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hermez-node/synchronizer/synchronizer_test.go

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package synchronizer
import (
"context"
"encoding/json"
"fmt"
"io/ioutil"
"math/big"
"os"
"testing"
ethCommon "github.com/ethereum/go-ethereum/common"
"github.com/hermeznetwork/hermez-node/common"
dbUtils "github.com/hermeznetwork/hermez-node/db"
"github.com/hermeznetwork/hermez-node/db/historydb"
"github.com/hermeznetwork/hermez-node/db/statedb"
"github.com/hermeznetwork/hermez-node/eth"
"github.com/hermeznetwork/hermez-node/test"
"github.com/hermeznetwork/hermez-node/test/til"
"github.com/jinzhu/copier"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
var tokenConsts = map[common.TokenID]eth.ERC20Consts{}
var forceExits = map[int64][]common.ExitInfo{} // ForgeL1TxsNum -> []exit
var nonces = map[common.Idx]common.Nonce{}
type timer struct {
time int64
}
func (t *timer) Time() int64 {
currentTime := t.time
t.time++
return currentTime
}
// Check Sync output and HistoryDB state against expected values generated by
// til
func checkSyncBlock(t *testing.T, s *Synchronizer, blockNum int, block, syncBlock *common.BlockData) {
// Check Blocks
dbBlocks, err := s.historyDB.GetAllBlocks()
require.Nil(t, err)
dbBlocks = dbBlocks[1:] // ignore block 0, added by default in the DB
assert.Equal(t, blockNum, len(dbBlocks))
assert.Equal(t, int64(blockNum), dbBlocks[blockNum-1].EthBlockNum)
assert.NotEqual(t, dbBlocks[blockNum-1].Hash, dbBlocks[blockNum-2].Hash)
assert.Greater(t, dbBlocks[blockNum-1].Timestamp.Unix(), dbBlocks[blockNum-2].Timestamp.Unix())
// Check Tokens
assert.Equal(t, len(block.Rollup.AddedTokens), len(syncBlock.Rollup.AddedTokens))
dbTokens, err := s.historyDB.GetAllTokens()
require.Nil(t, err)
dbTokens = dbTokens[1:] // ignore token 0, added by default in the DB
for i, token := range block.Rollup.AddedTokens {
dbToken := dbTokens[i]
syncToken := syncBlock.Rollup.AddedTokens[i]
assert.Equal(t, block.Block.EthBlockNum, syncToken.EthBlockNum)
assert.Equal(t, token.TokenID, syncToken.TokenID)
assert.Equal(t, token.EthAddr, syncToken.EthAddr)
tokenConst := tokenConsts[token.TokenID]
assert.Equal(t, tokenConst.Name, syncToken.Name)
assert.Equal(t, tokenConst.Symbol, syncToken.Symbol)
assert.Equal(t, tokenConst.Decimals, syncToken.Decimals)
var tokenCpy historydb.TokenWithUSD
//nolint:gosec
require.Nil(t, copier.Copy(&tokenCpy, &token)) // copy common.Token to historydb.TokenWithUSD
require.Nil(t, copier.Copy(&tokenCpy, &tokenConst)) // copy common.Token to historydb.TokenWithUSD
tokenCpy.ItemID = dbToken.ItemID // we don't care about ItemID
assert.Equal(t, tokenCpy, dbToken)
}
// Check L1UserTxs
assert.Equal(t, len(block.Rollup.L1UserTxs), len(syncBlock.Rollup.L1UserTxs))
dbL1UserTxs, err := s.historyDB.GetAllL1UserTxs()
require.Nil(t, err)
// Ignore BatchNum in syncBlock.L1UserTxs because this value is set by the HistoryDB
for i := range syncBlock.Rollup.L1UserTxs {
syncBlock.Rollup.L1UserTxs[i].BatchNum = block.Rollup.L1UserTxs[i].BatchNum
}
assert.Equal(t, block.Rollup.L1UserTxs, syncBlock.Rollup.L1UserTxs)
for _, tx := range block.Rollup.L1UserTxs {
var dbTx *common.L1Tx
// Find tx in DB output
for _, _dbTx := range dbL1UserTxs {
if *tx.ToForgeL1TxsNum == *_dbTx.ToForgeL1TxsNum &&
tx.Position == _dbTx.Position {
dbTx = new(common.L1Tx)
*dbTx = _dbTx
break
}
}
assert.Equal(t, &tx, dbTx) //nolint:gosec
}
// Check Batches
assert.Equal(t, len(block.Rollup.Batches), len(syncBlock.Rollup.Batches))
dbBatches, err := s.historyDB.GetAllBatches()
require.Nil(t, err)
dbL1CoordinatorTxs, err := s.historyDB.GetAllL1CoordinatorTxs()
require.Nil(t, err)
// fmt.Printf("DBG dbL1CoordinatorTxs: %+v\n", dbL1CoordinatorTxs)
dbL2Txs, err := s.historyDB.GetAllL2Txs()
require.Nil(t, err)
// fmt.Printf("DBG dbL2Txs: %+v\n", dbL2Txs)
dbExits, err := s.historyDB.GetAllExits()
require.Nil(t, err)
// dbL1CoordinatorTxs := []common.L1Tx{}
for i, batch := range block.Rollup.Batches {
var dbBatch *common.Batch
// Find batch in DB output
for _, _dbBatch := range dbBatches {
if batch.Batch.BatchNum == _dbBatch.BatchNum {
dbBatch = new(common.Batch)
*dbBatch = _dbBatch
break
}
}
syncBatch := syncBlock.Rollup.Batches[i]
// We don't care about TotalFeesUSD. Use the syncBatch that
// has a TotalFeesUSD inserted by the HistoryDB
batch.Batch.TotalFeesUSD = syncBatch.Batch.TotalFeesUSD
batch.CreatedAccounts = syncBatch.CreatedAccounts // til doesn't output CreatedAccounts
batch.Batch.NumAccounts = len(batch.CreatedAccounts)
// Test field by field to facilitate debugging of errors
assert.Equal(t, batch.L1CoordinatorTxs, syncBatch.L1CoordinatorTxs)
assert.Equal(t, batch.L2Txs, syncBatch.L2Txs)
// In exit tree, we only check AccountIdx and Balance, because
// it's what we have precomputed before.
for j := range batch.ExitTree {
exit := &batch.ExitTree[j]
assert.Equal(t, exit.AccountIdx, syncBatch.ExitTree[j].AccountIdx)
assert.Equal(t, exit.Balance, syncBatch.ExitTree[j].Balance)
*exit = syncBatch.ExitTree[j]
}
// We are collecting fees after blockNum=2 in 2 idxs
if block.Block.EthBlockNum > 2 {
// fmt.Printf("DBG collectedFees: %+v\n", syncBatch.Batch.CollectedFees)
assert.Equal(t, 2, len(syncBatch.Batch.CollectedFees))
}
batch.Batch.CollectedFees = syncBatch.Batch.CollectedFees
assert.Equal(t, batch.Batch, syncBatch.Batch)
assert.Equal(t, batch, syncBatch)
assert.Equal(t, &batch.Batch, dbBatch) //nolint:gosec
// Check L1CoordinatorTxs from DB
for _, tx := range batch.L1CoordinatorTxs {
var dbTx *common.L1Tx
// Find tx in DB output
for _, _dbTx := range dbL1CoordinatorTxs {
if *tx.BatchNum == *_dbTx.BatchNum &&
tx.Position == _dbTx.Position {
dbTx = new(common.L1Tx)
*dbTx = _dbTx
break
}
}
assert.Equal(t, &tx, dbTx) //nolint:gosec
}
// Check L2Txs from DB
for _, tx := range batch.L2Txs {
var dbTx *common.L2Tx
// Find tx in DB output
for _, _dbTx := range dbL2Txs {
if tx.BatchNum == _dbTx.BatchNum &&
tx.Position == _dbTx.Position {
dbTx = new(common.L2Tx)
*dbTx = _dbTx
break
}
}
assert.Equal(t, &tx, dbTx) //nolint:gosec
}
// Check Exits from DB
for _, exit := range batch.ExitTree {
var dbExit *common.ExitInfo
// Find exit in DB output
for _, _dbExit := range dbExits {
if exit.BatchNum == _dbExit.BatchNum &&
exit.AccountIdx == _dbExit.AccountIdx {
dbExit = new(common.ExitInfo)
*dbExit = _dbExit
break
}
}
// Compare MerkleProof in JSON because unmarshaled 0
// big.Int leaves the internal big.Int array at nil,
// and gives trouble when comparing big.Int with
// internal big.Int array != nil but empty.
mtp, err := json.Marshal(exit.MerkleProof)
require.Nil(t, err)
dbMtp, err := json.Marshal(dbExit.MerkleProof)
require.Nil(t, err)
assert.Equal(t, mtp, dbMtp)
dbExit.MerkleProof = exit.MerkleProof
assert.Equal(t, &exit, dbExit) //nolint:gosec
}
}
}
func TestSync(t *testing.T) {
//
// Setup
//
ctx := context.Background()
// Int State DB
dir, err := ioutil.TempDir("", "tmpdb")
require.Nil(t, err)
defer assert.Nil(t, os.RemoveAll(dir))
stateDB, err := statedb.NewStateDB(dir, statedb.TypeSynchronizer, 32)
assert.Nil(t, err)
// Init History DB
pass := os.Getenv("POSTGRES_PASS")
db, err := dbUtils.InitSQLDB(5432, "localhost", "hermez", pass, "hermez")
require.Nil(t, err)
historyDB := historydb.NewHistoryDB(db)
// Clear DB
test.WipeDB(historyDB.DB())
// Init eth client
var timer timer
clientSetup := test.NewClientSetupExample()
bootCoordAddr := clientSetup.AuctionVariables.BootCoordinator
client := test.NewClient(true, &timer, &ethCommon.Address{}, clientSetup)
// Create Synchronizer
s, err := NewSynchronizer(client, historyDB, stateDB, Config{
StartBlockNum: ConfigStartBlockNum{
Rollup: 1,
Auction: 1,
WDelayer: 1,
},
})
require.Nil(t, err)
//
// First Sync from an initial state
//
// Test Sync for rollup genesis block
syncBlock, discards, err := s.Sync2(ctx, nil)
require.Nil(t, err)
require.Nil(t, discards)
require.NotNil(t, syncBlock)
assert.Equal(t, int64(1), syncBlock.Block.EthBlockNum)
dbBlocks, err := s.historyDB.GetAllBlocks()
require.Nil(t, err)
assert.Equal(t, 2, len(dbBlocks))
assert.Equal(t, int64(1), dbBlocks[1].EthBlockNum)
// Sync again and expect no new blocks
syncBlock, discards, err = s.Sync2(ctx, nil)
require.Nil(t, err)
require.Nil(t, discards)
require.Nil(t, syncBlock)
//
// Generate blockchain and smart contract data, and fill the test smart contracts
//
// Generate blockchain data with til
set1 := `
Type: Blockchain
AddToken(1)
AddToken(2)
AddToken(3)
CreateAccountDeposit(1) C: 2000 // Idx=256+2=258
CreateAccountDeposit(2) A: 2000 // Idx=256+3=259
CreateAccountDeposit(1) D: 500 // Idx=256+4=260
CreateAccountDeposit(2) B: 500 // Idx=256+5=261
CreateAccountDeposit(2) C: 500 // Idx=256+6=262
CreateAccountCoordinator(1) A // Idx=256+0=256
CreateAccountCoordinator(1) B // Idx=256+1=257
> batchL1 // forge L1UserTxs{nil}, freeze defined L1UserTxs{5}
> batchL1 // forge defined L1UserTxs{5}, freeze L1UserTxs{nil}
> block // blockNum=2
CreateAccountDepositTransfer(1) E-A: 1000, 200 // Idx=256+7=263
ForceExit(1) A: 100
ForceTransfer(1) A-D: 100
Transfer(1) C-A: 100 (200)
Exit(1) D: 30 (200)
> batchL1 // forge L1UserTxs{nil}, freeze defined L1UserTxs{2}
> batchL1 // forge L1UserTxs{2}, freeze defined L1UserTxs{nil}
> block // blockNum=3
`
tc := til.NewContext(common.RollupConstMaxL1UserTx)
blocks, err := tc.GenerateBlocks(set1)
require.Nil(t, err)
// Sanity check
require.Equal(t, 2, len(blocks))
// blocks 0 (blockNum=2)
i := 0
require.Equal(t, 2, int(blocks[i].Block.EthBlockNum))
require.Equal(t, 3, len(blocks[i].Rollup.AddedTokens))
require.Equal(t, 5, len(blocks[i].Rollup.L1UserTxs))
require.Equal(t, 2, len(blocks[i].Rollup.Batches))
require.Equal(t, 2, len(blocks[i].Rollup.Batches[0].L1CoordinatorTxs))
// blocks 1 (blockNum=3)
i = 1
require.Equal(t, 3, int(blocks[i].Block.EthBlockNum))
require.Equal(t, 3, len(blocks[i].Rollup.L1UserTxs))
require.Equal(t, 2, len(blocks[i].Rollup.Batches))
require.Equal(t, 2, len(blocks[i].Rollup.Batches[0].L2Txs))
// Generate extra required data
for _, block := range blocks {
for _, token := range block.Rollup.AddedTokens {
consts := eth.ERC20Consts{
Name: fmt.Sprintf("Token %d", token.TokenID),
Symbol: fmt.Sprintf("TK%d", token.TokenID),
Decimals: 18,
}
tokenConsts[token.TokenID] = consts
client.CtlAddERC20(token.EthAddr, consts)
}
}
// Add block data to the smart contracts
for _, block := range blocks {
for _, token := range block.Rollup.AddedTokens {
_, err := client.RollupAddTokenSimple(token.EthAddr, clientSetup.RollupVariables.FeeAddToken)
require.Nil(t, err)
}
for _, tx := range block.Rollup.L1UserTxs {
client.CtlSetAddr(tx.FromEthAddr)
_, err := client.RollupL1UserTxERC20ETH(tx.FromBJJ, int64(tx.FromIdx), tx.LoadAmount, tx.Amount,
uint32(tx.TokenID), int64(tx.ToIdx))
require.Nil(t, err)
}
client.CtlSetAddr(bootCoordAddr)
feeIdxCoordinator := []common.Idx{}
if block.Block.EthBlockNum > 2 {
// After blockNum=2 we have some accounts, use them as
// coordinator owned to receive fees.
feeIdxCoordinator = []common.Idx{common.Idx(256), common.Idx(259)}
}
for _, batch := range block.Rollup.Batches {
_, err := client.RollupForgeBatch(&eth.RollupForgeBatchArgs{
NewLastIdx: batch.Batch.LastIdx,
NewStRoot: batch.Batch.StateRoot,
NewExitRoot: batch.Batch.ExitRoot,
L1CoordinatorTxs: batch.L1CoordinatorTxs,
L1CoordinatorTxsAuths: [][]byte{}, // Intentionally empty
L2TxsData: batch.L2Txs,
FeeIdxCoordinator: feeIdxCoordinator,
// Circuit selector
VerifierIdx: 0, // Intentionally empty
L1Batch: batch.L1Batch,
ProofA: [2]*big.Int{}, // Intentionally empty
ProofB: [2][2]*big.Int{}, // Intentionally empty
ProofC: [2]*big.Int{}, // Intentionally empty
})
require.Nil(t, err)
}
// Mine block and sync
client.CtlMineBlock()
}
// Fill extra fields not generated by til in til block
openToForge := int64(0)
toForgeL1TxsNum := int64(0)
l1UserTxsLen := map[int64]int{} // ForgeL1TxsNum -> len(L1UserTxs)
for i := range blocks {
block := &blocks[i]
// Count number of L1UserTxs in each queue, to figure out later
// position of L1CoordinatorTxs and L2Txs
for j := range block.Rollup.L1UserTxs {
tx := &block.Rollup.L1UserTxs[j]
l1UserTxsLen[*tx.ToForgeL1TxsNum]++
if tx.Type == common.TxTypeForceExit {
forceExits[*tx.ToForgeL1TxsNum] = append(forceExits[*tx.ToForgeL1TxsNum],
common.ExitInfo{
AccountIdx: tx.FromIdx,
Balance: tx.Amount,
})
}
}
for j := range block.Rollup.Batches {
batch := &block.Rollup.Batches[j]
if batch.L1Batch {
// Set BatchNum for forged L1UserTxs to til blocks
bn := batch.Batch.BatchNum
for k := range blocks {
block := &blocks[k]
for l := range block.Rollup.L1UserTxs {
tx := &block.Rollup.L1UserTxs[l]
if *tx.ToForgeL1TxsNum == openToForge {
tx.BatchNum = &bn
}
}
}
openToForge++
}
batch.Batch.EthBlockNum = block.Block.EthBlockNum
batch.Batch.ForgerAddr = bootCoordAddr // til doesn't fill the batch forger addr
if batch.L1Batch {
toForgeL1TxsNumCpy := toForgeL1TxsNum
batch.Batch.ForgeL1TxsNum = &toForgeL1TxsNumCpy // til doesn't fill the ForgeL1TxsNum
toForgeL1TxsNum++
}
batchNum := batch.Batch.BatchNum
for k := range batch.L1CoordinatorTxs {
tx := &batch.L1CoordinatorTxs[k]
tx.BatchNum = &batchNum
tx.EthBlockNum = batch.Batch.EthBlockNum
}
}
}
// Fill expected positions in L1CoordinatorTxs and L2Txs
for i := range blocks {
block := &blocks[i]
for j := range block.Rollup.Batches {
batch := &block.Rollup.Batches[j]
position := 0
if batch.L1Batch {
position = l1UserTxsLen[*batch.Batch.ForgeL1TxsNum]
}
for k := range batch.L1CoordinatorTxs {
tx := &batch.L1CoordinatorTxs[k]
tx.Position = position
position++
nTx, err := common.NewL1Tx(tx)
require.Nil(t, err)
*tx = *nTx
}
for k := range batch.L2Txs {
tx := &batch.L2Txs[k]
tx.Position = position
position++
nonces[tx.FromIdx]++
tx.Nonce = nonces[tx.FromIdx]
nTx, err := common.NewL2Tx(tx)
require.Nil(t, err)
*tx = *nTx
}
}
}
// Fill ExitTree (only AccountIdx and Balance)
for i := range blocks {
block := &blocks[i]
for j := range block.Rollup.Batches {
batch := &block.Rollup.Batches[j]
if batch.L1Batch {
for forgeL1TxsNum, exits := range forceExits {
if forgeL1TxsNum == *batch.Batch.ForgeL1TxsNum {
batch.ExitTree = append(batch.ExitTree, exits...)
}
}
}
for k := range batch.L2Txs {
tx := &batch.L2Txs[k]
if tx.Type == common.TxTypeExit {
batch.ExitTree = append(batch.ExitTree, common.ExitInfo{
AccountIdx: tx.FromIdx,
Balance: tx.Amount,
})
}
}
}
}
//
// Sync to synchronize the current state from the test smart contracts,
// and check the outcome
//
// Block 2
syncBlock, discards, err = s.Sync2(ctx, nil)
require.Nil(t, err)
require.Nil(t, discards)
require.NotNil(t, syncBlock)
assert.Equal(t, int64(2), syncBlock.Block.EthBlockNum)
checkSyncBlock(t, s, 2, &blocks[0], syncBlock)
// Block 3
syncBlock, discards, err = s.Sync2(ctx, nil)
require.Nil(t, err)
require.Nil(t, discards)
require.NotNil(t, syncBlock)
assert.Equal(t, int64(3), syncBlock.Block.EthBlockNum)
checkSyncBlock(t, s, 3, &blocks[1], syncBlock)
// TODO: Reorg will be properly tested once we have the mock ethClient implemented
/*
// Force a Reorg
lastSavedBlock, err := historyDB.GetLastBlock()
require.Nil(t, err)
lastSavedBlock.EthBlockNum++
err = historyDB.AddBlock(lastSavedBlock)
require.Nil(t, err)
lastSavedBlock.EthBlockNum++
err = historyDB.AddBlock(lastSavedBlock)
require.Nil(t, err)
log.Debugf("Wait for the blockchain to generate some blocks...")
time.Sleep(40 * time.Second)
err = s.Sync()
require.Nil(t, err)
*/
}