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1
);
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID).data().oldest_unpruned_nonce,
1
);
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID_2).data().latest_received_nonce,
1
);
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID_2).data().oldest_unpruned_nonce,
1
);
// in block#2.on_idle lane messages of lane 1 are pruned
let dbw = DbWeight::get();
System::<TestRuntime>::set_block_number(2);
assert_eq!(
Pallet::<TestRuntime, ()>::on_idle(0, dbw.reads_writes(100, 100)),
dbw.reads_writes(1, 2),
);
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID).data().oldest_unpruned_nonce,
2
);
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID_2).data().oldest_unpruned_nonce,
1
);
// in block#3.on_idle lane messages of lane 2 are pruned
System::<TestRuntime>::set_block_number(3);
assert_eq!(
Pallet::<TestRuntime, ()>::on_idle(0, dbw.reads_writes(100, 100)),
dbw.reads_writes(1, 2),
);
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID).data().oldest_unpruned_nonce,
2
);
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID_2).data().oldest_unpruned_nonce,
2
);
});
}
#[test]
fn outbound_message_from_unconfigured_lane_is_rejected() {
run_test(|| {
assert_noop!(
send_message::<TestRuntime, ()>(
RuntimeOrigin::signed(1),
TEST_LANE_ID_3,
REGULAR_PAYLOAD,
),
Error::<TestRuntime, ()>::InactiveOutboundLane,
);
});
}
#[test]
fn test_bridge_messages_call_is_correctly_defined() {
let account_id = 1;
let message_proof: TestMessagesProof = Ok(vec![message(1, REGULAR_PAYLOAD)]).into();
let message_delivery_proof = TestMessagesDeliveryProof(Ok((
TEST_LANE_ID,
InboundLaneData {
last_confirmed_nonce: 1,
relayers: vec![UnrewardedRelayer {
relayer: 0,
messages: DeliveredMessages::new(1),
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}]
.into_iter()
.collect(),
},
)));
let unrewarded_relayer_state = UnrewardedRelayersState {
unrewarded_relayer_entries: 1,
total_messages: 1,
last_delivered_nonce: 1,
..Default::default()
};
let direct_receive_messages_proof_call = Call::<TestRuntime>::receive_messages_proof {
relayer_id_at_bridged_chain: account_id,
proof: message_proof.clone(),
messages_count: 1,
dispatch_weight: REGULAR_PAYLOAD.declared_weight,
};
let indirect_receive_messages_proof_call = BridgeMessagesCall::<
AccountId,
TestMessagesProof,
TestMessagesDeliveryProof,
>::receive_messages_proof {
relayer_id_at_bridged_chain: account_id,
proof: message_proof,
messages_count: 1,
dispatch_weight: REGULAR_PAYLOAD.declared_weight,
};
assert_eq!(
direct_receive_messages_proof_call.encode(),
indirect_receive_messages_proof_call.encode()
);
let direct_receive_messages_delivery_proof_call =
Call::<TestRuntime>::receive_messages_delivery_proof {
proof: message_delivery_proof.clone(),
relayers_state: unrewarded_relayer_state.clone(),
};
let indirect_receive_messages_delivery_proof_call = BridgeMessagesCall::<
AccountId,
TestMessagesProof,
TestMessagesDeliveryProof,
>::receive_messages_delivery_proof {
proof: message_delivery_proof,
relayers_state: unrewarded_relayer_state,
};
assert_eq!(
direct_receive_messages_delivery_proof_call.encode(),
indirect_receive_messages_delivery_proof_call.encode()
);
}
generate_owned_bridge_module_tests!(
MessagesOperatingMode::Basic(BasicOperatingMode::Normal),
MessagesOperatingMode::Basic(BasicOperatingMode::Halted)
);
#[test]
fn inbound_storage_extra_proof_size_bytes_works() {
fn relayer_entry() -> UnrewardedRelayer<TestRelayer> {
UnrewardedRelayer { relayer: 42u64, messages: DeliveredMessages { begin: 0, end: 100 } }
}
fn storage(relayer_entries: usize) -> RuntimeInboundLaneStorage<TestRuntime, ()> {
RuntimeInboundLaneStorage {
lane_id: Default::default(),
cached_data: RefCell::new(Some(InboundLaneData {
relayers: vec![relayer_entry(); relayer_entries].into_iter().collect(),
last_confirmed_nonce: 0,
})),
_phantom: Default::default(),
}
}
let max_entries = crate::mock::MaxUnrewardedRelayerEntriesAtInboundLane::get() as usize;
// when we have exactly `MaxUnrewardedRelayerEntriesAtInboundLane` unrewarded relayers
assert_eq!(storage(max_entries).extra_proof_size_bytes(), 0);
// when we have less than `MaxUnrewardedRelayerEntriesAtInboundLane` unrewarded relayers
assert_eq!(
storage(max_entries - 1).extra_proof_size_bytes(),
relayer_entry().encode().len() as u64
);
assert_eq!(
storage(max_entries - 2).extra_proof_size_bytes(),
2 * relayer_entry().encode().len() as u64
);
// when we have more than `MaxUnrewardedRelayerEntriesAtInboundLane` unrewarded relayers
// (shall not happen in practice)
assert_eq!(storage(max_entries + 1).extra_proof_size_bytes(), 0);
}
#[test]
fn maybe_outbound_lanes_count_returns_correct_value() {
assert_eq!(
MaybeOutboundLanesCount::<TestRuntime, ()>::get(),
Some(mock::ActiveOutboundLanes::get().len() as u32)
);
}