# Nimbus # Copyright (c) 2018 Status Research & Development GmbH # Licensed under either of # * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0) # * MIT license ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT) # at your option. This file may not be copied, modified, or distributed except according to those terms. import options, sets, eth/common, chronicles, db/accounts_cache, transaction, vm/[nvm_computation, nvm_interpreter, nvm_state, nvm_types] proc validateTransaction*(vmState: BaseVMState, tx: Transaction, sender: EthAddress, fork: Fork): bool = let balance = vmState.readOnlyStateDB.getBalance(sender) let nonce = vmState.readOnlyStateDB.getNonce(sender) if vmState.cumulativeGasUsed + tx.gasLimit > vmState.blockHeader.gasLimit: debug "invalid tx: block header gasLimit reached", maxLimit=vmState.blockHeader.gasLimit, gasUsed=vmState.cumulativeGasUsed, addition=tx.gasLimit return let totalCost = tx.gasLimit.u256 * tx.gasPrice.u256 + tx.value if totalCost > balance: debug "invalid tx: not enough cash", available=balance, require=totalCost return if tx.gasLimit < tx.intrinsicGas(fork): debug "invalid tx: not enough gas to perform calculation", available=tx.gasLimit, require=tx.intrinsicGas(fork) return if tx.accountNonce != nonce: debug "invalid tx: account nonce mismatch", txNonce=tx.accountnonce, accountNonce=nonce return result = true proc setupComputation*(vmState: BaseVMState, tx: Transaction, sender: EthAddress, fork: Fork) : Computation = var gas = tx.gasLimit - tx.intrinsicGas(fork) assert gas >= 0 vmState.setupTxContext( origin = sender, gasPrice = tx.gasPrice, forkOverride = some(fork) ) let msg = Message( kind: if tx.isContractCreation: evmcCreate else: evmcCall, depth: 0, gas: gas, sender: sender, contractAddress: tx.getRecipient(), codeAddress: tx.to, value: tx.value, data: tx.payload ) result = newComputation(vmState, msg) doAssert result.isOriginComputation proc execComputation*(c: Computation) = if c.msg.isCreate: c.execCreate() else: c.vmState.mutateStateDB: db.incNonce(c.msg.sender) c.execCall() if c.isSuccess: c.refundSelfDestruct() shallowCopy(c.vmState.suicides, c.suicides) shallowCopy(c.vmState.logEntries, c.logEntries) c.vmState.touchedAccounts.incl c.touchedAccounts c.vmstate.status = c.isSuccess proc refundGas*(c: Computation, tx: Transaction, sender: EthAddress) = let maxRefund = (tx.gasLimit - c.gasMeter.gasRemaining) div 2 c.gasMeter.returnGas min(c.getGasRefund(), maxRefund) c.vmState.mutateStateDB: db.addBalance(sender, c.gasMeter.gasRemaining.u256 * tx.gasPrice.u256) #[ method executeTransaction(vmState: BaseVMState, transaction: Transaction): (Computation, BlockHeader) {.base.}= # Execute the transaction in the vm # TODO: introduced here: https://github.com/ethereum/py-evm/commit/21c57f2d56ab91bb62723c3f9ebe291d0b132dde # Refactored/Removed here: https://github.com/ethereum/py-evm/commit/cc991bf # Deleted here: https://github.com/ethereum/py-evm/commit/746defb6f8e83cee2c352a0ab8690e1281c4227c raise newException(ValueError, "Must be implemented by subclasses") method addTransaction*(vmState: BaseVMState, transaction: Transaction, c: Computation, b: Block): (Block, Table[string, string]) = # Add a transaction to the given block and # return `trieData` to store the transaction data in chaindb in VM layer # Update the bloomFilter, transaction trie and receipt trie roots, bloom_filter, # bloom, and usedGas of the block # transaction: the executed transaction # computation: the Computation object with executed result # block: the Block which the transaction is added in # var receipt = vmState.makeReceipt(transaction, computation) # vmState.add_receipt(receipt) # block.transactions.append(transaction) # # Get trie roots and changed key-values. # tx_root_hash, tx_kv_nodes = make_trie_root_and_nodes(block.transactions) # receipt_root_hash, receipt_kv_nodes = make_trie_root_and_nodes(self.receipts) # trie_data = merge(tx_kv_nodes, receipt_kv_nodes) # block.bloom_filter |= receipt.bloom # block.header.transaction_root = tx_root_hash # block.header.receipt_root = receipt_root_hash # block.header.bloom = int(block.bloom_filter) # block.header.gas_used = receipt.gas_used # return block, trie_data result = (b, initTable[string, string]()) method applyTransaction*( vmState: BaseVMState, transaction: Transaction, b: Block, isStateless: bool): (Computation, Block, Table[string, string]) = # Apply transaction to the given block # transaction: the transaction need to be applied # b: the block which the transaction applies on # isStateless: if isStateless, call vmState.addTransaction to set block if isStateless: var ourBlock = b # deepcopy vmState.blockHeader = b.header var (computation, blockHeader) = vmState.executeTransaction(transaction) ourBlock.header = blockHeader var trieData: Table[string, string] (ourBlock, trieData) = vmState.addTransaction(transaction, computation, ourBlock) result = (computation, ourBlock, trieData) else: var (computation, blockHeader) = vmState.executeTransaction(transaction) return (computation, nil, initTable[string, string]()) ]#