def test_different_view_of_last_bp_during_unlock( raiden_chain, number_of_nodes, token_addresses, deposit, network_wait, retry_timeout, # UDP does not seem to retry messages until processed # https://github.com/raiden-network/raiden/issues/3185 skip_if_not_matrix, ): """Test for https://github.com/raiden-network/raiden/issues/3196#issuecomment-449163888""" # Topology: # # 0 -> 1 -> 2 # app0, app1, app2 = raiden_chain token_address = token_addresses[0] payment_network_identifier = app0.raiden.default_registry.address token_network_identifier = views.get_token_network_identifier_by_token_address( views.state_from_app(app0), payment_network_identifier, token_address, ) token_proxy = app0.raiden.chain.token(token_address) initial_balance0 = token_proxy.balance_of(app0.raiden.address) initial_balance1 = token_proxy.balance_of(app1.raiden.address) # make a transfer to test the path app0 -> app1 -> app2 identifier_path = 1 amount_path = 1 mediated_transfer( app0, app2, token_network_identifier, amount_path, identifier_path, timeout=network_wait * number_of_nodes, ) # drain the channel app1 -> app2 identifier_drain = 2 amount_drain = deposit * 8 // 10 mediated_transfer( initiator_app=app1, target_app=app2, token_network_identifier=token_network_identifier, amount=amount_drain, identifier=identifier_drain, timeout=network_wait, ) # wait for the nodes to sync gevent.sleep(0.2) assert_synced_channel_state( token_network_identifier, app0, deposit - amount_path, [], app1, deposit + amount_path, [], ) assert_synced_channel_state( token_network_identifier, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], ) # app0 -> app1 -> app2 is the only available path, but the channel app1 -> # app2 doesn't have capacity, so a refund will be sent on app1 -> app0 identifier_refund = 3 amount_refund = 50 async_result = app0.raiden.mediated_transfer_async( token_network_identifier, amount_refund, app2.raiden.address, identifier_refund, ) assert async_result.wait( ) is False, 'there is no path with capacity, the transfer must fail' gevent.sleep(0.2) # A lock structure with the correct amount send_locked = raiden_events_search_for_item( app0.raiden, SendLockedTransfer, {'transfer': { 'lock': { 'amount': amount_refund } }}, ) assert send_locked secrethash = send_locked.transfer.lock.secrethash send_refund = raiden_events_search_for_item(app1.raiden, SendRefundTransfer, {}) assert send_refund lock = send_locked.transfer.lock refund_lock = send_refund.transfer.lock assert lock.amount == refund_lock.amount assert lock.secrethash assert lock.expiration assert lock.secrethash == refund_lock.secrethash # Both channels have the amount locked because of the refund message assert_synced_channel_state( token_network_identifier, app0, deposit - amount_path, [lockstate_from_lock(lock)], app1, deposit + amount_path, [lockstate_from_lock(refund_lock)], ) assert_synced_channel_state( token_network_identifier, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], ) # Additional checks for LockExpired causing nonce mismatch after refund transfer: # https://github.com/raiden-network/raiden/issues/3146#issuecomment-447378046 # At this point make sure that the initiator has not deleted the payment task assert secrethash in state_from_raiden( app0.raiden).payment_mapping.secrethashes_to_task with dont_handle_node_change_network_state(): # now app1 goes offline app1.raiden.stop() app1.raiden.get() assert not app1.raiden # Wait for lock expiration so that app0 sends a LockExpired wait_for_block( raiden=app0.raiden, block_number=channel.get_sender_expiration_threshold(lock) + 1, retry_timeout=retry_timeout, ) # make sure that app0 sent a lock expired message for the secrethash wait_for_raiden_event( app0.raiden, SendLockExpired, {'secrethash': secrethash}, retry_timeout, ) # now app0 closes the channel RaidenAPI(app0.raiden).channel_close( registry_address=payment_network_identifier, token_address=token_address, partner_address=app1.raiden.address, ) count = 0 original_update = app1.raiden.raiden_event_handler.handle_contract_send_channelupdate def patched_update(raiden, event): nonlocal count count += 1 original_update(raiden, event) app1.raiden.raiden_event_handler.handle_contract_send_channelupdate = patched_update # and now app1 comes back online app1.raiden.start() # test for https://github.com/raiden-network/raiden/issues/3216 assert count == 1, 'Update transfer should have only been called once during restart' channel_identifier = get_channelstate(app0, app1, token_network_identifier).identifier # and we wait for settlement wait_for_settle( raiden=app0.raiden, payment_network_id=payment_network_identifier, token_address=token_address, channel_ids=[channel_identifier], retry_timeout=app0.raiden.alarm.sleep_time, ) with gevent.Timeout(10): unlock_app0 = wait_for_state_change( app0.raiden, ContractReceiveChannelBatchUnlock, {'participant': app0.raiden.address}, retry_timeout, ) assert unlock_app0.returned_tokens == 50 with gevent.Timeout(10): unlock_app1 = wait_for_state_change( app1.raiden, ContractReceiveChannelBatchUnlock, {'participant': app1.raiden.address}, retry_timeout, ) assert unlock_app1.returned_tokens == 50 final_balance0 = token_proxy.balance_of(app0.raiden.address) final_balance1 = token_proxy.balance_of(app1.raiden.address) assert final_balance0 - deposit - initial_balance0 == -1 assert final_balance1 - deposit - initial_balance1 == 1
def test_refund_transfer_after_2nd_hop( raiden_chain, number_of_nodes, token_addresses, deposit, network_wait, ): """Test the refund transfer sent due to failure after 2nd hop""" # Topology: # # 0 -> 1 -> 2 -> 3 # app0, app1, app2, app3 = raiden_chain token_address = token_addresses[0] payment_network_identifier = app0.raiden.default_registry.address token_network_identifier = views.get_token_network_identifier_by_token_address( views.state_from_app(app0), payment_network_identifier, token_address, ) # make a transfer to test the path app0 -> app1 -> app2 -> app3 identifier_path = 1 amount_path = 1 mediated_transfer( initiator_app=app0, target_app=app3, token_network_identifier=token_network_identifier, amount=amount_path, identifier=identifier_path, timeout=network_wait * number_of_nodes, ) # drain the channel app2 -> app3 identifier_drain = 2 amount_drain = deposit * 8 // 10 mediated_transfer( initiator_app=app2, target_app=app3, token_network_identifier=token_network_identifier, amount=amount_drain, identifier=identifier_drain, timeout=network_wait, ) # wait for the nodes to sync gevent.sleep(0.2) assert_synced_channel_state( token_network_identifier, app0, deposit - amount_path, [], app1, deposit + amount_path, [], ) assert_synced_channel_state( token_network_identifier, app1, deposit - amount_path, [], app2, deposit + amount_path, [], ) assert_synced_channel_state( token_network_identifier, app2, deposit - amount_path - amount_drain, [], app3, deposit + amount_path + amount_drain, [], ) # app0 -> app1 -> app2 > app3 is the only available path, but the channel # app2 -> app3 doesn't have capacity, so a refund will be sent on # app2 -> app1 -> app0 identifier_refund = 3 amount_refund = 50 async_result = app0.raiden.mediated_transfer_async( token_network_identifier, amount_refund, app3.raiden.address, identifier_refund, ) assert async_result.wait( ) is False, 'there is no path with capacity, the transfer must fail' gevent.sleep(0.2) # Lock structures with the correct amount send_locked1 = raiden_events_search_for_item( app0.raiden, SendLockedTransfer, {'transfer': { 'lock': { 'amount': amount_refund } }}, ) assert send_locked1 send_refund1 = raiden_events_search_for_item(app1.raiden, SendRefundTransfer, {}) assert send_refund1 lock1 = send_locked1.transfer.lock refund_lock1 = send_refund1.transfer.lock assert lock1.amount == refund_lock1.amount assert lock1.secrethash == refund_lock1.secrethash send_locked2 = raiden_events_search_for_item( app1.raiden, SendLockedTransfer, {'transfer': { 'lock': { 'amount': amount_refund } }}, ) assert send_locked2 send_refund2 = raiden_events_search_for_item(app2.raiden, SendRefundTransfer, {}) assert send_refund2 lock2 = send_locked2.transfer.lock refund_lock2 = send_refund2.transfer.lock assert lock2.amount == refund_lock2.amount assert lock2.secrethash assert lock2.expiration # channels have the amount locked because of the refund message assert_synced_channel_state( token_network_identifier, app0, deposit - amount_path, [lockstate_from_lock(lock1)], app1, deposit + amount_path, [lockstate_from_lock(refund_lock1)], ) assert_synced_channel_state( token_network_identifier, app1, deposit - amount_path, [lockstate_from_lock(lock2)], app2, deposit + amount_path, [lockstate_from_lock(refund_lock2)], ) assert_synced_channel_state( token_network_identifier, app2, deposit - amount_path - amount_drain, [], app3, deposit + amount_path + amount_drain, [], )
def test_refund_transfer(raiden_chain, token_addresses, deposit, network_wait, skip_if_not_udp): """A failed transfer must send a refund back. TODO: - Unlock the token on refund #1091 - Clear the merkletree and update the locked amount #193 - Remove the refund message type #490""" # Topology: # # 0 -> 1 -> 2 # app0, app1, app2 = raiden_chain token_address = token_addresses[0] payment_network_identifier = app0.raiden.default_registry.address token_network_identifier = views.get_token_network_identifier_by_token_address( views.state_from_app(app0), payment_network_identifier, token_address, ) # make a transfer to test the path app0 -> app1 -> app2 identifier_path = 1 amount_path = 1 mediated_transfer( app0, app2, token_network_identifier, amount_path, identifier_path, timeout=network_wait, ) # drain the channel app1 -> app2 identifier_drain = 2 amount_drain = deposit * 8 // 10 direct_transfer( app1, app2, token_network_identifier, amount_drain, identifier_drain, timeout=network_wait, ) # wait for the nodes to sync gevent.sleep(0.2) assert_synched_channel_state( token_network_identifier, app0, deposit - amount_path, [], app1, deposit + amount_path, [], ) assert_synched_channel_state( token_network_identifier, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], ) # app0 -> app1 -> app2 is the only available path, but the channel app1 -> # app2 doesn't have capacity, so a refund will be sent on app1 -> app0 identifier_refund = 3 amount_refund = 50 async_result = app0.raiden.mediated_transfer_async( token_network_identifier, amount_refund, app2.raiden.address, identifier_refund, ) assert async_result.wait( ) is False, 'there is no path with capacity, the transfer must fail' gevent.sleep(0.2) # A lock structure with the correct amount send_locked = next( event for _, event in app0.raiden.wal.storage.get_events_by_identifier( 0, 'latest') if isinstance(event, SendLockedTransfer) and event.transfer.lock.amount == amount_refund) assert send_locked send_refund = next( event for _, event in app1.raiden.wal.storage.get_events_by_identifier( 0, 'latest') if isinstance(event, SendRefundTransfer)) assert send_refund lock = send_locked.transfer.lock refund_lock = send_refund.lock assert lock.amount == refund_lock.amount assert lock.secrethash assert lock.expiration # Both channels have the amount locked because of the refund message assert_synched_channel_state( token_network_identifier, app0, deposit - amount_path, [lockstate_from_lock(lock)], app1, deposit + amount_path, [lockstate_from_lock(refund_lock)], ) assert_synched_channel_state( token_network_identifier, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], )
def test_refund_transfer( raiden_chain, number_of_nodes, token_addresses, deposit, network_wait, retry_timeout, # UDP does not seem to retry messages until processed # https://github.com/raiden-network/raiden/issues/3185 skip_if_not_matrix, ): """A failed transfer must send a refund back. TODO: - Unlock the token on refund #1091 - Clear the merkletree and update the locked amount #193 - Remove the refund message type #490""" # Topology: # # 0 -> 1 -> 2 # app0, app1, app2 = raiden_chain token_address = token_addresses[0] payment_network_identifier = app0.raiden.default_registry.address token_network_identifier = views.get_token_network_identifier_by_token_address( views.state_from_app(app0), payment_network_identifier, token_address, ) # make a transfer to test the path app0 -> app1 -> app2 identifier_path = 1 amount_path = 1 mediated_transfer( app0, app2, token_network_identifier, amount_path, identifier_path, timeout=network_wait * number_of_nodes, ) # drain the channel app1 -> app2 identifier_drain = 2 amount_drain = deposit * 8 // 10 mediated_transfer( initiator_app=app1, target_app=app2, token_network_identifier=token_network_identifier, amount=amount_drain, identifier=identifier_drain, timeout=network_wait, ) # wait for the nodes to sync gevent.sleep(0.2) assert_synced_channel_state( token_network_identifier, app0, deposit - amount_path, [], app1, deposit + amount_path, [], ) assert_synced_channel_state( token_network_identifier, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], ) # app0 -> app1 -> app2 is the only available path, but the channel app1 -> # app2 doesn't have capacity, so a refund will be sent on app1 -> app0 identifier_refund = 3 amount_refund = 50 async_result = app0.raiden.mediated_transfer_async( token_network_identifier, amount_refund, app2.raiden.address, identifier_refund, ) assert async_result.wait( ) is False, 'there is no path with capacity, the transfer must fail' gevent.sleep(0.2) # A lock structure with the correct amount send_locked = raiden_events_search_for_item( app0.raiden, SendLockedTransfer, {'transfer': { 'lock': { 'amount': amount_refund } }}, ) assert send_locked secrethash = send_locked.transfer.lock.secrethash send_refund = raiden_events_search_for_item(app1.raiden, SendRefundTransfer, {}) assert send_refund lock = send_locked.transfer.lock refund_lock = send_refund.transfer.lock assert lock.amount == refund_lock.amount assert lock.secrethash assert lock.expiration assert lock.secrethash == refund_lock.secrethash # Both channels have the amount locked because of the refund message assert_synced_channel_state( token_network_identifier, app0, deposit - amount_path, [lockstate_from_lock(lock)], app1, deposit + amount_path, [lockstate_from_lock(refund_lock)], ) assert_synced_channel_state( token_network_identifier, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], ) # Additional checks for LockExpired causing nonce mismatch after refund transfer: # https://github.com/raiden-network/raiden/issues/3146#issuecomment-447378046 # At this point make sure that the initiator has not deleted the payment task assert secrethash in state_from_raiden( app0.raiden).payment_mapping.secrethashes_to_task # Wait for lock lock expiration but make sure app0 never processes LockExpired with dont_handle_lock_expired_mock(app0): wait_for_block( raiden=app0.raiden, block_number=channel.get_sender_expiration_threshold(lock) + 1, retry_timeout=retry_timeout, ) # make sure that app0 still has the payment task for the secrethash # https://github.com/raiden-network/raiden/issues/3183 assert secrethash in state_from_raiden( app0.raiden).payment_mapping.secrethashes_to_task # make sure that app1 sent a lock expired message for the secrethash send_lock_expired = raiden_events_search_for_item( app1.raiden, SendLockExpired, {'secrethash': secrethash}, ) assert send_lock_expired # make sure that app0 never got it state_changes = app0.raiden.wal.storage.get_statechanges_by_identifier( 0, 'latest') assert not search_for_item( state_changes, ReceiveLockExpired, {'secrethash': secrethash}, ) # Out of the handicapped app0 transport. # Now wait till app0 receives and processes LockExpired receive_lock_expired = wait_for_state_change( app0.raiden, ReceiveLockExpired, {'secrethash': secrethash}, retry_timeout, ) # And also till app1 received the processed wait_for_state_change( app1.raiden, ReceiveProcessed, {'message_identifier': receive_lock_expired.message_identifier}, retry_timeout, ) # make sure app1 queue has cleared the SendLockExpired chain_state1 = views.state_from_app(app1) queues1 = views.get_all_messagequeues(chain_state=chain_state1) result = [(queue_id, queue) for queue_id, queue in queues1.items() if queue_id.recipient == app0.raiden.address and queue] assert not result # and now wait for 1 more block so that the payment task can be deleted wait_for_block( raiden=app0.raiden, block_number=app0.raiden.get_block_number() + 1, retry_timeout=retry_timeout, ) # and since the lock expired message has been sent and processed then the # payment task should have been deleted from both nodes # https://github.com/raiden-network/raiden/issues/3183 assert secrethash not in state_from_raiden( app0.raiden).payment_mapping.secrethashes_to_task assert secrethash not in state_from_raiden( app1.raiden).payment_mapping.secrethashes_to_task
def test_withdraw_both_participants( tester_registry_address, deposit, settle_timeout, reveal_timeout, tester_channels, tester_chain, tester_token, ): pkey0, pkey1, nettingchannel, channel0, channel1 = tester_channels[0] pseudo_random_generator = random.Random() address0 = privatekey_to_address(pkey0) address1 = privatekey_to_address(pkey1) initial_balance0 = tester_token.balanceOf(address0, sender=pkey0) initial_balance1 = tester_token.balanceOf(address1, sender=pkey0) secret = b'secretsecretsecretsecretsecretse' secrethash = sha3(secret) lock_amount = 31 lock01_expiration = tester_chain.block.number + settle_timeout - 1 * reveal_timeout lock10_expiration = tester_chain.block.number + settle_timeout - 2 * reveal_timeout new_block = Block(tester_chain.block.number) channel.state_transition( channel0, new_block, pseudo_random_generator, new_block.block_number, ) channel.state_transition( channel1, new_block, pseudo_random_generator, new_block.block_number, ) # using the same secrethash and amount is intentional lock01 = Lock(lock_amount, lock01_expiration, secrethash) lock10 = Lock(lock_amount, lock10_expiration, secrethash) mediated01 = make_mediated_transfer( tester_registry_address, channel0, channel1, address0, address1, lock01, pkey0, secret, ) mediated10 = make_mediated_transfer( tester_registry_address, channel1, channel0, address1, address0, lock10, pkey1, secret, ) mediated01_hash = sha3(mediated01.packed().data[:-65]) nettingchannel.close( mediated01.nonce, mediated01.transferred_amount, mediated01.locksroot, mediated01_hash, mediated01.signature, sender=pkey1, ) tester_chain.mine(number_of_blocks=1) mediated10_hash = sha3(mediated10.packed().data[:-65]) nettingchannel.updateTransfer( mediated10.nonce, mediated10.transferred_amount, mediated10.locksroot, mediated10_hash, mediated10.signature, sender=pkey0, ) tester_chain.mine(number_of_blocks=1) lock_state01 = lockstate_from_lock(mediated01.lock) proof01 = channel.compute_proof_for_lock( channel1.partner_state, secret, lock_state01, ) nettingchannel.withdraw( proof01.lock_encoded, b''.join(proof01.merkle_proof), proof01.secret, sender=pkey1, ) lock_state10 = lockstate_from_lock(mediated10.lock) proof10 = channel.compute_proof_for_lock( channel0.partner_state, secret, lock_state10, ) nettingchannel.withdraw( proof10.lock_encoded, b''.join(proof10.merkle_proof), proof10.secret, sender=pkey0, ) tester_chain.mine(number_of_blocks=settle_timeout + 1) nettingchannel.settle(sender=pkey0) balance0 = initial_balance0 + deposit - lock01.amount + lock10.amount balance1 = initial_balance1 + deposit + lock01.amount - lock10.amount assert tester_token.balanceOf(address0, sender=pkey0) == balance0 assert tester_token.balanceOf(address1, sender=pkey0) == balance1 assert tester_token.balanceOf(nettingchannel.address, sender=pkey0) == 0
def test_withdraw( tester_registry_address, deposit, settle_timeout, reveal_timeout, tester_channels, tester_chain, tester_token, ): pkey0, pkey1, nettingchannel, channel0, channel1 = tester_channels[0] pseudo_random_generator = random.Random() address0 = privatekey_to_address(pkey0) address1 = privatekey_to_address(pkey1) initial_balance0 = tester_token.balanceOf(address0, sender=pkey0) initial_balance1 = tester_token.balanceOf(address1, sender=pkey0) lock_amount = 31 lock_expiration = tester_chain.block.number + reveal_timeout + 5 secret = b'secretsecretsecretsecretsecretse' secrethash = sha3(secret) new_block = Block(tester_chain.block.number) channel.state_transition( channel0, new_block, pseudo_random_generator, new_block.block_number, ) channel.state_transition( channel1, new_block, pseudo_random_generator, new_block.block_number, ) lock0 = Lock(lock_amount, lock_expiration, secrethash) mediated0 = make_mediated_transfer( tester_registry_address, channel0, channel1, address0, address1, lock0, pkey0, secret, ) # withdraw the pending transfer sent to us by our partner lock_state = lockstate_from_lock(mediated0.lock) proof = channel.compute_proof_for_lock( channel1.partner_state, secret, lock_state, ) mediated0_hash = sha3(mediated0.packed().data[:-65]) nettingchannel.close( mediated0.nonce, mediated0.transferred_amount, mediated0.locksroot, mediated0_hash, mediated0.signature, sender=pkey1, ) tester_chain.mine(number_of_blocks=1) nettingchannel.withdraw( proof.lock_encoded, b''.join(proof.merkle_proof), proof.secret, sender=pkey1, ) tester_chain.mine(number_of_blocks=settle_timeout + 1) nettingchannel.settle(sender=pkey0) balance0 = initial_balance0 + deposit - lock0.amount balance1 = initial_balance1 + deposit + lock0.amount assert tester_token.balanceOf(address0, sender=pkey0) == balance0 assert tester_token.balanceOf(address1, sender=pkey0) == balance1 assert tester_token.balanceOf(nettingchannel.address, sender=pkey0) == 0
def test_refund_transfer( raiden_chain, number_of_nodes, token_addresses, deposit, network_wait, retry_timeout, # UDP does not seem to retry messages until processed # https://github.com/raiden-network/raiden/issues/3185 skip_if_not_matrix, ): """A failed transfer must send a refund back. TODO: - Unlock the token on refund #1091 - Clear the merkletree and update the locked amount #193 - Remove the refund message type #490""" # Topology: # # 0 -> 1 -> 2 # app0, app1, app2 = raiden_chain token_address = token_addresses[0] payment_network_identifier = app0.raiden.default_registry.address token_network_identifier = views.get_token_network_identifier_by_token_address( views.state_from_app(app0), payment_network_identifier, token_address, ) # make a transfer to test the path app0 -> app1 -> app2 identifier_path = 1 amount_path = 1 mediated_transfer( app0, app2, token_network_identifier, amount_path, identifier_path, timeout=network_wait * number_of_nodes, ) # drain the channel app1 -> app2 identifier_drain = 2 amount_drain = deposit * 8 // 10 mediated_transfer( initiator_app=app1, target_app=app2, token_network_identifier=token_network_identifier, amount=amount_drain, identifier=identifier_drain, timeout=network_wait, ) # wait for the nodes to sync gevent.sleep(0.2) assert_synced_channel_state( token_network_identifier, app0, deposit - amount_path, [], app1, deposit + amount_path, [], ) assert_synced_channel_state( token_network_identifier, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], ) # app0 -> app1 -> app2 is the only available path, but the channel app1 -> # app2 doesn't have capacity, so a refund will be sent on app1 -> app0 identifier_refund = 3 amount_refund = 50 async_result = app0.raiden.mediated_transfer_async( token_network_identifier, amount_refund, app2.raiden.address, identifier_refund, ) assert async_result.wait() is False, 'there is no path with capacity, the transfer must fail' gevent.sleep(0.2) # A lock structure with the correct amount send_locked = raiden_events_must_contain_entry( app0.raiden, SendLockedTransfer, {'transfer': {'lock': {'amount': amount_refund}}}, ) assert send_locked secrethash = send_locked.transfer.lock.secrethash send_refund = raiden_events_must_contain_entry(app1.raiden, SendRefundTransfer, {}) assert send_refund lock = send_locked.transfer.lock refund_lock = send_refund.transfer.lock assert lock.amount == refund_lock.amount assert lock.secrethash assert lock.expiration assert lock.secrethash == refund_lock.secrethash # Both channels have the amount locked because of the refund message assert_synced_channel_state( token_network_identifier, app0, deposit - amount_path, [lockstate_from_lock(lock)], app1, deposit + amount_path, [lockstate_from_lock(refund_lock)], ) assert_synced_channel_state( token_network_identifier, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], ) # Additional checks for LockExpired causing nonce mismatch after refund transfer: # https://github.com/raiden-network/raiden/issues/3146#issuecomment-447378046 # At this point make sure that the initiator has not deleted the payment task assert secrethash in state_from_raiden(app0.raiden).payment_mapping.secrethashes_to_task # Wait for lock lock expiration but make sure app0 never processes LockExpired with dont_handle_lock_expired_mock(app0): wait_for_block( raiden=app0.raiden, block_number=channel.get_sender_expiration_threshold(lock) + 1, retry_timeout=retry_timeout, ) # make sure that app0 still has the payment task for the secrethash # https://github.com/raiden-network/raiden/issues/3183 assert secrethash in state_from_raiden(app0.raiden).payment_mapping.secrethashes_to_task # make sure that app1 sent a lock expired message for the secrethash send_lock_expired = raiden_events_must_contain_entry( app1.raiden, SendLockExpired, {'secrethash': secrethash}, ) assert send_lock_expired # make sure that app0 never got it state_changes = app0.raiden.wal.storage.get_statechanges_by_identifier(0, 'latest') assert not must_contain_entry( state_changes, ReceiveLockExpired, {'secrethash': secrethash}, ) # Out of the handicapped app0 transport. # Now wait till app0 receives and processes LockExpired receive_lock_expired = wait_for_state_change( app0.raiden, ReceiveLockExpired, {'secrethash': secrethash}, retry_timeout, ) # And also till app1 received the processed wait_for_state_change( app1.raiden, ReceiveProcessed, {'message_identifier': receive_lock_expired.message_identifier}, retry_timeout, ) # make sure app1 queue has cleared the SendLockExpired chain_state1 = views.state_from_app(app1) queues1 = views.get_all_messagequeues(chain_state=chain_state1) result = [ (queue_id, queue) for queue_id, queue in queues1.items() if queue_id.recipient == app0.raiden.address and queue ] assert not result # and now wait for 1 more block so that the payment task can be deleted wait_for_block( raiden=app0.raiden, block_number=app0.raiden.get_block_number() + 1, retry_timeout=retry_timeout, ) # and since the lock expired message has been sent and processed then the # payment task should have been deleted from both nodes # https://github.com/raiden-network/raiden/issues/3183 assert secrethash not in state_from_raiden(app0.raiden).payment_mapping.secrethashes_to_task assert secrethash not in state_from_raiden(app1.raiden).payment_mapping.secrethashes_to_task
def test_refund_transfer_after_2nd_hop( raiden_chain, number_of_nodes, token_addresses, deposit, network_wait, ): """Test the refund transfer sent due to failure after 2nd hop""" # Topology: # # 0 -> 1 -> 2 -> 3 # app0, app1, app2, app3 = raiden_chain token_address = token_addresses[0] payment_network_identifier = app0.raiden.default_registry.address token_network_identifier = views.get_token_network_identifier_by_token_address( views.state_from_app(app0), payment_network_identifier, token_address, ) # make a transfer to test the path app0 -> app1 -> app2 -> app3 identifier_path = 1 amount_path = 1 mediated_transfer( initiator_app=app0, target_app=app3, token_network_identifier=token_network_identifier, amount=amount_path, identifier=identifier_path, timeout=network_wait * number_of_nodes, ) # drain the channel app2 -> app3 identifier_drain = 2 amount_drain = deposit * 8 // 10 mediated_transfer( initiator_app=app2, target_app=app3, token_network_identifier=token_network_identifier, amount=amount_drain, identifier=identifier_drain, timeout=network_wait, ) # wait for the nodes to sync gevent.sleep(0.2) assert_synced_channel_state( token_network_identifier, app0, deposit - amount_path, [], app1, deposit + amount_path, [], ) assert_synced_channel_state( token_network_identifier, app1, deposit - amount_path, [], app2, deposit + amount_path, [], ) assert_synced_channel_state( token_network_identifier, app2, deposit - amount_path - amount_drain, [], app3, deposit + amount_path + amount_drain, [], ) # app0 -> app1 -> app2 > app3 is the only available path, but the channel # app2 -> app3 doesn't have capacity, so a refund will be sent on # app2 -> app1 -> app0 identifier_refund = 3 amount_refund = 50 async_result = app0.raiden.mediated_transfer_async( token_network_identifier, amount_refund, app3.raiden.address, identifier_refund, ) assert async_result.wait() is False, 'there is no path with capacity, the transfer must fail' gevent.sleep(0.2) # Lock structures with the correct amount send_locked1 = raiden_events_must_contain_entry( app0.raiden, SendLockedTransfer, {'transfer': {'lock': {'amount': amount_refund}}}, ) assert send_locked1 send_refund1 = raiden_events_must_contain_entry(app1.raiden, SendRefundTransfer, {}) assert send_refund1 lock1 = send_locked1.transfer.lock refund_lock1 = send_refund1.transfer.lock assert lock1.amount == refund_lock1.amount assert lock1.secrethash == refund_lock1.secrethash send_locked2 = raiden_events_must_contain_entry( app1.raiden, SendLockedTransfer, {'transfer': {'lock': {'amount': amount_refund}}}, ) assert send_locked2 send_refund2 = raiden_events_must_contain_entry(app2.raiden, SendRefundTransfer, {}) assert send_refund2 lock2 = send_locked2.transfer.lock refund_lock2 = send_refund2.transfer.lock assert lock2.amount == refund_lock2.amount assert lock2.secrethash assert lock2.expiration # channels have the amount locked because of the refund message assert_synced_channel_state( token_network_identifier, app0, deposit - amount_path, [lockstate_from_lock(lock1)], app1, deposit + amount_path, [lockstate_from_lock(refund_lock1)], ) assert_synced_channel_state( token_network_identifier, app1, deposit - amount_path, [lockstate_from_lock(lock2)], app2, deposit + amount_path, [lockstate_from_lock(refund_lock2)], ) assert_synced_channel_state( token_network_identifier, app2, deposit - amount_path - amount_drain, [], app3, deposit + amount_path + amount_drain, [], )
def test_different_view_of_last_bp_during_unlock( raiden_chain, number_of_nodes, token_addresses, deposit, network_wait, retry_timeout, # UDP does not seem to retry messages until processed # https://github.com/raiden-network/raiden/issues/3185 skip_if_not_matrix, ): """Test for https://github.com/raiden-network/raiden/issues/3196#issuecomment-449163888""" # Topology: # # 0 -> 1 -> 2 # app0, app1, app2 = raiden_chain token_address = token_addresses[0] payment_network_identifier = app0.raiden.default_registry.address token_network_identifier = views.get_token_network_identifier_by_token_address( views.state_from_app(app0), payment_network_identifier, token_address, ) token_proxy = app0.raiden.chain.token(token_address) initial_balance0 = token_proxy.balance_of(app0.raiden.address) initial_balance1 = token_proxy.balance_of(app1.raiden.address) # make a transfer to test the path app0 -> app1 -> app2 identifier_path = 1 amount_path = 1 mediated_transfer( app0, app2, token_network_identifier, amount_path, identifier_path, timeout=network_wait * number_of_nodes, ) # drain the channel app1 -> app2 identifier_drain = 2 amount_drain = deposit * 8 // 10 mediated_transfer( initiator_app=app1, target_app=app2, token_network_identifier=token_network_identifier, amount=amount_drain, identifier=identifier_drain, timeout=network_wait, ) # wait for the nodes to sync gevent.sleep(0.2) assert_synced_channel_state( token_network_identifier, app0, deposit - amount_path, [], app1, deposit + amount_path, [], ) assert_synced_channel_state( token_network_identifier, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], ) # app0 -> app1 -> app2 is the only available path, but the channel app1 -> # app2 doesn't have capacity, so a refund will be sent on app1 -> app0 identifier_refund = 3 amount_refund = 50 async_result = app0.raiden.mediated_transfer_async( token_network_identifier, amount_refund, app2.raiden.address, identifier_refund, ) assert async_result.wait() is False, 'there is no path with capacity, the transfer must fail' gevent.sleep(0.2) # A lock structure with the correct amount send_locked = raiden_events_must_contain_entry( app0.raiden, SendLockedTransfer, {'transfer': {'lock': {'amount': amount_refund}}}, ) assert send_locked secrethash = send_locked.transfer.lock.secrethash send_refund = raiden_events_must_contain_entry(app1.raiden, SendRefundTransfer, {}) assert send_refund lock = send_locked.transfer.lock refund_lock = send_refund.transfer.lock assert lock.amount == refund_lock.amount assert lock.secrethash assert lock.expiration assert lock.secrethash == refund_lock.secrethash # Both channels have the amount locked because of the refund message assert_synced_channel_state( token_network_identifier, app0, deposit - amount_path, [lockstate_from_lock(lock)], app1, deposit + amount_path, [lockstate_from_lock(refund_lock)], ) assert_synced_channel_state( token_network_identifier, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], ) # Additional checks for LockExpired causing nonce mismatch after refund transfer: # https://github.com/raiden-network/raiden/issues/3146#issuecomment-447378046 # At this point make sure that the initiator has not deleted the payment task assert secrethash in state_from_raiden(app0.raiden).payment_mapping.secrethashes_to_task with dont_handle_node_change_network_state(): # now app1 goes offline app1.raiden.stop() app1.raiden.get() assert not app1.raiden # Wait for lock expiration so that app0 sends a LockExpired wait_for_block( raiden=app0.raiden, block_number=channel.get_sender_expiration_threshold(lock) + 1, retry_timeout=retry_timeout, ) # make sure that app0 sent a lock expired message for the secrethash wait_for_raiden_event( app0.raiden, SendLockExpired, {'secrethash': secrethash}, retry_timeout, ) # now app0 closes the channel RaidenAPI(app0.raiden).channel_close( registry_address=payment_network_identifier, token_address=token_address, partner_address=app1.raiden.address, ) count = 0 original_update = app1.raiden.raiden_event_handler.handle_contract_send_channelupdate def patched_update(raiden, event): nonlocal count count += 1 original_update(raiden, event) app1.raiden.raiden_event_handler.handle_contract_send_channelupdate = patched_update # and now app1 comes back online app1.raiden.start() # test for https://github.com/raiden-network/raiden/issues/3216 assert count == 1, 'Update transfer should have only been called once during restart' channel_identifier = get_channelstate(app0, app1, token_network_identifier).identifier # and we wait for settlement wait_for_settle( raiden=app0.raiden, payment_network_id=payment_network_identifier, token_address=token_address, channel_ids=[channel_identifier], retry_timeout=app0.raiden.alarm.sleep_time, ) with gevent.Timeout(10): unlock_app0 = wait_for_state_change( app0.raiden, ContractReceiveChannelBatchUnlock, {'participant': app0.raiden.address}, retry_timeout, ) assert unlock_app0.returned_tokens == 50 with gevent.Timeout(10): unlock_app1 = wait_for_state_change( app1.raiden, ContractReceiveChannelBatchUnlock, {'participant': app1.raiden.address}, retry_timeout, ) assert unlock_app1.returned_tokens == 50 final_balance0 = token_proxy.balance_of(app0.raiden.address) final_balance1 = token_proxy.balance_of(app1.raiden.address) assert final_balance0 - deposit - initial_balance0 == -1 assert final_balance1 - deposit - initial_balance1 == 1
def test_refund_transfer(raiden_chain, number_of_nodes, token_addresses, deposit, network_wait): """A failed transfer must send a refund back. TODO: - Unlock the token on refund #1091 - Clear the merkletree and update the locked amount #193 - Remove the refund message type #490""" # Topology: # # 0 -> 1 -> 2 # app0, app1, app2 = raiden_chain token_address = token_addresses[0] payment_network_identifier = app0.raiden.default_registry.address token_network_identifier = views.get_token_network_identifier_by_token_address( views.state_from_app(app0), payment_network_identifier, token_address, ) # make a transfer to test the path app0 -> app1 -> app2 identifier_path = 1 amount_path = 1 mediated_transfer( app0, app2, token_network_identifier, amount_path, identifier_path, timeout=network_wait * number_of_nodes, ) # drain the channel app1 -> app2 identifier_drain = 2 amount_drain = deposit * 8 // 10 direct_transfer( app1, app2, token_network_identifier, amount_drain, identifier_drain, timeout=network_wait, ) # wait for the nodes to sync gevent.sleep(0.2) assert_synched_channel_state( token_network_identifier, app0, deposit - amount_path, [], app1, deposit + amount_path, [], ) assert_synched_channel_state( token_network_identifier, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], ) # app0 -> app1 -> app2 is the only available path, but the channel app1 -> # app2 doesn't have capacity, so a refund will be sent on app1 -> app0 identifier_refund = 3 amount_refund = 50 async_result = app0.raiden.mediated_transfer_async( token_network_identifier, amount_refund, app2.raiden.address, identifier_refund, ) assert async_result.wait() is False, 'there is no path with capacity, the transfer must fail' gevent.sleep(0.2) # A lock structure with the correct amount send_locked = raiden_events_must_contain_entry( app0.raiden, SendLockedTransfer, {'transfer': {'lock': {'amount': amount_refund}}}, ) assert send_locked send_refund = raiden_events_must_contain_entry(app1.raiden, SendRefundTransfer, {}) assert send_refund lock = send_locked.transfer.lock refund_lock = send_refund.lock assert lock.amount == refund_lock.amount assert lock.secrethash assert lock.expiration # Both channels have the amount locked because of the refund message assert_synched_channel_state( token_network_identifier, app0, deposit - amount_path, [lockstate_from_lock(lock)], app1, deposit + amount_path, [lockstate_from_lock(refund_lock)], ) assert_synched_channel_state( token_network_identifier, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], )
def test_refund_transfer(raiden_chain, token_addresses, deposit, network_wait): """A failed transfer must send a refund back. TODO: - Unlock the token on refund #1091 - Clear the merkletree and update the locked amount #193 - Remove the refund message type #490""" # Topology: # # 0 -> 1 -> 2 # app0, app1, app2 = raiden_chain token_address = token_addresses[0] # make a transfer to test the path app0 -> app1 -> app2 identifier_path = 1 amount_path = 1 mediated_transfer( app0, app2, token_address, amount_path, identifier_path, timeout=network_wait, ) # drain the channel app1 -> app2 identifier_drain = 2 amount_drain = deposit * 8 // 10 direct_transfer( app1, app2, token_address, amount_drain, identifier_drain, timeout=network_wait, ) # wait for the nodes to sync gevent.sleep(0.2) assert_synched_channel_state( token_address, app0, deposit - amount_path, [], app1, deposit + amount_path, [], ) assert_synched_channel_state( token_address, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], ) # app0 -> app1 -> app2 is the only available path, but the channel app1 -> # app2 doesn't have capacity, so a refund will be sent on app1 -> app0 identifier_refund = 3 amount_refund = 50 async_result = app0.raiden.mediated_transfer_async( token_address, amount_refund, app2.raiden.address, identifier_refund, ) assert async_result.wait( ) is False, 'there is no path with capacity, the transfer must fail' gevent.sleep(0.2) # A lock structure with the correct amount app0_messages = app0.raiden.protocol.transport.get_sent_messages( app0.raiden.address) mediated_message = list(message for message in app0_messages if isinstance(message, LockedTransfer) and message.target == app2.raiden.address)[-1] assert mediated_message app1_messages = app1.raiden.protocol.transport.get_sent_messages( app1.raiden.address) refund_message = next(message for message in app1_messages if isinstance(message, RefundTransfer) and message.recipient == app0.raiden.address) assert refund_message assert mediated_message.lock.amount == refund_message.lock.amount assert mediated_message.lock.secrethash == refund_message.lock.secrethash assert mediated_message.lock.expiration > refund_message.lock.expiration # Both channels have the amount locked because of the refund message assert_synched_channel_state( token_address, app0, deposit - amount_path, [lockstate_from_lock(mediated_message.lock)], app1, deposit + amount_path, [lockstate_from_lock(refund_message.lock)], ) assert_synched_channel_state( token_address, app1, deposit - amount_path - amount_drain, [], app2, deposit + amount_path + amount_drain, [], )