package main import ( "flag" "fmt" "io/ioutil" "math/big" "math/rand" "os" "path" "sync" "time" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/log" "github.com/harmony-one/harmony/accounts" "github.com/harmony-one/harmony/accounts/keystore" "github.com/harmony-one/harmony/api/client" clientService "github.com/harmony-one/harmony/api/client/service" proto_node "github.com/harmony-one/harmony/api/proto/node" "github.com/harmony-one/harmony/common/denominations" "github.com/harmony-one/harmony/core" "github.com/harmony-one/harmony/core/types" common2 "github.com/harmony-one/harmony/internal/common" nodeconfig "github.com/harmony-one/harmony/internal/configs/node" "github.com/harmony-one/harmony/internal/ctxerror" "github.com/harmony-one/harmony/internal/shardchain" "github.com/harmony-one/harmony/internal/utils" "github.com/harmony-one/harmony/node" "github.com/harmony-one/harmony/p2p" p2p_host "github.com/harmony-one/harmony/p2p/host" "github.com/harmony-one/harmony/p2p/p2pimpl" ) var ( version string builtBy string builtAt string commit string ) func printVersion(me string) { fmt.Fprintf(os.Stderr, "Harmony (C) 2019. %v, version %v-%v (%v %v)\n", path.Base(me), version, commit, builtBy, builtAt) os.Exit(0) } // AccountState includes the balance and nonce of an account type AccountState struct { balance *big.Int nonce uint64 } const ( rpcRetry = 3 defaultConfigFile = ".hmy/wallet.ini" defaultProfile = "default" keystoreDir = ".hmy/keystore" ) var ( // Transfer subcommands transferCommand = flag.NewFlagSet("transfer", flag.ExitOnError) transferSenderPtr = transferCommand.String("from", "0", "Specify the sender account address or index") transferReceiverPtr = transferCommand.String("to", "", "Specify the receiver account") transferAmountPtr = transferCommand.Float64("amount", 0, "Specify the amount to transfer") transferGasPricePtr = transferCommand.Uint64("gasPrice", 0, "Specify the gas price amount. Unit is Nano.") transferShardIDPtr = transferCommand.Int("shardID", 0, "Specify the shard ID for the transfer") transferInputDataPtr = transferCommand.String("inputData", "", "Base64-encoded input data to embed in the transaction") transferSenderPassPtr = transferCommand.String("pass", "", "Passphrase of the sender's private key") ) var ( walletProfile *utils.WalletProfile ks *keystore.KeyStore ) // setupLog setup log for verbose output func setupLog() { // enable logging for wallet h := log.StreamHandler(os.Stdout, log.TerminalFormat(true)) log.Root().SetHandler(h) } // The main wallet program entrance. Note the this wallet program is for demo-purpose only. It does not implement // the secure storage of keys. func main() { rand.Seed(int64(time.Now().Nanosecond())) // Verify that a subcommand has been provided // os.Arg[0] is the main command // os.Arg[1] will be the subcommand if len(os.Args) < 2 { fmt.Println("Usage:") fmt.Println(" wallet -p profile ") fmt.Println(" -p profile - Specify the profile of the wallet, either testnet/devnet or others configured. Default is: testnet") fmt.Println(" The profile is in file:", defaultConfigFile) fmt.Println() fmt.Println("Actions:") fmt.Println(" 1. stressTest - Stress test transactions with corner cases.") os.Exit(1) } ARG: for { lastArg := os.Args[len(os.Args)-1] switch lastArg { case "--verbose": setupLog() os.Args = os.Args[:len(os.Args)-1] default: break ARG } } var profile string if os.Args[1] == "-p" { profile = os.Args[2] os.Args = os.Args[2:] } else { profile = defaultProfile } if len(os.Args) == 1 { fmt.Println("Missing action") flag.PrintDefaults() os.Exit(1) } // create new keystore backend scryptN := keystore.StandardScryptN scryptP := keystore.StandardScryptP ks = keystore.NewKeyStore(keystoreDir, scryptN, scryptP) // Switch on the subcommand switch os.Args[1] { case "-version": printVersion(os.Args[0]) case "stressTest": readProfile(profile) processStressTestCommand() default: fmt.Printf("Unknown action: %s\n", os.Args[1]) flag.PrintDefaults() os.Exit(1) } } //go:generate go run ../../../scripts/wallet_embed_ini_files.go func readProfile(profile string) { fmt.Printf("Using %s profile for wallet\n", profile) // try to load .hmy/wallet.ini from filesystem // use default_wallet_ini if .hmy/wallet.ini doesn't exist var err error var iniBytes []byte iniBytes, err = ioutil.ReadFile(defaultConfigFile) if err != nil { log.Debug(fmt.Sprintf("%s doesn't exist, using default ini\n", defaultConfigFile)) iniBytes = []byte(defaultWalletIni) } walletProfile, err = utils.ReadWalletProfile(iniBytes, profile) if err != nil { fmt.Printf("Read wallet profile error: %v\nExiting ...\n", err) os.Exit(2) } } // createWalletNode creates wallet server node. func createWalletNode() *node.Node { bootNodeAddrs, err := utils.StringsToAddrs(walletProfile.Bootnodes) if err != nil { panic(err) } utils.BootNodes = bootNodeAddrs shardID := 0 // dummy host for wallet // TODO: potentially, too many dummy IP may flush out good IP address from our bootnode DHT // we need to understand the impact to bootnode DHT with this dummy host ip added self := p2p.Peer{IP: "127.0.0.1", Port: "6999"} priKey, _, _ := utils.GenKeyP2P("127.0.0.1", "6999") host, err := p2pimpl.NewHost(&self, priKey) if err != nil { panic(err) } chainDBFactory := &shardchain.MemDBFactory{} w := node.New(host, nil, chainDBFactory, false) w.Client = client.NewClient(w.GetHost(), uint32(shardID)) w.NodeConfig.SetRole(nodeconfig.ClientNode) w.ServiceManagerSetup() w.RunServices() return w } // ./bin/wallet -p local transfer // --from one1uyshu2jgv8w465yc8kkny36thlt2wvel89tcmg // --to one1spshr72utf6rwxseaz339j09ed8p6f8ke370zj // --amount 1 --shardID 1 func processStressTestCommand() { /* Account 17: Address: one1spshr72utf6rwxseaz339j09ed8p6f8ke370zj Balance in Shard 0: x.xxx, nonce: 0 Balance in Shard 1: 0.0000, nonce: 0 Account 18: Address: one1uyshu2jgv8w465yc8kkny36thlt2wvel89tcmg Balance in Shard 0: 0.0000, nonce: 0 Balance in Shard 1: x.xxx, nonce: 0 */ senderAddress := common2.ParseAddr("one1uyshu2jgv8w465yc8kkny36thlt2wvel89tcmg") receiverAddress := common2.ParseAddr("one1spshr72utf6rwxseaz339j09ed8p6f8ke370zj") shardID := 1 walletNode := createWalletNode() shardIDToAccountState := FetchBalance(senderAddress) state := shardIDToAccountState[shardID] balance := state.balance // amount 1/10th of the balance amountBigInt := balance.Div(balance, big.NewInt(10)) // default inputData data := make([]byte, 0) gasLimit, _ := core.IntrinsicGas(data, false, true) gasPrice := 0 gasPriceBigInt := big.NewInt(int64(gasPrice)) gasPriceBigInt = gasPriceBigInt.Mul(gasPriceBigInt, big.NewInt(denominations.Nano)) senderPass := "" for i := 0; i < 4; i++ { currNonce := state.nonce tx := types.NewTransaction( currNonce, receiverAddress, uint32(shardID), amountBigInt, gasLimit, gasPriceBigInt, data) account, _ := ks.Find(accounts.Account{Address: senderAddress}) ks.Unlock(account, senderPass) tx, _ = ks.SignTx(account, tx, nil) if err := submitTransaction(tx, walletNode, uint32(shardID)); err != nil { fmt.Println(ctxerror.New("submitTransaction failed", "tx", tx, "shardID", shardID).WithCause(err)) } for retry := 0; retry < 10; retry++ { accountStates := FetchBalance(senderAddress) state = accountStates[shardID] fmt.Println("state.nonce", state.nonce) if state.nonce == currNonce+1 { break } time.Sleep(3 * time.Second) } } fmt.Printf("Sender Account: %s:\n", common2.MustAddressToBech32(senderAddress)) for shardID, balanceNonce := range FetchBalance(senderAddress) { fmt.Printf(" Balance in Shard %d: %s, nonce: %v \n", shardID, convertBalanceIntoReadableFormat(balanceNonce.balance), balanceNonce.nonce) } } func convertBalanceIntoReadableFormat(balance *big.Int) string { balance = balance.Div(balance, big.NewInt(denominations.Nano)) strBalance := fmt.Sprintf("%d", balance.Uint64()) bytes := []byte(strBalance) hasDecimal := false for i := 0; i < 11; i++ { if len(bytes)-1-i < 0 { bytes = append([]byte{'0'}, bytes...) } if bytes[len(bytes)-1-i] != '0' && i < 9 { hasDecimal = true } if i == 9 { newBytes := append([]byte{'.'}, bytes[len(bytes)-i:]...) bytes = append(bytes[:len(bytes)-i], newBytes...) } } zerosToRemove := 0 for i := 0; i < len(bytes); i++ { if hasDecimal { if bytes[len(bytes)-1-i] == '0' { bytes = bytes[:len(bytes)-1-i] i-- } else { break } } else { if zerosToRemove < 5 { bytes = bytes[:len(bytes)-1-i] i-- zerosToRemove++ } else { break } } } return string(bytes) } // FetchBalance fetches account balance of specified address from the Harmony network func FetchBalance(address common.Address) []*AccountState { result := []*AccountState{} for shardID := 0; shardID < walletProfile.Shards; shardID++ { // Fill in nil pointers for each shard; nil represent failed balance fetch. result = append(result, nil) } var wg sync.WaitGroup wg.Add(walletProfile.Shards) for shardID := 0; shardID < walletProfile.Shards; shardID++ { go func(shardID int) { defer wg.Done() balance := big.NewInt(0) var nonce uint64 result[uint32(shardID)] = &AccountState{balance, 0} var wgShard sync.WaitGroup wgShard.Add(len(walletProfile.RPCServer[shardID])) var mutexAccountState = &sync.Mutex{} for rpcServerID := 0; rpcServerID < len(walletProfile.RPCServer[shardID]); rpcServerID++ { go func(rpcServerID int) { for retry := 0; retry < rpcRetry; retry++ { server := walletProfile.RPCServer[shardID][rpcServerID] client, err := clientService.NewClient(server.IP, server.Port) if err != nil { continue } log.Debug("FetchBalance", "server", server) response, err := client.GetBalance(address) if err != nil { log.Info("failed to get balance, retrying ...") time.Sleep(200 * time.Millisecond) continue } log.Debug("FetchBalance", "response", response) respBalance := big.NewInt(0) respBalance.SetBytes(response.Balance) mutexAccountState.Lock() if balance.Cmp(respBalance) < 0 { balance.SetBytes(response.Balance) nonce = response.Nonce } mutexAccountState.Unlock() break } wgShard.Done() }(rpcServerID) } wgShard.Wait() result[shardID] = &AccountState{balance, nonce} }(shardID) } wg.Wait() return result } // GetFreeToken requests for token test token on each shard func GetFreeToken(address common.Address) { for i := 0; i < walletProfile.Shards; i++ { // use the 1st server (leader) to make the getFreeToken call server := walletProfile.RPCServer[i][0] client, err := clientService.NewClient(server.IP, server.Port) if err != nil { continue } log.Debug("GetFreeToken", "server", server) for retry := 0; retry < rpcRetry; retry++ { response, err := client.GetFreeToken(address) if err != nil { log.Info("failed to get free token, retrying ...") time.Sleep(200 * time.Millisecond) continue } log.Debug("GetFreeToken", "response", response) txID := common.Hash{} txID.SetBytes(response.TxId) fmt.Printf("Transaction Id requesting free token in shard %d: %s\n", i, txID.Hex()) break } } } // clearKeystore deletes all data in the local keystore func clearKeystore() { dir, err := ioutil.ReadDir(keystoreDir) if err != nil { panic("Failed to read keystore directory") } for _, d := range dir { subdir := path.Join([]string{keystoreDir, d.Name()}...) if err := os.RemoveAll(subdir); err != nil { fmt.Println(ctxerror.New("cannot remove directory", "path", subdir).WithCause(err)) } } fmt.Println("All existing accounts deleted...") } // submitTransaction submits the transaction to the Harmony network func submitTransaction(tx *types.Transaction, walletNode *node.Node, shardID uint32) error { msg := proto_node.ConstructTransactionListMessageAccount(types.Transactions{tx}) clientGroup := p2p.NewClientGroupIDByShardID(p2p.ShardID(shardID)) err := walletNode.GetHost().SendMessageToGroups([]p2p.GroupID{clientGroup}, p2p_host.ConstructP2pMessage(byte(0), msg)) if err != nil { fmt.Printf("Error in SubmitTransaction: %v\n", err) return err } fmt.Printf("Transaction Id for shard %d: %s\n", int(shardID), tx.Hash().Hex()) // FIXME (leo): how to we know the tx was successful sent to the network // this is a hacky way to wait for sometime time.Sleep(3 * time.Second) return nil }