#![allow(clippy::integer_arithmetic)] #![cfg(feature = "test-sbf")] mod helpers; use helpers::*; use solana_program_test::*; use solana_sdk::{ instruction::InstructionError, signature::{Keypair, Signer}, transaction::{Transaction, TransactionError}, }; use spl_token_lending::{ error::LendingError, instruction::{borrow_obligation_liquidity, refresh_obligation}, math::Decimal, processor::process_instruction, state::{FeeCalculation, INITIAL_COLLATERAL_RATIO}, }; use std::u64; #[tokio::test] async fn test_borrow_usdc_fixed_amount() { let mut test = ProgramTest::new( "spl_token_lending", spl_token_lending::id(), processor!(process_instruction), ); // limit to track compute unit increase test.set_compute_max_units(60_000); const USDC_TOTAL_BORROW_FRACTIONAL: u64 = 1_000 * FRACTIONAL_TO_USDC; const FEE_AMOUNT: u64 = 100; const HOST_FEE_AMOUNT: u64 = 20; const SOL_DEPOSIT_AMOUNT_LAMPORTS: u64 = 100 * LAMPORTS_TO_SOL * INITIAL_COLLATERAL_RATIO; const USDC_BORROW_AMOUNT_FRACTIONAL: u64 = USDC_TOTAL_BORROW_FRACTIONAL - FEE_AMOUNT; const SOL_RESERVE_COLLATERAL_LAMPORTS: u64 = 2 * SOL_DEPOSIT_AMOUNT_LAMPORTS; const USDC_RESERVE_LIQUIDITY_FRACTIONAL: u64 = 2 * USDC_TOTAL_BORROW_FRACTIONAL; let user_accounts_owner = Keypair::new(); let lending_market = add_lending_market(&mut test); let mut reserve_config = TEST_RESERVE_CONFIG; reserve_config.loan_to_value_ratio = 50; let sol_oracle = add_sol_oracle(&mut test); let sol_test_reserve = add_reserve( &mut test, &lending_market, &sol_oracle, &user_accounts_owner, AddReserveArgs { collateral_amount: SOL_RESERVE_COLLATERAL_LAMPORTS, liquidity_mint_pubkey: spl_token::native_mint::id(), liquidity_mint_decimals: 9, config: reserve_config, mark_fresh: true, ..AddReserveArgs::default() }, ); let usdc_mint = add_usdc_mint(&mut test); let usdc_oracle = add_usdc_oracle(&mut test); let usdc_test_reserve = add_reserve( &mut test, &lending_market, &usdc_oracle, &user_accounts_owner, AddReserveArgs { liquidity_amount: USDC_RESERVE_LIQUIDITY_FRACTIONAL, liquidity_mint_pubkey: usdc_mint.pubkey, liquidity_mint_decimals: usdc_mint.decimals, config: reserve_config, mark_fresh: true, ..AddReserveArgs::default() }, ); let test_obligation = add_obligation( &mut test, &lending_market, &user_accounts_owner, AddObligationArgs { deposits: &[(&sol_test_reserve, SOL_DEPOSIT_AMOUNT_LAMPORTS)], ..AddObligationArgs::default() }, ); let (mut banks_client, payer, recent_blockhash) = test.start().await; let initial_liquidity_supply = get_token_balance(&mut banks_client, usdc_test_reserve.liquidity_supply_pubkey).await; let mut transaction = Transaction::new_with_payer( &[ refresh_obligation( spl_token_lending::id(), test_obligation.pubkey, vec![sol_test_reserve.pubkey], ), borrow_obligation_liquidity( spl_token_lending::id(), USDC_BORROW_AMOUNT_FRACTIONAL, None, usdc_test_reserve.liquidity_supply_pubkey, usdc_test_reserve.user_liquidity_pubkey, usdc_test_reserve.pubkey, usdc_test_reserve.liquidity_fee_receiver_pubkey, test_obligation.pubkey, lending_market.pubkey, test_obligation.owner, Some(usdc_test_reserve.liquidity_host_pubkey), ), ], Some(&payer.pubkey()), ); transaction.sign(&[&payer, &user_accounts_owner], recent_blockhash); assert!(banks_client.process_transaction(transaction).await.is_ok()); let usdc_reserve = usdc_test_reserve.get_state(&mut banks_client).await; let obligation = test_obligation.get_state(&mut banks_client).await; let (total_fee, host_fee) = usdc_reserve .config .fees .calculate_borrow_fees( USDC_BORROW_AMOUNT_FRACTIONAL.into(), FeeCalculation::Exclusive, ) .unwrap(); assert_eq!(total_fee, FEE_AMOUNT); assert_eq!(host_fee, HOST_FEE_AMOUNT); let borrow_amount = get_token_balance(&mut banks_client, usdc_test_reserve.user_liquidity_pubkey).await; assert_eq!(borrow_amount, USDC_BORROW_AMOUNT_FRACTIONAL); let liquidity = &obligation.borrows[0]; assert_eq!( liquidity.borrowed_amount_wads, Decimal::from(USDC_TOTAL_BORROW_FRACTIONAL) ); assert_eq!( usdc_reserve.liquidity.borrowed_amount_wads, liquidity.borrowed_amount_wads ); let liquidity_supply = get_token_balance(&mut banks_client, usdc_test_reserve.liquidity_supply_pubkey).await; assert_eq!( liquidity_supply, initial_liquidity_supply - USDC_TOTAL_BORROW_FRACTIONAL ); let fee_balance = get_token_balance( &mut banks_client, usdc_test_reserve.liquidity_fee_receiver_pubkey, ) .await; assert_eq!(fee_balance, FEE_AMOUNT - HOST_FEE_AMOUNT); let host_fee_balance = get_token_balance(&mut banks_client, usdc_test_reserve.liquidity_host_pubkey).await; assert_eq!(host_fee_balance, HOST_FEE_AMOUNT); } #[tokio::test] async fn test_borrow_sol_max_amount() { let mut test = ProgramTest::new( "spl_token_lending", spl_token_lending::id(), processor!(process_instruction), ); // limit to track compute unit increase test.set_compute_max_units(60_000); const FEE_AMOUNT: u64 = 5000; const HOST_FEE_AMOUNT: u64 = 1000; const USDC_DEPOSIT_AMOUNT_FRACTIONAL: u64 = 2_000 * FRACTIONAL_TO_USDC * INITIAL_COLLATERAL_RATIO; const SOL_BORROW_AMOUNT_LAMPORTS: u64 = 50 * LAMPORTS_TO_SOL; const USDC_RESERVE_COLLATERAL_FRACTIONAL: u64 = 2 * USDC_DEPOSIT_AMOUNT_FRACTIONAL; const SOL_RESERVE_LIQUIDITY_LAMPORTS: u64 = 2 * SOL_BORROW_AMOUNT_LAMPORTS; let user_accounts_owner = Keypair::new(); let lending_market = add_lending_market(&mut test); let mut reserve_config = TEST_RESERVE_CONFIG; reserve_config.loan_to_value_ratio = 50; let usdc_mint = add_usdc_mint(&mut test); let usdc_oracle = add_usdc_oracle(&mut test); let usdc_test_reserve = add_reserve( &mut test, &lending_market, &usdc_oracle, &user_accounts_owner, AddReserveArgs { liquidity_amount: USDC_RESERVE_COLLATERAL_FRACTIONAL, liquidity_mint_pubkey: usdc_mint.pubkey, liquidity_mint_decimals: usdc_mint.decimals, config: reserve_config, mark_fresh: true, ..AddReserveArgs::default() }, ); let sol_oracle = add_sol_oracle(&mut test); let sol_test_reserve = add_reserve( &mut test, &lending_market, &sol_oracle, &user_accounts_owner, AddReserveArgs { liquidity_amount: SOL_RESERVE_LIQUIDITY_LAMPORTS, liquidity_mint_pubkey: spl_token::native_mint::id(), liquidity_mint_decimals: 9, config: reserve_config, mark_fresh: true, ..AddReserveArgs::default() }, ); let test_obligation = add_obligation( &mut test, &lending_market, &user_accounts_owner, AddObligationArgs { deposits: &[(&usdc_test_reserve, USDC_DEPOSIT_AMOUNT_FRACTIONAL)], ..AddObligationArgs::default() }, ); let (mut banks_client, payer, recent_blockhash) = test.start().await; let initial_liquidity_supply = get_token_balance(&mut banks_client, sol_test_reserve.liquidity_supply_pubkey).await; let mut transaction = Transaction::new_with_payer( &[ refresh_obligation( spl_token_lending::id(), test_obligation.pubkey, vec![usdc_test_reserve.pubkey], ), borrow_obligation_liquidity( spl_token_lending::id(), u64::MAX, None, sol_test_reserve.liquidity_supply_pubkey, sol_test_reserve.user_liquidity_pubkey, sol_test_reserve.pubkey, sol_test_reserve.liquidity_fee_receiver_pubkey, test_obligation.pubkey, lending_market.pubkey, test_obligation.owner, Some(sol_test_reserve.liquidity_host_pubkey), ), ], Some(&payer.pubkey()), ); transaction.sign(&[&payer, &user_accounts_owner], recent_blockhash); assert!(banks_client.process_transaction(transaction).await.is_ok()); let sol_reserve = sol_test_reserve.get_state(&mut banks_client).await; let obligation = test_obligation.get_state(&mut banks_client).await; let (total_fee, host_fee) = sol_reserve .config .fees .calculate_borrow_fees(SOL_BORROW_AMOUNT_LAMPORTS.into(), FeeCalculation::Inclusive) .unwrap(); assert_eq!(total_fee, FEE_AMOUNT); assert_eq!(host_fee, HOST_FEE_AMOUNT); let borrow_amount = get_token_balance(&mut banks_client, sol_test_reserve.user_liquidity_pubkey).await; assert_eq!(borrow_amount, SOL_BORROW_AMOUNT_LAMPORTS - FEE_AMOUNT); let liquidity = &obligation.borrows[0]; assert_eq!( liquidity.borrowed_amount_wads, Decimal::from(SOL_BORROW_AMOUNT_LAMPORTS) ); let liquidity_supply = get_token_balance(&mut banks_client, sol_test_reserve.liquidity_supply_pubkey).await; assert_eq!( liquidity_supply, initial_liquidity_supply - SOL_BORROW_AMOUNT_LAMPORTS ); let fee_balance = get_token_balance( &mut banks_client, sol_test_reserve.liquidity_fee_receiver_pubkey, ) .await; assert_eq!(fee_balance, FEE_AMOUNT - HOST_FEE_AMOUNT); let host_fee_balance = get_token_balance(&mut banks_client, sol_test_reserve.liquidity_host_pubkey).await; assert_eq!(host_fee_balance, HOST_FEE_AMOUNT); } #[tokio::test] async fn test_borrow_too_large() { let mut test = ProgramTest::new( "spl_token_lending", spl_token_lending::id(), processor!(process_instruction), ); const SOL_DEPOSIT_AMOUNT_LAMPORTS: u64 = 100 * LAMPORTS_TO_SOL * INITIAL_COLLATERAL_RATIO; const USDC_BORROW_AMOUNT_FRACTIONAL: u64 = 1_000 * FRACTIONAL_TO_USDC + 1; const SOL_RESERVE_COLLATERAL_LAMPORTS: u64 = 2 * SOL_DEPOSIT_AMOUNT_LAMPORTS; const USDC_RESERVE_LIQUIDITY_FRACTIONAL: u64 = 2 * USDC_BORROW_AMOUNT_FRACTIONAL; let user_accounts_owner = Keypair::new(); let lending_market = add_lending_market(&mut test); let mut reserve_config = TEST_RESERVE_CONFIG; reserve_config.loan_to_value_ratio = 50; let sol_oracle = add_sol_oracle(&mut test); let sol_test_reserve = add_reserve( &mut test, &lending_market, &sol_oracle, &user_accounts_owner, AddReserveArgs { collateral_amount: SOL_RESERVE_COLLATERAL_LAMPORTS, liquidity_mint_pubkey: spl_token::native_mint::id(), liquidity_mint_decimals: 9, config: reserve_config, mark_fresh: true, ..AddReserveArgs::default() }, ); let usdc_mint = add_usdc_mint(&mut test); let usdc_oracle = add_usdc_oracle(&mut test); let usdc_test_reserve = add_reserve( &mut test, &lending_market, &usdc_oracle, &user_accounts_owner, AddReserveArgs { liquidity_amount: USDC_RESERVE_LIQUIDITY_FRACTIONAL, liquidity_mint_pubkey: usdc_mint.pubkey, liquidity_mint_decimals: usdc_mint.decimals, config: reserve_config, mark_fresh: true, ..AddReserveArgs::default() }, ); let test_obligation = add_obligation( &mut test, &lending_market, &user_accounts_owner, AddObligationArgs { deposits: &[(&sol_test_reserve, SOL_DEPOSIT_AMOUNT_LAMPORTS)], ..AddObligationArgs::default() }, ); let (mut banks_client, payer, recent_blockhash) = test.start().await; let mut transaction = Transaction::new_with_payer( &[ refresh_obligation( spl_token_lending::id(), test_obligation.pubkey, vec![sol_test_reserve.pubkey], ), borrow_obligation_liquidity( spl_token_lending::id(), USDC_BORROW_AMOUNT_FRACTIONAL, None, usdc_test_reserve.liquidity_supply_pubkey, usdc_test_reserve.user_liquidity_pubkey, usdc_test_reserve.pubkey, usdc_test_reserve.liquidity_fee_receiver_pubkey, test_obligation.pubkey, lending_market.pubkey, test_obligation.owner, Some(usdc_test_reserve.liquidity_host_pubkey), ), ], Some(&payer.pubkey()), ); transaction.sign(&[&payer, &user_accounts_owner], recent_blockhash); // check that transaction fails assert_eq!( banks_client .process_transaction(transaction) .await .unwrap_err() .unwrap(), TransactionError::InstructionError( 1, InstructionError::Custom(LendingError::BorrowTooLarge as u32) ) ); } #[tokio::test] async fn test_borrow_max_receive_minimum() { let mut test = ProgramTest::new( "spl_token_lending", spl_token_lending::id(), processor!(process_instruction), ); // limit to track compute unit increase test.set_compute_max_units(60_000); const FEE_AMOUNT: u64 = 5000; const HOST_FEE_AMOUNT: u64 = 1000; const USDC_DEPOSIT_AMOUNT_FRACTIONAL: u64 = 2_000 * FRACTIONAL_TO_USDC * INITIAL_COLLATERAL_RATIO; const SOL_BORROW_AMOUNT_LAMPORTS: u64 = 50 * LAMPORTS_TO_SOL; const USDC_RESERVE_COLLATERAL_FRACTIONAL: u64 = 2 * USDC_DEPOSIT_AMOUNT_FRACTIONAL; const SOL_RESERVE_LIQUIDITY_LAMPORTS: u64 = 2 * SOL_BORROW_AMOUNT_LAMPORTS; const SLIPPAGE_LIMIT: u64 = SOL_BORROW_AMOUNT_LAMPORTS - FEE_AMOUNT; let user_accounts_owner = Keypair::new(); let lending_market = add_lending_market(&mut test); let mut reserve_config = TEST_RESERVE_CONFIG; reserve_config.loan_to_value_ratio = 50; let usdc_mint = add_usdc_mint(&mut test); let usdc_oracle = add_usdc_oracle(&mut test); let usdc_test_reserve = add_reserve( &mut test, &lending_market, &usdc_oracle, &user_accounts_owner, AddReserveArgs { liquidity_amount: USDC_RESERVE_COLLATERAL_FRACTIONAL, liquidity_mint_pubkey: usdc_mint.pubkey, liquidity_mint_decimals: usdc_mint.decimals, config: reserve_config, mark_fresh: true, ..AddReserveArgs::default() }, ); let sol_oracle = add_sol_oracle(&mut test); let sol_test_reserve = add_reserve( &mut test, &lending_market, &sol_oracle, &user_accounts_owner, AddReserveArgs { liquidity_amount: SOL_RESERVE_LIQUIDITY_LAMPORTS, liquidity_mint_pubkey: spl_token::native_mint::id(), liquidity_mint_decimals: 9, config: reserve_config, mark_fresh: true, ..AddReserveArgs::default() }, ); let test_obligation = add_obligation( &mut test, &lending_market, &user_accounts_owner, AddObligationArgs { deposits: &[(&usdc_test_reserve, USDC_DEPOSIT_AMOUNT_FRACTIONAL)], ..AddObligationArgs::default() }, ); let (mut banks_client, payer, recent_blockhash) = test.start().await; let initial_liquidity_supply = get_token_balance(&mut banks_client, sol_test_reserve.liquidity_supply_pubkey).await; let mut transaction = Transaction::new_with_payer( &[ refresh_obligation( spl_token_lending::id(), test_obligation.pubkey, vec![usdc_test_reserve.pubkey], ), borrow_obligation_liquidity( spl_token_lending::id(), u64::MAX, Some(SLIPPAGE_LIMIT), sol_test_reserve.liquidity_supply_pubkey, sol_test_reserve.user_liquidity_pubkey, sol_test_reserve.pubkey, sol_test_reserve.liquidity_fee_receiver_pubkey, test_obligation.pubkey, lending_market.pubkey, test_obligation.owner, Some(sol_test_reserve.liquidity_host_pubkey), ), ], Some(&payer.pubkey()), ); transaction.sign(&[&payer, &user_accounts_owner], recent_blockhash); assert!(banks_client.process_transaction(transaction).await.is_ok()); let sol_reserve = sol_test_reserve.get_state(&mut banks_client).await; let obligation = test_obligation.get_state(&mut banks_client).await; let (total_fee, host_fee) = sol_reserve .config .fees .calculate_borrow_fees(SOL_BORROW_AMOUNT_LAMPORTS.into(), FeeCalculation::Inclusive) .unwrap(); assert_eq!(total_fee, FEE_AMOUNT); assert_eq!(host_fee, HOST_FEE_AMOUNT); let borrow_amount = get_token_balance(&mut banks_client, sol_test_reserve.user_liquidity_pubkey).await; assert_eq!(borrow_amount, SOL_BORROW_AMOUNT_LAMPORTS - FEE_AMOUNT); let liquidity = &obligation.borrows[0]; assert_eq!( liquidity.borrowed_amount_wads, Decimal::from(SOL_BORROW_AMOUNT_LAMPORTS) ); let liquidity_supply = get_token_balance(&mut banks_client, sol_test_reserve.liquidity_supply_pubkey).await; assert_eq!( liquidity_supply, initial_liquidity_supply - SOL_BORROW_AMOUNT_LAMPORTS ); let fee_balance = get_token_balance( &mut banks_client, sol_test_reserve.liquidity_fee_receiver_pubkey, ) .await; assert_eq!(fee_balance, FEE_AMOUNT - HOST_FEE_AMOUNT); let host_fee_balance = get_token_balance(&mut banks_client, sol_test_reserve.liquidity_host_pubkey).await; assert_eq!(host_fee_balance, HOST_FEE_AMOUNT); } #[tokio::test] async fn test_borrow_max_receive_less_than_slippage() { let mut test = ProgramTest::new( "spl_token_lending", spl_token_lending::id(), processor!(process_instruction), ); // limit to track compute unit increase test.set_compute_max_units(60_000); const FEE_AMOUNT: u64 = 5000; const USDC_DEPOSIT_AMOUNT_FRACTIONAL: u64 = 2_000 * FRACTIONAL_TO_USDC * INITIAL_COLLATERAL_RATIO; const SOL_BORROW_AMOUNT_LAMPORTS: u64 = 50 * LAMPORTS_TO_SOL; const USDC_RESERVE_COLLATERAL_FRACTIONAL: u64 = 2 * USDC_DEPOSIT_AMOUNT_FRACTIONAL; const SOL_RESERVE_LIQUIDITY_LAMPORTS: u64 = 2 * SOL_BORROW_AMOUNT_LAMPORTS; const SLIPPAGE_LIMIT: u64 = SOL_BORROW_AMOUNT_LAMPORTS - FEE_AMOUNT + 1; let user_accounts_owner = Keypair::new(); let lending_market = add_lending_market(&mut test); let mut reserve_config = TEST_RESERVE_CONFIG; reserve_config.loan_to_value_ratio = 50; let usdc_mint = add_usdc_mint(&mut test); let usdc_oracle = add_usdc_oracle(&mut test); let usdc_test_reserve = add_reserve( &mut test, &lending_market, &usdc_oracle, &user_accounts_owner, AddReserveArgs { liquidity_amount: USDC_RESERVE_COLLATERAL_FRACTIONAL, liquidity_mint_pubkey: usdc_mint.pubkey, liquidity_mint_decimals: usdc_mint.decimals, config: reserve_config, mark_fresh: true, ..AddReserveArgs::default() }, ); let sol_oracle = add_sol_oracle(&mut test); let sol_test_reserve = add_reserve( &mut test, &lending_market, &sol_oracle, &user_accounts_owner, AddReserveArgs { liquidity_amount: SOL_RESERVE_LIQUIDITY_LAMPORTS, liquidity_mint_pubkey: spl_token::native_mint::id(), liquidity_mint_decimals: 9, config: reserve_config, mark_fresh: true, ..AddReserveArgs::default() }, ); let test_obligation = add_obligation( &mut test, &lending_market, &user_accounts_owner, AddObligationArgs { deposits: &[(&usdc_test_reserve, USDC_DEPOSIT_AMOUNT_FRACTIONAL)], ..AddObligationArgs::default() }, ); let (mut banks_client, payer, recent_blockhash) = test.start().await; let mut transaction = Transaction::new_with_payer( &[ refresh_obligation( spl_token_lending::id(), test_obligation.pubkey, vec![usdc_test_reserve.pubkey], ), borrow_obligation_liquidity( spl_token_lending::id(), u64::MAX, Some(SLIPPAGE_LIMIT), sol_test_reserve.liquidity_supply_pubkey, sol_test_reserve.user_liquidity_pubkey, sol_test_reserve.pubkey, sol_test_reserve.liquidity_fee_receiver_pubkey, test_obligation.pubkey, lending_market.pubkey, test_obligation.owner, Some(sol_test_reserve.liquidity_host_pubkey), ), ], Some(&payer.pubkey()), ); transaction.sign(&[&payer, &user_accounts_owner], recent_blockhash); assert_eq!( banks_client .process_transaction(transaction) .await .unwrap_err() .unwrap(), TransactionError::InstructionError( 1, InstructionError::Custom(LendingError::ExceededSlippage as u32) ) ); } #[tokio::test] async fn test_borrow_less_than_max_with_slippage() { let mut test = ProgramTest::new( "spl_token_lending", spl_token_lending::id(), processor!(process_instruction), ); const USDC_TOTAL_BORROW_FRACTIONAL: u64 = 1_000 * FRACTIONAL_TO_USDC; const FEE_AMOUNT: u64 = 100; const SOL_DEPOSIT_AMOUNT_LAMPORTS: u64 = 100 * LAMPORTS_TO_SOL * INITIAL_COLLATERAL_RATIO; const USDC_BORROW_AMOUNT_FRACTIONAL: u64 = USDC_TOTAL_BORROW_FRACTIONAL - FEE_AMOUNT; const SOL_RESERVE_COLLATERAL_LAMPORTS: u64 = 2 * SOL_DEPOSIT_AMOUNT_LAMPORTS; const USDC_RESERVE_LIQUIDITY_FRACTIONAL: u64 = 2 * USDC_TOTAL_BORROW_FRACTIONAL; const SLIPPAGE_LIMIT: u64 = u64::MAX; let user_accounts_owner = Keypair::new(); let lending_market = add_lending_market(&mut test); let mut reserve_config = TEST_RESERVE_CONFIG; reserve_config.loan_to_value_ratio = 50; let sol_oracle = add_sol_oracle(&mut test); let sol_test_reserve = add_reserve( &mut test, &lending_market, &sol_oracle, &user_accounts_owner, AddReserveArgs { collateral_amount: SOL_RESERVE_COLLATERAL_LAMPORTS, liquidity_mint_pubkey: spl_token::native_mint::id(), liquidity_mint_decimals: 9, config: reserve_config, mark_fresh: true, ..AddReserveArgs::default() }, ); let usdc_mint = add_usdc_mint(&mut test); let usdc_oracle = add_usdc_oracle(&mut test); let usdc_test_reserve = add_reserve( &mut test, &lending_market, &usdc_oracle, &user_accounts_owner, AddReserveArgs { liquidity_amount: USDC_RESERVE_LIQUIDITY_FRACTIONAL, liquidity_mint_pubkey: usdc_mint.pubkey, liquidity_mint_decimals: usdc_mint.decimals, config: reserve_config, mark_fresh: true, ..AddReserveArgs::default() }, ); let test_obligation = add_obligation( &mut test, &lending_market, &user_accounts_owner, AddObligationArgs { deposits: &[(&sol_test_reserve, SOL_DEPOSIT_AMOUNT_LAMPORTS)], ..AddObligationArgs::default() }, ); let (mut banks_client, payer, recent_blockhash) = test.start().await; let mut transaction = Transaction::new_with_payer( &[ refresh_obligation( spl_token_lending::id(), test_obligation.pubkey, vec![sol_test_reserve.pubkey], ), borrow_obligation_liquidity( spl_token_lending::id(), USDC_BORROW_AMOUNT_FRACTIONAL, Some(SLIPPAGE_LIMIT), usdc_test_reserve.liquidity_supply_pubkey, usdc_test_reserve.user_liquidity_pubkey, usdc_test_reserve.pubkey, usdc_test_reserve.liquidity_fee_receiver_pubkey, test_obligation.pubkey, lending_market.pubkey, test_obligation.owner, Some(usdc_test_reserve.liquidity_host_pubkey), ), ], Some(&payer.pubkey()), ); transaction.sign(&[&payer, &user_accounts_owner], recent_blockhash); // check that transaction succeeds banks_client.process_transaction(transaction).await.unwrap(); }