Newer
Older
Ok(())
}
}
/// Creates new inbound lane object, backed by runtime storage.
fn inbound_lane<T: Config<I>, I: 'static>(lane_id: LaneId) -> InboundLane<RuntimeInboundLaneStorage<T, I>> {
InboundLane::new(inbound_lane_storage::<T, I>(lane_id))
}
/// Creates new runtime inbound lane storage.
fn inbound_lane_storage<T: Config<I>, I: 'static>(lane_id: LaneId) -> RuntimeInboundLaneStorage<T, I> {
RuntimeInboundLaneStorage {
cached_data: RefCell::new(None),
_phantom: Default::default(),
}
/// Creates new outbound lane object, backed by runtime storage.
fn outbound_lane<T: Config<I>, I: 'static>(lane_id: LaneId) -> OutboundLane<RuntimeOutboundLaneStorage<T, I>> {
OutboundLane::new(RuntimeOutboundLaneStorage {
lane_id,
_phantom: Default::default(),
})
}
/// Runtime inbound lane storage.
struct RuntimeInboundLaneStorage<T: Config<I>, I: 'static = ()> {
cached_data: RefCell<Option<InboundLaneData<T::InboundRelayer>>>,
_phantom: PhantomData<I>,
impl<T: Config<I>, I: 'static> InboundLaneStorage for RuntimeInboundLaneStorage<T, I> {
type MessageFee = T::InboundMessageFee;
type Relayer = T::InboundRelayer;
fn id(&self) -> LaneId {
self.lane_id
}
fn max_unrewarded_relayer_entries(&self) -> MessageNonce {
T::MaxUnrewardedRelayerEntriesAtInboundLane::get()
}
fn max_unconfirmed_messages(&self) -> MessageNonce {
T::MaxUnconfirmedMessagesAtInboundLane::get()
}
fn data(&self) -> InboundLaneData<T::InboundRelayer> {
match self.cached_data.clone().into_inner() {
Some(data) => data,
None => {
let data = InboundLanes::<T, I>::get(&self.lane_id);
*self.cached_data.try_borrow_mut().expect(
"we're in the single-threaded environment;\
we have no recursive borrows; qed",
) = Some(data.clone());
data
}
}
fn set_data(&mut self, data: InboundLaneData<T::InboundRelayer>) {
*self.cached_data.try_borrow_mut().expect(
"we're in the single-threaded environment;\
we have no recursive borrows; qed",
) = Some(data.clone());
InboundLanes::<T, I>::insert(&self.lane_id, data)
}
}
/// Runtime outbound lane storage.
struct RuntimeOutboundLaneStorage<T, I = ()> {
lane_id: LaneId,
_phantom: PhantomData<(T, I)>,
}
impl<T: Config<I>, I: 'static> OutboundLaneStorage for RuntimeOutboundLaneStorage<T, I> {
type MessageFee = T::OutboundMessageFee;
fn id(&self) -> LaneId {
self.lane_id
}
fn data(&self) -> OutboundLaneData {
OutboundLanes::<T, I>::get(&self.lane_id)
}
fn set_data(&mut self, data: OutboundLaneData) {
OutboundLanes::<T, I>::insert(&self.lane_id, data)
}
#[cfg(test)]
fn message(&self, nonce: &MessageNonce) -> Option<MessageData<T::OutboundMessageFee>> {
OutboundMessages::<T, I>::get(MessageKey {
lane_id: self.lane_id,
nonce: *nonce,
})
}
fn save_message(&mut self, nonce: MessageNonce, mesage_data: MessageData<T::OutboundMessageFee>) {
OutboundMessages::<T, I>::insert(
MessageKey {
lane_id: self.lane_id,
nonce,
},
);
}
fn remove_message(&mut self, nonce: &MessageNonce) {
OutboundMessages::<T, I>::remove(MessageKey {
lane_id: self.lane_id,
nonce: *nonce,
});
}
}
/// Verify messages proof and return proved messages with decoded payload.
fn verify_and_decode_messages_proof<Chain: SourceHeaderChain<Fee>, Fee, DispatchPayload: Decode>(
proof: Chain::MessagesProof,
) -> Result<ProvedMessages<DispatchMessage<DispatchPayload, Fee>>, Chain::Error> {
// `receive_messages_proof` weight formula and `MaxUnconfirmedMessagesAtInboundLane` check
// guarantees that the `message_count` is sane and Vec<Message> may be allocated.
// (tx with too many messages will either be rejected from the pool, or will fail earlier)
Chain::verify_messages_proof(proof, messages_count).map(|messages_by_lane| {
messages_by_lane
.into_iter()
.map(|(lane, lane_data)| {
(
lane,
ProvedLaneMessages {
lane_state: lane_data.lane_state,
messages: lane_data.messages.into_iter().map(Into::into).collect(),
},
)
})
.collect()
})
}
#[cfg(test)]
mod tests {
use super::*;
use crate::mock::{
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message, message_payload, run_test, unrewarded_relayer, Event as TestEvent, Origin,
TestMessageDeliveryAndDispatchPayment, TestMessagesDeliveryProof, TestMessagesParameter, TestMessagesProof,
TestOnDeliveryConfirmed1, TestOnDeliveryConfirmed2, TestOnMessageAccepted, TestRuntime, TokenConversionRate,
PAYLOAD_REJECTED_BY_TARGET_CHAIN, REGULAR_PAYLOAD, TEST_LANE_ID, TEST_RELAYER_A, TEST_RELAYER_B,
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use bp_messages::{UnrewardedRelayer, UnrewardedRelayersState};
use frame_support::{assert_noop, assert_ok, weights::Weight};
use frame_system::{EventRecord, Pallet as System, Phase};
use hex_literal::hex;
use sp_runtime::DispatchError;
fn get_ready_for_events() {
System::<TestRuntime>::set_block_number(1);
System::<TestRuntime>::reset_events();
}
fn send_regular_message() -> Weight {
get_ready_for_events();
let message_nonce = outbound_lane::<TestRuntime, ()>(TEST_LANE_ID)
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.data()
.latest_generated_nonce
+ 1;
let weight = Pallet::<TestRuntime>::send_message(
Origin::signed(1),
TEST_LANE_ID,
REGULAR_PAYLOAD,
REGULAR_PAYLOAD.declared_weight,
)
.expect("send_message has failed")
.actual_weight
.expect("send_message always returns Some");
// check event with assigned nonce
assert_eq!(
System::<TestRuntime>::events(),
vec![EventRecord {
phase: Phase::Initialization,
event: TestEvent::Messages(Event::MessageAccepted(TEST_LANE_ID, message_nonce)),
topics: vec![],
}],
);
// check that fee has been withdrawn from submitter
assert!(TestMessageDeliveryAndDispatchPayment::is_fee_paid(
1,
REGULAR_PAYLOAD.declared_weight
));
}
fn receive_messages_delivery_proof() {
System::<TestRuntime>::set_block_number(1);
System::<TestRuntime>::reset_events();
assert_ok!(Pallet::<TestRuntime>::receive_messages_delivery_proof(
Origin::signed(1),
TestMessagesDeliveryProof(Ok((
TEST_LANE_ID,
InboundLaneData {
last_confirmed_nonce: 1,
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relayers: vec![UnrewardedRelayer {
relayer: 0,
messages: DeliveredMessages::new(1, true),
}]
.into_iter()
.collect(),
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},
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UnrewardedRelayersState {
unrewarded_relayer_entries: 1,
total_messages: 1,
..Default::default()
},
));
assert_eq!(
System::<TestRuntime>::events(),
vec![EventRecord {
phase: Phase::Initialization,
event: TestEvent::Messages(Event::MessagesDelivered(TEST_LANE_ID, DeliveredMessages::new(1, true),)),
topics: vec![],
}],
);
}
#[test]
fn pallet_owner_may_change_owner() {
run_test(|| {
assert_ok!(Pallet::<TestRuntime>::set_owner(Origin::root(), Some(1)));
Pallet::<TestRuntime>::set_operating_mode(Origin::signed(2), OperatingMode::Halted),
DispatchError::BadOrigin,
);
assert_ok!(Pallet::<TestRuntime>::set_operating_mode(
Origin::root(),
OperatingMode::Halted
));
assert_ok!(Pallet::<TestRuntime>::set_owner(Origin::signed(1), None));
Pallet::<TestRuntime>::set_operating_mode(Origin::signed(1), OperatingMode::Normal),
DispatchError::BadOrigin,
);
assert_noop!(
Pallet::<TestRuntime>::set_operating_mode(Origin::signed(2), OperatingMode::Normal),
DispatchError::BadOrigin,
);
assert_ok!(Pallet::<TestRuntime>::set_operating_mode(
Origin::root(),
OperatingMode::Normal
));
});
}
#[test]
fn pallet_may_be_halted_by_root() {
run_test(|| {
assert_ok!(Pallet::<TestRuntime>::set_operating_mode(
Origin::root(),
OperatingMode::Halted
));
assert_ok!(Pallet::<TestRuntime>::set_operating_mode(
Origin::root(),
OperatingMode::Normal
));
});
}
#[test]
fn pallet_may_be_halted_by_owner() {
run_test(|| {
assert_ok!(Pallet::<TestRuntime>::set_operating_mode(
Origin::signed(2),
OperatingMode::Halted
));
assert_ok!(Pallet::<TestRuntime>::set_operating_mode(
Origin::signed(2),
OperatingMode::Normal
));
assert_noop!(
Pallet::<TestRuntime>::set_operating_mode(Origin::signed(1), OperatingMode::Halted),
DispatchError::BadOrigin,
);
assert_noop!(
Pallet::<TestRuntime>::set_operating_mode(Origin::signed(1), OperatingMode::Normal),
DispatchError::BadOrigin,
);
assert_ok!(Pallet::<TestRuntime>::set_operating_mode(
Origin::signed(2),
OperatingMode::Halted
));
Pallet::<TestRuntime>::set_operating_mode(Origin::signed(1), OperatingMode::Normal),
DispatchError::BadOrigin,
);
});
}
#[test]
fn pallet_parameter_may_be_updated_by_root() {
run_test(|| {
get_ready_for_events();
let parameter = TestMessagesParameter::TokenConversionRate(10.into());
assert_ok!(Pallet::<TestRuntime>::update_pallet_parameter(
Origin::root(),
parameter.clone(),
));
assert_eq!(TokenConversionRate::get(), 10.into());
assert_eq!(
System::<TestRuntime>::events(),
vec![EventRecord {
phase: Phase::Initialization,
event: TestEvent::Messages(Event::ParameterUpdated(parameter)),
topics: vec![],
}],
);
});
}
#[test]
fn pallet_parameter_may_be_updated_by_owner() {
run_test(|| {
get_ready_for_events();
let parameter = TestMessagesParameter::TokenConversionRate(10.into());
assert_ok!(Pallet::<TestRuntime>::update_pallet_parameter(
Origin::signed(2),
parameter.clone(),
));
assert_eq!(TokenConversionRate::get(), 10.into());
assert_eq!(
System::<TestRuntime>::events(),
vec![EventRecord {
phase: Phase::Initialization,
event: TestEvent::Messages(Event::ParameterUpdated(parameter)),
topics: vec![],
}],
);
});
}
#[test]
fn pallet_parameter_cant_be_updated_by_arbitrary_submitter() {
run_test(|| {
assert_noop!(
Pallet::<TestRuntime>::update_pallet_parameter(
Origin::signed(2),
TestMessagesParameter::TokenConversionRate(10.into()),
),
DispatchError::BadOrigin,
);
assert_noop!(
Pallet::<TestRuntime>::update_pallet_parameter(
Origin::signed(1),
TestMessagesParameter::TokenConversionRate(10.into()),
1378
1379
1380
1381
1382
1383
1384
1385
1386
1387
1388
1389
1390
1391
1392
1393
1394
1395
1396
1397
1398
1399
1400
1401
1402
1403
1404
1405
1406
1407
1408
),
DispatchError::BadOrigin,
);
});
}
#[test]
fn fixed_u128_works_as_i_think() {
// this test is here just to be sure that conversion rate may be represented with FixedU128
run_test(|| {
use sp_runtime::{FixedPointNumber, FixedU128};
// 1:1 conversion that we use by default for testnets
let rialto_token = 1u64;
let rialto_token_in_millau_tokens = TokenConversionRate::get().saturating_mul_int(rialto_token);
assert_eq!(rialto_token_in_millau_tokens, 1);
// let's say conversion rate is 1:1.7
let conversion_rate = FixedU128::saturating_from_rational(170, 100);
let rialto_tokens = 100u64;
let rialto_tokens_in_millau_tokens = conversion_rate.saturating_mul_int(rialto_tokens);
assert_eq!(rialto_tokens_in_millau_tokens, 170);
// let's say conversion rate is 1:0.25
let conversion_rate = FixedU128::saturating_from_rational(25, 100);
let rialto_tokens = 100u64;
let rialto_tokens_in_millau_tokens = conversion_rate.saturating_mul_int(rialto_tokens);
assert_eq!(rialto_tokens_in_millau_tokens, 25);
});
}
#[test]
fn pallet_rejects_transactions_if_halted() {
run_test(|| {
// send message first to be able to check that delivery_proof fails later
send_regular_message();
PalletOperatingMode::<TestRuntime, ()>::put(OperatingMode::Halted);
assert_noop!(
Origin::signed(1),
TEST_LANE_ID,
REGULAR_PAYLOAD,
REGULAR_PAYLOAD.declared_weight,
Error::<TestRuntime, ()>::Halted,
assert_noop!(
Pallet::<TestRuntime>::increase_message_fee(Origin::signed(1), TEST_LANE_ID, 1, 1,),
Error::<TestRuntime, ()>::Halted,
Pallet::<TestRuntime>::receive_messages_proof(
Origin::signed(1),
TEST_RELAYER_A,
Ok(vec![message(2, REGULAR_PAYLOAD)]).into(),
REGULAR_PAYLOAD.declared_weight,
Error::<TestRuntime, ()>::Halted,
);
assert_noop!(
Pallet::<TestRuntime>::receive_messages_delivery_proof(
Origin::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,
},
Error::<TestRuntime, ()>::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(OperatingMode::RejectingOutboundMessages);
assert_noop!(
Pallet::<TestRuntime>::send_message(
Origin::signed(1),
TEST_LANE_ID,
REGULAR_PAYLOAD,
REGULAR_PAYLOAD.declared_weight,
Error::<TestRuntime, ()>::Halted,
);
assert_ok!(Pallet::<TestRuntime>::increase_message_fee(
Origin::signed(1),
TEST_LANE_ID,
1,
1,
));
assert_ok!(Pallet::<TestRuntime>::receive_messages_proof(
Origin::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(
Origin::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,
},
));
});
}
#[test]
fn send_message_works() {
run_test(|| {
send_regular_message();
});
}
#[test]
fn chain_verifier_rejects_invalid_message_in_send_message() {
run_test(|| {
// messages with this payload are rejected by target chain verifier
assert_noop!(
Origin::signed(1),
TEST_LANE_ID,
PAYLOAD_REJECTED_BY_TARGET_CHAIN,
PAYLOAD_REJECTED_BY_TARGET_CHAIN.declared_weight
Error::<TestRuntime, ()>::MessageRejectedByChainVerifier,
);
});
}
#[test]
fn lane_verifier_rejects_invalid_message_in_send_message() {
run_test(|| {
// messages with zero fee are rejected by lane verifier
assert_noop!(
Pallet::<TestRuntime>::send_message(Origin::signed(1), TEST_LANE_ID, REGULAR_PAYLOAD, 0),
Error::<TestRuntime, ()>::MessageRejectedByLaneVerifier,
);
});
}
#[test]
fn message_send_fails_if_submitter_cant_pay_message_fee() {
run_test(|| {
TestMessageDeliveryAndDispatchPayment::reject_payments();
assert_noop!(
Origin::signed(1),
TEST_LANE_ID,
REGULAR_PAYLOAD,
REGULAR_PAYLOAD.declared_weight
Error::<TestRuntime, ()>::FailedToWithdrawMessageFee,
);
});
}
#[test]
fn receive_messages_proof_works() {
run_test(|| {
assert_ok!(Pallet::<TestRuntime>::receive_messages_proof(
Origin::signed(1),
TEST_RELAYER_A,
Ok(vec![message(1, REGULAR_PAYLOAD)]).into(),
REGULAR_PAYLOAD.declared_weight,
assert_eq!(InboundLanes::<TestRuntime>::get(TEST_LANE_ID).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!(
Pallet::<TestRuntime>::inbound_unrewarded_relayers_state(TEST_LANE_ID),
UnrewardedRelayersState {
unrewarded_relayer_entries: 2,
messages_in_oldest_entry: 1,
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total_messages: 2,
},
);
// 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(
Origin::signed(1),
TEST_RELAYER_A,
message_proof,
REGULAR_PAYLOAD.declared_weight,
));
assert_eq!(
InboundLanes::<TestRuntime>::get(TEST_LANE_ID),
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!(
Pallet::<TestRuntime>::inbound_unrewarded_relayers_state(TEST_LANE_ID),
UnrewardedRelayersState {
unrewarded_relayer_entries: 2,
messages_in_oldest_entry: 1,
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total_messages: 2,
},
);
});
}
#[test]
fn receive_messages_proof_does_not_accept_message_if_dispatch_weight_is_not_enough() {
run_test(|| {
assert_ok!(Pallet::<TestRuntime>::receive_messages_proof(
Origin::signed(1),
TEST_RELAYER_A,
Ok(vec![message(1, REGULAR_PAYLOAD)]).into(),
1,
REGULAR_PAYLOAD.declared_weight - 1,
));
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(
Origin::signed(1),
TEST_RELAYER_A,
Err(()).into(),
Error::<TestRuntime, ()>::InvalidMessagesProof,
);
});
}
#[test]
fn receive_messages_proof_rejects_proof_with_too_many_messages() {
run_test(|| {
assert_noop!(
Pallet::<TestRuntime, ()>::receive_messages_proof(
Origin::signed(1),
TEST_RELAYER_A,
Ok(vec![message(1, REGULAR_PAYLOAD)]).into(),
u32::MAX,
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!(Pallet::<TestRuntime>::send_message(
Origin::signed(1),
TEST_LANE_ID,
REGULAR_PAYLOAD,
1000,
));
assert_ok!(Pallet::<TestRuntime>::send_message(
Origin::signed(1),
TEST_LANE_ID,
REGULAR_PAYLOAD,
2000,
));
// this reports delivery of message 1 => reward is paid to TEST_RELAYER_A
assert_ok!(Pallet::<TestRuntime>::receive_messages_delivery_proof(
Origin::signed(1),
TestMessagesDeliveryProof(Ok((
TEST_LANE_ID,
InboundLaneData {
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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,
..Default::default()
},
));
assert!(TestMessageDeliveryAndDispatchPayment::is_reward_paid(
TEST_RELAYER_A,
1000
));
assert!(!TestMessageDeliveryAndDispatchPayment::is_reward_paid(
TEST_RELAYER_B,
2000
));
// 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(
Origin::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,
..Default::default()
},
));
assert!(!TestMessageDeliveryAndDispatchPayment::is_reward_paid(
TEST_RELAYER_A,
1000
));
assert!(TestMessageDeliveryAndDispatchPayment::is_reward_paid(
TEST_RELAYER_B,
2000
));
});
}
#[test]
fn receive_messages_delivery_proof_rejects_invalid_proof() {
run_test(|| {
assert_noop!(
Pallet::<TestRuntime>::receive_messages_delivery_proof(
Origin::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(
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Origin::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,
..Default::default()
},
),
Error::<TestRuntime, ()>::InvalidUnrewardedRelayersState,
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);
// when number of messages is invalid
assert_noop!(
Pallet::<TestRuntime>::receive_messages_delivery_proof(
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Origin::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,
..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.data.payload = Vec::new();
assert_ok!(Pallet::<TestRuntime, ()>::receive_messages_proof(
TEST_RELAYER_A,
Ok(vec![invalid_message]).into(),
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.data.payload = Vec::new();
assert_ok!(Pallet::<TestRuntime, ()>::receive_messages_proof(
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 storage_message_key_computed_properly() {
// If this test fails, then something has been changed in module storage that is breaking all
// previously crafted messages proofs.
let storage_key = storage_keys::message_key("BridgeMessages", &*b"test", 42).0;
assert_eq!(
storage_key,
hex!("dd16c784ebd3390a9bc0357c7511ed018a395e6242c6813b196ca31ed0547ea79446af0e09063bd4a7874aef8a997cec746573742a00000000000000").to_vec(),
"Unexpected storage key: {}",
hex::encode(&storage_key),
);
}
#[test]
fn outbound_lane_data_key_computed_properly() {
// If this test fails, then something has been changed in module storage that is breaking all
// previously crafted outbound lane state proofs.
let storage_key = storage_keys::outbound_lane_data_key("BridgeMessages", &*b"test").0;
assert_eq!(
storage_key,
hex!("dd16c784ebd3390a9bc0357c7511ed0196c246acb9b55077390e3ca723a0ca1f44a8995dd50b6657a037a7839304535b74657374").to_vec(),
"Unexpected storage key: {}",
hex::encode(&storage_key),
);
}
#[test]
fn inbound_lane_data_key_computed_properly() {
// If this test fails, then something has been changed in module storage that is breaking all
// previously crafted inbound lane state proofs.
let storage_key = storage_keys::inbound_lane_data_key("BridgeMessages", &*b"test").0;
assert_eq!(
storage_key,
hex!("dd16c784ebd3390a9bc0357c7511ed01e5f83cf83f2127eb47afdc35d6e43fab44a8995dd50b6657a037a7839304535b74657374").to_vec(),
"Unexpected storage key: {}",
hex::encode(&storage_key),
);
}
#[test]
fn actual_dispatch_weight_does_not_overlow() {
run_test(|| {
let message1 = message(1, message_payload(0, Weight::MAX / 2));
let message2 = message(2, message_payload(0, Weight::MAX / 2));
let message3 = message(3, message_payload(0, Weight::MAX / 2));
assert_ok!(Pallet::<TestRuntime, ()>::receive_messages_proof(
Origin::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 increase_message_fee_fails_if_message_is_already_delivered() {
run_test(|| {
send_regular_message();
receive_messages_delivery_proof();
assert_noop!(
Pallet::<TestRuntime, ()>::increase_message_fee(Origin::signed(1), TEST_LANE_ID, 1, 100,),
Error::<TestRuntime, ()>::MessageIsAlreadyDelivered,
);
});
}
#[test]
fn increase_message_fee_fails_if_message_is_not_yet_sent() {
run_test(|| {
assert_noop!(
Pallet::<TestRuntime, ()>::increase_message_fee(Origin::signed(1), TEST_LANE_ID, 1, 100,),
Error::<TestRuntime, ()>::MessageIsNotYetSent,
);
});
}
#[test]
fn increase_message_fee_fails_if_submitter_cant_pay_additional_fee() {
run_test(|| {
send_regular_message();
TestMessageDeliveryAndDispatchPayment::reject_payments();
assert_noop!(
Pallet::<TestRuntime, ()>::increase_message_fee(Origin::signed(1), TEST_LANE_ID, 1, 100,),
Error::<TestRuntime, ()>::FailedToWithdrawMessageFee,
);
});
}
#[test]
fn increase_message_fee_succeeds() {
run_test(|| {
send_regular_message();
assert_ok!(Pallet::<TestRuntime, ()>::increase_message_fee(
Origin::signed(1),
TEST_LANE_ID,
1,
100,
),);
assert!(TestMessageDeliveryAndDispatchPayment::is_fee_paid(1, 100));
});
}