use std::{time::Duration, collections::HashMap}; use rand_core::{RngCore, OsRng}; use serai_client::TemporalSerai; use serai_abi::{ emissions::primitives::{INITIAL_REWARD_PER_BLOCK, SECURE_BY}, in_instructions::primitives::Batch, primitives::{ BlockHash, Coin, COINS, FAST_EPOCH_DURATION, FAST_EPOCH_INITIAL_PERIOD, NETWORKS, TARGET_BLOCK_TIME, }, validator_sets::primitives::Session, }; use serai_client::{ primitives::{Amount, NetworkId, Balance}, Serai, }; mod common; use common::{genesis_liquidity::set_up_genesis, in_instructions::provide_batch}; serai_test_fast_epoch!( emissions: (|serai: Serai| async move { test_emissions(serai).await; }) ); async fn send_batches(serai: &Serai, ids: &mut HashMap) { for network in NETWORKS { if network != NetworkId::Serai { // set up batch id ids .entry(network) .and_modify(|v| { *v += 1; }) .or_insert(0); // set up block hash let mut block = BlockHash([0; 32]); OsRng.fill_bytes(&mut block.0); provide_batch(serai, Batch { network, id: ids[&network], block, instructions: vec![] }).await; } } } async fn test_emissions(serai: Serai) { // set up the genesis let coins = COINS.into_iter().filter(|c| *c != Coin::native()).collect::>(); let values = HashMap::from([(Coin::Monero, 184100), (Coin::Ether, 4785000), (Coin::Dai, 1500)]); let (_, mut batch_ids) = set_up_genesis(&serai, &coins, &values).await; // wait until genesis is complete let mut genesis_complete_block = None; while genesis_complete_block.is_none() { tokio::time::sleep(Duration::from_secs(1)).await; genesis_complete_block = serai .as_of_latest_finalized_block() .await .unwrap() .genesis_liquidity() .genesis_complete_block() .await .unwrap(); } for _ in 0 .. 3 { // get current stakes let mut current_stake = HashMap::new(); for n in NETWORKS { // TODO: investigate why serai network TAS isn't visible at session 0. let stake = serai .as_of_latest_finalized_block() .await .unwrap() .validator_sets() .total_allocated_stake(n) .await .unwrap() .unwrap_or(Amount(0)) .0; current_stake.insert(n, stake); } // wait for a session change let current_session = wait_for_session_change(&serai).await; // get last block let last_block = serai.latest_finalized_block().await.unwrap(); let serai_latest = serai.as_of(last_block.hash()); let change_block_number = last_block.number(); // get distances to ec security & block count of the previous session let (distances, total_distance) = get_distances(&serai_latest, ¤t_stake).await; let block_count = get_session_blocks(&serai_latest, current_session - 1).await; // calculate how much reward in this session let reward_this_epoch = if change_block_number < (genesis_complete_block.unwrap() + FAST_EPOCH_INITIAL_PERIOD) { block_count * INITIAL_REWARD_PER_BLOCK } else { let blocks_until = SECURE_BY - change_block_number; let block_reward = total_distance / blocks_until; block_count * block_reward }; let reward_per_network = distances .into_iter() .map(|(n, distance)| { let reward = u64::try_from( u128::from(reward_this_epoch).saturating_mul(u128::from(distance)) / u128::from(total_distance), ) .unwrap(); (n, reward) }) .collect::>(); // retire the prev-set so that TotalAllocatedStake updated. send_batches(&serai, &mut batch_ids).await; for (n, reward) in reward_per_network { let stake = serai .as_of_latest_finalized_block() .await .unwrap() .validator_sets() .total_allocated_stake(n) .await .unwrap() .unwrap_or(Amount(0)) .0; // all reward should automatically staked for the network since we are in initial period. assert_eq!(stake, *current_stake.get(&n).unwrap() + reward); } // TODO: check stake per address? // TODO: check post ec security era } } /// Returns the required stake in terms SRI for a given `Balance`. async fn required_stake(serai: &TemporalSerai<'_>, balance: Balance) -> u64 { // This is inclusive to an increase in accuracy let sri_per_coin = serai.dex().oracle_value(balance.coin).await.unwrap().unwrap_or(Amount(0)); // See dex-pallet for the reasoning on these let coin_decimals = balance.coin.decimals().max(5); let accuracy_increase = u128::from(10u64.pow(coin_decimals)); let total_coin_value = u64::try_from(u128::from(balance.amount.0) * u128::from(sri_per_coin.0) / accuracy_increase) .unwrap_or(u64::MAX); // required stake formula (COIN_VALUE * 1.5) + margin(20%) let required_stake = total_coin_value.saturating_mul(3).saturating_div(2); required_stake.saturating_add(total_coin_value.saturating_div(5)) } async fn wait_for_session_change(serai: &Serai) -> u32 { let current_session = serai .as_of_latest_finalized_block() .await .unwrap() .validator_sets() .session(NetworkId::Serai) .await .unwrap() .unwrap() .0; let next_session = current_session + 1; // lets wait double the epoch time. tokio::time::timeout( tokio::time::Duration::from_secs(FAST_EPOCH_DURATION * TARGET_BLOCK_TIME * 2), async { while serai .as_of_latest_finalized_block() .await .unwrap() .validator_sets() .session(NetworkId::Serai) .await .unwrap() .unwrap() .0 < next_session { tokio::time::sleep(Duration::from_secs(6)).await; } }, ) .await .unwrap(); next_session } async fn get_distances( serai: &TemporalSerai<'_>, current_stake: &HashMap, ) -> (HashMap, u64) { // we should be in the initial period, so calculate how much each network supposedly get.. // we can check the supply to see how much coin hence liability we have. let mut distances: HashMap = HashMap::new(); let mut total_distance = 0; for n in NETWORKS { if n == NetworkId::Serai { continue; } let mut required = 0; for c in n.coins() { let amount = serai.coins().coin_supply(*c).await.unwrap(); required += required_stake(serai, Balance { coin: *c, amount }).await; } let mut current = *current_stake.get(&n).unwrap(); if current > required { current = required; } let distance = required - current; total_distance += distance; distances.insert(n, distance); } // add serai network portion(20%) let new_total_distance = total_distance.saturating_mul(10) / 8; distances.insert(NetworkId::Serai, new_total_distance - total_distance); total_distance = new_total_distance; (distances, total_distance) } async fn get_session_blocks(serai: &TemporalSerai<'_>, session: u32) -> u64 { let begin_block = serai .validator_sets() .session_begin_block(NetworkId::Serai, Session(session)) .await .unwrap() .unwrap(); let next_begin_block = serai .validator_sets() .session_begin_block(NetworkId::Serai, Session(session + 1)) .await .unwrap() .unwrap(); next_begin_block.saturating_sub(begin_block) }