def test_token_network_deposit_race( token_network_proxy, private_keys, token_proxy, web3, contract_manager, ): assert token_network_proxy.settlement_timeout_min() == TEST_SETTLE_TIMEOUT_MIN assert token_network_proxy.settlement_timeout_max() == TEST_SETTLE_TIMEOUT_MAX token_network_address = to_canonical_address(token_network_proxy.proxy.contract.address) c1_client = JSONRPCClient(web3, private_keys[1]) c2_client = JSONRPCClient(web3, private_keys[2]) c1_token_network_proxy = TokenNetwork( jsonrpc_client=c1_client, token_network_address=token_network_address, contract_manager=contract_manager, ) token_proxy.transfer(c1_client.address, 10) channel_identifier = c1_token_network_proxy.new_netting_channel( c2_client.address, TEST_SETTLE_TIMEOUT_MIN, ) assert channel_identifier is not None c1_token_network_proxy.set_total_deposit( channel_identifier, 2, c2_client.address, ) with pytest.raises(DepositMismatch): c1_token_network_proxy.set_total_deposit( channel_identifier, 1, c2_client.address, )
def test_token_network_proxy_basics( token_network_proxy, private_keys, blockchain_rpc_ports, token_proxy, chain_id, web3, ): # check settlement timeouts assert token_network_proxy.settlement_timeout_min() == TEST_SETTLE_TIMEOUT_MIN assert token_network_proxy.settlement_timeout_max() == TEST_SETTLE_TIMEOUT_MAX token_network_address = to_canonical_address(token_network_proxy.proxy.contract.address) c1_client = JSONRPCClient( '0.0.0.0', blockchain_rpc_ports[0], private_keys[1], web3=web3, ) c2_client = JSONRPCClient( '0.0.0.0', blockchain_rpc_ports[0], private_keys[2], web3=web3, ) c1_token_network_proxy = TokenNetwork( c1_client, token_network_address, ) c2_token_network_proxy = TokenNetwork( c2_client, token_network_address, ) # instantiating a new channel - test basic assumptions assert c1_token_network_proxy.channel_exists(c1_client.sender, c2_client.sender) is False assert c1_token_network_proxy.channel_is_opened(c1_client.sender, c2_client.sender) is False assert c1_token_network_proxy.channel_is_closed(c1_client.sender, c2_client.sender) is False # test timeout limits with pytest.raises(InvalidSettleTimeout): c1_token_network_proxy.new_netting_channel( c2_client.sender, TEST_SETTLE_TIMEOUT_MIN - 1, ) with pytest.raises(InvalidSettleTimeout): c1_token_network_proxy.new_netting_channel( c2_client.sender, TEST_SETTLE_TIMEOUT_MAX + 1, ) # channel to self with pytest.raises(SamePeerAddress): c1_token_network_proxy.new_netting_channel( c1_client.sender, TEST_SETTLE_TIMEOUT_MIN, ) # actually create a channel channel_identifier = c1_token_network_proxy.new_netting_channel( c2_client.sender, TEST_SETTLE_TIMEOUT_MIN, ) assert channel_identifier is not None # multiple channels with the same peer are not allowed with pytest.raises(DuplicatedChannelError): c1_token_network_proxy.new_netting_channel( c2_client.sender, TEST_SETTLE_TIMEOUT_MIN, ) assert c1_token_network_proxy.channel_exists(c1_client.sender, c2_client.sender) is True assert c1_token_network_proxy.channel_is_opened(c1_client.sender, c2_client.sender) is True # channel is open. # deposit with no balance with pytest.raises(ValueError): c1_token_network_proxy.set_total_deposit( 10, c2_client.sender, ) # test deposits initial_token_balance = 100 token_proxy.transfer(c1_client.sender, initial_token_balance) initial_balance_c1 = token_proxy.balance_of(c1_client.sender) assert initial_balance_c1 == initial_token_balance initial_balance_c2 = token_proxy.balance_of(c2_client.sender) assert initial_balance_c2 == 0 # no negative deposit with pytest.raises(ValueError): c1_token_network_proxy.set_total_deposit( -1, c2_client.sender, ) # actual deposit c1_token_network_proxy.set_total_deposit( 10, c2_client.sender, ) # balance proof by c2 transferred_amount = 3 balance_proof = BalanceProof( channel_identifier=encode_hex(channel_identifier), token_network_address=to_checksum_address(token_network_address), nonce=1, chain_id=chain_id, transferred_amount=transferred_amount, ) balance_proof.signature = encode_hex( sign_data(encode_hex(private_keys[1]), balance_proof.serialize_bin()), ) # close with invalid signature with pytest.raises(TransactionThrew): c2_token_network_proxy.close( c1_client.sender, balance_proof.nonce, decode_hex(balance_proof.balance_hash), decode_hex(balance_proof.additional_hash), b'\x11' * 65, ) # correct close c2_token_network_proxy.close( c1_client.sender, balance_proof.nonce, decode_hex(balance_proof.balance_hash), decode_hex(balance_proof.additional_hash), decode_hex(balance_proof.signature), ) assert c1_token_network_proxy.channel_is_closed(c1_client.sender, c2_client.sender) is True assert c1_token_network_proxy.channel_exists(c1_client.sender, c2_client.sender) is True # closing already closed channel with pytest.raises(ChannelIncorrectStateError): c2_token_network_proxy.close( c1_client.sender, balance_proof.nonce, decode_hex(balance_proof.balance_hash), decode_hex(balance_proof.additional_hash), decode_hex(balance_proof.signature), ) # update transfer wait_blocks(c1_client.web3, TEST_SETTLE_TIMEOUT_MIN) c2_token_network_proxy.settle( 0, 0, EMPTY_HASH, c1_client.sender, transferred_amount, 0, EMPTY_HASH, ) assert c1_token_network_proxy.channel_exists(c1_client.sender, c2_client.sender) is False assert token_proxy.balance_of(c1_client.sender) == (initial_balance_c1 - transferred_amount) assert token_proxy.balance_of(c2_client.sender) == (initial_balance_c2 + transferred_amount)
def test_token_network_proxy_update_transfer( token_network_proxy, private_keys, blockchain_rpc_ports, token_proxy, chain_id, web3, ): """Tests channel lifecycle, with `update_transfer` before settling""" token_network_address = to_canonical_address(token_network_proxy.proxy.contract.address) c1_client = JSONRPCClient( '0.0.0.0', blockchain_rpc_ports[0], private_keys[1], web3=web3, ) c2_client = JSONRPCClient( '0.0.0.0', blockchain_rpc_ports[0], private_keys[2], web3=web3, ) c1_token_network_proxy = TokenNetwork( c1_client, token_network_address, ) c2_token_network_proxy = TokenNetwork( c2_client, token_network_address, ) # create a channel channel_identifier = c1_token_network_proxy.new_netting_channel( c2_client.sender, TEST_SETTLE_TIMEOUT_MIN, ) # deposit to the channel initial_balance = 100 token_proxy.transfer(c1_client.sender, initial_balance) token_proxy.transfer(c2_client.sender, initial_balance) initial_balance_c1 = token_proxy.balance_of(c1_client.sender) assert initial_balance_c1 == initial_balance initial_balance_c2 = token_proxy.balance_of(c2_client.sender) assert initial_balance_c2 == initial_balance c1_token_network_proxy.set_total_deposit( 10, c2_client.sender, ) c2_token_network_proxy.set_total_deposit( 10, c1_client.sender, ) # balance proof signed by c1 transferred_amount_c1 = 1 transferred_amount_c2 = 3 balance_proof_c1 = BalanceProof( channel_identifier=encode_hex(channel_identifier), token_network_address=to_checksum_address(token_network_address), nonce=1, chain_id=chain_id, transferred_amount=transferred_amount_c1, ) balance_proof_c1.signature = encode_hex( sign_data(encode_hex(private_keys[1]), balance_proof_c1.serialize_bin()), ) # balance proof signed by c2 balance_proof_c2 = BalanceProof( channel_identifier=encode_hex(channel_identifier), token_network_address=to_checksum_address(token_network_address), nonce=2, chain_id=chain_id, transferred_amount=transferred_amount_c2, ) balance_proof_c2.signature = encode_hex( sign_data(encode_hex(private_keys[2]), balance_proof_c2.serialize_bin()), ) # close by c1 c1_token_network_proxy.close( c2_client.sender, balance_proof_c2.nonce, decode_hex(balance_proof_c2.balance_hash), decode_hex(balance_proof_c2.additional_hash), decode_hex(balance_proof_c2.signature), ) # using invalid non-closing signature # Usual mistake when calling update Transfer - balance proof signature is missing in the data non_closing_data = balance_proof_c1.serialize_bin() non_closing_signature = sign_data( encode_hex(c2_client.privkey), non_closing_data, ) with pytest.raises(TransactionThrew): c2_token_network_proxy.update_transfer( c1_client.sender, balance_proof_c1.nonce, decode_hex(balance_proof_c1.balance_hash), decode_hex(balance_proof_c1.additional_hash), decode_hex(balance_proof_c1.signature), non_closing_signature, ) non_closing_data = balance_proof_c1.serialize_bin() + decode_hex(balance_proof_c1.signature) non_closing_signature = sign_data( encode_hex(c2_client.privkey), non_closing_data, ) c2_token_network_proxy.update_transfer( c1_client.sender, balance_proof_c1.nonce, decode_hex(balance_proof_c1.balance_hash), decode_hex(balance_proof_c1.additional_hash), decode_hex(balance_proof_c1.signature), non_closing_signature, ) wait_blocks(c1_client.web3, TEST_SETTLE_TIMEOUT_MIN) # settling with an invalid amount with pytest.raises(TransactionThrew): c1_token_network_proxy.settle( 2, 0, EMPTY_HASH, c2_client.sender, 2, 0, EMPTY_HASH, ) # proper settle c1_token_network_proxy.settle( transferred_amount_c1, 0, EMPTY_HASH, c2_client.sender, transferred_amount_c2, 0, EMPTY_HASH, ) assert (token_proxy.balance_of(c2_client.sender) == (initial_balance_c2 + transferred_amount_c1 - transferred_amount_c2)) assert (token_proxy.balance_of(c1_client.sender) == (initial_balance_c1 + transferred_amount_c2 - transferred_amount_c1))
def test_token_network_proxy_basics( token_network_proxy, private_keys, token_proxy, chain_id, web3, contract_manager, ): # check settlement timeouts assert token_network_proxy.settlement_timeout_min() == TEST_SETTLE_TIMEOUT_MIN assert token_network_proxy.settlement_timeout_max() == TEST_SETTLE_TIMEOUT_MAX token_network_address = to_canonical_address(token_network_proxy.proxy.contract.address) c1_client = JSONRPCClient(web3, private_keys[1]) c1_chain = BlockChainService(private_keys[1], c1_client) c2_client = JSONRPCClient(web3, private_keys[2]) c1_token_network_proxy = TokenNetwork( jsonrpc_client=c1_client, token_network_address=token_network_address, contract_manager=contract_manager, ) c2_token_network_proxy = TokenNetwork( jsonrpc_client=c2_client, token_network_address=token_network_address, contract_manager=contract_manager, ) initial_token_balance = 100 token_proxy.transfer(c1_client.address, initial_token_balance) token_proxy.transfer(c2_client.address, initial_token_balance) initial_balance_c1 = token_proxy.balance_of(c1_client.address) assert initial_balance_c1 == initial_token_balance initial_balance_c2 = token_proxy.balance_of(c2_client.address) assert initial_balance_c2 == initial_token_balance # instantiating a new channel - test basic assumptions assert c1_token_network_proxy.channel_exists_and_not_settled( c1_client.address, c2_client.address, ) is False channel_identifier = c1_token_network_proxy._call_and_check_result( 'latest', 'getChannelIdentifier', to_checksum_address(c1_client.address), to_checksum_address(c2_client.address), ) assert c1_token_network_proxy.channel_is_opened( c1_client.address, c2_client.address, channel_identifier, ) is False assert c1_token_network_proxy.channel_is_closed( c1_client.address, c2_client.address, channel_identifier, ) is False # test timeout limits with pytest.raises(InvalidSettleTimeout): c1_token_network_proxy.new_netting_channel( c2_client.address, TEST_SETTLE_TIMEOUT_MIN - 1, ) with pytest.raises(InvalidSettleTimeout): c1_token_network_proxy.new_netting_channel( c2_client.address, TEST_SETTLE_TIMEOUT_MAX + 1, ) # channel to self with pytest.raises(SamePeerAddress): c1_token_network_proxy.new_netting_channel( c1_client.address, TEST_SETTLE_TIMEOUT_MIN, ) # Channel is not open yet with pytest.raises(RaidenUnrecoverableError) as exc: c1_token_network_proxy.set_total_deposit( 1, 1, c2_client.address, ) assert 'does not exist' in str(exc) # Channel is not open yet with pytest.raises(RaidenUnrecoverableError) as exc: c1_token_network_proxy.close( 1, c2_client.address, EMPTY_HASH, 0, EMPTY_HASH, EMPTY_HASH, ) assert 'does not exist' in str(exc) # actually create a channel channel_identifier = c1_token_network_proxy.new_netting_channel( c2_client.address, TEST_SETTLE_TIMEOUT_MIN, ) assert channel_identifier is not None # multiple channels with the same peer are not allowed with pytest.raises(DuplicatedChannelError): c1_token_network_proxy.new_netting_channel( c2_client.address, TEST_SETTLE_TIMEOUT_MIN, ) assert c1_token_network_proxy.channel_exists_and_not_settled( participant1=c1_client.address, participant2=c2_client.address, channel_identifier=channel_identifier, ) is True assert c1_token_network_proxy.channel_is_opened( participant1=c1_client.address, participant2=c2_client.address, channel_identifier=channel_identifier, ) is True # channel is open. # deposit with no balance with pytest.raises(DepositMismatch): c1_token_network_proxy.set_total_deposit( channel_identifier, 101, c2_client.address, ) # no negative deposit with pytest.raises(DepositMismatch): c1_token_network_proxy.set_total_deposit( channel_identifier, -1, c2_client.address, ) # actual deposit c1_token_network_proxy.set_total_deposit( channel_identifier, 10, c2_client.address, ) # balance proof by c2 transferred_amount = 3 balance_proof = BalanceProof( channel_identifier=channel_identifier, token_network_address=to_checksum_address(token_network_address), nonce=1, chain_id=chain_id, transferred_amount=transferred_amount, ) balance_proof.signature = encode_hex(eth_sign( privkey=encode_hex(private_keys[1]), data=balance_proof.serialize_bin(), )) # close with invalid signature with pytest.raises(RaidenUnrecoverableError): c2_token_network_proxy.close( channel_identifier=channel_identifier, partner=c1_client.address, balance_hash=decode_hex(balance_proof.balance_hash), nonce=balance_proof.nonce, additional_hash=decode_hex(balance_proof.additional_hash), signature=b'\x11' * 65, ) # correct close c2_token_network_proxy.close( channel_identifier=channel_identifier, partner=c1_client.address, balance_hash=decode_hex(balance_proof.balance_hash), nonce=balance_proof.nonce, additional_hash=decode_hex(balance_proof.additional_hash), signature=decode_hex(balance_proof.signature), ) assert c1_token_network_proxy.channel_is_closed( participant1=c1_client.address, participant2=c2_client.address, channel_identifier=channel_identifier, ) is True assert c1_token_network_proxy.channel_exists_and_not_settled( participant1=c1_client.address, participant2=c2_client.address, channel_identifier=channel_identifier, ) is True # closing already closed channel with pytest.raises(RaidenRecoverableError): c2_token_network_proxy.close( channel_identifier=channel_identifier, partner=c1_client.address, balance_hash=decode_hex(balance_proof.balance_hash), nonce=balance_proof.nonce, additional_hash=decode_hex(balance_proof.additional_hash), signature=decode_hex(balance_proof.signature), ) with pytest.raises(RaidenRecoverableError) as exc: c2_token_network_proxy.set_total_deposit( channel_identifier, 20, c1_client.address, ) assert 'not in an open state' in str(exc) with pytest.raises(RaidenRecoverableError) as exc: c2_token_network_proxy.close( channel_identifier=channel_identifier, partner=c1_client.address, balance_hash=decode_hex(balance_proof.balance_hash), nonce=balance_proof.nonce, additional_hash=decode_hex(balance_proof.additional_hash), signature=decode_hex(balance_proof.signature), ) assert 'not in an open state' in str(exc) # update transfer wait_until_block(c1_chain, c1_chain.block_number() + TEST_SETTLE_TIMEOUT_MIN) # try to settle using incorrect data with pytest.raises(RaidenUnrecoverableError): c2_token_network_proxy.settle( channel_identifier=channel_identifier, transferred_amount=1, locked_amount=0, locksroot=EMPTY_HASH, partner=c1_client.address, partner_transferred_amount=transferred_amount, partner_locked_amount=0, partner_locksroot=EMPTY_HASH, ) c2_token_network_proxy.settle( channel_identifier=channel_identifier, transferred_amount=0, locked_amount=0, locksroot=EMPTY_HASH, partner=c1_client.address, partner_transferred_amount=transferred_amount, partner_locked_amount=0, partner_locksroot=EMPTY_HASH, ) assert c1_token_network_proxy.channel_exists_and_not_settled( participant1=c1_client.address, participant2=c2_client.address, channel_identifier=channel_identifier, ) is False assert token_proxy.balance_of(c1_client.address) == (initial_balance_c1 - transferred_amount) assert token_proxy.balance_of(c2_client.address) == (initial_balance_c2 + transferred_amount) with pytest.raises(RaidenUnrecoverableError) as exc: c1_token_network_proxy.set_total_deposit( channel_identifier, 10, c2_client.address, ) # No channel exists assert 'getChannelIdentifier returned 0' in str(exc)
def test_token_network_proxy_update_transfer( token_network_proxy, private_keys, token_proxy, chain_id, web3, contract_manager, ): """Tests channel lifecycle, with `update_transfer` before settling""" token_network_address = to_canonical_address(token_network_proxy.proxy.contract.address) c1_client = JSONRPCClient(web3, private_keys[1]) c1_chain = BlockChainService(private_keys[1], c1_client) c2_client = JSONRPCClient(web3, private_keys[2]) c1_token_network_proxy = TokenNetwork( jsonrpc_client=c1_client, token_network_address=token_network_address, contract_manager=contract_manager, ) c2_token_network_proxy = TokenNetwork( jsonrpc_client=c2_client, token_network_address=token_network_address, contract_manager=contract_manager, ) # create a channel channel_identifier = c1_token_network_proxy.new_netting_channel( c2_client.address, 10, ) # deposit to the channel initial_balance = 100 token_proxy.transfer(c1_client.address, initial_balance) token_proxy.transfer(c2_client.address, initial_balance) initial_balance_c1 = token_proxy.balance_of(c1_client.address) assert initial_balance_c1 == initial_balance initial_balance_c2 = token_proxy.balance_of(c2_client.address) assert initial_balance_c2 == initial_balance c1_token_network_proxy.set_total_deposit( channel_identifier, 10, c2_client.address, ) c2_token_network_proxy.set_total_deposit( channel_identifier, 10, c1_client.address, ) # balance proof signed by c1 transferred_amount_c1 = 1 transferred_amount_c2 = 3 balance_proof_c1 = BalanceProof( channel_identifier=channel_identifier, token_network_address=to_checksum_address(token_network_address), nonce=1, chain_id=chain_id, transferred_amount=transferred_amount_c1, ) balance_proof_c1.signature = encode_hex(eth_sign( privkey=encode_hex(private_keys[1]), data=balance_proof_c1.serialize_bin(), )) # balance proof signed by c2 balance_proof_c2 = BalanceProof( channel_identifier=channel_identifier, token_network_address=to_checksum_address(token_network_address), nonce=2, chain_id=chain_id, transferred_amount=transferred_amount_c2, ) balance_proof_c2.signature = encode_hex(eth_sign( privkey=encode_hex(private_keys[2]), data=balance_proof_c2.serialize_bin(), )) non_closing_data = balance_proof_c1.serialize_bin( msg_type=MessageTypeId.BALANCE_PROOF_UPDATE, ) + decode_hex(balance_proof_c1.signature) non_closing_signature = eth_sign( privkey=encode_hex(c2_client.privkey), data=non_closing_data, ) with pytest.raises(RaidenUnrecoverableError) as exc: c2_token_network_proxy.update_transfer( channel_identifier, c1_client.address, decode_hex(balance_proof_c1.balance_hash), balance_proof_c1.nonce, decode_hex(balance_proof_c1.additional_hash), decode_hex(balance_proof_c1.signature), non_closing_signature, ) assert 'not in a closed state' in str(exc) # close by c1 c1_token_network_proxy.close( channel_identifier=channel_identifier, partner=c2_client.address, balance_hash=decode_hex(balance_proof_c2.balance_hash), nonce=balance_proof_c2.nonce, additional_hash=decode_hex(balance_proof_c2.additional_hash), signature=decode_hex(balance_proof_c2.signature), ) # using invalid non-closing signature # Usual mistake when calling update Transfer - balance proof signature is missing in the data non_closing_data = balance_proof_c1.serialize_bin(msg_type=MessageTypeId.BALANCE_PROOF_UPDATE) non_closing_signature = eth_sign( privkey=encode_hex(c2_client.privkey), data=non_closing_data, ) with pytest.raises(RaidenUnrecoverableError): c2_token_network_proxy.update_transfer( channel_identifier, c1_client.address, decode_hex(balance_proof_c1.balance_hash), balance_proof_c1.nonce, decode_hex(balance_proof_c1.additional_hash), decode_hex(balance_proof_c1.signature), non_closing_signature, ) non_closing_data = balance_proof_c1.serialize_bin( msg_type=MessageTypeId.BALANCE_PROOF_UPDATE, ) + decode_hex(balance_proof_c1.signature) non_closing_signature = eth_sign( privkey=encode_hex(c2_client.privkey), data=non_closing_data, ) c2_token_network_proxy.update_transfer( channel_identifier, c1_client.address, decode_hex(balance_proof_c1.balance_hash), balance_proof_c1.nonce, decode_hex(balance_proof_c1.additional_hash), decode_hex(balance_proof_c1.signature), non_closing_signature, ) with pytest.raises(RaidenUnrecoverableError) as exc: c1_token_network_proxy.settle( channel_identifier=channel_identifier, transferred_amount=transferred_amount_c1, locked_amount=0, locksroot=EMPTY_HASH, partner=c2_client.address, partner_transferred_amount=transferred_amount_c2, partner_locked_amount=0, partner_locksroot=EMPTY_HASH, ) assert 'cannot be settled before settlement window is over' in str(exc) wait_until_block(c1_chain, c1_chain.block_number() + 10) # settling with an invalid amount with pytest.raises(RaidenUnrecoverableError): c1_token_network_proxy.settle( channel_identifier=channel_identifier, transferred_amount=2, locked_amount=0, locksroot=EMPTY_HASH, partner=c2_client.address, partner_transferred_amount=2, partner_locked_amount=0, partner_locksroot=EMPTY_HASH, ) # proper settle c1_token_network_proxy.settle( channel_identifier=channel_identifier, transferred_amount=transferred_amount_c1, locked_amount=0, locksroot=EMPTY_HASH, partner=c2_client.address, partner_transferred_amount=transferred_amount_c2, partner_locked_amount=0, partner_locksroot=EMPTY_HASH, ) assert (token_proxy.balance_of(c2_client.address) == (initial_balance_c2 + transferred_amount_c1 - transferred_amount_c2)) assert (token_proxy.balance_of(c1_client.address) == (initial_balance_c1 + transferred_amount_c2 - transferred_amount_c1)) # Already settled with pytest.raises(RaidenUnrecoverableError) as exc: c2_token_network_proxy.set_total_deposit( channel_identifier, 20, c1_client.address, ) assert 'getChannelIdentifier returned 0' in str(exc)
def test_payment_channel_outdated_channel_close( token_network_proxy, private_keys, chain_id, web3, contract_manager, ): token_network_address = to_canonical_address(token_network_proxy.proxy.contract.address) partner = privatekey_to_address(private_keys[0]) client = JSONRPCClient(web3, private_keys[1]) chain = BlockChainService(private_keys[1], client) token_network_proxy = TokenNetwork( jsonrpc_client=client, token_network_address=token_network_address, contract_manager=contract_manager, ) start_block = web3.eth.blockNumber # create a channel channel_identifier = token_network_proxy.new_netting_channel( partner, TEST_SETTLE_TIMEOUT_MIN, ) assert channel_identifier is not None # create channel proxies channel_proxy_1 = PaymentChannel( token_network=token_network_proxy, channel_identifier=channel_identifier, contract_manager=contract_manager, ) channel_filter = channel_proxy_1.all_events_filter( from_block=start_block, to_block='latest', ) assert channel_proxy_1.channel_identifier == channel_identifier assert channel_proxy_1.opened() is True # balance proof by c1 balance_proof = BalanceProof( channel_identifier=channel_identifier, token_network_address=to_checksum_address(token_network_address), nonce=0, chain_id=chain_id, transferred_amount=0, ) balance_proof.signature = encode_hex(eth_sign( privkey=encode_hex(private_keys[0]), data=balance_proof.serialize_bin(), )) # correct close token_network_proxy.close( channel_identifier=channel_identifier, partner=partner, balance_hash=bytes(32), nonce=balance_proof.nonce, additional_hash=bytes(32), signature=decode_hex(balance_proof.signature), ) assert channel_proxy_1.closed() is True events = channel_filter.get_all_entries() assert len(events) == 2 # ChannelOpened, ChannelClosed # check the settlement timeouts again assert channel_proxy_1.settle_timeout() == TEST_SETTLE_TIMEOUT_MIN # update transfer wait_until_block(chain, client.block_number() + TEST_SETTLE_TIMEOUT_MIN) token_network_proxy.settle( channel_identifier=channel_identifier, transferred_amount=0, locked_amount=0, locksroot=EMPTY_HASH, partner=partner, partner_transferred_amount=0, partner_locked_amount=0, partner_locksroot=EMPTY_HASH, ) assert channel_proxy_1.settled() is True events = channel_filter.get_all_entries() assert len(events) == 3 # ChannelOpened, ChannelClosed, ChannelSettled # Create a new channel with a different identifier # create a channel new_channel_identifier = token_network_proxy.new_netting_channel( partner, TEST_SETTLE_TIMEOUT_MIN, ) assert new_channel_identifier is not None # create channel proxies channel_proxy_2 = PaymentChannel( token_network=token_network_proxy, channel_identifier=new_channel_identifier, contract_manager=contract_manager, ) assert channel_proxy_2.channel_identifier == new_channel_identifier assert channel_proxy_2.opened() is True with pytest.raises(ChannelOutdatedError): token_network_proxy.close( channel_identifier=channel_identifier, partner=partner, balance_hash=bytes(32), nonce=balance_proof.nonce, additional_hash=bytes(32), signature=decode_hex(balance_proof.signature), )
def test_payment_channel_proxy_basics( token_network_proxy, private_keys, token_proxy, chain_id, web3, contract_manager, ): token_network_address = to_canonical_address(token_network_proxy.proxy.contract.address) c1_client = JSONRPCClient(web3, private_keys[1]) c1_chain = BlockChainService(private_keys[1], c1_client) c2_client = JSONRPCClient(web3, private_keys[2]) c1_token_network_proxy = TokenNetwork( jsonrpc_client=c1_client, token_network_address=token_network_address, contract_manager=contract_manager, ) c2_token_network_proxy = TokenNetwork( jsonrpc_client=c2_client, token_network_address=token_network_address, contract_manager=contract_manager, ) start_block = web3.eth.blockNumber # create a channel channel_identifier = c1_token_network_proxy.new_netting_channel( c2_client.address, TEST_SETTLE_TIMEOUT_MIN, ) assert channel_identifier is not None # create channel proxies channel_proxy_1 = PaymentChannel( token_network=c1_token_network_proxy, channel_identifier=channel_identifier, contract_manager=contract_manager, ) channel_proxy_2 = PaymentChannel( token_network=c2_token_network_proxy, channel_identifier=channel_identifier, contract_manager=contract_manager, ) channel_filter = channel_proxy_1.all_events_filter( from_block=start_block, to_block='latest', ) assert channel_proxy_1.channel_identifier == channel_identifier assert channel_proxy_2.channel_identifier == channel_identifier assert channel_proxy_1.opened() is True assert channel_proxy_2.opened() is True # check the settlement timeouts assert channel_proxy_1.settle_timeout() == channel_proxy_2.settle_timeout() assert channel_proxy_1.settle_timeout() == TEST_SETTLE_TIMEOUT_MIN events = channel_filter.get_all_entries() assert len(events) == 1 # ChannelOpened # test deposits initial_token_balance = 100 token_proxy.transfer(c1_client.address, initial_token_balance) initial_balance_c1 = token_proxy.balance_of(c1_client.address) assert initial_balance_c1 == initial_token_balance initial_balance_c2 = token_proxy.balance_of(c2_client.address) assert initial_balance_c2 == 0 # actual deposit channel_proxy_1.set_total_deposit(10) events = channel_filter.get_all_entries() assert len(events) == 2 # ChannelOpened, ChannelNewDeposit # balance proof by c2 transferred_amount = 3 balance_proof = BalanceProof( channel_identifier=channel_identifier, token_network_address=to_checksum_address(token_network_address), nonce=1, chain_id=chain_id, transferred_amount=transferred_amount, ) balance_proof.signature = encode_hex(eth_sign( privkey=encode_hex(private_keys[1]), data=balance_proof.serialize_bin(), )) # correct close c2_token_network_proxy.close( channel_identifier=channel_identifier, partner=c1_client.address, balance_hash=decode_hex(balance_proof.balance_hash), nonce=balance_proof.nonce, additional_hash=decode_hex(balance_proof.additional_hash), signature=decode_hex(balance_proof.signature), ) assert channel_proxy_1.closed() is True assert channel_proxy_2.closed() is True events = channel_filter.get_all_entries() assert len(events) == 3 # ChannelOpened, ChannelNewDeposit, ChannelClosed # check the settlement timeouts again assert channel_proxy_1.settle_timeout() == channel_proxy_2.settle_timeout() assert channel_proxy_1.settle_timeout() == TEST_SETTLE_TIMEOUT_MIN # update transfer wait_until_block(c1_chain, c1_client.block_number() + TEST_SETTLE_TIMEOUT_MIN) c2_token_network_proxy.settle( channel_identifier=channel_identifier, transferred_amount=0, locked_amount=0, locksroot=EMPTY_HASH, partner=c1_client.address, partner_transferred_amount=transferred_amount, partner_locked_amount=0, partner_locksroot=EMPTY_HASH, ) assert channel_proxy_1.settled() is True assert channel_proxy_2.settled() is True events = channel_filter.get_all_entries() assert len(events) == 4 # ChannelOpened, ChannelNewDeposit, ChannelClosed, ChannelSettled
def test_payment_channel_proxy_basics( token_network_proxy, private_keys, blockchain_rpc_ports, token_proxy, chain_id, web3, ): token_network_address = to_canonical_address(token_network_proxy.proxy.contract.address) c1_client = JSONRPCClient( '0.0.0.0', blockchain_rpc_ports[0], private_keys[1], web3=web3, ) c2_client = JSONRPCClient( '0.0.0.0', blockchain_rpc_ports[0], private_keys[2], web3=web3, ) c1_token_network_proxy = TokenNetwork( c1_client, token_network_address, ) c2_token_network_proxy = TokenNetwork( c2_client, token_network_address, ) # create a channel channel_identifier = c1_token_network_proxy.new_netting_channel( c2_client.sender, TEST_SETTLE_TIMEOUT_MIN, ) assert channel_identifier is not None # create channel proxies channel_proxy_1 = PaymentChannel(c1_token_network_proxy, channel_identifier) channel_proxy_2 = PaymentChannel(c2_token_network_proxy, channel_identifier) channel_filter, unlock_filter = channel_proxy_1.all_events_filter( from_block=web3.eth.blockNumber, to_block='latest', ) assert channel_proxy_1.channel_identifier == channel_identifier assert channel_proxy_2.channel_identifier == channel_identifier assert channel_proxy_1.opened() is True assert channel_proxy_2.opened() is True # check the settlement timeouts assert channel_proxy_1.settle_timeout() == channel_proxy_2.settle_timeout() assert channel_proxy_1.settle_timeout() == TEST_SETTLE_TIMEOUT_MIN events = channel_filter.get_all_entries() assert len(events) == 1 # ChannelOpened # test deposits initial_token_balance = 100 token_proxy.transfer(c1_client.sender, initial_token_balance) initial_balance_c1 = token_proxy.balance_of(c1_client.sender) assert initial_balance_c1 == initial_token_balance initial_balance_c2 = token_proxy.balance_of(c2_client.sender) assert initial_balance_c2 == 0 # actual deposit channel_proxy_1.set_total_deposit(10) events = channel_filter.get_all_entries() assert len(events) == 2 # ChannelOpened, ChannelNewDeposit # balance proof by c2 transferred_amount = 3 balance_proof = BalanceProof( channel_identifier=encode_hex(channel_identifier), token_network_address=to_checksum_address(token_network_address), nonce=1, chain_id=chain_id, transferred_amount=transferred_amount, ) balance_proof.signature = encode_hex( sign_data(encode_hex(private_keys[1]), balance_proof.serialize_bin()), ) # correct close c2_token_network_proxy.close( c1_client.sender, balance_proof.nonce, decode_hex(balance_proof.balance_hash), decode_hex(balance_proof.additional_hash), decode_hex(balance_proof.signature), ) assert channel_proxy_1.closed() is True assert channel_proxy_2.closed() is True events = channel_filter.get_all_entries() assert len(events) == 3 # ChannelOpened, ChannelNewDeposit, ChannelClosed # check the settlement timeouts again assert channel_proxy_1.settle_timeout() == channel_proxy_2.settle_timeout() assert channel_proxy_1.settle_timeout() == TEST_SETTLE_TIMEOUT_MIN # update transfer wait_blocks(c1_client.web3, TEST_SETTLE_TIMEOUT_MIN) c2_token_network_proxy.settle( 0, 0, EMPTY_HASH, c1_client.sender, transferred_amount, 0, EMPTY_HASH, ) assert channel_proxy_1.settled() is True assert channel_proxy_2.settled() is True events = channel_filter.get_all_entries() assert len(events) == 4 # ChannelOpened, ChannelNewDeposit, ChannelClosed, ChannelSettled
def test_node_can_settle_if_close_didnt_use_any_balance_proof( raiden_network, number_of_nodes, deposit, token_addresses, network_wait, ): """ A node must be able to settle a channel, even if the partner used an old balance proof to close it. This test will: - Make a transfer from app0 to app1, to make sure there are balance proofs available - Call close manually in behalf of app1, without any balance proof data - Assert that app0 can settle the closed channel, even though app1 didn't use the latest balance proof """ app0, app1 = raiden_network token_address = token_addresses[0] chain_state = views.state_from_app(app0) payment_network_id = app0.raiden.default_registry.address registry_address = app0.raiden.default_registry.address token_network_identifier = views.get_token_network_identifier_by_token_address( chain_state=chain_state, payment_network_id=payment_network_id, token_address=token_address, ) channel_identifier = get_channelstate(app0, app1, token_network_identifier).identifier # make a transfer from app0 to app1 so that app1 is supposed to have a non # empty balance hash mediated_transfer( initiator_app=app0, target_app=app1, token_network_identifier=token_network_identifier, amount=1, timeout=network_wait * number_of_nodes, ) # stop app1 - the test uses token_network_contract now app1.stop() token_network_contract = TokenNetwork( jsonrpc_client=app1.raiden.chain.client, token_network_address=token_network_identifier, contract_manager=app1.raiden.contract_manager, ) # app1 closes the channel with an empty hash instead of the expected hash # of the transferred amount from app0 token_network_contract.close( channel_identifier=channel_identifier, partner=app0.raiden.address, balance_hash=EMPTY_HASH, nonce=0, additional_hash=EMPTY_HASH, signature=EMPTY_SIGNATURE, ) waiting.wait_for_close( raiden=app0.raiden, payment_network_id=registry_address, token_address=token_address, channel_ids=[channel_identifier], retry_timeout=app0.raiden.alarm.sleep_time, ) waiting.wait_for_settle( raiden=app0.raiden, payment_network_id=registry_address, token_address=token_address, channel_ids=[channel_identifier], retry_timeout=app0.raiden.alarm.sleep_time, ) state_changes = app0.raiden.wal.storage.get_statechanges_by_identifier( from_identifier=0, to_identifier='latest', ) assert must_contain_entry(state_changes, ContractReceiveChannelSettled, { 'token_network_identifier': token_network_identifier, 'channel_identifier': channel_identifier, })
def test_token_network_proxy_basics( token_network_proxy, private_keys, token_proxy, chain_id, web3, contract_manager, ): # check settlement timeouts assert token_network_proxy.settlement_timeout_min( ) == TEST_SETTLE_TIMEOUT_MIN assert token_network_proxy.settlement_timeout_max( ) == TEST_SETTLE_TIMEOUT_MAX token_network_address = to_canonical_address( token_network_proxy.proxy.contract.address) c1_client = JSONRPCClient(web3, private_keys[1]) c2_client = JSONRPCClient(web3, private_keys[2]) c1_token_network_proxy = TokenNetwork( jsonrpc_client=c1_client, token_network_address=token_network_address, contract_manager=contract_manager, ) c2_token_network_proxy = TokenNetwork( jsonrpc_client=c2_client, token_network_address=token_network_address, contract_manager=contract_manager, ) initial_token_balance = 100 token_proxy.transfer(c1_client.address, initial_token_balance) token_proxy.transfer(c2_client.address, initial_token_balance) initial_balance_c1 = token_proxy.balance_of(c1_client.address) assert initial_balance_c1 == initial_token_balance initial_balance_c2 = token_proxy.balance_of(c2_client.address) assert initial_balance_c2 == initial_token_balance # instantiating a new channel - test basic assumptions assert c1_token_network_proxy.channel_exists_and_not_settled( c1_client.address, c2_client.address, ) is False assert c1_token_network_proxy.channel_is_opened(c1_client.address, c2_client.address) is False assert c1_token_network_proxy.channel_is_closed(c1_client.address, c2_client.address) is False # test timeout limits with pytest.raises(InvalidSettleTimeout): c1_token_network_proxy.new_netting_channel( c2_client.address, TEST_SETTLE_TIMEOUT_MIN - 1, ) with pytest.raises(InvalidSettleTimeout): c1_token_network_proxy.new_netting_channel( c2_client.address, TEST_SETTLE_TIMEOUT_MAX + 1, ) # channel to self with pytest.raises(SamePeerAddress): c1_token_network_proxy.new_netting_channel( c1_client.address, TEST_SETTLE_TIMEOUT_MIN, ) # Channel is not open yet with pytest.raises(RaidenUnrecoverableError) as exc: c1_token_network_proxy.set_total_deposit( 1, 1, c2_client.address, ) assert 'does not exist' in str(exc) # Channel is not open yet with pytest.raises(RaidenUnrecoverableError) as exc: c1_token_network_proxy.close( 1, c2_client.address, EMPTY_HASH, 0, EMPTY_HASH, EMPTY_HASH, ) assert 'does not exist' in str(exc) # actually create a channel channel_identifier = c1_token_network_proxy.new_netting_channel( c2_client.address, TEST_SETTLE_TIMEOUT_MIN, ) assert channel_identifier is not None # multiple channels with the same peer are not allowed with pytest.raises(DuplicatedChannelError): c1_token_network_proxy.new_netting_channel( c2_client.address, TEST_SETTLE_TIMEOUT_MIN, ) assert c1_token_network_proxy.channel_exists_and_not_settled( participant1=c1_client.address, participant2=c2_client.address, channel_identifier=channel_identifier, ) is True assert c1_token_network_proxy.channel_is_opened( participant1=c1_client.address, participant2=c2_client.address, channel_identifier=channel_identifier, ) is True # channel is open. # deposit with no balance with pytest.raises(DepositMismatch): c1_token_network_proxy.set_total_deposit( channel_identifier, 101, c2_client.address, ) # no negative deposit with pytest.raises(DepositMismatch): c1_token_network_proxy.set_total_deposit( channel_identifier, -1, c2_client.address, ) # actual deposit c1_token_network_proxy.set_total_deposit( channel_identifier, 10, c2_client.address, ) # balance proof by c2 transferred_amount = 3 balance_proof = BalanceProof( channel_identifier=channel_identifier, token_network_address=to_checksum_address(token_network_address), nonce=1, chain_id=chain_id, transferred_amount=transferred_amount, ) balance_proof.signature = encode_hex( eth_sign( privkey=encode_hex(private_keys[1]), data=balance_proof.serialize_bin(), )) # close with invalid signature with pytest.raises(TransactionThrew): c2_token_network_proxy.close( channel_identifier=channel_identifier, partner=c1_client.address, balance_hash=decode_hex(balance_proof.balance_hash), nonce=balance_proof.nonce, additional_hash=decode_hex(balance_proof.additional_hash), signature=b'\x11' * 65, ) # correct close c2_token_network_proxy.close( channel_identifier=channel_identifier, partner=c1_client.address, balance_hash=decode_hex(balance_proof.balance_hash), nonce=balance_proof.nonce, additional_hash=decode_hex(balance_proof.additional_hash), signature=decode_hex(balance_proof.signature), ) assert c1_token_network_proxy.channel_is_closed( participant1=c1_client.address, participant2=c2_client.address, channel_identifier=channel_identifier, ) is True assert c1_token_network_proxy.channel_exists_and_not_settled( participant1=c1_client.address, participant2=c2_client.address, channel_identifier=channel_identifier, ) is True # closing already closed channel with pytest.raises(RaidenRecoverableError): c2_token_network_proxy.close( channel_identifier=channel_identifier, partner=c1_client.address, balance_hash=decode_hex(balance_proof.balance_hash), nonce=balance_proof.nonce, additional_hash=decode_hex(balance_proof.additional_hash), signature=decode_hex(balance_proof.signature), ) with pytest.raises(RaidenRecoverableError) as exc: c2_token_network_proxy.set_total_deposit( channel_identifier, 20, c1_client.address, ) assert 'not in an open state' in str(exc) with pytest.raises(RaidenRecoverableError) as exc: c2_token_network_proxy.close( channel_identifier=channel_identifier, partner=c1_client.address, balance_hash=decode_hex(balance_proof.balance_hash), nonce=balance_proof.nonce, additional_hash=decode_hex(balance_proof.additional_hash), signature=decode_hex(balance_proof.signature), ) assert 'not in an open state' in str(exc) # update transfer wait_blocks(c1_client.web3, TEST_SETTLE_TIMEOUT_MIN) # try to settle using incorrect data with pytest.raises(RaidenUnrecoverableError): c2_token_network_proxy.settle( channel_identifier=channel_identifier, transferred_amount=1, locked_amount=0, locksroot=EMPTY_HASH, partner=c1_client.address, partner_transferred_amount=transferred_amount, partner_locked_amount=0, partner_locksroot=EMPTY_HASH, ) c2_token_network_proxy.settle( channel_identifier=channel_identifier, transferred_amount=0, locked_amount=0, locksroot=EMPTY_HASH, partner=c1_client.address, partner_transferred_amount=transferred_amount, partner_locked_amount=0, partner_locksroot=EMPTY_HASH, ) assert c1_token_network_proxy.channel_exists_and_not_settled( participant1=c1_client.address, participant2=c2_client.address, channel_identifier=channel_identifier, ) is False assert token_proxy.balance_of(c1_client.address) == (initial_balance_c1 - transferred_amount) assert token_proxy.balance_of(c2_client.address) == (initial_balance_c2 + transferred_amount) with pytest.raises(RaidenUnrecoverableError) as exc: c1_token_network_proxy.set_total_deposit( channel_identifier, 10, c2_client.address, ) # No channel exists assert 'getChannelIdentifier returned 0' in str(exc)
def test_token_network_proxy_update_transfer( token_network_proxy, private_keys, token_proxy, chain_id, web3, contract_manager, ): """Tests channel lifecycle, with `update_transfer` before settling""" token_network_address = to_canonical_address( token_network_proxy.proxy.contract.address) c1_client = JSONRPCClient(web3, private_keys[1]) c2_client = JSONRPCClient(web3, private_keys[2]) c1_token_network_proxy = TokenNetwork( jsonrpc_client=c1_client, token_network_address=token_network_address, contract_manager=contract_manager, ) c2_token_network_proxy = TokenNetwork( jsonrpc_client=c2_client, token_network_address=token_network_address, contract_manager=contract_manager, ) # create a channel channel_identifier = c1_token_network_proxy.new_netting_channel( c2_client.address, 10, ) # deposit to the channel initial_balance = 100 token_proxy.transfer(c1_client.address, initial_balance) token_proxy.transfer(c2_client.address, initial_balance) initial_balance_c1 = token_proxy.balance_of(c1_client.address) assert initial_balance_c1 == initial_balance initial_balance_c2 = token_proxy.balance_of(c2_client.address) assert initial_balance_c2 == initial_balance c1_token_network_proxy.set_total_deposit( channel_identifier, 10, c2_client.address, ) c2_token_network_proxy.set_total_deposit( channel_identifier, 10, c1_client.address, ) # balance proof signed by c1 transferred_amount_c1 = 1 transferred_amount_c2 = 3 balance_proof_c1 = BalanceProof( channel_identifier=channel_identifier, token_network_address=to_checksum_address(token_network_address), nonce=1, chain_id=chain_id, transferred_amount=transferred_amount_c1, ) balance_proof_c1.signature = encode_hex( eth_sign( privkey=encode_hex(private_keys[1]), data=balance_proof_c1.serialize_bin(), )) # balance proof signed by c2 balance_proof_c2 = BalanceProof( channel_identifier=channel_identifier, token_network_address=to_checksum_address(token_network_address), nonce=2, chain_id=chain_id, transferred_amount=transferred_amount_c2, ) balance_proof_c2.signature = encode_hex( eth_sign( privkey=encode_hex(private_keys[2]), data=balance_proof_c2.serialize_bin(), )) non_closing_data = balance_proof_c1.serialize_bin( msg_type=MessageTypeId.BALANCE_PROOF_UPDATE, ) + decode_hex( balance_proof_c1.signature) non_closing_signature = eth_sign( privkey=encode_hex(c2_client.privkey), data=non_closing_data, ) with pytest.raises(RaidenUnrecoverableError) as exc: c2_token_network_proxy.update_transfer( channel_identifier, c1_client.address, decode_hex(balance_proof_c1.balance_hash), balance_proof_c1.nonce, decode_hex(balance_proof_c1.additional_hash), decode_hex(balance_proof_c1.signature), non_closing_signature, ) assert 'not in a closed state' in str(exc) # close by c1 c1_token_network_proxy.close( channel_identifier=channel_identifier, partner=c2_client.address, balance_hash=decode_hex(balance_proof_c2.balance_hash), nonce=balance_proof_c2.nonce, additional_hash=decode_hex(balance_proof_c2.additional_hash), signature=decode_hex(balance_proof_c2.signature), ) # using invalid non-closing signature # Usual mistake when calling update Transfer - balance proof signature is missing in the data non_closing_data = balance_proof_c1.serialize_bin( msg_type=MessageTypeId.BALANCE_PROOF_UPDATE) non_closing_signature = eth_sign( privkey=encode_hex(c2_client.privkey), data=non_closing_data, ) with pytest.raises(TransactionThrew): c2_token_network_proxy.update_transfer( channel_identifier, c1_client.address, decode_hex(balance_proof_c1.balance_hash), balance_proof_c1.nonce, decode_hex(balance_proof_c1.additional_hash), decode_hex(balance_proof_c1.signature), non_closing_signature, ) non_closing_data = balance_proof_c1.serialize_bin( msg_type=MessageTypeId.BALANCE_PROOF_UPDATE, ) + decode_hex( balance_proof_c1.signature) non_closing_signature = eth_sign( privkey=encode_hex(c2_client.privkey), data=non_closing_data, ) c2_token_network_proxy.update_transfer( channel_identifier, c1_client.address, decode_hex(balance_proof_c1.balance_hash), balance_proof_c1.nonce, decode_hex(balance_proof_c1.additional_hash), decode_hex(balance_proof_c1.signature), non_closing_signature, ) with pytest.raises(RaidenUnrecoverableError) as exc: c1_token_network_proxy.settle( channel_identifier=channel_identifier, transferred_amount=transferred_amount_c1, locked_amount=0, locksroot=EMPTY_HASH, partner=c2_client.address, partner_transferred_amount=transferred_amount_c2, partner_locked_amount=0, partner_locksroot=EMPTY_HASH, ) assert 'cannot be settled before settlement window is over' in str(exc) wait_blocks(c1_client.web3, 10) # settling with an invalid amount with pytest.raises(RaidenUnrecoverableError): c1_token_network_proxy.settle( channel_identifier=channel_identifier, transferred_amount=2, locked_amount=0, locksroot=EMPTY_HASH, partner=c2_client.address, partner_transferred_amount=2, partner_locked_amount=0, partner_locksroot=EMPTY_HASH, ) # proper settle c1_token_network_proxy.settle( channel_identifier=channel_identifier, transferred_amount=transferred_amount_c1, locked_amount=0, locksroot=EMPTY_HASH, partner=c2_client.address, partner_transferred_amount=transferred_amount_c2, partner_locked_amount=0, partner_locksroot=EMPTY_HASH, ) assert (token_proxy.balance_of( c2_client.address) == (initial_balance_c2 + transferred_amount_c1 - transferred_amount_c2)) assert (token_proxy.balance_of( c1_client.address) == (initial_balance_c1 + transferred_amount_c2 - transferred_amount_c1)) # Already settled with pytest.raises(RaidenUnrecoverableError) as exc: c2_token_network_proxy.set_total_deposit( channel_identifier, 20, c1_client.address, ) assert 'getChannelIdentifier returned 0' in str(exc)
def test_token_network_proxy_basics( token_network_proxy, private_keys, blockchain_rpc_ports, token_proxy, chain_id, web3, ): token_network_address = to_canonical_address( token_network_proxy.proxy.contract.address) c1_client = JSONRPCClient( '0.0.0.0', blockchain_rpc_ports[0], private_keys[1], web3=web3, ) c2_client = JSONRPCClient( '0.0.0.0', blockchain_rpc_ports[0], private_keys[2], web3=web3, ) c1_token_network_proxy = TokenNetwork( c1_client, token_network_address, ) c2_token_network_proxy = TokenNetwork( c2_client, token_network_address, ) # instantiating a new channel - test basic assumptions assert c1_token_network_proxy.channel_exists(c2_client.sender) is False assert c1_token_network_proxy.channel_is_opened(c2_client.sender) is False assert c1_token_network_proxy.channel_is_closed(c2_client.sender) is False # test timeout limits with pytest.raises(InvalidSettleTimeout): c1_token_network_proxy.new_netting_channel( c2_client.sender, NETTINGCHANNEL_SETTLE_TIMEOUT_MIN - 1, ) with pytest.raises(InvalidSettleTimeout): c1_token_network_proxy.new_netting_channel( c2_client.sender, NETTINGCHANNEL_SETTLE_TIMEOUT_MAX + 1, ) # channel to self with pytest.raises(SamePeerAddress): c1_token_network_proxy.new_netting_channel( c1_client.sender, NETTINGCHANNEL_SETTLE_TIMEOUT_MIN, ) # actually create a channel channel_identifier = c1_token_network_proxy.new_netting_channel( c2_client.sender, NETTINGCHANNEL_SETTLE_TIMEOUT_MIN, ) assert channel_identifier is not None # multiple channels with the same peer are not allowed with pytest.raises(DuplicatedChannelError): c1_token_network_proxy.new_netting_channel( c2_client.sender, NETTINGCHANNEL_SETTLE_TIMEOUT_MIN, ) assert c1_token_network_proxy.channel_exists(c2_client.sender) is True assert c1_token_network_proxy.channel_is_opened(c2_client.sender) is True # channel is open. # deposit with no balance with pytest.raises(ValueError): c1_token_network_proxy.deposit( 10, c2_client.sender, ) # test deposits initial_token_balance = 100 token_proxy.transfer(c1_client.sender, initial_token_balance) initial_balance_c1 = token_proxy.balance_of(c1_client.sender) assert initial_balance_c1 == initial_token_balance initial_balance_c2 = token_proxy.balance_of(c2_client.sender) assert initial_balance_c2 == 0 # no negative deposit with pytest.raises(ValueError): c1_token_network_proxy.deposit( -1, c2_client.sender, ) # actual deposit c1_token_network_proxy.deposit( 10, c2_client.sender, ) # balance proof by c2 transferred_amount = 3 balance_proof = BalanceProof( channel_identifier=encode_hex(channel_identifier), token_network_address=to_checksum_address(token_network_address), nonce=1, chain_id=chain_id, transferred_amount=transferred_amount, ) balance_proof.signature = encode_hex( sign_data(encode_hex(private_keys[1]), balance_proof.serialize_bin()), ) # close with invalid signature with pytest.raises(TransactionThrew): c2_token_network_proxy.close( c1_client.sender, balance_proof.nonce, decode_hex(balance_proof.balance_hash), decode_hex(balance_proof.additional_hash), b'\x11' * 65, ) # correct close c2_token_network_proxy.close( c1_client.sender, balance_proof.nonce, decode_hex(balance_proof.balance_hash), decode_hex(balance_proof.additional_hash), decode_hex(balance_proof.signature), ) assert c1_token_network_proxy.channel_is_closed(c2_client.sender) is True assert c1_token_network_proxy.channel_exists(c2_client.sender) is True # closing already closed channel with pytest.raises(ChannelIncorrectStateError): c2_token_network_proxy.close( c1_client.sender, balance_proof.nonce, decode_hex(balance_proof.balance_hash), decode_hex(balance_proof.additional_hash), decode_hex(balance_proof.signature), ) # update transfer wait_blocks(c1_client.web3, NETTINGCHANNEL_SETTLE_TIMEOUT_MIN) c2_token_network_proxy.settle( 0, 0, EMPTY_HASH, c1_client.sender, transferred_amount, 0, EMPTY_HASH, ) assert c1_token_network_proxy.channel_exists(c2_client.sender) is False assert token_proxy.balance_of(c1_client.sender) == (initial_balance_c1 - transferred_amount) assert token_proxy.balance_of(c2_client.sender) == (initial_balance_c2 + transferred_amount)
def test_token_network_proxy_update_transfer( token_network_proxy, private_keys, blockchain_rpc_ports, token_proxy, chain_id, web3, ): """Tests channel lifecycle, with `update_transfer` before settling""" token_network_address = to_canonical_address( token_network_proxy.proxy.contract.address) c1_client = JSONRPCClient( '0.0.0.0', blockchain_rpc_ports[0], private_keys[1], web3=web3, ) c2_client = JSONRPCClient( '0.0.0.0', blockchain_rpc_ports[0], private_keys[2], web3=web3, ) c1_token_network_proxy = TokenNetwork( c1_client, token_network_address, ) c2_token_network_proxy = TokenNetwork( c2_client, token_network_address, ) # create a channel channel_identifier = c1_token_network_proxy.new_netting_channel( c2_client.sender, NETTINGCHANNEL_SETTLE_TIMEOUT_MIN, ) # deposit to the channel initial_balance = 100 token_proxy.transfer(c1_client.sender, initial_balance) token_proxy.transfer(c2_client.sender, initial_balance) initial_balance_c1 = token_proxy.balance_of(c1_client.sender) assert initial_balance_c1 == initial_balance initial_balance_c2 = token_proxy.balance_of(c2_client.sender) assert initial_balance_c2 == initial_balance c1_token_network_proxy.deposit( 10, c2_client.sender, ) c2_token_network_proxy.deposit( 10, c1_client.sender, ) # balance proof signed by c1 transferred_amount_c1 = 1 transferred_amount_c2 = 3 balance_proof_c1 = BalanceProof( channel_identifier=encode_hex(channel_identifier), token_network_address=to_checksum_address(token_network_address), nonce=1, chain_id=chain_id, transferred_amount=transferred_amount_c1, ) balance_proof_c1.signature = encode_hex( sign_data(encode_hex(private_keys[1]), balance_proof_c1.serialize_bin()), ) # balance proof signed by c2 balance_proof_c2 = BalanceProof( channel_identifier=encode_hex(channel_identifier), token_network_address=to_checksum_address(token_network_address), nonce=2, chain_id=chain_id, transferred_amount=transferred_amount_c2, ) balance_proof_c2.signature = encode_hex( sign_data(encode_hex(private_keys[2]), balance_proof_c2.serialize_bin()), ) # close by c1 c1_token_network_proxy.close( c2_client.sender, balance_proof_c2.nonce, decode_hex(balance_proof_c2.balance_hash), decode_hex(balance_proof_c2.additional_hash), decode_hex(balance_proof_c2.signature), ) # using invalid non-closing signature # Usual mistake when calling update Transfer - balance proof signature is missing in the data non_closing_data = balance_proof_c1.serialize_bin() non_closing_signature = sign_data( encode_hex(c2_client.privkey), non_closing_data, ) with pytest.raises(TransactionThrew): c2_token_network_proxy.update_transfer( c1_client.sender, balance_proof_c1.nonce, decode_hex(balance_proof_c1.balance_hash), decode_hex(balance_proof_c1.additional_hash), decode_hex(balance_proof_c1.signature), non_closing_signature, ) non_closing_data = balance_proof_c1.serialize_bin() + decode_hex( balance_proof_c1.signature) non_closing_signature = sign_data( encode_hex(c2_client.privkey), non_closing_data, ) c2_token_network_proxy.update_transfer( c1_client.sender, balance_proof_c1.nonce, decode_hex(balance_proof_c1.balance_hash), decode_hex(balance_proof_c1.additional_hash), decode_hex(balance_proof_c1.signature), non_closing_signature, ) wait_blocks(c1_client.web3, NETTINGCHANNEL_SETTLE_TIMEOUT_MIN) # settling with an invalid amount with pytest.raises(TransactionThrew): c1_token_network_proxy.settle( 2, 0, EMPTY_HASH, c2_client.sender, 2, 0, EMPTY_HASH, ) # proper settle c1_token_network_proxy.settle( transferred_amount_c1, 0, EMPTY_HASH, c2_client.sender, transferred_amount_c2, 0, EMPTY_HASH, ) assert (token_proxy.balance_of( c2_client.sender) == (initial_balance_c2 + transferred_amount_c1 - transferred_amount_c2)) assert (token_proxy.balance_of( c1_client.sender) == (initial_balance_c1 + transferred_amount_c2 - transferred_amount_c1))
def test_node_can_settle_if_close_didnt_use_any_balance_proof( raiden_network, number_of_nodes, deposit, token_addresses, network_wait, ): """ A node must be able to settle a channel, even if the partner used an old balance proof to close it. This test will: - Make a transfer from app0 to app1, to make sure there are balance proofs available - Call close manually in behalf of app1, without any balance proof data - Assert that app0 can settle the closed channel, even though app1 didn't use the latest balance proof """ app0, app1 = raiden_network token_address = token_addresses[0] chain_state = views.state_from_app(app0) payment_network_id = app0.raiden.default_registry.address registry_address = app0.raiden.default_registry.address token_network_identifier = views.get_token_network_identifier_by_token_address( chain_state=chain_state, payment_network_id=payment_network_id, token_address=token_address, ) channel_identifier = get_channelstate(app0, app1, token_network_identifier).identifier # make a transfer from app0 to app1 so that app1 is supposed to have a non # empty balance hash mediated_transfer( initiator_app=app0, target_app=app1, token_network_identifier=token_network_identifier, amount=1, timeout=network_wait * number_of_nodes, ) # stop app1 - the test uses token_network_contract now app1.stop() token_network_contract = TokenNetwork( jsonrpc_client=app1.raiden.chain.client, token_network_address=token_network_identifier, contract_manager=app1.raiden.contract_manager, ) # app1 closes the channel with an empty hash instead of the expected hash # of the transferred amount from app0 token_network_contract.close( channel_identifier=channel_identifier, partner=app0.raiden.address, balance_hash=EMPTY_HASH, nonce=0, additional_hash=EMPTY_HASH, signature=EMPTY_SIGNATURE, ) waiting.wait_for_close( raiden=app0.raiden, payment_network_id=registry_address, token_address=token_address, channel_ids=[channel_identifier], retry_timeout=app0.raiden.alarm.sleep_time, ) waiting.wait_for_settle( raiden=app0.raiden, payment_network_id=registry_address, token_address=token_address, channel_ids=[channel_identifier], retry_timeout=app0.raiden.alarm.sleep_time, ) state_changes = app0.raiden.wal.storage.get_statechanges_by_identifier( from_identifier=0, to_identifier='latest', ) assert must_contain_entry( state_changes, ContractReceiveChannelSettled, { 'token_network_identifier': token_network_identifier, 'channel_identifier': channel_identifier, })