The core protocol of WoopChain
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woop/client/btctxgen/main.go

237 lines
7.5 KiB

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package main
import (
"flag"
"fmt"
"harmony-benchmark/blockchain"
"harmony-benchmark/client"
"harmony-benchmark/client/btctxiter"
"harmony-benchmark/configr"
"harmony-benchmark/consensus"
"harmony-benchmark/log"
"harmony-benchmark/node"
"harmony-benchmark/p2p"
proto_node "harmony-benchmark/proto/node"
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"sync"
"time"
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"github.com/piotrnar/gocoin/lib/btc"
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)
type txGenSettings struct {
crossShard bool
maxNumTxsPerBatch int
}
type TXRef struct {
txID [32]byte
shardID uint32
}
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var (
utxoPoolMutex sync.Mutex
setting txGenSettings
btcTXIter btctxiter.BTCTXIterator
utxoMapping map[string]TXRef // btcTXID to { txID, shardID }
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)
// Generates at most "maxNumTxs" number of simulated transactions based on the current UtxoPools of all shards.
// The transactions are generated by going through the existing utxos and
// randomly select a subset of them as the input for each new transaction. The output
// address of the new transaction are randomly selected from [0 - N), where N is the total number of fake addresses.
//
// When crossShard=true, besides the selected utxo input, select another valid utxo as input from the same address in a second shard.
// Similarly, generate another utxo output in that second shard.
//
// NOTE: the genesis block should contain N coinbase transactions which add
// token (1000) to each address in [0 - N). See node.AddTestingAddresses()
//
// Params:
// shardID - the shardID for current shard
// dataNodes - nodes containing utxopools of all shards
// Returns:
// all single-shard txs
// all cross-shard txs
func generateSimulatedTransactions(shardID int, dataNodes []*node.Node) ([]*blockchain.Transaction, []*blockchain.Transaction) {
/*
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UTXO map structure:
{
address: {
txID: {
outputIndex: value
}
}
}
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*/
utxoPoolMutex.Lock()
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txs := []*blockchain.Transaction{}
crossTxs := []*blockchain.Transaction{}
nodeShardID := dataNodes[shardID].Consensus.ShardID
cnt := 0
LOOP:
for true {
btcTx := btcTXIter.NextTx()
tx := blockchain.Transaction{}
isCrossShardTx := false
if btcTx.IsCoinBase() {
// TODO: merge txID with txIndex in TxInput
tx.TxInput = []blockchain.TXInput{blockchain.TXInput{[32]byte{}, -1, "", nodeShardID}}
} else {
for _, btcTXI := range btcTx.TxIn {
btcTXIDStr := btc.NewUint256(btcTXI.Input.Hash[:]).String()
txi := utxoMapping[btcTXIDStr]
tx.TxInput = append(tx.TxInput, blockchain.TXInput{txi.txID, int(btcTXI.Input.Vout), "", txi.shardID})
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}
}
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for _, txo := range btcTx.TxOut {
txoAddr := btc.NewAddrFromPkScript(txo.Pk_script, false)
if txoAddr == nil {
log.Warn("TxOut: can't decode address")
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}
txout := blockchain.TXOutput{int(txo.Value), txoAddr.String(), nodeShardID}
tx.TxOutput = append(tx.TxOutput, txout)
}
tx.SetID()
utxoMapping[btcTx.Hash.String()] = TXRef{tx.ID, nodeShardID}
if isCrossShardTx {
crossTxs = append(crossTxs, &tx)
} else {
txs = append(txs, &tx)
}
// log.Debug("[Generator] transformed btc tx", "block height", btcTXIter.GetBlockIndex(), "block tx count", btcTXIter.GetBlock().TxCount, "block tx cnt", len(btcTXIter.GetBlock().Txs), "txi", len(tx.TxInput), "txo", len(tx.TxOutput), "txCount", cnt)
cnt++
if cnt >= setting.maxNumTxsPerBatch {
break LOOP
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}
}
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utxoPoolMutex.Unlock()
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log.Debug("[Generator] generated transations", "single-shard", len(txs), "cross-shard", len(crossTxs))
return txs, crossTxs
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}
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func initClient(clientNode *node.Node, clientPort string, leaders *[]p2p.Peer, nodes *[]*node.Node) {
if clientPort == "" {
return
}
clientNode.Client = client.NewClient(leaders)
// This func is used to update the client's utxopool when new blocks are received from the leaders
updateBlocksFunc := func(blocks []*blockchain.Block) {
log.Debug("Received new block from leader", "len", len(blocks))
for _, block := range blocks {
for _, node := range *nodes {
if node.Consensus.ShardID == block.ShardId {
log.Debug("Adding block from leader", "shardId", block.ShardId)
// Add it to blockchain
utxoPoolMutex.Lock()
node.AddNewBlock(block)
utxoPoolMutex.Unlock()
} else {
continue
}
}
}
}
clientNode.Client.UpdateBlocks = updateBlocksFunc
// Start the client server to listen to leader's message
go func() {
clientNode.StartServer(clientPort)
}()
}
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func main() {
configFile := flag.String("config_file", "local_config.txt", "file containing all ip addresses and config")
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maxNumTxsPerBatch := flag.Int("max_num_txs_per_batch", 100, "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")
flag.Parse()
// Read the configs
config, _ := configr.ReadConfigFile(*configFile)
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leaders, shardIDs := configr.GetLeadersAndShardIds(&config)
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// Do cross shard tx if there are more than one shard
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setting.crossShard = len(shardIDs) > 1
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setting.maxNumTxsPerBatch = *maxNumTxsPerBatch
// TODO(Richard): refactor this chuck to a single method
// Setup a logger to stdout and log file.
logFileName := fmt.Sprintf("./%v/txgen.log", *logFolder)
h := log.MultiHandler(
log.StdoutHandler,
log.Must.FileHandler(logFileName, log.LogfmtFormat()), // Log to file
// log.Must.NetHandler("tcp", ":3000", log.JSONFormat()) // Log to remote
)
log.Root().SetHandler(h)
btcTXIter.Init()
utxoMapping = make(map[string]TXRef)
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// Nodes containing utxopools to mirror the shards' data in the network
nodes := []*node.Node{}
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for _, shardID := range shardIDs {
nodes = append(nodes, node.New(&consensus.Consensus{ShardID: shardID}))
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}
// Client/txgenerator server node setup
clientPort := configr.GetClientPort(&config)
consensusObj := consensus.NewConsensus("0", clientPort, "0", nil, p2p.Peer{})
clientNode := node.New(consensusObj)
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initClient(clientNode, clientPort, &leaders, &nodes)
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// Transaction generation process
time.Sleep(10 * time.Second) // wait for nodes to be ready
start := time.Now()
totalTime := 300.0 //run for 5 minutes
for true {
t := time.Now()
if t.Sub(start).Seconds() >= totalTime {
log.Debug("Generator timer ended.", "duration", (int(t.Sub(start))), "startTime", start, "totalTime", totalTime)
break
}
allCrossTxs := []*blockchain.Transaction{}
// Generate simulated transactions
for i, leader := range leaders {
txs, crossTxs := generateSimulatedTransactions(i, nodes)
allCrossTxs = append(allCrossTxs, crossTxs...)
log.Debug("[Generator] Sending txs ...", "leader", leader, "numTxs", len(txs), "numCrossTxs", len(crossTxs))
msg := proto_node.ConstructTransactionListMessage(txs)
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p2p.SendMessage(leader, msg)
// Note cross shard txs are later sent in batch
}
if len(allCrossTxs) > 0 {
log.Debug("[Generator] Broadcasting cross-shard txs ...", "allCrossTxs", len(allCrossTxs))
msg := proto_node.ConstructTransactionListMessage(allCrossTxs)
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p2p.BroadcastMessage(leaders, msg)
// Put cross shard tx into a pending list waiting for proofs from leaders
if clientPort != "" {
clientNode.Client.PendingCrossTxsMutex.Lock()
for _, tx := range allCrossTxs {
clientNode.Client.PendingCrossTxs[tx.ID] = tx
}
clientNode.Client.PendingCrossTxsMutex.Unlock()
}
}
time.Sleep(500 * time.Millisecond) // Send a batch of transactions periodically
}
// Send a stop message to stop the nodes at the end
msg := proto_node.ConstructStopMessage()
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peers := append(configr.GetValidators(*configFile), leaders...)
p2p.BroadcastMessage(peers, msg)
}