# Nimbus # Copyright (c) 2022-2024 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/[tables, math], eth/common/keys, results, unittest2, ../hive_integration/nodocker/engine/tx_sender, ../nimbus/db/ledger, ../nimbus/core/chain, ../nimbus/core/eip4844, ../nimbus/[config, transaction, constants], ../nimbus/core/tx_pool, ../nimbus/core/tx_pool/tx_desc, ../nimbus/core/casper, ../nimbus/common/common, ../nimbus/utils/utils, ../nimbus/evm/types, ./test_txpool/helpers, ./macro_assembler const baseDir = [".", "tests"] repoDir = [".", "customgenesis"] genesisFile = "merge.json" type TestEnv = object nonce: uint64 chainId: ChainId vaultKey: PrivateKey conf: NimbusConf com: CommonRef chain: ForkedChainRef xp: TxPoolRef const # signerKeyHex = "9c647b8b7c4e7c3490668fb6c11473619db80c93704c70893d3813af4090c39c" vaultKeyHex = "63b508a03c3b5937ceb903af8b1b0c191012ef6eb7e9c3fb7afa94e5d214d376" recipient = address"0000000000000000000000000000000000000318" feeRecipient = address"0000000000000000000000000000000000000212" contractCode = evmByteCode: PrevRandao # VAL Push1 "0x11" # KEY Sstore # OP Stop proc privKey(keyHex: string): PrivateKey = let kRes = PrivateKey.fromHex(keyHex) if kRes.isErr: echo kRes.error quit(QuitFailure) kRes.get() func makeTx( t: var TestEnv, recipient: Address, amount: UInt256, payload: openArray[byte] = [] ): Transaction = const gasLimit = 75000.GasInt gasPrice = 30.gwei let tx = Transaction( txType: TxLegacy, chainId: t.chainId, nonce: AccountNonce(t.nonce), gasPrice: gasPrice, gasLimit: gasLimit, to: Opt.some(recipient), value: amount, payload: @payload, ) inc t.nonce signTransaction(tx, t.vaultKey, eip155 = true) proc createPooledTransactionWithBlob( t: var TestEnv, recipient: Address, amount: UInt256 ): PooledTransaction = # Create the transaction let tc = BlobTx( recipient: Opt.some(recipient), gasLimit: 100000.GasInt, gasTip: GasInt(10 ^ 9), gasFee: GasInt(10 ^ 9), blobGasFee: u256(1), blobCount: 1, blobID: 1, ) params = MakeTxParams(chainId: t.chainId, key: t.vaultKey, nonce: t.nonce) inc t.nonce params.makeTx(tc) func signTxWithNonce(t: TestEnv, tx: Transaction, nonce: AccountNonce): Transaction = var tx = tx tx.nonce = nonce signTransaction(tx, t.vaultKey, eip155 = true) proc initEnv(envFork: HardFork): TestEnv = var conf = makeConfig( @["--custom-network:" & genesisFile.findFilePath(baseDir, repoDir).value] ) conf.networkParams.genesis.alloc[recipient] = GenesisAccount(code: contractCode) if envFork >= MergeFork: conf.networkParams.config.mergeForkBlock = Opt.some(0'u64) conf.networkParams.config.terminalTotalDifficulty = Opt.some(100.u256) if envFork >= Shanghai: conf.networkParams.config.shanghaiTime = Opt.some(0.EthTime) if envFork >= Cancun: conf.networkParams.config.cancunTime = Opt.some(0.EthTime) let com = CommonRef.new(newCoreDbRef DefaultDbMemory, conf.networkId, conf.networkParams) chain = newForkedChain(com, com.genesisHeader) result = TestEnv( conf: conf, com: com, chain: chain, xp: TxPoolRef.new(com), vaultKey: privKey(vaultKeyHex), chainId: conf.networkParams.config.chainId, nonce: 0'u64, ) const amount = 1000.u256 slot = 0x11.u256 prevRandao = Bytes32 EMPTY_UNCLE_HASH # it can be any valid hash proc runTxPoolPosTest() = var env = initEnv(MergeFork) var tx = env.makeTx(recipient, amount) xp = env.xp com = env.com chain = env.chain body: BlockBody blk: EthBlock suite "Test TxPool with PoS block": test "TxPool add": xp.add(PooledTransaction(tx: tx)) test "TxPool jobCommit": check xp.nItems.total == 1 test "TxPool ethBlock": com.pos.prevRandao = prevRandao com.pos.feeRecipient = feeRecipient com.pos.timestamp = EthTime.now() let r = xp.assembleBlock() if r.isErr: debugEcho r.error check false return blk = r.get.blk body = BlockBody(transactions: blk.txs, uncles: blk.uncles) check blk.txs.len == 1 test "PoS persistBlocks": let rr = chain.importBlock(EthBlock.init(blk.header, body)) check rr.isOk() test "validate TxPool prevRandao setter": var sdb = LedgerRef.init(com.db) let val = sdb.getStorage(recipient, slot) let randao = Bytes32(val.toBytesBE) check randao == prevRandao test "feeRecipient rewarded": check blk.header.coinbase == feeRecipient var sdb = LedgerRef.init(com.db) let bal = sdb.getBalance(feeRecipient) check not bal.isZero proc runTxPoolBlobhashTest() = var env = initEnv(Cancun) var tx1 = env.createPooledTransactionWithBlob(recipient, amount) tx2 = env.createPooledTransactionWithBlob(recipient, amount) xp = env.xp com = env.com chain = env.chain body: BlockBody blk: EthBlock suite "Test TxPool with blobhash block": test "TxPool jobCommit": xp.add(tx1) xp.add(tx2) check xp.nItems.total == 2 test "TxPool ethBlock": com.pos.prevRandao = prevRandao com.pos.feeRecipient = feeRecipient com.pos.timestamp = EthTime.now() let r = xp.assembleBlock() if r.isErr: debugEcho r.error check false return let bundle = r.get blk = bundle.blk body = BlockBody( transactions: blk.txs, uncles: blk.uncles, withdrawals: Opt.some(newSeq[Withdrawal]()), ) check blk.txs.len == 2 let gasUsed1 = xp.vmState.receipts[0].cumulativeGasUsed gasUsed2 = xp.vmState.receipts[1].cumulativeGasUsed - gasUsed1 totalBlobGasUsed = tx1.tx.getTotalBlobGas + tx2.tx.getTotalBlobGas blockValue = gasUsed1.u256 * tx1.tx.effectiveGasTip(blk.header.baseFeePerGas).u256 + gasUsed2.u256 * tx2.tx.effectiveGasTip(blk.header.baseFeePerGas).u256 check blockValue == bundle.blockValue check totalBlobGasUsed == blk.header.blobGasUsed.get() test "Blobhash persistBlocks": let rr = chain.importBlock(EthBlock.init(blk.header, body)) check rr.isOk() test "validate TxPool prevRandao setter": var sdb = LedgerRef.init(com.db) let val = sdb.getStorage(recipient, slot) let randao = Bytes32(val.toBytesBE) check randao == prevRandao test "feeRecipient rewarded": check blk.header.coinbase == feeRecipient var sdb = LedgerRef.init(com.db) let bal = sdb.getBalance(feeRecipient) check not bal.isZero test "add tx with nonce too low": let tx3 = env.makeTx(recipient, amount) tx4 = env.signTxWithNonce(tx3, AccountNonce(env.nonce - 2)) xp = env.xp check xp.smartHead(blk.header, chain) xp.add(PooledTransaction(tx: tx4)) check inPoolAndOk(xp, rlpHash(tx4)) == false proc runTxHeadDelta(noisy = true) = ## see github.com/status-im/nimbus-eth1/issues/1031 suite "TxPool: Synthesising blocks (covers issue #1031)": test "Packing and adding multiple blocks to chain": var env = initEnv(MergeFork) xp = env.xp com = env.com chain = env.chain head = com.db.getCanonicalHead() timestamp = head.timestamp const txPerblock = 20 numBlocks = 10 # setTraceLevel() block: for n in 0 ..< numBlocks: for tn in 0 ..< txPerblock: let tx = env.makeTx(recipient, amount) xp.add(PooledTransaction(tx: tx)) noisy.say "***", "txDB", &" n={n}", # pending/staged/packed : total/disposed &" stats={xp.nItems.pp}" timestamp = timestamp + 1 com.pos.prevRandao = prevRandao com.pos.timestamp = timestamp com.pos.feeRecipient = feeRecipient let r = xp.assembleBlock() if r.isErr: debugEcho r.error check false return let blk = r.get.blk let body = BlockBody(transactions: blk.txs, uncles: blk.uncles) # Commit to block chain check chain.importBlock(EthBlock.init(blk.header, body)).isOk # Synchronise TxPool against new chain head, register txs differences. # In this particular case, these differences will simply flush the # packer bucket. check xp.smartHead(blk.header, chain) # Move TxPool chain head to new chain head and apply delta jobs check xp.nItems.staged == 0 check xp.nItems.packed == 0 setErrorLevel() # in case we set trace level check com.syncCurrent == 10.BlockNumber head = com.db.getBlockHeader(com.syncCurrent) let sdb = LedgerRef.init(com.db) expected = u256(txPerblock * numBlocks) * amount balance = sdb.getBalance(recipient) check balance == expected proc runGetBlockBodyTest() = var env = initEnv(Cancun) blockTime = EthTime.now() parentHeader: Header currentHeader: Header suite "Test get parent transactions after persistBlock": test "TxPool create first block": let tx1 = env.makeTx(recipient, 1.u256) tx2 = env.makeTx(recipient, 2.u256) env.xp.add(PooledTransaction(tx: tx1)) env.xp.add(PooledTransaction(tx: tx2)) env.com.pos.prevRandao = prevRandao env.com.pos.feeRecipient = feeRecipient env.com.pos.timestamp = blockTime let r = env.xp.assembleBlock() if r.isErr: check false return let blk = r.get.blk check env.chain.importBlock(blk).isOk parentHeader = blk.header check env.xp.smartHead(parentHeader, env.chain) check blk.transactions.len == 2 test "TxPool create second block": let tx1 = env.makeTx(recipient, 3.u256) tx2 = env.makeTx(recipient, 4.u256) tx3 = env.makeTx(recipient, 5.u256) env.xp.add(PooledTransaction(tx: tx1)) env.xp.add(PooledTransaction(tx: tx2)) env.xp.add(PooledTransaction(tx: tx3)) env.com.pos.prevRandao = prevRandao env.com.pos.feeRecipient = feeRecipient env.com.pos.timestamp = blockTime + 1 let r = env.xp.assembleBlock() if r.isErr: check false return let blk = r.get.blk check env.chain.importBlock(blk).isOk currentHeader = blk.header check env.xp.smartHead(currentHeader, env.chain) check blk.transactions.len == 3 let currHash = currentHeader.blockHash check env.chain.forkChoice(currHash, currHash).isOk proc txPool2Main*() = const noisy = defined(debug) loadKzgTrustedSetup().expect("Failed to load KZG trusted setup") setErrorLevel() # mute logger runTxPoolPosTest() runTxPoolBlobhashTest() noisy.runTxHeadDelta runGetBlockBodyTest() when isMainModule: txPool2Main() # End