pezkuwichain/pezkuwi-subxt
1
0
Fork 0
mirror of https://github.com/pezkuwichain/pezkuwi-subxt.git synced 2026-05-30 18:41:03 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
8219cb1ccd538f8995c3ed097c1e22e9d909099f
pezkuwi-subxt/polkadot/xcm/pallet-xcm/src/lib.rs
T
Francisco Aguirre 8219cb1ccd Stop weighing XCM execution on pallet-xcm's send extrinsic (#7201) 
* Stop weighing XCM execution on pallet-xcm's send extrinsic

* Add missing instruction to transfer extrinsics' weight in pallet-xcm
2023-05-09 16:18:29 -03:00

2221 lines
79 KiB
Rust
Raw Blame History

// Copyright (C) Parity Technologies (UK) Ltd.
// This file is part of Polkadot.
// Polkadot is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Polkadot is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Polkadot. If not, see <http://www.gnu.org/licenses/>.
//! Pallet to handle XCM messages.
#![cfg_attr(not(feature = "std"), no_std)]
#[cfg(feature = "runtime-benchmarks")]
mod benchmarking;
#[cfg(test)]
mod mock;
#[cfg(test)]
mod tests;
pub mod migration;
use codec::{Decode, Encode, EncodeLike, MaxEncodedLen};
use frame_support::traits::{
Contains, ContainsPair, Currency, Defensive, EnsureOrigin, Get, LockableCurrency, OriginTrait,
};
use scale_info::TypeInfo;
use sp_runtime::{
traits::{
AccountIdConversion, BadOrigin, BlakeTwo256, BlockNumberProvider, Hash, Saturating, Zero,
},
RuntimeDebug,
};
use sp_std::{boxed::Box, marker::PhantomData, prelude::*, result::Result, vec};
use xcm::{latest::QueryResponseInfo, prelude::*};
use xcm_executor::traits::{Convert, ConvertOrigin};
use frame_support::{
dispatch::{Dispatchable, GetDispatchInfo},
pallet_prelude::*,
traits::WithdrawReasons,
PalletId,
};
use frame_system::pallet_prelude::*;
pub use pallet::*;
use xcm_executor::{
traits::{
CheckSuspension, ClaimAssets, DropAssets, MatchesFungible, OnResponse,
VersionChangeNotifier, WeightBounds,
},
Assets,
};
pub trait WeightInfo {
fn send() -> Weight;
fn teleport_assets() -> Weight;
fn reserve_transfer_assets() -> Weight;
fn execute() -> Weight;
fn force_xcm_version() -> Weight;
fn force_default_xcm_version() -> Weight;
fn force_subscribe_version_notify() -> Weight;
fn force_unsubscribe_version_notify() -> Weight;
fn force_suspension() -> Weight;
fn migrate_supported_version() -> Weight;
fn migrate_version_notifiers() -> Weight;
fn already_notified_target() -> Weight;
fn notify_current_targets() -> Weight;
fn notify_target_migration_fail() -> Weight;
fn migrate_version_notify_targets() -> Weight;
fn migrate_and_notify_old_targets() -> Weight;
}
/// fallback implementation
pub struct TestWeightInfo;
impl WeightInfo for TestWeightInfo {
fn send() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn teleport_assets() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn reserve_transfer_assets() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn execute() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn force_xcm_version() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn force_default_xcm_version() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn force_subscribe_version_notify() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn force_unsubscribe_version_notify() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn force_suspension() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn migrate_supported_version() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn migrate_version_notifiers() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn already_notified_target() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn notify_current_targets() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn notify_target_migration_fail() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn migrate_version_notify_targets() -> Weight {
Weight::from_parts(100_000_000, 0)
}
fn migrate_and_notify_old_targets() -> Weight {
Weight::from_parts(100_000_000, 0)
}
}
#[frame_support::pallet]
pub mod pallet {
use super::*;
use frame_support::{
dispatch::{Dispatchable, GetDispatchInfo, PostDispatchInfo},
parameter_types,
};
use frame_system::Config as SysConfig;
use sp_core::H256;
use xcm_executor::traits::{MatchesFungible, WeightBounds};
parameter_types! {
/// An implementation of `Get<u32>` which just returns the latest XCM version which we can
/// support.
pub const CurrentXcmVersion: u32 = XCM_VERSION;
}
#[pallet::pallet]
#[pallet::storage_version(migration::STORAGE_VERSION)]
#[pallet::without_storage_info]
pub struct Pallet<T>(_);
pub type BalanceOf<T> =
<<T as Config>::Currency as Currency<<T as frame_system::Config>::AccountId>>::Balance;
#[pallet::config]
/// The module configuration trait.
pub trait Config: frame_system::Config {
/// The overarching event type.
type RuntimeEvent: From<Event<Self>> + IsType<<Self as frame_system::Config>::RuntimeEvent>;
/// A lockable currency.
// TODO: We should really use a trait which can handle multiple currencies.
type Currency: LockableCurrency<Self::AccountId, Moment = Self::BlockNumber>;
/// The `MultiAsset` matcher for `Currency`.
type CurrencyMatcher: MatchesFungible<BalanceOf<Self>>;
/// Required origin for sending XCM messages. If successful, it resolves to `MultiLocation`
/// which exists as an interior location within this chain's XCM context.
type SendXcmOrigin: EnsureOrigin<
<Self as SysConfig>::RuntimeOrigin,
Success = MultiLocation,
>;
/// The type used to actually dispatch an XCM to its destination.
type XcmRouter: SendXcm;
/// Required origin for executing XCM messages, including the teleport functionality. If successful,
/// then it resolves to `MultiLocation` which exists as an interior location within this chain's XCM
/// context.
type ExecuteXcmOrigin: EnsureOrigin<
<Self as SysConfig>::RuntimeOrigin,
Success = MultiLocation,
>;
/// Our XCM filter which messages to be executed using `XcmExecutor` must pass.
type XcmExecuteFilter: Contains<(MultiLocation, Xcm<<Self as SysConfig>::RuntimeCall>)>;
/// Something to execute an XCM message.
type XcmExecutor: ExecuteXcm<<Self as SysConfig>::RuntimeCall>;
/// Our XCM filter which messages to be teleported using the dedicated extrinsic must pass.
type XcmTeleportFilter: Contains<(MultiLocation, Vec<MultiAsset>)>;
/// Our XCM filter which messages to be reserve-transferred using the dedicated extrinsic must pass.
type XcmReserveTransferFilter: Contains<(MultiLocation, Vec<MultiAsset>)>;
/// Means of measuring the weight consumed by an XCM message locally.
type Weigher: WeightBounds<<Self as SysConfig>::RuntimeCall>;
/// This chain's Universal Location.
type UniversalLocation: Get<InteriorMultiLocation>;
/// The runtime `Origin` type.
type RuntimeOrigin: From<Origin> + From<<Self as SysConfig>::RuntimeOrigin>;
/// The runtime `Call` type.
type RuntimeCall: Parameter
+ GetDispatchInfo
+ IsType<<Self as frame_system::Config>::RuntimeCall>
+ Dispatchable<
RuntimeOrigin = <Self as Config>::RuntimeOrigin,
PostInfo = PostDispatchInfo,
>;
const VERSION_DISCOVERY_QUEUE_SIZE: u32;
/// The latest supported version that we advertise. Generally just set it to
/// `pallet_xcm::CurrentXcmVersion`.
type AdvertisedXcmVersion: Get<XcmVersion>;
/// The origin that is allowed to call privileged operations on the XCM pallet
type AdminOrigin: EnsureOrigin<<Self as SysConfig>::RuntimeOrigin>;
/// The assets which we consider a given origin is trusted if they claim to have placed a
/// lock.
type TrustedLockers: ContainsPair<MultiLocation, MultiAsset>;
/// How to get an `AccountId` value from a `MultiLocation`, useful for handling asset locks.
type SovereignAccountOf: Convert<MultiLocation, Self::AccountId>;
/// The maximum number of local XCM locks that a single account may have.
type MaxLockers: Get<u32>;
/// The maximum number of consumers a single remote lock may have.
type MaxRemoteLockConsumers: Get<u32>;
/// The ID type for local consumers of remote locks.
type RemoteLockConsumerIdentifier: Parameter + Member + MaxEncodedLen + Ord + Copy;
/// Weight information for extrinsics in this pallet.
type WeightInfo: WeightInfo;
/// A `MultiLocation` that can be reached via `XcmRouter`. Used only in benchmarks.
///
/// If `None`, the benchmarks that depend on a reachable destination will be skipped.
#[cfg(feature = "runtime-benchmarks")]
type ReachableDest: Get<Option<MultiLocation>>;
}
#[pallet::event]
#[pallet::generate_deposit(pub(super) fn deposit_event)]
pub enum Event<T: Config> {
/// Execution of an XCM message was attempted.
///
/// \[ outcome \]
Attempted(xcm::latest::Outcome),
/// A XCM message was sent.
///
/// \[ origin, destination, message \]
Sent(MultiLocation, MultiLocation, Xcm<()>),
/// Query response received which does not match a registered query. This may be because a
/// matching query was never registered, it may be because it is a duplicate response, or
/// because the query timed out.
///
/// \[ origin location, id \]
UnexpectedResponse(MultiLocation, QueryId),
/// Query response has been received and is ready for taking with `take_response`. There is
/// no registered notification call.
///
/// \[ id, response \]
ResponseReady(QueryId, Response),
/// Query response has been received and query is removed. The registered notification has
/// been dispatched and executed successfully.
///
/// \[ id, pallet index, call index \]
Notified(QueryId, u8, u8),
/// Query response has been received and query is removed. The registered notification could
/// not be dispatched because the dispatch weight is greater than the maximum weight
/// originally budgeted by this runtime for the query result.
///
/// \[ id, pallet index, call index, actual weight, max budgeted weight \]
NotifyOverweight(QueryId, u8, u8, Weight, Weight),
/// Query response has been received and query is removed. There was a general error with
/// dispatching the notification call.
///
/// \[ id, pallet index, call index \]
NotifyDispatchError(QueryId, u8, u8),
/// Query response has been received and query is removed. The dispatch was unable to be
/// decoded into a `Call`; this might be due to dispatch function having a signature which
/// is not `(origin, QueryId, Response)`.
///
/// \[ id, pallet index, call index \]
NotifyDecodeFailed(QueryId, u8, u8),
/// Expected query response has been received but the origin location of the response does
/// not match that expected. The query remains registered for a later, valid, response to
/// be received and acted upon.
///
/// \[ origin location, id, expected location \]
InvalidResponder(MultiLocation, QueryId, Option<MultiLocation>),
/// Expected query response has been received but the expected origin location placed in
/// storage by this runtime previously cannot be decoded. The query remains registered.
///
/// This is unexpected (since a location placed in storage in a previously executing
/// runtime should be readable prior to query timeout) and dangerous since the possibly
/// valid response will be dropped. Manual governance intervention is probably going to be
/// needed.
///
/// \[ origin location, id \]
InvalidResponderVersion(MultiLocation, QueryId),
/// Received query response has been read and removed.
///
/// \[ id \]
ResponseTaken(QueryId),
/// Some assets have been placed in an asset trap.
///
/// \[ hash, origin, assets \]
AssetsTrapped(H256, MultiLocation, VersionedMultiAssets),
/// An XCM version change notification message has been attempted to be sent.
///
/// The cost of sending it (borne by the chain) is included.
///
/// \[ destination, result, cost \]
VersionChangeNotified(MultiLocation, XcmVersion, MultiAssets),
/// The supported version of a location has been changed. This might be through an
/// automatic notification or a manual intervention.
///
/// \[ location, XCM version \]
SupportedVersionChanged(MultiLocation, XcmVersion),
/// A given location which had a version change subscription was dropped owing to an error
/// sending the notification to it.
///
/// \[ location, query ID, error \]
NotifyTargetSendFail(MultiLocation, QueryId, XcmError),
/// A given location which had a version change subscription was dropped owing to an error
/// migrating the location to our new XCM format.
///
/// \[ location, query ID \]
NotifyTargetMigrationFail(VersionedMultiLocation, QueryId),
/// Expected query response has been received but the expected querier location placed in
/// storage by this runtime previously cannot be decoded. The query remains registered.
///
/// This is unexpected (since a location placed in storage in a previously executing
/// runtime should be readable prior to query timeout) and dangerous since the possibly
/// valid response will be dropped. Manual governance intervention is probably going to be
/// needed.
///
/// \[ origin location, id \]
InvalidQuerierVersion(MultiLocation, QueryId),
/// Expected query response has been received but the querier location of the response does
/// not match the expected. The query remains registered for a later, valid, response to
/// be received and acted upon.
///
/// \[ origin location, id, expected querier, maybe actual querier \]
InvalidQuerier(MultiLocation, QueryId, MultiLocation, Option<MultiLocation>),
/// A remote has requested XCM version change notification from us and we have honored it.
/// A version information message is sent to them and its cost is included.
///
/// \[ destination location, cost \]
VersionNotifyStarted(MultiLocation, MultiAssets),
/// We have requested that a remote chain sends us XCM version change notifications.
///
/// \[ destination location, cost \]
VersionNotifyRequested(MultiLocation, MultiAssets),
/// We have requested that a remote chain stops sending us XCM version change notifications.
///
/// \[ destination location, cost \]
VersionNotifyUnrequested(MultiLocation, MultiAssets),
/// Fees were paid from a location for an operation (often for using `SendXcm`).
///
/// \[ paying location, fees \]
FeesPaid(MultiLocation, MultiAssets),
/// Some assets have been claimed from an asset trap
///
/// \[ hash, origin, assets \]
AssetsClaimed(H256, MultiLocation, VersionedMultiAssets),
}
#[pallet::origin]
#[derive(PartialEq, Eq, Clone, Encode, Decode, RuntimeDebug, TypeInfo, MaxEncodedLen)]
pub enum Origin {
/// It comes from somewhere in the XCM space wanting to transact.
Xcm(MultiLocation),
/// It comes as an expected response from an XCM location.
Response(MultiLocation),
}
impl From<MultiLocation> for Origin {
fn from(location: MultiLocation) -> Origin {
Origin::Xcm(location)
}
}
#[pallet::error]
pub enum Error<T> {
/// The desired destination was unreachable, generally because there is a no way of routing
/// to it.
Unreachable,
/// There was some other issue (i.e. not to do with routing) in sending the message. Perhaps
/// a lack of space for buffering the message.
SendFailure,
/// The message execution fails the filter.
Filtered,
/// The message's weight could not be determined.
UnweighableMessage,
/// The destination `MultiLocation` provided cannot be inverted.
DestinationNotInvertible,
/// The assets to be sent are empty.
Empty,
/// Could not re-anchor the assets to declare the fees for the destination chain.
CannotReanchor,
/// Too many assets have been attempted for transfer.
TooManyAssets,
/// Origin is invalid for sending.
InvalidOrigin,
/// The version of the `Versioned` value used is not able to be interpreted.
BadVersion,
/// The given location could not be used (e.g. because it cannot be expressed in the
/// desired version of XCM).
BadLocation,
/// The referenced subscription could not be found.
NoSubscription,
/// The location is invalid since it already has a subscription from us.
AlreadySubscribed,
/// Invalid asset for the operation.
InvalidAsset,
/// The owner does not own (all) of the asset that they wish to do the operation on.
LowBalance,
/// The asset owner has too many locks on the asset.
TooManyLocks,
/// The given account is not an identifiable sovereign account for any location.
AccountNotSovereign,
/// The operation required fees to be paid which the initiator could not meet.
FeesNotMet,
/// A remote lock with the corresponding data could not be found.
LockNotFound,
/// The unlock operation cannot succeed because there are still consumers of the lock.
InUse,
}
impl<T: Config> From<SendError> for Error<T> {
fn from(e: SendError) -> Self {
match e {
SendError::Fees => Error::<T>::FeesNotMet,
SendError::NotApplicable => Error::<T>::Unreachable,
_ => Error::<T>::SendFailure,
}
}
}
/// The status of a query.
#[derive(Clone, Eq, PartialEq, Encode, Decode, RuntimeDebug, TypeInfo)]
pub enum QueryStatus<BlockNumber> {
/// The query was sent but no response has yet been received.
Pending {
/// The `QueryResponse` XCM must have this origin to be considered a reply for this
/// query.
responder: VersionedMultiLocation,
/// The `QueryResponse` XCM must have this value as the `querier` field to be
/// considered a reply for this query. If `None` then the querier is ignored.
maybe_match_querier: Option<VersionedMultiLocation>,
maybe_notify: Option<(u8, u8)>,
timeout: BlockNumber,
},
/// The query is for an ongoing version notification subscription.
VersionNotifier { origin: VersionedMultiLocation, is_active: bool },
/// A response has been received.
Ready { response: VersionedResponse, at: BlockNumber },
}
#[derive(Copy, Clone)]
pub(crate) struct LatestVersionedMultiLocation<'a>(pub(crate) &'a MultiLocation);
impl<'a> EncodeLike<VersionedMultiLocation> for LatestVersionedMultiLocation<'a> {}
impl<'a> Encode for LatestVersionedMultiLocation<'a> {
fn encode(&self) -> Vec<u8> {
let mut r = VersionedMultiLocation::from(MultiLocation::default()).encode();
r.truncate(1);
self.0.using_encoded(|d| r.extend_from_slice(d));
r
}
}
#[derive(Clone, Encode, Decode, Eq, PartialEq, Ord, PartialOrd, TypeInfo)]
pub enum VersionMigrationStage {
MigrateSupportedVersion,
MigrateVersionNotifiers,
NotifyCurrentTargets(Option<Vec<u8>>),
MigrateAndNotifyOldTargets,
}
impl Default for VersionMigrationStage {
fn default() -> Self {
Self::MigrateSupportedVersion
}
}
/// The latest available query index.
#[pallet::storage]
pub(super) type QueryCounter<T: Config> = StorageValue<_, QueryId, ValueQuery>;
/// The ongoing queries.
#[pallet::storage]
#[pallet::getter(fn query)]
pub(super) type Queries<T: Config> =
StorageMap<_, Blake2_128Concat, QueryId, QueryStatus<T::BlockNumber>, OptionQuery>;
/// The existing asset traps.
///
/// Key is the blake2 256 hash of (origin, versioned `MultiAssets`) pair. Value is the number of
/// times this pair has been trapped (usually just 1 if it exists at all).
#[pallet::storage]
#[pallet::getter(fn asset_trap)]
pub(super) type AssetTraps<T: Config> = StorageMap<_, Identity, H256, u32, ValueQuery>;
/// Default version to encode XCM when latest version of destination is unknown. If `None`,
/// then the destinations whose XCM version is unknown are considered unreachable.
#[pallet::storage]
pub(super) type SafeXcmVersion<T: Config> = StorageValue<_, XcmVersion, OptionQuery>;
/// The Latest versions that we know various locations support.
#[pallet::storage]
pub(super) type SupportedVersion<T: Config> = StorageDoubleMap<
_,
Twox64Concat,
XcmVersion,
Blake2_128Concat,
VersionedMultiLocation,
XcmVersion,
OptionQuery,
>;
/// All locations that we have requested version notifications from.
#[pallet::storage]
pub(super) type VersionNotifiers<T: Config> = StorageDoubleMap<
_,
Twox64Concat,
XcmVersion,
Blake2_128Concat,
VersionedMultiLocation,
QueryId,
OptionQuery,
>;
/// The target locations that are subscribed to our version changes, as well as the most recent
/// of our versions we informed them of.
#[pallet::storage]
pub(super) type VersionNotifyTargets<T: Config> = StorageDoubleMap<
_,
Twox64Concat,
XcmVersion,
Blake2_128Concat,
VersionedMultiLocation,
(QueryId, Weight, XcmVersion),
OptionQuery,
>;
pub struct VersionDiscoveryQueueSize<T>(PhantomData<T>);
impl<T: Config> Get<u32> for VersionDiscoveryQueueSize<T> {
fn get() -> u32 {
T::VERSION_DISCOVERY_QUEUE_SIZE
}
}
/// Destinations whose latest XCM version we would like to know. Duplicates not allowed, and
/// the `u32` counter is the number of times that a send to the destination has been attempted,
/// which is used as a prioritization.
#[pallet::storage]
pub(super) type VersionDiscoveryQueue<T: Config> = StorageValue<
_,
BoundedVec<(VersionedMultiLocation, u32), VersionDiscoveryQueueSize<T>>,
ValueQuery,
>;
/// The current migration's stage, if any.
#[pallet::storage]
pub(super) type CurrentMigration<T: Config> =
StorageValue<_, VersionMigrationStage, OptionQuery>;
#[derive(Clone, Encode, Decode, Eq, PartialEq, Ord, PartialOrd, TypeInfo, MaxEncodedLen)]
#[scale_info(skip_type_params(MaxConsumers))]
pub struct RemoteLockedFungibleRecord<ConsumerIdentifier, MaxConsumers: Get<u32>> {
/// Total amount of the asset held by the remote lock.
pub amount: u128,
/// The owner of the locked asset.
pub owner: VersionedMultiLocation,
/// The location which holds the original lock.
pub locker: VersionedMultiLocation,
/// Local consumers of the remote lock with a consumer identifier and the amount
/// of fungible asset every consumer holds.
/// Every consumer can hold up to total amount of the remote lock.
pub consumers: BoundedVec<(ConsumerIdentifier, u128), MaxConsumers>,
}
impl<LockId, MaxConsumers: Get<u32>> RemoteLockedFungibleRecord<LockId, MaxConsumers> {
/// Amount of the remote lock in use by consumers.
/// Returns `None` if the remote lock has no consumers.
pub fn amount_held(&self) -> Option<u128> {
self.consumers.iter().max_by(|x, y| x.1.cmp(&y.1)).map(|max| max.1)
}
}
/// Fungible assets which we know are locked on a remote chain.
#[pallet::storage]
pub(super) type RemoteLockedFungibles<T: Config> = StorageNMap<
_,
(
NMapKey<Twox64Concat, XcmVersion>,
NMapKey<Blake2_128Concat, T::AccountId>,
NMapKey<Blake2_128Concat, VersionedAssetId>,
),
RemoteLockedFungibleRecord<T::RemoteLockConsumerIdentifier, T::MaxRemoteLockConsumers>,
OptionQuery,
>;
/// Fungible assets which we know are locked on this chain.
#[pallet::storage]
pub(super) type LockedFungibles<T: Config> = StorageMap<
_,
Blake2_128Concat,
T::AccountId,
BoundedVec<(BalanceOf<T>, VersionedMultiLocation), T::MaxLockers>,
OptionQuery,
>;
/// Global suspension state of the XCM executor.
#[pallet::storage]
pub(super) type XcmExecutionSuspended<T: Config> = StorageValue<_, bool, ValueQuery>;
#[pallet::genesis_config]
pub struct GenesisConfig {
/// The default version to encode outgoing XCM messages with.
pub safe_xcm_version: Option<XcmVersion>,
}
#[cfg(feature = "std")]
impl Default for GenesisConfig {
fn default() -> Self {
Self { safe_xcm_version: Some(XCM_VERSION) }
}
}
#[pallet::genesis_build]
impl<T: Config> GenesisBuild<T> for GenesisConfig {
fn build(&self) {
SafeXcmVersion::<T>::set(self.safe_xcm_version);
}
}
#[pallet::hooks]
impl<T: Config> Hooks<BlockNumberFor<T>> for Pallet<T> {
fn on_initialize(_n: BlockNumberFor<T>) -> Weight {
let mut weight_used = Weight::zero();
if let Some(migration) = CurrentMigration::<T>::get() {
// Consume 10% of block at most
let max_weight = T::BlockWeights::get().max_block / 10;
let (w, maybe_migration) = Self::check_xcm_version_change(migration, max_weight);
CurrentMigration::<T>::set(maybe_migration);
weight_used.saturating_accrue(w);
}
// Here we aim to get one successful version negotiation request sent per block, ordered
// by the destinations being most sent to.
let mut q = VersionDiscoveryQueue::<T>::take().into_inner();
// TODO: correct weights.
weight_used.saturating_accrue(T::DbWeight::get().reads_writes(1, 1));
q.sort_by_key(|i| i.1);
while let Some((versioned_dest, _)) = q.pop() {
if let Ok(dest) = MultiLocation::try_from(versioned_dest) {
if Self::request_version_notify(dest).is_ok() {
// TODO: correct weights.
weight_used.saturating_accrue(T::DbWeight::get().reads_writes(1, 1));
break
}
}
}
// Should never fail since we only removed items. But better safe than panicking as it's
// way better to drop the queue than panic on initialize.
if let Ok(q) = BoundedVec::try_from(q) {
VersionDiscoveryQueue::<T>::put(q);
}
weight_used
}
fn on_runtime_upgrade() -> Weight {
// Start a migration (this happens before on_initialize so it'll happen later in this
// block, which should be good enough)...
CurrentMigration::<T>::put(VersionMigrationStage::default());
T::DbWeight::get().writes(1)
}
}
pub mod migrations {
use super::*;
use frame_support::traits::{PalletInfoAccess, StorageVersion};
#[derive(Clone, Eq, PartialEq, Encode, Decode, RuntimeDebug, TypeInfo)]
enum QueryStatusV0<BlockNumber> {
Pending {
responder: VersionedMultiLocation,
maybe_notify: Option<(u8, u8)>,
timeout: BlockNumber,
},
VersionNotifier {
origin: VersionedMultiLocation,
is_active: bool,
},
Ready {
response: VersionedResponse,
at: BlockNumber,
},
}
impl<B> From<QueryStatusV0<B>> for QueryStatus<B> {
fn from(old: QueryStatusV0<B>) -> Self {
use QueryStatusV0::*;
match old {
Pending { responder, maybe_notify, timeout } => QueryStatus::Pending {
responder,
maybe_notify,
timeout,
maybe_match_querier: Some(MultiLocation::here().into()),
},
VersionNotifier { origin, is_active } =>
QueryStatus::VersionNotifier { origin, is_active },
Ready { response, at } => QueryStatus::Ready { response, at },
}
}
}
pub fn migrate_to_v1<T: Config, P: GetStorageVersion + PalletInfoAccess>(
) -> frame_support::weights::Weight {
let on_chain_storage_version = <P as GetStorageVersion>::on_chain_storage_version();
log::info!(
target: "runtime::xcm",
"Running migration storage v1 for xcm with storage version {:?}",
on_chain_storage_version,
);
if on_chain_storage_version < 1 {
let mut count = 0;
Queries::<T>::translate::<QueryStatusV0<T::BlockNumber>, _>(|_key, value| {
count += 1;
Some(value.into())
});
StorageVersion::new(1).put::<P>();
log::info!(
target: "runtime::xcm",
"Running migration storage v1 for xcm with storage version {:?} was complete",
on_chain_storage_version,
);
// calculate and return migration weights
T::DbWeight::get().reads_writes(count as u64 + 1, count as u64 + 1)
} else {
log::warn!(
target: "runtime::xcm",
"Attempted to apply migration to v1 but failed because storage version is {:?}",
on_chain_storage_version,
);
T::DbWeight::get().reads(1)
}
}
}
#[pallet::call]
impl<T: Config> Pallet<T> {
#[pallet::call_index(0)]
#[pallet::weight(T::WeightInfo::send())]
pub fn send(
origin: OriginFor<T>,
dest: Box<VersionedMultiLocation>,
message: Box<VersionedXcm<()>>,
) -> DispatchResult {
let origin_location = T::SendXcmOrigin::ensure_origin(origin)?;
let interior: Junctions =
origin_location.try_into().map_err(|_| Error::<T>::InvalidOrigin)?;
let dest = MultiLocation::try_from(*dest).map_err(|()| Error::<T>::BadVersion)?;
let message: Xcm<()> = (*message).try_into().map_err(|()| Error::<T>::BadVersion)?;
Self::send_xcm(interior, dest, message.clone()).map_err(Error::<T>::from)?;
Self::deposit_event(Event::Sent(origin_location, dest, message));
Ok(())
}
/// Teleport some assets from the local chain to some destination chain.
///
/// Fee payment on the destination side is made from the asset in the `assets` vector of
/// index `fee_asset_item`. The weight limit for fees is not provided and thus is unlimited,
/// with all fees taken as needed from the asset.
///
/// - `origin`: Must be capable of withdrawing the `assets` and executing XCM.
/// - `dest`: Destination context for the assets. Will typically be `X2(Parent, Parachain(..))` to send
/// from parachain to parachain, or `X1(Parachain(..))` to send from relay to parachain.
/// - `beneficiary`: A beneficiary location for the assets in the context of `dest`. Will generally be
/// an `AccountId32` value.
/// - `assets`: The assets to be withdrawn. The first item should be the currency used to to pay the fee on the
/// `dest` side. May not be empty.
/// - `fee_asset_item`: The index into `assets` of the item which should be used to pay
/// fees.
#[pallet::call_index(1)]
#[pallet::weight({
let maybe_assets: Result<MultiAssets, ()> = (*assets.clone()).try_into();
let maybe_dest: Result<MultiLocation, ()> = (*dest.clone()).try_into();
match (maybe_assets, maybe_dest) {
(Ok(assets), Ok(dest)) => {
use sp_std::vec;
let count = assets.len() as u32;
let mut message = Xcm(vec![
WithdrawAsset(assets),
SetFeesMode { jit_withdraw: true },
InitiateTeleport {
assets: Wild(AllCounted(count)),
dest,
xcm: Xcm(vec![]),
},
]);
T::Weigher::weight(&mut message).map_or(Weight::MAX, |w| T::WeightInfo::teleport_assets().saturating_add(w))
}
_ => Weight::MAX,
}
})]
pub fn teleport_assets(
origin: OriginFor<T>,
dest: Box<VersionedMultiLocation>,
beneficiary: Box<VersionedMultiLocation>,
assets: Box<VersionedMultiAssets>,
fee_asset_item: u32,
) -> DispatchResult {
Self::do_teleport_assets(origin, dest, beneficiary, assets, fee_asset_item, None)
}
/// Transfer some assets from the local chain to the sovereign account of a destination
/// chain and forward a notification XCM.
///
/// Fee payment on the destination side is made from the asset in the `assets` vector of
/// index `fee_asset_item`. The weight limit for fees is not provided and thus is unlimited,
/// with all fees taken as needed from the asset.
///
/// - `origin`: Must be capable of withdrawing the `assets` and executing XCM.
/// - `dest`: Destination context for the assets. Will typically be `X2(Parent, Parachain(..))` to send
/// from parachain to parachain, or `X1(Parachain(..))` to send from relay to parachain.
/// - `beneficiary`: A beneficiary location for the assets in the context of `dest`. Will generally be
/// an `AccountId32` value.
/// - `assets`: The assets to be withdrawn. This should include the assets used to pay the fee on the
/// `dest` side.
/// - `fee_asset_item`: The index into `assets` of the item which should be used to pay
/// fees.
#[pallet::call_index(2)]
#[pallet::weight({
let maybe_assets: Result<MultiAssets, ()> = (*assets.clone()).try_into();
let maybe_dest: Result<MultiLocation, ()> = (*dest.clone()).try_into();
match (maybe_assets, maybe_dest) {
(Ok(assets), Ok(dest)) => {
use sp_std::vec;
let mut message = Xcm(vec![
SetFeesMode { jit_withdraw: true },
TransferReserveAsset { assets, dest, xcm: Xcm(vec![]) }
]);
T::Weigher::weight(&mut message).map_or(Weight::MAX, |w| T::WeightInfo::reserve_transfer_assets().saturating_add(w))
}
_ => Weight::MAX,
}
})]
pub fn reserve_transfer_assets(
origin: OriginFor<T>,
dest: Box<VersionedMultiLocation>,
beneficiary: Box<VersionedMultiLocation>,
assets: Box<VersionedMultiAssets>,
fee_asset_item: u32,
) -> DispatchResult {
Self::do_reserve_transfer_assets(
origin,
dest,
beneficiary,
assets,
fee_asset_item,
None,
)
}
/// Execute an XCM message from a local, signed, origin.
///
/// An event is deposited indicating whether `msg` could be executed completely or only
/// partially.
///
/// No more than `max_weight` will be used in its attempted execution. If this is less than the
/// maximum amount of weight that the message could take to be executed, then no execution
/// attempt will be made.
///
/// NOTE: A successful return to this does *not* imply that the `msg` was executed successfully
/// to completion; only that *some* of it was executed.
#[pallet::call_index(3)]
#[pallet::weight(max_weight.saturating_add(T::WeightInfo::execute()))]
pub fn execute(
origin: OriginFor<T>,
message: Box<VersionedXcm<<T as SysConfig>::RuntimeCall>>,
max_weight: Weight,
) -> DispatchResultWithPostInfo {
let origin_location = T::ExecuteXcmOrigin::ensure_origin(origin)?;
let hash = message.using_encoded(sp_io::hashing::blake2_256);
let message = (*message).try_into().map_err(|()| Error::<T>::BadVersion)?;
let value = (origin_location, message);
ensure!(T::XcmExecuteFilter::contains(&value), Error::<T>::Filtered);
let (origin_location, message) = value;
let outcome = T::XcmExecutor::execute_xcm_in_credit(
origin_location,
message,
hash,
max_weight,
max_weight,
);
let result =
Ok(Some(outcome.weight_used().saturating_add(T::WeightInfo::execute())).into());
Self::deposit_event(Event::Attempted(outcome));
result
}
/// Extoll that a particular destination can be communicated with through a particular
/// version of XCM.
///
/// - `origin`: Must be an origin specified by AdminOrigin.
/// - `location`: The destination that is being described.
/// - `xcm_version`: The latest version of XCM that `location` supports.
#[pallet::call_index(4)]
#[pallet::weight(T::WeightInfo::force_xcm_version())]
pub fn force_xcm_version(
origin: OriginFor<T>,
location: Box<MultiLocation>,
xcm_version: XcmVersion,
) -> DispatchResult {
T::AdminOrigin::ensure_origin(origin)?;
let location = *location;
SupportedVersion::<T>::insert(
XCM_VERSION,
LatestVersionedMultiLocation(&location),
xcm_version,
);
Self::deposit_event(Event::SupportedVersionChanged(location, xcm_version));
Ok(())
}
/// Set a safe XCM version (the version that XCM should be encoded with if the most recent
/// version a destination can accept is unknown).
///
/// - `origin`: Must be an origin specified by AdminOrigin.
/// - `maybe_xcm_version`: The default XCM encoding version, or `None` to disable.
#[pallet::call_index(5)]
#[pallet::weight(T::WeightInfo::force_default_xcm_version())]
pub fn force_default_xcm_version(
origin: OriginFor<T>,
maybe_xcm_version: Option<XcmVersion>,
) -> DispatchResult {
T::AdminOrigin::ensure_origin(origin)?;
SafeXcmVersion::<T>::set(maybe_xcm_version);
Ok(())
}
/// Ask a location to notify us regarding their XCM version and any changes to it.
///
/// - `origin`: Must be an origin specified by AdminOrigin.
/// - `location`: The location to which we should subscribe for XCM version notifications.
#[pallet::call_index(6)]
#[pallet::weight(T::WeightInfo::force_subscribe_version_notify())]
pub fn force_subscribe_version_notify(
origin: OriginFor<T>,
location: Box<VersionedMultiLocation>,
) -> DispatchResult {
T::AdminOrigin::ensure_origin(origin)?;
let location: MultiLocation =
(*location).try_into().map_err(|()| Error::<T>::BadLocation)?;
Self::request_version_notify(location).map_err(|e| {
match e {
XcmError::InvalidLocation => Error::<T>::AlreadySubscribed,
_ => Error::<T>::InvalidOrigin,
}
.into()
})
}
/// Require that a particular destination should no longer notify us regarding any XCM
/// version changes.
///
/// - `origin`: Must be an origin specified by AdminOrigin.
/// - `location`: The location to which we are currently subscribed for XCM version
/// notifications which we no longer desire.
#[pallet::call_index(7)]
#[pallet::weight(T::WeightInfo::force_unsubscribe_version_notify())]
pub fn force_unsubscribe_version_notify(
origin: OriginFor<T>,
location: Box<VersionedMultiLocation>,
) -> DispatchResult {
T::AdminOrigin::ensure_origin(origin)?;
let location: MultiLocation =
(*location).try_into().map_err(|()| Error::<T>::BadLocation)?;
Self::unrequest_version_notify(location).map_err(|e| {
match e {
XcmError::InvalidLocation => Error::<T>::NoSubscription,
_ => Error::<T>::InvalidOrigin,
}
.into()
})
}
/// Transfer some assets from the local chain to the sovereign account of a destination
/// chain and forward a notification XCM.
///
/// Fee payment on the destination side is made from the asset in the `assets` vector of
/// index `fee_asset_item`, up to enough to pay for `weight_limit` of weight. If more weight
/// is needed than `weight_limit`, then the operation will fail and the assets send may be
/// at risk.
///
/// - `origin`: Must be capable of withdrawing the `assets` and executing XCM.
/// - `dest`: Destination context for the assets. Will typically be `X2(Parent, Parachain(..))` to send
/// from parachain to parachain, or `X1(Parachain(..))` to send from relay to parachain.
/// - `beneficiary`: A beneficiary location for the assets in the context of `dest`. Will generally be
/// an `AccountId32` value.
/// - `assets`: The assets to be withdrawn. This should include the assets used to pay the fee on the
/// `dest` side.
/// - `fee_asset_item`: The index into `assets` of the item which should be used to pay
/// fees.
/// - `weight_limit`: The remote-side weight limit, if any, for the XCM fee purchase.
#[pallet::call_index(8)]
#[pallet::weight({
let maybe_assets: Result<MultiAssets, ()> = (*assets.clone()).try_into();
let maybe_dest: Result<MultiLocation, ()> = (*dest.clone()).try_into();
match (maybe_assets, maybe_dest) {
(Ok(assets), Ok(dest)) => {
use sp_std::vec;
let mut message = Xcm(vec![
SetFeesMode { jit_withdraw: true },
TransferReserveAsset { assets, dest, xcm: Xcm(vec![]) }
]);
T::Weigher::weight(&mut message).map_or(Weight::MAX, |w| T::WeightInfo::reserve_transfer_assets().saturating_add(w))
}
_ => Weight::MAX,
}
})]
pub fn limited_reserve_transfer_assets(
origin: OriginFor<T>,
dest: Box<VersionedMultiLocation>,
beneficiary: Box<VersionedMultiLocation>,
assets: Box<VersionedMultiAssets>,
fee_asset_item: u32,
weight_limit: WeightLimit,
) -> DispatchResult {
Self::do_reserve_transfer_assets(
origin,
dest,
beneficiary,
assets,
fee_asset_item,
Some(weight_limit),
)
}
/// Teleport some assets from the local chain to some destination chain.
///
/// Fee payment on the destination side is made from the asset in the `assets` vector of
/// index `fee_asset_item`, up to enough to pay for `weight_limit` of weight. If more weight
/// is needed than `weight_limit`, then the operation will fail and the assets send may be
/// at risk.
///
/// - `origin`: Must be capable of withdrawing the `assets` and executing XCM.
/// - `dest`: Destination context for the assets. Will typically be `X2(Parent, Parachain(..))` to send
/// from parachain to parachain, or `X1(Parachain(..))` to send from relay to parachain.
/// - `beneficiary`: A beneficiary location for the assets in the context of `dest`. Will generally be
/// an `AccountId32` value.
/// - `assets`: The assets to be withdrawn. The first item should be the currency used to to pay the fee on the
/// `dest` side. May not be empty.
/// - `fee_asset_item`: The index into `assets` of the item which should be used to pay
/// fees.
/// - `weight_limit`: The remote-side weight limit, if any, for the XCM fee purchase.
#[pallet::call_index(9)]
#[pallet::weight({
let maybe_assets: Result<MultiAssets, ()> = (*assets.clone()).try_into();
let maybe_dest: Result<MultiLocation, ()> = (*dest.clone()).try_into();
match (maybe_assets, maybe_dest) {
(Ok(assets), Ok(dest)) => {
use sp_std::vec;
let mut message = Xcm(vec![
WithdrawAsset(assets),
SetFeesMode { jit_withdraw: true },
InitiateTeleport { assets: Wild(All), dest, xcm: Xcm(vec![]) },
]);
T::Weigher::weight(&mut message).map_or(Weight::MAX, |w| T::WeightInfo::teleport_assets().saturating_add(w))
}
_ => Weight::MAX,
}
})]
pub fn limited_teleport_assets(
origin: OriginFor<T>,
dest: Box<VersionedMultiLocation>,
beneficiary: Box<VersionedMultiLocation>,
assets: Box<VersionedMultiAssets>,
fee_asset_item: u32,
weight_limit: WeightLimit,
) -> DispatchResult {
Self::do_teleport_assets(
origin,
dest,
beneficiary,
assets,
fee_asset_item,
Some(weight_limit),
)
}
/// Set or unset the global suspension state of the XCM executor.
///
/// - `origin`: Must be an origin specified by AdminOrigin.
/// - `suspended`: `true` to suspend, `false` to resume.
#[pallet::call_index(10)]
#[pallet::weight(T::WeightInfo::force_suspension())]
pub fn force_suspension(origin: OriginFor<T>, suspended: bool) -> DispatchResult {
T::AdminOrigin::ensure_origin(origin)?;
XcmExecutionSuspended::<T>::set(suspended);
Ok(())
}
}
}
/// The maximum number of distinct assets allowed to be transferred in a single helper extrinsic.
const MAX_ASSETS_FOR_TRANSFER: usize = 2;
impl<T: Config> Pallet<T> {
fn do_reserve_transfer_assets(
origin: OriginFor<T>,
dest: Box<VersionedMultiLocation>,
beneficiary: Box<VersionedMultiLocation>,
assets: Box<VersionedMultiAssets>,
fee_asset_item: u32,
maybe_weight_limit: Option<WeightLimit>,
) -> DispatchResult {
let origin_location = T::ExecuteXcmOrigin::ensure_origin(origin)?;
let dest = (*dest).try_into().map_err(|()| Error::<T>::BadVersion)?;
let beneficiary: MultiLocation =
(*beneficiary).try_into().map_err(|()| Error::<T>::BadVersion)?;
let assets: MultiAssets = (*assets).try_into().map_err(|()| Error::<T>::BadVersion)?;
ensure!(assets.len() <= MAX_ASSETS_FOR_TRANSFER, Error::<T>::TooManyAssets);
let value = (origin_location, assets.into_inner());
ensure!(T::XcmReserveTransferFilter::contains(&value), Error::<T>::Filtered);
let (origin_location, assets) = value;
let context = T::UniversalLocation::get();
let fees = assets
.get(fee_asset_item as usize)
.ok_or(Error::<T>::Empty)?
.clone()
.reanchored(&dest, context)
.map_err(|_| Error::<T>::CannotReanchor)?;
let max_assets = assets.len() as u32;
let assets: MultiAssets = assets.into();
let weight_limit = match maybe_weight_limit {
Some(weight_limit) => weight_limit,
None => {
let fees = fees.clone();
let mut remote_message = Xcm(vec![
ReserveAssetDeposited(assets.clone()),
ClearOrigin,
BuyExecution { fees, weight_limit: Limited(Weight::zero()) },
DepositAsset { assets: Wild(AllCounted(max_assets)), beneficiary },
]);
// use local weight for remote message and hope for the best.
let remote_weight = T::Weigher::weight(&mut remote_message)
.map_err(|()| Error::<T>::UnweighableMessage)?;
Limited(remote_weight)
},
};
let xcm = Xcm(vec![
BuyExecution { fees, weight_limit },
DepositAsset { assets: Wild(AllCounted(max_assets)), beneficiary },
]);
let mut message = Xcm(vec![
SetFeesMode { jit_withdraw: true },
TransferReserveAsset { assets, dest, xcm },
]);
let weight =
T::Weigher::weight(&mut message).map_err(|()| Error::<T>::UnweighableMessage)?;
let hash = message.using_encoded(sp_io::hashing::blake2_256);
let outcome =
T::XcmExecutor::execute_xcm_in_credit(origin_location, message, hash, weight, weight);
Self::deposit_event(Event::Attempted(outcome));
Ok(())
}
fn do_teleport_assets(
origin: OriginFor<T>,
dest: Box<VersionedMultiLocation>,
beneficiary: Box<VersionedMultiLocation>,
assets: Box<VersionedMultiAssets>,
fee_asset_item: u32,
maybe_weight_limit: Option<WeightLimit>,
) -> DispatchResult {
let origin_location = T::ExecuteXcmOrigin::ensure_origin(origin)?;
let dest = (*dest).try_into().map_err(|()| Error::<T>::BadVersion)?;
let beneficiary: MultiLocation =
(*beneficiary).try_into().map_err(|()| Error::<T>::BadVersion)?;
let assets: MultiAssets = (*assets).try_into().map_err(|()| Error::<T>::BadVersion)?;
ensure!(assets.len() <= MAX_ASSETS_FOR_TRANSFER, Error::<T>::TooManyAssets);
let value = (origin_location, assets.into_inner());
ensure!(T::XcmTeleportFilter::contains(&value), Error::<T>::Filtered);
let (origin_location, assets) = value;
let context = T::UniversalLocation::get();
let fees = assets
.get(fee_asset_item as usize)
.ok_or(Error::<T>::Empty)?
.clone()
.reanchored(&dest, context)
.map_err(|_| Error::<T>::CannotReanchor)?;
let max_assets = assets.len() as u32;
let assets: MultiAssets = assets.into();
let weight_limit = match maybe_weight_limit {
Some(weight_limit) => weight_limit,
None => {
let fees = fees.clone();
let mut remote_message = Xcm(vec![
ReceiveTeleportedAsset(assets.clone()),
ClearOrigin,
BuyExecution { fees, weight_limit: Limited(Weight::zero()) },
DepositAsset { assets: Wild(AllCounted(max_assets)), beneficiary },
]);
// use local weight for remote message and hope for the best.
let remote_weight = T::Weigher::weight(&mut remote_message)
.map_err(|()| Error::<T>::UnweighableMessage)?;
Limited(remote_weight)
},
};
let xcm = Xcm(vec![
BuyExecution { fees, weight_limit },
DepositAsset { assets: Wild(AllCounted(max_assets)), beneficiary },
]);
let mut message = Xcm(vec![
WithdrawAsset(assets),
SetFeesMode { jit_withdraw: true },
InitiateTeleport { assets: Wild(AllCounted(max_assets)), dest, xcm },
]);
let weight =
T::Weigher::weight(&mut message).map_err(|()| Error::<T>::UnweighableMessage)?;
let hash = message.using_encoded(sp_io::hashing::blake2_256);
let outcome =
T::XcmExecutor::execute_xcm_in_credit(origin_location, message, hash, weight, weight);
Self::deposit_event(Event::Attempted(outcome));
Ok(())
}
/// Will always make progress, and will do its best not to use much more than `weight_cutoff`
/// in doing so.
pub(crate) fn check_xcm_version_change(
mut stage: VersionMigrationStage,
weight_cutoff: Weight,
) -> (Weight, Option<VersionMigrationStage>) {
let mut weight_used = Weight::zero();
let sv_migrate_weight = T::WeightInfo::migrate_supported_version();
let vn_migrate_weight = T::WeightInfo::migrate_version_notifiers();
let vnt_already_notified_weight = T::WeightInfo::already_notified_target();
let vnt_notify_weight = T::WeightInfo::notify_current_targets();
let vnt_migrate_weight = T::WeightInfo::migrate_version_notify_targets();
let vnt_migrate_fail_weight = T::WeightInfo::notify_target_migration_fail();
let vnt_notify_migrate_weight = T::WeightInfo::migrate_and_notify_old_targets();
use VersionMigrationStage::*;
if stage == MigrateSupportedVersion {
// We assume that supported XCM version only ever increases, so just cycle through lower
// XCM versioned from the current.
for v in 0..XCM_VERSION {
for (old_key, value) in SupportedVersion::<T>::drain_prefix(v) {
if let Ok(new_key) = old_key.into_latest() {
SupportedVersion::<T>::insert(XCM_VERSION, new_key, value);
}
weight_used.saturating_accrue(sv_migrate_weight);
if weight_used.any_gte(weight_cutoff) {
return (weight_used, Some(stage))
}
}
}
stage = MigrateVersionNotifiers;
}
if stage == MigrateVersionNotifiers {
for v in 0..XCM_VERSION {
for (old_key, value) in VersionNotifiers::<T>::drain_prefix(v) {
if let Ok(new_key) = old_key.into_latest() {
VersionNotifiers::<T>::insert(XCM_VERSION, new_key, value);
}
weight_used.saturating_accrue(vn_migrate_weight);
if weight_used.any_gte(weight_cutoff) {
return (weight_used, Some(stage))
}
}
}
stage = NotifyCurrentTargets(None);
}
let xcm_version = T::AdvertisedXcmVersion::get();
if let NotifyCurrentTargets(maybe_last_raw_key) = stage {
let mut iter = match maybe_last_raw_key {
Some(k) => VersionNotifyTargets::<T>::iter_prefix_from(XCM_VERSION, k),
None => VersionNotifyTargets::<T>::iter_prefix(XCM_VERSION),
};
while let Some((key, value)) = iter.next() {
let (query_id, max_weight, target_xcm_version) = value;
let new_key: MultiLocation = match key.clone().try_into() {
Ok(k) if target_xcm_version != xcm_version => k,
_ => {
// We don't early return here since we need to be certain that we
// make some progress.
weight_used.saturating_accrue(vnt_already_notified_weight);
continue
},
};
let response = Response::Version(xcm_version);
let message =
Xcm(vec![QueryResponse { query_id, response, max_weight, querier: None }]);
let event = match send_xcm::<T::XcmRouter>(new_key, message) {
Ok((_hash, cost)) => {
let value = (query_id, max_weight, xcm_version);
VersionNotifyTargets::<T>::insert(XCM_VERSION, key, value);
Event::VersionChangeNotified(new_key, xcm_version, cost)
},
Err(e) => {
VersionNotifyTargets::<T>::remove(XCM_VERSION, key);
Event::NotifyTargetSendFail(new_key, query_id, e.into())
},
};
Self::deposit_event(event);
weight_used.saturating_accrue(vnt_notify_weight);
if weight_used.any_gte(weight_cutoff) {
let last = Some(iter.last_raw_key().into());
return (weight_used, Some(NotifyCurrentTargets(last)))
}
}
stage = MigrateAndNotifyOldTargets;
}
if stage == MigrateAndNotifyOldTargets {
for v in 0..XCM_VERSION {
for (old_key, value) in VersionNotifyTargets::<T>::drain_prefix(v) {
let (query_id, max_weight, target_xcm_version) = value;
let new_key = match MultiLocation::try_from(old_key.clone()) {
Ok(k) => k,
Err(()) => {
Self::deposit_event(Event::NotifyTargetMigrationFail(old_key, value.0));
weight_used.saturating_accrue(vnt_migrate_fail_weight);
if weight_used.any_gte(weight_cutoff) {
return (weight_used, Some(stage))
}
continue
},
};
let versioned_key = LatestVersionedMultiLocation(&new_key);
if target_xcm_version == xcm_version {
VersionNotifyTargets::<T>::insert(XCM_VERSION, versioned_key, value);
weight_used.saturating_accrue(vnt_migrate_weight);
} else {
// Need to notify target.
let response = Response::Version(xcm_version);
let message = Xcm(vec![QueryResponse {
query_id,
response,
max_weight,
querier: None,
}]);
let event = match send_xcm::<T::XcmRouter>(new_key, message) {
Ok((_hash, cost)) => {
VersionNotifyTargets::<T>::insert(
XCM_VERSION,
versioned_key,
(query_id, max_weight, xcm_version),
);
Event::VersionChangeNotified(new_key, xcm_version, cost)
},
Err(e) => Event::NotifyTargetSendFail(new_key, query_id, e.into()),
};
Self::deposit_event(event);
weight_used.saturating_accrue(vnt_notify_migrate_weight);
}
if weight_used.any_gte(weight_cutoff) {
return (weight_used, Some(stage))
}
}
}
}
(weight_used, None)
}
/// Request that `dest` informs us of its version.
pub fn request_version_notify(dest: impl Into<MultiLocation>) -> XcmResult {
let dest = dest.into();
let versioned_dest = VersionedMultiLocation::from(dest);
let already = VersionNotifiers::<T>::contains_key(XCM_VERSION, &versioned_dest);
ensure!(!already, XcmError::InvalidLocation);
let query_id = QueryCounter::<T>::mutate(|q| {
let r = *q;
q.saturating_inc();
r
});
// TODO #3735: Correct weight.
let instruction = SubscribeVersion { query_id, max_response_weight: Weight::zero() };
let (_hash, cost) = send_xcm::<T::XcmRouter>(dest, Xcm(vec![instruction]))?;
Self::deposit_event(Event::VersionNotifyRequested(dest, cost));
VersionNotifiers::<T>::insert(XCM_VERSION, &versioned_dest, query_id);
let query_status =
QueryStatus::VersionNotifier { origin: versioned_dest, is_active: false };
Queries::<T>::insert(query_id, query_status);
Ok(())
}
/// Request that `dest` ceases informing us of its version.
pub fn unrequest_version_notify(dest: impl Into<MultiLocation>) -> XcmResult {
let dest = dest.into();
let versioned_dest = LatestVersionedMultiLocation(&dest);
let query_id = VersionNotifiers::<T>::take(XCM_VERSION, versioned_dest)
.ok_or(XcmError::InvalidLocation)?;
let (_hash, cost) = send_xcm::<T::XcmRouter>(dest, Xcm(vec![UnsubscribeVersion]))?;
Self::deposit_event(Event::VersionNotifyUnrequested(dest, cost));
Queries::<T>::remove(query_id);
Ok(())
}
/// Relay an XCM `message` from a given `interior` location in this context to a given `dest`
/// location. The `fee_payer` is charged for the delivery unless `None` in which case fees
/// are not charged (and instead borne by the chain).
pub fn send_xcm(
interior: impl Into<Junctions>,
dest: impl Into<MultiLocation>,
mut message: Xcm<()>,
) -> Result<XcmHash, SendError> {
let interior = interior.into();
let dest = dest.into();
let maybe_fee_payer = if interior != Junctions::Here {
message.0.insert(0, DescendOrigin(interior));
Some(interior.into())
} else {
None
};
log::debug!(target: "xcm::send_xcm", "dest: {:?}, message: {:?}", &dest, &message);
let (ticket, price) = validate_send::<T::XcmRouter>(dest, message)?;
if let Some(fee_payer) = maybe_fee_payer {
Self::charge_fees(fee_payer, price).map_err(|_| SendError::Fees)?;
}
T::XcmRouter::deliver(ticket)
}
pub fn check_account() -> T::AccountId {
const ID: PalletId = PalletId(*b"py/xcmch");
AccountIdConversion::<T::AccountId>::into_account_truncating(&ID)
}
/// Create a new expectation of a query response with the querier being here.
fn do_new_query(
responder: impl Into<MultiLocation>,
maybe_notify: Option<(u8, u8)>,
timeout: T::BlockNumber,
match_querier: impl Into<MultiLocation>,
) -> u64 {
QueryCounter::<T>::mutate(|q| {
let r = *q;
q.saturating_inc();
Queries::<T>::insert(
r,
QueryStatus::Pending {
responder: responder.into().into(),
maybe_match_querier: Some(match_querier.into().into()),
maybe_notify,
timeout,
},
);
r
})
}
/// Consume `message` and return another which is equivalent to it except that it reports
/// back the outcome.
///
/// - `message`: The message whose outcome should be reported.
/// - `responder`: The origin from which a response should be expected.
/// - `timeout`: The block number after which it is permissible for `notify` not to be
/// called even if a response is received.
///
/// `report_outcome` may return an error if the `responder` is not invertible.
///
/// It is assumed that the querier of the response will be `Here`.
///
/// To check the status of the query, use `fn query()` passing the resultant `QueryId`
/// value.
pub fn report_outcome(
message: &mut Xcm<()>,
responder: impl Into<MultiLocation>,
timeout: T::BlockNumber,
) -> Result<QueryId, XcmError> {
let responder = responder.into();
let destination = T::UniversalLocation::get()
.invert_target(&responder)
.map_err(|()| XcmError::LocationNotInvertible)?;
let query_id = Self::new_query(responder, timeout, Here);
let response_info = QueryResponseInfo { destination, query_id, max_weight: Weight::zero() };
let report_error = Xcm(vec![ReportError(response_info)]);
message.0.insert(0, SetAppendix(report_error));
Ok(query_id)
}
/// Consume `message` and return another which is equivalent to it except that it reports
/// back the outcome and dispatches `notify` on this chain.
///
/// - `message`: The message whose outcome should be reported.
/// - `responder`: The origin from which a response should be expected.
/// - `notify`: A dispatchable function which will be called once the outcome of `message`
/// is known. It may be a dispatchable in any pallet of the local chain, but other than
/// the usual origin, it must accept exactly two arguments: `query_id: QueryId` and
/// `outcome: Response`, and in that order. It should expect that the origin is
/// `Origin::Response` and will contain the responder's location.
/// - `timeout`: The block number after which it is permissible for `notify` not to be
/// called even if a response is received.
///
/// `report_outcome_notify` may return an error if the `responder` is not invertible.
///
/// It is assumed that the querier of the response will be `Here`.
///
/// NOTE: `notify` gets called as part of handling an incoming message, so it should be
/// lightweight. Its weight is estimated during this function and stored ready for
/// weighing `ReportOutcome` on the way back. If it turns out to be heavier once it returns
/// then reporting the outcome will fail. Futhermore if the estimate is too high, then it
/// may be put in the overweight queue and need to be manually executed.
pub fn report_outcome_notify(
message: &mut Xcm<()>,
responder: impl Into<MultiLocation>,
notify: impl Into<<T as Config>::RuntimeCall>,
timeout: T::BlockNumber,
) -> Result<(), XcmError> {
let responder = responder.into();
let destination = T::UniversalLocation::get()
.invert_target(&responder)
.map_err(|()| XcmError::LocationNotInvertible)?;
let notify: <T as Config>::RuntimeCall = notify.into();
let max_weight = notify.get_dispatch_info().weight;
let query_id = Self::new_notify_query(responder, notify, timeout, Here);
let response_info = QueryResponseInfo { destination, query_id, max_weight };
let report_error = Xcm(vec![ReportError(response_info)]);
message.0.insert(0, SetAppendix(report_error));
Ok(())
}
/// Attempt to create a new query ID and register it as a query that is yet to respond.
pub fn new_query(
responder: impl Into<MultiLocation>,
timeout: T::BlockNumber,
match_querier: impl Into<MultiLocation>,
) -> u64 {
Self::do_new_query(responder, None, timeout, match_querier)
}
/// Attempt to create a new query ID and register it as a query that is yet to respond, and
/// which will call a dispatchable when a response happens.
pub fn new_notify_query(
responder: impl Into<MultiLocation>,
notify: impl Into<<T as Config>::RuntimeCall>,
timeout: T::BlockNumber,
match_querier: impl Into<MultiLocation>,
) -> u64 {
let notify = notify.into().using_encoded(|mut bytes| Decode::decode(&mut bytes)).expect(
"decode input is output of Call encode; Call guaranteed to have two enums; qed",
);
Self::do_new_query(responder, Some(notify), timeout, match_querier)
}
/// Attempt to remove and return the response of query with ID `query_id`.
///
/// Returns `None` if the response is not (yet) available.
pub fn take_response(query_id: QueryId) -> Option<(Response, T::BlockNumber)> {
if let Some(QueryStatus::Ready { response, at }) = Queries::<T>::get(query_id) {
let response = response.try_into().ok()?;
Queries::<T>::remove(query_id);
Self::deposit_event(Event::ResponseTaken(query_id));
Some((response, at))
} else {
None
}
}
/// Note that a particular destination to whom we would like to send a message is unknown
/// and queue it for version discovery.
fn note_unknown_version(dest: &MultiLocation) {
log::trace!(
target: "xcm::pallet_xcm::note_unknown_version",
"XCM version is unknown for destination: {:?}",
dest,
);
let versioned_dest = VersionedMultiLocation::from(*dest);
VersionDiscoveryQueue::<T>::mutate(|q| {
if let Some(index) = q.iter().position(|i| &i.0 == &versioned_dest) {
// exists - just bump the count.
q[index].1.saturating_inc();
} else {
let _ = q.try_push((versioned_dest, 1));
}
});
}
/// Withdraw given `assets` from the given `location` and pay as XCM fees.
///
/// Fails if:
/// - the `assets` are not known on this chain;
/// - the `assets` cannot be withdrawn with that location as the Origin.
fn charge_fees(location: MultiLocation, assets: MultiAssets) -> DispatchResult {
T::XcmExecutor::charge_fees(location, assets.clone())
.map_err(|_| Error::<T>::FeesNotMet)?;
Self::deposit_event(Event::FeesPaid(location, assets));
Ok(())
}
}
pub struct LockTicket<T: Config> {
sovereign_account: T::AccountId,
amount: BalanceOf<T>,
unlocker: MultiLocation,
item_index: Option<usize>,
}
impl<T: Config> xcm_executor::traits::Enact for LockTicket<T> {
fn enact(self) -> Result<(), xcm_executor::traits::LockError> {
use xcm_executor::traits::LockError::UnexpectedState;
let mut locks = LockedFungibles::<T>::get(&self.sovereign_account).unwrap_or_default();
match self.item_index {
Some(index) => {
ensure!(locks.len() > index, UnexpectedState);
ensure!(locks[index].1.try_as::<_>() == Ok(&self.unlocker), UnexpectedState);
locks[index].0 = locks[index].0.max(self.amount);
},
None => {
locks
.try_push((self.amount, self.unlocker.into()))
.map_err(|(_balance, _location)| UnexpectedState)?;
},
}
LockedFungibles::<T>::insert(&self.sovereign_account, locks);
T::Currency::extend_lock(
*b"py/xcmlk",
&self.sovereign_account,
self.amount,
WithdrawReasons::all(),
);
Ok(())
}
}
pub struct UnlockTicket<T: Config> {
sovereign_account: T::AccountId,
amount: BalanceOf<T>,
unlocker: MultiLocation,
}
impl<T: Config> xcm_executor::traits::Enact for UnlockTicket<T> {
fn enact(self) -> Result<(), xcm_executor::traits::LockError> {
use xcm_executor::traits::LockError::UnexpectedState;
let mut locks =
LockedFungibles::<T>::get(&self.sovereign_account).ok_or(UnexpectedState)?;
let mut maybe_remove_index = None;
let mut locked = BalanceOf::<T>::zero();
let mut found = false;
// We could just as well do with with an into_iter, filter_map and collect, however this way
// avoids making an allocation.
for (i, x) in locks.iter_mut().enumerate() {
if x.1.try_as::<_>().defensive() == Ok(&self.unlocker) {
x.0 = x.0.saturating_sub(self.amount);
if x.0.is_zero() {
maybe_remove_index = Some(i);
}
found = true;
}
locked = locked.max(x.0);
}
ensure!(found, UnexpectedState);
if let Some(remove_index) = maybe_remove_index {
locks.swap_remove(remove_index);
}
LockedFungibles::<T>::insert(&self.sovereign_account, locks);
let reasons = WithdrawReasons::all();
T::Currency::set_lock(*b"py/xcmlk", &self.sovereign_account, locked, reasons);
Ok(())
}
}
pub struct ReduceTicket<T: Config> {
key: (u32, T::AccountId, VersionedAssetId),
amount: u128,
locker: VersionedMultiLocation,
owner: VersionedMultiLocation,
}
impl<T: Config> xcm_executor::traits::Enact for ReduceTicket<T> {
fn enact(self) -> Result<(), xcm_executor::traits::LockError> {
use xcm_executor::traits::LockError::UnexpectedState;
let mut record = RemoteLockedFungibles::<T>::get(&self.key).ok_or(UnexpectedState)?;
ensure!(self.locker == record.locker && self.owner == record.owner, UnexpectedState);
let new_amount = record.amount.checked_sub(self.amount).ok_or(UnexpectedState)?;
ensure!(record.amount_held().map_or(true, |h| new_amount >= h), UnexpectedState);
if new_amount == 0 {
RemoteLockedFungibles::<T>::remove(&self.key);
} else {
record.amount = new_amount;
RemoteLockedFungibles::<T>::insert(&self.key, &record);
}
Ok(())
}
}
impl<T: Config> xcm_executor::traits::AssetLock for Pallet<T> {
type LockTicket = LockTicket<T>;
type UnlockTicket = UnlockTicket<T>;
type ReduceTicket = ReduceTicket<T>;
fn prepare_lock(
unlocker: MultiLocation,
asset: MultiAsset,
owner: MultiLocation,
) -> Result<LockTicket<T>, xcm_executor::traits::LockError> {
use xcm_executor::traits::LockError::*;
let sovereign_account = T::SovereignAccountOf::convert_ref(&owner).map_err(|_| BadOwner)?;
let amount = T::CurrencyMatcher::matches_fungible(&asset).ok_or(UnknownAsset)?;
ensure!(T::Currency::free_balance(&sovereign_account) >= amount, AssetNotOwned);
let locks = LockedFungibles::<T>::get(&sovereign_account).unwrap_or_default();
let item_index = locks.iter().position(|x| x.1.try_as::<_>() == Ok(&unlocker));
ensure!(item_index.is_some() || locks.len() < T::MaxLockers::get() as usize, NoResources);
Ok(LockTicket { sovereign_account, amount, unlocker, item_index })
}
fn prepare_unlock(
unlocker: MultiLocation,
asset: MultiAsset,
owner: MultiLocation,
) -> Result<UnlockTicket<T>, xcm_executor::traits::LockError> {
use xcm_executor::traits::LockError::*;
let sovereign_account = T::SovereignAccountOf::convert_ref(&owner).map_err(|_| BadOwner)?;
let amount = T::CurrencyMatcher::matches_fungible(&asset).ok_or(UnknownAsset)?;
ensure!(T::Currency::free_balance(&sovereign_account) >= amount, AssetNotOwned);
let locks = LockedFungibles::<T>::get(&sovereign_account).unwrap_or_default();
let item_index =
locks.iter().position(|x| x.1.try_as::<_>() == Ok(&unlocker)).ok_or(NotLocked)?;
ensure!(locks[item_index].0 >= amount, NotLocked);
Ok(UnlockTicket { sovereign_account, amount, unlocker })
}
fn note_unlockable(
locker: MultiLocation,
asset: MultiAsset,
mut owner: MultiLocation,
) -> Result<(), xcm_executor::traits::LockError> {
use xcm_executor::traits::LockError::*;
ensure!(T::TrustedLockers::contains(&locker, &asset), NotTrusted);
let amount = match asset.fun {
Fungible(a) => a,
NonFungible(_) => return Err(Unimplemented),
};
owner.remove_network_id();
let account = T::SovereignAccountOf::convert_ref(&owner).map_err(|_| BadOwner)?;
let locker = locker.into();
let owner = owner.into();
let id: VersionedAssetId = asset.id.into();
let key = (XCM_VERSION, account, id);
let mut record =
RemoteLockedFungibleRecord { amount, owner, locker, consumers: BoundedVec::default() };
if let Some(old) = RemoteLockedFungibles::<T>::get(&key) {
// Make sure that the new record wouldn't clobber any old data.
ensure!(old.locker == record.locker && old.owner == record.owner, WouldClobber);
record.consumers = old.consumers;
record.amount = record.amount.max(old.amount);
}
RemoteLockedFungibles::<T>::insert(&key, record);
Ok(())
}
fn prepare_reduce_unlockable(
locker: MultiLocation,
asset: MultiAsset,
mut owner: MultiLocation,
) -> Result<Self::ReduceTicket, xcm_executor::traits::LockError> {
use xcm_executor::traits::LockError::*;
let amount = match asset.fun {
Fungible(a) => a,
NonFungible(_) => return Err(Unimplemented),
};
owner.remove_network_id();
let sovereign_account = T::SovereignAccountOf::convert_ref(&owner).map_err(|_| BadOwner)?;
let locker = locker.into();
let owner = owner.into();
let id: VersionedAssetId = asset.id.into();
let key = (XCM_VERSION, sovereign_account, id);
let record = RemoteLockedFungibles::<T>::get(&key).ok_or(NotLocked)?;
// Make sure that the record contains what we expect and there's enough to unlock.
ensure!(locker == record.locker && owner == record.owner, WouldClobber);
ensure!(record.amount >= amount, NotEnoughLocked);
ensure!(
record.amount_held().map_or(true, |h| record.amount.saturating_sub(amount) >= h),
InUse
);
Ok(ReduceTicket { key, amount, locker, owner })
}
}
impl<T: Config> WrapVersion for Pallet<T> {
fn wrap_version<RuntimeCall>(
dest: &MultiLocation,
xcm: impl Into<VersionedXcm<RuntimeCall>>,
) -> Result<VersionedXcm<RuntimeCall>, ()> {
SupportedVersion::<T>::get(XCM_VERSION, LatestVersionedMultiLocation(dest))
.or_else(|| {
Self::note_unknown_version(dest);
SafeXcmVersion::<T>::get()
})
.ok_or_else(|| {
log::trace!(
target: "xcm::pallet_xcm::wrap_version",
"Could not determine a version to wrap XCM for destination: {:?}",
dest,
);
()
})
.and_then(|v| xcm.into().into_version(v.min(XCM_VERSION)))
}
}
impl<T: Config> VersionChangeNotifier for Pallet<T> {
/// Start notifying `location` should the XCM version of this chain change.
///
/// When it does, this type should ensure a `QueryResponse` message is sent with the given
/// `query_id` & `max_weight` and with a `response` of `Response::Version`. This should happen
/// until/unless `stop` is called with the correct `query_id`.
///
/// If the `location` has an ongoing notification and when this function is called, then an
/// error should be returned.
fn start(
dest: &MultiLocation,
query_id: QueryId,
max_weight: Weight,
_context: &XcmContext,
) -> XcmResult {
let versioned_dest = LatestVersionedMultiLocation(dest);
let already = VersionNotifyTargets::<T>::contains_key(XCM_VERSION, versioned_dest);
ensure!(!already, XcmError::InvalidLocation);
let xcm_version = T::AdvertisedXcmVersion::get();
let response = Response::Version(xcm_version);
let instruction = QueryResponse { query_id, response, max_weight, querier: None };
let (_hash, cost) = send_xcm::<T::XcmRouter>(*dest, Xcm(vec![instruction]))?;
Self::deposit_event(Event::<T>::VersionNotifyStarted(*dest, cost));
let value = (query_id, max_weight, xcm_version);
VersionNotifyTargets::<T>::insert(XCM_VERSION, versioned_dest, value);
Ok(())
}
/// Stop notifying `location` should the XCM change. This is a no-op if there was never a
/// subscription.
fn stop(dest: &MultiLocation, _context: &XcmContext) -> XcmResult {
VersionNotifyTargets::<T>::remove(XCM_VERSION, LatestVersionedMultiLocation(dest));
Ok(())
}
/// Return true if a location is subscribed to XCM version changes.
fn is_subscribed(dest: &MultiLocation) -> bool {
let versioned_dest = LatestVersionedMultiLocation(dest);
VersionNotifyTargets::<T>::contains_key(XCM_VERSION, versioned_dest)
}
}
impl<T: Config> DropAssets for Pallet<T> {
fn drop_assets(origin: &MultiLocation, assets: Assets, _context: &XcmContext) -> Weight {
if assets.is_empty() {
return Weight::zero()
}
let versioned = VersionedMultiAssets::from(MultiAssets::from(assets));
let hash = BlakeTwo256::hash_of(&(&origin, &versioned));
AssetTraps::<T>::mutate(hash, |n| *n += 1);
Self::deposit_event(Event::AssetsTrapped(hash, *origin, versioned));
// TODO #3735: Put the real weight in there.
Weight::zero()
}
}
impl<T: Config> ClaimAssets for Pallet<T> {
fn claim_assets(
origin: &MultiLocation,
ticket: &MultiLocation,
assets: &MultiAssets,
_context: &XcmContext,
) -> bool {
let mut versioned = VersionedMultiAssets::from(assets.clone());
match (ticket.parents, &ticket.interior) {
(0, X1(GeneralIndex(i))) =>
versioned = match versioned.into_version(*i as u32) {
Ok(v) => v,
Err(()) => return false,
},
(0, Here) => (),
_ => return false,
};
let hash = BlakeTwo256::hash_of(&(origin, versioned.clone()));
match AssetTraps::<T>::get(hash) {
0 => return false,
1 => AssetTraps::<T>::remove(hash),
n => AssetTraps::<T>::insert(hash, n - 1),
}
Self::deposit_event(Event::AssetsClaimed(hash, *origin, versioned));
return true
}
}
impl<T: Config> OnResponse for Pallet<T> {
fn expecting_response(
origin: &MultiLocation,
query_id: QueryId,
querier: Option<&MultiLocation>,
) -> bool {
match Queries::<T>::get(query_id) {
Some(QueryStatus::Pending { responder, maybe_match_querier, .. }) =>
MultiLocation::try_from(responder).map_or(false, |r| origin == &r) &&
maybe_match_querier.map_or(true, |match_querier| {
MultiLocation::try_from(match_querier).map_or(false, |match_querier| {
querier.map_or(false, |q| q == &match_querier)
})
}),
Some(QueryStatus::VersionNotifier { origin: r, .. }) =>
MultiLocation::try_from(r).map_or(false, |r| origin == &r),
_ => false,
}
}
fn on_response(
origin: &MultiLocation,
query_id: QueryId,
querier: Option<&MultiLocation>,
response: Response,
max_weight: Weight,
_context: &XcmContext,
) -> Weight {
match (response, Queries::<T>::get(query_id)) {
(
Response::Version(v),
Some(QueryStatus::VersionNotifier { origin: expected_origin, is_active }),
) => {
let origin: MultiLocation = match expected_origin.try_into() {
Ok(o) if &o == origin => o,
Ok(o) => {
Self::deposit_event(Event::InvalidResponder(*origin, query_id, Some(o)));
return Weight::zero()
},
_ => {
Self::deposit_event(Event::InvalidResponder(*origin, query_id, None));
// TODO #3735: Correct weight for this.
return Weight::zero()
},
};
// TODO #3735: Check max_weight is correct.
if !is_active {
Queries::<T>::insert(
query_id,
QueryStatus::VersionNotifier { origin: origin.into(), is_active: true },
);
}
// We're being notified of a version change.
SupportedVersion::<T>::insert(
XCM_VERSION,
LatestVersionedMultiLocation(&origin),
v,
);
Self::deposit_event(Event::SupportedVersionChanged(origin, v));
Weight::zero()
},
(
response,
Some(QueryStatus::Pending { responder, maybe_notify, maybe_match_querier, .. }),
) => {
if let Some(match_querier) = maybe_match_querier {
let match_querier = match MultiLocation::try_from(match_querier) {
Ok(mq) => mq,
Err(_) => {
Self::deposit_event(Event::InvalidQuerierVersion(*origin, query_id));
return Weight::zero()
},
};
if querier.map_or(true, |q| q != &match_querier) {
Self::deposit_event(Event::InvalidQuerier(
*origin,
query_id,
match_querier,
querier.cloned(),
));
return Weight::zero()
}
}
let responder = match MultiLocation::try_from(responder) {
Ok(r) => r,
Err(_) => {
Self::deposit_event(Event::InvalidResponderVersion(*origin, query_id));
return Weight::zero()
},
};
if origin != &responder {
Self::deposit_event(Event::InvalidResponder(
*origin,
query_id,
Some(responder),
));
return Weight::zero()
}
return match maybe_notify {
Some((pallet_index, call_index)) => {
// This is a bit horrible, but we happen to know that the `Call` will
// be built by `(pallet_index: u8, call_index: u8, QueryId, Response)`.
// So we just encode that and then re-encode to a real Call.
let bare = (pallet_index, call_index, query_id, response);
if let Ok(call) = bare.using_encoded(|mut bytes| {
<T as Config>::RuntimeCall::decode(&mut bytes)
}) {
Queries::<T>::remove(query_id);
let weight = call.get_dispatch_info().weight;
if weight.any_gt(max_weight) {
let e = Event::NotifyOverweight(
query_id,
pallet_index,
call_index,
weight,
max_weight,
);
Self::deposit_event(e);
return Weight::zero()
}
let dispatch_origin = Origin::Response(*origin).into();
match call.dispatch(dispatch_origin) {
Ok(post_info) => {
let e = Event::Notified(query_id, pallet_index, call_index);
Self::deposit_event(e);
post_info.actual_weight
},
Err(error_and_info) => {
let e = Event::NotifyDispatchError(
query_id,
pallet_index,
call_index,
);
Self::deposit_event(e);
// Not much to do with the result as it is. It's up to the parachain to ensure that the
// message makes sense.
error_and_info.post_info.actual_weight
},
}
.unwrap_or(weight)
} else {
let e = Event::NotifyDecodeFailed(query_id, pallet_index, call_index);
Self::deposit_event(e);
Weight::zero()
}
},
None => {
let e = Event::ResponseReady(query_id, response.clone());
Self::deposit_event(e);
let at = frame_system::Pallet::<T>::current_block_number();
let response = response.into();
Queries::<T>::insert(query_id, QueryStatus::Ready { response, at });
Weight::zero()
},
}
},
_ => {
Self::deposit_event(Event::UnexpectedResponse(*origin, query_id));
Weight::zero()
},
}
}
}
impl<T: Config> CheckSuspension for Pallet<T> {
fn is_suspended<Call>(
_origin: &MultiLocation,
_instructions: &mut [Instruction<Call>],
_max_weight: Weight,
_weight_credit: &mut Weight,
) -> bool {
XcmExecutionSuspended::<T>::get()
}
}
/// Ensure that the origin `o` represents an XCM (`Transact`) origin.
///
/// Returns `Ok` with the location of the XCM sender or an `Err` otherwise.
pub fn ensure_xcm<OuterOrigin>(o: OuterOrigin) -> Result<MultiLocation, BadOrigin>
where
OuterOrigin: Into<Result<Origin, OuterOrigin>>,
{
match o.into() {
Ok(Origin::Xcm(location)) => Ok(location),
_ => Err(BadOrigin),
}
}
/// Ensure that the origin `o` represents an XCM response origin.
///
/// Returns `Ok` with the location of the responder or an `Err` otherwise.
pub fn ensure_response<OuterOrigin>(o: OuterOrigin) -> Result<MultiLocation, BadOrigin>
where
OuterOrigin: Into<Result<Origin, OuterOrigin>>,
{
match o.into() {
Ok(Origin::Response(location)) => Ok(location),
_ => Err(BadOrigin),
}
}
/// Filter for `MultiLocation` to find those which represent a strict majority approval of an identified
/// plurality.
///
/// May reasonably be used with `EnsureXcm`.
pub struct IsMajorityOfBody<Prefix, Body>(PhantomData<(Prefix, Body)>);
impl<Prefix: Get<MultiLocation>, Body: Get<BodyId>> Contains<MultiLocation>
for IsMajorityOfBody<Prefix, Body>
{
fn contains(l: &MultiLocation) -> bool {
let maybe_suffix = l.match_and_split(&Prefix::get());
matches!(maybe_suffix, Some(Plurality { id, part }) if id == &Body::get() && part.is_majority())
}
}
/// Filter for `MultiLocation` to find those which represent a voice of an identified plurality.
///
/// May reasonably be used with `EnsureXcm`.
pub struct IsVoiceOfBody<Prefix, Body>(PhantomData<(Prefix, Body)>);
impl<Prefix: Get<MultiLocation>, Body: Get<BodyId>> Contains<MultiLocation>
for IsVoiceOfBody<Prefix, Body>
{
fn contains(l: &MultiLocation) -> bool {
let maybe_suffix = l.match_and_split(&Prefix::get());
matches!(maybe_suffix, Some(Plurality { id, part }) if id == &Body::get() && part == &BodyPart::Voice)
}
}
/// `EnsureOrigin` implementation succeeding with a `MultiLocation` value to recognize and filter the
/// `Origin::Xcm` item.
pub struct EnsureXcm<F>(PhantomData<F>);
impl<O: OriginTrait + From<Origin>, F: Contains<MultiLocation>> EnsureOrigin<O> for EnsureXcm<F>
where
O::PalletsOrigin: From<Origin> + TryInto<Origin, Error = O::PalletsOrigin>,
{
type Success = MultiLocation;
fn try_origin(outer: O) -> Result<Self::Success, O> {
outer.try_with_caller(|caller| {
caller.try_into().and_then(|o| match o {
Origin::Xcm(location) if F::contains(&location) => Ok(location),
Origin::Xcm(location) => Err(Origin::Xcm(location).into()),
o => Err(o.into()),
})
})
}
#[cfg(feature = "runtime-benchmarks")]
fn try_successful_origin() -> Result<O, ()> {
Ok(O::from(Origin::Xcm(Here.into())))
}
}
/// `EnsureOrigin` implementation succeeding with a `MultiLocation` value to recognize and filter
/// the `Origin::Response` item.
pub struct EnsureResponse<F>(PhantomData<F>);
impl<O: OriginTrait + From<Origin>, F: Contains<MultiLocation>> EnsureOrigin<O>
for EnsureResponse<F>
where
O::PalletsOrigin: From<Origin> + TryInto<Origin, Error = O::PalletsOrigin>,
{
type Success = MultiLocation;
fn try_origin(outer: O) -> Result<Self::Success, O> {
outer.try_with_caller(|caller| {
caller.try_into().and_then(|o| match o {
Origin::Response(responder) => Ok(responder),
o => Err(o.into()),
})
})
}
#[cfg(feature = "runtime-benchmarks")]
fn try_successful_origin() -> Result<O, ()> {
Ok(O::from(Origin::Response(Here.into())))
}
}
/// A simple passthrough where we reuse the `MultiLocation`-typed XCM origin as the inner value of
/// this crate's `Origin::Xcm` value.
pub struct XcmPassthrough<RuntimeOrigin>(PhantomData<RuntimeOrigin>);
impl<RuntimeOrigin: From<crate::Origin>> ConvertOrigin<RuntimeOrigin>
for XcmPassthrough<RuntimeOrigin>
{
fn convert_origin(
origin: impl Into<MultiLocation>,
kind: OriginKind,
) -> Result<RuntimeOrigin, MultiLocation> {
let origin = origin.into();
match kind {
OriginKind::Xcm => Ok(crate::Origin::Xcm(origin).into()),
_ => Err(origin),
}
}
}
Reference in New Issue View Git Blame Copy Permalink