# 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 ".."/[db/accounts_cache, constants], "."/[code_stream, memory, message, stack, state], "."/[transaction_tracer, types], ./interpreter/[gas_meter, gas_costs, op_codes], ../common/[common, evmforks], ../utils/utils, chronicles, chronos, eth/[keys], sets export common logScope: topics = "vm computation" when defined(chronicles_log_level): import stew/byteutils when defined(evmc_enabled): import evmc/evmc, evmc_helpers, evmc_api, stew/ranges/ptr_arith export evmc, evmc_helpers, evmc_api, ptr_arith const evmc_enabled* = defined(evmc_enabled) # ------------------------------------------------------------------------------ # Helpers # ------------------------------------------------------------------------------ proc generateContractAddress(c: Computation, salt: ContractSalt): EthAddress = if c.msg.kind == evmcCreate: let creationNonce = c.vmState.readOnlyStateDB().getNonce(c.msg.sender) result = generateAddress(c.msg.sender, creationNonce) else: result = generateSafeAddress(c.msg.sender, salt, c.msg.data) # ------------------------------------------------------------------------------ # Public functions # ------------------------------------------------------------------------------ template getCoinbase*(c: Computation): EthAddress = when evmc_enabled: c.host.getTxContext().block_coinbase else: c.vmState.coinbase template getTimestamp*(c: Computation): int64 = when evmc_enabled: c.host.getTxContext().block_timestamp else: c.vmState.timestamp.toUnix template getBlockNumber*(c: Computation): UInt256 = when evmc_enabled: c.host.getTxContext().block_number.u256 else: c.vmState.blockNumber.blockNumberToVmWord template getDifficulty*(c: Computation): DifficultyInt = when evmc_enabled: UInt256.fromEvmc c.host.getTxContext().block_prev_randao else: c.vmState.difficulty template getGasLimit*(c: Computation): GasInt = when evmc_enabled: c.host.getTxContext().block_gas_limit.GasInt else: c.vmState.gasLimit template getBaseFee*(c: Computation): UInt256 = when evmc_enabled: UInt256.fromEvmc c.host.getTxContext().block_base_fee else: c.vmState.baseFee template getChainId*(c: Computation): uint = when evmc_enabled: UInt256.fromEvmc(c.host.getTxContext().chain_id).truncate(uint) else: c.vmState.com.chainId.uint template getOrigin*(c: Computation): EthAddress = when evmc_enabled: c.host.getTxContext().tx_origin else: c.vmState.txOrigin template getGasPrice*(c: Computation): GasInt = when evmc_enabled: UInt256.fromEvmc(c.host.getTxContext().tx_gas_price).truncate(GasInt) else: c.vmState.txGasPrice proc getBlockHash*(c: Computation, number: UInt256): Hash256 = when evmc_enabled: let blockNumber = c.host.getTxContext().block_number.u256 ancestorDepth = blockNumber - number - 1 if ancestorDepth >= constants.MAX_PREV_HEADER_DEPTH: return if number >= blockNumber: return c.host.getBlockHash(number) else: let blockNumber = c.vmState.blockNumber ancestorDepth = blockNumber - number - 1 if ancestorDepth >= constants.MAX_PREV_HEADER_DEPTH: return if number >= blockNumber: return c.vmState.getAncestorHash(number.vmWordToBlockNumber) template accountExists*(c: Computation, address: EthAddress): bool = when evmc_enabled: c.host.accountExists(address) else: if c.fork >= FkSpurious: not c.vmState.readOnlyStateDB.isDeadAccount(address) else: c.vmState.readOnlyStateDB.accountExists(address) template getStorage*(c: Computation, slot: UInt256): UInt256 = when evmc_enabled: c.host.getStorage(c.msg.contractAddress, slot) else: c.vmState.readOnlyStateDB.getStorage(c.msg.contractAddress, slot) template getBalance*(c: Computation, address: EthAddress): UInt256 = when evmc_enabled: c.host.getBalance(address) else: c.vmState.readOnlyStateDB.getBalance(address) template getCodeSize*(c: Computation, address: EthAddress): uint = when evmc_enabled: c.host.getCodeSize(address) else: uint(c.vmState.readOnlyStateDB.getCodeSize(address)) template getCodeHash*(c: Computation, address: EthAddress): Hash256 = when evmc_enabled: c.host.getCodeHash(address) else: let db = c.vmState.readOnlyStateDB if not db.accountExists(address) or db.isEmptyAccount(address): default(Hash256) else: db.getCodeHash(address) template selfDestruct*(c: Computation, address: EthAddress) = when evmc_enabled: c.host.selfDestruct(c.msg.contractAddress, address) else: c.execSelfDestruct(address) template getCode*(c: Computation, address: EthAddress): seq[byte] = when evmc_enabled: c.host.copyCode(address) else: c.vmState.readOnlyStateDB.getCode(address) proc newComputation*(vmState: BaseVMState, message: Message, salt: ContractSalt = ZERO_CONTRACTSALT): Computation = new result result.vmState = vmState result.msg = message result.memory = Memory() result.stack = newStack() result.returnStack = @[] result.gasMeter.init(message.gas) result.touchedAccounts = initHashSet[EthAddress]() result.selfDestructs = initHashSet[EthAddress]() if result.msg.isCreate(): result.msg.contractAddress = result.generateContractAddress(salt) result.code = newCodeStream(message.data) message.data = @[] else: result.code = newCodeStream( vmState.readOnlyStateDB.getCode(message.codeAddress)) proc newComputation*(vmState: BaseVMState, message: Message, code: seq[byte]): Computation = new result result.vmState = vmState result.msg = message result.memory = Memory() result.stack = newStack() result.returnStack = @[] result.gasMeter.init(message.gas) result.touchedAccounts = initHashSet[EthAddress]() result.selfDestructs = initHashSet[EthAddress]() result.code = newCodeStream(code) template gasCosts*(c: Computation): untyped = c.vmState.gasCosts template fork*(c: Computation): untyped = c.vmState.fork proc isOriginComputation*(c: Computation): bool = # Is this computation the computation initiated by a transaction c.msg.sender == c.vmState.txOrigin template isSuccess*(c: Computation): bool = c.error.isNil template isError*(c: Computation): bool = not c.isSuccess func shouldBurnGas*(c: Computation): bool = c.isError and c.error.burnsGas proc isSelfDestructed*(c: Computation, address: EthAddress): bool = result = address in c.selfDestructs proc snapshot*(c: Computation) = c.savePoint = c.vmState.stateDB.beginSavepoint() proc commit*(c: Computation) = c.vmState.stateDB.commit(c.savePoint) proc dispose*(c: Computation) {.inline.} = c.vmState.stateDB.safeDispose(c.savePoint) c.savePoint = nil proc rollback*(c: Computation) = c.vmState.stateDB.rollback(c.savePoint) proc setError*(c: Computation, msg: string, burnsGas = false) {.inline.} = c.error = Error(info: msg, burnsGas: burnsGas) proc writeContract*(c: Computation) = template withExtra(tracer: untyped, args: varargs[untyped]) = tracer args, newContract=($c.msg.contractAddress), blockNumber=c.vmState.blockNumber, parentHash=($c.vmState.parent.blockHash) # In each check below, they are guarded by `len > 0`. This includes writing # out the code, because the account already has zero-length code to handle # nested calls (this is specified). May as well simplify other branches. let (len, fork) = (c.output.len, c.fork) if len == 0: return # EIP-3541 constraint (https://eips.ethereum.org/EIPS/eip-3541). if fork >= FkLondon and c.output[0] == 0xEF.byte: withExtra trace, "New contract code starts with 0xEF byte, not allowed by EIP-3541" # TODO: Return `EVMC_CONTRACT_VALIDATION_FAILURE` (like Silkworm). c.setError("EVMC_CONTRACT_VALIDATION_FAILURE", true) return # EIP-170 constraint (https://eips.ethereum.org/EIPS/eip-3541). if fork >= FkSpurious and len > EIP170_MAX_CODE_SIZE: withExtra trace, "New contract code exceeds EIP-170 limit", codeSize=len, maxSize=EIP170_MAX_CODE_SIZE # TODO: Return `EVMC_OUT_OF_GAS` (like Silkworm). c.setError("EVMC_OUT_OF_GAS", true) return # Charge gas and write the code even if the code address is self-destructed. # Non-empty code in a newly created, self-destructed account is possible if # the init code calls `DELEGATECALL` or `CALLCODE` to other code which uses # `SELFDESTRUCT`. This shows on Mainnet blocks 6001128..6001204, where the # gas difference matters. The new code can be called later in the # transaction too, before self-destruction wipes the account at the end. let gasParams = GasParams(kind: Create, cr_memLength: len) let codeCost = c.gasCosts[Create].c_handler(0.u256, gasParams).gasCost if codeCost <= c.gasMeter.gasRemaining: c.gasMeter.consumeGas(codeCost, reason = "Write new contract code") c.vmState.mutateStateDB: db.setCode(c.msg.contractAddress, c.output) withExtra trace, "Writing new contract code" return if fork >= FkHomestead: # EIP-2 (https://eips.ethereum.org/EIPS/eip-2). # TODO: Return `EVMC_OUT_OF_GAS` (like Silkworm). c.setError("EVMC_OUT_OF_GAS", true) else: # Before EIP-2, when out of gas for code storage, the account ends up with # zero-length code and no error. No gas is charged. Code cited in EIP-2: # https://github.com/ethereum/pyethereum/blob/d117c8f3fd93/ethereum/processblock.py#L304 # https://github.com/ethereum/go-ethereum/blob/401354976bb4/core/vm/instructions.go#L586 # The account already has zero-length code to handle nested calls. withExtra trace, "New contract given empty code by pre-Homestead rules" template chainTo*(c: Computation, toChild: typeof(c.child), after: untyped) = c.child = toChild c.continuation = proc() = c.continuation = nil after # Register an async operation to be performed before the continuation is called. template asyncChainTo*(c: Computation, asyncOperation: Future[void], after: untyped) = c.pendingAsyncOperation = asyncOperation c.continuation = proc() = c.continuation = nil after proc merge*(c, child: Computation) = c.logEntries.add child.logEntries c.gasMeter.refundGas(child.gasMeter.gasRefunded) c.selfDestructs.incl child.selfDestructs c.touchedAccounts.incl child.touchedAccounts proc execSelfDestruct*(c: Computation, beneficiary: EthAddress) = c.vmState.mutateStateDB: let localBalance = c.getBalance(c.msg.contractAddress) beneficiaryBalance = c.getBalance(beneficiary) # Transfer to beneficiary db.setBalance(beneficiary, localBalance + beneficiaryBalance) # Zero the balance of the address being deleted. # This must come after sending to beneficiary in case the # contract named itself as the beneficiary. db.setBalance(c.msg.contractAddress, 0.u256) trace "SELFDESTRUCT", contractAddress = c.msg.contractAddress.toHex, localBalance = localBalance.toString, beneficiary = beneficiary.toHex c.touchedAccounts.incl beneficiary # Register the account to be deleted c.selfDestructs.incl(c.msg.contractAddress) proc addLogEntry*(c: Computation, log: Log) {.inline.} = c.logEntries.add(log) proc getGasRefund*(c: Computation): GasInt = if c.isSuccess: result = c.gasMeter.gasRefunded proc refundSelfDestruct*(c: Computation) = let cost = gasFees[c.fork][RefundSelfDestruct] c.gasMeter.refundGas(cost * c.selfDestructs.len) proc tracingEnabled*(c: Computation): bool {.inline.} = TracerFlags.EnableTracing in c.vmState.tracer.flags proc traceOpCodeStarted*(c: Computation, op: Op): int {.inline.} = c.vmState.tracer.traceOpCodeStarted(c, op) proc traceOpCodeEnded*(c: Computation, op: Op, lastIndex: int) {.inline.} = c.vmState.tracer.traceOpCodeEnded(c, op, lastIndex) proc traceError*(c: Computation) {.inline.} = c.vmState.tracer.traceError(c) proc prepareTracer*(c: Computation) {.inline.} = c.vmState.tracer.prepare(c.msg.depth) # ------------------------------------------------------------------------------ # End # ------------------------------------------------------------------------------