Newer
Older
// 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/>.
use super::*;
use crate::{account_and_location, new_executor, AssetTransactorOf, XcmCallOf};
use frame_benchmarking::{benchmarks_instance_pallet, BenchmarkError, BenchmarkResult};
use frame_support::{
pallet_prelude::Get,
traits::fungible::{Inspect, Mutate},
};
use sp_runtime::traits::{Bounded, Zero};
use xcm::latest::prelude::*;
use xcm_executor::traits::{ConvertLocation, TransactAsset};
benchmarks_instance_pallet! {
where_clause { where
<
<
T::TransactAsset
as
Inspect<T::AccountId>
>::Balance
as
TryInto<u128>
>::Error: sp_std::fmt::Debug,
}
withdraw_asset {
let (sender_account, sender_location) = account_and_location::<T>(1);
let asset = T::get_multi_asset();
<AssetTransactorOf<T>>::deposit_asset(
&asset,
&sender_location,
&XcmContext {
origin: Some(sender_location.clone()),
// check the assets of origin.
assert!(!T::TransactAsset::balance(&sender_account).is_zero());
let mut executor = new_executor::<T>(sender_location);
let instruction = Instruction::<XcmCallOf<T>>::WithdrawAsset(vec![asset.clone()].into());
let xcm = Xcm(vec![instruction]);
}: {
} verify {
// check one of the assets of origin.
assert!(T::TransactAsset::balance(&sender_account).is_zero());
assert!(executor.holding().ensure_contains(&vec![asset].into()).is_ok());
}
transfer_asset {
let (sender_account, sender_location) = account_and_location::<T>(1);
let asset = T::get_multi_asset();
let assets: MultiAssets = vec![ asset.clone() ].into();
// this xcm doesn't use holding
let dest_location = T::valid_destination()?;
let dest_account = T::AccountIdConverter::convert_location(&dest_location).unwrap();
<AssetTransactorOf<T>>::deposit_asset(
&asset,
&sender_location,
&XcmContext {
origin: Some(sender_location.clone()),
assert!(T::TransactAsset::balance(&dest_account).is_zero());
let mut executor = new_executor::<T>(sender_location);
let instruction = Instruction::TransferAsset { assets, beneficiary: dest_location };
let xcm = Xcm(vec![instruction]);
}: {
} verify {
assert!(T::TransactAsset::balance(&sender_account).is_zero());
assert!(!T::TransactAsset::balance(&dest_account).is_zero());
}
transfer_reserve_asset {
let (sender_account, sender_location) = account_and_location::<T>(1);
let dest_location = T::valid_destination()?;
let dest_account = T::AccountIdConverter::convert_location(&dest_location).unwrap();
let asset = T::get_multi_asset();
<AssetTransactorOf<T>>::deposit_asset(
&asset,
&sender_location,
&XcmContext {
origin: Some(sender_location.clone()),
let assets: MultiAssets = vec![ asset ].into();
assert!(T::TransactAsset::balance(&dest_account).is_zero());
let mut executor = new_executor::<T>(sender_location);
let instruction = Instruction::TransferReserveAsset {
assets,
dest: dest_location,
xcm: Xcm::new()
};
let xcm = Xcm(vec![instruction]);
}: {
} verify {
assert!(T::TransactAsset::balance(&sender_account).is_zero());
assert!(!T::TransactAsset::balance(&dest_account).is_zero());
// TODO: Check sender queue is not empty. #4426
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
reserve_asset_deposited {
let (trusted_reserve, transferable_reserve_asset) = T::TrustedReserve::get()
.ok_or(BenchmarkError::Override(
BenchmarkResult::from_weight(T::BlockWeights::get().max_block)
))?;
let assets: MultiAssets = vec![ transferable_reserve_asset ].into();
let mut executor = new_executor::<T>(trusted_reserve);
let instruction = Instruction::ReserveAssetDeposited(assets.clone());
let xcm = Xcm(vec![instruction]);
}: {
executor.bench_process(xcm)?;
} verify {
assert!(executor.holding().ensure_contains(&assets).is_ok());
}
initiate_reserve_withdraw {
let holding = T::worst_case_holding(1);
let assets_filter = MultiAssetFilter::Definite(holding.clone());
let reserve = T::valid_destination().map_err(|_| BenchmarkError::Skip)?;
let mut executor = new_executor::<T>(Default::default());
executor.set_holding(holding.into());
let instruction = Instruction::InitiateReserveWithdraw { assets: assets_filter, reserve, xcm: Xcm(vec![]) };
let xcm = Xcm(vec![instruction]);
}: {
executor.bench_process(xcm)?;
} verify {
// The execute completing successfully is as good as we can check.
// TODO: Potentially add new trait to XcmSender to detect a queued outgoing message. #4426
}
receive_teleported_asset {
// If there is no trusted teleporter, then we skip this benchmark.
let (trusted_teleporter, teleportable_asset) = T::TrustedTeleporter::get()
.ok_or(BenchmarkError::Skip)?;
if let Some((checked_account, _)) = T::CheckedAccount::get() {
T::TransactAsset::mint_into(
&checked_account,
<
T::TransactAsset
as
Inspect<T::AccountId>
>::Balance::max_value() / 2u32.into(),
)?;
}
let assets: MultiAssets = vec![ teleportable_asset ].into();
let mut executor = new_executor::<T>(trusted_teleporter);
let instruction = Instruction::ReceiveTeleportedAsset(assets.clone());
let xcm = Xcm(vec![instruction]);
}: {
BenchmarkError::Override(
BenchmarkResult::from_weight(T::BlockWeights::get().max_block)
)
})?;
} verify {
assert!(executor.holding().ensure_contains(&assets).is_ok());
}
deposit_asset {
let asset = T::get_multi_asset();
// Add our asset to the holding.
holding.push(asset.clone());
// our dest must have no balance initially.
let dest_location = T::valid_destination()?;
let dest_account = T::AccountIdConverter::convert_location(&dest_location).unwrap();
assert!(T::TransactAsset::balance(&dest_account).is_zero());
let mut executor = new_executor::<T>(Default::default());
let instruction = Instruction::<XcmCallOf<T>>::DepositAsset {
assets: asset.into(),
beneficiary: dest_location,
};
let xcm = Xcm(vec![instruction]);
}: {
} verify {
// dest should have received some asset.
assert!(!T::TransactAsset::balance(&dest_account).is_zero())
}
deposit_reserve_asset {
let asset = T::get_multi_asset();
// Add our asset to the holding.
holding.push(asset.clone());
// our dest must have no balance initially.
let dest_location = T::valid_destination()?;
let dest_account = T::AccountIdConverter::convert_location(&dest_location).unwrap();
assert!(T::TransactAsset::balance(&dest_account).is_zero());
let mut executor = new_executor::<T>(Default::default());
let instruction = Instruction::<XcmCallOf<T>>::DepositReserveAsset {
assets: asset.into(),
dest: dest_location,
xcm: Xcm::new(),
};
let xcm = Xcm(vec![instruction]);
}: {
} verify {
// dest should have received some asset.
assert!(!T::TransactAsset::balance(&dest_account).is_zero())
}
initiate_teleport {
let asset = T::get_multi_asset();
// Add our asset to the holding.
holding.push(asset.clone());
// Checked account starts at zero
assert!(T::CheckedAccount::get().map_or(true, |(c, _)| T::TransactAsset::balance(&c).is_zero()));
let mut executor = new_executor::<T>(Default::default());
let instruction = Instruction::<XcmCallOf<T>>::InitiateTeleport {
assets: asset.into(),
dest: T::valid_destination()?,
xcm: Xcm::new(),
};
let xcm = Xcm(vec![instruction]);
}: {
} verify {
if let Some((checked_account, _)) = T::CheckedAccount::get() {
// teleport checked account should have received some asset.
assert!(!T::TransactAsset::balance(&checked_account).is_zero());
}
}
impl_benchmark_test_suite!(
Pallet,
crate::fungible::mock::new_test_ext(),
crate::fungible::mock::Test
);
}