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// Copyright 2020 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/>.
//! Various implementations for `ShouldExecute`.
use frame_support::{
ensure,
traits::{Contains, Get},
};
use polkadot_parachain::primitives::IsSystem;
use sp_std::{marker::PhantomData, result::Result};
Instruction::{self, *},
InteriorMultiLocation, Junction, Junctions,
Junctions::X1,
MultiLocation, Weight,
WeightLimit::*,
use xcm_executor::traits::{OnResponse, ShouldExecute};
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/// Execution barrier that just takes `max_weight` from `weight_credit`.
///
/// Useful to allow XCM execution by local chain users via extrinsics.
/// E.g. `pallet_xcm::reserve_asset_transfer` to transfer a reserve asset
/// out of the local chain to another one.
pub struct TakeWeightCredit;
impl ShouldExecute for TakeWeightCredit {
_origin: &MultiLocation,
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max_weight: Weight,
"TakeWeightCredit origin: {:?}, instructions: {:?}, max_weight: {:?}, weight_credit: {:?}",
_origin, _instructions, max_weight, weight_credit,
*weight_credit = weight_credit.checked_sub(&max_weight).ok_or(())?;
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/// Allows execution from `origin` if it is contained in `T` (i.e. `T::Contains(origin)`) taking
/// payments into account.
/// Only allows for `TeleportAsset`, `WithdrawAsset`, `ClaimAsset` and `ReserveAssetDeposit` XCMs
/// because they are the only ones that place assets in the Holding Register to pay for execution.
pub struct AllowTopLevelPaidExecutionFrom<T>(PhantomData<T>);
impl<T: Contains<MultiLocation>> ShouldExecute for AllowTopLevelPaidExecutionFrom<T> {
origin: &MultiLocation,
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max_weight: Weight,
"AllowTopLevelPaidExecutionFrom origin: {:?}, instructions: {:?}, max_weight: {:?}, weight_credit: {:?}",
origin, instructions, max_weight, _weight_credit,
// We will read up to 5 instructions. This allows up to 3 `ClearOrigin` instructions. We
// allow for more than one since anything beyond the first is a no-op and it's conceivable
// that composition of operations might result in more than one being appended.
let mut iter = instructions.iter_mut().take(5);
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let i = iter.next().ok_or(())?;
match i {
ReceiveTeleportedAsset(..) |
WithdrawAsset(..) |
ReserveAssetDeposited(..) |
ClaimAsset { .. } => (),
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_ => return Err(()),
}
let mut i = iter.next().ok_or(())?;
while let ClearOrigin = i {
i = iter.next().ok_or(())?;
}
match i {
BuyExecution { weight_limit: Limited(ref mut weight), .. }
if weight.all_gte(max_weight) =>
{
*weight = max_weight;
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Ok(())
},
BuyExecution { ref mut weight_limit, .. } if weight_limit == &Unlimited => {
*weight_limit = Limited(max_weight);
Ok(())
},
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/// A derivative barrier, which scans the first `MaxPrefixes` instructions for origin-alterers and
/// then evaluates `should_execute` of the `InnerBarrier` based on the remaining instructions and
/// the newly computed origin.
///
/// This effectively allows for the possibility of distinguishing an origin which is acting as a
/// router for its derivative locations (or as a bridge for a remote location) and an origin which
/// is actually trying to send a message for itself. In the former case, the message will be
/// prefixed with origin-mutating instructions.
///
/// Any barriers which should be interpreted based on the computed origin rather than the original
/// message origin should be subject to this. This is the case for most barriers since the
/// effective origin is generally more important than the routing origin. Any other barriers, and
/// especially those which should be interpreted only the routing origin should not be subject to
/// this.
///
/// E.g.
/// ```nocompile
/// type MyBarrier = (
/// TakeWeightCredit,
/// AllowTopLevelPaidExecutionFrom<DirectCustomerLocations>,
/// WithComputedOrigin<(
/// AllowTopLevelPaidExecutionFrom<DerivativeCustomerLocations>,
/// AllowUnpaidExecutionFrom<ParentLocation>,
/// AllowSubscriptionsFrom<AllowedSubscribers>,
/// AllowKnownQueryResponses<TheResponseHandler>,
/// )>,
/// );
/// ```
///
/// In the above example, `AllowUnpaidExecutionFrom` appears once underneath
/// `WithComputedOrigin`. This is in order to distinguish between messages which are notionally
/// from a derivative location of `ParentLocation` but that just happened to be sent via
/// `ParentLocaction` rather than messages that were sent by the parent.
///
/// Similarly `AllowTopLevelPaidExecutionFrom` appears twice: once inside of `WithComputedOrigin`
/// where we provide the list of origins which are derivative origins, and then secondly outside
/// of `WithComputedOrigin` where we provide the list of locations which are direct origins. It's
/// reasonable for these lists to be merged into one and that used both inside and out.
///
/// Finally, we see `AllowSubscriptionsFrom` and `AllowKnownQueryResponses` are both inside of
/// `WithComputedOrigin`. This means that if a message begins with origin-mutating instructions,
/// then it must be the finally computed origin which we accept subscriptions or expect a query
/// response from. For example, even if an origin appeared in the `AllowedSubscribers` list, we
/// would ignore this rule if it began with origin mutators and they changed the origin to something
/// which was not on the list.
pub struct WithComputedOrigin<InnerBarrier, LocalUniversal, MaxPrefixes>(
PhantomData<(InnerBarrier, LocalUniversal, MaxPrefixes)>,
);
impl<
InnerBarrier: ShouldExecute,
LocalUniversal: Get<InteriorMultiLocation>,
MaxPrefixes: Get<u32>,
> ShouldExecute for WithComputedOrigin<InnerBarrier, LocalUniversal, MaxPrefixes>
{
fn should_execute<Call>(
origin: &MultiLocation,
instructions: &mut [Instruction<Call>],
max_weight: Weight,
weight_credit: &mut Weight,
) -> Result<(), ()> {
log::trace!(
target: "xcm::barriers",
"WithComputedOrigin origin: {:?}, instructions: {:?}, max_weight: {:?}, weight_credit: {:?}",
origin, instructions, max_weight, weight_credit,
);
let mut actual_origin = *origin;
let mut skipped = 0;
// NOTE: We do not check the validity of `UniversalOrigin` here, meaning that a malicious
// origin could place a `UniversalOrigin` in order to spoof some location which gets free
// execution. This technical could get it past the barrier condition, but the execution
// would instantly fail since the first instruction would cause an error with the
// invalid UniversalOrigin.
while skipped < MaxPrefixes::get() as usize {
match instructions.get(skipped) {
Some(UniversalOrigin(new_global)) => {
// Note the origin is *relative to local consensus*! So we need to escape local
// consensus with the `parents` before diving in into the `universal_location`.
actual_origin = X1(*new_global).relative_to(&LocalUniversal::get());
},
Some(DescendOrigin(j)) => {
actual_origin.append_with(*j).map_err(|_| ())?;
},
_ => break,
}
skipped += 1;
}
InnerBarrier::should_execute(
&actual_origin,
&mut instructions[skipped..],
max_weight,
weight_credit,
)
}
}
/// Allows execution from any origin that is contained in `T` (i.e. `T::Contains(origin)`).
///
/// Use only for executions from completely trusted origins, from which no unpermissioned messages
/// can be sent.
pub struct AllowUnpaidExecutionFrom<T>(PhantomData<T>);
impl<T: Contains<MultiLocation>> ShouldExecute for AllowUnpaidExecutionFrom<T> {
origin: &MultiLocation,
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_max_weight: Weight,
log::trace!(
target: "xcm::barriers",
"AllowUnpaidExecutionFrom origin: {:?}, instructions: {:?}, max_weight: {:?}, weight_credit: {:?}",
origin, instructions, _max_weight, _weight_credit,
ensure!(T::contains(origin), ());
Ok(())
}
}
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/// Allows execution from any origin that is contained in `T` (i.e. `T::Contains(origin)`) if the
/// message begins with the instruction `UnpaidExecution`.
///
/// Use only for executions from trusted origin groups.
pub struct AllowExplicitUnpaidExecutionFrom<T>(PhantomData<T>);
impl<T: Contains<MultiLocation>> ShouldExecute for AllowExplicitUnpaidExecutionFrom<T> {
fn should_execute<Call>(
origin: &MultiLocation,
instructions: &mut [Instruction<Call>],
max_weight: Weight,
_weight_credit: &mut Weight,
) -> Result<(), ()> {
log::trace!(
target: "xcm::barriers",
"AllowExplicitUnpaidExecutionFrom origin: {:?}, instructions: {:?}, max_weight: {:?}, weight_credit: {:?}",
origin, instructions, max_weight, _weight_credit,
);
ensure!(T::contains(origin), ());
match instructions.first() {
Some(UnpaidExecution { weight_limit: Limited(m), .. }) if m.all_gte(max_weight) =>
Ok(()),
Some(UnpaidExecution { weight_limit: Unlimited, .. }) => Ok(()),
_ => Err(()),
}
}
}
/// Allows a message only if it is from a system-level child parachain.
pub struct IsChildSystemParachain<ParaId>(PhantomData<ParaId>);
impl<ParaId: IsSystem + From<u32>> Contains<MultiLocation> for IsChildSystemParachain<ParaId> {
fn contains(l: &MultiLocation) -> bool {
matches!(
l.interior(),
Junctions::X1(Junction::Parachain(id))
if ParaId::from(*id).is_system() && l.parent_count() == 0,
)
}
}
/// Allows only messages if the generic `ResponseHandler` expects them via `expecting_response`.
pub struct AllowKnownQueryResponses<ResponseHandler>(PhantomData<ResponseHandler>);
impl<ResponseHandler: OnResponse> ShouldExecute for AllowKnownQueryResponses<ResponseHandler> {
origin: &MultiLocation,
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_max_weight: Weight,
log::trace!(
target: "xcm::barriers",
"AllowKnownQueryResponses origin: {:?}, instructions: {:?}, max_weight: {:?}, weight_credit: {:?}",
origin, instructions, _max_weight, _weight_credit,
ensure!(instructions.len() == 1, ());
match instructions.first() {
Some(QueryResponse { query_id, querier, .. })
if ResponseHandler::expecting_response(origin, *query_id, querier.as_ref()) =>
/// Allows execution from `origin` if it is just a straight `SubscribeVersion` or
/// `UnsubscribeVersion` instruction.
pub struct AllowSubscriptionsFrom<T>(PhantomData<T>);
impl<T: Contains<MultiLocation>> ShouldExecute for AllowSubscriptionsFrom<T> {
_max_weight: Weight,
_weight_credit: &mut Weight,
) -> Result<(), ()> {
log::trace!(
target: "xcm::barriers",
"AllowSubscriptionsFrom origin: {:?}, instructions: {:?}, max_weight: {:?}, weight_credit: {:?}",
origin, instructions, _max_weight, _weight_credit,
ensure!(T::contains(origin), ());
match instructions {
&mut [SubscribeVersion { .. } | UnsubscribeVersion] => Ok(()),