed to retrieve a new key pair: %s", err) } if nodeid == nil { tmpID, err := shh.NewKeyPair() if err != nil { utils.Fatalf("Failed to generate a new key pair: %s", err) } nodeid, err = shh.GetPrivateKey(tmpID) if err != nil { utils.Fatalf("Failed to retrieve a new key pair: %s", err) } } maxPeers := 80 if *bootstrapMode { maxPeers = 800 } server = &p2p.Server{ Config: p2p.Config{ PrivateKey: nodeid, MaxPeers: maxPeers, Name: common.MakeName("wnode", "6.0"), Protocols: shh.Protocols(), ListenAddr: *argIP, NAT: nat.Any(), BootstrapNodes: peers, StaticNodes: peers, TrustedNodes: peers, }, } } func startServer() { err := server.Start() if err != nil { utils.Fatalf("Failed to start Whisper peer: %s.", err) } fmt.Printf("my public key: %s \n", common.ToHex(crypto.FromECDSAPub(&asymKey.PublicKey))) fmt.Println(server.NodeInfo().Enode) if *bootstrapMode { configureNode() fmt.Println("Bootstrap Whisper node started") } else { fmt.Println("Whisper node started") // first see if we can establish connection, then ask for user input waitForConnection(true) configureNode() } if !*forwarderMode { fmt.Printf("Please type the message. To quit type: '%s'\n", quitCommand) } } func isKeyValid(k *ecdsa.PublicKey) bool { return k.X != nil && k.Y != nil } func configureNode() { var err error var p2pAccept bool if *forwarderMode { return } if *asymmetricMode { if len(*argPub) == 0 { s := scanLine("Please enter the peer's public key: ") b := common.FromHex(s) if b == nil { utils.Fatalf("Error: can not convert hexadecimal string") } pub = crypto.ToECDSAPub(b) if !isKeyValid(pub) { utils.Fatalf("Error: invalid public key") } } } if *requestMail { p2pAccept = true if len(msPassword) == 0 { msPassword, err = console.Stdin.PromptPassword("Please enter the Mail Server password: ") if err != nil { utils.Fatalf("Failed to read Mail Server password: %s", err) } } } if !*asymmetricMode && !*forwarderMode { if len(symPass) == 0 { symPass, err = console.Stdin.PromptPassword("Please enter the password for symmetric encryption: ") if err != nil { utils.Fatalf("Failed to read passphrase: %v", err) } } symKeyID, err := shh.AddSymKeyFromPassword(symPass) if err != nil { utils.Fatalf("Failed to create symmetric key: %s", err) } symKey, err = shh.GetSymKey(symKeyID) if err != nil { utils.Fatalf("Failed to save symmetric key: %s", err) } if len(*argTopic) == 0 { generateTopic([]byte(symPass)) } fmt.Printf("Filter is configured for the topic: %x \n", topic) } if *mailServerMode { if len(*argDBPath) == 0 { argDBPath = scanLineA("Please enter the path to DB file: ") } } symFilter := whisper.Filter{ KeySym: symKey, Topics: [][]byte{topic[:]}, AllowP2P: p2pAccept, } symFilterID, err = shh.Subscribe(&symFilter) if err != nil { utils.Fatalf("Failed to install filter: %s", err) } asymFilter := whisper.Filter{ KeyAsym: asymKey, Topics: [][]byte{topic[:]}, AllowP2P: p2pAccept, } asymFilterID, err = shh.Subscribe(&asymFilter) if err != nil { utils.Fatalf("Failed to install filter: %s", err) } } func generateTopic(password []byte) { x := pbkdf2.Key(password, password, 4096, 128, sha512.New) for i := 0; i < len(x); i++ { topic[i%whisper.TopicLength] ^= x[i] } } func waitForConnection(timeout bool) { var cnt int var connected bool for !connected { time.Sleep(time.Millisecond * 50) connected = server.PeerCount() > 0 if timeout { cnt++ if cnt > 1000 { utils.Fatalf("Timeout expired, failed to connect") } } } fmt.Println("Connected to peer.") } func run() { defer mailServer.Close() startServer() defer server.Stop() shh.Start(nil) defer shh.Stop() if !*forwarderMode { go messageLoop() } if *requestMail { requestExpiredMessagesLoop() } else if *fileExMode { sendFilesLoop() } else { sendLoop() } } func sendLoop() { for { s := scanLine("") if s == quitCommand { fmt.Println("Quit command received") close(done) break } sendMsg([]byte(s)) if *asymmetricMode { // print your own message for convenience, // because in asymmetric mode it is impossible to decrypt it timestamp := time.Now().Unix() from := crypto.PubkeyToAddress(asymKey.PublicKey) fmt.Printf("\n%d <%x>: %s\n", timestamp, from, s) } } } func sendFilesLoop() { for { s := scanLine("") if s == quitCommand { fmt.Println("Quit command received") close(done) break } b, err := ioutil.ReadFile(s) if err != nil { fmt.Printf(">>> Error: %s \n", err) continue } else { h := sendMsg(b) if (h == common.Hash{}) { fmt.Printf(">>> Error: message was not sent \n") } else { timestamp := time.Now().Unix() from := crypto.PubkeyToAddress(asymKey.PublicKey) fmt.Printf("\n%d <%x>: sent message with hash %x\n", timestamp, from, h) } } } } func scanLine(prompt string) string { if len(prompt) > 0 { fmt.Print(prompt) } txt, err := input.ReadString('\n') if err != nil { utils.Fatalf("input error: %s", err) } txt = strings.TrimRight(txt, "\n\r") return txt } func scanLineA(prompt string) *string { s := scanLine(prompt) return &s } func scanUint(prompt string) uint32 { s := scanLine(prompt) i, err := strconv.Atoi(s) if err != nil { utils.Fatalf("Fail to parse the lower time limit: %s", err) } return uint32(i) } func sendMsg(payload []byte) common.Hash { params := whisper.MessageParams{ Src: asymKey, Dst: pub, KeySym: symKey, Payload: payload, Topic: topic, TTL: uint32(*argTTL), PoW: *argPoW, WorkTime: uint32(*argWorkTime), } msg, err := whisper.NewSentMessage(¶ms) if err != nil { utils.Fatalf("failed to create new message: %s", err) } envelope, err := msg.Wrap(¶ms) if err != nil { fmt.Printf("failed to seal message: %v \n", err) return common.Hash{} } err = shh.Send(envelope) if err != nil { fmt.Printf("failed to send message: %v \n", err) return common.Hash{} } return envelope.Hash() } func messageLoop() { sf := shh.GetFilter(symFilterID) if sf == nil { utils.Fatalf("symmetric filter is not installed") } af := shh.GetFilter(asymFilterID) if af == nil { utils.Fatalf("asymmetric filter is not installed") } ticker := time.NewTicker(time.Millisecond * 50) for { select { case <-ticker.C: messages := sf.Retrieve() for _, msg := range messages { if *fileExMode || len(msg.Payload) > 2048 { writeMessageToFile(*argSaveDir, msg) } else { printMessageInfo(msg) } } messages = af.Retrieve() for _, msg := range messages { if *fileExMode || len(msg.Payload) > 2048 { writeMessageToFile(*argSaveDir, msg) } else { printMessageInfo(msg) } } case <-done: return } } } func printMessageInfo(msg *whisper.ReceivedMessage) { timestamp := fmt.Sprintf("%d", msg.Sent) // unix timestamp for diagnostics text := string(msg.Payload) var address common.Address if msg.Src != nil { address = crypto.PubkeyToAddress(*msg.Src) } if whisper.IsPubKeyEqual(msg.Src, &asymKey.PublicKey) { fmt.Printf("\n%s <%x>: %s\n", timestamp, address, text) // message from myself } else { fmt.Printf("\n%s [%x]: %s\n", timestamp, address, text) // message from a peer } } func writeMessageToFile(dir string, msg *whisper.ReceivedMessage) { timestamp := fmt.Sprintf("%d", msg.Sent) name := fmt.Sprintf("%x", msg.EnvelopeHash) var address common.Address if msg.Src != nil { address = crypto.PubkeyToAddress(*msg.Src) } if whisper.IsPubKeyEqual(msg.Src, &asymKey.PublicKey) { // message from myself: don't save, only report fmt.Printf("\n%s <%x>: message received: '%s'\n", timestamp, address, name) } else if len(dir) > 0 { fullpath := filepath.Join(dir, name) err := ioutil.WriteFile(fullpath, msg.Payload, 0644) if err != nil { fmt.Printf("\n%s {%x}: message received but not saved: %s\n", timestamp, address, err) } else { fmt.Printf("\n%s {%x}: message received and saved as '%s' (%d bytes)\n", timestamp, address, name, len(msg.Payload)) } } else { fmt.Printf("\n%s {%x}: big message received (%d bytes), but not saved: %s\n", timestamp, address, len(msg.Payload), name) } } func requestExpiredMessagesLoop() { var key, peerID []byte var timeLow, timeUpp uint32 var t string var xt, empty whisper.TopicType keyID, err := shh.AddSymKeyFromPassword(msPassword) if err != nil { utils.Fatalf("Failed to create symmetric key for mail request: %s", err) } key, err = shh.GetSymKey(keyID) if err != nil { utils.Fatalf("Failed to save symmetric key for mail request: %s", err) } peerID = extractIDFromEnode(*argEnode) shh.AllowP2PMessagesFromPeer(peerID) for { timeLow = scanUint("Please enter the lower limit of the time range (unix timestamp): ") timeUpp = scanUint("Please enter the upper limit of the time range (unix timestamp): ") t = scanLine("Please enter the topic (hexadecimal): ") if len(t) >= whisper.TopicLength*2 { x, err := hex.DecodeString(t) if err != nil { utils.Fatalf("Failed to parse the topic: %s", err) } xt = whisper.BytesToTopic(x) } if timeUpp == 0 { timeUpp = 0xFFFFFFFF } data := make([]byte, 8+whisper.TopicLength) binary.BigEndian.PutUint32(data, timeLow) binary.BigEndian.PutUint32(data[4:], timeUpp) copy(data[8:], xt[:]) if xt == empty { data = data[:8] } var params whisper.MessageParams params.PoW = *argServerPoW params.Payload = data params.KeySym = key params.Src = asymKey params.WorkTime = 5 msg, err := whisper.NewSentMessage(¶ms) if err != nil { utils.Fatalf("failed to create new message: %s", err) } env, err := msg.Wrap(¶ms) if err != nil { utils.Fatalf("Wrap failed: %s", err) } err = shh.RequestHistoricMessages(peerID, env) if err != nil { utils.Fatalf("Failed to send P2P message: %s", err) } time.Sleep(time.Second * 5) } } func extractIDFromEnode(s string) []byte { n, err := discover.ParseNode(s) if err != nil { utils.Fatalf("Failed to parse enode: %s", err) } return n.ID[:] }