serai/substrate/dex/pallet/src/benchmarking.rs

228 lines
6.4 KiB
Rust

// This file was originally:
// Copyright (C) Parity Technologies (UK) Ltd.
// SPDX-License-Identifier: Apache-2.0
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// It has been forked into a crate distributed under the AGPL 3.0.
// Please check the current distribution for up-to-date copyright and licensing information.
//! Dex pallet benchmarking.
use super::*;
use frame_benchmarking::{benchmarks, whitelisted_caller};
use frame_support::{assert_ok, storage::bounded_vec::BoundedVec};
use frame_system::RawOrigin as SystemOrigin;
use sp_runtime::traits::StaticLookup;
use sp_std::{ops::Div, prelude::*};
use serai_primitives::{Amount, Balance};
use crate::Pallet as Dex;
use coins_pallet::Pallet as Coins;
const INITIAL_COIN_BALANCE: u64 = 1_000_000_000;
type AccountIdLookupOf<T> = <<T as frame_system::Config>::Lookup as StaticLookup>::Source;
type LiquidityTokens<T> = coins_pallet::Pallet<T, coins_pallet::Instance1>;
fn create_coin<T: Config>(coin: &Coin) -> (T::AccountId, AccountIdLookupOf<T>) {
let caller: T::AccountId = whitelisted_caller();
let caller_lookup = T::Lookup::unlookup(caller);
assert_ok!(Coins::<T>::mint(
caller,
Balance { coin: Coin::native(), amount: Amount(SubstrateAmount::MAX.div(1000u64)) }
));
assert_ok!(Coins::<T>::mint(
caller,
Balance { coin: *coin, amount: Amount(INITIAL_COIN_BALANCE) }
));
(caller, caller_lookup)
}
fn create_coin_and_pool<T: Config>(coin: &Coin) -> (Coin, T::AccountId, AccountIdLookupOf<T>) {
let (caller, caller_lookup) = create_coin::<T>(coin);
assert_ok!(Dex::<T>::create_pool(*coin));
(*coin, caller, caller_lookup)
}
benchmarks! {
add_liquidity {
let coin1 = Coin::native();
let coin2 = Coin::Bitcoin;
let (lp_token, caller, _) = create_coin_and_pool::<T>(&coin2);
let add_amount: u64 = 1000;
}: _(
SystemOrigin::Signed(caller),
coin2,
1000u64,
add_amount,
0u64,
0u64,
caller
)
verify {
let pool_id = Dex::<T>::get_pool_id(coin1, coin2).unwrap();
let lp_minted = Dex::<T>::calc_lp_amount_for_zero_supply(
add_amount,
1000u64,
).unwrap();
assert_eq!(
LiquidityTokens::<T>::balance(caller, lp_token).0,
lp_minted
);
assert_eq!(
Coins::<T>::balance(Dex::<T>::get_pool_account(pool_id), Coin::native()).0,
add_amount
);
assert_eq!(
Coins::<T>::balance(
Dex::<T>::get_pool_account(pool_id),
Coin::Bitcoin,
).0,
1000
);
}
remove_liquidity {
let coin1 = Coin::native();
let coin2 = Coin::Monero;
let (lp_token, caller, _) = create_coin_and_pool::<T>(&coin2);
let add_amount: u64 = 100;
let lp_minted = Dex::<T>::calc_lp_amount_for_zero_supply(
add_amount,
1000u64
).unwrap();
let remove_lp_amount: u64 = lp_minted.checked_div(10).unwrap();
Dex::<T>::add_liquidity(
SystemOrigin::Signed(caller).into(),
coin2,
1000u64,
add_amount,
0u64,
0u64,
caller,
)?;
let total_supply = LiquidityTokens::<T>::supply(lp_token);
}: _(
SystemOrigin::Signed(caller),
coin2,
remove_lp_amount,
0u64,
0u64,
caller
)
verify {
let new_total_supply = LiquidityTokens::<T>::supply(lp_token);
assert_eq!(
new_total_supply,
total_supply - remove_lp_amount
);
}
swap_exact_tokens_for_tokens {
let native = Coin::native();
let coin1 = Coin::Bitcoin;
let coin2 = Coin::Ether;
let (_, caller, _) = create_coin_and_pool::<T>(&coin1);
let (_, _) = create_coin::<T>(&coin2);
Dex::<T>::add_liquidity(
SystemOrigin::Signed(caller).into(),
coin1,
200u64,
// TODO: this call otherwise fails with `InsufficientLiquidityMinted` if we don't multiply
// with 3. Might be again related to their expectance on ed being > 1.
100 * 3,
0u64,
0u64,
caller,
)?;
let swap_amount = 100u64;
// since we only allow the native-coin pools, then the worst case scenario would be to swap
// coin1-native-coin2
Dex::<T>::create_pool(coin2)?;
Dex::<T>::add_liquidity(
SystemOrigin::Signed(caller).into(),
coin2,
1000u64,
500,
0u64,
0u64,
caller,
)?;
let path = vec![coin1, native, coin2];
let path = BoundedVec::<_, T::MaxSwapPathLength>::try_from(path).unwrap();
let native_balance = Coins::<T>::balance(caller, native).0;
let coin1_balance = Coins::<T>::balance(caller, Coin::Bitcoin).0;
}: _(SystemOrigin::Signed(caller), path, swap_amount, 1u64, caller)
verify {
let ed_bump = 2u64;
let new_coin1_balance = Coins::<T>::balance(caller, Coin::Bitcoin).0;
assert_eq!(new_coin1_balance, coin1_balance - 100u64);
}
swap_tokens_for_exact_tokens {
let native = Coin::native();
let coin1 = Coin::Bitcoin;
let coin2 = Coin::Ether;
let (_, caller, _) = create_coin_and_pool::<T>(&coin1);
let (_, _) = create_coin::<T>(&coin2);
Dex::<T>::add_liquidity(
SystemOrigin::Signed(caller).into(),
coin1,
500u64,
1000,
0u64,
0u64,
caller,
)?;
// since we only allow the native-coin pools, then the worst case scenario would be to swap
// coin1-native-coin2
Dex::<T>::create_pool(coin2)?;
Dex::<T>::add_liquidity(
SystemOrigin::Signed(caller).into(),
coin2,
1000u64,
500,
0u64,
0u64,
caller,
)?;
let path = vec![coin1, native, coin2];
let path: BoundedVec<_, T::MaxSwapPathLength> = BoundedVec::try_from(path).unwrap();
let coin2_balance = Coins::<T>::balance(caller, Coin::Ether).0;
}: _(
SystemOrigin::Signed(caller),
path.clone(),
100u64,
1000,
caller
)
verify {
let new_coin2_balance = Coins::<T>::balance(caller, Coin::Ether).0;
assert_eq!(new_coin2_balance, coin2_balance + 100u64);
}
impl_benchmark_test_suite!(Dex, crate::mock::new_test_ext(), crate::mock::Test);
}