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// 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::{Convert, 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(dest_location.clone()).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(dest_location.clone()).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
}
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(dest_location.clone()).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(dest_location.clone()).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
);
}