package batchbuilder import ( "math/big" ethCommon "github.com/ethereum/go-ethereum/common" "github.com/hermeznetwork/hermez-node/common" "github.com/iden3/go-merkletree" "github.com/iden3/go-merkletree/db" "github.com/iden3/go-merkletree/db/memory" ) type ConfigCircuit struct { TxsMax uint64 L1TxsMax uint64 SMTLevelsMax uint64 } type BatchBuilder struct { StateDB db.Storage // where the MTs will be stored by the Synchronizer idx uint64 mt *merkletree.MerkleTree configCircuits []ConfigCircuit } type ConfigBatch struct { CoordinatorAddress ethCommon.Address } // NewBatchBuilder constructs a new BatchBuilder, and executes the bb.Reset // method func NewBatchBuilder(stateDB db.Storage, configCircuits []ConfigCircuit, batchNum int, idx, nLevels uint64) (*BatchBuilder, error) { localMt, err := merkletree.NewMerkleTree(memory.NewMemoryStorage(), int(nLevels)) if err != nil { return nil, err } bb := BatchBuilder{ StateDB: stateDB, idx: idx, mt: localMt, configCircuits: configCircuits, } bb.Reset(batchNum, idx, true) return &bb, nil } // Reset tells the BatchBuilder to reset it's internal state to the required // `batchNum`. If `fromSynchronizer` is true, the BatchBuilder must take a // copy of the rollup state from the Synchronizer at that `batchNum`, otherwise // it can just roll back the internal copy. func (bb *BatchBuilder) Reset(batchNum int, idx uint64, fromSynchronizer bool) error { return nil } type ZKInputs struct{} // TMP func (bb *BatchBuilder) BuildBatch(configBatch ConfigBatch, l1usertxs, l1coordinatortxs []common.L1Tx, l2txs []common.L2Tx, tokenIDs []common.TokenID) (*ZKInputs, error) { for _, tx := range l1usertxs { bb.processL1Tx(tx) } for _, tx := range l1coordinatortxs { bb.processL1Tx(tx) } for _, tx := range l2txs { switch tx.Type { case common.TxTypeTransfer: // go to the MT leaf of sender and receiver, and update // balance & nonce bb.applyTransfer(tx.Tx) case common.TxTypeExit: // execute exit flow default: } } return nil, nil } func (bb *BatchBuilder) processL1Tx(tx common.L1Tx) error { switch tx.Type { case common.TxTypeForceTransfer, common.TxTypeTransfer: // go to the MT leaf of sender and receiver, and update balance // & nonce bb.applyTransfer(tx.Tx) case common.TxTypeCreateAccountDeposit: // add new leaf to the MT, update balance of the MT leaf bb.applyCreateLeaf(tx) case common.TxTypeDeposit: // update balance of the MT leaf bb.applyDeposit(tx) case common.TxTypeDepositAndTransfer: // update balance in MT leaf, update balance & nonce of sender // & receiver bb.applyDeposit(tx) // this after v0, can be done by bb.applyDepositAndTransfer in a single step bb.applyTransfer(tx.Tx) case common.TxTypeCreateAccountDepositAndTransfer: // add new leaf to the merkletree, update balance in MT leaf, // update balance & nonce of sender & receiver bb.applyCreateLeaf(tx) bb.applyTransfer(tx.Tx) case common.TxTypeExit: // execute exit flow default: } return nil } // applyCreateLeaf creates a new leaf in the leaf of the depositer, it stores // the deposit value func (bb *BatchBuilder) applyCreateLeaf(tx common.L1Tx) error { k := big.NewInt(int64(bb.idx + 1)) leaf := common.Leaf{ TokenID: tx.TokenID, Nonce: 0, // TODO check always that a new leaf is created nonce is at 0 Balance: tx.LoadAmount, Ax: tx.FromBJJ.X, Ay: tx.FromBJJ.Y, EthAddr: tx.FromEthAddr, } v, err := leaf.HashValue() if err != nil { return err } // store at the DB the key: v, and value: leaf.Bytes() dbTx, err := bb.mt.DB().NewTx() if err != nil { return err } leafBytes, err := leaf.Bytes() if err != nil { return err } dbTx.Put(v.Bytes(), leafBytes[:]) // Add k & v into the MT err = bb.mt.Add(k, v) if err != nil { return err } // if everything is fine, increment idx bb.idx = bb.idx + 1 return nil } // applyDeposit updates the balance in the leaf of the depositer func (bb *BatchBuilder) applyDeposit(tx common.L1Tx) error { return nil } // applyTransfer updates the balance & nonce in the leaf of the sender, and the // balance in the leaf of the receiver func (bb *BatchBuilder) applyTransfer(tx common.Tx) error { return nil }