168 lines
5.5 KiB
Nim
168 lines
5.5 KiB
Nim
import ../db/[db_chain, state_db], eth_common, chronicles, ../vm_state, ../vm_types, ../transaction, ranges,
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../vm/[computation, interpreter_dispatch, message], ../constants, stint, nimcrypto,
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../vm_state_transactions,
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eth_trie/db, eth_trie, rlp,
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sugar
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type
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Chain* = ref object of AbstractChainDB
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db: BaseChainDB
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proc newChain*(db: BaseChainDB): Chain =
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result.new
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result.db = db
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method genesisHash*(c: Chain): KeccakHash =
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c.db.getBlockHash(0.toBlockNumber)
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method getBlockHeader*(c: Chain, b: HashOrNum, output: var BlockHeader): bool =
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case b.isHash
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of true:
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c.db.getBlockHeader(b.hash, output)
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else:
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c.db.getBlockHeader(b.number, output)
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method getBestBlockHeader*(c: Chain): BlockHeader =
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c.db.getCanonicalHead()
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method getSuccessorHeader*(c: Chain, h: BlockHeader, output: var BlockHeader): bool =
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let n = h.blockNumber + 1
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c.db.getBlockHeader(n, output)
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method getBlockBody*(c: Chain, blockHash: KeccakHash): BlockBodyRef =
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result = nil
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proc processTransaction(db: var AccountStateDB, t: Transaction, sender: EthAddress, head: BlockHeader, chainDB: BaseChainDB): UInt256 =
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## Process the transaction, write the results to db.
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## Returns amount of ETH to be rewarded to miner
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echo "Sender: ", sender
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echo "txHash: ", t.rlpHash
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# Inct nonce:
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db.setNonce(sender, db.getNonce(sender) + 1)
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var transactionFailed = false
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#t.dump
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# TODO: combine/refactor re validate
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let upfrontGasCost = t.gasLimit.u256 * t.gasPrice.u256
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let upfrontCost = upfrontGasCost + t.value
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var balance = db.getBalance(sender)
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if balance < upfrontCost:
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if balance <= upfrontGasCost:
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result = balance
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balance = 0.u256
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else:
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result = upfrontGasCost
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balance -= upfrontGasCost
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transactionFailed = true
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else:
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balance -= upfrontCost
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db.setBalance(sender, balance)
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if transactionFailed:
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return
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var gasUsed = t.payload.intrinsicGas.GasInt # += 32000 appears in Homestead when contract create
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if gasUsed > t.gasLimit:
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echo "Transaction failed. Out of gas."
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transactionFailed = true
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else:
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if t.isContractCreation:
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# TODO: re-derive sender in callee for cleaner interface, perhaps
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var vmState = newBaseVMState(head, chainDB)
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return applyCreateTransaction(db, t, head, vmState, sender)
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else:
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let code = db.getCode(t.to)
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if code.len == 0:
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# Value transfer
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echo "Transfer ", t.value, " from ", sender, " to ", t.to
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db.addBalance(t.to, t.value)
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else:
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# Contract call
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echo "Contract call"
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debug "Transaction", sender, to = t.to, value = t.value, hasCode = code.len != 0
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let msg = newMessage(t.gasLimit, t.gasPrice, t.to, sender, t.value, t.payload, code.toSeq)
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# TODO: Run the vm
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if gasUsed > t.gasLimit:
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gasUsed = t.gasLimit
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var refund = (t.gasLimit - gasUsed).u256 * t.gasPrice.u256
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if transactionFailed:
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refund += t.value
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db.addBalance(sender, refund)
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return gasUsed.u256 * t.gasPrice.u256
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proc calcTxRoot(transactions: openarray[Transaction]): Hash256 =
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var tr = initHexaryTrie(newMemoryDB())
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for i, t in transactions:
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tr.put(rlp.encode(i).toRange, rlp.encode(t).toRange)
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return tr.rootHash
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method persistBlocks*(c: Chain, headers: openarray[BlockHeader], bodies: openarray[BlockBody]) =
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# Run the VM here
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assert(headers.len == bodies.len)
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let blockReward = 5.u256 * pow(10.u256, 18) # 5 ETH
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let transaction = c.db.db.beginTransaction()
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defer: transaction.dispose()
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echo "Persisting blocks: ", headers[0].blockNumber, " - ", headers[^1].blockNumber
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for i in 0 ..< headers.len:
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let head = c.db.getCanonicalHead()
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assert(head.blockNumber == headers[i].blockNumber - 1)
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var stateDb = newAccountStateDB(c.db.db, head.stateRoot)
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var gasReward = 0.u256
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assert(bodies[i].transactions.calcTxRoot == headers[i].txRoot)
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if headers[i].txRoot != BLANK_ROOT_HASH:
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# assert(head.blockNumber == headers[i].blockNumber - 1)
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let vmState = newBaseVMState(head, c.db)
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assert(bodies[i].transactions.len != 0)
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if bodies[i].transactions.len != 0:
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echo "block: ", headers[i].blockNumber
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echo "h: ", headers[i].blockHash
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for t in bodies[i].transactions:
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var sender: EthAddress
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if t.getSender(sender):
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gasReward += processTransaction(stateDb, t, sender, head, c.db)
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else:
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assert(false, "Could not get sender")
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var mainReward = blockReward + gasReward
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#echo "mainReward = ", mainReward , " with blockReward = ", blockReward, " and gasReward = ", gasReward
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if headers[i].ommersHash != EMPTY_UNCLE_HASH:
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let h = c.db.persistUncles(bodies[i].uncles)
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assert(h == headers[i].ommersHash)
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for u in 0 ..< bodies[i].uncles.len:
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var uncleReward = bodies[i].uncles[u].blockNumber + 8.u256
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uncleReward -= headers[i].blockNumber
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uncleReward = uncleReward * blockReward
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uncleReward = uncleReward div 8.u256
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stateDb.addBalance(bodies[i].uncles[u].coinbase, uncleReward)
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mainReward += blockReward div 32.u256
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# Reward beneficiary
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stateDb.addBalance(headers[i].coinbase, mainReward)
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if headers[i].stateRoot != stateDb.rootHash:
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echo "Wrong state root in block ", headers[i].blockNumber, ". Expected: ", headers[i].stateRoot, ", Actual: ", stateDb.rootHash, " arrived from ", c.db.getCanonicalHead().stateRoot
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assert(headers[i].stateRoot == stateDb.rootHash)
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discard c.db.persistHeaderToDb(headers[i])
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assert(c.db.getCanonicalHead().blockHash == headers[i].blockHash)
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transaction.commit()
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