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hermez-node/txprocessor/txprocessor_test.go

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package txprocessor
import (
"io/ioutil"
"math/big"
"os"
"sort"
"testing"
ethCommon "github.com/ethereum/go-ethereum/common"
"github.com/hermeznetwork/hermez-node/common"
"github.com/hermeznetwork/hermez-node/db/statedb"
"github.com/hermeznetwork/hermez-node/log"
"github.com/hermeznetwork/hermez-node/test/til"
"github.com/hermeznetwork/hermez-node/test/txsets"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
func checkBalance(t *testing.T, tc *til.Context, sdb *statedb.StateDB, username string,
tokenid int, expected string) {
idx := tc.Users[username].Accounts[common.TokenID(tokenid)].Idx
acc, err := sdb.GetAccount(idx)
require.NoError(t, err)
assert.Equal(t, expected, acc.Balance.String())
}
func checkBalanceByIdx(t *testing.T, sdb *statedb.StateDB, idx common.Idx, expected string) {
acc, err := sdb.GetAccount(idx)
require.NoError(t, err)
assert.Equal(t, expected, acc.Balance.String())
}
func TestComputeEffectiveAmounts(t *testing.T) {
dir, err := ioutil.TempDir("", "tmpdb")
require.NoError(t, err)
defer assert.NoError(t, os.RemoveAll(dir))
sdb, err := statedb.NewStateDB(statedb.Config{Path: dir, Keep: 128,
Type: statedb.TypeSynchronizer, NLevels: 32})
assert.NoError(t, err)
set := `
Type: Blockchain
AddToken(1)
CreateAccountDeposit(0) A: 10
CreateAccountDeposit(0) B: 10
CreateAccountDeposit(1) C: 10
> batchL1
> batchL1
> block
`
chainID := uint16(0)
tc := til.NewContext(chainID, common.RollupConstMaxL1UserTx)
blocks, err := tc.GenerateBlocks(set)
require.NoError(t, err)
config := Config{
NLevels: 32,
MaxFeeTx: 64,
MaxTx: 512,
MaxL1Tx: 16,
ChainID: chainID,
}
tp := NewTxProcessor(sdb, config)
_, err = tp.ProcessTxs(nil, blocks[0].Rollup.L1UserTxs, nil, nil)
require.NoError(t, err)
tx := common.L1Tx{
FromIdx: 256,
ToIdx: 257,
Amount: big.NewInt(10),
DepositAmount: big.NewInt(0),
FromEthAddr: tc.Users["A"].Addr,
UserOrigin: true,
}
tp.computeEffectiveAmounts(&tx)
assert.Equal(t, big.NewInt(0), tx.EffectiveDepositAmount)
assert.Equal(t, big.NewInt(10), tx.EffectiveAmount)
// expect error due not enough funds
tx = common.L1Tx{
FromIdx: 256,
ToIdx: 257,
Amount: big.NewInt(11),
DepositAmount: big.NewInt(0),
FromEthAddr: tc.Users["A"].Addr,
UserOrigin: true,
}
tp.computeEffectiveAmounts(&tx)
assert.Equal(t, big.NewInt(0), tx.EffectiveDepositAmount)
assert.Equal(t, big.NewInt(0), tx.EffectiveAmount)
// expect no-error as there are enough funds in a
// CreateAccountDepositTransfer transction
tx = common.L1Tx{
FromIdx: 0,
ToIdx: 257,
Amount: big.NewInt(10),
DepositAmount: big.NewInt(10),
UserOrigin: true,
}
tp.computeEffectiveAmounts(&tx)
assert.Equal(t, big.NewInt(10), tx.EffectiveDepositAmount)
assert.Equal(t, big.NewInt(10), tx.EffectiveAmount)
// expect error due not enough funds in a CreateAccountDepositTransfer
// transction
tx = common.L1Tx{
FromIdx: 0,
ToIdx: 257,
Amount: big.NewInt(11),
DepositAmount: big.NewInt(10),
UserOrigin: true,
}
tp.computeEffectiveAmounts(&tx)
assert.Equal(t, big.NewInt(10), tx.EffectiveDepositAmount)
assert.Equal(t, big.NewInt(0), tx.EffectiveAmount)
// expect error due not same TokenID
tx = common.L1Tx{
FromIdx: 256,
ToIdx: 258,
Amount: big.NewInt(5),
DepositAmount: big.NewInt(0),
FromEthAddr: tc.Users["A"].Addr,
UserOrigin: true,
}
tp.computeEffectiveAmounts(&tx)
assert.Equal(t, big.NewInt(0), tx.EffectiveDepositAmount)
assert.Equal(t, big.NewInt(0), tx.EffectiveAmount)
// expect error due not same EthAddr
tx = common.L1Tx{
FromIdx: 256,
ToIdx: 257,
Amount: big.NewInt(8),
DepositAmount: big.NewInt(0),
FromEthAddr: tc.Users["B"].Addr,
UserOrigin: true,
}
tp.computeEffectiveAmounts(&tx)
assert.Equal(t, big.NewInt(0), tx.EffectiveDepositAmount)
assert.Equal(t, big.NewInt(0), tx.EffectiveAmount)
// expect on TxTypeDepositTransfer EffectiveAmount=0, but
// EffectiveDepositAmount!=0, due not enough funds to make the transfer
tx = common.L1Tx{
FromIdx: 256,
ToIdx: 257,
Amount: big.NewInt(20),
DepositAmount: big.NewInt(8),
FromEthAddr: tc.Users["A"].Addr,
UserOrigin: true,
}
tp.computeEffectiveAmounts(&tx)
assert.Equal(t, big.NewInt(8), tx.EffectiveDepositAmount)
assert.Equal(t, big.NewInt(0), tx.EffectiveAmount)
// expect on TxTypeDepositTransfer EffectiveAmount=0, but
// EffectiveDepositAmount!=0, due different EthAddr from FromIdx
// address
tx = common.L1Tx{
FromIdx: 256,
ToIdx: 257,
Amount: big.NewInt(8),
DepositAmount: big.NewInt(8),
FromEthAddr: tc.Users["B"].Addr,
UserOrigin: true,
}
tp.computeEffectiveAmounts(&tx)
assert.Equal(t, big.NewInt(8), tx.EffectiveDepositAmount)
assert.Equal(t, big.NewInt(0), tx.EffectiveAmount)
// CreateAccountDepositTransfer for TokenID=1 when receiver does not
// have an account for that TokenID, expect that the
// EffectiveDepositAmount=DepositAmount, but EffectiveAmount==0
tx = common.L1Tx{
FromIdx: 0,
ToIdx: 257,
Amount: big.NewInt(8),
DepositAmount: big.NewInt(8),
FromEthAddr: tc.Users["A"].Addr,
TokenID: 2,
UserOrigin: true,
Type: common.TxTypeCreateAccountDepositTransfer,
}
tp.computeEffectiveAmounts(&tx)
assert.Equal(t, big.NewInt(8), tx.EffectiveDepositAmount)
assert.Equal(t, big.NewInt(0), tx.EffectiveAmount)
// DepositTransfer for TokenID=1 when receiver does not have an account
// for that TokenID, expect that the
// EffectiveDepositAmount=DepositAmount, but EffectiveAmount=0
tx = common.L1Tx{
FromIdx: 258,
ToIdx: 256,
Amount: big.NewInt(8),
DepositAmount: big.NewInt(8),
FromEthAddr: tc.Users["C"].Addr,
TokenID: 1,
UserOrigin: true,
Type: common.TxTypeDepositTransfer,
}
tp.computeEffectiveAmounts(&tx)
assert.Equal(t, big.NewInt(8), tx.EffectiveDepositAmount)
assert.Equal(t, big.NewInt(0), tx.EffectiveAmount)
}
func TestProcessTxsBalances(t *testing.T) {
dir, err := ioutil.TempDir("", "tmpdb")
require.NoError(t, err)
defer assert.NoError(t, os.RemoveAll(dir))
sdb, err := statedb.NewStateDB(statedb.Config{Path: dir, Keep: 128,
Type: statedb.TypeSynchronizer, NLevels: 32})
assert.NoError(t, err)
chainID := uint16(0)
// generate test transactions from test.SetBlockchainMinimumFlow0 code
tc := til.NewContext(chainID, common.RollupConstMaxL1UserTx)
blocks, err := tc.GenerateBlocks(txsets.SetBlockchainMinimumFlow0)
require.NoError(t, err)
config := Config{
NLevels: 32,
MaxFeeTx: 64,
MaxTx: 512,
MaxL1Tx: 16,
ChainID: chainID,
}
tp := NewTxProcessor(sdb, config)
log.Debug("block:0 batch:1, only L1CoordinatorTxs")
_, err = tp.ProcessTxs(nil, nil, blocks[0].Rollup.Batches[0].L1CoordinatorTxs, nil)
require.NoError(t, err)
assert.Equal(t, "0", tp.s.MT.Root().BigInt().String())
log.Debug("block:0 batch:2")
l1UserTxs := []common.L1Tx{}
l2Txs := common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[1].L2Txs)
_, err = tp.ProcessTxs(nil, l1UserTxs, blocks[0].Rollup.Batches[1].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
assert.Equal(t, "0", tp.s.MT.Root().BigInt().String())
log.Debug("block:0 batch:3")
l1UserTxs = til.L1TxsToCommonL1Txs(tc.Queues[*blocks[0].Rollup.Batches[2].Batch.ForgeL1TxsNum])
l2Txs = common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[2].L2Txs)
_, err = tp.ProcessTxs(nil, l1UserTxs, blocks[0].Rollup.Batches[2].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
checkBalance(t, tc, sdb, "A", 0, "500")
assert.Equal(t,
"10303926118213025243660668481827257778714122989909761705455084995854999537039",
tp.s.MT.Root().BigInt().String())
log.Debug("block:0 batch:4")
l1UserTxs = til.L1TxsToCommonL1Txs(tc.Queues[*blocks[0].Rollup.Batches[3].Batch.ForgeL1TxsNum])
l2Txs = common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[3].L2Txs)
_, err = tp.ProcessTxs(nil, l1UserTxs, blocks[0].Rollup.Batches[3].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
checkBalance(t, tc, sdb, "A", 0, "500")
checkBalance(t, tc, sdb, "A", 1, "500")
assert.Equal(t,
"8530501758307821623834726627056947648600328521261384179220598288701741436285",
tp.s.MT.Root().BigInt().String())
log.Debug("block:0 batch:5")
l1UserTxs = til.L1TxsToCommonL1Txs(tc.Queues[*blocks[0].Rollup.Batches[4].Batch.ForgeL1TxsNum])
l2Txs = common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[4].L2Txs)
_, err = tp.ProcessTxs(nil, l1UserTxs, blocks[0].Rollup.Batches[4].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
checkBalance(t, tc, sdb, "A", 0, "500")
checkBalance(t, tc, sdb, "A", 1, "500")
assert.Equal(t,
"8530501758307821623834726627056947648600328521261384179220598288701741436285",
tp.s.MT.Root().BigInt().String())
log.Debug("block:0 batch:6")
l1UserTxs = til.L1TxsToCommonL1Txs(tc.Queues[*blocks[0].Rollup.Batches[5].Batch.ForgeL1TxsNum])
l2Txs = common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[5].L2Txs)
_, err = tp.ProcessTxs(nil, l1UserTxs, blocks[0].Rollup.Batches[5].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
checkBalance(t, tc, sdb, "A", 0, "600")
checkBalance(t, tc, sdb, "A", 1, "500")
checkBalance(t, tc, sdb, "B", 0, "400")
assert.Equal(t,
"9061858435528794221929846392270405504056106238451760714188625065949729889651",
tp.s.MT.Root().BigInt().String())
coordIdxs := []common.Idx{261, 263}
log.Debug("block:0 batch:7")
l1UserTxs = til.L1TxsToCommonL1Txs(tc.Queues[*blocks[0].Rollup.Batches[6].Batch.ForgeL1TxsNum])
l2Txs = common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[6].L2Txs)
_, err = tp.ProcessTxs(coordIdxs, l1UserTxs, blocks[0].Rollup.Batches[6].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
checkBalance(t, tc, sdb, "Coord", 0, "10")
checkBalance(t, tc, sdb, "Coord", 1, "20")
checkBalance(t, tc, sdb, "A", 0, "600")
checkBalance(t, tc, sdb, "A", 1, "280")
checkBalance(t, tc, sdb, "B", 0, "290")
checkBalance(t, tc, sdb, "B", 1, "200")
checkBalance(t, tc, sdb, "C", 0, "100")
checkBalance(t, tc, sdb, "D", 0, "800")
assert.Equal(t,
"4392049343656836675348565048374261353937130287163762821533580216441778455298",
tp.s.MT.Root().BigInt().String())
log.Debug("block:0 batch:8")
l1UserTxs = til.L1TxsToCommonL1Txs(tc.Queues[*blocks[0].Rollup.Batches[7].Batch.ForgeL1TxsNum])
l2Txs = common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[7].L2Txs)
_, err = tp.ProcessTxs(coordIdxs, l1UserTxs, blocks[0].Rollup.Batches[7].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
checkBalance(t, tc, sdb, "Coord", 0, "35")
checkBalance(t, tc, sdb, "Coord", 1, "30")
checkBalance(t, tc, sdb, "A", 0, "430")
checkBalance(t, tc, sdb, "A", 1, "280")
checkBalance(t, tc, sdb, "B", 0, "390")
checkBalance(t, tc, sdb, "B", 1, "90")
checkBalance(t, tc, sdb, "C", 0, "45")
checkBalance(t, tc, sdb, "C", 1, "100")
checkBalance(t, tc, sdb, "D", 0, "800")
assert.Equal(t,
"8905191229562583213069132470917469035834300549892959854483573322676101624713",
tp.s.MT.Root().BigInt().String())
coordIdxs = []common.Idx{262}
log.Debug("block:1 batch:1")
l1UserTxs = til.L1TxsToCommonL1Txs(tc.Queues[*blocks[1].Rollup.Batches[0].Batch.ForgeL1TxsNum])
l2Txs = common.L2TxsToPoolL2Txs(blocks[1].Rollup.Batches[0].L2Txs)
_, err = tp.ProcessTxs(coordIdxs, l1UserTxs, blocks[1].Rollup.Batches[0].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
checkBalance(t, tc, sdb, "Coord", 1, "30")
checkBalance(t, tc, sdb, "Coord", 0, "35")
checkBalance(t, tc, sdb, "A", 0, "730")
checkBalance(t, tc, sdb, "A", 1, "280")
checkBalance(t, tc, sdb, "B", 0, "380")
checkBalance(t, tc, sdb, "B", 1, "90")
checkBalance(t, tc, sdb, "C", 0, "845")
checkBalance(t, tc, sdb, "C", 1, "100")
checkBalance(t, tc, sdb, "D", 0, "470")
assert.Equal(t,
"12063160053709941400160547588624831667157042937323422396363359123696668555050",
tp.s.MT.Root().BigInt().String())
coordIdxs = []common.Idx{}
log.Debug("block:1 batch:2")
l1UserTxs = til.L1TxsToCommonL1Txs(tc.Queues[*blocks[1].Rollup.Batches[1].Batch.ForgeL1TxsNum])
l2Txs = common.L2TxsToPoolL2Txs(blocks[1].Rollup.Batches[1].L2Txs)
_, err = tp.ProcessTxs(coordIdxs, l1UserTxs, blocks[1].Rollup.Batches[1].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
assert.Equal(t,
"20375835796927052406196249140510136992262283055544831070430919054949353249481",
tp.s.MT.Root().BigInt().String())
// use Set of PoolL2 txs
poolL2Txs, err := tc.GeneratePoolL2Txs(txsets.SetPoolL2MinimumFlow1)
assert.NoError(t, err)
_, err = tp.ProcessTxs(coordIdxs, []common.L1Tx{}, []common.L1Tx{}, poolL2Txs)
require.NoError(t, err)
checkBalance(t, tc, sdb, "Coord", 1, "30")
checkBalance(t, tc, sdb, "Coord", 0, "35")
checkBalance(t, tc, sdb, "A", 0, "510")
checkBalance(t, tc, sdb, "A", 1, "170")
checkBalance(t, tc, sdb, "B", 0, "480")
checkBalance(t, tc, sdb, "B", 1, "190")
checkBalance(t, tc, sdb, "C", 0, "845")
checkBalance(t, tc, sdb, "C", 1, "100")
checkBalance(t, tc, sdb, "D", 0, "360")
checkBalance(t, tc, sdb, "F", 0, "100")
}
func TestProcessTxsSynchronizer(t *testing.T) {
dir, err := ioutil.TempDir("", "tmpdb")
require.NoError(t, err)
defer assert.NoError(t, os.RemoveAll(dir))
sdb, err := statedb.NewStateDB(statedb.Config{Path: dir, Keep: 128,
Type: statedb.TypeSynchronizer, NLevels: 32})
assert.NoError(t, err)
chainID := uint16(0)
// generate test transactions from test.SetBlockchain0 code
tc := til.NewContext(chainID, common.RollupConstMaxL1UserTx)
blocks, err := tc.GenerateBlocks(txsets.SetBlockchain0)
require.NoError(t, err)
assert.Equal(t, 31, len(blocks[0].Rollup.L1UserTxs))
assert.Equal(t, 4, len(blocks[0].Rollup.Batches[0].L1CoordinatorTxs))
assert.Equal(t, 0, len(blocks[0].Rollup.Batches[1].L1CoordinatorTxs))
assert.Equal(t, 22, len(blocks[0].Rollup.Batches[2].L2Txs))
assert.Equal(t, 1, len(blocks[1].Rollup.Batches[0].L1CoordinatorTxs))
assert.Equal(t, 62, len(blocks[1].Rollup.Batches[0].L2Txs))
assert.Equal(t, 1, len(blocks[1].Rollup.Batches[1].L1CoordinatorTxs))
assert.Equal(t, 8, len(blocks[1].Rollup.Batches[1].L2Txs))
// Coordinator Idx where to send the fees
coordIdxs := []common.Idx{256, 257, 258, 259}
// Idx of user 'A'
idxA1 := tc.Users["A"].Accounts[common.TokenID(1)].Idx
config := Config{
NLevels: 32,
MaxFeeTx: 64,
MaxTx: 512,
MaxL1Tx: 32,
ChainID: chainID,
}
tp := NewTxProcessor(sdb, config)
// Process the 1st batch, which contains the L1CoordinatorTxs necessary
// to create the Coordinator accounts to receive the fees
log.Debug("block:0 batch:1, only L1CoordinatorTxs")
ptOut, err := tp.ProcessTxs(nil, nil, blocks[0].Rollup.Batches[0].L1CoordinatorTxs, nil)
require.NoError(t, err)
assert.Equal(t, 4, len(ptOut.CreatedAccounts))
assert.Equal(t, 0, len(ptOut.CollectedFees))
log.Debug("block:0 batch:2")
l2Txs := common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[1].L2Txs)
ptOut, err = tp.ProcessTxs(coordIdxs, blocks[0].Rollup.L1UserTxs,
blocks[0].Rollup.Batches[1].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
assert.Equal(t, 0, len(ptOut.ExitInfos))
assert.Equal(t, 31, len(ptOut.CreatedAccounts))
assert.Equal(t, 4, len(ptOut.CollectedFees))
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(0)].String())
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(1)].String())
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(2)].String())
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(3)].String())
acc, err := sdb.GetAccount(idxA1)
require.NoError(t, err)
assert.Equal(t, "50", acc.Balance.String())
log.Debug("block:0 batch:3")
l2Txs = common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[2].L2Txs)
ptOut, err = tp.ProcessTxs(coordIdxs, nil, blocks[0].Rollup.Batches[2].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
assert.Equal(t, 0, len(ptOut.ExitInfos))
assert.Equal(t, 0, len(ptOut.CreatedAccounts))
assert.Equal(t, 4, len(ptOut.CollectedFees))
assert.Equal(t, "2", ptOut.CollectedFees[common.TokenID(0)].String())
assert.Equal(t, "1", ptOut.CollectedFees[common.TokenID(1)].String())
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(2)].String())
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(3)].String())
acc, err = sdb.GetAccount(idxA1)
require.NoError(t, err)
assert.Equal(t, "35", acc.Balance.String())
log.Debug("block:1 batch:1")
l2Txs = common.L2TxsToPoolL2Txs(blocks[1].Rollup.Batches[0].L2Txs)
// before processing expect l2Txs[0:2].Nonce==0
assert.Equal(t, common.Nonce(0), l2Txs[0].Nonce)
assert.Equal(t, common.Nonce(0), l2Txs[1].Nonce)
assert.Equal(t, common.Nonce(0), l2Txs[2].Nonce)
ptOut, err = tp.ProcessTxs(coordIdxs, nil, blocks[1].Rollup.Batches[0].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
// after processing expect l2Txs[0:2].Nonce!=0 and has expected value
assert.Equal(t, common.Nonce(5), l2Txs[0].Nonce)
assert.Equal(t, common.Nonce(6), l2Txs[1].Nonce)
assert.Equal(t, common.Nonce(7), l2Txs[2].Nonce)
// the 'ForceExit(1)' is not computed yet, as the batch is without L1UserTxs
assert.Equal(t, 4, len(ptOut.ExitInfos))
assert.Equal(t, 1, len(ptOut.CreatedAccounts))
assert.Equal(t, 4, len(ptOut.CollectedFees))
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(0)].String())
assert.Equal(t, "1", ptOut.CollectedFees[common.TokenID(1)].String())
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(2)].String())
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(3)].String())
acc, err = sdb.GetAccount(idxA1)
require.NoError(t, err)
assert.Equal(t, "57", acc.Balance.String())
log.Debug("block:1 batch:2")
l2Txs = common.L2TxsToPoolL2Txs(blocks[1].Rollup.Batches[1].L2Txs)
ptOut, err = tp.ProcessTxs(coordIdxs, blocks[1].Rollup.L1UserTxs,
blocks[1].Rollup.Batches[1].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
// 1, as previous batch was without L1UserTxs, and has pending the
// 'ForceExit(1) A: 5', and the 2 exit transactions get grouped under 1
// ExitInfo
assert.Equal(t, 1, len(ptOut.ExitInfos))
assert.Equal(t, 1, len(ptOut.CreatedAccounts))
assert.Equal(t, 4, len(ptOut.CollectedFees))
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(0)].String())
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(1)].String())
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(2)].String())
assert.Equal(t, "0", ptOut.CollectedFees[common.TokenID(3)].String())
acc, err = sdb.GetAccount(idxA1)
assert.NoError(t, err)
assert.Equal(t, "77", acc.Balance.String())
idxB0 := tc.Users["C"].Accounts[common.TokenID(0)].Idx
acc, err = sdb.GetAccount(idxB0)
require.NoError(t, err)
assert.Equal(t, "51", acc.Balance.String())
// get balance of Coordinator account for TokenID==0
acc, err = sdb.GetAccount(common.Idx(256))
require.NoError(t, err)
assert.Equal(t, "2", acc.Balance.String())
}
func TestProcessTxsBatchBuilder(t *testing.T) {
dir, err := ioutil.TempDir("", "tmpdb")
require.NoError(t, err)
defer assert.NoError(t, os.RemoveAll(dir))
sdb, err := statedb.NewStateDB(statedb.Config{Path: dir, Keep: 128,
Type: statedb.TypeBatchBuilder, NLevels: 32})
assert.NoError(t, err)
chainID := uint16(0)
// generate test transactions from test.SetBlockchain0 code
tc := til.NewContext(chainID, common.RollupConstMaxL1UserTx)
blocks, err := tc.GenerateBlocks(txsets.SetBlockchain0)
require.NoError(t, err)
// Coordinator Idx where to send the fees
coordIdxs := []common.Idx{256, 257, 258, 259}
// Idx of user 'A'
idxA1 := tc.Users["A"].Accounts[common.TokenID(1)].Idx
config := Config{
NLevels: 32,
MaxFeeTx: 64,
MaxTx: 512,
MaxL1Tx: 32,
ChainID: chainID,
}
tp := NewTxProcessor(sdb, config)
// Process the 1st batch, which contains the L1CoordinatorTxs necessary
// to create the Coordinator accounts to receive the fees
log.Debug("block:0 batch:1, only L1CoordinatorTxs")
ptOut, err := tp.ProcessTxs(nil, nil, blocks[0].Rollup.Batches[0].L1CoordinatorTxs, nil)
require.NoError(t, err)
// expect 0 at CreatedAccount, as is only computed when StateDB.Type==TypeSynchronizer
assert.Equal(t, 0, len(ptOut.CreatedAccounts))
log.Debug("block:0 batch:2")
l2Txs := common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[1].L2Txs)
ptOut, err = tp.ProcessTxs(coordIdxs, blocks[0].Rollup.L1UserTxs,
blocks[0].Rollup.Batches[1].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
assert.Equal(t, 0, len(ptOut.ExitInfos))
assert.Equal(t, 0, len(ptOut.CreatedAccounts))
acc, err := sdb.GetAccount(idxA1)
require.NoError(t, err)
assert.Equal(t, "50", acc.Balance.String())
log.Debug("block:0 batch:3")
l2Txs = common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[2].L2Txs)
ptOut, err = tp.ProcessTxs(coordIdxs, nil, blocks[0].Rollup.Batches[2].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
assert.Equal(t, 0, len(ptOut.ExitInfos))
assert.Equal(t, 0, len(ptOut.CreatedAccounts))
acc, err = sdb.GetAccount(idxA1)
require.NoError(t, err)
assert.Equal(t, "35", acc.Balance.String())
log.Debug("block:1 batch:1")
l2Txs = common.L2TxsToPoolL2Txs(blocks[1].Rollup.Batches[0].L2Txs)
_, err = tp.ProcessTxs(coordIdxs, nil, blocks[1].Rollup.Batches[0].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
acc, err = sdb.GetAccount(idxA1)
require.NoError(t, err)
assert.Equal(t, "57", acc.Balance.String())
log.Debug("block:1 batch:2")
l2Txs = common.L2TxsToPoolL2Txs(blocks[1].Rollup.Batches[1].L2Txs)
_, err = tp.ProcessTxs(coordIdxs, blocks[1].Rollup.L1UserTxs,
blocks[1].Rollup.Batches[1].L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
acc, err = sdb.GetAccount(idxA1)
assert.NoError(t, err)
assert.Equal(t, "77", acc.Balance.String())
idxB0 := tc.Users["C"].Accounts[common.TokenID(0)].Idx
acc, err = sdb.GetAccount(idxB0)
require.NoError(t, err)
assert.Equal(t, "51", acc.Balance.String())
// get balance of Coordinator account for TokenID==0
acc, err = sdb.GetAccount(common.Idx(256))
require.NoError(t, err)
assert.Equal(t, common.TokenID(0), acc.TokenID)
assert.Equal(t, "2", acc.Balance.String())
acc, err = sdb.GetAccount(common.Idx(257))
require.NoError(t, err)
assert.Equal(t, common.TokenID(1), acc.TokenID)
assert.Equal(t, "2", acc.Balance.String())
assert.Equal(t,
"18702154359941252155463263732782081721632595649781775986280568467618682348921",
sdb.MT.Root().BigInt().String())
}
func TestProcessTxsRootTestVectors(t *testing.T) {
dir, err := ioutil.TempDir("", "tmpdb")
require.NoError(t, err)
defer assert.NoError(t, os.RemoveAll(dir))
sdb, err := statedb.NewStateDB(statedb.Config{Path: dir, Keep: 128,
Type: statedb.TypeBatchBuilder, NLevels: 32})
assert.NoError(t, err)
// same values than in the js test
bjj0, err := common.BJJFromStringWithChecksum(
"21b0a1688b37f77b1d1d5539ec3b826db5ac78b2513f574a04c50a7d4f8246d7")
assert.NoError(t, err)
l1Txs := []common.L1Tx{
{
FromIdx: 0,
DepositAmount: big.NewInt(16000000),
Amount: big.NewInt(0),
TokenID: 1,
FromBJJ: bjj0,
FromEthAddr: ethCommon.HexToAddress("0x7e5f4552091a69125d5dfcb7b8c2659029395bdf"),
ToIdx: 0,
Type: common.TxTypeCreateAccountDeposit,
UserOrigin: true,
},
}
l2Txs := []common.PoolL2Tx{
{
FromIdx: 256,
ToIdx: 256,
TokenID: 1,
Amount: big.NewInt(1000),
Nonce: 0,
Fee: 126,
Type: common.TxTypeTransfer,
},
}
chainID := uint16(0)
config := Config{
NLevels: 32,
MaxFeeTx: 8,
MaxTx: 32,
MaxL1Tx: 16,
ChainID: chainID,
}
tp := NewTxProcessor(sdb, config)
_, err = tp.ProcessTxs(nil, l1Txs, nil, l2Txs)
require.NoError(t, err)
assert.Equal(t,
"16181420716631932805604732887923905079487577323947343079740042260791593140221",
sdb.MT.Root().BigInt().String())
}
func TestCreateAccountDepositMaxValue(t *testing.T) {
dir, err := ioutil.TempDir("", "tmpdb")
require.NoError(t, err)
defer assert.NoError(t, os.RemoveAll(dir))
nLevels := 16
sdb, err := statedb.NewStateDB(statedb.Config{Path: dir, Keep: 128,
Type: statedb.TypeBatchBuilder, NLevels: nLevels})
assert.NoError(t, err)
users := txsets.GenerateJsUsers(t)
daMaxF40 := common.Float40(0xFFFFFFFFFF)
daMaxBI, err := daMaxF40.BigInt()
require.NoError(t, err)
assert.Equal(t, "343597383670000000000000000000000000000000", daMaxBI.String())
daMax1F40 := common.Float40(0xFFFFFFFFFE)
require.NoError(t, err)
daMax1BI, err := daMax1F40.BigInt()
require.NoError(t, err)
assert.Equal(t, "343597383660000000000000000000000000000000", daMax1BI.String())
l1Txs := []common.L1Tx{
{
FromIdx: 0,
DepositAmount: daMaxBI,
Amount: big.NewInt(0),
TokenID: 1,
FromBJJ: users[0].BJJ.Public().Compress(),
FromEthAddr: users[0].Addr,
ToIdx: 0,
Type: common.TxTypeCreateAccountDeposit,
UserOrigin: true,
},
{
FromIdx: 0,
DepositAmount: daMax1BI,
Amount: big.NewInt(0),
TokenID: 1,
FromBJJ: users[1].BJJ.Public().Compress(),
FromEthAddr: users[1].Addr,
ToIdx: 0,
Type: common.TxTypeCreateAccountDeposit,
UserOrigin: true,
},
}
chainID := uint16(0)
config := Config{
NLevels: uint32(nLevels),
MaxTx: 3,
MaxL1Tx: 2,
MaxFeeTx: 2,
ChainID: chainID,
}
tp := NewTxProcessor(sdb, config)
_, err = tp.ProcessTxs(nil, l1Txs, nil, nil)
require.NoError(t, err)
// check balances
acc, err := sdb.GetAccount(common.Idx(256))
require.NoError(t, err)
assert.Equal(t, daMaxBI, acc.Balance)
acc, err = sdb.GetAccount(common.Idx(257))
require.NoError(t, err)
assert.Equal(t, daMax1BI, acc.Balance)
}
func initTestMultipleCoordIdxForTokenID(t *testing.T) (*TxProcessor, *til.Context,
[]common.BlockData) {
dir, err := ioutil.TempDir("", "tmpdb")
require.NoError(t, err)
defer assert.NoError(t, os.RemoveAll(dir))
sdb, err := statedb.NewStateDB(statedb.Config{Path: dir, Keep: 128,
Type: statedb.TypeBatchBuilder, NLevels: 32})
assert.NoError(t, err)
chainID := uint16(1)
// generate test transactions from test.SetBlockchain0 code
tc := til.NewContext(chainID, common.RollupConstMaxL1UserTx)
set := `
Type: Blockchain
CreateAccountDeposit(0) A: 200
> batchL1 // freeze L1User{1}
CreateAccountCoordinator(0) Coord
CreateAccountCoordinator(0) B
Transfer(0) A-B: 100 (126)
> batchL1 // forge L1User{1}, forge L1Coord{4}, forge L2{2}
> block
`
blocks, err := tc.GenerateBlocks(set)
require.NoError(t, err)
config := Config{
NLevels: 32,
MaxFeeTx: 64,
MaxTx: 512,
MaxL1Tx: 16,
ChainID: chainID,
}
tp := NewTxProcessor(sdb, config)
// batch1
_, err = tp.ProcessTxs(nil, nil, nil, nil) // to simulate the first batch from the Til set
require.NoError(t, err)
return tp, tc, blocks
}
func TestMultipleCoordIdxForTokenID(t *testing.T) {
// Check that ProcessTxs always uses the first occurrence of the
// CoordIdx for each TokenID
coordIdxs := []common.Idx{257, 257, 257}
tp, tc, blocks := initTestMultipleCoordIdxForTokenID(t)
l1UserTxs := til.L1TxsToCommonL1Txs(tc.Queues[*blocks[0].Rollup.Batches[1].Batch.ForgeL1TxsNum])
l1CoordTxs := blocks[0].Rollup.Batches[1].L1CoordinatorTxs
l1CoordTxs = append(l1CoordTxs, l1CoordTxs[0]) // duplicate the CoordAccount for TokenID=0
l2Txs := common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[1].L2Txs)
_, err := tp.ProcessTxs(coordIdxs, l1UserTxs, l1CoordTxs, l2Txs)
require.NoError(t, err)
checkBalanceByIdx(t, tp.s, 256, "90") // A
checkBalanceByIdx(t, tp.s, 257, "10") // Coord0
checkBalanceByIdx(t, tp.s, 258, "100") // B
checkBalanceByIdx(t, tp.s, 259, "0") // Coord0
// reset StateDB values
coordIdxs = []common.Idx{259, 257}
tp, tc, blocks = initTestMultipleCoordIdxForTokenID(t)
l1UserTxs = til.L1TxsToCommonL1Txs(tc.Queues[*blocks[0].Rollup.Batches[1].Batch.ForgeL1TxsNum])
l1CoordTxs = blocks[0].Rollup.Batches[1].L1CoordinatorTxs
l1CoordTxs = append(l1CoordTxs, l1CoordTxs[0]) // duplicate the CoordAccount for TokenID=0
l2Txs = common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[1].L2Txs)
_, err = tp.ProcessTxs(coordIdxs, l1UserTxs, l1CoordTxs, l2Txs)
require.NoError(t, err)
checkBalanceByIdx(t, tp.s, 256, "90") // A
checkBalanceByIdx(t, tp.s, 257, "0") // Coord0
checkBalanceByIdx(t, tp.s, 258, "100") // B
checkBalanceByIdx(t, tp.s, 259, "10") // Coord0
// reset StateDB values
coordIdxs = []common.Idx{257, 259}
tp, tc, blocks = initTestMultipleCoordIdxForTokenID(t)
l1UserTxs = til.L1TxsToCommonL1Txs(tc.Queues[*blocks[0].Rollup.Batches[1].Batch.ForgeL1TxsNum])
l1CoordTxs = blocks[0].Rollup.Batches[1].L1CoordinatorTxs
l1CoordTxs = append(l1CoordTxs, l1CoordTxs[0]) // duplicate the CoordAccount for TokenID=0
l2Txs = common.L2TxsToPoolL2Txs(blocks[0].Rollup.Batches[1].L2Txs)
_, err = tp.ProcessTxs(coordIdxs, l1UserTxs, l1CoordTxs, l2Txs)
require.NoError(t, err)
checkBalanceByIdx(t, tp.s, 256, "90") // A
checkBalanceByIdx(t, tp.s, 257, "10") // Coord0
checkBalanceByIdx(t, tp.s, 258, "100") // B
checkBalanceByIdx(t, tp.s, 259, "0") // Coord0
}
func testTwoExits(t *testing.T, stateDBType statedb.TypeStateDB) ([]*ProcessTxOutput,
[]*ProcessTxOutput, []*ProcessTxOutput) {
// In the first part we generate a batch with two force exits for the
// same account of 20 each. The txprocessor output should be a single
// exitInfo with balance of 40.
dir, err := ioutil.TempDir("", "tmpdb")
require.NoError(t, err)
defer assert.NoError(t, os.RemoveAll(dir))
nLevels := 16
sdb, err := statedb.NewStateDB(statedb.Config{Path: dir, Keep: 128,
Type: stateDBType, NLevels: nLevels})
assert.NoError(t, err)
chainID := uint16(1)
tc := til.NewContext(chainID, common.RollupConstMaxL1UserTx)
// Two exits for the same account. The tx processor should output a
// single exit with the accumulated exit balance
set := `
Type: Blockchain
CreateAccountDeposit(0) A: 100
> batchL1 // freeze L1User{1}
> batchL1 // forge L1User{1}
ForceExit(0) A: 20
ForceExit(0) A: 20
> batchL1 // freeze L1User{2}
> batchL1 // forge L1User{2}
> block
`
blocks, err := tc.GenerateBlocks(set)
require.NoError(t, err)
err = tc.FillBlocksExtra(blocks, &til.ConfigExtra{})
require.NoError(t, err)
err = tc.FillBlocksForgedL1UserTxs(blocks)
require.NoError(t, err)
// Sanity check
require.Equal(t, 1, len(blocks[0].Rollup.Batches[1].L1UserTxs))
require.Equal(t, 2, len(blocks[0].Rollup.Batches[3].L1UserTxs))
config := Config{
NLevels: uint32(nLevels),
MaxTx: 3,
MaxL1Tx: 2,
MaxFeeTx: 2,
ChainID: chainID,
}
tp := NewTxProcessor(sdb, config)
ptOuts := []*ProcessTxOutput{}
for _, block := range blocks {
for _, batch := range block.Rollup.Batches {
ptOut, err := tp.ProcessTxs(nil, batch.L1UserTxs, nil, nil)
require.NoError(t, err)
ptOuts = append(ptOuts, ptOut)
}
}
acc, err := sdb.GetAccount(256)
require.NoError(t, err)
assert.Equal(t, big.NewInt(60), acc.Balance)
// In the second part we start a fresh statedb and generate a batch
// with one force exit for the same account as before. The txprocessor
// output should be a single exitInfo with balance of 40, and the exit
// merkle tree proof should be equal to the previous one.
dir2, err := ioutil.TempDir("", "tmpdb")
require.NoError(t, err)
defer assert.NoError(t, os.RemoveAll(dir2))
sdb2, err := statedb.NewStateDB(statedb.Config{Path: dir2, Keep: 128,
Type: stateDBType, NLevels: nLevels})
assert.NoError(t, err)
tc = til.NewContext(chainID, common.RollupConstMaxL1UserTx)
// Single exit with balance of both exits in previous set. The exit
// root should match.
set2 := `
Type: Blockchain
CreateAccountDeposit(0) A: 100
> batchL1 // freeze L1User{1}
> batchL1 // forge L1User{1}
ForceExit(0) A: 40
> batchL1 // freeze L1User{2}
> batchL1 // forge L1User{2}
> block
`
blocks, err = tc.GenerateBlocks(set2)
require.NoError(t, err)
err = tc.FillBlocksExtra(blocks, &til.ConfigExtra{})
require.NoError(t, err)
err = tc.FillBlocksForgedL1UserTxs(blocks)
require.NoError(t, err)
tp = NewTxProcessor(sdb2, config)
ptOuts2 := []*ProcessTxOutput{}
for _, block := range blocks {
for _, batch := range block.Rollup.Batches {
ptOut, err := tp.ProcessTxs(nil, batch.L1UserTxs, nil, nil)
require.NoError(t, err)
ptOuts2 = append(ptOuts2, ptOut)
}
}
// In the third part we start a fresh statedb and generate a batch with
// two force exit for the same account as before but where the 1st Exit
// is with all the amount, and the 2nd Exit is with more amount than
// the available balance. The txprocessor output should be a single
// exitInfo with balance of 40, and the exit merkle tree proof should
// be equal to the previous ones.
dir3, err := ioutil.TempDir("", "tmpdb")
require.NoError(t, err)
defer assert.NoError(t, os.RemoveAll(dir3))
sdb3, err := statedb.NewStateDB(statedb.Config{Path: dir3, Keep: 128,
Type: stateDBType, NLevels: nLevels})
assert.NoError(t, err)
tc = til.NewContext(chainID, common.RollupConstMaxL1UserTx)
// Single exit with balance of both exits in previous set. The exit
// root should match.
set3 := `
Type: Blockchain
CreateAccountDeposit(0) A: 100
> batchL1 // freeze L1User{1}
> batchL1 // forge L1User{1}
ForceExit(0) A: 40
ForceExit(0) A: 100
> batchL1 // freeze L1User{2}
> batchL1 // forge L1User{2}
> block
`
blocks, err = tc.GenerateBlocks(set3)
require.NoError(t, err)
err = tc.FillBlocksExtra(blocks, &til.ConfigExtra{})
require.NoError(t, err)
err = tc.FillBlocksForgedL1UserTxs(blocks)
require.NoError(t, err)
tp = NewTxProcessor(sdb3, config)
ptOuts3 := []*ProcessTxOutput{}
for _, block := range blocks {
for _, batch := range block.Rollup.Batches {
ptOut, err := tp.ProcessTxs(nil, batch.L1UserTxs, nil, nil)
require.NoError(t, err)
ptOuts3 = append(ptOuts3, ptOut)
}
}
return ptOuts, ptOuts2, ptOuts3
}
func TestTwoExitsSynchronizer(t *testing.T) {
ptOuts, ptOuts2, ptOuts3 := testTwoExits(t, statedb.TypeSynchronizer)
assert.Equal(t, 1, len(ptOuts[3].ExitInfos))
assert.Equal(t, big.NewInt(40), ptOuts[3].ExitInfos[0].Balance)
assert.Equal(t, ptOuts[3].ExitInfos[0].MerkleProof, ptOuts2[3].ExitInfos[0].MerkleProof)
assert.Equal(t, ptOuts[3].ExitInfos[0].MerkleProof, ptOuts3[3].ExitInfos[0].MerkleProof)
}
func TestExitOf0Amount(t *testing.T) {
// Test to check that when doing an Exit with amount 0 the Exit Root
// does not change (as there is no new Exit Leaf created)
dir, err := ioutil.TempDir("", "tmpdb")
require.NoError(t, err)
defer assert.NoError(t, os.RemoveAll(dir))
sdb, err := statedb.NewStateDB(statedb.Config{Path: dir, Keep: 128,
Type: statedb.TypeBatchBuilder, NLevels: 32})
assert.NoError(t, err)
chainID := uint16(1)
tc := til.NewContext(chainID, common.RollupConstMaxL1UserTx)
set := `
Type: Blockchain
CreateAccountDeposit(0) A: 100
CreateAccountDeposit(0) B: 100
> batchL1 // batch1: freeze L1User{2}
> batchL1 // batch2: forge L1User{2}
ForceExit(0) A: 10
ForceExit(0) B: 0
> batchL1 // batch3: freeze L1User{2}
> batchL1 // batch4: forge L1User{2}
ForceExit(0) A: 10
> batchL1 // batch5: freeze L1User{1}
> batchL1 // batch6: forge L1User{1}
ForceExit(0) A: 0
> batchL1 // batch7: freeze L1User{1}
> batchL1 // batch8: forge L1User{1}
> block
`
blocks, err := tc.GenerateBlocks(set)
require.NoError(t, err)
err = tc.FillBlocksExtra(blocks, &til.ConfigExtra{})
require.NoError(t, err)
err = tc.FillBlocksForgedL1UserTxs(blocks)
require.NoError(t, err)
// Sanity check
require.Equal(t, 2, len(blocks[0].Rollup.Batches[1].L1UserTxs))
require.Equal(t, 2, len(blocks[0].Rollup.Batches[3].L1UserTxs))
require.Equal(t, big.NewInt(10), blocks[0].Rollup.Batches[3].L1UserTxs[0].Amount)
require.Equal(t, big.NewInt(0), blocks[0].Rollup.Batches[3].L1UserTxs[1].Amount)
config := Config{
NLevels: 32,
MaxFeeTx: 64,
MaxTx: 512,
MaxL1Tx: 16,
ChainID: chainID,
}
tp := NewTxProcessor(sdb, config)
// For this test are only processed the batches with transactions:
// - Batch2, equivalent to Batches[1]
// - Batch4, equivalent to Batches[3]
// - Batch6, equivalent to Batches[5]
// - Batch8, equivalent to Batches[7]
// process Batch2:
_, err = tp.ProcessTxs(nil, blocks[0].Rollup.Batches[1].L1UserTxs, nil, nil)
require.NoError(t, err)
// process Batch4:
ptOut, err := tp.ProcessTxs(nil, blocks[0].Rollup.Batches[3].L1UserTxs, nil, nil)
require.NoError(t, err)
assert.Equal(t,
"17688031540912620894848983912708704736922099609001460827147265569563156468242",
ptOut.ZKInputs.Metadata.NewExitRootRaw.BigInt().String())
exitRootBatch4 := ptOut.ZKInputs.Metadata.NewExitRootRaw.BigInt().String()
// process Batch6:
ptOut, err = tp.ProcessTxs(nil, blocks[0].Rollup.Batches[5].L1UserTxs, nil, nil)
require.NoError(t, err)
assert.Equal(t,
"17688031540912620894848983912708704736922099609001460827147265569563156468242",
ptOut.ZKInputs.Metadata.NewExitRootRaw.BigInt().String())
// Expect that the ExitRoot for the Batch6 will be equal than for the
// Batch4, as the Batch4 & Batch6 have the same tx with Exit Amount=10,
// and Batch4 has a 2nd tx with Exit Amount=0.
assert.Equal(t, exitRootBatch4, ptOut.ZKInputs.Metadata.NewExitRootRaw.BigInt().String())
// For the Batch8, as there is only 1 exit with Amount=0, the ExitRoot
// should be 0.
// process Batch8:
ptOut, err = tp.ProcessTxs(nil, blocks[0].Rollup.Batches[7].L1UserTxs, nil, nil)
require.NoError(t, err)
assert.Equal(t, "0", ptOut.ZKInputs.Metadata.NewExitRootRaw.BigInt().String())
}
func TestUpdatedAccounts(t *testing.T) {
dir, err := ioutil.TempDir("", "tmpdb")
require.NoError(t, err)
defer assert.NoError(t, os.RemoveAll(dir))
sdb, err := statedb.NewStateDB(statedb.Config{Path: dir, Keep: 128,
Type: statedb.TypeSynchronizer, NLevels: 32})
assert.NoError(t, err)
set := `
Type: Blockchain
AddToken(1)
CreateAccountCoordinator(0) Coord // 256
CreateAccountCoordinator(1) Coord // 257
> batch // 1
CreateAccountDeposit(0) A: 50 // 258
CreateAccountDeposit(0) B: 60 // 259
CreateAccountDeposit(1) A: 70 // 260
CreateAccountDeposit(1) B: 80 // 261
> batchL1 // 2
> batchL1 // 3
Transfer(0) A-B: 5 (126)
> batch // 4
Exit(1) B: 5 (126)
> batch // 5
> block
`
chainID := uint16(0)
tc := til.NewContext(chainID, common.RollupConstMaxL1UserTx)
blocks, err := tc.GenerateBlocks(set)
require.NoError(t, err)
tilCfgExtra := til.ConfigExtra{
BootCoordAddr: ethCommon.HexToAddress("0xE39fEc6224708f0772D2A74fd3f9055A90E0A9f2"),
CoordUser: "Coord",
}
err = tc.FillBlocksExtra(blocks, &tilCfgExtra)
require.NoError(t, err)
tc.FillBlocksL1UserTxsBatchNum(blocks)
err = tc.FillBlocksForgedL1UserTxs(blocks)
require.NoError(t, err)
require.Equal(t, 5, len(blocks[0].Rollup.Batches))
config := Config{
NLevels: 32,
MaxFeeTx: 64,
MaxTx: 512,
MaxL1Tx: 16,
ChainID: chainID,
}
tp := NewTxProcessor(sdb, config)
sortedKeys := func(m map[common.Idx]*common.Account) []int {
keys := make([]int, 0)
for k := range m {
keys = append(keys, int(k))
}
sort.Ints(keys)
return keys
}
for _, batch := range blocks[0].Rollup.Batches {
l2Txs := common.L2TxsToPoolL2Txs(batch.L2Txs)
ptOut, err := tp.ProcessTxs(batch.Batch.FeeIdxsCoordinator, batch.L1UserTxs,
batch.L1CoordinatorTxs, l2Txs)
require.NoError(t, err)
switch batch.Batch.BatchNum {
case 1:
assert.Equal(t, 2, len(ptOut.UpdatedAccounts))
assert.Equal(t, []int{256, 257}, sortedKeys(ptOut.UpdatedAccounts))
case 2:
assert.Equal(t, 0, len(ptOut.UpdatedAccounts))
assert.Equal(t, []int{}, sortedKeys(ptOut.UpdatedAccounts))
case 3:
assert.Equal(t, 4, len(ptOut.UpdatedAccounts))
assert.Equal(t, []int{258, 259, 260, 261}, sortedKeys(ptOut.UpdatedAccounts))
case 4:
assert.Equal(t, 2+1, len(ptOut.UpdatedAccounts))
assert.Equal(t, []int{256, 258, 259}, sortedKeys(ptOut.UpdatedAccounts))
case 5:
assert.Equal(t, 1+1, len(ptOut.UpdatedAccounts))
assert.Equal(t, []int{257, 261}, sortedKeys(ptOut.UpdatedAccounts))
}
for idx, updAcc := range ptOut.UpdatedAccounts {
acc, err := sdb.GetAccount(idx)
require.NoError(t, err)
// If acc.Balance is 0, set it to 0 with big.NewInt so
// that the comparison succeeds. Without this, the
// comparison will not succeed because acc.Balance is
// set from a slice, and thus the internal big.Int
// buffer is not nil (big.Int.abs)
if acc.Balance.BitLen() == 0 {
acc.Balance = big.NewInt(0)
}
assert.Equal(t, acc, updAcc)
}
}
}