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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, 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()),
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),
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));
});
}
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#[test]
fn weight_refund_from_receive_messages_proof_works() {
run_test(|| {
fn submit_with_unspent_weight(
nonce: MessageNonce,
unspent_weight: Weight,
is_prepaid: bool,
) -> (Weight, Weight) {
let mut payload = REGULAR_PAYLOAD;
payload.dispatch_result.unspent_weight = unspent_weight;
payload.dispatch_result.dispatch_fee_paid_during_dispatch = !is_prepaid;
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(
Origin::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, false);
assert_eq!(post, pre - 1);
// when dispatch is returning `unspent_weight = declared_weight`
let (pre, post) = submit_with_unspent_weight(2, REGULAR_PAYLOAD.declared_weight, false);
assert_eq!(post, pre - REGULAR_PAYLOAD.declared_weight);
// when dispatch is returning `unspent_weight > declared_weight`
let (pre, post) = submit_with_unspent_weight(3, REGULAR_PAYLOAD.declared_weight + 1, false);
assert_eq!(post, pre - REGULAR_PAYLOAD.declared_weight);
// when there's no unspent weight
let (pre, post) = submit_with_unspent_weight(4, 0, false);
assert_eq!(post, pre);
// when dispatch is returning `unspent_weight < declared_weight` AND message is prepaid
let (pre, post) = submit_with_unspent_weight(5, 1, true);
assert_eq!(
post,
pre - 1 - <TestRuntime as Config>::WeightInfo::pay_inbound_dispatch_fee_overhead()
);
});
}
Svyatoslav Nikolsky
committed
#[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, true);
delivered_messages_1_and_2.note_dispatched_message(false);
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(),
}]