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package til
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import (
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"crypto/ecdsa"
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"fmt"
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"math/big"
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"strconv"
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"strings"
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"time"
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ethCommon "github.com/ethereum/go-ethereum/common"
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ethCrypto "github.com/ethereum/go-ethereum/crypto"
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"github.com/hermeznetwork/hermez-node/common"
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"github.com/hermeznetwork/hermez-node/log"
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"github.com/iden3/go-iden3-crypto/babyjub"
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)
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// Context contains the data of the test
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type Context struct {
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Instructions []instruction
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accountsNames []string
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Users map[string]*User
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lastRegisteredTokenID common.TokenID
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l1CreatedAccounts map[string]*Account
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// rollupConstMaxL1UserTx Maximum L1-user transactions allowed to be queued in a batch
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rollupConstMaxL1UserTx int
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idx int
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currBlock BlockData
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currBatch BatchData
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currBatchNum int
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queues [][]L1Tx
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toForgeNum int
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openToForge int
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}
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// NewContext returns a new Context
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func NewContext(rollupConstMaxL1UserTx int) *Context {
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return &Context{
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Users: make(map[string]*User),
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l1CreatedAccounts: make(map[string]*Account),
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lastRegisteredTokenID: 0,
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rollupConstMaxL1UserTx: rollupConstMaxL1UserTx,
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idx: common.UserThreshold,
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currBatchNum: 0,
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// start with 2 queues, one for toForge, and the other for openToForge
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queues: make([][]L1Tx, 2),
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toForgeNum: 0,
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openToForge: 1,
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}
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}
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// Account contains the data related to the account for a specific TokenID of a User
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type Account struct {
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Idx common.Idx
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Nonce common.Nonce
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}
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// User contains the data related to a testing user
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type User struct {
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BJJ *babyjub.PrivateKey
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Addr ethCommon.Address
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Accounts map[common.TokenID]*Account
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}
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// BlockData contains the information of a Block
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type BlockData struct {
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// block *common.Block // ethereum block
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// L1UserTxs that were accepted in the block
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L1UserTxs []common.L1Tx
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Batches []BatchData
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RegisteredTokens []common.Token
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}
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// BatchData contains the information of a Batch
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type BatchData struct {
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L1Batch bool // TODO: Remove once Batch.ForgeL1TxsNum is a pointer
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L1CoordinatorTxs []common.L1Tx
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testL1CoordinatorTxs []L1Tx
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L2Txs []common.L2Tx
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// testL2Tx are L2Txs without the Idx&EthAddr&BJJ setted, but with the
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// string that represents the account
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testL2Txs []L2Tx
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}
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// L1Tx is the data structure used internally for transaction test generation,
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// which contains a common.L1Tx data plus some intermediate data for the
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// transaction generation.
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type L1Tx struct {
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lineNum int
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fromIdxName string
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toIdxName string
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L1Tx common.L1Tx
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}
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// L2Tx is the data structure used internally for transaction test generation,
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// which contains a common.L2Tx data plus some intermediate data for the
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// transaction generation.
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type L2Tx struct {
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lineNum int
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fromIdxName string
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toIdxName string
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tokenID common.TokenID
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L2Tx common.L2Tx
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}
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// GenerateBlocks returns an array of BlockData for a given set. It uses the
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// accounts (keys & nonces) of the Context.
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func (tc *Context) GenerateBlocks(set string) ([]BlockData, error) {
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parser := newParser(strings.NewReader(set))
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parsedSet, err := parser.parse()
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if err != nil {
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return nil, err
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}
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tc.Instructions = parsedSet.instructions
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tc.accountsNames = parsedSet.accounts
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tc.generateKeys(tc.accountsNames)
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var blocks []BlockData
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for _, inst := range parsedSet.instructions {
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switch inst.typ {
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case txTypeCreateAccountDepositCoordinator:
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if err := tc.checkIfTokenIsRegistered(inst); err != nil {
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log.Error(err)
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return nil, fmt.Errorf("Line %d: %s", inst.lineNum, err.Error())
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}
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tx := common.L1Tx{
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FromEthAddr: tc.Users[inst.from].Addr,
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FromBJJ: tc.Users[inst.from].BJJ.Public(),
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TokenID: inst.tokenID,
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LoadAmount: big.NewInt(int64(inst.loadAmount)),
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Type: common.TxTypeCreateAccountDeposit, // as txTypeCreateAccountDepositCoordinator is not valid oustide Til package
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}
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testTx := L1Tx{
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lineNum: inst.lineNum,
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fromIdxName: inst.from,
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L1Tx: tx,
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}
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tc.currBatch.testL1CoordinatorTxs = append(tc.currBatch.testL1CoordinatorTxs, testTx)
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case common.TxTypeCreateAccountDeposit, common.TxTypeCreateAccountDepositTransfer:
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if err := tc.checkIfTokenIsRegistered(inst); err != nil {
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log.Error(err)
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return nil, fmt.Errorf("Line %d: %s", inst.lineNum, err.Error())
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}
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tx := common.L1Tx{
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FromEthAddr: tc.Users[inst.from].Addr,
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FromBJJ: tc.Users[inst.from].BJJ.Public(),
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TokenID: inst.tokenID,
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LoadAmount: big.NewInt(int64(inst.loadAmount)),
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Type: inst.typ,
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}
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if inst.typ == common.TxTypeCreateAccountDepositTransfer {
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tx.Amount = big.NewInt(int64(inst.amount))
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}
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testTx := L1Tx{
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lineNum: inst.lineNum,
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fromIdxName: inst.from,
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toIdxName: inst.to,
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L1Tx: tx,
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}
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tc.addToL1Queue(testTx)
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case common.TxTypeDeposit, common.TxTypeDepositTransfer:
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if err := tc.checkIfTokenIsRegistered(inst); err != nil {
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log.Error(err)
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return nil, fmt.Errorf("Line %d: %s", inst.lineNum, err.Error())
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}
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if err := tc.checkIfAccountExists(inst.from, inst); err != nil {
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log.Error(err)
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return nil, fmt.Errorf("Line %d: %s", inst.lineNum, err.Error())
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}
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tx := common.L1Tx{
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TokenID: inst.tokenID,
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LoadAmount: big.NewInt(int64(inst.loadAmount)),
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Type: inst.typ,
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}
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if inst.typ == common.TxTypeDepositTransfer {
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tx.Amount = big.NewInt(int64(inst.amount))
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}
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testTx := L1Tx{
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lineNum: inst.lineNum,
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fromIdxName: inst.from,
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toIdxName: inst.to,
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L1Tx: tx,
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}
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tc.addToL1Queue(testTx)
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case common.TxTypeTransfer:
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if err := tc.checkIfTokenIsRegistered(inst); err != nil {
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log.Error(err)
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return nil, fmt.Errorf("Line %d: %s", inst.lineNum, err.Error())
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}
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tx := common.L2Tx{
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Amount: big.NewInt(int64(inst.amount)),
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Fee: common.FeeSelector(inst.fee),
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Type: common.TxTypeTransfer,
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}
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nTx, err := common.NewPoolL2Tx(tx.PoolL2Tx())
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if err != nil {
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return nil, fmt.Errorf("Line %d: %s", inst.lineNum, err.Error())
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}
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tx = nTx.L2Tx()
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tx.BatchNum = common.BatchNum(tc.currBatchNum) // when converted to PoolL2Tx BatchNum parameter is lost
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testTx := L2Tx{
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lineNum: inst.lineNum,
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fromIdxName: inst.from,
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toIdxName: inst.to,
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tokenID: inst.tokenID,
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L2Tx: tx,
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}
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tc.currBatch.testL2Txs = append(tc.currBatch.testL2Txs, testTx)
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case common.TxTypeExit:
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if err := tc.checkIfTokenIsRegistered(inst); err != nil {
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log.Error(err)
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return nil, fmt.Errorf("Line %d: %s", inst.lineNum, err.Error())
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}
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tx := common.L2Tx{
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ToIdx: common.Idx(1), // as is an Exit
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Amount: big.NewInt(int64(inst.amount)),
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Type: common.TxTypeExit,
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}
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tx.BatchNum = common.BatchNum(tc.currBatchNum) // when converted to PoolL2Tx BatchNum parameter is lost
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testTx := L2Tx{
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lineNum: inst.lineNum,
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fromIdxName: inst.from,
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toIdxName: inst.to,
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tokenID: inst.tokenID,
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L2Tx: tx,
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}
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tc.currBatch.testL2Txs = append(tc.currBatch.testL2Txs, testTx)
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case common.TxTypeForceExit:
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if err := tc.checkIfTokenIsRegistered(inst); err != nil {
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log.Error(err)
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return nil, fmt.Errorf("Line %d: %s", inst.lineNum, err.Error())
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}
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tx := common.L1Tx{
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ToIdx: common.Idx(1), // as is an Exit
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TokenID: inst.tokenID,
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Amount: big.NewInt(int64(inst.amount)),
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Type: common.TxTypeExit,
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}
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testTx := L1Tx{
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lineNum: inst.lineNum,
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fromIdxName: inst.from,
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toIdxName: inst.to,
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L1Tx: tx,
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}
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tc.addToL1Queue(testTx)
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case typeNewBatch:
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if err = tc.calculateIdxForL1Txs(true, tc.currBatch.testL1CoordinatorTxs); err != nil {
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return nil, err
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}
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if err = tc.setIdxs(); err != nil {
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log.Error(err)
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return nil, err
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}
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case typeNewBatchL1:
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// for each L1UserTx of the queues[ToForgeNum], calculate the Idx
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if err = tc.calculateIdxForL1Txs(false, tc.queues[tc.toForgeNum]); err != nil {
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return nil, err
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}
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if err = tc.calculateIdxForL1Txs(true, tc.currBatch.testL1CoordinatorTxs); err != nil {
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return nil, err
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}
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// once Idxs are calculated, update transactions to use the real Idxs
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for i := 0; i < len(tc.queues[tc.toForgeNum]); i++ {
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testTx := &tc.queues[tc.toForgeNum][i]
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if testTx.L1Tx.Type != common.TxTypeCreateAccountDeposit && testTx.L1Tx.Type != common.TxTypeCreateAccountDepositTransfer {
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testTx.L1Tx.FromIdx = tc.Users[testTx.fromIdxName].Accounts[testTx.L1Tx.TokenID].Idx
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}
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testTx.L1Tx.FromEthAddr = tc.Users[testTx.fromIdxName].Addr
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testTx.L1Tx.FromBJJ = tc.Users[testTx.fromIdxName].BJJ.Public()
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if testTx.toIdxName == "" {
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testTx.L1Tx.ToIdx = common.Idx(0)
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} else {
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testTx.L1Tx.ToIdx = tc.Users[testTx.toIdxName].Accounts[testTx.L1Tx.TokenID].Idx
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}
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if testTx.L1Tx.Type == common.TxTypeExit {
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testTx.L1Tx.ToIdx = common.Idx(1)
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}
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bn := common.BatchNum(tc.currBatchNum)
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testTx.L1Tx.BatchNum = &bn
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nTx, err := common.NewL1Tx(&testTx.L1Tx)
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if err != nil {
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fmt.Println(testTx)
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return nil, fmt.Errorf("Line %d: %s", testTx.lineNum, err.Error())
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}
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testTx.L1Tx = *nTx
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tc.currBlock.L1UserTxs = append(tc.currBlock.L1UserTxs, testTx.L1Tx)
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}
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if err = tc.setIdxs(); err != nil {
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log.Error(err)
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return nil, err
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}
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// advance batch
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tc.toForgeNum++
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if tc.toForgeNum == tc.openToForge {
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tc.openToForge++
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newQueue := []L1Tx{}
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tc.queues = append(tc.queues, newQueue)
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}
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case typeNewBlock:
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blocks = append(blocks, tc.currBlock)
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tc.currBlock = BlockData{}
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case typeRegisterToken:
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newToken := common.Token{
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TokenID: inst.tokenID,
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EthBlockNum: int64(len(blocks)),
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}
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if inst.tokenID != tc.lastRegisteredTokenID+1 {
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return nil, fmt.Errorf("Line %d: RegisterToken TokenID should be sequential, expected TokenID: %d, defined TokenID: %d", inst.lineNum, tc.lastRegisteredTokenID+1, inst.tokenID)
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}
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tc.lastRegisteredTokenID++
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tc.currBlock.RegisteredTokens = append(tc.currBlock.RegisteredTokens, newToken)
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default:
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return nil, fmt.Errorf("Line %d: Unexpected type: %s", inst.lineNum, inst.typ)
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}
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}
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return blocks, nil
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}
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// calculateIdxsForL1Txs calculates new Idx for new created accounts. If
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// 'isCoordinatorTxs==true', adds the tx to tc.currBatch.L1CoordinatorTxs.
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func (tc *Context) calculateIdxForL1Txs(isCoordinatorTxs bool, txs []L1Tx) error {
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// for each batch.L1CoordinatorTxs of the queues[ToForgeNum], calculate the Idx
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for i := 0; i < len(txs); i++ {
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tx := txs[i]
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if tx.L1Tx.Type == common.TxTypeCreateAccountDeposit || tx.L1Tx.Type == common.TxTypeCreateAccountDepositTransfer {
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if tc.Users[tx.fromIdxName].Accounts[tx.L1Tx.TokenID] != nil { // if account already exists, return error
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return fmt.Errorf("Can not create same account twice (same User & same TokenID) (this is a design property of Til)")
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}
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tc.Users[tx.fromIdxName].Accounts[tx.L1Tx.TokenID] = &Account{
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Idx: common.Idx(tc.idx),
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Nonce: common.Nonce(0),
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}
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tc.l1CreatedAccounts[idxTokenIDToString(tx.fromIdxName, tx.L1Tx.TokenID)] = tc.Users[tx.fromIdxName].Accounts[tx.L1Tx.TokenID]
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tc.idx++
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}
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if isCoordinatorTxs {
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tc.currBatch.L1CoordinatorTxs = append(tc.currBatch.L1CoordinatorTxs, tx.L1Tx)
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}
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}
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return nil
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}
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// setIdxs sets the Idxs to the transactions of the tc.currBatch
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func (tc *Context) setIdxs() error {
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// once Idxs are calculated, update transactions to use the new Idxs
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for i := 0; i < len(tc.currBatch.testL2Txs); i++ {
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testTx := &tc.currBatch.testL2Txs[i]
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if tc.Users[testTx.fromIdxName].Accounts[testTx.tokenID] == nil {
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return fmt.Errorf("Line %d: %s from User %s for TokenID %d while account not created yet", testTx.lineNum, testTx.L2Tx.Type, testTx.fromIdxName, testTx.tokenID)
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}
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if testTx.L2Tx.Type == common.TxTypeTransfer {
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if _, ok := tc.l1CreatedAccounts[idxTokenIDToString(testTx.toIdxName, testTx.tokenID)]; !ok {
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return fmt.Errorf("Line %d: Can not create Transfer for a non existing account. Batch %d, ToIdx name: %s, TokenID: %d", testTx.lineNum, tc.currBatchNum, testTx.toIdxName, testTx.tokenID)
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}
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}
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tc.Users[testTx.fromIdxName].Accounts[testTx.tokenID].Nonce++
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testTx.L2Tx.Nonce = tc.Users[testTx.fromIdxName].Accounts[testTx.tokenID].Nonce
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// set real Idx
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testTx.L2Tx.FromIdx = tc.Users[testTx.fromIdxName].Accounts[testTx.tokenID].Idx
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if testTx.L2Tx.Type == common.TxTypeTransfer {
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testTx.L2Tx.ToIdx = tc.Users[testTx.toIdxName].Accounts[testTx.tokenID].Idx
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}
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nTx, err := common.NewL2Tx(&testTx.L2Tx)
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if err != nil {
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return fmt.Errorf("Line %d: %s", testTx.lineNum, err.Error())
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}
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testTx.L2Tx = *nTx
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tc.currBatch.L2Txs = append(tc.currBatch.L2Txs, testTx.L2Tx)
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}
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tc.currBlock.Batches = append(tc.currBlock.Batches, tc.currBatch)
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tc.currBatchNum++
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tc.currBatch = BatchData{}
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return nil
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}
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// addToL1Queue adds the L1Tx into the queue that is open and has space
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func (tc *Context) addToL1Queue(tx L1Tx) {
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if len(tc.queues[tc.openToForge]) >= tc.rollupConstMaxL1UserTx {
|
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// if current OpenToForge queue reached its Max, move into a
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// new queue
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tc.openToForge++
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newQueue := []L1Tx{}
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tc.queues = append(tc.queues, newQueue)
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}
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tc.queues[tc.openToForge] = append(tc.queues[tc.openToForge], tx)
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}
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func (tc *Context) checkIfAccountExists(tf string, inst instruction) error {
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if tc.Users[tf].Accounts[inst.tokenID] == nil {
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return fmt.Errorf("%s at User: %s, for TokenID: %d, while account not created yet", inst.typ, tf, inst.tokenID)
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}
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return nil
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}
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func (tc *Context) checkIfTokenIsRegistered(inst instruction) error {
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if inst.tokenID > tc.lastRegisteredTokenID {
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return fmt.Errorf("Can not process %s: TokenID %d not registered, last registered TokenID: %d", inst.typ, inst.tokenID, tc.lastRegisteredTokenID)
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}
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return nil
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}
|
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|
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// GeneratePoolL2Txs returns an array of common.PoolL2Tx from a given set. It
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// uses the accounts (keys & nonces) of the Context.
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func (tc *Context) GeneratePoolL2Txs(set string) ([]common.PoolL2Tx, error) {
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parser := newParser(strings.NewReader(set))
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parsedSet, err := parser.parse()
|
|
if err != nil {
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return nil, err
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}
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tc.Instructions = parsedSet.instructions
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tc.accountsNames = parsedSet.accounts
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tc.generateKeys(tc.accountsNames)
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|
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txs := []common.PoolL2Tx{}
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for _, inst := range tc.Instructions {
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switch inst.typ {
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case common.TxTypeTransfer:
|
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if err := tc.checkIfAccountExists(inst.from, inst); err != nil {
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log.Error(err)
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|
return nil, fmt.Errorf("Line %d: %s", inst.lineNum, err.Error())
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}
|
|
if err := tc.checkIfAccountExists(inst.to, inst); err != nil {
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log.Error(err)
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return nil, fmt.Errorf("Line %d: %s", inst.lineNum, err.Error())
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}
|
|
tc.Users[inst.from].Accounts[inst.tokenID].Nonce++
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// if account of receiver does not exist, don't use
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|
// ToIdx, and use only ToEthAddr & ToBJJ
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|
tx := common.PoolL2Tx{
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FromIdx: tc.Users[inst.from].Accounts[inst.tokenID].Idx,
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ToIdx: tc.Users[inst.to].Accounts[inst.tokenID].Idx,
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|
ToEthAddr: tc.Users[inst.to].Addr,
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ToBJJ: tc.Users[inst.to].BJJ.Public(),
|
|
TokenID: inst.tokenID,
|
|
Amount: big.NewInt(int64(inst.amount)),
|
|
Fee: common.FeeSelector(inst.fee),
|
|
Nonce: tc.Users[inst.from].Accounts[inst.tokenID].Nonce,
|
|
State: common.PoolL2TxStatePending,
|
|
Timestamp: time.Now(),
|
|
RqToEthAddr: common.EmptyAddr,
|
|
RqToBJJ: nil,
|
|
Type: common.TxTypeTransfer,
|
|
}
|
|
nTx, err := common.NewPoolL2Tx(&tx)
|
|
if err != nil {
|
|
return nil, fmt.Errorf("Line %d: %s", inst.lineNum, err.Error())
|
|
}
|
|
tx = *nTx
|
|
// perform signature and set it to tx.Signature
|
|
toSign, err := tx.HashToSign()
|
|
if err != nil {
|
|
return nil, fmt.Errorf("Line %d: %s", inst.lineNum, err.Error())
|
|
}
|
|
sig := tc.Users[inst.to].BJJ.SignPoseidon(toSign)
|
|
tx.Signature = sig.Compress()
|
|
|
|
txs = append(txs, tx)
|
|
case common.TxTypeExit:
|
|
tc.Users[inst.from].Accounts[inst.tokenID].Nonce++
|
|
tx := common.PoolL2Tx{
|
|
FromIdx: tc.Users[inst.from].Accounts[inst.tokenID].Idx,
|
|
ToIdx: common.Idx(1), // as is an Exit
|
|
TokenID: inst.tokenID,
|
|
Amount: big.NewInt(int64(inst.amount)),
|
|
Nonce: tc.Users[inst.from].Accounts[inst.tokenID].Nonce,
|
|
Type: common.TxTypeExit,
|
|
}
|
|
txs = append(txs, tx)
|
|
default:
|
|
return nil, fmt.Errorf("Line %d: instruction type unrecognized: %s", inst.lineNum, inst.typ)
|
|
}
|
|
}
|
|
|
|
return txs, nil
|
|
}
|
|
|
|
// generateKeys generates BabyJubJub & Address keys for the given list of
|
|
// account names in a deterministic way. This means, that for the same given
|
|
// 'accNames' in a certain order, the keys will be always the same.
|
|
func (tc *Context) generateKeys(accNames []string) {
|
|
for i := 1; i < len(accNames)+1; i++ {
|
|
if _, ok := tc.Users[accNames[i-1]]; ok {
|
|
// account already created
|
|
continue
|
|
}
|
|
// babyjubjub key
|
|
var sk babyjub.PrivateKey
|
|
copy(sk[:], []byte(strconv.Itoa(i))) // only for testing
|
|
|
|
// eth address
|
|
var key ecdsa.PrivateKey
|
|
key.D = big.NewInt(int64(i)) // only for testing
|
|
key.PublicKey.X, key.PublicKey.Y = ethCrypto.S256().ScalarBaseMult(key.D.Bytes())
|
|
key.Curve = ethCrypto.S256()
|
|
addr := ethCrypto.PubkeyToAddress(key.PublicKey)
|
|
|
|
u := User{
|
|
BJJ: &sk,
|
|
Addr: addr,
|
|
Accounts: make(map[common.TokenID]*Account),
|
|
}
|
|
tc.Users[accNames[i-1]] = &u
|
|
}
|
|
}
|