# 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 ./constants, ./errors, eth/[common, keys], ./utils/utils, common/evmforks, ./vm_gas_costs import eth/common/transaction as common_transaction export common_transaction, errors func intrinsicGas*(data: openArray[byte], fork: EVMFork): GasInt = result = gasFees[fork][GasTransaction] for i in data: if i == 0: result += gasFees[fork][GasTXDataZero] else: result += gasFees[fork][GasTXDataNonZero] proc intrinsicGas*(tx: Transaction, fork: EVMFork): GasInt = # Compute the baseline gas cost for this transaction. This is the amount # of gas needed to send this transaction (but that is not actually used # for computation) result = tx.payload.intrinsicGas(fork) if tx.contractCreation: result = result + gasFees[fork][GasTXCreate] if fork >= FkShanghai: result = result + (gasFees[fork][GasInitcodeWord] * tx.payload.len) if tx.txType > TxLegacy: result = result + tx.accessList.len * ACCESS_LIST_ADDRESS_COST var numKeys = 0 for n in tx.accessList: inc(numKeys, n.storageKeys.len) result = result + numKeys * ACCESS_LIST_STORAGE_KEY_COST proc getSignature*(tx: Transaction, output: var Signature): bool = var bytes: array[65, byte] bytes[0..31] = tx.R.toByteArrayBE() bytes[32..63] = tx.S.toByteArrayBE() if tx.txType == TxLegacy: var v = tx.V if v >= EIP155_CHAIN_ID_OFFSET: v = 28 - (v and 0x01) elif v == 27 or v == 28: discard else: return false bytes[64] = byte(v - 27) else: bytes[64] = tx.V.byte let sig = Signature.fromRaw(bytes) if sig.isOk: output = sig[] return true return false proc toSignature*(tx: Transaction): Signature = if not getSignature(tx, result): raise newException(Exception, "Invalid signature") proc getSender*(tx: Transaction, output: var EthAddress): bool = ## Find the address the transaction was sent from. var sig: Signature if tx.getSignature(sig): var txHash = tx.txHashNoSignature let pubkey = recover(sig, SkMessage(txHash.data)) if pubkey.isOk: output = pubkey[].toCanonicalAddress() result = true proc getSender*(tx: Transaction): EthAddress = ## Raises error on failure to recover public key if not tx.getSender(result): raise newException(ValidationError, "Could not derive sender address from transaction") proc getRecipient*(tx: Transaction, sender: EthAddress): EthAddress = if tx.contractCreation: result = generateAddress(sender, tx.nonce) else: result = tx.to.get() proc validateTxLegacy(tx: Transaction, fork: EVMFork) = var vMin = 27'i64 vMax = 28'i64 if tx.V >= EIP155_CHAIN_ID_OFFSET: let chainId = (tx.V - EIP155_CHAIN_ID_OFFSET) div 2 vMin = 35 + (2 * chainId) vMax = vMin + 1 var isValid = tx.R >= UInt256.one isValid = isValid and tx.S >= UInt256.one isValid = isValid and tx.V >= vMin isValid = isValid and tx.V <= vMax isValid = isValid and tx.S < SECPK1_N isValid = isValid and tx.R < SECPK1_N if fork >= FkHomestead: isValid = isValid and tx.S < SECPK1_N div 2 if not isValid: raise newException(ValidationError, "Invalid transaction") proc validateTxEip2930(tx: Transaction) = var isValid = tx.V in {0'i64, 1'i64} isValid = isValid and tx.S >= UInt256.one isValid = isValid and tx.S < SECPK1_N isValid = isValid and tx.R < SECPK1_N if not isValid: raise newException(ValidationError, "Invalid transaction") proc validate*(tx: Transaction, fork: EVMFork) = # parameters pass validation rules if tx.intrinsicGas(fork) > tx.gasLimit: raise newException(ValidationError, "Insufficient gas") if fork >= FkShanghai and tx.contractCreation and tx.payload.len > EIP3860_MAX_INITCODE_SIZE: raise newException(ValidationError, "Initcode size exceeds max") # check signature validity var sender: EthAddress if not tx.getSender(sender): raise newException(ValidationError, "Invalid signature or failed message verification") case tx.txType of TxLegacy: validateTxLegacy(tx, fork) else: validateTxEip2930(tx) proc signTransaction*(tx: Transaction, privateKey: PrivateKey, chainId: ChainId, eip155: bool): Transaction = result = tx if eip155: # trigger rlpEncodeEIP155 in nim-eth result.V = chainId.int64 * 2'i64 + 35'i64 let rlpTx = rlpEncode(result) sig = sign(privateKey, rlpTx).toRaw case tx.txType of TxLegacy: if eip155: result.V = sig[64].int64 + result.V else: result.V = sig[64].int64 + 27'i64 else: result.V = sig[64].int64 result.R = UInt256.fromBytesBE(sig[0..31]) result.S = UInt256.fromBytesBE(sig[32..63]) func eip1559TxNormalization*(tx: Transaction; baseFee: GasInt; fork: EVMFork): Transaction = ## This function adjusts a legacy transaction to EIP-1559 standard. This ## is needed particularly when using the `validateTransaction()` utility ## with legacy transactions. result = tx if tx.txType < TxEip1559: result.maxPriorityFee = tx.gasPrice result.maxFee = tx.gasPrice if FkLondon <= fork: result.gasPrice = baseFee + min(result.maxPriorityFee, result.maxFee - baseFee) func effectiveGasTip*(tx: Transaction; baseFee: Option[UInt256]): GasInt = var maxPriorityFee = tx.maxPriorityFee maxFee = tx.maxFee baseFee = baseFee.get(0.u256).truncate(GasInt) if tx.txType < TxEip1559: maxPriorityFee = tx.gasPrice maxFee = tx.gasPrice min(maxPriorityFee, maxFee - baseFee) proc decodeTx*(bytes: openArray[byte]): Transaction = var rlp = rlpFromBytes(bytes) result = rlp.read(Transaction) if rlp.hasData: raise newException(RlpError, "rlp: input contains more than one value")