nimbus-eth1/nimbus/rpc/rpc_utils.nim

321 lines
10 KiB
Nim

# Nimbus
# Copyright (c) 2018-2024 Status Research & Development GmbH
# Licensed under either of
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
# * MIT license ([LICENSE-MIT](LICENSE-MIT))
# at your option.
# This file may not be copied, modified, or distributed except according to
# those terms.
{.push raises: [].}
import
std/[sequtils, algorithm],
./rpc_types,
./params,
../db/core_db,
../db/ledger,
../constants, stint,
../utils/utils,
../transaction,
../transaction/call_evm,
../core/eip4844,
../evm/types,
../evm/state,
../evm/precompiles,
../evm/tracer/access_list_tracer,
../evm/evm_errors,
eth/common/transaction_utils,
../common/common,
web3/eth_api_types
proc calculateMedianGasPrice*(chain: CoreDbRef): GasInt
{.gcsafe, raises: [CatchableError].} =
var prices = newSeqOfCap[GasInt](64)
let header = chain.getCanonicalHead()
for encodedTx in chain.getBlockTransactionData(header.txRoot):
let tx = decodeTx(encodedTx)
prices.add(tx.gasPrice)
if prices.len > 0:
sort(prices)
let middle = prices.len div 2
if prices.len mod 2 == 0:
# prevent overflow
let price = prices[middle].uint64 + prices[middle - 1].uint64
result = (price div 2).GasInt
else:
result = prices[middle]
# TODO: This should properly incorporate the base fee in the block data,
# and recommend a gas fee that likely gets the block to confirm.
# This also has to work on Genesis where no prior transaction data exists.
# For compatibility with `ethpandaops/ethereum-package`, set this to a
# sane minimum for compatibility to unblock testing.
# Note: When this is fixed, update `tests/graphql/queries.toml` and
# re-enable the "query.gasPrice" test case (remove `skip = true`).
const minGasPrice = 30_000_000_000.GasInt
result = max(result, minGasPrice)
proc unsignedTx*(tx: TransactionArgs, chain: CoreDbRef, defaultNonce: AccountNonce, chainId: ChainId): Transaction
{.gcsafe, raises: [CatchableError].} =
var res: Transaction
if tx.to.isSome:
res.to = Opt.some(tx.to.get)
if tx.gas.isSome:
res.gasLimit = tx.gas.get.GasInt
else:
res.gasLimit = 90000.GasInt
if tx.gasPrice.isSome:
res.gasPrice = tx.gasPrice.get.GasInt
else:
res.gasPrice = calculateMedianGasPrice(chain)
if tx.value.isSome:
res.value = tx.value.get
else:
res.value = 0.u256
if tx.nonce.isSome:
res.nonce = tx.nonce.get.AccountNonce
else:
res.nonce = defaultNonce
res.payload = tx.payload
res.chainId = chainId
return res
proc toWd(wd: Withdrawal): WithdrawalObject =
WithdrawalObject(
index: Quantity wd.index,
validatorIndex: Quantity wd.validatorIndex,
address: wd.address,
amount: Quantity wd.amount,
)
proc toWdList(list: openArray[Withdrawal]): seq[WithdrawalObject] =
var res = newSeqOfCap[WithdrawalObject](list.len)
for x in list:
res.add toWd(x)
return res
func toWdList(x: Opt[seq[eth_types.Withdrawal]]):
Opt[seq[WithdrawalObject]] =
if x.isNone: Opt.none(seq[WithdrawalObject])
else: Opt.some(toWdList x.get)
proc populateTransactionObject*(tx: Transaction,
optionalHash: Opt[eth_types.Hash32] = Opt.none(eth_types.Hash32),
optionalNumber: Opt[eth_types.BlockNumber] = Opt.none(eth_types.BlockNumber),
txIndex: Opt[uint64] = Opt.none(uint64)): TransactionObject =
var res = TransactionObject()
res.`type` = Opt.some Quantity(tx.txType)
res.blockHash = optionalHash
res.blockNumber = w3Qty(optionalNumber)
if (let sender = tx.recoverSender(); sender.isOk):
res.`from` = sender[]
res.gas = Quantity(tx.gasLimit)
res.gasPrice = Quantity(tx.gasPrice)
res.hash = tx.rlpHash
res.input = tx.payload
res.nonce = Quantity(tx.nonce)
res.to = Opt.some(tx.destination)
if txIndex.isSome:
res.transactionIndex = Opt.some(Quantity(txIndex.get))
res.value = tx.value
res.v = Quantity(tx.V)
res.r = tx.R
res.s = tx.S
res.maxFeePerGas = Opt.some Quantity(tx.maxFeePerGas)
res.maxPriorityFeePerGas = Opt.some Quantity(tx.maxPriorityFeePerGas)
if tx.txType >= TxEip2930:
res.chainId = Opt.some(Quantity(tx.chainId))
res.accessList = Opt.some(tx.accessList)
if tx.txType >= TxEip4844:
res.maxFeePerBlobGas = Opt.some(tx.maxFeePerBlobGas)
res.blobVersionedHashes = Opt.some(tx.versionedHashes)
return res
proc populateBlockObject*(blockHash: Hash32,
blk: Block,
totalDifficulty: UInt256,
fullTx: bool,
isUncle = false): BlockObject =
template header: auto = blk.header
var res = BlockObject()
res.number = Quantity(header.number)
res.hash = blockHash
res.parentHash = header.parentHash
res.nonce = Opt.some(header.nonce)
res.sha3Uncles = header.ommersHash
res.logsBloom = header.logsBloom
res.transactionsRoot = header.txRoot
res.stateRoot = header.stateRoot
res.receiptsRoot = header.receiptsRoot
res.miner = header.coinbase
res.difficulty = header.difficulty
res.extraData = HistoricExtraData header.extraData
res.mixHash = Hash32 header.mixHash
# discard sizeof(seq[byte]) of extraData and use actual length
let size = sizeof(Header) - sizeof(seq[byte]) + header.extraData.len
res.size = Quantity(size)
res.gasLimit = Quantity(header.gasLimit)
res.gasUsed = Quantity(header.gasUsed)
res.timestamp = Quantity(header.timestamp)
res.baseFeePerGas = header.baseFeePerGas
res.totalDifficulty = totalDifficulty
if not isUncle:
res.uncles = blk.uncles.mapIt(it.blockHash)
if fullTx:
for i, tx in blk.transactions:
let txObj = populateTransactionObject(tx,
Opt.some(blockHash),
Opt.some(header.number), Opt.some(i.uint64))
res.transactions.add txOrHash(txObj)
else:
for i, tx in blk.transactions:
let txHash = rlpHash(tx)
res.transactions.add txOrHash(txHash)
res.withdrawalsRoot = header.withdrawalsRoot
res.withdrawals = toWdList blk.withdrawals
res.parentBeaconBlockRoot = header.parentBeaconBlockRoot
res.blobGasUsed = w3Qty(header.blobGasUsed)
res.excessBlobGas = w3Qty(header.excessBlobGas)
return res
proc populateReceipt*(receipt: Receipt, gasUsed: GasInt, tx: Transaction,
txIndex: uint64, header: Header): ReceiptObject =
let sender = tx.recoverSender()
var res = ReceiptObject()
res.transactionHash = tx.rlpHash
res.transactionIndex = Quantity(txIndex)
res.blockHash = header.blockHash
res.blockNumber = Quantity(header.number)
if sender.isSome():
res.`from` = sender.get()
res.to = Opt.some(tx.destination)
res.cumulativeGasUsed = Quantity(receipt.cumulativeGasUsed)
res.gasUsed = Quantity(gasUsed)
res.`type` = Opt.some Quantity(receipt.receiptType)
if tx.contractCreation and sender.isSome:
res.contractAddress = Opt.some(tx.creationAddress(sender[]))
for log in receipt.logs:
# TODO: Work everywhere with either `Hash32` as topic or `array[32, byte]`
var topics: seq[Bytes32]
for topic in log.topics:
topics.add (topic)
let logObject = FilterLog(
removed: false,
# TODO: Not sure what is difference between logIndex and TxIndex and how
# to calculate it.
logIndex: Opt.some(res.transactionIndex),
# Note: the next 4 fields cause a lot of duplication of data, but the spec
# is what it is. Not sure if other clients actually add this.
transactionIndex: Opt.some(res.transactionIndex),
transactionHash: Opt.some(res.transactionHash),
blockHash: Opt.some(res.blockHash),
blockNumber: Opt.some(res.blockNumber),
# The actual fields
address: log.address,
data: log.data,
topics: topics
)
res.logs.add(logObject)
res.logsBloom = FixedBytes[256] receipt.logsBloom
# post-transaction stateroot (pre Byzantium).
if receipt.hasStateRoot:
res.root = Opt.some(receipt.stateRoot)
else:
# 1 = success, 0 = failure.
res.status = Opt.some(Quantity(receipt.status.uint64))
let baseFeePerGas = header.baseFeePerGas.get(0.u256)
let normTx = eip1559TxNormalization(tx, baseFeePerGas.truncate(GasInt))
res.effectiveGasPrice = Quantity(normTx.gasPrice)
if tx.txType == TxEip4844:
res.blobGasUsed = Opt.some(Quantity(tx.versionedHashes.len.uint64 * GAS_PER_BLOB.uint64))
res.blobGasPrice = Opt.some(getBlobBaseFee(header.excessBlobGas.get(0'u64)))
return res
proc createAccessList*(header: Header,
com: CommonRef,
args: TransactionArgs): AccessListResult =
template handleError(msg: string) =
return AccessListResult(
error: Opt.some(msg),
)
var args = args
# If the gas amount is not set, default to RPC gas cap.
if args.gas.isNone:
args.gas = Opt.some(Quantity DEFAULT_RPC_GAS_CAP)
let
vmState = BaseVMState.new(header, com).valueOr:
handleError("failed to create vmstate: " & $error.code)
fork = com.toEVMFork(forkDeterminationInfo(header.number, header.timestamp))
sender = args.sender
# TODO: nonce should be retrieved from txPool
nonce = vmState.stateDB.getNonce(sender)
to = if args.to.isSome: args.to.get
else: generateAddress(sender, nonce)
precompiles = activePrecompilesList(fork)
var
prevTracer = AccessListTracer.new(
args.accessList.get(@[]),
sender,
to,
precompiles)
while true:
# Retrieve the current access list to expand
let accessList = prevTracer.accessList()
# Set the accesslist to the last accessList
# generated by prevTracer
args.accessList = Opt.some(accessList)
# Apply the transaction with the access list tracer
let
tracer = AccessListTracer.new(accessList, sender, to, precompiles)
vmState = BaseVMState.new(header, com, tracer).valueOr:
handleError("failed to create vmstate: " & $error.code)
res = rpcCallEvm(args, header, com, vmState).valueOr:
handleError("failed to call evm: " & $error.code)
if res.isError:
handleError("failed to apply transaction: " & res.error)
if tracer.equal(prevTracer):
return AccessListResult(
accessList: accessList,
gasUsed: Quantity res.gasUsed,
)
prevTracer = tracer