The core protocol of WoopChain
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woop/cmd/client/wallet/main.go

589 lines
17 KiB

package main
import (
"encoding/base64"
"flag"
"fmt"
"io/ioutil"
"math/big"
"math/rand"
"os"
"path"
"syscall"
"time"
"golang.org/x/crypto/ssh/terminal"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/params"
"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/core"
"github.com/harmony-one/harmony/core/types"
nodeconfig "github.com/harmony-one/harmony/internal/configs/node"
"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"
"github.com/harmony-one/harmony/accounts"
"github.com/harmony-one/harmony/accounts/keystore"
)
var (
version string
builtBy string
builtAt string
commit string
)
func printVersion(me string) {
fmt.Fprintf(os.Stderr, "Harmony (C) 2018. %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 (
// New subcommands
newCommand = flag.NewFlagSet("new", flag.ExitOnError)
newCommandNoPassPtr = newCommand.Bool("nopass", false, "The account has no pass phrase")
// List subcommands
listCommand = flag.NewFlagSet("list", flag.ExitOnError)
listCommandNoPassPtr = listCommand.Bool("nopass", false, "The account has no pass phrase")
// Account subcommands
accountImportCommand = flag.NewFlagSet("import", flag.ExitOnError)
accountImportPtr = accountImportCommand.String("privateKey", "", "Specify the private keyfile to import")
accountImportPassPtr = accountImportCommand.String("pass", "", "Specify the passphrase of the private key")
// 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")
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")
freeTokenCommand = flag.NewFlagSet("getFreeToken", flag.ExitOnError)
freeTokenAddressPtr = freeTokenCommand.String("address", "", "Specify the account address to receive the free token")
balanceCommand = flag.NewFlagSet("getFreeToken", flag.ExitOnError)
balanceAddressPtr = balanceCommand.String("address", "", "Specify the account address to check balance for")
)
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 <action> <params>")
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. new - Generates a new account and store the private key locally")
fmt.Println(" --nopass - The private key has no passphrase (for test only)")
fmt.Println(" 2. list - Lists all accounts in local keystore")
fmt.Println(" --nopass - The private key has no passphrase (for test only)")
fmt.Println(" 3. removeAll - Removes all accounts in local keystore")
fmt.Println(" 4. import - Imports a new account by private key")
fmt.Println(" --pass - The passphrase of the private key to import")
fmt.Println(" --privateKey - The private key to import")
fmt.Println(" 5. balances - Shows the balances of all addresses or specific address")
fmt.Println(" --address - The address to check balance for")
fmt.Println(" 6. getFreeToken - Gets free token on each shard")
fmt.Println(" --address - The free token receiver account's address")
fmt.Println(" 7. transfer - Transfer token from one account to another")
fmt.Println(" --from - The sender account's address or index in the local keystore")
fmt.Println(" --to - The receiver account's address")
fmt.Println(" --amount - The amount of token to transfer")
fmt.Println(" --shardID - The shard Id for the transfer")
fmt.Println(" --inputData - Base64-encoded input data to embed in the transaction")
fmt.Println(" --pass - Passphrase of sender's private key")
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 "new":
processNewCommnad()
case "list":
processListCommand()
case "removeAll":
clearKeystore()
case "import":
processImportCommnad()
case "balances":
readProfile(profile)
processBalancesCommand()
case "getFreeToken":
readProfile(profile)
processGetFreeToken()
case "transfer":
readProfile(profile)
processTransferCommand()
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)
}
w := node.New(host, nil, nil, false)
w.Client = client.NewClient(w.GetHost(), uint32(shardID))
w.NodeConfig.SetRole(nodeconfig.ClientNode)
w.ServiceManagerSetup()
w.RunServices()
return w
}
func getPassphrase(prompt string) string {
fmt.Printf(prompt)
bytePassword, err := terminal.ReadPassword(int(syscall.Stdin))
if err != nil {
panic("read password error")
}
password := string(bytePassword)
fmt.Println()
return password
}
func processNewCommnad() {
newCommand.Parse(os.Args[2:])
noPass := *newCommandNoPassPtr
password := ""
if !noPass {
fmt.Printf("Passphrase: ")
bytePassword, err := terminal.ReadPassword(int(syscall.Stdin))
if err != nil {
panic("read password error")
}
password = string(bytePassword)
fmt.Println()
}
account, err := ks.NewAccount(password)
if err != nil {
fmt.Printf("new account error: %v\n", err)
}
fmt.Printf("account: %s\n", account.Address.Hex())
fmt.Printf("URL: %s\n", account.URL)
}
func processListCommand() {
listCommand.Parse(os.Args[2:])
noPass := *listCommandNoPassPtr
allAccounts := ks.Accounts()
for _, account := range allAccounts {
fmt.Printf("account: %s\n", account.Address.Hex())
fmt.Printf("URL: %s\n", account.URL)
password := ""
newpass := ""
if !noPass {
password = getPassphrase("Passphrase: ")
newpass = getPassphrase("Export Passphrase: ")
}
data, err := ks.Export(account, password, newpass)
if err == nil {
f, err := os.OpenFile(fmt.Sprintf(".hmy/%s.key", account.Address.Hex()), os.O_CREATE|os.O_WRONLY, 0644)
if err != nil {
panic("Failed to open keystore")
}
_, err = f.Write(data)
if err != nil {
panic("Failed to write to keystore")
}
f.Close()
continue
}
switch err {
case accounts.ErrInvalidPassphrase:
fmt.Println("Invalid Passphrase")
default:
fmt.Printf("export error: %v\n", err)
}
}
}
func processImportCommnad() {
accountImportCommand.Parse(os.Args[2:])
priKey := *accountImportPtr
if priKey == "" {
fmt.Println("Error: --privateKey is required")
return
}
if !accountImportCommand.Parsed() {
fmt.Println("Failed to parse flags")
}
pass := *accountImportPassPtr
data, err := ioutil.ReadFile(priKey)
if err != nil {
panic("Failed to readfile")
}
account, err := ks.Import(data, pass, pass)
if err != nil {
panic("Failed to import the private key")
}
fmt.Printf("Private key imported for account: %s\n", account.Address.Hex())
}
func processBalancesCommand() {
balanceCommand.Parse(os.Args[2:])
if *balanceAddressPtr == "" {
allAccounts := ks.Accounts()
for i, account := range allAccounts {
fmt.Printf("Account %d:\n", i)
fmt.Printf(" Address: %s\n", account.Address.Hex())
for shardID, balanceNonce := range FetchBalance(account.Address) {
fmt.Printf(" Balance in Shard %d: %s, nonce: %v \n", shardID, convertBalanceIntoReadableFormat(balanceNonce.balance), balanceNonce.nonce)
}
}
} else {
address := common.HexToAddress(*balanceAddressPtr)
fmt.Printf("Account: %s:\n", address.Hex())
for shardID, balanceNonce := range FetchBalance(address) {
fmt.Printf(" Balance in Shard %d: %s, nonce: %v \n", shardID, convertBalanceIntoReadableFormat(balanceNonce.balance), balanceNonce.nonce)
}
}
}
func processGetFreeToken() {
freeTokenCommand.Parse(os.Args[2:])
if *freeTokenAddressPtr == "" {
fmt.Println("Error: --address is required")
} else {
address := common.HexToAddress(*freeTokenAddressPtr)
GetFreeToken(address)
}
}
func processTransferCommand() {
transferCommand.Parse(os.Args[2:])
if !transferCommand.Parsed() {
fmt.Println("Failed to parse flags")
return
}
sender := *transferSenderPtr
receiver := *transferReceiverPtr
amount := *transferAmountPtr
shardID := *transferShardIDPtr
base64InputData := *transferInputDataPtr
senderPass := *transferSenderPassPtr
inputData, err := base64.StdEncoding.DecodeString(base64InputData)
if err != nil {
fmt.Printf("Cannot base64-decode input data (%s): %s\n",
base64InputData, err)
return
}
if shardID == -1 {
fmt.Println("Please specify the shard ID for the transfer (e.g. --shardID=0)")
return
}
if amount <= 0 {
fmt.Println("Please specify positive amount to transfer")
return
}
receiverAddress := common.HexToAddress(receiver)
if len(receiverAddress) != 20 {
fmt.Println("The receiver address is not valid.")
return
}
senderAddress := common.HexToAddress(sender)
if len(senderAddress) != 20 {
fmt.Println("The sender address is not valid.")
return
}
walletNode := createWalletNode()
shardIDToAccountState := FetchBalance(senderAddress)
state, ok := shardIDToAccountState[uint32(shardID)]
if !ok {
fmt.Printf("Failed connecting to the shard %d\n", shardID)
return
}
balance := state.balance
balance = balance.Div(balance, big.NewInt(params.GWei))
if amount > float64(balance.Uint64())/params.GWei {
fmt.Printf("Balance is not enough for the transfer, current balance is %.6f\n", float64(balance.Uint64())/params.GWei)
return
}
amountBigInt := big.NewInt(int64(amount * params.GWei))
amountBigInt = amountBigInt.Mul(amountBigInt, big.NewInt(params.GWei))
gas, err := core.IntrinsicGas(inputData, false, true)
if err != nil {
fmt.Printf("cannot calculate required gas: %v\n", err)
return
}
tx := types.NewTransaction(
state.nonce, receiverAddress, uint32(shardID), amountBigInt,
gas, nil, inputData)
account, err := ks.Find(accounts.Account{Address: senderAddress})
if err != nil {
fmt.Printf("Find Account Error: %v\n", err)
return
}
ks.Unlock(account, senderPass)
tx, err = ks.SignTx(account, tx, nil)
if err != nil {
fmt.Printf("SignTx Error: %v\n", err)
return
}
submitTransaction(tx, walletNode, uint32(shardID))
}
func convertBalanceIntoReadableFormat(balance *big.Int) string {
balance = balance.Div(balance, big.NewInt(params.GWei))
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) map[uint32]AccountState {
result := make(map[uint32]AccountState)
for i := 0; i < walletProfile.Shards; i++ {
balance := big.NewInt(0)
var nonce uint64
result[uint32(i)] = AccountState{balance, 0}
for retry := 0; retry < rpcRetry; retry++ {
server := walletProfile.RPCServer[i][rand.Intn(len(walletProfile.RPCServer[i]))]
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)
balance.SetBytes(response.Balance)
nonce = response.Nonce
break
}
result[uint32(i)] = AccountState{balance, nonce}
}
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", int(0), 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 {
os.RemoveAll(path.Join([]string{keystoreDir, d.Name()}...))
}
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
}