def initiator_init(
raiden: 'RaidenService',
transfer_identifier: PaymentID,
transfer_amount: PaymentAmount,
transfer_secret: Secret,
token_network_identifier: TokenNetworkID,
target_address: TargetAddress,
):
msg = 'Should never end up initiating transfer with Secret 0x0'
assert transfer_secret != constants.EMPTY_HASH, msg
transfer_state = TransferDescriptionWithSecretState(
raiden.default_registry.address,
transfer_identifier,
transfer_amount,
token_network_identifier,
InitiatorAddress(raiden.address),
target_address,
transfer_secret,
)
previous_address = None
routes = routing.get_best_routes(
chain_state=views.state_from_raiden(raiden),
token_network_id=token_network_identifier,
from_address=InitiatorAddress(raiden.address),
to_address=target_address,
amount=transfer_amount,
previous_address=previous_address,
config=raiden.config,
)
init_initiator_statechange = ActionInitInitiator(
transfer_state,
routes,
)
return init_initiator_statechange
def initiator_init(
raiden,
transfer_identifier,
transfer_amount,
transfer_secret,
token_network_identifier,
target_address,
):
transfer_state = TransferDescriptionWithSecretState(
transfer_identifier,
transfer_amount,
token_network_identifier,
raiden.address,
target_address,
transfer_secret,
)
previous_address = None
routes = routing.get_best_routes(
views.state_from_raiden(raiden),
token_network_identifier,
raiden.address,
target_address,
transfer_amount,
previous_address,
)
init_initiator_statechange = ActionInitInitiator(
transfer_state,
routes,
)
return init_initiator_statechange
def handle_message_refundtransfer(raiden: RaidenService, message: RefundTransfer):
token_network_address = message.token_network_address
from_transfer = lockedtransfersigned_from_message(message)
chain_state = views.state_from_raiden(raiden)
routes = get_best_routes(
chain_state,
token_network_address,
raiden.address,
from_transfer.target,
from_transfer.lock.amount,
message.sender,
)
role = views.get_transfer_role(
chain_state,
from_transfer.lock.secrethash,
)
if role == 'initiator':
secret = random_secret()
state_change = ReceiveTransferRefundCancelRoute(
message.sender,
routes,
from_transfer,
secret,
)
else:
state_change = ReceiveTransferRefund(
message.sender,
from_transfer,
routes,
)
raiden.handle_state_change(state_change)
def test_routing_mocked_pfs_bad_http_code(
chain_state,
payment_network_state,
token_network_state,
our_address,
):
token_network_state, addresses, channel_states = create_square_network_topology(
payment_network_state=payment_network_state,
token_network_state=token_network_state,
our_address=our_address,
)
address1, address2, address3 = addresses
channel_state1, channel_state2 = channel_states
# test routing with all nodes available
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
# channel 1 and 2 are flipped here, to see when the PFS gets called
json_data = {
'result': [
{
'path': [to_checksum_address(our_address), to_checksum_address(address2)],
'fees': 0,
},
{
'path': [to_checksum_address(our_address), to_checksum_address(address1)],
'fees': 0,
},
],
}
response = Mock()
response.configure_mock(status_code=400)
response.json = Mock(return_value=json_data)
with patch.object(requests, 'get', return_value=response):
routes = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
config={
'services': {
'pathfinding_service_address': 'my-pfs',
'pathfinding_max_paths': 3,
},
},
)
assert routes[0].node_address == address1
assert routes[0].channel_identifier == channel_state1.identifier
assert routes[1].node_address == address2
assert routes[1].channel_identifier == channel_state2.identifier
def test_routing_mocked_pfs_invalid_json_structure(
chain_state,
payment_network_state,
token_network_state,
our_address,
):
token_network_state, addresses, channel_states = create_square_network_topology(
payment_network_state=payment_network_state,
token_network_state=token_network_state,
our_address=our_address,
)
address1, address2, address3 = addresses
channel_state1, channel_state2 = channel_states
# test routing with all nodes available
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
response = Mock()
response.configure_mock(status_code=400)
response.json = Mock(return_value={})
with patch.object(requests, 'get', return_value=response):
routes = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
config={
'services': {
'pathfinding_service_address': 'my-pfs',
'pathfinding_max_paths': 3,
},
},
)
assert routes[0].node_address == address1
assert routes[0].channel_identifier == channel_state1.identifier
assert routes[1].node_address == address2
assert routes[1].channel_identifier == channel_state2.identifier
def mediator_init(raiden, transfer: LockedTransfer):
from_transfer = lockedtransfersigned_from_message(transfer)
routes = routing.get_best_routes(
views.state_from_raiden(raiden),
from_transfer.balance_proof.token_network_identifier,
raiden.address,
from_transfer.target,
from_transfer.lock.amount,
transfer.sender,
)
from_route = RouteState(
transfer.sender,
from_transfer.balance_proof.channel_address,
)
init_mediator_statechange = ActionInitMediator(
routes,
from_route,
from_transfer,
)
return init_mediator_statechange
def test_routing_mocked_pfs_request_error(
chain_state,
payment_network_state,
token_network_state,
our_address,
):
token_network_state, addresses, channel_states = create_square_network_topology(
payment_network_state=payment_network_state,
token_network_state=token_network_state,
our_address=our_address,
)
address1, address2, address3 = addresses
channel_state1, channel_state2 = channel_states
# test routing with all nodes available
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
with patch.object(requests, 'get', side_effect=requests.RequestException()):
routes = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
config={
'services': {
'pathfinding_service_address': 'my-pfs',
'pathfinding_max_paths': 3,
},
},
)
assert routes[0].node_address == address1
assert routes[0].channel_identifier == channel_state1.identifier
assert routes[1].node_address == address2
assert routes[1].channel_identifier == channel_state2.identifier
def test_routing_priority(chain_state, token_network_state, one_to_n_address,
our_address):
open_block_number = factories.make_block_number()
open_block_number_hash = factories.make_block_hash()
address1 = factories.make_address()
address2 = factories.make_address()
address3 = factories.make_address()
address4 = factories.make_address()
pseudo_random_generator = random.Random()
# Create a network with the following topology
#
# our ----- 1/1 ----> (1)
# | |
# | |
# 2/0 x
# | |
# v v
# (2) ----- x -----> (3)
# | |
# | |
# x x
# | |
# v v
# (4) (4)
channel_state1 = factories.create(
factories.NettingChannelStateProperties(
our_state=factories.NettingChannelEndStateProperties(
balance=1, address=our_address),
partner_state=factories.NettingChannelEndStateProperties(
balance=1, address=address1),
))
channel_state2 = factories.create(
factories.NettingChannelStateProperties(
our_state=factories.NettingChannelEndStateProperties(
balance=2, address=our_address),
partner_state=factories.NettingChannelEndStateProperties(
balance=0, address=address2),
))
# create new channels as participant
channel_new_state_change1 = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
channel_state=channel_state1,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
channel_new_state_change2 = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
channel_state=channel_state2,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
channel_new_iteration1 = token_network.state_transition(
token_network_state=token_network_state,
state_change=channel_new_state_change1,
block_number=open_block_number,
block_hash=open_block_number_hash,
pseudo_random_generator=pseudo_random_generator,
)
channel_new_iteration2 = token_network.state_transition(
token_network_state=channel_new_iteration1.new_state,
state_change=channel_new_state_change2,
block_number=open_block_number,
block_hash=open_block_number_hash,
pseudo_random_generator=pseudo_random_generator,
)
# create new channels without being participant
channel_new_state_change3 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
canonical_identifier=factories.make_canonical_identifier(
token_network_address=token_network_state.address,
channel_identifier=3),
participant1=address2,
participant2=address3,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
channel_new_iteration3 = token_network.state_transition(
token_network_state=channel_new_iteration2.new_state,
state_change=channel_new_state_change3,
block_number=open_block_number + 10,
block_hash=factories.make_block_hash(),
pseudo_random_generator=pseudo_random_generator,
)
channel_new_state_change4 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
canonical_identifier=factories.make_canonical_identifier(
token_network_address=token_network_state.address,
channel_identifier=4),
participant1=address3,
participant2=address1,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
channel_new_iteration4 = token_network.state_transition(
token_network_state=channel_new_iteration3.new_state,
state_change=channel_new_state_change4,
block_number=open_block_number + 10,
block_hash=factories.make_block_hash(),
pseudo_random_generator=pseudo_random_generator,
)
channel_new_state_change5 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
canonical_identifier=factories.make_canonical_identifier(
token_network_address=token_network_state.address,
channel_identifier=4),
participant1=address3,
participant2=address4,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
channel_new_iteration5 = token_network.state_transition(
token_network_state=channel_new_iteration4.new_state,
state_change=channel_new_state_change5,
block_number=open_block_number + 10,
block_hash=factories.make_block_hash(),
pseudo_random_generator=pseudo_random_generator,
)
channel_new_state_change6 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
canonical_identifier=factories.make_canonical_identifier(
token_network_address=token_network_state.address,
channel_identifier=4),
participant1=address2,
participant2=address4,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
token_network.state_transition(
token_network_state=channel_new_iteration5.new_state,
state_change=channel_new_state_change6,
block_number=open_block_number + 10,
block_hash=factories.make_block_hash(),
pseudo_random_generator=pseudo_random_generator,
)
# test routing priority with all nodes available
chain_state.nodeaddresses_to_networkstates = {
address1: NetworkState.REACHABLE,
address2: NetworkState.REACHABLE,
address3: NetworkState.REACHABLE,
}
error_msg, routes, _ = get_best_routes(
chain_state=chain_state,
token_network_address=token_network_state.address,
one_to_n_address=one_to_n_address,
from_address=our_address,
to_address=address3,
amount=1,
previous_address=None,
pfs_config=None,
privkey=b"",
)
assert routes, error_msg
assert routes[0].next_hop_address == address1, error_msg
assert routes[1].next_hop_address == address2, error_msg
# number of hops overwrites refunding capacity (route over node 2 involves less hops)
chain_state.nodeaddresses_to_networkstates = {
address1: NetworkState.REACHABLE,
address2: NetworkState.REACHABLE,
address3: NetworkState.REACHABLE,
address4: NetworkState.REACHABLE,
}
_, routes, _ = get_best_routes(
chain_state=chain_state,
token_network_address=token_network_state.address,
one_to_n_address=one_to_n_address,
from_address=our_address,
to_address=address4,
amount=1,
previous_address=None,
pfs_config=None,
privkey=b"",
)
assert routes[0].next_hop_address == address2
assert routes[1].next_hop_address == address1
def test_routing_issue2663(chain_state, token_network_state, one_to_n_address,
our_address):
open_block_number = 10
open_block_number_hash = factories.make_block_hash()
address1 = factories.make_address()
address2 = factories.make_address()
address3 = factories.make_address()
address4 = factories.make_address()
pseudo_random_generator = random.Random()
# Create a network with the following topology
#
# our ----- 50 ----> (1) <------50------
# | |
# | |
# 100 (4)
# | ^
# v |
# (2) ----- 100 ---> (3) <-------100---
channel_state1 = factories.create(
factories.NettingChannelStateProperties(
our_state=factories.NettingChannelEndStateProperties(
balance=50, address=our_address),
partner_state=factories.NettingChannelEndStateProperties(
balance=0, address=address1),
))
channel_state2 = factories.create(
factories.NettingChannelStateProperties(
our_state=factories.NettingChannelEndStateProperties(
balance=100, address=our_address),
partner_state=factories.NettingChannelEndStateProperties(
balance=0, address=address2),
))
# create new channels as participant
channel_new_state_change1 = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
channel_state=channel_state1,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
channel_new_state_change2 = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
channel_state=channel_state2,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
channel_new_iteration1 = token_network.state_transition(
token_network_state=token_network_state,
state_change=channel_new_state_change1,
block_number=open_block_number,
block_hash=open_block_number_hash,
pseudo_random_generator=pseudo_random_generator,
)
channel_new_iteration2 = token_network.state_transition(
token_network_state=channel_new_iteration1.new_state,
state_change=channel_new_state_change2,
block_number=open_block_number,
block_hash=open_block_number_hash,
pseudo_random_generator=pseudo_random_generator,
)
graph_state = channel_new_iteration2.new_state.network_graph
assert len(graph_state.channel_identifier_to_participants) == 2
assert len(graph_state.network.edges()) == 2
# create new channels without being participant
channel_new_state_change3 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
canonical_identifier=factories.make_canonical_identifier(
token_network_address=token_network_state.address,
channel_identifier=3),
participant1=address2,
participant2=address3,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
channel_new_iteration3 = token_network.state_transition(
token_network_state=channel_new_iteration2.new_state,
state_change=channel_new_state_change3,
block_number=open_block_number + 10,
block_hash=factories.make_block_hash(),
pseudo_random_generator=pseudo_random_generator,
)
graph_state = channel_new_iteration3.new_state.network_graph
assert len(graph_state.channel_identifier_to_participants) == 3
assert len(graph_state.network.edges()) == 3
channel_new_state_change4 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
canonical_identifier=factories.make_canonical_identifier(
token_network_address=token_network_state.address,
channel_identifier=4),
participant1=address3,
participant2=address4,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
channel_new_iteration4 = token_network.state_transition(
token_network_state=channel_new_iteration3.new_state,
state_change=channel_new_state_change4,
block_number=open_block_number + 10,
block_hash=factories.make_block_hash(),
pseudo_random_generator=pseudo_random_generator,
)
graph_state = channel_new_iteration4.new_state.network_graph
assert len(graph_state.channel_identifier_to_participants) == 4
assert len(graph_state.network.edges()) == 4
channel_new_state_change5 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
canonical_identifier=factories.make_canonical_identifier(
token_network_address=token_network_state.address,
channel_identifier=5),
participant1=address1,
participant2=address4,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
channel_new_iteration5 = token_network.state_transition(
token_network_state=channel_new_iteration4.new_state,
state_change=channel_new_state_change5,
block_number=open_block_number + 10,
block_hash=factories.make_block_hash(),
pseudo_random_generator=pseudo_random_generator,
)
graph_state = channel_new_iteration5.new_state.network_graph
assert len(graph_state.channel_identifier_to_participants) == 5
assert len(graph_state.network.edges()) == 5
# test routing with all nodes available
chain_state.nodeaddresses_to_networkstates = {
address1: NetworkState.REACHABLE,
address2: NetworkState.REACHABLE,
address3: NetworkState.REACHABLE,
address4: NetworkState.REACHABLE,
}
error_msg, routes1, _ = get_best_routes(
chain_state=chain_state,
token_network_address=token_network_state.address,
one_to_n_address=one_to_n_address,
from_address=our_address,
to_address=address4,
amount=50,
previous_address=None,
pfs_config=None,
privkey=b"", # not used if pfs is not configured
)
assert routes1, error_msg
assert routes1[0].next_hop_address == address1, error_msg
assert routes1[1].next_hop_address == address2, error_msg
# test routing with node 2 offline
chain_state.nodeaddresses_to_networkstates = {
address1: NetworkState.REACHABLE,
address2: NetworkState.UNREACHABLE,
address3: NetworkState.REACHABLE,
address4: NetworkState.REACHABLE,
}
_, routes1, _ = get_best_routes(
chain_state=chain_state,
token_network_address=token_network_state.address,
one_to_n_address=one_to_n_address,
from_address=our_address,
to_address=address4,
amount=50,
previous_address=None,
pfs_config=None,
privkey=b"",
)
assert routes1[0].next_hop_address == address1
# test routing with node 3 offline
# the routing doesn't care as node 3 is not directly connected
chain_state.nodeaddresses_to_networkstates = {
address1: NetworkState.REACHABLE,
address2: NetworkState.REACHABLE,
address3: NetworkState.UNREACHABLE,
address4: NetworkState.REACHABLE,
}
_, routes1, _ = get_best_routes(
chain_state=chain_state,
token_network_address=token_network_state.address,
one_to_n_address=one_to_n_address,
from_address=our_address,
to_address=address4,
amount=50,
previous_address=None,
pfs_config=None,
privkey=b"",
)
assert routes1[0].next_hop_address == address1
assert routes1[1].next_hop_address == address2
# test routing with node 1 offline
chain_state.nodeaddresses_to_networkstates = {
address1: NetworkState.UNREACHABLE,
address2: NetworkState.REACHABLE,
address3: NetworkState.REACHABLE,
address4: NetworkState.REACHABLE,
}
_, routes1, _ = get_best_routes(
chain_state=chain_state,
token_network_address=token_network_state.address,
one_to_n_address=one_to_n_address,
from_address=our_address,
to_address=address3,
amount=50,
previous_address=None,
pfs_config=None,
privkey=b"",
)
# right now the channel to 1 gets filtered out as it is offline
assert routes1[0].next_hop_address == address2
def test_internal_routing_mediation_fees(chain_state, token_network_state,
one_to_n_address, our_address):
"""
Checks that requesting a route for a single-hop transfer
will return the route with estimated_fee of zero.
"""
open_block_number = 10
open_block_number_hash = factories.make_block_hash()
address1 = factories.make_address()
address2 = factories.make_address()
pseudo_random_generator = random.Random()
direct_channel_state = factories.create(
factories.NettingChannelStateProperties(
our_state=factories.NettingChannelEndStateProperties(
balance=50, address=our_address),
partner_state=factories.NettingChannelEndStateProperties(
balance=0, address=address1),
))
# create new channels as participant
direct_channel_new_state_change = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
channel_state=direct_channel_state,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
direct_channel_new_iteration = token_network.state_transition(
token_network_state=token_network_state,
state_change=direct_channel_new_state_change,
block_number=open_block_number,
block_hash=open_block_number_hash,
pseudo_random_generator=pseudo_random_generator,
)
route_new_state_change = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
canonical_identifier=factories.make_canonical_identifier(
token_network_address=token_network_state.address,
channel_identifier=4),
participant1=address1,
participant2=address2,
block_number=open_block_number,
block_hash=open_block_number_hash,
)
route_new_iteration = token_network.state_transition(
token_network_state=direct_channel_new_iteration.new_state,
state_change=route_new_state_change,
block_number=open_block_number + 10,
block_hash=factories.make_block_hash(),
pseudo_random_generator=pseudo_random_generator,
)
graph_state = route_new_iteration.new_state.network_graph
assert len(graph_state.channel_identifier_to_participants) == 2
assert len(graph_state.network.edges()) == 2
# test routing with all nodes available
chain_state.nodeaddresses_to_networkstates = {
address1: NetworkState.REACHABLE,
address2: NetworkState.REACHABLE,
}
# Routing to our direct partner would require 0 mediation fees.x
_, routes, _ = get_best_routes(
chain_state=chain_state,
token_network_address=token_network_state.address,
one_to_n_address=one_to_n_address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
pfs_config=None,
privkey=b"", # not used if pfs is not configured
)
assert routes[0].estimated_fee == 0
# Routing to our address2 through address1 would charge 2%
error_msg, routes, _ = get_best_routes(
chain_state=chain_state,
token_network_address=token_network_state.address,
one_to_n_address=one_to_n_address,
from_address=our_address,
to_address=address2,
amount=50,
previous_address=None,
pfs_config=None,
privkey=b"", # not used if pfs is not configured
)
assert routes, error_msg
assert routes[0].estimated_fee == round(INTERNAL_ROUTING_DEFAULT_FEE_PERC *
50), error_msg
def test_routing_priority(
chain_state,
payment_network_state,
token_network_state,
our_address,
):
open_block_number = 10
pseudo_random_generator = random.Random()
address1 = factories.make_address()
address2 = factories.make_address()
address3 = factories.make_address()
address4 = factories.make_address()
# Create a network with the following topology
#
# our ----- 1/1 ----> (1)
# | |
# | |
# 2/0 x
# | |
# v v
# (2) ----- x -----> (3)
# | |
# | |
# x x
# | |
# v v
# (4) (4)
channel_state1 = factories.make_channel(
our_balance=1,
our_address=our_address,
partner_balance=1,
partner_address=address1,
)
channel_state2 = factories.make_channel(
our_balance=2,
our_address=our_address,
partner_balance=0,
partner_address=address2,
)
# create new channels as participant
channel_new_state_change1 = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_state=channel_state1,
block_number=open_block_number,
)
channel_new_state_change2 = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_state=channel_state2,
block_number=open_block_number,
)
channel_new_iteration1 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=token_network_state,
state_change=channel_new_state_change1,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number,
)
channel_new_iteration2 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration1.new_state,
state_change=channel_new_state_change2,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number,
)
# create new channels without being participant
channel_new_state_change3 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_identifier=3,
participant1=address2,
participant2=address3,
block_number=open_block_number,
)
channel_new_iteration3 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration2.new_state,
state_change=channel_new_state_change3,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number + 10,
)
channel_new_state_change4 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_identifier=4,
participant1=address3,
participant2=address1,
block_number=open_block_number,
)
channel_new_iteration4 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration3.new_state,
state_change=channel_new_state_change4,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number + 10,
)
channel_new_state_change5 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_identifier=4,
participant1=address3,
participant2=address4,
block_number=open_block_number,
)
channel_new_iteration5 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration4.new_state,
state_change=channel_new_state_change5,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number + 10,
)
channel_new_state_change6 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_identifier=4,
participant1=address2,
participant2=address4,
block_number=open_block_number,
)
token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration5.new_state,
state_change=channel_new_state_change6,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number + 10,
)
# test routing priority with all nodes available
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
routes = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address3,
amount=1,
previous_address=None,
config={},
)
assert routes[0].node_address == address1
assert routes[1].node_address == address2
# number of hops overwrites refunding capacity (route over node 2 involves less hops)
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
address4: NODE_NETWORK_REACHABLE,
}
routes = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address4,
amount=1,
previous_address=None,
config={},
)
assert routes[0].node_address == address2
assert routes[1].node_address == address1
# sufficient routing capacity overwrites refunding capacity
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
routes = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address3,
amount=2,
previous_address=None,
config={},
)
assert routes[0].node_address == address2
# availability overwrites refunding capacity (node 1 offline)
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_UNREACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
routes = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address3,
amount=1,
previous_address=None,
config={},
)
assert routes[0].node_address == address2
def test_routing_issue2663(
chain_state,
payment_network_state,
token_network_state,
our_address,
):
open_block_number = 10
pseudo_random_generator = random.Random()
address1 = factories.make_address()
address2 = factories.make_address()
address3 = factories.make_address()
# Create a network with the following topology
#
# our ----- 50 ----> (1)
# | ^
# | |
# 100 100
# | |
# v |
# (2) ----- 100 ---> (3)
channel_state1 = factories.make_channel(
our_balance=50,
our_address=our_address,
partner_balance=0,
partner_address=address1,
)
channel_state2 = factories.make_channel(
our_balance=100,
our_address=our_address,
partner_balance=0,
partner_address=address2,
)
# create new channels as participant
channel_new_state_change1 = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_state=channel_state1,
block_number=open_block_number,
)
channel_new_state_change2 = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_state=channel_state2,
block_number=open_block_number,
)
channel_new_iteration1 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=token_network_state,
state_change=channel_new_state_change1,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number,
)
channel_new_iteration2 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration1.new_state,
state_change=channel_new_state_change2,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number,
)
graph_state = channel_new_iteration2.new_state.network_graph
assert len(graph_state.channel_identifier_to_participants) == 2
assert len(graph_state.network.edges()) == 2
# create new channels without being participant
channel_new_state_change3 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_identifier=3,
participant1=address2,
participant2=address3,
block_number=open_block_number,
)
channel_new_iteration3 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration2.new_state,
state_change=channel_new_state_change3,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number + 10,
)
graph_state = channel_new_iteration3.new_state.network_graph
assert len(graph_state.channel_identifier_to_participants) == 3
assert len(graph_state.network.edges()) == 3
channel_new_state_change4 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_identifier=4,
participant1=address3,
participant2=address1,
block_number=open_block_number,
)
channel_new_iteration4 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration3.new_state,
state_change=channel_new_state_change4,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number + 10,
)
graph_state = channel_new_iteration4.new_state.network_graph
assert len(graph_state.channel_identifier_to_participants) == 4
assert len(graph_state.network.edges()) == 4
# test routing with all nodes available
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
routes1 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
config={},
)
assert routes1[0].node_address == address1
assert routes1[1].node_address == address2
routes2 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=51,
previous_address=None,
config={},
)
assert routes2[0].node_address == address2
# test routing with node 2 offline
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_UNREACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
routes1 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
config={},
)
assert routes1[0].node_address == address1
routes2 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=51,
previous_address=None,
config={},
)
assert routes2 == []
# test routing with node 3 offline
# the routing doesn't care as node 3 is not directly connected
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_UNREACHABLE,
}
routes1 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
config={},
)
assert routes1[0].node_address == address1
assert routes1[1].node_address == address2
routes2 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=51,
previous_address=None,
config={},
)
assert routes2[0].node_address == address2
# test routing with node 1 offline
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_UNREACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
routes1 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
config={},
)
# right now the channel to 1 gets filtered out as it is offline
assert routes1[0].node_address == address2
routes2 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=51,
previous_address=None,
config={},
)
assert routes2[0].node_address == address2
def test_participant_selection(raiden_network, token_addresses):
# pylint: disable=too-many-locals
registry_address = raiden_network[0].raiden.default_registry.address
one_to_n_address = raiden_network[0].raiden.default_one_to_n_address
token_address = token_addresses[0]
# connect the first node - this will register the token and open the first channel
# Since there is no other nodes available to connect to this call will do nothing more
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address=registry_address,
token_address=token_address,
funds=TokenAmount(100))
# Test invalid argument values
with pytest.raises(InvalidAmount):
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address=registry_address,
token_address=token_address,
funds=TokenAmount(-1))
with pytest.raises(InvalidAmount):
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address=registry_address,
token_address=token_address,
funds=TokenAmount(100),
joinable_funds_target=2,
)
with pytest.raises(InvalidAmount):
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address=registry_address,
token_address=token_address,
funds=TokenAmount(100),
joinable_funds_target=-1,
)
# Call the connect endpoint for all but the first node
connect_greenlets = [
gevent.spawn(
RaidenAPI(app.raiden).token_network_connect, registry_address,
token_address, 100) for app in raiden_network[1:]
]
gevent.wait(connect_greenlets)
token_network_registry_address = views.get_token_network_address_by_token_address(
views.state_from_raiden(raiden_network[0].raiden),
token_network_registry_address=registry_address,
token_address=token_address,
)
connection_managers = [
app.raiden.connection_manager_for_token_network(
token_network_registry_address) for app in raiden_network
]
unsaturated_connection_managers = connection_managers[:]
exception = AssertionError("Unsaturated connection managers",
unsaturated_connection_managers)
with gevent.Timeout(120, exception):
while unsaturated_connection_managers:
for manager in unsaturated_connection_managers:
if is_manager_saturated(manager, registry_address,
token_address):
unsaturated_connection_managers.remove(manager)
gevent.sleep(1)
assert saturated_count(connection_managers, registry_address,
token_address) == len(connection_managers)
# ensure unpartitioned network
for app in raiden_network:
node_state = views.state_from_raiden(app.raiden)
network_state = views.get_token_network_by_token_address(
node_state, registry_address, token_address)
assert network_state is not None
for target in raiden_network:
if target.raiden.address == app.raiden.address:
continue
_, routes, _ = routing.get_best_routes(
chain_state=node_state,
token_network_address=network_state.address,
one_to_n_address=one_to_n_address,
from_address=app.raiden.address,
to_address=target.raiden.address,
amount=PaymentAmount(1),
previous_address=None,
pfs_config=None,
privkey=b"", # not used if pfs is not configured
)
assert routes is not None
# create a transfer to the leaving node, so we have a channel to settle
for app in raiden_network:
sender = app.raiden
sender_channel = next(
(channel_state for channel_state in RaidenAPI(
sender).get_channel_list(registry_address=registry_address,
token_address=token_address)
if channel_state.our_state.contract_balance > 0
and channel_state.partner_state.contract_balance > 0),
None,
) # choose a fully funded channel from sender
if sender_channel:
break
assert sender_channel
registry_address = sender.default_registry.address
receiver = next(
app.raiden for app in raiden_network
if app.raiden.address == sender_channel.partner_state.address)
# assert there is a direct channel receiver -> sender (vv)
receiver_channel = RaidenAPI(receiver).get_channel_list(
registry_address=registry_address,
token_address=token_address,
partner_address=sender.address,
)
assert len(receiver_channel) == 1
with gevent.Timeout(30, exception=ValueError("partner not reachable")):
waiting.wait_for_healthy(sender, receiver.address, PaymentAmount(1))
with watch_for_unlock_failures(*raiden_network):
amount = PaymentAmount(1)
RaidenAPI(sender).transfer_and_wait(registry_address,
token_address,
amount,
receiver.address,
transfer_timeout=10)
with gevent.Timeout(
30,
exception=ValueError(
"timeout while waiting for incoming transaction")):
wait_for_transaction(receiver, registry_address, token_address,
sender.address)
# test `leave()` method
connection_manager = connection_managers[0]
timeout = (sender_channel.settle_timeout *
estimate_blocktime(connection_manager.raiden.rpc_client) * 10)
assert timeout > 0
channels = views.list_channelstate_for_tokennetwork(
chain_state=views.state_from_raiden(connection_manager.raiden),
token_network_registry_address=registry_address,
token_address=token_address,
)
channel_identifiers = [channel.identifier for channel in channels]
with gevent.Timeout(
timeout, exception=ValueError("timeout while waiting for leave")):
# sender leaves the network
RaidenAPI(sender).token_network_leave(registry_address, token_address)
with gevent.Timeout(timeout,
exception=ValueError(
f"Channels didnt get settled after {timeout}")):
waiting.wait_for_settle(
raiden=connection_manager.raiden,
token_network_registry_address=registry_address,
token_address=token_address,
channel_ids=channel_identifiers,
retry_timeout=0.1,
)
def test_routing_issue2663(
chain_state,
payment_network_state,
token_network_state,
our_address,
):
open_block_number = 10
pseudo_random_generator = random.Random()
pkey1, address1 = factories.make_privkey_address()
pkey2, address2 = factories.make_privkey_address()
pkey3, address3 = factories.make_privkey_address()
# Create a network with the following topology
#
# our ----- 50 ----> (1)
# | ^
# | |
# 100 100
# | |
# v |
# (2) ----- 100 ---> (3)
channel_state1 = factories.make_channel(
our_balance=50,
our_address=our_address,
partner_balance=0,
partner_address=address1,
)
channel_state2 = factories.make_channel(
our_balance=100,
our_address=our_address,
partner_balance=0,
partner_address=address2,
)
# create new channels as participant
channel_new_state_change1 = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_state=channel_state1,
block_number=open_block_number,
)
channel_new_state_change2 = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_state=channel_state2,
block_number=open_block_number,
)
channel_new_iteration1 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=token_network_state,
state_change=channel_new_state_change1,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number,
)
channel_new_iteration2 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration1.new_state,
state_change=channel_new_state_change2,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number,
)
graph_state = channel_new_iteration2.new_state.network_graph
assert len(graph_state.channel_identifier_to_participants) == 2
assert len(graph_state.network.edges()) == 2
# create new channels without being participant
channel_new_state_change3 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_identifier=3,
participant1=address2,
participant2=address3,
block_number=open_block_number,
)
channel_new_iteration3 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration2.new_state,
state_change=channel_new_state_change3,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number + 10,
)
graph_state = channel_new_iteration3.new_state.network_graph
assert len(graph_state.channel_identifier_to_participants) == 3
assert len(graph_state.network.edges()) == 3
channel_new_state_change4 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_identifier=4,
participant1=address3,
participant2=address1,
block_number=open_block_number,
)
channel_new_iteration4 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration3.new_state,
state_change=channel_new_state_change4,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number + 10,
)
graph_state = channel_new_iteration4.new_state.network_graph
assert len(graph_state.channel_identifier_to_participants) == 4
assert len(graph_state.network.edges()) == 4
# test routing with all nodes available
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
routes1 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
config={},
)
assert routes1[0].node_address == address1
assert routes1[1].node_address == address2
routes2 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=51,
previous_address=None,
config={},
)
assert routes2[0].node_address == address2
# test routing with node 2 offline
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_UNREACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
routes1 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
config={},
)
assert routes1[0].node_address == address1
routes2 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=51,
previous_address=None,
config={},
)
assert routes2 == []
# test routing with node 3 offline
# the routing doesn't care as node 3 is not directly connected
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_UNREACHABLE,
}
routes1 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
config={},
)
assert routes1[0].node_address == address1
assert routes1[1].node_address == address2
routes2 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=51,
previous_address=None,
config={},
)
assert routes2[0].node_address == address2
# test routing with node 1 offline
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_UNREACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
routes1 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
config={},
)
# right now the channel to 1 gets filtered out as it is offline
assert routes1[0].node_address == address2
routes2 = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=51,
previous_address=None,
config={},
)
assert routes2[0].node_address == address2
def get_best_routes_with_iou_request_mocked(
chain_state,
token_network_state,
one_to_n_address,
from_address,
to_address,
amount,
iou_json_data=None,
):
def iou_side_effect(*args, **kwargs):
if args[0].endswith("/info"):
return mocked_json_response({
"price_info":
5,
"network_info": {
"chain_id":
42,
"token_network_registry_address":
to_checksum_address(
factories.make_token_network_registry_address()),
"user_deposit_address":
to_checksum_address(factories.make_address()),
"confirmed_block": {
"number": 11
},
},
"version":
"0.0.3",
"operator":
"John Doe",
"message":
"This is your favorite pathfinding service",
"payment_address":
to_checksum_address(factories.make_address()),
"matrix_server":
"http://matrix.example.com",
})
else:
assert "params" in kwargs
body = kwargs["params"]
assert is_hex_address(body["sender"])
assert is_hex_address(body["receiver"])
assert "timestamp" in body
assert is_hex(body["signature"])
assert len(body["signature"]
) == 65 * 2 + 2 # 65 hex encoded bytes with 0x prefix
return mocked_json_response(response_data=iou_json_data)
with patch.object(session, "get", side_effect=iou_side_effect) as patched:
_, best_routes, feedback_token = get_best_routes(
chain_state=chain_state,
token_network_address=token_network_state.address,
one_to_n_address=one_to_n_address,
from_address=from_address,
to_address=to_address,
amount=amount,
previous_address=None,
pfs_config=PFS_CONFIG,
privkey=PRIVKEY,
)
assert_checksum_address_in_url(patched.call_args[0][0])
return best_routes, feedback_token
def get_best_routes_with_fees(*args, **kwargs):
error_msg, routes, uuid = get_best_routes(*args, **kwargs)
for r in routes:
r.estimated_fee = fee_without_margin
return error_msg, routes, uuid
def test_participant_selection(raiden_network, token_addresses, skip_if_tester):
registry_address = raiden_network[0].raiden.default_registry.address
# pylint: disable=too-many-locals
token_address = token_addresses[0]
# connect the first node (will register the token if necessary)
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address,
token_address,
100,
)
# connect the other nodes
connect_greenlets = [
gevent.spawn(
RaidenAPI(app.raiden).token_network_connect,
registry_address,
token_address,
100,
)
for app in raiden_network[1:]
]
gevent.wait(connect_greenlets)
token_network_registry_address = views.get_token_network_identifier_by_token_address(
views.state_from_raiden(raiden_network[0].raiden),
payment_network_id=registry_address,
token_address=token_address,
)
connection_managers = [
app.raiden.connection_manager_for_token_network(
token_network_registry_address,
) for app in raiden_network
]
assert wait_for_saturated(
connection_managers,
registry_address,
token_address,
) is True
assert saturated_count(
connection_managers,
registry_address,
token_address,
) == len(connection_managers)
# ensure unpartitioned network
for app in raiden_network:
node_state = views.state_from_raiden(app.raiden)
network_state = views.get_token_network_by_token_address(
node_state,
registry_address,
token_address,
)
assert network_state is not None
for target in raiden_network:
if target.raiden.address == app.raiden.address:
continue
routes = routing.get_best_routes(
node_state,
network_state.address,
app.raiden.address,
target.raiden.address,
1,
None,
)
assert routes is not None
# create a transfer to the leaving node, so we have a channel to settle
sender = raiden_network[-1].raiden
receiver = raiden_network[0].raiden
registry_address = sender.default_registry.address
# assert there is a direct channel receiver -> sender (vv)
receiver_channel = RaidenAPI(receiver).get_channel_list(
registry_address=registry_address,
token_address=token_address,
partner_address=sender.address,
)
assert len(receiver_channel) == 1
receiver_channel = receiver_channel[0]
# assert there is a direct channel sender -> receiver
sender_channel = RaidenAPI(sender).get_channel_list(
registry_address=registry_address,
token_address=token_address,
partner_address=receiver.address,
)
assert len(sender_channel) == 1
sender_channel = sender_channel[0]
exception = ValueError('partner not reachable')
with gevent.Timeout(30, exception=exception):
waiting.wait_for_healthy(sender, receiver.address, 1)
amount = 1
RaidenAPI(sender).transfer_and_wait(
registry_address,
token_address,
amount,
receiver.address,
transfer_timeout=10,
)
exception = ValueError('timeout while waiting for incoming transaction')
with gevent.Timeout(30, exception=exception):
wait_for_transaction(
receiver,
registry_address,
token_address,
sender.address,
)
# test `leave()` method
connection_manager = connection_managers[0]
timeout = (
sender_channel.settle_timeout *
connection_manager.raiden.chain.estimate_blocktime() *
10
)
assert timeout > 0
exception = ValueError('timeout while waiting for leave')
with gevent.Timeout(timeout, exception=exception):
RaidenAPI(raiden_network[0].raiden).token_network_leave(
registry_address,
token_address,
)
before_block = connection_manager.raiden.chain.block_number()
wait_blocks = sender_channel.settle_timeout + 10
# wait until both chains are synced?
wait_until_block(
connection_manager.raiden.chain,
before_block + wait_blocks,
)
wait_until_block(
receiver.chain,
before_block + wait_blocks,
)
receiver_channel = RaidenAPI(receiver).get_channel_list(
registry_address=registry_address,
token_address=token_address,
partner_address=sender.address,
)
assert receiver_channel[0].settle_transaction is not None
def test_participant_selection(raiden_network, token_addresses, skip_if_tester):
registry_address = raiden_network[0].raiden.default_registry.address
# pylint: disable=too-many-locals
token_address = token_addresses[0]
# connect the first node (will register the token if necessary)
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address,
token_address,
100,
)
# connect the other nodes
connect_greenlets = [
gevent.spawn(
RaidenAPI(app.raiden).token_network_connect,
registry_address,
token_address,
100,
)
for app in raiden_network[1:]
]
gevent.wait(connect_greenlets)
token_network_registry_address = views.get_token_network_identifier_by_token_address(
views.state_from_raiden(raiden_network[0].raiden),
payment_network_id=registry_address,
token_address=token_address,
)
connection_managers = [
app.raiden.connection_manager_for_token_network(
token_network_registry_address,
) for app in raiden_network
]
unsaturated_connection_managers = connection_managers[:]
with gevent.Timeout(
120,
AssertionError('Unsaturated connection managers', unsaturated_connection_managers),
):
while unsaturated_connection_managers:
for manager in unsaturated_connection_managers:
if is_manager_saturated(manager, registry_address, token_address):
unsaturated_connection_managers.remove(manager)
gevent.sleep(1)
assert saturated_count(
connection_managers,
registry_address,
token_address,
) == len(connection_managers)
# ensure unpartitioned network
for app in raiden_network:
node_state = views.state_from_raiden(app.raiden)
network_state = views.get_token_network_by_token_address(
node_state,
registry_address,
token_address,
)
assert network_state is not None
for target in raiden_network:
if target.raiden.address == app.raiden.address:
continue
routes = routing.get_best_routes(
node_state,
network_state.address,
app.raiden.address,
target.raiden.address,
1,
None,
)
assert routes is not None
# create a transfer to the leaving node, so we have a channel to settle
sender = raiden_network[-1].raiden
receiver = raiden_network[0].raiden
registry_address = sender.default_registry.address
# assert there is a direct channel receiver -> sender (vv)
receiver_channel = RaidenAPI(receiver).get_channel_list(
registry_address=registry_address,
token_address=token_address,
partner_address=sender.address,
)
assert len(receiver_channel) == 1
receiver_channel = receiver_channel[0]
# assert there is a direct channel sender -> receiver
sender_channel = RaidenAPI(sender).get_channel_list(
registry_address=registry_address,
token_address=token_address,
partner_address=receiver.address,
)
assert len(sender_channel) == 1
sender_channel = sender_channel[0]
exception = ValueError('partner not reachable')
with gevent.Timeout(30, exception=exception):
waiting.wait_for_healthy(sender, receiver.address, 1)
amount = 1
RaidenAPI(sender).transfer_and_wait(
registry_address,
token_address,
amount,
receiver.address,
transfer_timeout=10,
)
exception = ValueError('timeout while waiting for incoming transaction')
with gevent.Timeout(30, exception=exception):
wait_for_transaction(
receiver,
registry_address,
token_address,
sender.address,
)
# test `leave()` method
connection_manager = connection_managers[0]
timeout = (
sender_channel.settle_timeout *
connection_manager.raiden.chain.estimate_blocktime() *
10
)
assert timeout > 0
exception = ValueError('timeout while waiting for leave')
with gevent.Timeout(timeout, exception=exception):
RaidenAPI(raiden_network[0].raiden).token_network_leave(
registry_address,
token_address,
)
before_block = connection_manager.raiden.chain.block_number()
wait_blocks = sender_channel.settle_timeout + 10
# wait until both chains are synced?
wait_until_block(
connection_manager.raiden.chain,
before_block + wait_blocks,
)
wait_until_block(
receiver.chain,
before_block + wait_blocks,
)
receiver_channel = RaidenAPI(receiver).get_channel_list(
registry_address=registry_address,
token_address=token_address,
partner_address=sender.address,
)
assert receiver_channel[0].settle_transaction is not None
def run_test_participant_selection(raiden_network, token_addresses):
# pylint: disable=too-many-locals
registry_address = raiden_network[0].raiden.default_registry.address
token_address = token_addresses[0]
# connect the first node (will register the token if necessary)
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address=registry_address,
token_address=token_address,
funds=100,
)
# Test invalid argument values
with pytest.raises(InvalidAmount):
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address=registry_address,
token_address=token_address,
funds=-1,
)
with pytest.raises(InvalidAmount):
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address=registry_address,
token_address=token_address,
funds=100,
joinable_funds_target=2,
)
with pytest.raises(InvalidAmount):
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address=registry_address,
token_address=token_address,
funds=100,
joinable_funds_target=-1,
)
# connect the other nodes
connect_greenlets = [
gevent.spawn(
RaidenAPI(app.raiden).token_network_connect,
registry_address,
token_address,
100,
) for app in raiden_network[1:]
]
gevent.wait(connect_greenlets)
token_network_registry_address = views.get_token_network_identifier_by_token_address(
views.state_from_raiden(raiden_network[0].raiden),
payment_network_id=registry_address,
token_address=token_address,
)
connection_managers = [
app.raiden.connection_manager_for_token_network(
token_network_registry_address, ) for app in raiden_network
]
unsaturated_connection_managers = connection_managers[:]
exception = AssertionError('Unsaturated connection managers',
unsaturated_connection_managers)
with gevent.Timeout(120, exception):
while unsaturated_connection_managers:
for manager in unsaturated_connection_managers:
if is_manager_saturated(manager, registry_address,
token_address):
unsaturated_connection_managers.remove(manager)
gevent.sleep(1)
assert saturated_count(
connection_managers,
registry_address,
token_address,
) == len(connection_managers)
# ensure unpartitioned network
for app in raiden_network:
node_state = views.state_from_raiden(app.raiden)
network_state = views.get_token_network_by_token_address(
node_state,
registry_address,
token_address,
)
assert network_state is not None
for target in raiden_network:
if target.raiden.address == app.raiden.address:
continue
routes = routing.get_best_routes(
chain_state=node_state,
token_network_id=network_state.address,
from_address=app.raiden.address,
to_address=target.raiden.address,
amount=1,
previous_address=None,
config={},
privkey=b'', # not used if pfs is not configured
)
assert routes is not None
# create a transfer to the leaving node, so we have a channel to settle
for app in raiden_network:
sender = app.raiden
sender_channel = next(
(channel_state
for channel_state in RaidenAPI(sender).get_channel_list(
registry_address=registry_address,
token_address=token_address,
) if channel_state.our_state.contract_balance > 0
and channel_state.partner_state.contract_balance > 0),
None,
) # choose a fully funded channel from sender
if sender_channel:
break
registry_address = sender.default_registry.address
receiver = next(
app.raiden for app in raiden_network
if app.raiden.address == sender_channel.partner_state.address)
# assert there is a direct channel receiver -> sender (vv)
receiver_channel = RaidenAPI(receiver).get_channel_list(
registry_address=registry_address,
token_address=token_address,
partner_address=sender.address,
)
assert len(receiver_channel) == 1
receiver_channel = receiver_channel[0]
exception = ValueError('partner not reachable')
with gevent.Timeout(30, exception=exception):
waiting.wait_for_healthy(sender, receiver.address, 1)
amount = 1
RaidenAPI(sender).transfer_and_wait(
registry_address,
token_address,
amount,
receiver.address,
transfer_timeout=10,
)
exception = ValueError('timeout while waiting for incoming transaction')
with gevent.Timeout(30, exception=exception):
wait_for_transaction(
receiver,
registry_address,
token_address,
sender.address,
)
# test `leave()` method
connection_manager = connection_managers[0]
timeout = (sender_channel.settle_timeout *
connection_manager.raiden.chain.estimate_blocktime() * 10)
assert timeout > 0
channels = views.list_channelstate_for_tokennetwork(
chain_state=views.state_from_raiden(connection_manager.raiden),
payment_network_id=registry_address,
token_address=token_address,
)
channel_identifiers = [channel.identifier for channel in channels]
exception = ValueError('timeout while waiting for leave')
with gevent.Timeout(timeout, exception=exception):
# sender leaves the network
RaidenAPI(sender).token_network_leave(
registry_address,
token_address,
)
exception = ValueError(f'Channels didnt get settled after {timeout}')
with gevent.Timeout(timeout, exception=exception):
waiting.wait_for_settle(
raiden=connection_manager.raiden,
payment_network_id=registry_address,
token_address=token_address,
channel_ids=channel_identifiers,
retry_timeout=0.1,
)
def test_participant_selection(raiden_network, token_addresses):
registry_address = raiden_network[0].raiden.default_registry.address
# pylint: disable=too-many-locals
token_address = token_addresses[0]
# connect the first node (will register the token if necessary)
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address=registry_address,
token_address=token_address,
funds=100,
)
# Test invalid argument values
with pytest.raises(InvalidAmount):
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address=registry_address,
token_address=token_address,
funds=-1,
)
with pytest.raises(InvalidAmount):
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address=registry_address,
token_address=token_address,
funds=100,
joinable_funds_target=2,
)
with pytest.raises(InvalidAmount):
RaidenAPI(raiden_network[0].raiden).token_network_connect(
registry_address=registry_address,
token_address=token_address,
funds=100,
joinable_funds_target=-1,
)
# connect the other nodes
connect_greenlets = [
gevent.spawn(
RaidenAPI(app.raiden).token_network_connect,
registry_address,
token_address,
100,
)
for app in raiden_network[1:]
]
gevent.wait(connect_greenlets)
token_network_registry_address = views.get_token_network_identifier_by_token_address(
views.state_from_raiden(raiden_network[0].raiden),
payment_network_id=registry_address,
token_address=token_address,
)
connection_managers = [
app.raiden.connection_manager_for_token_network(
token_network_registry_address,
)
for app in raiden_network
]
unsaturated_connection_managers = connection_managers[:]
with gevent.Timeout(
120,
AssertionError('Unsaturated connection managers', unsaturated_connection_managers),
):
while unsaturated_connection_managers:
for manager in unsaturated_connection_managers:
if is_manager_saturated(manager, registry_address, token_address):
unsaturated_connection_managers.remove(manager)
gevent.sleep(1)
assert saturated_count(
connection_managers,
registry_address,
token_address,
) == len(connection_managers)
# ensure unpartitioned network
for app in raiden_network:
node_state = views.state_from_raiden(app.raiden)
network_state = views.get_token_network_by_token_address(
node_state,
registry_address,
token_address,
)
assert network_state is not None
for target in raiden_network:
if target.raiden.address == app.raiden.address:
continue
routes = routing.get_best_routes(
node_state,
network_state.address,
app.raiden.address,
target.raiden.address,
1,
None,
)
assert routes is not None
# create a transfer to the leaving node, so we have a channel to settle
for app in raiden_network:
sender = app.raiden
sender_channel = next((
channel_state
for channel_state in RaidenAPI(sender).get_channel_list(
registry_address=registry_address,
token_address=token_address,
)
if channel_state.our_state.contract_balance > 0 and
channel_state.partner_state.contract_balance > 0
), None) # choose a fully funded channel from sender
if sender_channel:
break
registry_address = sender.default_registry.address
receiver = next(
app.raiden for app in raiden_network
if app.raiden.address == sender_channel.partner_state.address
)
# assert there is a direct channel receiver -> sender (vv)
receiver_channel = RaidenAPI(receiver).get_channel_list(
registry_address=registry_address,
token_address=token_address,
partner_address=sender.address,
)
assert len(receiver_channel) == 1
receiver_channel = receiver_channel[0]
exception = ValueError('partner not reachable')
with gevent.Timeout(30, exception=exception):
waiting.wait_for_healthy(sender, receiver.address, 1)
amount = 1
RaidenAPI(sender).transfer_and_wait(
registry_address,
token_address,
amount,
receiver.address,
transfer_timeout=10,
)
exception = ValueError('timeout while waiting for incoming transaction')
with gevent.Timeout(30, exception=exception):
wait_for_transaction(
receiver,
registry_address,
token_address,
sender.address,
)
# test `leave()` method
connection_manager = connection_managers[0]
timeout = (
sender_channel.settle_timeout *
connection_manager.raiden.chain.estimate_blocktime() *
10
)
assert timeout > 0
exception = ValueError('timeout while waiting for leave')
with gevent.Timeout(timeout, exception=exception):
# sender leaves the network
RaidenAPI(sender).token_network_leave(
registry_address,
token_address,
)
before_block = connection_manager.raiden.chain.block_number()
wait_blocks = sender_channel.settle_timeout + 10
# wait until both chains are synced?
wait_until_block(
connection_manager.raiden.chain,
before_block + wait_blocks,
)
wait_until_block(
receiver.chain,
before_block + wait_blocks,
)
receiver_channel = RaidenAPI(receiver).get_channel_list(
registry_address=registry_address,
token_address=token_address,
partner_address=sender.address,
)
# because of timing, channel may already have been cleaned
assert not receiver_channel or receiver_channel[0].settle_transaction is not None
def test_routing_priority(
chain_state,
payment_network_state,
token_network_state,
our_address,
):
open_block_number = 10
pseudo_random_generator = random.Random()
pkey1, address1 = factories.make_privkey_address()
pkey2, address2 = factories.make_privkey_address()
pkey3, address3 = factories.make_privkey_address()
pkey4, address4 = factories.make_privkey_address()
# Create a network with the following topology
#
# our ----- 1/1 ----> (1)
# | |
# | |
# 2/0 x
# | |
# v v
# (2) ----- x -----> (3)
# | |
# | |
# x x
# | |
# v v
# (4) (4)
channel_state1 = factories.make_channel(
our_balance=1,
our_address=our_address,
partner_balance=1,
partner_address=address1,
)
channel_state2 = factories.make_channel(
our_balance=2,
our_address=our_address,
partner_balance=0,
partner_address=address2,
)
# create new channels as participant
channel_new_state_change1 = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_state=channel_state1,
block_number=open_block_number,
)
channel_new_state_change2 = ContractReceiveChannelNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_state=channel_state2,
block_number=open_block_number,
)
channel_new_iteration1 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=token_network_state,
state_change=channel_new_state_change1,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number,
)
channel_new_iteration2 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration1.new_state,
state_change=channel_new_state_change2,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number,
)
# create new channels without being participant
channel_new_state_change3 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_identifier=3,
participant1=address2,
participant2=address3,
block_number=open_block_number,
)
channel_new_iteration3 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration2.new_state,
state_change=channel_new_state_change3,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number + 10,
)
channel_new_state_change4 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_identifier=4,
participant1=address3,
participant2=address1,
block_number=open_block_number,
)
channel_new_iteration4 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration3.new_state,
state_change=channel_new_state_change4,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number + 10,
)
channel_new_state_change5 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_identifier=4,
participant1=address3,
participant2=address4,
block_number=open_block_number,
)
channel_new_iteration5 = token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration4.new_state,
state_change=channel_new_state_change5,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number + 10,
)
channel_new_state_change6 = ContractReceiveRouteNew(
transaction_hash=factories.make_transaction_hash(),
token_network_identifier=token_network_state.address,
channel_identifier=4,
participant1=address2,
participant2=address4,
block_number=open_block_number,
)
token_network.state_transition(
payment_network_identifier=payment_network_state.address,
token_network_state=channel_new_iteration5.new_state,
state_change=channel_new_state_change6,
pseudo_random_generator=pseudo_random_generator,
block_number=open_block_number + 10,
)
# test routing priority with all nodes available
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
routes = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address3,
amount=1,
previous_address=None,
config={},
)
assert routes[0].node_address == address1
assert routes[1].node_address == address2
# number of hops overwrites refunding capacity (route over node 2 involves less hops)
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
address4: NODE_NETWORK_REACHABLE,
}
routes = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address4,
amount=1,
previous_address=None,
config={},
)
assert routes[0].node_address == address2
assert routes[1].node_address == address1
# sufficient routing capacity overwrites refunding capacity
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
routes = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address3,
amount=2,
previous_address=None,
config={},
)
assert routes[0].node_address == address2
# availability overwrites refunding capacity (node 1 offline)
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_UNREACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
routes = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address3,
amount=1,
previous_address=None,
config={},
)
assert routes[0].node_address == address2
def test_routing_mocked_pfs_unavailabe_peer(
chain_state,
payment_network_state,
token_network_state,
our_address,
):
token_network_state, addresses, channel_states = create_square_network_topology(
payment_network_state=payment_network_state,
token_network_state=token_network_state,
our_address=our_address,
)
address1, address2, address3 = addresses
_, channel_state2 = channel_states
# test routing with all nodes available
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_REACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
# channel 1 and 2 are flipped here, to see when the PFS gets called
json_data = {
'result': [
{
'path': [
to_checksum_address(our_address),
to_checksum_address(address2)
],
'fees':
0,
},
{
'path': [
to_checksum_address(our_address),
to_checksum_address(address1)
],
'fees':
0,
},
],
}
# test routing with node 2 unavailable
chain_state.nodeaddresses_to_networkstates = {
address1: NODE_NETWORK_REACHABLE,
address2: NODE_NETWORK_UNREACHABLE,
address3: NODE_NETWORK_REACHABLE,
}
response = Mock()
response.configure_mock(status_code=200)
response.json = Mock(return_value=json_data)
with patch.object(requests, 'post', return_value=response):
routes = get_best_routes(
chain_state=chain_state,
token_network_id=token_network_state.address,
from_address=our_address,
to_address=address1,
amount=50,
previous_address=None,
config={
'services': {
'pathfinding_service_address': 'my-pfs',
'pathfinding_max_paths': 3,
},
},
)
assert routes[0].node_address == address2
assert routes[0].channel_identifier == channel_state2.identifier