Newer
Older
TEST_LANE_ID,
REGULAR_PAYLOAD,
),
Error::<TestRuntime, ()>::NotOperatingNormally,
);
assert_noop!(
Pallet::<TestRuntime>::receive_messages_proof(
RuntimeOrigin::signed(1),
TEST_RELAYER_A,
Ok(vec![message(2, REGULAR_PAYLOAD)]).into(),
REGULAR_PAYLOAD.declared_weight,
Error::<TestRuntime, ()>::BridgeModule(bp_runtime::OwnedBridgeModuleError::Halted),
);
assert_noop!(
Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
TestMessagesDeliveryProof(Ok((
TEST_LANE_ID,
InboundLaneData {
last_confirmed_nonce: 1,
relayers: vec![unrewarded_relayer(1, 1, TEST_RELAYER_A)]
.into_iter()
.collect(),
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},
UnrewardedRelayersState {
unrewarded_relayer_entries: 1,
messages_in_oldest_entry: 1,
total_messages: 1,
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last_delivered_nonce: 1,
},
Error::<TestRuntime, ()>::BridgeModule(bp_runtime::OwnedBridgeModuleError::Halted),
);
});
}
#[test]
fn pallet_rejects_new_messages_in_rejecting_outbound_messages_operating_mode() {
run_test(|| {
// send message first to be able to check that delivery_proof fails later
send_regular_message();
PalletOperatingMode::<TestRuntime, ()>::put(
MessagesOperatingMode::RejectingOutboundMessages,
);
assert_noop!(
send_message::<TestRuntime, ()>(
RuntimeOrigin::signed(1),
TEST_LANE_ID,
REGULAR_PAYLOAD,
),
Error::<TestRuntime, ()>::NotOperatingNormally,
);
assert_ok!(Pallet::<TestRuntime>::receive_messages_proof(
RuntimeOrigin::signed(1),
TEST_RELAYER_A,
Ok(vec![message(1, REGULAR_PAYLOAD)]).into(),
1,
REGULAR_PAYLOAD.declared_weight,
),);
assert_ok!(Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
TestMessagesDeliveryProof(Ok((
TEST_LANE_ID,
InboundLaneData {
last_confirmed_nonce: 1,
relayers: vec![unrewarded_relayer(1, 1, TEST_RELAYER_A)]
.into_iter()
.collect(),
UnrewardedRelayersState {
unrewarded_relayer_entries: 1,
messages_in_oldest_entry: 1,
total_messages: 1,
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last_delivered_nonce: 1,
},
));
});
}
#[test]
fn send_message_works() {
run_test(|| {
send_regular_message();
});
}
#[test]
fn send_message_rejects_too_large_message() {
run_test(|| {
let mut message_payload = message_payload(1, 0);
// the payload isn't simply extra, so it'll definitely overflow
// `MAX_OUTBOUND_PAYLOAD_SIZE` if we add `MAX_OUTBOUND_PAYLOAD_SIZE` bytes to extra
message_payload
.extra
.extend_from_slice(&[0u8; MAX_OUTBOUND_PAYLOAD_SIZE as usize]);
assert_noop!(
send_message::<TestRuntime, ()>(
RuntimeOrigin::signed(1),
TEST_LANE_ID,
),
Error::<TestRuntime, ()>::MessageIsTooLarge,
);
// let's check that we're able to send `MAX_OUTBOUND_PAYLOAD_SIZE` messages
while message_payload.encoded_size() as u32 > MAX_OUTBOUND_PAYLOAD_SIZE {
message_payload.extra.pop();
}
assert_eq!(message_payload.encoded_size() as u32, MAX_OUTBOUND_PAYLOAD_SIZE);
assert_ok!(send_message::<TestRuntime, ()>(
RuntimeOrigin::signed(1),
TEST_LANE_ID,
message_payload,
),);
})
}
#[test]
fn chain_verifier_rejects_invalid_message_in_send_message() {
run_test(|| {
// messages with this payload are rejected by target chain verifier
assert_noop!(
send_message::<TestRuntime, ()>(
RuntimeOrigin::signed(1),
TEST_LANE_ID,
PAYLOAD_REJECTED_BY_TARGET_CHAIN,
),
Error::<TestRuntime, ()>::MessageRejectedByChainVerifier,
);
});
}
#[test]
fn lane_verifier_rejects_invalid_message_in_send_message() {
run_test(|| {
// messages with zero fee are rejected by lane verifier
let mut message = REGULAR_PAYLOAD;
message.reject_by_lane_verifier = true;
assert_noop!(
send_message::<TestRuntime, ()>(RuntimeOrigin::signed(1), TEST_LANE_ID, message,),
Error::<TestRuntime, ()>::MessageRejectedByLaneVerifier,
);
});
}
#[test]
fn receive_messages_proof_works() {
run_test(|| {
assert_ok!(Pallet::<TestRuntime>::receive_messages_proof(
RuntimeOrigin::signed(1),
TEST_RELAYER_A,
Ok(vec![message(1, REGULAR_PAYLOAD)]).into(),
REGULAR_PAYLOAD.declared_weight,
assert_eq!(InboundLanes::<TestRuntime>::get(TEST_LANE_ID).0.last_delivered_nonce(), 1);
});
}
#[test]
fn receive_messages_proof_updates_confirmed_message_nonce() {
run_test(|| {
// say we have received 10 messages && last confirmed message is 8
InboundLanes::<TestRuntime, ()>::insert(
TEST_LANE_ID,
InboundLaneData {
last_confirmed_nonce: 8,
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relayers: vec![
unrewarded_relayer(9, 9, TEST_RELAYER_A),
unrewarded_relayer(10, 10, TEST_RELAYER_B),
]
.into_iter()
.collect(),
assert_eq!(
inbound_unrewarded_relayers_state(TEST_LANE_ID),
UnrewardedRelayersState {
unrewarded_relayer_entries: 2,
messages_in_oldest_entry: 1,
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total_messages: 2,
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last_delivered_nonce: 10,
},
);
// message proof includes outbound lane state with latest confirmed message updated to 9
let mut message_proof: TestMessagesProof =
Ok(vec![message(11, REGULAR_PAYLOAD)]).into();
message_proof.result.as_mut().unwrap()[0].1.lane_state =
Some(OutboundLaneData { latest_received_nonce: 9, ..Default::default() });
assert_ok!(Pallet::<TestRuntime>::receive_messages_proof(
RuntimeOrigin::signed(1),
TEST_RELAYER_A,
message_proof,
REGULAR_PAYLOAD.declared_weight,
));
assert_eq!(
InboundLanes::<TestRuntime>::get(TEST_LANE_ID).0,
InboundLaneData {
last_confirmed_nonce: 9,
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relayers: vec![
unrewarded_relayer(10, 10, TEST_RELAYER_B),
unrewarded_relayer(11, 11, TEST_RELAYER_A)
]
.into_iter()
.collect(),
assert_eq!(
inbound_unrewarded_relayers_state(TEST_LANE_ID),
UnrewardedRelayersState {
unrewarded_relayer_entries: 2,
messages_in_oldest_entry: 1,
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total_messages: 2,
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last_delivered_nonce: 11,
},
);
});
}
#[test]
fn receive_messages_proof_does_not_accept_message_if_dispatch_weight_is_not_enough() {
run_test(|| {
let mut declared_weight = REGULAR_PAYLOAD.declared_weight;
*declared_weight.ref_time_mut() -= 1;
assert_ok!(Pallet::<TestRuntime>::receive_messages_proof(
RuntimeOrigin::signed(1),
TEST_RELAYER_A,
Ok(vec![message(1, REGULAR_PAYLOAD)]).into(),
1,
declared_weight,
));
assert_eq!(InboundLanes::<TestRuntime>::get(TEST_LANE_ID).last_delivered_nonce(), 0);
});
}
#[test]
fn receive_messages_proof_rejects_invalid_proof() {
run_test(|| {
assert_noop!(
Pallet::<TestRuntime, ()>::receive_messages_proof(
RuntimeOrigin::signed(1),
TEST_RELAYER_A,
Err(()).into(),
Weight::from_ref_time(0),
Error::<TestRuntime, ()>::InvalidMessagesProof,
);
});
}
#[test]
fn receive_messages_proof_rejects_proof_with_too_many_messages() {
run_test(|| {
assert_noop!(
Pallet::<TestRuntime, ()>::receive_messages_proof(
RuntimeOrigin::signed(1),
TEST_RELAYER_A,
Ok(vec![message(1, REGULAR_PAYLOAD)]).into(),
u32::MAX,
Weight::from_ref_time(0),
Error::<TestRuntime, ()>::TooManyMessagesInTheProof,
#[test]
fn receive_messages_delivery_proof_works() {
run_test(|| {
send_regular_message();
receive_messages_delivery_proof();
assert_eq!(
OutboundLanes::<TestRuntime, ()>::get(TEST_LANE_ID).latest_received_nonce,
1,
);
});
}
#[test]
fn receive_messages_delivery_proof_rewards_relayers() {
run_test(|| {
assert_ok!(send_message::<TestRuntime, ()>(
RuntimeOrigin::signed(1),
TEST_LANE_ID,
REGULAR_PAYLOAD,
));
assert_ok!(send_message::<TestRuntime, ()>(
RuntimeOrigin::signed(1),
TEST_LANE_ID,
REGULAR_PAYLOAD,
));
// this reports delivery of message 1 => reward is paid to TEST_RELAYER_A
assert_ok!(Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
TestMessagesDeliveryProof(Ok((
TEST_LANE_ID,
InboundLaneData {
relayers: vec![unrewarded_relayer(1, 1, TEST_RELAYER_A)]
.into_iter()
.collect(),
..Default::default()
}
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UnrewardedRelayersState {
unrewarded_relayer_entries: 1,
total_messages: 1,
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last_delivered_nonce: 1,
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..Default::default()
},
assert!(TestMessageDeliveryAndDispatchPayment::is_reward_paid(TEST_RELAYER_A, 1));
assert!(!TestMessageDeliveryAndDispatchPayment::is_reward_paid(TEST_RELAYER_B, 1));
// this reports delivery of both message 1 and message 2 => reward is paid only to
// TEST_RELAYER_B
assert_ok!(Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
TestMessagesDeliveryProof(Ok((
TEST_LANE_ID,
InboundLaneData {
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relayers: vec![
unrewarded_relayer(1, 1, TEST_RELAYER_A),
unrewarded_relayer(2, 2, TEST_RELAYER_B)
]
.into_iter()
.collect(),
..Default::default()
}
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UnrewardedRelayersState {
unrewarded_relayer_entries: 2,
total_messages: 2,
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last_delivered_nonce: 2,
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..Default::default()
},
assert!(!TestMessageDeliveryAndDispatchPayment::is_reward_paid(TEST_RELAYER_A, 1));
assert!(TestMessageDeliveryAndDispatchPayment::is_reward_paid(TEST_RELAYER_B, 1));
#[test]
fn receive_messages_delivery_proof_rejects_invalid_proof() {
run_test(|| {
assert_noop!(
Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
TestMessagesDeliveryProof(Err(())),
Default::default(),
),
Error::<TestRuntime, ()>::InvalidMessagesDeliveryProof,
);
});
}
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#[test]
fn receive_messages_delivery_proof_rejects_proof_if_declared_relayers_state_is_invalid() {
run_test(|| {
// when number of relayers entries is invalid
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assert_noop!(
Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
TestMessagesDeliveryProof(Ok((
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TEST_LANE_ID,
InboundLaneData {
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relayers: vec![
unrewarded_relayer(1, 1, TEST_RELAYER_A),
unrewarded_relayer(2, 2, TEST_RELAYER_B)
]
.into_iter()
.collect(),
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..Default::default()
}
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UnrewardedRelayersState {
unrewarded_relayer_entries: 1,
total_messages: 2,
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last_delivered_nonce: 2,
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..Default::default()
},
),
Error::<TestRuntime, ()>::InvalidUnrewardedRelayersState,
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);
// when number of messages is invalid
assert_noop!(
Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
TestMessagesDeliveryProof(Ok((
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TEST_LANE_ID,
InboundLaneData {
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relayers: vec![
unrewarded_relayer(1, 1, TEST_RELAYER_A),
unrewarded_relayer(2, 2, TEST_RELAYER_B)
]
.into_iter()
.collect(),
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..Default::default()
}
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UnrewardedRelayersState {
unrewarded_relayer_entries: 2,
total_messages: 1,
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last_delivered_nonce: 2,
..Default::default()
},
),
Error::<TestRuntime, ()>::InvalidUnrewardedRelayersState,
);
// when last delivered nonce is invalid
assert_noop!(
Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
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TestMessagesDeliveryProof(Ok((
TEST_LANE_ID,
InboundLaneData {
relayers: vec![
unrewarded_relayer(1, 1, TEST_RELAYER_A),
unrewarded_relayer(2, 2, TEST_RELAYER_B)
]
.into_iter()
.collect(),
..Default::default()
}
))),
UnrewardedRelayersState {
unrewarded_relayer_entries: 2,
total_messages: 2,
last_delivered_nonce: 8,
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..Default::default()
},
),
Error::<TestRuntime, ()>::InvalidUnrewardedRelayersState,
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);
});
}
#[test]
fn receive_messages_accepts_single_message_with_invalid_payload() {
run_test(|| {
let mut invalid_message = message(1, REGULAR_PAYLOAD);
invalid_message.payload = Vec::new();
assert_ok!(Pallet::<TestRuntime, ()>::receive_messages_proof(
RuntimeOrigin::signed(1),
TEST_RELAYER_A,
Ok(vec![invalid_message]).into(),
Weight::from_ref_time(0), /* weight may be zero in this case (all messages are
* improperly encoded) */
assert_eq!(InboundLanes::<TestRuntime>::get(TEST_LANE_ID).last_delivered_nonce(), 1,);
});
}
#[test]
fn receive_messages_accepts_batch_with_message_with_invalid_payload() {
run_test(|| {
let mut invalid_message = message(2, REGULAR_PAYLOAD);
invalid_message.payload = Vec::new();
assert_ok!(Pallet::<TestRuntime, ()>::receive_messages_proof(
RuntimeOrigin::signed(1),
Ok(
vec![message(1, REGULAR_PAYLOAD), invalid_message, message(3, REGULAR_PAYLOAD),]
)
REGULAR_PAYLOAD.declared_weight + REGULAR_PAYLOAD.declared_weight,
assert_eq!(InboundLanes::<TestRuntime>::get(TEST_LANE_ID).last_delivered_nonce(), 3,);
#[test]
fn actual_dispatch_weight_does_not_overlow() {
run_test(|| {
let message1 = message(1, message_payload(0, u64::MAX / 2));
let message2 = message(2, message_payload(0, u64::MAX / 2));
let message3 = message(3, message_payload(0, u64::MAX / 2));
assert_ok!(Pallet::<TestRuntime, ()>::receive_messages_proof(
RuntimeOrigin::signed(1),
TEST_RELAYER_A,
// this may cause overflow if source chain storage is invalid
Ok(vec![message1, message2, message3]).into(),
3,
Weight::MAX,
));
assert_eq!(InboundLanes::<TestRuntime>::get(TEST_LANE_ID).last_delivered_nonce(), 2);
#[test]
fn weight_refund_from_receive_messages_proof_works() {
run_test(|| {
fn submit_with_unspent_weight(
nonce: MessageNonce,
unspent_weight: u64,
) -> (Weight, Weight) {
let mut payload = REGULAR_PAYLOAD;
*payload.dispatch_result.unspent_weight.ref_time_mut() = unspent_weight;
let proof = Ok(vec![message(nonce, payload)]).into();
let messages_count = 1;
let pre_dispatch_weight =
<TestRuntime as Config>::WeightInfo::receive_messages_proof_weight(
&proof,
messages_count,
REGULAR_PAYLOAD.declared_weight,
);
let post_dispatch_weight = Pallet::<TestRuntime>::receive_messages_proof(
RuntimeOrigin::signed(1),
TEST_RELAYER_A,
proof,
messages_count,
REGULAR_PAYLOAD.declared_weight,
)
.expect("delivery has failed")
.actual_weight
.expect("receive_messages_proof always returns Some");
(pre_dispatch_weight, post_dispatch_weight)
}
// when dispatch is returning `unspent_weight < declared_weight`
let (pre, post) = submit_with_unspent_weight(1, 1);
assert_eq!(post.ref_time(), pre.ref_time() - 1);
// when dispatch is returning `unspent_weight = declared_weight`
let (pre, post) =
submit_with_unspent_weight(2, REGULAR_PAYLOAD.declared_weight.ref_time());
assert_eq!(
post.ref_time(),
pre.ref_time() - REGULAR_PAYLOAD.declared_weight.ref_time()
);
// when dispatch is returning `unspent_weight > declared_weight`
let (pre, post) =
submit_with_unspent_weight(3, REGULAR_PAYLOAD.declared_weight.ref_time() + 1);
assert_eq!(
post.ref_time(),
pre.ref_time() - REGULAR_PAYLOAD.declared_weight.ref_time()
);
// when there's no unspent weight
let (pre, post) = submit_with_unspent_weight(4, 0);
assert_eq!(post, pre);
// when dispatch is returning `unspent_weight < declared_weight`
let (pre, post) = submit_with_unspent_weight(5, 1);
assert_eq!(post.ref_time(), pre.ref_time() - 1);
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#[test]
fn messages_delivered_callbacks_are_called() {
run_test(|| {
send_regular_message();
send_regular_message();
send_regular_message();
// messages 1+2 are confirmed in 1 tx, message 3 in a separate tx
// dispatch of message 2 has failed
let mut delivered_messages_1_and_2 = DeliveredMessages::new(1);
delivered_messages_1_and_2.note_dispatched_message();
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let messages_1_and_2_proof = Ok((
TEST_LANE_ID,
InboundLaneData {
last_confirmed_nonce: 0,
relayers: vec![UnrewardedRelayer {
relayer: 0,
messages: delivered_messages_1_and_2.clone(),
}]
.into_iter()
.collect(),
},
));
let delivered_message_3 = DeliveredMessages::new(3);
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let messages_3_proof = Ok((
TEST_LANE_ID,
InboundLaneData {
last_confirmed_nonce: 0,
relayers: vec![UnrewardedRelayer { relayer: 0, messages: delivered_message_3 }]
.into_iter()
.collect(),
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},
));
// first tx with messages 1+2
assert_ok!(Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
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TestMessagesDeliveryProof(messages_1_and_2_proof),
UnrewardedRelayersState {
unrewarded_relayer_entries: 1,
total_messages: 2,
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last_delivered_nonce: 2,
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..Default::default()
},
));
// second tx with message 3
assert_ok!(Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
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TestMessagesDeliveryProof(messages_3_proof),
UnrewardedRelayersState {
unrewarded_relayer_entries: 1,
total_messages: 1,
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last_delivered_nonce: 3,
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..Default::default()
},
));
});
}
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#[test]
fn receive_messages_delivery_proof_rejects_proof_if_trying_to_confirm_more_messages_than_expected(
) {
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run_test(|| {
// send message first to be able to check that delivery_proof fails later
send_regular_message();
// 1) InboundLaneData declares that the `last_confirmed_nonce` is 1;
// 2) InboundLaneData has no entries => `InboundLaneData::last_delivered_nonce()`
// returns `last_confirmed_nonce`;
// 3) it means that we're going to confirm delivery of messages 1..=1;
// 4) so the number of declared messages (see `UnrewardedRelayersState`) is `0` and
// numer of actually confirmed messages is `1`.
assert_noop!(
Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
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TestMessagesDeliveryProof(Ok((
TEST_LANE_ID,
InboundLaneData { last_confirmed_nonce: 1, relayers: Default::default() },
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))),
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UnrewardedRelayersState { last_delivered_nonce: 1, ..Default::default() },
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),
Error::<TestRuntime, ()>::TryingToConfirmMoreMessagesThanExpected,
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);
});
}
#[test]
fn storage_keys_computed_properly() {
assert_eq!(
PalletOperatingMode::<TestRuntime>::storage_value_final_key().to_vec(),
bp_messages::storage_keys::operating_mode_key("Messages").0,
);
assert_eq!(
OutboundMessages::<TestRuntime>::storage_map_final_key(MessageKey {
lane_id: TEST_LANE_ID,
nonce: 42
}),
bp_messages::storage_keys::message_key("Messages", &TEST_LANE_ID, 42).0,
);
assert_eq!(
OutboundLanes::<TestRuntime>::storage_map_final_key(TEST_LANE_ID),
bp_messages::storage_keys::outbound_lane_data_key("Messages", &TEST_LANE_ID).0,
);
assert_eq!(
InboundLanes::<TestRuntime>::storage_map_final_key(TEST_LANE_ID),
bp_messages::storage_keys::inbound_lane_data_key("Messages", &TEST_LANE_ID).0,
);
}
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#[test]
fn inbound_message_details_works() {
run_test(|| {
assert_eq!(
Pallet::<TestRuntime>::inbound_message_data(
TEST_LANE_ID,
REGULAR_PAYLOAD.encode(),
OutboundMessageDetails {
nonce: 0,
dispatch_weight: Weight::from_ref_time(0),
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size: 0,
},
),
InboundMessageDetails { dispatch_weight: REGULAR_PAYLOAD.declared_weight },
);
});
}
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#[test]
fn on_idle_callback_respects_remaining_weight() {
run_test(|| {
send_regular_message();
send_regular_message();
send_regular_message();
send_regular_message();
assert_ok!(Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
TestMessagesDeliveryProof(Ok((
TEST_LANE_ID,
InboundLaneData {
last_confirmed_nonce: 4,
relayers: vec![unrewarded_relayer(1, 4, TEST_RELAYER_A)]
.into_iter()
.collect(),
},
))),
UnrewardedRelayersState {
unrewarded_relayer_entries: 1,
messages_in_oldest_entry: 4,
total_messages: 4,
last_delivered_nonce: 4,
},
));
// all 4 messages may be pruned now
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID).data().latest_received_nonce,
4
);
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID).data().oldest_unpruned_nonce,
1
);
System::<TestRuntime>::set_block_number(2);
// if passed wight is too low to do anything
let dbw = DbWeight::get();
assert_eq!(
Pallet::<TestRuntime, ()>::on_idle(0, dbw.reads_writes(1, 1)),
Weight::zero(),
);
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID).data().oldest_unpruned_nonce,
1
);
// if passed wight is enough to prune single message
assert_eq!(
Pallet::<TestRuntime, ()>::on_idle(0, dbw.reads_writes(1, 2)),
dbw.reads_writes(1, 2),
);
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID).data().oldest_unpruned_nonce,
2
);
// if passed wight is enough to prune two more messages
assert_eq!(
Pallet::<TestRuntime, ()>::on_idle(0, dbw.reads_writes(1, 3)),
dbw.reads_writes(1, 3),
);
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID).data().oldest_unpruned_nonce,
4
);
// if passed wight is enough to prune many messages
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,
5
);
});
}
#[test]
fn on_idle_callback_is_rotating_lanes_to_prune() {
run_test(|| {
// send + receive confirmation for lane 1
send_regular_message();
receive_messages_delivery_proof();
// send + receive confirmation for lane 2
assert_ok!(send_message::<TestRuntime, ()>(
RuntimeOrigin::signed(1),
TEST_LANE_ID_2,
REGULAR_PAYLOAD,
));
assert_ok!(Pallet::<TestRuntime>::receive_messages_delivery_proof(
RuntimeOrigin::signed(1),
TestMessagesDeliveryProof(Ok((
TEST_LANE_ID_2,
InboundLaneData {
last_confirmed_nonce: 1,
relayers: vec![unrewarded_relayer(1, 1, TEST_RELAYER_A)]
.into_iter()
.collect(),
},
))),
UnrewardedRelayersState {
unrewarded_relayer_entries: 1,
messages_in_oldest_entry: 1,
total_messages: 1,
last_delivered_nonce: 1,
},
));
// nothing is pruned yet
assert_eq!(
outbound_lane::<TestRuntime, ()>(TEST_LANE_ID).data().latest_received_nonce,
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,
);
});
}
generate_owned_bridge_module_tests!(
MessagesOperatingMode::Basic(BasicOperatingMode::Normal),
MessagesOperatingMode::Basic(BasicOperatingMode::Halted)
);