serai/substrate/client/tests/genesis_liquidity.rs

use std::{time::Duration, collections::HashMap};

use rand_core::{RngCore, OsRng};
use zeroize::Zeroizing;

use ciphersuite::{Ciphersuite, Ristretto};
use frost::dkg::musig::musig;
use schnorrkel::Schnorrkel;

use serai_client::{
  genesis_liquidity::{
    primitives::{GENESIS_LIQUIDITY_ACCOUNT, INITIAL_GENESIS_LP_SHARES},
    SeraiGenesisLiquidity,
  },
  validator_sets::primitives::{musig_context, Session, ValidatorSet},
};

use serai_abi::{
  genesis_liquidity::primitives::{oraclize_values_message, Values},
  primitives::COINS,
};

use sp_core::{sr25519::Signature, Pair as PairTrait};

use serai_client::{
  primitives::{
    Amount, NetworkId, Coin, Balance, BlockHash, SeraiAddress, insecure_pair_from_name, GENESIS_SRI,
  },
  in_instructions::primitives::{InInstruction, InInstructionWithBalance, Batch},
  Serai,
};

mod common;
use common::{in_instructions::provide_batch, tx::publish_tx};

serai_test_fast_epoch!(
  genesis_liquidity: (|serai: Serai| async move {
    test_genesis_liquidity(serai).await;
  })
);

async fn test_genesis_liquidity(serai: Serai) {
  // all coins except the native
  let coins = COINS.into_iter().filter(|c| *c != Coin::native()).collect::<Vec<_>>();

  // make accounts with amounts
  let mut accounts = HashMap::new();
  for coin in coins.clone() {
    // 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() % 10u64.pow(coin.decimals()))));
    }
    accounts.insert(coin, values);
  }

  // send a batch per coin
  let mut batch_ids: HashMap<NetworkId, u32> = HashMap::new();
  for coin in coins.clone() {
    // set up instructions
    let instructions = accounts[&coin]
      .iter()
      .map(|(addr, amount)| InInstructionWithBalance {
        instruction: InInstruction::GenesisLiquidity(*addr),
        balance: Balance { coin, amount: *amount },
      })
      .collect::<Vec<_>>();

    // set up bloch hash
    let mut block = BlockHash([0; 32]);
    OsRng.fill_bytes(&mut block.0);

    // set up batch id
    batch_ids
      .entry(coin.network())
      .and_modify(|v| {
        *v += 1;
      })
      .or_insert(0);

    let batch =
      Batch { network: coin.network(), id: batch_ids[&coin.network()], block, instructions };
    provide_batch(&serai, batch).await;
  }

  // wait until genesis ends
  let genesis_blocks = 10; // TODO
  let block_time = 6; // TODO
  tokio::time::timeout(
    tokio::time::Duration::from_secs(3 * (genesis_blocks * block_time)),
    async {
      while serai.latest_finalized_block().await.unwrap().number() < 10 {
        tokio::time::sleep(Duration::from_secs(6)).await;
      }
    },
  )
  .await
  .unwrap();

  // set values relative to each other
  // TODO: Random values here
  let values = Values { monero: 184100, ether: 4785000, dai: 1500 };
  set_values(&serai, &values).await;
  let values_map = HashMap::from([
    (Coin::Monero, values.monero),
    (Coin::Ether, values.ether),
    (Coin::Dai, values.dai),
  ]);

  // wait a little bit..
  tokio::time::sleep(Duration::from_secs(12)).await;

  // check total SRI supply is +100M
  // there are 6 endowed accounts in dev-net. Take this into consideration when checking
  // for the total sri minted at this time.
  let serai = serai.as_of_latest_finalized_block().await.unwrap();
  let sri = serai.coins().coin_supply(Coin::Serai).await.unwrap();
  let endowed_amount: u64 = 1 << 60;
  let total_sri = (6 * endowed_amount) + GENESIS_SRI;
  assert_eq!(sri, Amount(total_sri));

  // check genesis account has no coins, all transferred to pools.
  for coin in COINS {
    let amount = serai.coins().coin_balance(coin, GENESIS_LIQUIDITY_ACCOUNT).await.unwrap();
    assert_eq!(amount.0, 0);
  }

  // check pools has proper liquidity
  let mut pool_amounts = HashMap::new();
  let mut total_value = 0u128;
  for coin in coins.clone() {
    let total_coin = accounts[&coin].iter().fold(0u128, |acc, value| acc + u128::from(value.1 .0));
    let value = if coin != Coin::Bitcoin {
      (total_coin * u128::from(values_map[&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 coins.clone() {
    let sri = if coin == *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 = serai.dex().get_reserves(coin).await.unwrap().unwrap();
    assert_eq!(u128::from(reserves.0 .0), pool_amounts[&coin].0); // coin side
    assert_eq!(u128::from(reserves.1 .0), sri); // SRI side
  }

  // check each liquidity provider got liquidity tokens proportional to their value
  for coin in coins {
    let liq_supply = serai.genesis_liquidity().supply(coin).await.unwrap();
    for (acc, amount) in &accounts[&coin] {
      let acc_liq_shares = serai.genesis_liquidity().liquidity(acc, coin).await.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 =
        (INITIAL_GENESIS_LP_SHARES * amount.0) / u64::try_from(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);
    }
  }

  // TODO: test remove the liq before/after genesis ended.
}

async fn set_values(serai: &Serai, values: &Values) {
  // prepare a Musig tx to oraclize the relative values
  let pair = insecure_pair_from_name("Alice");
  let public = pair.public();
  // we publish the tx in set 4
  let set = ValidatorSet { session: Session(4), network: NetworkId::Serai };

  let public_key = <Ristretto as Ciphersuite>::read_G::<&[u8]>(&mut public.0.as_ref()).unwrap();
  let secret_key = <Ristretto as Ciphersuite>::read_F::<&[u8]>(
    &mut pair.as_ref().secret.to_bytes()[.. 32].as_ref(),
  )
  .unwrap();

  assert_eq!(Ristretto::generator() * secret_key, public_key);
  let threshold_keys =
    musig::<Ristretto>(&musig_context(set), &Zeroizing::new(secret_key), &[public_key]).unwrap();

  let sig = frost::tests::sign_without_caching(
    &mut OsRng,
    frost::tests::algorithm_machines(
      &mut OsRng,
      &Schnorrkel::new(b"substrate"),
      &HashMap::from([(threshold_keys.params().i(), threshold_keys.into())]),
    ),
    &oraclize_values_message(&set, values),
  );

  // oraclize values
  let _ =
    publish_tx(serai, &SeraiGenesisLiquidity::oraclize_values(*values, Signature(sig.to_bytes())))
      .await;
}
Implement genesis liquidity protocol (#545) * add genesis liquidity implementation * add missing deposit event * fix CI issues * minor fixes * make math safer * fix fmt * make remove liquidity an authorized call * implement setting initial values for coins * add genesis liquidity test & misc fixes * updato develop latest * fix rotation test * Finish merging develop * Remove accidentally committed ETH files * fix pr comments * further bug fixes * fix last pr comments * tidy up * Misc --------- Co-authored-by: Luke Parker <lukeparker5132@gmail.com> 2024-07-18 23:30:19 +00:00			`use std::{time::Duration, collections::HashMap};`

			`use rand_core::{RngCore, OsRng};`
			`use zeroize::Zeroizing;`

			`use ciphersuite::{Ciphersuite, Ristretto};`
			`use frost::dkg::musig::musig;`
			`use schnorrkel::Schnorrkel;`

			`use serai_client::{`
			`genesis_liquidity::{`
			`primitives::{GENESIS_LIQUIDITY_ACCOUNT, INITIAL_GENESIS_LP_SHARES},`
			`SeraiGenesisLiquidity,`
			`},`
			`validator_sets::primitives::{musig_context, Session, ValidatorSet},`
			`};`

			`use serai_abi::{`
			`genesis_liquidity::primitives::{oraclize_values_message, Values},`
			`primitives::COINS,`
			`};`

			`use sp_core::{sr25519::Signature, Pair as PairTrait};`

			`use serai_client::{`
			`primitives::{`
			`Amount, NetworkId, Coin, Balance, BlockHash, SeraiAddress, insecure_pair_from_name, GENESIS_SRI,`
			`},`
			`in_instructions::primitives::{InInstruction, InInstructionWithBalance, Batch},`
			`Serai,`
			`};`

			`mod common;`
			`use common::{in_instructions::provide_batch, tx::publish_tx};`

			`serai_test_fast_epoch!(`
			`genesis_liquidity: (\|serai: Serai\| async move {`
			`test_genesis_liquidity(serai).await;`
			`})`
			`);`

			`async fn test_genesis_liquidity(serai: Serai) {`
			`// all coins except the native`
			`let coins = COINS.into_iter().filter(\|c\| *c != Coin::native()).collect::<Vec<_>>();`

			`// make accounts with amounts`
			`let mut accounts = HashMap::new();`
			`for coin in coins.clone() {`
			`// 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() % 10u64.pow(coin.decimals()))));`
			`}`
			`accounts.insert(coin, values);`
			`}`

			`// send a batch per coin`
			`let mut batch_ids: HashMap<NetworkId, u32> = HashMap::new();`
			`for coin in coins.clone() {`
			`// set up instructions`
			`let instructions = accounts[&coin]`
			`.iter()`
			`.map(\|(addr, amount)\| InInstructionWithBalance {`
			`instruction: InInstruction::GenesisLiquidity(*addr),`
			`balance: Balance { coin, amount: *amount },`
			`})`
			`.collect::<Vec<_>>();`

			`// set up bloch hash`
			`let mut block = BlockHash([0; 32]);`
			`OsRng.fill_bytes(&mut block.0);`

			`// set up batch id`
			`batch_ids`
			`.entry(coin.network())`
			`.and_modify(\|v\| {`
			`*v += 1;`
			`})`
			`.or_insert(0);`

			`let batch =`
			`Batch { network: coin.network(), id: batch_ids[&coin.network()], block, instructions };`
			`provide_batch(&serai, batch).await;`
			`}`

			`// wait until genesis ends`
			`let genesis_blocks = 10; // TODO`
			`let block_time = 6; // TODO`
			`tokio::time::timeout(`
			`tokio::time::Duration::from_secs(3 * (genesis_blocks * block_time)),`
			`async {`
			`while serai.latest_finalized_block().await.unwrap().number() < 10 {`
			`tokio::time::sleep(Duration::from_secs(6)).await;`
			`}`
			`},`
			`)`
			`.await`
			`.unwrap();`

			`// set values relative to each other`
			`// TODO: Random values here`
			`let values = Values { monero: 184100, ether: 4785000, dai: 1500 };`
			`set_values(&serai, &values).await;`
			`let values_map = HashMap::from([`
			`(Coin::Monero, values.monero),`
			`(Coin::Ether, values.ether),`
			`(Coin::Dai, values.dai),`
			`]);`

			`// wait a little bit..`
			`tokio::time::sleep(Duration::from_secs(12)).await;`

			`// check total SRI supply is +100M`
			`// there are 6 endowed accounts in dev-net. Take this into consideration when checking`
			`// for the total sri minted at this time.`
			`let serai = serai.as_of_latest_finalized_block().await.unwrap();`
			`let sri = serai.coins().coin_supply(Coin::Serai).await.unwrap();`
			`let endowed_amount: u64 = 1 << 60;`
			`let total_sri = (6 * endowed_amount) + GENESIS_SRI;`
			`assert_eq!(sri, Amount(total_sri));`

			`// check genesis account has no coins, all transferred to pools.`
			`for coin in COINS {`
			`let amount = serai.coins().coin_balance(coin, GENESIS_LIQUIDITY_ACCOUNT).await.unwrap();`
			`assert_eq!(amount.0, 0);`
			`}`

			`// check pools has proper liquidity`
			`let mut pool_amounts = HashMap::new();`
			`let mut total_value = 0u128;`
			`for coin in coins.clone() {`
			`let total_coin = accounts[&coin].iter().fold(0u128, \|acc, value\| acc + u128::from(value.1 .0));`
			`let value = if coin != Coin::Bitcoin {`
			`(total_coin * u128::from(values_map[&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 coins.clone() {`
			`let sri = if coin == *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 = serai.dex().get_reserves(coin).await.unwrap().unwrap();`
			`assert_eq!(u128::from(reserves.0 .0), pool_amounts[&coin].0); // coin side`
			`assert_eq!(u128::from(reserves.1 .0), sri); // SRI side`
			`}`

			`// check each liquidity provider got liquidity tokens proportional to their value`
			`for coin in coins {`
			`let liq_supply = serai.genesis_liquidity().supply(coin).await.unwrap();`
			`for (acc, amount) in &accounts[&coin] {`
			`let acc_liq_shares = serai.genesis_liquidity().liquidity(acc, coin).await.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 =`
			`(INITIAL_GENESIS_LP_SHARES * amount.0) / u64::try_from(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);`
			`}`
			`}`

			`// TODO: test remove the liq before/after genesis ended.`
			`}`

			`async fn set_values(serai: &Serai, values: &Values) {`
			`// prepare a Musig tx to oraclize the relative values`
			`let pair = insecure_pair_from_name("Alice");`
			`let public = pair.public();`
			`// we publish the tx in set 4`
			`let set = ValidatorSet { session: Session(4), network: NetworkId::Serai };`

			`let public_key = <Ristretto as Ciphersuite>::read_G::<&[u8]>(&mut public.0.as_ref()).unwrap();`
			`let secret_key = <Ristretto as Ciphersuite>::read_F::<&[u8]>(`
			`&mut pair.as_ref().secret.to_bytes()[.. 32].as_ref(),`
			`)`
			`.unwrap();`

			`assert_eq!(Ristretto::generator() * secret_key, public_key);`
			`let threshold_keys =`
			`musig::<Ristretto>(&musig_context(set), &Zeroizing::new(secret_key), &[public_key]).unwrap();`

			`let sig = frost::tests::sign_without_caching(`
			`&mut OsRng,`
			`frost::tests::algorithm_machines(`
			`&mut OsRng,`
			`&Schnorrkel::new(b"substrate"),`
			`&HashMap::from([(threshold_keys.params().i(), threshold_keys.into())]),`
			`),`
			`&oraclize_values_message(&set, values),`
			`);`

			`// oraclize values`
			`let _ =`
			`publish_tx(serai, &SeraiGenesisLiquidity::oraclize_values(*values, Signature(sig.to_bytes())))`
			`.await;`
			`}`