async def test_query_allowance(self): ont = sdk.native_vm.aio_ont() if sys.version_info >= (3, 7): task_list = [ asyncio.create_task( ont.allowance(acct1.get_address_base58(), acct2.get_address_base58())), asyncio.create_task( ont.allowance(acct2.get_address_base58(), acct3.get_address_base58())), asyncio.create_task( ont.allowance(acct3.get_address_base58(), acct4.get_address_base58())), asyncio.create_task( ont.allowance(acct4.get_address_base58(), acct1.get_address_base58())) ] else: task_list = [ ont.allowance(acct1.get_address_base58(), acct2.get_address_base58()), ont.allowance(acct2.get_address_base58(), acct3.get_address_base58()), ont.allowance(acct3.get_address_base58(), acct4.get_address_base58()), ont.allowance(acct4.get_address_base58(), acct1.get_address_base58()) ] for task in task_list: self.assertGreaterEqual(await task, 0)
def test_transfer_multi_args_0(self): transfer_1 = [ acct1.get_address().to_bytes(), acct2.get_address().to_bytes(), 10 ] transfer_2 = [ acct2.get_address().to_bytes(), acct3.get_address().to_bytes(), 100 ] transfer_list = [transfer_1, transfer_2] hex_contract_address = 'ca91a73433c016fbcbcf98051d385785a6a5d9be' func = InvokeFunction('transfer_multi') func.set_params_value(transfer_list) tx_hash = sdk.rpc.send_neo_vm_transaction(hex_contract_address, acct1, acct2, self.gas_price, self.gas_limit, func, False) self.assertEqual(64, len(tx_hash)) time.sleep(randint(10, 15)) event = sdk.rpc.get_contract_event_by_tx_hash(tx_hash) states = Event.get_states_by_contract_address(event, hex_contract_address) states[0] = Data.to_utf8_str(states[0]) states[1][0][0] = Data.to_b58_address(states[1][0][0]) self.assertEqual(acct1.get_address_base58(), states[1][0][0]) states[1][0][1] = Data.to_b58_address(states[1][0][1]) self.assertEqual(acct2.get_address_base58(), states[1][0][1]) states[1][0][2] = Data.to_int(states[1][0][2]) self.assertEqual(10, states[1][0][2]) states[1][1][0] = Data.to_b58_address(states[1][1][0]) self.assertEqual(acct2.get_address_base58(), states[1][1][0]) states[1][1][1] = Data.to_b58_address(states[1][1][1]) self.assertEqual(acct3.get_address_base58(), states[1][1][1]) states[1][1][2] = Data.to_int(states[1][1][2]) self.assertEqual(100, states[1][1][2])
def setUp(self): pub_keys = [acct1.get_public_key_bytes(), acct2.get_public_key_bytes(), acct3.get_public_key_bytes()] multi_address = Address.from_multi_pub_keys(2, pub_keys) self.address_list = [acct1.get_address_base58(), acct2.get_address_base58(), acct3.get_address_base58(), acct4.get_address_base58(), multi_address.b58encode()] self.gas_price = 500 self.gas_limit = 20000
def test_notify_pre_exec(self): bool_msg = True int_msg = 1024 list_msg = [1, 1024, 2048] str_msg = 'Hello' bytes_address_msg = acct1.get_address().to_bytes() hex_contract_address = '4855735ffadad50e7000d73e1c4e96f38d225f70' func = InvokeFunction('notify_args') func.set_params_value(bool_msg, int_msg, list_msg, str_msg, bytes_address_msg) sdk.rpc.set_address('http://polaris5.ont.io:20336') response = sdk.rpc.send_neo_vm_tx_pre_exec(hex_contract_address, func) self.assertEqual(1, response['State']) self.assertEqual(20000, response['Gas']) notify = response['Notify'][0] self.assertEqual(hex_contract_address, notify['ContractAddress']) states = notify['States'] states[0] = Data.to_utf8_str(states[0]) self.assertEqual('notify args', states[0]) states[1] = Data.to_bool(states[1]) self.assertEqual(True, states[1]) states[2] = Data.to_int(states[2]) self.assertEqual(int_msg, states[2]) states[3] = Data.to_int_list(states[3]) self.assertEqual(list_msg, states[3]) states[4] = Data.to_utf8_str(states[4]) self.assertEqual(str_msg, states[4]) states[5] = Data.to_b58_address(states[5]) self.assertEqual(acct1.get_address_base58(), states[5])
def test_notify(self): hex_contract_address = '6690b6638251be951dded8c537678200a470c679' notify_args = InvokeFunction('testHello') bool_msg = True int_msg = 1 bytes_msg = b'Hello' str_msg = 'Hello' bytes_address_msg = acct1.get_address().to_bytes() notify_args.set_params_value(bool_msg, int_msg, bytes_msg, str_msg, bytes_address_msg) tx_hash = self.send_tx(hex_contract_address, None, acct1, notify_args) if len(tx_hash) == 0: return time.sleep(randint(10, 15)) event = sdk.rpc.get_contract_event_by_tx_hash(tx_hash) states = Event.get_states_by_contract_address(event, hex_contract_address) states[0] = Data.to_utf8_str(states[0]) self.assertEqual('testHello', states[0]) states[1] = Data.to_bool(states[1]) self.assertEqual(bool_msg, states[1]) states[2] = Data.to_int(states[2]) self.assertEqual(int_msg, states[2]) states[3] = Data.to_bytes(states[3]) self.assertEqual(bytes_msg, states[3]) states[4] = Data.to_utf8_str(states[4]) self.assertEqual(str_msg, states[4]) states[5] = Data.to_b58_address(states[5]) self.assertEqual(acct1.get_address_base58(), states[5])
async def test_subscribe(self): hex_contract_address = '1ddbb682743e9d9e2b71ff419e97a9358c5c4ee9' oep4 = sdk.neo_vm.aio_oep4(hex_contract_address) response = await sdk.websocket.subscribe(hex_contract_address, True, False, False, False) self.assertEqual([hex_contract_address], response['ContractsFilter']) self.assertEqual(True, response['SubscribeEvent']) self.assertEqual(False, response['SubscribeJsonBlock']) self.assertEqual(False, response['SubscribeRawBlock']) b58_to_address = acct2.get_address_base58() value = 10 tx_hash = await oep4.transfer(acct1, b58_to_address, value, acct3, 500, 20000) self.assertEqual(64, len(tx_hash)) try: event = await asyncio.wait_for(sdk.websocket.recv_subscribe_info(), timeout=10) self.assertEqual(False, response['SubscribeBlockTxHashs']) self.assertEqual(64, len(event['TxHash'])) notify = Event.get_notify_by_contract_address(event, hex_contract_address) notify = NeoData.parse_addr_addr_int_notify(notify) self.assertEqual(hex_contract_address, notify['ContractAddress']) self.assertEqual('transfer', notify['States'][0]) self.assertEqual(acct1.get_address_base58(), notify['States'][1]) self.assertEqual(b58_to_address, notify['States'][2]) self.assertEqual(value, notify['States'][3]) except asyncio.TimeoutError: pass finally: await sdk.websocket.close_connect()
async def test_transfer_from(self): sdk.rpc.connect_to_test_net() b58_from_address = acct1.get_address_base58() b58_recv_address = acct2.get_address_base58() ont = sdk.native_vm.aio_ont() amount = 1 tx_hash = await ont.transfer_from(acct2, b58_from_address, b58_recv_address, amount, acct2, self.gas_price, self.gas_limit) self.assertEqual(64, len(tx_hash)) await asyncio.sleep(randint(10, 15)) event = await sdk.aio_rpc.get_contract_event_by_tx_hash(tx_hash) notify = Event.get_notify_by_contract_address( event, sdk.native_vm.ong().contract_address) self.assertEqual('transfer', notify['States'][0]) self.assertEqual(b58_recv_address, notify['States'][1]) self.assertEqual(self.gas_price * self.gas_limit, notify['States'][3]) notify = Event.get_notify_by_contract_address( event, sdk.native_vm.ont().contract_address) self.assertEqual('transfer', notify['States'][0]) self.assertEqual(b58_from_address, notify['States'][1]) self.assertEqual(b58_recv_address, notify['States'][2]) self.assertEqual(amount, notify['States'][3])
async def test_transfer_multi(self): oep4 = sdk.neo_vm.aio_oep4() oep4.hex_contract_address = contract_address transfer_list = list() b58_from_address1 = acct1.get_address_base58() b58_from_address2 = acct2.get_address_base58() from_address_list = [b58_from_address1, b58_from_address2] b58_to_address1 = acct2.get_address_base58() b58_to_address2 = acct3.get_address_base58() to_address_list = [b58_to_address1, b58_to_address2] value_list = [1, 2] transfer1 = [b58_from_address1, b58_to_address1, value_list[0]] transfer2 = [b58_from_address2, b58_to_address2, value_list[1]] signers = [acct1, acct2, acct3] transfer_list.append(transfer1) transfer_list.append(transfer2) tx_hash = await oep4.transfer_multi(transfer_list, signers, acct1, 500, 20000000) self.assertEqual(64, len(tx_hash)) await asyncio.sleep(randint(14, 20)) notify_list = await oep4.query_multi_transfer_event(tx_hash) self.assertEqual(len(transfer_list), len(notify_list)) for index, notify in enumerate(notify_list): self.assertEqual('transfer', notify['States'][0]) self.assertEqual(from_address_list[index], notify['States'][1]) self.assertEqual(to_address_list[index], notify['States'][2]) self.assertEqual(value_list[index], notify['States'][3])
async def test_balance_of(self): address_list = [acct1.get_address_base58(), acct2.get_address_base58(), acct3.get_address_base58(), acct4.get_address_base58()] for address in address_list: balance = await sdk.native_vm.aio_ont().balance_of(address) self.assertTrue(isinstance(balance, int)) self.assertGreaterEqual(balance, 0)
def test_send_raw_transaction_pre_exec(self): b58_address = acct1.get_address_base58() tx = sdk.native_vm.ong().new_transfer_tx(b58_address, acct2.get_address(), 2, b58_address, 500, 20000) tx.sign_transaction(acct1) result = sdk.rpc.send_raw_transaction_pre_exec(tx) self.assertTrue(Data.to_bool(result['Result'])) self.assertEqual(result['Gas'], 20000) self.assertEqual(result['State'], 1)
def test_tx_signature(self): b58_from_address = acct1.get_address_base58() b58_to_address = acct2.get_address_base58() tx = sdk.native_vm.ont().new_transfer_tx(b58_from_address, b58_to_address, 10, b58_from_address, 0, 20000) tx.sign_transaction(acct1) self.assertTrue(acct1.verify_signature(tx.hash256(), tx.sig_list[0].sig_data[0])) self.assertFalse(acct2.verify_signature(tx.hash256(), tx.sig_list[0].sig_data[0])) tx.add_sign_transaction(acct2) self.assertTrue(acct2.verify_signature(tx.hash256(), tx.sig_list[1].sig_data[0]))
def test_send_raw_transaction(self): b58_from_address = acct1.get_address_base58() b58_to_address = 'AW352JufVwuZReSt7SCQpbYqrWeuERUNJr' tx = sdk.native_vm.ong().new_transfer_tx(b58_from_address, b58_to_address, 1, b58_from_address, 500, 20000) tx.sign_transaction(acct1) tx_hash = sdk.restful.send_raw_transaction(tx) self.assertEqual(tx_hash, tx.hash256_explorer())
async def test_get_balance(self): pub_keys = [acct1.get_public_key_bytes(), acct2.get_public_key_bytes(), acct3.get_public_key_bytes()] multi_address = Address.from_multi_pub_keys(2, pub_keys) address_list = [acct1.get_address_base58(), acct2.get_address_base58(), acct3.get_address_base58(), acct4.get_address_base58(), multi_address.b58encode()] for address in address_list: balance = await sdk.websocket.get_balance(address) self.assertTrue(isinstance(balance, dict)) self.assertGreaterEqual(balance['ONT'], 0) self.assertGreaterEqual(balance['ONG'], 0)
async def test_unbound_ong(self): address_list = [ acct1.get_address_base58(), acct2.get_address_base58(), acct3.get_address_base58(), acct4.get_address_base58() ] for address in address_list: unbound_ong = await sdk.native_vm.aio_ong().unbound(address) self.assertGreaterEqual(unbound_ong, 0)
def test_invoke_transaction(self): """ from ontology.interop.System.Runtime import Notify def main(operation, args): if operation == 'hello': return hello(args[0]) return False def hello(msg): Notify(["hello", msg]) return msg """ avm_code = '51c56b6c58c56b6a00527ac46a51527ac46a52527ac46a51c30568656c6c6f7d9c7c756427' \ '00006a53527ac46a52c300c3516a53c3936a53527ac46a53c36a00c365f2006c7566620300' \ '006c75660111c56b6a00527ac46a51527ac46a51c300947600a0640c00c16a52527ac4620e' \ '007562030000c56a52527ac46a52c3c0517d9c7c75641c00006a53527ac46a52c300c36a54' \ '527ac4516a55527ac4625c006a52c3c0527d9c7c756421006a52c300c36a53527ac46a52c3' \ '51c36a54527ac4516a55527ac4616232006a52c3c0537d9c7c756424006a52c300c36a5352' \ '7ac46a52c351c36a54527ac46a52c352c36a55527ac462050000f100c176c96a56527ac46a' \ '53c36a57527ac46a57c36a54c37d9f7c756419006a56c36a57c3c86a57c36a55c3936a5752' \ '7ac462e0ff6a56c36c756656c56b6a00527ac46a51527ac46a52527ac46203000568656c6c' \ '6f6a52c352c176c9681553797374656d2e52756e74696d652e4e6f746966796a52c36c7566' contract_address = sdk.neo_vm.address_from_avm_code(avm_code).hex() self.assertEqual('f7b9970fd6def5229c1f30ad15372bd1c20bb260', contract_address) hello = NeoInvokeFunction('hello') hello.set_params_value('ontology') tx = sdk.neo_vm.make_invoke_transaction(contract_address, hello, acct1.get_address_base58(), 500, 20000) response = sdk.rpc.send_raw_transaction_pre_exec(tx) self.assertEqual(1, response['State']) response['Result'] = NeoData.to_utf8_str(response['Result']) self.assertEqual('ontology', response['Result']) tx.sign_transaction(acct1) tx_hash = sdk.rpc.send_raw_transaction(tx) sleep(10) for _ in range(5): try: event = sdk.rpc.get_contract_event_by_tx_hash(tx_hash) if isinstance(event, dict) and event.get('Notify', '') != '': notify = Event.get_notify_by_contract_address( event, contract_address) self.assertEqual(contract_address, notify['ContractAddress']) self.assertEqual('hello', NeoData.to_utf8_str(notify['States'][0])) self.assertEqual('ontology', NeoData.to_utf8_str(notify['States'][1])) break except SDKException: continue sleep(2)
def test_native_vm_transaction(self): amount = 1 tx = sdk.native_vm.ont().new_transfer_tx(acct2.get_address_base58(), acct1.get_address_base58(), amount, acct1.get_address_base58(), 500, 20000) tx.sign_transaction(acct1) tx.add_sign_transaction(acct2) tx_hash = sdk.rpc.send_raw_transaction(tx) self.assertEqual(64, len(tx_hash)) tx = sdk.native_vm.ont().new_transfer_tx(acct1.get_address_base58(), acct2.get_address_base58(), amount, acct1.get_address_base58(), 500, 20000) tx.sign_transaction(acct2) tx.add_sign_transaction(acct1) tx_hash = sdk.rpc.send_raw_transaction(tx) self.assertEqual(64, len(tx_hash))
async def test_transfer_from_tx(self): acct2_b58_address = acct2.get_address_base58() tx_hash = await sdk.native_vm.aio_ont().transfer_from(acct2, acct1.get_address(), acct2_b58_address, 1, acct2, self.gas_price, self.gas_limit) self.assertEqual(64, len(tx_hash)) await asyncio.sleep(randint(14, 20)) event = await sdk.aio_rpc.get_contract_event_by_tx_hash(tx_hash) notify = Event.get_notify_by_contract_address(event, sdk.native_vm.aio_ont().contract_address) self.assertEqual('transfer', notify['States'][0]) self.assertEqual(acct1.get_address_base58(), notify['States'][1]) self.assertEqual(acct2.get_address_base58(), notify['States'][2]) self.assertEqual(1, notify['States'][3])
def test_transfer_from(self): sdk.rpc.connect_to_test_net() b58_from_address = acct1.get_address_base58() b58_recv_address = acct2.get_address_base58() ong = sdk.native_vm.ong() tx_hash = ong.transfer_from(acct2, b58_from_address, b58_recv_address, 1, acct2, self.gas_price, self.gas_limit) self.assertEqual(64, len(tx_hash)) time.sleep(randint(14, 20)) event = sdk.default_network.get_contract_event_by_tx_hash(tx_hash) notify = Event.get_notify_by_contract_address(event, ong.contract_address) self.assertEqual(2, len(notify))
async def test_transfer_from(self): sdk.rpc.connect_to_test_net() b58_from_address = acct1.get_address_base58() b58_recv_address = acct2.get_address_base58() ong = sdk.native_vm.aio_ong() tx_hash = await ong.transfer_from(acct2, b58_from_address, b58_recv_address, 1, acct2, 500, 20000) self.assertEqual(64, len(tx_hash)) await asyncio.sleep(randint(14, 20)) event = await sdk.aio_rpc.get_contract_event_by_tx_hash(tx_hash) notify = Event.get_notify_by_contract_address(event, ong.contract_address) self.assertEqual(2, len(notify))
async def test_transfer_from(self): oep4 = sdk.neo_vm.aio_oep4() oep4.hex_contract_address = contract_address b58_from_address = acct1.get_address_base58() b58_to_address = acct3.get_address_base58() value = 1 tx_hash = await oep4.transfer_from(acct2, b58_from_address, b58_to_address, value, acct1, 500, 20000000) self.assertEqual(64, len(tx_hash)) await asyncio.sleep(randint(14, 20)) event = await oep4.query_transfer_from_event(tx_hash) self.assertEqual(contract_address, event.get('ContractAddress', '')) self.assertEqual('transfer', event['States'][0]) self.assertEqual(b58_from_address, event['States'][1]) self.assertEqual(b58_to_address, event['States'][2]) self.assertEqual(value, event['States'][3])
async def test_approve(self): oep4 = sdk.neo_vm.aio_oep4() oep4.hex_contract_address = contract_address b58_spender_address = acct2.get_address_base58() amount = 10 tx_hash = await oep4.approve(acct1, b58_spender_address, amount, acct1, 500, 20000000) self.assertEqual(len(tx_hash), 64) await asyncio.sleep(randint(14, 20)) event = await oep4.query_approve_event(tx_hash) self.assertEqual(contract_address, event.get('ContractAddress', '')) states = event['States'] self.assertEqual('approval', states[0]) self.assertEqual(acct1.get_address_base58(), states[1]) self.assertEqual(b58_spender_address, states[2]) self.assertEqual(amount, states[3])
async def test_transfer(self): amount = 1 ont = sdk.native_vm.aio_ont() tx_hash = await ont.transfer(acct2, acct1.get_address(), amount, acct4, self.gas_price, self.gas_limit) await asyncio.sleep(randint(14, 20)) event = await sdk.aio_rpc.get_contract_event_by_tx_hash(tx_hash) notify = Event.get_notify_by_contract_address(event, ont.contract_address) self.assertEqual('transfer', notify['States'][0]) self.assertEqual(acct2.get_address_base58(), notify['States'][1]) self.assertEqual(acct1.get_address_base58(), notify['States'][2]) self.assertEqual(amount, notify['States'][3]) notify = Event.get_notify_by_contract_address(event, sdk.native_vm.aio_ong().contract_address) self.assertEqual('transfer', notify['States'][0]) self.assertEqual(acct4.get_address_base58(), notify['States'][1]) self.assertEqual(self.gas_price * self.gas_limit, notify['States'][3])
def test_claim_demo(self): pub_keys = sdk.native_vm.ont_id().get_public_keys(identity1.ont_id) try: pk = pub_keys[0] kid = pk['PubKeyId'] except IndexError: kid = '03d0fdb54acba3f81db3a6e16fa02e7ea3678bd205eb4ed2f1cfa8ab5e5d45633e#keys-1' iss_ont_id = identity2.ont_id sub_ont_id = identity1.ont_id exp = int(time()) + 1000 context = 'https://example.com/template/v1' clm = dict(Name='NashMiao', JobTitle='SoftwareEngineer', HireData=str(time())) clm_rev = dict(type='AttestContract', addr='8055b362904715fd84536e754868f4c8d27ca3f6') claim = sdk.service.claim() claim.set_claim(kid, iss_ont_id, sub_ont_id, exp, context, clm, clm_rev) try: claim.generate_signature(identity2_ctrl_acct) except SDKException as e: msg = 'get key failed' self.assertTrue(msg in e.args[1]) claim.generate_signature(identity2_ctrl_acct, verify_kid=False) tx = claim.new_commit_tx(identity2_ctrl_acct.get_address_base58(), acct1.get_address_base58(), self.gas_price, self.gas_limit) tx.sign_transaction(identity2_ctrl_acct) tx.add_sign_transaction(acct1) tx_hash = sdk.rpc.send_raw_transaction(tx) sleep(12) blockchain_proof = claim.generate_blk_proof(tx_hash) self.assertTrue(claim.validate_blk_proof()) b64_claim = claim.to_base64() claim_list = b64_claim.split('.') self.assertEqual(4, len(claim_list)) claim_recv = sdk.service.claim() claim_recv.from_base64(b64_claim) self.assertEqual(dict(claim), dict(claim_recv)) proof_node = blockchain_proof.proof_node if proof_node[0]['Direction'] == 'Right': proof_node[0]['Direction'] = 'Left' else: proof_node[0]['Direction'] = 'Right' claim.blk_proof.proof_node = proof_node self.assertFalse(claim.validate_blk_proof())
async def test_get_memory_pool_tx_state(self): tx_hash = '0000000000000000000000000000000000000000000000000000000000000000' try: await sdk.aio_rpc.get_memory_pool_tx_state(tx_hash) except SDKException as e: if 'unknown transaction' not in e.args[1]: raise e oep4 = sdk.neo_vm.oep4() oep4.hex_contract_address = '1ddbb682743e9d9e2b71ff419e97a9358c5c4ee9' b58_from_address = acct1.get_address_base58() b58_to_address = 'AazEvfQPcQ2GEFFPLF1ZLwQ7K5jDn81hve' tx = oep4.new_transfer_tx(b58_from_address, b58_to_address, 10, b58_from_address, 500, 200000) tx.sign_transaction(acct1) tx_hash = await sdk.aio_rpc.send_raw_transaction(tx) self.assertEqual(64, len(tx_hash)) tx_state = await sdk.aio_rpc.get_memory_pool_tx_state(tx_hash) self.assertTrue(isinstance(tx_state, list))
def test_transfer(self): amount = 1 gas = sdk.native_vm.gas() tx_hash = gas.transfer(acct1, acct2.get_address(), amount, acct4, self.gas_price, self.gas_limit) time.sleep(randint(14, 20)) event = sdk.default_network.get_contract_event_by_tx_hash(tx_hash) notify = Event.get_notify_by_contract_address(event, gas.contract_address) self.assertEqual('transfer', notify['States'][0]) self.assertEqual(acct1.get_address_base58(), notify['States'][1]) self.assertEqual(acct2.get_address_base58(), notify['States'][2]) self.assertEqual(amount, notify['States'][3]) notify = Event.get_notify_by_contract_address( event, sdk.native_vm.aio_ong().contract_address) self.assertEqual('transfer', notify['States'][0]) self.assertEqual(acct4.get_address_base58(), notify['States'][1]) self.assertEqual(self.gas_price * self.gas_limit, notify['States'][3])
async def test_withdraw_ong(self): amount, gas_price, gas_limit = 1, 500, 20000 tx_hash = await sdk.native_vm.aio_ong().withdraw( acct1, acct1.get_address(), amount, acct2, gas_price, gas_limit) self.assertEqual(64, len(tx_hash)) await asyncio.sleep(randint(14, 20)) event = await sdk.aio_rpc.get_contract_event_by_tx_hash(tx_hash) notify = Event.get_notify_by_contract_address( event, sdk.native_vm.aio_ong().contract_address) self.assertEqual('transfer', notify[0]['States'][0]) self.assertEqual(acct1.get_address_base58(), notify[0]['States'][2]) self.assertEqual(amount, notify[0]['States'][3]) notify = Event.get_notify_by_contract_address( event, sdk.native_vm.aio_ong().contract_address) self.assertEqual('transfer', notify[1]['States'][0]) self.assertEqual(acct2.get_address_base58(), notify[1]['States'][1]) self.assertEqual(gas_price * gas_limit, notify[1]['States'][3])
def test_transfer_from(self): b58_from_address = acct2.get_address_base58() b58_recv_address = acct1.get_address_base58() ont = sdk.native_vm.ont() amount = 1 tx_hash = ont.transfer_from(acct1, b58_from_address, b58_recv_address, amount, acct2, self.gas_price, self.gas_limit) self.assertEqual(64, len(tx_hash)) time.sleep(randint(10, 15)) event = sdk.default_network.get_contract_event_by_tx_hash(tx_hash) notify = Event.get_notify_by_contract_address(event, sdk.native_vm.ong().contract_address) self.assertEqual('transfer', notify['States'][0]) self.assertEqual(b58_from_address, notify['States'][1]) self.assertEqual(self.gas_price * self.gas_limit, notify['States'][3]) notify = Event.get_notify_by_contract_address(event, sdk.native_vm.ont().contract_address) self.assertEqual('transfer', notify['States'][0]) self.assertEqual(b58_from_address, notify['States'][1]) self.assertEqual(b58_recv_address, notify['States'][2]) self.assertEqual(amount, notify['States'][3])
async def test_send_raw_transaction(self): b58_from_address = acct1.get_address_base58() b58_to_address = acct2.get_address_base58() tx = sdk.native_vm.ong().new_transfer_tx(b58_from_address, b58_to_address, 1, b58_from_address, 500, 20000) tx.sign_transaction(acct1) tx_hash = await sdk.websocket.send_raw_transaction(tx) self.assertEqual(64, len(tx_hash)) await asyncio.sleep(6) event = dict() for _ in range(0, 10): event = await sdk.websocket.get_contract_event_by_tx_hash(tx_hash) if isinstance(event, dict) and event.get('TxHash', '') == tx_hash: break await asyncio.sleep(2) await sdk.websocket.close_connect() self.assertTrue(isinstance(event, dict)) self.assertEqual(tx_hash, event['TxHash']) self.assertEqual(1, event['State']) self.assertEqual('0200000000000000000000000000000000000000', event['Notify'][0]['ContractAddress']) self.assertEqual('0200000000000000000000000000000000000000', event['Notify'][1]['ContractAddress'])
def test_withdraw_ong(self): amount = 1 tx_hash = sdk.native_vm.ong().withdraw(acct1, acct1.get_address(), amount, acct2, self.gas_price, self.gas_limit) self.assertEqual(64, len(tx_hash)) time.sleep(randint(14, 20)) event = sdk.default_network.get_contract_event_by_tx_hash(tx_hash) notify = Event.get_notify_by_contract_address( event, sdk.native_vm.ong().contract_address) self.assertEqual('transfer', notify[0]['States'][0]) self.assertEqual(acct1.get_address_base58(), notify[0]['States'][2]) self.assertEqual(amount, notify[0]['States'][3]) notify = Event.get_notify_by_contract_address( event, sdk.native_vm.ong().contract_address) self.assertEqual('transfer', notify[1]['States'][0]) self.assertEqual(acct2.get_address_base58(), notify[1]['States'][1]) self.assertEqual(self.gas_price * self.gas_limit, notify[1]['States'][3])
def test_add_multi_sign_transaction(self): pub_keys = [ acct1.get_public_key_bytes(), acct2.get_public_key_bytes(), acct3.get_public_key_bytes() ] m = 2 b58_multi_address = Address.from_multi_pub_keys(m, pub_keys).b58encode() amount = 1 gas_price = 500 gas_limit = 20000 tx_hash = sdk.native_vm.ont().transfer(acct2, b58_multi_address, amount, acct2, gas_price, gas_limit) self.assertEqual(64, len(tx_hash)) tx_hash = sdk.native_vm.ong().transfer(acct2, b58_multi_address, amount, acct2, gas_price, gas_limit) self.assertEqual(64, len(tx_hash)) b58_acct1_address = acct1.get_address_base58() b58_acct2_address = acct2.get_address_base58() self.assertEqual('ATyGGJBnANKFbf2tQMp4muUEZK7KuZ52k4', b58_multi_address) tx = sdk.native_vm.ong().new_transfer_tx(b58_acct1_address, b58_multi_address, amount, b58_acct1_address, gas_price, gas_limit) tx.add_sign_transaction(acct1) tx = sdk.native_vm.ont().new_transfer_tx(b58_multi_address, b58_acct2_address, amount, b58_acct1_address, gas_price, gas_limit) tx.sign_transaction(acct1) tx.add_multi_sign_transaction(m, pub_keys, acct1) tx.add_multi_sign_transaction(m, pub_keys, acct2) tx_hash = sdk.rpc.send_raw_transaction(tx) self.assertEqual(64, len(tx_hash))