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package main
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import (
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"flag"
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"fmt"
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"os"
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"path"
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"runtime"
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"sync"
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"time"
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"github.com/ethereum/go-ethereum/log"
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"github.com/harmony-one/harmony/api/client"
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proto_node "github.com/harmony-one/harmony/api/proto/node"
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"github.com/harmony-one/harmony/cmd/client/txgen/txgen"
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"github.com/harmony-one/harmony/consensus"
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"github.com/harmony-one/harmony/core/types"
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"github.com/harmony-one/harmony/internal/newnode"
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"github.com/harmony-one/harmony/internal/utils"
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"github.com/harmony-one/harmony/node"
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"github.com/harmony-one/harmony/p2p"
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"github.com/harmony-one/harmony/p2p/p2pimpl"
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peerstore "github.com/libp2p/go-libp2p-peerstore"
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multiaddr "github.com/multiformats/go-multiaddr"
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)
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var (
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version string
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builtBy string
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builtAt string
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commit string
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stateMutex sync.Mutex
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)
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func printVersion(me string) {
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fmt.Fprintf(os.Stderr, "Harmony (C) 2018. %v, version %v-%v (%v %v)\n", path.Base(me), version, commit, builtBy, builtAt)
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os.Exit(0)
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}
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// The main entrance for the transaction generator program which simulate transactions and send to the network for
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// processing.
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func main() {
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ip := flag.String("ip", "127.0.0.1", "IP of the node")
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port := flag.String("port", "9999", "port of the node.")
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maxNumTxsPerBatch := flag.Int("max_num_txs_per_batch", 20000, "number of transactions to send per message")
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logFolder := flag.String("log_folder", "latest", "the folder collecting the logs of this execution")
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duration := flag.Int("duration", 10, "duration of the tx generation in second. If it's negative, the experiment runs forever.")
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versionFlag := flag.Bool("version", false, "Output version info")
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crossShardRatio := flag.Int("cross_shard_ratio", 30, "The percentage of cross shard transactions.")
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bcIP := flag.String("bc", "127.0.0.1", "IP of the identity chain")
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bcPort := flag.String("bc_port", "8081", "port of the identity chain")
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bcAddr := flag.String("bc_addr", "", "MultiAddr of the identity chain")
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// Key file to store the private key
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keyFile := flag.String("key", "./.txgenkey", "the private key file of the txgen")
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flag.Var(&utils.BootNodes, "bootnodes", "a list of bootnode multiaddress")
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// LibP2P peer discovery integration test
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libp2pPD := flag.Bool("libp2p_pd", false, "enable libp2p based peer discovery")
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flag.Parse()
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if *versionFlag {
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printVersion(os.Args[0])
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}
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// Add GOMAXPROCS to achieve max performance.
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runtime.GOMAXPROCS(1024)
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var bcPeer *p2p.Peer
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var shardIDLeaderMap map[uint32]p2p.Peer
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priKey, _, err := utils.LoadKeyFromFile(*keyFile)
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if err != nil {
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panic(err)
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}
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if *bcAddr != "" {
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// Turn the destination into a multiaddr.
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maddr, err := multiaddr.NewMultiaddr(*bcAddr)
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if err != nil {
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panic(err)
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}
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// Extract the peer ID from the multiaddr.
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info, err := peerstore.InfoFromP2pAddr(maddr)
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if err != nil {
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panic(err)
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}
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bcPeer = &p2p.Peer{IP: *bcIP, Port: *bcPort, Addrs: info.Addrs, PeerID: info.ID}
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} else {
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bcPeer = &p2p.Peer{IP: *bcIP, Port: *bcPort}
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}
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candidateNode := newnode.New(*ip, *port, priKey)
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candidateNode.AddPeer(bcPeer)
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candidateNode.ContactBeaconChain(*bcPeer)
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selfPeer := candidateNode.GetSelfPeer()
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selfPeer.PubKey = candidateNode.PubK
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shardIDLeaderMap = candidateNode.Leaders
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debugPrintShardIDLeaderMap(shardIDLeaderMap)
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// Do cross shard tx if there are more than one shard
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setting := txgen.Settings{
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NumOfAddress: 10000,
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CrossShard: len(shardIDLeaderMap) > 1,
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MaxNumTxsPerBatch: *maxNumTxsPerBatch,
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CrossShardRatio: *crossShardRatio,
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}
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// TODO(Richard): refactor this chuck to a single method
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// Setup a logger to stdout and log file.
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logFileName := fmt.Sprintf("./%v/txgen.log", *logFolder)
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h := log.MultiHandler(
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log.StreamHandler(os.Stdout, log.TerminalFormat(false)),
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log.Must.FileHandler(logFileName, log.LogfmtFormat()), // Log to file
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)
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log.Root().SetHandler(h)
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// Nodes containing blockchain data to mirror the shards' data in the network
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nodes := []*node.Node{}
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host, err := p2pimpl.NewHost(&selfPeer, priKey)
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if err != nil {
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panic("unable to new host in txgen")
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}
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for shardID := range shardIDLeaderMap {
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node := node.New(host, &consensus.Consensus{ShardID: shardID}, nil)
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// Assign many fake addresses so we have enough address to play with at first
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nodes = append(nodes, node)
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}
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// Client/txgenerator server node setup
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consensusObj := consensus.New(host, "0", nil, p2p.Peer{})
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clientNode := node.New(host, consensusObj, nil)
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clientNode.Client = client.NewClient(clientNode.GetHost(), shardIDLeaderMap)
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readySignal := make(chan uint32)
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go func() {
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for i := range shardIDLeaderMap {
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readySignal <- i
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}
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}()
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// This func is used to update the client's blockchain when new blocks are received from the leaders
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updateBlocksFunc := func(blocks []*types.Block) {
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log.Info("[Txgen] Received new block", "block", blocks)
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for _, block := range blocks {
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for _, node := range nodes {
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shardID := block.ShardID()
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if node.Consensus.ShardID == shardID {
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// Add it to blockchain
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log.Info("Current Block", "hash", node.Blockchain().CurrentBlock().Hash().Hex())
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log.Info("Adding block from leader", "txNum", len(block.Transactions()), "shardID", shardID, "preHash", block.ParentHash().Hex())
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node.AddNewBlock(block)
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stateMutex.Lock()
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node.Worker.UpdateCurrent()
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stateMutex.Unlock()
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readySignal <- shardID
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} else {
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continue
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}
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}
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}
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}
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clientNode.Client.UpdateBlocks = updateBlocksFunc
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// Start the client server to listen to leader's message
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go clientNode.StartServer()
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for _, leader := range shardIDLeaderMap {
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log.Debug("Client Join Shard", "leader", leader)
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clientNode.GetHost().AddPeer(&leader)
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if *libp2pPD {
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clientNode.Role = node.NewNode
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} else {
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go clientNode.JoinShard(leader)
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}
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clientNode.State = node.NodeReadyForConsensus
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}
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if *libp2pPD {
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clientNode.ServiceManagerSetup()
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clientNode.RunServices()
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clientNode.StartServer()
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} else {
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// wait for 1 seconds for client to send ping message to leader
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time.Sleep(time.Second)
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clientNode.StopPing <- struct{}{}
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}
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clientNode.State = node.NodeReadyForConsensus
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// Transaction generation process
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time.Sleep(2 * time.Second) // wait for nodes to be ready
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start := time.Now()
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totalTime := float64(*duration)
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for {
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t := time.Now()
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if totalTime > 0 && t.Sub(start).Seconds() >= totalTime {
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log.Debug("Generator timer ended.", "duration", (int(t.Sub(start))), "startTime", start, "totalTime", totalTime)
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break
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}
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select {
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case shardID := <-readySignal:
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shardIDTxsMap := make(map[uint32]types.Transactions)
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lock := sync.Mutex{}
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stateMutex.Lock()
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log.Warn("STARTING TX GEN", "gomaxprocs", runtime.GOMAXPROCS(0))
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txs, _ := txgen.GenerateSimulatedTransactionsAccount(int(shardID), nodes, setting)
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lock.Lock()
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// Put txs into corresponding shards
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shardIDTxsMap[shardID] = append(shardIDTxsMap[shardID], txs...)
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lock.Unlock()
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stateMutex.Unlock()
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lock.Lock()
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for shardID, txs := range shardIDTxsMap { // Send the txs to corresponding shards
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go func(shardID uint32, txs types.Transactions) {
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SendTxsToLeader(clientNode, shardIDLeaderMap[shardID], txs)
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}(shardID, txs)
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}
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lock.Unlock()
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case <-time.After(2 * time.Second):
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log.Warn("No new block is received so far")
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}
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}
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// Send a stop message to stop the nodes at the end
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msg := proto_node.ConstructStopMessage()
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clientNode.BroadcastMessage(clientNode.Client.GetLeaders(), msg)
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time.Sleep(3000 * time.Millisecond)
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}
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// SendTxsToLeader sends txs to leader account.
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func SendTxsToLeader(clientNode *node.Node, leader p2p.Peer, txs types.Transactions) {
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log.Debug("[Generator] Sending account-based txs to...", "leader", leader, "numTxs", len(txs))
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msg := proto_node.ConstructTransactionListMessageAccount(txs)
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clientNode.SendMessage(leader, msg)
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}
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func debugPrintShardIDLeaderMap(leaderMap map[uint32]p2p.Peer) {
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for k, v := range leaderMap {
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log.Debug("Leader", "ShardID", k, "Leader", v)
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}
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}
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