# 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 std/[sequtils, sets, times], ../constants, ../db/[db_chain, accounts_cache], ../transaction, ../utils/[difficulty, header, pow], ".."/[vm_state, vm_types, forks, errors], ./dao, ./gaslimit, chronicles, eth/[common, rlp], nimcrypto/utils, stew/[objects, results, endians2] from stew/byteutils import nil export pow.PowRef, pow.new, results {.push raises: [Defect].} const daoForkBlockExtraData* = byteutils.hexToByteArray[13](DAOForkBlockExtra).toSeq # ------------------------------------------------------------------------------ # Private Helpers # ------------------------------------------------------------------------------ func isGenesis(header: BlockHeader): bool = header.blockNumber == 0.u256 and header.parentHash == GENESIS_PARENT_HASH # ------------------------------------------------------------------------------ # Pivate validator functions # ------------------------------------------------------------------------------ proc validateSeal(pow: PowRef; header: BlockHeader): Result[void,string] = let (expMixDigest, miningValue) = try: pow.getPowDigest(header) except CatchableError as err: return err("test") if expMixDigest != header.mixDigest: let miningHash = header.getPowSpecs.miningHash (size, cachedHash) = try: pow.getPowCacheLookup(header.blockNumber) except KeyError: return err("Unknown block") except CatchableError as e: return err(e.msg) debug "mixHash mismatch", actual = header.mixDigest, expected = expMixDigest, blockNumber = header.blockNumber, miningHash = miningHash, nonce = header.nonce.toHex, difficulty = header.difficulty, size = size, cachedHash = cachedHash return err("mixHash mismatch") let value = UInt256.fromBytesBE(miningValue.data) if value > UInt256.high div header.difficulty: return err("mining difficulty error") ok() proc validateHeader(db: BaseChainDB; header, parentHeader: BlockHeader; numTransactions: int; checkSealOK: bool; ttdReached: bool; pow: PowRef): Result[void,string] = template inDAOExtraRange(blockNumber: BlockNumber): bool = # EIP-799 # Blocks with block numbers in the range [1_920_000, 1_920_009] # MUST have DAOForkBlockExtra let DAOHigh = db.config.daoForkBlock + DAOForkExtraRange.u256 db.config.daoForkBlock <= blockNumber and blockNumber < DAOHigh if header.extraData.len > 32: return err("BlockHeader.extraData larger than 32 bytes") if header.gasUsed == 0 and 0 < numTransactions: return err("zero gasUsed but tranactions present"); if header.gasUsed < 0 or header.gasUsed > header.gasLimit: return err("gasUsed should be non negative and smaller or equal gasLimit") if header.blockNumber != parentHeader.blockNumber + 1: return err("Blocks must be numbered consecutively") if header.timestamp.toUnix <= parentHeader.timestamp.toUnix: return err("timestamp must be strictly later than parent") if db.config.daoForkSupport and inDAOExtraRange(header.blockNumber): if header.extraData != daoForkBlockExtraData: return err("header extra data should be marked DAO") if ttdReached: # EIP-4399 and EIP-3675 # no need to check mixDigest because EIP-4399 override this field # checking rule if not header.difficulty.isZero: return err("Non-zero difficulty in a post-merge block") if not header.nonce.isZeroMemory: return err("Non-zero nonce in a post-merge block") if header.ommersHash != EMPTY_UNCLE_HASH: return err("Invalid ommers hash in a post-merge block") else: let calcDiffc = db.config.calcDifficulty(header.timestamp, parentHeader) if header.difficulty < calcDiffc: return err("provided header difficulty is too low") if checkSealOK: return pow.validateSeal(header) result = ok() func validateUncle(currBlock, uncle, uncleParent: BlockHeader): Result[void,string] = if uncle.blockNumber >= currBlock.blockNumber: return err("uncle block number larger than current block number") if uncle.blockNumber != uncleParent.blockNumber + 1: return err("Uncle number is not one above ancestor's number") if uncle.timestamp.toUnix < uncleParent.timestamp.toUnix: return err("Uncle timestamp is before ancestor's timestamp") if uncle.gasUsed > uncle.gasLimit: return err("Uncle's gas usage is above the limit") result = ok() proc validateUncles(chainDB: BaseChainDB; header: BlockHeader; uncles: seq[BlockHeader]; checkSealOK: bool; pow: PowRef): Result[void,string] = let hasUncles = uncles.len > 0 let shouldHaveUncles = header.ommersHash != EMPTY_UNCLE_HASH if not hasUncles and not shouldHaveUncles: # optimization to avoid loading ancestors from DB, since the block has # no uncles return ok() if hasUncles and not shouldHaveUncles: return err("Block has uncles but header suggests uncles should be empty") if shouldHaveUncles and not hasUncles: return err("Header suggests block should have uncles but block has none") # Check for duplicates var uncleSet = initHashSet[Hash256]() for uncle in uncles: let uncleHash = uncle.blockHash if uncleHash in uncleSet: return err("Block contains duplicate uncles") else: uncleSet.incl uncleHash let recentAncestorHashes = try: chainDB.getAncestorsHashes(MAX_UNCLE_DEPTH + 1, header) except CatchableError as err: return err("Block not present in database") let recentUncleHashes = try: chainDB.getUncleHashes(recentAncestorHashes) except CatchableError as err: return err("Ancenstors not present in database") let blockHash = header.blockHash for uncle in uncles: let uncleHash = uncle.blockHash if uncleHash == blockHash: return err("Uncle has same hash as block") # ensure the uncle has not already been included. if uncleHash in recentUncleHashes: return err("Duplicate uncle") # ensure that the uncle is not one of the canonical chain blocks. if uncleHash in recentAncestorHashes: return err("Uncle cannot be an ancestor") # ensure that the uncle was built off of one of the canonical chain # blocks. if (uncle.parentHash notin recentAncestorHashes) or (uncle.parentHash == header.parentHash): return err("Uncle's parent is not an ancestor") # check uncle against own parent var parent: BlockHeader if not chainDB.getBlockHeader(uncle.parentHash,parent): return err("Uncle's parent has gone missing") if uncle.timestamp <= parent.timestamp: return err("Uncle's parent must me older") # Now perform VM level validation of the uncle if checkSealOK: result = pow.validateSeal(uncle) if result.isErr: return let uncleParent = try: chainDB.getBlockHeader(uncle.parentHash) except BlockNotFound: return err("Uncle parent not found") result = validateUncle(header, uncle, uncleParent) if result.isErr: return result = chainDB.validateGasLimitOrBaseFee(uncle, uncleParent) if result.isErr: return result = ok() # ------------------------------------------------------------------------------ # Public function, extracted from executor # ------------------------------------------------------------------------------ proc validateTransaction*( roDB: ReadOnlyStateDB; ## Parent accounts environment for transaction tx: Transaction; ## tx to validate sender: EthAddress; ## tx.getSender or tx.ecRecover maxLimit: GasInt; ## gasLimit from block header baseFee: UInt256; ## baseFee from block header fork: Fork): bool = let balance = roDB.getBalance(sender) nonce = roDB.getNonce(sender) if tx.txType == TxEip2930 and fork < FkBerlin: debug "invalid tx: Eip2930 Tx type detected before Berlin" return false if tx.txType == TxEip1559 and fork < FkLondon: debug "invalid tx: Eip1559 Tx type detected before London" return false # Note that the following check bears some plausibility but is _not_ # covered by the eip-1559 reference (sort of) pseudo code, for details # see `https://eips.ethereum.org/EIPS/eip-1559#specification`_ # # Rather this check is needed for surviving the post-London unit test # eth_tests/GeneralStateTests/stEIP1559/lowGasLimit.json which seems to # be sourced and generated from # eth_tests/src/GeneralStateTestsFiller/stEIP1559/lowGasLimitFiller.yml # # Interestingly, the hive tests do not use this particular test but rather # eth_tests/BlockchainTests/GeneralStateTests/stEIP1559/lowGasLimit.json # from a parallel tests series which look like somehow expanded versions. # # The parallel lowGasLimit.json test never triggers the case checked below # as the paricular transaction is omitted (the txs list is just set empty.) if maxLimit < tx.gasLimit: debug "invalid tx: block header gasLimit exceeded", maxLimit, gasLimit = tx.gasLimit return false # ensure that the user was willing to at least pay the base fee if tx.maxFee < baseFee.truncate(int64): debug "invalid tx: maxFee is smaller than baseFee", maxFee = tx.maxFee, baseFee return false # The total must be the larger of the two if tx.maxFee < tx.maxPriorityFee: debug "invalid tx: maxFee is smaller than maPriorityFee", maxFee = tx.maxFee, maxPriorityFee = tx.maxPriorityFee return false # the signer must be able to fully afford the transaction let gasCost = if tx.txType >= TxEip1559: tx.gasLimit.u256 * tx.maxFee.u256 else: tx.gasLimit.u256 * tx.gasPrice.u256 if balance < gasCost: debug "invalid tx: not enough cash for gas", available = balance, require = gasCost return false if balance - gasCost < tx.value: debug "invalid tx: not enough cash to send", available=balance, availableMinusGas=balance-gasCost, require=tx.value return false if tx.gasLimit < tx.intrinsicGas(fork): debug "invalid tx: not enough gas to perform calculation", available=tx.gasLimit, require=tx.intrinsicGas(fork) return false if tx.nonce != nonce: debug "invalid tx: account nonce mismatch", txNonce=tx.nonce, accountNonce=nonce return false if tx.nonce == high(uint64): debug "invalid tx: nonce at maximum" return false # EIP-3607 Reject transactions from senders with deployed code # The EIP spec claims this attack never happened before # Clients might choose to disable this rule for RPC calls like # `eth_call` and `eth_estimateGas` # EOA = Externally Owned Account let codeHash = roDB.getCodeHash(sender) if codeHash != EMPTY_SHA3: debug "invalid tx: sender is not an EOA", sender=sender.toHex, codeHash=codeHash.data.toHex return false true proc validateTransaction*( vmState: BaseVMState; ## Parent accounts environment for transaction tx: Transaction; ## tx to validate sender: EthAddress; ## tx.getSender or tx.ecRecover header: BlockHeader; ## Header for the block containing the current tx fork: Fork): bool = ## Variant of `validateTransaction()` let roDB = vmState.readOnlyStateDB gasLimit = header.gasLimit baseFee = header.baseFee roDB.validateTransaction(tx, sender, gasLimit, baseFee, fork) # ------------------------------------------------------------------------------ # Public functions, extracted from test_blockchain_json # ------------------------------------------------------------------------------ proc validateHeaderAndKinship*( chainDB: BaseChainDB; header: BlockHeader; uncles: seq[BlockHeader]; numTransactions: int; checkSealOK: bool; ttdReached: bool; pow: PowRef): Result[void, string] = if header.isGenesis: if header.extraData.len > 32: return err("BlockHeader.extraData larger than 32 bytes") return ok() let parent = try: chainDB.getBlockHeader(header.parentHash) except CatchableError as err: return err("Failed to load block header from DB") result = chainDB.validateHeader( header, parent, numTransactions, checkSealOK, ttdReached, pow) if result.isErr: return if uncles.len > MAX_UNCLES: return err("Number of uncles exceed limit.") if not chainDB.exists(header.stateRoot): return err("`state_root` was not found in the db.") if not ttdReached: result = chainDB.validateUncles(header, uncles, checkSealOK, pow) if result.isOk: result = chainDB.validateGasLimitOrBaseFee(header, parent) proc validateHeaderAndKinship*( chainDB: BaseChainDB; header: BlockHeader; body: BlockBody; checkSealOK: bool; ttdReached: bool; pow: PowRef): Result[void, string] {.gcsafe,raises: [CatchableError, Defect].} = chainDB.validateHeaderAndKinship( header, body.uncles, body.transactions.len, checkSealOK, ttdReached, pow) proc validateHeaderAndKinship*( chainDB: BaseChainDB; ethBlock: EthBlock; checkSealOK: bool; ttdReached: bool; pow: PowRef): Result[void,string] = chainDB.validateHeaderAndKinship( ethBlock.header, ethBlock.uncles, ethBlock.txs.len, checkSealOK, ttdReached, pow) # ------------------------------------------------------------------------------ # End # ------------------------------------------------------------------------------