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pezkuwi-sdk/pezkuwi/xcm/xcm-executor/src/traits/should_execute.rs
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// Copyright (C) Parity Technologies (UK) Ltd.
// This file is part of Pezkuwi.
// Pezkuwi 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.
// Pezkuwi 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 Pezkuwi. If not, see <http://www.gnu.org/licenses/>.
use core::result::Result;
use frame_support::traits::ProcessMessageError;
use xcm::latest::{Instruction, Location, Weight, XcmHash};
/// Properties of an XCM message and its imminent execution.
#[derive(Clone, Eq, PartialEq, Debug)]
pub struct Properties {
/// The amount of weight that the system has determined this
/// message may utilize in its execution. Typically non-zero only because of prior fee
/// payment, but could in principle be due to other factors.
pub weight_credit: Weight,
/// The identity of the message, if one is known. If left as `None`, then it will generally
/// default to the hash of the message which may be non-unique.
pub message_id: Option<XcmHash>,
}
/// Trait to determine whether the execution engine should actually execute a given XCM.
///
/// Can be amalgamated into a tuple to have multiple trials. If any of the tuple elements returns
/// `Ok(())`, the execution stops. Else, `Err(_)` is returned if all elements reject the message.
pub trait ShouldExecute {
/// Returns `Ok(())` if the given `message` may be executed.
///
/// - `origin`: The origin (sender) of the message.
/// - `instructions`: The message itself.
/// - `max_weight`: The (possibly over-) estimation of the weight of execution of the message.
/// - `properties`: Various pre-established properties of the message which may be mutated by
/// this API.
fn should_execute<RuntimeCall>(
origin: &Location,
instructions: &mut [Instruction<RuntimeCall>],
max_weight: Weight,
properties: &mut Properties,
) -> Result<(), ProcessMessageError>;
}
#[impl_trait_for_tuples::impl_for_tuples(30)]
impl ShouldExecute for Tuple {
fn should_execute<RuntimeCall>(
origin: &Location,
instructions: &mut [Instruction<RuntimeCall>],
max_weight: Weight,
properties: &mut Properties,
) -> Result<(), ProcessMessageError> {
for_tuples!( #(
let barrier = core::any::type_name::<Tuple>();
match Tuple::should_execute(origin, instructions, max_weight, properties) {
Ok(()) => {
tracing::trace!(
target: "xcm::should_execute",
?origin,
?instructions,
?max_weight,
?properties,
%barrier,
"pass barrier",
);
return Ok(())
},
Err(error) => {
tracing::trace!(
target: "xcm::should_execute",
?origin,
?instructions,
?max_weight,
?properties,
?error,
%barrier,
"did not pass barrier",
);
},
}
)* );
Err(ProcessMessageError::Unsupported)
}
}
/// Trait to determine whether the execution engine is suspended from executing a given XCM.
///
/// The trait method is given the same parameters as `ShouldExecute::should_execute`, so that the
/// implementer will have all the context necessary to determine whether or not to suspend the
/// XCM executor.
///
/// Can be chained together in tuples to have multiple rounds of checks. If all of the tuple
/// elements returns false, then execution is not suspended. Otherwise, execution is suspended
/// if any of the tuple elements returns true.
pub trait CheckSuspension {
fn is_suspended<Call>(
origin: &Location,
instructions: &mut [Instruction<Call>],
max_weight: Weight,
properties: &mut Properties,
) -> bool;
}
#[impl_trait_for_tuples::impl_for_tuples(30)]
impl CheckSuspension for Tuple {
fn is_suspended<Call>(
origin: &Location,
instruction: &mut [Instruction<Call>],
max_weight: Weight,
properties: &mut Properties,
) -> bool {
for_tuples!( #(
if Tuple::is_suspended(origin, instruction, max_weight, properties) {
return true
}
)* );
false
}
}
/// Trait to determine whether the execution engine should not execute a given XCM.
///
/// Can be amalgamated into a tuple to have multiple traits. If any of the tuple elements returns
/// `Err(ProcessMessageError)`, the execution stops. Else, `Ok(())` is returned if all elements
/// accept the message.
pub trait DenyExecution {
/// Returns `Ok(())` if there is no reason to deny execution,
/// while `Err(ProcessMessageError)` indicates there is a reason to deny execution.
///
/// - `origin`: The origin (sender) of the message.
/// - `instructions`: The message itself.
/// - `max_weight`: The (possibly over-) estimation of the weight of execution of the message.
/// - `properties`: Various pre-established properties of the message which may be mutated by
/// this API.
fn deny_execution<RuntimeCall>(
origin: &Location,
instructions: &mut [Instruction<RuntimeCall>],
max_weight: Weight,
properties: &mut Properties,
) -> Result<(), ProcessMessageError>;
}
#[impl_trait_for_tuples::impl_for_tuples(10)]
impl DenyExecution for Tuple {
fn deny_execution<RuntimeCall>(
origin: &Location,
instructions: &mut [Instruction<RuntimeCall>],
max_weight: Weight,
properties: &mut Properties,
) -> Result<(), ProcessMessageError> {
for_tuples!( #(
let barrier = core::any::type_name::<Tuple>();
match Tuple::deny_execution(origin, instructions, max_weight, properties) {
Err(error) => {
tracing::error!(
target: "xcm::deny_execution",
?origin,
?instructions,
?max_weight,
?properties,
?error,
%barrier,
"did not pass barrier",
);
return Err(error);
},
Ok(()) => {
tracing::trace!(
target: "xcm::deny_execution",
?origin,
?instructions,
?max_weight,
?properties,
%barrier,
"pass barrier",
);
},
}
)* );
Ok(())
}
}
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