def test_filters_assets(): # fund server for i in range(3): address = lib.get_funding_addresses([ASSET])[ASSET] rawtx = api.create_send( **{ 'source': FUNDING_ADDRESS, 'destination': address, 'asset': ASSET, 'quantity': 1000000, 'regular_dust_size': 1000000 }) api.sendrawtransaction(tx_hex=rawtx) # connect clients assert len(api.mph_connections()) == 0 clients = [] for i in range(3): bob_wif = util.gen_funded_wif(ASSET, 1000000, 1000000) client = Mph(util.MockAPI(auth_wif=bob_wif)) client.connect(1000000, 65535, asset=ASSET) clients.append(client) connections = api.mph_connections(assets=[ASSET]) assert len(connections) == 3 connections = api.mph_connections(assets=["BTC"]) assert len(connections) == 0
def test_simulation_xcp(): # fund server for i in range(2): address = lib.get_funding_addresses([ASSET])[ASSET] rawtx = api.create_send( **{ 'source': FUNDING_ADDRESS, 'destination': address, 'asset': ASSET, 'quantity': 1000000, 'regular_dust_size': 1000000 }) api.sendrawtransaction(tx_hex=rawtx) # connect clients clients = [] for i in range(2): bob_wif = util.gen_funded_wif(ASSET, 1000000, 1000000) client = Mph(util.MockAPI(auth_wif=bob_wif)) txid = client.connect(1000000, 65535, asset=ASSET) assert txid is not None status = client.get_status() assert status["balance"] == 1000000 assert status["c2h_deposit_ttl"] is not None assert status["h2c_deposit_ttl"] is None # hub deposit not yet made clients.append(client) # server funds deposits cron.run_all() for client in clients: status = client.get_status() assert status["h2c_deposit_ttl"] is not None # hub deposit now made
def test_all(server_db): # fund server for i in range(3): address = lib.get_funding_addresses([ASSET])[ASSET] rawtx = api.create_send( **{ 'source': FUNDING_ADDRESS, 'destination': address, 'asset': ASSET, 'quantity': 1000000, 'regular_dust_size': 1000000 }) api.sendrawtransaction(tx_hex=rawtx) # connect clients assert len(api.mph_connections()) == 0 clients = [] for i in range(3): bob_wif = util.gen_funded_wif(ASSET, 1000000, 1000000) client = Mph(util.MockAPI(auth_wif=bob_wif)) client.connect(1000000, 65535, asset=ASSET) clients.append(client) connections = api.mph_connections() assert len(connections) == 3 for connection in connections: jsonschema.validate(connection, CONNECTION_RESULT_SCHEMA) auth.verify_json(connection)
def connected_clients(): # create asset rawtx = api.create_issuance( source=FUNDING_ADDRESS, asset="A7736697071037023001", quantity=100000000 ) api.sendrawtransaction(tx_hex=rawtx) # fund server for i in range(3): addresses = lib.get_funding_addresses(["XCP", "A7736697071037023001"]) for asset, address in addresses.items(): rawtx = api.create_send(**{ 'source': FUNDING_ADDRESS, 'destination': address, 'asset': asset, 'quantity': 1000000, 'regular_dust_size': 1000000 }) api.sendrawtransaction(tx_hex=rawtx) # connect clients clients = [] # fund XCP clients for i in range(3): bob_wif = util.gen_funded_wif("XCP", 1000000, 1000000) client = Mph(util.MockAPI(auth_wif=bob_wif)) client.connect(1000000, 42, asset="XCP") clients.append(client) # fund A7736697071037023001 clients for i in range(3): bob_wif = util.gen_funded_wif("A7736697071037023001", 1000000, 1000000) client = Mph(util.MockAPI(auth_wif=bob_wif)) client.connect(1000000, 42, asset="A7736697071037023001") clients.append(client) cron.fund_deposits() return clients
def test_commit_tx_beta(): rawtx = api.create_send( **{ 'source': ALICE_ADDRESS, 'destination': BOB_ADDRESS, 'asset': 'XCP', 'quantity': 13, 'regular_dust_size': 33 }) asset_balance, btc_balance = get_balance(dispatcher, "XCP", BOB_ADDRESS) assert asset_balance == 0 assert btc_balance == 0 api.sendrawtransaction(tx_hex=rawtx) asset_balance, btc_balance = get_balance(dispatcher, "XCP", BOB_ADDRESS) assert asset_balance == 13 assert btc_balance == 33
def gen_funded_wif(asset, asset_quantity, btc_quantity): src_wif = DP["addresses"][0][2] src_address = address_from_wif(src_wif) dest_wif = generate_wif(netcode=etc.netcode) dest_address = address_from_wif(dest_wif) rawtx = api.create_send( **{ 'source': src_address, 'destination': dest_address, 'asset': asset, 'quantity': asset_quantity, 'regular_dust_size': btc_quantity }) api.sendrawtransaction(tx_hex=rawtx) # entries = api.get_balances(filters=[ # {"field": "address", "op": "==", "value": dest_address}, # {"field": "asset", "op": "==", "value": asset}, # ]) # assert entries[0]["quantity"] == asset_quantity # assert entries[0]["address"] == dest_address # assert entries[0]["asset"] == asset return dest_wif
def test_standard_usage(server_db): # fund server for i in range(3): address = lib.get_funding_addresses([ASSET])[ASSET] rawtx = api.create_send( **{ 'source': FUNDING_ADDRESS, 'destination': address, 'asset': ASSET, 'quantity': 1000000, 'regular_dust_size': 1000000 }) api.sendrawtransaction(tx_hex=rawtx) # connect clients assert len(api.mph_connections()) == 0 clients = [] for i in range(3): auth_wif = util.gen_funded_wif(ASSET, 1000000, 1000000) client = Mph(util.MockAPI(auth_wif=auth_wif)) txid = client.connect(1000000, 65535, asset=ASSET) assert txid is not None status = client.get_status() assert status["balance"] == 1000000 assert status["c2h_deposit_ttl"] is not None assert status["h2c_deposit_ttl"] is None # hub deposit not yet made clients.append(client) assert len(api.mph_connections()) == 3 # server funds deposits assert len(cron.fund_deposits()) == 3 assert len(cron.fund_deposits()) == 0 for client in clients: status = client.get_status() assert status["h2c_deposit_ttl"] is not None # hub deposit now made # after before status alpha, beta, gamma = clients alpha_before_status = alpha.get_status() beta_before_status = beta.get_status() gamma_before_status = gamma.get_status() # can send multiple payments alpha.micro_send(beta.handle, 5, "0000") alpha.micro_send(gamma.handle, 6, "0001") assert alpha.sync() == [] assert beta.sync() == [{ "payer_handle": alpha.handle, "amount": 5, "token": "0000" }] assert gamma.sync(), [{ "payer_handle": alpha.handle, "amount": 6, "token": "0001" }] # send more back, commits are revoked to maximize liquidity beta.micro_send(alpha.handle, 42, "0003") assert beta.sync() == [] assert alpha.sync() == [{ "payer_handle": beta.handle, "amount": 42, "token": "0003" }] # multiple syncs/commtis from single client alpha.micro_send(beta.handle, 1, "0004") assert alpha.sync() == [] # get after status alpha_after_status = alpha.get_status() beta_after_status = beta.get_status() gamma_after_status = gamma.get_status() # compare statuses alpha_after_status["balance"] == alpha_before_status["balance"] + 27 beta_after_status["balance"] == beta_before_status["balance"] - 40 gamma_after_status["balance"] == gamma_before_status["balance"] + 5 # close alpha payment channel assert alpha.close() is not None # commit txid returned (block created) assert len(alpha.update()) == 0 # payout delay not yet passed for i in range(alpha.c2h_commit_delay_time - 1): # let payout delay pass util_test.create_next_block(server_db) assert len(alpha.update()) == 1 # payout txid # close beta payment channel assert beta.close() is not None # commit txid returned (block created) assert len(beta.update()) == 0 # payout delay not yet passed for i in range(beta.c2h_commit_delay_time - 1): # let payout delay pass util_test.create_next_block(server_db) assert len(beta.update()) == 1 # payout txid # close gamma payment channel assert gamma.close() is not None # commit txid returned (block created) assert len(gamma.update()) == 0 # payout delay not yet passed for i in range(gamma.c2h_commit_delay_time - 1): # let payout delay pass util_test.create_next_block(server_db) assert len(gamma.update()) == 1 # payout txid # hub close connections cron cron.run_all() assert len(api.mph_connections()) == 0 # recover c2h change assert len(alpha.update()) == 1 # txid assert len(beta.update()) == 1 # txid assert len(gamma.update()) == 1 # txid