#!/usr/bin/env python3 # Copyright (c) 2022-2024 The Dash Core developers # Distributed under the MIT software license, see the accompanying # file COPYING or http://www.opensource.org/licenses/mit-license.php. import copy import struct from decimal import Decimal from io import BytesIO from test_framework.blocktools import ( create_block, create_coinbase, ) from test_framework.authproxy import JSONRPCException from test_framework.key import ECKey from test_framework.messages import ( CAssetLockTx, CAssetUnlockTx, COIN, COutPoint, CTransaction, CTxIn, CTxOut, tx_from_hex, hash256, ser_string, ) from test_framework.script import ( CScript, OP_CHECKSIG, OP_RETURN, ) from test_framework.script_util import key_to_p2pkh_script from test_framework.test_framework import DashTestFramework from test_framework.util import ( assert_equal, assert_greater_than, assert_greater_than_or_equal, softfork_active, ) from test_framework.wallet_util import bytes_to_wif llmq_type_test = 106 # LLMQType::LLMQ_TEST_PLATFORM tiny_amount = int(Decimal("0.0007") * COIN) blocks_in_one_day = 100 HEIGHT_DIFF_EXPIRING = 48 class AssetLocksTest(DashTestFramework): def set_test_params(self): self.set_dash_test_params(4, 2, [[ "-whitelist=127.0.0.1", "-llmqtestinstantsenddip0024=llmq_test_instantsend", "-testactivationheight=mn_rr@1400", ]] * 4, evo_count=2) def skip_test_if_missing_module(self): self.skip_if_no_wallet() def create_assetlock(self, coin, amount, pubkey): node_wallet = self.nodes[0] inputs = [CTxIn(COutPoint(int(coin["txid"], 16), coin["vout"]))] credit_outputs = [] tmp_amount = amount if tmp_amount > COIN: tmp_amount -= COIN credit_outputs.append(CTxOut(COIN, key_to_p2pkh_script(pubkey))) credit_outputs.append(CTxOut(tmp_amount, key_to_p2pkh_script(pubkey))) lockTx_payload = CAssetLockTx(1, credit_outputs) remaining = int(COIN * coin['amount']) - tiny_amount - amount tx_output_ret = CTxOut(amount, CScript([OP_RETURN, b""])) tx_output = CTxOut(remaining, CScript([pubkey, OP_CHECKSIG])) lock_tx = CTransaction() lock_tx.vin = inputs lock_tx.vout = [tx_output, tx_output_ret] if remaining > 0 else [tx_output_ret] lock_tx.nVersion = 3 lock_tx.nType = 8 # asset lock type lock_tx.vExtraPayload = lockTx_payload.serialize() lock_tx = node_wallet.signrawtransactionwithwallet(lock_tx.serialize().hex()) return tx_from_hex(lock_tx["hex"]) def create_assetunlock(self, index, withdrawal, pubkey=None, fee=tiny_amount): node_wallet = self.nodes[0] mninfo = self.mninfo assert_greater_than(int(withdrawal), fee) tx_output = CTxOut(int(withdrawal) - fee, CScript([pubkey, OP_CHECKSIG])) # request ID = sha256("plwdtx", index) request_id_buf = ser_string(b"plwdtx") + struct.pack(" 0: self.log.info(f"Generating batch of blocks {count} left") batch = min(50, count) count -= batch self.bump_mocktime(batch) self.generate(self.nodes[1], batch) # This functional test intentionally setup only 2 MN and only 2 Evo nodes # to ensure that corner case of quorum with minimum amount of nodes as possible # does not cause any issues in Dash Core def mine_quorum_2_nodes(self, llmq_type_name, llmq_type): self.mine_quorum(llmq_type_name=llmq_type_name, expected_members=2, expected_connections=1, expected_contributions=2, expected_commitments=2, llmq_type=llmq_type) def run_test(self): node_wallet = self.nodes[0] node = self.nodes[1] self.set_sporks() self.activate_v20(expected_activation_height=900) self.log.info("Activated v20 at height:" + str(node.getblockcount())) self.nodes[0].sporkupdate("SPORK_2_INSTANTSEND_ENABLED", 0) self.wait_for_sporks_same() self.mine_quorum_2_nodes(llmq_type_name='llmq_test_instantsend', llmq_type=104) for _ in range(2): self.dynamically_add_masternode(evo=True) self.generate(node, 8, sync_fun=lambda: self.sync_blocks()) self.set_sporks() self.generate(node, 1) self.mempool_size = 0 key = ECKey() key.generate() privkey = bytes_to_wif(key.get_bytes()) node_wallet.importprivkey(privkey) pubkey = key.get_pubkey().get_bytes() self.test_asset_locks(node_wallet, node, pubkey) self.test_asset_unlocks(node_wallet, node, pubkey) self.test_withdrawal_limits(node_wallet, node, pubkey) self.test_mn_rr(node_wallet, node, pubkey) self.test_withdrawal_fork(node_wallet, node, pubkey) def test_asset_locks(self, node_wallet, node, pubkey): self.log.info("Testing asset lock...") locked_1 = 10 * COIN + 141421 locked_2 = 10 * COIN + 314159 coins = node_wallet.listunspent(query_options={'minimumAmount': Decimal(str(locked_2 / COIN))}) coin = coins.pop() asset_lock_tx = self.create_assetlock(coin, locked_1, pubkey) self.check_mempool_result(tx=asset_lock_tx, result_expected={'allowed': True, 'fees': {'base': Decimal(str(tiny_amount / COIN))}}) self.validate_credit_pool_balance(0) txid_in_block = self.send_tx(asset_lock_tx) rpc_tx = node.getrawtransaction(txid_in_block, 1) assert_equal(len(rpc_tx["assetLockTx"]["creditOutputs"]), 2) assert_equal(rpc_tx["assetLockTx"]["creditOutputs"][0]["valueSat"] + rpc_tx["assetLockTx"]["creditOutputs"][1]["valueSat"], locked_1) assert_equal(rpc_tx["assetLockTx"]["creditOutputs"][0]["scriptPubKey"]["hex"], key_to_p2pkh_script(pubkey).hex()) assert_equal(rpc_tx["assetLockTx"]["creditOutputs"][1]["scriptPubKey"]["hex"], key_to_p2pkh_script(pubkey).hex()) self.validate_credit_pool_balance(0) self.generate(node, 1, sync_fun=self.no_op) assert_equal(self.get_credit_pool_balance(node=node), locked_1) self.log.info("Generate a number of blocks to ensure this is the longest chain for later in the test when we reconsiderblock") self.generate(node, 12) self.validate_credit_pool_balance(locked_1) # tx is mined, let's get blockhash self.log.info("Invalidate block with asset lock tx...") self.block_hash_1 = node_wallet.gettransaction(txid_in_block)['blockhash'] for inode in self.nodes: inode.invalidateblock(self.block_hash_1) assert_equal(self.get_credit_pool_balance(node=inode), 0) self.generate(node, 3) self.validate_credit_pool_balance(0) self.log.info("Resubmit asset lock tx to new chain...") # NEW tx appears asset_lock_tx_2 = self.create_assetlock(coin, locked_2, pubkey) txid_in_block = self.send_tx(asset_lock_tx_2) self.generate(node, 1) self.validate_credit_pool_balance(locked_2) self.log.info("Reconsider old blocks...") for inode in self.nodes: inode.reconsiderblock(self.block_hash_1) self.validate_credit_pool_balance(locked_1) self.sync_all() self.log.info('Mine block with incorrect credit-pool value...') coin = coins.pop() extra_lock_tx = self.create_assetlock(coin, COIN, pubkey) self.create_and_check_block([extra_lock_tx], expected_error = 'bad-cbtx-assetlocked-amount') self.log.info("Mine a quorum...") self.mine_quorum_2_nodes(llmq_type_name='llmq_test_platform', llmq_type=106) self.validate_credit_pool_balance(locked_1) def test_asset_unlocks(self, node_wallet, node, pubkey): self.log.info("Testing asset unlock...") self.log.info("Generating several txes by same quorum....") locked = self.get_credit_pool_balance() self.validate_credit_pool_balance(locked) asset_unlock_tx = self.create_assetunlock(101, COIN, pubkey) asset_unlock_tx_late = self.create_assetunlock(102, COIN, pubkey) asset_unlock_tx_too_late = self.create_assetunlock(103, COIN, pubkey) asset_unlock_tx_too_big_fee = self.create_assetunlock(104, COIN, pubkey, fee=int(Decimal("0.1") * COIN)) asset_unlock_tx_zero_fee = self.create_assetunlock(105, COIN, pubkey, fee=0) asset_unlock_tx_duplicate_index = copy.deepcopy(asset_unlock_tx) # modify this tx with duplicated index to make a hash of tx different, otherwise tx would be refused too early asset_unlock_tx_duplicate_index.vout[0].nValue += COIN too_late_height = node.getblockcount() + HEIGHT_DIFF_EXPIRING self.check_mempool_result(tx=asset_unlock_tx, result_expected={'allowed': True, 'fees': {'base': Decimal(str(tiny_amount / COIN))}}) self.check_mempool_result(tx=asset_unlock_tx_too_big_fee, result_expected={'allowed': False, 'reject-reason' : 'max-fee-exceeded'}) self.check_mempool_result(tx=asset_unlock_tx_zero_fee, result_expected={'allowed': False, 'reject-reason' : 'bad-txns-assetunlock-fee-outofrange'}) # not-verified is a correct faiure from mempool. Mempool knows nothing about CreditPool indexes and he just report that signature is not validated self.check_mempool_result(tx=asset_unlock_tx_duplicate_index, result_expected={'allowed': False, 'reject-reason' : 'bad-assetunlock-not-verified'}) self.log.info("Validating that we calculate payload hash correctly: ask quorum forcely by message hash...") asset_unlock_tx_payload = CAssetUnlockTx() asset_unlock_tx_payload.deserialize(BytesIO(asset_unlock_tx.vExtraPayload)) assert_equal(asset_unlock_tx_payload.quorumHash, int(self.mninfo[0].node.quorum("selectquorum", llmq_type_test, 'e6c7a809d79f78ea85b72d5df7e9bd592aecf151e679d6e976b74f053a7f9056')["quorumHash"], 16)) self.log.info("Test no IS for asset unlock...") self.nodes[0].sporkupdate("SPORK_2_INSTANTSEND_ENABLED", 0) self.wait_for_sporks_same() txid = self.send_tx(asset_unlock_tx) assert_equal(node.getmempoolentry(txid)['fee'], Decimal("0.0007")) is_id = node_wallet.sendtoaddress(node_wallet.getnewaddress(), 1) for node in self.nodes: self.wait_for_instantlock(is_id, node) tip = self.nodes[0].getblockcount() indexes_statuses_no_height = self.nodes[0].getassetunlockstatuses(["101", "102", "300"]) assert_equal([{'index': 101, 'status': 'mempooled'}, {'index': 102, 'status': 'unknown'}, {'index': 300, 'status': 'unknown'}], indexes_statuses_no_height) indexes_statuses_height = self.nodes[0].getassetunlockstatuses(["101", "102", "300"], tip) assert_equal([{'index': 101, 'status': 'unknown'}, {'index': 102, 'status': 'unknown'}, {'index': 300, 'status': 'unknown'}], indexes_statuses_height) rawtx = node.getrawtransaction(txid, 1) rawtx_is = node.getrawtransaction(is_id, 1) assert_equal(rawtx["instantlock"], False) assert_equal(rawtx_is["instantlock"], True) assert_equal(rawtx["chainlock"], False) assert_equal(rawtx_is["chainlock"], False) assert not "confirmations" in rawtx assert not "confirmations" in rawtx_is self.log.info("Disable back IS") self.set_sporks() assert "assetUnlockTx" in node.getrawtransaction(txid, 1) self.mempool_size += 2 self.check_mempool_size() self.validate_credit_pool_balance(locked) self.generate(node, 1) assert_equal(rawtx["instantlock"], False) assert_equal(rawtx["chainlock"], False) rawtx = node.getrawtransaction(txid, 1) assert_equal(rawtx["confirmations"], 1) self.validate_credit_pool_balance(locked - COIN) self.mempool_size -= 2 self.check_mempool_size() block_asset_unlock = node.getrawtransaction(asset_unlock_tx.rehash(), 1)['blockhash'] self.log.info("Checking rpc `getblock` and `getblockstats` succeeds as they use own fee calculation mechanism") assert_equal(node.getblockstats(node.getblockcount())['maxfee'], tiny_amount) node.getblock(block_asset_unlock, 2) self.send_tx(asset_unlock_tx, expected_error = "Transaction already in block chain", reason = "double copy") self.log.info("Mining next quorum to check tx 'asset_unlock_tx_late' is still valid...") self.mine_quorum_2_nodes(llmq_type_name='llmq_test_platform', llmq_type=106) self.log.info("Checking credit pool amount is same...") self.validate_credit_pool_balance(locked - 1 * COIN) self.check_mempool_result(tx=asset_unlock_tx_late, result_expected={'allowed': True, 'fees': {'base': Decimal(str(tiny_amount / COIN))}}) self.log.info("Checking credit pool amount still is same...") self.validate_credit_pool_balance(locked - 1 * COIN) self.send_tx(asset_unlock_tx_late) self.generate(node, 1) self.validate_credit_pool_balance(locked - 2 * COIN) self.log.info("Generating many blocks to make quorum far behind (even still active)...") self.generate_batch(too_late_height - node.getblockcount() - 1) self.check_mempool_result(tx=asset_unlock_tx_too_late, result_expected={'allowed': True, 'fees': {'base': Decimal(str(tiny_amount / COIN))}}) self.generate(node, 1) self.check_mempool_result(tx=asset_unlock_tx_too_late, result_expected={'allowed': False, 'reject-reason' : 'bad-assetunlock-too-late'}) self.log.info("Checking that two quorums later it is too late because quorum is not active...") self.mine_quorum_2_nodes(llmq_type_name='llmq_test_platform', llmq_type=106) self.log.info("Expecting new reject-reason...") assert not softfork_active(self.nodes[0], 'withdrawals') self.check_mempool_result(tx=asset_unlock_tx_too_late, result_expected={'allowed': False, 'reject-reason' : 'bad-assetunlock-too-old-quorum'}) block_to_reconsider = node.getbestblockhash() self.log.info("Test block invalidation with asset unlock tx...") for inode in self.nodes: inode.invalidateblock(block_asset_unlock) self.validate_credit_pool_balance(locked) self.generate_batch(50) self.validate_credit_pool_balance(locked) for inode in self.nodes: inode.reconsiderblock(block_to_reconsider) self.validate_credit_pool_balance(locked - 2 * COIN) self.log.info("Forcibly mining asset_unlock_tx_too_late and ensure block is invalid") assert not softfork_active(self.nodes[0], 'withdrawals') self.create_and_check_block([asset_unlock_tx_too_late], expected_error = "bad-assetunlock-too-old-quorum") self.generate(node, 1) self.validate_credit_pool_balance(locked - 2 * COIN) self.validate_credit_pool_balance(block_hash=self.block_hash_1, expected=locked) self.log.info("Forcibly mine asset_unlock_tx_duplicate_index and ensure block is invalid") self.create_and_check_block([asset_unlock_tx_duplicate_index], expected_error = "bad-assetunlock-duplicated-index") def test_withdrawal_limits(self, node_wallet, node, pubkey): self.log.info("Testing withdrawal limits before v22 'withdrawal fork'...") assert not softfork_active(node_wallet, 'withdrawals') self.log.info("Too big withdrawal is expected to not be mined") asset_unlock_tx_full = self.create_assetunlock(201, 1 + self.get_credit_pool_balance(), pubkey) self.log.info("Checking that transaction with exceeding amount accepted by mempool...") # Mempool doesn't know about the size of the credit pool self.check_mempool_result(tx=asset_unlock_tx_full, result_expected={'allowed': True, 'fees': {'base': Decimal(str(tiny_amount / COIN))}}) txid_in_block = self.send_tx(asset_unlock_tx_full) self.generate(node, 1) self.ensure_tx_is_not_mined(txid_in_block) self.log.info("Forcibly mine asset_unlock_tx_full and ensure block is invalid...") self.create_and_check_block([asset_unlock_tx_full], expected_error = "failed-creditpool-unlock-too-much") self.mempool_size += 1 asset_unlock_tx_full = self.create_assetunlock(301, self.get_credit_pool_balance(), pubkey) self.check_mempool_result(tx=asset_unlock_tx_full, result_expected={'allowed': True, 'fees': {'base': Decimal(str(tiny_amount / COIN))}}) txid_in_block = self.send_tx(asset_unlock_tx_full) expected_balance = (Decimal(self.get_credit_pool_balance()) - Decimal(tiny_amount)) self.generate(node, 1) self.log.info("Check txid_in_block was mined") block = node.getblock(node.getbestblockhash()) assert txid_in_block in block['tx'] self.validate_credit_pool_balance(0) self.log.info(f"Check status of withdrawal and try to spend it") withdrawal_status = node_wallet.gettransaction(txid_in_block) assert_equal(withdrawal_status['amount'] * COIN, expected_balance) assert_equal(withdrawal_status['details'][0]['category'], 'platform-transfer') spend_withdrawal_hex = node_wallet.createrawtransaction([{'txid': txid_in_block, 'vout' : 0}], { node_wallet.getnewaddress() : (expected_balance - Decimal(tiny_amount)) / COIN}) spend_withdrawal_hex = node_wallet.signrawtransactionwithwallet(spend_withdrawal_hex)['hex'] spend_withdrawal = tx_from_hex(spend_withdrawal_hex) self.check_mempool_result(tx=spend_withdrawal, result_expected={'allowed': True, 'fees': {'base': Decimal(str(tiny_amount / COIN))}}) spend_txid_in_block = self.send_tx(spend_withdrawal) self.generate(node, 1, sync_fun=self.no_op) block = node.getblock(node.getbestblockhash()) assert spend_txid_in_block in block['tx'] self.log.info("Fast forward to the next day to reset all current unlock limits...") self.generate_batch(blocks_in_one_day) self.mine_quorum_2_nodes(llmq_type_name='llmq_test_platform', llmq_type=106) total = self.get_credit_pool_balance() coins = node_wallet.listunspent() while total <= 10_901 * COIN: coin = coins.pop() to_lock = int(coin['amount'] * COIN) - tiny_amount if to_lock > 99 * COIN: to_lock = 99 * COIN total += to_lock tx = self.create_assetlock(coin, to_lock, pubkey) self.send_tx_simple(tx) self.log.info(f"Collecting coins in pool... Collected {total}/{10_901 * COIN}") self.sync_mempools() self.generate(node, 1) credit_pool_balance_1 = self.get_credit_pool_balance() assert_greater_than(credit_pool_balance_1, 10_901 * COIN) limit_amount_1 = 1000 * COIN self.log.info("Create 5 transactions and make sure that only 4 of them can be mined") self.log.info("because their sum is bigger than the hard-limit (1000)") # take most of limit by one big tx for faster testing and # create several tiny withdrawal with exactly 1 *invalid* / causes spend above limit tx withdrawals = [600 * COIN, 100 * COIN, 100 * COIN, 100 * COIN - 10000, 100 * COIN + 10001] amount_to_withdraw_1 = sum(withdrawals) index = 400 for next_amount in withdrawals: index += 1 asset_unlock_tx = self.create_assetunlock(index, next_amount, pubkey) last_txid = self.send_tx_simple(asset_unlock_tx) # make sure larger amounts are mined first simply to make this test deterministic node.prioritisetransaction(last_txid, next_amount // 10000) self.sync_mempools() self.generate(node, 1) new_total = self.get_credit_pool_balance() amount_actually_withdrawn = total - new_total self.log.info("Testing that we tried to withdraw more than we could") assert_greater_than(amount_to_withdraw_1, amount_actually_withdrawn) self.log.info("Checking that we tried to withdraw more than the hard-limit (1000)") assert_greater_than(amount_to_withdraw_1, limit_amount_1) self.log.info("Checking we didn't actually withdraw more than allowed by the limit") assert_greater_than_or_equal(limit_amount_1, amount_actually_withdrawn) assert_equal(amount_actually_withdrawn, 900 * COIN + 10001) self.generate(node, 1) self.log.info("Checking that exactly 1 tx stayed in mempool...") self.mempool_size = 1 self.check_mempool_size() assert_equal(new_total, self.get_credit_pool_balance()) pending_txid = node.getrawmempool()[0] amount_to_withdraw_2 = limit_amount_1 - amount_actually_withdrawn self.log.info(f"We can still consume {Decimal(str(amount_to_withdraw_2 / COIN))} before we hit the hard-limit (1000)") index += 1 asset_unlock_tx = self.create_assetunlock(index, amount_to_withdraw_2, pubkey) self.send_tx_simple(asset_unlock_tx) self.sync_mempools() self.generate(node, 1) new_total = self.get_credit_pool_balance() amount_actually_withdrawn = total - new_total assert_equal(limit_amount_1, amount_actually_withdrawn) self.log.info("Checking that exactly the same tx as before stayed in mempool and it's the only one...") self.mempool_size = 1 self.check_mempool_size() assert_equal(new_total, self.get_credit_pool_balance()) assert pending_txid in node.getrawmempool() self.log.info("Fast forward to next day again...") self.generate_batch(blocks_in_one_day - 1) self.log.info("Checking mempool is empty now...") self.mempool_size = 0 self.check_mempool_size() self.log.info("Creating new asset-unlock tx. It should be mined exactly 1 block after") credit_pool_balance_2 = self.get_credit_pool_balance() limit_amount_2 = credit_pool_balance_2 // 10 index += 1 asset_unlock_tx = self.create_assetunlock(index, limit_amount_2, pubkey) self.send_tx(asset_unlock_tx) self.generate(node, 1) assert_equal(new_total, self.get_credit_pool_balance()) self.generate(node, 1) new_total -= limit_amount_2 assert_equal(new_total, self.get_credit_pool_balance()) self.log.info("Trying to withdraw more... expecting to fail") index += 1 asset_unlock_tx = self.create_assetunlock(index, COIN, pubkey) self.send_tx(asset_unlock_tx) self.generate(node, 1) tip = self.nodes[0].getblockcount() indexes_statuses_no_height = self.nodes[0].getassetunlockstatuses(["101", "102", "103"]) assert_equal([{'index': 101, 'status': 'mined'}, {'index': 102, 'status': 'mined'}, {'index': 103, 'status': 'unknown'}], indexes_statuses_no_height) indexes_statuses_height = self.nodes[0].getassetunlockstatuses(["101", "102", "103"], tip) assert_equal([{'index': 101, 'status': 'chainlocked'}, {'index': 102, 'status': 'chainlocked'}, {'index': 103, 'status': 'unknown'}], indexes_statuses_height) self.log.info("generate many blocks to be sure that mempool is empty after expiring txes...") self.generate_batch(HEIGHT_DIFF_EXPIRING) self.log.info("Checking that credit pool is not changed...") assert_equal(new_total, self.get_credit_pool_balance()) self.check_mempool_size() assert not softfork_active(node_wallet, 'withdrawals') def test_mn_rr(self, node_wallet, node, pubkey): self.log.info(node_wallet.getblockcount()) self.log.info("Activate mn_rr...") locked = self.get_credit_pool_balance() self.activate_mn_rr(expected_activation_height=1400) self.log.info(f'mn-rr height: {node.getblockcount()} credit: {self.get_credit_pool_balance()}') assert_equal(locked, self.get_credit_pool_balance()) bt = node.getblocktemplate() platform_reward = bt['masternode'][0]['amount'] assert_equal(bt['masternode'][0]['script'], '6a') # empty OP_RETURN owner_reward = bt['masternode'][1]['amount'] operator_reward = bt['masternode'][2]['amount'] if len(bt['masternode']) == 3 else 0 all_mn_rewards = platform_reward + owner_reward + operator_reward assert_equal(all_mn_rewards, bt['coinbasevalue'] * 3 // 4) # 75/25 mn/miner reward split assert_equal(platform_reward, all_mn_rewards * 375 // 1000) # 0.375 platform share assert_equal(platform_reward, 57741807) assert_equal(locked, self.get_credit_pool_balance()) self.generate(node, 1) locked += platform_reward assert_equal(locked, self.get_credit_pool_balance()) coins = node_wallet.listunspent(query_options={'minimumAmount': 1}) coin = coins.pop() self.send_tx(self.create_assetlock(coin, COIN, pubkey)) locked += platform_reward + COIN self.generate(node, 1) assert_equal(locked, self.get_credit_pool_balance()) def test_withdrawal_fork(self, node_wallet, node, pubkey): self.log.info("Testing asset unlock after 'withdrawal' activation...") assert softfork_active(node_wallet, 'withdrawals') self.log.info(f'post-withdrawals height: {node.getblockcount()} credit: {self.get_credit_pool_balance()}') index = 501 while index < 511: self.log.info(f"Generating new Asset Unlock tx, index={index}...") asset_unlock_tx = self.create_assetunlock(index, COIN, pubkey) asset_unlock_tx_payload = CAssetUnlockTx() asset_unlock_tx_payload.deserialize(BytesIO(asset_unlock_tx.vExtraPayload)) self.log.info("Check that Asset Unlock tx is valid for current quorum") self.check_mempool_result(tx=asset_unlock_tx, result_expected={'allowed': True, 'fees': {'base': Decimal(str(tiny_amount / COIN))}}) quorumHash_str = format(asset_unlock_tx_payload.quorumHash, '064x') assert quorumHash_str in node_wallet.quorum('list')['llmq_test_platform'] while quorumHash_str != node_wallet.quorum('list')['llmq_test_platform'][-1]: self.log.info("Generate one more quorum until signing quorum becomes the last one in the list") self.mine_quorum_2_nodes(llmq_type_name="llmq_test_platform", llmq_type=106) self.check_mempool_result(tx=asset_unlock_tx, result_expected={'allowed': True, 'fees': {'base': Decimal(str(tiny_amount / COIN))}}) self.log.info("Generate one more quorum after which signing quorum is gone but Asset Unlock tx is still valid") assert quorumHash_str in node_wallet.quorum('list')['llmq_test_platform'] self.mine_quorum_2_nodes(llmq_type_name="llmq_test_platform", llmq_type=106) assert quorumHash_str not in node_wallet.quorum('list')['llmq_test_platform'] if asset_unlock_tx_payload.requestedHeight + HEIGHT_DIFF_EXPIRING > node_wallet.getblockcount(): self.check_mempool_result(tx=asset_unlock_tx, result_expected={'allowed': True, 'fees': {'base': Decimal(str(tiny_amount / COIN))}}) break else: self.check_mempool_result(tx=asset_unlock_tx, result_expected={'allowed': False, 'reject-reason' : 'bad-assetunlock-too-late'}) self.log.info("Asset Unlock tx expired, let's try again...") index += 1 self.log.info("Generate one more quorum after which signing quorum becomes too old") self.mine_quorum_2_nodes(llmq_type_name="llmq_test_platform", llmq_type=106) self.check_mempool_result(tx=asset_unlock_tx, result_expected={'allowed': False, 'reject-reason': 'bad-assetunlock-too-old-quorum'}) asset_unlock_tx = self.create_assetunlock(520, 2000 * COIN + 1, pubkey) txid_in_block = self.send_tx(asset_unlock_tx) self.generate(node, 1) self.ensure_tx_is_not_mined(txid_in_block) asset_unlock_tx = self.create_assetunlock(521, 2000 * COIN, pubkey) txid_in_block = self.send_tx(asset_unlock_tx) self.generate(node, 1) block = node.getblock(node.getbestblockhash()) assert txid_in_block in block['tx'] asset_unlock_tx = self.create_assetunlock(522, COIN, pubkey) txid_in_block = self.send_tx(asset_unlock_tx) self.generate(node, 1) self.ensure_tx_is_not_mined(txid_in_block) if __name__ == '__main__': AssetLocksTest().main()