mod setup; use std::mem::size_of; use crate::setup::init::bootstrap_default; use crate::setup::init::PhoenixTestClient; use crate::setup::init::{setup_account, NUM_SEATS}; use phoenix::program::load_with_dispatch; use phoenix::program::MarketHeader; use phoenix_seat_manager::get_seat_deposit_collector_address; use phoenix_seat_manager::get_seat_manager_address; use phoenix_seat_manager::instruction_builders::create_add_dmm_instruction; use phoenix_seat_manager::instruction_builders::create_claim_seat_authorized_instruction; use phoenix_seat_manager::instruction_builders::EvictTraderAccountBackup; use phoenix_seat_manager::instruction_builders::{ create_claim_seat_instruction, create_evict_seat_instruction, }; use phoenix_seat_manager::seat_manager::SeatManager; use solana_program::program_pack::Pack; use solana_program::pubkey::Pubkey; use solana_program::rent::Rent; use solana_sdk::compute_budget::ComputeBudgetInstruction; use solana_sdk::signature::Keypair; use solana_sdk::signer::Signer; use spl_associated_token_account::get_associated_token_address; use spl_token::instruction::burn; use spl_token::instruction::close_account; #[tokio::test] async fn test_evict_seat_multiple_authorized() { let PhoenixTestClient { ctx: _, sdk, mint_authority, } = bootstrap_default(5).await; // Claim seats for two traders let trader_one = setup_account(&sdk.client, &mint_authority, sdk.base_mint, sdk.quote_mint).await; let trader_two = setup_account(&sdk.client, &mint_authority, sdk.base_mint, sdk.quote_mint).await; let claim_seat_one = create_claim_seat_instruction(&trader_one.user.pubkey(), &sdk.active_market_key); let claim_seat_two = create_claim_seat_instruction(&trader_two.user.pubkey(), &sdk.active_market_key); sdk.client .sign_send_instructions( vec![claim_seat_one, claim_seat_two], vec![&trader_one.user, &trader_two.user], ) .await .unwrap(); let traders = sdk.get_traders().await; assert!(traders.get(&trader_one.user.pubkey()).is_some()); assert!(traders.get(&trader_two.user.pubkey()).is_some()); // Evict seats for both traders let evict_seats = create_evict_seat_instruction( &sdk.active_market_key, &sdk.base_mint, &sdk.quote_mint, &sdk.client.payer.pubkey(), vec![ EvictTraderAccountBackup { trader_pubkey: trader_one.user.pubkey(), base_token_account_backup: None, quote_token_account_backup: None, }, EvictTraderAccountBackup { trader_pubkey: trader_two.user.pubkey(), base_token_account_backup: None, quote_token_account_backup: None, }, ], ); let compute_increase = ComputeBudgetInstruction::set_compute_unit_limit(1_400_000); sdk.client .sign_send_instructions(vec![compute_increase, evict_seats], vec![]) .await .unwrap(); // Assert that neither trader are in the market state let traders = sdk.get_traders().await; assert!(traders.get(&trader_one.user.pubkey()).is_none()); assert!(traders.get(&trader_two.user.pubkey()).is_none()); } #[tokio::test] async fn test_evict_seat_permissionless_succeeds_when_full_and_only_evicts_one() { let PhoenixTestClient { ctx: _, sdk, mint_authority, } = bootstrap_default(5).await; let trader_one = setup_account(&sdk.client, &mint_authority, sdk.base_mint, sdk.quote_mint).await; let trader_two = setup_account(&sdk.client, &mint_authority, sdk.base_mint, sdk.quote_mint).await; let claim_seat_one = create_claim_seat_instruction(&trader_one.user.pubkey(), &sdk.active_market_key); let claim_seat_two = create_claim_seat_instruction(&trader_two.user.pubkey(), &sdk.active_market_key); sdk.client .sign_send_instructions( vec![claim_seat_one, claim_seat_two], vec![&trader_one.user, &trader_two.user], ) .await .unwrap(); let traders = sdk.get_traders().await; assert!(traders.get(&trader_one.user.pubkey()).is_some()); assert!(traders.get(&trader_two.user.pubkey()).is_some()); // Need to fill market with traders let num_new_traders = NUM_SEATS + 100; for _ in 0..num_new_traders { let trader = Pubkey::new_unique(); let claim_seat = create_claim_seat_authorized_instruction( &trader, &sdk.active_market_key, &sdk.client.payer.pubkey(), ); let result = sdk .client .sign_send_instructions(vec![claim_seat], vec![]) .await; println!("Result: {:?}", result); } let market_bytes = sdk .client .get_account_data(&sdk.active_market_key) .await .unwrap(); let (header_bytes, market_bytes) = market_bytes.split_at(size_of::()); let market_header = bytemuck::try_from_bytes::(header_bytes).unwrap(); let market = load_with_dispatch(&market_header.market_size_params, market_bytes) .unwrap() .inner; let registered_traders = market.get_registered_traders(); println!("Capacity: {:?}", registered_traders.capacity()); println!("Length: {:?}", registered_traders.len()); assert!(registered_traders.capacity() == registered_traders.len()); // Evict two traders permissionless let unauthorized_keypair = Keypair::new(); let evict_seats = create_evict_seat_instruction( &sdk.active_market_key, &sdk.base_mint, &sdk.quote_mint, &unauthorized_keypair.pubkey(), vec![ EvictTraderAccountBackup { trader_pubkey: trader_one.user.pubkey(), base_token_account_backup: None, quote_token_account_backup: None, }, EvictTraderAccountBackup { trader_pubkey: trader_two.user.pubkey(), base_token_account_backup: None, quote_token_account_backup: None, }, ], ); sdk.client .sign_send_instructions( vec![ ComputeBudgetInstruction::set_compute_unit_limit(1_400_000), evict_seats, ], vec![&unauthorized_keypair], ) .await .unwrap(); // Assert that trader one was evicted but trader two remains let traders = sdk.get_traders().await; assert!(traders.get(&trader_one.user.pubkey()).is_none()); assert!(traders.get(&trader_two.user.pubkey()).is_some()); } #[tokio::test] // This test MUST PASS because remove designated market maker relies on that mm having a seat async fn test_evict_seat_fails_on_designated_market_maker() { let PhoenixTestClient { ctx: _, sdk, mint_authority: _, } = bootstrap_default(5).await; // Add seat for trader let trader = Pubkey::new_unique(); let claim_seat = create_claim_seat_authorized_instruction( &trader, &sdk.active_market_key, &sdk.client.payer.pubkey(), ); sdk.client .sign_send_instructions(vec![claim_seat], vec![]) .await .unwrap(); // Add designated MM let add_as_mm = create_add_dmm_instruction(&sdk.active_market_key, &sdk.client.payer.pubkey(), &trader); sdk.client .sign_send_instructions(vec![add_as_mm], vec![]) .await .unwrap(); let (seat_manager_address, _) = get_seat_manager_address(&sdk.active_market_key); let seat_manager_data = sdk .client .get_account_data(&seat_manager_address) .await .unwrap(); let seat_manager = bytemuck::try_from_bytes::(&seat_manager_data).unwrap(); assert_eq!(seat_manager.num_makers, 1); // Evict seats for dmm - should fail let evict_seat = create_evict_seat_instruction( &sdk.active_market_key, &sdk.base_mint, &sdk.quote_mint, &sdk.client.payer.pubkey(), vec![EvictTraderAccountBackup { trader_pubkey: trader, base_token_account_backup: None, quote_token_account_backup: None, }], ); sdk.client .sign_send_instructions(vec![evict_seat], vec![]) .await .unwrap(); let (seat_manager_address, _) = get_seat_manager_address(&sdk.active_market_key); let seat_manager_data = sdk .client .get_account_data(&seat_manager_address) .await .unwrap(); let seat_manager = bytemuck::try_from_bytes::(&seat_manager_data).unwrap(); assert_eq!(seat_manager.num_makers, 1); } #[tokio::test] async fn test_evict_seat_refunds_claim_seat_deposit() { let PhoenixTestClient { ctx: _, sdk, mint_authority, } = bootstrap_default(5).await; let trader = setup_account(&sdk.client, &mint_authority, sdk.base_mint, sdk.quote_mint) .await .user; let claim_seat_ix = create_claim_seat_instruction(&trader.pubkey(), &sdk.active_market_key); sdk.client .sign_send_instructions(vec![claim_seat_ix], vec![&trader]) .await .unwrap(); // Evict seat then check that seat_deposit_collector has the same lamports as initial and that trader lamports went up let trader_initial_lamports = sdk .client .get_account(&trader.pubkey()) .await .unwrap() .lamports; let evict_seat_ix = create_evict_seat_instruction( &sdk.active_market_key, &sdk.base_mint, &sdk.quote_mint, &sdk.client.payer.pubkey(), vec![EvictTraderAccountBackup { trader_pubkey: trader.pubkey(), base_token_account_backup: None, quote_token_account_backup: None, }], ); sdk.client .sign_send_instructions( vec![ ComputeBudgetInstruction::set_compute_unit_limit(1_400_000), evict_seat_ix, ], vec![], ) .await .unwrap(); let seat_deposit_collector_address = get_seat_deposit_collector_address(&sdk.active_market_key).0; assert!(sdk .client .get_account(&seat_deposit_collector_address) .await .is_err()); let trader_final_lamports = sdk .client .get_account(&trader.pubkey()) .await .unwrap() .lamports; let deposit_amount = sdk.client.rent_exempt(spl_token::state::Account::LEN) * 2; assert_eq!( trader_final_lamports, trader_initial_lamports + deposit_amount ); } #[tokio::test] async fn test_evict_seat_no_refunds_if_trader_closes_ata() { let PhoenixTestClient { ctx: _, sdk, mint_authority, } = bootstrap_default(5).await; let trader = setup_account(&sdk.client, &mint_authority, sdk.base_mint, sdk.quote_mint) .await .user; let claim_seat_ix = create_claim_seat_instruction(&trader.pubkey(), &sdk.active_market_key); sdk.client .sign_send_instructions(vec![claim_seat_ix], vec![&trader]) .await .unwrap(); // Close trader ata. Must burn all tokens first let base_ata = get_associated_token_address(&trader.pubkey(), &sdk.base_mint); let base_amount = spl_token::state::Account::unpack_from_slice( sdk.client .get_account_data(&base_ata) .await .unwrap() .as_slice(), ) .unwrap() .amount; let base_burn_ix = burn( &spl_token::id(), &base_ata, &sdk.base_mint, &trader.pubkey(), &[&trader.pubkey()], base_amount, ) .unwrap(); let quote_ata = get_associated_token_address(&trader.pubkey(), &sdk.quote_mint); let quote_amount = spl_token::state::Account::unpack_from_slice( sdk.client .get_account_data("e_ata) .await .unwrap() .as_slice(), ) .unwrap() .amount; let quote_burn_ix = burn( &spl_token::id(), "e_ata, &sdk.quote_mint, &trader.pubkey(), &[&trader.pubkey()], quote_amount, ) .unwrap(); sdk.client .sign_send_instructions(vec![base_burn_ix, quote_burn_ix], vec![&trader]) .await .unwrap(); let close_base_ata_ix = close_account( &spl_token::id(), &base_ata, &trader.pubkey(), &trader.pubkey(), &[&trader.pubkey()], ) .unwrap(); let close_quote_ata_ix = close_account( &spl_token::id(), "e_ata, &trader.pubkey(), &trader.pubkey(), &[&trader.pubkey()], ) .unwrap(); sdk.client .sign_send_instructions(vec![close_base_ata_ix, close_quote_ata_ix], vec![&trader]) .await .unwrap(); // Evict seat then check that seat_deposit_collector has no lamports (after creating ATAs) and that the trader lamports did not change let trader_initial_lamports = sdk .client .get_account(&trader.pubkey()) .await .unwrap() .lamports; let evict_seat_ix = create_evict_seat_instruction( &sdk.active_market_key, &sdk.base_mint, &sdk.quote_mint, &sdk.client.payer.pubkey(), vec![EvictTraderAccountBackup { trader_pubkey: trader.pubkey(), base_token_account_backup: None, quote_token_account_backup: None, }], ); sdk.client .sign_send_instructions( vec![ ComputeBudgetInstruction::set_compute_unit_limit(1_400_000), evict_seat_ix, ], vec![], ) .await .unwrap(); // Seat deposit collector should have no more lamports, due to using deposit to create ATAs let seat_deposit_collector_address = get_seat_deposit_collector_address(&sdk.active_market_key).0; assert!(sdk .client .get_account(&seat_deposit_collector_address) .await .is_err()); // Trader should have the same lamports as before, due to closing of ATAs let trader_final_lamports = sdk .client .get_account(&trader.pubkey()) .await .unwrap() .lamports; assert_eq!(trader_final_lamports, trader_initial_lamports); } #[tokio::test] async fn test_evict_seat_change_ata_owners_uses_backup_token_accounts() { let PhoenixTestClient { ctx: _, sdk, mint_authority, } = bootstrap_default(5).await; let trader = setup_account(&sdk.client, &mint_authority, sdk.base_mint, sdk.quote_mint) .await .user; let claim_seat_ix = create_claim_seat_instruction(&trader.pubkey(), &sdk.active_market_key); sdk.client .sign_send_instructions(vec![claim_seat_ix], vec![&trader]) .await .unwrap(); // Change ATA owners let new_owner = Pubkey::new_unique(); let base_ata = get_associated_token_address(&trader.pubkey(), &sdk.base_mint); let change_owner = spl_token::instruction::set_authority( &spl_token::id(), &base_ata, Some(&new_owner), spl_token::instruction::AuthorityType::AccountOwner, &trader.pubkey(), &[&trader.pubkey()], ) .unwrap(); let quote_ata = get_associated_token_address(&trader.pubkey(), &sdk.quote_mint); let quote_change_owner = spl_token::instruction::set_authority( &spl_token::id(), "e_ata, Some(&new_owner), spl_token::instruction::AuthorityType::AccountOwner, &trader.pubkey(), &[&trader.pubkey()], ) .unwrap(); sdk.client .sign_send_instructions(vec![change_owner, quote_change_owner], vec![&trader]) .await .unwrap(); // Create backup token accounts for the trader let new_base_token_account = Keypair::new(); let create_base_account = solana_program::system_instruction::create_account( &sdk.client.payer.pubkey(), &new_base_token_account.pubkey(), Rent::default().minimum_balance(165), 165, &spl_token::id(), ); let create_backup_base_token = spl_token::instruction::initialize_account3( &spl_token::id(), &new_base_token_account.pubkey(), &sdk.base_mint, &trader.pubkey(), ) .unwrap(); let new_quote_token_account = Keypair::new(); let create_quote_account = solana_program::system_instruction::create_account( &sdk.client.payer.pubkey(), &new_quote_token_account.pubkey(), Rent::default().minimum_balance(165), 165, &spl_token::id(), ); let create_backup_quote_token = spl_token::instruction::initialize_account3( &spl_token::id(), &new_quote_token_account.pubkey(), &sdk.quote_mint, &trader.pubkey(), ); println!("Creating new token accounts"); sdk.client .sign_send_instructions( vec![create_base_account, create_quote_account], vec![&new_base_token_account, &new_quote_token_account], ) .await .unwrap(); println!("Initializing new token accounts"); sdk.client .sign_send_instructions( vec![create_backup_base_token, create_backup_quote_token.unwrap()], vec![], ) .await .unwrap(); println!("Done initializing token accounts"); let trader_initial_lamports = sdk .client .get_account(&trader.pubkey()) .await .unwrap() .lamports; let signer_initial_lamports = sdk .client .get_account(&sdk.client.payer.pubkey()) .await .unwrap() .lamports; // Evict seat with backup token accounts let evict_seat_ix = create_evict_seat_instruction( &sdk.active_market_key, &sdk.base_mint, &sdk.quote_mint, &sdk.client.payer.pubkey(), vec![EvictTraderAccountBackup { trader_pubkey: trader.pubkey(), base_token_account_backup: Some(new_base_token_account.pubkey()), quote_token_account_backup: Some(new_quote_token_account.pubkey()), }], ); sdk.client .sign_send_instructions( vec![ ComputeBudgetInstruction::set_compute_unit_limit(1_400_000), evict_seat_ix, ], vec![], ) .await .unwrap(); let trader_final_lamports = sdk .client .get_account(&trader.pubkey()) .await .unwrap() .lamports; let signer_final_lamports = sdk .client .get_account(&sdk.client.payer.pubkey()) .await .unwrap() .lamports; let seat_deposit_collector_address = get_seat_deposit_collector_address(&sdk.active_market_key).0; // Seat deposit collector account should be empty after refunding signer for creation of backup accounts assert!(sdk .client .get_account(&seat_deposit_collector_address) .await .is_err()); // Signer gets the lamport refund because signer had to create backup token accounts assert!(signer_final_lamports > signer_initial_lamports); assert_eq!(trader_final_lamports, trader_initial_lamports); }