305 lines
9.8 KiB
Nim
305 lines
9.8 KiB
Nim
# Nimbus
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# Copyright (c) 2018 Status Research & Development GmbH
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# Licensed under either of
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# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0)
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# * MIT license ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT)
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# at your option. This file may not be copied, modified, or distributed except according to those terms.
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import
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chronicles, strformat, strutils, sequtils, macros, terminal, math, tables, options,
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eth_common,
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../constants, ../errors, ../validation, ../vm_state, ../vm_types,
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./interpreter/[opcode_values, gas_meter, gas_costs, vm_forks],
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./code_stream, ./memory, ./message, ./stack, ../db/[state_db, db_chain],
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../utils/header, byteutils, ranges, eth_keys, precompiles,
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transaction_tracer
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logScope:
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topics = "vm computation"
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proc newBaseComputation*(vmState: BaseVMState, blockNumber: UInt256, message: Message, forkOverride=none(Fork)): BaseComputation =
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new result
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result.vmState = vmState
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result.msg = message
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result.memory = Memory()
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result.stack = newStack()
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result.gasMeter.init(message.gas)
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result.children = @[]
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result.accountsToDelete = initTable[EthAddress, EthAddress]()
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result.code = newCodeStream(message.code)
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# result.rawOutput = "0x"
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result.gasCosts =
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if forkOverride.isSome:
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forkOverride.get.forkToSchedule
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else:
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blockNumber.toFork.forkToSchedule
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result.forkOverride = forkOverride
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proc isOriginComputation*(c: BaseComputation): bool =
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# Is this computation the computation initiated by a transaction
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c.msg.isOrigin
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template isSuccess*(c: BaseComputation): bool =
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c.error.isNil
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template isError*(c: BaseComputation): bool =
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not c.isSuccess
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func shouldBurnGas*(c: BaseComputation): bool =
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c.isError and c.error.burnsGas
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func shouldEraseReturnData*(c: BaseComputation): bool =
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c.isError and c.error.erasesReturnData
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func bytesToHex(x: openarray[byte]): string {.inline.} =
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## TODO: use seq[byte] for raw data and delete this proc
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foldl(x, a & b.int.toHex(2).toLowerAscii, "0x")
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func output*(c: BaseComputation): seq[byte] =
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if c.shouldEraseReturnData:
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@[]
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else:
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c.rawOutput
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func `output=`*(c: var BaseComputation, value: openarray[byte]) =
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c.rawOutput = @value
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proc outputHex*(c: BaseComputation): string =
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if c.shouldEraseReturnData:
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return "0x"
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c.rawOutput.bytesToHex
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proc prepareChildMessage*(
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c: var BaseComputation,
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gas: GasInt,
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to: EthAddress,
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value: UInt256,
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data: seq[byte],
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code: seq[byte],
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options: MessageOptions = newMessageOptions()): Message =
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var childOptions = options
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childOptions.depth = c.msg.depth + 1
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result = newMessage(
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gas,
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c.msg.gasPrice,
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to,
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c.msg.origin,
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value,
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data,
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code,
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childOptions)
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proc applyMessage(computation: var BaseComputation, opCode: static[Op]) =
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var transaction = computation.vmState.beginTransaction()
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defer: transaction.dispose()
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if computation.msg.depth > STACK_DEPTH_LIMIT:
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raise newException(StackDepthError, "Stack depth limit reached")
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if computation.msg.value != 0:
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let senderBalance =
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computation.vmState.getStateDb(
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computation.vmState.blockHeader.hash).
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getBalance(computation.msg.sender)
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var newBalance = senderBalance
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if sender_balance < computation.msg.value:
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raise newException(InsufficientFunds,
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&"Insufficient funds: {senderBalance} < {computation.msg.value}"
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)
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when opCode in {Call, CallCode}:
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let
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insufficientFunds = senderBalance < computation.msg.value
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stackTooDeep = computation.msg.depth >= MaxCallDepth
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if insufficientFunds or stackTooDeep:
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computation.returnData = @[]
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var errMessage: string
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if insufficientFunds:
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errMessage = &"Insufficient Funds: have: {$senderBalance} need: {$computation.msg.value}"
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elif stackTooDeep:
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errMessage = "Stack Limit Reached"
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else:
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raise newException(VMError, "Invariant: Unreachable code path")
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debug "Computation failure", msg = errMessage
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computation.gasMeter.returnGas(computation.msg.gas)
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push: 0
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return
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newBalance = senderBalance - computation.msg.value
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computation.vmState.mutateStateDb:
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db.setBalance(computation.msg.sender, newBalance)
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db.addBalance(computation.msg.storage_address, computation.msg.value)
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trace "Value transferred",
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source = computation.msg.sender,
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dest = computation.msg.storage_address,
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value = computation.msg.value,
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oldSenderBalance = senderBalance,
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newSenderBalance = newBalance,
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gasPrice = computation.msg.gasPrice,
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gas = computation.msg.gas
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trace "Apply message",
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value = computation.msg.value,
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senderBalance = newBalance,
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sender = computation.msg.sender.toHex,
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address = computation.msg.storage_address.toHex,
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gasPrice = computation.msg.gasPrice,
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gas = computation.msg.gas
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# Run code
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# We cannot use the normal dispatching function `executeOpcodes`
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# within `interpreter_dispatch.nim` due to a cyclic dependency.
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if not computation.execPrecompiles:
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computation.opcodeExec(computation)
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if not computation.isError:
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trace "Computation committed"
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transaction.commit()
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else:
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debug "Computation rolled back due to error"
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proc applyCreateMessage(fork: Fork, computation: var BaseComputation, opCode: static[Op]) =
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computation.applyMessage(opCode)
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var transaction: DbTransaction
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defer: transaction.safeDispose()
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if fork >= FkFrontier:
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transaction = computation.vmState.beginTransaction()
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if computation.isError:
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return
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else:
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let contractCode = computation.output
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if contractCode.len > 0:
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if fork >= FkSpurious and contractCode.len >= EIP170_CODE_SIZE_LIMIT:
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raise newException(OutOfGas, &"Contract code size exceeds EIP170 limit of {EIP170_CODE_SIZE_LIMIT}. Got code of size: {contractCode.len}")
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try:
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computation.gasMeter.consumeGas(
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computation.gasCosts[Create].m_handler(0, 0, contractCode.len),
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reason = "Write contract code for CREATE")
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let storageAddr = computation.msg.storage_address
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trace "SETTING CODE",
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address = storageAddr.toHex,
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length = len(contract_code),
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hash = contractCode.rlpHash
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computation.vmState.mutateStateDb:
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db.setCode(storageAddr, contractCode.toRange)
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if transaction != nil:
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transaction.commit()
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except OutOfGas:
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if fork == FkFrontier:
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computation.output = @[]
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else:
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# Different from Frontier:
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# Reverts state on gas failure while writing contract code.
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# Transaction are reverted automatically by safeDispose.
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discard
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else:
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if transaction != nil:
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transaction.commit()
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proc generateChildComputation*(fork: Fork, computation: BaseComputation, childMsg: Message, opCode: static[Op]): BaseComputation =
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var childComp = newBaseComputation(
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computation.vmState,
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computation.vmState.blockHeader.blockNumber,
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childMsg,
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some(fork))
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# Copy the fork op code executor proc (assumes child computation is in the same fork)
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childComp.opCodeExec = computation.opCodeExec
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if childMsg.isCreate:
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fork.applyCreateMessage(childComp, opCode)
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else:
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applyMessage(childComp, opCode)
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return childComp
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proc addChildComputation(fork: Fork, computation: BaseComputation, child: BaseComputation) =
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if child.isError:
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if child.msg.isCreate:
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computation.returnData = child.output
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elif child.shouldBurnGas:
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computation.returnData = @[]
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else:
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computation.returnData = child.output
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else:
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if child.msg.isCreate:
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computation.returnData = @[]
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else:
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computation.returnData = child.output
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computation.children.add(child)
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proc getFork*(computation: BaseComputation): Fork =
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result =
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if computation.forkOverride.isSome:
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computation.forkOverride.get
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else:
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computation.vmState.blockHeader.blockNumber.toFork
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proc applyChildComputation*(computation: BaseComputation, childMsg: Message, opCode: static[Op]): BaseComputation =
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## Apply the vm message childMsg as a child computation.
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let fork = computation.getFork
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result = fork.generateChildComputation(computation, childMsg, opCode)
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fork.addChildComputation(computation, result)
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proc registerAccountForDeletion*(c: var BaseComputation, beneficiary: EthAddress) =
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if c.msg.storageAddress in c.accountsToDelete:
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raise newException(ValueError,
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"invariant: should be impossible for an account to be " &
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"registered for deletion multiple times")
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c.accountsToDelete[c.msg.storageAddress] = beneficiary
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proc addLogEntry*(c: var BaseComputation, log: Log) {.inline.} =
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c.vmState.addLogEntry(log)
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# many methods are basically TODO, but they still return valid values
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# in order to test some existing code
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func getAccountsForDeletion*(c: BaseComputation): seq[EthAddress] =
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# TODO
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if c.isError:
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result = @[]
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else:
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result = @[]
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for account in c.accountsToDelete.keys:
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result.add(account)
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proc getGasRefund*(c: BaseComputation): GasInt =
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if c.isError:
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result = 0
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else:
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result = c.gasMeter.gasRefunded + c.children.mapIt(it.getGasRefund()).foldl(a + b, 0'i64)
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proc getGasUsed*(c: BaseComputation): GasInt =
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if c.shouldBurnGas:
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result = c.msg.gas
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else:
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result = max(0, c.msg.gas - c.gasMeter.gasRemaining)
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proc getGasRemaining*(c: BaseComputation): GasInt =
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if c.shouldBurnGas:
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result = 0
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else:
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result = c.gasMeter.gasRemaining
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proc tracingEnabled*(c: BaseComputation): bool =
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c.vmState.tracingEnabled
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proc traceOpCodeStarted*(c: BaseComputation, op: Op) =
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c.vmState.tracer.traceOpCodeStarted(c, op)
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proc traceOpCodeEnded*(c: BaseComputation, op: Op) =
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c.vmState.tracer.traceOpCodeEnded(c, op)
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proc traceError*(c: BaseComputation) =
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c.vmState.tracer.traceError(c)
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