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XCMv4 (#1230)

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# Note for reviewer

Most changes are just syntax changes necessary for the new version.
Most important files should be the ones under the `xcm` folder.

# Description 

Added XCMv4.

## Removed `Multi` prefix
The following types have been renamed:
- MultiLocation -> Location
- MultiAsset -> Asset
- MultiAssets -> Assets
- InteriorMultiLocation -> InteriorLocation
- MultiAssetFilter -> AssetFilter
- VersionedMultiAsset -> VersionedAsset
- WildMultiAsset -> WildAsset
- VersionedMultiLocation -> VersionedLocation

In order to fix a name conflict, the `Assets` in `xcm-executor` were
renamed to `HoldingAssets`, as they represent assets in holding.

## Removed `Abstract` asset id

It was not being used anywhere and this simplifies the code.

Now assets are just constructed as follows:

```rust
let asset: Asset = (AssetId(Location::new(1, Here)), 100u128).into();
```

No need for specifying `Concrete` anymore.

## Outcome is now a named fields struct

Instead of

```rust
pub enum Outcome {
  Complete(Weight),
  Incomplete(Weight, Error),
  Error(Error),
}
```

we now have

```rust
pub enum Outcome {
  Complete { used: Weight },
  Incomplete { used: Weight, error: Error },
  Error { error: Error },
}
```

## Added Reanchorable trait

Now both locations and assets implement this trait, making it easier to
reanchor both.

## New syntax for building locations and junctions

Now junctions are built using the following methods:

```rust
let location = Location {
    parents: 1,
    interior: [Parachain(1000), PalletInstance(50), GeneralIndex(1984)].into()
};
```

or

```rust
let location = Location::new(1, [Parachain(1000), PalletInstance(50), GeneralIndex(1984)]);
```

And they are matched like so:

```rust
match location.unpack() {
  (1, [Parachain(id)]) => ...
  (0, Here) => ...,
  (1, [_]) => ...,
}
```

This syntax is mandatory in v4, and has been also implemented for v2 and
v3 for easier migration.

This was needed to make all sizes smaller.

# TODO
- [x] Scaffold v4
- [x] Port github.com/paritytech/polkadot/pull/7236
- [x] Remove `Multi` prefix
- [x] Remove `Abstract` asset id

---------

Co-authored-by: command-bot <>
Co-authored-by: Keith Yeung <kungfukeith11@gmail.com>
This commit is contained in:
Francisco Aguirre
2024-01-16 19:18:04 +01:00
committed by GitHub
parent ec7bfae00a
commit 8428f678fe
255 changed files with 12425 additions and 6726 deletions
Download Patch File Download Diff File Expand all files Collapse all files
bridges/bin/runtime-common/src/messages_benchmarking.rs
+6 -6
View File
@@ -38,7 +38,7 @@ use frame_support::weights::Weight;
use pallet_bridge_messages::benchmarking::{MessageDeliveryProofParams, MessageProofParams}; use pallet_bridge_messages::benchmarking::{MessageDeliveryProofParams, MessageProofParams};
use sp_runtime::traits::{Header, Zero}; use sp_runtime::traits::{Header, Zero};
use sp_std::prelude::*; use sp_std::prelude::*;
use xcm::v3::prelude::*; use xcm::latest::prelude::*;
/// Prepare inbound bridge message according to given message proof parameters. /// Prepare inbound bridge message according to given message proof parameters.
fn prepare_inbound_message( fn prepare_inbound_message(
@@ -266,19 +266,19 @@ where
/// Returns callback which generates `BridgeMessage` from Polkadot XCM builder based on /// Returns callback which generates `BridgeMessage` from Polkadot XCM builder based on
/// `expected_message_size` for benchmark. /// `expected_message_size` for benchmark.
pub fn generate_xcm_builder_bridge_message_sample( pub fn generate_xcm_builder_bridge_message_sample(
destination: InteriorMultiLocation, destination: InteriorLocation,
) -> impl Fn(usize) -> MessagePayload { ) -> impl Fn(usize) -> MessagePayload {
move |expected_message_size| -> MessagePayload { move |expected_message_size| -> MessagePayload {
// For XCM bridge hubs, it is the message that // For XCM bridge hubs, it is the message that
// will be pushed further to some XCM queue (XCMP/UMP) // will be pushed further to some XCM queue (XCMP/UMP)
let location = xcm::VersionedInteriorMultiLocation::V3(destination); let location = xcm::VersionedInteriorLocation::V4(destination.clone());
let location_encoded_size = location.encoded_size(); let location_encoded_size = location.encoded_size();
// we don't need to be super-precise with `expected_size` here // we don't need to be super-precise with `expected_size` here
let xcm_size = expected_message_size.saturating_sub(location_encoded_size); let xcm_size = expected_message_size.saturating_sub(location_encoded_size);
let xcm_data_size = xcm_size.saturating_sub( let xcm_data_size = xcm_size.saturating_sub(
// minus empty instruction size // minus empty instruction size
xcm::v3::Instruction::<()>::ExpectPallet { Instruction::<()>::ExpectPallet {
index: 0, index: 0,
name: vec![], name: vec![],
module_name: vec![], module_name: vec![],
@@ -294,8 +294,8 @@ pub fn generate_xcm_builder_bridge_message_sample(
expected_message_size, location_encoded_size, xcm_size, xcm_data_size, expected_message_size, location_encoded_size, xcm_size, xcm_data_size,
); );
let xcm = xcm::VersionedXcm::<()>::V3( let xcm = xcm::VersionedXcm::<()>::V4(
vec![xcm::v3::Instruction::<()>::ExpectPallet { vec![Instruction::<()>::ExpectPallet {
index: 0, index: 0,
name: vec![42; xcm_data_size], name: vec![42; xcm_data_size],
module_name: vec![], module_name: vec![],
bridges/bin/runtime-common/src/messages_xcm_extension.rs
+11 -11
View File
@@ -123,14 +123,14 @@ impl<
#[cfg_attr(feature = "std", derive(Debug, Eq, PartialEq))] #[cfg_attr(feature = "std", derive(Debug, Eq, PartialEq))]
pub struct SenderAndLane { pub struct SenderAndLane {
/// Sending chain relative location. /// Sending chain relative location.
pub location: MultiLocation, pub location: Location,
/// Message lane, used by the sending chain. /// Message lane, used by the sending chain.
pub lane: LaneId, pub lane: LaneId,
} }
impl SenderAndLane { impl SenderAndLane {
/// Create new object using provided location and lane. /// Create new object using provided location and lane.
pub fn new(location: MultiLocation, lane: LaneId) -> Self { pub fn new(location: Location, lane: LaneId) -> Self {
SenderAndLane { location, lane } SenderAndLane { location, lane }
} }
} }
@@ -168,7 +168,7 @@ pub struct XcmBlobHaulerAdapter<XcmBlobHauler, Lanes>(
impl< impl<
H: XcmBlobHauler, H: XcmBlobHauler,
Lanes: Get<sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorMultiLocation))>>, Lanes: Get<sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorLocation))>>,
> OnMessagesDelivered for XcmBlobHaulerAdapter<H, Lanes> > OnMessagesDelivered for XcmBlobHaulerAdapter<H, Lanes>
{ {
fn on_messages_delivered(lane: LaneId, enqueued_messages: MessageNonce) { fn on_messages_delivered(lane: LaneId, enqueued_messages: MessageNonce) {
@@ -288,7 +288,7 @@ impl<H: XcmBlobHauler> LocalXcmQueueManager<H> {
/// Send congested signal to the `sending_chain_location`. /// Send congested signal to the `sending_chain_location`.
fn send_congested_signal(sender_and_lane: &SenderAndLane) -> Result<(), SendError> { fn send_congested_signal(sender_and_lane: &SenderAndLane) -> Result<(), SendError> {
if let Some(msg) = H::CongestedMessage::get() { if let Some(msg) = H::CongestedMessage::get() {
send_xcm::<H::ToSourceChainSender>(sender_and_lane.location, msg)?; send_xcm::<H::ToSourceChainSender>(sender_and_lane.location.clone(), msg)?;
OutboundLanesCongestedSignals::<H::Runtime, H::MessagesInstance>::insert( OutboundLanesCongestedSignals::<H::Runtime, H::MessagesInstance>::insert(
sender_and_lane.lane, sender_and_lane.lane,
true, true,
@@ -300,7 +300,7 @@ impl<H: XcmBlobHauler> LocalXcmQueueManager<H> {
/// Send `uncongested` signal to the `sending_chain_location`. /// Send `uncongested` signal to the `sending_chain_location`.
fn send_uncongested_signal(sender_and_lane: &SenderAndLane) -> Result<(), SendError> { fn send_uncongested_signal(sender_and_lane: &SenderAndLane) -> Result<(), SendError> {
if let Some(msg) = H::UncongestedMessage::get() { if let Some(msg) = H::UncongestedMessage::get() {
send_xcm::<H::ToSourceChainSender>(sender_and_lane.location, msg)?; send_xcm::<H::ToSourceChainSender>(sender_and_lane.location.clone(), msg)?;
OutboundLanesCongestedSignals::<H::Runtime, H::MessagesInstance>::remove( OutboundLanesCongestedSignals::<H::Runtime, H::MessagesInstance>::remove(
sender_and_lane.lane, sender_and_lane.lane,
); );
@@ -315,10 +315,10 @@ impl<H: XcmBlobHauler> LocalXcmQueueManager<H> {
pub struct XcmVersionOfDestAndRemoteBridge<Version, RemoteBridge>( pub struct XcmVersionOfDestAndRemoteBridge<Version, RemoteBridge>(
sp_std::marker::PhantomData<(Version, RemoteBridge)>, sp_std::marker::PhantomData<(Version, RemoteBridge)>,
); );
impl<Version: GetVersion, RemoteBridge: Get<MultiLocation>> GetVersion impl<Version: GetVersion, RemoteBridge: Get<Location>> GetVersion
for XcmVersionOfDestAndRemoteBridge<Version, RemoteBridge> for XcmVersionOfDestAndRemoteBridge<Version, RemoteBridge>
{ {
fn get_version_for(dest: &MultiLocation) -> Option<XcmVersion> { fn get_version_for(dest: &Location) -> Option<XcmVersion> {
let dest_version = Version::get_version_for(dest); let dest_version = Version::get_version_for(dest);
let bridge_hub_version = Version::get_version_for(&RemoteBridge::get()); let bridge_hub_version = Version::get_version_for(&RemoteBridge::get());
@@ -342,11 +342,11 @@ mod tests {
parameter_types! { parameter_types! {
pub TestSenderAndLane: SenderAndLane = SenderAndLane { pub TestSenderAndLane: SenderAndLane = SenderAndLane {
location: MultiLocation::new(1, X1(Parachain(1000))), location: Location::new(1, [Parachain(1000)]),
lane: TEST_LANE_ID, lane: TEST_LANE_ID,
}; };
pub TestLanes: sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorMultiLocation))> = sp_std::vec![ pub TestLanes: sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorLocation))> = sp_std::vec![
(TestSenderAndLane::get(), (NetworkId::ByGenesis([0; 32]), InteriorMultiLocation::Here)) (TestSenderAndLane::get(), (NetworkId::ByGenesis([0; 32]), InteriorLocation::Here))
]; ];
pub DummyXcmMessage: Xcm<()> = Xcm::new(); pub DummyXcmMessage: Xcm<()> = Xcm::new();
} }
@@ -363,7 +363,7 @@ mod tests {
type Ticket = (); type Ticket = ();
fn validate( fn validate(
_destination: &mut Option<MultiLocation>, _destination: &mut Option<Location>,
_message: &mut Option<Xcm<()>>, _message: &mut Option<Xcm<()>>,
) -> SendResult<Self::Ticket> { ) -> SendResult<Self::Ticket> {
Ok(((), Default::default())) Ok(((), Default::default()))
bridges/modules/xcm-bridge-hub-router/src/benchmarking.rs
+3 -3
View File
@@ -37,10 +37,10 @@ pub trait Config<I: 'static>: crate::Config<I> {
/// Returns destination which is valid for this router instance. /// Returns destination which is valid for this router instance.
/// (Needs to pass `T::Bridges`) /// (Needs to pass `T::Bridges`)
/// Make sure that `SendXcm` will pass. /// Make sure that `SendXcm` will pass.
fn ensure_bridged_target_destination() -> Result<MultiLocation, BenchmarkError> { fn ensure_bridged_target_destination() -> Result<Location, BenchmarkError> {
Ok(MultiLocation::new( Ok(Location::new(
Self::UniversalLocation::get().len() as u8, Self::UniversalLocation::get().len() as u8,
X1(GlobalConsensus(Self::BridgedNetworkId::get().unwrap())), [GlobalConsensus(Self::BridgedNetworkId::get().unwrap())],
)) ))
} }
} }
bridges/modules/xcm-bridge-hub-router/src/lib.rs
+12 -21
View File
@@ -80,7 +80,7 @@ pub mod pallet {
type WeightInfo: WeightInfo; type WeightInfo: WeightInfo;
/// Universal location of this runtime. /// Universal location of this runtime.
type UniversalLocation: Get<InteriorMultiLocation>; type UniversalLocation: Get<InteriorLocation>;
/// The bridged network that this config is for if specified. /// The bridged network that this config is for if specified.
/// Also used for filtering `Bridges` by `BridgedNetworkId`. /// Also used for filtering `Bridges` by `BridgedNetworkId`.
/// If not specified, allows all networks pass through. /// If not specified, allows all networks pass through.
@@ -235,9 +235,9 @@ type ViaBridgeHubExporter<T, I> = SovereignPaidRemoteExporter<
impl<T: Config<I>, I: 'static> ExporterFor for Pallet<T, I> { impl<T: Config<I>, I: 'static> ExporterFor for Pallet<T, I> {
fn exporter_for( fn exporter_for(
network: &NetworkId, network: &NetworkId,
remote_location: &InteriorMultiLocation, remote_location: &InteriorLocation,
message: &Xcm<()>, message: &Xcm<()>,
) -> Option<(MultiLocation, Option<MultiAsset>)> { ) -> Option<(Location, Option<Asset>)> {
// ensure that the message is sent to the expected bridged network (if specified). // ensure that the message is sent to the expected bridged network (if specified).
if let Some(bridged_network) = T::BridgedNetworkId::get() { if let Some(bridged_network) = T::BridgedNetworkId::get() {
if *network != bridged_network { if *network != bridged_network {
@@ -268,7 +268,7 @@ impl<T: Config<I>, I: 'static> ExporterFor for Pallet<T, I> {
// take `base_fee` from `T::Brides`, but it has to be the same `T::FeeAsset` // take `base_fee` from `T::Brides`, but it has to be the same `T::FeeAsset`
let base_fee = match maybe_payment { let base_fee = match maybe_payment {
Some(payment) => match payment { Some(payment) => match payment {
MultiAsset { fun: Fungible(amount), id } if id.eq(&T::FeeAsset::get()) => amount, Asset { fun: Fungible(amount), id } if id.eq(&T::FeeAsset::get()) => amount,
invalid_asset => { invalid_asset => {
log::error!( log::error!(
target: LOG_TARGET, target: LOG_TARGET,
@@ -318,7 +318,7 @@ impl<T: Config<I>, I: 'static> SendXcm for Pallet<T, I> {
type Ticket = (u32, <T::ToBridgeHubSender as SendXcm>::Ticket); type Ticket = (u32, <T::ToBridgeHubSender as SendXcm>::Ticket);
fn validate( fn validate(
dest: &mut Option<MultiLocation>, dest: &mut Option<Location>,
xcm: &mut Option<Xcm<()>>, xcm: &mut Option<Xcm<()>>,
) -> SendResult<Self::Ticket> { ) -> SendResult<Self::Ticket> {
// `dest` and `xcm` are required here // `dest` and `xcm` are required here
@@ -446,7 +446,7 @@ mod tests {
run_test(|| { run_test(|| {
assert_eq!( assert_eq!(
send_xcm::<XcmBridgeHubRouter>( send_xcm::<XcmBridgeHubRouter>(
MultiLocation::new(2, X2(GlobalConsensus(Rococo), Parachain(1000))), Location::new(2, [GlobalConsensus(Rococo), Parachain(1000)]),
vec![].into(), vec![].into(),
), ),
Err(SendError::NotApplicable), Err(SendError::NotApplicable),
@@ -459,7 +459,7 @@ mod tests {
run_test(|| { run_test(|| {
assert_eq!( assert_eq!(
send_xcm::<XcmBridgeHubRouter>( send_xcm::<XcmBridgeHubRouter>(
MultiLocation::new(2, X2(GlobalConsensus(Rococo), Parachain(1000))), Location::new(2, [GlobalConsensus(Rococo), Parachain(1000)]),
vec![ClearOrigin; HARD_MESSAGE_SIZE_LIMIT as usize].into(), vec![ClearOrigin; HARD_MESSAGE_SIZE_LIMIT as usize].into(),
), ),
Err(SendError::ExceedsMaxMessageSize), Err(SendError::ExceedsMaxMessageSize),
@@ -483,14 +483,14 @@ mod tests {
#[test] #[test]
fn returns_proper_delivery_price() { fn returns_proper_delivery_price() {
run_test(|| { run_test(|| {
let dest = MultiLocation::new(2, X1(GlobalConsensus(BridgedNetworkId::get()))); let dest = Location::new(2, [GlobalConsensus(BridgedNetworkId::get())]);
let xcm: Xcm<()> = vec![ClearOrigin].into(); let xcm: Xcm<()> = vec![ClearOrigin].into();
let msg_size = xcm.encoded_size(); let msg_size = xcm.encoded_size();
// initially the base fee is used: `BASE_FEE + BYTE_FEE * msg_size + HRMP_FEE` // initially the base fee is used: `BASE_FEE + BYTE_FEE * msg_size + HRMP_FEE`
let expected_fee = BASE_FEE + BYTE_FEE * (msg_size as u128) + HRMP_FEE; let expected_fee = BASE_FEE + BYTE_FEE * (msg_size as u128) + HRMP_FEE;
assert_eq!( assert_eq!(
XcmBridgeHubRouter::validate(&mut Some(dest), &mut Some(xcm.clone())) XcmBridgeHubRouter::validate(&mut Some(dest.clone()), &mut Some(xcm.clone()))
.unwrap() .unwrap()
.1 .1
.get(0), .get(0),
@@ -518,10 +518,7 @@ mod tests {
run_test(|| { run_test(|| {
let old_bridge = XcmBridgeHubRouter::bridge(); let old_bridge = XcmBridgeHubRouter::bridge();
assert_ok!(send_xcm::<XcmBridgeHubRouter>( assert_ok!(send_xcm::<XcmBridgeHubRouter>(
MultiLocation::new( Location::new(2, [GlobalConsensus(BridgedNetworkId::get()), Parachain(1000)]),
2,
X2(GlobalConsensus(BridgedNetworkId::get()), Parachain(1000))
),
vec![ClearOrigin].into(), vec![ClearOrigin].into(),
) )
.map(drop)); .map(drop));
@@ -538,10 +535,7 @@ mod tests {
let old_bridge = XcmBridgeHubRouter::bridge(); let old_bridge = XcmBridgeHubRouter::bridge();
assert_ok!(send_xcm::<XcmBridgeHubRouter>( assert_ok!(send_xcm::<XcmBridgeHubRouter>(
MultiLocation::new( Location::new(2, [GlobalConsensus(BridgedNetworkId::get()), Parachain(1000)]),
2,
X2(GlobalConsensus(BridgedNetworkId::get()), Parachain(1000))
),
vec![ClearOrigin].into(), vec![ClearOrigin].into(),
) )
.map(drop)); .map(drop));
@@ -560,10 +554,7 @@ mod tests {
let old_bridge = XcmBridgeHubRouter::bridge(); let old_bridge = XcmBridgeHubRouter::bridge();
assert_ok!(send_xcm::<XcmBridgeHubRouter>( assert_ok!(send_xcm::<XcmBridgeHubRouter>(
MultiLocation::new( Location::new(2, [GlobalConsensus(BridgedNetworkId::get()), Parachain(1000)]),
2,
X2(GlobalConsensus(BridgedNetworkId::get()), Parachain(1000))
),
vec![ClearOrigin].into(), vec![ClearOrigin].into(),
) )
.map(drop)); .map(drop));
bridges/modules/xcm-bridge-hub-router/src/mock.rs
+9 -9
View File
@@ -49,9 +49,9 @@ construct_runtime! {
parameter_types! { parameter_types! {
pub ThisNetworkId: NetworkId = Polkadot; pub ThisNetworkId: NetworkId = Polkadot;
pub BridgedNetworkId: NetworkId = Kusama; pub BridgedNetworkId: NetworkId = Kusama;
pub UniversalLocation: InteriorMultiLocation = X2(GlobalConsensus(ThisNetworkId::get()), Parachain(1000)); pub UniversalLocation: InteriorLocation = [GlobalConsensus(ThisNetworkId::get()), Parachain(1000)].into();
pub SiblingBridgeHubLocation: MultiLocation = ParentThen(X1(Parachain(1002))).into(); pub SiblingBridgeHubLocation: Location = ParentThen([Parachain(1002)].into()).into();
pub BridgeFeeAsset: AssetId = MultiLocation::parent().into(); pub BridgeFeeAsset: AssetId = Location::parent().into();
pub BridgeTable: Vec<NetworkExportTableItem> pub BridgeTable: Vec<NetworkExportTableItem>
= vec![ = vec![
NetworkExportTableItem::new( NetworkExportTableItem::new(
@@ -61,7 +61,7 @@ parameter_types! {
Some((BridgeFeeAsset::get(), BASE_FEE).into()) Some((BridgeFeeAsset::get(), BASE_FEE).into())
) )
]; ];
pub UnknownXcmVersionLocation: MultiLocation = MultiLocation::new(2, X2(GlobalConsensus(BridgedNetworkId::get()), Parachain(9999))); pub UnknownXcmVersionLocation: Location = Location::new(2, [GlobalConsensus(BridgedNetworkId::get()), Parachain(9999)]);
} }
#[derive_impl(frame_system::config_preludes::TestDefaultConfig as frame_system::DefaultConfig)] #[derive_impl(frame_system::config_preludes::TestDefaultConfig as frame_system::DefaultConfig)]
@@ -87,11 +87,11 @@ impl pallet_xcm_bridge_hub_router::Config<()> for TestRuntime {
} }
pub struct LatestOrNoneForLocationVersionChecker<Location>(sp_std::marker::PhantomData<Location>); pub struct LatestOrNoneForLocationVersionChecker<Location>(sp_std::marker::PhantomData<Location>);
impl<Location: Contains<MultiLocation>> GetVersion impl<LocationValue: Contains<Location>> GetVersion
for LatestOrNoneForLocationVersionChecker<Location> for LatestOrNoneForLocationVersionChecker<LocationValue>
{ {
fn get_version_for(dest: &MultiLocation) -> Option<XcmVersion> { fn get_version_for(dest: &Location) -> Option<XcmVersion> {
if Location::contains(dest) { if LocationValue::contains(dest) {
return None return None
} }
Some(XCM_VERSION) Some(XCM_VERSION)
@@ -110,7 +110,7 @@ impl SendXcm for TestToBridgeHubSender {
type Ticket = (); type Ticket = ();
fn validate( fn validate(
_destination: &mut Option<MultiLocation>, _destination: &mut Option<Location>,
_message: &mut Option<Xcm<()>>, _message: &mut Option<Xcm<()>>,
) -> SendResult<Self::Ticket> { ) -> SendResult<Self::Ticket> {
Ok(((), (BridgeFeeAsset::get(), HRMP_FEE).into())) Ok(((), (BridgeFeeAsset::get(), HRMP_FEE).into()))
bridges/modules/xcm-bridge-hub/src/exporter.rs
+6 -6
View File
@@ -52,10 +52,10 @@ where
fn validate( fn validate(
network: NetworkId, network: NetworkId,
channel: u32, channel: u32,
universal_source: &mut Option<InteriorMultiLocation>, universal_source: &mut Option<InteriorLocation>,
destination: &mut Option<InteriorMultiLocation>, destination: &mut Option<InteriorLocation>,
message: &mut Option<Xcm<()>>, message: &mut Option<Xcm<()>>,
) -> Result<(Self::Ticket, MultiAssets), SendError> { ) -> Result<(Self::Ticket, Assets), SendError> {
// Find supported lane_id. // Find supported lane_id.
let sender_and_lane = Self::lane_for( let sender_and_lane = Self::lane_for(
universal_source.as_ref().ok_or(SendError::MissingArgument)?, universal_source.as_ref().ok_or(SendError::MissingArgument)?,
@@ -137,11 +137,11 @@ mod tests {
use frame_support::assert_ok; use frame_support::assert_ok;
use xcm_executor::traits::export_xcm; use xcm_executor::traits::export_xcm;
fn universal_source() -> InteriorMultiLocation { fn universal_source() -> InteriorLocation {
X2(GlobalConsensus(RelayNetwork::get()), Parachain(SIBLING_ASSET_HUB_ID)) [GlobalConsensus(RelayNetwork::get()), Parachain(SIBLING_ASSET_HUB_ID)].into()
} }
fn universal_destination() -> InteriorMultiLocation { fn universal_destination() -> InteriorLocation {
BridgedDestination::get() BridgedDestination::get()
} }
bridges/modules/xcm-bridge-hub/src/lib.rs
+7 -7
View File
@@ -45,25 +45,25 @@ pub mod pallet {
BridgeMessagesConfig<Self::BridgeMessagesPalletInstance> BridgeMessagesConfig<Self::BridgeMessagesPalletInstance>
{ {
/// Runtime's universal location. /// Runtime's universal location.
type UniversalLocation: Get<InteriorMultiLocation>; type UniversalLocation: Get<InteriorLocation>;
// TODO: https://github.com/paritytech/parity-bridges-common/issues/1666 remove `ChainId` and // TODO: https://github.com/paritytech/parity-bridges-common/issues/1666 remove `ChainId` and
// replace it with the `NetworkId` - then we'll be able to use // replace it with the `NetworkId` - then we'll be able to use
// `T as pallet_bridge_messages::Config<T::BridgeMessagesPalletInstance>::BridgedChain::NetworkId` // `T as pallet_bridge_messages::Config<T::BridgeMessagesPalletInstance>::BridgedChain::NetworkId`
/// Bridged network as relative location of bridged `GlobalConsensus`. /// Bridged network as relative location of bridged `GlobalConsensus`.
#[pallet::constant] #[pallet::constant]
type BridgedNetwork: Get<MultiLocation>; type BridgedNetwork: Get<Location>;
/// Associated messages pallet instance that bridges us with the /// Associated messages pallet instance that bridges us with the
/// `BridgedNetworkId` consensus. /// `BridgedNetworkId` consensus.
type BridgeMessagesPalletInstance: 'static; type BridgeMessagesPalletInstance: 'static;
/// Price of single message export to the bridged consensus (`Self::BridgedNetworkId`). /// Price of single message export to the bridged consensus (`Self::BridgedNetworkId`).
type MessageExportPrice: Get<MultiAssets>; type MessageExportPrice: Get<Assets>;
/// Checks the XCM version for the destination. /// Checks the XCM version for the destination.
type DestinationVersion: GetVersion; type DestinationVersion: GetVersion;
/// Get point-to-point links with bridged consensus (`Self::BridgedNetworkId`). /// Get point-to-point links with bridged consensus (`Self::BridgedNetworkId`).
/// (this will be replaced with dynamic on-chain bridges - `Bridges V2`) /// (this will be replaced with dynamic on-chain bridges - `Bridges V2`)
type Lanes: Get<sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorMultiLocation))>>; type Lanes: Get<sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorLocation))>>;
/// Support for point-to-point links /// Support for point-to-point links
/// (this will be replaced with dynamic on-chain bridges - `Bridges V2`) /// (this will be replaced with dynamic on-chain bridges - `Bridges V2`)
type LanesSupport: XcmBlobHauler; type LanesSupport: XcmBlobHauler;
@@ -86,10 +86,10 @@ pub mod pallet {
impl<T: Config<I>, I: 'static> Pallet<T, I> { impl<T: Config<I>, I: 'static> Pallet<T, I> {
/// Returns dedicated/configured lane identifier. /// Returns dedicated/configured lane identifier.
pub(crate) fn lane_for( pub(crate) fn lane_for(
source: &InteriorMultiLocation, source: &InteriorLocation,
dest: (&NetworkId, &InteriorMultiLocation), dest: (&NetworkId, &InteriorLocation),
) -> Option<SenderAndLane> { ) -> Option<SenderAndLane> {
let source = source.relative_to(&T::UniversalLocation::get()); let source = source.clone().relative_to(&T::UniversalLocation::get());
// Check that we have configured a point-to-point lane for 'source' and `dest`. // Check that we have configured a point-to-point lane for 'source' and `dest`.
T::Lanes::get() T::Lanes::get()
bridges/modules/xcm-bridge-hub/src/mock.rs
+7 -10
View File
@@ -170,16 +170,13 @@ impl pallet_bridge_messages::WeightInfoExt for TestMessagesWeights {
parameter_types! { parameter_types! {
pub const RelayNetwork: NetworkId = NetworkId::Kusama; pub const RelayNetwork: NetworkId = NetworkId::Kusama;
pub const BridgedRelayNetwork: NetworkId = NetworkId::Polkadot; pub const BridgedRelayNetwork: NetworkId = NetworkId::Polkadot;
pub const BridgedRelayNetworkLocation: MultiLocation = MultiLocation { pub BridgedRelayNetworkLocation: Location = (Parent, GlobalConsensus(BridgedRelayNetwork::get())).into();
parents: 1,
interior: X1(GlobalConsensus(BridgedRelayNetwork::get()))
};
pub const NonBridgedRelayNetwork: NetworkId = NetworkId::Rococo; pub const NonBridgedRelayNetwork: NetworkId = NetworkId::Rococo;
pub const BridgeReserve: Balance = 100_000; pub const BridgeReserve: Balance = 100_000;
pub UniversalLocation: InteriorMultiLocation = X2( pub UniversalLocation: InteriorLocation = [
GlobalConsensus(RelayNetwork::get()), GlobalConsensus(RelayNetwork::get()),
Parachain(THIS_BRIDGE_HUB_ID), Parachain(THIS_BRIDGE_HUB_ID),
); ].into();
pub const Penalty: Balance = 1_000; pub const Penalty: Balance = 1_000;
} }
@@ -197,13 +194,13 @@ impl pallet_xcm_bridge_hub::Config for TestRuntime {
parameter_types! { parameter_types! {
pub TestSenderAndLane: SenderAndLane = SenderAndLane { pub TestSenderAndLane: SenderAndLane = SenderAndLane {
location: MultiLocation::new(1, X1(Parachain(SIBLING_ASSET_HUB_ID))), location: Location::new(1, [Parachain(SIBLING_ASSET_HUB_ID)]),
lane: TEST_LANE_ID, lane: TEST_LANE_ID,
}; };
pub const BridgedDestination: InteriorMultiLocation = X1( pub BridgedDestination: InteriorLocation = [
Parachain(BRIDGED_ASSET_HUB_ID) Parachain(BRIDGED_ASSET_HUB_ID)
); ].into();
pub TestLanes: sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorMultiLocation))> = sp_std::vec![ pub TestLanes: sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorLocation))> = sp_std::vec![
(TestSenderAndLane::get(), (BridgedRelayNetwork::get(), BridgedDestination::get())) (TestSenderAndLane::get(), (BridgedRelayNetwork::get(), BridgedDestination::get()))
]; ];
} }
bridges/snowbridge/parachain/pallets/inbound-queue/src/lib.rs
+5 -5
View File
@@ -54,8 +54,8 @@ use scale_info::TypeInfo;
use sp_core::{H160, H256}; use sp_core::{H160, H256};
use sp_std::{convert::TryFrom, vec}; use sp_std::{convert::TryFrom, vec};
use xcm::prelude::{ use xcm::prelude::{
send_xcm, Instruction::SetTopic, Junction::*, Junctions::*, MultiLocation, send_xcm, Instruction::SetTopic, Junction::*, Location, SendError as XcmpSendError, SendXcm,
SendError as XcmpSendError, SendXcm, Xcm, XcmContext, XcmHash, Xcm, XcmContext, XcmHash,
}; };
use xcm_executor::traits::TransactAsset; use xcm_executor::traits::TransactAsset;
@@ -324,7 +324,7 @@ pub mod pallet {
} }
pub fn send_xcm(xcm: Xcm<()>, dest: ParaId) -> Result<XcmHash, Error<T>> { pub fn send_xcm(xcm: Xcm<()>, dest: ParaId) -> Result<XcmHash, Error<T>> {
let dest = MultiLocation { parents: 1, interior: X1(Parachain(dest.into())) }; let dest = Location::new(1, [Parachain(dest.into())]);
let (xcm_hash, _) = send_xcm::<T::XcmSender>(dest, xcm).map_err(Error::<T>::from)?; let (xcm_hash, _) = send_xcm::<T::XcmSender>(dest, xcm).map_err(Error::<T>::from)?;
Ok(xcm_hash) Ok(xcm_hash)
} }
@@ -341,8 +341,8 @@ pub mod pallet {
pub fn burn_fees(para_id: ParaId, fee: BalanceOf<T>) -> DispatchResult { pub fn burn_fees(para_id: ParaId, fee: BalanceOf<T>) -> DispatchResult {
let dummy_context = let dummy_context =
XcmContext { origin: None, message_id: Default::default(), topic: None }; XcmContext { origin: None, message_id: Default::default(), topic: None };
let dest = MultiLocation { parents: 1, interior: X1(Parachain(para_id.into())) }; let dest = Location::new(1, [Parachain(para_id.into())]);
let fees = (MultiLocation::parent(), fee.saturated_into::<u128>()).into(); let fees = (Location::parent(), fee.saturated_into::<u128>()).into();
T::AssetTransactor::can_check_out(&dest, &fees, &dummy_context).map_err(|error| { T::AssetTransactor::can_check_out(&dest, &fees, &dummy_context).map_err(|error| {
log::error!( log::error!(
target: LOG_TARGET, target: LOG_TARGET,
bridges/snowbridge/parachain/pallets/inbound-queue/src/mock.rs
+22 -35
View File
@@ -21,8 +21,8 @@ use sp_runtime::{
BuildStorage, FixedU128, MultiSignature, BuildStorage, FixedU128, MultiSignature,
}; };
use sp_std::convert::From; use sp_std::convert::From;
use xcm::v3::{prelude::*, MultiAssets, SendXcm}; use xcm::v4::{prelude::*, SendXcm};
use xcm_executor::Assets; use xcm_executor::AssetsInHolding;
use crate::{self as inbound_queue}; use crate::{self as inbound_queue};
@@ -155,17 +155,16 @@ impl SendXcm for MockXcmSender {
type Ticket = Xcm<()>; type Ticket = Xcm<()>;
fn validate( fn validate(
dest: &mut Option<MultiLocation>, dest: &mut Option<Location>,
xcm: &mut Option<xcm::v3::Xcm<()>>, xcm: &mut Option<Xcm<()>>,
) -> SendResult<Self::Ticket> { ) -> SendResult<Self::Ticket> {
match dest { if let Some(location) = dest {
Some(MultiLocation { interior, .. }) => { match location.unpack() {
if let X1(Parachain(1001)) = interior { (_, [Parachain(1001)]) => return Err(XcmpSendError::NotApplicable),
return Err(XcmpSendError::NotApplicable) _ => Ok((xcm.clone().unwrap(), Assets::default())),
} }
Ok((xcm.clone().unwrap(), MultiAssets::default())) } else {
}, Ok((xcm.clone().unwrap(), Assets::default()))
_ => Ok((xcm.clone().unwrap(), MultiAssets::default())),
} }
} }
@@ -203,45 +202,33 @@ impl StaticLookup for MockChannelLookup {
pub struct SuccessfulTransactor; pub struct SuccessfulTransactor;
impl TransactAsset for SuccessfulTransactor { impl TransactAsset for SuccessfulTransactor {
fn can_check_in( fn can_check_in(_origin: &Location, _what: &Asset, _context: &XcmContext) -> XcmResult {
_origin: &MultiLocation,
_what: &MultiAsset,
_context: &XcmContext,
) -> XcmResult {
Ok(()) Ok(())
} }
fn can_check_out( fn can_check_out(_dest: &Location, _what: &Asset, _context: &XcmContext) -> XcmResult {
_dest: &MultiLocation,
_what: &MultiAsset,
_context: &XcmContext,
) -> XcmResult {
Ok(()) Ok(())
} }
fn deposit_asset( fn deposit_asset(_what: &Asset, _who: &Location, _context: Option<&XcmContext>) -> XcmResult {
_what: &MultiAsset,
_who: &MultiLocation,
_context: Option<&XcmContext>,
) -> XcmResult {
Ok(()) Ok(())
} }
fn withdraw_asset( fn withdraw_asset(
_what: &MultiAsset, _what: &Asset,
_who: &MultiLocation, _who: &Location,
_context: Option<&XcmContext>, _context: Option<&XcmContext>,
) -> Result<Assets, XcmError> { ) -> Result<AssetsInHolding, XcmError> {
Ok(Assets::default()) Ok(AssetsInHolding::default())
} }
fn internal_transfer_asset( fn internal_transfer_asset(
_what: &MultiAsset, _what: &Asset,
_from: &MultiLocation, _from: &Location,
_to: &MultiLocation, _to: &Location,
_context: &XcmContext, _context: &XcmContext,
) -> Result<Assets, XcmError> { ) -> Result<AssetsInHolding, XcmError> {
Ok(Assets::default()) Ok(AssetsInHolding::default())
} }
} }
bridges/snowbridge/parachain/pallets/inbound-queue/src/test.rs
+2 -2
View File
@@ -41,8 +41,8 @@ fn test_submit_happy_path() {
.into(), .into(),
nonce: 1, nonce: 1,
message_id: [ message_id: [
27, 217, 88, 127, 46, 143, 199, 70, 236, 66, 212, 244, 85, 221, 153, 104, 175, 37, 57, 61, 232, 3, 66, 61, 25, 190, 234, 188, 193, 174, 13, 186, 1, 64, 237, 94, 73,
224, 20, 140, 95, 140, 7, 27, 74, 182, 199, 77, 12, 194, 236, 83, 14, 18, 209, 213, 78, 121, 43, 108, 251, 245, 107, 67,
], ],
fee_burned: 110000000000, fee_burned: 110000000000,
} }
bridges/snowbridge/parachain/pallets/system/runtime-api/src/lib.rs
+2 -2
View File
@@ -3,11 +3,11 @@
#![cfg_attr(not(feature = "std"), no_std)] #![cfg_attr(not(feature = "std"), no_std)]
use snowbridge_core::AgentId; use snowbridge_core::AgentId;
use xcm::VersionedMultiLocation; use xcm::VersionedLocation;
sp_api::decl_runtime_apis! { sp_api::decl_runtime_apis! {
pub trait ControlApi pub trait ControlApi
{ {
fn agent_id(location: VersionedMultiLocation) -> Option<AgentId>; fn agent_id(location: VersionedLocation) -> Option<AgentId>;
} }
} }
bridges/snowbridge/parachain/pallets/system/src/api.rs
+3 -3
View File
@@ -3,14 +3,14 @@
//! Helpers for implementing runtime api //! Helpers for implementing runtime api
use snowbridge_core::AgentId; use snowbridge_core::AgentId;
use xcm::{prelude::*, VersionedMultiLocation}; use xcm::{prelude::*, VersionedLocation};
use crate::{agent_id_of, Config}; use crate::{agent_id_of, Config};
pub fn agent_id<Runtime>(location: VersionedMultiLocation) -> Option<AgentId> pub fn agent_id<Runtime>(location: VersionedLocation) -> Option<AgentId>
where where
Runtime: Config, Runtime: Config,
{ {
let location: MultiLocation = location.try_into().ok()?; let location: Location = location.try_into().ok()?;
agent_id_of::<Runtime>(&location).ok() agent_id_of::<Runtime>(&location).ok()
} }
bridges/snowbridge/parachain/pallets/system/src/benchmarking.rs
+8 -8
View File
@@ -63,7 +63,7 @@ mod benchmarks {
#[benchmark] #[benchmark]
fn create_agent() -> Result<(), BenchmarkError> { fn create_agent() -> Result<(), BenchmarkError> {
let origin_para_id = 2000; let origin_para_id = 2000;
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(origin_para_id)) }; let origin_location = Location::new(1, [Parachain(origin_para_id)]);
let origin = T::Helper::make_xcm_origin(origin_location); let origin = T::Helper::make_xcm_origin(origin_location);
fund_sovereign_account::<T>(origin_para_id.into())?; fund_sovereign_account::<T>(origin_para_id.into())?;
@@ -76,7 +76,7 @@ mod benchmarks {
#[benchmark] #[benchmark]
fn create_channel() -> Result<(), BenchmarkError> { fn create_channel() -> Result<(), BenchmarkError> {
let origin_para_id = 2000; let origin_para_id = 2000;
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(origin_para_id)) }; let origin_location = Location::new(1, [Parachain(origin_para_id)]);
let origin = T::Helper::make_xcm_origin(origin_location); let origin = T::Helper::make_xcm_origin(origin_location);
fund_sovereign_account::<T>(origin_para_id.into())?; fund_sovereign_account::<T>(origin_para_id.into())?;
@@ -91,7 +91,7 @@ mod benchmarks {
#[benchmark] #[benchmark]
fn update_channel() -> Result<(), BenchmarkError> { fn update_channel() -> Result<(), BenchmarkError> {
let origin_para_id = 2000; let origin_para_id = 2000;
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(origin_para_id)) }; let origin_location = Location::new(1, [Parachain(origin_para_id)]);
let origin = T::Helper::make_xcm_origin(origin_location); let origin = T::Helper::make_xcm_origin(origin_location);
fund_sovereign_account::<T>(origin_para_id.into())?; fund_sovereign_account::<T>(origin_para_id.into())?;
SnowbridgeControl::<T>::create_agent(origin.clone())?; SnowbridgeControl::<T>::create_agent(origin.clone())?;
@@ -106,7 +106,7 @@ mod benchmarks {
#[benchmark] #[benchmark]
fn force_update_channel() -> Result<(), BenchmarkError> { fn force_update_channel() -> Result<(), BenchmarkError> {
let origin_para_id = 2000; let origin_para_id = 2000;
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(origin_para_id)) }; let origin_location = Location::new(1, [Parachain(origin_para_id)]);
let origin = T::Helper::make_xcm_origin(origin_location); let origin = T::Helper::make_xcm_origin(origin_location);
let channel_id: ChannelId = ParaId::from(origin_para_id).into(); let channel_id: ChannelId = ParaId::from(origin_para_id).into();
@@ -123,7 +123,7 @@ mod benchmarks {
#[benchmark] #[benchmark]
fn transfer_native_from_agent() -> Result<(), BenchmarkError> { fn transfer_native_from_agent() -> Result<(), BenchmarkError> {
let origin_para_id = 2000; let origin_para_id = 2000;
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(origin_para_id)) }; let origin_location = Location::new(1, [Parachain(origin_para_id)]);
let origin = T::Helper::make_xcm_origin(origin_location); let origin = T::Helper::make_xcm_origin(origin_location);
fund_sovereign_account::<T>(origin_para_id.into())?; fund_sovereign_account::<T>(origin_para_id.into())?;
SnowbridgeControl::<T>::create_agent(origin.clone())?; SnowbridgeControl::<T>::create_agent(origin.clone())?;
@@ -138,12 +138,12 @@ mod benchmarks {
#[benchmark] #[benchmark]
fn force_transfer_native_from_agent() -> Result<(), BenchmarkError> { fn force_transfer_native_from_agent() -> Result<(), BenchmarkError> {
let origin_para_id = 2000; let origin_para_id = 2000;
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(origin_para_id)) }; let origin_location = Location::new(1, [Parachain(origin_para_id)]);
let origin = T::Helper::make_xcm_origin(origin_location); let origin = T::Helper::make_xcm_origin(origin_location.clone());
fund_sovereign_account::<T>(origin_para_id.into())?; fund_sovereign_account::<T>(origin_para_id.into())?;
SnowbridgeControl::<T>::create_agent(origin.clone())?; SnowbridgeControl::<T>::create_agent(origin.clone())?;
let versioned_location: VersionedMultiLocation = origin_location.into(); let versioned_location: VersionedLocation = origin_location.into();
#[extrinsic_call] #[extrinsic_call]
_(RawOrigin::Root, Box::new(versioned_location), H160::default(), 1); _(RawOrigin::Root, Box::new(versioned_location), H160::default(), 1);
bridges/snowbridge/parachain/pallets/system/src/lib.rs
+22 -22
View File
@@ -87,12 +87,12 @@ pub type AccountIdOf<T> = <T as frame_system::Config>::AccountId;
pub type PricingParametersOf<T> = PricingParametersRecord<BalanceOf<T>>; pub type PricingParametersOf<T> = PricingParametersRecord<BalanceOf<T>>;
/// Ensure origin location is a sibling /// Ensure origin location is a sibling
fn ensure_sibling<T>(location: &MultiLocation) -> Result<(ParaId, H256), DispatchError> fn ensure_sibling<T>(location: &Location) -> Result<(ParaId, H256), DispatchError>
where where
T: Config, T: Config,
{ {
match location { match location.unpack() {
MultiLocation { parents: 1, interior: X1(Parachain(para_id)) } => { (1, [Parachain(para_id)]) => {
let agent_id = agent_id_of::<T>(location)?; let agent_id = agent_id_of::<T>(location)?;
Ok(((*para_id).into(), agent_id)) Ok(((*para_id).into(), agent_id))
}, },
@@ -101,7 +101,7 @@ where
} }
/// Hash the location to produce an agent id /// Hash the location to produce an agent id
fn agent_id_of<T: Config>(location: &MultiLocation) -> Result<H256, DispatchError> { fn agent_id_of<T: Config>(location: &Location) -> Result<H256, DispatchError> {
T::AgentIdOf::convert_location(location).ok_or(Error::<T>::LocationConversionFailed.into()) T::AgentIdOf::convert_location(location).ok_or(Error::<T>::LocationConversionFailed.into())
} }
@@ -110,7 +110,7 @@ pub trait BenchmarkHelper<O>
where where
O: OriginTrait, O: OriginTrait,
{ {
fn make_xcm_origin(location: MultiLocation) -> O; fn make_xcm_origin(location: Location) -> O;
} }
/// Whether a fee should be withdrawn to an account for sending an outbound message /// Whether a fee should be withdrawn to an account for sending an outbound message
@@ -145,9 +145,9 @@ pub mod pallet {
type OutboundQueue: SendMessage<Balance = BalanceOf<Self>>; type OutboundQueue: SendMessage<Balance = BalanceOf<Self>>;
/// Origin check for XCM locations that can create agents /// Origin check for XCM locations that can create agents
type SiblingOrigin: EnsureOrigin<Self::RuntimeOrigin, Success = MultiLocation>; type SiblingOrigin: EnsureOrigin<Self::RuntimeOrigin, Success = Location>;
/// Converts MultiLocation to AgentId /// Converts Location to AgentId
type AgentIdOf: ConvertLocation<AgentId>; type AgentIdOf: ConvertLocation<AgentId>;
/// Token reserved for control operations /// Token reserved for control operations
@@ -180,7 +180,7 @@ pub mod pallet {
}, },
/// An CreateAgent message was sent to the Gateway /// An CreateAgent message was sent to the Gateway
CreateAgent { CreateAgent {
location: Box<MultiLocation>, location: Box<Location>,
agent_id: AgentId, agent_id: AgentId,
}, },
/// An CreateChannel message was sent to the Gateway /// An CreateChannel message was sent to the Gateway
@@ -299,7 +299,7 @@ pub mod pallet {
/// ///
/// Fee required: No /// Fee required: No
/// ///
/// - `origin`: Must be `MultiLocation` /// - `origin`: Must be `Location`
#[pallet::call_index(1)] #[pallet::call_index(1)]
#[pallet::weight((T::WeightInfo::set_operating_mode(), DispatchClass::Operational))] #[pallet::weight((T::WeightInfo::set_operating_mode(), DispatchClass::Operational))]
pub fn set_operating_mode(origin: OriginFor<T>, mode: OperatingMode) -> DispatchResult { pub fn set_operating_mode(origin: OriginFor<T>, mode: OperatingMode) -> DispatchResult {
@@ -342,11 +342,11 @@ pub mod pallet {
/// ///
/// Fee required: Yes /// Fee required: Yes
/// ///
/// - `origin`: Must be `MultiLocation` of a sibling parachain /// - `origin`: Must be `Location` of a sibling parachain
#[pallet::call_index(3)] #[pallet::call_index(3)]
#[pallet::weight(T::WeightInfo::create_agent())] #[pallet::weight(T::WeightInfo::create_agent())]
pub fn create_agent(origin: OriginFor<T>) -> DispatchResult { pub fn create_agent(origin: OriginFor<T>) -> DispatchResult {
let origin_location: MultiLocation = T::SiblingOrigin::ensure_origin(origin)?; let origin_location: Location = T::SiblingOrigin::ensure_origin(origin)?;
// Ensure that origin location is some consensus system on a sibling parachain // Ensure that origin location is some consensus system on a sibling parachain
let (para_id, agent_id) = ensure_sibling::<T>(&origin_location)?; let (para_id, agent_id) = ensure_sibling::<T>(&origin_location)?;
@@ -375,12 +375,12 @@ pub mod pallet {
/// ///
/// The message is sent over the bridge on BridgeHub's own channel to the Gateway. /// The message is sent over the bridge on BridgeHub's own channel to the Gateway.
/// ///
/// - `origin`: Must be `MultiLocation` /// - `origin`: Must be `Location`
/// - `mode`: Initial operating mode of the channel /// - `mode`: Initial operating mode of the channel
#[pallet::call_index(4)] #[pallet::call_index(4)]
#[pallet::weight(T::WeightInfo::create_channel())] #[pallet::weight(T::WeightInfo::create_channel())]
pub fn create_channel(origin: OriginFor<T>, mode: OperatingMode) -> DispatchResult { pub fn create_channel(origin: OriginFor<T>, mode: OperatingMode) -> DispatchResult {
let origin_location: MultiLocation = T::SiblingOrigin::ensure_origin(origin)?; let origin_location: Location = T::SiblingOrigin::ensure_origin(origin)?;
// Ensure that origin location is a sibling parachain // Ensure that origin location is a sibling parachain
let (para_id, agent_id) = ensure_sibling::<T>(&origin_location)?; let (para_id, agent_id) = ensure_sibling::<T>(&origin_location)?;
@@ -407,12 +407,12 @@ pub mod pallet {
/// ///
/// A partial fee will be charged for local processing only. /// A partial fee will be charged for local processing only.
/// ///
/// - `origin`: Must be `MultiLocation` /// - `origin`: Must be `Location`
/// - `mode`: Initial operating mode of the channel /// - `mode`: Initial operating mode of the channel
#[pallet::call_index(5)] #[pallet::call_index(5)]
#[pallet::weight(T::WeightInfo::update_channel())] #[pallet::weight(T::WeightInfo::update_channel())]
pub fn update_channel(origin: OriginFor<T>, mode: OperatingMode) -> DispatchResult { pub fn update_channel(origin: OriginFor<T>, mode: OperatingMode) -> DispatchResult {
let origin_location: MultiLocation = T::SiblingOrigin::ensure_origin(origin)?; let origin_location: Location = T::SiblingOrigin::ensure_origin(origin)?;
// Ensure that origin location is a sibling parachain // Ensure that origin location is a sibling parachain
let (para_id, _) = ensure_sibling::<T>(&origin_location)?; let (para_id, _) = ensure_sibling::<T>(&origin_location)?;
@@ -461,7 +461,7 @@ pub mod pallet {
/// ///
/// A partial fee will be charged for local processing only. /// A partial fee will be charged for local processing only.
/// ///
/// - `origin`: Must be `MultiLocation` /// - `origin`: Must be `Location`
#[pallet::call_index(7)] #[pallet::call_index(7)]
#[pallet::weight(T::WeightInfo::transfer_native_from_agent())] #[pallet::weight(T::WeightInfo::transfer_native_from_agent())]
pub fn transfer_native_from_agent( pub fn transfer_native_from_agent(
@@ -469,7 +469,7 @@ pub mod pallet {
recipient: H160, recipient: H160,
amount: u128, amount: u128,
) -> DispatchResult { ) -> DispatchResult {
let origin_location: MultiLocation = T::SiblingOrigin::ensure_origin(origin)?; let origin_location: Location = T::SiblingOrigin::ensure_origin(origin)?;
// Ensure that origin location is some consensus system on a sibling parachain // Ensure that origin location is some consensus system on a sibling parachain
let (para_id, agent_id) = ensure_sibling::<T>(&origin_location)?; let (para_id, agent_id) = ensure_sibling::<T>(&origin_location)?;
@@ -501,14 +501,14 @@ pub mod pallet {
#[pallet::weight(T::WeightInfo::force_transfer_native_from_agent())] #[pallet::weight(T::WeightInfo::force_transfer_native_from_agent())]
pub fn force_transfer_native_from_agent( pub fn force_transfer_native_from_agent(
origin: OriginFor<T>, origin: OriginFor<T>,
location: Box<VersionedMultiLocation>, location: Box<VersionedLocation>,
recipient: H160, recipient: H160,
amount: u128, amount: u128,
) -> DispatchResult { ) -> DispatchResult {
ensure_root(origin)?; ensure_root(origin)?;
// Ensure that location is some consensus system on a sibling parachain // Ensure that location is some consensus system on a sibling parachain
let location: MultiLocation = let location: Location =
(*location).try_into().map_err(|_| Error::<T>::UnsupportedLocationVersion)?; (*location).try_into().map_err(|_| Error::<T>::UnsupportedLocationVersion)?;
let (_, agent_id) = let (_, agent_id) =
ensure_sibling::<T>(&location).map_err(|_| Error::<T>::InvalidLocation)?; ensure_sibling::<T>(&location).map_err(|_| Error::<T>::InvalidLocation)?;
@@ -621,8 +621,8 @@ pub mod pallet {
/// Initializes agents and channels. /// Initializes agents and channels.
pub fn initialize(para_id: ParaId, asset_hub_para_id: ParaId) -> Result<(), DispatchError> { pub fn initialize(para_id: ParaId, asset_hub_para_id: ParaId) -> Result<(), DispatchError> {
// Asset Hub // Asset Hub
let asset_hub_location: MultiLocation = let asset_hub_location: Location =
ParentThen(X1(Parachain(asset_hub_para_id.into()))).into(); ParentThen(Parachain(asset_hub_para_id.into()).into()).into();
let asset_hub_agent_id = agent_id_of::<T>(&asset_hub_location)?; let asset_hub_agent_id = agent_id_of::<T>(&asset_hub_location)?;
let asset_hub_channel_id: ChannelId = asset_hub_para_id.into(); let asset_hub_channel_id: ChannelId = asset_hub_para_id.into();
Agents::<T>::insert(asset_hub_agent_id, ()); Agents::<T>::insert(asset_hub_agent_id, ());
@@ -632,7 +632,7 @@ pub mod pallet {
); );
// Governance channels // Governance channels
let bridge_hub_agent_id = agent_id_of::<T>(&MultiLocation::here())?; let bridge_hub_agent_id = agent_id_of::<T>(&Location::here())?;
// Agent for BridgeHub // Agent for BridgeHub
Agents::<T>::insert(bridge_hub_agent_id, ()); Agents::<T>::insert(bridge_hub_agent_id, ());
bridges/snowbridge/parachain/pallets/system/src/mock.rs
+13 -13
View File
@@ -49,22 +49,22 @@ mod pallet_xcm_origin {
// Insert this custom Origin into the aggregate RuntimeOrigin // Insert this custom Origin into the aggregate RuntimeOrigin
#[pallet::origin] #[pallet::origin]
#[derive(PartialEq, Eq, Clone, Encode, Decode, RuntimeDebug, TypeInfo, MaxEncodedLen)] #[derive(PartialEq, Eq, Clone, Encode, Decode, RuntimeDebug, TypeInfo, MaxEncodedLen)]
pub struct Origin(pub MultiLocation); pub struct Origin(pub Location);
impl From<MultiLocation> for Origin { impl From<Location> for Origin {
fn from(location: MultiLocation) -> Origin { fn from(location: Location) -> Origin {
Origin(location) Origin(location)
} }
} }
/// `EnsureOrigin` implementation succeeding with a `MultiLocation` value to recognize and /// `EnsureOrigin` implementation succeeding with a `Location` value to recognize and
/// filter the contained location /// filter the contained location
pub struct EnsureXcm<F>(PhantomData<F>); pub struct EnsureXcm<F>(PhantomData<F>);
impl<O: OriginTrait + From<Origin>, F: Contains<MultiLocation>> EnsureOrigin<O> for EnsureXcm<F> impl<O: OriginTrait + From<Origin>, F: Contains<Location>> EnsureOrigin<O> for EnsureXcm<F>
where where
O::PalletsOrigin: From<Origin> + TryInto<Origin, Error = O::PalletsOrigin>, O::PalletsOrigin: From<Origin> + TryInto<Origin, Error = O::PalletsOrigin>,
{ {
type Success = MultiLocation; type Success = Location;
fn try_origin(outer: O) -> Result<Self::Success, O> { fn try_origin(outer: O) -> Result<Self::Success, O> {
outer.try_with_caller(|caller| { outer.try_with_caller(|caller| {
@@ -77,7 +77,7 @@ mod pallet_xcm_origin {
#[cfg(feature = "runtime-benchmarks")] #[cfg(feature = "runtime-benchmarks")]
fn try_successful_origin() -> Result<O, ()> { fn try_successful_origin() -> Result<O, ()> {
Ok(O::from(Origin(MultiLocation { parents: 1, interior: X1(Parachain(2000)) }))) Ok(O::from(Origin(Location::new(1, [Parachain(2000)]))))
} }
} }
} }
@@ -186,9 +186,9 @@ parameter_types! {
pub const SS58Prefix: u8 = 42; pub const SS58Prefix: u8 = 42;
pub const AnyNetwork: Option<NetworkId> = None; pub const AnyNetwork: Option<NetworkId> = None;
pub const RelayNetwork: Option<NetworkId> = Some(NetworkId::Kusama); pub const RelayNetwork: Option<NetworkId> = Some(NetworkId::Kusama);
pub const RelayLocation: MultiLocation = MultiLocation::parent(); pub const RelayLocation: Location = Location::parent();
pub UniversalLocation: InteriorMultiLocation = pub UniversalLocation: InteriorLocation =
X2(GlobalConsensus(RelayNetwork::get().unwrap()), Parachain(1013)); [GlobalConsensus(RelayNetwork::get().unwrap()), Parachain(1013)].into();
} }
pub const DOT: u128 = 10_000_000_000; pub const DOT: u128 = 10_000_000_000;
@@ -211,7 +211,7 @@ parameter_types! {
#[cfg(feature = "runtime-benchmarks")] #[cfg(feature = "runtime-benchmarks")]
impl BenchmarkHelper<RuntimeOrigin> for () { impl BenchmarkHelper<RuntimeOrigin> for () {
fn make_xcm_origin(location: MultiLocation) -> RuntimeOrigin { fn make_xcm_origin(location: Location) -> RuntimeOrigin {
RuntimeOrigin::from(pallet_xcm_origin::Origin(location)) RuntimeOrigin::from(pallet_xcm_origin::Origin(location))
} }
} }
@@ -260,11 +260,11 @@ pub fn new_test_ext(genesis_build: bool) -> sp_io::TestExternalities {
// Test helpers // Test helpers
pub fn make_xcm_origin(location: MultiLocation) -> RuntimeOrigin { pub fn make_xcm_origin(location: Location) -> RuntimeOrigin {
pallet_xcm_origin::Origin(location).into() pallet_xcm_origin::Origin(location).into()
} }
pub fn make_agent_id(location: MultiLocation) -> AgentId { pub fn make_agent_id(location: Location) -> AgentId {
<Test as snowbridge_system::Config>::AgentIdOf::convert_location(&location) <Test as snowbridge_system::Config>::AgentIdOf::convert_location(&location)
.expect("convert location") .expect("convert location")
} }
bridges/snowbridge/parachain/pallets/system/src/tests.rs
+46 -61
View File
@@ -11,8 +11,8 @@ use sp_runtime::{AccountId32, DispatchError::BadOrigin, TokenError};
fn create_agent() { fn create_agent() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
let origin_para_id = 2000; let origin_para_id = 2000;
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(origin_para_id)) }; let origin_location = Location::new(1, [Parachain(origin_para_id)]);
let agent_id = make_agent_id(origin_location); let agent_id = make_agent_id(origin_location.clone());
let sovereign_account = sibling_sovereign_account::<Test>(origin_para_id.into()); let sovereign_account = sibling_sovereign_account::<Test>(origin_para_id.into());
// fund sovereign account of origin // fund sovereign account of origin
@@ -30,7 +30,7 @@ fn create_agent() {
#[test] #[test]
fn test_agent_for_here() { fn test_agent_for_here() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
let origin_location = MultiLocation::here(); let origin_location = Location::here();
let agent_id = make_agent_id(origin_location); let agent_id = make_agent_id(origin_location);
assert_eq!( assert_eq!(
agent_id, agent_id,
@@ -42,7 +42,7 @@ fn test_agent_for_here() {
#[test] #[test]
fn create_agent_fails_on_funds_unavailable() { fn create_agent_fails_on_funds_unavailable() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(2000)) }; let origin_location = Location::new(1, [Parachain(2000)]);
let origin = make_xcm_origin(origin_location); let origin = make_xcm_origin(origin_location);
// Reset balance of sovereign_account to zero so to trigger the FundsUnavailable error // Reset balance of sovereign_account to zero so to trigger the FundsUnavailable error
let sovereign_account = sibling_sovereign_account::<Test>(2000.into()); let sovereign_account = sibling_sovereign_account::<Test>(2000.into());
@@ -56,19 +56,16 @@ fn create_agent_bad_origin() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
// relay chain location not allowed // relay chain location not allowed
assert_noop!( assert_noop!(
EthereumSystem::create_agent(make_xcm_origin(MultiLocation { EthereumSystem::create_agent(make_xcm_origin(Location::new(1, [],))),
parents: 1,
interior: Here,
})),
BadOrigin, BadOrigin,
); );
// local account location not allowed // local account location not allowed
assert_noop!( assert_noop!(
EthereumSystem::create_agent(make_xcm_origin(MultiLocation { EthereumSystem::create_agent(make_xcm_origin(Location::new(
parents: 0, 0,
interior: X1(Junction::AccountId32 { network: None, id: [67u8; 32] }), [Junction::AccountId32 { network: None, id: [67u8; 32] }],
})), ))),
BadOrigin, BadOrigin,
); );
@@ -243,7 +240,7 @@ fn set_token_transfer_fees_invalid() {
fn create_channel() { fn create_channel() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
let origin_para_id = 2000; let origin_para_id = 2000;
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(origin_para_id)) }; let origin_location = Location::new(1, [Parachain(origin_para_id)]);
let sovereign_account = sibling_sovereign_account::<Test>(origin_para_id.into()); let sovereign_account = sibling_sovereign_account::<Test>(origin_para_id.into());
let origin = make_xcm_origin(origin_location); let origin = make_xcm_origin(origin_location);
@@ -259,7 +256,7 @@ fn create_channel() {
fn create_channel_fail_already_exists() { fn create_channel_fail_already_exists() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
let origin_para_id = 2000; let origin_para_id = 2000;
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(origin_para_id)) }; let origin_location = Location::new(1, [Parachain(origin_para_id)]);
let sovereign_account = sibling_sovereign_account::<Test>(origin_para_id.into()); let sovereign_account = sibling_sovereign_account::<Test>(origin_para_id.into());
let origin = make_xcm_origin(origin_location); let origin = make_xcm_origin(origin_location);
@@ -282,7 +279,7 @@ fn create_channel_bad_origin() {
// relay chain location not allowed // relay chain location not allowed
assert_noop!( assert_noop!(
EthereumSystem::create_channel( EthereumSystem::create_channel(
make_xcm_origin(MultiLocation { parents: 1, interior: Here }), make_xcm_origin(Location::new(1, [])),
OperatingMode::Normal, OperatingMode::Normal,
), ),
BadOrigin, BadOrigin,
@@ -291,13 +288,10 @@ fn create_channel_bad_origin() {
// child of sibling location not allowed // child of sibling location not allowed
assert_noop!( assert_noop!(
EthereumSystem::create_channel( EthereumSystem::create_channel(
make_xcm_origin(MultiLocation { make_xcm_origin(Location::new(
parents: 1, 1,
interior: X2( [Parachain(2000), Junction::AccountId32 { network: None, id: [67u8; 32] }],
Parachain(2000), )),
Junction::AccountId32 { network: None, id: [67u8; 32] }
),
}),
OperatingMode::Normal, OperatingMode::Normal,
), ),
BadOrigin, BadOrigin,
@@ -306,10 +300,10 @@ fn create_channel_bad_origin() {
// local account location not allowed // local account location not allowed
assert_noop!( assert_noop!(
EthereumSystem::create_channel( EthereumSystem::create_channel(
make_xcm_origin(MultiLocation { make_xcm_origin(Location::new(
parents: 0, 0,
interior: X1(Junction::AccountId32 { network: None, id: [67u8; 32] }), [Junction::AccountId32 { network: None, id: [67u8; 32] }],
}), )),
OperatingMode::Normal, OperatingMode::Normal,
), ),
BadOrigin, BadOrigin,
@@ -333,7 +327,7 @@ fn create_channel_bad_origin() {
fn update_channel() { fn update_channel() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
let origin_para_id = 2000; let origin_para_id = 2000;
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(origin_para_id)) }; let origin_location = Location::new(1, [Parachain(origin_para_id)]);
let sovereign_account = sibling_sovereign_account::<Test>(origin_para_id.into()); let sovereign_account = sibling_sovereign_account::<Test>(origin_para_id.into());
let origin = make_xcm_origin(origin_location); let origin = make_xcm_origin(origin_location);
@@ -359,23 +353,17 @@ fn update_channel_bad_origin() {
// relay chain location not allowed // relay chain location not allowed
assert_noop!( assert_noop!(
EthereumSystem::update_channel( EthereumSystem::update_channel(make_xcm_origin(Location::new(1, [])), mode,),
make_xcm_origin(MultiLocation { parents: 1, interior: Here }),
mode,
),
BadOrigin, BadOrigin,
); );
// child of sibling location not allowed // child of sibling location not allowed
assert_noop!( assert_noop!(
EthereumSystem::update_channel( EthereumSystem::update_channel(
make_xcm_origin(MultiLocation { make_xcm_origin(Location::new(
parents: 1, 1,
interior: X2( [Parachain(2000), Junction::AccountId32 { network: None, id: [67u8; 32] }],
Parachain(2000), )),
Junction::AccountId32 { network: None, id: [67u8; 32] }
),
}),
mode, mode,
), ),
BadOrigin, BadOrigin,
@@ -384,10 +372,10 @@ fn update_channel_bad_origin() {
// local account location not allowed // local account location not allowed
assert_noop!( assert_noop!(
EthereumSystem::update_channel( EthereumSystem::update_channel(
make_xcm_origin(MultiLocation { make_xcm_origin(Location::new(
parents: 0, 0,
interior: X1(Junction::AccountId32 { network: None, id: [67u8; 32] }), [Junction::AccountId32 { network: None, id: [67u8; 32] }],
}), )),
mode, mode,
), ),
BadOrigin, BadOrigin,
@@ -407,7 +395,7 @@ fn update_channel_bad_origin() {
#[test] #[test]
fn update_channel_fails_not_exist() { fn update_channel_fails_not_exist() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(2000)) }; let origin_location = Location::new(1, [Parachain(2000)]);
let origin = make_xcm_origin(origin_location); let origin = make_xcm_origin(origin_location);
// Now try to update it // Now try to update it
@@ -422,7 +410,7 @@ fn update_channel_fails_not_exist() {
fn force_update_channel() { fn force_update_channel() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
let origin_para_id = 2000; let origin_para_id = 2000;
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(origin_para_id)) }; let origin_location = Location::new(1, [Parachain(origin_para_id)]);
let sovereign_account = sibling_sovereign_account::<Test>(origin_para_id.into()); let sovereign_account = sibling_sovereign_account::<Test>(origin_para_id.into());
let origin = make_xcm_origin(origin_location); let origin = make_xcm_origin(origin_location);
@@ -468,8 +456,8 @@ fn force_update_channel_bad_origin() {
#[test] #[test]
fn transfer_native_from_agent() { fn transfer_native_from_agent() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(2000)) }; let origin_location = Location::new(1, [Parachain(2000)]);
let origin = make_xcm_origin(origin_location); let origin = make_xcm_origin(origin_location.clone());
let recipient: H160 = [27u8; 20].into(); let recipient: H160 = [27u8; 20].into();
let amount = 103435; let amount = 103435;
@@ -477,7 +465,7 @@ fn transfer_native_from_agent() {
assert_ok!(EthereumSystem::create_agent(origin.clone())); assert_ok!(EthereumSystem::create_agent(origin.clone()));
assert_ok!(EthereumSystem::create_channel(origin, OperatingMode::Normal)); assert_ok!(EthereumSystem::create_channel(origin, OperatingMode::Normal));
let origin = make_xcm_origin(origin_location); let origin = make_xcm_origin(origin_location.clone());
assert_ok!(EthereumSystem::transfer_native_from_agent(origin, recipient, amount),); assert_ok!(EthereumSystem::transfer_native_from_agent(origin, recipient, amount),);
System::assert_last_event(RuntimeEvent::EthereumSystem( System::assert_last_event(RuntimeEvent::EthereumSystem(
@@ -494,13 +482,13 @@ fn transfer_native_from_agent() {
fn force_transfer_native_from_agent() { fn force_transfer_native_from_agent() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
let origin = RuntimeOrigin::root(); let origin = RuntimeOrigin::root();
let location = MultiLocation { parents: 1, interior: X1(Parachain(2000)) }; let location = Location::new(1, [Parachain(2000)]);
let versioned_location: Box<VersionedMultiLocation> = Box::new(location.into()); let versioned_location: Box<VersionedLocation> = Box::new(location.clone().into());
let recipient: H160 = [27u8; 20].into(); let recipient: H160 = [27u8; 20].into();
let amount = 103435; let amount = 103435;
// First create the agent // First create the agent
Agents::<Test>::insert(make_agent_id(location), ()); Agents::<Test>::insert(make_agent_id(location.clone()), ());
assert_ok!(EthereumSystem::force_transfer_native_from_agent( assert_ok!(EthereumSystem::force_transfer_native_from_agent(
origin, origin,
@@ -530,13 +518,10 @@ fn force_transfer_native_from_agent_bad_origin() {
EthereumSystem::force_transfer_native_from_agent( EthereumSystem::force_transfer_native_from_agent(
RuntimeOrigin::signed([14; 32].into()), RuntimeOrigin::signed([14; 32].into()),
Box::new( Box::new(
MultiLocation { Location::new(
parents: 1, 1,
interior: X2( [Parachain(2000), Junction::AccountId32 { network: None, id: [67u8; 32] }],
Parachain(2000), )
Junction::AccountId32 { network: None, id: [67u8; 32] }
),
}
.into() .into()
), ),
recipient, recipient,
@@ -571,8 +556,8 @@ fn check_sibling_sovereign_account() {
fn charge_fee_for_create_agent() { fn charge_fee_for_create_agent() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
let para_id: u32 = TestParaId::get(); let para_id: u32 = TestParaId::get();
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(para_id)) }; let origin_location = Location::new(1, [Parachain(para_id)]);
let origin = make_xcm_origin(origin_location); let origin = make_xcm_origin(origin_location.clone());
let sovereign_account = sibling_sovereign_account::<Test>(para_id.into()); let sovereign_account = sibling_sovereign_account::<Test>(para_id.into());
let (_, agent_id) = ensure_sibling::<Test>(&origin_location).unwrap(); let (_, agent_id) = ensure_sibling::<Test>(&origin_location).unwrap();
@@ -605,10 +590,10 @@ fn charge_fee_for_create_agent() {
fn charge_fee_for_transfer_native_from_agent() { fn charge_fee_for_transfer_native_from_agent() {
new_test_ext(true).execute_with(|| { new_test_ext(true).execute_with(|| {
let para_id: u32 = TestParaId::get(); let para_id: u32 = TestParaId::get();
let origin_location = MultiLocation { parents: 1, interior: X1(Parachain(para_id)) }; let origin_location = Location::new(1, [Parachain(para_id)]);
let recipient: H160 = [27u8; 20].into(); let recipient: H160 = [27u8; 20].into();
let amount = 103435; let amount = 103435;
let origin = make_xcm_origin(origin_location); let origin = make_xcm_origin(origin_location.clone());
let (_, agent_id) = ensure_sibling::<Test>(&origin_location).unwrap(); let (_, agent_id) = ensure_sibling::<Test>(&origin_location).unwrap();
let sovereign_account = sibling_sovereign_account::<Test>(para_id.into()); let sovereign_account = sibling_sovereign_account::<Test>(para_id.into());
bridges/snowbridge/parachain/primitives/core/src/lib.rs
+9 -13
View File
@@ -28,11 +28,7 @@ use sp_core::H256;
use sp_io::hashing::keccak_256; use sp_io::hashing::keccak_256;
use sp_runtime::{traits::AccountIdConversion, RuntimeDebug}; use sp_runtime::{traits::AccountIdConversion, RuntimeDebug};
use sp_std::prelude::*; use sp_std::prelude::*;
use xcm::prelude::{ use xcm::prelude::{Junction::Parachain, Location};
Junction::Parachain,
Junctions::{Here, X1},
MultiLocation,
};
use xcm_builder::{DescribeAllTerminal, DescribeFamily, DescribeLocation, HashedDescription}; use xcm_builder::{DescribeAllTerminal, DescribeFamily, DescribeLocation, HashedDescription};
/// The ID of an agent contract /// The ID of an agent contract
@@ -53,9 +49,9 @@ pub fn sibling_sovereign_account_raw(para_id: ParaId) -> [u8; 32] {
} }
pub struct AllowSiblingsOnly; pub struct AllowSiblingsOnly;
impl Contains<MultiLocation> for AllowSiblingsOnly { impl Contains<Location> for AllowSiblingsOnly {
fn contains(location: &MultiLocation) -> bool { fn contains(location: &Location) -> bool {
matches!(location, MultiLocation { parents: 1, interior: X1(Parachain(_)) }) matches!(location.unpack(), (1, [Parachain(_)]))
} }
} }
@@ -161,14 +157,14 @@ pub const SECONDARY_GOVERNANCE_CHANNEL: ChannelId =
pub struct DescribeHere; pub struct DescribeHere;
impl DescribeLocation for DescribeHere { impl DescribeLocation for DescribeHere {
fn describe_location(l: &MultiLocation) -> Option<Vec<u8>> { fn describe_location(l: &Location) -> Option<Vec<u8>> {
match (l.parents, l.interior) { match l.unpack() {
(0, Here) => Some(Vec::<u8>::new().encode()), (0, []) => Some(Vec::<u8>::new().encode()),
_ => None, _ => None,
} }
} }
} }
/// Creates an AgentId from a MultiLocation. An AgentId is a unique mapping to a Agent contract on /// Creates an AgentId from a Location. An AgentId is a unique mapping to a Agent contract on
/// Ethereum which acts as the sovereign account for the MultiLocation. /// Ethereum which acts as the sovereign account for the Location.
pub type AgentIdOf = HashedDescription<H256, (DescribeHere, DescribeFamily<DescribeAllTerminal>)>; pub type AgentIdOf = HashedDescription<H256, (DescribeHere, DescribeFamily<DescribeAllTerminal>)>;
bridges/snowbridge/parachain/primitives/core/tests/mod.rs
+3 -3
View File
@@ -2,12 +2,12 @@
mod tests { mod tests {
use frame_support::traits::Contains; use frame_support::traits::Contains;
use snowbridge_core::AllowSiblingsOnly; use snowbridge_core::AllowSiblingsOnly;
use xcm::prelude::{Junction::Parachain, Junctions::X1, MultiLocation}; use xcm::prelude::{Junction::Parachain, Location};
#[test] #[test]
fn allow_siblings_predicate_only_allows_siblings() { fn allow_siblings_predicate_only_allows_siblings() {
let sibling = MultiLocation::new(1, X1(Parachain(1000))); let sibling = Location::new(1, [Parachain(1000)]);
let child = MultiLocation::new(0, X1(Parachain(1000))); let child = Location::new(0, [Parachain(1000)]);
assert!(AllowSiblingsOnly::contains(&sibling), "Sibling returns true."); assert!(AllowSiblingsOnly::contains(&sibling), "Sibling returns true.");
assert!(!AllowSiblingsOnly::contains(&child), "Child returns false."); assert!(!AllowSiblingsOnly::contains(&child), "Child returns false.");
} }
bridges/snowbridge/parachain/primitives/router/src/inbound/mod.rs
+26 -34
View File
@@ -161,13 +161,13 @@ where
{ {
fn convert_register_token(chain_id: u64, token: H160, fee: u128) -> (Xcm<()>, Balance) { fn convert_register_token(chain_id: u64, token: H160, fee: u128) -> (Xcm<()>, Balance) {
let network = Ethereum { chain_id }; let network = Ethereum { chain_id };
let xcm_fee: MultiAsset = (MultiLocation::parent(), fee).into(); let xcm_fee: Asset = (Location::parent(), fee).into();
let deposit: MultiAsset = (MultiLocation::parent(), CreateAssetDeposit::get()).into(); let deposit: Asset = (Location::parent(), CreateAssetDeposit::get()).into();
let total_amount = fee + CreateAssetDeposit::get(); let total_amount = fee + CreateAssetDeposit::get();
let total: MultiAsset = (MultiLocation::parent(), total_amount).into(); let total: Asset = (Location::parent(), total_amount).into();
let bridge_location: MultiLocation = (Parent, Parent, GlobalConsensus(network)).into(); let bridge_location: Location = (Parent, Parent, GlobalConsensus(network)).into();
let owner = GlobalConsensusEthereumConvertsFor::<[u8; 32]>::from_chain_id(&chain_id); let owner = GlobalConsensusEthereumConvertsFor::<[u8; 32]>::from_chain_id(&chain_id);
let asset_id = Self::convert_token_address(network, token); let asset_id = Self::convert_token_address(network, token);
@@ -182,7 +182,7 @@ where
// Fund the snowbridge sovereign with the required deposit for creation. // Fund the snowbridge sovereign with the required deposit for creation.
DepositAsset { assets: Definite(deposit.into()), beneficiary: bridge_location }, DepositAsset { assets: Definite(deposit.into()), beneficiary: bridge_location },
// Only our inbound-queue pallet is allowed to invoke `UniversalOrigin` // Only our inbound-queue pallet is allowed to invoke `UniversalOrigin`
DescendOrigin(X1(PalletInstance(inbound_queue_pallet_index))), DescendOrigin(PalletInstance(inbound_queue_pallet_index).into()),
// Change origin to the bridge. // Change origin to the bridge.
UniversalOrigin(GlobalConsensus(network)), UniversalOrigin(GlobalConsensus(network)),
// Call create_asset on foreign assets pallet. // Call create_asset on foreign assets pallet.
@@ -216,40 +216,37 @@ where
asset_hub_fee: u128, asset_hub_fee: u128,
) -> (Xcm<()>, Balance) { ) -> (Xcm<()>, Balance) {
let network = Ethereum { chain_id }; let network = Ethereum { chain_id };
let asset_hub_fee_asset: MultiAsset = (MultiLocation::parent(), asset_hub_fee).into(); let asset_hub_fee_asset: Asset = (Location::parent(), asset_hub_fee).into();
let asset: MultiAsset = (Self::convert_token_address(network, token), amount).into(); let asset: Asset = (Self::convert_token_address(network, token), amount).into();
let (dest_para_id, beneficiary, dest_para_fee) = match destination { let (dest_para_id, beneficiary, dest_para_fee) = match destination {
// Final destination is a 32-byte account on AssetHub // Final destination is a 32-byte account on AssetHub
Destination::AccountId32 { id } => ( Destination::AccountId32 { id } =>
None, (None, Location::new(0, [AccountId32 { network: None, id }]), 0),
MultiLocation { parents: 0, interior: X1(AccountId32 { network: None, id }) },
0,
),
// Final destination is a 32-byte account on a sibling of AssetHub // Final destination is a 32-byte account on a sibling of AssetHub
Destination::ForeignAccountId32 { para_id, id, fee } => ( Destination::ForeignAccountId32 { para_id, id, fee } => (
Some(para_id), Some(para_id),
MultiLocation { parents: 0, interior: X1(AccountId32 { network: None, id }) }, Location::new(0, [AccountId32 { network: None, id }]),
// Total fee needs to cover execution on AssetHub and Sibling // Total fee needs to cover execution on AssetHub and Sibling
fee, fee,
), ),
// Final destination is a 20-byte account on a sibling of AssetHub // Final destination is a 20-byte account on a sibling of AssetHub
Destination::ForeignAccountId20 { para_id, id, fee } => ( Destination::ForeignAccountId20 { para_id, id, fee } => (
Some(para_id), Some(para_id),
MultiLocation { parents: 0, interior: X1(AccountKey20 { network: None, key: id }) }, Location::new(0, [AccountKey20 { network: None, key: id }]),
// Total fee needs to cover execution on AssetHub and Sibling // Total fee needs to cover execution on AssetHub and Sibling
fee, fee,
), ),
}; };
let total_fees = asset_hub_fee.saturating_add(dest_para_fee); let total_fees = asset_hub_fee.saturating_add(dest_para_fee);
let total_fee_asset: MultiAsset = (MultiLocation::parent(), total_fees).into(); let total_fee_asset: Asset = (Location::parent(), total_fees).into();
let inbound_queue_pallet_index = InboundQueuePalletInstance::get(); let inbound_queue_pallet_index = InboundQueuePalletInstance::get();
let mut instructions = vec![ let mut instructions = vec![
ReceiveTeleportedAsset(total_fee_asset.into()), ReceiveTeleportedAsset(total_fee_asset.into()),
BuyExecution { fees: asset_hub_fee_asset, weight_limit: Unlimited }, BuyExecution { fees: asset_hub_fee_asset, weight_limit: Unlimited },
DescendOrigin(X1(PalletInstance(inbound_queue_pallet_index))), DescendOrigin(PalletInstance(inbound_queue_pallet_index).into()),
UniversalOrigin(GlobalConsensus(network)), UniversalOrigin(GlobalConsensus(network)),
ReserveAssetDeposited(asset.clone().into()), ReserveAssetDeposited(asset.clone().into()),
ClearOrigin, ClearOrigin,
@@ -257,14 +254,13 @@ where
match dest_para_id { match dest_para_id {
Some(dest_para_id) => { Some(dest_para_id) => {
let dest_para_fee_asset: MultiAsset = let dest_para_fee_asset: Asset = (Location::parent(), dest_para_fee).into();
(MultiLocation::parent(), dest_para_fee).into();
instructions.extend(vec![ instructions.extend(vec![
// Perform a deposit reserve to send to destination chain. // Perform a deposit reserve to send to destination chain.
DepositReserveAsset { DepositReserveAsset {
assets: Definite(vec![dest_para_fee_asset.clone(), asset.clone()].into()), assets: Definite(vec![dest_para_fee_asset.clone(), asset.clone()].into()),
dest: MultiLocation { parents: 1, interior: X1(Parachain(dest_para_id)) }, dest: Location::new(1, [Parachain(dest_para_id)]),
xcm: vec![ xcm: vec![
// Buy execution on target. // Buy execution on target.
BuyExecution { fees: dest_para_fee_asset, weight_limit: Unlimited }, BuyExecution { fees: dest_para_fee_asset, weight_limit: Unlimited },
@@ -286,15 +282,12 @@ where
(instructions.into(), total_fees.into()) (instructions.into(), total_fees.into())
} }
// Convert ERC20 token address to a Multilocation that can be understood by Assets Hub. // Convert ERC20 token address to a location that can be understood by Assets Hub.
fn convert_token_address(network: NetworkId, token: H160) -> MultiLocation { fn convert_token_address(network: NetworkId, token: H160) -> Location {
MultiLocation { Location::new(
parents: 2, 2,
interior: X2( [GlobalConsensus(network), AccountKey20 { network: None, key: token.into() }],
GlobalConsensus(network), )
AccountKey20 { network: None, key: token.into() },
),
}
} }
} }
@@ -303,12 +296,11 @@ impl<AccountId> ConvertLocation<AccountId> for GlobalConsensusEthereumConvertsFo
where where
AccountId: From<[u8; 32]> + Clone, AccountId: From<[u8; 32]> + Clone,
{ {
fn convert_location(location: &MultiLocation) -> Option<AccountId> { fn convert_location(location: &Location) -> Option<AccountId> {
if let MultiLocation { interior: X1(GlobalConsensus(Ethereum { chain_id })), .. } = location match location.unpack() {
{ (_, [GlobalConsensus(Ethereum { chain_id })]) =>
Some(Self::from_chain_id(chain_id).into()) Some(Self::from_chain_id(chain_id).into()),
} else { _ => None,
None
} }
} }
} }
bridges/snowbridge/parachain/primitives/router/src/inbound/tests.rs
+3 -4
View File
@@ -2,7 +2,7 @@ use super::GlobalConsensusEthereumConvertsFor;
use crate::inbound::CallIndex; use crate::inbound::CallIndex;
use frame_support::parameter_types; use frame_support::parameter_types;
use hex_literal::hex; use hex_literal::hex;
use xcm::v3::prelude::*; use xcm::v4::prelude::*;
use xcm_executor::traits::ConvertLocation; use xcm_executor::traits::ConvertLocation;
const NETWORK: NetworkId = Ethereum { chain_id: 11155111 }; const NETWORK: NetworkId = Ethereum { chain_id: 11155111 };
@@ -20,7 +20,7 @@ parameter_types! {
fn test_contract_location_with_network_converts_successfully() { fn test_contract_location_with_network_converts_successfully() {
let expected_account: [u8; 32] = let expected_account: [u8; 32] =
hex!("ce796ae65569a670d0c1cc1ac12515a3ce21b5fbf729d63d7b289baad070139d"); hex!("ce796ae65569a670d0c1cc1ac12515a3ce21b5fbf729d63d7b289baad070139d");
let contract_location = MultiLocation { parents: 2, interior: X1(GlobalConsensus(NETWORK)) }; let contract_location = Location::new(2, [GlobalConsensus(NETWORK)]);
let account = let account =
GlobalConsensusEthereumConvertsFor::<[u8; 32]>::convert_location(&contract_location) GlobalConsensusEthereumConvertsFor::<[u8; 32]>::convert_location(&contract_location)
@@ -31,8 +31,7 @@ fn test_contract_location_with_network_converts_successfully() {
#[test] #[test]
fn test_contract_location_with_incorrect_location_fails_convert() { fn test_contract_location_with_incorrect_location_fails_convert() {
let contract_location = let contract_location = Location::new(2, [GlobalConsensus(Polkadot), Parachain(1000)]);
MultiLocation { parents: 2, interior: X2(GlobalConsensus(Polkadot), Parachain(1000)) };
assert_eq!( assert_eq!(
GlobalConsensusEthereumConvertsFor::<[u8; 32]>::convert_location(&contract_location), GlobalConsensusEthereumConvertsFor::<[u8; 32]>::convert_location(&contract_location),
bridges/snowbridge/parachain/primitives/router/src/outbound/mod.rs
+20 -19
View File
@@ -16,7 +16,7 @@ use snowbridge_core::{
}; };
use sp_core::{H160, H256}; use sp_core::{H160, H256};
use sp_std::{iter::Peekable, marker::PhantomData, prelude::*}; use sp_std::{iter::Peekable, marker::PhantomData, prelude::*};
use xcm::v3::prelude::*; use xcm::v4::prelude::*;
use xcm_executor::traits::{ConvertLocation, ExportXcm}; use xcm_executor::traits::{ConvertLocation, ExportXcm};
pub struct EthereumBlobExporter< pub struct EthereumBlobExporter<
@@ -29,7 +29,7 @@ pub struct EthereumBlobExporter<
impl<UniversalLocation, EthereumNetwork, OutboundQueue, AgentHashedDescription> ExportXcm impl<UniversalLocation, EthereumNetwork, OutboundQueue, AgentHashedDescription> ExportXcm
for EthereumBlobExporter<UniversalLocation, EthereumNetwork, OutboundQueue, AgentHashedDescription> for EthereumBlobExporter<UniversalLocation, EthereumNetwork, OutboundQueue, AgentHashedDescription>
where where
UniversalLocation: Get<InteriorMultiLocation>, UniversalLocation: Get<InteriorLocation>,
EthereumNetwork: Get<NetworkId>, EthereumNetwork: Get<NetworkId>,
OutboundQueue: SendMessage<Balance = u128>, OutboundQueue: SendMessage<Balance = u128>,
AgentHashedDescription: ConvertLocation<H256>, AgentHashedDescription: ConvertLocation<H256>,
@@ -39,8 +39,8 @@ where
fn validate( fn validate(
network: NetworkId, network: NetworkId,
_channel: u32, _channel: u32,
universal_source: &mut Option<InteriorMultiLocation>, universal_source: &mut Option<InteriorLocation>,
destination: &mut Option<InteriorMultiLocation>, destination: &mut Option<InteriorLocation>,
message: &mut Option<Xcm<()>>, message: &mut Option<Xcm<()>>,
) -> SendResult<Self::Ticket> { ) -> SendResult<Self::Ticket> {
let expected_network = EthereumNetwork::get(); let expected_network = EthereumNetwork::get();
@@ -74,8 +74,8 @@ where
return Err(SendError::NotApplicable) return Err(SendError::NotApplicable)
} }
let para_id = match local_sub { let para_id = match local_sub.as_slice() {
X1(Parachain(para_id)) => para_id, [Parachain(para_id)] => *para_id,
_ => { _ => {
log::error!(target: "xcm::ethereum_blob_exporter", "could not get parachain id from universal source '{local_sub:?}'."); log::error!(target: "xcm::ethereum_blob_exporter", "could not get parachain id from universal source '{local_sub:?}'.");
return Err(SendError::MissingArgument) return Err(SendError::MissingArgument)
@@ -93,7 +93,7 @@ where
SendError::Unroutable SendError::Unroutable
})?; })?;
let source_location: MultiLocation = MultiLocation { parents: 1, interior: local_sub }; let source_location = Location::new(1, local_sub.clone());
let agent_id = match AgentHashedDescription::convert_location(&source_location) { let agent_id = match AgentHashedDescription::convert_location(&source_location) {
Some(id) => id, Some(id) => id,
None => { None => {
@@ -116,8 +116,8 @@ where
SendError::Unroutable SendError::Unroutable
})?; })?;
// convert fee to MultiAsset // convert fee to Asset
let fee = MultiAsset::from((MultiLocation::parent(), fee.total())).into(); let fee = Asset::from((Location::parent(), fee.total())).into();
Ok(((ticket.encode(), message_id), fee)) Ok(((ticket.encode(), message_id), fee))
} }
@@ -216,8 +216,8 @@ impl<'a, Call> XcmConverter<'a, Call> {
// assert that the beneficiary is AccountKey20. // assert that the beneficiary is AccountKey20.
let recipient = match_expression!( let recipient = match_expression!(
beneficiary, beneficiary.unpack(),
MultiLocation { parents: 0, interior: X1(AccountKey20 { network, key }) } (0, [AccountKey20 { network, key }])
if self.network_matches(network), if self.network_matches(network),
H160(*key) H160(*key)
) )
@@ -245,14 +245,15 @@ impl<'a, Call> XcmConverter<'a, Call> {
} }
} }
let (token, amount) = match_expression!( let (token, amount) = match reserve_asset {
reserve_asset, Asset { id: AssetId(inner_location), fun: Fungible(amount) } =>
MultiAsset { match inner_location.unpack() {
id: Concrete(MultiLocation { parents: 0, interior: X1(AccountKey20 { network , key })}), (0, [AccountKey20 { network, key }]) if self.network_matches(network) =>
fun: Fungible(amount) Some((H160(*key), *amount)),
} if self.network_matches(network), _ => None,
(H160(*key), *amount) },
) _ => None,
}
.ok_or(AssetResolutionFailed)?; .ok_or(AssetResolutionFailed)?;
// transfer amount must be greater than 0. // transfer amount must be greater than 0.
bridges/snowbridge/parachain/primitives/router/src/outbound/tests.rs
+139 -144
View File
@@ -11,7 +11,7 @@ use super::*;
parameter_types! { parameter_types! {
const MaxMessageSize: u32 = u32::MAX; const MaxMessageSize: u32 = u32::MAX;
const RelayNetwork: NetworkId = Polkadot; const RelayNetwork: NetworkId = Polkadot;
const UniversalLocation: InteriorMultiLocation = X2(GlobalConsensus(RelayNetwork::get()), Parachain(1013)); UniversalLocation: InteriorLocation = [GlobalConsensus(RelayNetwork::get()), Parachain(1013)].into();
const BridgedNetwork: NetworkId = Ethereum{ chain_id: 1 }; const BridgedNetwork: NetworkId = Ethereum{ chain_id: 1 };
const NonBridgedNetwork: NetworkId = Ethereum{ chain_id: 2 }; const NonBridgedNetwork: NetworkId = Ethereum{ chain_id: 2 };
} }
@@ -61,8 +61,8 @@ impl SendMessageFeeProvider for MockErrOutboundQueue {
fn exporter_validate_with_unknown_network_yields_not_applicable() { fn exporter_validate_with_unknown_network_yields_not_applicable() {
let network = Ethereum { chain_id: 1337 }; let network = Ethereum { chain_id: 1337 };
let channel: u32 = 0; let channel: u32 = 0;
let mut universal_source: Option<InteriorMultiLocation> = None; let mut universal_source: Option<InteriorLocation> = None;
let mut destination: Option<InteriorMultiLocation> = None; let mut destination: Option<InteriorLocation> = None;
let mut message: Option<Xcm<()>> = None; let mut message: Option<Xcm<()>> = None;
let result = EthereumBlobExporter::< let result = EthereumBlobExporter::<
@@ -80,8 +80,8 @@ fn exporter_validate_with_unknown_network_yields_not_applicable() {
fn exporter_validate_with_invalid_destination_yields_missing_argument() { fn exporter_validate_with_invalid_destination_yields_missing_argument() {
let network = BridgedNetwork::get(); let network = BridgedNetwork::get();
let channel: u32 = 0; let channel: u32 = 0;
let mut universal_source: Option<InteriorMultiLocation> = None; let mut universal_source: Option<InteriorLocation> = None;
let mut destination: Option<InteriorMultiLocation> = None; let mut destination: Option<InteriorLocation> = None;
let mut message: Option<Xcm<()>> = None; let mut message: Option<Xcm<()>> = None;
let result = EthereumBlobExporter::< let result = EthereumBlobExporter::<
@@ -99,10 +99,11 @@ fn exporter_validate_with_invalid_destination_yields_missing_argument() {
fn exporter_validate_with_x8_destination_yields_not_applicable() { fn exporter_validate_with_x8_destination_yields_not_applicable() {
let network = BridgedNetwork::get(); let network = BridgedNetwork::get();
let channel: u32 = 0; let channel: u32 = 0;
let mut universal_source: Option<InteriorMultiLocation> = None; let mut universal_source: Option<InteriorLocation> = None;
let mut destination: Option<InteriorMultiLocation> = Some(X8( let mut destination: Option<InteriorLocation> = Some(
OnlyChild, OnlyChild, OnlyChild, OnlyChild, OnlyChild, OnlyChild, OnlyChild, OnlyChild, [OnlyChild, OnlyChild, OnlyChild, OnlyChild, OnlyChild, OnlyChild, OnlyChild, OnlyChild]
)); .into(),
);
let mut message: Option<Xcm<()>> = None; let mut message: Option<Xcm<()>> = None;
let result = EthereumBlobExporter::< let result = EthereumBlobExporter::<
@@ -120,8 +121,8 @@ fn exporter_validate_with_x8_destination_yields_not_applicable() {
fn exporter_validate_without_universal_source_yields_missing_argument() { fn exporter_validate_without_universal_source_yields_missing_argument() {
let network = BridgedNetwork::get(); let network = BridgedNetwork::get();
let channel: u32 = 0; let channel: u32 = 0;
let mut universal_source: Option<InteriorMultiLocation> = None; let mut universal_source: Option<InteriorLocation> = None;
let mut destination: Option<InteriorMultiLocation> = Here.into(); let mut destination: Option<InteriorLocation> = Here.into();
let mut message: Option<Xcm<()>> = None; let mut message: Option<Xcm<()>> = None;
let result = EthereumBlobExporter::< let result = EthereumBlobExporter::<
@@ -139,8 +140,8 @@ fn exporter_validate_without_universal_source_yields_missing_argument() {
fn exporter_validate_without_global_universal_location_yields_unroutable() { fn exporter_validate_without_global_universal_location_yields_unroutable() {
let network = BridgedNetwork::get(); let network = BridgedNetwork::get();
let channel: u32 = 0; let channel: u32 = 0;
let mut universal_source: Option<InteriorMultiLocation> = Here.into(); let mut universal_source: Option<InteriorLocation> = Here.into();
let mut destination: Option<InteriorMultiLocation> = Here.into(); let mut destination: Option<InteriorLocation> = Here.into();
let mut message: Option<Xcm<()>> = None; let mut message: Option<Xcm<()>> = None;
let result = EthereumBlobExporter::< let result = EthereumBlobExporter::<
@@ -158,8 +159,8 @@ fn exporter_validate_without_global_universal_location_yields_unroutable() {
fn exporter_validate_without_global_bridge_location_yields_not_applicable() { fn exporter_validate_without_global_bridge_location_yields_not_applicable() {
let network = NonBridgedNetwork::get(); let network = NonBridgedNetwork::get();
let channel: u32 = 0; let channel: u32 = 0;
let mut universal_source: Option<InteriorMultiLocation> = Here.into(); let mut universal_source: Option<InteriorLocation> = Here.into();
let mut destination: Option<InteriorMultiLocation> = Here.into(); let mut destination: Option<InteriorLocation> = Here.into();
let mut message: Option<Xcm<()>> = None; let mut message: Option<Xcm<()>> = None;
let result = EthereumBlobExporter::< let result = EthereumBlobExporter::<
@@ -177,9 +178,9 @@ fn exporter_validate_without_global_bridge_location_yields_not_applicable() {
fn exporter_validate_with_remote_universal_source_yields_not_applicable() { fn exporter_validate_with_remote_universal_source_yields_not_applicable() {
let network = BridgedNetwork::get(); let network = BridgedNetwork::get();
let channel: u32 = 0; let channel: u32 = 0;
let mut universal_source: Option<InteriorMultiLocation> = let mut universal_source: Option<InteriorLocation> =
Some(X2(GlobalConsensus(Kusama), Parachain(1000))); Some([GlobalConsensus(Kusama), Parachain(1000)].into());
let mut destination: Option<InteriorMultiLocation> = Here.into(); let mut destination: Option<InteriorLocation> = Here.into();
let mut message: Option<Xcm<()>> = None; let mut message: Option<Xcm<()>> = None;
let result = EthereumBlobExporter::< let result = EthereumBlobExporter::<
@@ -197,8 +198,8 @@ fn exporter_validate_with_remote_universal_source_yields_not_applicable() {
fn exporter_validate_without_para_id_in_source_yields_missing_argument() { fn exporter_validate_without_para_id_in_source_yields_missing_argument() {
let network = BridgedNetwork::get(); let network = BridgedNetwork::get();
let channel: u32 = 0; let channel: u32 = 0;
let mut universal_source: Option<InteriorMultiLocation> = Some(X1(GlobalConsensus(Polkadot))); let mut universal_source: Option<InteriorLocation> = Some(GlobalConsensus(Polkadot).into());
let mut destination: Option<InteriorMultiLocation> = Here.into(); let mut destination: Option<InteriorLocation> = Here.into();
let mut message: Option<Xcm<()>> = None; let mut message: Option<Xcm<()>> = None;
let result = EthereumBlobExporter::< let result = EthereumBlobExporter::<
@@ -216,9 +217,9 @@ fn exporter_validate_without_para_id_in_source_yields_missing_argument() {
fn exporter_validate_complex_para_id_in_source_yields_missing_argument() { fn exporter_validate_complex_para_id_in_source_yields_missing_argument() {
let network = BridgedNetwork::get(); let network = BridgedNetwork::get();
let channel: u32 = 0; let channel: u32 = 0;
let mut universal_source: Option<InteriorMultiLocation> = let mut universal_source: Option<InteriorLocation> =
Some(X3(GlobalConsensus(Polkadot), Parachain(1000), PalletInstance(12))); Some([GlobalConsensus(Polkadot), Parachain(1000), PalletInstance(12)].into());
let mut destination: Option<InteriorMultiLocation> = Here.into(); let mut destination: Option<InteriorLocation> = Here.into();
let mut message: Option<Xcm<()>> = None; let mut message: Option<Xcm<()>> = None;
let result = EthereumBlobExporter::< let result = EthereumBlobExporter::<
@@ -236,9 +237,9 @@ fn exporter_validate_complex_para_id_in_source_yields_missing_argument() {
fn exporter_validate_without_xcm_message_yields_missing_argument() { fn exporter_validate_without_xcm_message_yields_missing_argument() {
let network = BridgedNetwork::get(); let network = BridgedNetwork::get();
let channel: u32 = 0; let channel: u32 = 0;
let mut universal_source: Option<InteriorMultiLocation> = let mut universal_source: Option<InteriorLocation> =
Some(X2(GlobalConsensus(Polkadot), Parachain(1000))); Some([GlobalConsensus(Polkadot), Parachain(1000)].into());
let mut destination: Option<InteriorMultiLocation> = Here.into(); let mut destination: Option<InteriorLocation> = Here.into();
let mut message: Option<Xcm<()>> = None; let mut message: Option<Xcm<()>> = None;
let result = EthereumBlobExporter::< let result = EthereumBlobExporter::<
@@ -255,23 +256,23 @@ fn exporter_validate_without_xcm_message_yields_missing_argument() {
#[test] #[test]
fn exporter_validate_with_max_target_fee_yields_unroutable() { fn exporter_validate_with_max_target_fee_yields_unroutable() {
let network = BridgedNetwork::get(); let network = BridgedNetwork::get();
let mut destination: Option<InteriorMultiLocation> = Here.into(); let mut destination: Option<InteriorLocation> = Here.into();
let mut universal_source: Option<InteriorMultiLocation> = let mut universal_source: Option<InteriorLocation> =
Some(X2(GlobalConsensus(Polkadot), Parachain(1000))); Some([GlobalConsensus(Polkadot), Parachain(1000)].into());
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let channel: u32 = 0; let channel: u32 = 0;
let fee = MultiAsset { id: Concrete(Here.into()), fun: Fungible(1000) }; let fee = Asset { id: AssetId(Here.into()), fun: Fungible(1000) };
let fees: MultiAssets = vec![fee.clone()].into(); let fees: Assets = vec![fee.clone()].into();
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId(AccountKey20 { network: None, key: token_address }.into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = assets.clone().into(); let filter: AssetFilter = assets.clone().into();
let mut message: Option<Xcm<()>> = Some( let mut message: Option<Xcm<()>> = Some(
vec![ vec![
@@ -280,7 +281,7 @@ fn exporter_validate_with_max_target_fee_yields_unroutable() {
WithdrawAsset(assets), WithdrawAsset(assets),
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: Some(network), key: beneficiary_address }) beneficiary: AccountKey20 { network: Some(network), key: beneficiary_address }
.into(), .into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
@@ -303,14 +304,14 @@ fn exporter_validate_with_max_target_fee_yields_unroutable() {
#[test] #[test]
fn exporter_validate_with_unparsable_xcm_yields_unroutable() { fn exporter_validate_with_unparsable_xcm_yields_unroutable() {
let network = BridgedNetwork::get(); let network = BridgedNetwork::get();
let mut destination: Option<InteriorMultiLocation> = Here.into(); let mut destination: Option<InteriorLocation> = Here.into();
let mut universal_source: Option<InteriorMultiLocation> = let mut universal_source: Option<InteriorLocation> =
Some(X2(GlobalConsensus(Polkadot), Parachain(1000))); Some([GlobalConsensus(Polkadot), Parachain(1000)].into());
let channel: u32 = 0; let channel: u32 = 0;
let fee = MultiAsset { id: Concrete(Here.into()), fun: Fungible(1000) }; let fee = Asset { id: AssetId(Here.into()), fun: Fungible(1000) };
let fees: MultiAssets = vec![fee.clone()].into(); let fees: Assets = vec![fee.clone()].into();
let mut message: Option<Xcm<()>> = let mut message: Option<Xcm<()>> =
Some(vec![WithdrawAsset(fees), BuyExecution { fees: fee, weight_limit: Unlimited }].into()); Some(vec![WithdrawAsset(fees), BuyExecution { fees: fee, weight_limit: Unlimited }].into());
@@ -330,22 +331,22 @@ fn exporter_validate_with_unparsable_xcm_yields_unroutable() {
#[test] #[test]
fn exporter_validate_xcm_success_case_1() { fn exporter_validate_xcm_success_case_1() {
let network = BridgedNetwork::get(); let network = BridgedNetwork::get();
let mut destination: Option<InteriorMultiLocation> = Here.into(); let mut destination: Option<InteriorLocation> = Here.into();
let mut universal_source: Option<InteriorMultiLocation> = let mut universal_source: Option<InteriorLocation> =
Some(X2(GlobalConsensus(Polkadot), Parachain(1000))); Some([GlobalConsensus(Polkadot), Parachain(1000)].into());
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let channel: u32 = 0; let channel: u32 = 0;
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId([AccountKey20 { network: None, key: token_address }].into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let fee = assets.clone().get(0).unwrap().clone(); let fee = assets.clone().get(0).unwrap().clone();
let filter: MultiAssetFilter = assets.clone().into(); let filter: AssetFilter = assets.clone().into();
let mut message: Option<Xcm<()>> = Some( let mut message: Option<Xcm<()>> = Some(
vec![ vec![
@@ -354,7 +355,7 @@ fn exporter_validate_xcm_success_case_1() {
BuyExecution { fees: fee, weight_limit: Unlimited }, BuyExecution { fees: fee, weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -391,12 +392,12 @@ fn xcm_converter_convert_success() {
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId([AccountKey20 { network: None, key: token_address }].into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = assets.clone().into(); let filter: AssetFilter = assets.clone().into();
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -404,7 +405,7 @@ fn xcm_converter_convert_success() {
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -426,18 +427,18 @@ fn xcm_converter_convert_without_buy_execution_yields_success() {
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId([AccountKey20 { network: None, key: token_address }].into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = assets.clone().into(); let filter: AssetFilter = assets.clone().into();
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -459,12 +460,12 @@ fn xcm_converter_convert_with_wildcard_all_asset_filter_succeeds() {
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId([AccountKey20 { network: None, key: token_address }].into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = Wild(All); let filter: AssetFilter = Wild(All);
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -472,7 +473,7 @@ fn xcm_converter_convert_with_wildcard_all_asset_filter_succeeds() {
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -494,13 +495,12 @@ fn xcm_converter_convert_with_fees_less_than_reserve_yields_success() {
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let asset_location = X1(AccountKey20 { network: None, key: token_address }).into(); let asset_location: Location = [AccountKey20 { network: None, key: token_address }].into();
let fee_asset = MultiAsset { id: Concrete(asset_location), fun: Fungible(500) }; let fee_asset = Asset { id: AssetId(asset_location.clone()), fun: Fungible(500) };
let assets: MultiAssets = let assets: Assets = vec![Asset { id: AssetId(asset_location), fun: Fungible(1000) }].into();
vec![MultiAsset { id: Concrete(asset_location), fun: Fungible(1000) }].into();
let filter: MultiAssetFilter = assets.clone().into(); let filter: AssetFilter = assets.clone().into();
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -508,7 +508,7 @@ fn xcm_converter_convert_with_fees_less_than_reserve_yields_success() {
BuyExecution { fees: fee_asset, weight_limit: Unlimited }, BuyExecution { fees: fee_asset, weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -530,19 +530,19 @@ fn xcm_converter_convert_without_set_topic_yields_set_topic_expected() {
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId([AccountKey20 { network: None, key: token_address }].into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = assets.clone().into(); let filter: AssetFilter = assets.clone().into();
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
ClearTopic, ClearTopic,
] ]
@@ -557,8 +557,8 @@ fn xcm_converter_convert_with_partial_message_yields_unexpected_end_of_xcm() {
let network = BridgedNetwork::get(); let network = BridgedNetwork::get();
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId([AccountKey20 { network: None, key: token_address }].into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
@@ -576,16 +576,13 @@ fn xcm_converter_with_different_fee_asset_fails() {
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let asset_location = X1(AccountKey20 { network: None, key: token_address }).into(); let asset_location = [AccountKey20 { network: None, key: token_address }].into();
let fee_asset = MultiAsset { let fee_asset =
id: Concrete(MultiLocation { parents: 0, interior: Here }), Asset { id: AssetId(Location { parents: 0, interior: Here }), fun: Fungible(1000) };
fun: Fungible(1000),
};
let assets: MultiAssets = let assets: Assets = vec![Asset { id: AssetId(asset_location), fun: Fungible(1000) }].into();
vec![MultiAsset { id: Concrete(asset_location), fun: Fungible(1000) }].into();
let filter: MultiAssetFilter = assets.clone().into(); let filter: AssetFilter = assets.clone().into();
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -593,7 +590,7 @@ fn xcm_converter_with_different_fee_asset_fails() {
BuyExecution { fees: fee_asset, weight_limit: Unlimited }, BuyExecution { fees: fee_asset, weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -610,13 +607,12 @@ fn xcm_converter_with_fees_greater_than_reserve_fails() {
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let asset_location = X1(AccountKey20 { network: None, key: token_address }).into(); let asset_location: Location = [AccountKey20 { network: None, key: token_address }].into();
let fee_asset = MultiAsset { id: Concrete(asset_location), fun: Fungible(1001) }; let fee_asset = Asset { id: AssetId(asset_location.clone()), fun: Fungible(1001) };
let assets: MultiAssets = let assets: Assets = vec![Asset { id: AssetId(asset_location), fun: Fungible(1000) }].into();
vec![MultiAsset { id: Concrete(asset_location), fun: Fungible(1000) }].into();
let filter: MultiAssetFilter = assets.clone().into(); let filter: AssetFilter = assets.clone().into();
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -624,7 +620,7 @@ fn xcm_converter_with_fees_greater_than_reserve_fails() {
BuyExecution { fees: fee_asset, weight_limit: Unlimited }, BuyExecution { fees: fee_asset, weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -653,12 +649,12 @@ fn xcm_converter_convert_with_extra_instructions_yields_end_of_xcm_message_expec
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId([AccountKey20 { network: None, key: token_address }].into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = assets.clone().into(); let filter: AssetFilter = assets.clone().into();
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -666,7 +662,7 @@ fn xcm_converter_convert_with_extra_instructions_yields_end_of_xcm_message_expec
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
ClearError, ClearError,
@@ -685,19 +681,19 @@ fn xcm_converter_convert_without_withdraw_asset_yields_withdraw_expected() {
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId([AccountKey20 { network: None, key: token_address }].into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = assets.clone().into(); let filter: AssetFilter = assets.clone().into();
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
ClearOrigin, ClearOrigin,
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -714,8 +710,8 @@ fn xcm_converter_convert_without_withdraw_asset_yields_deposit_expected() {
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId(AccountKey20 { network: None, key: token_address }.into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
@@ -741,11 +737,11 @@ fn xcm_converter_convert_without_assets_yields_no_reserve_assets() {
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![].into(); let assets: Assets = vec![].into();
let filter: MultiAssetFilter = assets.clone().into(); let filter: AssetFilter = assets.clone().into();
let fee = MultiAsset { let fee = Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId(AccountKey20 { network: None, key: token_address }.into()),
fun: Fungible(1000), fun: Fungible(1000),
}; };
@@ -755,7 +751,7 @@ fn xcm_converter_convert_without_assets_yields_no_reserve_assets() {
BuyExecution { fees: fee, weight_limit: Unlimited }, BuyExecution { fees: fee, weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -774,18 +770,18 @@ fn xcm_converter_convert_with_two_assets_yields_too_many_assets() {
let token_address_2: [u8; 20] = hex!("1100000000000000000000000000000000000000"); let token_address_2: [u8; 20] = hex!("1100000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![ let assets: Assets = vec![
MultiAsset { Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address_1 }).into()), id: AssetId(AccountKey20 { network: None, key: token_address_1 }.into()),
fun: Fungible(1000), fun: Fungible(1000),
}, },
MultiAsset { Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address_2 }).into()), id: AssetId(AccountKey20 { network: None, key: token_address_2 }.into()),
fun: Fungible(500), fun: Fungible(500),
}, },
] ]
.into(); .into();
let filter: MultiAssetFilter = assets.clone().into(); let filter: AssetFilter = assets.clone().into();
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -793,7 +789,7 @@ fn xcm_converter_convert_with_two_assets_yields_too_many_assets() {
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -811,12 +807,12 @@ fn xcm_converter_convert_without_consuming_filter_yields_filter_does_not_consume
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId(AccountKey20 { network: None, key: token_address }.into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = Wild(WildMultiAsset::AllCounted(0)); let filter: AssetFilter = Wild(WildAsset::AllCounted(0));
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -824,7 +820,7 @@ fn xcm_converter_convert_without_consuming_filter_yields_filter_does_not_consume
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -842,12 +838,12 @@ fn xcm_converter_convert_with_zero_amount_asset_yields_zero_asset_transfer() {
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId(AccountKey20 { network: None, key: token_address }.into()),
fun: Fungible(0), fun: Fungible(0),
}] }]
.into(); .into();
let filter: MultiAssetFilter = Wild(WildMultiAsset::AllCounted(1)); let filter: AssetFilter = Wild(WildAsset::AllCounted(1));
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -855,7 +851,7 @@ fn xcm_converter_convert_with_zero_amount_asset_yields_zero_asset_transfer() {
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -872,12 +868,12 @@ fn xcm_converter_convert_non_ethereum_asset_yields_asset_resolution_failed() {
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X3(GlobalConsensus(Polkadot), Parachain(1000), GeneralIndex(0)).into()), id: AssetId([GlobalConsensus(Polkadot), Parachain(1000), GeneralIndex(0)].into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = Wild(WildMultiAsset::AllCounted(1)); let filter: AssetFilter = Wild(WildAsset::AllCounted(1));
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -885,7 +881,7 @@ fn xcm_converter_convert_non_ethereum_asset_yields_asset_resolution_failed() {
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -903,14 +899,14 @@ fn xcm_converter_convert_non_ethereum_chain_asset_yields_asset_resolution_failed
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete( id: AssetId(
X1(AccountKey20 { network: Some(Ethereum { chain_id: 2 }), key: token_address }).into(), AccountKey20 { network: Some(Ethereum { chain_id: 2 }), key: token_address }.into(),
), ),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = Wild(WildMultiAsset::AllCounted(1)); let filter: AssetFilter = Wild(WildAsset::AllCounted(1));
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -918,7 +914,7 @@ fn xcm_converter_convert_non_ethereum_chain_asset_yields_asset_resolution_failed
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -936,14 +932,14 @@ fn xcm_converter_convert_non_ethereum_chain_yields_asset_resolution_failed() {
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete( id: AssetId(
X1(AccountKey20 { network: Some(NonBridgedNetwork::get()), key: token_address }).into(), [AccountKey20 { network: Some(NonBridgedNetwork::get()), key: token_address }].into(),
), ),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = Wild(WildMultiAsset::AllCounted(1)); let filter: AssetFilter = Wild(WildAsset::AllCounted(1));
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -951,7 +947,7 @@ fn xcm_converter_convert_non_ethereum_chain_yields_asset_resolution_failed() {
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { network: None, key: beneficiary_address }).into(), beneficiary: AccountKey20 { network: None, key: beneficiary_address }.into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
] ]
@@ -971,23 +967,23 @@ fn xcm_converter_convert_with_non_ethereum_beneficiary_yields_beneficiary_resolu
let beneficiary_address: [u8; 32] = let beneficiary_address: [u8; 32] =
hex!("2000000000000000000000000000000000000000000000000000000000000000"); hex!("2000000000000000000000000000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId(AccountKey20 { network: None, key: token_address }.into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = Wild(WildMultiAsset::AllCounted(1)); let filter: AssetFilter = Wild(WildAsset::AllCounted(1));
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
ClearOrigin, ClearOrigin,
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X3( beneficiary: [
GlobalConsensus(Polkadot), GlobalConsensus(Polkadot),
Parachain(1000), Parachain(1000),
AccountId32 { network: Some(Polkadot), id: beneficiary_address }, AccountId32 { network: Some(Polkadot), id: beneficiary_address },
) ]
.into(), .into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
@@ -1007,12 +1003,12 @@ fn xcm_converter_convert_with_non_ethereum_chain_beneficiary_yields_beneficiary_
let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000"); let token_address: [u8; 20] = hex!("1000000000000000000000000000000000000000");
let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000"); let beneficiary_address: [u8; 20] = hex!("2000000000000000000000000000000000000000");
let assets: MultiAssets = vec![MultiAsset { let assets: Assets = vec![Asset {
id: Concrete(X1(AccountKey20 { network: None, key: token_address }).into()), id: AssetId(AccountKey20 { network: None, key: token_address }.into()),
fun: Fungible(1000), fun: Fungible(1000),
}] }]
.into(); .into();
let filter: MultiAssetFilter = Wild(WildMultiAsset::AllCounted(1)); let filter: AssetFilter = Wild(WildAsset::AllCounted(1));
let message: Xcm<()> = vec![ let message: Xcm<()> = vec![
WithdrawAsset(assets.clone()), WithdrawAsset(assets.clone()),
@@ -1020,10 +1016,10 @@ fn xcm_converter_convert_with_non_ethereum_chain_beneficiary_yields_beneficiary_
BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited }, BuyExecution { fees: assets.get(0).unwrap().clone(), weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: filter, assets: filter,
beneficiary: X1(AccountKey20 { beneficiary: AccountKey20 {
network: Some(Ethereum { chain_id: 2 }), network: Some(Ethereum { chain_id: 2 }),
key: beneficiary_address, key: beneficiary_address,
}) }
.into(), .into(),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
@@ -1037,14 +1033,13 @@ fn xcm_converter_convert_with_non_ethereum_chain_beneficiary_yields_beneficiary_
#[test] #[test]
fn test_describe_asset_hub() { fn test_describe_asset_hub() {
let legacy_location: MultiLocation = let legacy_location: Location = Location::new(0, [Parachain(1000)]);
MultiLocation { parents: 0, interior: X1(Parachain(1000)) };
let legacy_agent_id = AgentIdOf::convert_location(&legacy_location).unwrap(); let legacy_agent_id = AgentIdOf::convert_location(&legacy_location).unwrap();
assert_eq!( assert_eq!(
legacy_agent_id, legacy_agent_id,
hex!("72456f48efed08af20e5b317abf8648ac66e86bb90a411d9b0b713f7364b75b4").into() hex!("72456f48efed08af20e5b317abf8648ac66e86bb90a411d9b0b713f7364b75b4").into()
); );
let location: MultiLocation = MultiLocation { parents: 1, interior: X1(Parachain(1000)) }; let location: Location = Location::new(1, [Parachain(1000)]);
let agent_id = AgentIdOf::convert_location(&location).unwrap(); let agent_id = AgentIdOf::convert_location(&location).unwrap();
assert_eq!( assert_eq!(
agent_id, agent_id,
@@ -1054,7 +1049,7 @@ fn test_describe_asset_hub() {
#[test] #[test]
fn test_describe_here() { fn test_describe_here() {
let location: MultiLocation = MultiLocation { parents: 0, interior: Here }; let location: Location = Location::new(0, []);
let agent_id = AgentIdOf::convert_location(&location).unwrap(); let agent_id = AgentIdOf::convert_location(&location).unwrap();
assert_eq!( assert_eq!(
agent_id, agent_id,
bridges/snowbridge/parachain/runtime/runtime-common/src/lib.rs
+12 -17
View File
@@ -46,32 +46,27 @@ impl<Balance, AccountId, FeeAssetLocation, EthereumNetwork, AssetTransactor, Fee
> where > where
Balance: BaseArithmetic + Unsigned + Copy + From<u128> + Into<u128>, Balance: BaseArithmetic + Unsigned + Copy + From<u128> + Into<u128>,
AccountId: Clone + Into<[u8; 32]> + From<[u8; 32]>, AccountId: Clone + Into<[u8; 32]> + From<[u8; 32]>,
FeeAssetLocation: Get<MultiLocation>, FeeAssetLocation: Get<Location>,
EthereumNetwork: Get<NetworkId>, EthereumNetwork: Get<NetworkId>,
AssetTransactor: TransactAsset, AssetTransactor: TransactAsset,
FeeProvider: SendMessageFeeProvider<Balance = Balance>, FeeProvider: SendMessageFeeProvider<Balance = Balance>,
{ {
fn handle_fee( fn handle_fee(fees: Assets, context: Option<&XcmContext>, reason: FeeReason) -> Assets {
fees: MultiAssets,
context: Option<&XcmContext>,
reason: FeeReason,
) -> MultiAssets {
let token_location = FeeAssetLocation::get(); let token_location = FeeAssetLocation::get();
// Check the reason to see if this export is for snowbridge. // Check the reason to see if this export is for snowbridge.
if !matches!( if !matches!(
reason, reason,
FeeReason::Export { network: bridged_network, destination } FeeReason::Export { network: bridged_network, ref destination }
if bridged_network == EthereumNetwork::get() && destination == Here if bridged_network == EthereumNetwork::get() && destination == &Here
) { ) {
return fees return fees
} }
// Get the parachain sovereign from the `context`. // Get the parachain sovereign from the `context`.
let para_sovereign = if let Some(XcmContext { let para_sovereign =
origin: Some(MultiLocation { parents: 1, interior }), if let Some(XcmContext { origin: Some(Location { parents: 1, interior }), .. }) =
.. context
}) = context
{ {
if let Some(Parachain(sibling_para_id)) = interior.first() { if let Some(Parachain(sibling_para_id)) = interior.first() {
let account: AccountId = let account: AccountId =
@@ -90,8 +85,8 @@ impl<Balance, AccountId, FeeAssetLocation, EthereumNetwork, AssetTransactor, Fee
.iter() .iter()
.enumerate() .enumerate()
.filter_map(|(index, asset)| { .filter_map(|(index, asset)| {
if let MultiAsset { id: Concrete(location), fun: Fungible(amount) } = asset { if let Asset { id: location, fun: Fungible(amount) } = asset {
if *location == token_location { if location.0 == token_location {
return Some((index, (*amount).into())) return Some((index, (*amount).into()))
} }
} }
@@ -104,7 +99,7 @@ impl<Balance, AccountId, FeeAssetLocation, EthereumNetwork, AssetTransactor, Fee
if remote_fee > (0u128).into() { if remote_fee > (0u128).into() {
// Refund remote component of fee to physical origin // Refund remote component of fee to physical origin
deposit_or_burn_fee::<AssetTransactor, _>( deposit_or_burn_fee::<AssetTransactor, _>(
MultiAsset { id: Concrete(token_location), fun: Fungible(remote_fee.into()) } Asset { id: AssetId(token_location.clone()), fun: Fungible(remote_fee.into()) }
.into(), .into(),
context, context,
para_sovereign, para_sovereign,
@@ -112,8 +107,8 @@ impl<Balance, AccountId, FeeAssetLocation, EthereumNetwork, AssetTransactor, Fee
// Return remaining fee to the next fee handler in the chain. // Return remaining fee to the next fee handler in the chain.
let mut modified_fees = fees.inner().clone(); let mut modified_fees = fees.inner().clone();
modified_fees.remove(fee_index); modified_fees.remove(fee_index);
modified_fees.push(MultiAsset { modified_fees.push(Asset {
id: Concrete(token_location), id: AssetId(token_location),
fun: Fungible((total_fee - remote_fee).into()), fun: Fungible((total_fee - remote_fee).into()),
}); });
return modified_fees.into() return modified_fees.into()
bridges/snowbridge/parachain/runtime/test-common/src/lib.rs
+33 -36
View File
@@ -49,38 +49,36 @@ where
+ snowbridge_pallet_outbound_queue::Config, + snowbridge_pallet_outbound_queue::Config,
XcmConfig: xcm_executor::Config, XcmConfig: xcm_executor::Config,
{ {
let assethub_parachain_location = MultiLocation::new(1, Parachain(assethub_parachain_id)); let assethub_parachain_location = Location::new(1, Parachain(assethub_parachain_id));
let asset = MultiAsset { let asset = Asset {
id: Concrete(MultiLocation { id: AssetId(Location::new(
parents: 0, 0,
interior: X1(AccountKey20 { network: None, key: weth_contract_address.into() }), [AccountKey20 { network: None, key: weth_contract_address.into() }],
}), )),
fun: Fungible(1000000000), fun: Fungible(1000000000),
}; };
let assets = vec![asset.clone()]; let assets = vec![asset.clone()];
let inner_xcm = Xcm(vec![ let inner_xcm = Xcm(vec![
WithdrawAsset(MultiAssets::from(assets.clone())), WithdrawAsset(Assets::from(assets.clone())),
ClearOrigin, ClearOrigin,
BuyExecution { fees: asset, weight_limit: Unlimited }, BuyExecution { fees: asset, weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: Wild(All), assets: Wild(All),
beneficiary: MultiLocation { beneficiary: Location::new(
parents: 0, 0,
interior: X1(AccountKey20 { network: None, key: destination_address.into() }), [AccountKey20 { network: None, key: destination_address.into() }],
}, ),
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
]); ]);
let fee = MultiAsset { let fee =
id: Concrete(MultiLocation { parents: 1, interior: Here }), Asset { id: AssetId(Location { parents: 1, interior: Here }), fun: Fungible(fee_amount) };
fun: Fungible(fee_amount),
};
// prepare transfer token message // prepare transfer token message
let xcm = Xcm(vec![ let xcm = Xcm(vec![
WithdrawAsset(MultiAssets::from(vec![fee.clone()])), WithdrawAsset(Assets::from(vec![fee.clone()])),
BuyExecution { fees: fee, weight_limit: Unlimited }, BuyExecution { fees: fee, weight_limit: Unlimited },
ExportMessage { ExportMessage {
network: Ethereum { chain_id: 11155111 }, network: Ethereum { chain_id: 11155111 },
@@ -90,12 +88,13 @@ where
]); ]);
// execute XCM // execute XCM
let hash = xcm.using_encoded(sp_io::hashing::blake2_256); let mut hash = xcm.using_encoded(sp_io::hashing::blake2_256);
XcmExecutor::<XcmConfig>::execute_xcm( XcmExecutor::<XcmConfig>::prepare_and_execute(
assethub_parachain_location, assethub_parachain_location,
xcm, xcm,
hash, &mut hash,
RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Sibling), RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Sibling),
Weight::zero(),
) )
} }
@@ -176,7 +175,7 @@ pub fn send_unpaid_transfer_token_message<Runtime, XcmConfig>(
XcmConfig: xcm_executor::Config, XcmConfig: xcm_executor::Config,
ValidatorIdOf<Runtime>: From<AccountIdOf<Runtime>>, ValidatorIdOf<Runtime>: From<AccountIdOf<Runtime>>,
{ {
let assethub_parachain_location = MultiLocation::new(1, Parachain(assethub_parachain_id)); let assethub_parachain_location = Location::new(1, Parachain(assethub_parachain_id));
ExtBuilder::<Runtime>::default() ExtBuilder::<Runtime>::default()
.with_collators(collator_session_key.collators()) .with_collators(collator_session_key.collators())
@@ -194,28 +193,25 @@ pub fn send_unpaid_transfer_token_message<Runtime, XcmConfig>(
) )
.unwrap(); .unwrap();
let asset = MultiAsset { let asset = Asset {
id: Concrete(MultiLocation { id: AssetId(Location::new(
parents: 0, 0,
interior: X1(AccountKey20 { network: None, key: weth_contract_address.into() }), [AccountKey20 { network: None, key: weth_contract_address.into() }],
}), )),
fun: Fungible(1000000000), fun: Fungible(1000000000),
}; };
let assets = vec![asset.clone()]; let assets = vec![asset.clone()];
let inner_xcm = Xcm(vec![ let inner_xcm = Xcm(vec![
WithdrawAsset(MultiAssets::from(assets.clone())), WithdrawAsset(Assets::from(assets.clone())),
ClearOrigin, ClearOrigin,
BuyExecution { fees: asset, weight_limit: Unlimited }, BuyExecution { fees: asset, weight_limit: Unlimited },
DepositAsset { DepositAsset {
assets: Wild(AllCounted(1)), assets: Wild(AllCounted(1)),
beneficiary: MultiLocation { beneficiary: Location::new(
parents: 0, 0,
interior: X1(AccountKey20 { [AccountKey20 { network: None, key: destination_contract.into() }],
network: None, ),
key: destination_contract.into(),
}),
},
}, },
SetTopic([0; 32]), SetTopic([0; 32]),
]); ]);
@@ -231,12 +227,13 @@ pub fn send_unpaid_transfer_token_message<Runtime, XcmConfig>(
]); ]);
// execute XCM // execute XCM
let hash = xcm.using_encoded(sp_io::hashing::blake2_256); let mut hash = xcm.using_encoded(sp_io::hashing::blake2_256);
let outcome = XcmExecutor::<XcmConfig>::execute_xcm( let outcome = XcmExecutor::<XcmConfig>::prepare_and_execute(
assethub_parachain_location, assethub_parachain_location,
xcm, xcm,
hash, &mut hash,
RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Sibling), RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Sibling),
Weight::zero(),
); );
// check error is barrier // check error is barrier
assert_err!(outcome.ensure_complete(), Barrier); assert_err!(outcome.ensure_complete(), Barrier);
cumulus/pallets/xcmp-queue/src/lib.rs
+4 -4
View File
@@ -135,7 +135,7 @@ pub mod pallet {
/// The origin that is allowed to resume or suspend the XCMP queue. /// The origin that is allowed to resume or suspend the XCMP queue.
type ControllerOrigin: EnsureOrigin<Self::RuntimeOrigin>; type ControllerOrigin: EnsureOrigin<Self::RuntimeOrigin>;
/// The conversion function used to attempt to convert an XCM `MultiLocation` origin to a /// The conversion function used to attempt to convert an XCM `Location` origin to a
/// superuser origin. /// superuser origin.
type ControllerOriginConverter: ConvertOrigin<Self::RuntimeOrigin>; type ControllerOriginConverter: ConvertOrigin<Self::RuntimeOrigin>;
@@ -903,14 +903,14 @@ impl<T: Config> SendXcm for Pallet<T> {
type Ticket = (ParaId, VersionedXcm<()>); type Ticket = (ParaId, VersionedXcm<()>);
fn validate( fn validate(
dest: &mut Option<MultiLocation>, dest: &mut Option<Location>,
msg: &mut Option<Xcm<()>>, msg: &mut Option<Xcm<()>>,
) -> SendResult<(ParaId, VersionedXcm<()>)> { ) -> SendResult<(ParaId, VersionedXcm<()>)> {
let d = dest.take().ok_or(SendError::MissingArgument)?; let d = dest.take().ok_or(SendError::MissingArgument)?;
match &d { match d.unpack() {
// An HRMP message for a sibling parachain. // An HRMP message for a sibling parachain.
MultiLocation { parents: 1, interior: X1(Parachain(id)) } => { (1, [Parachain(id)]) => {
let xcm = msg.take().ok_or(SendError::MissingArgument)?; let xcm = msg.take().ok_or(SendError::MissingArgument)?;
let id = ParaId::from(*id); let id = ParaId::from(*id);
let price = T::PriceForSiblingDelivery::price_for_delivery(id, &xcm); let price = T::PriceForSiblingDelivery::price_for_delivery(id, &xcm);
cumulus/pallets/xcmp-queue/src/mock.rs
+8 -11
View File
@@ -124,8 +124,8 @@ impl cumulus_pallet_parachain_system::Config for Test {
} }
parameter_types! { parameter_types! {
pub const RelayChain: MultiLocation = MultiLocation::parent(); pub const RelayChain: Location = Location::parent();
pub UniversalLocation: InteriorMultiLocation = X1(Parachain(1u32)); pub UniversalLocation: InteriorLocation = [Parachain(1u32)].into();
pub UnitWeightCost: Weight = Weight::from_parts(1_000_000, 1024); pub UnitWeightCost: Weight = Weight::from_parts(1_000_000, 1024);
pub const MaxInstructions: u32 = 100; pub const MaxInstructions: u32 = 100;
pub const MaxAssetsIntoHolding: u32 = 64; pub const MaxAssetsIntoHolding: u32 = 64;
@@ -138,7 +138,7 @@ pub type LocalAssetTransactor = CurrencyAdapter<
Balances, Balances,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
IsConcrete<RelayChain>, IsConcrete<RelayChain>,
// Do a simple punn to convert an AccountId32 MultiLocation into a native chain account ID: // Do a simple punn to convert an AccountId32 Location into a native chain account ID:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -187,17 +187,14 @@ impl<RuntimeOrigin: OriginTrait> ConvertOrigin<RuntimeOrigin>
for SystemParachainAsSuperuser<RuntimeOrigin> for SystemParachainAsSuperuser<RuntimeOrigin>
{ {
fn convert_origin( fn convert_origin(
origin: impl Into<MultiLocation>, origin: impl Into<Location>,
kind: OriginKind, kind: OriginKind,
) -> Result<RuntimeOrigin, MultiLocation> { ) -> Result<RuntimeOrigin, Location> {
let origin = origin.into(); let origin = origin.into();
if kind == OriginKind::Superuser && if kind == OriginKind::Superuser &&
matches!( matches!(
origin, origin.unpack(),
MultiLocation { (1, [Parachain(id)]) if ParaId::from(*id).is_system(),
parents: 1,
interior: X1(Parachain(id)),
} if ParaId::from(id).is_system(),
) { ) {
Ok(RuntimeOrigin::root()) Ok(RuntimeOrigin::root())
} else { } else {
@@ -256,7 +253,7 @@ impl<T: OnQueueChanged<ParaId>> EnqueueMessage<ParaId> for EnqueueToLocalStorage
parameter_types! { parameter_types! {
/// The asset ID for the asset that we use to pay for message delivery fees. /// The asset ID for the asset that we use to pay for message delivery fees.
pub FeeAssetId: AssetId = Concrete(RelayChain::get()); pub FeeAssetId: AssetId = AssetId(RelayChain::get());
/// The base fee for the message delivery fees. /// The base fee for the message delivery fees.
pub const BaseDeliveryFee: Balance = 300_000_000; pub const BaseDeliveryFee: Balance = 300_000_000;
/// The fee per byte /// The fee per byte
cumulus/pallets/xcmp-queue/src/tests.rs
+27 -27
View File
@@ -333,11 +333,11 @@ struct OkFixedXcmHashWithAssertingRequiredInputsSender;
impl OkFixedXcmHashWithAssertingRequiredInputsSender { impl OkFixedXcmHashWithAssertingRequiredInputsSender {
const FIXED_XCM_HASH: [u8; 32] = [9; 32]; const FIXED_XCM_HASH: [u8; 32] = [9; 32];
fn fixed_delivery_asset() -> MultiAssets { fn fixed_delivery_asset() -> Assets {
MultiAssets::new() Assets::new()
} }
fn expected_delivery_result() -> Result<(XcmHash, MultiAssets), SendError> { fn expected_delivery_result() -> Result<(XcmHash, Assets), SendError> {
Ok((Self::FIXED_XCM_HASH, Self::fixed_delivery_asset())) Ok((Self::FIXED_XCM_HASH, Self::fixed_delivery_asset()))
} }
} }
@@ -345,7 +345,7 @@ impl SendXcm for OkFixedXcmHashWithAssertingRequiredInputsSender {
type Ticket = (); type Ticket = ();
fn validate( fn validate(
destination: &mut Option<MultiLocation>, destination: &mut Option<Location>,
message: &mut Option<Xcm<()>>, message: &mut Option<Xcm<()>>,
) -> SendResult<Self::Ticket> { ) -> SendResult<Self::Ticket> {
assert!(destination.is_some()); assert!(destination.is_some());
@@ -392,8 +392,8 @@ fn xcmp_queue_consumes_dest_and_msg_on_ok_validate() {
let message = Xcm(vec![Trap(5)]); let message = Xcm(vec![Trap(5)]);
// XcmpQueue - check dest/msg is valid // XcmpQueue - check dest/msg is valid
let dest = (Parent, X1(Parachain(5555))); let dest: Location = (Parent, Parachain(5555)).into();
let mut dest_wrapper = Some(dest.into()); let mut dest_wrapper = Some(dest.clone());
let mut msg_wrapper = Some(message.clone()); let mut msg_wrapper = Some(message.clone());
new_test_ext().execute_with(|| { new_test_ext().execute_with(|| {
@@ -416,7 +416,7 @@ fn xcmp_queue_consumes_dest_and_msg_on_ok_validate() {
#[test] #[test]
fn xcmp_queue_validate_nested_xcm_works() { fn xcmp_queue_validate_nested_xcm_works() {
let dest = (Parent, X1(Parachain(5555))); let dest = (Parent, Parachain(5555));
// Message that is not too deeply nested: // Message that is not too deeply nested:
let mut good = Xcm(vec![ClearOrigin]); let mut good = Xcm(vec![ClearOrigin]);
for _ in 0..MAX_XCM_DECODE_DEPTH - 1 { for _ in 0..MAX_XCM_DECODE_DEPTH - 1 {
@@ -441,7 +441,7 @@ fn xcmp_queue_validate_nested_xcm_works() {
#[test] #[test]
fn send_xcm_nested_works() { fn send_xcm_nested_works() {
let dest = (Parent, X1(Parachain(HRMP_PARA_ID))); let dest = (Parent, Parachain(HRMP_PARA_ID));
// Message that is not too deeply nested: // Message that is not too deeply nested:
let mut good = Xcm(vec![ClearOrigin]); let mut good = Xcm(vec![ClearOrigin]);
for _ in 0..MAX_XCM_DECODE_DEPTH - 1 { for _ in 0..MAX_XCM_DECODE_DEPTH - 1 {
@@ -455,7 +455,7 @@ fn send_xcm_nested_works() {
XcmpQueue::take_outbound_messages(usize::MAX), XcmpQueue::take_outbound_messages(usize::MAX),
vec![( vec![(
HRMP_PARA_ID.into(), HRMP_PARA_ID.into(),
(XcmpMessageFormat::ConcatenatedVersionedXcm, VersionedXcm::V3(good.clone())) (XcmpMessageFormat::ConcatenatedVersionedXcm, VersionedXcm::V4(good.clone()))
.encode(), .encode(),
)] )]
); );
@@ -474,7 +474,7 @@ fn hrmp_signals_are_prioritized() {
let message = Xcm(vec![Trap(5)]); let message = Xcm(vec![Trap(5)]);
let sibling_para_id = ParaId::from(12345); let sibling_para_id = ParaId::from(12345);
let dest = (Parent, X1(Parachain(sibling_para_id.into()))); let dest = (Parent, Parachain(sibling_para_id.into()));
let mut dest_wrapper = Some(dest.into()); let mut dest_wrapper = Some(dest.into());
let mut msg_wrapper = Some(message.clone()); let mut msg_wrapper = Some(message.clone());
@@ -511,7 +511,7 @@ fn hrmp_signals_are_prioritized() {
// Without a signal we get the messages in order: // Without a signal we get the messages in order:
let mut expected_msg = XcmpMessageFormat::ConcatenatedVersionedXcm.encode(); let mut expected_msg = XcmpMessageFormat::ConcatenatedVersionedXcm.encode();
for _ in 0..31 { for _ in 0..31 {
expected_msg.extend(VersionedXcm::V3(message.clone()).encode()); expected_msg.extend(VersionedXcm::V4(message.clone()).encode());
} }
hypothetically!({ hypothetically!({
@@ -590,7 +590,7 @@ fn take_first_concatenated_xcm_good_recursion_depth_works() {
for _ in 0..MAX_XCM_DECODE_DEPTH - 1 { for _ in 0..MAX_XCM_DECODE_DEPTH - 1 {
good = Xcm(vec![SetAppendix(good)]); good = Xcm(vec![SetAppendix(good)]);
} }
let good = VersionedXcm::V3(good); let good = VersionedXcm::V4(good);
let page = good.encode(); let page = good.encode();
assert_ok!(XcmpQueue::take_first_concatenated_xcm(&mut &page[..], &mut WeightMeter::new())); assert_ok!(XcmpQueue::take_first_concatenated_xcm(&mut &page[..], &mut WeightMeter::new()));
@@ -603,7 +603,7 @@ fn take_first_concatenated_xcm_good_bad_depth_errors() {
for _ in 0..MAX_XCM_DECODE_DEPTH { for _ in 0..MAX_XCM_DECODE_DEPTH {
bad = Xcm(vec![SetAppendix(bad)]); bad = Xcm(vec![SetAppendix(bad)]);
} }
let bad = VersionedXcm::V3(bad); let bad = VersionedXcm::V4(bad);
let page = bad.encode(); let page = bad.encode();
assert_err!( assert_err!(
@@ -699,12 +699,12 @@ fn lazy_migration_noop_when_out_of_weight() {
fn xcmp_queue_send_xcm_works() { fn xcmp_queue_send_xcm_works() {
new_test_ext().execute_with(|| { new_test_ext().execute_with(|| {
let sibling_para_id = ParaId::from(12345); let sibling_para_id = ParaId::from(12345);
let dest = (Parent, X1(Parachain(sibling_para_id.into()))).into(); let dest: Location = (Parent, Parachain(sibling_para_id.into())).into();
let msg = Xcm(vec![ClearOrigin]); let msg = Xcm(vec![ClearOrigin]);
// try to send without opened HRMP channel to the sibling_para_id // try to send without opened HRMP channel to the sibling_para_id
assert_eq!( assert_eq!(
send_xcm::<XcmpQueue>(dest, msg.clone()), send_xcm::<XcmpQueue>(dest.clone(), msg.clone()),
Err(SendError::Transport("NoChannel")), Err(SendError::Transport("NoChannel")),
); );
@@ -728,7 +728,7 @@ fn xcmp_queue_send_xcm_works() {
fn xcmp_queue_send_too_big_xcm_fails() { fn xcmp_queue_send_too_big_xcm_fails() {
new_test_ext().execute_with(|| { new_test_ext().execute_with(|| {
let sibling_para_id = ParaId::from(12345); let sibling_para_id = ParaId::from(12345);
let dest = (Parent, X1(Parachain(sibling_para_id.into()))).into(); let dest = (Parent, Parachain(sibling_para_id.into())).into();
let max_message_size = 100_u32; let max_message_size = 100_u32;
@@ -774,7 +774,7 @@ fn verify_fee_factor_increase_and_decrease() {
use sp_runtime::FixedU128; use sp_runtime::FixedU128;
let sibling_para_id = ParaId::from(12345); let sibling_para_id = ParaId::from(12345);
let destination = (Parent, Parachain(sibling_para_id.into())).into(); let destination: Location = (Parent, Parachain(sibling_para_id.into())).into();
let xcm = Xcm(vec![ClearOrigin; 100]); let xcm = Xcm(vec![ClearOrigin; 100]);
let versioned_xcm = VersionedXcm::from(xcm.clone()); let versioned_xcm = VersionedXcm::from(xcm.clone());
let mut xcmp_message = XcmpMessageFormat::ConcatenatedVersionedXcm.encode(); let mut xcmp_message = XcmpMessageFormat::ConcatenatedVersionedXcm.encode();
@@ -799,15 +799,15 @@ fn verify_fee_factor_increase_and_decrease() {
// Fee factor is only increased in `send_fragment`, which is called by `send_xcm`. // Fee factor is only increased in `send_fragment`, which is called by `send_xcm`.
// When queue is not congested, fee factor doesn't change. // When queue is not congested, fee factor doesn't change.
assert_ok!(send_xcm::<XcmpQueue>(destination, xcm.clone())); // Size 104 assert_ok!(send_xcm::<XcmpQueue>(destination.clone(), xcm.clone())); // Size 104
assert_ok!(send_xcm::<XcmpQueue>(destination, xcm.clone())); // Size 208 assert_ok!(send_xcm::<XcmpQueue>(destination.clone(), xcm.clone())); // Size 208
assert_ok!(send_xcm::<XcmpQueue>(destination, xcm.clone())); // Size 312 assert_ok!(send_xcm::<XcmpQueue>(destination.clone(), xcm.clone())); // Size 312
assert_ok!(send_xcm::<XcmpQueue>(destination, xcm.clone())); // Size 416 assert_ok!(send_xcm::<XcmpQueue>(destination.clone(), xcm.clone())); // Size 416
assert_eq!(DeliveryFeeFactor::<Test>::get(sibling_para_id), initial); assert_eq!(DeliveryFeeFactor::<Test>::get(sibling_para_id), initial);
// Sending the message right now is cheap // Sending the message right now is cheap
let (_, delivery_fees) = let (_, delivery_fees) = validate_send::<XcmpQueue>(destination.clone(), xcm.clone())
validate_send::<XcmpQueue>(destination, xcm.clone()).expect("message can be sent; qed"); .expect("message can be sent; qed");
let Fungible(delivery_fee_amount) = delivery_fees.inner()[0].fun else { let Fungible(delivery_fee_amount) = delivery_fees.inner()[0].fun else {
unreachable!("asset is fungible; qed"); unreachable!("asset is fungible; qed");
}; };
@@ -817,18 +817,18 @@ fn verify_fee_factor_increase_and_decrease() {
// When we get to half of `max_total_size`, because `THRESHOLD_FACTOR` is 2, // When we get to half of `max_total_size`, because `THRESHOLD_FACTOR` is 2,
// then the fee factor starts to increase. // then the fee factor starts to increase.
assert_ok!(send_xcm::<XcmpQueue>(destination, xcm.clone())); // Size 520 assert_ok!(send_xcm::<XcmpQueue>(destination.clone(), xcm.clone())); // Size 520
assert_eq!(DeliveryFeeFactor::<Test>::get(sibling_para_id), FixedU128::from_float(1.05)); assert_eq!(DeliveryFeeFactor::<Test>::get(sibling_para_id), FixedU128::from_float(1.05));
for _ in 0..12 { for _ in 0..12 {
// We finish at size 929 // We finish at size 929
assert_ok!(send_xcm::<XcmpQueue>(destination, smaller_xcm.clone())); assert_ok!(send_xcm::<XcmpQueue>(destination.clone(), smaller_xcm.clone()));
} }
assert!(DeliveryFeeFactor::<Test>::get(sibling_para_id) > FixedU128::from_float(1.88)); assert!(DeliveryFeeFactor::<Test>::get(sibling_para_id) > FixedU128::from_float(1.88));
// Sending the message right now is expensive // Sending the message right now is expensive
let (_, delivery_fees) = let (_, delivery_fees) = validate_send::<XcmpQueue>(destination.clone(), xcm.clone())
validate_send::<XcmpQueue>(destination, xcm.clone()).expect("message can be sent; qed"); .expect("message can be sent; qed");
let Fungible(delivery_fee_amount) = delivery_fees.inner()[0].fun else { let Fungible(delivery_fee_amount) = delivery_fees.inner()[0].fun else {
unreachable!("asset is fungible; qed"); unreachable!("asset is fungible; qed");
}; };
cumulus/parachain-template/runtime/src/xcm_config.rs
+11 -11
View File
@@ -3,8 +3,8 @@ use super::{
Runtime, RuntimeCall, RuntimeEvent, RuntimeOrigin, WeightToFee, XcmpQueue, Runtime, RuntimeCall, RuntimeEvent, RuntimeOrigin, WeightToFee, XcmpQueue,
}; };
use frame_support::{ use frame_support::{
match_types, parameter_types, parameter_types,
traits::{ConstU32, Everything, Nothing}, traits::{ConstU32, Contains, Everything, Nothing},
weights::Weight, weights::Weight,
}; };
use frame_system::EnsureRoot; use frame_system::EnsureRoot;
@@ -25,13 +25,13 @@ use xcm_builder::{
use xcm_executor::XcmExecutor; use xcm_executor::XcmExecutor;
parameter_types! { parameter_types! {
pub const RelayLocation: MultiLocation = MultiLocation::parent(); pub const RelayLocation: Location = Location::parent();
pub const RelayNetwork: Option<NetworkId> = None; pub const RelayNetwork: Option<NetworkId> = None;
pub RelayChainOrigin: RuntimeOrigin = cumulus_pallet_xcm::Origin::Relay.into(); pub RelayChainOrigin: RuntimeOrigin = cumulus_pallet_xcm::Origin::Relay.into();
pub UniversalLocation: InteriorMultiLocation = Parachain(ParachainInfo::parachain_id().into()).into(); pub UniversalLocation: InteriorLocation = Parachain(ParachainInfo::parachain_id().into()).into();
} }
/// Type for specifying how a `MultiLocation` can be converted into an `AccountId`. This is used /// Type for specifying how a `Location` can be converted into an `AccountId`. This is used
/// when determining ownership of accounts for asset transacting and when attempting to use XCM /// when determining ownership of accounts for asset transacting and when attempting to use XCM
/// `Transact` in order to determine the dispatch Origin. /// `Transact` in order to determine the dispatch Origin.
pub type LocationToAccountId = ( pub type LocationToAccountId = (
@@ -50,7 +50,7 @@ pub type LocalAssetTransactor = CurrencyAdapter<
Balances, Balances,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
IsConcrete<RelayLocation>, IsConcrete<RelayLocation>,
// Do a simple punn to convert an AccountId32 MultiLocation into a native chain account ID: // Do a simple punn to convert an AccountId32 Location into a native chain account ID:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -86,11 +86,11 @@ parameter_types! {
pub const MaxAssetsIntoHolding: u32 = 64; pub const MaxAssetsIntoHolding: u32 = 64;
} }
match_types! { pub struct ParentOrParentsExecutivePlurality;
pub type ParentOrParentsExecutivePlurality: impl Contains<MultiLocation> = { impl Contains<Location> for ParentOrParentsExecutivePlurality {
MultiLocation { parents: 1, interior: Here } | fn contains(location: &Location) -> bool {
MultiLocation { parents: 1, interior: X1(Plurality { id: BodyId::Executive, .. }) } matches!(location.unpack(), (1, []) | (1, [Plurality { id: BodyId::Executive, .. }]))
}; }
} }
pub type Barrier = TrailingSetTopicAsId< pub type Barrier = TrailingSetTopicAsId<
cumulus/parachains/common/src/impls.rs
+9 -9
View File
@@ -24,8 +24,8 @@ use pallet_asset_tx_payment::HandleCredit;
use sp_runtime::traits::Zero; use sp_runtime::traits::Zero;
use sp_std::{marker::PhantomData, prelude::*}; use sp_std::{marker::PhantomData, prelude::*};
use xcm::latest::{ use xcm::latest::{
AssetId, Fungibility, Fungibility::Fungible, Junction, Junctions::Here, MultiAsset, Asset, AssetId, Fungibility, Fungibility::Fungible, Junction, Junctions::Here, Location,
MultiLocation, Parent, WeightLimit, Parent, WeightLimit,
}; };
use xcm_executor::traits::ConvertLocation; use xcm_executor::traits::ConvertLocation;
@@ -113,11 +113,11 @@ where
/// Asset filter that allows all assets from a certain location. /// Asset filter that allows all assets from a certain location.
pub struct AssetsFrom<T>(PhantomData<T>); pub struct AssetsFrom<T>(PhantomData<T>);
impl<T: Get<MultiLocation>> ContainsPair<MultiAsset, MultiLocation> for AssetsFrom<T> { impl<T: Get<Location>> ContainsPair<Asset, Location> for AssetsFrom<T> {
fn contains(asset: &MultiAsset, origin: &MultiLocation) -> bool { fn contains(asset: &Asset, origin: &Location) -> bool {
let loc = T::get(); let loc = T::get();
&loc == origin && &loc == origin &&
matches!(asset, MultiAsset { id: AssetId::Concrete(asset_loc), fun: Fungible(_a) } matches!(asset, Asset { id: AssetId(asset_loc), fun: Fungible(_a) }
if asset_loc.match_and_split(&loc).is_some()) if asset_loc.match_and_split(&loc).is_some())
} }
} }
@@ -148,7 +148,7 @@ where
Err(amount) => amount, Err(amount) => amount,
}; };
let imbalance = amount.peek(); let imbalance = amount.peek();
let root_location: MultiLocation = Here.into(); let root_location: Location = Here.into();
let root_account: AccountIdOf<T> = let root_account: AccountIdOf<T> =
match AccountIdConverter::convert_location(&root_location) { match AccountIdConverter::convert_location(&root_location) {
Some(a) => a, Some(a) => a,
@@ -329,13 +329,13 @@ mod tests {
#[test] #[test]
fn assets_from_filters_correctly() { fn assets_from_filters_correctly() {
parameter_types! { parameter_types! {
pub SomeSiblingParachain: MultiLocation = MultiLocation::new(1, X1(Parachain(1234))); pub SomeSiblingParachain: Location = (Parent, Parachain(1234)).into();
} }
let asset_location = SomeSiblingParachain::get() let asset_location = SomeSiblingParachain::get()
.pushed_with_interior(GeneralIndex(42)) .pushed_with_interior(GeneralIndex(42))
.expect("multilocation will only have 2 junctions; qed"); .expect("location will only have 2 junctions; qed");
let asset = MultiAsset { id: Concrete(asset_location), fun: 1_000_000u128.into() }; let asset = Asset { id: AssetId(asset_location), fun: 1_000_000u128.into() };
assert!( assert!(
AssetsFrom::<SomeSiblingParachain>::contains(&asset, &SomeSiblingParachain::get()), AssetsFrom::<SomeSiblingParachain>::contains(&asset, &SomeSiblingParachain::get()),
"AssetsFrom should allow assets from any of its interior locations" "AssetsFrom should allow assets from any of its interior locations"
cumulus/parachains/common/src/xcm_config.rs
+40 -48
View File
@@ -66,37 +66,36 @@ where
} }
} }
/// Accepts an asset if it is a native asset from a particular `MultiLocation`. /// Accepts an asset if it is a native asset from a particular `Location`.
pub struct ConcreteNativeAssetFrom<Location>(PhantomData<Location>); pub struct ConcreteNativeAssetFrom<LocationValue>(PhantomData<LocationValue>);
impl<Location: Get<MultiLocation>> ContainsPair<MultiAsset, MultiLocation> impl<LocationValue: Get<Location>> ContainsPair<Asset, Location>
for ConcreteNativeAssetFrom<Location> for ConcreteNativeAssetFrom<LocationValue>
{ {
fn contains(asset: &MultiAsset, origin: &MultiLocation) -> bool { fn contains(asset: &Asset, origin: &Location) -> bool {
log::trace!(target: "xcm::filter_asset_location", log::trace!(target: "xcm::filter_asset_location",
"ConcreteNativeAsset asset: {:?}, origin: {:?}, location: {:?}", "ConcreteNativeAsset asset: {:?}, origin: {:?}, location: {:?}",
asset, origin, Location::get()); asset, origin, LocationValue::get());
matches!(asset.id, Concrete(ref id) if id == origin && origin == &Location::get()) asset.id.0 == *origin && origin == &LocationValue::get()
} }
} }
pub struct RelayOrOtherSystemParachains< pub struct RelayOrOtherSystemParachains<
SystemParachainMatcher: Contains<MultiLocation>, SystemParachainMatcher: Contains<Location>,
Runtime: parachain_info::Config, Runtime: parachain_info::Config,
> { > {
_runtime: PhantomData<(SystemParachainMatcher, Runtime)>, _runtime: PhantomData<(SystemParachainMatcher, Runtime)>,
} }
impl<SystemParachainMatcher: Contains<MultiLocation>, Runtime: parachain_info::Config> impl<SystemParachainMatcher: Contains<Location>, Runtime: parachain_info::Config> Contains<Location>
Contains<MultiLocation> for RelayOrOtherSystemParachains<SystemParachainMatcher, Runtime> for RelayOrOtherSystemParachains<SystemParachainMatcher, Runtime>
{ {
fn contains(l: &MultiLocation) -> bool { fn contains(l: &Location) -> bool {
let self_para_id: u32 = parachain_info::Pallet::<Runtime>::get().into(); let self_para_id: u32 = parachain_info::Pallet::<Runtime>::get().into();
if let MultiLocation { parents: 0, interior: X1(Parachain(para_id)) } = l { if let (0, [Parachain(para_id)]) = l.unpack() {
if *para_id == self_para_id { if *para_id == self_para_id {
return false return false
} }
} }
matches!(l, MultiLocation { parents: 1, interior: Here }) || matches!(l.unpack(), (1, [])) || SystemParachainMatcher::contains(l)
SystemParachainMatcher::contains(l)
} }
} }
@@ -105,14 +104,12 @@ impl<SystemParachainMatcher: Contains<MultiLocation>, Runtime: parachain_info::C
/// This structure can only be used at a parachain level. In the Relay Chain, please use /// This structure can only be used at a parachain level. In the Relay Chain, please use
/// the `xcm_builder::IsChildSystemParachain` matcher. /// the `xcm_builder::IsChildSystemParachain` matcher.
pub struct AllSiblingSystemParachains; pub struct AllSiblingSystemParachains;
impl Contains<Location> for AllSiblingSystemParachains {
impl Contains<MultiLocation> for AllSiblingSystemParachains { fn contains(l: &Location) -> bool {
fn contains(l: &MultiLocation) -> bool {
log::trace!(target: "xcm::contains", "AllSiblingSystemParachains location: {:?}", l); log::trace!(target: "xcm::contains", "AllSiblingSystemParachains location: {:?}", l);
match *l { match l.unpack() {
// System parachain // System parachain
MultiLocation { parents: 1, interior: X1(Parachain(id)) } => (1, [Parachain(id)]) => ParaId::from(*id).is_system(),
ParaId::from(id).is_system(),
// Everything else // Everything else
_ => false, _ => false,
} }
@@ -121,21 +118,20 @@ impl Contains<MultiLocation> for AllSiblingSystemParachains {
/// Accepts an asset if it is a concrete asset from the system (Relay Chain or system parachain). /// Accepts an asset if it is a concrete asset from the system (Relay Chain or system parachain).
pub struct ConcreteAssetFromSystem<AssetLocation>(PhantomData<AssetLocation>); pub struct ConcreteAssetFromSystem<AssetLocation>(PhantomData<AssetLocation>);
impl<AssetLocation: Get<MultiLocation>> ContainsPair<MultiAsset, MultiLocation> impl<AssetLocation: Get<Location>> ContainsPair<Asset, Location>
for ConcreteAssetFromSystem<AssetLocation> for ConcreteAssetFromSystem<AssetLocation>
{ {
fn contains(asset: &MultiAsset, origin: &MultiLocation) -> bool { fn contains(asset: &Asset, origin: &Location) -> bool {
log::trace!(target: "xcm::contains", "ConcreteAssetFromSystem asset: {:?}, origin: {:?}", asset, origin); log::trace!(target: "xcm::contains", "ConcreteAssetFromSystem asset: {:?}, origin: {:?}", asset, origin);
let is_system = match origin { let is_system = match origin.unpack() {
// The Relay Chain // The Relay Chain
MultiLocation { parents: 1, interior: Here } => true, (1, []) => true,
// System parachain // System parachain
MultiLocation { parents: 1, interior: X1(Parachain(id)) } => (1, [Parachain(id)]) => ParaId::from(*id).is_system(),
ParaId::from(*id).is_system(),
// Others // Others
_ => false, _ => false,
}; };
matches!(asset.id, Concrete(id) if id == AssetLocation::get()) && is_system asset.id.0 == AssetLocation::get() && is_system
} }
} }
@@ -144,13 +140,9 @@ impl<AssetLocation: Get<MultiLocation>> ContainsPair<MultiAsset, MultiLocation>
/// This type should only be used within the context of a parachain, since it does not verify that /// This type should only be used within the context of a parachain, since it does not verify that
/// the parent is indeed a Relay Chain. /// the parent is indeed a Relay Chain.
pub struct ParentRelayOrSiblingParachains; pub struct ParentRelayOrSiblingParachains;
impl Contains<MultiLocation> for ParentRelayOrSiblingParachains { impl Contains<Location> for ParentRelayOrSiblingParachains {
fn contains(location: &MultiLocation) -> bool { fn contains(location: &Location) -> bool {
matches!( matches!(location.unpack(), (1, []) | (1, [Parachain(_)]))
location,
MultiLocation { parents: 1, interior: Here } |
MultiLocation { parents: 1, interior: X1(Parachain(_)) }
)
} }
} }
@@ -159,20 +151,20 @@ mod tests {
use frame_support::{parameter_types, traits::Contains}; use frame_support::{parameter_types, traits::Contains};
use super::{ use super::{
AllSiblingSystemParachains, ConcreteAssetFromSystem, ContainsPair, GeneralIndex, Here, AllSiblingSystemParachains, Asset, ConcreteAssetFromSystem, ContainsPair, GeneralIndex,
MultiAsset, MultiLocation, PalletInstance, Parachain, Parent, Here, Location, PalletInstance, Parachain, Parent,
}; };
use polkadot_primitives::LOWEST_PUBLIC_ID; use polkadot_primitives::LOWEST_PUBLIC_ID;
use xcm::latest::prelude::*; use xcm::latest::prelude::*;
parameter_types! { parameter_types! {
pub const RelayLocation: MultiLocation = MultiLocation::parent(); pub const RelayLocation: Location = Location::parent();
} }
#[test] #[test]
fn concrete_asset_from_relay_works() { fn concrete_asset_from_relay_works() {
let expected_asset: MultiAsset = (Parent, 1000000).into(); let expected_asset: Asset = (Parent, 1000000).into();
let expected_origin: MultiLocation = (Parent, Here).into(); let expected_origin: Location = (Parent, Here).into();
assert!(<ConcreteAssetFromSystem<RelayLocation>>::contains( assert!(<ConcreteAssetFromSystem<RelayLocation>>::contains(
&expected_asset, &expected_asset,
@@ -182,12 +174,12 @@ mod tests {
#[test] #[test]
fn concrete_asset_from_sibling_system_para_fails_for_wrong_asset() { fn concrete_asset_from_sibling_system_para_fails_for_wrong_asset() {
let unexpected_assets: Vec<MultiAsset> = vec![ let unexpected_assets: Vec<Asset> = vec![
(Here, 1000000).into(), (Here, 1000000).into(),
((PalletInstance(50), GeneralIndex(1)), 1000000).into(), ((PalletInstance(50), GeneralIndex(1)), 1000000).into(),
((Parent, Parachain(1000), PalletInstance(50), GeneralIndex(1)), 1000000).into(), ((Parent, Parachain(1000), PalletInstance(50), GeneralIndex(1)), 1000000).into(),
]; ];
let expected_origin: MultiLocation = (Parent, Parachain(1000)).into(); let expected_origin: Location = (Parent, Parachain(1000)).into();
unexpected_assets.iter().for_each(|asset| { unexpected_assets.iter().for_each(|asset| {
assert!(!<ConcreteAssetFromSystem<RelayLocation>>::contains(asset, &expected_origin)); assert!(!<ConcreteAssetFromSystem<RelayLocation>>::contains(asset, &expected_origin));
@@ -206,10 +198,10 @@ mod tests {
(2001, false), // Not a System Parachain (2001, false), // Not a System Parachain
]; ];
let expected_asset: MultiAsset = (Parent, 1000000).into(); let expected_asset: Asset = (Parent, 1000000).into();
for (para_id, expected_result) in test_data { for (para_id, expected_result) in test_data {
let origin: MultiLocation = (Parent, Parachain(para_id)).into(); let origin: Location = (Parent, Parachain(para_id)).into();
assert_eq!( assert_eq!(
expected_result, expected_result,
<ConcreteAssetFromSystem<RelayLocation>>::contains(&expected_asset, &origin) <ConcreteAssetFromSystem<RelayLocation>>::contains(&expected_asset, &origin)
@@ -220,15 +212,15 @@ mod tests {
#[test] #[test]
fn all_sibling_system_parachains_works() { fn all_sibling_system_parachains_works() {
// system parachain // system parachain
assert!(AllSiblingSystemParachains::contains(&MultiLocation::new(1, X1(Parachain(1))))); assert!(AllSiblingSystemParachains::contains(&Location::new(1, [Parachain(1)])));
// non-system parachain // non-system parachain
assert!(!AllSiblingSystemParachains::contains(&MultiLocation::new( assert!(!AllSiblingSystemParachains::contains(&Location::new(
1, 1,
X1(Parachain(LOWEST_PUBLIC_ID.into())) [Parachain(LOWEST_PUBLIC_ID.into())]
))); )));
// when used at relay chain // when used at relay chain
assert!(!AllSiblingSystemParachains::contains(&MultiLocation::new(0, X1(Parachain(1))))); assert!(!AllSiblingSystemParachains::contains(&Location::new(0, [Parachain(1)])));
// when used with non-parachain // when used with non-parachain
assert!(!AllSiblingSystemParachains::contains(&MultiLocation::new(1, X1(OnlyChild)))); assert!(!AllSiblingSystemParachains::contains(&Location::new(1, [OnlyChild])));
} }
} }
cumulus/parachains/integration-tests/emulated/chains/parachains/testing/penpal/src/lib.rs
+3 -1
View File
@@ -15,7 +15,9 @@
mod genesis; mod genesis;
pub use genesis::{genesis, ED, PARA_ID_A, PARA_ID_B}; pub use genesis::{genesis, ED, PARA_ID_A, PARA_ID_B};
pub use penpal_runtime::xcm_config::{LocalTeleportableToAssetHub, XcmConfig}; pub use penpal_runtime::xcm_config::{
LocalTeleportableToAssetHub, LocalTeleportableToAssetHubV3, XcmConfig,
};
// Substrate // Substrate
use frame_support::traits::OnInitialize; use frame_support::traits::OnInitialize;
cumulus/parachains/integration-tests/emulated/common/src/impls.rs
+29 -28
View File
@@ -38,8 +38,9 @@ pub use polkadot_runtime_parachains::{
inclusion::{AggregateMessageOrigin, UmpQueueId}, inclusion::{AggregateMessageOrigin, UmpQueueId},
}; };
pub use xcm::{ pub use xcm::{
prelude::{MultiLocation, OriginKind, Outcome, VersionedXcm, XcmVersion}, prelude::{Location, OriginKind, Outcome, VersionedXcm, XcmVersion},
v3::Error, v3,
v4::Error as XcmError,
DoubleEncoded, DoubleEncoded,
}; };
@@ -209,7 +210,7 @@ macro_rules! impl_assert_events_helpers_for_relay_chain {
Self, Self,
vec![ vec![
[<$chain RuntimeEvent>]::<N>::XcmPallet( [<$chain RuntimeEvent>]::<N>::XcmPallet(
$crate::impls::pallet_xcm::Event::Attempted { outcome: $crate::impls::Outcome::Complete(weight) } $crate::impls::pallet_xcm::Event::Attempted { outcome: $crate::impls::Outcome::Complete { used: weight } }
) => { ) => {
weight: $crate::impls::weight_within_threshold( weight: $crate::impls::weight_within_threshold(
($crate::impls::REF_TIME_THRESHOLD, $crate::impls::PROOF_SIZE_THRESHOLD), ($crate::impls::REF_TIME_THRESHOLD, $crate::impls::PROOF_SIZE_THRESHOLD),
@@ -224,21 +225,21 @@ macro_rules! impl_assert_events_helpers_for_relay_chain {
/// Asserts a dispatchable is incompletely executed and XCM sent /// Asserts a dispatchable is incompletely executed and XCM sent
pub fn assert_xcm_pallet_attempted_incomplete( pub fn assert_xcm_pallet_attempted_incomplete(
expected_weight: Option<$crate::impls::Weight>, expected_weight: Option<$crate::impls::Weight>,
expected_error: Option<$crate::impls::Error>, expected_error: Option<$crate::impls::XcmError>,
) { ) {
$crate::impls::assert_expected_events!( $crate::impls::assert_expected_events!(
Self, Self,
vec![ vec![
// Dispatchable is properly executed and XCM message sent // Dispatchable is properly executed and XCM message sent
[<$chain RuntimeEvent>]::<N>::XcmPallet( [<$chain RuntimeEvent>]::<N>::XcmPallet(
$crate::impls::pallet_xcm::Event::Attempted { outcome: $crate::impls::Outcome::Incomplete(weight, error) } $crate::impls::pallet_xcm::Event::Attempted { outcome: $crate::impls::Outcome::Incomplete { used: weight, error } }
) => { ) => {
weight: $crate::impls::weight_within_threshold( weight: $crate::impls::weight_within_threshold(
($crate::impls::REF_TIME_THRESHOLD, $crate::impls::PROOF_SIZE_THRESHOLD), ($crate::impls::REF_TIME_THRESHOLD, $crate::impls::PROOF_SIZE_THRESHOLD),
expected_weight.unwrap_or(*weight), expected_weight.unwrap_or(*weight),
*weight *weight
), ),
error: *error == expected_error.unwrap_or(*error), error: *error == expected_error.unwrap_or((*error).into()).into(),
}, },
] ]
); );
@@ -365,7 +366,7 @@ macro_rules! impl_send_transact_helpers_for_relay_chain {
<Self as $crate::impls::TestExt>::execute_with(|| { <Self as $crate::impls::TestExt>::execute_with(|| {
let root_origin = <Self as Chain>::RuntimeOrigin::root(); let root_origin = <Self as Chain>::RuntimeOrigin::root();
let destination: $crate::impls::MultiLocation = <Self as RelayChain>::child_location_of(recipient); let destination: $crate::impls::Location = <Self as RelayChain>::child_location_of(recipient);
let xcm = $crate::impls::xcm_transact_unpaid_execution(call, $crate::impls::OriginKind::Superuser); let xcm = $crate::impls::xcm_transact_unpaid_execution(call, $crate::impls::OriginKind::Superuser);
// Send XCM `Transact` // Send XCM `Transact`
@@ -416,13 +417,13 @@ macro_rules! impl_accounts_helpers_for_parachain {
network_id: $crate::impls::NetworkId, network_id: $crate::impls::NetworkId,
para_id: $crate::impls::ParaId, para_id: $crate::impls::ParaId,
) -> $crate::impls::AccountId { ) -> $crate::impls::AccountId {
let remote_location = $crate::impls::MultiLocation { let remote_location = $crate::impls::Location::new(
parents: 2, 2,
interior: $crate::impls::Junctions::X2( [
$crate::impls::Junction::GlobalConsensus(network_id), $crate::impls::Junction::GlobalConsensus(network_id),
$crate::impls::Junction::Parachain(para_id.into()), $crate::impls::Junction::Parachain(para_id.into()),
), ],
}; );
<Self as $crate::impls::TestExt>::execute_with(|| { <Self as $crate::impls::TestExt>::execute_with(|| {
Self::sovereign_account_id_of(remote_location) Self::sovereign_account_id_of(remote_location)
}) })
@@ -445,7 +446,7 @@ macro_rules! impl_assert_events_helpers_for_parachain {
Self, Self,
vec![ vec![
[<$chain RuntimeEvent>]::<N>::PolkadotXcm( [<$chain RuntimeEvent>]::<N>::PolkadotXcm(
$crate::impls::pallet_xcm::Event::Attempted { outcome: $crate::impls::Outcome::Complete(weight) } $crate::impls::pallet_xcm::Event::Attempted { outcome: $crate::impls::Outcome::Complete { used: weight } }
) => { ) => {
weight: $crate::impls::weight_within_threshold( weight: $crate::impls::weight_within_threshold(
($crate::impls::REF_TIME_THRESHOLD, $crate::impls::PROOF_SIZE_THRESHOLD), ($crate::impls::REF_TIME_THRESHOLD, $crate::impls::PROOF_SIZE_THRESHOLD),
@@ -460,36 +461,36 @@ macro_rules! impl_assert_events_helpers_for_parachain {
/// Asserts a dispatchable is incompletely executed and XCM sent /// Asserts a dispatchable is incompletely executed and XCM sent
pub fn assert_xcm_pallet_attempted_incomplete( pub fn assert_xcm_pallet_attempted_incomplete(
expected_weight: Option<$crate::impls::Weight>, expected_weight: Option<$crate::impls::Weight>,
expected_error: Option<$crate::impls::Error>, expected_error: Option<$crate::impls::XcmError>,
) { ) {
$crate::impls::assert_expected_events!( $crate::impls::assert_expected_events!(
Self, Self,
vec![ vec![
// Dispatchable is properly executed and XCM message sent // Dispatchable is properly executed and XCM message sent
[<$chain RuntimeEvent>]::<N>::PolkadotXcm( [<$chain RuntimeEvent>]::<N>::PolkadotXcm(
$crate::impls::pallet_xcm::Event::Attempted { outcome: $crate::impls::Outcome::Incomplete(weight, error) } $crate::impls::pallet_xcm::Event::Attempted { outcome: $crate::impls::Outcome::Incomplete { used: weight, error } }
) => { ) => {
weight: $crate::impls::weight_within_threshold( weight: $crate::impls::weight_within_threshold(
($crate::impls::REF_TIME_THRESHOLD, $crate::impls::PROOF_SIZE_THRESHOLD), ($crate::impls::REF_TIME_THRESHOLD, $crate::impls::PROOF_SIZE_THRESHOLD),
expected_weight.unwrap_or(*weight), expected_weight.unwrap_or(*weight),
*weight *weight
), ),
error: *error == expected_error.unwrap_or(*error), error: *error == expected_error.unwrap_or((*error).into()).into(),
}, },
] ]
); );
} }
/// Asserts a dispatchable throws and error when trying to be sent /// Asserts a dispatchable throws and error when trying to be sent
pub fn assert_xcm_pallet_attempted_error(expected_error: Option<$crate::impls::Error>) { pub fn assert_xcm_pallet_attempted_error(expected_error: Option<$crate::impls::XcmError>) {
$crate::impls::assert_expected_events!( $crate::impls::assert_expected_events!(
Self, Self,
vec![ vec![
// Execution fails in the origin with `Barrier` // Execution fails in the origin with `Barrier`
[<$chain RuntimeEvent>]::<N>::PolkadotXcm( [<$chain RuntimeEvent>]::<N>::PolkadotXcm(
$crate::impls::pallet_xcm::Event::Attempted { outcome: $crate::impls::Outcome::Error(error) } $crate::impls::pallet_xcm::Event::Attempted { outcome: $crate::impls::Outcome::Error { error } }
) => { ) => {
error: *error == expected_error.unwrap_or(*error), error: *error == expected_error.unwrap_or((*error).into()).into(),
}, },
] ]
); );
@@ -639,7 +640,7 @@ macro_rules! impl_assets_helpers_for_parachain {
<Self as $crate::impls::TestExt>::execute_with(|| { <Self as $crate::impls::TestExt>::execute_with(|| {
$crate::impls::assert_ok!(<Self as [<$chain ParaPallet>]>::Assets::mint( $crate::impls::assert_ok!(<Self as [<$chain ParaPallet>]>::Assets::mint(
signed_origin, signed_origin,
id.into(), id.clone().into(),
beneficiary.clone().into(), beneficiary.clone().into(),
amount_to_mint amount_to_mint
)); ));
@@ -717,7 +718,7 @@ macro_rules! impl_assets_helpers_for_parachain {
] ]
); );
assert!(<Self as [<$chain ParaPallet>]>::Assets::asset_exists(id.into())); assert!(<Self as [<$chain ParaPallet>]>::Assets::asset_exists(id.clone().into()));
}); });
} }
} }
@@ -732,7 +733,7 @@ macro_rules! impl_foreign_assets_helpers_for_parachain {
impl<N: $crate::impls::Network> $chain<N> { impl<N: $crate::impls::Network> $chain<N> {
/// Create foreign assets using sudo `ForeignAssets::force_create()` /// Create foreign assets using sudo `ForeignAssets::force_create()`
pub fn force_create_foreign_asset( pub fn force_create_foreign_asset(
id: $crate::impls::MultiLocation, id: $crate::impls::v3::Location,
owner: $crate::impls::AccountId, owner: $crate::impls::AccountId,
is_sufficient: bool, is_sufficient: bool,
min_balance: u128, min_balance: u128,
@@ -744,13 +745,13 @@ macro_rules! impl_foreign_assets_helpers_for_parachain {
$crate::impls::assert_ok!( $crate::impls::assert_ok!(
<Self as [<$chain ParaPallet>]>::ForeignAssets::force_create( <Self as [<$chain ParaPallet>]>::ForeignAssets::force_create(
sudo_origin, sudo_origin,
id, id.clone(),
owner.clone().into(), owner.clone().into(),
is_sufficient, is_sufficient,
min_balance, min_balance,
) )
); );
assert!(<Self as [<$chain ParaPallet>]>::ForeignAssets::asset_exists(id)); assert!(<Self as [<$chain ParaPallet>]>::ForeignAssets::asset_exists(id.clone()));
type RuntimeEvent<N> = <$chain<N> as $crate::impls::Chain>::RuntimeEvent; type RuntimeEvent<N> = <$chain<N> as $crate::impls::Chain>::RuntimeEvent;
$crate::impls::assert_expected_events!( $crate::impls::assert_expected_events!(
Self, Self,
@@ -767,21 +768,21 @@ macro_rules! impl_foreign_assets_helpers_for_parachain {
for (beneficiary, amount) in prefund_accounts.into_iter() { for (beneficiary, amount) in prefund_accounts.into_iter() {
let signed_origin = let signed_origin =
<$chain<N> as $crate::impls::Chain>::RuntimeOrigin::signed(owner.clone()); <$chain<N> as $crate::impls::Chain>::RuntimeOrigin::signed(owner.clone());
Self::mint_foreign_asset(signed_origin, id, beneficiary, amount); Self::mint_foreign_asset(signed_origin, id.clone(), beneficiary, amount);
} }
} }
/// Mint assets making use of the ForeignAssets pallet-assets instance /// Mint assets making use of the ForeignAssets pallet-assets instance
pub fn mint_foreign_asset( pub fn mint_foreign_asset(
signed_origin: <Self as $crate::impls::Chain>::RuntimeOrigin, signed_origin: <Self as $crate::impls::Chain>::RuntimeOrigin,
id: $crate::impls::MultiLocation, id: $crate::impls::v3::Location,
beneficiary: $crate::impls::AccountId, beneficiary: $crate::impls::AccountId,
amount_to_mint: u128, amount_to_mint: u128,
) { ) {
<Self as $crate::impls::TestExt>::execute_with(|| { <Self as $crate::impls::TestExt>::execute_with(|| {
$crate::impls::assert_ok!(<Self as [<$chain ParaPallet>]>::ForeignAssets::mint( $crate::impls::assert_ok!(<Self as [<$chain ParaPallet>]>::ForeignAssets::mint(
signed_origin, signed_origin,
id.into(), id.clone().into(),
beneficiary.clone().into(), beneficiary.clone().into(),
amount_to_mint amount_to_mint
)); ));
@@ -813,7 +814,7 @@ macro_rules! impl_xcm_helpers_for_parachain {
$crate::impls::paste::paste! { $crate::impls::paste::paste! {
impl<N: $crate::impls::Network> $chain<N> { impl<N: $crate::impls::Network> $chain<N> {
/// Set XCM version for destination. /// Set XCM version for destination.
pub fn force_xcm_version(dest: $crate::impls::MultiLocation, version: $crate::impls::XcmVersion) { pub fn force_xcm_version(dest: $crate::impls::Location, version: $crate::impls::XcmVersion) {
<Self as $crate::impls::TestExt>::execute_with(|| { <Self as $crate::impls::TestExt>::execute_with(|| {
$crate::impls::assert_ok!(<Self as [<$chain ParaPallet>]>::PolkadotXcm::force_xcm_version( $crate::impls::assert_ok!(<Self as [<$chain ParaPallet>]>::PolkadotXcm::force_xcm_version(
<Self as $crate::impls::Chain>::RuntimeOrigin::root(), <Self as $crate::impls::Chain>::RuntimeOrigin::root(),
cumulus/parachains/integration-tests/emulated/common/src/lib.rs
+1
View File
@@ -40,6 +40,7 @@ use polkadot_service::chain_spec::get_authority_keys_from_seed_no_beefy;
pub const XCM_V2: u32 = 2; pub const XCM_V2: u32 = 2;
pub const XCM_V3: u32 = 3; pub const XCM_V3: u32 = 3;
pub const XCM_V4: u32 = 4;
pub const REF_TIME_THRESHOLD: u64 = 33; pub const REF_TIME_THRESHOLD: u64 = 33;
pub const PROOF_SIZE_THRESHOLD: u64 = 33; pub const PROOF_SIZE_THRESHOLD: u64 = 33;
cumulus/parachains/integration-tests/emulated/common/src/macros.rs
+9 -9
View File
@@ -48,7 +48,7 @@ macro_rules! test_parachain_is_trusted_teleporter {
<$receiver_para as $crate::macros::Chain>::account_data_of(receiver.clone()).free; <$receiver_para as $crate::macros::Chain>::account_data_of(receiver.clone()).free;
let para_destination = let para_destination =
<$sender_para>::sibling_location_of(<$receiver_para>::para_id()); <$sender_para>::sibling_location_of(<$receiver_para>::para_id());
let beneficiary: MultiLocation = let beneficiary: Location =
$crate::macros::AccountId32 { network: None, id: receiver.clone().into() }.into(); $crate::macros::AccountId32 { network: None, id: receiver.clone().into() }.into();
// Send XCM message from Origin Parachain // Send XCM message from Origin Parachain
@@ -57,8 +57,8 @@ macro_rules! test_parachain_is_trusted_teleporter {
<$sender_para>::execute_with(|| { <$sender_para>::execute_with(|| {
assert_ok!(<$sender_para as [<$sender_para Pallet>]>::PolkadotXcm::limited_teleport_assets( assert_ok!(<$sender_para as [<$sender_para Pallet>]>::PolkadotXcm::limited_teleport_assets(
origin.clone(), origin.clone(),
bx!(para_destination.into()), bx!(para_destination.clone().into()),
bx!(beneficiary.into()), bx!(beneficiary.clone().into()),
bx!($assets.clone().into()), bx!($assets.clone().into()),
fee_asset_item, fee_asset_item,
weight_limit.clone(), weight_limit.clone(),
@@ -127,8 +127,8 @@ macro_rules! include_penpal_create_foreign_asset_on_asset_hub {
$crate::impls::paste::paste! { $crate::impls::paste::paste! {
pub fn penpal_create_foreign_asset_on_asset_hub( pub fn penpal_create_foreign_asset_on_asset_hub(
asset_id_on_penpal: u32, asset_id_on_penpal: u32,
foreign_asset_at_asset_hub: MultiLocation, foreign_asset_at_asset_hub: v3::Location,
ah_as_seen_by_penpal: MultiLocation, ah_as_seen_by_penpal: Location,
is_sufficient: bool, is_sufficient: bool,
asset_owner: AccountId, asset_owner: AccountId,
prefund_amount: u128, prefund_amount: u128,
@@ -144,14 +144,14 @@ macro_rules! include_penpal_create_foreign_asset_on_asset_hub {
// prefund SA of Penpal on AssetHub with enough native tokens to pay for creating // prefund SA of Penpal on AssetHub with enough native tokens to pay for creating
// new foreign asset, also prefund CheckingAccount with ED, because teleported asset // new foreign asset, also prefund CheckingAccount with ED, because teleported asset
// itself might not be sufficient and CheckingAccount cannot be created otherwise // itself might not be sufficient and CheckingAccount cannot be created otherwise
let sov_penpal_on_ah = $asset_hub::sovereign_account_id_of(penpal_as_seen_by_ah); let sov_penpal_on_ah = $asset_hub::sovereign_account_id_of(penpal_as_seen_by_ah.clone());
$asset_hub::fund_accounts(vec![ $asset_hub::fund_accounts(vec![
(sov_penpal_on_ah.clone().into(), $relay_ed * 100_000_000_000), (sov_penpal_on_ah.clone().into(), $relay_ed * 100_000_000_000),
(ah_check_account.clone().into(), $relay_ed * 1000), (ah_check_account.clone().into(), $relay_ed * 1000),
]); ]);
// prefund SA of AssetHub on Penpal with native asset // prefund SA of AssetHub on Penpal with native asset
let sov_ah_on_penpal = $penpal::sovereign_account_id_of(ah_as_seen_by_penpal); let sov_ah_on_penpal = $penpal::sovereign_account_id_of(ah_as_seen_by_penpal.clone());
$penpal::fund_accounts(vec![ $penpal::fund_accounts(vec![
(sov_ah_on_penpal.into(), $relay_ed * 1_000_000_000), (sov_ah_on_penpal.into(), $relay_ed * 1_000_000_000),
(penpal_check_account.clone().into(), $relay_ed * 1000), (penpal_check_account.clone().into(), $relay_ed * 1000),
@@ -183,8 +183,8 @@ macro_rules! include_penpal_create_foreign_asset_on_asset_hub {
let buy_execution_fee_amount = $weight_to_fee::weight_to_fee( let buy_execution_fee_amount = $weight_to_fee::weight_to_fee(
&Weight::from_parts(10_100_000_000_000, 300_000), &Weight::from_parts(10_100_000_000_000, 300_000),
); );
let buy_execution_fee = MultiAsset { let buy_execution_fee = Asset {
id: Concrete(MultiLocation { parents: 1, interior: Here }), id: AssetId(Location { parents: 1, interior: Here }),
fun: Fungible(buy_execution_fee_amount), fun: Fungible(buy_execution_fee_amount),
}; };
let xcm = VersionedXcm::from(Xcm(vec![ let xcm = VersionedXcm::from(Xcm(vec![
cumulus/parachains/integration-tests/emulated/common/src/xcm_helpers.rs
+6 -10
View File
@@ -23,12 +23,12 @@ use xcm::{prelude::*, DoubleEncoded};
pub fn xcm_transact_paid_execution( pub fn xcm_transact_paid_execution(
call: DoubleEncoded<()>, call: DoubleEncoded<()>,
origin_kind: OriginKind, origin_kind: OriginKind,
native_asset: MultiAsset, native_asset: Asset,
beneficiary: AccountId, beneficiary: AccountId,
) -> VersionedXcm<()> { ) -> VersionedXcm<()> {
let weight_limit = WeightLimit::Unlimited; let weight_limit = WeightLimit::Unlimited;
let require_weight_at_most = Weight::from_parts(1000000000, 200000); let require_weight_at_most = Weight::from_parts(1000000000, 200000);
let native_assets: MultiAssets = native_asset.clone().into(); let native_assets: Assets = native_asset.clone().into();
VersionedXcm::from(Xcm(vec![ VersionedXcm::from(Xcm(vec![
WithdrawAsset(native_assets), WithdrawAsset(native_assets),
@@ -37,9 +37,9 @@ pub fn xcm_transact_paid_execution(
RefundSurplus, RefundSurplus,
DepositAsset { DepositAsset {
assets: All.into(), assets: All.into(),
beneficiary: MultiLocation { beneficiary: Location {
parents: 0, parents: 0,
interior: X1(AccountId32 { network: None, id: beneficiary.into() }), interior: [AccountId32 { network: None, id: beneficiary.into() }].into(),
}, },
}, },
])) ]))
@@ -61,15 +61,11 @@ pub fn xcm_transact_unpaid_execution(
} }
/// Helper method to get the non-fee asset used in multiple assets transfer /// Helper method to get the non-fee asset used in multiple assets transfer
pub fn non_fee_asset(assets: &MultiAssets, fee_idx: usize) -> Option<(MultiLocation, u128)> { pub fn non_fee_asset(assets: &Assets, fee_idx: usize) -> Option<(Location, u128)> {
let asset = assets.inner().into_iter().enumerate().find(|a| a.0 != fee_idx)?.1.clone(); let asset = assets.inner().into_iter().enumerate().find(|a| a.0 != fee_idx)?.1.clone();
let asset_id = match asset.id {
Concrete(id) => id,
_ => return None,
};
let asset_amount = match asset.fun { let asset_amount = match asset.fun {
Fungible(amount) => amount, Fungible(amount) => amount,
_ => return None, _ => return None,
}; };
Some((asset_id, asset_amount)) Some((asset.id.0, asset_amount))
} }
cumulus/parachains/integration-tests/emulated/tests/assets/asset-hub-rococo/src/lib.rs
+1 -1
View File
@@ -26,7 +26,7 @@ pub use frame_support::{
// Polkadot // Polkadot
pub use xcm::{ pub use xcm::{
prelude::{AccountId32 as AccountId32Junction, *}, prelude::{AccountId32 as AccountId32Junction, *},
v3::{Error, NetworkId::Rococo as RococoId}, v3::{self, Error, NetworkId::Rococo as RococoId},
}; };
// Cumulus // Cumulus
cumulus/parachains/integration-tests/emulated/tests/assets/asset-hub-rococo/src/tests/reserve_transfer.rs
+9 -9
View File
@@ -30,7 +30,7 @@ fn relay_to_para_sender_assertions(t: RelayToParaTest) {
) => { ) => {
from: *from == t.sender.account_id, from: *from == t.sender.account_id,
to: *to == Rococo::sovereign_account_id_of( to: *to == Rococo::sovereign_account_id_of(
t.args.dest t.args.dest.clone()
), ),
amount: *amount == t.args.amount, amount: *amount == t.args.amount,
}, },
@@ -53,7 +53,7 @@ fn system_para_to_para_sender_assertions(t: SystemParaToParaTest) {
) => { ) => {
from: *from == t.sender.account_id, from: *from == t.sender.account_id,
to: *to == AssetHubRococo::sovereign_account_id_of( to: *to == AssetHubRococo::sovereign_account_id_of(
t.args.dest t.args.dest.clone()
), ),
amount: *amount == t.args.amount, amount: *amount == t.args.amount,
}, },
@@ -130,7 +130,7 @@ fn system_para_to_para_assets_sender_assertions(t: SystemParaToParaTest) {
asset_id: *asset_id == ASSET_ID, asset_id: *asset_id == ASSET_ID,
from: *from == t.sender.account_id, from: *from == t.sender.account_id,
to: *to == AssetHubRococo::sovereign_account_id_of( to: *to == AssetHubRococo::sovereign_account_id_of(
t.args.dest t.args.dest.clone()
), ),
amount: *amount == t.args.amount, amount: *amount == t.args.amount,
}, },
@@ -190,10 +190,10 @@ fn para_to_system_para_reserve_transfer_assets(t: ParaToSystemParaTest) -> Dispa
fn reserve_transfer_native_asset_from_relay_to_system_para_fails() { fn reserve_transfer_native_asset_from_relay_to_system_para_fails() {
let signed_origin = <Rococo as Chain>::RuntimeOrigin::signed(RococoSender::get().into()); let signed_origin = <Rococo as Chain>::RuntimeOrigin::signed(RococoSender::get().into());
let destination = Rococo::child_location_of(AssetHubRococo::para_id()); let destination = Rococo::child_location_of(AssetHubRococo::para_id());
let beneficiary: MultiLocation = let beneficiary: Location =
AccountId32Junction { network: None, id: AssetHubRococoReceiver::get().into() }.into(); AccountId32Junction { network: None, id: AssetHubRococoReceiver::get().into() }.into();
let amount_to_send: Balance = ROCOCO_ED * 1000; let amount_to_send: Balance = ROCOCO_ED * 1000;
let assets: MultiAssets = (Here, amount_to_send).into(); let assets: Assets = (Here, amount_to_send).into();
let fee_asset_item = 0; let fee_asset_item = 0;
// this should fail // this should fail
@@ -225,11 +225,11 @@ fn reserve_transfer_native_asset_from_system_para_to_relay_fails() {
<AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get().into()); <AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get().into());
let destination = AssetHubRococo::parent_location(); let destination = AssetHubRococo::parent_location();
let beneficiary_id = RococoReceiver::get(); let beneficiary_id = RococoReceiver::get();
let beneficiary: MultiLocation = let beneficiary: Location =
AccountId32Junction { network: None, id: beneficiary_id.into() }.into(); AccountId32Junction { network: None, id: beneficiary_id.into() }.into();
let amount_to_send: Balance = ASSET_HUB_ROCOCO_ED * 1000; let amount_to_send: Balance = ASSET_HUB_ROCOCO_ED * 1000;
let assets: MultiAssets = (Parent, amount_to_send).into(); let assets: Assets = (Parent, amount_to_send).into();
let fee_asset_item = 0; let fee_asset_item = 0;
// this should fail // this should fail
@@ -418,9 +418,9 @@ fn reserve_transfer_assets_from_system_para_to_para() {
let beneficiary_id = PenpalAReceiver::get(); let beneficiary_id = PenpalAReceiver::get();
let fee_amount_to_send = ASSET_HUB_ROCOCO_ED * 1000; let fee_amount_to_send = ASSET_HUB_ROCOCO_ED * 1000;
let asset_amount_to_send = ASSET_MIN_BALANCE * 1000; let asset_amount_to_send = ASSET_MIN_BALANCE * 1000;
let assets: MultiAssets = vec![ let assets: Assets = vec![
(Parent, fee_amount_to_send).into(), (Parent, fee_amount_to_send).into(),
(X2(PalletInstance(ASSETS_PALLET_ID), GeneralIndex(ASSET_ID.into())), asset_amount_to_send) ([PalletInstance(ASSETS_PALLET_ID), GeneralIndex(ASSET_ID.into())], asset_amount_to_send)
.into(), .into(),
] ]
.into(); .into();
cumulus/parachains/integration-tests/emulated/tests/assets/asset-hub-rococo/src/tests/set_xcm_versions.rs
+3 -4
View File
@@ -19,14 +19,13 @@ use crate::*;
fn relay_sets_system_para_xcm_supported_version() { fn relay_sets_system_para_xcm_supported_version() {
// Init tests variables // Init tests variables
let sudo_origin = <Rococo as Chain>::RuntimeOrigin::root(); let sudo_origin = <Rococo as Chain>::RuntimeOrigin::root();
let system_para_destination: MultiLocation = let system_para_destination: Location = Rococo::child_location_of(AssetHubRococo::para_id());
Rococo::child_location_of(AssetHubRococo::para_id());
// Relay Chain sets supported version for Asset Parachain // Relay Chain sets supported version for Asset Parachain
Rococo::execute_with(|| { Rococo::execute_with(|| {
assert_ok!(<Rococo as RococoPallet>::XcmPallet::force_xcm_version( assert_ok!(<Rococo as RococoPallet>::XcmPallet::force_xcm_version(
sudo_origin, sudo_origin,
bx!(system_para_destination), bx!(system_para_destination.clone()),
XCM_V3 XCM_V3
)); ));
@@ -52,7 +51,7 @@ fn system_para_sets_relay_xcm_supported_version() {
<AssetHubRococo as Chain>::RuntimeCall::PolkadotXcm(pallet_xcm::Call::< <AssetHubRococo as Chain>::RuntimeCall::PolkadotXcm(pallet_xcm::Call::<
<AssetHubRococo as Chain>::Runtime, <AssetHubRococo as Chain>::Runtime,
>::force_xcm_version { >::force_xcm_version {
location: bx!(parent_location), location: bx!(parent_location.clone()),
version: XCM_V3, version: XCM_V3,
}) })
.encode() .encode()
cumulus/parachains/integration-tests/emulated/tests/assets/asset-hub-rococo/src/tests/swap.rs
+38 -30
View File
@@ -15,16 +15,19 @@
use crate::*; use crate::*;
use parachains_common::rococo::currency::EXISTENTIAL_DEPOSIT; use parachains_common::rococo::currency::EXISTENTIAL_DEPOSIT;
use rococo_system_emulated_network::penpal_emulated_chain::LocalTeleportableToAssetHub as PenpalLocalTeleportableToAssetHub; use rococo_system_emulated_network::penpal_emulated_chain::LocalTeleportableToAssetHubV3 as PenpalLocalTeleportableToAssetHubV3;
use sp_runtime::ModuleError; use sp_runtime::ModuleError;
#[test] #[test]
fn swap_locally_on_chain_using_local_assets() { fn swap_locally_on_chain_using_local_assets() {
let asset_native = asset_hub_rococo_runtime::xcm_config::TokenLocation::get(); let asset_native = Box::new(asset_hub_rococo_runtime::xcm_config::TokenLocationV3::get());
let asset_one = MultiLocation { let asset_one = Box::new(v3::Location::new(
parents: 0, 0,
interior: X2(PalletInstance(ASSETS_PALLET_ID), GeneralIndex(ASSET_ID.into())), [
}; v3::Junction::PalletInstance(ASSETS_PALLET_ID),
v3::Junction::GeneralIndex(ASSET_ID.into()),
],
));
AssetHubRococo::execute_with(|| { AssetHubRococo::execute_with(|| {
type RuntimeEvent = <AssetHubRococo as Chain>::RuntimeEvent; type RuntimeEvent = <AssetHubRococo as Chain>::RuntimeEvent;
@@ -46,8 +49,8 @@ fn swap_locally_on_chain_using_local_assets() {
assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::create_pool( assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::create_pool(
<AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()), <AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()),
Box::new(asset_native), asset_native.clone(),
Box::new(asset_one), asset_one.clone(),
)); ));
assert_expected_events!( assert_expected_events!(
@@ -59,8 +62,8 @@ fn swap_locally_on_chain_using_local_assets() {
assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::add_liquidity( assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::add_liquidity(
<AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()), <AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()),
Box::new(asset_native), asset_native.clone(),
Box::new(asset_one), asset_one.clone(),
1_000_000_000_000, 1_000_000_000_000,
2_000_000_000_000, 2_000_000_000_000,
0, 0,
@@ -75,7 +78,7 @@ fn swap_locally_on_chain_using_local_assets() {
] ]
); );
let path = vec![Box::new(asset_native), Box::new(asset_one)]; let path = vec![asset_native.clone(), asset_one.clone()];
assert_ok!( assert_ok!(
<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::swap_exact_tokens_for_tokens( <AssetHubRococo as AssetHubRococoPallet>::AssetConversion::swap_exact_tokens_for_tokens(
@@ -100,8 +103,8 @@ fn swap_locally_on_chain_using_local_assets() {
assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::remove_liquidity( assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::remove_liquidity(
<AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()), <AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()),
Box::new(asset_native), asset_native,
Box::new(asset_one), asset_one,
1414213562273 - EXISTENTIAL_DEPOSIT * 2, // all but the 2 EDs can't be retrieved. 1414213562273 - EXISTENTIAL_DEPOSIT * 2, // all but the 2 EDs can't be retrieved.
0, 0,
0, 0,
@@ -112,16 +115,16 @@ fn swap_locally_on_chain_using_local_assets() {
#[test] #[test]
fn swap_locally_on_chain_using_foreign_assets() { fn swap_locally_on_chain_using_foreign_assets() {
let asset_native = asset_hub_rococo_runtime::xcm_config::TokenLocation::get(); let asset_native = Box::new(asset_hub_rococo_runtime::xcm_config::TokenLocationV3::get());
let ah_as_seen_by_penpal = PenpalA::sibling_location_of(AssetHubRococo::para_id()); let ah_as_seen_by_penpal = PenpalA::sibling_location_of(AssetHubRococo::para_id());
let asset_location_on_penpal = PenpalLocalTeleportableToAssetHub::get(); let asset_location_on_penpal = PenpalLocalTeleportableToAssetHubV3::get();
let asset_id_on_penpal = match asset_location_on_penpal.last() { let asset_id_on_penpal = match asset_location_on_penpal.last() {
Some(GeneralIndex(id)) => *id as u32, Some(v3::Junction::GeneralIndex(id)) => *id as u32,
_ => unreachable!(), _ => unreachable!(),
}; };
let asset_owner_on_penpal = PenpalASender::get(); let asset_owner_on_penpal = PenpalASender::get();
let foreign_asset_at_asset_hub_rococo = let foreign_asset_at_asset_hub_rococo =
MultiLocation { parents: 1, interior: X1(Parachain(PenpalA::para_id().into())) } v3::Location::new(1, [v3::Junction::Parachain(PenpalA::para_id().into())])
.appended_with(asset_location_on_penpal) .appended_with(asset_location_on_penpal)
.unwrap(); .unwrap();
@@ -167,7 +170,7 @@ fn swap_locally_on_chain_using_foreign_assets() {
// 4. Create pool: // 4. Create pool:
assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::create_pool( assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::create_pool(
<AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()), <AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()),
Box::new(asset_native), asset_native.clone(),
Box::new(foreign_asset_at_asset_hub_rococo), Box::new(foreign_asset_at_asset_hub_rococo),
)); ));
@@ -181,7 +184,7 @@ fn swap_locally_on_chain_using_foreign_assets() {
// 5. Add liquidity: // 5. Add liquidity:
assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::add_liquidity( assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::add_liquidity(
<AssetHubRococo as Chain>::RuntimeOrigin::signed(sov_penpal_on_ahr.clone()), <AssetHubRococo as Chain>::RuntimeOrigin::signed(sov_penpal_on_ahr.clone()),
Box::new(asset_native), asset_native.clone(),
Box::new(foreign_asset_at_asset_hub_rococo), Box::new(foreign_asset_at_asset_hub_rococo),
1_000_000_000_000, 1_000_000_000_000,
2_000_000_000_000, 2_000_000_000_000,
@@ -200,7 +203,7 @@ fn swap_locally_on_chain_using_foreign_assets() {
); );
// 6. Swap! // 6. Swap!
let path = vec![Box::new(asset_native), Box::new(foreign_asset_at_asset_hub_rococo)]; let path = vec![asset_native.clone(), Box::new(foreign_asset_at_asset_hub_rococo)];
assert_ok!( assert_ok!(
<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::swap_exact_tokens_for_tokens( <AssetHubRococo as AssetHubRococoPallet>::AssetConversion::swap_exact_tokens_for_tokens(
@@ -226,7 +229,7 @@ fn swap_locally_on_chain_using_foreign_assets() {
// 7. Remove liquidity // 7. Remove liquidity
assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::remove_liquidity( assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::remove_liquidity(
<AssetHubRococo as Chain>::RuntimeOrigin::signed(sov_penpal_on_ahr.clone()), <AssetHubRococo as Chain>::RuntimeOrigin::signed(sov_penpal_on_ahr.clone()),
Box::new(asset_native), asset_native.clone(),
Box::new(foreign_asset_at_asset_hub_rococo), Box::new(foreign_asset_at_asset_hub_rococo),
1414213562273 - 2_000_000_000, // all but the 2 EDs can't be retrieved. 1414213562273 - 2_000_000_000, // all but the 2 EDs can't be retrieved.
0, 0,
@@ -238,9 +241,11 @@ fn swap_locally_on_chain_using_foreign_assets() {
#[test] #[test]
fn cannot_create_pool_from_pool_assets() { fn cannot_create_pool_from_pool_assets() {
let asset_native = asset_hub_rococo_runtime::xcm_config::TokenLocation::get(); let asset_native = Box::new(asset_hub_rococo_runtime::xcm_config::TokenLocationV3::get());
let mut asset_one = asset_hub_rococo_runtime::xcm_config::PoolAssetsPalletLocation::get(); let mut asset_one = asset_hub_rococo_runtime::xcm_config::PoolAssetsPalletLocationV3::get();
asset_one.append_with(GeneralIndex(ASSET_ID.into())).expect("pool assets"); asset_one
.append_with(v3::Junction::GeneralIndex(ASSET_ID.into()))
.expect("pool assets");
AssetHubRococo::execute_with(|| { AssetHubRococo::execute_with(|| {
let pool_owner_account_id = asset_hub_rococo_runtime::AssetConversionOrigin::get(); let pool_owner_account_id = asset_hub_rococo_runtime::AssetConversionOrigin::get();
@@ -263,7 +268,7 @@ fn cannot_create_pool_from_pool_assets() {
assert_matches::assert_matches!( assert_matches::assert_matches!(
<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::create_pool( <AssetHubRococo as AssetHubRococoPallet>::AssetConversion::create_pool(
<AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()), <AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()),
Box::new(asset_native), asset_native,
Box::new(asset_one), Box::new(asset_one),
), ),
Err(DispatchError::Module(ModuleError{index: _, error: _, message})) => assert_eq!(message, Some("Unknown")) Err(DispatchError::Module(ModuleError{index: _, error: _, message})) => assert_eq!(message, Some("Unknown"))
@@ -273,10 +278,14 @@ fn cannot_create_pool_from_pool_assets() {
#[test] #[test]
fn pay_xcm_fee_with_some_asset_swapped_for_native() { fn pay_xcm_fee_with_some_asset_swapped_for_native() {
let asset_native = asset_hub_rococo_runtime::xcm_config::TokenLocation::get(); let asset_native = asset_hub_rococo_runtime::xcm_config::TokenLocationV3::get();
let asset_one = MultiLocation { let asset_one = xcm::v3::Location {
parents: 0, parents: 0,
interior: X2(PalletInstance(ASSETS_PALLET_ID), GeneralIndex(ASSET_ID.into())), interior: [
xcm::v3::Junction::PalletInstance(ASSETS_PALLET_ID),
xcm::v3::Junction::GeneralIndex(ASSET_ID.into()),
]
.into(),
}; };
let penpal = AssetHubRococo::sovereign_account_id_of(AssetHubRococo::sibling_location_of( let penpal = AssetHubRococo::sovereign_account_id_of(AssetHubRococo::sibling_location_of(
PenpalA::para_id(), PenpalA::para_id(),
@@ -365,8 +374,7 @@ fn pay_xcm_fee_with_some_asset_swapped_for_native() {
let penpal_root = <PenpalA as Chain>::RuntimeOrigin::root(); let penpal_root = <PenpalA as Chain>::RuntimeOrigin::root();
let fee_amount = 4_000_000_000_000u128; let fee_amount = 4_000_000_000_000u128;
let asset_one = let asset_one =
(X2(PalletInstance(ASSETS_PALLET_ID), GeneralIndex(ASSET_ID.into())), fee_amount) ([PalletInstance(ASSETS_PALLET_ID), GeneralIndex(ASSET_ID.into())], fee_amount).into();
.into();
let asset_hub_location = PenpalA::sibling_location_of(AssetHubRococo::para_id()).into(); let asset_hub_location = PenpalA::sibling_location_of(AssetHubRococo::para_id()).into();
let xcm = xcm_transact_paid_execution( let xcm = xcm_transact_paid_execution(
call, call,
cumulus/parachains/integration-tests/emulated/tests/assets/asset-hub-rococo/src/tests/teleport.rs
+18 -13
View File
@@ -17,7 +17,7 @@ use crate::*;
use asset_hub_rococo_runtime::xcm_config::XcmConfig as AssetHubRococoXcmConfig; use asset_hub_rococo_runtime::xcm_config::XcmConfig as AssetHubRococoXcmConfig;
use emulated_integration_tests_common::xcm_helpers::non_fee_asset; use emulated_integration_tests_common::xcm_helpers::non_fee_asset;
use rococo_runtime::xcm_config::XcmConfig as RococoXcmConfig; use rococo_runtime::xcm_config::XcmConfig as RococoXcmConfig;
use rococo_system_emulated_network::penpal_emulated_chain::LocalTeleportableToAssetHub as PenpalLocalTeleportableToAssetHub; use rococo_system_emulated_network::penpal_emulated_chain::LocalTeleportableToAssetHubV3 as PenpalLocalTeleportableToAssetHubV3;
fn relay_origin_assertions(t: RelayToSystemParaTest) { fn relay_origin_assertions(t: RelayToSystemParaTest) {
type RuntimeEvent = <Rococo as Chain>::RuntimeEvent; type RuntimeEvent = <Rococo as Chain>::RuntimeEvent;
@@ -143,6 +143,7 @@ fn penpal_to_ah_foreign_assets_receiver_assertions(t: ParaToSystemParaTest) {
); );
let (expected_foreign_asset_id, expected_foreign_asset_amount) = let (expected_foreign_asset_id, expected_foreign_asset_amount) =
non_fee_asset(&t.args.assets, t.args.fee_asset_item as usize).unwrap(); non_fee_asset(&t.args.assets, t.args.fee_asset_item as usize).unwrap();
let expected_foreign_asset_id_v3: v3::Location = expected_foreign_asset_id.try_into().unwrap();
assert_expected_events!( assert_expected_events!(
AssetHubRococo, AssetHubRococo,
vec![ vec![
@@ -157,7 +158,7 @@ fn penpal_to_ah_foreign_assets_receiver_assertions(t: ParaToSystemParaTest) {
who: *who == t.receiver.account_id, who: *who == t.receiver.account_id,
}, },
RuntimeEvent::ForeignAssets(pallet_assets::Event::Issued { asset_id, owner, amount }) => { RuntimeEvent::ForeignAssets(pallet_assets::Event::Issued { asset_id, owner, amount }) => {
asset_id: *asset_id == expected_foreign_asset_id, asset_id: *asset_id == expected_foreign_asset_id_v3,
owner: *owner == t.receiver.account_id, owner: *owner == t.receiver.account_id,
amount: *amount == expected_foreign_asset_amount, amount: *amount == expected_foreign_asset_amount,
}, },
@@ -174,6 +175,7 @@ fn ah_to_penpal_foreign_assets_sender_assertions(t: SystemParaToParaTest) {
AssetHubRococo::assert_xcm_pallet_attempted_complete(None); AssetHubRococo::assert_xcm_pallet_attempted_complete(None);
let (expected_foreign_asset_id, expected_foreign_asset_amount) = let (expected_foreign_asset_id, expected_foreign_asset_amount) =
non_fee_asset(&t.args.assets, t.args.fee_asset_item as usize).unwrap(); non_fee_asset(&t.args.assets, t.args.fee_asset_item as usize).unwrap();
let expected_foreign_asset_id_v3: v3::Location = expected_foreign_asset_id.try_into().unwrap();
assert_expected_events!( assert_expected_events!(
AssetHubRococo, AssetHubRococo,
vec![ vec![
@@ -183,13 +185,13 @@ fn ah_to_penpal_foreign_assets_sender_assertions(t: SystemParaToParaTest) {
) => { ) => {
from: *from == t.sender.account_id, from: *from == t.sender.account_id,
to: *to == AssetHubRococo::sovereign_account_id_of( to: *to == AssetHubRococo::sovereign_account_id_of(
t.args.dest t.args.dest.clone()
), ),
amount: *amount == t.args.amount, amount: *amount == t.args.amount,
}, },
// foreign asset is burned locally as part of teleportation // foreign asset is burned locally as part of teleportation
RuntimeEvent::ForeignAssets(pallet_assets::Event::Burned { asset_id, owner, balance }) => { RuntimeEvent::ForeignAssets(pallet_assets::Event::Burned { asset_id, owner, balance }) => {
asset_id: *asset_id == expected_foreign_asset_id, asset_id: *asset_id == expected_foreign_asset_id_v3,
owner: *owner == t.sender.account_id, owner: *owner == t.sender.account_id,
balance: *balance == expected_foreign_asset_amount, balance: *balance == expected_foreign_asset_amount,
}, },
@@ -542,7 +544,7 @@ fn teleport_native_assets_from_system_para_to_relay_fails() {
#[test] #[test]
fn teleport_to_other_system_parachains_works() { fn teleport_to_other_system_parachains_works() {
let amount = ASSET_HUB_ROCOCO_ED * 100; let amount = ASSET_HUB_ROCOCO_ED * 100;
let native_asset: MultiAssets = (Parent, amount).into(); let native_asset: Assets = (Parent, amount).into();
test_parachain_is_trusted_teleporter!( test_parachain_is_trusted_teleporter!(
AssetHubRococo, // Origin AssetHubRococo, // Origin
@@ -557,20 +559,20 @@ fn teleport_to_other_system_parachains_works() {
#[test] #[test]
fn bidirectional_teleport_foreign_assets_between_para_and_asset_hub() { fn bidirectional_teleport_foreign_assets_between_para_and_asset_hub() {
let ah_as_seen_by_penpal = PenpalA::sibling_location_of(AssetHubRococo::para_id()); let ah_as_seen_by_penpal = PenpalA::sibling_location_of(AssetHubRococo::para_id());
let asset_location_on_penpal = PenpalLocalTeleportableToAssetHub::get(); let asset_location_on_penpal = PenpalLocalTeleportableToAssetHubV3::get();
let asset_id_on_penpal = match asset_location_on_penpal.last() { let asset_id_on_penpal = match asset_location_on_penpal.last() {
Some(GeneralIndex(id)) => *id as u32, Some(v3::Junction::GeneralIndex(id)) => *id as u32,
_ => unreachable!(), _ => unreachable!(),
}; };
let asset_owner_on_penpal = PenpalASender::get(); let asset_owner_on_penpal = PenpalASender::get();
let foreign_asset_at_asset_hub_rococo = let foreign_asset_at_asset_hub_rococo =
MultiLocation { parents: 1, interior: X1(Parachain(PenpalA::para_id().into())) } v3::Location::new(1, [v3::Junction::Parachain(PenpalA::para_id().into())])
.appended_with(asset_location_on_penpal) .appended_with(asset_location_on_penpal)
.unwrap(); .unwrap();
super::penpal_create_foreign_asset_on_asset_hub( super::penpal_create_foreign_asset_on_asset_hub(
asset_id_on_penpal, asset_id_on_penpal,
foreign_asset_at_asset_hub_rococo, foreign_asset_at_asset_hub_rococo,
ah_as_seen_by_penpal, ah_as_seen_by_penpal.clone(),
false, false,
asset_owner_on_penpal, asset_owner_on_penpal,
ASSET_MIN_BALANCE * 1_000_000, ASSET_MIN_BALANCE * 1_000_000,
@@ -580,9 +582,10 @@ fn bidirectional_teleport_foreign_assets_between_para_and_asset_hub() {
let fee_amount_to_send = ASSET_HUB_ROCOCO_ED * 10_000; let fee_amount_to_send = ASSET_HUB_ROCOCO_ED * 10_000;
let asset_amount_to_send = ASSET_MIN_BALANCE * 1000; let asset_amount_to_send = ASSET_MIN_BALANCE * 1000;
let penpal_assets: MultiAssets = vec![ let asset_location_on_penpal_latest: Location = asset_location_on_penpal.try_into().unwrap();
let penpal_assets: Assets = vec![
(Parent, fee_amount_to_send).into(), (Parent, fee_amount_to_send).into(),
(asset_location_on_penpal, asset_amount_to_send).into(), (asset_location_on_penpal_latest, asset_amount_to_send).into(),
] ]
.into(); .into();
let fee_asset_index = penpal_assets let fee_asset_index = penpal_assets
@@ -670,11 +673,13 @@ fn bidirectional_teleport_foreign_assets_between_para_and_asset_hub() {
)); ));
}); });
let foreign_asset_at_asset_hub_rococo_latest: Location =
foreign_asset_at_asset_hub_rococo.try_into().unwrap();
let ah_to_penpal_beneficiary_id = PenpalAReceiver::get(); let ah_to_penpal_beneficiary_id = PenpalAReceiver::get();
let penpal_as_seen_by_ah = AssetHubRococo::sibling_location_of(PenpalA::para_id()); let penpal_as_seen_by_ah = AssetHubRococo::sibling_location_of(PenpalA::para_id());
let ah_assets: MultiAssets = vec![ let ah_assets: Assets = vec![
(Parent, fee_amount_to_send).into(), (Parent, fee_amount_to_send).into(),
(foreign_asset_at_asset_hub_rococo, asset_amount_to_send).into(), (foreign_asset_at_asset_hub_rococo_latest, asset_amount_to_send).into(),
] ]
.into(); .into();
let fee_asset_index = ah_assets let fee_asset_index = ah_assets
cumulus/parachains/integration-tests/emulated/tests/assets/asset-hub-westend/src/lib.rs
+1 -1
View File
@@ -28,7 +28,7 @@ pub use frame_support::{
// Polkadot // Polkadot
pub use xcm::{ pub use xcm::{
prelude::{AccountId32 as AccountId32Junction, *}, prelude::{AccountId32 as AccountId32Junction, *},
v3::{Error, NetworkId::Westend as WestendId}, v3::{self, Error, NetworkId::Westend as WestendId},
}; };
// Cumulus // Cumulus
cumulus/parachains/integration-tests/emulated/tests/assets/asset-hub-westend/src/tests/fellowship_treasury.rs
+6 -8
View File
@@ -24,22 +24,20 @@ fn create_and_claim_treasury_spend() {
const ASSET_ID: u32 = 1984; const ASSET_ID: u32 = 1984;
const SPEND_AMOUNT: u128 = 1_000_000; const SPEND_AMOUNT: u128 = 1_000_000;
// treasury location from a sibling parachain. // treasury location from a sibling parachain.
let treasury_location: MultiLocation = MultiLocation::new( let treasury_location: Location =
1, Location::new(1, [Parachain(CollectivesWestend::para_id().into()), PalletInstance(65)]);
X2(Parachain(CollectivesWestend::para_id().into()), PalletInstance(65)),
);
// treasury account on a sibling parachain. // treasury account on a sibling parachain.
let treasury_account = let treasury_account =
asset_hub_westend_runtime::xcm_config::LocationToAccountId::convert_location( asset_hub_westend_runtime::xcm_config::LocationToAccountId::convert_location(
&treasury_location, &treasury_location,
) )
.unwrap(); .unwrap();
let asset_hub_location = MultiLocation::new(1, Parachain(AssetHubWestend::para_id().into())); let asset_hub_location = Location::new(1, [Parachain(AssetHubWestend::para_id().into())]);
let root = <CollectivesWestend as Chain>::RuntimeOrigin::root(); let root = <CollectivesWestend as Chain>::RuntimeOrigin::root();
// asset kind to be spent from the treasury. // asset kind to be spent from the treasury.
let asset_kind = VersionedLocatableAsset::V3 { let asset_kind = VersionedLocatableAsset::V4 {
location: asset_hub_location, location: asset_hub_location,
asset_id: AssetId::Concrete((PalletInstance(50), GeneralIndex(ASSET_ID.into())).into()), asset_id: AssetId((PalletInstance(50), GeneralIndex(ASSET_ID.into())).into()),
}; };
// treasury spend beneficiary. // treasury spend beneficiary.
let alice: AccountId = Westend::account_id_of(ALICE); let alice: AccountId = Westend::account_id_of(ALICE);
@@ -75,7 +73,7 @@ fn create_and_claim_treasury_spend() {
root, root,
Box::new(asset_kind), Box::new(asset_kind),
SPEND_AMOUNT, SPEND_AMOUNT,
Box::new(MultiLocation::new(0, Into::<[u8; 32]>::into(alice.clone())).into()), Box::new(Location::new(0, Into::<[u8; 32]>::into(alice.clone())).into()),
None, None,
)); ));
// claim the spend. // claim the spend.
cumulus/parachains/integration-tests/emulated/tests/assets/asset-hub-westend/src/tests/reserve_transfer.rs
+9 -9
View File
@@ -32,7 +32,7 @@ fn relay_to_para_sender_assertions(t: RelayToParaTest) {
) => { ) => {
from: *from == t.sender.account_id, from: *from == t.sender.account_id,
to: *to == Westend::sovereign_account_id_of( to: *to == Westend::sovereign_account_id_of(
t.args.dest t.args.dest.clone()
), ),
amount: *amount == t.args.amount, amount: *amount == t.args.amount,
}, },
@@ -57,7 +57,7 @@ fn system_para_to_para_sender_assertions(t: SystemParaToParaTest) {
) => { ) => {
from: *from == t.sender.account_id, from: *from == t.sender.account_id,
to: *to == AssetHubWestend::sovereign_account_id_of( to: *to == AssetHubWestend::sovereign_account_id_of(
t.args.dest t.args.dest.clone()
), ),
amount: *amount == t.args.amount, amount: *amount == t.args.amount,
}, },
@@ -140,7 +140,7 @@ fn system_para_to_para_assets_sender_assertions(t: SystemParaToParaTest) {
asset_id: *asset_id == ASSET_ID, asset_id: *asset_id == ASSET_ID,
from: *from == t.sender.account_id, from: *from == t.sender.account_id,
to: *to == AssetHubWestend::sovereign_account_id_of( to: *to == AssetHubWestend::sovereign_account_id_of(
t.args.dest t.args.dest.clone()
), ),
amount: *amount == t.args.amount, amount: *amount == t.args.amount,
}, },
@@ -200,10 +200,10 @@ fn para_to_system_para_reserve_transfer_assets(t: ParaToSystemParaTest) -> Dispa
fn reserve_transfer_native_asset_from_relay_to_system_para_fails() { fn reserve_transfer_native_asset_from_relay_to_system_para_fails() {
let signed_origin = <Westend as Chain>::RuntimeOrigin::signed(WestendSender::get().into()); let signed_origin = <Westend as Chain>::RuntimeOrigin::signed(WestendSender::get().into());
let destination = Westend::child_location_of(AssetHubWestend::para_id()); let destination = Westend::child_location_of(AssetHubWestend::para_id());
let beneficiary: MultiLocation = let beneficiary: Location =
AccountId32Junction { network: None, id: AssetHubWestendReceiver::get().into() }.into(); AccountId32Junction { network: None, id: AssetHubWestendReceiver::get().into() }.into();
let amount_to_send: Balance = WESTEND_ED * 1000; let amount_to_send: Balance = WESTEND_ED * 1000;
let assets: MultiAssets = (Here, amount_to_send).into(); let assets: Assets = (Here, amount_to_send).into();
let fee_asset_item = 0; let fee_asset_item = 0;
// this should fail // this should fail
@@ -235,10 +235,10 @@ fn reserve_transfer_native_asset_from_system_para_to_relay_fails() {
<AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get().into()); <AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get().into());
let destination = AssetHubWestend::parent_location(); let destination = AssetHubWestend::parent_location();
let beneficiary_id = WestendReceiver::get(); let beneficiary_id = WestendReceiver::get();
let beneficiary: MultiLocation = let beneficiary: Location =
AccountId32Junction { network: None, id: beneficiary_id.into() }.into(); AccountId32Junction { network: None, id: beneficiary_id.into() }.into();
let amount_to_send: Balance = ASSET_HUB_WESTEND_ED * 1000; let amount_to_send: Balance = ASSET_HUB_WESTEND_ED * 1000;
let assets: MultiAssets = (Parent, amount_to_send).into(); let assets: Assets = (Parent, amount_to_send).into();
let fee_asset_item = 0; let fee_asset_item = 0;
// this should fail // this should fail
@@ -428,9 +428,9 @@ fn reserve_transfer_assets_from_system_para_to_para() {
let beneficiary_id = PenpalBReceiver::get(); let beneficiary_id = PenpalBReceiver::get();
let fee_amount_to_send = ASSET_HUB_WESTEND_ED * 1000; let fee_amount_to_send = ASSET_HUB_WESTEND_ED * 1000;
let asset_amount_to_send = ASSET_MIN_BALANCE * 1000; let asset_amount_to_send = ASSET_MIN_BALANCE * 1000;
let assets: MultiAssets = vec![ let assets: Assets = vec![
(Parent, fee_amount_to_send).into(), (Parent, fee_amount_to_send).into(),
(X2(PalletInstance(ASSETS_PALLET_ID), GeneralIndex(ASSET_ID.into())), asset_amount_to_send) ([PalletInstance(ASSETS_PALLET_ID), GeneralIndex(ASSET_ID.into())], asset_amount_to_send)
.into(), .into(),
] ]
.into(); .into();
cumulus/parachains/integration-tests/emulated/tests/assets/asset-hub-westend/src/tests/set_xcm_versions.rs
+3 -4
View File
@@ -19,14 +19,13 @@ use crate::*;
fn relay_sets_system_para_xcm_supported_version() { fn relay_sets_system_para_xcm_supported_version() {
// Init tests variables // Init tests variables
let sudo_origin = <Westend as Chain>::RuntimeOrigin::root(); let sudo_origin = <Westend as Chain>::RuntimeOrigin::root();
let system_para_destination: MultiLocation = let system_para_destination: Location = Westend::child_location_of(AssetHubWestend::para_id());
Westend::child_location_of(AssetHubWestend::para_id());
// Relay Chain sets supported version for Asset Parachain // Relay Chain sets supported version for Asset Parachain
Westend::execute_with(|| { Westend::execute_with(|| {
assert_ok!(<Westend as WestendPallet>::XcmPallet::force_xcm_version( assert_ok!(<Westend as WestendPallet>::XcmPallet::force_xcm_version(
sudo_origin, sudo_origin,
bx!(system_para_destination), bx!(system_para_destination.clone()),
XCM_V3 XCM_V3
)); ));
@@ -52,7 +51,7 @@ fn system_para_sets_relay_xcm_supported_version() {
<AssetHubWestend as Chain>::RuntimeCall::PolkadotXcm(pallet_xcm::Call::< <AssetHubWestend as Chain>::RuntimeCall::PolkadotXcm(pallet_xcm::Call::<
<AssetHubWestend as Chain>::Runtime, <AssetHubWestend as Chain>::Runtime,
>::force_xcm_version { >::force_xcm_version {
location: bx!(parent_location), location: bx!(parent_location.clone()),
version: XCM_V3, version: XCM_V3,
}) })
.encode() .encode()
cumulus/parachains/integration-tests/emulated/tests/assets/asset-hub-westend/src/tests/swap.rs
+38 -29
View File
@@ -14,15 +14,19 @@
// limitations under the License. // limitations under the License.
use crate::*; use crate::*;
use westend_system_emulated_network::penpal_emulated_chain::LocalTeleportableToAssetHub as PenpalLocalTeleportableToAssetHub; use westend_system_emulated_network::penpal_emulated_chain::LocalTeleportableToAssetHubV3 as PenpalLocalTeleportableToAssetHubV3;
#[test] #[test]
fn swap_locally_on_chain_using_local_assets() { fn swap_locally_on_chain_using_local_assets() {
let asset_native = asset_hub_westend_runtime::xcm_config::WestendLocation::get(); let asset_native = Box::new(asset_hub_westend_runtime::xcm_config::WestendLocationV3::get());
let asset_one = MultiLocation { let asset_one = Box::new(v3::Location {
parents: 0, parents: 0,
interior: X2(PalletInstance(ASSETS_PALLET_ID), GeneralIndex(ASSET_ID.into())), interior: [
}; v3::Junction::PalletInstance(ASSETS_PALLET_ID),
v3::Junction::GeneralIndex(ASSET_ID.into()),
]
.into(),
});
AssetHubWestend::execute_with(|| { AssetHubWestend::execute_with(|| {
type RuntimeEvent = <AssetHubWestend as Chain>::RuntimeEvent; type RuntimeEvent = <AssetHubWestend as Chain>::RuntimeEvent;
@@ -44,8 +48,8 @@ fn swap_locally_on_chain_using_local_assets() {
assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::create_pool( assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::create_pool(
<AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()), <AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()),
Box::new(asset_native), asset_native.clone(),
Box::new(asset_one), asset_one.clone(),
)); ));
assert_expected_events!( assert_expected_events!(
@@ -57,8 +61,8 @@ fn swap_locally_on_chain_using_local_assets() {
assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::add_liquidity( assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::add_liquidity(
<AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()), <AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()),
Box::new(asset_native), asset_native.clone(),
Box::new(asset_one), asset_one.clone(),
1_000_000_000_000, 1_000_000_000_000,
2_000_000_000_000, 2_000_000_000_000,
0, 0,
@@ -73,7 +77,7 @@ fn swap_locally_on_chain_using_local_assets() {
] ]
); );
let path = vec![Box::new(asset_native), Box::new(asset_one)]; let path = vec![asset_native.clone(), asset_one.clone()];
assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::swap_exact_tokens_for_tokens( assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::swap_exact_tokens_for_tokens(
<AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()), <AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()),
@@ -96,8 +100,8 @@ fn swap_locally_on_chain_using_local_assets() {
assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::remove_liquidity( assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::remove_liquidity(
<AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()), <AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()),
Box::new(asset_native), asset_native.clone(),
Box::new(asset_one), asset_one.clone(),
1414213562273 - 2_000_000_000, // all but the 2 EDs can't be retrieved. 1414213562273 - 2_000_000_000, // all but the 2 EDs can't be retrieved.
0, 0,
0, 0,
@@ -108,16 +112,16 @@ fn swap_locally_on_chain_using_local_assets() {
#[test] #[test]
fn swap_locally_on_chain_using_foreign_assets() { fn swap_locally_on_chain_using_foreign_assets() {
let asset_native = asset_hub_westend_runtime::xcm_config::WestendLocation::get(); let asset_native = Box::new(asset_hub_westend_runtime::xcm_config::WestendLocationV3::get());
let ah_as_seen_by_penpal = PenpalB::sibling_location_of(AssetHubWestend::para_id()); let ah_as_seen_by_penpal = PenpalB::sibling_location_of(AssetHubWestend::para_id());
let asset_location_on_penpal = PenpalLocalTeleportableToAssetHub::get(); let asset_location_on_penpal = PenpalLocalTeleportableToAssetHubV3::get();
let asset_id_on_penpal = match asset_location_on_penpal.last() { let asset_id_on_penpal = match asset_location_on_penpal.last() {
Some(GeneralIndex(id)) => *id as u32, Some(v3::Junction::GeneralIndex(id)) => *id as u32,
_ => unreachable!(), _ => unreachable!(),
}; };
let asset_owner_on_penpal = PenpalBSender::get(); let asset_owner_on_penpal = PenpalBSender::get();
let foreign_asset_at_asset_hub_westend = let foreign_asset_at_asset_hub_westend =
MultiLocation { parents: 1, interior: X1(Parachain(PenpalB::para_id().into())) } v3::Location::new(1, [v3::Junction::Parachain(PenpalB::para_id().into())])
.appended_with(asset_location_on_penpal) .appended_with(asset_location_on_penpal)
.unwrap(); .unwrap();
@@ -163,7 +167,7 @@ fn swap_locally_on_chain_using_foreign_assets() {
// 4. Create pool: // 4. Create pool:
assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::create_pool( assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::create_pool(
<AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()), <AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()),
Box::new(asset_native), asset_native.clone(),
Box::new(foreign_asset_at_asset_hub_westend), Box::new(foreign_asset_at_asset_hub_westend),
)); ));
@@ -177,7 +181,7 @@ fn swap_locally_on_chain_using_foreign_assets() {
// 5. Add liquidity: // 5. Add liquidity:
assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::add_liquidity( assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::add_liquidity(
<AssetHubWestend as Chain>::RuntimeOrigin::signed(sov_penpal_on_ahw.clone()), <AssetHubWestend as Chain>::RuntimeOrigin::signed(sov_penpal_on_ahw.clone()),
Box::new(asset_native), asset_native.clone(),
Box::new(foreign_asset_at_asset_hub_westend), Box::new(foreign_asset_at_asset_hub_westend),
1_000_000_000_000, 1_000_000_000_000,
2_000_000_000_000, 2_000_000_000_000,
@@ -196,7 +200,7 @@ fn swap_locally_on_chain_using_foreign_assets() {
); );
// 6. Swap! // 6. Swap!
let path = vec![Box::new(asset_native), Box::new(foreign_asset_at_asset_hub_westend)]; let path = vec![asset_native.clone(), Box::new(foreign_asset_at_asset_hub_westend)];
assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::swap_exact_tokens_for_tokens( assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::swap_exact_tokens_for_tokens(
<AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()), <AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()),
@@ -220,7 +224,7 @@ fn swap_locally_on_chain_using_foreign_assets() {
// 7. Remove liquidity // 7. Remove liquidity
assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::remove_liquidity( assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::remove_liquidity(
<AssetHubWestend as Chain>::RuntimeOrigin::signed(sov_penpal_on_ahw.clone()), <AssetHubWestend as Chain>::RuntimeOrigin::signed(sov_penpal_on_ahw.clone()),
Box::new(asset_native), asset_native.clone(),
Box::new(foreign_asset_at_asset_hub_westend), Box::new(foreign_asset_at_asset_hub_westend),
1414213562273 - 2_000_000_000, // all but the 2 EDs can't be retrieved. 1414213562273 - 2_000_000_000, // all but the 2 EDs can't be retrieved.
0, 0,
@@ -232,9 +236,11 @@ fn swap_locally_on_chain_using_foreign_assets() {
#[test] #[test]
fn cannot_create_pool_from_pool_assets() { fn cannot_create_pool_from_pool_assets() {
let asset_native = asset_hub_westend_runtime::xcm_config::WestendLocation::get(); let asset_native = Box::new(asset_hub_westend_runtime::xcm_config::WestendLocationV3::get());
let mut asset_one = asset_hub_westend_runtime::xcm_config::PoolAssetsPalletLocation::get(); let mut asset_one = asset_hub_westend_runtime::xcm_config::PoolAssetsPalletLocationV3::get();
asset_one.append_with(GeneralIndex(ASSET_ID.into())).expect("pool assets"); asset_one
.append_with(v3::Junction::GeneralIndex(ASSET_ID.into()))
.expect("pool assets");
AssetHubWestend::execute_with(|| { AssetHubWestend::execute_with(|| {
let pool_owner_account_id = asset_hub_westend_runtime::AssetConversionOrigin::get(); let pool_owner_account_id = asset_hub_westend_runtime::AssetConversionOrigin::get();
@@ -257,7 +263,7 @@ fn cannot_create_pool_from_pool_assets() {
assert_matches::assert_matches!( assert_matches::assert_matches!(
<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::create_pool( <AssetHubWestend as AssetHubWestendPallet>::AssetConversion::create_pool(
<AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()), <AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()),
Box::new(asset_native), asset_native,
Box::new(asset_one), Box::new(asset_one),
), ),
Err(DispatchError::Module(ModuleError{index: _, error: _, message})) => assert_eq!(message, Some("Unknown")) Err(DispatchError::Module(ModuleError{index: _, error: _, message})) => assert_eq!(message, Some("Unknown"))
@@ -267,10 +273,14 @@ fn cannot_create_pool_from_pool_assets() {
#[test] #[test]
fn pay_xcm_fee_with_some_asset_swapped_for_native() { fn pay_xcm_fee_with_some_asset_swapped_for_native() {
let asset_native = asset_hub_westend_runtime::xcm_config::WestendLocation::get(); let asset_native = asset_hub_westend_runtime::xcm_config::WestendLocationV3::get();
let asset_one = MultiLocation { let asset_one = xcm::v3::Location {
parents: 0, parents: 0,
interior: X2(PalletInstance(ASSETS_PALLET_ID), GeneralIndex(ASSET_ID.into())), interior: [
xcm::v3::Junction::PalletInstance(ASSETS_PALLET_ID),
xcm::v3::Junction::GeneralIndex(ASSET_ID.into()),
]
.into(),
}; };
let penpal = AssetHubWestend::sovereign_account_id_of(AssetHubWestend::sibling_location_of( let penpal = AssetHubWestend::sovereign_account_id_of(AssetHubWestend::sibling_location_of(
PenpalB::para_id(), PenpalB::para_id(),
@@ -359,8 +369,7 @@ fn pay_xcm_fee_with_some_asset_swapped_for_native() {
let penpal_root = <PenpalB as Chain>::RuntimeOrigin::root(); let penpal_root = <PenpalB as Chain>::RuntimeOrigin::root();
let fee_amount = 4_000_000_000_000u128; let fee_amount = 4_000_000_000_000u128;
let asset_one = let asset_one =
(X2(PalletInstance(ASSETS_PALLET_ID), GeneralIndex(ASSET_ID.into())), fee_amount) ([PalletInstance(ASSETS_PALLET_ID), GeneralIndex(ASSET_ID.into())], fee_amount).into();
.into();
let asset_hub_location = PenpalB::sibling_location_of(AssetHubWestend::para_id()).into(); let asset_hub_location = PenpalB::sibling_location_of(AssetHubWestend::para_id()).into();
let xcm = xcm_transact_paid_execution( let xcm = xcm_transact_paid_execution(
call, call,
cumulus/parachains/integration-tests/emulated/tests/assets/asset-hub-westend/src/tests/teleport.rs
+18 -13
View File
@@ -17,7 +17,7 @@ use crate::*;
use asset_hub_westend_runtime::xcm_config::XcmConfig as AssetHubWestendXcmConfig; use asset_hub_westend_runtime::xcm_config::XcmConfig as AssetHubWestendXcmConfig;
use emulated_integration_tests_common::xcm_helpers::non_fee_asset; use emulated_integration_tests_common::xcm_helpers::non_fee_asset;
use westend_runtime::xcm_config::XcmConfig as WestendXcmConfig; use westend_runtime::xcm_config::XcmConfig as WestendXcmConfig;
use westend_system_emulated_network::penpal_emulated_chain::LocalTeleportableToAssetHub as PenpalLocalTeleportableToAssetHub; use westend_system_emulated_network::penpal_emulated_chain::LocalTeleportableToAssetHubV3 as PenpalLocalTeleportableToAssetHubV3;
fn relay_origin_assertions(t: RelayToSystemParaTest) { fn relay_origin_assertions(t: RelayToSystemParaTest) {
type RuntimeEvent = <Westend as Chain>::RuntimeEvent; type RuntimeEvent = <Westend as Chain>::RuntimeEvent;
@@ -143,6 +143,7 @@ fn penpal_to_ah_foreign_assets_receiver_assertions(t: ParaToSystemParaTest) {
); );
let (expected_foreign_asset_id, expected_foreign_asset_amount) = let (expected_foreign_asset_id, expected_foreign_asset_amount) =
non_fee_asset(&t.args.assets, t.args.fee_asset_item as usize).unwrap(); non_fee_asset(&t.args.assets, t.args.fee_asset_item as usize).unwrap();
let expected_foreign_asset_id_v3: v3::Location = expected_foreign_asset_id.try_into().unwrap();
assert_expected_events!( assert_expected_events!(
AssetHubWestend, AssetHubWestend,
vec![ vec![
@@ -157,7 +158,7 @@ fn penpal_to_ah_foreign_assets_receiver_assertions(t: ParaToSystemParaTest) {
who: *who == t.receiver.account_id, who: *who == t.receiver.account_id,
}, },
RuntimeEvent::ForeignAssets(pallet_assets::Event::Issued { asset_id, owner, amount }) => { RuntimeEvent::ForeignAssets(pallet_assets::Event::Issued { asset_id, owner, amount }) => {
asset_id: *asset_id == expected_foreign_asset_id, asset_id: *asset_id == expected_foreign_asset_id_v3,
owner: *owner == t.receiver.account_id, owner: *owner == t.receiver.account_id,
amount: *amount == expected_foreign_asset_amount, amount: *amount == expected_foreign_asset_amount,
}, },
@@ -174,6 +175,7 @@ fn ah_to_penpal_foreign_assets_sender_assertions(t: SystemParaToParaTest) {
AssetHubWestend::assert_xcm_pallet_attempted_complete(None); AssetHubWestend::assert_xcm_pallet_attempted_complete(None);
let (expected_foreign_asset_id, expected_foreign_asset_amount) = let (expected_foreign_asset_id, expected_foreign_asset_amount) =
non_fee_asset(&t.args.assets, t.args.fee_asset_item as usize).unwrap(); non_fee_asset(&t.args.assets, t.args.fee_asset_item as usize).unwrap();
let expected_foreign_asset_id_v3: v3::Location = expected_foreign_asset_id.try_into().unwrap();
assert_expected_events!( assert_expected_events!(
AssetHubWestend, AssetHubWestend,
vec![ vec![
@@ -183,13 +185,13 @@ fn ah_to_penpal_foreign_assets_sender_assertions(t: SystemParaToParaTest) {
) => { ) => {
from: *from == t.sender.account_id, from: *from == t.sender.account_id,
to: *to == AssetHubWestend::sovereign_account_id_of( to: *to == AssetHubWestend::sovereign_account_id_of(
t.args.dest t.args.dest.clone()
), ),
amount: *amount == t.args.amount, amount: *amount == t.args.amount,
}, },
// foreign asset is burned locally as part of teleportation // foreign asset is burned locally as part of teleportation
RuntimeEvent::ForeignAssets(pallet_assets::Event::Burned { asset_id, owner, balance }) => { RuntimeEvent::ForeignAssets(pallet_assets::Event::Burned { asset_id, owner, balance }) => {
asset_id: *asset_id == expected_foreign_asset_id, asset_id: *asset_id == expected_foreign_asset_id_v3,
owner: *owner == t.sender.account_id, owner: *owner == t.sender.account_id,
balance: *balance == expected_foreign_asset_amount, balance: *balance == expected_foreign_asset_amount,
}, },
@@ -542,7 +544,7 @@ fn teleport_native_assets_from_system_para_to_relay_fails() {
#[test] #[test]
fn teleport_to_other_system_parachains_works() { fn teleport_to_other_system_parachains_works() {
let amount = ASSET_HUB_WESTEND_ED * 100; let amount = ASSET_HUB_WESTEND_ED * 100;
let native_asset: MultiAssets = (Parent, amount).into(); let native_asset: Assets = (Parent, amount).into();
test_parachain_is_trusted_teleporter!( test_parachain_is_trusted_teleporter!(
AssetHubWestend, // Origin AssetHubWestend, // Origin
@@ -557,20 +559,20 @@ fn teleport_to_other_system_parachains_works() {
#[test] #[test]
fn bidirectional_teleport_foreign_assets_between_para_and_asset_hub() { fn bidirectional_teleport_foreign_assets_between_para_and_asset_hub() {
let ah_as_seen_by_penpal = PenpalB::sibling_location_of(AssetHubWestend::para_id()); let ah_as_seen_by_penpal = PenpalB::sibling_location_of(AssetHubWestend::para_id());
let asset_location_on_penpal = PenpalLocalTeleportableToAssetHub::get(); let asset_location_on_penpal = PenpalLocalTeleportableToAssetHubV3::get();
let asset_id_on_penpal = match asset_location_on_penpal.last() { let asset_id_on_penpal = match asset_location_on_penpal.last() {
Some(GeneralIndex(id)) => *id as u32, Some(v3::Junction::GeneralIndex(id)) => *id as u32,
_ => unreachable!(), _ => unreachable!(),
}; };
let asset_owner_on_penpal = PenpalBSender::get(); let asset_owner_on_penpal = PenpalBSender::get();
let foreign_asset_at_asset_hub_westend = let foreign_asset_at_asset_hub_westend =
MultiLocation { parents: 1, interior: X1(Parachain(PenpalB::para_id().into())) } v3::Location::new(1, [v3::Junction::Parachain(PenpalB::para_id().into())])
.appended_with(asset_location_on_penpal) .appended_with(asset_location_on_penpal)
.unwrap(); .unwrap();
super::penpal_create_foreign_asset_on_asset_hub( super::penpal_create_foreign_asset_on_asset_hub(
asset_id_on_penpal, asset_id_on_penpal,
foreign_asset_at_asset_hub_westend, foreign_asset_at_asset_hub_westend,
ah_as_seen_by_penpal, ah_as_seen_by_penpal.clone(),
false, false,
asset_owner_on_penpal, asset_owner_on_penpal,
ASSET_MIN_BALANCE * 1_000_000, ASSET_MIN_BALANCE * 1_000_000,
@@ -580,9 +582,10 @@ fn bidirectional_teleport_foreign_assets_between_para_and_asset_hub() {
let fee_amount_to_send = ASSET_HUB_WESTEND_ED * 1000; let fee_amount_to_send = ASSET_HUB_WESTEND_ED * 1000;
let asset_amount_to_send = ASSET_MIN_BALANCE * 1000; let asset_amount_to_send = ASSET_MIN_BALANCE * 1000;
let penpal_assets: MultiAssets = vec![ let asset_location_on_penpal_latest: Location = asset_location_on_penpal.try_into().unwrap();
let penpal_assets: Assets = vec![
(Parent, fee_amount_to_send).into(), (Parent, fee_amount_to_send).into(),
(asset_location_on_penpal, asset_amount_to_send).into(), (asset_location_on_penpal_latest, asset_amount_to_send).into(),
] ]
.into(); .into();
let fee_asset_index = penpal_assets let fee_asset_index = penpal_assets
@@ -670,11 +673,13 @@ fn bidirectional_teleport_foreign_assets_between_para_and_asset_hub() {
)); ));
}); });
let foreign_asset_at_asset_hub_westend_latest: Location =
foreign_asset_at_asset_hub_westend.try_into().unwrap();
let ah_to_penpal_beneficiary_id = PenpalBReceiver::get(); let ah_to_penpal_beneficiary_id = PenpalBReceiver::get();
let penpal_as_seen_by_ah = AssetHubWestend::sibling_location_of(PenpalB::para_id()); let penpal_as_seen_by_ah = AssetHubWestend::sibling_location_of(PenpalB::para_id());
let ah_assets: MultiAssets = vec![ let ah_assets: Assets = vec![
(Parent, fee_amount_to_send).into(), (Parent, fee_amount_to_send).into(),
(foreign_asset_at_asset_hub_westend, asset_amount_to_send).into(), (foreign_asset_at_asset_hub_westend_latest, asset_amount_to_send).into(),
] ]
.into(); .into();
let fee_asset_index = ah_assets let fee_asset_index = ah_assets
cumulus/parachains/integration-tests/emulated/tests/assets/asset-hub-westend/src/tests/treasury.rs
+5 -5
View File
@@ -24,19 +24,19 @@ fn create_and_claim_treasury_spend() {
const ASSET_ID: u32 = 1984; const ASSET_ID: u32 = 1984;
const SPEND_AMOUNT: u128 = 1_000_000; const SPEND_AMOUNT: u128 = 1_000_000;
// treasury location from a sibling parachain. // treasury location from a sibling parachain.
let treasury_location: MultiLocation = MultiLocation::new(1, PalletInstance(37)); let treasury_location: Location = Location::new(1, PalletInstance(37));
// treasury account on a sibling parachain. // treasury account on a sibling parachain.
let treasury_account = let treasury_account =
asset_hub_westend_runtime::xcm_config::LocationToAccountId::convert_location( asset_hub_westend_runtime::xcm_config::LocationToAccountId::convert_location(
&treasury_location, &treasury_location,
) )
.unwrap(); .unwrap();
let asset_hub_location = MultiLocation::new(0, Parachain(AssetHubWestend::para_id().into())); let asset_hub_location = Location::new(0, Parachain(AssetHubWestend::para_id().into()));
let root = <Westend as Chain>::RuntimeOrigin::root(); let root = <Westend as Chain>::RuntimeOrigin::root();
// asset kind to be spend from the treasury. // asset kind to be spend from the treasury.
let asset_kind = VersionedLocatableAsset::V3 { let asset_kind = VersionedLocatableAsset::V4 {
location: asset_hub_location, location: asset_hub_location,
asset_id: AssetId::Concrete((PalletInstance(50), GeneralIndex(ASSET_ID.into())).into()), asset_id: AssetId([PalletInstance(50), GeneralIndex(ASSET_ID.into())].into()),
}; };
// treasury spend beneficiary. // treasury spend beneficiary.
let alice: AccountId = Westend::account_id_of(ALICE); let alice: AccountId = Westend::account_id_of(ALICE);
@@ -71,7 +71,7 @@ fn create_and_claim_treasury_spend() {
root, root,
Box::new(asset_kind), Box::new(asset_kind),
SPEND_AMOUNT, SPEND_AMOUNT,
Box::new(MultiLocation::new(0, Into::<[u8; 32]>::into(alice.clone())).into()), Box::new(Location::new(0, Into::<[u8; 32]>::into(alice.clone())).into()),
None, None,
)); ));
// claim the spend. // claim the spend.
cumulus/parachains/integration-tests/emulated/tests/bridges/bridge-hub-rococo/src/lib.rs
+1 -1
View File
@@ -22,7 +22,7 @@ pub use xcm::{
latest::ParentThen, latest::ParentThen,
prelude::{AccountId32 as AccountId32Junction, *}, prelude::{AccountId32 as AccountId32Junction, *},
v3::{ v3::{
Error, self, Error,
NetworkId::{Rococo as RococoId, Westend as WestendId}, NetworkId::{Rococo as RococoId, Westend as WestendId},
}, },
}; };
cumulus/parachains/integration-tests/emulated/tests/bridges/bridge-hub-rococo/src/tests/asset_transfers.rs
+14 -9
View File
@@ -15,14 +15,14 @@
use crate::tests::*; use crate::tests::*;
fn send_asset_from_asset_hub_rococo_to_asset_hub_westend(id: MultiLocation, amount: u128) { fn send_asset_from_asset_hub_rococo_to_asset_hub_westend(id: Location, amount: u128) {
let destination = asset_hub_westend_location(); let destination = asset_hub_westend_location();
// fund the AHR's SA on BHR for paying bridge transport fees // fund the AHR's SA on BHR for paying bridge transport fees
BridgeHubRococo::fund_para_sovereign(AssetHubRococo::para_id(), 10_000_000_000_000u128); BridgeHubRococo::fund_para_sovereign(AssetHubRococo::para_id(), 10_000_000_000_000u128);
// set XCM versions // set XCM versions
AssetHubRococo::force_xcm_version(destination, XCM_VERSION); AssetHubRococo::force_xcm_version(destination.clone(), XCM_VERSION);
BridgeHubRococo::force_xcm_version(bridge_hub_westend_location(), XCM_VERSION); BridgeHubRococo::force_xcm_version(bridge_hub_westend_location(), XCM_VERSION);
// send message over bridge // send message over bridge
@@ -33,9 +33,9 @@ fn send_asset_from_asset_hub_rococo_to_asset_hub_westend(id: MultiLocation, amou
#[test] #[test]
fn send_rocs_from_asset_hub_rococo_to_asset_hub_westend() { fn send_rocs_from_asset_hub_rococo_to_asset_hub_westend() {
let roc_at_asset_hub_rococo: MultiLocation = Parent.into(); let roc_at_asset_hub_rococo: v3::Location = v3::Parent.into();
let roc_at_asset_hub_westend = let roc_at_asset_hub_westend =
MultiLocation { parents: 2, interior: X1(GlobalConsensus(NetworkId::Rococo)) }; v3::Location::new(2, [v3::Junction::GlobalConsensus(v3::NetworkId::Rococo)]);
let owner: AccountId = AssetHubWestend::account_id_of(ALICE); let owner: AccountId = AssetHubWestend::account_id_of(ALICE);
AssetHubWestend::force_create_foreign_asset( AssetHubWestend::force_create_foreign_asset(
roc_at_asset_hub_westend, roc_at_asset_hub_westend,
@@ -62,7 +62,7 @@ fn send_rocs_from_asset_hub_rococo_to_asset_hub_westend() {
assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::create_pool( assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::create_pool(
<AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()), <AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()),
Box::new(Parent.into()), Box::new(xcm::v3::Parent.into()),
Box::new(roc_at_asset_hub_westend), Box::new(roc_at_asset_hub_westend),
)); ));
@@ -75,7 +75,7 @@ fn send_rocs_from_asset_hub_rococo_to_asset_hub_westend() {
assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::add_liquidity( assert_ok!(<AssetHubWestend as AssetHubWestendPallet>::AssetConversion::add_liquidity(
<AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()), <AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get()),
Box::new(Parent.into()), Box::new(xcm::v3::Parent.into()),
Box::new(roc_at_asset_hub_westend), Box::new(roc_at_asset_hub_westend),
1_000_000_000_000, 1_000_000_000_000,
2_000_000_000_000, 2_000_000_000_000,
@@ -101,8 +101,9 @@ fn send_rocs_from_asset_hub_rococo_to_asset_hub_westend() {
<Assets as Inspect<_>>::balance(roc_at_asset_hub_westend, &AssetHubWestendReceiver::get()) <Assets as Inspect<_>>::balance(roc_at_asset_hub_westend, &AssetHubWestendReceiver::get())
}); });
let roc_at_asset_hub_rococo_latest: Location = roc_at_asset_hub_rococo.try_into().unwrap();
let amount = ASSET_HUB_ROCOCO_ED * 1_000_000; let amount = ASSET_HUB_ROCOCO_ED * 1_000_000;
send_asset_from_asset_hub_rococo_to_asset_hub_westend(roc_at_asset_hub_rococo, amount); send_asset_from_asset_hub_rococo_to_asset_hub_westend(roc_at_asset_hub_rococo_latest, amount);
AssetHubWestend::execute_with(|| { AssetHubWestend::execute_with(|| {
type RuntimeEvent = <AssetHubWestend as Chain>::RuntimeEvent; type RuntimeEvent = <AssetHubWestend as Chain>::RuntimeEvent;
assert_expected_events!( assert_expected_events!(
@@ -142,7 +143,7 @@ fn send_rocs_from_asset_hub_rococo_to_asset_hub_westend() {
fn send_wnds_from_asset_hub_rococo_to_asset_hub_westend() { fn send_wnds_from_asset_hub_rococo_to_asset_hub_westend() {
let prefund_amount = 10_000_000_000_000u128; let prefund_amount = 10_000_000_000_000u128;
let wnd_at_asset_hub_rococo = let wnd_at_asset_hub_rococo =
MultiLocation { parents: 2, interior: X1(GlobalConsensus(NetworkId::Westend)) }; v3::Location::new(2, [v3::Junction::GlobalConsensus(v3::NetworkId::Westend)]);
let owner: AccountId = AssetHubWestend::account_id_of(ALICE); let owner: AccountId = AssetHubWestend::account_id_of(ALICE);
AssetHubRococo::force_create_foreign_asset( AssetHubRococo::force_create_foreign_asset(
wnd_at_asset_hub_rococo, wnd_at_asset_hub_rococo,
@@ -170,8 +171,12 @@ fn send_wnds_from_asset_hub_rococo_to_asset_hub_westend() {
let receiver_wnds_before = let receiver_wnds_before =
<AssetHubWestend as Chain>::account_data_of(AssetHubWestendReceiver::get()).free; <AssetHubWestend as Chain>::account_data_of(AssetHubWestendReceiver::get()).free;
let wnd_at_asset_hub_rococo_latest: Location = wnd_at_asset_hub_rococo.try_into().unwrap();
let amount_to_send = ASSET_HUB_WESTEND_ED * 1_000; let amount_to_send = ASSET_HUB_WESTEND_ED * 1_000;
send_asset_from_asset_hub_rococo_to_asset_hub_westend(wnd_at_asset_hub_rococo, amount_to_send); send_asset_from_asset_hub_rococo_to_asset_hub_westend(
wnd_at_asset_hub_rococo_latest.clone(),
amount_to_send,
);
AssetHubWestend::execute_with(|| { AssetHubWestend::execute_with(|| {
type RuntimeEvent = <AssetHubWestend as Chain>::RuntimeEvent; type RuntimeEvent = <AssetHubWestend as Chain>::RuntimeEvent;
assert_expected_events!( assert_expected_events!(
cumulus/parachains/integration-tests/emulated/tests/bridges/bridge-hub-rococo/src/tests/mod.rs
+14 -20
View File
@@ -20,37 +20,31 @@ mod send_xcm;
mod snowbridge; mod snowbridge;
mod teleport; mod teleport;
pub(crate) fn asset_hub_westend_location() -> MultiLocation { pub(crate) fn asset_hub_westend_location() -> Location {
MultiLocation { Location::new(
parents: 2, 2,
interior: X2( [GlobalConsensus(NetworkId::Westend), Parachain(AssetHubWestend::para_id().into())],
GlobalConsensus(NetworkId::Westend), )
Parachain(AssetHubWestend::para_id().into()),
),
}
} }
pub(crate) fn bridge_hub_westend_location() -> MultiLocation { pub(crate) fn bridge_hub_westend_location() -> Location {
MultiLocation { Location::new(
parents: 2, 2,
interior: X2( [GlobalConsensus(NetworkId::Westend), Parachain(BridgeHubWestend::para_id().into())],
GlobalConsensus(NetworkId::Westend), )
Parachain(BridgeHubWestend::para_id().into()),
),
}
} }
pub(crate) fn send_asset_from_asset_hub_rococo( pub(crate) fn send_asset_from_asset_hub_rococo(
destination: MultiLocation, destination: Location,
(id, amount): (MultiLocation, u128), (id, amount): (Location, u128),
) -> DispatchResult { ) -> DispatchResult {
let signed_origin = let signed_origin =
<AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get().into()); <AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get().into());
let beneficiary: MultiLocation = let beneficiary: Location =
AccountId32Junction { network: None, id: AssetHubWestendReceiver::get().into() }.into(); AccountId32Junction { network: None, id: AssetHubWestendReceiver::get().into() }.into();
let assets: MultiAssets = (id, amount).into(); let assets: Assets = (id, amount).into();
let fee_asset_item = 0; let fee_asset_item = 0;
AssetHubRococo::execute_with(|| { AssetHubRococo::execute_with(|| {
cumulus/parachains/integration-tests/emulated/tests/bridges/bridge-hub-rococo/src/tests/send_xcm.rs
+15 -9
View File
@@ -29,8 +29,8 @@ fn send_xcm_from_rococo_relay_to_westend_asset_hub_should_fail_on_not_applicable
let xcm = VersionedXcm::from(Xcm(vec![ let xcm = VersionedXcm::from(Xcm(vec![
UnpaidExecution { weight_limit, check_origin }, UnpaidExecution { weight_limit, check_origin },
ExportMessage { ExportMessage {
network: WestendId, network: WestendId.into(),
destination: X1(Parachain(AssetHubWestend::para_id().into())), destination: [Parachain(AssetHubWestend::para_id().into())].into(),
xcm: remote_xcm, xcm: remote_xcm,
}, },
])); ]));
@@ -68,7 +68,7 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
// prepare data // prepare data
let destination = asset_hub_westend_location(); let destination = asset_hub_westend_location();
let native_token = MultiLocation::parent(); let native_token = Location::parent();
let amount = ASSET_HUB_ROCOCO_ED * 1_000; let amount = ASSET_HUB_ROCOCO_ED * 1_000;
// fund the AHR's SA on BHR for paying bridge transport fees // fund the AHR's SA on BHR for paying bridge transport fees
@@ -78,7 +78,7 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
// send XCM from AssetHubRococo - fails - destination version not known // send XCM from AssetHubRococo - fails - destination version not known
assert_err!( assert_err!(
send_asset_from_asset_hub_rococo(destination, (native_token, amount)), send_asset_from_asset_hub_rococo(destination.clone(), (native_token.clone(), amount)),
DispatchError::Module(sp_runtime::ModuleError { DispatchError::Module(sp_runtime::ModuleError {
index: 31, index: 31,
error: [1, 0, 0, 0], error: [1, 0, 0, 0],
@@ -87,7 +87,7 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
); );
// set destination version // set destination version
AssetHubRococo::force_xcm_version(destination, xcm::v3::prelude::XCM_VERSION); AssetHubRococo::force_xcm_version(destination.clone(), xcm::v3::prelude::XCM_VERSION);
// TODO: remove this block, when removing `xcm:v2` // TODO: remove this block, when removing `xcm:v2`
{ {
@@ -95,7 +95,7 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
// version, which does not have the `ExportMessage` instruction. If the default `2` is // version, which does not have the `ExportMessage` instruction. If the default `2` is
// changed to `3`, then this assert can go away" // changed to `3`, then this assert can go away"
assert_err!( assert_err!(
send_asset_from_asset_hub_rococo(destination, (native_token, amount)), send_asset_from_asset_hub_rococo(destination.clone(), (native_token.clone(), amount)),
DispatchError::Module(sp_runtime::ModuleError { DispatchError::Module(sp_runtime::ModuleError {
index: 31, index: 31,
error: [1, 0, 0, 0], error: [1, 0, 0, 0],
@@ -110,7 +110,7 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
); );
// send XCM from AssetHubRococo - fails - `ExportMessage` is not in `2` // send XCM from AssetHubRococo - fails - `ExportMessage` is not in `2`
assert_err!( assert_err!(
send_asset_from_asset_hub_rococo(destination, (native_token, amount)), send_asset_from_asset_hub_rococo(destination.clone(), (native_token.clone(), amount)),
DispatchError::Module(sp_runtime::ModuleError { DispatchError::Module(sp_runtime::ModuleError {
index: 31, index: 31,
error: [1, 0, 0, 0], error: [1, 0, 0, 0],
@@ -125,7 +125,10 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
xcm::v3::prelude::XCM_VERSION, xcm::v3::prelude::XCM_VERSION,
); );
// send XCM from AssetHubRococo - ok // send XCM from AssetHubRococo - ok
assert_ok!(send_asset_from_asset_hub_rococo(destination, (native_token, amount))); assert_ok!(send_asset_from_asset_hub_rococo(
destination.clone(),
(native_token.clone(), amount)
));
// `ExportMessage` on local BridgeHub - fails - remote BridgeHub version not known // `ExportMessage` on local BridgeHub - fails - remote BridgeHub version not known
assert_bridge_hub_rococo_message_accepted(false); assert_bridge_hub_rococo_message_accepted(false);
@@ -142,7 +145,10 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
); );
// send XCM from AssetHubRococo - ok // send XCM from AssetHubRococo - ok
assert_ok!(send_asset_from_asset_hub_rococo(destination, (native_token, amount))); assert_ok!(send_asset_from_asset_hub_rococo(
destination.clone(),
(native_token.clone(), amount)
));
assert_bridge_hub_rococo_message_accepted(true); assert_bridge_hub_rococo_message_accepted(true);
assert_bridge_hub_westend_message_received(); assert_bridge_hub_westend_message_received();
// message delivered and processed at destination // message delivered and processed at destination
cumulus/parachains/integration-tests/emulated/tests/bridges/bridge-hub-rococo/src/tests/snowbridge.rs
+30 -33
View File
@@ -61,7 +61,7 @@ fn create_agent() {
let remote_xcm = VersionedXcm::from(Xcm(vec![ let remote_xcm = VersionedXcm::from(Xcm(vec![
UnpaidExecution { weight_limit: Unlimited, check_origin: None }, UnpaidExecution { weight_limit: Unlimited, check_origin: None },
DescendOrigin(X1(Parachain(origin_para))), DescendOrigin(Parachain(origin_para).into()),
Transact { Transact {
require_weight_at_most: 3000000000.into(), require_weight_at_most: 3000000000.into(),
origin_kind: OriginKind::Xcm, origin_kind: OriginKind::Xcm,
@@ -109,14 +109,14 @@ fn create_channel() {
BridgeHubRococo::fund_para_sovereign(origin_para.into(), INITIAL_FUND); BridgeHubRococo::fund_para_sovereign(origin_para.into(), INITIAL_FUND);
let sudo_origin = <Rococo as Chain>::RuntimeOrigin::root(); let sudo_origin = <Rococo as Chain>::RuntimeOrigin::root();
let destination: VersionedMultiLocation = let destination: VersionedLocation =
Rococo::child_location_of(BridgeHubRococo::para_id()).into(); Rococo::child_location_of(BridgeHubRococo::para_id()).into();
let create_agent_call = SnowbridgeControl::Control(ControlCall::CreateAgent {}); let create_agent_call = SnowbridgeControl::Control(ControlCall::CreateAgent {});
let create_agent_xcm = VersionedXcm::from(Xcm(vec![ let create_agent_xcm = VersionedXcm::from(Xcm(vec![
UnpaidExecution { weight_limit: Unlimited, check_origin: None }, UnpaidExecution { weight_limit: Unlimited, check_origin: None },
DescendOrigin(X1(Parachain(origin_para))), DescendOrigin(Parachain(origin_para).into()),
Transact { Transact {
require_weight_at_most: 3000000000.into(), require_weight_at_most: 3000000000.into(),
origin_kind: OriginKind::Xcm, origin_kind: OriginKind::Xcm,
@@ -129,7 +129,7 @@ fn create_channel() {
let create_channel_xcm = VersionedXcm::from(Xcm(vec![ let create_channel_xcm = VersionedXcm::from(Xcm(vec![
UnpaidExecution { weight_limit: Unlimited, check_origin: None }, UnpaidExecution { weight_limit: Unlimited, check_origin: None },
DescendOrigin(X1(Parachain(origin_para))), DescendOrigin(Parachain(origin_para).into()),
Transact { Transact {
require_weight_at_most: 3000000000.into(), require_weight_at_most: 3000000000.into(),
origin_kind: OriginKind::Xcm, origin_kind: OriginKind::Xcm,
@@ -218,10 +218,10 @@ fn register_weth_token_from_ethereum_to_asset_hub() {
#[test] #[test]
fn send_token_from_ethereum_to_penpal() { fn send_token_from_ethereum_to_penpal() {
let asset_hub_sovereign = BridgeHubRococo::sovereign_account_id_of(MultiLocation { let asset_hub_sovereign = BridgeHubRococo::sovereign_account_id_of(Location::new(
parents: 1, 1,
interior: X1(Parachain(AssetHubRococo::para_id().into())), [Parachain(AssetHubRococo::para_id().into())],
}); ));
BridgeHubRococo::fund_accounts(vec![(asset_hub_sovereign.clone(), INITIAL_FUND)]); BridgeHubRococo::fund_accounts(vec![(asset_hub_sovereign.clone(), INITIAL_FUND)]);
PenpalA::fund_accounts(vec![ PenpalA::fund_accounts(vec![
@@ -229,9 +229,9 @@ fn send_token_from_ethereum_to_penpal() {
(PenpalASender::get(), INITIAL_FUND), (PenpalASender::get(), INITIAL_FUND),
]); ]);
let weth_asset_location: MultiLocation = let weth_asset_location: Location =
(Parent, Parent, EthereumNetwork::get(), AccountKey20 { network: None, key: WETH }).into(); (Parent, Parent, EthereumNetwork::get(), AccountKey20 { network: None, key: WETH }).into();
let weth_asset_id = weth_asset_location.into(); let weth_asset_id: v3::Location = weth_asset_location.try_into().unwrap();
let origin_location = (Parent, Parent, EthereumNetwork::get()).into(); let origin_location = (Parent, Parent, EthereumNetwork::get()).into();
@@ -375,18 +375,15 @@ fn send_token_from_ethereum_to_asset_hub() {
#[test] #[test]
fn send_weth_asset_from_asset_hub_to_ethereum() { fn send_weth_asset_from_asset_hub_to_ethereum() {
use asset_hub_rococo_runtime::xcm_config::bridging::to_ethereum::DefaultBridgeHubEthereumBaseFee; use asset_hub_rococo_runtime::xcm_config::bridging::to_ethereum::DefaultBridgeHubEthereumBaseFee;
let assethub_sovereign = BridgeHubRococo::sovereign_account_id_of(MultiLocation { let assethub_sovereign = BridgeHubRococo::sovereign_account_id_of(Location::new(
parents: 1, 1,
interior: X1(Parachain(AssetHubRococo::para_id().into())), [Parachain(AssetHubRococo::para_id().into())],
}); ));
AssetHubRococo::force_default_xcm_version(Some(XCM_VERSION)); AssetHubRococo::force_default_xcm_version(Some(XCM_VERSION));
BridgeHubRococo::force_default_xcm_version(Some(XCM_VERSION)); BridgeHubRococo::force_default_xcm_version(Some(XCM_VERSION));
AssetHubRococo::force_xcm_version( AssetHubRococo::force_xcm_version(
MultiLocation { Location::new(2, [GlobalConsensus(Ethereum { chain_id: CHAIN_ID })]),
parents: 2,
interior: X1(GlobalConsensus(Ethereum { chain_id: CHAIN_ID })),
},
XCM_VERSION, XCM_VERSION,
); );
@@ -437,27 +434,27 @@ fn send_weth_asset_from_asset_hub_to_ethereum() {
RuntimeEvent::ForeignAssets(pallet_assets::Event::Issued { .. }) => {}, RuntimeEvent::ForeignAssets(pallet_assets::Event::Issued { .. }) => {},
] ]
); );
let assets = vec![MultiAsset { let assets = vec![Asset {
id: Concrete(MultiLocation { id: AssetId(Location::new(
parents: 2, 2,
interior: X2( [
GlobalConsensus(Ethereum { chain_id: CHAIN_ID }), GlobalConsensus(Ethereum { chain_id: CHAIN_ID }),
AccountKey20 { network: None, key: WETH }, AccountKey20 { network: None, key: WETH },
), ],
}), )),
fun: Fungible(WETH_AMOUNT), fun: Fungible(WETH_AMOUNT),
}]; }];
let multi_assets = VersionedMultiAssets::V3(MultiAssets::from(assets)); let multi_assets = VersionedAssets::V4(Assets::from(assets));
let destination = VersionedMultiLocation::V3(MultiLocation { let destination = VersionedLocation::V4(Location::new(
parents: 2, 2,
interior: X1(GlobalConsensus(Ethereum { chain_id: CHAIN_ID })), [GlobalConsensus(Ethereum { chain_id: CHAIN_ID })],
}); ));
let beneficiary = VersionedMultiLocation::V3(MultiLocation { let beneficiary = VersionedLocation::V4(Location::new(
parents: 0, 0,
interior: X1(AccountKey20 { network: None, key: ETHEREUM_DESTINATION_ADDRESS.into() }), [AccountKey20 { network: None, key: ETHEREUM_DESTINATION_ADDRESS.into() }],
}); ));
let free_balance_before = <AssetHubRococo as AssetHubRococoPallet>::Balances::free_balance( let free_balance_before = <AssetHubRococo as AssetHubRococoPallet>::Balances::free_balance(
AssetHubRococoReceiver::get(), AssetHubRococoReceiver::get(),
cumulus/parachains/integration-tests/emulated/tests/bridges/bridge-hub-rococo/src/tests/teleport.rs
+1 -1
View File
@@ -19,7 +19,7 @@ use bridge_hub_rococo_runtime::xcm_config::XcmConfig;
#[test] #[test]
fn teleport_to_other_system_parachains_works() { fn teleport_to_other_system_parachains_works() {
let amount = BRIDGE_HUB_ROCOCO_ED * 100; let amount = BRIDGE_HUB_ROCOCO_ED * 100;
let native_asset: MultiAssets = (Parent, amount).into(); let native_asset: Assets = (Parent, amount).into();
test_parachain_is_trusted_teleporter!( test_parachain_is_trusted_teleporter!(
BridgeHubRococo, // Origin BridgeHubRococo, // Origin
cumulus/parachains/integration-tests/emulated/tests/bridges/bridge-hub-westend/src/lib.rs
+2 -1
View File
@@ -21,7 +21,8 @@ pub use sp_runtime::DispatchError;
pub use xcm::{ pub use xcm::{
latest::ParentThen, latest::ParentThen,
prelude::{AccountId32 as AccountId32Junction, *}, prelude::{AccountId32 as AccountId32Junction, *},
v3::{ v3,
v4::{
Error, Error,
NetworkId::{Rococo as RococoId, Westend as WestendId}, NetworkId::{Rococo as RococoId, Westend as WestendId},
}, },
cumulus/parachains/integration-tests/emulated/tests/bridges/bridge-hub-westend/src/tests/asset_transfers.rs
+12 -8
View File
@@ -14,14 +14,14 @@
// limitations under the License. // limitations under the License.
use crate::tests::*; use crate::tests::*;
fn send_asset_from_asset_hub_westend_to_asset_hub_rococo(id: MultiLocation, amount: u128) { fn send_asset_from_asset_hub_westend_to_asset_hub_rococo(id: Location, amount: u128) {
let destination = asset_hub_rococo_location(); let destination = asset_hub_rococo_location();
// fund the AHW's SA on BHW for paying bridge transport fees // fund the AHW's SA on BHW for paying bridge transport fees
BridgeHubWestend::fund_para_sovereign(AssetHubWestend::para_id(), 10_000_000_000_000u128); BridgeHubWestend::fund_para_sovereign(AssetHubWestend::para_id(), 10_000_000_000_000u128);
// set XCM versions // set XCM versions
AssetHubWestend::force_xcm_version(destination, XCM_VERSION); AssetHubWestend::force_xcm_version(destination.clone(), XCM_VERSION);
BridgeHubWestend::force_xcm_version(bridge_hub_rococo_location(), XCM_VERSION); BridgeHubWestend::force_xcm_version(bridge_hub_rococo_location(), XCM_VERSION);
// send message over bridge // send message over bridge
@@ -32,9 +32,9 @@ fn send_asset_from_asset_hub_westend_to_asset_hub_rococo(id: MultiLocation, amou
#[test] #[test]
fn send_wnds_from_asset_hub_westend_to_asset_hub_rococo() { fn send_wnds_from_asset_hub_westend_to_asset_hub_rococo() {
let wnd_at_asset_hub_westend: MultiLocation = Parent.into(); let wnd_at_asset_hub_westend: Location = Parent.into();
let wnd_at_asset_hub_rococo = let wnd_at_asset_hub_rococo =
MultiLocation { parents: 2, interior: X1(GlobalConsensus(NetworkId::Westend)) }; v3::Location::new(2, [v3::Junction::GlobalConsensus(v3::NetworkId::Westend)]);
let owner: AccountId = AssetHubRococo::account_id_of(ALICE); let owner: AccountId = AssetHubRococo::account_id_of(ALICE);
AssetHubRococo::force_create_foreign_asset( AssetHubRococo::force_create_foreign_asset(
wnd_at_asset_hub_rococo, wnd_at_asset_hub_rococo,
@@ -61,7 +61,7 @@ fn send_wnds_from_asset_hub_westend_to_asset_hub_rococo() {
assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::create_pool( assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::create_pool(
<AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()), <AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()),
Box::new(Parent.into()), Box::new(xcm::v3::Parent.into()),
Box::new(wnd_at_asset_hub_rococo), Box::new(wnd_at_asset_hub_rococo),
)); ));
@@ -74,7 +74,7 @@ fn send_wnds_from_asset_hub_westend_to_asset_hub_rococo() {
assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::add_liquidity( assert_ok!(<AssetHubRococo as AssetHubRococoPallet>::AssetConversion::add_liquidity(
<AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()), <AssetHubRococo as Chain>::RuntimeOrigin::signed(AssetHubRococoSender::get()),
Box::new(Parent.into()), Box::new(xcm::v3::Parent.into()),
Box::new(wnd_at_asset_hub_rococo), Box::new(wnd_at_asset_hub_rococo),
1_000_000_000_000, 1_000_000_000_000,
2_000_000_000_000, 2_000_000_000_000,
@@ -141,7 +141,7 @@ fn send_wnds_from_asset_hub_westend_to_asset_hub_rococo() {
fn send_rocs_from_asset_hub_westend_to_asset_hub_rococo() { fn send_rocs_from_asset_hub_westend_to_asset_hub_rococo() {
let prefund_amount = 10_000_000_000_000u128; let prefund_amount = 10_000_000_000_000u128;
let roc_at_asset_hub_westend = let roc_at_asset_hub_westend =
MultiLocation { parents: 2, interior: X1(GlobalConsensus(NetworkId::Rococo)) }; v3::Location::new(2, [v3::Junction::GlobalConsensus(v3::NetworkId::Rococo)]);
let owner: AccountId = AssetHubWestend::account_id_of(ALICE); let owner: AccountId = AssetHubWestend::account_id_of(ALICE);
AssetHubWestend::force_create_foreign_asset( AssetHubWestend::force_create_foreign_asset(
roc_at_asset_hub_westend, roc_at_asset_hub_westend,
@@ -169,8 +169,12 @@ fn send_rocs_from_asset_hub_westend_to_asset_hub_rococo() {
let receiver_rocs_before = let receiver_rocs_before =
<AssetHubRococo as Chain>::account_data_of(AssetHubRococoReceiver::get()).free; <AssetHubRococo as Chain>::account_data_of(AssetHubRococoReceiver::get()).free;
let roc_at_asset_hub_westend_latest: Location = roc_at_asset_hub_westend.try_into().unwrap();
let amount_to_send = ASSET_HUB_ROCOCO_ED * 1_000; let amount_to_send = ASSET_HUB_ROCOCO_ED * 1_000;
send_asset_from_asset_hub_westend_to_asset_hub_rococo(roc_at_asset_hub_westend, amount_to_send); send_asset_from_asset_hub_westend_to_asset_hub_rococo(
roc_at_asset_hub_westend_latest.clone(),
amount_to_send,
);
AssetHubRococo::execute_with(|| { AssetHubRococo::execute_with(|| {
type RuntimeEvent = <AssetHubRococo as Chain>::RuntimeEvent; type RuntimeEvent = <AssetHubRococo as Chain>::RuntimeEvent;
assert_expected_events!( assert_expected_events!(
cumulus/parachains/integration-tests/emulated/tests/bridges/bridge-hub-westend/src/tests/mod.rs
+14 -20
View File
@@ -19,37 +19,31 @@ mod asset_transfers;
mod send_xcm; mod send_xcm;
mod teleport; mod teleport;
pub(crate) fn asset_hub_rococo_location() -> MultiLocation { pub(crate) fn asset_hub_rococo_location() -> Location {
MultiLocation { Location::new(
parents: 2, 2,
interior: X2( [GlobalConsensus(NetworkId::Rococo), Parachain(AssetHubRococo::para_id().into())],
GlobalConsensus(NetworkId::Rococo), )
Parachain(AssetHubRococo::para_id().into()),
),
}
} }
pub(crate) fn bridge_hub_rococo_location() -> MultiLocation { pub(crate) fn bridge_hub_rococo_location() -> Location {
MultiLocation { Location::new(
parents: 2, 2,
interior: X2( [GlobalConsensus(NetworkId::Rococo), Parachain(BridgeHubRococo::para_id().into())],
GlobalConsensus(NetworkId::Rococo), )
Parachain(BridgeHubRococo::para_id().into()),
),
}
} }
pub(crate) fn send_asset_from_asset_hub_westend( pub(crate) fn send_asset_from_asset_hub_westend(
destination: MultiLocation, destination: Location,
(id, amount): (MultiLocation, u128), (id, amount): (Location, u128),
) -> DispatchResult { ) -> DispatchResult {
let signed_origin = let signed_origin =
<AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get().into()); <AssetHubWestend as Chain>::RuntimeOrigin::signed(AssetHubWestendSender::get().into());
let beneficiary: MultiLocation = let beneficiary: Location =
AccountId32Junction { network: None, id: AssetHubRococoReceiver::get().into() }.into(); AccountId32Junction { network: None, id: AssetHubRococoReceiver::get().into() }.into();
let assets: MultiAssets = (id, amount).into(); let assets: Assets = (id, amount).into();
let fee_asset_item = 0; let fee_asset_item = 0;
AssetHubWestend::execute_with(|| { AssetHubWestend::execute_with(|| {
cumulus/parachains/integration-tests/emulated/tests/bridges/bridge-hub-westend/src/tests/send_xcm.rs
+14 -8
View File
@@ -30,7 +30,7 @@ fn send_xcm_from_westend_relay_to_rococo_asset_hub_should_fail_on_not_applicable
UnpaidExecution { weight_limit, check_origin }, UnpaidExecution { weight_limit, check_origin },
ExportMessage { ExportMessage {
network: RococoId, network: RococoId,
destination: X1(Parachain(AssetHubRococo::para_id().into())), destination: [Parachain(AssetHubRococo::para_id().into())].into(),
xcm: remote_xcm, xcm: remote_xcm,
}, },
])); ]));
@@ -68,7 +68,7 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
// prepare data // prepare data
let destination = asset_hub_rococo_location(); let destination = asset_hub_rococo_location();
let native_token = MultiLocation::parent(); let native_token = Location::parent();
let amount = ASSET_HUB_WESTEND_ED * 1_000; let amount = ASSET_HUB_WESTEND_ED * 1_000;
// fund the AHR's SA on BHR for paying bridge transport fees // fund the AHR's SA on BHR for paying bridge transport fees
@@ -78,7 +78,7 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
// send XCM from AssetHubWestend - fails - destination version not known // send XCM from AssetHubWestend - fails - destination version not known
assert_err!( assert_err!(
send_asset_from_asset_hub_westend(destination, (native_token, amount)), send_asset_from_asset_hub_westend(destination.clone(), (native_token.clone(), amount)),
DispatchError::Module(sp_runtime::ModuleError { DispatchError::Module(sp_runtime::ModuleError {
index: 31, index: 31,
error: [1, 0, 0, 0], error: [1, 0, 0, 0],
@@ -87,7 +87,7 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
); );
// set destination version // set destination version
AssetHubWestend::force_xcm_version(destination, xcm::v3::prelude::XCM_VERSION); AssetHubWestend::force_xcm_version(destination.clone(), xcm::v3::prelude::XCM_VERSION);
// TODO: remove this block, when removing `xcm:v2` // TODO: remove this block, when removing `xcm:v2`
{ {
@@ -95,7 +95,7 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
// version, which does not have the `ExportMessage` instruction. If the default `2` is // version, which does not have the `ExportMessage` instruction. If the default `2` is
// changed to `3`, then this assert can go away" // changed to `3`, then this assert can go away"
assert_err!( assert_err!(
send_asset_from_asset_hub_westend(destination, (native_token, amount)), send_asset_from_asset_hub_westend(destination.clone(), (native_token.clone(), amount)),
DispatchError::Module(sp_runtime::ModuleError { DispatchError::Module(sp_runtime::ModuleError {
index: 31, index: 31,
error: [1, 0, 0, 0], error: [1, 0, 0, 0],
@@ -110,7 +110,7 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
); );
// send XCM from AssetHubWestend - fails - `ExportMessage` is not in `2` // send XCM from AssetHubWestend - fails - `ExportMessage` is not in `2`
assert_err!( assert_err!(
send_asset_from_asset_hub_westend(destination, (native_token, amount)), send_asset_from_asset_hub_westend(destination.clone(), (native_token.clone(), amount)),
DispatchError::Module(sp_runtime::ModuleError { DispatchError::Module(sp_runtime::ModuleError {
index: 31, index: 31,
error: [1, 0, 0, 0], error: [1, 0, 0, 0],
@@ -125,7 +125,10 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
xcm::v3::prelude::XCM_VERSION, xcm::v3::prelude::XCM_VERSION,
); );
// send XCM from AssetHubWestend - ok // send XCM from AssetHubWestend - ok
assert_ok!(send_asset_from_asset_hub_westend(destination, (native_token, amount))); assert_ok!(send_asset_from_asset_hub_westend(
destination.clone(),
(native_token.clone(), amount)
));
// `ExportMessage` on local BridgeHub - fails - remote BridgeHub version not known // `ExportMessage` on local BridgeHub - fails - remote BridgeHub version not known
assert_bridge_hub_westend_message_accepted(false); assert_bridge_hub_westend_message_accepted(false);
@@ -142,7 +145,10 @@ fn send_xcm_through_opened_lane_with_different_xcm_version_on_hops_works() {
); );
// send XCM from AssetHubWestend - ok // send XCM from AssetHubWestend - ok
assert_ok!(send_asset_from_asset_hub_westend(destination, (native_token, amount))); assert_ok!(send_asset_from_asset_hub_westend(
destination.clone(),
(native_token.clone(), amount)
));
assert_bridge_hub_westend_message_accepted(true); assert_bridge_hub_westend_message_accepted(true);
assert_bridge_hub_rococo_message_received(); assert_bridge_hub_rococo_message_received();
// message delivered and processed at destination // message delivered and processed at destination
cumulus/parachains/integration-tests/emulated/tests/bridges/bridge-hub-westend/src/tests/teleport.rs
+1 -1
View File
@@ -19,7 +19,7 @@ use bridge_hub_westend_runtime::xcm_config::XcmConfig;
#[test] #[test]
fn teleport_to_other_system_parachains_works() { fn teleport_to_other_system_parachains_works() {
let amount = BRIDGE_HUB_WESTEND_ED * 100; let amount = BRIDGE_HUB_WESTEND_ED * 100;
let native_asset: MultiAssets = (Parent, amount).into(); let native_asset: Assets = (Parent, amount).into();
test_parachain_is_trusted_teleporter!( test_parachain_is_trusted_teleporter!(
BridgeHubWestend, // Origin BridgeHubWestend, // Origin
cumulus/parachains/pallets/ping/src/lib.rs
+2 -2
View File
@@ -77,9 +77,9 @@ pub mod pallet {
#[pallet::event] #[pallet::event]
#[pallet::generate_deposit(pub(super) fn deposit_event)] #[pallet::generate_deposit(pub(super) fn deposit_event)]
pub enum Event<T: Config> { pub enum Event<T: Config> {
PingSent(ParaId, u32, Vec<u8>, XcmHash, MultiAssets), PingSent(ParaId, u32, Vec<u8>, XcmHash, Assets),
Pinged(ParaId, u32, Vec<u8>), Pinged(ParaId, u32, Vec<u8>),
PongSent(ParaId, u32, Vec<u8>, XcmHash, MultiAssets), PongSent(ParaId, u32, Vec<u8>, XcmHash, Assets),
Ponged(ParaId, u32, Vec<u8>, BlockNumberFor<T>), Ponged(ParaId, u32, Vec<u8>, BlockNumberFor<T>),
ErrorSendingPing(SendError, ParaId, u32, Vec<u8>), ErrorSendingPing(SendError, ParaId, u32, Vec<u8>),
ErrorSendingPong(SendError, ParaId, u32, Vec<u8>), ErrorSendingPong(SendError, ParaId, u32, Vec<u8>),
cumulus/parachains/runtimes/assets/asset-hub-rococo/src/lib.rs
+76 -72
View File
@@ -31,7 +31,7 @@ use assets_common::{
foreign_creators::ForeignCreators, foreign_creators::ForeignCreators,
local_and_foreign_assets::{LocalFromLeft, TargetFromLeft}, local_and_foreign_assets::{LocalFromLeft, TargetFromLeft},
matching::{FromNetwork, FromSiblingParachain}, matching::{FromNetwork, FromSiblingParachain},
AssetIdForTrustBackedAssetsConvert, MultiLocationForAssetId, AssetIdForTrustBackedAssetsConvert,
}; };
use cumulus_pallet_parachain_system::RelayNumberStrictlyIncreases; use cumulus_pallet_parachain_system::RelayNumberStrictlyIncreases;
use cumulus_primitives_core::AggregateMessageOrigin; use cumulus_primitives_core::AggregateMessageOrigin;
@@ -80,13 +80,11 @@ use parachains_common::{
Signature, AVERAGE_ON_INITIALIZE_RATIO, DAYS, HOURS, MAXIMUM_BLOCK_WEIGHT, Signature, AVERAGE_ON_INITIALIZE_RATIO, DAYS, HOURS, MAXIMUM_BLOCK_WEIGHT,
NORMAL_DISPATCH_RATIO, SLOT_DURATION, NORMAL_DISPATCH_RATIO, SLOT_DURATION,
}; };
use sp_runtime::{Perbill, RuntimeDebug}; use sp_runtime::{Perbill, RuntimeDebug};
use xcm::opaque::v3::MultiLocation;
use xcm_config::{ use xcm_config::{
ForeignAssetsConvertedConcreteId, ForeignCreatorsSovereignAccountOf, GovernanceLocation, ForeignAssetsConvertedConcreteId, ForeignCreatorsSovereignAccountOf, GovernanceLocation,
PoolAssetsConvertedConcreteId, TokenLocation, TrustBackedAssetsConvertedConcreteId, PoolAssetsConvertedConcreteId, TokenLocation, TokenLocationV3,
TrustBackedAssetsPalletLocation, TrustBackedAssetsConvertedConcreteId, TrustBackedAssetsPalletLocationV3,
}; };
#[cfg(any(feature = "std", test))] #[cfg(any(feature = "std", test))]
@@ -95,7 +93,13 @@ pub use sp_runtime::BuildStorage;
// Polkadot imports // Polkadot imports
use pallet_xcm::{EnsureXcm, IsVoiceOfBody}; use pallet_xcm::{EnsureXcm, IsVoiceOfBody};
use polkadot_runtime_common::{BlockHashCount, SlowAdjustingFeeUpdate}; use polkadot_runtime_common::{BlockHashCount, SlowAdjustingFeeUpdate};
use xcm::latest::prelude::*; // We exclude `Assets` since it's the name of a pallet
#[cfg(feature = "runtime-benchmarks")]
use xcm::latest::prelude::{
Asset, Fungible, Here, InteriorLocation, Junction, Junction::*, Location, NetworkId,
NonFungible, Parent, ParentThen, Response, XCM_VERSION,
};
use xcm::latest::prelude::{AssetId, BodyId};
use weights::{BlockExecutionWeight, ExtrinsicBaseWeight, RocksDbWeight}; use weights::{BlockExecutionWeight, ExtrinsicBaseWeight, RocksDbWeight};
@@ -317,10 +321,11 @@ pub type LocalAndForeignAssets = fungibles::UnionOf<
Assets, Assets,
ForeignAssets, ForeignAssets,
LocalFromLeft< LocalFromLeft<
AssetIdForTrustBackedAssetsConvert<TrustBackedAssetsPalletLocation>, AssetIdForTrustBackedAssetsConvert<TrustBackedAssetsPalletLocationV3>,
AssetIdForTrustBackedAssets, AssetIdForTrustBackedAssets,
xcm::v3::Location,
>, >,
MultiLocation, xcm::v3::Location,
AccountId, AccountId,
>; >;
@@ -328,8 +333,8 @@ pub type LocalAndForeignAssets = fungibles::UnionOf<
pub type NativeAndAssets = fungible::UnionOf< pub type NativeAndAssets = fungible::UnionOf<
Balances, Balances,
LocalAndForeignAssets, LocalAndForeignAssets,
TargetFromLeft<TokenLocation>, TargetFromLeft<TokenLocationV3, xcm::v3::Location>,
MultiLocation, xcm::v3::Location,
AccountId, AccountId,
>; >;
@@ -337,15 +342,15 @@ impl pallet_asset_conversion::Config for Runtime {
type RuntimeEvent = RuntimeEvent; type RuntimeEvent = RuntimeEvent;
type Balance = Balance; type Balance = Balance;
type HigherPrecisionBalance = sp_core::U256; type HigherPrecisionBalance = sp_core::U256;
type AssetKind = MultiLocation; type AssetKind = xcm::v3::Location;
type Assets = NativeAndAssets; type Assets = NativeAndAssets;
type PoolId = (Self::AssetKind, Self::AssetKind); type PoolId = (Self::AssetKind, Self::AssetKind);
type PoolLocator = type PoolLocator =
pallet_asset_conversion::WithFirstAsset<TokenLocation, AccountId, Self::AssetKind>; pallet_asset_conversion::WithFirstAsset<TokenLocationV3, AccountId, Self::AssetKind>;
type PoolAssetId = u32; type PoolAssetId = u32;
type PoolAssets = PoolAssets; type PoolAssets = PoolAssets;
type PoolSetupFee = ConstU128<0>; // Asset class deposit fees are sufficient to prevent spam type PoolSetupFee = ConstU128<0>; // Asset class deposit fees are sufficient to prevent spam
type PoolSetupFeeAsset = TokenLocation; type PoolSetupFeeAsset = TokenLocationV3;
type PoolSetupFeeTarget = ResolveAssetTo<AssetConversionOrigin, Self::Assets>; type PoolSetupFeeTarget = ResolveAssetTo<AssetConversionOrigin, Self::Assets>;
type LiquidityWithdrawalFee = LiquidityWithdrawalFee; type LiquidityWithdrawalFee = LiquidityWithdrawalFee;
type LPFee = ConstU32<3>; type LPFee = ConstU32<3>;
@@ -355,9 +360,10 @@ impl pallet_asset_conversion::Config for Runtime {
type WeightInfo = weights::pallet_asset_conversion::WeightInfo<Runtime>; type WeightInfo = weights::pallet_asset_conversion::WeightInfo<Runtime>;
#[cfg(feature = "runtime-benchmarks")] #[cfg(feature = "runtime-benchmarks")]
type BenchmarkHelper = assets_common::benchmarks::AssetPairFactory< type BenchmarkHelper = assets_common::benchmarks::AssetPairFactory<
TokenLocation, TokenLocationV3,
parachain_info::Pallet<Runtime>, parachain_info::Pallet<Runtime>,
xcm_config::AssetsPalletIndex, xcm_config::TrustBackedAssetsPalletIndex,
xcm::v3::Location,
>; >;
} }
@@ -379,16 +385,17 @@ pub type ForeignAssetsInstance = pallet_assets::Instance2;
impl pallet_assets::Config<ForeignAssetsInstance> for Runtime { impl pallet_assets::Config<ForeignAssetsInstance> for Runtime {
type RuntimeEvent = RuntimeEvent; type RuntimeEvent = RuntimeEvent;
type Balance = Balance; type Balance = Balance;
type AssetId = MultiLocationForAssetId; type AssetId = xcm::v3::MultiLocation;
type AssetIdParameter = MultiLocationForAssetId; type AssetIdParameter = xcm::v3::MultiLocation;
type Currency = Balances; type Currency = Balances;
type CreateOrigin = ForeignCreators< type CreateOrigin = ForeignCreators<
( (
FromSiblingParachain<parachain_info::Pallet<Runtime>>, FromSiblingParachain<parachain_info::Pallet<Runtime>, xcm::v3::Location>,
FromNetwork<xcm_config::UniversalLocation, EthereumNetwork>, FromNetwork<xcm_config::UniversalLocation, EthereumNetwork, xcm::v3::Location>,
), ),
ForeignCreatorsSovereignAccountOf, ForeignCreatorsSovereignAccountOf,
AccountId, AccountId,
xcm::v3::Location,
>; >;
type ForceOrigin = AssetsForceOrigin; type ForceOrigin = AssetsForceOrigin;
type AssetDeposit = ForeignAssetsAssetDeposit; type AssetDeposit = ForeignAssetsAssetDeposit;
@@ -664,7 +671,7 @@ impl cumulus_pallet_aura_ext::Config for Runtime {}
parameter_types! { parameter_types! {
/// The asset ID for the asset that we use to pay for message delivery fees. /// The asset ID for the asset that we use to pay for message delivery fees.
pub FeeAssetId: AssetId = Concrete(xcm_config::TokenLocation::get()); pub FeeAssetId: AssetId = AssetId(xcm_config::TokenLocation::get());
/// The base fee for the message delivery fees. /// The base fee for the message delivery fees.
pub const BaseDeliveryFee: u128 = CENTS.saturating_mul(3); pub const BaseDeliveryFee: u128 = CENTS.saturating_mul(3);
} }
@@ -753,7 +760,7 @@ impl pallet_asset_conversion_tx_payment::Config for Runtime {
type RuntimeEvent = RuntimeEvent; type RuntimeEvent = RuntimeEvent;
type Fungibles = LocalAndForeignAssets; type Fungibles = LocalAndForeignAssets;
type OnChargeAssetTransaction = type OnChargeAssetTransaction =
AssetConversionAdapter<Balances, AssetConversion, TokenLocation>; AssetConversionAdapter<Balances, AssetConversion, TokenLocationV3>;
} }
parameter_types! { parameter_types! {
@@ -1157,18 +1164,16 @@ impl_runtime_apis! {
impl pallet_asset_conversion::AssetConversionApi< impl pallet_asset_conversion::AssetConversionApi<
Block, Block,
Balance, Balance,
MultiLocation, xcm::v3::Location,
> for Runtime > for Runtime
{ {
fn quote_price_exact_tokens_for_tokens(asset1: MultiLocation, asset2: MultiLocation, amount: Balance, include_fee: bool) -> Option<Balance> { fn quote_price_exact_tokens_for_tokens(asset1: xcm::v3::Location, asset2: xcm::v3::Location, amount: Balance, include_fee: bool) -> Option<Balance> {
AssetConversion::quote_price_exact_tokens_for_tokens(asset1, asset2, amount, include_fee) AssetConversion::quote_price_exact_tokens_for_tokens(asset1, asset2, amount, include_fee)
} }
fn quote_price_tokens_for_exact_tokens(asset1: xcm::v3::Location, asset2: xcm::v3::Location, amount: Balance, include_fee: bool) -> Option<Balance> {
fn quote_price_tokens_for_exact_tokens(asset1: MultiLocation, asset2: MultiLocation, amount: Balance, include_fee: bool) -> Option<Balance> {
AssetConversion::quote_price_tokens_for_exact_tokens(asset1, asset2, amount, include_fee) AssetConversion::quote_price_tokens_for_exact_tokens(asset1, asset2, amount, include_fee)
} }
fn get_reserves(asset1: xcm::v3::Location, asset2: xcm::v3::Location) -> Option<(Balance, Balance)> {
fn get_reserves(asset1: MultiLocation, asset2: MultiLocation) -> Option<(Balance, Balance)> {
AssetConversion::get_reserves(asset1, asset2).ok() AssetConversion::get_reserves(asset1, asset2).ok()
} }
} }
@@ -1222,7 +1227,7 @@ impl_runtime_apis! {
AccountId, AccountId,
> for Runtime > for Runtime
{ {
fn query_account_balances(account: AccountId) -> Result<xcm::VersionedMultiAssets, assets_common::runtime_api::FungiblesAccessError> { fn query_account_balances(account: AccountId) -> Result<xcm::VersionedAssets, assets_common::runtime_api::FungiblesAccessError> {
use assets_common::fungible_conversion::{convert, convert_balance}; use assets_common::fungible_conversion::{convert, convert_balance};
Ok([ Ok([
// collect pallet_balance // collect pallet_balance
@@ -1346,45 +1351,45 @@ impl_runtime_apis! {
use pallet_xcm::benchmarking::Pallet as PalletXcmExtrinsicsBenchmark; use pallet_xcm::benchmarking::Pallet as PalletXcmExtrinsicsBenchmark;
impl pallet_xcm::benchmarking::Config for Runtime { impl pallet_xcm::benchmarking::Config for Runtime {
fn reachable_dest() -> Option<MultiLocation> { fn reachable_dest() -> Option<Location> {
Some(Parent.into()) Some(Parent.into())
} }
fn teleportable_asset_and_dest() -> Option<(MultiAsset, MultiLocation)> { fn teleportable_asset_and_dest() -> Option<(Asset, Location)> {
// Relay/native token can be teleported between AH and Relay. // Relay/native token can be teleported between AH and Relay.
Some(( Some((
MultiAsset { Asset {
fun: Fungible(EXISTENTIAL_DEPOSIT), fun: Fungible(EXISTENTIAL_DEPOSIT),
id: Concrete(Parent.into()) id: AssetId(Parent.into())
}, },
Parent.into(), Parent.into(),
)) ))
} }
fn reserve_transferable_asset_and_dest() -> Option<(MultiAsset, MultiLocation)> { fn reserve_transferable_asset_and_dest() -> Option<(Asset, Location)> {
// AH can reserve transfer native token to some random parachain. // AH can reserve transfer native token to some random parachain.
let random_para_id = 43211234; let random_para_id = 43211234;
ParachainSystem::open_outbound_hrmp_channel_for_benchmarks_or_tests( ParachainSystem::open_outbound_hrmp_channel_for_benchmarks_or_tests(
random_para_id.into() random_para_id.into()
); );
Some(( Some((
MultiAsset { Asset {
fun: Fungible(EXISTENTIAL_DEPOSIT), fun: Fungible(EXISTENTIAL_DEPOSIT),
id: Concrete(Parent.into()) id: AssetId(Parent.into())
}, },
ParentThen(Parachain(random_para_id).into()).into(), ParentThen(Parachain(random_para_id).into()).into(),
)) ))
} }
fn set_up_complex_asset_transfer( fn set_up_complex_asset_transfer(
) -> Option<(MultiAssets, u32, MultiLocation, Box<dyn FnOnce()>)> { ) -> Option<(xcm::v4::Assets, u32, Location, Box<dyn FnOnce()>)> {
// Transfer to Relay some local AH asset (local-reserve-transfer) while paying // Transfer to Relay some local AH asset (local-reserve-transfer) while paying
// fees using teleported native token. // fees using teleported native token.
// (We don't care that Relay doesn't accept incoming unknown AH local asset) // (We don't care that Relay doesn't accept incoming unknown AH local asset)
let dest = Parent.into(); let dest = Parent.into();
let fee_amount = EXISTENTIAL_DEPOSIT; let fee_amount = EXISTENTIAL_DEPOSIT;
let fee_asset: MultiAsset = (MultiLocation::parent(), fee_amount).into(); let fee_asset: Asset = (Location::parent(), fee_amount).into();
let who = frame_benchmarking::whitelisted_caller(); let who = frame_benchmarking::whitelisted_caller();
// Give some multiple of the existential deposit // Give some multiple of the existential deposit
@@ -1402,13 +1407,13 @@ impl_runtime_apis! {
Runtime, Runtime,
pallet_assets::Instance1 pallet_assets::Instance1
>(true, initial_asset_amount); >(true, initial_asset_amount);
let asset_location = MultiLocation::new( let asset_location = Location::new(
0, 0,
X2(PalletInstance(50), GeneralIndex(u32::from(asset_id).into())) [PalletInstance(50), GeneralIndex(u32::from(asset_id).into())]
); );
let transfer_asset: MultiAsset = (asset_location, asset_amount).into(); let transfer_asset: Asset = (asset_location, asset_amount).into();
let assets: MultiAssets = vec![fee_asset.clone(), transfer_asset].into(); let assets: xcm::v4::Assets = vec![fee_asset.clone(), transfer_asset].into();
let fee_index = if assets.get(0).unwrap().eq(&fee_asset) { 0 } else { 1 }; let fee_index = if assets.get(0).unwrap().eq(&fee_asset) { 0 } else { 1 };
// verify transferred successfully // verify transferred successfully
@@ -1432,14 +1437,14 @@ impl_runtime_apis! {
xcm_config::bridging::SiblingBridgeHubParaId::get().into() xcm_config::bridging::SiblingBridgeHubParaId::get().into()
); );
} }
fn ensure_bridged_target_destination() -> Result<MultiLocation, BenchmarkError> { fn ensure_bridged_target_destination() -> Result<Location, BenchmarkError> {
ParachainSystem::open_outbound_hrmp_channel_for_benchmarks_or_tests( ParachainSystem::open_outbound_hrmp_channel_for_benchmarks_or_tests(
xcm_config::bridging::SiblingBridgeHubParaId::get().into() xcm_config::bridging::SiblingBridgeHubParaId::get().into()
); );
let bridged_asset_hub = xcm_config::bridging::to_westend::AssetHubWestend::get(); let bridged_asset_hub = xcm_config::bridging::to_westend::AssetHubWestend::get();
let _ = PolkadotXcm::force_xcm_version( let _ = PolkadotXcm::force_xcm_version(
RuntimeOrigin::root(), RuntimeOrigin::root(),
Box::new(bridged_asset_hub), Box::new(bridged_asset_hub.clone()),
XCM_VERSION, XCM_VERSION,
).map_err(|e| { ).map_err(|e| {
log::error!( log::error!(
@@ -1455,12 +1460,11 @@ impl_runtime_apis! {
} }
} }
use xcm::latest::prelude::*;
use xcm_config::{TokenLocation, MaxAssetsIntoHolding}; use xcm_config::{TokenLocation, MaxAssetsIntoHolding};
use pallet_xcm_benchmarks::asset_instance_from; use pallet_xcm_benchmarks::asset_instance_from;
parameter_types! { parameter_types! {
pub ExistentialDepositMultiAsset: Option<MultiAsset> = Some(( pub ExistentialDepositAsset: Option<Asset> = Some((
TokenLocation::get(), TokenLocation::get(),
ExistentialDeposit::get() ExistentialDeposit::get()
).into()); ).into());
@@ -1471,33 +1475,33 @@ impl_runtime_apis! {
type AccountIdConverter = xcm_config::LocationToAccountId; type AccountIdConverter = xcm_config::LocationToAccountId;
type DeliveryHelper = cumulus_primitives_utility::ToParentDeliveryHelper< type DeliveryHelper = cumulus_primitives_utility::ToParentDeliveryHelper<
xcm_config::XcmConfig, xcm_config::XcmConfig,
ExistentialDepositMultiAsset, ExistentialDepositAsset,
xcm_config::PriceForParentDelivery, xcm_config::PriceForParentDelivery,
>; >;
fn valid_destination() -> Result<MultiLocation, BenchmarkError> { fn valid_destination() -> Result<Location, BenchmarkError> {
Ok(TokenLocation::get()) Ok(TokenLocation::get())
} }
fn worst_case_holding(depositable_count: u32) -> MultiAssets { fn worst_case_holding(depositable_count: u32) -> xcm::v4::Assets {
// A mix of fungible, non-fungible, and concrete assets. // A mix of fungible, non-fungible, and concrete assets.
let holding_non_fungibles = MaxAssetsIntoHolding::get() / 2 - depositable_count; let holding_non_fungibles = MaxAssetsIntoHolding::get() / 2 - depositable_count;
let holding_fungibles = holding_non_fungibles.saturating_sub(1); let holding_fungibles = holding_non_fungibles.saturating_sub(1);
let fungibles_amount: u128 = 100; let fungibles_amount: u128 = 100;
let mut assets = (0..holding_fungibles) let mut assets = (0..holding_fungibles)
.map(|i| { .map(|i| {
MultiAsset { Asset {
id: Concrete(GeneralIndex(i as u128).into()), id: GeneralIndex(i as u128).into(),
fun: Fungible(fungibles_amount * i as u128), fun: Fungible(fungibles_amount * i as u128),
} }
}) })
.chain(core::iter::once(MultiAsset { id: Concrete(Here.into()), fun: Fungible(u128::MAX) })) .chain(core::iter::once(Asset { id: Here.into(), fun: Fungible(u128::MAX) }))
.chain((0..holding_non_fungibles).map(|i| MultiAsset { .chain((0..holding_non_fungibles).map(|i| Asset {
id: Concrete(GeneralIndex(i as u128).into()), id: GeneralIndex(i as u128).into(),
fun: NonFungible(asset_instance_from(i)), fun: NonFungible(asset_instance_from(i)),
})) }))
.collect::<Vec<_>>(); .collect::<Vec<_>>();
assets.push(MultiAsset { assets.push(Asset {
id: Concrete(TokenLocation::get()), id: AssetId(TokenLocation::get()),
fun: Fungible(1_000_000 * UNITS), fun: Fungible(1_000_000 * UNITS),
}); });
assets.into() assets.into()
@@ -1505,16 +1509,16 @@ impl_runtime_apis! {
} }
parameter_types! { parameter_types! {
pub const TrustedTeleporter: Option<(MultiLocation, MultiAsset)> = Some(( pub const TrustedTeleporter: Option<(Location, Asset)> = Some((
TokenLocation::get(), TokenLocation::get(),
MultiAsset { fun: Fungible(UNITS), id: Concrete(TokenLocation::get()) }, Asset { fun: Fungible(UNITS), id: AssetId(TokenLocation::get()) },
)); ));
pub const CheckedAccount: Option<(AccountId, xcm_builder::MintLocation)> = None; pub const CheckedAccount: Option<(AccountId, xcm_builder::MintLocation)> = None;
// AssetHubRococo trusts AssetHubWestend as reserve for WNDs // AssetHubRococo trusts AssetHubWestend as reserve for WNDs
pub TrustedReserve: Option<(MultiLocation, MultiAsset)> = Some( pub TrustedReserve: Option<(Location, Asset)> = Some(
( (
xcm_config::bridging::to_westend::AssetHubWestend::get(), xcm_config::bridging::to_westend::AssetHubWestend::get(),
MultiAsset::from((xcm_config::bridging::to_westend::WndLocation::get(), 1000000000000 as u128)) Asset::from((xcm_config::bridging::to_westend::WndLocation::get(), 1000000000000 as u128))
) )
); );
} }
@@ -1526,9 +1530,9 @@ impl_runtime_apis! {
type TrustedTeleporter = TrustedTeleporter; type TrustedTeleporter = TrustedTeleporter;
type TrustedReserve = TrustedReserve; type TrustedReserve = TrustedReserve;
fn get_multi_asset() -> MultiAsset { fn get_asset() -> Asset {
MultiAsset { Asset {
id: Concrete(TokenLocation::get()), id: AssetId(TokenLocation::get()),
fun: Fungible(UNITS), fun: Fungible(UNITS),
} }
} }
@@ -1542,42 +1546,42 @@ impl_runtime_apis! {
(0u64, Response::Version(Default::default())) (0u64, Response::Version(Default::default()))
} }
fn worst_case_asset_exchange() -> Result<(MultiAssets, MultiAssets), BenchmarkError> { fn worst_case_asset_exchange() -> Result<(xcm::v4::Assets, xcm::v4::Assets), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
fn universal_alias() -> Result<(MultiLocation, Junction), BenchmarkError> { fn universal_alias() -> Result<(Location, Junction), BenchmarkError> {
match xcm_config::bridging::BridgingBenchmarksHelper::prepare_universal_alias() { match xcm_config::bridging::BridgingBenchmarksHelper::prepare_universal_alias() {
Some(alias) => Ok(alias), Some(alias) => Ok(alias),
None => Err(BenchmarkError::Skip) None => Err(BenchmarkError::Skip)
} }
} }
fn transact_origin_and_runtime_call() -> Result<(MultiLocation, RuntimeCall), BenchmarkError> { fn transact_origin_and_runtime_call() -> Result<(Location, RuntimeCall), BenchmarkError> {
Ok((TokenLocation::get(), frame_system::Call::remark_with_event { remark: vec![] }.into())) Ok((TokenLocation::get(), frame_system::Call::remark_with_event { remark: vec![] }.into()))
} }
fn subscribe_origin() -> Result<MultiLocation, BenchmarkError> { fn subscribe_origin() -> Result<Location, BenchmarkError> {
Ok(TokenLocation::get()) Ok(TokenLocation::get())
} }
fn claimable_asset() -> Result<(MultiLocation, MultiLocation, MultiAssets), BenchmarkError> { fn claimable_asset() -> Result<(Location, Location, xcm::v4::Assets), BenchmarkError> {
let origin = TokenLocation::get(); let origin = TokenLocation::get();
let assets: MultiAssets = (Concrete(TokenLocation::get()), 1_000 * UNITS).into(); let assets: xcm::v4::Assets = (TokenLocation::get(), 1_000 * UNITS).into();
let ticket = MultiLocation { parents: 0, interior: Here }; let ticket = Location { parents: 0, interior: Here };
Ok((origin, ticket, assets)) Ok((origin, ticket, assets))
} }
fn unlockable_asset() -> Result<(MultiLocation, MultiLocation, MultiAsset), BenchmarkError> { fn unlockable_asset() -> Result<(Location, Location, Asset), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
fn export_message_origin_and_destination( fn export_message_origin_and_destination(
) -> Result<(MultiLocation, NetworkId, InteriorMultiLocation), BenchmarkError> { ) -> Result<(Location, NetworkId, InteriorLocation), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
fn alias_origin() -> Result<(MultiLocation, MultiLocation), BenchmarkError> { fn alias_origin() -> Result<(Location, Location), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
} }
cumulus/parachains/runtimes/assets/asset-hub-rococo/src/weights/xcm/mod.rs
+42 -54
View File
@@ -24,14 +24,14 @@ use pallet_xcm_benchmarks_generic::WeightInfo as XcmGeneric;
use sp_std::prelude::*; use sp_std::prelude::*;
use xcm::{latest::prelude::*, DoubleEncoded}; use xcm::{latest::prelude::*, DoubleEncoded};
trait WeighMultiAssets { trait WeighAssets {
fn weigh_multi_assets(&self, weight: Weight) -> Weight; fn weigh_assets(&self, weight: Weight) -> Weight;
} }
const MAX_ASSETS: u64 = 100; const MAX_ASSETS: u64 = 100;
impl WeighMultiAssets for MultiAssetFilter { impl WeighAssets for AssetFilter {
fn weigh_multi_assets(&self, weight: Weight) -> Weight { fn weigh_assets(&self, weight: Weight) -> Weight {
match self { match self {
Self::Definite(assets) => weight.saturating_mul(assets.inner().iter().count() as u64), Self::Definite(assets) => weight.saturating_mul(assets.inner().iter().count() as u64),
Self::Wild(asset) => match asset { Self::Wild(asset) => match asset {
@@ -50,40 +50,36 @@ impl WeighMultiAssets for MultiAssetFilter {
} }
} }
impl WeighMultiAssets for MultiAssets { impl WeighAssets for Assets {
fn weigh_multi_assets(&self, weight: Weight) -> Weight { fn weigh_assets(&self, weight: Weight) -> Weight {
weight.saturating_mul(self.inner().iter().count() as u64) weight.saturating_mul(self.inner().iter().count() as u64)
} }
} }
pub struct AssetHubRococoXcmWeight<Call>(core::marker::PhantomData<Call>); pub struct AssetHubRococoXcmWeight<Call>(core::marker::PhantomData<Call>);
impl<Call> XcmWeightInfo<Call> for AssetHubRococoXcmWeight<Call> { impl<Call> XcmWeightInfo<Call> for AssetHubRococoXcmWeight<Call> {
fn withdraw_asset(assets: &MultiAssets) -> Weight { fn withdraw_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::withdraw_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::withdraw_asset())
} }
fn reserve_asset_deposited(assets: &MultiAssets) -> Weight { fn reserve_asset_deposited(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::reserve_asset_deposited()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::reserve_asset_deposited())
} }
fn receive_teleported_asset(assets: &MultiAssets) -> Weight { fn receive_teleported_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::receive_teleported_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::receive_teleported_asset())
} }
fn query_response( fn query_response(
_query_id: &u64, _query_id: &u64,
_response: &Response, _response: &Response,
_max_weight: &Weight, _max_weight: &Weight,
_querier: &Option<MultiLocation>, _querier: &Option<Location>,
) -> Weight { ) -> Weight {
XcmGeneric::<Runtime>::query_response() XcmGeneric::<Runtime>::query_response()
} }
fn transfer_asset(assets: &MultiAssets, _dest: &MultiLocation) -> Weight { fn transfer_asset(assets: &Assets, _dest: &Location) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::transfer_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::transfer_asset())
} }
fn transfer_reserve_asset( fn transfer_reserve_asset(assets: &Assets, _dest: &Location, _xcm: &Xcm<()>) -> Weight {
assets: &MultiAssets, assets.weigh_assets(XcmFungibleWeight::<Runtime>::transfer_reserve_asset())
_dest: &MultiLocation,
_xcm: &Xcm<()>,
) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::transfer_reserve_asset())
} }
fn transact( fn transact(
_origin_type: &OriginKind, _origin_type: &OriginKind,
@@ -111,43 +107,35 @@ impl<Call> XcmWeightInfo<Call> for AssetHubRococoXcmWeight<Call> {
fn clear_origin() -> Weight { fn clear_origin() -> Weight {
XcmGeneric::<Runtime>::clear_origin() XcmGeneric::<Runtime>::clear_origin()
} }
fn descend_origin(_who: &InteriorMultiLocation) -> Weight { fn descend_origin(_who: &InteriorLocation) -> Weight {
XcmGeneric::<Runtime>::descend_origin() XcmGeneric::<Runtime>::descend_origin()
} }
fn report_error(_query_response_info: &QueryResponseInfo) -> Weight { fn report_error(_query_response_info: &QueryResponseInfo) -> Weight {
XcmGeneric::<Runtime>::report_error() XcmGeneric::<Runtime>::report_error()
} }
fn deposit_asset(assets: &MultiAssetFilter, _dest: &MultiLocation) -> Weight { fn deposit_asset(assets: &AssetFilter, _dest: &Location) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::deposit_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::deposit_asset())
} }
fn deposit_reserve_asset( fn deposit_reserve_asset(assets: &AssetFilter, _dest: &Location, _xcm: &Xcm<()>) -> Weight {
assets: &MultiAssetFilter, assets.weigh_assets(XcmFungibleWeight::<Runtime>::deposit_reserve_asset())
_dest: &MultiLocation,
_xcm: &Xcm<()>,
) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::deposit_reserve_asset())
} }
fn exchange_asset(_give: &MultiAssetFilter, _receive: &MultiAssets, _maximal: &bool) -> Weight { fn exchange_asset(_give: &AssetFilter, _receive: &Assets, _maximal: &bool) -> Weight {
Weight::MAX Weight::MAX
} }
fn initiate_reserve_withdraw( fn initiate_reserve_withdraw(
assets: &MultiAssetFilter, assets: &AssetFilter,
_reserve: &MultiLocation, _reserve: &Location,
_xcm: &Xcm<()>, _xcm: &Xcm<()>,
) -> Weight { ) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::initiate_reserve_withdraw()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::initiate_reserve_withdraw())
} }
fn initiate_teleport( fn initiate_teleport(assets: &AssetFilter, _dest: &Location, _xcm: &Xcm<()>) -> Weight {
assets: &MultiAssetFilter, assets.weigh_assets(XcmFungibleWeight::<Runtime>::initiate_teleport())
_dest: &MultiLocation,
_xcm: &Xcm<()>,
) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::initiate_teleport())
} }
fn report_holding(_response_info: &QueryResponseInfo, _assets: &MultiAssetFilter) -> Weight { fn report_holding(_response_info: &QueryResponseInfo, _assets: &AssetFilter) -> Weight {
XcmGeneric::<Runtime>::report_holding() XcmGeneric::<Runtime>::report_holding()
} }
fn buy_execution(_fees: &MultiAsset, _weight_limit: &WeightLimit) -> Weight { fn buy_execution(_fees: &Asset, _weight_limit: &WeightLimit) -> Weight {
XcmGeneric::<Runtime>::buy_execution() XcmGeneric::<Runtime>::buy_execution()
} }
fn refund_surplus() -> Weight { fn refund_surplus() -> Weight {
@@ -162,7 +150,7 @@ impl<Call> XcmWeightInfo<Call> for AssetHubRococoXcmWeight<Call> {
fn clear_error() -> Weight { fn clear_error() -> Weight {
XcmGeneric::<Runtime>::clear_error() XcmGeneric::<Runtime>::clear_error()
} }
fn claim_asset(_assets: &MultiAssets, _ticket: &MultiLocation) -> Weight { fn claim_asset(_assets: &Assets, _ticket: &Location) -> Weight {
XcmGeneric::<Runtime>::claim_asset() XcmGeneric::<Runtime>::claim_asset()
} }
fn trap(_code: &u64) -> Weight { fn trap(_code: &u64) -> Weight {
@@ -174,13 +162,13 @@ impl<Call> XcmWeightInfo<Call> for AssetHubRococoXcmWeight<Call> {
fn unsubscribe_version() -> Weight { fn unsubscribe_version() -> Weight {
XcmGeneric::<Runtime>::unsubscribe_version() XcmGeneric::<Runtime>::unsubscribe_version()
} }
fn burn_asset(assets: &MultiAssets) -> Weight { fn burn_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmGeneric::<Runtime>::burn_asset()) assets.weigh_assets(XcmGeneric::<Runtime>::burn_asset())
} }
fn expect_asset(assets: &MultiAssets) -> Weight { fn expect_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmGeneric::<Runtime>::expect_asset()) assets.weigh_assets(XcmGeneric::<Runtime>::expect_asset())
} }
fn expect_origin(_origin: &Option<MultiLocation>) -> Weight { fn expect_origin(_origin: &Option<Location>) -> Weight {
XcmGeneric::<Runtime>::expect_origin() XcmGeneric::<Runtime>::expect_origin()
} }
fn expect_error(_error: &Option<(u32, XcmError)>) -> Weight { fn expect_error(_error: &Option<(u32, XcmError)>) -> Weight {
@@ -213,16 +201,16 @@ impl<Call> XcmWeightInfo<Call> for AssetHubRococoXcmWeight<Call> {
fn export_message(_: &NetworkId, _: &Junctions, _: &Xcm<()>) -> Weight { fn export_message(_: &NetworkId, _: &Junctions, _: &Xcm<()>) -> Weight {
Weight::MAX Weight::MAX
} }
fn lock_asset(_: &MultiAsset, _: &MultiLocation) -> Weight { fn lock_asset(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn unlock_asset(_: &MultiAsset, _: &MultiLocation) -> Weight { fn unlock_asset(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn note_unlockable(_: &MultiAsset, _: &MultiLocation) -> Weight { fn note_unlockable(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn request_unlock(_: &MultiAsset, _: &MultiLocation) -> Weight { fn request_unlock(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn set_fees_mode(_: &bool) -> Weight { fn set_fees_mode(_: &bool) -> Weight {
@@ -234,11 +222,11 @@ impl<Call> XcmWeightInfo<Call> for AssetHubRococoXcmWeight<Call> {
fn clear_topic() -> Weight { fn clear_topic() -> Weight {
XcmGeneric::<Runtime>::clear_topic() XcmGeneric::<Runtime>::clear_topic()
} }
fn alias_origin(_: &MultiLocation) -> Weight { fn alias_origin(_: &Location) -> Weight {
// XCM Executor does not currently support alias origin operations // XCM Executor does not currently support alias origin operations
Weight::MAX Weight::MAX
} }
fn unpaid_execution(_: &WeightLimit, _: &Option<MultiLocation>) -> Weight { fn unpaid_execution(_: &WeightLimit, _: &Option<Location>) -> Weight {
XcmGeneric::<Runtime>::unpaid_execution() XcmGeneric::<Runtime>::unpaid_execution()
} }
} }
cumulus/parachains/runtimes/assets/asset-hub-rococo/src/xcm_config.rs
+79 -61
View File
@@ -20,12 +20,12 @@ use super::{
ToWestendXcmRouter, TransactionByteFee, TrustBackedAssetsInstance, WeightToFee, XcmpQueue, ToWestendXcmRouter, TransactionByteFee, TrustBackedAssetsInstance, WeightToFee, XcmpQueue,
}; };
use assets_common::{ use assets_common::{
local_and_foreign_assets::MatchesLocalAndForeignAssetsMultiLocation, local_and_foreign_assets::MatchesLocalAndForeignAssetsLocation,
matching::{FromNetwork, FromSiblingParachain, IsForeignConcreteAsset}, matching::{FromNetwork, FromSiblingParachain, IsForeignConcreteAsset},
TrustBackedAssetsAsMultiLocation, TrustBackedAssetsAsLocation,
}; };
use frame_support::{ use frame_support::{
match_types, parameter_types, parameter_types,
traits::{ traits::{
tokens::imbalance::ResolveAssetTo, ConstU32, Contains, Equals, Everything, Nothing, tokens::imbalance::ResolveAssetTo, ConstU32, Contains, Equals, Everything, Nothing,
PalletInfoAccess, PalletInfoAccess,
@@ -64,26 +64,32 @@ use xcm_builder::{
use xcm_executor::{traits::WithOriginFilter, XcmExecutor}; use xcm_executor::{traits::WithOriginFilter, XcmExecutor};
parameter_types! { parameter_types! {
pub const TokenLocation: MultiLocation = MultiLocation::parent(); pub const TokenLocation: Location = Location::parent();
pub const TokenLocationV3: xcm::v3::Location = xcm::v3::Location::parent();
pub const RelayNetwork: NetworkId = NetworkId::Rococo; pub const RelayNetwork: NetworkId = NetworkId::Rococo;
pub RelayChainOrigin: RuntimeOrigin = cumulus_pallet_xcm::Origin::Relay.into(); pub RelayChainOrigin: RuntimeOrigin = cumulus_pallet_xcm::Origin::Relay.into();
pub UniversalLocation: InteriorMultiLocation = pub UniversalLocation: InteriorLocation =
X2(GlobalConsensus(RelayNetwork::get()), Parachain(ParachainInfo::parachain_id().into())); [GlobalConsensus(RelayNetwork::get()), Parachain(ParachainInfo::parachain_id().into())].into();
pub UniversalLocationNetworkId: NetworkId = UniversalLocation::get().global_consensus().unwrap(); pub UniversalLocationNetworkId: NetworkId = UniversalLocation::get().global_consensus().unwrap();
pub AssetsPalletIndex: u32 = <Assets as PalletInfoAccess>::index() as u32; pub TrustBackedAssetsPalletLocation: Location =
pub TrustBackedAssetsPalletLocation: MultiLocation = PalletInstance(AssetsPalletIndex::get() as u8).into(); PalletInstance(TrustBackedAssetsPalletIndex::get()).into();
pub ForeignAssetsPalletLocation: MultiLocation = pub TrustBackedAssetsPalletIndex: u8 = <Assets as PalletInfoAccess>::index() as u8;
pub TrustBackedAssetsPalletLocationV3: xcm::v3::Location =
xcm::v3::Junction::PalletInstance(<Assets as PalletInfoAccess>::index() as u8).into();
pub ForeignAssetsPalletLocation: Location =
PalletInstance(<ForeignAssets as PalletInfoAccess>::index() as u8).into(); PalletInstance(<ForeignAssets as PalletInfoAccess>::index() as u8).into();
pub PoolAssetsPalletLocation: MultiLocation = pub PoolAssetsPalletLocation: Location =
PalletInstance(<PoolAssets as PalletInfoAccess>::index() as u8).into(); PalletInstance(<PoolAssets as PalletInfoAccess>::index() as u8).into();
pub PoolAssetsPalletLocationV3: xcm::v3::Location =
xcm::v3::Junction::PalletInstance(<PoolAssets as PalletInfoAccess>::index() as u8).into();
pub CheckingAccount: AccountId = PolkadotXcm::check_account(); pub CheckingAccount: AccountId = PolkadotXcm::check_account();
pub const GovernanceLocation: Location = Location::parent();
pub StakingPot: AccountId = CollatorSelection::account_id(); pub StakingPot: AccountId = CollatorSelection::account_id();
pub const GovernanceLocation: MultiLocation = MultiLocation::parent();
pub TreasuryAccount: AccountId = TREASURY_PALLET_ID.into_account_truncating(); pub TreasuryAccount: AccountId = TREASURY_PALLET_ID.into_account_truncating();
pub RelayTreasuryLocation: MultiLocation = (Parent, PalletInstance(rococo_runtime_constants::TREASURY_PALLET_ID)).into(); pub RelayTreasuryLocation: Location = (Parent, PalletInstance(rococo_runtime_constants::TREASURY_PALLET_ID)).into();
} }
/// Type for specifying how a `MultiLocation` can be converted into an `AccountId`. This is used /// Type for specifying how a `Location` can be converted into an `AccountId`. This is used
/// when determining ownership of accounts for asset transacting and when attempting to use XCM /// when determining ownership of accounts for asset transacting and when attempting to use XCM
/// `Transact` in order to determine the dispatch Origin. /// `Transact` in order to determine the dispatch Origin.
pub type LocationToAccountId = ( pub type LocationToAccountId = (
@@ -110,7 +116,7 @@ pub type CurrencyTransactor = CurrencyAdapter<
Balances, Balances,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
IsConcrete<TokenLocation>, IsConcrete<TokenLocation>,
// Convert an XCM MultiLocation into a local account id: // Convert an XCM Location into a local account id:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -128,7 +134,7 @@ pub type FungiblesTransactor = FungiblesAdapter<
Assets, Assets,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
TrustBackedAssetsConvertedConcreteId, TrustBackedAssetsConvertedConcreteId,
// Convert an XCM MultiLocation into a local account id: // Convert an XCM Location into a local account id:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -145,8 +151,8 @@ pub type ForeignAssetsConvertedConcreteId = assets_common::ForeignAssetsConverte
// Ignore `TrustBackedAssets` explicitly // Ignore `TrustBackedAssets` explicitly
StartsWith<TrustBackedAssetsPalletLocation>, StartsWith<TrustBackedAssetsPalletLocation>,
// Ignore assets that start explicitly with our `GlobalConsensus(NetworkId)`, means: // Ignore assets that start explicitly with our `GlobalConsensus(NetworkId)`, means:
// - foreign assets from our consensus should be: `MultiLocation {parents: 1, // - foreign assets from our consensus should be: `Location {parents: 1, X*(Parachain(xyz),
// X*(Parachain(xyz), ..)}` // ..)}`
// - foreign assets outside our consensus with the same `GlobalConsensus(NetworkId)` won't // - foreign assets outside our consensus with the same `GlobalConsensus(NetworkId)` won't
// be accepted here // be accepted here
StartsWithExplicitGlobalConsensus<UniversalLocationNetworkId>, StartsWithExplicitGlobalConsensus<UniversalLocationNetworkId>,
@@ -160,7 +166,7 @@ pub type ForeignFungiblesTransactor = FungiblesAdapter<
ForeignAssets, ForeignAssets,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
ForeignAssetsConvertedConcreteId, ForeignAssetsConvertedConcreteId,
// Convert an XCM MultiLocation into a local account id: // Convert an XCM Location into a local account id:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -180,7 +186,7 @@ pub type PoolFungiblesTransactor = FungiblesAdapter<
PoolAssets, PoolAssets,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
PoolAssetsConvertedConcreteId, PoolAssetsConvertedConcreteId,
// Convert an XCM MultiLocation into a local account id: // Convert an XCM Location into a local account id:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -195,20 +201,32 @@ pub type PoolFungiblesTransactor = FungiblesAdapter<
pub type AssetTransactors = pub type AssetTransactors =
(CurrencyTransactor, FungiblesTransactor, ForeignFungiblesTransactor, PoolFungiblesTransactor); (CurrencyTransactor, FungiblesTransactor, ForeignFungiblesTransactor, PoolFungiblesTransactor);
/// Simple `MultiLocation` matcher for Local and Foreign asset `MultiLocation`. /// Simple `Location` matcher for Local and Foreign asset `Location`.
pub struct LocalAndForeignAssetsMultiLocationMatcher; pub struct LocalAndForeignAssetsLocationMatcher;
impl MatchesLocalAndForeignAssetsMultiLocation for LocalAndForeignAssetsMultiLocationMatcher { impl MatchesLocalAndForeignAssetsLocation<xcm::v3::Location>
fn is_local(location: &MultiLocation) -> bool { for LocalAndForeignAssetsLocationMatcher
use assets_common::fungible_conversion::MatchesMultiLocation; {
TrustBackedAssetsConvertedConcreteId::contains(location) fn is_local(location: &xcm::v3::Location) -> bool {
use assets_common::fungible_conversion::MatchesLocation;
let latest_location: Location = if let Ok(location) = (*location).try_into() {
location
} else {
return false;
};
TrustBackedAssetsConvertedConcreteId::contains(&latest_location)
} }
fn is_foreign(location: &MultiLocation) -> bool { fn is_foreign(location: &xcm::v3::Location) -> bool {
use assets_common::fungible_conversion::MatchesMultiLocation; use assets_common::fungible_conversion::MatchesLocation;
ForeignAssetsConvertedConcreteId::contains(location) let latest_location: Location = if let Ok(location) = (*location).try_into() {
location
} else {
return false;
};
ForeignAssetsConvertedConcreteId::contains(&latest_location)
} }
} }
impl Contains<MultiLocation> for LocalAndForeignAssetsMultiLocationMatcher { impl Contains<xcm::v3::Location> for LocalAndForeignAssetsLocationMatcher {
fn contains(location: &MultiLocation) -> bool { fn contains(location: &xcm::v3::Location) -> bool {
Self::is_local(location) || Self::is_foreign(location) Self::is_local(location) || Self::is_foreign(location)
} }
} }
@@ -243,11 +261,11 @@ parameter_types! {
pub XcmAssetFeesReceiver: Option<AccountId> = Authorship::author(); pub XcmAssetFeesReceiver: Option<AccountId> = Authorship::author();
} }
match_types! { pub struct ParentOrParentsPlurality;
pub type ParentOrParentsPlurality: impl Contains<MultiLocation> = { impl Contains<Location> for ParentOrParentsPlurality {
MultiLocation { parents: 1, interior: Here } | fn contains(location: &Location) -> bool {
MultiLocation { parents: 1, interior: X1(Plurality { .. }) } matches!(location.unpack(), (1, []) | (1, [Plurality { .. }]))
}; }
} }
/// A call filter for the XCM Transact instruction. This is a temporary measure until we properly /// A call filter for the XCM Transact instruction. This is a temporary measure until we properly
@@ -556,12 +574,12 @@ impl xcm_executor::Config for XcmConfig {
type Trader = ( type Trader = (
UsingComponents<WeightToFee, TokenLocation, AccountId, Balances, ToStakingPot<Runtime>>, UsingComponents<WeightToFee, TokenLocation, AccountId, Balances, ToStakingPot<Runtime>>,
cumulus_primitives_utility::SwapFirstAssetTrader< cumulus_primitives_utility::SwapFirstAssetTrader<
TokenLocation, TokenLocationV3,
crate::AssetConversion, crate::AssetConversion,
WeightToFee, WeightToFee,
crate::NativeAndAssets, crate::NativeAndAssets,
( (
TrustBackedAssetsAsMultiLocation<TrustBackedAssetsPalletLocation, Balance>, TrustBackedAssetsAsLocation<TrustBackedAssetsPalletLocation, Balance>,
ForeignAssetsConvertedConcreteId, ForeignAssetsConvertedConcreteId,
), ),
ResolveAssetTo<StakingPot, crate::NativeAndAssets>, ResolveAssetTo<StakingPot, crate::NativeAndAssets>,
@@ -588,7 +606,7 @@ impl xcm_executor::Config for XcmConfig {
type Aliasers = Nothing; type Aliasers = Nothing;
} }
/// Converts a local signed origin into an XCM multilocation. /// Converts a local signed origin into an XCM location.
/// Forms the basis for local origins sending/executing XCMs. /// Forms the basis for local origins sending/executing XCMs.
pub type LocalOriginToLocation = SignedToAccountId32<RuntimeOrigin, AccountId, RelayNetwork>; pub type LocalOriginToLocation = SignedToAccountId32<RuntimeOrigin, AccountId, RelayNetwork>;
@@ -664,9 +682,9 @@ pub type ForeignCreatorsSovereignAccountOf = (
/// Simple conversion of `u32` into an `AssetId` for use in benchmarking. /// Simple conversion of `u32` into an `AssetId` for use in benchmarking.
pub struct XcmBenchmarkHelper; pub struct XcmBenchmarkHelper;
#[cfg(feature = "runtime-benchmarks")] #[cfg(feature = "runtime-benchmarks")]
impl pallet_assets::BenchmarkHelper<MultiLocation> for XcmBenchmarkHelper { impl pallet_assets::BenchmarkHelper<xcm::v3::Location> for XcmBenchmarkHelper {
fn create_asset_id_parameter(id: u32) -> MultiLocation { fn create_asset_id_parameter(id: u32) -> xcm::v3::Location {
MultiLocation { parents: 1, interior: X1(Parachain(id)) } xcm::v3::Location::new(1, [xcm::v3::Junction::Parachain(id)])
} }
} }
@@ -698,7 +716,7 @@ pub mod bridging {
pub storage XcmBridgeHubRouterByteFee: Balance = TransactionByteFee::get(); pub storage XcmBridgeHubRouterByteFee: Balance = TransactionByteFee::get();
pub SiblingBridgeHubParaId: u32 = bp_bridge_hub_rococo::BRIDGE_HUB_ROCOCO_PARACHAIN_ID; pub SiblingBridgeHubParaId: u32 = bp_bridge_hub_rococo::BRIDGE_HUB_ROCOCO_PARACHAIN_ID;
pub SiblingBridgeHub: MultiLocation = MultiLocation::new(1, X1(Parachain(SiblingBridgeHubParaId::get()))); pub SiblingBridgeHub: Location = Location::new(1, [Parachain(SiblingBridgeHubParaId::get())]);
/// Router expects payment with this `AssetId`. /// Router expects payment with this `AssetId`.
/// (`AssetId` has to be aligned with `BridgeTable`) /// (`AssetId` has to be aligned with `BridgeTable`)
pub XcmBridgeHubRouterFeeAssetId: AssetId = TokenLocation::get().into(); pub XcmBridgeHubRouterFeeAssetId: AssetId = TokenLocation::get().into();
@@ -722,25 +740,25 @@ pub mod bridging {
use super::*; use super::*;
parameter_types! { parameter_types! {
pub SiblingBridgeHubWithBridgeHubWestendInstance: MultiLocation = MultiLocation::new( pub SiblingBridgeHubWithBridgeHubWestendInstance: Location = Location::new(
1, 1,
X2( [
Parachain(SiblingBridgeHubParaId::get()), Parachain(SiblingBridgeHubParaId::get()),
PalletInstance(bp_bridge_hub_rococo::WITH_BRIDGE_ROCOCO_TO_WESTEND_MESSAGES_PALLET_INDEX) PalletInstance(bp_bridge_hub_rococo::WITH_BRIDGE_ROCOCO_TO_WESTEND_MESSAGES_PALLET_INDEX)
) ]
); );
pub const WestendNetwork: NetworkId = NetworkId::Westend; pub const WestendNetwork: NetworkId = NetworkId::Westend;
pub AssetHubWestend: MultiLocation = MultiLocation::new(2, X2(GlobalConsensus(WestendNetwork::get()), Parachain(bp_asset_hub_westend::ASSET_HUB_WESTEND_PARACHAIN_ID))); pub AssetHubWestend: Location = Location::new(2, [GlobalConsensus(WestendNetwork::get()), Parachain(bp_asset_hub_westend::ASSET_HUB_WESTEND_PARACHAIN_ID)]);
pub WndLocation: MultiLocation = MultiLocation::new(2, X1(GlobalConsensus(WestendNetwork::get()))); pub WndLocation: Location = Location::new(2, [GlobalConsensus(WestendNetwork::get())]);
pub WndFromAssetHubWestend: (MultiAssetFilter, MultiLocation) = ( pub WndFromAssetHubWestend: (AssetFilter, Location) = (
Wild(AllOf { fun: WildFungible, id: Concrete(WndLocation::get()) }), Wild(AllOf { fun: WildFungible, id: AssetId(WndLocation::get()) }),
AssetHubWestend::get() AssetHubWestend::get()
); );
/// Set up exporters configuration. /// Set up exporters configuration.
/// `Option<MultiAsset>` represents static "base fee" which is used for total delivery fee calculation. /// `Option<Asset>` represents static "base fee" which is used for total delivery fee calculation.
pub BridgeTable: sp_std::vec::Vec<NetworkExportTableItem> = sp_std::vec![ pub BridgeTable: sp_std::vec::Vec<NetworkExportTableItem> = sp_std::vec![
NetworkExportTableItem::new( NetworkExportTableItem::new(
WestendNetwork::get(), WestendNetwork::get(),
@@ -757,15 +775,15 @@ pub mod bridging {
]; ];
/// Universal aliases /// Universal aliases
pub UniversalAliases: BTreeSet<(MultiLocation, Junction)> = BTreeSet::from_iter( pub UniversalAliases: BTreeSet<(Location, Junction)> = BTreeSet::from_iter(
sp_std::vec![ sp_std::vec![
(SiblingBridgeHubWithBridgeHubWestendInstance::get(), GlobalConsensus(WestendNetwork::get())) (SiblingBridgeHubWithBridgeHubWestendInstance::get(), GlobalConsensus(WestendNetwork::get()))
] ]
); );
} }
impl Contains<(MultiLocation, Junction)> for UniversalAliases { impl Contains<(Location, Junction)> for UniversalAliases {
fn contains(alias: &(MultiLocation, Junction)) -> bool { fn contains(alias: &(Location, Junction)) -> bool {
UniversalAliases::get().contains(alias) UniversalAliases::get().contains(alias)
} }
} }
@@ -804,16 +822,16 @@ pub mod bridging {
/// Polkadot uses 10 decimals, Kusama and Rococo 12 decimals. /// Polkadot uses 10 decimals, Kusama and Rococo 12 decimals.
pub const DefaultBridgeHubEthereumBaseFee: Balance = 2_750_872_500_000; pub const DefaultBridgeHubEthereumBaseFee: Balance = 2_750_872_500_000;
pub storage BridgeHubEthereumBaseFee: Balance = DefaultBridgeHubEthereumBaseFee::get(); pub storage BridgeHubEthereumBaseFee: Balance = DefaultBridgeHubEthereumBaseFee::get();
pub SiblingBridgeHubWithEthereumInboundQueueInstance: MultiLocation = MultiLocation::new( pub SiblingBridgeHubWithEthereumInboundQueueInstance: Location = Location::new(
1, 1,
X2( [
Parachain(SiblingBridgeHubParaId::get()), Parachain(SiblingBridgeHubParaId::get()),
PalletInstance(parachains_common::rococo::snowbridge::INBOUND_QUEUE_PALLET_INDEX) PalletInstance(parachains_common::rococo::snowbridge::INBOUND_QUEUE_PALLET_INDEX)
) ]
); );
/// Set up exporters configuration. /// Set up exporters configuration.
/// `Option<MultiAsset>` represents static "base fee" which is used for total delivery fee calculation. /// `Option<Asset>` represents static "base fee" which is used for total delivery fee calculation.
pub BridgeTable: sp_std::vec::Vec<NetworkExportTableItem> = sp_std::vec![ pub BridgeTable: sp_std::vec::Vec<NetworkExportTableItem> = sp_std::vec![
NetworkExportTableItem::new( NetworkExportTableItem::new(
EthereumNetwork::get(), EthereumNetwork::get(),
@@ -827,7 +845,7 @@ pub mod bridging {
]; ];
/// Universal aliases /// Universal aliases
pub UniversalAliases: BTreeSet<(MultiLocation, Junction)> = BTreeSet::from_iter( pub UniversalAliases: BTreeSet<(Location, Junction)> = BTreeSet::from_iter(
sp_std::vec![ sp_std::vec![
(SiblingBridgeHubWithEthereumInboundQueueInstance::get(), GlobalConsensus(EthereumNetwork::get())), (SiblingBridgeHubWithEthereumInboundQueueInstance::get(), GlobalConsensus(EthereumNetwork::get())),
] ]
@@ -837,8 +855,8 @@ pub mod bridging {
pub type IsTrustedBridgedReserveLocationForForeignAsset = pub type IsTrustedBridgedReserveLocationForForeignAsset =
matching::IsForeignConcreteAsset<FromNetwork<UniversalLocation, EthereumNetwork>>; matching::IsForeignConcreteAsset<FromNetwork<UniversalLocation, EthereumNetwork>>;
impl Contains<(MultiLocation, Junction)> for UniversalAliases { impl Contains<(Location, Junction)> for UniversalAliases {
fn contains(alias: &(MultiLocation, Junction)) -> bool { fn contains(alias: &(Location, Junction)) -> bool {
UniversalAliases::get().contains(alias) UniversalAliases::get().contains(alias)
} }
} }
@@ -850,7 +868,7 @@ pub mod bridging {
#[cfg(feature = "runtime-benchmarks")] #[cfg(feature = "runtime-benchmarks")]
impl BridgingBenchmarksHelper { impl BridgingBenchmarksHelper {
pub fn prepare_universal_alias() -> Option<(MultiLocation, Junction)> { pub fn prepare_universal_alias() -> Option<(Location, Junction)> {
let alias = let alias =
to_westend::UniversalAliases::get() to_westend::UniversalAliases::get()
.into_iter() .into_iter()
cumulus/parachains/runtimes/assets/asset-hub-rococo/tests/tests.rs
+66 -37
View File
@@ -19,12 +19,18 @@
use asset_hub_rococo_runtime::{ use asset_hub_rococo_runtime::{
xcm_config, xcm_config,
xcm_config::{bridging, ForeignCreatorsSovereignAccountOf, LocationToAccountId, TokenLocation}, xcm_config::{
bridging, ForeignCreatorsSovereignAccountOf, LocationToAccountId, TokenLocation,
TokenLocationV3,
},
AllPalletsWithoutSystem, MetadataDepositBase, MetadataDepositPerByte, RuntimeCall, AllPalletsWithoutSystem, MetadataDepositBase, MetadataDepositPerByte, RuntimeCall,
RuntimeEvent, ToWestendXcmRouterInstance, XcmpQueue, RuntimeEvent, ToWestendXcmRouterInstance, XcmpQueue,
}; };
pub use asset_hub_rococo_runtime::{ pub use asset_hub_rococo_runtime::{
xcm_config::{CheckingAccount, TrustBackedAssetsPalletLocation, XcmConfig}, xcm_config::{
CheckingAccount, TrustBackedAssetsPalletLocation, TrustBackedAssetsPalletLocationV3,
XcmConfig,
},
AssetConversion, AssetDeposit, Assets, Balances, CollatorSelection, ExistentialDeposit, AssetConversion, AssetDeposit, Assets, Balances, CollatorSelection, ExistentialDeposit,
ForeignAssets, ForeignAssetsInstance, ParachainSystem, Runtime, SessionKeys, System, ForeignAssets, ForeignAssetsInstance, ParachainSystem, Runtime, SessionKeys, System,
TrustBackedAssetsInstance, TrustBackedAssetsInstance,
@@ -49,14 +55,18 @@ use parachains_common::{
}; };
use sp_runtime::traits::MaybeEquivalence; use sp_runtime::traits::MaybeEquivalence;
use std::convert::Into; use std::convert::Into;
use xcm::latest::prelude::*; use xcm::latest::prelude::{Assets as XcmAssets, *};
use xcm_executor::traits::{Identity, JustTry, WeightTrader}; use xcm_builder::V4V3LocationConverter;
use xcm_executor::traits::{JustTry, WeightTrader};
const ALICE: [u8; 32] = [1u8; 32]; const ALICE: [u8; 32] = [1u8; 32];
const SOME_ASSET_ADMIN: [u8; 32] = [5u8; 32]; const SOME_ASSET_ADMIN: [u8; 32] = [5u8; 32];
type AssetIdForTrustBackedAssetsConvert = type AssetIdForTrustBackedAssetsConvert =
assets_common::AssetIdForTrustBackedAssetsConvert<TrustBackedAssetsPalletLocation>; assets_common::AssetIdForTrustBackedAssetsConvert<TrustBackedAssetsPalletLocationV3>;
type AssetIdForTrustBackedAssetsConvertLatest =
assets_common::AssetIdForTrustBackedAssetsConvertLatest<TrustBackedAssetsPalletLocation>;
type RuntimeHelper = asset_test_utils::RuntimeHelper<Runtime, AllPalletsWithoutSystem>; type RuntimeHelper = asset_test_utils::RuntimeHelper<Runtime, AllPalletsWithoutSystem>;
@@ -99,7 +109,7 @@ fn test_buy_and_refund_weight_in_native() {
let fee = WeightToFee::weight_to_fee(&weight); let fee = WeightToFee::weight_to_fee(&weight);
let extra_amount = 100; let extra_amount = 100;
let ctx = XcmContext { origin: None, message_id: XcmHash::default(), topic: None }; let ctx = XcmContext { origin: None, message_id: XcmHash::default(), topic: None };
let payment: MultiAsset = (native_location, fee + extra_amount).into(); let payment: Asset = (native_location.clone(), fee + extra_amount).into();
// init trader and buy weight. // init trader and buy weight.
let mut trader = <XcmConfig as xcm_executor::Config>::Trader::new(); let mut trader = <XcmConfig as xcm_executor::Config>::Trader::new();
@@ -108,7 +118,7 @@ fn test_buy_and_refund_weight_in_native() {
// assert. // assert.
let unused_amount = let unused_amount =
unused_asset.fungible.get(&native_location.into()).map_or(0, |a| *a); unused_asset.fungible.get(&native_location.clone().into()).map_or(0, |a| *a);
assert_eq!(unused_amount, extra_amount); assert_eq!(unused_amount, extra_amount);
assert_eq!(Balances::total_issuance(), total_issuance); assert_eq!(Balances::total_issuance(), total_issuance);
@@ -144,7 +154,7 @@ fn test_buy_and_refund_weight_with_swap_local_asset_xcm_trader() {
let bob: AccountId = SOME_ASSET_ADMIN.into(); let bob: AccountId = SOME_ASSET_ADMIN.into();
let staking_pot = CollatorSelection::account_id(); let staking_pot = CollatorSelection::account_id();
let asset_1: u32 = 1; let asset_1: u32 = 1;
let native_location = TokenLocation::get(); let native_location = TokenLocationV3::get();
let asset_1_location = let asset_1_location =
AssetIdForTrustBackedAssetsConvert::convert_back(&asset_1).unwrap(); AssetIdForTrustBackedAssetsConvert::convert_back(&asset_1).unwrap();
// bob's initial balance for native and `asset1` assets. // bob's initial balance for native and `asset1` assets.
@@ -180,6 +190,8 @@ fn test_buy_and_refund_weight_with_swap_local_asset_xcm_trader() {
let asset_total_issuance = Assets::total_issuance(asset_1); let asset_total_issuance = Assets::total_issuance(asset_1);
let native_total_issuance = Balances::total_issuance(); let native_total_issuance = Balances::total_issuance();
let asset_1_location_latest: Location = asset_1_location.try_into().unwrap();
// prepare input to buy weight. // prepare input to buy weight.
let weight = Weight::from_parts(4_000_000_000, 0); let weight = Weight::from_parts(4_000_000_000, 0);
let fee = WeightToFee::weight_to_fee(&weight); let fee = WeightToFee::weight_to_fee(&weight);
@@ -187,7 +199,7 @@ fn test_buy_and_refund_weight_with_swap_local_asset_xcm_trader() {
AssetConversion::get_amount_in(&fee, &pool_liquidity, &pool_liquidity).unwrap(); AssetConversion::get_amount_in(&fee, &pool_liquidity, &pool_liquidity).unwrap();
let extra_amount = 100; let extra_amount = 100;
let ctx = XcmContext { origin: None, message_id: XcmHash::default(), topic: None }; let ctx = XcmContext { origin: None, message_id: XcmHash::default(), topic: None };
let payment: MultiAsset = (asset_1_location, asset_fee + extra_amount).into(); let payment: Asset = (asset_1_location_latest.clone(), asset_fee + extra_amount).into();
// init trader and buy weight. // init trader and buy weight.
let mut trader = <XcmConfig as xcm_executor::Config>::Trader::new(); let mut trader = <XcmConfig as xcm_executor::Config>::Trader::new();
@@ -195,8 +207,10 @@ fn test_buy_and_refund_weight_with_swap_local_asset_xcm_trader() {
trader.buy_weight(weight, payment.into(), &ctx).expect("Expected Ok"); trader.buy_weight(weight, payment.into(), &ctx).expect("Expected Ok");
// assert. // assert.
let unused_amount = let unused_amount = unused_asset
unused_asset.fungible.get(&asset_1_location.into()).map_or(0, |a| *a); .fungible
.get(&asset_1_location_latest.clone().into())
.map_or(0, |a| *a);
assert_eq!(unused_amount, extra_amount); assert_eq!(unused_amount, extra_amount);
assert_eq!(Assets::total_issuance(asset_1), asset_total_issuance + asset_fee); assert_eq!(Assets::total_issuance(asset_1), asset_total_issuance + asset_fee);
@@ -210,7 +224,7 @@ fn test_buy_and_refund_weight_with_swap_local_asset_xcm_trader() {
// refund. // refund.
let actual_refund = trader.refund_weight(refund_weight, &ctx).unwrap(); let actual_refund = trader.refund_weight(refund_weight, &ctx).unwrap();
assert_eq!(actual_refund, (asset_1_location, asset_refund).into()); assert_eq!(actual_refund, (asset_1_location_latest, asset_refund).into());
// assert. // assert.
assert_eq!(Balances::balance(&staking_pot), initial_balance); assert_eq!(Balances::balance(&staking_pot), initial_balance);
@@ -239,9 +253,15 @@ fn test_buy_and_refund_weight_with_swap_foreign_asset_xcm_trader() {
.execute_with(|| { .execute_with(|| {
let bob: AccountId = SOME_ASSET_ADMIN.into(); let bob: AccountId = SOME_ASSET_ADMIN.into();
let staking_pot = CollatorSelection::account_id(); let staking_pot = CollatorSelection::account_id();
let native_location = TokenLocation::get(); let native_location = TokenLocationV3::get();
let foreign_location = let foreign_location = xcm::v3::Location {
MultiLocation { parents: 1, interior: X2(Parachain(1234), GeneralIndex(12345)) }; parents: 1,
interior: (
xcm::v3::Junction::Parachain(1234),
xcm::v3::Junction::GeneralIndex(12345),
)
.into(),
};
// bob's initial balance for native and `asset1` assets. // bob's initial balance for native and `asset1` assets.
let initial_balance = 200 * UNITS; let initial_balance = 200 * UNITS;
// liquidity for both arms of (native, asset1) pool. // liquidity for both arms of (native, asset1) pool.
@@ -280,6 +300,8 @@ fn test_buy_and_refund_weight_with_swap_foreign_asset_xcm_trader() {
let asset_total_issuance = ForeignAssets::total_issuance(foreign_location); let asset_total_issuance = ForeignAssets::total_issuance(foreign_location);
let native_total_issuance = Balances::total_issuance(); let native_total_issuance = Balances::total_issuance();
let foreign_location_latest: Location = foreign_location.try_into().unwrap();
// prepare input to buy weight. // prepare input to buy weight.
let weight = Weight::from_parts(4_000_000_000, 0); let weight = Weight::from_parts(4_000_000_000, 0);
let fee = WeightToFee::weight_to_fee(&weight); let fee = WeightToFee::weight_to_fee(&weight);
@@ -287,7 +309,7 @@ fn test_buy_and_refund_weight_with_swap_foreign_asset_xcm_trader() {
AssetConversion::get_amount_in(&fee, &pool_liquidity, &pool_liquidity).unwrap(); AssetConversion::get_amount_in(&fee, &pool_liquidity, &pool_liquidity).unwrap();
let extra_amount = 100; let extra_amount = 100;
let ctx = XcmContext { origin: None, message_id: XcmHash::default(), topic: None }; let ctx = XcmContext { origin: None, message_id: XcmHash::default(), topic: None };
let payment: MultiAsset = (foreign_location, asset_fee + extra_amount).into(); let payment: Asset = (foreign_location_latest.clone(), asset_fee + extra_amount).into();
// init trader and buy weight. // init trader and buy weight.
let mut trader = <XcmConfig as xcm_executor::Config>::Trader::new(); let mut trader = <XcmConfig as xcm_executor::Config>::Trader::new();
@@ -295,8 +317,10 @@ fn test_buy_and_refund_weight_with_swap_foreign_asset_xcm_trader() {
trader.buy_weight(weight, payment.into(), &ctx).expect("Expected Ok"); trader.buy_weight(weight, payment.into(), &ctx).expect("Expected Ok");
// assert. // assert.
let unused_amount = let unused_amount = unused_asset
unused_asset.fungible.get(&foreign_location.into()).map_or(0, |a| *a); .fungible
.get(&foreign_location_latest.clone().into())
.map_or(0, |a| *a);
assert_eq!(unused_amount, extra_amount); assert_eq!(unused_amount, extra_amount);
assert_eq!( assert_eq!(
ForeignAssets::total_issuance(foreign_location), ForeignAssets::total_issuance(foreign_location),
@@ -313,7 +337,7 @@ fn test_buy_and_refund_weight_with_swap_foreign_asset_xcm_trader() {
// refund. // refund.
let actual_refund = trader.refund_weight(refund_weight, &ctx).unwrap(); let actual_refund = trader.refund_weight(refund_weight, &ctx).unwrap();
assert_eq!(actual_refund, (foreign_location, asset_refund).into()); assert_eq!(actual_refund, (foreign_location_latest, asset_refund).into());
// assert. // assert.
assert_eq!(Balances::balance(&staking_pot), initial_balance); assert_eq!(Balances::balance(&staking_pot), initial_balance);
@@ -343,19 +367,21 @@ fn test_assets_balances_api_works() {
.build() .build()
.execute_with(|| { .execute_with(|| {
let local_asset_id = 1; let local_asset_id = 1;
let foreign_asset_id_multilocation = let foreign_asset_id_location = xcm::v3::Location::new(
MultiLocation { parents: 1, interior: X2(Parachain(1234), GeneralIndex(12345)) }; 1,
[xcm::v3::Junction::Parachain(1234), xcm::v3::Junction::GeneralIndex(12345)],
);
// check before // check before
assert_eq!(Assets::balance(local_asset_id, AccountId::from(ALICE)), 0); assert_eq!(Assets::balance(local_asset_id, AccountId::from(ALICE)), 0);
assert_eq!( assert_eq!(
ForeignAssets::balance(foreign_asset_id_multilocation, AccountId::from(ALICE)), ForeignAssets::balance(foreign_asset_id_location, AccountId::from(ALICE)),
0 0
); );
assert_eq!(Balances::free_balance(AccountId::from(ALICE)), 0); assert_eq!(Balances::free_balance(AccountId::from(ALICE)), 0);
assert!(Runtime::query_account_balances(AccountId::from(ALICE)) assert!(Runtime::query_account_balances(AccountId::from(ALICE))
.unwrap() .unwrap()
.try_as::<MultiAssets>() .try_as::<XcmAssets>()
.unwrap() .unwrap()
.is_none()); .is_none());
@@ -386,7 +412,7 @@ fn test_assets_balances_api_works() {
let foreign_asset_minimum_asset_balance = 3333333_u128; let foreign_asset_minimum_asset_balance = 3333333_u128;
assert_ok!(ForeignAssets::force_create( assert_ok!(ForeignAssets::force_create(
RuntimeHelper::root_origin(), RuntimeHelper::root_origin(),
foreign_asset_id_multilocation, foreign_asset_id_location,
AccountId::from(SOME_ASSET_ADMIN).into(), AccountId::from(SOME_ASSET_ADMIN).into(),
false, false,
foreign_asset_minimum_asset_balance foreign_asset_minimum_asset_balance
@@ -395,7 +421,7 @@ fn test_assets_balances_api_works() {
// We first mint enough asset for the account to exist for assets // We first mint enough asset for the account to exist for assets
assert_ok!(ForeignAssets::mint( assert_ok!(ForeignAssets::mint(
RuntimeHelper::origin_of(AccountId::from(SOME_ASSET_ADMIN)), RuntimeHelper::origin_of(AccountId::from(SOME_ASSET_ADMIN)),
foreign_asset_id_multilocation, foreign_asset_id_location,
AccountId::from(ALICE).into(), AccountId::from(ALICE).into(),
6 * foreign_asset_minimum_asset_balance 6 * foreign_asset_minimum_asset_balance
)); ));
@@ -406,12 +432,12 @@ fn test_assets_balances_api_works() {
minimum_asset_balance minimum_asset_balance
); );
assert_eq!( assert_eq!(
ForeignAssets::balance(foreign_asset_id_multilocation, AccountId::from(ALICE)), ForeignAssets::balance(foreign_asset_id_location, AccountId::from(ALICE)),
6 * minimum_asset_balance 6 * minimum_asset_balance
); );
assert_eq!(Balances::free_balance(AccountId::from(ALICE)), some_currency); assert_eq!(Balances::free_balance(AccountId::from(ALICE)), some_currency);
let result: MultiAssets = Runtime::query_account_balances(AccountId::from(ALICE)) let result: XcmAssets = Runtime::query_account_balances(AccountId::from(ALICE))
.unwrap() .unwrap()
.try_into() .try_into()
.unwrap(); .unwrap();
@@ -426,13 +452,13 @@ fn test_assets_balances_api_works() {
))); )));
// check trusted asset // check trusted asset
assert!(result.inner().iter().any(|asset| asset.eq(&( assert!(result.inner().iter().any(|asset| asset.eq(&(
AssetIdForTrustBackedAssetsConvert::convert_back(&local_asset_id).unwrap(), AssetIdForTrustBackedAssetsConvertLatest::convert_back(&local_asset_id).unwrap(),
minimum_asset_balance minimum_asset_balance
) )
.into()))); .into())));
// check foreign asset // check foreign asset
assert!(result.inner().iter().any(|asset| asset.eq(&( assert!(result.inner().iter().any(|asset| asset.eq(&(
Identity::convert_back(&foreign_asset_id_multilocation).unwrap(), V4V3LocationConverter::convert_back(&foreign_asset_id_location).unwrap(),
6 * foreign_asset_minimum_asset_balance 6 * foreign_asset_minimum_asset_balance
) )
.into()))); .into())));
@@ -503,7 +529,7 @@ asset_test_utils::include_asset_transactor_transfer_with_pallet_assets_instance_
XcmConfig, XcmConfig,
TrustBackedAssetsInstance, TrustBackedAssetsInstance,
AssetIdForTrustBackedAssets, AssetIdForTrustBackedAssets,
AssetIdForTrustBackedAssetsConvert, AssetIdForTrustBackedAssetsConvertLatest,
collator_session_keys(), collator_session_keys(),
ExistentialDeposit::get(), ExistentialDeposit::get(),
12345, 12345,
@@ -520,11 +546,14 @@ asset_test_utils::include_asset_transactor_transfer_with_pallet_assets_instance_
Runtime, Runtime,
XcmConfig, XcmConfig,
ForeignAssetsInstance, ForeignAssetsInstance,
MultiLocation, xcm::v3::Location,
JustTry, JustTry,
collator_session_keys(), collator_session_keys(),
ExistentialDeposit::get(), ExistentialDeposit::get(),
MultiLocation { parents: 1, interior: X2(Parachain(1313), GeneralIndex(12345)) }, xcm::v3::Location::new(
1,
[xcm::v3::Junction::Parachain(1313), xcm::v3::Junction::GeneralIndex(12345)]
),
Box::new(|| { Box::new(|| {
assert!(Assets::asset_ids().collect::<Vec<_>>().is_empty()); assert!(Assets::asset_ids().collect::<Vec<_>>().is_empty());
}), }),
@@ -539,8 +568,8 @@ asset_test_utils::include_create_and_manage_foreign_assets_for_local_consensus_p
WeightToFee, WeightToFee,
ForeignCreatorsSovereignAccountOf, ForeignCreatorsSovereignAccountOf,
ForeignAssetsInstance, ForeignAssetsInstance,
MultiLocation, xcm::v3::Location,
JustTry, V4V3LocationConverter,
collator_session_keys(), collator_session_keys(),
ExistentialDeposit::get(), ExistentialDeposit::get(),
AssetDeposit::get(), AssetDeposit::get(),
@@ -637,12 +666,12 @@ mod asset_hub_rococo_tests {
AccountId::from([73; 32]), AccountId::from([73; 32]),
AccountId::from(BLOCK_AUTHOR_ACCOUNT), AccountId::from(BLOCK_AUTHOR_ACCOUNT),
// receiving WNDs // receiving WNDs
(MultiLocation { parents: 2, interior: X1(GlobalConsensus(Westend)) }, 1000000000000, 1_000_000_000), (xcm::v3::Location::new(2, [xcm::v3::Junction::GlobalConsensus(xcm::v3::NetworkId::Westend)]), 1000000000000, 1_000_000_000),
bridging_to_asset_hub_westend, bridging_to_asset_hub_westend,
( (
X1(PalletInstance(bp_bridge_hub_rococo::WITH_BRIDGE_ROCOCO_TO_WESTEND_MESSAGES_PALLET_INDEX)), [PalletInstance(bp_bridge_hub_rococo::WITH_BRIDGE_ROCOCO_TO_WESTEND_MESSAGES_PALLET_INDEX)].into(),
GlobalConsensus(Westend), GlobalConsensus(Westend),
X1(Parachain(1000)) [Parachain(1000)].into()
) )
) )
} }
cumulus/parachains/runtimes/assets/asset-hub-westend/src/lib.rs
+76 -70
View File
@@ -76,21 +76,25 @@ use sp_std::prelude::*;
#[cfg(feature = "std")] #[cfg(feature = "std")]
use sp_version::NativeVersion; use sp_version::NativeVersion;
use sp_version::RuntimeVersion; use sp_version::RuntimeVersion;
use xcm::opaque::v3::MultiLocation;
use xcm_config::{ use xcm_config::{
ForeignAssetsConvertedConcreteId, PoolAssetsConvertedConcreteId, ForeignAssetsConvertedConcreteId, PoolAssetsConvertedConcreteId,
TrustBackedAssetsConvertedConcreteId, TrustBackedAssetsPalletLocation, WestendLocation, TrustBackedAssetsConvertedConcreteId, TrustBackedAssetsPalletLocationV3, WestendLocation,
XcmOriginToTransactDispatchOrigin, WestendLocationV3, XcmOriginToTransactDispatchOrigin,
}; };
#[cfg(any(feature = "std", test))] #[cfg(any(feature = "std", test))]
pub use sp_runtime::BuildStorage; pub use sp_runtime::BuildStorage;
use assets_common::{ use assets_common::{foreign_creators::ForeignCreators, matching::FromSiblingParachain};
foreign_creators::ForeignCreators, matching::FromSiblingParachain, MultiLocationForAssetId,
};
use polkadot_runtime_common::{BlockHashCount, SlowAdjustingFeeUpdate}; use polkadot_runtime_common::{BlockHashCount, SlowAdjustingFeeUpdate};
use xcm::latest::prelude::*; // We exclude `Assets` since it's the name of a pallet
use xcm::latest::prelude::AssetId;
#[cfg(feature = "runtime-benchmarks")]
use xcm::latest::prelude::{
Asset, Fungible, Here, InteriorLocation, Junction, Junction::*, Location, NetworkId,
NonFungible, Parent, ParentThen, Response, XCM_VERSION,
};
use crate::xcm_config::ForeignCreatorsSovereignAccountOf; use crate::xcm_config::ForeignCreatorsSovereignAccountOf;
use weights::{BlockExecutionWeight, ExtrinsicBaseWeight, RocksDbWeight}; use weights::{BlockExecutionWeight, ExtrinsicBaseWeight, RocksDbWeight};
@@ -300,10 +304,11 @@ pub type LocalAndForeignAssets = fungibles::UnionOf<
Assets, Assets,
ForeignAssets, ForeignAssets,
LocalFromLeft< LocalFromLeft<
AssetIdForTrustBackedAssetsConvert<TrustBackedAssetsPalletLocation>, AssetIdForTrustBackedAssetsConvert<TrustBackedAssetsPalletLocationV3>,
AssetIdForTrustBackedAssets, AssetIdForTrustBackedAssets,
xcm::v3::Location,
>, >,
MultiLocation, xcm::v3::Location,
AccountId, AccountId,
>; >;
@@ -311,8 +316,8 @@ pub type LocalAndForeignAssets = fungibles::UnionOf<
pub type NativeAndAssets = fungible::UnionOf< pub type NativeAndAssets = fungible::UnionOf<
Balances, Balances,
LocalAndForeignAssets, LocalAndForeignAssets,
TargetFromLeft<WestendLocation>, TargetFromLeft<WestendLocationV3, xcm::v3::Location>,
MultiLocation, xcm::v3::Location,
AccountId, AccountId,
>; >;
@@ -320,15 +325,15 @@ impl pallet_asset_conversion::Config for Runtime {
type RuntimeEvent = RuntimeEvent; type RuntimeEvent = RuntimeEvent;
type Balance = Balance; type Balance = Balance;
type HigherPrecisionBalance = sp_core::U256; type HigherPrecisionBalance = sp_core::U256;
type AssetKind = MultiLocation; type AssetKind = xcm::v3::Location;
type Assets = NativeAndAssets; type Assets = NativeAndAssets;
type PoolId = (Self::AssetKind, Self::AssetKind); type PoolId = (Self::AssetKind, Self::AssetKind);
type PoolLocator = type PoolLocator =
pallet_asset_conversion::WithFirstAsset<WestendLocation, AccountId, Self::AssetKind>; pallet_asset_conversion::WithFirstAsset<WestendLocationV3, AccountId, Self::AssetKind>;
type PoolAssetId = u32; type PoolAssetId = u32;
type PoolAssets = PoolAssets; type PoolAssets = PoolAssets;
type PoolSetupFee = ConstU128<0>; // Asset class deposit fees are sufficient to prevent spam type PoolSetupFee = ConstU128<0>; // Asset class deposit fees are sufficient to prevent spam
type PoolSetupFeeAsset = WestendLocation; type PoolSetupFeeAsset = WestendLocationV3;
type PoolSetupFeeTarget = ResolveAssetTo<AssetConversionOrigin, Self::Assets>; type PoolSetupFeeTarget = ResolveAssetTo<AssetConversionOrigin, Self::Assets>;
type LiquidityWithdrawalFee = LiquidityWithdrawalFee; type LiquidityWithdrawalFee = LiquidityWithdrawalFee;
type LPFee = ConstU32<3>; type LPFee = ConstU32<3>;
@@ -338,9 +343,10 @@ impl pallet_asset_conversion::Config for Runtime {
type WeightInfo = weights::pallet_asset_conversion::WeightInfo<Runtime>; type WeightInfo = weights::pallet_asset_conversion::WeightInfo<Runtime>;
#[cfg(feature = "runtime-benchmarks")] #[cfg(feature = "runtime-benchmarks")]
type BenchmarkHelper = assets_common::benchmarks::AssetPairFactory< type BenchmarkHelper = assets_common::benchmarks::AssetPairFactory<
WestendLocation, WestendLocationV3,
parachain_info::Pallet<Runtime>, parachain_info::Pallet<Runtime>,
xcm_config::AssetsPalletIndex, xcm_config::TrustBackedAssetsPalletIndex,
xcm::v3::Location,
>; >;
} }
@@ -362,13 +368,14 @@ pub type ForeignAssetsInstance = pallet_assets::Instance2;
impl pallet_assets::Config<ForeignAssetsInstance> for Runtime { impl pallet_assets::Config<ForeignAssetsInstance> for Runtime {
type RuntimeEvent = RuntimeEvent; type RuntimeEvent = RuntimeEvent;
type Balance = Balance; type Balance = Balance;
type AssetId = MultiLocationForAssetId; type AssetId = xcm::v3::Location;
type AssetIdParameter = MultiLocationForAssetId; type AssetIdParameter = xcm::v3::Location;
type Currency = Balances; type Currency = Balances;
type CreateOrigin = ForeignCreators< type CreateOrigin = ForeignCreators<
(FromSiblingParachain<parachain_info::Pallet<Runtime>>,), FromSiblingParachain<parachain_info::Pallet<Runtime>, xcm::v3::Location>,
ForeignCreatorsSovereignAccountOf, ForeignCreatorsSovereignAccountOf,
AccountId, AccountId,
xcm::v3::Location,
>; >;
type ForceOrigin = AssetsForceOrigin; type ForceOrigin = AssetsForceOrigin;
type AssetDeposit = ForeignAssetsAssetDeposit; type AssetDeposit = ForeignAssetsAssetDeposit;
@@ -644,7 +651,7 @@ impl cumulus_pallet_aura_ext::Config for Runtime {}
parameter_types! { parameter_types! {
/// The asset ID for the asset that we use to pay for message delivery fees. /// The asset ID for the asset that we use to pay for message delivery fees.
pub FeeAssetId: AssetId = Concrete(xcm_config::WestendLocation::get()); pub FeeAssetId: AssetId = AssetId(xcm_config::WestendLocation::get());
/// The base fee for the message delivery fees. /// The base fee for the message delivery fees.
pub const BaseDeliveryFee: u128 = CENTS.saturating_mul(3); pub const BaseDeliveryFee: u128 = CENTS.saturating_mul(3);
} }
@@ -728,7 +735,7 @@ impl pallet_asset_conversion_tx_payment::Config for Runtime {
type RuntimeEvent = RuntimeEvent; type RuntimeEvent = RuntimeEvent;
type Fungibles = LocalAndForeignAssets; type Fungibles = LocalAndForeignAssets;
type OnChargeAssetTransaction = type OnChargeAssetTransaction =
AssetConversionAdapter<Balances, AssetConversion, WestendLocation>; AssetConversionAdapter<Balances, AssetConversion, WestendLocationV3>;
} }
parameter_types! { parameter_types! {
@@ -1229,18 +1236,18 @@ impl_runtime_apis! {
impl pallet_asset_conversion::AssetConversionApi< impl pallet_asset_conversion::AssetConversionApi<
Block, Block,
Balance, Balance,
MultiLocation, xcm::v3::Location,
> for Runtime > for Runtime
{ {
fn quote_price_exact_tokens_for_tokens(asset1: MultiLocation, asset2: MultiLocation, amount: Balance, include_fee: bool) -> Option<Balance> { fn quote_price_exact_tokens_for_tokens(asset1: xcm::v3::Location, asset2: xcm::v3::Location, amount: Balance, include_fee: bool) -> Option<Balance> {
AssetConversion::quote_price_exact_tokens_for_tokens(asset1, asset2, amount, include_fee) AssetConversion::quote_price_exact_tokens_for_tokens(asset1, asset2, amount, include_fee)
} }
fn quote_price_tokens_for_exact_tokens(asset1: MultiLocation, asset2: MultiLocation, amount: Balance, include_fee: bool) -> Option<Balance> { fn quote_price_tokens_for_exact_tokens(asset1: xcm::v3::Location, asset2: xcm::v3::Location, amount: Balance, include_fee: bool) -> Option<Balance> {
AssetConversion::quote_price_tokens_for_exact_tokens(asset1, asset2, amount, include_fee) AssetConversion::quote_price_tokens_for_exact_tokens(asset1, asset2, amount, include_fee)
} }
fn get_reserves(asset1: MultiLocation, asset2: MultiLocation) -> Option<(Balance, Balance)> { fn get_reserves(asset1: xcm::v3::Location, asset2: xcm::v3::Location) -> Option<(Balance, Balance)> {
AssetConversion::get_reserves(asset1, asset2).ok() AssetConversion::get_reserves(asset1, asset2).ok()
} }
} }
@@ -1294,7 +1301,7 @@ impl_runtime_apis! {
AccountId, AccountId,
> for Runtime > for Runtime
{ {
fn query_account_balances(account: AccountId) -> Result<xcm::VersionedMultiAssets, assets_common::runtime_api::FungiblesAccessError> { fn query_account_balances(account: AccountId) -> Result<xcm::VersionedAssets, assets_common::runtime_api::FungiblesAccessError> {
use assets_common::fungible_conversion::{convert, convert_balance}; use assets_common::fungible_conversion::{convert, convert_balance};
Ok([ Ok([
// collect pallet_balance // collect pallet_balance
@@ -1413,45 +1420,45 @@ impl_runtime_apis! {
use pallet_xcm::benchmarking::Pallet as PalletXcmExtrinsicsBenchmark; use pallet_xcm::benchmarking::Pallet as PalletXcmExtrinsicsBenchmark;
impl pallet_xcm::benchmarking::Config for Runtime { impl pallet_xcm::benchmarking::Config for Runtime {
fn reachable_dest() -> Option<MultiLocation> { fn reachable_dest() -> Option<Location> {
Some(Parent.into()) Some(Parent.into())
} }
fn teleportable_asset_and_dest() -> Option<(MultiAsset, MultiLocation)> { fn teleportable_asset_and_dest() -> Option<(Asset, Location)> {
// Relay/native token can be teleported between AH and Relay. // Relay/native token can be teleported between AH and Relay.
Some(( Some((
MultiAsset { Asset {
fun: Fungible(EXISTENTIAL_DEPOSIT), fun: Fungible(EXISTENTIAL_DEPOSIT),
id: Concrete(Parent.into()) id: AssetId(Parent.into())
}, },
Parent.into(), Parent.into(),
)) ))
} }
fn reserve_transferable_asset_and_dest() -> Option<(MultiAsset, MultiLocation)> { fn reserve_transferable_asset_and_dest() -> Option<(Asset, Location)> {
// AH can reserve transfer native token to some random parachain. // AH can reserve transfer native token to some random parachain.
let random_para_id = 43211234; let random_para_id = 43211234;
ParachainSystem::open_outbound_hrmp_channel_for_benchmarks_or_tests( ParachainSystem::open_outbound_hrmp_channel_for_benchmarks_or_tests(
random_para_id.into() random_para_id.into()
); );
Some(( Some((
MultiAsset { Asset {
fun: Fungible(EXISTENTIAL_DEPOSIT), fun: Fungible(EXISTENTIAL_DEPOSIT),
id: Concrete(Parent.into()) id: AssetId(Parent.into())
}, },
ParentThen(Parachain(random_para_id).into()).into(), ParentThen(Parachain(random_para_id).into()).into(),
)) ))
} }
fn set_up_complex_asset_transfer( fn set_up_complex_asset_transfer(
) -> Option<(MultiAssets, u32, MultiLocation, Box<dyn FnOnce()>)> { ) -> Option<(xcm::v4::Assets, u32, Location, Box<dyn FnOnce()>)> {
// Transfer to Relay some local AH asset (local-reserve-transfer) while paying // Transfer to Relay some local AH asset (local-reserve-transfer) while paying
// fees using teleported native token. // fees using teleported native token.
// (We don't care that Relay doesn't accept incoming unknown AH local asset) // (We don't care that Relay doesn't accept incoming unknown AH local asset)
let dest = Parent.into(); let dest = Parent.into();
let fee_amount = EXISTENTIAL_DEPOSIT; let fee_amount = EXISTENTIAL_DEPOSIT;
let fee_asset: MultiAsset = (MultiLocation::parent(), fee_amount).into(); let fee_asset: Asset = (Location::parent(), fee_amount).into();
let who = frame_benchmarking::whitelisted_caller(); let who = frame_benchmarking::whitelisted_caller();
// Give some multiple of the existential deposit // Give some multiple of the existential deposit
@@ -1469,13 +1476,13 @@ impl_runtime_apis! {
Runtime, Runtime,
pallet_assets::Instance1 pallet_assets::Instance1
>(true, initial_asset_amount); >(true, initial_asset_amount);
let asset_location = MultiLocation::new( let asset_location = Location::new(
0, 0,
X2(PalletInstance(50), GeneralIndex(u32::from(asset_id).into())) [PalletInstance(50), GeneralIndex(u32::from(asset_id).into())]
); );
let transfer_asset: MultiAsset = (asset_location, asset_amount).into(); let transfer_asset: Asset = (asset_location, asset_amount).into();
let assets: MultiAssets = vec![fee_asset.clone(), transfer_asset].into(); let assets: xcm::v4::Assets = vec![fee_asset.clone(), transfer_asset].into();
let fee_index = if assets.get(0).unwrap().eq(&fee_asset) { 0 } else { 1 }; let fee_index = if assets.get(0).unwrap().eq(&fee_asset) { 0 } else { 1 };
// verify transferred successfully // verify transferred successfully
@@ -1504,14 +1511,14 @@ impl_runtime_apis! {
xcm_config::bridging::SiblingBridgeHubParaId::get().into() xcm_config::bridging::SiblingBridgeHubParaId::get().into()
); );
} }
fn ensure_bridged_target_destination() -> Result<MultiLocation, BenchmarkError> { fn ensure_bridged_target_destination() -> Result<Location, BenchmarkError> {
ParachainSystem::open_outbound_hrmp_channel_for_benchmarks_or_tests( ParachainSystem::open_outbound_hrmp_channel_for_benchmarks_or_tests(
xcm_config::bridging::SiblingBridgeHubParaId::get().into() xcm_config::bridging::SiblingBridgeHubParaId::get().into()
); );
let bridged_asset_hub = xcm_config::bridging::to_rococo::AssetHubRococo::get(); let bridged_asset_hub = xcm_config::bridging::to_rococo::AssetHubRococo::get();
let _ = PolkadotXcm::force_xcm_version( let _ = PolkadotXcm::force_xcm_version(
RuntimeOrigin::root(), RuntimeOrigin::root(),
Box::new(bridged_asset_hub), Box::new(bridged_asset_hub.clone()),
XCM_VERSION, XCM_VERSION,
).map_err(|e| { ).map_err(|e| {
log::error!( log::error!(
@@ -1527,12 +1534,11 @@ impl_runtime_apis! {
} }
} }
use xcm::latest::prelude::*;
use xcm_config::{MaxAssetsIntoHolding, WestendLocation}; use xcm_config::{MaxAssetsIntoHolding, WestendLocation};
use pallet_xcm_benchmarks::asset_instance_from; use pallet_xcm_benchmarks::asset_instance_from;
parameter_types! { parameter_types! {
pub ExistentialDepositMultiAsset: Option<MultiAsset> = Some(( pub ExistentialDepositAsset: Option<Asset> = Some((
WestendLocation::get(), WestendLocation::get(),
ExistentialDeposit::get() ExistentialDeposit::get()
).into()); ).into());
@@ -1543,33 +1549,33 @@ impl_runtime_apis! {
type AccountIdConverter = xcm_config::LocationToAccountId; type AccountIdConverter = xcm_config::LocationToAccountId;
type DeliveryHelper = cumulus_primitives_utility::ToParentDeliveryHelper< type DeliveryHelper = cumulus_primitives_utility::ToParentDeliveryHelper<
xcm_config::XcmConfig, xcm_config::XcmConfig,
ExistentialDepositMultiAsset, ExistentialDepositAsset,
xcm_config::PriceForParentDelivery, xcm_config::PriceForParentDelivery,
>; >;
fn valid_destination() -> Result<MultiLocation, BenchmarkError> { fn valid_destination() -> Result<Location, BenchmarkError> {
Ok(WestendLocation::get()) Ok(WestendLocation::get())
} }
fn worst_case_holding(depositable_count: u32) -> MultiAssets { fn worst_case_holding(depositable_count: u32) -> xcm::v4::Assets {
// A mix of fungible, non-fungible, and concrete assets. // A mix of fungible, non-fungible, and concrete assets.
let holding_non_fungibles = MaxAssetsIntoHolding::get() / 2 - depositable_count; let holding_non_fungibles = MaxAssetsIntoHolding::get() / 2 - depositable_count;
let holding_fungibles = holding_non_fungibles - 1; let holding_fungibles = holding_non_fungibles - 1;
let fungibles_amount: u128 = 100; let fungibles_amount: u128 = 100;
let mut assets = (0..holding_fungibles) let mut assets = (0..holding_fungibles)
.map(|i| { .map(|i| {
MultiAsset { Asset {
id: Concrete(GeneralIndex(i as u128).into()), id: AssetId(GeneralIndex(i as u128).into()),
fun: Fungible(fungibles_amount * i as u128), fun: Fungible(fungibles_amount * i as u128),
} }
}) })
.chain(core::iter::once(MultiAsset { id: Concrete(Here.into()), fun: Fungible(u128::MAX) })) .chain(core::iter::once(Asset { id: AssetId(Here.into()), fun: Fungible(u128::MAX) }))
.chain((0..holding_non_fungibles).map(|i| MultiAsset { .chain((0..holding_non_fungibles).map(|i| Asset {
id: Concrete(GeneralIndex(i as u128).into()), id: AssetId(GeneralIndex(i as u128).into()),
fun: NonFungible(asset_instance_from(i)), fun: NonFungible(asset_instance_from(i)),
})) }))
.collect::<Vec<_>>(); .collect::<Vec<_>>();
assets.push(MultiAsset { assets.push(Asset {
id: Concrete(WestendLocation::get()), id: AssetId(WestendLocation::get()),
fun: Fungible(1_000_000 * UNITS), fun: Fungible(1_000_000 * UNITS),
}); });
assets.into() assets.into()
@@ -1577,16 +1583,16 @@ impl_runtime_apis! {
} }
parameter_types! { parameter_types! {
pub const TrustedTeleporter: Option<(MultiLocation, MultiAsset)> = Some(( pub const TrustedTeleporter: Option<(Location, Asset)> = Some((
WestendLocation::get(), WestendLocation::get(),
MultiAsset { fun: Fungible(UNITS), id: Concrete(WestendLocation::get()) }, Asset { fun: Fungible(UNITS), id: AssetId(WestendLocation::get()) },
)); ));
pub const CheckedAccount: Option<(AccountId, xcm_builder::MintLocation)> = None; pub const CheckedAccount: Option<(AccountId, xcm_builder::MintLocation)> = None;
// AssetHubWestend trusts AssetHubRococo as reserve for ROCs // AssetHubWestend trusts AssetHubRococo as reserve for ROCs
pub TrustedReserve: Option<(MultiLocation, MultiAsset)> = Some( pub TrustedReserve: Option<(Location, Asset)> = Some(
( (
xcm_config::bridging::to_rococo::AssetHubRococo::get(), xcm_config::bridging::to_rococo::AssetHubRococo::get(),
MultiAsset::from((xcm_config::bridging::to_rococo::RocLocation::get(), 1000000000000 as u128)) Asset::from((xcm_config::bridging::to_rococo::RocLocation::get(), 1000000000000 as u128))
) )
); );
} }
@@ -1598,9 +1604,9 @@ impl_runtime_apis! {
type TrustedTeleporter = TrustedTeleporter; type TrustedTeleporter = TrustedTeleporter;
type TrustedReserve = TrustedReserve; type TrustedReserve = TrustedReserve;
fn get_multi_asset() -> MultiAsset { fn get_asset() -> Asset {
MultiAsset { Asset {
id: Concrete(WestendLocation::get()), id: AssetId(WestendLocation::get()),
fun: Fungible(UNITS), fun: Fungible(UNITS),
} }
} }
@@ -1614,42 +1620,42 @@ impl_runtime_apis! {
(0u64, Response::Version(Default::default())) (0u64, Response::Version(Default::default()))
} }
fn worst_case_asset_exchange() -> Result<(MultiAssets, MultiAssets), BenchmarkError> { fn worst_case_asset_exchange() -> Result<(xcm::v4::Assets, xcm::v4::Assets), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
fn universal_alias() -> Result<(MultiLocation, Junction), BenchmarkError> { fn universal_alias() -> Result<(Location, Junction), BenchmarkError> {
match xcm_config::bridging::BridgingBenchmarksHelper::prepare_universal_alias() { match xcm_config::bridging::BridgingBenchmarksHelper::prepare_universal_alias() {
Some(alias) => Ok(alias), Some(alias) => Ok(alias),
None => Err(BenchmarkError::Skip) None => Err(BenchmarkError::Skip)
} }
} }
fn transact_origin_and_runtime_call() -> Result<(MultiLocation, RuntimeCall), BenchmarkError> { fn transact_origin_and_runtime_call() -> Result<(Location, RuntimeCall), BenchmarkError> {
Ok((WestendLocation::get(), frame_system::Call::remark_with_event { remark: vec![] }.into())) Ok((WestendLocation::get(), frame_system::Call::remark_with_event { remark: vec![] }.into()))
} }
fn subscribe_origin() -> Result<MultiLocation, BenchmarkError> { fn subscribe_origin() -> Result<Location, BenchmarkError> {
Ok(WestendLocation::get()) Ok(WestendLocation::get())
} }
fn claimable_asset() -> Result<(MultiLocation, MultiLocation, MultiAssets), BenchmarkError> { fn claimable_asset() -> Result<(Location, Location, xcm::v4::Assets), BenchmarkError> {
let origin = WestendLocation::get(); let origin = WestendLocation::get();
let assets: MultiAssets = (Concrete(WestendLocation::get()), 1_000 * UNITS).into(); let assets: xcm::v4::Assets = (AssetId(WestendLocation::get()), 1_000 * UNITS).into();
let ticket = MultiLocation { parents: 0, interior: Here }; let ticket = Location { parents: 0, interior: Here };
Ok((origin, ticket, assets)) Ok((origin, ticket, assets))
} }
fn unlockable_asset() -> Result<(MultiLocation, MultiLocation, MultiAsset), BenchmarkError> { fn unlockable_asset() -> Result<(Location, Location, Asset), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
fn export_message_origin_and_destination( fn export_message_origin_and_destination(
) -> Result<(MultiLocation, NetworkId, InteriorMultiLocation), BenchmarkError> { ) -> Result<(Location, NetworkId, InteriorLocation), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
fn alias_origin() -> Result<(MultiLocation, MultiLocation), BenchmarkError> { fn alias_origin() -> Result<(Location, Location), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
} }
cumulus/parachains/runtimes/assets/asset-hub-westend/src/weights/xcm/mod.rs
+42 -54
View File
@@ -23,14 +23,14 @@ use pallet_xcm_benchmarks_generic::WeightInfo as XcmGeneric;
use sp_std::prelude::*; use sp_std::prelude::*;
use xcm::{latest::prelude::*, DoubleEncoded}; use xcm::{latest::prelude::*, DoubleEncoded};
trait WeighMultiAssets { trait WeighAssets {
fn weigh_multi_assets(&self, weight: Weight) -> Weight; fn weigh_assets(&self, weight: Weight) -> Weight;
} }
const MAX_ASSETS: u64 = 100; const MAX_ASSETS: u64 = 100;
impl WeighMultiAssets for MultiAssetFilter { impl WeighAssets for AssetFilter {
fn weigh_multi_assets(&self, weight: Weight) -> Weight { fn weigh_assets(&self, weight: Weight) -> Weight {
match self { match self {
Self::Definite(assets) => weight.saturating_mul(assets.inner().iter().count() as u64), Self::Definite(assets) => weight.saturating_mul(assets.inner().iter().count() as u64),
Self::Wild(asset) => match asset { Self::Wild(asset) => match asset {
@@ -49,40 +49,36 @@ impl WeighMultiAssets for MultiAssetFilter {
} }
} }
impl WeighMultiAssets for MultiAssets { impl WeighAssets for Assets {
fn weigh_multi_assets(&self, weight: Weight) -> Weight { fn weigh_assets(&self, weight: Weight) -> Weight {
weight.saturating_mul(self.inner().iter().count() as u64) weight.saturating_mul(self.inner().iter().count() as u64)
} }
} }
pub struct AssetHubWestendXcmWeight<Call>(core::marker::PhantomData<Call>); pub struct AssetHubWestendXcmWeight<Call>(core::marker::PhantomData<Call>);
impl<Call> XcmWeightInfo<Call> for AssetHubWestendXcmWeight<Call> { impl<Call> XcmWeightInfo<Call> for AssetHubWestendXcmWeight<Call> {
fn withdraw_asset(assets: &MultiAssets) -> Weight { fn withdraw_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::withdraw_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::withdraw_asset())
} }
fn reserve_asset_deposited(assets: &MultiAssets) -> Weight { fn reserve_asset_deposited(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::reserve_asset_deposited()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::reserve_asset_deposited())
} }
fn receive_teleported_asset(assets: &MultiAssets) -> Weight { fn receive_teleported_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::receive_teleported_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::receive_teleported_asset())
} }
fn query_response( fn query_response(
_query_id: &u64, _query_id: &u64,
_response: &Response, _response: &Response,
_max_weight: &Weight, _max_weight: &Weight,
_querier: &Option<MultiLocation>, _querier: &Option<Location>,
) -> Weight { ) -> Weight {
XcmGeneric::<Runtime>::query_response() XcmGeneric::<Runtime>::query_response()
} }
fn transfer_asset(assets: &MultiAssets, _dest: &MultiLocation) -> Weight { fn transfer_asset(assets: &Assets, _dest: &Location) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::transfer_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::transfer_asset())
} }
fn transfer_reserve_asset( fn transfer_reserve_asset(assets: &Assets, _dest: &Location, _xcm: &Xcm<()>) -> Weight {
assets: &MultiAssets, assets.weigh_assets(XcmFungibleWeight::<Runtime>::transfer_reserve_asset())
_dest: &MultiLocation,
_xcm: &Xcm<()>,
) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::transfer_reserve_asset())
} }
fn transact( fn transact(
_origin_type: &OriginKind, _origin_type: &OriginKind,
@@ -110,44 +106,36 @@ impl<Call> XcmWeightInfo<Call> for AssetHubWestendXcmWeight<Call> {
fn clear_origin() -> Weight { fn clear_origin() -> Weight {
XcmGeneric::<Runtime>::clear_origin() XcmGeneric::<Runtime>::clear_origin()
} }
fn descend_origin(_who: &InteriorMultiLocation) -> Weight { fn descend_origin(_who: &InteriorLocation) -> Weight {
XcmGeneric::<Runtime>::descend_origin() XcmGeneric::<Runtime>::descend_origin()
} }
fn report_error(_query_response_info: &QueryResponseInfo) -> Weight { fn report_error(_query_response_info: &QueryResponseInfo) -> Weight {
XcmGeneric::<Runtime>::report_error() XcmGeneric::<Runtime>::report_error()
} }
fn deposit_asset(assets: &MultiAssetFilter, _dest: &MultiLocation) -> Weight { fn deposit_asset(assets: &AssetFilter, _dest: &Location) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::deposit_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::deposit_asset())
} }
fn deposit_reserve_asset( fn deposit_reserve_asset(assets: &AssetFilter, _dest: &Location, _xcm: &Xcm<()>) -> Weight {
assets: &MultiAssetFilter, assets.weigh_assets(XcmFungibleWeight::<Runtime>::deposit_reserve_asset())
_dest: &MultiLocation,
_xcm: &Xcm<()>,
) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::deposit_reserve_asset())
} }
fn exchange_asset(_give: &MultiAssetFilter, _receive: &MultiAssets, _maximal: &bool) -> Weight { fn exchange_asset(_give: &AssetFilter, _receive: &Assets, _maximal: &bool) -> Weight {
Weight::MAX Weight::MAX
} }
fn initiate_reserve_withdraw( fn initiate_reserve_withdraw(
assets: &MultiAssetFilter, assets: &AssetFilter,
_reserve: &MultiLocation, _reserve: &Location,
_xcm: &Xcm<()>, _xcm: &Xcm<()>,
) -> Weight { ) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::initiate_reserve_withdraw()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::initiate_reserve_withdraw())
} }
fn initiate_teleport( fn initiate_teleport(assets: &AssetFilter, _dest: &Location, _xcm: &Xcm<()>) -> Weight {
assets: &MultiAssetFilter, assets.weigh_assets(XcmFungibleWeight::<Runtime>::initiate_teleport())
_dest: &MultiLocation,
_xcm: &Xcm<()>,
) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::initiate_teleport())
} }
fn report_holding(_response_info: &QueryResponseInfo, _assets: &MultiAssetFilter) -> Weight { fn report_holding(_response_info: &QueryResponseInfo, _assets: &AssetFilter) -> Weight {
XcmGeneric::<Runtime>::report_holding() XcmGeneric::<Runtime>::report_holding()
} }
fn buy_execution(_fees: &MultiAsset, _weight_limit: &WeightLimit) -> Weight { fn buy_execution(_fees: &Asset, _weight_limit: &WeightLimit) -> Weight {
XcmGeneric::<Runtime>::buy_execution() XcmGeneric::<Runtime>::buy_execution()
} }
fn refund_surplus() -> Weight { fn refund_surplus() -> Weight {
@@ -162,7 +150,7 @@ impl<Call> XcmWeightInfo<Call> for AssetHubWestendXcmWeight<Call> {
fn clear_error() -> Weight { fn clear_error() -> Weight {
XcmGeneric::<Runtime>::clear_error() XcmGeneric::<Runtime>::clear_error()
} }
fn claim_asset(_assets: &MultiAssets, _ticket: &MultiLocation) -> Weight { fn claim_asset(_assets: &Assets, _ticket: &Location) -> Weight {
XcmGeneric::<Runtime>::claim_asset() XcmGeneric::<Runtime>::claim_asset()
} }
fn trap(_code: &u64) -> Weight { fn trap(_code: &u64) -> Weight {
@@ -174,13 +162,13 @@ impl<Call> XcmWeightInfo<Call> for AssetHubWestendXcmWeight<Call> {
fn unsubscribe_version() -> Weight { fn unsubscribe_version() -> Weight {
XcmGeneric::<Runtime>::unsubscribe_version() XcmGeneric::<Runtime>::unsubscribe_version()
} }
fn burn_asset(assets: &MultiAssets) -> Weight { fn burn_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmGeneric::<Runtime>::burn_asset()) assets.weigh_assets(XcmGeneric::<Runtime>::burn_asset())
} }
fn expect_asset(assets: &MultiAssets) -> Weight { fn expect_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmGeneric::<Runtime>::expect_asset()) assets.weigh_assets(XcmGeneric::<Runtime>::expect_asset())
} }
fn expect_origin(_origin: &Option<MultiLocation>) -> Weight { fn expect_origin(_origin: &Option<Location>) -> Weight {
XcmGeneric::<Runtime>::expect_origin() XcmGeneric::<Runtime>::expect_origin()
} }
fn expect_error(_error: &Option<(u32, XcmError)>) -> Weight { fn expect_error(_error: &Option<(u32, XcmError)>) -> Weight {
@@ -213,16 +201,16 @@ impl<Call> XcmWeightInfo<Call> for AssetHubWestendXcmWeight<Call> {
fn export_message(_: &NetworkId, _: &Junctions, _: &Xcm<()>) -> Weight { fn export_message(_: &NetworkId, _: &Junctions, _: &Xcm<()>) -> Weight {
Weight::MAX Weight::MAX
} }
fn lock_asset(_: &MultiAsset, _: &MultiLocation) -> Weight { fn lock_asset(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn unlock_asset(_: &MultiAsset, _: &MultiLocation) -> Weight { fn unlock_asset(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn note_unlockable(_: &MultiAsset, _: &MultiLocation) -> Weight { fn note_unlockable(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn request_unlock(_: &MultiAsset, _: &MultiLocation) -> Weight { fn request_unlock(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn set_fees_mode(_: &bool) -> Weight { fn set_fees_mode(_: &bool) -> Weight {
@@ -234,11 +222,11 @@ impl<Call> XcmWeightInfo<Call> for AssetHubWestendXcmWeight<Call> {
fn clear_topic() -> Weight { fn clear_topic() -> Weight {
XcmGeneric::<Runtime>::clear_topic() XcmGeneric::<Runtime>::clear_topic()
} }
fn alias_origin(_: &MultiLocation) -> Weight { fn alias_origin(_: &Location) -> Weight {
// XCM Executor does not currently support alias origin operations // XCM Executor does not currently support alias origin operations
Weight::MAX Weight::MAX
} }
fn unpaid_execution(_: &WeightLimit, _: &Option<MultiLocation>) -> Weight { fn unpaid_execution(_: &WeightLimit, _: &Option<Location>) -> Weight {
XcmGeneric::<Runtime>::unpaid_execution() XcmGeneric::<Runtime>::unpaid_execution()
} }
} }
cumulus/parachains/runtimes/assets/asset-hub-westend/src/xcm_config.rs
+89 -64
View File
@@ -20,12 +20,12 @@ use super::{
ToRococoXcmRouter, TransactionByteFee, TrustBackedAssetsInstance, WeightToFee, XcmpQueue, ToRococoXcmRouter, TransactionByteFee, TrustBackedAssetsInstance, WeightToFee, XcmpQueue,
}; };
use assets_common::{ use assets_common::{
local_and_foreign_assets::MatchesLocalAndForeignAssetsMultiLocation, local_and_foreign_assets::MatchesLocalAndForeignAssetsLocation,
matching::{FromSiblingParachain, IsForeignConcreteAsset}, matching::{FromSiblingParachain, IsForeignConcreteAsset},
TrustBackedAssetsAsMultiLocation, TrustBackedAssetsAsLocation,
}; };
use frame_support::{ use frame_support::{
match_types, parameter_types, parameter_types,
traits::{ traits::{
tokens::imbalance::ResolveAssetTo, ConstU32, Contains, Equals, Everything, Nothing, tokens::imbalance::ResolveAssetTo, ConstU32, Contains, Equals, Everything, Nothing,
PalletInfoAccess, PalletInfoAccess,
@@ -61,25 +61,31 @@ use xcm_builder::{
use xcm_executor::{traits::WithOriginFilter, XcmExecutor}; use xcm_executor::{traits::WithOriginFilter, XcmExecutor};
parameter_types! { parameter_types! {
pub const WestendLocation: MultiLocation = MultiLocation::parent(); pub const WestendLocation: Location = Location::parent();
pub const WestendLocationV3: xcm::v3::Location = xcm::v3::Location::parent();
pub const RelayNetwork: Option<NetworkId> = Some(NetworkId::Westend); pub const RelayNetwork: Option<NetworkId> = Some(NetworkId::Westend);
pub RelayChainOrigin: RuntimeOrigin = cumulus_pallet_xcm::Origin::Relay.into(); pub RelayChainOrigin: RuntimeOrigin = cumulus_pallet_xcm::Origin::Relay.into();
pub UniversalLocation: InteriorMultiLocation = pub UniversalLocation: InteriorLocation =
X2(GlobalConsensus(RelayNetwork::get().unwrap()), Parachain(ParachainInfo::parachain_id().into())); [GlobalConsensus(RelayNetwork::get().unwrap()), Parachain(ParachainInfo::parachain_id().into())].into();
pub UniversalLocationNetworkId: NetworkId = UniversalLocation::get().global_consensus().unwrap(); pub UniversalLocationNetworkId: NetworkId = UniversalLocation::get().global_consensus().unwrap();
pub AssetsPalletIndex: u32 = <Assets as PalletInfoAccess>::index() as u32; pub TrustBackedAssetsPalletLocation: Location =
pub TrustBackedAssetsPalletLocation: MultiLocation = PalletInstance(AssetsPalletIndex::get() as u8).into(); PalletInstance(TrustBackedAssetsPalletIndex::get()).into();
pub ForeignAssetsPalletLocation: MultiLocation = pub TrustBackedAssetsPalletIndex: u8 = <Assets as PalletInfoAccess>::index() as u8;
pub TrustBackedAssetsPalletLocationV3: xcm::v3::Location =
xcm::v3::Junction::PalletInstance(<Assets as PalletInfoAccess>::index() as u8).into();
pub ForeignAssetsPalletLocation: Location =
PalletInstance(<ForeignAssets as PalletInfoAccess>::index() as u8).into(); PalletInstance(<ForeignAssets as PalletInfoAccess>::index() as u8).into();
pub PoolAssetsPalletLocation: MultiLocation = pub PoolAssetsPalletLocation: Location =
PalletInstance(<PoolAssets as PalletInfoAccess>::index() as u8).into(); PalletInstance(<PoolAssets as PalletInfoAccess>::index() as u8).into();
pub PoolAssetsPalletLocationV3: xcm::v3::Location =
xcm::v3::Junction::PalletInstance(<PoolAssets as PalletInfoAccess>::index() as u8).into();
pub CheckingAccount: AccountId = PolkadotXcm::check_account(); pub CheckingAccount: AccountId = PolkadotXcm::check_account();
pub StakingPot: AccountId = CollatorSelection::account_id(); pub StakingPot: AccountId = CollatorSelection::account_id();
pub TreasuryAccount: AccountId = TREASURY_PALLET_ID.into_account_truncating(); pub TreasuryAccount: AccountId = TREASURY_PALLET_ID.into_account_truncating();
pub RelayTreasuryLocation: MultiLocation = (Parent, PalletInstance(westend_runtime_constants::TREASURY_PALLET_ID)).into(); pub RelayTreasuryLocation: Location = (Parent, PalletInstance(westend_runtime_constants::TREASURY_PALLET_ID)).into();
} }
/// Type for specifying how a `MultiLocation` can be converted into an `AccountId`. This is used /// Type for specifying how a `Location` can be converted into an `AccountId`. This is used
/// when determining ownership of accounts for asset transacting and when attempting to use XCM /// when determining ownership of accounts for asset transacting and when attempting to use XCM
/// `Transact` in order to determine the dispatch Origin. /// `Transact` in order to determine the dispatch Origin.
pub type LocationToAccountId = ( pub type LocationToAccountId = (
@@ -104,7 +110,7 @@ pub type CurrencyTransactor = CurrencyAdapter<
Balances, Balances,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
IsConcrete<WestendLocation>, IsConcrete<WestendLocation>,
// Convert an XCM MultiLocation into a local account id: // Convert an XCM Location into a local account id:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -122,7 +128,7 @@ pub type FungiblesTransactor = FungiblesAdapter<
Assets, Assets,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
TrustBackedAssetsConvertedConcreteId, TrustBackedAssetsConvertedConcreteId,
// Convert an XCM MultiLocation into a local account id: // Convert an XCM Location into a local account id:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -139,8 +145,8 @@ pub type ForeignAssetsConvertedConcreteId = assets_common::ForeignAssetsConverte
// Ignore `TrustBackedAssets` explicitly // Ignore `TrustBackedAssets` explicitly
StartsWith<TrustBackedAssetsPalletLocation>, StartsWith<TrustBackedAssetsPalletLocation>,
// Ignore asset which starts explicitly with our `GlobalConsensus(NetworkId)`, means: // Ignore asset which starts explicitly with our `GlobalConsensus(NetworkId)`, means:
// - foreign assets from our consensus should be: `MultiLocation {parents: 1, // - foreign assets from our consensus should be: `Location {parents: 1, X*(Parachain(xyz),
// X*(Parachain(xyz), ..)} // ..)}
// - foreign assets outside our consensus with the same `GlobalConsensus(NetworkId)` wont // - foreign assets outside our consensus with the same `GlobalConsensus(NetworkId)` wont
// be accepted here // be accepted here
StartsWithExplicitGlobalConsensus<UniversalLocationNetworkId>, StartsWithExplicitGlobalConsensus<UniversalLocationNetworkId>,
@@ -154,7 +160,7 @@ pub type ForeignFungiblesTransactor = FungiblesAdapter<
ForeignAssets, ForeignAssets,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
ForeignAssetsConvertedConcreteId, ForeignAssetsConvertedConcreteId,
// Convert an XCM MultiLocation into a local account id: // Convert an XCM Location into a local account id:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -174,7 +180,7 @@ pub type PoolFungiblesTransactor = FungiblesAdapter<
PoolAssets, PoolAssets,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
PoolAssetsConvertedConcreteId, PoolAssetsConvertedConcreteId,
// Convert an XCM MultiLocation into a local account id: // Convert an XCM Location into a local account id:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -189,21 +195,33 @@ pub type PoolFungiblesTransactor = FungiblesAdapter<
pub type AssetTransactors = pub type AssetTransactors =
(CurrencyTransactor, FungiblesTransactor, ForeignFungiblesTransactor, PoolFungiblesTransactor); (CurrencyTransactor, FungiblesTransactor, ForeignFungiblesTransactor, PoolFungiblesTransactor);
/// Simple `MultiLocation` matcher for Local and Foreign asset `MultiLocation`. /// Simple `Location` matcher for Local and Foreign asset `Location`.
pub struct LocalAndForeignAssetsMultiLocationMatcher; pub struct LocalAndForeignAssetsLocationMatcher;
impl MatchesLocalAndForeignAssetsMultiLocation for LocalAndForeignAssetsMultiLocationMatcher { impl MatchesLocalAndForeignAssetsLocation<xcm::v3::Location>
fn is_local(location: &MultiLocation) -> bool { for LocalAndForeignAssetsLocationMatcher
use assets_common::fungible_conversion::MatchesMultiLocation; {
TrustBackedAssetsConvertedConcreteId::contains(location) fn is_local(location: &xcm::v3::Location) -> bool {
use assets_common::fungible_conversion::MatchesLocation;
let latest_location: Location = if let Ok(location) = (*location).try_into() {
location
} else {
return false;
};
TrustBackedAssetsConvertedConcreteId::contains(&latest_location)
} }
fn is_foreign(location: &MultiLocation) -> bool { fn is_foreign(location: &xcm::v3::Location) -> bool {
use assets_common::fungible_conversion::MatchesMultiLocation; use assets_common::fungible_conversion::MatchesLocation;
ForeignAssetsConvertedConcreteId::contains(location) let latest_location: Location = if let Ok(location) = (*location).try_into() {
location
} else {
return false;
};
ForeignAssetsConvertedConcreteId::contains(&latest_location)
} }
} }
impl Contains<MultiLocation> for LocalAndForeignAssetsMultiLocationMatcher { impl Contains<xcm::v3::Location> for LocalAndForeignAssetsLocationMatcher {
fn contains(location: &MultiLocation) -> bool { fn contains(location: &xcm::v3::Location) -> bool {
Self::is_local(location) || Self::is_foreign(location) Self::is_local(location) || Self::is_foreign(location)
} }
} }
@@ -238,23 +256,30 @@ parameter_types! {
pub XcmAssetFeesReceiver: Option<AccountId> = Authorship::author(); pub XcmAssetFeesReceiver: Option<AccountId> = Authorship::author();
} }
match_types! { pub struct ParentOrParentsPlurality;
pub type ParentOrParentsPlurality: impl Contains<MultiLocation> = { impl Contains<Location> for ParentOrParentsPlurality {
MultiLocation { parents: 1, interior: Here } | fn contains(location: &Location) -> bool {
MultiLocation { parents: 1, interior: X1(Plurality { .. }) } matches!(location.unpack(), (1, []) | (1, [Plurality { .. }]))
}; }
pub type FellowshipEntities: impl Contains<MultiLocation> = { }
// Fellowship Plurality
MultiLocation { parents: 1, interior: X2(Parachain(1001), Plurality { id: BodyId::Technical, ..}) } | pub struct FellowshipEntities;
// Fellowship Salary Pallet impl Contains<Location> for FellowshipEntities {
MultiLocation { parents: 1, interior: X2(Parachain(1001), PalletInstance(64)) } | fn contains(location: &Location) -> bool {
// Fellowship Treasury Pallet matches!(
MultiLocation { parents: 1, interior: X2(Parachain(1001), PalletInstance(65)) } location.unpack(),
}; (1, [Parachain(1001), Plurality { id: BodyId::Technical, .. }]) |
pub type AmbassadorEntities: impl Contains<MultiLocation> = { (1, [Parachain(1001), PalletInstance(64)]) |
// Ambassador Salary Pallet (1, [Parachain(1001), PalletInstance(65)])
MultiLocation { parents: 1, interior: X2(Parachain(1001), PalletInstance(74)) } )
}; }
}
pub struct AmbassadorEntities;
impl Contains<Location> for AmbassadorEntities {
fn contains(location: &Location) -> bool {
matches!(location.unpack(), (1, [Parachain(1001), PalletInstance(74)]))
}
} }
/// A call filter for the XCM Transact instruction. This is a temporary measure until we properly /// A call filter for the XCM Transact instruction. This is a temporary measure until we properly
@@ -573,12 +598,12 @@ impl xcm_executor::Config for XcmConfig {
type Trader = ( type Trader = (
UsingComponents<WeightToFee, WestendLocation, AccountId, Balances, ToStakingPot<Runtime>>, UsingComponents<WeightToFee, WestendLocation, AccountId, Balances, ToStakingPot<Runtime>>,
cumulus_primitives_utility::SwapFirstAssetTrader< cumulus_primitives_utility::SwapFirstAssetTrader<
WestendLocation, WestendLocationV3,
crate::AssetConversion, crate::AssetConversion,
WeightToFee, WeightToFee,
crate::NativeAndAssets, crate::NativeAndAssets,
( (
TrustBackedAssetsAsMultiLocation<TrustBackedAssetsPalletLocation, Balance>, TrustBackedAssetsAsLocation<TrustBackedAssetsPalletLocation, Balance>,
ForeignAssetsConvertedConcreteId, ForeignAssetsConvertedConcreteId,
), ),
ResolveAssetTo<StakingPot, crate::NativeAndAssets>, ResolveAssetTo<StakingPot, crate::NativeAndAssets>,
@@ -671,9 +696,9 @@ pub type ForeignCreatorsSovereignAccountOf = (
/// Simple conversion of `u32` into an `AssetId` for use in benchmarking. /// Simple conversion of `u32` into an `AssetId` for use in benchmarking.
pub struct XcmBenchmarkHelper; pub struct XcmBenchmarkHelper;
#[cfg(feature = "runtime-benchmarks")] #[cfg(feature = "runtime-benchmarks")]
impl pallet_assets::BenchmarkHelper<MultiLocation> for XcmBenchmarkHelper { impl pallet_assets::BenchmarkHelper<xcm::v3::Location> for XcmBenchmarkHelper {
fn create_asset_id_parameter(id: u32) -> MultiLocation { fn create_asset_id_parameter(id: u32) -> xcm::v3::Location {
MultiLocation { parents: 1, interior: X1(Parachain(id)) } xcm::v3::Location::new(1, [xcm::v3::Junction::Parachain(id)])
} }
} }
@@ -704,7 +729,7 @@ pub mod bridging {
pub storage XcmBridgeHubRouterByteFee: Balance = TransactionByteFee::get(); pub storage XcmBridgeHubRouterByteFee: Balance = TransactionByteFee::get();
pub SiblingBridgeHubParaId: u32 = bp_bridge_hub_westend::BRIDGE_HUB_WESTEND_PARACHAIN_ID; pub SiblingBridgeHubParaId: u32 = bp_bridge_hub_westend::BRIDGE_HUB_WESTEND_PARACHAIN_ID;
pub SiblingBridgeHub: MultiLocation = MultiLocation::new(1, X1(Parachain(SiblingBridgeHubParaId::get()))); pub SiblingBridgeHub: Location = Location::new(1, [Parachain(SiblingBridgeHubParaId::get())]);
/// Router expects payment with this `AssetId`. /// Router expects payment with this `AssetId`.
/// (`AssetId` has to be aligned with `BridgeTable`) /// (`AssetId` has to be aligned with `BridgeTable`)
pub XcmBridgeHubRouterFeeAssetId: AssetId = WestendLocation::get().into(); pub XcmBridgeHubRouterFeeAssetId: AssetId = WestendLocation::get().into();
@@ -721,25 +746,25 @@ pub mod bridging {
use super::*; use super::*;
parameter_types! { parameter_types! {
pub SiblingBridgeHubWithBridgeHubRococoInstance: MultiLocation = MultiLocation::new( pub SiblingBridgeHubWithBridgeHubRococoInstance: Location = Location::new(
1, 1,
X2( [
Parachain(SiblingBridgeHubParaId::get()), Parachain(SiblingBridgeHubParaId::get()),
PalletInstance(bp_bridge_hub_westend::WITH_BRIDGE_WESTEND_TO_ROCOCO_MESSAGES_PALLET_INDEX) PalletInstance(bp_bridge_hub_westend::WITH_BRIDGE_WESTEND_TO_ROCOCO_MESSAGES_PALLET_INDEX)
) ]
); );
pub const RococoNetwork: NetworkId = NetworkId::Rococo; pub const RococoNetwork: NetworkId = NetworkId::Rococo;
pub AssetHubRococo: MultiLocation = MultiLocation::new(2, X2(GlobalConsensus(RococoNetwork::get()), Parachain(bp_asset_hub_rococo::ASSET_HUB_ROCOCO_PARACHAIN_ID))); pub AssetHubRococo: Location = Location::new(2, [GlobalConsensus(RococoNetwork::get()), Parachain(bp_asset_hub_rococo::ASSET_HUB_ROCOCO_PARACHAIN_ID)]);
pub RocLocation: MultiLocation = MultiLocation::new(2, X1(GlobalConsensus(RococoNetwork::get()))); pub RocLocation: Location = Location::new(2, [GlobalConsensus(RococoNetwork::get())]);
pub RocFromAssetHubRococo: (MultiAssetFilter, MultiLocation) = ( pub RocFromAssetHubRococo: (AssetFilter, Location) = (
Wild(AllOf { fun: WildFungible, id: Concrete(RocLocation::get()) }), Wild(AllOf { fun: WildFungible, id: AssetId(RocLocation::get()) }),
AssetHubRococo::get() AssetHubRococo::get()
); );
/// Set up exporters configuration. /// Set up exporters configuration.
/// `Option<MultiAsset>` represents static "base fee" which is used for total delivery fee calculation. /// `Option<Asset>` represents static "base fee" which is used for total delivery fee calculation.
pub BridgeTable: sp_std::vec::Vec<NetworkExportTableItem> = sp_std::vec![ pub BridgeTable: sp_std::vec::Vec<NetworkExportTableItem> = sp_std::vec![
NetworkExportTableItem::new( NetworkExportTableItem::new(
RococoNetwork::get(), RococoNetwork::get(),
@@ -756,15 +781,15 @@ pub mod bridging {
]; ];
/// Universal aliases /// Universal aliases
pub UniversalAliases: BTreeSet<(MultiLocation, Junction)> = BTreeSet::from_iter( pub UniversalAliases: BTreeSet<(Location, Junction)> = BTreeSet::from_iter(
sp_std::vec![ sp_std::vec![
(SiblingBridgeHubWithBridgeHubRococoInstance::get(), GlobalConsensus(RococoNetwork::get())) (SiblingBridgeHubWithBridgeHubRococoInstance::get(), GlobalConsensus(RococoNetwork::get()))
] ]
); );
} }
impl Contains<(MultiLocation, Junction)> for UniversalAliases { impl Contains<(Location, Junction)> for UniversalAliases {
fn contains(alias: &(MultiLocation, Junction)) -> bool { fn contains(alias: &(Location, Junction)) -> bool {
UniversalAliases::get().contains(alias) UniversalAliases::get().contains(alias)
} }
} }
@@ -799,7 +824,7 @@ pub mod bridging {
#[cfg(feature = "runtime-benchmarks")] #[cfg(feature = "runtime-benchmarks")]
impl BridgingBenchmarksHelper { impl BridgingBenchmarksHelper {
pub fn prepare_universal_alias() -> Option<(MultiLocation, Junction)> { pub fn prepare_universal_alias() -> Option<(Location, Junction)> {
let alias = let alias =
to_rococo::UniversalAliases::get().into_iter().find_map(|(location, junction)| { to_rococo::UniversalAliases::get().into_iter().find_map(|(location, junction)| {
match to_rococo::SiblingBridgeHubWithBridgeHubRococoInstance::get() match to_rococo::SiblingBridgeHubWithBridgeHubRococoInstance::get()
cumulus/parachains/runtimes/assets/asset-hub-westend/tests/tests.rs
+68 -36
View File
@@ -21,12 +21,16 @@ use asset_hub_westend_runtime::{
xcm_config, xcm_config,
xcm_config::{ xcm_config::{
bridging, ForeignCreatorsSovereignAccountOf, LocationToAccountId, WestendLocation, bridging, ForeignCreatorsSovereignAccountOf, LocationToAccountId, WestendLocation,
WestendLocationV3,
}, },
AllPalletsWithoutSystem, MetadataDepositBase, MetadataDepositPerByte, PolkadotXcm, RuntimeCall, AllPalletsWithoutSystem, MetadataDepositBase, MetadataDepositPerByte, PolkadotXcm, RuntimeCall,
RuntimeEvent, RuntimeOrigin, ToRococoXcmRouterInstance, XcmpQueue, RuntimeEvent, RuntimeOrigin, ToRococoXcmRouterInstance, XcmpQueue,
}; };
pub use asset_hub_westend_runtime::{ pub use asset_hub_westend_runtime::{
xcm_config::{CheckingAccount, TrustBackedAssetsPalletLocation, XcmConfig}, xcm_config::{
CheckingAccount, TrustBackedAssetsPalletLocation, TrustBackedAssetsPalletLocationV3,
XcmConfig,
},
AssetConversion, AssetDeposit, Assets, Balances, CollatorSelection, ExistentialDeposit, AssetConversion, AssetDeposit, Assets, Balances, CollatorSelection, ExistentialDeposit,
ForeignAssets, ForeignAssetsInstance, ParachainSystem, Runtime, SessionKeys, System, ForeignAssets, ForeignAssetsInstance, ParachainSystem, Runtime, SessionKeys, System,
TrustBackedAssetsInstance, TrustBackedAssetsInstance,
@@ -51,14 +55,18 @@ use parachains_common::{
}; };
use sp_runtime::traits::MaybeEquivalence; use sp_runtime::traits::MaybeEquivalence;
use std::convert::Into; use std::convert::Into;
use xcm::latest::prelude::*; use xcm::latest::prelude::{Assets as XcmAssets, *};
use xcm_executor::traits::{Identity, JustTry, WeightTrader}; use xcm_builder::V4V3LocationConverter;
use xcm_executor::traits::{JustTry, WeightTrader};
const ALICE: [u8; 32] = [1u8; 32]; const ALICE: [u8; 32] = [1u8; 32];
const SOME_ASSET_ADMIN: [u8; 32] = [5u8; 32]; const SOME_ASSET_ADMIN: [u8; 32] = [5u8; 32];
type AssetIdForTrustBackedAssetsConvert = type AssetIdForTrustBackedAssetsConvert =
assets_common::AssetIdForTrustBackedAssetsConvert<TrustBackedAssetsPalletLocation>; assets_common::AssetIdForTrustBackedAssetsConvert<TrustBackedAssetsPalletLocationV3>;
type AssetIdForTrustBackedAssetsConvertLatest =
assets_common::AssetIdForTrustBackedAssetsConvertLatest<TrustBackedAssetsPalletLocation>;
type RuntimeHelper = asset_test_utils::RuntimeHelper<Runtime, AllPalletsWithoutSystem>; type RuntimeHelper = asset_test_utils::RuntimeHelper<Runtime, AllPalletsWithoutSystem>;
@@ -101,7 +109,7 @@ fn test_buy_and_refund_weight_in_native() {
let fee = WeightToFee::weight_to_fee(&weight); let fee = WeightToFee::weight_to_fee(&weight);
let extra_amount = 100; let extra_amount = 100;
let ctx = XcmContext { origin: None, message_id: XcmHash::default(), topic: None }; let ctx = XcmContext { origin: None, message_id: XcmHash::default(), topic: None };
let payment: MultiAsset = (native_location, fee + extra_amount).into(); let payment: Asset = (native_location.clone(), fee + extra_amount).into();
// init trader and buy weight. // init trader and buy weight.
let mut trader = <XcmConfig as xcm_executor::Config>::Trader::new(); let mut trader = <XcmConfig as xcm_executor::Config>::Trader::new();
@@ -110,7 +118,7 @@ fn test_buy_and_refund_weight_in_native() {
// assert. // assert.
let unused_amount = let unused_amount =
unused_asset.fungible.get(&native_location.into()).map_or(0, |a| *a); unused_asset.fungible.get(&native_location.clone().into()).map_or(0, |a| *a);
assert_eq!(unused_amount, extra_amount); assert_eq!(unused_amount, extra_amount);
assert_eq!(Balances::total_issuance(), total_issuance); assert_eq!(Balances::total_issuance(), total_issuance);
@@ -146,7 +154,7 @@ fn test_buy_and_refund_weight_with_swap_local_asset_xcm_trader() {
let bob: AccountId = SOME_ASSET_ADMIN.into(); let bob: AccountId = SOME_ASSET_ADMIN.into();
let staking_pot = CollatorSelection::account_id(); let staking_pot = CollatorSelection::account_id();
let asset_1: u32 = 1; let asset_1: u32 = 1;
let native_location = WestendLocation::get(); let native_location = WestendLocationV3::get();
let asset_1_location = let asset_1_location =
AssetIdForTrustBackedAssetsConvert::convert_back(&asset_1).unwrap(); AssetIdForTrustBackedAssetsConvert::convert_back(&asset_1).unwrap();
// bob's initial balance for native and `asset1` assets. // bob's initial balance for native and `asset1` assets.
@@ -182,6 +190,8 @@ fn test_buy_and_refund_weight_with_swap_local_asset_xcm_trader() {
let asset_total_issuance = Assets::total_issuance(asset_1); let asset_total_issuance = Assets::total_issuance(asset_1);
let native_total_issuance = Balances::total_issuance(); let native_total_issuance = Balances::total_issuance();
let asset_1_location_latest: Location = asset_1_location.try_into().unwrap();
// prepare input to buy weight. // prepare input to buy weight.
let weight = Weight::from_parts(4_000_000_000, 0); let weight = Weight::from_parts(4_000_000_000, 0);
let fee = WeightToFee::weight_to_fee(&weight); let fee = WeightToFee::weight_to_fee(&weight);
@@ -189,7 +199,7 @@ fn test_buy_and_refund_weight_with_swap_local_asset_xcm_trader() {
AssetConversion::get_amount_in(&fee, &pool_liquidity, &pool_liquidity).unwrap(); AssetConversion::get_amount_in(&fee, &pool_liquidity, &pool_liquidity).unwrap();
let extra_amount = 100; let extra_amount = 100;
let ctx = XcmContext { origin: None, message_id: XcmHash::default(), topic: None }; let ctx = XcmContext { origin: None, message_id: XcmHash::default(), topic: None };
let payment: MultiAsset = (asset_1_location, asset_fee + extra_amount).into(); let payment: Asset = (asset_1_location_latest.clone(), asset_fee + extra_amount).into();
// init trader and buy weight. // init trader and buy weight.
let mut trader = <XcmConfig as xcm_executor::Config>::Trader::new(); let mut trader = <XcmConfig as xcm_executor::Config>::Trader::new();
@@ -197,8 +207,10 @@ fn test_buy_and_refund_weight_with_swap_local_asset_xcm_trader() {
trader.buy_weight(weight, payment.into(), &ctx).expect("Expected Ok"); trader.buy_weight(weight, payment.into(), &ctx).expect("Expected Ok");
// assert. // assert.
let unused_amount = let unused_amount = unused_asset
unused_asset.fungible.get(&asset_1_location.into()).map_or(0, |a| *a); .fungible
.get(&asset_1_location_latest.clone().into())
.map_or(0, |a| *a);
assert_eq!(unused_amount, extra_amount); assert_eq!(unused_amount, extra_amount);
assert_eq!(Assets::total_issuance(asset_1), asset_total_issuance + asset_fee); assert_eq!(Assets::total_issuance(asset_1), asset_total_issuance + asset_fee);
@@ -212,7 +224,7 @@ fn test_buy_and_refund_weight_with_swap_local_asset_xcm_trader() {
// refund. // refund.
let actual_refund = trader.refund_weight(refund_weight, &ctx).unwrap(); let actual_refund = trader.refund_weight(refund_weight, &ctx).unwrap();
assert_eq!(actual_refund, (asset_1_location, asset_refund).into()); assert_eq!(actual_refund, (asset_1_location_latest, asset_refund).into());
// assert. // assert.
assert_eq!(Balances::balance(&staking_pot), initial_balance); assert_eq!(Balances::balance(&staking_pot), initial_balance);
@@ -241,9 +253,15 @@ fn test_buy_and_refund_weight_with_swap_foreign_asset_xcm_trader() {
.execute_with(|| { .execute_with(|| {
let bob: AccountId = SOME_ASSET_ADMIN.into(); let bob: AccountId = SOME_ASSET_ADMIN.into();
let staking_pot = CollatorSelection::account_id(); let staking_pot = CollatorSelection::account_id();
let native_location = WestendLocation::get(); let native_location = WestendLocationV3::get();
let foreign_location = let foreign_location = xcm::v3::Location {
MultiLocation { parents: 1, interior: X2(Parachain(1234), GeneralIndex(12345)) }; parents: 1,
interior: (
xcm::v3::Junction::Parachain(1234),
xcm::v3::Junction::GeneralIndex(12345),
)
.into(),
};
// bob's initial balance for native and `asset1` assets. // bob's initial balance for native and `asset1` assets.
let initial_balance = 200 * UNITS; let initial_balance = 200 * UNITS;
// liquidity for both arms of (native, asset1) pool. // liquidity for both arms of (native, asset1) pool.
@@ -282,6 +300,8 @@ fn test_buy_and_refund_weight_with_swap_foreign_asset_xcm_trader() {
let asset_total_issuance = ForeignAssets::total_issuance(foreign_location); let asset_total_issuance = ForeignAssets::total_issuance(foreign_location);
let native_total_issuance = Balances::total_issuance(); let native_total_issuance = Balances::total_issuance();
let foreign_location_latest: Location = foreign_location.try_into().unwrap();
// prepare input to buy weight. // prepare input to buy weight.
let weight = Weight::from_parts(4_000_000_000, 0); let weight = Weight::from_parts(4_000_000_000, 0);
let fee = WeightToFee::weight_to_fee(&weight); let fee = WeightToFee::weight_to_fee(&weight);
@@ -289,7 +309,7 @@ fn test_buy_and_refund_weight_with_swap_foreign_asset_xcm_trader() {
AssetConversion::get_amount_in(&fee, &pool_liquidity, &pool_liquidity).unwrap(); AssetConversion::get_amount_in(&fee, &pool_liquidity, &pool_liquidity).unwrap();
let extra_amount = 100; let extra_amount = 100;
let ctx = XcmContext { origin: None, message_id: XcmHash::default(), topic: None }; let ctx = XcmContext { origin: None, message_id: XcmHash::default(), topic: None };
let payment: MultiAsset = (foreign_location, asset_fee + extra_amount).into(); let payment: Asset = (foreign_location_latest.clone(), asset_fee + extra_amount).into();
// init trader and buy weight. // init trader and buy weight.
let mut trader = <XcmConfig as xcm_executor::Config>::Trader::new(); let mut trader = <XcmConfig as xcm_executor::Config>::Trader::new();
@@ -297,8 +317,10 @@ fn test_buy_and_refund_weight_with_swap_foreign_asset_xcm_trader() {
trader.buy_weight(weight, payment.into(), &ctx).expect("Expected Ok"); trader.buy_weight(weight, payment.into(), &ctx).expect("Expected Ok");
// assert. // assert.
let unused_amount = let unused_amount = unused_asset
unused_asset.fungible.get(&foreign_location.into()).map_or(0, |a| *a); .fungible
.get(&foreign_location_latest.clone().into())
.map_or(0, |a| *a);
assert_eq!(unused_amount, extra_amount); assert_eq!(unused_amount, extra_amount);
assert_eq!( assert_eq!(
ForeignAssets::total_issuance(foreign_location), ForeignAssets::total_issuance(foreign_location),
@@ -315,7 +337,7 @@ fn test_buy_and_refund_weight_with_swap_foreign_asset_xcm_trader() {
// refund. // refund.
let actual_refund = trader.refund_weight(refund_weight, &ctx).unwrap(); let actual_refund = trader.refund_weight(refund_weight, &ctx).unwrap();
assert_eq!(actual_refund, (foreign_location, asset_refund).into()); assert_eq!(actual_refund, (foreign_location_latest, asset_refund).into());
// assert. // assert.
assert_eq!(Balances::balance(&staking_pot), initial_balance); assert_eq!(Balances::balance(&staking_pot), initial_balance);
@@ -345,19 +367,25 @@ fn test_assets_balances_api_works() {
.build() .build()
.execute_with(|| { .execute_with(|| {
let local_asset_id = 1; let local_asset_id = 1;
let foreign_asset_id_multilocation = let foreign_asset_id_location = xcm::v3::Location {
MultiLocation { parents: 1, interior: X2(Parachain(1234), GeneralIndex(12345)) }; parents: 1,
interior: [
xcm::v3::Junction::Parachain(1234),
xcm::v3::Junction::GeneralIndex(12345),
]
.into(),
};
// check before // check before
assert_eq!(Assets::balance(local_asset_id, AccountId::from(ALICE)), 0); assert_eq!(Assets::balance(local_asset_id, AccountId::from(ALICE)), 0);
assert_eq!( assert_eq!(
ForeignAssets::balance(foreign_asset_id_multilocation, AccountId::from(ALICE)), ForeignAssets::balance(foreign_asset_id_location, AccountId::from(ALICE)),
0 0
); );
assert_eq!(Balances::free_balance(AccountId::from(ALICE)), 0); assert_eq!(Balances::free_balance(AccountId::from(ALICE)), 0);
assert!(Runtime::query_account_balances(AccountId::from(ALICE)) assert!(Runtime::query_account_balances(AccountId::from(ALICE))
.unwrap() .unwrap()
.try_as::<MultiAssets>() .try_as::<XcmAssets>()
.unwrap() .unwrap()
.is_none()); .is_none());
@@ -388,7 +416,7 @@ fn test_assets_balances_api_works() {
let foreign_asset_minimum_asset_balance = 3333333_u128; let foreign_asset_minimum_asset_balance = 3333333_u128;
assert_ok!(ForeignAssets::force_create( assert_ok!(ForeignAssets::force_create(
RuntimeHelper::root_origin(), RuntimeHelper::root_origin(),
foreign_asset_id_multilocation, foreign_asset_id_location,
AccountId::from(SOME_ASSET_ADMIN).into(), AccountId::from(SOME_ASSET_ADMIN).into(),
false, false,
foreign_asset_minimum_asset_balance foreign_asset_minimum_asset_balance
@@ -397,7 +425,7 @@ fn test_assets_balances_api_works() {
// We first mint enough asset for the account to exist for assets // We first mint enough asset for the account to exist for assets
assert_ok!(ForeignAssets::mint( assert_ok!(ForeignAssets::mint(
RuntimeHelper::origin_of(AccountId::from(SOME_ASSET_ADMIN)), RuntimeHelper::origin_of(AccountId::from(SOME_ASSET_ADMIN)),
foreign_asset_id_multilocation, foreign_asset_id_location,
AccountId::from(ALICE).into(), AccountId::from(ALICE).into(),
6 * foreign_asset_minimum_asset_balance 6 * foreign_asset_minimum_asset_balance
)); ));
@@ -408,12 +436,12 @@ fn test_assets_balances_api_works() {
minimum_asset_balance minimum_asset_balance
); );
assert_eq!( assert_eq!(
ForeignAssets::balance(foreign_asset_id_multilocation, AccountId::from(ALICE)), ForeignAssets::balance(foreign_asset_id_location, AccountId::from(ALICE)),
6 * minimum_asset_balance 6 * minimum_asset_balance
); );
assert_eq!(Balances::free_balance(AccountId::from(ALICE)), some_currency); assert_eq!(Balances::free_balance(AccountId::from(ALICE)), some_currency);
let result: MultiAssets = Runtime::query_account_balances(AccountId::from(ALICE)) let result: XcmAssets = Runtime::query_account_balances(AccountId::from(ALICE))
.unwrap() .unwrap()
.try_into() .try_into()
.unwrap(); .unwrap();
@@ -428,13 +456,13 @@ fn test_assets_balances_api_works() {
))); )));
// check trusted asset // check trusted asset
assert!(result.inner().iter().any(|asset| asset.eq(&( assert!(result.inner().iter().any(|asset| asset.eq(&(
AssetIdForTrustBackedAssetsConvert::convert_back(&local_asset_id).unwrap(), AssetIdForTrustBackedAssetsConvertLatest::convert_back(&local_asset_id).unwrap(),
minimum_asset_balance minimum_asset_balance
) )
.into()))); .into())));
// check foreign asset // check foreign asset
assert!(result.inner().iter().any(|asset| asset.eq(&( assert!(result.inner().iter().any(|asset| asset.eq(&(
Identity::convert_back(&foreign_asset_id_multilocation).unwrap(), V4V3LocationConverter::convert_back(&foreign_asset_id_location).unwrap(),
6 * foreign_asset_minimum_asset_balance 6 * foreign_asset_minimum_asset_balance
) )
.into()))); .into())));
@@ -505,7 +533,7 @@ asset_test_utils::include_asset_transactor_transfer_with_pallet_assets_instance_
XcmConfig, XcmConfig,
TrustBackedAssetsInstance, TrustBackedAssetsInstance,
AssetIdForTrustBackedAssets, AssetIdForTrustBackedAssets,
AssetIdForTrustBackedAssetsConvert, AssetIdForTrustBackedAssetsConvertLatest,
collator_session_keys(), collator_session_keys(),
ExistentialDeposit::get(), ExistentialDeposit::get(),
12345, 12345,
@@ -522,11 +550,15 @@ asset_test_utils::include_asset_transactor_transfer_with_pallet_assets_instance_
Runtime, Runtime,
XcmConfig, XcmConfig,
ForeignAssetsInstance, ForeignAssetsInstance,
MultiLocation, xcm::v3::Location,
JustTry, JustTry,
collator_session_keys(), collator_session_keys(),
ExistentialDeposit::get(), ExistentialDeposit::get(),
MultiLocation { parents: 1, interior: X2(Parachain(1313), GeneralIndex(12345)) }, xcm::v3::Location {
parents: 1,
interior: [xcm::v3::Junction::Parachain(1313), xcm::v3::Junction::GeneralIndex(12345)]
.into()
},
Box::new(|| { Box::new(|| {
assert!(Assets::asset_ids().collect::<Vec<_>>().is_empty()); assert!(Assets::asset_ids().collect::<Vec<_>>().is_empty());
}), }),
@@ -541,8 +573,8 @@ asset_test_utils::include_create_and_manage_foreign_assets_for_local_consensus_p
WeightToFee, WeightToFee,
ForeignCreatorsSovereignAccountOf, ForeignCreatorsSovereignAccountOf,
ForeignAssetsInstance, ForeignAssetsInstance,
MultiLocation, xcm::v3::Location,
JustTry, V4V3LocationConverter,
collator_session_keys(), collator_session_keys(),
ExistentialDeposit::get(), ExistentialDeposit::get(),
AssetDeposit::get(), AssetDeposit::get(),
@@ -626,12 +658,12 @@ fn receive_reserve_asset_deposited_roc_from_asset_hub_rococo_works() {
AccountId::from([73; 32]), AccountId::from([73; 32]),
AccountId::from(BLOCK_AUTHOR_ACCOUNT), AccountId::from(BLOCK_AUTHOR_ACCOUNT),
// receiving ROCs // receiving ROCs
(MultiLocation { parents: 2, interior: X1(GlobalConsensus(Rococo)) }, 1000000000000, 1_000_000_000), (xcm::v3::Location::new(2, [xcm::v3::Junction::GlobalConsensus(xcm::v3::NetworkId::Rococo)]), 1000000000000, 1_000_000_000),
bridging_to_asset_hub_rococo, bridging_to_asset_hub_rococo,
( (
X1(PalletInstance(bp_bridge_hub_westend::WITH_BRIDGE_WESTEND_TO_ROCOCO_MESSAGES_PALLET_INDEX)), [PalletInstance(bp_bridge_hub_westend::WITH_BRIDGE_WESTEND_TO_ROCOCO_MESSAGES_PALLET_INDEX)].into(),
GlobalConsensus(Rococo), GlobalConsensus(Rococo),
X1(Parachain(1000)) [Parachain(1000)].into()
) )
) )
} }
cumulus/parachains/runtimes/assets/common/src/benchmarks.rs
+10 -11
View File
@@ -19,26 +19,25 @@ use sp_std::marker::PhantomData;
use xcm::latest::prelude::*; use xcm::latest::prelude::*;
/// Creates asset pairs for liquidity pools with `Target` always being the first asset. /// Creates asset pairs for liquidity pools with `Target` always being the first asset.
pub struct AssetPairFactory<Target, SelfParaId, PalletId>( pub struct AssetPairFactory<Target, SelfParaId, PalletId, L = Location>(
PhantomData<(Target, SelfParaId, PalletId)>, PhantomData<(Target, SelfParaId, PalletId, L)>,
); );
impl<Target: Get<MultiLocation>, SelfParaId: Get<ParaId>, PalletId: Get<u32>> impl<Target: Get<L>, SelfParaId: Get<ParaId>, PalletId: Get<u32>, L: TryFrom<Location>>
pallet_asset_conversion::BenchmarkHelper<MultiLocation> pallet_asset_conversion::BenchmarkHelper<L> for AssetPairFactory<Target, SelfParaId, PalletId, L>
for AssetPairFactory<Target, SelfParaId, PalletId>
{ {
fn create_pair(seed1: u32, seed2: u32) -> (MultiLocation, MultiLocation) { fn create_pair(seed1: u32, seed2: u32) -> (L, L) {
let with_id = MultiLocation::new( let with_id = Location::new(
1, 1,
X3( [
Parachain(SelfParaId::get().into()), Parachain(SelfParaId::get().into()),
PalletInstance(PalletId::get() as u8), PalletInstance(PalletId::get() as u8),
GeneralIndex(seed2.into()), GeneralIndex(seed2.into()),
), ],
); );
if seed1 % 2 == 0 { if seed1 % 2 == 0 {
(with_id, Target::get()) (with_id.try_into().map_err(|_| "Something went wrong").unwrap(), Target::get())
} else { } else {
(Target::get(), with_id) (Target::get(), with_id.try_into().map_err(|_| "Something went wrong").unwrap())
} }
} }
} }
cumulus/parachains/runtimes/assets/common/src/foreign_creators.rs
+14 -11
View File
@@ -17,21 +17,21 @@ use frame_support::traits::{
ContainsPair, EnsureOrigin, EnsureOriginWithArg, Everything, OriginTrait, ContainsPair, EnsureOrigin, EnsureOriginWithArg, Everything, OriginTrait,
}; };
use pallet_xcm::{EnsureXcm, Origin as XcmOrigin}; use pallet_xcm::{EnsureXcm, Origin as XcmOrigin};
use xcm::latest::MultiLocation; use xcm::latest::Location;
use xcm_executor::traits::ConvertLocation; use xcm_executor::traits::ConvertLocation;
/// `EnsureOriginWithArg` impl for `CreateOrigin` that allows only XCM origins that are locations /// `EnsureOriginWithArg` impl for `CreateOrigin` that allows only XCM origins that are locations
/// containing the class location. /// containing the class location.
pub struct ForeignCreators<IsForeign, AccountOf, AccountId>( pub struct ForeignCreators<IsForeign, AccountOf, AccountId, L = Location>(
sp_std::marker::PhantomData<(IsForeign, AccountOf, AccountId)>, sp_std::marker::PhantomData<(IsForeign, AccountOf, AccountId, L)>,
); );
impl< impl<
IsForeign: ContainsPair<MultiLocation, MultiLocation>, IsForeign: ContainsPair<L, L>,
AccountOf: ConvertLocation<AccountId>, AccountOf: ConvertLocation<AccountId>,
AccountId: Clone, AccountId: Clone,
RuntimeOrigin: From<XcmOrigin> + OriginTrait + Clone, RuntimeOrigin: From<XcmOrigin> + OriginTrait + Clone,
> EnsureOriginWithArg<RuntimeOrigin, MultiLocation> L: TryFrom<Location> + TryInto<Location> + Clone,
for ForeignCreators<IsForeign, AccountOf, AccountId> > EnsureOriginWithArg<RuntimeOrigin, L> for ForeignCreators<IsForeign, AccountOf, AccountId, L>
where where
RuntimeOrigin::PalletsOrigin: RuntimeOrigin::PalletsOrigin:
From<XcmOrigin> + TryInto<XcmOrigin, Error = RuntimeOrigin::PalletsOrigin>, From<XcmOrigin> + TryInto<XcmOrigin, Error = RuntimeOrigin::PalletsOrigin>,
@@ -40,17 +40,20 @@ where
fn try_origin( fn try_origin(
origin: RuntimeOrigin, origin: RuntimeOrigin,
asset_location: &MultiLocation, asset_location: &L,
) -> sp_std::result::Result<Self::Success, RuntimeOrigin> { ) -> sp_std::result::Result<Self::Success, RuntimeOrigin> {
let origin_location = EnsureXcm::<Everything>::try_origin(origin.clone())?; let origin_location = EnsureXcm::<Everything, L>::try_origin(origin.clone())?;
if !IsForeign::contains(asset_location, &origin_location) { if !IsForeign::contains(asset_location, &origin_location) {
return Err(origin) return Err(origin)
} }
AccountOf::convert_location(&origin_location).ok_or(origin) let latest_location: Location =
origin_location.clone().try_into().map_err(|_| origin.clone())?;
AccountOf::convert_location(&latest_location).ok_or(origin)
} }
#[cfg(feature = "runtime-benchmarks")] #[cfg(feature = "runtime-benchmarks")]
fn try_successful_origin(a: &MultiLocation) -> Result<RuntimeOrigin, ()> { fn try_successful_origin(a: &L) -> Result<RuntimeOrigin, ()> {
Ok(pallet_xcm::Origin::Xcm(*a).into()) let latest_location: Location = (*a).clone().try_into().map_err(|_| ())?;
Ok(pallet_xcm::Origin::Xcm(latest_location).into())
} }
} }
cumulus/parachains/runtimes/assets/common/src/fungible_conversion.rs
+47 -56
View File
@@ -19,52 +19,48 @@ use crate::runtime_api::FungiblesAccessError;
use frame_support::traits::Contains; use frame_support::traits::Contains;
use sp_runtime::traits::MaybeEquivalence; use sp_runtime::traits::MaybeEquivalence;
use sp_std::{borrow::Borrow, vec::Vec}; use sp_std::{borrow::Borrow, vec::Vec};
use xcm::latest::{MultiAsset, MultiLocation}; use xcm::latest::{Asset, Location};
use xcm_builder::{ConvertedConcreteId, MatchedConvertedConcreteId}; use xcm_builder::{ConvertedConcreteId, MatchedConvertedConcreteId};
use xcm_executor::traits::MatchesFungibles; use xcm_executor::traits::MatchesFungibles;
/// Converting any [`(AssetId, Balance)`] to [`MultiAsset`] /// Converting any [`(AssetId, Balance)`] to [`Asset`]
pub trait MultiAssetConverter<AssetId, Balance, ConvertAssetId, ConvertBalance>: pub trait AssetConverter<AssetId, Balance, ConvertAssetId, ConvertBalance>:
MatchesFungibles<AssetId, Balance> MatchesFungibles<AssetId, Balance>
where where
AssetId: Clone, AssetId: Clone,
Balance: Clone, Balance: Clone,
ConvertAssetId: MaybeEquivalence<MultiLocation, AssetId>, ConvertAssetId: MaybeEquivalence<Location, AssetId>,
ConvertBalance: MaybeEquivalence<u128, Balance>, ConvertBalance: MaybeEquivalence<u128, Balance>,
{ {
fn convert_ref( fn convert_ref(value: impl Borrow<(AssetId, Balance)>) -> Result<Asset, FungiblesAccessError>;
value: impl Borrow<(AssetId, Balance)>,
) -> Result<MultiAsset, FungiblesAccessError>;
} }
/// Checks for `MultiLocation`. /// Checks for `Location`.
pub trait MatchesMultiLocation<AssetId, Balance, MatchAssetId, ConvertAssetId, ConvertBalance>: pub trait MatchesLocation<AssetId, Balance, MatchAssetId, ConvertAssetId, ConvertBalance>:
MatchesFungibles<AssetId, Balance> MatchesFungibles<AssetId, Balance>
where where
AssetId: Clone, AssetId: Clone,
Balance: Clone, Balance: Clone,
MatchAssetId: Contains<MultiLocation>, MatchAssetId: Contains<Location>,
ConvertAssetId: MaybeEquivalence<MultiLocation, AssetId>, ConvertAssetId: MaybeEquivalence<Location, AssetId>,
ConvertBalance: MaybeEquivalence<u128, Balance>, ConvertBalance: MaybeEquivalence<u128, Balance>,
{ {
fn contains(location: &MultiLocation) -> bool; fn contains(location: &Location) -> bool;
} }
impl< impl<
AssetId: Clone, AssetId: Clone,
Balance: Clone, Balance: Clone,
ConvertAssetId: MaybeEquivalence<MultiLocation, AssetId>, ConvertAssetId: MaybeEquivalence<Location, AssetId>,
ConvertBalance: MaybeEquivalence<u128, Balance>, ConvertBalance: MaybeEquivalence<u128, Balance>,
> MultiAssetConverter<AssetId, Balance, ConvertAssetId, ConvertBalance> > AssetConverter<AssetId, Balance, ConvertAssetId, ConvertBalance>
for ConvertedConcreteId<AssetId, Balance, ConvertAssetId, ConvertBalance> for ConvertedConcreteId<AssetId, Balance, ConvertAssetId, ConvertBalance>
{ {
fn convert_ref( fn convert_ref(value: impl Borrow<(AssetId, Balance)>) -> Result<Asset, FungiblesAccessError> {
value: impl Borrow<(AssetId, Balance)>,
) -> Result<MultiAsset, FungiblesAccessError> {
let (asset_id, balance) = value.borrow(); let (asset_id, balance) = value.borrow();
match ConvertAssetId::convert_back(asset_id) { match ConvertAssetId::convert_back(asset_id) {
Some(asset_id_as_multilocation) => match ConvertBalance::convert_back(balance) { Some(asset_id_as_location) => match ConvertBalance::convert_back(balance) {
Some(amount) => Ok((asset_id_as_multilocation, amount).into()), Some(amount) => Ok((asset_id_as_location, amount).into()),
None => Err(FungiblesAccessError::AmountToBalanceConversionFailed), None => Err(FungiblesAccessError::AmountToBalanceConversionFailed),
}, },
None => Err(FungiblesAccessError::AssetIdConversionFailed), None => Err(FungiblesAccessError::AssetIdConversionFailed),
@@ -75,19 +71,17 @@ impl<
impl< impl<
AssetId: Clone, AssetId: Clone,
Balance: Clone, Balance: Clone,
MatchAssetId: Contains<MultiLocation>, MatchAssetId: Contains<Location>,
ConvertAssetId: MaybeEquivalence<MultiLocation, AssetId>, ConvertAssetId: MaybeEquivalence<Location, AssetId>,
ConvertBalance: MaybeEquivalence<u128, Balance>, ConvertBalance: MaybeEquivalence<u128, Balance>,
> MultiAssetConverter<AssetId, Balance, ConvertAssetId, ConvertBalance> > AssetConverter<AssetId, Balance, ConvertAssetId, ConvertBalance>
for MatchedConvertedConcreteId<AssetId, Balance, MatchAssetId, ConvertAssetId, ConvertBalance> for MatchedConvertedConcreteId<AssetId, Balance, MatchAssetId, ConvertAssetId, ConvertBalance>
{ {
fn convert_ref( fn convert_ref(value: impl Borrow<(AssetId, Balance)>) -> Result<Asset, FungiblesAccessError> {
value: impl Borrow<(AssetId, Balance)>,
) -> Result<MultiAsset, FungiblesAccessError> {
let (asset_id, balance) = value.borrow(); let (asset_id, balance) = value.borrow();
match ConvertAssetId::convert_back(asset_id) { match ConvertAssetId::convert_back(asset_id) {
Some(asset_id_as_multilocation) => match ConvertBalance::convert_back(balance) { Some(asset_id_as_location) => match ConvertBalance::convert_back(balance) {
Some(amount) => Ok((asset_id_as_multilocation, amount).into()), Some(amount) => Ok((asset_id_as_location, amount).into()),
None => Err(FungiblesAccessError::AmountToBalanceConversionFailed), None => Err(FungiblesAccessError::AmountToBalanceConversionFailed),
}, },
None => Err(FungiblesAccessError::AssetIdConversionFailed), None => Err(FungiblesAccessError::AssetIdConversionFailed),
@@ -98,13 +92,13 @@ impl<
impl< impl<
AssetId: Clone, AssetId: Clone,
Balance: Clone, Balance: Clone,
MatchAssetId: Contains<MultiLocation>, MatchAssetId: Contains<Location>,
ConvertAssetId: MaybeEquivalence<MultiLocation, AssetId>, ConvertAssetId: MaybeEquivalence<Location, AssetId>,
ConvertBalance: MaybeEquivalence<u128, Balance>, ConvertBalance: MaybeEquivalence<u128, Balance>,
> MatchesMultiLocation<AssetId, Balance, MatchAssetId, ConvertAssetId, ConvertBalance> > MatchesLocation<AssetId, Balance, MatchAssetId, ConvertAssetId, ConvertBalance>
for MatchedConvertedConcreteId<AssetId, Balance, MatchAssetId, ConvertAssetId, ConvertBalance> for MatchedConvertedConcreteId<AssetId, Balance, MatchAssetId, ConvertAssetId, ConvertBalance>
{ {
fn contains(location: &MultiLocation) -> bool { fn contains(location: &Location) -> bool {
MatchAssetId::contains(location) MatchAssetId::contains(location)
} }
} }
@@ -113,12 +107,12 @@ impl<
impl< impl<
AssetId: Clone, AssetId: Clone,
Balance: Clone, Balance: Clone,
MatchAssetId: Contains<MultiLocation>, MatchAssetId: Contains<Location>,
ConvertAssetId: MaybeEquivalence<MultiLocation, AssetId>, ConvertAssetId: MaybeEquivalence<Location, AssetId>,
ConvertBalance: MaybeEquivalence<u128, Balance>, ConvertBalance: MaybeEquivalence<u128, Balance>,
> MatchesMultiLocation<AssetId, Balance, MatchAssetId, ConvertAssetId, ConvertBalance> for Tuple > MatchesLocation<AssetId, Balance, MatchAssetId, ConvertAssetId, ConvertBalance> for Tuple
{ {
fn contains(location: &MultiLocation) -> bool { fn contains(location: &Location) -> bool {
for_tuples!( #( for_tuples!( #(
match Tuple::contains(location) { o @ true => return o, _ => () } match Tuple::contains(location) { o @ true => return o, _ => () }
)* ); )* );
@@ -127,27 +121,24 @@ impl<
} }
} }
/// Helper function to convert collections with [`(AssetId, Balance)`] to [`MultiAsset`] /// Helper function to convert collections with [`(AssetId, Balance)`] to [`Asset`]
pub fn convert<'a, AssetId, Balance, ConvertAssetId, ConvertBalance, Converter>( pub fn convert<'a, AssetId, Balance, ConvertAssetId, ConvertBalance, Converter>(
items: impl Iterator<Item = &'a (AssetId, Balance)>, items: impl Iterator<Item = &'a (AssetId, Balance)>,
) -> Result<Vec<MultiAsset>, FungiblesAccessError> ) -> Result<Vec<Asset>, FungiblesAccessError>
where where
AssetId: Clone + 'a, AssetId: Clone + 'a,
Balance: Clone + 'a, Balance: Clone + 'a,
ConvertAssetId: MaybeEquivalence<MultiLocation, AssetId>, ConvertAssetId: MaybeEquivalence<Location, AssetId>,
ConvertBalance: MaybeEquivalence<u128, Balance>, ConvertBalance: MaybeEquivalence<u128, Balance>,
Converter: MultiAssetConverter<AssetId, Balance, ConvertAssetId, ConvertBalance>, Converter: AssetConverter<AssetId, Balance, ConvertAssetId, ConvertBalance>,
{ {
items.map(Converter::convert_ref).collect() items.map(Converter::convert_ref).collect()
} }
/// Helper function to convert `Balance` with MultiLocation` to `MultiAsset` /// Helper function to convert `Balance` with Location` to `Asset`
pub fn convert_balance< pub fn convert_balance<T: frame_support::pallet_prelude::Get<Location>, Balance: TryInto<u128>>(
T: frame_support::pallet_prelude::Get<MultiLocation>,
Balance: TryInto<u128>,
>(
balance: Balance, balance: Balance,
) -> Result<MultiAsset, FungiblesAccessError> { ) -> Result<Asset, FungiblesAccessError> {
match balance.try_into() { match balance.try_into() {
Ok(balance) => Ok((T::get(), balance).into()), Ok(balance) => Ok((T::get(), balance).into()),
Err(_) => Err(FungiblesAccessError::AmountToBalanceConversionFailed), Err(_) => Err(FungiblesAccessError::AmountToBalanceConversionFailed),
@@ -162,20 +153,20 @@ mod tests {
use xcm::latest::prelude::*; use xcm::latest::prelude::*;
use xcm_executor::traits::{Identity, JustTry}; use xcm_executor::traits::{Identity, JustTry};
type Converter = MatchedConvertedConcreteId<MultiLocation, u64, Everything, Identity, JustTry>; type Converter = MatchedConvertedConcreteId<Location, u64, Everything, Identity, JustTry>;
#[test] #[test]
fn converted_concrete_id_fungible_multi_asset_conversion_roundtrip_works() { fn converted_concrete_id_fungible_multi_asset_conversion_roundtrip_works() {
let location = MultiLocation::new(0, X1(GlobalConsensus(ByGenesis([0; 32])))); let location = Location::new(0, [GlobalConsensus(ByGenesis([0; 32]))]);
let amount = 123456_u64; let amount = 123456_u64;
let expected_multi_asset = MultiAsset { let expected_multi_asset = Asset {
id: Concrete(MultiLocation::new(0, X1(GlobalConsensus(ByGenesis([0; 32]))))), id: AssetId(Location::new(0, [GlobalConsensus(ByGenesis([0; 32]))])),
fun: Fungible(123456_u128), fun: Fungible(123456_u128),
}; };
assert_eq!( assert_eq!(
Converter::matches_fungibles(&expected_multi_asset).map_err(|_| ()), Converter::matches_fungibles(&expected_multi_asset).map_err(|_| ()),
Ok((location, amount)) Ok((location.clone(), amount))
); );
assert_eq!(Converter::convert_ref((location, amount)), Ok(expected_multi_asset)); assert_eq!(Converter::convert_ref((location, amount)), Ok(expected_multi_asset));
@@ -184,17 +175,17 @@ mod tests {
#[test] #[test]
fn converted_concrete_id_fungible_multi_asset_conversion_collection_works() { fn converted_concrete_id_fungible_multi_asset_conversion_collection_works() {
let data = vec![ let data = vec![
(MultiLocation::new(0, X1(GlobalConsensus(ByGenesis([0; 32])))), 123456_u64), (Location::new(0, [GlobalConsensus(ByGenesis([0; 32]))]), 123456_u64),
(MultiLocation::new(1, X1(GlobalConsensus(ByGenesis([1; 32])))), 654321_u64), (Location::new(1, [GlobalConsensus(ByGenesis([1; 32]))]), 654321_u64),
]; ];
let expected_data = vec![ let expected_data = vec![
MultiAsset { Asset {
id: Concrete(MultiLocation::new(0, X1(GlobalConsensus(ByGenesis([0; 32]))))), id: AssetId(Location::new(0, [GlobalConsensus(ByGenesis([0; 32]))])),
fun: Fungible(123456_u128), fun: Fungible(123456_u128),
}, },
MultiAsset { Asset {
id: Concrete(MultiLocation::new(1, X1(GlobalConsensus(ByGenesis([1; 32]))))), id: AssetId(Location::new(1, [GlobalConsensus(ByGenesis([1; 32]))])),
fun: Fungible(654321_u128), fun: Fungible(654321_u128),
}, },
]; ];
cumulus/parachains/runtimes/assets/common/src/lib.rs
+130 -94
View File
@@ -23,15 +23,24 @@ pub mod local_and_foreign_assets;
pub mod matching; pub mod matching;
pub mod runtime_api; pub mod runtime_api;
use crate::matching::{LocalMultiLocationPattern, ParentLocation}; use crate::matching::{LocalLocationPattern, ParentLocation};
use frame_support::traits::{Equals, EverythingBut}; use frame_support::traits::{Equals, EverythingBut};
use parachains_common::AssetIdForTrustBackedAssets; use parachains_common::AssetIdForTrustBackedAssets;
use xcm::prelude::MultiLocation; use xcm_builder::{
use xcm_builder::{AsPrefixedGeneralIndex, MatchedConvertedConcreteId, StartsWith}; AsPrefixedGeneralIndex, MatchedConvertedConcreteId, StartsWith, V4V3LocationConverter,
use xcm_executor::traits::{Identity, JustTry}; };
use xcm_executor::traits::JustTry;
/// `MultiLocation` vs `AssetIdForTrustBackedAssets` converter for `TrustBackedAssets` /// `Location` vs `AssetIdForTrustBackedAssets` converter for `TrustBackedAssets`
pub type AssetIdForTrustBackedAssetsConvert<TrustBackedAssetsPalletLocation> = pub type AssetIdForTrustBackedAssetsConvert<TrustBackedAssetsPalletLocation> =
AsPrefixedGeneralIndex<
TrustBackedAssetsPalletLocation,
AssetIdForTrustBackedAssets,
JustTry,
xcm::v3::Location,
>;
pub type AssetIdForTrustBackedAssetsConvertLatest<TrustBackedAssetsPalletLocation> =
AsPrefixedGeneralIndex<TrustBackedAssetsPalletLocation, AssetIdForTrustBackedAssets, JustTry>; AsPrefixedGeneralIndex<TrustBackedAssetsPalletLocation, AssetIdForTrustBackedAssets, JustTry>;
/// [`MatchedConvertedConcreteId`] converter dedicated for `TrustBackedAssets` /// [`MatchedConvertedConcreteId`] converter dedicated for `TrustBackedAssets`
@@ -40,59 +49,55 @@ pub type TrustBackedAssetsConvertedConcreteId<TrustBackedAssetsPalletLocation, B
AssetIdForTrustBackedAssets, AssetIdForTrustBackedAssets,
Balance, Balance,
StartsWith<TrustBackedAssetsPalletLocation>, StartsWith<TrustBackedAssetsPalletLocation>,
AssetIdForTrustBackedAssetsConvert<TrustBackedAssetsPalletLocation>, AssetIdForTrustBackedAssetsConvertLatest<TrustBackedAssetsPalletLocation>,
JustTry, JustTry,
>; >;
/// AssetId used for identifying assets by MultiLocation. /// [`MatchedConvertedConcreteId`] converter dedicated for storing `AssetId` as `Location`.
pub type MultiLocationForAssetId = MultiLocation; pub type LocationConvertedConcreteId<LocationFilter, Balance> = MatchedConvertedConcreteId<
xcm::v3::Location,
Balance,
LocationFilter,
V4V3LocationConverter,
JustTry,
>;
/// [`MatchedConvertedConcreteId`] converter dedicated for `TrustBackedAssets` /// [`MatchedConvertedConcreteId`] converter dedicated for `TrustBackedAssets`
pub type TrustBackedAssetsAsMultiLocation<TrustBackedAssetsPalletLocation, Balance> = pub type TrustBackedAssetsAsLocation<TrustBackedAssetsPalletLocation, Balance> =
MatchedConvertedConcreteId< MatchedConvertedConcreteId<
MultiLocationForAssetId, xcm::v3::Location,
Balance, Balance,
StartsWith<TrustBackedAssetsPalletLocation>, StartsWith<TrustBackedAssetsPalletLocation>,
Identity, V4V3LocationConverter,
JustTry,
>;
/// [`MatchedConvertedConcreteId`] converter dedicated for storing `AssetId` as `MultiLocation`.
pub type MultiLocationConvertedConcreteId<MultiLocationFilter, Balance> =
MatchedConvertedConcreteId<
MultiLocationForAssetId,
Balance,
MultiLocationFilter,
Identity,
JustTry, JustTry,
>; >;
/// [`MatchedConvertedConcreteId`] converter dedicated for storing `ForeignAssets` with `AssetId` as /// [`MatchedConvertedConcreteId`] converter dedicated for storing `ForeignAssets` with `AssetId` as
/// `MultiLocation`. /// `Location`.
/// ///
/// Excludes by default: /// Excludes by default:
/// - parent as relay chain /// - parent as relay chain
/// - all local MultiLocations /// - all local Locations
/// ///
/// `AdditionalMultiLocationExclusionFilter` can customize additional excluded MultiLocations /// `AdditionalLocationExclusionFilter` can customize additional excluded Locations
pub type ForeignAssetsConvertedConcreteId<AdditionalMultiLocationExclusionFilter, Balance> = pub type ForeignAssetsConvertedConcreteId<AdditionalLocationExclusionFilter, Balance> =
MultiLocationConvertedConcreteId< LocationConvertedConcreteId<
EverythingBut<( EverythingBut<(
// Excludes relay/parent chain currency // Excludes relay/parent chain currency
Equals<ParentLocation>, Equals<ParentLocation>,
// Here we rely on fact that something like this works: // Here we rely on fact that something like this works:
// assert!(MultiLocation::new(1, // assert!(Location::new(1,
// X1(Parachain(100))).starts_with(&MultiLocation::parent())); // [Parachain(100)]).starts_with(&Location::parent()));
// assert!(X1(Parachain(100)).starts_with(&Here)); // assert!([Parachain(100)].into().starts_with(&Here));
StartsWith<LocalMultiLocationPattern>, StartsWith<LocalLocationPattern>,
// Here we can exclude more stuff or leave it as `()` // Here we can exclude more stuff or leave it as `()`
AdditionalMultiLocationExclusionFilter, AdditionalLocationExclusionFilter,
)>, )>,
Balance, Balance,
>; >;
type AssetIdForPoolAssets = u32; type AssetIdForPoolAssets = u32;
/// `MultiLocation` vs `AssetIdForPoolAssets` converter for `PoolAssets`. /// `Location` vs `AssetIdForPoolAssets` converter for `PoolAssets`.
pub type AssetIdForPoolAssetsConvert<PoolAssetsPalletLocation> = pub type AssetIdForPoolAssetsConvert<PoolAssetsPalletLocation> =
AsPrefixedGeneralIndex<PoolAssetsPalletLocation, AssetIdForPoolAssets, JustTry>; AsPrefixedGeneralIndex<PoolAssetsPalletLocation, AssetIdForPoolAssets, JustTry>;
/// [`MatchedConvertedConcreteId`] converter dedicated for `PoolAssets` /// [`MatchedConvertedConcreteId`] converter dedicated for `PoolAssets`
@@ -109,28 +114,28 @@ pub type PoolAssetsConvertedConcreteId<PoolAssetsPalletLocation, Balance> =
mod tests { mod tests {
use super::*; use super::*;
use sp_runtime::traits::MaybeEquivalence; use sp_runtime::traits::MaybeEquivalence;
use xcm::latest::prelude::*; use xcm::prelude::*;
use xcm_builder::StartsWithExplicitGlobalConsensus; use xcm_builder::StartsWithExplicitGlobalConsensus;
use xcm_executor::traits::{Error as MatchError, MatchesFungibles}; use xcm_executor::traits::{Error as MatchError, MatchesFungibles};
#[test] #[test]
fn asset_id_for_trust_backed_assets_convert_works() { fn asset_id_for_trust_backed_assets_convert_works() {
frame_support::parameter_types! { frame_support::parameter_types! {
pub TrustBackedAssetsPalletLocation: MultiLocation = MultiLocation::new(5, X1(PalletInstance(13))); pub TrustBackedAssetsPalletLocation: Location = Location::new(5, [PalletInstance(13)]);
} }
let local_asset_id = 123456789 as AssetIdForTrustBackedAssets; let local_asset_id = 123456789 as AssetIdForTrustBackedAssets;
let expected_reverse_ref = let expected_reverse_ref =
MultiLocation::new(5, X2(PalletInstance(13), GeneralIndex(local_asset_id.into()))); Location::new(5, [PalletInstance(13), GeneralIndex(local_asset_id.into())]);
assert_eq!( assert_eq!(
AssetIdForTrustBackedAssetsConvert::<TrustBackedAssetsPalletLocation>::convert_back( AssetIdForTrustBackedAssetsConvertLatest::<TrustBackedAssetsPalletLocation>::convert_back(
&local_asset_id &local_asset_id
) )
.unwrap(), .unwrap(),
expected_reverse_ref expected_reverse_ref
); );
assert_eq!( assert_eq!(
AssetIdForTrustBackedAssetsConvert::<TrustBackedAssetsPalletLocation>::convert( AssetIdForTrustBackedAssetsConvertLatest::<TrustBackedAssetsPalletLocation>::convert(
&expected_reverse_ref &expected_reverse_ref
) )
.unwrap(), .unwrap(),
@@ -141,7 +146,7 @@ mod tests {
#[test] #[test]
fn trust_backed_assets_match_fungibles_works() { fn trust_backed_assets_match_fungibles_works() {
frame_support::parameter_types! { frame_support::parameter_types! {
pub TrustBackedAssetsPalletLocation: MultiLocation = MultiLocation::new(0, X1(PalletInstance(13))); pub TrustBackedAssetsPalletLocation: Location = Location::new(0, [PalletInstance(13)]);
} }
// setup convert // setup convert
type TrustBackedAssetsConvert = type TrustBackedAssetsConvert =
@@ -149,85 +154,86 @@ mod tests {
let test_data = vec![ let test_data = vec![
// missing GeneralIndex // missing GeneralIndex
(ma_1000(0, X1(PalletInstance(13))), Err(MatchError::AssetIdConversionFailed)), (ma_1000(0, [PalletInstance(13)].into()), Err(MatchError::AssetIdConversionFailed)),
( (
ma_1000(0, X2(PalletInstance(13), GeneralKey { data: [0; 32], length: 32 })), ma_1000(0, [PalletInstance(13), GeneralKey { data: [0; 32], length: 32 }].into()),
Err(MatchError::AssetIdConversionFailed), Err(MatchError::AssetIdConversionFailed),
), ),
( (
ma_1000(0, X2(PalletInstance(13), Parachain(1000))), ma_1000(0, [PalletInstance(13), Parachain(1000)].into()),
Err(MatchError::AssetIdConversionFailed), Err(MatchError::AssetIdConversionFailed),
), ),
// OK // OK
(ma_1000(0, X2(PalletInstance(13), GeneralIndex(1234))), Ok((1234, 1000))), (ma_1000(0, [PalletInstance(13), GeneralIndex(1234)].into()), Ok((1234, 1000))),
( (
ma_1000(0, X3(PalletInstance(13), GeneralIndex(1234), GeneralIndex(2222))), ma_1000(0, [PalletInstance(13), GeneralIndex(1234), GeneralIndex(2222)].into()),
Ok((1234, 1000)), Ok((1234, 1000)),
), ),
( (
ma_1000( ma_1000(
0, 0,
X4( [
PalletInstance(13), PalletInstance(13),
GeneralIndex(1234), GeneralIndex(1234),
GeneralIndex(2222), GeneralIndex(2222),
GeneralKey { data: [0; 32], length: 32 }, GeneralKey { data: [0; 32], length: 32 },
), ]
.into(),
), ),
Ok((1234, 1000)), Ok((1234, 1000)),
), ),
// wrong pallet instance // wrong pallet instance
( (
ma_1000(0, X2(PalletInstance(77), GeneralIndex(1234))), ma_1000(0, [PalletInstance(77), GeneralIndex(1234)].into()),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
( (
ma_1000(0, X3(PalletInstance(77), GeneralIndex(1234), GeneralIndex(2222))), ma_1000(0, [PalletInstance(77), GeneralIndex(1234), GeneralIndex(2222)].into()),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
// wrong parent // wrong parent
( (
ma_1000(1, X2(PalletInstance(13), GeneralIndex(1234))), ma_1000(1, [PalletInstance(13), GeneralIndex(1234)].into()),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
( (
ma_1000(1, X3(PalletInstance(13), GeneralIndex(1234), GeneralIndex(2222))), ma_1000(1, [PalletInstance(13), GeneralIndex(1234), GeneralIndex(2222)].into()),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
( (
ma_1000(1, X2(PalletInstance(77), GeneralIndex(1234))), ma_1000(1, [PalletInstance(77), GeneralIndex(1234)].into()),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
( (
ma_1000(1, X3(PalletInstance(77), GeneralIndex(1234), GeneralIndex(2222))), ma_1000(1, [PalletInstance(77), GeneralIndex(1234), GeneralIndex(2222)].into()),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
// wrong parent // wrong parent
( (
ma_1000(2, X2(PalletInstance(13), GeneralIndex(1234))), ma_1000(2, [PalletInstance(13), GeneralIndex(1234)].into()),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
( (
ma_1000(2, X3(PalletInstance(13), GeneralIndex(1234), GeneralIndex(2222))), ma_1000(2, [PalletInstance(13), GeneralIndex(1234), GeneralIndex(2222)].into()),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
// missing GeneralIndex // missing GeneralIndex
(ma_1000(0, X1(PalletInstance(77))), Err(MatchError::AssetNotHandled)), (ma_1000(0, [PalletInstance(77)].into()), Err(MatchError::AssetNotHandled)),
(ma_1000(1, X1(PalletInstance(13))), Err(MatchError::AssetNotHandled)), (ma_1000(1, [PalletInstance(13)].into()), Err(MatchError::AssetNotHandled)),
(ma_1000(2, X1(PalletInstance(13))), Err(MatchError::AssetNotHandled)), (ma_1000(2, [PalletInstance(13)].into()), Err(MatchError::AssetNotHandled)),
]; ];
for (multi_asset, expected_result) in test_data { for (asset, expected_result) in test_data {
assert_eq!( assert_eq!(
<TrustBackedAssetsConvert as MatchesFungibles<AssetIdForTrustBackedAssets, u128>>::matches_fungibles(&multi_asset), <TrustBackedAssetsConvert as MatchesFungibles<AssetIdForTrustBackedAssets, u128>>::matches_fungibles(&asset.clone().try_into().unwrap()),
expected_result, "multi_asset: {:?}", multi_asset); expected_result, "asset: {:?}", asset);
} }
} }
#[test] #[test]
fn multi_location_converted_concrete_id_converter_works() { fn location_converted_concrete_id_converter_works() {
frame_support::parameter_types! { frame_support::parameter_types! {
pub Parachain100Pattern: MultiLocation = MultiLocation::new(1, X1(Parachain(100))); pub Parachain100Pattern: Location = Location::new(1, [Parachain(100)]);
pub UniversalLocationNetworkId: NetworkId = NetworkId::ByGenesis([9; 32]); pub UniversalLocationNetworkId: NetworkId = NetworkId::ByGenesis([9; 32]);
} }
@@ -243,95 +249,125 @@ mod tests {
let test_data = vec![ let test_data = vec![
// excluded as local // excluded as local
(ma_1000(0, Here), Err(MatchError::AssetNotHandled)), (ma_1000(0, Here), Err(MatchError::AssetNotHandled)),
(ma_1000(0, X1(Parachain(100))), Err(MatchError::AssetNotHandled)), (ma_1000(0, [Parachain(100)].into()), Err(MatchError::AssetNotHandled)),
( (
ma_1000(0, X2(PalletInstance(13), GeneralIndex(1234))), ma_1000(0, [PalletInstance(13), GeneralIndex(1234)].into()),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
// excluded as parent // excluded as parent
(ma_1000(1, Here), Err(MatchError::AssetNotHandled)), (ma_1000(1, Here), Err(MatchError::AssetNotHandled)),
// excluded as additional filter - Parachain100Pattern // excluded as additional filter - Parachain100Pattern
(ma_1000(1, X1(Parachain(100))), Err(MatchError::AssetNotHandled)), (ma_1000(1, [Parachain(100)].into()), Err(MatchError::AssetNotHandled)),
(ma_1000(1, X2(Parachain(100), GeneralIndex(1234))), Err(MatchError::AssetNotHandled)),
( (
ma_1000(1, X3(Parachain(100), PalletInstance(13), GeneralIndex(1234))), ma_1000(1, [Parachain(100), GeneralIndex(1234)].into()),
Err(MatchError::AssetNotHandled),
),
(
ma_1000(1, [Parachain(100), PalletInstance(13), GeneralIndex(1234)].into()),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
// excluded as additional filter - StartsWithExplicitGlobalConsensus // excluded as additional filter - StartsWithExplicitGlobalConsensus
( (
ma_1000(1, X1(GlobalConsensus(NetworkId::ByGenesis([9; 32])))), ma_1000(1, [GlobalConsensus(NetworkId::ByGenesis([9; 32]))].into()),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
( (
ma_1000(2, X1(GlobalConsensus(NetworkId::ByGenesis([9; 32])))), ma_1000(2, [GlobalConsensus(NetworkId::ByGenesis([9; 32]))].into()),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
( (
ma_1000( ma_1000(
2, 2,
X3( [
GlobalConsensus(NetworkId::ByGenesis([9; 32])), GlobalConsensus(NetworkId::ByGenesis([9; 32])),
Parachain(200), Parachain(200),
GeneralIndex(1234), GeneralIndex(1234),
), ]
.into(),
), ),
Err(MatchError::AssetNotHandled), Err(MatchError::AssetNotHandled),
), ),
// ok // ok
(ma_1000(1, X1(Parachain(200))), Ok((MultiLocation::new(1, X1(Parachain(200))), 1000))),
(ma_1000(2, X1(Parachain(200))), Ok((MultiLocation::new(2, X1(Parachain(200))), 1000))),
( (
ma_1000(1, X2(Parachain(200), GeneralIndex(1234))), ma_1000(1, [Parachain(200)].into()),
Ok((MultiLocation::new(1, X2(Parachain(200), GeneralIndex(1234))), 1000)), Ok((xcm::v3::Location::new(1, [xcm::v3::Junction::Parachain(200)]), 1000)),
), ),
( (
ma_1000(2, X2(Parachain(200), GeneralIndex(1234))), ma_1000(2, [Parachain(200)].into()),
Ok((MultiLocation::new(2, X2(Parachain(200), GeneralIndex(1234))), 1000)), Ok((xcm::v3::Location::new(2, [xcm::v3::Junction::Parachain(200)]), 1000)),
), ),
( (
ma_1000(2, X1(GlobalConsensus(NetworkId::ByGenesis([7; 32])))), ma_1000(1, [Parachain(200), GeneralIndex(1234)].into()),
Ok(( Ok((
MultiLocation::new(2, X1(GlobalConsensus(NetworkId::ByGenesis([7; 32])))), xcm::v3::Location::new(
1,
[xcm::v3::Junction::Parachain(200), xcm::v3::Junction::GeneralIndex(1234)],
),
1000,
)),
),
(
ma_1000(2, [Parachain(200), GeneralIndex(1234)].into()),
Ok((
xcm::v3::Location::new(
2,
[xcm::v3::Junction::Parachain(200), xcm::v3::Junction::GeneralIndex(1234)],
),
1000,
)),
),
(
ma_1000(2, [GlobalConsensus(NetworkId::ByGenesis([7; 32]))].into()),
Ok((
xcm::v3::Location::new(
2,
[xcm::v3::Junction::GlobalConsensus(xcm::v3::NetworkId::ByGenesis(
[7; 32],
))],
),
1000, 1000,
)), )),
), ),
( (
ma_1000( ma_1000(
2, 2,
X3( [
GlobalConsensus(NetworkId::ByGenesis([7; 32])), GlobalConsensus(NetworkId::ByGenesis([7; 32])),
Parachain(200), Parachain(200),
GeneralIndex(1234), GeneralIndex(1234),
), ]
.into(),
), ),
Ok(( Ok((
MultiLocation::new( xcm::v3::Location::new(
2, 2,
X3( [
GlobalConsensus(NetworkId::ByGenesis([7; 32])), xcm::v3::Junction::GlobalConsensus(xcm::v3::NetworkId::ByGenesis(
Parachain(200), [7; 32],
GeneralIndex(1234), )),
), xcm::v3::Junction::Parachain(200),
xcm::v3::Junction::GeneralIndex(1234),
],
), ),
1000, 1000,
)), )),
), ),
]; ];
for (multi_asset, expected_result) in test_data { for (asset, expected_result) in test_data {
assert_eq!( assert_eq!(
<Convert as MatchesFungibles<MultiLocationForAssetId, u128>>::matches_fungibles( <Convert as MatchesFungibles<xcm::v3::MultiLocation, u128>>::matches_fungibles(
&multi_asset &asset.clone().try_into().unwrap()
), ),
expected_result, expected_result,
"multi_asset: {:?}", "asset: {:?}",
multi_asset asset
); );
} }
} }
// Create MultiAsset // Create Asset
fn ma_1000(parents: u8, interior: Junctions) -> MultiAsset { fn ma_1000(parents: u8, interior: Junctions) -> Asset {
(MultiLocation::new(parents, interior), 1000).into() (Location::new(parents, interior), 1000).into()
} }
} }
cumulus/parachains/runtimes/assets/common/src/local_and_foreign_assets.rs
+16 -16
View File
@@ -20,32 +20,32 @@ use sp_runtime::{
Either::{Left, Right}, Either::{Left, Right},
}; };
use sp_std::marker::PhantomData; use sp_std::marker::PhantomData;
use xcm::latest::MultiLocation; use xcm::latest::Location;
/// Converts a given [`MultiLocation`] to [`Either::Left`] when equal to `Target`, or /// Converts a given [`Location`] to [`Either::Left`] when equal to `Target`, or
/// [`Either::Right`] otherwise. /// [`Either::Right`] otherwise.
/// ///
/// Suitable for use as a `Criterion` with [`frame_support::traits::tokens::fungible::UnionOf`]. /// Suitable for use as a `Criterion` with [`frame_support::traits::tokens::fungible::UnionOf`].
pub struct TargetFromLeft<Target>(PhantomData<Target>); pub struct TargetFromLeft<Target, L = Location>(PhantomData<(Target, L)>);
impl<Target: Get<MultiLocation>> Convert<MultiLocation, Either<(), MultiLocation>> impl<Target: Get<L>, L: PartialEq + Eq> Convert<L, Either<(), L>> for TargetFromLeft<Target, L> {
for TargetFromLeft<Target> fn convert(l: L) -> Either<(), L> {
{
fn convert(l: MultiLocation) -> Either<(), MultiLocation> {
Target::get().eq(&l).then(|| Left(())).map_or(Right(l), |n| n) Target::get().eq(&l).then(|| Left(())).map_or(Right(l), |n| n)
} }
} }
/// Converts a given [`MultiLocation`] to [`Either::Left`] based on the `Equivalence` criteria. /// Converts a given [`Location`] to [`Either::Left`] based on the `Equivalence` criteria.
/// Returns [`Either::Right`] if not equivalent. /// Returns [`Either::Right`] if not equivalent.
/// ///
/// Suitable for use as a `Criterion` with [`frame_support::traits::tokens::fungibles::UnionOf`]. /// Suitable for use as a `Criterion` with [`frame_support::traits::tokens::fungibles::UnionOf`].
pub struct LocalFromLeft<Equivalence, AssetId>(PhantomData<(Equivalence, AssetId)>); pub struct LocalFromLeft<Equivalence, AssetId, L = Location>(
impl<Equivalence, AssetId> Convert<MultiLocation, Either<AssetId, MultiLocation>> PhantomData<(Equivalence, AssetId, L)>,
for LocalFromLeft<Equivalence, AssetId> );
impl<Equivalence, AssetId, L> Convert<L, Either<AssetId, L>>
for LocalFromLeft<Equivalence, AssetId, L>
where where
Equivalence: MaybeEquivalence<MultiLocation, AssetId>, Equivalence: MaybeEquivalence<L, AssetId>,
{ {
fn convert(l: MultiLocation) -> Either<AssetId, MultiLocation> { fn convert(l: L) -> Either<AssetId, L> {
match Equivalence::convert(&l) { match Equivalence::convert(&l) {
Some(id) => Left(id), Some(id) => Left(id),
None => Right(l), None => Right(l),
@@ -53,7 +53,7 @@ where
} }
} }
pub trait MatchesLocalAndForeignAssetsMultiLocation { pub trait MatchesLocalAndForeignAssetsLocation<L = Location> {
fn is_local(location: &MultiLocation) -> bool; fn is_local(location: &L) -> bool;
fn is_foreign(location: &MultiLocation) -> bool; fn is_foreign(location: &L) -> bool;
} }
cumulus/parachains/runtimes/assets/common/src/matching.rs
+58 -60
View File
@@ -15,67 +15,72 @@
use cumulus_primitives_core::ParaId; use cumulus_primitives_core::ParaId;
use frame_support::{pallet_prelude::Get, traits::ContainsPair}; use frame_support::{pallet_prelude::Get, traits::ContainsPair};
use xcm::{ use xcm::prelude::*;
latest::prelude::{MultiAsset, MultiLocation},
prelude::*,
};
use xcm_builder::ensure_is_remote; use xcm_builder::ensure_is_remote;
frame_support::parameter_types! { frame_support::parameter_types! {
pub LocalMultiLocationPattern: MultiLocation = MultiLocation::new(0, Here); pub LocalLocationPattern: Location = Location::new(0, Here);
pub ParentLocation: MultiLocation = MultiLocation::parent(); pub ParentLocation: Location = Location::parent();
} }
/// Accepts an asset if it is from the origin. /// Accepts an asset if it is from the origin.
pub struct IsForeignConcreteAsset<IsForeign>(sp_std::marker::PhantomData<IsForeign>); pub struct IsForeignConcreteAsset<IsForeign>(sp_std::marker::PhantomData<IsForeign>);
impl<IsForeign: ContainsPair<MultiLocation, MultiLocation>> ContainsPair<MultiAsset, MultiLocation> impl<IsForeign: ContainsPair<Location, Location>> ContainsPair<Asset, Location>
for IsForeignConcreteAsset<IsForeign> for IsForeignConcreteAsset<IsForeign>
{ {
fn contains(asset: &MultiAsset, origin: &MultiLocation) -> bool { fn contains(asset: &Asset, origin: &Location) -> bool {
log::trace!(target: "xcm::contains", "IsForeignConcreteAsset asset: {:?}, origin: {:?}", asset, origin); log::trace!(target: "xcm::contains", "IsForeignConcreteAsset asset: {:?}, origin: {:?}", asset, origin);
matches!(asset.id, Concrete(ref id) if IsForeign::contains(id, origin)) matches!(asset.id, AssetId(ref id) if IsForeign::contains(id, origin))
} }
} }
/// Checks if `a` is from sibling location `b`. Checks that `MultiLocation-a` starts with /// Checks if `a` is from sibling location `b`. Checks that `Location-a` starts with
/// `MultiLocation-b`, and that the `ParaId` of `b` is not equal to `a`. /// `Location-b`, and that the `ParaId` of `b` is not equal to `a`.
pub struct FromSiblingParachain<SelfParaId>(sp_std::marker::PhantomData<SelfParaId>); pub struct FromSiblingParachain<SelfParaId, L = Location>(
impl<SelfParaId: Get<ParaId>> ContainsPair<MultiLocation, MultiLocation> sp_std::marker::PhantomData<(SelfParaId, L)>,
for FromSiblingParachain<SelfParaId> );
impl<SelfParaId: Get<ParaId>, L: TryFrom<Location> + TryInto<Location> + Clone> ContainsPair<L, L>
for FromSiblingParachain<SelfParaId, L>
{ {
fn contains(&a: &MultiLocation, b: &MultiLocation) -> bool { fn contains(a: &L, b: &L) -> bool {
// `a` needs to be from `b` at least // We convert locations to latest
if !a.starts_with(b) { let a = match ((*a).clone().try_into(), (*b).clone().try_into()) {
return false (Ok(a), Ok(b)) if a.starts_with(&b) => a, // `a` needs to be from `b` at least
} _ => return false,
};
// here we check if sibling // here we check if sibling
match a { match a.unpack() {
MultiLocation { parents: 1, interior } => (1, interior) =>
matches!(interior.first(), Some(Parachain(sibling_para_id)) if sibling_para_id.ne(&u32::from(SelfParaId::get()))), matches!(interior.first(), Some(Parachain(sibling_para_id)) if sibling_para_id.ne(&u32::from(SelfParaId::get()))),
_ => false, _ => false,
} }
} }
} }
/// Checks if `a` is from the expected global consensus network. Checks that `MultiLocation-a` /// Checks if `a` is from the expected global consensus network. Checks that `Location-a`
/// starts with `MultiLocation-b`, and that network is a foreign consensus system. /// starts with `Location-b`, and that network is a foreign consensus system.
pub struct FromNetwork<UniversalLocation, ExpectedNetworkId>( pub struct FromNetwork<UniversalLocation, ExpectedNetworkId, L = Location>(
sp_std::marker::PhantomData<(UniversalLocation, ExpectedNetworkId)>, sp_std::marker::PhantomData<(UniversalLocation, ExpectedNetworkId, L)>,
); );
impl<UniversalLocation: Get<InteriorMultiLocation>, ExpectedNetworkId: Get<NetworkId>> impl<
ContainsPair<MultiLocation, MultiLocation> for FromNetwork<UniversalLocation, ExpectedNetworkId> UniversalLocation: Get<InteriorLocation>,
ExpectedNetworkId: Get<NetworkId>,
L: TryFrom<Location> + TryInto<Location> + Clone,
> ContainsPair<L, L> for FromNetwork<UniversalLocation, ExpectedNetworkId, L>
{ {
fn contains(&a: &MultiLocation, b: &MultiLocation) -> bool { fn contains(a: &L, b: &L) -> bool {
// `a` needs to be from `b` at least // We convert locations to latest
if !a.starts_with(b) { let a = match ((*a).clone().try_into(), (*b).clone().try_into()) {
return false (Ok(a), Ok(b)) if a.starts_with(&b) => a, // `a` needs to be from `b` at least
} _ => return false,
};
let universal_source = UniversalLocation::get(); let universal_source = UniversalLocation::get();
// ensure that `a`` is remote and from the expected network // ensure that `a` is remote and from the expected network
match ensure_is_remote(universal_source, a) { match ensure_is_remote(universal_source.clone(), a.clone()) {
Ok((network_id, _)) => network_id == ExpectedNetworkId::get(), Ok((network_id, _)) => network_id == ExpectedNetworkId::get(),
Err(e) => { Err(e) => {
log::trace!( log::trace!(
@@ -89,19 +94,17 @@ impl<UniversalLocation: Get<InteriorMultiLocation>, ExpectedNetworkId: Get<Netwo
} }
} }
/// Adapter verifies if it is allowed to receive `MultiAsset` from `MultiLocation`. /// Adapter verifies if it is allowed to receive `Asset` from `Location`.
/// ///
/// Note: `MultiLocation` has to be from a different global consensus. /// Note: `Location` has to be from a different global consensus.
pub struct IsTrustedBridgedReserveLocationForConcreteAsset<UniversalLocation, Reserves>( pub struct IsTrustedBridgedReserveLocationForConcreteAsset<UniversalLocation, Reserves>(
sp_std::marker::PhantomData<(UniversalLocation, Reserves)>, sp_std::marker::PhantomData<(UniversalLocation, Reserves)>,
); );
impl< impl<UniversalLocation: Get<InteriorLocation>, Reserves: ContainsPair<Asset, Location>>
UniversalLocation: Get<InteriorMultiLocation>, ContainsPair<Asset, Location>
Reserves: ContainsPair<MultiAsset, MultiLocation>,
> ContainsPair<MultiAsset, MultiLocation>
for IsTrustedBridgedReserveLocationForConcreteAsset<UniversalLocation, Reserves> for IsTrustedBridgedReserveLocationForConcreteAsset<UniversalLocation, Reserves>
{ {
fn contains(asset: &MultiAsset, origin: &MultiLocation) -> bool { fn contains(asset: &Asset, origin: &Location) -> bool {
let universal_source = UniversalLocation::get(); let universal_source = UniversalLocation::get();
log::trace!( log::trace!(
target: "xcm::contains", target: "xcm::contains",
@@ -110,7 +113,7 @@ impl<
); );
// check remote origin // check remote origin
let _ = match ensure_is_remote(universal_source, *origin) { let _ = match ensure_is_remote(universal_source.clone(), origin.clone()) {
Ok(devolved) => devolved, Ok(devolved) => devolved,
Err(_) => { Err(_) => {
log::trace!( log::trace!(
@@ -133,14 +136,14 @@ mod tests {
use frame_support::parameter_types; use frame_support::parameter_types;
parameter_types! { parameter_types! {
pub UniversalLocation: InteriorMultiLocation = X2(GlobalConsensus(Rococo), Parachain(1000)); pub UniversalLocation: InteriorLocation = [GlobalConsensus(Rococo), Parachain(1000)].into();
pub ExpectedNetworkId: NetworkId = Wococo; pub ExpectedNetworkId: NetworkId = Wococo;
} }
#[test] #[test]
fn from_network_contains_works() { fn from_network_contains_works() {
// asset and origin from foreign consensus works // asset and origin from foreign consensus works
let asset: MultiLocation = ( let asset: Location = (
Parent, Parent,
Parent, Parent,
GlobalConsensus(Wococo), GlobalConsensus(Wococo),
@@ -149,12 +152,11 @@ mod tests {
GeneralIndex(1), GeneralIndex(1),
) )
.into(); .into();
let origin: MultiLocation = let origin: Location = (Parent, Parent, GlobalConsensus(Wococo), Parachain(1000)).into();
(Parent, Parent, GlobalConsensus(Wococo), Parachain(1000)).into();
assert!(FromNetwork::<UniversalLocation, ExpectedNetworkId>::contains(&asset, &origin)); assert!(FromNetwork::<UniversalLocation, ExpectedNetworkId>::contains(&asset, &origin));
// asset and origin from local consensus fails // asset and origin from local consensus fails
let asset: MultiLocation = ( let asset: Location = (
Parent, Parent,
Parent, Parent,
GlobalConsensus(Rococo), GlobalConsensus(Rococo),
@@ -163,17 +165,16 @@ mod tests {
GeneralIndex(1), GeneralIndex(1),
) )
.into(); .into();
let origin: MultiLocation = let origin: Location = (Parent, Parent, GlobalConsensus(Rococo), Parachain(1000)).into();
(Parent, Parent, GlobalConsensus(Rococo), Parachain(1000)).into();
assert!(!FromNetwork::<UniversalLocation, ExpectedNetworkId>::contains(&asset, &origin)); assert!(!FromNetwork::<UniversalLocation, ExpectedNetworkId>::contains(&asset, &origin));
// asset and origin from here fails // asset and origin from here fails
let asset: MultiLocation = (PalletInstance(1), GeneralIndex(1)).into(); let asset: Location = (PalletInstance(1), GeneralIndex(1)).into();
let origin: MultiLocation = Here.into(); let origin: Location = Here.into();
assert!(!FromNetwork::<UniversalLocation, ExpectedNetworkId>::contains(&asset, &origin)); assert!(!FromNetwork::<UniversalLocation, ExpectedNetworkId>::contains(&asset, &origin));
// asset from different consensus fails // asset from different consensus fails
let asset: MultiLocation = ( let asset: Location = (
Parent, Parent,
Parent, Parent,
GlobalConsensus(Polkadot), GlobalConsensus(Polkadot),
@@ -182,12 +183,11 @@ mod tests {
GeneralIndex(1), GeneralIndex(1),
) )
.into(); .into();
let origin: MultiLocation = let origin: Location = (Parent, Parent, GlobalConsensus(Wococo), Parachain(1000)).into();
(Parent, Parent, GlobalConsensus(Wococo), Parachain(1000)).into();
assert!(!FromNetwork::<UniversalLocation, ExpectedNetworkId>::contains(&asset, &origin)); assert!(!FromNetwork::<UniversalLocation, ExpectedNetworkId>::contains(&asset, &origin));
// origin from different consensus fails // origin from different consensus fails
let asset: MultiLocation = ( let asset: Location = (
Parent, Parent,
Parent, Parent,
GlobalConsensus(Wococo), GlobalConsensus(Wococo),
@@ -196,12 +196,11 @@ mod tests {
GeneralIndex(1), GeneralIndex(1),
) )
.into(); .into();
let origin: MultiLocation = let origin: Location = (Parent, Parent, GlobalConsensus(Polkadot), Parachain(1000)).into();
(Parent, Parent, GlobalConsensus(Polkadot), Parachain(1000)).into();
assert!(!FromNetwork::<UniversalLocation, ExpectedNetworkId>::contains(&asset, &origin)); assert!(!FromNetwork::<UniversalLocation, ExpectedNetworkId>::contains(&asset, &origin));
// asset and origin from unexpected consensus fails // asset and origin from unexpected consensus fails
let asset: MultiLocation = ( let asset: Location = (
Parent, Parent,
Parent, Parent,
GlobalConsensus(Polkadot), GlobalConsensus(Polkadot),
@@ -210,8 +209,7 @@ mod tests {
GeneralIndex(1), GeneralIndex(1),
) )
.into(); .into();
let origin: MultiLocation = let origin: Location = (Parent, Parent, GlobalConsensus(Polkadot), Parachain(1000)).into();
(Parent, Parent, GlobalConsensus(Polkadot), Parachain(1000)).into();
assert!(!FromNetwork::<UniversalLocation, ExpectedNetworkId>::contains(&asset, &origin)); assert!(!FromNetwork::<UniversalLocation, ExpectedNetworkId>::contains(&asset, &origin));
} }
} }
cumulus/parachains/runtimes/assets/common/src/runtime_api.rs
+6 -6
View File
@@ -18,12 +18,12 @@
use codec::{Codec, Decode, Encode}; use codec::{Codec, Decode, Encode};
use sp_runtime::RuntimeDebug; use sp_runtime::RuntimeDebug;
#[cfg(feature = "std")] #[cfg(feature = "std")]
use {sp_std::vec::Vec, xcm::latest::MultiAsset}; use {sp_std::vec::Vec, xcm::latest::Asset};
/// The possible errors that can happen querying the storage of assets. /// The possible errors that can happen querying the storage of assets.
#[derive(Eq, PartialEq, Encode, Decode, RuntimeDebug, scale_info::TypeInfo)] #[derive(Eq, PartialEq, Encode, Decode, RuntimeDebug, scale_info::TypeInfo)]
pub enum FungiblesAccessError { pub enum FungiblesAccessError {
/// `MultiLocation` to `AssetId`/`ClassId` conversion failed. /// `Location` to `AssetId`/`ClassId` conversion failed.
AssetIdConversionFailed, AssetIdConversionFailed,
/// `u128` amount to currency `Balance` conversion failed. /// `u128` amount to currency `Balance` conversion failed.
AmountToBalanceConversionFailed, AmountToBalanceConversionFailed,
@@ -36,11 +36,11 @@ sp_api::decl_runtime_apis! {
where where
AccountId: Codec, AccountId: Codec,
{ {
/// Returns the list of all [`MultiAsset`] that an `AccountId` has. /// Returns the list of all [`Asset`] that an `AccountId` has.
#[changed_in(2)] #[changed_in(2)]
fn query_account_balances(account: AccountId) -> Result<Vec<MultiAsset>, FungiblesAccessError>; fn query_account_balances(account: AccountId) -> Result<Vec<Asset>, FungiblesAccessError>;
/// Returns the list of all [`MultiAsset`] that an `AccountId` has. /// Returns the list of all [`Asset`] that an `AccountId` has.
fn query_account_balances(account: AccountId) -> Result<xcm::VersionedMultiAssets, FungiblesAccessError>; fn query_account_balances(account: AccountId) -> Result<xcm::VersionedAssets, FungiblesAccessError>;
} }
} }
cumulus/parachains/runtimes/assets/test-utils/src/lib.rs
+3 -3
View File
@@ -28,7 +28,7 @@ use xcm::latest::prelude::*;
use xcm_builder::{CreateMatcher, MatchXcm}; use xcm_builder::{CreateMatcher, MatchXcm};
/// Given a message, a sender, and a destination, it returns the delivery fees /// Given a message, a sender, and a destination, it returns the delivery fees
fn get_fungible_delivery_fees<S: SendXcm>(destination: MultiLocation, message: Xcm<()>) -> u128 { fn get_fungible_delivery_fees<S: SendXcm>(destination: Location, message: Xcm<()>) -> u128 {
let Ok((_, delivery_fees)) = validate_send::<S>(destination, message) else { let Ok((_, delivery_fees)) = validate_send::<S>(destination, message) else {
unreachable!("message can be sent; qed") unreachable!("message can be sent; qed")
}; };
@@ -46,8 +46,8 @@ fn get_fungible_delivery_fees<S: SendXcm>(destination: MultiLocation, message: X
/// chain as part of a reserve-asset-transfer. /// chain as part of a reserve-asset-transfer.
pub(crate) fn assert_matches_reserve_asset_deposited_instructions<RuntimeCall: Debug>( pub(crate) fn assert_matches_reserve_asset_deposited_instructions<RuntimeCall: Debug>(
xcm: &mut Xcm<RuntimeCall>, xcm: &mut Xcm<RuntimeCall>,
expected_reserve_assets_deposited: &MultiAssets, expected_reserve_assets_deposited: &Assets,
expected_beneficiary: &MultiLocation, expected_beneficiary: &Location,
) { ) {
let _ = xcm let _ = xcm
.0 .0
cumulus/parachains/runtimes/assets/test-utils/src/test_cases.rs
+149 -139
View File
@@ -37,7 +37,7 @@ use sp_runtime::{
traits::{MaybeEquivalence, StaticLookup, Zero}, traits::{MaybeEquivalence, StaticLookup, Zero},
DispatchError, Saturating, DispatchError, Saturating,
}; };
use xcm::{latest::prelude::*, VersionedMultiAssets}; use xcm::{latest::prelude::*, VersionedAssets};
use xcm_executor::{traits::ConvertLocation, XcmExecutor}; use xcm_executor::{traits::ConvertLocation, XcmExecutor};
type RuntimeHelper<Runtime, AllPalletsWithoutSystem = ()> = type RuntimeHelper<Runtime, AllPalletsWithoutSystem = ()> =
@@ -110,7 +110,7 @@ pub fn teleports_for_native_asset_works<
0.into() 0.into()
); );
let native_asset_id = MultiLocation::parent(); let native_asset_id = Location::parent();
let buy_execution_fee_amount_eta = let buy_execution_fee_amount_eta =
WeightToFee::weight_to_fee(&Weight::from_parts(90_000_000_000, 1024)); WeightToFee::weight_to_fee(&Weight::from_parts(90_000_000_000, 1024));
let native_asset_amount_unit = existential_deposit; let native_asset_amount_unit = existential_deposit;
@@ -119,38 +119,40 @@ pub fn teleports_for_native_asset_works<
// 1. process received teleported assets from relaychain // 1. process received teleported assets from relaychain
let xcm = Xcm(vec![ let xcm = Xcm(vec![
ReceiveTeleportedAsset(MultiAssets::from(vec![MultiAsset { ReceiveTeleportedAsset(Assets::from(vec![Asset {
id: Concrete(native_asset_id), id: AssetId(native_asset_id.clone()),
fun: Fungible(native_asset_amount_received.into()), fun: Fungible(native_asset_amount_received.into()),
}])), }])),
ClearOrigin, ClearOrigin,
BuyExecution { BuyExecution {
fees: MultiAsset { fees: Asset {
id: Concrete(native_asset_id), id: AssetId(native_asset_id.clone()),
fun: Fungible(buy_execution_fee_amount_eta), fun: Fungible(buy_execution_fee_amount_eta),
}, },
weight_limit: Limited(Weight::from_parts(3035310000, 65536)), weight_limit: Limited(Weight::from_parts(3035310000, 65536)),
}, },
DepositAsset { DepositAsset {
assets: Wild(AllCounted(1)), assets: Wild(AllCounted(1)),
beneficiary: MultiLocation { beneficiary: Location {
parents: 0, parents: 0,
interior: X1(AccountId32 { interior: [AccountId32 {
network: None, network: None,
id: target_account.clone().into(), id: target_account.clone().into(),
}), }]
.into(),
}, },
}, },
ExpectTransactStatus(MaybeErrorCode::Success), ExpectTransactStatus(MaybeErrorCode::Success),
]); ]);
let hash = xcm.using_encoded(sp_io::hashing::blake2_256); let mut hash = xcm.using_encoded(sp_io::hashing::blake2_256);
let outcome = XcmExecutor::<XcmConfig>::execute_xcm( let outcome = XcmExecutor::<XcmConfig>::prepare_and_execute(
Parent, Parent,
xcm, xcm,
hash, &mut hash,
RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Parent), RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Parent),
Weight::zero(),
); );
assert_ok!(outcome.ensure_complete()); assert_ok!(outcome.ensure_complete());
@@ -163,14 +165,14 @@ pub fn teleports_for_native_asset_works<
// 2. try to teleport asset back to the relaychain // 2. try to teleport asset back to the relaychain
{ {
let dest = MultiLocation::parent(); let dest = Location::parent();
let mut dest_beneficiary = MultiLocation::parent() let mut dest_beneficiary = Location::parent()
.appended_with(AccountId32 { .appended_with(AccountId32 {
network: None, network: None,
id: sp_runtime::AccountId32::new([3; 32]).into(), id: sp_runtime::AccountId32::new([3; 32]).into(),
}) })
.unwrap(); .unwrap();
dest_beneficiary.reanchor(&dest, XcmConfig::UniversalLocation::get()).unwrap(); dest_beneficiary.reanchor(&dest, &XcmConfig::UniversalLocation::get()).unwrap();
let target_account_balance_before_teleport = let target_account_balance_before_teleport =
<pallet_balances::Pallet<Runtime>>::free_balance(&target_account); <pallet_balances::Pallet<Runtime>>::free_balance(&target_account);
@@ -183,11 +185,11 @@ pub fn teleports_for_native_asset_works<
// Mint funds into account to ensure it has enough balance to pay delivery fees // Mint funds into account to ensure it has enough balance to pay delivery fees
let delivery_fees = let delivery_fees =
xcm_helpers::transfer_assets_delivery_fees::<XcmConfig::XcmSender>( xcm_helpers::transfer_assets_delivery_fees::<XcmConfig::XcmSender>(
(native_asset_id, native_asset_to_teleport_away.into()).into(), (native_asset_id.clone(), native_asset_to_teleport_away.into()).into(),
0, 0,
Unlimited, Unlimited,
dest_beneficiary, dest_beneficiary.clone(),
dest, dest.clone(),
); );
<pallet_balances::Pallet<Runtime>>::mint_into( <pallet_balances::Pallet<Runtime>>::mint_into(
&target_account, &target_account,
@@ -199,7 +201,7 @@ pub fn teleports_for_native_asset_works<
RuntimeHelper::<Runtime>::origin_of(target_account.clone()), RuntimeHelper::<Runtime>::origin_of(target_account.clone()),
dest, dest,
dest_beneficiary, dest_beneficiary,
(native_asset_id, native_asset_to_teleport_away.into()), (native_asset_id.clone(), native_asset_to_teleport_away.into()),
None, None,
included_head.clone(), included_head.clone(),
&alice, &alice,
@@ -228,14 +230,14 @@ pub fn teleports_for_native_asset_works<
// trust `IsTeleporter` for `(relay-native-asset, para(2345))` pair // trust `IsTeleporter` for `(relay-native-asset, para(2345))` pair
{ {
let other_para_id = 2345; let other_para_id = 2345;
let dest = MultiLocation::new(1, X1(Parachain(other_para_id))); let dest = Location::new(1, [Parachain(other_para_id)]);
let mut dest_beneficiary = MultiLocation::new(1, X1(Parachain(other_para_id))) let mut dest_beneficiary = Location::new(1, [Parachain(other_para_id)])
.appended_with(AccountId32 { .appended_with(AccountId32 {
network: None, network: None,
id: sp_runtime::AccountId32::new([3; 32]).into(), id: sp_runtime::AccountId32::new([3; 32]).into(),
}) })
.unwrap(); .unwrap();
dest_beneficiary.reanchor(&dest, XcmConfig::UniversalLocation::get()).unwrap(); dest_beneficiary.reanchor(&dest, &XcmConfig::UniversalLocation::get()).unwrap();
let target_account_balance_before_teleport = let target_account_balance_before_teleport =
<pallet_balances::Pallet<Runtime>>::free_balance(&target_account); <pallet_balances::Pallet<Runtime>>::free_balance(&target_account);
@@ -245,6 +247,7 @@ pub fn teleports_for_native_asset_works<
native_asset_to_teleport_away < native_asset_to_teleport_away <
target_account_balance_before_teleport - existential_deposit target_account_balance_before_teleport - existential_deposit
); );
assert_eq!( assert_eq!(
RuntimeHelper::<Runtime>::do_teleport_assets::<HrmpChannelOpener>( RuntimeHelper::<Runtime>::do_teleport_assets::<HrmpChannelOpener>(
RuntimeHelper::<Runtime>::origin_of(target_account.clone()), RuntimeHelper::<Runtime>::origin_of(target_account.clone()),
@@ -356,9 +359,9 @@ pub fn teleports_for_foreign_assets_works<
<WeightToFee as frame_support::weights::WeightToFee>::Balance: From<u128> + Into<u128>, <WeightToFee as frame_support::weights::WeightToFee>::Balance: From<u128> + Into<u128>,
SovereignAccountOf: ConvertLocation<AccountIdOf<Runtime>>, SovereignAccountOf: ConvertLocation<AccountIdOf<Runtime>>,
<Runtime as pallet_assets::Config<ForeignAssetsPalletInstance>>::AssetId: <Runtime as pallet_assets::Config<ForeignAssetsPalletInstance>>::AssetId:
From<MultiLocation> + Into<MultiLocation>, From<xcm::v3::Location> + Into<xcm::v3::Location>,
<Runtime as pallet_assets::Config<ForeignAssetsPalletInstance>>::AssetIdParameter: <Runtime as pallet_assets::Config<ForeignAssetsPalletInstance>>::AssetIdParameter:
From<MultiLocation> + Into<MultiLocation>, From<xcm::v3::Location> + Into<xcm::v3::Location>,
<Runtime as pallet_assets::Config<ForeignAssetsPalletInstance>>::Balance: <Runtime as pallet_assets::Config<ForeignAssetsPalletInstance>>::Balance:
From<Balance> + Into<u128>, From<Balance> + Into<u128>,
<Runtime as frame_system::Config>::AccountId: <Runtime as frame_system::Config>::AccountId:
@@ -370,23 +373,25 @@ pub fn teleports_for_foreign_assets_works<
{ {
// foreign parachain with the same consensus currency as asset // foreign parachain with the same consensus currency as asset
let foreign_para_id = 2222; let foreign_para_id = 2222;
let foreign_asset_id_multilocation = MultiLocation { let foreign_asset_id_location = xcm::v3::Location {
parents: 1, parents: 1,
interior: X2(Parachain(foreign_para_id), GeneralIndex(1234567)), interior: [
xcm::v3::Junction::Parachain(foreign_para_id),
xcm::v3::Junction::GeneralIndex(1234567),
]
.into(),
}; };
// foreign creator, which can be sibling parachain to match ForeignCreators // foreign creator, which can be sibling parachain to match ForeignCreators
let foreign_creator = MultiLocation { parents: 1, interior: X1(Parachain(foreign_para_id)) }; let foreign_creator = Location { parents: 1, interior: [Parachain(foreign_para_id)].into() };
let foreign_creator_as_account_id = let foreign_creator_as_account_id =
SovereignAccountOf::convert_location(&foreign_creator).expect(""); SovereignAccountOf::convert_location(&foreign_creator).expect("");
// we want to buy execution with local relay chain currency // we want to buy execution with local relay chain currency
let buy_execution_fee_amount = let buy_execution_fee_amount =
WeightToFee::weight_to_fee(&Weight::from_parts(90_000_000_000, 0)); WeightToFee::weight_to_fee(&Weight::from_parts(90_000_000_000, 0));
let buy_execution_fee = MultiAsset { let buy_execution_fee =
id: Concrete(MultiLocation::parent()), Asset { id: AssetId(Location::parent()), fun: Fungible(buy_execution_fee_amount) };
fun: Fungible(buy_execution_fee_amount),
};
let teleported_foreign_asset_amount = 10_000_000_000_000; let teleported_foreign_asset_amount = 10_000_000_000_000;
let runtime_para_id = 1000; let runtime_para_id = 1000;
@@ -425,14 +430,14 @@ pub fn teleports_for_foreign_assets_works<
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&target_account &target_account
), ),
0.into() 0.into()
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&CheckingAccount::get() &CheckingAccount::get()
), ),
0.into() 0.into()
@@ -441,14 +446,14 @@ pub fn teleports_for_foreign_assets_works<
assert_total::< assert_total::<
pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>, pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>,
AccountIdOf<Runtime>, AccountIdOf<Runtime>,
>(foreign_asset_id_multilocation, 0, 0); >(foreign_asset_id_location, 0, 0);
// create foreign asset (0 total issuance) // create foreign asset (0 total issuance)
let asset_minimum_asset_balance = 3333333_u128; let asset_minimum_asset_balance = 3333333_u128;
assert_ok!( assert_ok!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::force_create( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::force_create(
RuntimeHelper::<Runtime>::root_origin(), RuntimeHelper::<Runtime>::root_origin(),
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
asset_owner.into(), asset_owner.into(),
false, false,
asset_minimum_asset_balance.into() asset_minimum_asset_balance.into()
@@ -457,47 +462,52 @@ pub fn teleports_for_foreign_assets_works<
assert_total::< assert_total::<
pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>, pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>,
AccountIdOf<Runtime>, AccountIdOf<Runtime>,
>(foreign_asset_id_multilocation, 0, 0); >(foreign_asset_id_location, 0, 0);
assert!(teleported_foreign_asset_amount > asset_minimum_asset_balance); assert!(teleported_foreign_asset_amount > asset_minimum_asset_balance);
let foreign_asset_id_location_latest: Location =
foreign_asset_id_location.try_into().unwrap();
// 1. process received teleported assets from sibling parachain (foreign_para_id) // 1. process received teleported assets from sibling parachain (foreign_para_id)
let xcm = Xcm(vec![ let xcm = Xcm(vec![
// BuyExecution with relaychain native token // BuyExecution with relaychain native token
WithdrawAsset(buy_execution_fee.clone().into()), WithdrawAsset(buy_execution_fee.clone().into()),
BuyExecution { BuyExecution {
fees: MultiAsset { fees: Asset {
id: Concrete(MultiLocation::parent()), id: AssetId(Location::parent()),
fun: Fungible(buy_execution_fee_amount), fun: Fungible(buy_execution_fee_amount),
}, },
weight_limit: Limited(Weight::from_parts(403531000, 65536)), weight_limit: Limited(Weight::from_parts(403531000, 65536)),
}, },
// Process teleported asset // Process teleported asset
ReceiveTeleportedAsset(MultiAssets::from(vec![MultiAsset { ReceiveTeleportedAsset(Assets::from(vec![Asset {
id: Concrete(foreign_asset_id_multilocation), id: AssetId(foreign_asset_id_location_latest.clone()),
fun: Fungible(teleported_foreign_asset_amount), fun: Fungible(teleported_foreign_asset_amount),
}])), }])),
DepositAsset { DepositAsset {
assets: Wild(AllOf { assets: Wild(AllOf {
id: Concrete(foreign_asset_id_multilocation), id: AssetId(foreign_asset_id_location_latest.clone()),
fun: WildFungibility::Fungible, fun: WildFungibility::Fungible,
}), }),
beneficiary: MultiLocation { beneficiary: Location {
parents: 0, parents: 0,
interior: X1(AccountId32 { interior: [AccountId32 {
network: None, network: None,
id: target_account.clone().into(), id: target_account.clone().into(),
}), }]
.into(),
}, },
}, },
ExpectTransactStatus(MaybeErrorCode::Success), ExpectTransactStatus(MaybeErrorCode::Success),
]); ]);
let hash = xcm.using_encoded(sp_io::hashing::blake2_256); let mut hash = xcm.using_encoded(sp_io::hashing::blake2_256);
let outcome = XcmExecutor::<XcmConfig>::execute_xcm( let outcome = XcmExecutor::<XcmConfig>::prepare_and_execute(
foreign_creator, foreign_creator,
xcm, xcm,
hash, &mut hash,
RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Sibling), RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Sibling),
Weight::zero(),
); );
assert_ok!(outcome.ensure_complete()); assert_ok!(outcome.ensure_complete());
@@ -508,7 +518,7 @@ pub fn teleports_for_foreign_assets_works<
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&target_account &target_account
), ),
teleported_foreign_asset_amount.into() teleported_foreign_asset_amount.into()
@@ -520,7 +530,7 @@ pub fn teleports_for_foreign_assets_works<
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&CheckingAccount::get() &CheckingAccount::get()
), ),
0.into() 0.into()
@@ -530,25 +540,25 @@ pub fn teleports_for_foreign_assets_works<
pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>, pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>,
AccountIdOf<Runtime>, AccountIdOf<Runtime>,
>( >(
foreign_asset_id_multilocation, foreign_asset_id_location,
teleported_foreign_asset_amount, teleported_foreign_asset_amount,
teleported_foreign_asset_amount, teleported_foreign_asset_amount,
); );
// 2. try to teleport asset back to source parachain (foreign_para_id) // 2. try to teleport asset back to source parachain (foreign_para_id)
{ {
let dest = MultiLocation::new(1, X1(Parachain(foreign_para_id))); let dest = Location::new(1, [Parachain(foreign_para_id)]);
let mut dest_beneficiary = MultiLocation::new(1, X1(Parachain(foreign_para_id))) let mut dest_beneficiary = Location::new(1, [Parachain(foreign_para_id)])
.appended_with(AccountId32 { .appended_with(AccountId32 {
network: None, network: None,
id: sp_runtime::AccountId32::new([3; 32]).into(), id: sp_runtime::AccountId32::new([3; 32]).into(),
}) })
.unwrap(); .unwrap();
dest_beneficiary.reanchor(&dest, XcmConfig::UniversalLocation::get()).unwrap(); dest_beneficiary.reanchor(&dest, &XcmConfig::UniversalLocation::get()).unwrap();
let target_account_balance_before_teleport = let target_account_balance_before_teleport =
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&target_account, &target_account,
); );
let asset_to_teleport_away = asset_minimum_asset_balance * 3; let asset_to_teleport_away = asset_minimum_asset_balance * 3;
@@ -562,11 +572,11 @@ pub fn teleports_for_foreign_assets_works<
// Make sure the target account has enough native asset to pay for delivery fees // Make sure the target account has enough native asset to pay for delivery fees
let delivery_fees = let delivery_fees =
xcm_helpers::transfer_assets_delivery_fees::<XcmConfig::XcmSender>( xcm_helpers::transfer_assets_delivery_fees::<XcmConfig::XcmSender>(
(foreign_asset_id_multilocation, asset_to_teleport_away).into(), (foreign_asset_id_location_latest.clone(), asset_to_teleport_away).into(),
0, 0,
Unlimited, Unlimited,
dest_beneficiary, dest_beneficiary.clone(),
dest, dest.clone(),
); );
<pallet_balances::Pallet<Runtime>>::mint_into( <pallet_balances::Pallet<Runtime>>::mint_into(
&target_account, &target_account,
@@ -578,7 +588,7 @@ pub fn teleports_for_foreign_assets_works<
RuntimeHelper::<Runtime>::origin_of(target_account.clone()), RuntimeHelper::<Runtime>::origin_of(target_account.clone()),
dest, dest,
dest_beneficiary, dest_beneficiary,
(foreign_asset_id_multilocation, asset_to_teleport_away), (foreign_asset_id_location_latest.clone(), asset_to_teleport_away),
Some((runtime_para_id, foreign_para_id)), Some((runtime_para_id, foreign_para_id)),
included_head, included_head,
&alice, &alice,
@@ -587,14 +597,14 @@ pub fn teleports_for_foreign_assets_works<
// check balances // check balances
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&target_account &target_account
), ),
(target_account_balance_before_teleport - asset_to_teleport_away.into()) (target_account_balance_before_teleport - asset_to_teleport_away.into())
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&CheckingAccount::get() &CheckingAccount::get()
), ),
0.into() 0.into()
@@ -604,7 +614,7 @@ pub fn teleports_for_foreign_assets_works<
pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>, pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>,
AccountIdOf<Runtime>, AccountIdOf<Runtime>,
>( >(
foreign_asset_id_multilocation, foreign_asset_id_location,
teleported_foreign_asset_amount - asset_to_teleport_away, teleported_foreign_asset_amount - asset_to_teleport_away,
teleported_foreign_asset_amount - asset_to_teleport_away, teleported_foreign_asset_amount - asset_to_teleport_away,
); );
@@ -717,17 +727,19 @@ pub fn asset_transactor_transfer_with_local_consensus_currency_works<Runtime, Xc
// transfer_asset (deposit/withdraw) ALICE -> BOB // transfer_asset (deposit/withdraw) ALICE -> BOB
let _ = RuntimeHelper::<XcmConfig>::do_transfer( let _ = RuntimeHelper::<XcmConfig>::do_transfer(
MultiLocation { Location {
parents: 0, parents: 0,
interior: X1(AccountId32 { network: None, id: source_account.clone().into() }), interior: [AccountId32 { network: None, id: source_account.clone().into() }]
.into(),
}, },
MultiLocation { Location {
parents: 0, parents: 0,
interior: X1(AccountId32 { network: None, id: target_account.clone().into() }), interior: [AccountId32 { network: None, id: target_account.clone().into() }]
.into(),
}, },
// local_consensus_currency_asset, e.g.: relaychain token (KSM, DOT, ...) // local_consensus_currency_asset, e.g.: relaychain token (KSM, DOT, ...)
( (
MultiLocation { parents: 1, interior: Here }, Location { parents: 1, interior: Here },
(BalanceOf::<Runtime>::from(1_u128) * unit).into(), (BalanceOf::<Runtime>::from(1_u128) * unit).into(),
), ),
) )
@@ -820,8 +832,8 @@ pub fn asset_transactor_transfer_with_pallet_assets_instance_works<
<<Runtime as frame_system::Config>::Lookup as StaticLookup>::Source: <<Runtime as frame_system::Config>::Lookup as StaticLookup>::Source:
From<<Runtime as frame_system::Config>::AccountId>, From<<Runtime as frame_system::Config>::AccountId>,
AssetsPalletInstance: 'static, AssetsPalletInstance: 'static,
AssetId: Clone + Copy, AssetId: Clone,
AssetIdConverter: MaybeEquivalence<MultiLocation, AssetId>, AssetIdConverter: MaybeEquivalence<Location, AssetId>,
{ {
ExtBuilder::<Runtime>::default() ExtBuilder::<Runtime>::default()
.with_collators(collator_session_keys.collators()) .with_collators(collator_session_keys.collators())
@@ -836,10 +848,10 @@ pub fn asset_transactor_transfer_with_pallet_assets_instance_works<
.execute_with(|| { .execute_with(|| {
// create some asset class // create some asset class
let asset_minimum_asset_balance = 3333333_u128; let asset_minimum_asset_balance = 3333333_u128;
let asset_id_as_multilocation = AssetIdConverter::convert_back(&asset_id).unwrap(); let asset_id_as_location = AssetIdConverter::convert_back(&asset_id).unwrap();
assert_ok!(<pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::force_create( assert_ok!(<pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::force_create(
RuntimeHelper::<Runtime>::root_origin(), RuntimeHelper::<Runtime>::root_origin(),
asset_id.into(), asset_id.clone().into(),
asset_owner.clone().into(), asset_owner.clone().into(),
false, false,
asset_minimum_asset_balance.into() asset_minimum_asset_balance.into()
@@ -848,7 +860,7 @@ pub fn asset_transactor_transfer_with_pallet_assets_instance_works<
// We first mint enough asset for the account to exist for assets // We first mint enough asset for the account to exist for assets
assert_ok!(<pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::mint( assert_ok!(<pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::mint(
RuntimeHelper::<Runtime>::origin_of(asset_owner.clone()), RuntimeHelper::<Runtime>::origin_of(asset_owner.clone()),
asset_id.into(), asset_id.clone().into(),
alice_account.clone().into(), alice_account.clone().into(),
(6 * asset_minimum_asset_balance).into() (6 * asset_minimum_asset_balance).into()
)); ));
@@ -856,28 +868,28 @@ pub fn asset_transactor_transfer_with_pallet_assets_instance_works<
// check Assets before // check Assets before
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance(
asset_id.into(), asset_id.clone().into(),
&alice_account &alice_account
), ),
(6 * asset_minimum_asset_balance).into() (6 * asset_minimum_asset_balance).into()
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance(
asset_id.into(), asset_id.clone().into(),
&bob_account &bob_account
), ),
0.into() 0.into()
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance(
asset_id.into(), asset_id.clone().into(),
&charlie_account &charlie_account
), ),
0.into() 0.into()
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance(
asset_id.into(), asset_id.clone().into(),
&asset_owner &asset_owner
), ),
0.into() 0.into()
@@ -904,21 +916,20 @@ pub fn asset_transactor_transfer_with_pallet_assets_instance_works<
// ExistentialDeposit) // ExistentialDeposit)
assert_noop!( assert_noop!(
RuntimeHelper::<XcmConfig>::do_transfer( RuntimeHelper::<XcmConfig>::do_transfer(
MultiLocation { Location {
parents: 0, parents: 0,
interior: X1(AccountId32 { interior: [AccountId32 { network: None, id: alice_account.clone().into() }]
network: None, .into(),
id: alice_account.clone().into()
}),
}, },
MultiLocation { Location {
parents: 0, parents: 0,
interior: X1(AccountId32 { interior: [AccountId32 {
network: None, network: None,
id: charlie_account.clone().into() id: charlie_account.clone().into()
}), }]
.into(),
}, },
(asset_id_as_multilocation, asset_minimum_asset_balance), (asset_id_as_location.clone(), asset_minimum_asset_balance),
), ),
XcmError::FailedToTransactAsset(Into::<&str>::into( XcmError::FailedToTransactAsset(Into::<&str>::into(
sp_runtime::TokenError::CannotCreate sp_runtime::TokenError::CannotCreate
@@ -928,18 +939,17 @@ pub fn asset_transactor_transfer_with_pallet_assets_instance_works<
// transfer_asset (deposit/withdraw) ALICE -> BOB (ok - has ExistentialDeposit) // transfer_asset (deposit/withdraw) ALICE -> BOB (ok - has ExistentialDeposit)
assert!(matches!( assert!(matches!(
RuntimeHelper::<XcmConfig>::do_transfer( RuntimeHelper::<XcmConfig>::do_transfer(
MultiLocation { Location {
parents: 0, parents: 0,
interior: X1(AccountId32 { interior: [AccountId32 { network: None, id: alice_account.clone().into() }]
network: None, .into(),
id: alice_account.clone().into()
}),
}, },
MultiLocation { Location {
parents: 0, parents: 0,
interior: X1(AccountId32 { network: None, id: bob_account.clone().into() }), interior: [AccountId32 { network: None, id: bob_account.clone().into() }]
.into(),
}, },
(asset_id_as_multilocation, asset_minimum_asset_balance), (asset_id_as_location, asset_minimum_asset_balance),
), ),
Ok(_) Ok(_)
)); ));
@@ -947,21 +957,21 @@ pub fn asset_transactor_transfer_with_pallet_assets_instance_works<
// check Assets after // check Assets after
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance(
asset_id.into(), asset_id.clone().into(),
&alice_account &alice_account
), ),
(5 * asset_minimum_asset_balance).into() (5 * asset_minimum_asset_balance).into()
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance(
asset_id.into(), asset_id.clone().into(),
&bob_account &bob_account
), ),
asset_minimum_asset_balance.into() asset_minimum_asset_balance.into()
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, AssetsPalletInstance>>::balance(
asset_id.into(), asset_id.clone().into(),
&charlie_account &charlie_account
), ),
0.into() 0.into()
@@ -1093,26 +1103,23 @@ pub fn create_and_manage_foreign_assets_for_local_consensus_parachain_assets_wor
<<Runtime as frame_system::Config>::Lookup as StaticLookup>::Source: <<Runtime as frame_system::Config>::Lookup as StaticLookup>::Source:
From<<Runtime as frame_system::Config>::AccountId>, From<<Runtime as frame_system::Config>::AccountId>,
ForeignAssetsPalletInstance: 'static, ForeignAssetsPalletInstance: 'static,
AssetId: Clone + Copy, AssetId: Clone,
AssetIdConverter: MaybeEquivalence<MultiLocation, AssetId>, AssetIdConverter: MaybeEquivalence<Location, AssetId>,
{ {
// foreign parachain with the same consensus currency as asset // foreign parachain with the same consenus currency as asset
let foreign_asset_id_multilocation = let foreign_asset_id_location = Location::new(1, [Parachain(2222), GeneralIndex(1234567)]);
MultiLocation { parents: 1, interior: X2(Parachain(2222), GeneralIndex(1234567)) }; let asset_id = AssetIdConverter::convert(&foreign_asset_id_location).unwrap();
let asset_id = AssetIdConverter::convert(&foreign_asset_id_multilocation).unwrap();
// foreign creator, which can be sibling parachain to match ForeignCreators // foreign creator, which can be sibling parachain to match ForeignCreators
let foreign_creator = MultiLocation { parents: 1, interior: X1(Parachain(2222)) }; let foreign_creator = Location { parents: 1, interior: [Parachain(2222)].into() };
let foreign_creator_as_account_id = let foreign_creator_as_account_id =
SovereignAccountOf::convert_location(&foreign_creator).expect(""); SovereignAccountOf::convert_location(&foreign_creator).expect("");
// we want to buy execution with local relay chain currency // we want to buy execution with local relay chain currency
let buy_execution_fee_amount = let buy_execution_fee_amount =
WeightToFee::weight_to_fee(&Weight::from_parts(90_000_000_000, 0)); WeightToFee::weight_to_fee(&Weight::from_parts(90_000_000_000, 0));
let buy_execution_fee = MultiAsset { let buy_execution_fee =
id: Concrete(MultiLocation::parent()), Asset { id: AssetId(Location::parent()), fun: Fungible(buy_execution_fee_amount) };
fun: Fungible(buy_execution_fee_amount),
};
const ASSET_NAME: &str = "My super coin"; const ASSET_NAME: &str = "My super coin";
const ASSET_SYMBOL: &str = "MY_S_COIN"; const ASSET_SYMBOL: &str = "MY_S_COIN";
@@ -1152,7 +1159,7 @@ pub fn create_and_manage_foreign_assets_for_local_consensus_parachain_assets_wor
Runtime, Runtime,
ForeignAssetsPalletInstance, ForeignAssetsPalletInstance,
>::create { >::create {
id: asset_id.into(), id: asset_id.clone().into(),
// admin as sovereign_account // admin as sovereign_account
admin: foreign_creator_as_account_id.clone().into(), admin: foreign_creator_as_account_id.clone().into(),
min_balance: 1.into(), min_balance: 1.into(),
@@ -1162,7 +1169,7 @@ pub fn create_and_manage_foreign_assets_for_local_consensus_parachain_assets_wor
Runtime, Runtime,
ForeignAssetsPalletInstance, ForeignAssetsPalletInstance,
>::set_metadata { >::set_metadata {
id: asset_id.into(), id: asset_id.clone().into(),
name: Vec::from(ASSET_NAME), name: Vec::from(ASSET_NAME),
symbol: Vec::from(ASSET_SYMBOL), symbol: Vec::from(ASSET_SYMBOL),
decimals: 12, decimals: 12,
@@ -1172,7 +1179,7 @@ pub fn create_and_manage_foreign_assets_for_local_consensus_parachain_assets_wor
Runtime, Runtime,
ForeignAssetsPalletInstance, ForeignAssetsPalletInstance,
>::set_team { >::set_team {
id: asset_id.into(), id: asset_id.clone().into(),
issuer: foreign_creator_as_account_id.clone().into(), issuer: foreign_creator_as_account_id.clone().into(),
admin: foreign_creator_as_account_id.clone().into(), admin: foreign_creator_as_account_id.clone().into(),
freezer: bob_account.clone().into(), freezer: bob_account.clone().into(),
@@ -1202,14 +1209,15 @@ pub fn create_and_manage_foreign_assets_for_local_consensus_parachain_assets_wor
]); ]);
// messages with different consensus should go through the local bridge-hub // messages with different consensus should go through the local bridge-hub
let hash = xcm.using_encoded(sp_io::hashing::blake2_256); let mut hash = xcm.using_encoded(sp_io::hashing::blake2_256);
// execute xcm as XcmpQueue would do // execute xcm as XcmpQueue would do
let outcome = XcmExecutor::<XcmConfig>::execute_xcm( let outcome = XcmExecutor::<XcmConfig>::prepare_and_execute(
foreign_creator, foreign_creator.clone(),
xcm, xcm,
hash, &mut hash,
RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Sibling), RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Sibling),
Weight::zero(),
); );
assert_ok!(outcome.ensure_complete()); assert_ok!(outcome.ensure_complete());
@@ -1230,25 +1238,25 @@ pub fn create_and_manage_foreign_assets_for_local_consensus_parachain_assets_wor
use frame_support::traits::fungibles::roles::Inspect as InspectRoles; use frame_support::traits::fungibles::roles::Inspect as InspectRoles;
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::owner( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::owner(
asset_id.into() asset_id.clone().into()
), ),
Some(foreign_creator_as_account_id.clone()) Some(foreign_creator_as_account_id.clone())
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::admin( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::admin(
asset_id.into() asset_id.clone().into()
), ),
Some(foreign_creator_as_account_id.clone()) Some(foreign_creator_as_account_id.clone())
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::issuer( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::issuer(
asset_id.into() asset_id.clone().into()
), ),
Some(foreign_creator_as_account_id.clone()) Some(foreign_creator_as_account_id.clone())
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::freezer( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::freezer(
asset_id.into() asset_id.clone().into()
), ),
Some(bob_account.clone()) Some(bob_account.clone())
); );
@@ -1262,13 +1270,13 @@ pub fn create_and_manage_foreign_assets_for_local_consensus_parachain_assets_wor
assert_metadata::< assert_metadata::<
pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>, pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>,
AccountIdOf<Runtime>, AccountIdOf<Runtime>,
>(asset_id, ASSET_NAME, ASSET_SYMBOL, 12); >(asset_id.clone(), ASSET_NAME, ASSET_SYMBOL, 12);
// check if changed freezer, can freeze // check if changed freezer, can freeze
assert_noop!( assert_noop!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::freeze( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::freeze(
RuntimeHelper::<Runtime>::origin_of(bob_account), RuntimeHelper::<Runtime>::origin_of(bob_account),
asset_id.into(), asset_id.clone().into(),
alice_account.clone().into() alice_account.clone().into()
), ),
pallet_assets::Error::<Runtime, ForeignAssetsPalletInstance>::NoAccount pallet_assets::Error::<Runtime, ForeignAssetsPalletInstance>::NoAccount
@@ -1284,9 +1292,9 @@ pub fn create_and_manage_foreign_assets_for_local_consensus_parachain_assets_wor
// lets try create asset for different parachain(3333) (foreign_creator(2222) can create // lets try create asset for different parachain(3333) (foreign_creator(2222) can create
// just his assets) // just his assets)
let foreign_asset_id_multilocation = let foreign_asset_id_location =
MultiLocation { parents: 1, interior: X2(Parachain(3333), GeneralIndex(1234567)) }; Location { parents: 1, interior: [Parachain(3333), GeneralIndex(1234567)].into() };
let asset_id = AssetIdConverter::convert(&foreign_asset_id_multilocation).unwrap(); let asset_id = AssetIdConverter::convert(&foreign_asset_id_location).unwrap();
// prepare data for xcm::Transact(create) // prepare data for xcm::Transact(create)
let foreign_asset_create = runtime_call_encode(pallet_assets::Call::< let foreign_asset_create = runtime_call_encode(pallet_assets::Call::<
@@ -1310,14 +1318,15 @@ pub fn create_and_manage_foreign_assets_for_local_consensus_parachain_assets_wor
]); ]);
// messages with different consensus should go through the local bridge-hub // messages with different consensus should go through the local bridge-hub
let hash = xcm.using_encoded(sp_io::hashing::blake2_256); let mut hash = xcm.using_encoded(sp_io::hashing::blake2_256);
// execute xcm as XcmpQueue would do // execute xcm as XcmpQueue would do
let outcome = XcmExecutor::<XcmConfig>::execute_xcm( let outcome = XcmExecutor::<XcmConfig>::prepare_and_execute(
foreign_creator, foreign_creator,
xcm, xcm,
hash, &mut hash,
RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Sibling), RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Sibling),
Weight::zero(),
); );
assert_ok!(outcome.ensure_complete()); assert_ok!(outcome.ensure_complete());
@@ -1441,15 +1450,15 @@ pub fn reserve_transfer_native_asset_to_non_teleport_para_works<
// reserve-transfer native asset with local reserve to remote parachain (2345) // reserve-transfer native asset with local reserve to remote parachain (2345)
let other_para_id = 2345; let other_para_id = 2345;
let native_asset = MultiLocation::parent(); let native_asset = Location::parent();
let dest = MultiLocation::new(1, X1(Parachain(other_para_id))); let dest = Location::new(1, [Parachain(other_para_id)]);
let mut dest_beneficiary = MultiLocation::new(1, X1(Parachain(other_para_id))) let mut dest_beneficiary = Location::new(1, [Parachain(other_para_id)])
.appended_with(AccountId32 { .appended_with(AccountId32 {
network: None, network: None,
id: sp_runtime::AccountId32::new([3; 32]).into(), id: sp_runtime::AccountId32::new([3; 32]).into(),
}) })
.unwrap(); .unwrap();
dest_beneficiary.reanchor(&dest, XcmConfig::UniversalLocation::get()).unwrap(); dest_beneficiary.reanchor(&dest, &XcmConfig::UniversalLocation::get()).unwrap();
let reserve_account = LocationToAccountId::convert_location(&dest) let reserve_account = LocationToAccountId::convert_location(&dest)
.expect("Sovereign account for reserves"); .expect("Sovereign account for reserves");
@@ -1495,17 +1504,15 @@ pub fn reserve_transfer_native_asset_to_non_teleport_para_works<
); );
// local native asset (pallet_balances) // local native asset (pallet_balances)
let asset_to_transfer = MultiAsset { let asset_to_transfer =
fun: Fungible(balance_to_transfer.into()), Asset { fun: Fungible(balance_to_transfer.into()), id: AssetId(native_asset) };
id: Concrete(native_asset),
};
// pallet_xcm call reserve transfer // pallet_xcm call reserve transfer
assert_ok!(<pallet_xcm::Pallet<Runtime>>::limited_reserve_transfer_assets( assert_ok!(<pallet_xcm::Pallet<Runtime>>::limited_reserve_transfer_assets(
RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::origin_of(alice_account.clone()), RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::origin_of(alice_account.clone()),
Box::new(dest.into_versioned()), Box::new(dest.clone().into_versioned()),
Box::new(dest_beneficiary.into_versioned()), Box::new(dest_beneficiary.clone().into_versioned()),
Box::new(VersionedMultiAssets::from(MultiAssets::from(asset_to_transfer))), Box::new(VersionedAssets::from(Assets::from(asset_to_transfer))),
0, 0,
weight_limit, weight_limit,
)); ));
@@ -1535,9 +1542,12 @@ pub fn reserve_transfer_native_asset_to_non_teleport_para_works<
) )
.unwrap(); .unwrap();
let v4_xcm: Xcm<()> = xcm_sent.clone().try_into().unwrap();
dbg!(&v4_xcm);
let delivery_fees = get_fungible_delivery_fees::< let delivery_fees = get_fungible_delivery_fees::<
<XcmConfig as xcm_executor::Config>::XcmSender, <XcmConfig as xcm_executor::Config>::XcmSender,
>(dest, Xcm::try_from(xcm_sent.clone()).unwrap()); >(dest.clone(), Xcm::try_from(xcm_sent.clone()).unwrap());
assert_eq!( assert_eq!(
xcm_sent_message_hash, xcm_sent_message_hash,
@@ -1547,8 +1557,8 @@ pub fn reserve_transfer_native_asset_to_non_teleport_para_works<
// check sent XCM Program to other parachain // check sent XCM Program to other parachain
println!("reserve_transfer_native_asset_works sent xcm: {:?}", xcm_sent); println!("reserve_transfer_native_asset_works sent xcm: {:?}", xcm_sent);
let reserve_assets_deposited = MultiAssets::from(vec![MultiAsset { let reserve_assets_deposited = Assets::from(vec![Asset {
id: Concrete(MultiLocation { parents: 1, interior: Here }), id: AssetId(Location { parents: 1, interior: Here }),
fun: Fungible(1000000000000), fun: Fungible(1000000000000),
}]); }]);
cumulus/parachains/runtimes/assets/test-utils/src/test_cases_over_bridge.rs
+62 -52
View File
@@ -31,15 +31,15 @@ use parachains_runtimes_test_utils::{
}; };
use sp_runtime::{traits::StaticLookup, Saturating}; use sp_runtime::{traits::StaticLookup, Saturating};
use sp_std::ops::Mul; use sp_std::ops::Mul;
use xcm::{latest::prelude::*, VersionedMultiAssets}; use xcm::{latest::prelude::*, VersionedAssets};
use xcm_builder::{CreateMatcher, MatchXcm}; use xcm_builder::{CreateMatcher, MatchXcm};
use xcm_executor::{traits::ConvertLocation, XcmExecutor}; use xcm_executor::{traits::ConvertLocation, XcmExecutor};
pub struct TestBridgingConfig { pub struct TestBridgingConfig {
pub bridged_network: NetworkId, pub bridged_network: NetworkId,
pub local_bridge_hub_para_id: u32, pub local_bridge_hub_para_id: u32,
pub local_bridge_hub_location: MultiLocation, pub local_bridge_hub_location: Location,
pub bridged_target_location: MultiLocation, pub bridged_target_location: Location,
} }
/// Test-case makes sure that `Runtime` can initiate **reserve transfer assets** over bridge. /// Test-case makes sure that `Runtime` can initiate **reserve transfer assets** over bridge.
@@ -117,7 +117,7 @@ pub fn limited_reserve_transfer_assets_for_native_asset_works<
LocationToAccountId::convert_location(&target_location_from_different_consensus) LocationToAccountId::convert_location(&target_location_from_different_consensus)
.expect("Sovereign account for reserves"); .expect("Sovereign account for reserves");
let balance_to_transfer = 1_000_000_000_000_u128; let balance_to_transfer = 1_000_000_000_000_u128;
let native_asset = MultiLocation::parent(); let native_asset = Location::parent();
// open HRMP to bridge hub // open HRMP to bridge hub
mock_open_hrmp_channel::<Runtime, HrmpChannelOpener>( mock_open_hrmp_channel::<Runtime, HrmpChannelOpener>(
@@ -163,35 +163,33 @@ pub fn limited_reserve_transfer_assets_for_native_asset_works<
.unwrap_or(0.into()); .unwrap_or(0.into());
// local native asset (pallet_balances) // local native asset (pallet_balances)
let asset_to_transfer = MultiAsset { let asset_to_transfer =
fun: Fungible(balance_to_transfer.into()), Asset { fun: Fungible(balance_to_transfer.into()), id: native_asset.into() };
id: Concrete(native_asset),
};
// destination is (some) account relative to the destination different consensus // destination is (some) account relative to the destination different consensus
let target_destination_account = MultiLocation { let target_destination_account = Location::new(
parents: 0, 0,
interior: X1(AccountId32 { [AccountId32 {
network: Some(bridged_network), network: Some(bridged_network),
id: sp_runtime::AccountId32::new([3; 32]).into(), id: sp_runtime::AccountId32::new([3; 32]).into(),
}), }],
}; );
let assets_to_transfer = MultiAssets::from(asset_to_transfer); let assets_to_transfer = Assets::from(asset_to_transfer);
let mut expected_assets = assets_to_transfer.clone(); let mut expected_assets = assets_to_transfer.clone();
let context = XcmConfig::UniversalLocation::get(); let context = XcmConfig::UniversalLocation::get();
expected_assets expected_assets
.reanchor(&target_location_from_different_consensus, context) .reanchor(&target_location_from_different_consensus, &context)
.unwrap(); .unwrap();
let expected_beneficiary = target_destination_account; let expected_beneficiary = target_destination_account.clone();
// do pallet_xcm call reserve transfer // do pallet_xcm call reserve transfer
assert_ok!(<pallet_xcm::Pallet<Runtime>>::limited_reserve_transfer_assets( assert_ok!(<pallet_xcm::Pallet<Runtime>>::limited_reserve_transfer_assets(
RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::origin_of(alice_account.clone()), RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::origin_of(alice_account.clone()),
Box::new(target_location_from_different_consensus.into_versioned()), Box::new(target_location_from_different_consensus.clone().into_versioned()),
Box::new(target_destination_account.into_versioned()), Box::new(target_destination_account.into_versioned()),
Box::new(VersionedMultiAssets::from(assets_to_transfer)), Box::new(VersionedAssets::from(assets_to_transfer)),
0, 0,
weight_limit, weight_limit,
)); ));
@@ -266,13 +264,17 @@ pub fn limited_reserve_transfer_assets_for_native_asset_works<
let (_, target_location_junctions_without_global_consensus) = let (_, target_location_junctions_without_global_consensus) =
target_location_from_different_consensus target_location_from_different_consensus
.interior .interior
.clone()
.split_global() .split_global()
.expect("split works"); .expect("split works");
assert_eq!(destination, &target_location_junctions_without_global_consensus); assert_eq!(destination, &target_location_junctions_without_global_consensus);
// Call `SendXcm::validate` to get delivery fees. // Call `SendXcm::validate` to get delivery fees.
delivery_fees = get_fungible_delivery_fees::< delivery_fees = get_fungible_delivery_fees::<
<XcmConfig as xcm_executor::Config>::XcmSender, <XcmConfig as xcm_executor::Config>::XcmSender,
>(target_location_from_different_consensus, inner_xcm.clone()); >(
target_location_from_different_consensus.clone(),
inner_xcm.clone(),
);
assert_matches_reserve_asset_deposited_instructions( assert_matches_reserve_asset_deposited_instructions(
inner_xcm, inner_xcm,
&expected_assets, &expected_assets,
@@ -322,10 +324,10 @@ pub fn receive_reserve_asset_deposited_from_different_consensus_works<
target_account: AccountIdOf<Runtime>, target_account: AccountIdOf<Runtime>,
block_author_account: AccountIdOf<Runtime>, block_author_account: AccountIdOf<Runtime>,
( (
foreign_asset_id_multilocation, foreign_asset_id_location,
transfered_foreign_asset_id_amount, transfered_foreign_asset_id_amount,
foreign_asset_id_minimum_balance, foreign_asset_id_minimum_balance,
): (MultiLocation, u128, u128), ): (xcm::v3::Location, u128, u128),
prepare_configuration: fn() -> TestBridgingConfig, prepare_configuration: fn() -> TestBridgingConfig,
(bridge_instance, universal_origin, descend_origin): (Junctions, Junction, Junctions), /* bridge adds origin manipulation on the way */ (bridge_instance, universal_origin, descend_origin): (Junctions, Junction, Junctions), /* bridge adds origin manipulation on the way */
) where ) where
@@ -347,9 +349,9 @@ pub fn receive_reserve_asset_deposited_from_different_consensus_works<
XcmConfig: xcm_executor::Config, XcmConfig: xcm_executor::Config,
LocationToAccountId: ConvertLocation<AccountIdOf<Runtime>>, LocationToAccountId: ConvertLocation<AccountIdOf<Runtime>>,
<Runtime as pallet_assets::Config<ForeignAssetsPalletInstance>>::AssetId: <Runtime as pallet_assets::Config<ForeignAssetsPalletInstance>>::AssetId:
From<MultiLocation> + Into<MultiLocation>, From<xcm::v3::Location> + Into<xcm::v3::Location>,
<Runtime as pallet_assets::Config<ForeignAssetsPalletInstance>>::AssetIdParameter: <Runtime as pallet_assets::Config<ForeignAssetsPalletInstance>>::AssetIdParameter:
From<MultiLocation> + Into<MultiLocation>, From<xcm::v3::Location> + Into<xcm::v3::Location>,
<Runtime as pallet_assets::Config<ForeignAssetsPalletInstance>>::Balance: <Runtime as pallet_assets::Config<ForeignAssetsPalletInstance>>::Balance:
From<Balance> + Into<u128> + From<u128>, From<Balance> + Into<u128> + From<u128>,
<Runtime as frame_system::Config>::AccountId: Into<<<Runtime as frame_system::Config>::RuntimeOrigin as OriginTrait>::AccountId> <Runtime as frame_system::Config>::AccountId: Into<<<Runtime as frame_system::Config>::RuntimeOrigin as OriginTrait>::AccountId>
@@ -357,7 +359,7 @@ pub fn receive_reserve_asset_deposited_from_different_consensus_works<
<<Runtime as frame_system::Config>::Lookup as StaticLookup>::Source: <<Runtime as frame_system::Config>::Lookup as StaticLookup>::Source:
From<<Runtime as frame_system::Config>::AccountId>, From<<Runtime as frame_system::Config>::AccountId>,
<Runtime as pallet_asset_conversion::Config>::AssetKind: <Runtime as pallet_asset_conversion::Config>::AssetKind:
From<MultiLocation> + Into<MultiLocation>, From<xcm::v3::Location> + Into<xcm::v3::Location>,
<Runtime as pallet_asset_conversion::Config>::Balance: From<Balance>, <Runtime as pallet_asset_conversion::Config>::Balance: From<Balance>,
ForeignAssetsPalletInstance: 'static, ForeignAssetsPalletInstance: 'static,
{ {
@@ -385,7 +387,7 @@ pub fn receive_reserve_asset_deposited_from_different_consensus_works<
// sovereign account as foreign asset owner (can be whoever for this scenario, doesnt // sovereign account as foreign asset owner (can be whoever for this scenario, doesnt
// matter) // matter)
let sovereign_account_as_owner_of_foreign_asset = let sovereign_account_as_owner_of_foreign_asset =
LocationToAccountId::convert_location(&MultiLocation::parent()).unwrap(); LocationToAccountId::convert_location(&Location::parent()).unwrap();
// staking pot account for collecting local native fees from `BuyExecution` // staking pot account for collecting local native fees from `BuyExecution`
let staking_pot = <pallet_collator_selection::Pallet<Runtime>>::account_id(); let staking_pot = <pallet_collator_selection::Pallet<Runtime>>::account_id();
@@ -398,16 +400,16 @@ pub fn receive_reserve_asset_deposited_from_different_consensus_works<
assert_ok!( assert_ok!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::force_create( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::force_create(
RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::root_origin(), RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::root_origin(),
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
sovereign_account_as_owner_of_foreign_asset.clone().into(), sovereign_account_as_owner_of_foreign_asset.clone().into(),
true, // is_sufficient=true true, // is_sufficient=true
foreign_asset_id_minimum_balance.into() foreign_asset_id_minimum_balance.into()
) )
); );
// setup a pool to pay fees with `foreign_asset_id_multilocation` tokens // setup a pool to pay fees with `foreign_asset_id_location` tokens
let pool_owner: AccountIdOf<Runtime> = [1u8; 32].into(); let pool_owner: AccountIdOf<Runtime> = [1u8; 32].into();
let native_asset = MultiLocation::parent(); let native_asset = xcm::v3::Location::parent();
let pool_liquidity: u128 = let pool_liquidity: u128 =
existential_deposit.into().max(foreign_asset_id_minimum_balance).mul(100_000); existential_deposit.into().max(foreign_asset_id_minimum_balance).mul(100_000);
@@ -420,7 +422,7 @@ pub fn receive_reserve_asset_deposited_from_different_consensus_works<
RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::origin_of( RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::origin_of(
sovereign_account_as_owner_of_foreign_asset sovereign_account_as_owner_of_foreign_asset
), ),
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
pool_owner.clone().into(), pool_owner.clone().into(),
(foreign_asset_id_minimum_balance + pool_liquidity).mul(2).into(), (foreign_asset_id_minimum_balance + pool_liquidity).mul(2).into(),
)); ));
@@ -428,13 +430,13 @@ pub fn receive_reserve_asset_deposited_from_different_consensus_works<
assert_ok!(<pallet_asset_conversion::Pallet<Runtime>>::create_pool( assert_ok!(<pallet_asset_conversion::Pallet<Runtime>>::create_pool(
RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::origin_of(pool_owner.clone()), RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::origin_of(pool_owner.clone()),
Box::new(native_asset.into()), Box::new(native_asset.into()),
Box::new(foreign_asset_id_multilocation.into()) Box::new(foreign_asset_id_location.into())
)); ));
assert_ok!(<pallet_asset_conversion::Pallet<Runtime>>::add_liquidity( assert_ok!(<pallet_asset_conversion::Pallet<Runtime>>::add_liquidity(
RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::origin_of(pool_owner.clone()), RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::origin_of(pool_owner.clone()),
Box::new(native_asset.into()), Box::new(native_asset.into()),
Box::new(foreign_asset_id_multilocation.into()), Box::new(foreign_asset_id_location.into()),
pool_liquidity.into(), pool_liquidity.into(),
pool_liquidity.into(), pool_liquidity.into(),
1.into(), 1.into(),
@@ -459,34 +461,37 @@ pub fn receive_reserve_asset_deposited_from_different_consensus_works<
// ForeignAssets balances before // ForeignAssets balances before
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&target_account &target_account
), ),
0.into() 0.into()
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&block_author_account &block_author_account
), ),
0.into() 0.into()
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&staking_pot &staking_pot
), ),
0.into() 0.into()
); );
let expected_assets = MultiAssets::from(vec![MultiAsset { let foreign_asset_id_location_latest: Location =
id: Concrete(foreign_asset_id_multilocation), foreign_asset_id_location.try_into().unwrap();
let expected_assets = Assets::from(vec![Asset {
id: AssetId(foreign_asset_id_location_latest.clone()),
fun: Fungible(transfered_foreign_asset_id_amount), fun: Fungible(transfered_foreign_asset_id_amount),
}]); }]);
let expected_beneficiary = MultiLocation { let expected_beneficiary = Location::new(
parents: 0, 0,
interior: X1(AccountId32 { network: None, id: target_account.clone().into() }), [AccountId32 { network: None, id: target_account.clone().into() }],
}; );
// Call received XCM execution // Call received XCM execution
let xcm = Xcm(vec![ let xcm = Xcm(vec![
@@ -496,13 +501,16 @@ pub fn receive_reserve_asset_deposited_from_different_consensus_works<
ReserveAssetDeposited(expected_assets.clone()), ReserveAssetDeposited(expected_assets.clone()),
ClearOrigin, ClearOrigin,
BuyExecution { BuyExecution {
fees: MultiAsset { fees: Asset {
id: Concrete(foreign_asset_id_multilocation), id: AssetId(foreign_asset_id_location_latest.clone()),
fun: Fungible(transfered_foreign_asset_id_amount), fun: Fungible(transfered_foreign_asset_id_amount),
}, },
weight_limit: Unlimited, weight_limit: Unlimited,
}, },
DepositAsset { assets: Wild(AllCounted(1)), beneficiary: expected_beneficiary }, DepositAsset {
assets: Wild(AllCounted(1)),
beneficiary: expected_beneficiary.clone(),
},
SetTopic([ SetTopic([
220, 188, 144, 32, 213, 83, 111, 175, 44, 210, 111, 19, 90, 165, 191, 112, 140, 220, 188, 144, 32, 213, 83, 111, 175, 44, 210, 111, 19, 90, 165, 191, 112, 140,
247, 192, 124, 42, 17, 153, 141, 114, 34, 189, 20, 83, 69, 237, 173, 247, 192, 124, 42, 17, 153, 141, 114, 34, 189, 20, 83, 69, 237, 173,
@@ -514,16 +522,17 @@ pub fn receive_reserve_asset_deposited_from_different_consensus_works<
&expected_beneficiary, &expected_beneficiary,
); );
let hash = xcm.using_encoded(sp_io::hashing::blake2_256); let mut hash = xcm.using_encoded(sp_io::hashing::blake2_256);
// execute xcm as XcmpQueue would do // execute xcm as XcmpQueue would do
let outcome = XcmExecutor::<XcmConfig>::execute_xcm( let outcome = XcmExecutor::<XcmConfig>::prepare_and_execute(
local_bridge_hub_location, local_bridge_hub_location,
xcm, xcm,
hash, &mut hash,
RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::xcm_max_weight( RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::xcm_max_weight(
XcmReceivedFrom::Sibling, XcmReceivedFrom::Sibling,
), ),
Weight::zero(),
); );
assert_ok!(outcome.ensure_complete()); assert_ok!(outcome.ensure_complete());
@@ -545,20 +554,20 @@ pub fn receive_reserve_asset_deposited_from_different_consensus_works<
// ForeignAssets balances after // ForeignAssets balances after
assert!( assert!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&target_account &target_account
) > 0.into() ) > 0.into()
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&staking_pot &staking_pot
), ),
0.into() 0.into()
); );
assert_eq!( assert_eq!(
<pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance( <pallet_assets::Pallet<Runtime, ForeignAssetsPalletInstance>>::balance(
foreign_asset_id_multilocation.into(), foreign_asset_id_location.into(),
&block_author_account &block_author_account
), ),
0.into() 0.into()
@@ -614,14 +623,15 @@ pub fn report_bridge_status_from_xcm_bridge_router_works<
// Call received XCM execution // Call received XCM execution
let xcm = if is_congested { congested_message() } else { uncongested_message() }; let xcm = if is_congested { congested_message() } else { uncongested_message() };
let hash = xcm.using_encoded(sp_io::hashing::blake2_256); let mut hash = xcm.using_encoded(sp_io::hashing::blake2_256);
// execute xcm as XcmpQueue would do // execute xcm as XcmpQueue would do
let outcome = XcmExecutor::<XcmConfig>::execute_xcm( let outcome = XcmExecutor::<XcmConfig>::prepare_and_execute(
local_bridge_hub_location, local_bridge_hub_location,
xcm, xcm,
hash, &mut hash,
RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::xcm_max_weight(XcmReceivedFrom::Sibling), RuntimeHelper::<Runtime, AllPalletsWithoutSystem>::xcm_max_weight(XcmReceivedFrom::Sibling),
Weight::zero(),
); );
assert_ok!(outcome.ensure_complete()); assert_ok!(outcome.ensure_complete());
assert_eq!(is_congested, pallet_xcm_bridge_hub_router::Pallet::<Runtime, XcmBridgeHubRouterInstance>::bridge().is_congested); assert_eq!(is_congested, pallet_xcm_bridge_hub_router::Pallet::<Runtime, XcmBridgeHubRouterInstance>::bridge().is_congested);
cumulus/parachains/runtimes/assets/test-utils/src/xcm_helpers.rs
+16 -12
View File
@@ -23,11 +23,11 @@ use xcm::latest::prelude::*;
/// Because it returns only a `u128`, it assumes delivery fees are only paid /// Because it returns only a `u128`, it assumes delivery fees are only paid
/// in one asset and that asset is known. /// in one asset and that asset is known.
pub fn transfer_assets_delivery_fees<S: SendXcm>( pub fn transfer_assets_delivery_fees<S: SendXcm>(
assets: MultiAssets, assets: Assets,
fee_asset_item: u32, fee_asset_item: u32,
weight_limit: WeightLimit, weight_limit: WeightLimit,
beneficiary: MultiLocation, beneficiary: Location,
destination: MultiLocation, destination: Location,
) -> u128 { ) -> u128 {
let message = teleport_assets_dummy_message(assets, fee_asset_item, weight_limit, beneficiary); let message = teleport_assets_dummy_message(assets, fee_asset_item, weight_limit, beneficiary);
get_fungible_delivery_fees::<S>(destination, message) get_fungible_delivery_fees::<S>(destination, message)
@@ -35,7 +35,7 @@ pub fn transfer_assets_delivery_fees<S: SendXcm>(
/// Returns the delivery fees amount for a query response as a result of the execution /// Returns the delivery fees amount for a query response as a result of the execution
/// of a `ExpectError` instruction with no error. /// of a `ExpectError` instruction with no error.
pub fn query_response_delivery_fees<S: SendXcm>(querier: MultiLocation) -> u128 { pub fn query_response_delivery_fees<S: SendXcm>(querier: Location) -> u128 {
// Message to calculate delivery fees, it's encoded size is what's important. // Message to calculate delivery fees, it's encoded size is what's important.
// This message reports that there was no error, if an error is reported, the encoded size would // This message reports that there was no error, if an error is reported, the encoded size would
// be different. // be different.
@@ -45,7 +45,7 @@ pub fn query_response_delivery_fees<S: SendXcm>(querier: MultiLocation) -> u128
query_id: 0, // Dummy query id query_id: 0, // Dummy query id
response: Response::ExecutionResult(None), response: Response::ExecutionResult(None),
max_weight: Weight::zero(), max_weight: Weight::zero(),
querier: Some(querier), querier: Some(querier.clone()),
}, },
SetTopic([0u8; 32]), // Dummy topic SetTopic([0u8; 32]), // Dummy topic
]); ]);
@@ -55,9 +55,9 @@ pub fn query_response_delivery_fees<S: SendXcm>(querier: MultiLocation) -> u128
/// Returns the delivery fees amount for the execution of `PayOverXcm` /// Returns the delivery fees amount for the execution of `PayOverXcm`
pub fn pay_over_xcm_delivery_fees<S: SendXcm>( pub fn pay_over_xcm_delivery_fees<S: SendXcm>(
interior: Junctions, interior: Junctions,
destination: MultiLocation, destination: Location,
beneficiary: MultiLocation, beneficiary: Location,
asset: MultiAsset, asset: Asset,
) -> u128 { ) -> u128 {
// This is a dummy message. // This is a dummy message.
// The encoded size is all that matters for delivery fees. // The encoded size is all that matters for delivery fees.
@@ -66,7 +66,11 @@ pub fn pay_over_xcm_delivery_fees<S: SendXcm>(
UnpaidExecution { weight_limit: Unlimited, check_origin: None }, UnpaidExecution { weight_limit: Unlimited, check_origin: None },
SetAppendix(Xcm(vec![ SetAppendix(Xcm(vec![
SetFeesMode { jit_withdraw: true }, SetFeesMode { jit_withdraw: true },
ReportError(QueryResponseInfo { destination, query_id: 0, max_weight: Weight::zero() }), ReportError(QueryResponseInfo {
destination: destination.clone(),
query_id: 0,
max_weight: Weight::zero(),
}),
])), ])),
TransferAsset { beneficiary, assets: vec![asset].into() }, TransferAsset { beneficiary, assets: vec![asset].into() },
]); ]);
@@ -78,10 +82,10 @@ pub fn pay_over_xcm_delivery_fees<S: SendXcm>(
/// However, it should have the same encoded size, which is what matters for delivery fees. /// However, it should have the same encoded size, which is what matters for delivery fees.
/// Also has same encoded size as the one created by the reserve transfer assets extrinsic. /// Also has same encoded size as the one created by the reserve transfer assets extrinsic.
fn teleport_assets_dummy_message( fn teleport_assets_dummy_message(
assets: MultiAssets, assets: Assets,
fee_asset_item: u32, fee_asset_item: u32,
weight_limit: WeightLimit, weight_limit: WeightLimit,
beneficiary: MultiLocation, beneficiary: Location,
) -> Xcm<()> { ) -> Xcm<()> {
Xcm(vec![ Xcm(vec![
ReceiveTeleportedAsset(assets.clone()), // Same encoded size as `ReserveAssetDeposited` ReceiveTeleportedAsset(assets.clone()), // Same encoded size as `ReserveAssetDeposited`
@@ -93,7 +97,7 @@ fn teleport_assets_dummy_message(
} }
/// Given a message, a sender, and a destination, it returns the delivery fees /// Given a message, a sender, and a destination, it returns the delivery fees
fn get_fungible_delivery_fees<S: SendXcm>(destination: MultiLocation, message: Xcm<()>) -> u128 { fn get_fungible_delivery_fees<S: SendXcm>(destination: Location, message: Xcm<()>) -> u128 {
let Ok((_, delivery_fees)) = validate_send::<S>(destination, message) else { let Ok((_, delivery_fees)) = validate_send::<S>(destination, message) else {
unreachable!("message can be sent; qed") unreachable!("message can be sent; qed")
}; };
cumulus/parachains/runtimes/bridge-hubs/bridge-hub-rococo/src/bridge_to_bulletin_config.rs
+15 -15
View File
@@ -48,7 +48,7 @@ use frame_support::{parameter_types, traits::PalletInfoAccess};
use sp_runtime::RuntimeDebug; use sp_runtime::RuntimeDebug;
use xcm::{ use xcm::{
latest::prelude::*, latest::prelude::*,
prelude::{InteriorMultiLocation, NetworkId}, prelude::{InteriorLocation, NetworkId},
}; };
use xcm_builder::BridgeBlobDispatcher; use xcm_builder::BridgeBlobDispatcher;
@@ -65,16 +65,16 @@ parameter_types! {
/// Bridge specific chain (network) identifier of the Rococo Bulletin Chain. /// Bridge specific chain (network) identifier of the Rococo Bulletin Chain.
pub const RococoBulletinChainId: bp_runtime::ChainId = bp_runtime::POLKADOT_BULLETIN_CHAIN_ID; pub const RococoBulletinChainId: bp_runtime::ChainId = bp_runtime::POLKADOT_BULLETIN_CHAIN_ID;
/// Interior location (relative to this runtime) of the with-RococoBulletin messages pallet. /// Interior location (relative to this runtime) of the with-RococoBulletin messages pallet.
pub BridgeRococoToRococoBulletinMessagesPalletInstance: InteriorMultiLocation = X1( pub BridgeRococoToRococoBulletinMessagesPalletInstance: InteriorLocation = [
PalletInstance(<BridgeRococoBulletinMessages as PalletInfoAccess>::index() as u8) PalletInstance(<BridgeRococoBulletinMessages as PalletInfoAccess>::index() as u8)
); ].into();
/// Rococo Bulletin Network identifier. /// Rococo Bulletin Network identifier.
pub RococoBulletinGlobalConsensusNetwork: NetworkId = NetworkId::PolkadotBulletin; pub RococoBulletinGlobalConsensusNetwork: NetworkId = NetworkId::PolkadotBulletin;
/// Relative location of the Rococo Bulletin chain. /// Relative location of the Rococo Bulletin chain.
pub RococoBulletinGlobalConsensusNetworkLocation: MultiLocation = MultiLocation { pub RococoBulletinGlobalConsensusNetworkLocation: Location = Location::new(
parents: 2, 2,
interior: X1(GlobalConsensus(RococoBulletinGlobalConsensusNetwork::get())) [GlobalConsensus(RococoBulletinGlobalConsensusNetwork::get())]
}; );
/// All active lanes that the current bridge supports. /// All active lanes that the current bridge supports.
pub ActiveOutboundLanesToRococoBulletin: &'static [bp_messages::LaneId] pub ActiveOutboundLanesToRococoBulletin: &'static [bp_messages::LaneId]
= &[XCM_LANE_FOR_ROCOCO_PEOPLE_TO_ROCOCO_BULLETIN]; = &[XCM_LANE_FOR_ROCOCO_PEOPLE_TO_ROCOCO_BULLETIN];
@@ -94,11 +94,11 @@ parameter_types! {
/// A route (XCM location and bridge lane) that the Rococo People Chain -> Rococo Bulletin Chain /// A route (XCM location and bridge lane) that the Rococo People Chain -> Rococo Bulletin Chain
/// message is following. /// message is following.
pub FromRococoPeopleToRococoBulletinRoute: SenderAndLane = SenderAndLane::new( pub FromRococoPeopleToRococoBulletinRoute: SenderAndLane = SenderAndLane::new(
ParentThen(X1(Parachain(RococoPeopleParaId::get().into()))).into(), ParentThen(Parachain(RococoPeopleParaId::get().into()).into()).into(),
XCM_LANE_FOR_ROCOCO_PEOPLE_TO_ROCOCO_BULLETIN, XCM_LANE_FOR_ROCOCO_PEOPLE_TO_ROCOCO_BULLETIN,
); );
/// All active routes and their destinations. /// All active routes and their destinations.
pub ActiveLanes: sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorMultiLocation))> = sp_std::vec![ pub ActiveLanes: sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorLocation))> = sp_std::vec![
( (
FromRococoPeopleToRococoBulletinRoute::get(), FromRococoPeopleToRococoBulletinRoute::get(),
(RococoBulletinGlobalConsensusNetwork::get(), Here) (RococoBulletinGlobalConsensusNetwork::get(), Here)
@@ -282,11 +282,11 @@ mod tests {
PriorityBoostPerMessage, PriorityBoostPerMessage,
>(FEE_BOOST_PER_MESSAGE); >(FEE_BOOST_PER_MESSAGE);
assert_eq!( let expected: InteriorLocation = PalletInstance(
BridgeRococoToRococoBulletinMessagesPalletInstance::get(), bp_bridge_hub_rococo::WITH_BRIDGE_ROCOCO_TO_BULLETIN_MESSAGES_PALLET_INDEX,
X1(PalletInstance( )
bp_bridge_hub_rococo::WITH_BRIDGE_ROCOCO_TO_BULLETIN_MESSAGES_PALLET_INDEX .into();
))
); assert_eq!(BridgeRococoToRococoBulletinMessagesPalletInstance::get(), expected,);
} }
} }
cumulus/parachains/runtimes/bridge-hubs/bridge-hub-rococo/src/bridge_to_westend_config.rs
+20 -20
View File
@@ -48,7 +48,7 @@ use frame_support::{parameter_types, traits::PalletInfoAccess};
use sp_runtime::RuntimeDebug; use sp_runtime::RuntimeDebug;
use xcm::{ use xcm::{
latest::prelude::*, latest::prelude::*,
prelude::{InteriorMultiLocation, NetworkId}, prelude::{InteriorLocation, NetworkId},
}; };
use xcm_builder::BridgeBlobDispatcher; use xcm_builder::BridgeBlobDispatcher;
@@ -58,12 +58,12 @@ parameter_types! {
pub const MaxUnconfirmedMessagesAtInboundLane: bp_messages::MessageNonce = pub const MaxUnconfirmedMessagesAtInboundLane: bp_messages::MessageNonce =
bp_bridge_hub_rococo::MAX_UNCONFIRMED_MESSAGES_IN_CONFIRMATION_TX; bp_bridge_hub_rococo::MAX_UNCONFIRMED_MESSAGES_IN_CONFIRMATION_TX;
pub const BridgeHubWestendChainId: bp_runtime::ChainId = bp_runtime::BRIDGE_HUB_WESTEND_CHAIN_ID; pub const BridgeHubWestendChainId: bp_runtime::ChainId = bp_runtime::BRIDGE_HUB_WESTEND_CHAIN_ID;
pub BridgeRococoToWestendMessagesPalletInstance: InteriorMultiLocation = X1(PalletInstance(<BridgeWestendMessages as PalletInfoAccess>::index() as u8)); pub BridgeRococoToWestendMessagesPalletInstance: InteriorLocation = [PalletInstance(<BridgeWestendMessages as PalletInfoAccess>::index() as u8)].into();
pub WestendGlobalConsensusNetwork: NetworkId = NetworkId::Westend; pub WestendGlobalConsensusNetwork: NetworkId = NetworkId::Westend;
pub WestendGlobalConsensusNetworkLocation: MultiLocation = MultiLocation { pub WestendGlobalConsensusNetworkLocation: Location = Location::new(
parents: 2, 2,
interior: X1(GlobalConsensus(WestendGlobalConsensusNetwork::get())) [GlobalConsensus(WestendGlobalConsensusNetwork::get())]
}; );
// see the `FEE_BOOST_PER_MESSAGE` constant to get the meaning of this value // see the `FEE_BOOST_PER_MESSAGE` constant to get the meaning of this value
pub PriorityBoostPerMessage: u64 = 182_044_444_444_444; pub PriorityBoostPerMessage: u64 = 182_044_444_444_444;
@@ -74,26 +74,26 @@ parameter_types! {
pub ActiveOutboundLanesToBridgeHubWestend: &'static [bp_messages::LaneId] = &[XCM_LANE_FOR_ASSET_HUB_ROCOCO_TO_ASSET_HUB_WESTEND]; pub ActiveOutboundLanesToBridgeHubWestend: &'static [bp_messages::LaneId] = &[XCM_LANE_FOR_ASSET_HUB_ROCOCO_TO_ASSET_HUB_WESTEND];
pub const AssetHubRococoToAssetHubWestendMessagesLane: bp_messages::LaneId = XCM_LANE_FOR_ASSET_HUB_ROCOCO_TO_ASSET_HUB_WESTEND; pub const AssetHubRococoToAssetHubWestendMessagesLane: bp_messages::LaneId = XCM_LANE_FOR_ASSET_HUB_ROCOCO_TO_ASSET_HUB_WESTEND;
pub FromAssetHubRococoToAssetHubWestendRoute: SenderAndLane = SenderAndLane::new( pub FromAssetHubRococoToAssetHubWestendRoute: SenderAndLane = SenderAndLane::new(
ParentThen(X1(Parachain(AssetHubRococoParaId::get().into()))).into(), ParentThen([Parachain(AssetHubRococoParaId::get().into())].into()).into(),
XCM_LANE_FOR_ASSET_HUB_ROCOCO_TO_ASSET_HUB_WESTEND, XCM_LANE_FOR_ASSET_HUB_ROCOCO_TO_ASSET_HUB_WESTEND,
); );
pub ActiveLanes: sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorMultiLocation))> = sp_std::vec![ pub ActiveLanes: sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorLocation))> = sp_std::vec![
( (
FromAssetHubRococoToAssetHubWestendRoute::get(), FromAssetHubRococoToAssetHubWestendRoute::get(),
(WestendGlobalConsensusNetwork::get(), X1(Parachain(AssetHubWestendParaId::get().into()))) (WestendGlobalConsensusNetwork::get(), [Parachain(AssetHubWestendParaId::get().into())].into())
) )
]; ];
pub CongestedMessage: Xcm<()> = build_congestion_message(true).into(); pub CongestedMessage: Xcm<()> = build_congestion_message(true).into();
pub UncongestedMessage: Xcm<()> = build_congestion_message(false).into(); pub UncongestedMessage: Xcm<()> = build_congestion_message(false).into();
pub BridgeHubWestendLocation: MultiLocation = MultiLocation { pub BridgeHubWestendLocation: Location = Location::new(
parents: 2, 2,
interior: X2( [
GlobalConsensus(WestendGlobalConsensusNetwork::get()), GlobalConsensus(WestendGlobalConsensusNetwork::get()),
Parachain(<bp_bridge_hub_westend::BridgeHubWestend as bp_runtime::Parachain>::PARACHAIN_ID) Parachain(<bp_bridge_hub_westend::BridgeHubWestend as bp_runtime::Parachain>::PARACHAIN_ID)
) ]
}; );
} }
pub const XCM_LANE_FOR_ASSET_HUB_ROCOCO_TO_ASSET_HUB_WESTEND: LaneId = LaneId([0, 0, 0, 2]); pub const XCM_LANE_FOR_ASSET_HUB_ROCOCO_TO_ASSET_HUB_WESTEND: LaneId = LaneId([0, 0, 0, 2]);
@@ -327,11 +327,11 @@ mod tests {
PriorityBoostPerMessage, PriorityBoostPerMessage,
>(FEE_BOOST_PER_MESSAGE); >(FEE_BOOST_PER_MESSAGE);
assert_eq!( let expected: InteriorLocation = [PalletInstance(
BridgeRococoToWestendMessagesPalletInstance::get(), bp_bridge_hub_rococo::WITH_BRIDGE_ROCOCO_TO_WESTEND_MESSAGES_PALLET_INDEX,
X1(PalletInstance( )]
bp_bridge_hub_rococo::WITH_BRIDGE_ROCOCO_TO_WESTEND_MESSAGES_PALLET_INDEX .into();
))
); assert_eq!(BridgeRococoToWestendMessagesPalletInstance::get(), expected,);
} }
} }
cumulus/parachains/runtimes/bridge-hubs/bridge-hub-rococo/src/lib.rs
+39 -39
View File
@@ -78,7 +78,7 @@ use bridge_hub_common::{
use pallet_xcm::EnsureXcm; use pallet_xcm::EnsureXcm;
pub use sp_consensus_aura::sr25519::AuthorityId as AuraId; pub use sp_consensus_aura::sr25519::AuthorityId as AuraId;
pub use sp_runtime::{MultiAddress, Perbill, Permill}; pub use sp_runtime::{MultiAddress, Perbill, Permill};
use xcm::VersionedMultiLocation; use xcm::VersionedLocation;
use xcm_config::{TreasuryAccount, XcmOriginToTransactDispatchOrigin, XcmRouter}; use xcm_config::{TreasuryAccount, XcmOriginToTransactDispatchOrigin, XcmRouter};
#[cfg(any(feature = "std", test))] #[cfg(any(feature = "std", test))]
@@ -385,7 +385,7 @@ impl cumulus_pallet_aura_ext::Config for Runtime {}
parameter_types! { parameter_types! {
/// The asset ID for the asset that we use to pay for message delivery fees. /// The asset ID for the asset that we use to pay for message delivery fees.
pub FeeAssetId: AssetId = Concrete(xcm_config::TokenLocation::get()); pub FeeAssetId: AssetId = AssetId(xcm_config::TokenLocation::get());
/// The base fee for the message delivery fees. /// The base fee for the message delivery fees.
pub const BaseDeliveryFee: u128 = CENTS.saturating_mul(3); pub const BaseDeliveryFee: u128 = CENTS.saturating_mul(3);
} }
@@ -517,7 +517,7 @@ pub mod benchmark_helpers {
use snowbridge_beacon_primitives::CompactExecutionHeader; use snowbridge_beacon_primitives::CompactExecutionHeader;
use snowbridge_pallet_inbound_queue::BenchmarkHelper; use snowbridge_pallet_inbound_queue::BenchmarkHelper;
use sp_core::H256; use sp_core::H256;
use xcm::latest::{MultiAssets, MultiLocation, SendError, SendResult, SendXcm, Xcm, XcmHash}; use xcm::latest::{Assets, Location, SendError, SendResult, SendXcm, Xcm, XcmHash};
impl<T: snowbridge_pallet_ethereum_client::Config> BenchmarkHelper<T> for Runtime { impl<T: snowbridge_pallet_ethereum_client::Config> BenchmarkHelper<T> for Runtime {
fn initialize_storage(block_hash: H256, header: CompactExecutionHeader) { fn initialize_storage(block_hash: H256, header: CompactExecutionHeader) {
@@ -530,10 +530,10 @@ pub mod benchmark_helpers {
type Ticket = Xcm<()>; type Ticket = Xcm<()>;
fn validate( fn validate(
_dest: &mut Option<MultiLocation>, _dest: &mut Option<Location>,
xcm: &mut Option<Xcm<()>>, xcm: &mut Option<Xcm<()>>,
) -> SendResult<Self::Ticket> { ) -> SendResult<Self::Ticket> {
Ok((xcm.clone().unwrap(), MultiAssets::new())) Ok((xcm.clone().unwrap(), Assets::new()))
} }
fn deliver(xcm: Xcm<()>) -> Result<XcmHash, SendError> { fn deliver(xcm: Xcm<()>) -> Result<XcmHash, SendError> {
let hash = xcm.using_encoded(sp_io::hashing::blake2_256); let hash = xcm.using_encoded(sp_io::hashing::blake2_256);
@@ -542,7 +542,7 @@ pub mod benchmark_helpers {
} }
impl snowbridge_pallet_system::BenchmarkHelper<RuntimeOrigin> for () { impl snowbridge_pallet_system::BenchmarkHelper<RuntimeOrigin> for () {
fn make_xcm_origin(location: MultiLocation) -> RuntimeOrigin { fn make_xcm_origin(location: Location) -> RuntimeOrigin {
RuntimeOrigin::from(pallet_xcm::Origin::Xcm(location)) RuntimeOrigin::from(pallet_xcm::Origin::Xcm(location))
} }
} }
@@ -1016,7 +1016,7 @@ impl_runtime_apis! {
} }
impl snowbridge_system_runtime_api::ControlApi<Block> for Runtime { impl snowbridge_system_runtime_api::ControlApi<Block> for Runtime {
fn agent_id(location: VersionedMultiLocation) -> Option<AgentId> { fn agent_id(location: VersionedLocation) -> Option<AgentId> {
snowbridge_pallet_system::api::agent_id::<Runtime>(location) snowbridge_pallet_system::api::agent_id::<Runtime>(location)
} }
} }
@@ -1095,28 +1095,28 @@ impl_runtime_apis! {
use pallet_xcm::benchmarking::Pallet as PalletXcmExtrinsicsBenchmark; use pallet_xcm::benchmarking::Pallet as PalletXcmExtrinsicsBenchmark;
impl pallet_xcm::benchmarking::Config for Runtime { impl pallet_xcm::benchmarking::Config for Runtime {
fn reachable_dest() -> Option<MultiLocation> { fn reachable_dest() -> Option<Location> {
Some(Parent.into()) Some(Parent.into())
} }
fn teleportable_asset_and_dest() -> Option<(MultiAsset, MultiLocation)> { fn teleportable_asset_and_dest() -> Option<(Asset, Location)> {
// Relay/native token can be teleported between BH and Relay. // Relay/native token can be teleported between BH and Relay.
Some(( Some((
MultiAsset { Asset {
fun: Fungible(EXISTENTIAL_DEPOSIT), fun: Fungible(EXISTENTIAL_DEPOSIT),
id: Concrete(Parent.into()) id: AssetId(Parent.into())
}, },
Parent.into(), Parent.into(),
)) ))
} }
fn reserve_transferable_asset_and_dest() -> Option<(MultiAsset, MultiLocation)> { fn reserve_transferable_asset_and_dest() -> Option<(Asset, Location)> {
// Reserve transfers are disabled on BH. // Reserve transfers are disabled on BH.
None None
} }
fn set_up_complex_asset_transfer( fn set_up_complex_asset_transfer(
) -> Option<(MultiAssets, u32, MultiLocation, Box<dyn FnOnce()>)> { ) -> Option<(Assets, u32, Location, Box<dyn FnOnce()>)> {
// BH only supports teleports to system parachain. // BH only supports teleports to system parachain.
// Relay/native token can be teleported between BH and Relay. // Relay/native token can be teleported between BH and Relay.
let native_location = Parent.into(); let native_location = Parent.into();
@@ -1132,7 +1132,7 @@ impl_runtime_apis! {
use xcm_config::TokenLocation; use xcm_config::TokenLocation;
parameter_types! { parameter_types! {
pub ExistentialDepositMultiAsset: Option<MultiAsset> = Some(( pub ExistentialDepositAsset: Option<Asset> = Some((
TokenLocation::get(), TokenLocation::get(),
ExistentialDeposit::get() ExistentialDeposit::get()
).into()); ).into());
@@ -1143,17 +1143,17 @@ impl_runtime_apis! {
type AccountIdConverter = xcm_config::LocationToAccountId; type AccountIdConverter = xcm_config::LocationToAccountId;
type DeliveryHelper = cumulus_primitives_utility::ToParentDeliveryHelper< type DeliveryHelper = cumulus_primitives_utility::ToParentDeliveryHelper<
xcm_config::XcmConfig, xcm_config::XcmConfig,
ExistentialDepositMultiAsset, ExistentialDepositAsset,
xcm_config::PriceForParentDelivery, xcm_config::PriceForParentDelivery,
>; >;
fn valid_destination() -> Result<MultiLocation, BenchmarkError> { fn valid_destination() -> Result<Location, BenchmarkError> {
Ok(TokenLocation::get()) Ok(TokenLocation::get())
} }
fn worst_case_holding(_depositable_count: u32) -> MultiAssets { fn worst_case_holding(_depositable_count: u32) -> Assets {
// just concrete assets according to relay chain. // just concrete assets according to relay chain.
let assets: Vec<MultiAsset> = vec![ let assets: Vec<Asset> = vec![
MultiAsset { Asset {
id: Concrete(TokenLocation::get()), id: AssetId(TokenLocation::get()),
fun: Fungible(1_000_000 * UNITS), fun: Fungible(1_000_000 * UNITS),
} }
]; ];
@@ -1162,12 +1162,12 @@ impl_runtime_apis! {
} }
parameter_types! { parameter_types! {
pub const TrustedTeleporter: Option<(MultiLocation, MultiAsset)> = Some(( pub const TrustedTeleporter: Option<(Location, Asset)> = Some((
TokenLocation::get(), TokenLocation::get(),
MultiAsset { fun: Fungible(UNITS), id: Concrete(TokenLocation::get()) }, Asset { fun: Fungible(UNITS), id: AssetId(TokenLocation::get()) },
)); ));
pub const CheckedAccount: Option<(AccountId, xcm_builder::MintLocation)> = None; pub const CheckedAccount: Option<(AccountId, xcm_builder::MintLocation)> = None;
pub const TrustedReserve: Option<(MultiLocation, MultiAsset)> = None; pub const TrustedReserve: Option<(Location, Asset)> = None;
} }
impl pallet_xcm_benchmarks::fungible::Config for Runtime { impl pallet_xcm_benchmarks::fungible::Config for Runtime {
@@ -1177,9 +1177,9 @@ impl_runtime_apis! {
type TrustedTeleporter = TrustedTeleporter; type TrustedTeleporter = TrustedTeleporter;
type TrustedReserve = TrustedReserve; type TrustedReserve = TrustedReserve;
fn get_multi_asset() -> MultiAsset { fn get_asset() -> Asset {
MultiAsset { Asset {
id: Concrete(TokenLocation::get()), id: AssetId(TokenLocation::get()),
fun: Fungible(UNITS), fun: Fungible(UNITS),
} }
} }
@@ -1193,35 +1193,35 @@ impl_runtime_apis! {
(0u64, Response::Version(Default::default())) (0u64, Response::Version(Default::default()))
} }
fn worst_case_asset_exchange() -> Result<(MultiAssets, MultiAssets), BenchmarkError> { fn worst_case_asset_exchange() -> Result<(Assets, Assets), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
fn universal_alias() -> Result<(MultiLocation, Junction), BenchmarkError> { fn universal_alias() -> Result<(Location, Junction), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
fn transact_origin_and_runtime_call() -> Result<(MultiLocation, RuntimeCall), BenchmarkError> { fn transact_origin_and_runtime_call() -> Result<(Location, RuntimeCall), BenchmarkError> {
Ok((TokenLocation::get(), frame_system::Call::remark_with_event { remark: vec![] }.into())) Ok((TokenLocation::get(), frame_system::Call::remark_with_event { remark: vec![] }.into()))
} }
fn subscribe_origin() -> Result<MultiLocation, BenchmarkError> { fn subscribe_origin() -> Result<Location, BenchmarkError> {
Ok(TokenLocation::get()) Ok(TokenLocation::get())
} }
fn claimable_asset() -> Result<(MultiLocation, MultiLocation, MultiAssets), BenchmarkError> { fn claimable_asset() -> Result<(Location, Location, Assets), BenchmarkError> {
let origin = TokenLocation::get(); let origin = TokenLocation::get();
let assets: MultiAssets = (Concrete(TokenLocation::get()), 1_000 * UNITS).into(); let assets: Assets = (AssetId(TokenLocation::get()), 1_000 * UNITS).into();
let ticket = MultiLocation { parents: 0, interior: Here }; let ticket = Location { parents: 0, interior: Here };
Ok((origin, ticket, assets)) Ok((origin, ticket, assets))
} }
fn unlockable_asset() -> Result<(MultiLocation, MultiLocation, MultiAsset), BenchmarkError> { fn unlockable_asset() -> Result<(Location, Location, Asset), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
fn export_message_origin_and_destination( fn export_message_origin_and_destination(
) -> Result<(MultiLocation, NetworkId, InteriorMultiLocation), BenchmarkError> { ) -> Result<(Location, NetworkId, InteriorLocation), BenchmarkError> {
// save XCM version for remote bridge hub // save XCM version for remote bridge hub
let _ = PolkadotXcm::force_xcm_version( let _ = PolkadotXcm::force_xcm_version(
RuntimeOrigin::root(), RuntimeOrigin::root(),
@@ -1241,12 +1241,12 @@ impl_runtime_apis! {
( (
bridge_to_westend_config::FromAssetHubRococoToAssetHubWestendRoute::get().location, bridge_to_westend_config::FromAssetHubRococoToAssetHubWestendRoute::get().location,
NetworkId::Westend, NetworkId::Westend,
X1(Parachain(bridge_to_westend_config::AssetHubWestendParaId::get().into())) [Parachain(bridge_to_westend_config::AssetHubWestendParaId::get().into())].into()
) )
) )
} }
fn alias_origin() -> Result<(MultiLocation, MultiLocation), BenchmarkError> { fn alias_origin() -> Result<(Location, Location), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
} }
@@ -1296,7 +1296,7 @@ impl_runtime_apis! {
Runtime, Runtime,
bridge_common_config::BridgeGrandpaWestendInstance, bridge_common_config::BridgeGrandpaWestendInstance,
bridge_to_westend_config::WithBridgeHubWestendMessageBridge, bridge_to_westend_config::WithBridgeHubWestendMessageBridge,
>(params, generate_xcm_builder_bridge_message_sample(X2(GlobalConsensus(Rococo), Parachain(42)))) >(params, generate_xcm_builder_bridge_message_sample([GlobalConsensus(Rococo), Parachain(42)].into()))
} }
fn prepare_message_delivery_proof( fn prepare_message_delivery_proof(
@@ -1331,7 +1331,7 @@ impl_runtime_apis! {
Runtime, Runtime,
bridge_common_config::BridgeGrandpaRococoBulletinInstance, bridge_common_config::BridgeGrandpaRococoBulletinInstance,
bridge_to_bulletin_config::WithRococoBulletinMessageBridge, bridge_to_bulletin_config::WithRococoBulletinMessageBridge,
>(params, generate_xcm_builder_bridge_message_sample(X2(GlobalConsensus(Rococo), Parachain(42)))) >(params, generate_xcm_builder_bridge_message_sample([GlobalConsensus(Rococo), Parachain(42)].into()))
} }
fn prepare_message_delivery_proof( fn prepare_message_delivery_proof(
cumulus/parachains/runtimes/bridge-hubs/bridge-hub-rococo/src/weights/xcm/mod.rs
+42 -54
View File
@@ -24,14 +24,14 @@ use pallet_xcm_benchmarks_generic::WeightInfo as XcmGeneric;
use sp_std::prelude::*; use sp_std::prelude::*;
use xcm::{latest::prelude::*, DoubleEncoded}; use xcm::{latest::prelude::*, DoubleEncoded};
trait WeighMultiAssets { trait WeighAssets {
fn weigh_multi_assets(&self, weight: Weight) -> Weight; fn weigh_assets(&self, weight: Weight) -> Weight;
} }
const MAX_ASSETS: u64 = 100; const MAX_ASSETS: u64 = 100;
impl WeighMultiAssets for MultiAssetFilter { impl WeighAssets for AssetFilter {
fn weigh_multi_assets(&self, weight: Weight) -> Weight { fn weigh_assets(&self, weight: Weight) -> Weight {
match self { match self {
Self::Definite(assets) => weight.saturating_mul(assets.inner().iter().count() as u64), Self::Definite(assets) => weight.saturating_mul(assets.inner().iter().count() as u64),
Self::Wild(asset) => match asset { Self::Wild(asset) => match asset {
@@ -50,40 +50,36 @@ impl WeighMultiAssets for MultiAssetFilter {
} }
} }
impl WeighMultiAssets for MultiAssets { impl WeighAssets for Assets {
fn weigh_multi_assets(&self, weight: Weight) -> Weight { fn weigh_assets(&self, weight: Weight) -> Weight {
weight.saturating_mul(self.inner().iter().count() as u64) weight.saturating_mul(self.inner().iter().count() as u64)
} }
} }
pub struct BridgeHubRococoXcmWeight<Call>(core::marker::PhantomData<Call>); pub struct BridgeHubRococoXcmWeight<Call>(core::marker::PhantomData<Call>);
impl<Call> XcmWeightInfo<Call> for BridgeHubRococoXcmWeight<Call> { impl<Call> XcmWeightInfo<Call> for BridgeHubRococoXcmWeight<Call> {
fn withdraw_asset(assets: &MultiAssets) -> Weight { fn withdraw_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::withdraw_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::withdraw_asset())
} }
fn reserve_asset_deposited(assets: &MultiAssets) -> Weight { fn reserve_asset_deposited(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::reserve_asset_deposited()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::reserve_asset_deposited())
} }
fn receive_teleported_asset(assets: &MultiAssets) -> Weight { fn receive_teleported_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::receive_teleported_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::receive_teleported_asset())
} }
fn query_response( fn query_response(
_query_id: &u64, _query_id: &u64,
_response: &Response, _response: &Response,
_max_weight: &Weight, _max_weight: &Weight,
_querier: &Option<MultiLocation>, _querier: &Option<Location>,
) -> Weight { ) -> Weight {
XcmGeneric::<Runtime>::query_response() XcmGeneric::<Runtime>::query_response()
} }
fn transfer_asset(assets: &MultiAssets, _dest: &MultiLocation) -> Weight { fn transfer_asset(assets: &Assets, _dest: &Location) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::transfer_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::transfer_asset())
} }
fn transfer_reserve_asset( fn transfer_reserve_asset(assets: &Assets, _dest: &Location, _xcm: &Xcm<()>) -> Weight {
assets: &MultiAssets, assets.weigh_assets(XcmFungibleWeight::<Runtime>::transfer_reserve_asset())
_dest: &MultiLocation,
_xcm: &Xcm<()>,
) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::transfer_reserve_asset())
} }
fn transact( fn transact(
_origin_type: &OriginKind, _origin_type: &OriginKind,
@@ -111,44 +107,36 @@ impl<Call> XcmWeightInfo<Call> for BridgeHubRococoXcmWeight<Call> {
fn clear_origin() -> Weight { fn clear_origin() -> Weight {
XcmGeneric::<Runtime>::clear_origin() XcmGeneric::<Runtime>::clear_origin()
} }
fn descend_origin(_who: &InteriorMultiLocation) -> Weight { fn descend_origin(_who: &InteriorLocation) -> Weight {
XcmGeneric::<Runtime>::descend_origin() XcmGeneric::<Runtime>::descend_origin()
} }
fn report_error(_query_response_info: &QueryResponseInfo) -> Weight { fn report_error(_query_response_info: &QueryResponseInfo) -> Weight {
XcmGeneric::<Runtime>::report_error() XcmGeneric::<Runtime>::report_error()
} }
fn deposit_asset(assets: &MultiAssetFilter, _dest: &MultiLocation) -> Weight { fn deposit_asset(assets: &AssetFilter, _dest: &Location) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::deposit_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::deposit_asset())
} }
fn deposit_reserve_asset( fn deposit_reserve_asset(assets: &AssetFilter, _dest: &Location, _xcm: &Xcm<()>) -> Weight {
assets: &MultiAssetFilter, assets.weigh_assets(XcmFungibleWeight::<Runtime>::deposit_reserve_asset())
_dest: &MultiLocation,
_xcm: &Xcm<()>,
) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::deposit_reserve_asset())
} }
fn exchange_asset(_give: &MultiAssetFilter, _receive: &MultiAssets, _maximal: &bool) -> Weight { fn exchange_asset(_give: &AssetFilter, _receive: &Assets, _maximal: &bool) -> Weight {
Weight::MAX Weight::MAX
} }
fn initiate_reserve_withdraw( fn initiate_reserve_withdraw(
assets: &MultiAssetFilter, assets: &AssetFilter,
_reserve: &MultiLocation, _reserve: &Location,
_xcm: &Xcm<()>, _xcm: &Xcm<()>,
) -> Weight { ) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::initiate_reserve_withdraw()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::initiate_reserve_withdraw())
} }
fn initiate_teleport( fn initiate_teleport(assets: &AssetFilter, _dest: &Location, _xcm: &Xcm<()>) -> Weight {
assets: &MultiAssetFilter, assets.weigh_assets(XcmFungibleWeight::<Runtime>::initiate_teleport())
_dest: &MultiLocation,
_xcm: &Xcm<()>,
) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::initiate_teleport())
} }
fn report_holding(_response_info: &QueryResponseInfo, _assets: &MultiAssetFilter) -> Weight { fn report_holding(_response_info: &QueryResponseInfo, _assets: &AssetFilter) -> Weight {
XcmGeneric::<Runtime>::report_holding() XcmGeneric::<Runtime>::report_holding()
} }
fn buy_execution(_fees: &MultiAsset, _weight_limit: &WeightLimit) -> Weight { fn buy_execution(_fees: &Asset, _weight_limit: &WeightLimit) -> Weight {
XcmGeneric::<Runtime>::buy_execution() XcmGeneric::<Runtime>::buy_execution()
} }
fn refund_surplus() -> Weight { fn refund_surplus() -> Weight {
@@ -163,7 +151,7 @@ impl<Call> XcmWeightInfo<Call> for BridgeHubRococoXcmWeight<Call> {
fn clear_error() -> Weight { fn clear_error() -> Weight {
XcmGeneric::<Runtime>::clear_error() XcmGeneric::<Runtime>::clear_error()
} }
fn claim_asset(_assets: &MultiAssets, _ticket: &MultiLocation) -> Weight { fn claim_asset(_assets: &Assets, _ticket: &Location) -> Weight {
XcmGeneric::<Runtime>::claim_asset() XcmGeneric::<Runtime>::claim_asset()
} }
fn trap(_code: &u64) -> Weight { fn trap(_code: &u64) -> Weight {
@@ -175,13 +163,13 @@ impl<Call> XcmWeightInfo<Call> for BridgeHubRococoXcmWeight<Call> {
fn unsubscribe_version() -> Weight { fn unsubscribe_version() -> Weight {
XcmGeneric::<Runtime>::unsubscribe_version() XcmGeneric::<Runtime>::unsubscribe_version()
} }
fn burn_asset(assets: &MultiAssets) -> Weight { fn burn_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmGeneric::<Runtime>::burn_asset()) assets.weigh_assets(XcmGeneric::<Runtime>::burn_asset())
} }
fn expect_asset(assets: &MultiAssets) -> Weight { fn expect_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmGeneric::<Runtime>::expect_asset()) assets.weigh_assets(XcmGeneric::<Runtime>::expect_asset())
} }
fn expect_origin(_origin: &Option<MultiLocation>) -> Weight { fn expect_origin(_origin: &Option<Location>) -> Weight {
XcmGeneric::<Runtime>::expect_origin() XcmGeneric::<Runtime>::expect_origin()
} }
fn expect_error(_error: &Option<(u32, XcmError)>) -> Weight { fn expect_error(_error: &Option<(u32, XcmError)>) -> Weight {
@@ -215,16 +203,16 @@ impl<Call> XcmWeightInfo<Call> for BridgeHubRococoXcmWeight<Call> {
let inner_encoded_len = inner.encode().len() as u32; let inner_encoded_len = inner.encode().len() as u32;
XcmGeneric::<Runtime>::export_message(inner_encoded_len) XcmGeneric::<Runtime>::export_message(inner_encoded_len)
} }
fn lock_asset(_: &MultiAsset, _: &MultiLocation) -> Weight { fn lock_asset(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn unlock_asset(_: &MultiAsset, _: &MultiLocation) -> Weight { fn unlock_asset(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn note_unlockable(_: &MultiAsset, _: &MultiLocation) -> Weight { fn note_unlockable(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn request_unlock(_: &MultiAsset, _: &MultiLocation) -> Weight { fn request_unlock(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn set_fees_mode(_: &bool) -> Weight { fn set_fees_mode(_: &bool) -> Weight {
@@ -236,11 +224,11 @@ impl<Call> XcmWeightInfo<Call> for BridgeHubRococoXcmWeight<Call> {
fn clear_topic() -> Weight { fn clear_topic() -> Weight {
XcmGeneric::<Runtime>::clear_topic() XcmGeneric::<Runtime>::clear_topic()
} }
fn alias_origin(_: &MultiLocation) -> Weight { fn alias_origin(_: &Location) -> Weight {
// XCM Executor does not currently support alias origin operations // XCM Executor does not currently support alias origin operations
Weight::MAX Weight::MAX
} }
fn unpaid_execution(_: &WeightLimit, _: &Option<MultiLocation>) -> Weight { fn unpaid_execution(_: &WeightLimit, _: &Option<Location>) -> Weight {
XcmGeneric::<Runtime>::unpaid_execution() XcmGeneric::<Runtime>::unpaid_execution()
} }
} }
cumulus/parachains/runtimes/bridge-hubs/bridge-hub-rococo/src/xcm_config.rs
+22 -26
View File
@@ -32,7 +32,7 @@ use bp_messages::LaneId;
use bp_relayers::{PayRewardFromAccount, RewardsAccountOwner, RewardsAccountParams}; use bp_relayers::{PayRewardFromAccount, RewardsAccountOwner, RewardsAccountParams};
use bp_runtime::ChainId; use bp_runtime::ChainId;
use frame_support::{ use frame_support::{
match_types, parameter_types, parameter_types,
traits::{ConstU32, Contains, Equals, Everything, Nothing}, traits::{ConstU32, Contains, Equals, Everything, Nothing},
}; };
use frame_system::EnsureRoot; use frame_system::EnsureRoot;
@@ -69,19 +69,19 @@ use xcm_executor::{
}; };
parameter_types! { parameter_types! {
pub const TokenLocation: MultiLocation = MultiLocation::parent(); pub const TokenLocation: Location = Location::parent();
pub RelayChainOrigin: RuntimeOrigin = cumulus_pallet_xcm::Origin::Relay.into(); pub RelayChainOrigin: RuntimeOrigin = cumulus_pallet_xcm::Origin::Relay.into();
pub RelayNetwork: NetworkId = NetworkId::Rococo; pub RelayNetwork: NetworkId = NetworkId::Rococo;
pub UniversalLocation: InteriorMultiLocation = pub UniversalLocation: InteriorLocation =
X2(GlobalConsensus(RelayNetwork::get()), Parachain(ParachainInfo::parachain_id().into())); [GlobalConsensus(RelayNetwork::get()), Parachain(ParachainInfo::parachain_id().into())].into();
pub const MaxInstructions: u32 = 100; pub const MaxInstructions: u32 = 100;
pub const MaxAssetsIntoHolding: u32 = 64; pub const MaxAssetsIntoHolding: u32 = 64;
pub TreasuryAccount: AccountId = TREASURY_PALLET_ID.into_account_truncating(); pub TreasuryAccount: AccountId = TREASURY_PALLET_ID.into_account_truncating();
pub RelayTreasuryLocation: MultiLocation = (Parent, PalletInstance(rococo_runtime_constants::TREASURY_PALLET_ID)).into(); pub RelayTreasuryLocation: Location = (Parent, PalletInstance(rococo_runtime_constants::TREASURY_PALLET_ID)).into();
pub SiblingPeople: MultiLocation = (Parent, Parachain(rococo_runtime_constants::system_parachain::PEOPLE_ID)).into(); pub SiblingPeople: Location = (Parent, Parachain(rococo_runtime_constants::system_parachain::PEOPLE_ID)).into();
} }
/// Type for specifying how a `MultiLocation` can be converted into an `AccountId`. This is used /// Type for specifying how a `Location` can be converted into an `AccountId`. This is used
/// when determining ownership of accounts for asset transacting and when attempting to use XCM /// when determining ownership of accounts for asset transacting and when attempting to use XCM
/// `Transact` in order to determine the dispatch Origin. /// `Transact` in order to determine the dispatch Origin.
pub type LocationToAccountId = ( pub type LocationToAccountId = (
@@ -100,7 +100,7 @@ pub type CurrencyTransactor = CurrencyAdapter<
Balances, Balances,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
IsConcrete<TokenLocation>, IsConcrete<TokenLocation>,
// Do a simple punn to convert an AccountId32 MultiLocation into a native chain account ID: // Do a simple punn to convert an AccountId32 Location into a native chain account ID:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -132,11 +132,11 @@ pub type XcmOriginToTransactDispatchOrigin = (
XcmPassthrough<RuntimeOrigin>, XcmPassthrough<RuntimeOrigin>,
); );
match_types! { pub struct ParentOrParentsPlurality;
pub type ParentOrParentsPlurality: impl Contains<MultiLocation> = { impl Contains<Location> for ParentOrParentsPlurality {
MultiLocation { parents: 1, interior: Here } | fn contains(location: &Location) -> bool {
MultiLocation { parents: 1, interior: X1(Plurality { .. }) } matches!(location.unpack(), (1, []) | (1, [Plurality { .. }]))
}; }
} }
/// A call filter for the XCM Transact instruction. This is a temporary measure until we properly /// A call filter for the XCM Transact instruction. This is a temporary measure until we properly
@@ -331,7 +331,7 @@ impl xcm_executor::Config for XcmConfig {
pub type PriceForParentDelivery = pub type PriceForParentDelivery =
ExponentialPrice<FeeAssetId, BaseDeliveryFee, TransactionByteFee, ParachainSystem>; ExponentialPrice<FeeAssetId, BaseDeliveryFee, TransactionByteFee, ParachainSystem>;
/// Converts a local signed origin into an XCM multilocation. /// Converts a local signed origin into an XCM location.
/// Forms the basis for local origins sending/executing XCMs. /// Forms the basis for local origins sending/executing XCMs.
pub type LocalOriginToLocation = SignedToAccountId32<RuntimeOrigin, AccountId, RelayNetwork>; pub type LocalOriginToLocation = SignedToAccountId32<RuntimeOrigin, AccountId, RelayNetwork>;
@@ -407,14 +407,10 @@ impl<
BridgeLaneId, BridgeLaneId,
> >
{ {
fn handle_fee( fn handle_fee(fee: Assets, maybe_context: Option<&XcmContext>, reason: FeeReason) -> Assets {
fee: MultiAssets,
maybe_context: Option<&XcmContext>,
reason: FeeReason,
) -> MultiAssets {
if matches!(reason, FeeReason::Export { network: bridged_network, destination } if matches!(reason, FeeReason::Export { network: bridged_network, destination }
if bridged_network == DestNetwork::get() && if bridged_network == DestNetwork::get() &&
destination == X1(Parachain(DestParaId::get().into()))) destination == [Parachain(DestParaId::get().into())])
{ {
// We have 2 relayer rewards accounts: // We have 2 relayer rewards accounts:
// - the SA of the source parachain on this BH: this pays the relayers for delivering // - the SA of the source parachain on this BH: this pays the relayers for delivering
@@ -445,14 +441,14 @@ impl<
Fungible(total_fee) => { Fungible(total_fee) => {
let source_fee = total_fee / 2; let source_fee = total_fee / 2;
deposit_or_burn_fee::<AssetTransactor, _>( deposit_or_burn_fee::<AssetTransactor, _>(
MultiAsset { id: asset.id, fun: Fungible(source_fee) }.into(), Asset { id: asset.id.clone(), fun: Fungible(source_fee) }.into(),
maybe_context, maybe_context,
source_para_account.clone(), source_para_account.clone(),
); );
let dest_fee = total_fee - source_fee; let dest_fee = total_fee - source_fee;
deposit_or_burn_fee::<AssetTransactor, _>( deposit_or_burn_fee::<AssetTransactor, _>(
MultiAsset { id: asset.id, fun: Fungible(dest_fee) }.into(), Asset { id: asset.id, fun: Fungible(dest_fee) }.into(),
maybe_context, maybe_context,
dest_para_account.clone(), dest_para_account.clone(),
); );
@@ -467,7 +463,7 @@ impl<
} }
} }
return MultiAssets::new() return Assets::new()
} }
fee fee
@@ -477,10 +473,10 @@ impl<
pub struct XcmFeeManagerFromComponentsBridgeHub<WaivedLocations, HandleFee>( pub struct XcmFeeManagerFromComponentsBridgeHub<WaivedLocations, HandleFee>(
PhantomData<(WaivedLocations, HandleFee)>, PhantomData<(WaivedLocations, HandleFee)>,
); );
impl<WaivedLocations: Contains<MultiLocation>, FeeHandler: HandleFee> FeeManager impl<WaivedLocations: Contains<Location>, FeeHandler: HandleFee> FeeManager
for XcmFeeManagerFromComponentsBridgeHub<WaivedLocations, FeeHandler> for XcmFeeManagerFromComponentsBridgeHub<WaivedLocations, FeeHandler>
{ {
fn is_waived(origin: Option<&MultiLocation>, fee_reason: FeeReason) -> bool { fn is_waived(origin: Option<&Location>, fee_reason: FeeReason) -> bool {
let Some(loc) = origin else { return false }; let Some(loc) = origin else { return false };
if let Export { network, destination: Here } = fee_reason { if let Export { network, destination: Here } = fee_reason {
return !(network == EthereumNetwork::get()) return !(network == EthereumNetwork::get())
@@ -488,7 +484,7 @@ impl<WaivedLocations: Contains<MultiLocation>, FeeHandler: HandleFee> FeeManager
WaivedLocations::contains(loc) WaivedLocations::contains(loc)
} }
fn handle_fee(fee: MultiAssets, context: Option<&XcmContext>, reason: FeeReason) { fn handle_fee(fee: Assets, context: Option<&XcmContext>, reason: FeeReason) {
FeeHandler::handle_fee(fee, context, reason); FeeHandler::handle_fee(fee, context, reason);
} }
} }
cumulus/parachains/runtimes/bridge-hubs/bridge-hub-rococo/tests/tests.rs
+1 -1
View File
@@ -241,7 +241,7 @@ mod bridge_hub_westend_tests {
_ => None, _ => None,
} }
}), }),
|| ExportMessage { network: Westend, destination: X1(Parachain(bridge_to_westend_config::AssetHubWestendParaId::get().into())), xcm: Xcm(vec![]) }, || ExportMessage { network: Westend, destination: [Parachain(bridge_to_westend_config::AssetHubWestendParaId::get().into())].into(), xcm: Xcm(vec![]) },
XCM_LANE_FOR_ASSET_HUB_ROCOCO_TO_ASSET_HUB_WESTEND, XCM_LANE_FOR_ASSET_HUB_ROCOCO_TO_ASSET_HUB_WESTEND,
Some((TokenLocation::get(), ExistentialDeposit::get()).into()), Some((TokenLocation::get(), ExistentialDeposit::get()).into()),
// value should be >= than value generated by `can_calculate_weight_for_paid_export_message_with_reserve_transfer` // value should be >= than value generated by `can_calculate_weight_for_paid_export_message_with_reserve_transfer`
cumulus/parachains/runtimes/bridge-hubs/bridge-hub-westend/src/bridge_to_rococo_config.rs
+16 -16
View File
@@ -47,7 +47,7 @@ use frame_support::{
use sp_runtime::RuntimeDebug; use sp_runtime::RuntimeDebug;
use xcm::{ use xcm::{
latest::prelude::*, latest::prelude::*,
prelude::{InteriorMultiLocation, NetworkId}, prelude::{InteriorLocation, NetworkId},
}; };
use xcm_builder::BridgeBlobDispatcher; use xcm_builder::BridgeBlobDispatcher;
@@ -63,12 +63,12 @@ parameter_types! {
pub const MaxUnconfirmedMessagesAtInboundLane: bp_messages::MessageNonce = pub const MaxUnconfirmedMessagesAtInboundLane: bp_messages::MessageNonce =
bp_bridge_hub_westend::MAX_UNCONFIRMED_MESSAGES_IN_CONFIRMATION_TX; bp_bridge_hub_westend::MAX_UNCONFIRMED_MESSAGES_IN_CONFIRMATION_TX;
pub const BridgeHubRococoChainId: bp_runtime::ChainId = bp_runtime::BRIDGE_HUB_ROCOCO_CHAIN_ID; pub const BridgeHubRococoChainId: bp_runtime::ChainId = bp_runtime::BRIDGE_HUB_ROCOCO_CHAIN_ID;
pub BridgeWestendToRococoMessagesPalletInstance: InteriorMultiLocation = X1(PalletInstance(<BridgeRococoMessages as PalletInfoAccess>::index() as u8)); pub BridgeWestendToRococoMessagesPalletInstance: InteriorLocation = [PalletInstance(<BridgeRococoMessages as PalletInfoAccess>::index() as u8)].into();
pub RococoGlobalConsensusNetwork: NetworkId = NetworkId::Rococo; pub RococoGlobalConsensusNetwork: NetworkId = NetworkId::Rococo;
pub RococoGlobalConsensusNetworkLocation: MultiLocation = MultiLocation { pub RococoGlobalConsensusNetworkLocation: Location = Location::new(
parents: 2, 2,
interior: X1(GlobalConsensus(RococoGlobalConsensusNetwork::get())) [GlobalConsensus(RococoGlobalConsensusNetwork::get())]
}; );
// see the `FEE_BOOST_PER_MESSAGE` constant to get the meaning of this value // see the `FEE_BOOST_PER_MESSAGE` constant to get the meaning of this value
pub PriorityBoostPerMessage: u64 = 182_044_444_444_444; pub PriorityBoostPerMessage: u64 = 182_044_444_444_444;
@@ -79,26 +79,26 @@ parameter_types! {
pub ActiveOutboundLanesToBridgeHubRococo: &'static [bp_messages::LaneId] = &[XCM_LANE_FOR_ASSET_HUB_WESTEND_TO_ASSET_HUB_ROCOCO]; pub ActiveOutboundLanesToBridgeHubRococo: &'static [bp_messages::LaneId] = &[XCM_LANE_FOR_ASSET_HUB_WESTEND_TO_ASSET_HUB_ROCOCO];
pub const AssetHubWestendToAssetHubRococoMessagesLane: bp_messages::LaneId = XCM_LANE_FOR_ASSET_HUB_WESTEND_TO_ASSET_HUB_ROCOCO; pub const AssetHubWestendToAssetHubRococoMessagesLane: bp_messages::LaneId = XCM_LANE_FOR_ASSET_HUB_WESTEND_TO_ASSET_HUB_ROCOCO;
pub FromAssetHubWestendToAssetHubRococoRoute: SenderAndLane = SenderAndLane::new( pub FromAssetHubWestendToAssetHubRococoRoute: SenderAndLane = SenderAndLane::new(
ParentThen(X1(Parachain(AssetHubWestendParaId::get().into()))).into(), ParentThen([Parachain(AssetHubWestendParaId::get().into())].into()).into(),
XCM_LANE_FOR_ASSET_HUB_WESTEND_TO_ASSET_HUB_ROCOCO, XCM_LANE_FOR_ASSET_HUB_WESTEND_TO_ASSET_HUB_ROCOCO,
); );
pub ActiveLanes: sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorMultiLocation))> = sp_std::vec![ pub ActiveLanes: sp_std::vec::Vec<(SenderAndLane, (NetworkId, InteriorLocation))> = sp_std::vec![
( (
FromAssetHubWestendToAssetHubRococoRoute::get(), FromAssetHubWestendToAssetHubRococoRoute::get(),
(RococoGlobalConsensusNetwork::get(), X1(Parachain(AssetHubRococoParaId::get().into()))) (RococoGlobalConsensusNetwork::get(), [Parachain(AssetHubRococoParaId::get().into())].into())
) )
]; ];
pub CongestedMessage: Xcm<()> = build_congestion_message(true).into(); pub CongestedMessage: Xcm<()> = build_congestion_message(true).into();
pub UncongestedMessage: Xcm<()> = build_congestion_message(false).into(); pub UncongestedMessage: Xcm<()> = build_congestion_message(false).into();
pub BridgeHubRococoLocation: MultiLocation = MultiLocation { pub BridgeHubRococoLocation: Location = Location::new(
parents: 2, 2,
interior: X2( [
GlobalConsensus(RococoGlobalConsensusNetwork::get()), GlobalConsensus(RococoGlobalConsensusNetwork::get()),
Parachain(<bp_bridge_hub_rococo::BridgeHubRococo as bp_runtime::Parachain>::PARACHAIN_ID) Parachain(<bp_bridge_hub_rococo::BridgeHubRococo as bp_runtime::Parachain>::PARACHAIN_ID)
) ]
}; );
} }
pub const XCM_LANE_FOR_ASSET_HUB_WESTEND_TO_ASSET_HUB_ROCOCO: LaneId = LaneId([0, 0, 0, 2]); pub const XCM_LANE_FOR_ASSET_HUB_WESTEND_TO_ASSET_HUB_ROCOCO: LaneId = LaneId([0, 0, 0, 2]);
@@ -363,9 +363,9 @@ mod tests {
assert_eq!( assert_eq!(
BridgeWestendToRococoMessagesPalletInstance::get(), BridgeWestendToRococoMessagesPalletInstance::get(),
X1(PalletInstance( [PalletInstance(
bp_bridge_hub_westend::WITH_BRIDGE_WESTEND_TO_ROCOCO_MESSAGES_PALLET_INDEX bp_bridge_hub_westend::WITH_BRIDGE_WESTEND_TO_ROCOCO_MESSAGES_PALLET_INDEX
)) )]
); );
} }
} }
cumulus/parachains/runtimes/bridge-hubs/bridge-hub-westend/src/lib.rs
+33 -33
View File
@@ -352,7 +352,7 @@ impl cumulus_pallet_aura_ext::Config for Runtime {}
parameter_types! { parameter_types! {
/// The asset ID for the asset that we use to pay for message delivery fees. /// The asset ID for the asset that we use to pay for message delivery fees.
pub FeeAssetId: AssetId = Concrete(xcm_config::WestendLocation::get()); pub FeeAssetId: AssetId = AssetId(xcm_config::WestendLocation::get());
/// The base fee for the message delivery fees. /// The base fee for the message delivery fees.
pub const BaseDeliveryFee: u128 = CENTS.saturating_mul(3); pub const BaseDeliveryFee: u128 = CENTS.saturating_mul(3);
} }
@@ -797,28 +797,28 @@ impl_runtime_apis! {
use pallet_xcm::benchmarking::Pallet as PalletXcmExtrinsicsBenchmark; use pallet_xcm::benchmarking::Pallet as PalletXcmExtrinsicsBenchmark;
impl pallet_xcm::benchmarking::Config for Runtime { impl pallet_xcm::benchmarking::Config for Runtime {
fn reachable_dest() -> Option<MultiLocation> { fn reachable_dest() -> Option<Location> {
Some(Parent.into()) Some(Parent.into())
} }
fn teleportable_asset_and_dest() -> Option<(MultiAsset, MultiLocation)> { fn teleportable_asset_and_dest() -> Option<(Asset, Location)> {
// Relay/native token can be teleported between BH and Relay. // Relay/native token can be teleported between BH and Relay.
Some(( Some((
MultiAsset { Asset {
fun: Fungible(EXISTENTIAL_DEPOSIT), fun: Fungible(EXISTENTIAL_DEPOSIT),
id: Concrete(Parent.into()) id: AssetId(Parent.into())
}, },
Parent.into(), Parent.into(),
)) ))
} }
fn reserve_transferable_asset_and_dest() -> Option<(MultiAsset, MultiLocation)> { fn reserve_transferable_asset_and_dest() -> Option<(Asset, Location)> {
// Reserve transfers are disabled on BH. // Reserve transfers are disabled on BH.
None None
} }
fn set_up_complex_asset_transfer( fn set_up_complex_asset_transfer(
) -> Option<(MultiAssets, u32, MultiLocation, Box<dyn FnOnce()>)> { ) -> Option<(Assets, u32, Location, Box<dyn FnOnce()>)> {
// BH only supports teleports to system parachain. // BH only supports teleports to system parachain.
// Relay/native token can be teleported between BH and Relay. // Relay/native token can be teleported between BH and Relay.
let native_location = Parent.into(); let native_location = Parent.into();
@@ -834,7 +834,7 @@ impl_runtime_apis! {
use xcm_config::WestendLocation; use xcm_config::WestendLocation;
parameter_types! { parameter_types! {
pub ExistentialDepositMultiAsset: Option<MultiAsset> = Some(( pub ExistentialDepositAsset: Option<Asset> = Some((
WestendLocation::get(), WestendLocation::get(),
ExistentialDeposit::get() ExistentialDeposit::get()
).into()); ).into());
@@ -845,17 +845,17 @@ impl_runtime_apis! {
type AccountIdConverter = xcm_config::LocationToAccountId; type AccountIdConverter = xcm_config::LocationToAccountId;
type DeliveryHelper = cumulus_primitives_utility::ToParentDeliveryHelper< type DeliveryHelper = cumulus_primitives_utility::ToParentDeliveryHelper<
xcm_config::XcmConfig, xcm_config::XcmConfig,
ExistentialDepositMultiAsset, ExistentialDepositAsset,
xcm_config::PriceForParentDelivery, xcm_config::PriceForParentDelivery,
>; >;
fn valid_destination() -> Result<MultiLocation, BenchmarkError> { fn valid_destination() -> Result<Location, BenchmarkError> {
Ok(WestendLocation::get()) Ok(WestendLocation::get())
} }
fn worst_case_holding(_depositable_count: u32) -> MultiAssets { fn worst_case_holding(_depositable_count: u32) -> Assets {
// just concrete assets according to relay chain. // just assets according to relay chain.
let assets: Vec<MultiAsset> = vec![ let assets: Vec<Asset> = vec![
MultiAsset { Asset {
id: Concrete(WestendLocation::get()), id: AssetId(WestendLocation::get()),
fun: Fungible(1_000_000 * UNITS), fun: Fungible(1_000_000 * UNITS),
} }
]; ];
@@ -864,12 +864,12 @@ impl_runtime_apis! {
} }
parameter_types! { parameter_types! {
pub const TrustedTeleporter: Option<(MultiLocation, MultiAsset)> = Some(( pub const TrustedTeleporter: Option<(Location, Asset)> = Some((
WestendLocation::get(), WestendLocation::get(),
MultiAsset { fun: Fungible(UNITS), id: Concrete(WestendLocation::get()) }, Asset { fun: Fungible(UNITS), id: AssetId(WestendLocation::get()) },
)); ));
pub const CheckedAccount: Option<(AccountId, xcm_builder::MintLocation)> = None; pub const CheckedAccount: Option<(AccountId, xcm_builder::MintLocation)> = None;
pub const TrustedReserve: Option<(MultiLocation, MultiAsset)> = None; pub const TrustedReserve: Option<(Location, Asset)> = None;
} }
impl pallet_xcm_benchmarks::fungible::Config for Runtime { impl pallet_xcm_benchmarks::fungible::Config for Runtime {
@@ -879,9 +879,9 @@ impl_runtime_apis! {
type TrustedTeleporter = TrustedTeleporter; type TrustedTeleporter = TrustedTeleporter;
type TrustedReserve = TrustedReserve; type TrustedReserve = TrustedReserve;
fn get_multi_asset() -> MultiAsset { fn get_asset() -> Asset {
MultiAsset { Asset {
id: Concrete(WestendLocation::get()), id: AssetId(WestendLocation::get()),
fun: Fungible(UNITS), fun: Fungible(UNITS),
} }
} }
@@ -895,35 +895,35 @@ impl_runtime_apis! {
(0u64, Response::Version(Default::default())) (0u64, Response::Version(Default::default()))
} }
fn worst_case_asset_exchange() -> Result<(MultiAssets, MultiAssets), BenchmarkError> { fn worst_case_asset_exchange() -> Result<(Assets, Assets), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
fn universal_alias() -> Result<(MultiLocation, Junction), BenchmarkError> { fn universal_alias() -> Result<(Location, Junction), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
fn transact_origin_and_runtime_call() -> Result<(MultiLocation, RuntimeCall), BenchmarkError> { fn transact_origin_and_runtime_call() -> Result<(Location, RuntimeCall), BenchmarkError> {
Ok((WestendLocation::get(), frame_system::Call::remark_with_event { remark: vec![] }.into())) Ok((WestendLocation::get(), frame_system::Call::remark_with_event { remark: vec![] }.into()))
} }
fn subscribe_origin() -> Result<MultiLocation, BenchmarkError> { fn subscribe_origin() -> Result<Location, BenchmarkError> {
Ok(WestendLocation::get()) Ok(WestendLocation::get())
} }
fn claimable_asset() -> Result<(MultiLocation, MultiLocation, MultiAssets), BenchmarkError> { fn claimable_asset() -> Result<(Location, Location, Assets), BenchmarkError> {
let origin = WestendLocation::get(); let origin = WestendLocation::get();
let assets: MultiAssets = (Concrete(WestendLocation::get()), 1_000 * UNITS).into(); let assets: Assets = (AssetId(WestendLocation::get()), 1_000 * UNITS).into();
let ticket = MultiLocation { parents: 0, interior: Here }; let ticket = Location { parents: 0, interior: Here };
Ok((origin, ticket, assets)) Ok((origin, ticket, assets))
} }
fn unlockable_asset() -> Result<(MultiLocation, MultiLocation, MultiAsset), BenchmarkError> { fn unlockable_asset() -> Result<(Location, Location, Asset), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
fn export_message_origin_and_destination( fn export_message_origin_and_destination(
) -> Result<(MultiLocation, NetworkId, InteriorMultiLocation), BenchmarkError> { ) -> Result<(Location, NetworkId, InteriorLocation), BenchmarkError> {
// save XCM version for remote bridge hub // save XCM version for remote bridge hub
let _ = PolkadotXcm::force_xcm_version( let _ = PolkadotXcm::force_xcm_version(
RuntimeOrigin::root(), RuntimeOrigin::root(),
@@ -943,12 +943,12 @@ impl_runtime_apis! {
( (
bridge_to_rococo_config::FromAssetHubWestendToAssetHubRococoRoute::get().location, bridge_to_rococo_config::FromAssetHubWestendToAssetHubRococoRoute::get().location,
NetworkId::Rococo, NetworkId::Rococo,
X1(Parachain(bridge_to_rococo_config::AssetHubRococoParaId::get().into())) [Parachain(bridge_to_rococo_config::AssetHubRococoParaId::get().into())].into()
) )
) )
} }
fn alias_origin() -> Result<(MultiLocation, MultiLocation), BenchmarkError> { fn alias_origin() -> Result<(Location, Location), BenchmarkError> {
Err(BenchmarkError::Skip) Err(BenchmarkError::Skip)
} }
} }
@@ -995,7 +995,7 @@ impl_runtime_apis! {
Runtime, Runtime,
bridge_to_rococo_config::BridgeGrandpaRococoInstance, bridge_to_rococo_config::BridgeGrandpaRococoInstance,
bridge_to_rococo_config::WithBridgeHubRococoMessageBridge, bridge_to_rococo_config::WithBridgeHubRococoMessageBridge,
>(params, generate_xcm_builder_bridge_message_sample(X2(GlobalConsensus(Westend), Parachain(42)))) >(params, generate_xcm_builder_bridge_message_sample([GlobalConsensus(Westend), Parachain(42)].into()))
} }
fn prepare_message_delivery_proof( fn prepare_message_delivery_proof(
cumulus/parachains/runtimes/bridge-hubs/bridge-hub-westend/src/weights/xcm/mod.rs
+42 -54
View File
@@ -25,14 +25,14 @@ use pallet_xcm_benchmarks_generic::WeightInfo as XcmGeneric;
use sp_std::prelude::*; use sp_std::prelude::*;
use xcm::{latest::prelude::*, DoubleEncoded}; use xcm::{latest::prelude::*, DoubleEncoded};
trait WeighMultiAssets { trait WeighAssets {
fn weigh_multi_assets(&self, weight: Weight) -> Weight; fn weigh_assets(&self, weight: Weight) -> Weight;
} }
const MAX_ASSETS: u64 = 100; const MAX_ASSETS: u64 = 100;
impl WeighMultiAssets for MultiAssetFilter { impl WeighAssets for AssetFilter {
fn weigh_multi_assets(&self, weight: Weight) -> Weight { fn weigh_assets(&self, weight: Weight) -> Weight {
match self { match self {
Self::Definite(assets) => weight.saturating_mul(assets.inner().iter().count() as u64), Self::Definite(assets) => weight.saturating_mul(assets.inner().iter().count() as u64),
Self::Wild(asset) => match asset { Self::Wild(asset) => match asset {
@@ -51,40 +51,36 @@ impl WeighMultiAssets for MultiAssetFilter {
} }
} }
impl WeighMultiAssets for MultiAssets { impl WeighAssets for Assets {
fn weigh_multi_assets(&self, weight: Weight) -> Weight { fn weigh_assets(&self, weight: Weight) -> Weight {
weight.saturating_mul(self.inner().iter().count() as u64) weight.saturating_mul(self.inner().iter().count() as u64)
} }
} }
pub struct BridgeHubWestendXcmWeight<Call>(core::marker::PhantomData<Call>); pub struct BridgeHubWestendXcmWeight<Call>(core::marker::PhantomData<Call>);
impl<Call> XcmWeightInfo<Call> for BridgeHubWestendXcmWeight<Call> { impl<Call> XcmWeightInfo<Call> for BridgeHubWestendXcmWeight<Call> {
fn withdraw_asset(assets: &MultiAssets) -> Weight { fn withdraw_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::withdraw_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::withdraw_asset())
} }
fn reserve_asset_deposited(assets: &MultiAssets) -> Weight { fn reserve_asset_deposited(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::reserve_asset_deposited()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::reserve_asset_deposited())
} }
fn receive_teleported_asset(assets: &MultiAssets) -> Weight { fn receive_teleported_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::receive_teleported_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::receive_teleported_asset())
} }
fn query_response( fn query_response(
_query_id: &u64, _query_id: &u64,
_response: &Response, _response: &Response,
_max_weight: &Weight, _max_weight: &Weight,
_querier: &Option<MultiLocation>, _querier: &Option<Location>,
) -> Weight { ) -> Weight {
XcmGeneric::<Runtime>::query_response() XcmGeneric::<Runtime>::query_response()
} }
fn transfer_asset(assets: &MultiAssets, _dest: &MultiLocation) -> Weight { fn transfer_asset(assets: &Assets, _dest: &Location) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::transfer_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::transfer_asset())
} }
fn transfer_reserve_asset( fn transfer_reserve_asset(assets: &Assets, _dest: &Location, _xcm: &Xcm<()>) -> Weight {
assets: &MultiAssets, assets.weigh_assets(XcmFungibleWeight::<Runtime>::transfer_reserve_asset())
_dest: &MultiLocation,
_xcm: &Xcm<()>,
) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::transfer_reserve_asset())
} }
fn transact( fn transact(
_origin_type: &OriginKind, _origin_type: &OriginKind,
@@ -112,44 +108,36 @@ impl<Call> XcmWeightInfo<Call> for BridgeHubWestendXcmWeight<Call> {
fn clear_origin() -> Weight { fn clear_origin() -> Weight {
XcmGeneric::<Runtime>::clear_origin() XcmGeneric::<Runtime>::clear_origin()
} }
fn descend_origin(_who: &InteriorMultiLocation) -> Weight { fn descend_origin(_who: &InteriorLocation) -> Weight {
XcmGeneric::<Runtime>::descend_origin() XcmGeneric::<Runtime>::descend_origin()
} }
fn report_error(_query_response_info: &QueryResponseInfo) -> Weight { fn report_error(_query_response_info: &QueryResponseInfo) -> Weight {
XcmGeneric::<Runtime>::report_error() XcmGeneric::<Runtime>::report_error()
} }
fn deposit_asset(assets: &MultiAssetFilter, _dest: &MultiLocation) -> Weight { fn deposit_asset(assets: &AssetFilter, _dest: &Location) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::deposit_asset()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::deposit_asset())
} }
fn deposit_reserve_asset( fn deposit_reserve_asset(assets: &AssetFilter, _dest: &Location, _xcm: &Xcm<()>) -> Weight {
assets: &MultiAssetFilter, assets.weigh_assets(XcmFungibleWeight::<Runtime>::deposit_reserve_asset())
_dest: &MultiLocation,
_xcm: &Xcm<()>,
) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::deposit_reserve_asset())
} }
fn exchange_asset(_give: &MultiAssetFilter, _receive: &MultiAssets, _maximal: &bool) -> Weight { fn exchange_asset(_give: &AssetFilter, _receive: &Assets, _maximal: &bool) -> Weight {
Weight::MAX Weight::MAX
} }
fn initiate_reserve_withdraw( fn initiate_reserve_withdraw(
assets: &MultiAssetFilter, assets: &AssetFilter,
_reserve: &MultiLocation, _reserve: &Location,
_xcm: &Xcm<()>, _xcm: &Xcm<()>,
) -> Weight { ) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::initiate_reserve_withdraw()) assets.weigh_assets(XcmFungibleWeight::<Runtime>::initiate_reserve_withdraw())
} }
fn initiate_teleport( fn initiate_teleport(assets: &AssetFilter, _dest: &Location, _xcm: &Xcm<()>) -> Weight {
assets: &MultiAssetFilter, assets.weigh_assets(XcmFungibleWeight::<Runtime>::initiate_teleport())
_dest: &MultiLocation,
_xcm: &Xcm<()>,
) -> Weight {
assets.weigh_multi_assets(XcmFungibleWeight::<Runtime>::initiate_teleport())
} }
fn report_holding(_response_info: &QueryResponseInfo, _assets: &MultiAssetFilter) -> Weight { fn report_holding(_response_info: &QueryResponseInfo, _assets: &AssetFilter) -> Weight {
XcmGeneric::<Runtime>::report_holding() XcmGeneric::<Runtime>::report_holding()
} }
fn buy_execution(_fees: &MultiAsset, _weight_limit: &WeightLimit) -> Weight { fn buy_execution(_fees: &Asset, _weight_limit: &WeightLimit) -> Weight {
XcmGeneric::<Runtime>::buy_execution() XcmGeneric::<Runtime>::buy_execution()
} }
fn refund_surplus() -> Weight { fn refund_surplus() -> Weight {
@@ -164,7 +152,7 @@ impl<Call> XcmWeightInfo<Call> for BridgeHubWestendXcmWeight<Call> {
fn clear_error() -> Weight { fn clear_error() -> Weight {
XcmGeneric::<Runtime>::clear_error() XcmGeneric::<Runtime>::clear_error()
} }
fn claim_asset(_assets: &MultiAssets, _ticket: &MultiLocation) -> Weight { fn claim_asset(_assets: &Assets, _ticket: &Location) -> Weight {
XcmGeneric::<Runtime>::claim_asset() XcmGeneric::<Runtime>::claim_asset()
} }
fn trap(_code: &u64) -> Weight { fn trap(_code: &u64) -> Weight {
@@ -176,13 +164,13 @@ impl<Call> XcmWeightInfo<Call> for BridgeHubWestendXcmWeight<Call> {
fn unsubscribe_version() -> Weight { fn unsubscribe_version() -> Weight {
XcmGeneric::<Runtime>::unsubscribe_version() XcmGeneric::<Runtime>::unsubscribe_version()
} }
fn burn_asset(assets: &MultiAssets) -> Weight { fn burn_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmGeneric::<Runtime>::burn_asset()) assets.weigh_assets(XcmGeneric::<Runtime>::burn_asset())
} }
fn expect_asset(assets: &MultiAssets) -> Weight { fn expect_asset(assets: &Assets) -> Weight {
assets.weigh_multi_assets(XcmGeneric::<Runtime>::expect_asset()) assets.weigh_assets(XcmGeneric::<Runtime>::expect_asset())
} }
fn expect_origin(_origin: &Option<MultiLocation>) -> Weight { fn expect_origin(_origin: &Option<Location>) -> Weight {
XcmGeneric::<Runtime>::expect_origin() XcmGeneric::<Runtime>::expect_origin()
} }
fn expect_error(_error: &Option<(u32, XcmError)>) -> Weight { fn expect_error(_error: &Option<(u32, XcmError)>) -> Weight {
@@ -216,16 +204,16 @@ impl<Call> XcmWeightInfo<Call> for BridgeHubWestendXcmWeight<Call> {
let inner_encoded_len = inner.encode().len() as u32; let inner_encoded_len = inner.encode().len() as u32;
XcmGeneric::<Runtime>::export_message(inner_encoded_len) XcmGeneric::<Runtime>::export_message(inner_encoded_len)
} }
fn lock_asset(_: &MultiAsset, _: &MultiLocation) -> Weight { fn lock_asset(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn unlock_asset(_: &MultiAsset, _: &MultiLocation) -> Weight { fn unlock_asset(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn note_unlockable(_: &MultiAsset, _: &MultiLocation) -> Weight { fn note_unlockable(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn request_unlock(_: &MultiAsset, _: &MultiLocation) -> Weight { fn request_unlock(_: &Asset, _: &Location) -> Weight {
Weight::MAX Weight::MAX
} }
fn set_fees_mode(_: &bool) -> Weight { fn set_fees_mode(_: &bool) -> Weight {
@@ -237,11 +225,11 @@ impl<Call> XcmWeightInfo<Call> for BridgeHubWestendXcmWeight<Call> {
fn clear_topic() -> Weight { fn clear_topic() -> Weight {
XcmGeneric::<Runtime>::clear_topic() XcmGeneric::<Runtime>::clear_topic()
} }
fn alias_origin(_: &MultiLocation) -> Weight { fn alias_origin(_: &Location) -> Weight {
// XCM Executor does not currently support alias origin operations // XCM Executor does not currently support alias origin operations
Weight::MAX Weight::MAX
} }
fn unpaid_execution(_: &WeightLimit, _: &Option<MultiLocation>) -> Weight { fn unpaid_execution(_: &WeightLimit, _: &Option<Location>) -> Weight {
XcmGeneric::<Runtime>::unpaid_execution() XcmGeneric::<Runtime>::unpaid_execution()
} }
} }
cumulus/parachains/runtimes/bridge-hubs/bridge-hub-westend/src/xcm_config.rs
+13 -13
View File
@@ -21,7 +21,7 @@ use super::{
}; };
use crate::bridge_common_config::{DeliveryRewardInBalance, RequiredStakeForStakeAndSlash}; use crate::bridge_common_config::{DeliveryRewardInBalance, RequiredStakeForStakeAndSlash};
use frame_support::{ use frame_support::{
match_types, parameter_types, parameter_types,
traits::{ConstU32, Contains, Equals, Everything, Nothing}, traits::{ConstU32, Contains, Equals, Everything, Nothing},
}; };
use frame_system::EnsureRoot; use frame_system::EnsureRoot;
@@ -52,18 +52,18 @@ use xcm_builder::{
use xcm_executor::{traits::WithOriginFilter, XcmExecutor}; use xcm_executor::{traits::WithOriginFilter, XcmExecutor};
parameter_types! { parameter_types! {
pub const WestendLocation: MultiLocation = MultiLocation::parent(); pub const WestendLocation: Location = Location::parent();
pub const RelayNetwork: NetworkId = NetworkId::Westend; pub const RelayNetwork: NetworkId = NetworkId::Westend;
pub RelayChainOrigin: RuntimeOrigin = cumulus_pallet_xcm::Origin::Relay.into(); pub RelayChainOrigin: RuntimeOrigin = cumulus_pallet_xcm::Origin::Relay.into();
pub UniversalLocation: InteriorMultiLocation = pub UniversalLocation: InteriorLocation =
X2(GlobalConsensus(RelayNetwork::get()), Parachain(ParachainInfo::parachain_id().into())); [GlobalConsensus(RelayNetwork::get()), Parachain(ParachainInfo::parachain_id().into())].into();
pub const MaxInstructions: u32 = 100; pub const MaxInstructions: u32 = 100;
pub const MaxAssetsIntoHolding: u32 = 64; pub const MaxAssetsIntoHolding: u32 = 64;
pub TreasuryAccount: AccountId = TREASURY_PALLET_ID.into_account_truncating(); pub TreasuryAccount: AccountId = TREASURY_PALLET_ID.into_account_truncating();
pub RelayTreasuryLocation: MultiLocation = (Parent, PalletInstance(westend_runtime_constants::TREASURY_PALLET_ID)).into(); pub RelayTreasuryLocation: Location = (Parent, PalletInstance(westend_runtime_constants::TREASURY_PALLET_ID)).into();
} }
/// Type for specifying how a `MultiLocation` can be converted into an `AccountId`. This is used /// Type for specifying how a `Location` can be converted into an `AccountId`. This is used
/// when determining ownership of accounts for asset transacting and when attempting to use XCM /// when determining ownership of accounts for asset transacting and when attempting to use XCM
/// `Transact` in order to determine the dispatch Origin. /// `Transact` in order to determine the dispatch Origin.
pub type LocationToAccountId = ( pub type LocationToAccountId = (
@@ -82,7 +82,7 @@ pub type CurrencyTransactor = CurrencyAdapter<
Balances, Balances,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
IsConcrete<WestendLocation>, IsConcrete<WestendLocation>,
// Do a simple punn to convert an AccountId32 MultiLocation into a native chain account ID: // Do a simple punn to convert an AccountId32 Location into a native chain account ID:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -114,11 +114,11 @@ pub type XcmOriginToTransactDispatchOrigin = (
XcmPassthrough<RuntimeOrigin>, XcmPassthrough<RuntimeOrigin>,
); );
match_types! { pub struct ParentOrParentsPlurality;
pub type ParentOrParentsPlurality: impl Contains<MultiLocation> = { impl Contains<Location> for ParentOrParentsPlurality {
MultiLocation { parents: 1, interior: Here } | fn contains(location: &Location) -> bool {
MultiLocation { parents: 1, interior: X1(Plurality { .. }) } matches!(location.unpack(), (1, []) | (1, [Plurality { .. }]))
}; }
} }
/// A call filter for the XCM Transact instruction. This is a temporary measure until we properly /// A call filter for the XCM Transact instruction. This is a temporary measure until we properly
@@ -270,7 +270,7 @@ impl xcm_executor::Config for XcmConfig {
pub type PriceForParentDelivery = pub type PriceForParentDelivery =
ExponentialPrice<FeeAssetId, BaseDeliveryFee, TransactionByteFee, ParachainSystem>; ExponentialPrice<FeeAssetId, BaseDeliveryFee, TransactionByteFee, ParachainSystem>;
/// Converts a local signed origin into an XCM multilocation. /// Converts a local signed origin into an XCM location.
/// Forms the basis for local origins sending/executing XCMs. /// Forms the basis for local origins sending/executing XCMs.
pub type LocalOriginToLocation = SignedToAccountId32<RuntimeOrigin, AccountId, RelayNetwork>; pub type LocalOriginToLocation = SignedToAccountId32<RuntimeOrigin, AccountId, RelayNetwork>;
cumulus/parachains/runtimes/bridge-hubs/bridge-hub-westend/tests/tests.rs
+1 -1
View File
@@ -207,7 +207,7 @@ fn handle_export_message_from_system_parachain_add_to_outbound_queue_works() {
_ => None, _ => None,
} }
}), }),
|| ExportMessage { network: Rococo, destination: X1(Parachain(bridge_to_rococo_config::AssetHubRococoParaId::get().into())), xcm: Xcm(vec![]) }, || ExportMessage { network: Rococo, destination: [Parachain(bridge_to_rococo_config::AssetHubRococoParaId::get().into())].into(), xcm: Xcm(vec![]) },
XCM_LANE_FOR_ASSET_HUB_WESTEND_TO_ASSET_HUB_ROCOCO, XCM_LANE_FOR_ASSET_HUB_WESTEND_TO_ASSET_HUB_ROCOCO,
Some((WestendLocation::get(), ExistentialDeposit::get()).into()), Some((WestendLocation::get(), ExistentialDeposit::get()).into()),
// value should be >= than value generated by `can_calculate_weight_for_paid_export_message_with_reserve_transfer` // value should be >= than value generated by `can_calculate_weight_for_paid_export_message_with_reserve_transfer`
cumulus/parachains/runtimes/bridge-hubs/common/src/message_queue.rs
+6 -6
View File
@@ -23,7 +23,7 @@ use pallet_message_queue::OnQueueChanged;
use scale_info::TypeInfo; use scale_info::TypeInfo;
use snowbridge_core::ChannelId; use snowbridge_core::ChannelId;
use sp_std::{marker::PhantomData, prelude::*}; use sp_std::{marker::PhantomData, prelude::*};
use xcm::v3::{Junction, MultiLocation}; use xcm::v4::{Junction, Location};
/// The aggregate origin of an inbound message. /// The aggregate origin of an inbound message.
/// This is specialized for BridgeHub, as the snowbridge-outbound-queue-pallet is also using /// This is specialized for BridgeHub, as the snowbridge-outbound-queue-pallet is also using
@@ -46,16 +46,16 @@ pub enum AggregateMessageOrigin {
Snowbridge(ChannelId), Snowbridge(ChannelId),
} }
impl From<AggregateMessageOrigin> for MultiLocation { impl From<AggregateMessageOrigin> for Location {
fn from(origin: AggregateMessageOrigin) -> Self { fn from(origin: AggregateMessageOrigin) -> Self {
use AggregateMessageOrigin::*; use AggregateMessageOrigin::*;
match origin { match origin {
Here => MultiLocation::here(), Here => Location::here(),
Parent => MultiLocation::parent(), Parent => Location::parent(),
Sibling(id) => MultiLocation::new(1, Junction::Parachain(id.into())), Sibling(id) => Location::new(1, Junction::Parachain(id.into())),
// NOTE: We don't need this conversion for Snowbridge. However we have to // NOTE: We don't need this conversion for Snowbridge. However we have to
// implement it anyway as xcm_builder::ProcessXcmMessage requires it. // implement it anyway as xcm_builder::ProcessXcmMessage requires it.
Snowbridge(_) => MultiLocation::default(), Snowbridge(_) => Location::default(),
} }
} }
} }
cumulus/parachains/runtimes/bridge-hubs/test-utils/src/test_cases/from_grandpa_chain.rs
+2 -2
View File
@@ -336,9 +336,9 @@ where
(), (),
>( >(
LaneId::default(), LaneId::default(),
vec![xcm::v3::Instruction::<()>::ClearOrigin; 1_024].into(), vec![Instruction::<()>::ClearOrigin; 1_024].into(),
1, 1,
X2(GlobalConsensus(Polkadot), Parachain(1_000)), [GlobalConsensus(Polkadot), Parachain(1_000)].into(),
1u32.into(), 1u32.into(),
); );
cumulus/parachains/runtimes/bridge-hubs/test-utils/src/test_cases/from_parachain.rs
+2 -2
View File
@@ -418,9 +418,9 @@ where
(), (),
>( >(
LaneId::default(), LaneId::default(),
vec![xcm::v3::Instruction::<()>::ClearOrigin; 1_024].into(), vec![Instruction::<()>::ClearOrigin; 1_024].into(),
1, 1,
X2(GlobalConsensus(Polkadot), Parachain(1_000)), [GlobalConsensus(Polkadot), Parachain(1_000)].into(),
1, 1,
5, 5,
1_000, 1_000,
cumulus/parachains/runtimes/bridge-hubs/test-utils/src/test_cases/helpers.rs
+6 -6
View File
@@ -230,7 +230,7 @@ pub fn relayed_incoming_message_works<Runtime, AllPalletsWithoutSystem, MPI>(
prepare_message_proof_import: impl FnOnce( prepare_message_proof_import: impl FnOnce(
Runtime::AccountId, Runtime::AccountId,
Runtime::InboundRelayer, Runtime::InboundRelayer,
InteriorMultiLocation, InteriorLocation,
MessageNonce, MessageNonce,
Xcm<()>, Xcm<()>,
) -> CallsAndVerifiers<Runtime>, ) -> CallsAndVerifiers<Runtime>,
@@ -276,21 +276,21 @@ pub fn relayed_incoming_message_works<Runtime, AllPalletsWithoutSystem, MPI>(
// set up relayer details and proofs // set up relayer details and proofs
let message_destination = let message_destination: InteriorLocation =
X2(GlobalConsensus(local_relay_chain_id), Parachain(sibling_parachain_id)); [GlobalConsensus(local_relay_chain_id), Parachain(sibling_parachain_id)].into();
// some random numbers (checked by test) // some random numbers (checked by test)
let message_nonce = 1; let message_nonce = 1;
let xcm = vec![xcm::v3::Instruction::<()>::ClearOrigin; 42]; let xcm = vec![Instruction::<()>::ClearOrigin; 42];
let expected_dispatch = xcm::latest::Xcm::<()>({ let expected_dispatch = xcm::latest::Xcm::<()>({
let mut expected_instructions = xcm.clone(); let mut expected_instructions = xcm.clone();
// dispatch prepends bridge pallet instance // dispatch prepends bridge pallet instance
expected_instructions.insert( expected_instructions.insert(
0, 0,
DescendOrigin(X1(PalletInstance( DescendOrigin([PalletInstance(
<pallet_bridge_messages::Pallet<Runtime, MPI> as PalletInfoAccess>::index() <pallet_bridge_messages::Pallet<Runtime, MPI> as PalletInfoAccess>::index()
as u8, as u8,
))), )].into()),
); );
expected_instructions expected_instructions
}); });
cumulus/parachains/runtimes/bridge-hubs/test-utils/src/test_cases/mod.rs
+26 -37
View File
@@ -319,8 +319,8 @@ pub fn handle_export_message_from_system_parachain_to_outbound_queue_works<
>, >,
export_message_instruction: fn() -> Instruction<XcmConfig::RuntimeCall>, export_message_instruction: fn() -> Instruction<XcmConfig::RuntimeCall>,
expected_lane_id: LaneId, expected_lane_id: LaneId,
existential_deposit: Option<MultiAsset>, existential_deposit: Option<Asset>,
maybe_paid_export_message: Option<MultiAsset>, maybe_paid_export_message: Option<Asset>,
prepare_configuration: impl Fn(), prepare_configuration: impl Fn(),
) where ) where
Runtime: BasicParachainRuntime + BridgeMessagesConfig<MessagesPalletInstance>, Runtime: BasicParachainRuntime + BridgeMessagesConfig<MessagesPalletInstance>,
@@ -328,7 +328,7 @@ pub fn handle_export_message_from_system_parachain_to_outbound_queue_works<
MessagesPalletInstance: 'static, MessagesPalletInstance: 'static,
{ {
assert_ne!(runtime_para_id, sibling_parachain_id); assert_ne!(runtime_para_id, sibling_parachain_id);
let sibling_parachain_location = MultiLocation::new(1, Parachain(sibling_parachain_id)); let sibling_parachain_location = Location::new(1, [Parachain(sibling_parachain_id)]);
run_test::<Runtime, _>(collator_session_key, runtime_para_id, vec![], || { run_test::<Runtime, _>(collator_session_key, runtime_para_id, vec![], || {
prepare_configuration(); prepare_configuration();
@@ -361,7 +361,7 @@ pub fn handle_export_message_from_system_parachain_to_outbound_queue_works<
.expect("deposited fee"); .expect("deposited fee");
Xcm(vec![ Xcm(vec![
WithdrawAsset(MultiAssets::from(vec![fee.clone()])), WithdrawAsset(Assets::from(vec![fee.clone()])),
BuyExecution { fees: fee, weight_limit: Unlimited }, BuyExecution { fees: fee, weight_limit: Unlimited },
export_message_instruction(), export_message_instruction(),
]) ])
@@ -373,12 +373,13 @@ pub fn handle_export_message_from_system_parachain_to_outbound_queue_works<
}; };
// execute XCM // execute XCM
let hash = xcm.using_encoded(sp_io::hashing::blake2_256); let mut hash = xcm.using_encoded(sp_io::hashing::blake2_256);
assert_ok!(XcmExecutor::<XcmConfig>::execute_xcm( assert_ok!(XcmExecutor::<XcmConfig>::prepare_and_execute(
sibling_parachain_location, sibling_parachain_location,
xcm, xcm,
hash, &mut hash,
RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Sibling), RuntimeHelper::<Runtime>::xcm_max_weight(XcmReceivedFrom::Sibling),
Weight::zero(),
) )
.ensure_complete()); .ensure_complete());
@@ -446,9 +447,9 @@ pub fn message_dispatch_routing_works<
NetworkDistanceAsParentCount: Get<u8>, NetworkDistanceAsParentCount: Get<u8>,
{ {
struct NetworkWithParentCount<N, C>(core::marker::PhantomData<(N, C)>); struct NetworkWithParentCount<N, C>(core::marker::PhantomData<(N, C)>);
impl<N: Get<NetworkId>, C: Get<u8>> Get<MultiLocation> for NetworkWithParentCount<N, C> { impl<N: Get<NetworkId>, C: Get<u8>> Get<Location> for NetworkWithParentCount<N, C> {
fn get() -> MultiLocation { fn get() -> Location {
MultiLocation { parents: C::get(), interior: X1(GlobalConsensus(N::get())) } Location::new(C::get(), [GlobalConsensus(N::get())])
} }
} }
@@ -495,7 +496,7 @@ pub fn message_dispatch_routing_works<
BridgedNetwork, BridgedNetwork,
NetworkWithParentCount<RuntimeNetwork, NetworkDistanceAsParentCount>, NetworkWithParentCount<RuntimeNetwork, NetworkDistanceAsParentCount>,
AlwaysLatest, AlwaysLatest,
>((RuntimeNetwork::get(), X1(Parachain(sibling_parachain_id)))); >((RuntimeNetwork::get(), [Parachain(sibling_parachain_id)].into()));
// 2.1. WITHOUT opened hrmp channel -> RoutingError // 2.1. WITHOUT opened hrmp channel -> RoutingError
let result = let result =
@@ -565,52 +566,43 @@ where
{ {
// data here are not relevant for weighing // data here are not relevant for weighing
let mut xcm = Xcm(vec![ let mut xcm = Xcm(vec![
WithdrawAsset(MultiAssets::from(vec![MultiAsset { WithdrawAsset(Assets::from(vec![Asset {
id: Concrete(MultiLocation { parents: 1, interior: Here }), id: AssetId(Location::new(1, [])),
fun: Fungible(34333299), fun: Fungible(34333299),
}])), }])),
BuyExecution { BuyExecution {
fees: MultiAsset { fees: Asset { id: AssetId(Location::new(1, [])), fun: Fungible(34333299) },
id: Concrete(MultiLocation { parents: 1, interior: Here }),
fun: Fungible(34333299),
},
weight_limit: Unlimited, weight_limit: Unlimited,
}, },
ExportMessage { ExportMessage {
network: Polkadot, network: Polkadot,
destination: X1(Parachain(1000)), destination: [Parachain(1000)].into(),
xcm: Xcm(vec![ xcm: Xcm(vec![
ReserveAssetDeposited(MultiAssets::from(vec![MultiAsset { ReserveAssetDeposited(Assets::from(vec![Asset {
id: Concrete(MultiLocation { id: AssetId(Location::new(2, [GlobalConsensus(Kusama)])),
parents: 2,
interior: X1(GlobalConsensus(Kusama)),
}),
fun: Fungible(1000000000000), fun: Fungible(1000000000000),
}])), }])),
ClearOrigin, ClearOrigin,
BuyExecution { BuyExecution {
fees: MultiAsset { fees: Asset {
id: Concrete(MultiLocation { id: AssetId(Location::new(2, [GlobalConsensus(Kusama)])),
parents: 2,
interior: X1(GlobalConsensus(Kusama)),
}),
fun: Fungible(1000000000000), fun: Fungible(1000000000000),
}, },
weight_limit: Unlimited, weight_limit: Unlimited,
}, },
DepositAsset { DepositAsset {
assets: Wild(AllCounted(1)), assets: Wild(AllCounted(1)),
beneficiary: MultiLocation { beneficiary: Location::new(
parents: 0, 0,
interior: X1(xcm::latest::prelude::AccountId32 { [xcm::latest::prelude::AccountId32 {
network: None, network: None,
id: [ id: [
212, 53, 147, 199, 21, 253, 211, 28, 97, 20, 26, 189, 4, 169, 159, 212, 53, 147, 199, 21, 253, 211, 28, 97, 20, 26, 189, 4, 169, 159,
214, 130, 44, 133, 88, 133, 76, 205, 227, 154, 86, 132, 231, 165, 214, 130, 44, 133, 88, 133, 76, 205, 227, 154, 86, 132, 231, 165,
109, 162, 125, 109, 162, 125,
], ],
}), }],
}, ),
}, },
SetTopic([ SetTopic([
116, 82, 194, 132, 171, 114, 217, 165, 23, 37, 161, 177, 165, 179, 247, 114, 116, 82, 194, 132, 171, 114, 217, 165, 23, 37, 161, 177, 165, 179, 247, 114,
@@ -618,10 +610,7 @@ where
]), ]),
]), ]),
}, },
DepositAsset { DepositAsset { assets: Wild(All), beneficiary: Location::new(1, [Parachain(1000)]) },
assets: Wild(All),
beneficiary: MultiLocation { parents: 1, interior: X1(Parachain(1000)) },
},
SetTopic([ SetTopic([
36, 224, 250, 165, 82, 195, 67, 110, 160, 170, 140, 87, 217, 62, 201, 164, 42, 98, 219, 36, 224, 250, 165, 82, 195, 67, 110, 160, 170, 140, 87, 217, 62, 201, 164, 42, 98, 219,
157, 124, 105, 248, 25, 131, 218, 199, 36, 109, 173, 100, 122, 157, 124, 105, 248, 25, 131, 218, 199, 36, 109, 173, 100, 122,
cumulus/parachains/runtimes/bridge-hubs/test-utils/src/test_data/mod.rs
+6 -6
View File
@@ -37,10 +37,10 @@ use xcm_executor::traits::{validate_export, ExportXcm};
pub fn prepare_inbound_xcm<InnerXcmRuntimeCall>( pub fn prepare_inbound_xcm<InnerXcmRuntimeCall>(
xcm_message: Xcm<InnerXcmRuntimeCall>, xcm_message: Xcm<InnerXcmRuntimeCall>,
destination: InteriorMultiLocation, destination: InteriorLocation,
) -> Vec<u8> { ) -> Vec<u8> {
let location = xcm::VersionedInteriorMultiLocation::V3(destination); let location = xcm::VersionedInteriorLocation::V4(destination);
let xcm = xcm::VersionedXcm::<InnerXcmRuntimeCall>::V3(xcm_message); let xcm = xcm::VersionedXcm::<InnerXcmRuntimeCall>::V4(xcm_message);
// this is the `BridgeMessage` from polkadot xcm builder, but it has no constructor // this is the `BridgeMessage` from polkadot xcm builder, but it has no constructor
// or public fields, so just tuple // or public fields, so just tuple
// (double encoding, because `.encode()` is called on original Xcm BLOB when it is pushed // (double encoding, because `.encode()` is called on original Xcm BLOB when it is pushed
@@ -101,7 +101,7 @@ macro_rules! grab_haul_blob (
/// which are transferred over bridge. /// which are transferred over bridge.
pub(crate) fn simulate_message_exporter_on_bridged_chain< pub(crate) fn simulate_message_exporter_on_bridged_chain<
SourceNetwork: Get<NetworkId>, SourceNetwork: Get<NetworkId>,
DestinationNetwork: Get<MultiLocation>, DestinationNetwork: Get<Location>,
DestinationVersion: GetVersion, DestinationVersion: GetVersion,
>( >(
(destination_network, destination_junctions): (NetworkId, Junctions), (destination_network, destination_junctions): (NetworkId, Junctions),
@@ -109,8 +109,8 @@ pub(crate) fn simulate_message_exporter_on_bridged_chain<
grab_haul_blob!(GrabbingHaulBlob, GRABBED_HAUL_BLOB_PAYLOAD); grab_haul_blob!(GrabbingHaulBlob, GRABBED_HAUL_BLOB_PAYLOAD);
// lets pretend that some parachain on bridged chain exported the message // lets pretend that some parachain on bridged chain exported the message
let universal_source_on_bridged_chain = let universal_source_on_bridged_chain: Junctions =
X2(GlobalConsensus(SourceNetwork::get()), Parachain(5678)); [GlobalConsensus(SourceNetwork::get()), Parachain(5678)].into();
let channel = 1_u32; let channel = 1_u32;
// simulate XCM message export // simulate XCM message export
cumulus/parachains/runtimes/collectives/collectives-westend/src/ambassador/mod.rs
+1 -1
View File
@@ -215,7 +215,7 @@ pub type AmbassadorSalaryInstance = pallet_salary::Instance2;
parameter_types! { parameter_types! {
// The interior location on AssetHub for the paying account. This is the Ambassador Salary // The interior location on AssetHub for the paying account. This is the Ambassador Salary
// pallet instance (which sits at index 74). This sovereign account will need funding. // pallet instance (which sits at index 74). This sovereign account will need funding.
pub AmbassadorSalaryLocation: InteriorMultiLocation = PalletInstance(74).into(); pub AmbassadorSalaryLocation: InteriorLocation = PalletInstance(74).into();
} }
/// [`PayOverXcm`] setup to pay the Ambassador salary on the AssetHub in WND. /// [`PayOverXcm`] setup to pay the Ambassador salary on the AssetHub in WND.
cumulus/parachains/runtimes/collectives/collectives-westend/src/fellowship/mod.rs
+6 -6
View File
@@ -43,7 +43,7 @@ use parachains_common::{
westend::{account, currency::GRAND}, westend::{account, currency::GRAND},
}; };
use polkadot_runtime_common::impls::{ use polkadot_runtime_common::impls::{
LocatableAssetConverter, VersionedLocatableAsset, VersionedMultiLocationConverter, LocatableAssetConverter, VersionedLocatableAsset, VersionedLocationConverter,
}; };
use sp_arithmetic::Permill; use sp_arithmetic::Permill;
use sp_core::{ConstU128, ConstU32}; use sp_core::{ConstU128, ConstU32};
@@ -202,7 +202,7 @@ pub type FellowshipSalaryInstance = pallet_salary::Instance1;
parameter_types! { parameter_types! {
// The interior location on AssetHub for the paying account. This is the Fellowship Salary // The interior location on AssetHub for the paying account. This is the Fellowship Salary
// pallet instance (which sits at index 64). This sovereign account will need funding. // pallet instance (which sits at index 64). This sovereign account will need funding.
pub Interior: InteriorMultiLocation = PalletInstance(64).into(); pub Interior: InteriorLocation = PalletInstance(64).into();
} }
const USDT_UNITS: u128 = 1_000_000; const USDT_UNITS: u128 = 1_000_000;
@@ -250,7 +250,7 @@ parameter_types! {
pub const MaxBalance: Balance = Balance::max_value(); pub const MaxBalance: Balance = Balance::max_value();
// The asset's interior location for the paying account. This is the Fellowship Treasury // The asset's interior location for the paying account. This is the Fellowship Treasury
// pallet instance (which sits at index 65). // pallet instance (which sits at index 65).
pub FellowshipTreasuryInteriorLocation: InteriorMultiLocation = PalletInstance(65).into(); pub FellowshipTreasuryInteriorLocation: InteriorLocation = PalletInstance(65).into();
} }
#[cfg(feature = "runtime-benchmarks")] #[cfg(feature = "runtime-benchmarks")]
@@ -269,10 +269,10 @@ pub type FellowshipTreasuryPaymaster = PayOverXcm<
crate::xcm_config::XcmRouter, crate::xcm_config::XcmRouter,
crate::PolkadotXcm, crate::PolkadotXcm,
ConstU32<{ 6 * HOURS }>, ConstU32<{ 6 * HOURS }>,
VersionedMultiLocation, VersionedLocation,
VersionedLocatableAsset, VersionedLocatableAsset,
LocatableAssetConverter, LocatableAssetConverter,
VersionedMultiLocationConverter, VersionedLocationConverter,
>; >;
pub type FellowshipTreasuryInstance = pallet_treasury::Instance1; pub type FellowshipTreasuryInstance = pallet_treasury::Instance1;
@@ -327,7 +327,7 @@ impl pallet_treasury::Config<FellowshipTreasuryInstance> for Runtime {
>, >,
>; >;
type AssetKind = VersionedLocatableAsset; type AssetKind = VersionedLocatableAsset;
type Beneficiary = VersionedMultiLocation; type Beneficiary = VersionedLocation;
type BeneficiaryLookup = IdentityLookup<Self::Beneficiary>; type BeneficiaryLookup = IdentityLookup<Self::Beneficiary>;
#[cfg(not(feature = "runtime-benchmarks"))] #[cfg(not(feature = "runtime-benchmarks"))]
type Paymaster = FellowshipTreasuryPaymaster; type Paymaster = FellowshipTreasuryPaymaster;
cumulus/parachains/runtimes/collectives/collectives-westend/src/lib.rs
+7 -7
View File
@@ -427,7 +427,7 @@ impl cumulus_pallet_aura_ext::Config for Runtime {}
parameter_types! { parameter_types! {
/// The asset ID for the asset that we use to pay for message delivery fees. /// The asset ID for the asset that we use to pay for message delivery fees.
pub FeeAssetId: AssetId = Concrete(xcm_config::WndLocation::get()); pub FeeAssetId: AssetId = AssetId(xcm_config::WndLocation::get());
/// The base fee for the message delivery fees. /// The base fee for the message delivery fees.
pub const BaseDeliveryFee: u128 = CENTS.saturating_mul(3); pub const BaseDeliveryFee: u128 = CENTS.saturating_mul(3);
} }
@@ -974,28 +974,28 @@ impl_runtime_apis! {
use pallet_xcm::benchmarking::Pallet as PalletXcmExtrinsicsBenchmark; use pallet_xcm::benchmarking::Pallet as PalletXcmExtrinsicsBenchmark;
impl pallet_xcm::benchmarking::Config for Runtime { impl pallet_xcm::benchmarking::Config for Runtime {
fn reachable_dest() -> Option<MultiLocation> { fn reachable_dest() -> Option<Location> {
Some(Parent.into()) Some(Parent.into())
} }
fn teleportable_asset_and_dest() -> Option<(MultiAsset, MultiLocation)> { fn teleportable_asset_and_dest() -> Option<(Asset, Location)> {
// Relay/native token can be teleported between Collectives and Relay. // Relay/native token can be teleported between Collectives and Relay.
Some(( Some((
MultiAsset { Asset {
fun: Fungible(EXISTENTIAL_DEPOSIT), fun: Fungible(EXISTENTIAL_DEPOSIT),
id: Concrete(Parent.into()) id: AssetId(Parent.into())
}.into(), }.into(),
Parent.into(), Parent.into(),
)) ))
} }
fn reserve_transferable_asset_and_dest() -> Option<(MultiAsset, MultiLocation)> { fn reserve_transferable_asset_and_dest() -> Option<(Asset, Location)> {
// Reserve transfers are disabled on Collectives. // Reserve transfers are disabled on Collectives.
None None
} }
fn set_up_complex_asset_transfer( fn set_up_complex_asset_transfer(
) -> Option<(MultiAssets, u32, MultiLocation, Box<dyn FnOnce()>)> { ) -> Option<(Assets, u32, Location, Box<dyn FnOnce()>)> {
// Collectives only supports teleports to system parachain. // Collectives only supports teleports to system parachain.
// Relay/native token can be teleported between Collectives and Relay. // Relay/native token can be teleported between Collectives and Relay.
let native_location = Parent.into(); let native_location = Parent.into();
cumulus/parachains/runtimes/collectives/collectives-westend/src/xcm_config.rs
+17 -17
View File
@@ -19,7 +19,7 @@ use super::{
TransactionByteFee, WeightToFee, WestendTreasuryAccount, XcmpQueue, TransactionByteFee, WeightToFee, WestendTreasuryAccount, XcmpQueue,
}; };
use frame_support::{ use frame_support::{
match_types, parameter_types, parameter_types,
traits::{ConstU32, Contains, Equals, Everything, Nothing}, traits::{ConstU32, Contains, Equals, Everything, Nothing},
weights::Weight, weights::Weight,
}; };
@@ -51,17 +51,17 @@ use xcm_builder::{
use xcm_executor::{traits::WithOriginFilter, XcmExecutor}; use xcm_executor::{traits::WithOriginFilter, XcmExecutor};
parameter_types! { parameter_types! {
pub const WndLocation: MultiLocation = MultiLocation::parent(); pub const WndLocation: Location = Location::parent();
pub const RelayNetwork: Option<NetworkId> = Some(NetworkId::Westend); pub const RelayNetwork: Option<NetworkId> = Some(NetworkId::Westend);
pub RelayChainOrigin: RuntimeOrigin = cumulus_pallet_xcm::Origin::Relay.into(); pub RelayChainOrigin: RuntimeOrigin = cumulus_pallet_xcm::Origin::Relay.into();
pub UniversalLocation: InteriorMultiLocation = pub UniversalLocation: InteriorLocation =
X2(GlobalConsensus(RelayNetwork::get().unwrap()), Parachain(ParachainInfo::parachain_id().into())); [GlobalConsensus(RelayNetwork::get().unwrap()), Parachain(ParachainInfo::parachain_id().into())].into();
pub RelayTreasuryLocation: MultiLocation = (Parent, PalletInstance(westend_runtime_constants::TREASURY_PALLET_ID)).into(); pub RelayTreasuryLocation: Location = (Parent, PalletInstance(westend_runtime_constants::TREASURY_PALLET_ID)).into();
pub CheckingAccount: AccountId = PolkadotXcm::check_account(); pub CheckingAccount: AccountId = PolkadotXcm::check_account();
pub const GovernanceLocation: MultiLocation = MultiLocation::parent(); pub const GovernanceLocation: Location = Location::parent();
pub const FellowshipAdminBodyId: BodyId = BodyId::Index(xcm_constants::body::FELLOWSHIP_ADMIN_INDEX); pub const FellowshipAdminBodyId: BodyId = BodyId::Index(xcm_constants::body::FELLOWSHIP_ADMIN_INDEX);
pub AssetHub: Location = (Parent, Parachain(1000)).into();
pub const TreasurerBodyId: BodyId = BodyId::Index(xcm_constants::body::TREASURER_INDEX); pub const TreasurerBodyId: BodyId = BodyId::Index(xcm_constants::body::TREASURER_INDEX);
pub AssetHub: MultiLocation = (Parent, Parachain(1000)).into();
pub AssetHubUsdtId: AssetId = (PalletInstance(50), GeneralIndex(1984)).into(); pub AssetHubUsdtId: AssetId = (PalletInstance(50), GeneralIndex(1984)).into();
pub UsdtAssetHub: LocatableAssetId = LocatableAssetId { pub UsdtAssetHub: LocatableAssetId = LocatableAssetId {
location: AssetHub::get(), location: AssetHub::get(),
@@ -73,7 +73,7 @@ parameter_types! {
}; };
} }
/// Type for specifying how a `MultiLocation` can be converted into an `AccountId`. This is used /// Type for specifying how a `Location` can be converted into an `AccountId`. This is used
/// when determining ownership of accounts for asset transacting and when attempting to use XCM /// when determining ownership of accounts for asset transacting and when attempting to use XCM
/// `Transact` in order to determine the dispatch Origin. /// `Transact` in order to determine the dispatch Origin.
pub type LocationToAccountId = ( pub type LocationToAccountId = (
@@ -92,7 +92,7 @@ pub type CurrencyTransactor = CurrencyAdapter<
Balances, Balances,
// Use this currency when it is a fungible asset matching the given location or name: // Use this currency when it is a fungible asset matching the given location or name:
IsConcrete<WndLocation>, IsConcrete<WndLocation>,
// Convert an XCM MultiLocation into a local account id: // Convert an XCM Location into a local account id:
LocationToAccountId, LocationToAccountId,
// Our chain's account ID type (we can't get away without mentioning it explicitly): // Our chain's account ID type (we can't get away without mentioning it explicitly):
AccountId, AccountId,
@@ -136,11 +136,11 @@ parameter_types! {
pub const FellowsBodyId: BodyId = BodyId::Technical; pub const FellowsBodyId: BodyId = BodyId::Technical;
} }
match_types! { pub struct ParentOrParentsPlurality;
pub type ParentOrParentsPlurality: impl Contains<MultiLocation> = { impl Contains<Location> for ParentOrParentsPlurality {
MultiLocation { parents: 1, interior: Here } | fn contains(location: &Location) -> bool {
MultiLocation { parents: 1, interior: X1(Plurality { .. }) } matches!(location.unpack(), (1, []) | (1, [Plurality { .. }]))
}; }
} }
/// A call filter for the XCM Transact instruction. This is a temporary measure until we properly /// A call filter for the XCM Transact instruction. This is a temporary measure until we properly
@@ -292,7 +292,7 @@ impl xcm_executor::Config for XcmConfig {
type Aliasers = Nothing; type Aliasers = Nothing;
} }
/// Converts a local signed origin into an XCM multilocation. /// Converts a local signed origin into an XCM location.
/// Forms the basis for local origins sending/executing XCMs. /// Forms the basis for local origins sending/executing XCMs.
pub type LocalOriginToLocation = SignedToAccountId32<RuntimeOrigin, AccountId, RelayNetwork>; pub type LocalOriginToLocation = SignedToAccountId32<RuntimeOrigin, AccountId, RelayNetwork>;
@@ -310,10 +310,10 @@ pub type XcmRouter = WithUniqueTopic<(
#[cfg(feature = "runtime-benchmarks")] #[cfg(feature = "runtime-benchmarks")]
parameter_types! { parameter_types! {
pub ReachableDest: Option<MultiLocation> = Some(Parent.into()); pub ReachableDest: Option<Location> = Some(Parent.into());
} }
/// Type to convert the Fellows origin to a Plurality `MultiLocation` value. /// Type to convert the Fellows origin to a Plurality `Location` value.
pub type FellowsToPlurality = OriginToPluralityVoice<RuntimeOrigin, Fellows, FellowsBodyId>; pub type FellowsToPlurality = OriginToPluralityVoice<RuntimeOrigin, Fellows, FellowsBodyId>;
impl pallet_xcm::Config for Runtime { impl pallet_xcm::Config for Runtime {

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