Newer
Older
// Copyright 2020-2021 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(test)]
mod mock;
#[cfg(test)]
mod tests;
use frame_support::traits::{Contains, EnsureOrigin, Get, OriginTrait};
use sp_runtime::{traits::BadOrigin, RuntimeDebug};
use sp_std::{
boxed::Box,
convert::{TryFrom, TryInto},
marker::PhantomData,
prelude::*,
vec,
};
Gavin Wood
committed
use xcm::{
latest::prelude::*, VersionedMultiAssets, VersionedMultiLocation, VersionedResponse,
VersionedXcm,
};
use xcm_executor::traits::ConvertOrigin;
use frame_support::PalletId;
#[frame_support::pallet]
pub mod pallet {
use super::*;
Gavin Wood
committed
use frame_support::{
dispatch::{Dispatchable, GetDispatchInfo, PostDispatchInfo},
pallet_prelude::*,
};
use frame_system::{pallet_prelude::*, Config as SysConfig};
use sp_runtime::traits::{AccountIdConversion, BlockNumberProvider};
use xcm_executor::traits::{InvertLocation, OnResponse, WeightBounds};
#[pallet::pallet]
#[pallet::generate_store(pub(super) trait Store)]
pub struct Pallet<T>(_);
#[pallet::config]
/// The module configuration trait.
pub trait Config: frame_system::Config {
/// The overarching event type.
type Event: From<Event<Self>> + IsType<<Self as frame_system::Config>::Event>;
/// Required origin for sending XCM messages. If successful, the it resolves to `MultiLocation`
/// which exists as an interior location within this chain's XCM context.
Gavin Wood
committed
type SendXcmOrigin: EnsureOrigin<<Self as SysConfig>::Origin, 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
Gavin Wood
committed
type ExecuteXcmOrigin: EnsureOrigin<<Self as SysConfig>::Origin, Success = MultiLocation>;
/// Our XCM filter which messages to be executed using `XcmExecutor` must pass.
Gavin Wood
committed
type XcmExecuteFilter: Contains<(MultiLocation, Xcm<<Self as SysConfig>::Call>)>;
Gavin Wood
committed
type XcmExecutor: ExecuteXcm<<Self as SysConfig>::Call>;
/// 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.
Gavin Wood
committed
type Weigher: WeightBounds<<Self as SysConfig>::Call>;
/// Means of inverting a location.
type LocationInverter: InvertLocation;
Gavin Wood
committed
/// The outer `Origin` type.
type Origin: From<Origin> + From<<Self as SysConfig>::Origin>;
/// The outer `Call` type.
type Call: Parameter
+ GetDispatchInfo
+ IsType<<Self as frame_system::Config>::Call>
+ Dispatchable<Origin = <Self as Config>::Origin, PostInfo = PostDispatchInfo>;
/// The maximum number of distinct assets allowed to be transferred in a single helper extrinsic.
const MAX_ASSETS_FOR_TRANSFER: usize = 2;
#[pallet::event]
#[pallet::generate_deposit(pub(super) fn deposit_event)]
pub enum Event<T: Config> {
Gavin Wood
committed
/// Execution of an XCM message was attempted.
///
/// \[ outcome \]
Gavin Wood
committed
/// A XCM message was sent.
///
/// \[ origin, destination, message \]
Sent(MultiLocation, MultiLocation, Xcm<()>),
Gavin Wood
committed
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
/// 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, MultiLocation),
/// Expected query response has been received but the expected origin location placed in
/// storate 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),
}
#[pallet::origin]
#[derive(PartialEq, Eq, Clone, Encode, Decode, RuntimeDebug)]
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> {
Gavin Wood
committed
/// The desired destination was unreachable, generally because there is a no way of routing
/// to it.
Gavin Wood
committed
/// 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.
/// The message execution fails the filter.
Filtered,
/// The message's weight could not be determined.
UnweighableMessage,
/// The assets to be sent are empty.
Empty,
/// Could not re-anchor the assets to declare the fees for the destination chain.
/// 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,
Gavin Wood
committed
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
/// The status of a query.
#[derive(Clone, Eq, PartialEq, Encode, Decode, RuntimeDebug)]
pub enum QueryStatus<BlockNumber> {
/// The query was sent but no response has yet been received.
Pending {
responder: VersionedMultiLocation,
maybe_notify: Option<(u8, u8)>,
timeout: BlockNumber,
},
/// A response has been received.
Ready { response: VersionedResponse, at: BlockNumber },
}
/// Value of a query, must be unique for each query.
pub type QueryId = u64;
/// The latest available query index.
#[pallet::storage]
pub(super) type QueryCount<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>;
#[pallet::hooks]
impl<T: Config> Hooks<BlockNumberFor<T>> for Pallet<T> {}
#[pallet::call]
impl<T: Config> Pallet<T> {
thiolliere
committed
pub fn send(
origin: OriginFor<T>,
dest: Box<VersionedMultiLocation>,
message: Box<VersionedXcm<()>>,
thiolliere
committed
) -> DispatchResult {
let origin_location = T::SendXcmOrigin::ensure_origin(origin)?;
let interior =
origin_location.clone().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.clone(), message.clone()).map_err(|e| match e {
Gavin Wood
committed
SendError::CannotReachDestination(..) => Error::<T>::Unreachable,
Self::deposit_event(Event::Sent(origin_location, dest, message));
/// Teleport some assets from the local chain to some destination chain.
///
/// Fee payment on the destination side is made from the first asset listed in the `assets` vector.
///
/// - `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.
/// - `dest_weight`: Equal to the total weight on `dest` of the XCM message
/// `Teleport { assets, effects: [ BuyExecution{..}, DepositAsset{..} ] }`.
#[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)) => {
Gavin Wood
committed
use sp_std::vec;
let mut message = Xcm(vec![
WithdrawAsset(assets),
InitiateTeleport { assets: Wild(All), dest, xcm: Xcm(vec![]) },
]);
T::Weigher::weight(&mut message).map_or(Weight::max_value(), |w| 100_000_000 + w)
},
_ => Weight::max_value(),
}
dest: Box<VersionedMultiLocation>,
beneficiary: Box<VersionedMultiLocation>,
assets: Box<VersionedMultiAssets>,
) -> DispatchResult {
let origin_location = T::ExecuteXcmOrigin::ensure_origin(origin)?;
let dest = MultiLocation::try_from(*dest).map_err(|()| Error::<T>::BadVersion)?;
let beneficiary =
MultiLocation::try_from(*beneficiary).map_err(|()| Error::<T>::BadVersion)?;
let assets = MultiAssets::try_from(*assets).map_err(|()| Error::<T>::BadVersion)?;
ensure!(assets.len() <= MAX_ASSETS_FOR_TRANSFER, Error::<T>::TooManyAssets);
ensure!(T::XcmTeleportFilter::contains(&value), Error::<T>::Filtered);
let (origin_location, assets) = value;
let inv_dest = T::LocationInverter::invert_location(&dest);
let fees = assets
.get(fee_asset_item as usize)
.ok_or(Error::<T>::Empty)?
.clone()
.reanchored(&inv_dest)
.map_err(|_| Error::<T>::CannotReanchor)?;
let max_assets = assets.len() as u32;
let assets = assets.into();
Gavin Wood
committed
let mut message = Xcm(vec![
WithdrawAsset(assets),
InitiateTeleport {
Gavin Wood
committed
xcm: Xcm(vec![
BuyExecution { fees, weight_limit: Unlimited },
DepositAsset { assets: Wild(All), max_assets, beneficiary },
Gavin Wood
committed
]),
},
]);
let weight =
T::Weigher::weight(&mut message).map_err(|()| Error::<T>::UnweighableMessage)?;
let outcome =
T::XcmExecutor::execute_xcm_in_credit(origin_location, message, weight, weight);
Self::deposit_event(Event::Attempted(outcome));
Ok(())
}
/// 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 first asset listed in the `assets` vector.
///
/// - `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.
Gavin Wood
committed
/// - `fee_asset_item`: The index into `assets` of the item which should be used to pay
/// fees.
match ((*assets.clone()).try_into(), (*dest.clone()).try_into()) {
(Ok(assets), Ok(dest)) => {
Gavin Wood
committed
use sp_std::vec;
let mut message = Xcm(vec![
TransferReserveAsset { assets, dest, xcm: Xcm(vec![]) }
]);
T::Weigher::weight(&mut message).map_or(Weight::max_value(), |w| 100_000_000 + w)
},
_ => Weight::max_value(),
}
dest: Box<VersionedMultiLocation>,
beneficiary: Box<VersionedMultiLocation>,
assets: Box<VersionedMultiAssets>,
) -> DispatchResult {
let origin_location = T::ExecuteXcmOrigin::ensure_origin(origin)?;
let dest = (*dest).try_into().map_err(|()| Error::<T>::BadVersion)?;
let beneficiary = (*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);
ensure!(T::XcmReserveTransferFilter::contains(&value), Error::<T>::Filtered);
let (origin_location, assets) = value;
let inv_dest = T::LocationInverter::invert_location(&dest);
let fees = assets
.get(fee_asset_item as usize)
.ok_or(Error::<T>::Empty)?
.clone()
.reanchored(&inv_dest)
.map_err(|_| Error::<T>::CannotReanchor)?;
let max_assets = assets.len() as u32;
let assets = assets.into();
Gavin Wood
committed
let mut message = Xcm(vec![TransferReserveAsset {
Gavin Wood
committed
xcm: Xcm(vec![
BuyExecution { fees, weight_limit: Unlimited },
DepositAsset { assets: Wild(All), max_assets, beneficiary },
Gavin Wood
committed
]),
}]);
let weight =
T::Weigher::weight(&mut message).map_err(|()| Error::<T>::UnweighableMessage)?;
let outcome =
T::XcmExecutor::execute_xcm_in_credit(origin_location, message, weight, weight);
Self::deposit_event(Event::Attempted(outcome));
Ok(())
}
/// 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::weight(max_weight.saturating_add(100_000_000u64))]
Gavin Wood
committed
message: Box<VersionedXcm<<T as SysConfig>::Call>>,
max_weight: Weight,
) -> DispatchResult {
let origin_location = T::ExecuteXcmOrigin::ensure_origin(origin)?;
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(origin_location, message, max_weight);
Self::deposit_event(Event::Attempted(outcome));
Ok(())
}
}
impl<T: Config> Pallet<T> {
/// Relay an XCM `message` from a given `interior` location in this context to a given `dest`
/// location. A null `dest` is not handled.
Gavin Wood
committed
mut message: Xcm<()>,
) -> Result<(), SendError> {
if interior != Junctions::Here {
message.0.insert(0, DescendOrigin(interior))
log::trace!(target: "xcm::send_xcm", "dest: {:?}, message: {:?}", &dest, &message);
pub fn check_account() -> T::AccountId {
const ID: PalletId = PalletId(*b"py/xcmch");
AccountIdConversion::<T::AccountId>::into_account(&ID)
}
Gavin Wood
committed
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
fn do_new_query(
responder: MultiLocation,
maybe_notify: Option<(u8, u8)>,
timeout: T::BlockNumber,
) -> u64 {
QueryCount::<T>::mutate(|q| {
let r = *q;
*q += 1;
Queries::<T>::insert(
r,
QueryStatus::Pending { responder: responder.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.
///
/// To check the status of the query, use `fn query()` passing the resultant `QueryId`
/// value.
pub fn report_outcome(
message: &mut Xcm<()>,
responder: MultiLocation,
timeout: T::BlockNumber,
) -> QueryId {
let dest = T::LocationInverter::invert_location(&responder);
let query_id = Self::new_query(responder, timeout);
let report_error = Xcm(vec![ReportError { dest, query_id, max_response_weight: 0 }]);
message.0.insert(0, SetAppendix(report_error));
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.
///
/// 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: MultiLocation,
notify: impl Into<<T as Config>::Call>,
timeout: T::BlockNumber,
) {
let dest = T::LocationInverter::invert_location(&responder);
let notify: <T as Config>::Call = notify.into();
let max_response_weight = notify.get_dispatch_info().weight;
let query_id = Self::new_notify_query(responder, notify, timeout);
let report_error = Xcm(vec![ReportError { dest, query_id, max_response_weight }]);
message.0.insert(0, SetAppendix(report_error));
}
/// Attempt to create a new query ID and register it as a query that is yet to respond.
pub fn new_query(responder: MultiLocation, timeout: T::BlockNumber) -> u64 {
Self::do_new_query(responder, None, timeout)
}
/// 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: MultiLocation,
notify: impl Into<<T as Config>::Call>,
timeout: T::BlockNumber,
) -> 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)
}
/// 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
}
}
Gavin Wood
committed
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
impl<T: Config> OnResponse for Pallet<T> {
/// Returns `true` if we are expecting a response from `origin` for query `query_id`.
fn expecting_response(origin: &MultiLocation, query_id: QueryId) -> bool {
if let Some(QueryStatus::Pending { responder, .. }) = Queries::<T>::get(query_id) {
return MultiLocation::try_from(responder).map_or(false, |r| origin == &r)
}
false
}
/// Handler for receiving a `response` from `origin` relating to `query_id`.
fn on_response(
origin: &MultiLocation,
query_id: QueryId,
response: Response,
max_weight: Weight,
) -> Weight {
if let Some(QueryStatus::Pending { responder, maybe_notify, .. }) =
Queries::<T>::get(query_id)
{
if let Ok(responder) = MultiLocation::try_from(responder) {
if origin == &responder {
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>::Call::decode(&mut bytes)
}) {
Queries::<T>::remove(query_id);
let weight = call.get_dispatch_info().weight;
if weight > max_weight {
let e = Event::NotifyOverweight(
query_id,
pallet_index,
call_index,
weight,
max_weight,
);
Self::deposit_event(e);
return 0
}
let dispatch_origin = Origin::Response(origin.clone()).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);
0
}
},
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 });
0
},
}
} else {
Self::deposit_event(Event::InvalidResponder(
origin.clone(),
query_id,
responder,
));
}
} else {
Self::deposit_event(Event::InvalidResponderVersion(origin.clone(), query_id));
}
} else {
Self::deposit_event(Event::UnexpectedResponse(origin.clone(), query_id));
}
0
Gavin Wood
committed
/// 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),
}
}
Gavin Wood
committed
/// 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>
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())
/// `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> {
Gavin Wood
committed
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 successful_origin() -> O {
O::from(Origin::Xcm(Here.into()))
Gavin Wood
committed
/// `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 successful_origin() -> O {
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<Origin>(PhantomData<Origin>);
impl<Origin: From<crate::Origin>> ConvertOrigin<Origin> for XcmPassthrough<Origin> {
fn convert_origin(origin: MultiLocation, kind: OriginKind) -> Result<Origin, MultiLocation> {
match kind {
OriginKind::Xcm => Ok(crate::Origin::Xcm(origin).into()),
_ => Err(origin),