use crate::{mock::*, primitives::*}; use std::collections::HashMap; use rand_core::{RngCore, OsRng}; use frame_system::RawOrigin; use frame_support::{assert_noop, assert_ok, traits::Hooks}; use sp_core::Pair; use sp_runtime::BoundedVec; use validator_sets_primitives::{ValidatorSet, Session, KeyPair}; use serai_primitives::*; fn set_up_genesis( values: &HashMap, ) -> (HashMap>, u64) { // make accounts with amounts let mut accounts = HashMap::new(); for coin in EXTERNAL_COINS { // make 5 accounts per coin let mut values = vec![]; for _ in 0 .. 5 { let mut address = SeraiAddress::new([0; 32]); OsRng.fill_bytes(&mut address.0); values.push((address, Amount(OsRng.next_u64() % (10_000 * 10u64.pow(coin.decimals()))))); } accounts.insert(coin, values); } // add some genesis liquidity for (coin, amounts) in &accounts { for (address, amount) in amounts { let balance = ExternalBalance { coin: *coin, amount: *amount }; Coins::mint(GENESIS_LIQUIDITY_ACCOUNT.into(), balance.into()).unwrap(); GenesisLiquidity::add_coin_liquidity((*address).into(), balance).unwrap(); } } // make genesis liquidity event happen let block_number = MONTHS; let values = Values { monero: values[&ExternalCoin::Monero], ether: values[&ExternalCoin::Ether], dai: values[&ExternalCoin::Dai], }; GenesisLiquidity::oraclize_values(RawOrigin::None.into(), values, Signature([0u8; 64])).unwrap(); GenesisLiquidity::on_initialize(block_number); System::set_block_number(block_number); // populate the coin values Dex::on_finalize(block_number); (accounts, block_number) } // TODO: make this fn belong to the pallet itself use it there as well? // The problem with that would be if there is a problem with this function // tests can't catch it since it would the same fn? fn distances() -> (HashMap, u64) { let mut distances = HashMap::new(); let mut total_distance: u64 = 0; // calculate distance to economic security per network for n in EXTERNAL_NETWORKS { let required = ValidatorSets::required_stake_for_network(n); let mut current = ValidatorSets::total_allocated_stake(NetworkId::from(n)).unwrap_or(Amount(0)).0; if current > required { current = required; } let distance = required - current; distances.insert(n.into(), distance); total_distance = total_distance.saturating_add(distance); } // add serai network portion (20%) let new_total_distance = total_distance.saturating_mul(100) / (100 - 20); distances.insert(NetworkId::Serai, new_total_distance - total_distance); total_distance = new_total_distance; (distances, total_distance) } fn set_keys_for_session() { for network in EXTERNAL_NETWORKS { ValidatorSets::set_keys( RawOrigin::None.into(), network, BoundedVec::new(), KeyPair(insecure_pair_from_name("Alice").public(), vec![].try_into().unwrap()), Signature([0u8; 64]), ) .unwrap(); } } fn make_networks_reach_economic_security(block_number: u64) { set_keys_for_session(); let (distances, _) = distances(); for (network, distance) in distances { if network == NetworkId::Serai { continue; } let participants = ValidatorSets::participants_for_latest_decided_set(network).unwrap(); let al_per_key_share = ValidatorSets::allocation_per_key_share(network).unwrap().0; // we want some unused capacity so we stake more SRI than necessary let mut key_shares = (distance / al_per_key_share) + 1; 'outer: while key_shares > 0 { for (account, _) in &participants { ValidatorSets::distribute_block_rewards(network, *account, Amount(al_per_key_share)) .unwrap(); if key_shares > 0 { key_shares -= 1; } else { break 'outer; } } } } // update TAS ValidatorSets::new_session(); for network in NETWORKS { ValidatorSets::retire_set(ValidatorSet { session: Session(0), network }); } // make sure we reached economic security EconomicSecurity::on_initialize(block_number); for n in EXTERNAL_NETWORKS { EconomicSecurity::economic_security_block(n).unwrap(); } } #[test] fn genesis_liquidity() { new_test_ext().execute_with(|| { let values = HashMap::from([ (ExternalCoin::Monero, 184100), (ExternalCoin::Ether, 4785000), (ExternalCoin::Dai, 1500), ]); let (accounts, block_number) = set_up_genesis(&values); // check that we minted the correct SRI amount // there are 6 endowed accounts in this mock runtime. let endowed_amount: u64 = 1 << 60; let total_sri = (6 * endowed_amount) + GENESIS_SRI; assert_eq!(Coins::supply(Coin::Serai), total_sri); // check genesis account has no coins, all transferred to pools. for coin in COINS { assert_eq!(Coins::balance(GENESIS_LIQUIDITY_ACCOUNT.into(), coin).0, 0); } // get total pool coins and it's values let mut pool_amounts = HashMap::new(); let mut total_value = 0u128; for (coin, amounts) in &accounts { let total_coin = amounts.iter().fold(0u128, |acc, value| acc + u128::from(value.1 .0)); let value = if *coin != ExternalCoin::Bitcoin { (total_coin * u128::from(values[coin])) / 10u128.pow(coin.decimals()) } else { total_coin }; total_value += value; pool_amounts.insert(coin, (total_coin, value)); } // check distributed SRI per pool let mut total_sri_distributed = 0u128; for coin in EXTERNAL_COINS { let sri = if &coin == EXTERNAL_COINS.last().unwrap() { u128::from(GENESIS_SRI).checked_sub(total_sri_distributed).unwrap() } else { (pool_amounts[&coin].1 * u128::from(GENESIS_SRI)) / total_value }; total_sri_distributed += sri; let reserves = Dex::get_reserves(&coin.into(), &Coin::Serai).unwrap(); assert_eq!(u128::from(reserves.0), pool_amounts[&coin].0); // coin side assert_eq!(u128::from(reserves.1), sri); // SRI side } // check each liquidity provider got liquidity tokens proportional to their value for coin in EXTERNAL_COINS { let liq_supply = GenesisLiquidity::supply(coin).unwrap(); for (acc, amount) in &accounts[&coin] { let public: PublicKey = (*acc).into(); let acc_liq_shares = GenesisLiquidity::liquidity(coin, public).unwrap().shares; // since we can't test the ratios directly(due to integer division giving 0) // we test whether they give the same result when multiplied by another constant. // Following test ensures the account in fact has the right amount of shares. let mut shares_ratio = (INITIAL_GENESIS_LP_SHARES * acc_liq_shares) / liq_supply.shares; let amounts_ratio = u64::try_from( (u128::from(INITIAL_GENESIS_LP_SHARES) * u128::from(amount.0)) / pool_amounts[&coin].0, ) .unwrap(); // we can tolerate 1 unit diff between them due to integer division. if shares_ratio.abs_diff(amounts_ratio) == 1 { shares_ratio = amounts_ratio; } assert_eq!(shares_ratio, amounts_ratio); } } // make sure we have genesis complete block set assert_eq!(GenesisLiquidity::genesis_complete_block().unwrap(), block_number); }); } #[test] fn remove_coin_liquidity_genesis_period() { new_test_ext().execute_with(|| { let account = insecure_pair_from_name("random1").public(); let coin = ExternalCoin::Bitcoin; let balance = ExternalBalance { coin, amount: Amount(10u64.pow(coin.decimals())) }; // add some genesis liquidity Coins::mint(GENESIS_LIQUIDITY_ACCOUNT.into(), balance.into()).unwrap(); GenesisLiquidity::add_coin_liquidity(account, balance).unwrap(); // amount has to be full amount if removing during genesis period assert_noop!( GenesisLiquidity::remove_coin_liquidity( RawOrigin::Signed(account).into(), ExternalBalance { coin, amount: Amount(1_000) } ), genesis_liquidity::Error::::CanOnlyRemoveFullAmount ); assert_ok!(GenesisLiquidity::remove_coin_liquidity( RawOrigin::Signed(account).into(), ExternalBalance { coin, amount: Amount(INITIAL_GENESIS_LP_SHARES) } )); // check that user got back the coins assert_eq!(Coins::balance(GENESIS_LIQUIDITY_ACCOUNT.into(), coin.into()), Amount(0)); assert_eq!(Coins::balance(account, coin.into()), balance.amount); }) } #[test] fn remove_coin_liquidity_after_genesis_period() { new_test_ext().execute_with(|| { // set up genesis let coin = ExternalCoin::Monero; let values = HashMap::from([ (ExternalCoin::Monero, 184100), (ExternalCoin::Ether, 4785000), (ExternalCoin::Dai, 1500), ]); let (accounts, mut block_number) = set_up_genesis(&values); // make sure no economic security achieved for the network assert!(EconomicSecurity::economic_security_block(coin.network()).is_none()); let account: PublicKey = accounts[&coin][0].0.into(); // let account_liquidity = accounts[&coin][0].1 .0; let account_sri_balance = Coins::balance(account, Coin::Serai).0; let account_coin_balance = Coins::balance(account, coin.into()).0; // try to remove liquidity assert_ok!(GenesisLiquidity::remove_coin_liquidity( RawOrigin::Signed(account).into(), ExternalBalance { coin, amount: Amount(INITIAL_GENESIS_LP_SHARES / 2) }, )); // since there is no economic security we shouldn't have received any SRI // and should receive only half the coins since we removed half. assert_eq!(Coins::balance(account, Coin::Serai).0, account_sri_balance); // TODO: this doesn't exactly line up with `account_liquidity / 2`. Prob due to all the integer // mul_divs? There is no pool movement to attribute it to. // assert_eq!(Coins::balance(account, coin).0 - account_coin_balance, account_liquidity / 2); assert!(Coins::balance(account, coin.into()).0 > account_coin_balance); // make networks reach economic security make_networks_reach_economic_security(block_number); // move the block number it has been some time since economic security block_number += MONTHS; System::set_block_number(block_number); let coin = ExternalCoin::Ether; let account: PublicKey = accounts[&coin][0].0.into(); // let account_liquidity = accounts[&coin][0].1 .0; let account_sri_balance = Coins::balance(account, Coin::Serai).0; let account_coin_balance = Coins::balance(account, coin.into()).0; // try to remove liquidity assert_ok!(GenesisLiquidity::remove_coin_liquidity( RawOrigin::Signed(account).into(), ExternalBalance { coin, amount: Amount(INITIAL_GENESIS_LP_SHARES / 2) }, )); // TODO: this doesn't exactly line up with `account_liquidity / 2`. Prob due to all the integer // mul_divs? There is no pool movement to attribute it to. // let pool_sri = Coins::balance(Dex::get_pool_account(coin), Coin::Serai).0; // let total_pool_coins = // accounts[&coin].iter().fold(0u128, |acc, value| acc + u128::from(value.1 .0)); // let genesis_sri_for_account = // (u128::from(pool_sri) * u128::from(account_liquidity)) / total_pool_coins; // // we should receive only half of genesis SRI minted for us // let genesis_sri_for_account = genesis_sri_for_account / 2; // let distance_to_full_pay = GENESIS_SRI_TRICKLE_FEED.saturating_sub(MONTHS); // let burn_sri_amount = (genesis_sri_for_account * u128::from(distance_to_full_pay)) / // u128::from(GENESIS_SRI_TRICKLE_FEED); // let sri_received = genesis_sri_for_account - burn_sri_amount; // assert_eq!( // Coins::balance(account, Coin::Serai).0 - account_sri_balance, // u64::try_from(sri_received).unwrap() // ); assert!(Coins::balance(account, Coin::Serai).0 > account_sri_balance); // TODO: this doesn't exactly line up with `account_liquidity / 2`. Prob due to all the integer // mul_divs? There is no pool movement to attribute it to. // assert_eq!(Coins::balance(account, coin).0 - account_coin_balance, account_liquidity / 2); assert!(Coins::balance(account, coin.into()).0 > account_coin_balance); }) }