mirror of
https://github.com/logos-blockchain/lssa.git
synced 2026-02-20 13:23:06 +00:00
167 lines
5.9 KiB
Rust
167 lines
5.9 KiB
Rust
use std::num::NonZeroU128;
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use amm_core::{PoolDefinition, compute_liquidity_token_pda_seed, compute_vault_pda_seed};
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use nssa_core::{
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account::{AccountWithMetadata, Data},
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program::{AccountPostState, ChainedCall},
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};
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#[expect(clippy::too_many_arguments, reason = "TODO: Fix later")]
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pub fn remove_liquidity(
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pool: AccountWithMetadata,
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vault_a: AccountWithMetadata,
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vault_b: AccountWithMetadata,
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pool_definition_lp: AccountWithMetadata,
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user_holding_a: AccountWithMetadata,
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user_holding_b: AccountWithMetadata,
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user_holding_lp: AccountWithMetadata,
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remove_liquidity_amount: NonZeroU128,
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min_amount_to_remove_token_a: u128,
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min_amount_to_remove_token_b: u128,
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) -> (Vec<AccountPostState>, Vec<ChainedCall>) {
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let remove_liquidity_amount: u128 = remove_liquidity_amount.into();
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// 1. Fetch Pool state
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let pool_def_data = PoolDefinition::try_from(&pool.account.data)
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.expect("Remove liquidity: AMM Program expects a valid Pool Definition Account");
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assert!(pool_def_data.active, "Pool is inactive");
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assert_eq!(
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pool_def_data.liquidity_pool_id, pool_definition_lp.account_id,
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"LP definition mismatch"
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);
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assert_eq!(
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vault_a.account_id, pool_def_data.vault_a_id,
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"Vault A was not provided"
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);
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assert_eq!(
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vault_b.account_id, pool_def_data.vault_b_id,
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"Vault B was not provided"
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);
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// Vault addresses do not need to be checked with PDA
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// calculation for setting authorization since stored
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// in the Pool Definition.
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let mut running_vault_a = vault_a.clone();
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let mut running_vault_b = vault_b.clone();
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running_vault_a.is_authorized = true;
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running_vault_b.is_authorized = true;
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assert!(
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min_amount_to_remove_token_a != 0,
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"Minimum withdraw amount must be nonzero"
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);
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assert!(
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min_amount_to_remove_token_b != 0,
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"Minimum withdraw amount must be nonzero"
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);
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// 2. Compute withdrawal amounts
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let user_holding_lp_data = token_core::TokenHolding::try_from(&user_holding_lp.account.data)
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.expect("Remove liquidity: AMM Program expects a valid Token Account for liquidity token");
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let token_core::TokenHolding::Fungible {
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definition_id: _,
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balance: user_lp_balance,
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} = user_holding_lp_data
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else {
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panic!(
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"Remove liquidity: AMM Program expects a valid Fungible Token Holding Account for liquidity token"
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);
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};
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assert!(
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user_lp_balance <= pool_def_data.liquidity_pool_supply,
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"Invalid liquidity account provided"
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);
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assert_eq!(
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user_holding_lp_data.definition_id(),
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pool_def_data.liquidity_pool_id,
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"Invalid liquidity account provided"
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);
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let withdraw_amount_a =
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(pool_def_data.reserve_a * remove_liquidity_amount) / pool_def_data.liquidity_pool_supply;
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let withdraw_amount_b =
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(pool_def_data.reserve_b * remove_liquidity_amount) / pool_def_data.liquidity_pool_supply;
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// 3. Validate and slippage check
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assert!(
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withdraw_amount_a >= min_amount_to_remove_token_a,
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"Insufficient minimal withdraw amount (Token A) provided for liquidity amount"
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);
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assert!(
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withdraw_amount_b >= min_amount_to_remove_token_b,
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"Insufficient minimal withdraw amount (Token B) provided for liquidity amount"
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);
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// 4. Calculate LP to reduce cap by
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let delta_lp: u128 = (pool_def_data.liquidity_pool_supply * remove_liquidity_amount)
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/ pool_def_data.liquidity_pool_supply;
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let active: bool = pool_def_data.liquidity_pool_supply - delta_lp != 0;
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// 5. Update pool account
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let mut pool_post = pool.account.clone();
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let pool_post_definition = PoolDefinition {
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liquidity_pool_supply: pool_def_data.liquidity_pool_supply - delta_lp,
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reserve_a: pool_def_data.reserve_a - withdraw_amount_a,
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reserve_b: pool_def_data.reserve_b - withdraw_amount_b,
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active,
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..pool_def_data.clone()
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};
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pool_post.data = Data::from(&pool_post_definition);
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let token_program_id = user_holding_a.account.program_owner;
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// Chaincall for Token A withdraw
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let call_token_a = ChainedCall::new(
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token_program_id,
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vec![running_vault_a, user_holding_a.clone()],
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&token_core::Instruction::Transfer {
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amount_to_transfer: withdraw_amount_a,
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},
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)
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.with_pda_seeds(vec![compute_vault_pda_seed(
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pool.account_id,
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pool_def_data.definition_token_a_id,
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)]);
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// Chaincall for Token B withdraw
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let call_token_b = ChainedCall::new(
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token_program_id,
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vec![running_vault_b, user_holding_b.clone()],
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&token_core::Instruction::Transfer {
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amount_to_transfer: withdraw_amount_b,
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},
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)
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.with_pda_seeds(vec![compute_vault_pda_seed(
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pool.account_id,
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pool_def_data.definition_token_b_id,
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)]);
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// Chaincall for LP adjustment
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let mut pool_definition_lp_auth = pool_definition_lp.clone();
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pool_definition_lp_auth.is_authorized = true;
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let call_token_lp = ChainedCall::new(
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token_program_id,
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vec![pool_definition_lp_auth, user_holding_lp.clone()],
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&token_core::Instruction::Burn {
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amount_to_burn: delta_lp,
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},
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)
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.with_pda_seeds(vec![compute_liquidity_token_pda_seed(pool.account_id)]);
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let chained_calls = vec![call_token_lp, call_token_b, call_token_a];
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let post_states = vec![
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AccountPostState::new(pool_post.clone()),
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AccountPostState::new(vault_a.account.clone()),
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AccountPostState::new(vault_b.account.clone()),
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AccountPostState::new(pool_definition_lp.account.clone()),
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AccountPostState::new(user_holding_a.account.clone()),
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AccountPostState::new(user_holding_b.account.clone()),
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AccountPostState::new(user_holding_lp.account.clone()),
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];
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(post_states, chained_calls)
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}
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