#![allow(dead_code)] pub mod flash_loan_receiver; pub mod genesis; use assert_matches::*; use solana_program::{program_option::COption, program_pack::Pack, pubkey::Pubkey}; use solana_program_test::*; use solana_sdk::{ account::Account, signature::{read_keypair_file, Keypair, Signer}, system_instruction::create_account, transaction::{Transaction, TransactionError}, }; use spl_token::{ instruction::approve, state::{Account as Token, AccountState, Mint}, }; use spl_token_lending::{ instruction::{ borrow_obligation_liquidity, deposit_reserve_liquidity, init_lending_market, init_obligation, init_reserve, liquidate_obligation, refresh_reserve, }, math::{Decimal, Rate, TryAdd, TryMul}, pyth, state::{ InitLendingMarketParams, InitObligationParams, InitReserveParams, LendingMarket, NewReserveCollateralParams, NewReserveLiquidityParams, Obligation, ObligationCollateral, ObligationLiquidity, Reserve, ReserveCollateral, ReserveConfig, ReserveFees, ReserveLiquidity, INITIAL_COLLATERAL_RATIO, PROGRAM_VERSION, }, }; use std::{convert::TryInto, str::FromStr}; pub const QUOTE_CURRENCY: [u8; 32] = *b"USD\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0"; pub const LAMPORTS_TO_SOL: u64 = 1_000_000_000; pub const FRACTIONAL_TO_USDC: u64 = 1_000_000; pub const TEST_RESERVE_CONFIG: ReserveConfig = ReserveConfig { optimal_utilization_rate: 80, loan_to_value_ratio: 50, liquidation_bonus: 5, liquidation_threshold: 55, min_borrow_rate: 0, optimal_borrow_rate: 4, max_borrow_rate: 30, fees: ReserveFees { borrow_fee_wad: 100_000_000_000, /// 0.00001% (Aave borrow fee) flash_loan_fee_wad: 3_000_000_000_000_000, /// 0.3% (Aave flash loan fee) host_fee_percentage: 20, }, }; pub const SOL_PYTH_PRODUCT: &str = "3Mnn2fX6rQyUsyELYms1sBJyChWofzSNRoqYzvgMVz5E"; pub const SOL_PYTH_PRICE: &str = "J83w4HKfqxwcq3BEMMkPFSppX3gqekLyLJBexebFVkix"; pub const SRM_PYTH_PRODUCT: &str = "6MEwdxe4g1NeAF9u6KDG14anJpFsVEa2cvr5H6iriFZ8"; pub const SRM_PYTH_PRICE: &str = "992moaMQKs32GKZ9dxi8keyM2bUmbrwBZpK4p2K6X5Vs"; pub const USDC_MINT: &str = "EPjFWdd5AufqSSqeM2qN1xzybapC8G4wEGGkZwyTDt1v"; trait AddPacked { fn add_packable_account( &mut self, pubkey: Pubkey, amount: u64, data: &T, owner: &Pubkey, ); } impl AddPacked for ProgramTest { fn add_packable_account( &mut self, pubkey: Pubkey, amount: u64, data: &T, owner: &Pubkey, ) { let mut account = Account::new(amount, T::get_packed_len(), owner); data.pack_into_slice(&mut account.data); self.add_account(pubkey, account); } } pub fn add_lending_market(test: &mut ProgramTest) -> TestLendingMarket { let lending_market_pubkey = Pubkey::new_unique(); let (lending_market_authority, bump_seed) = Pubkey::find_program_address(&[lending_market_pubkey.as_ref()], &spl_token_lending::id()); let lending_market_owner = read_keypair_file("tests/fixtures/lending_market_owner.json").unwrap(); let oracle_program_id = read_keypair_file("tests/fixtures/oracle_program_id.json") .unwrap() .pubkey(); test.add_packable_account( lending_market_pubkey, u32::MAX as u64, &LendingMarket::new(InitLendingMarketParams { bump_seed, owner: lending_market_owner.pubkey(), quote_currency: QUOTE_CURRENCY, token_program_id: spl_token::id(), oracle_program_id, }), &spl_token_lending::id(), ); TestLendingMarket { pubkey: lending_market_pubkey, owner: lending_market_owner, authority: lending_market_authority, quote_currency: QUOTE_CURRENCY, oracle_program_id, } } #[derive(Default)] pub struct AddObligationArgs<'a> { pub deposits: &'a [(&'a TestReserve, u64)], pub borrows: &'a [(&'a TestReserve, u64)], pub mark_fresh: bool, pub slots_elapsed: u64, } pub fn add_obligation( test: &mut ProgramTest, lending_market: &TestLendingMarket, user_accounts_owner: &Keypair, args: AddObligationArgs, ) -> TestObligation { let AddObligationArgs { deposits, borrows, mark_fresh, slots_elapsed, } = args; let obligation_keypair = Keypair::new(); let obligation_pubkey = obligation_keypair.pubkey(); let (obligation_deposits, test_deposits) = deposits .iter() .map(|(deposit_reserve, collateral_amount)| { let mut collateral = ObligationCollateral::new(deposit_reserve.pubkey); collateral.deposited_amount = *collateral_amount; ( collateral, TestObligationCollateral { obligation_pubkey, deposit_reserve: deposit_reserve.pubkey, deposited_amount: *collateral_amount, }, ) }) .unzip(); let (obligation_borrows, test_borrows) = borrows .iter() .map(|(borrow_reserve, liquidity_amount)| { let borrowed_amount_wads = Decimal::from(*liquidity_amount); let mut liquidity = ObligationLiquidity::new(borrow_reserve.pubkey); liquidity.borrowed_amount_wads = borrowed_amount_wads; ( liquidity, TestObligationLiquidity { obligation_pubkey, borrow_reserve: borrow_reserve.pubkey, borrowed_amount_wads, }, ) }) .unzip(); let current_slot = slots_elapsed + 1; let mut obligation = Obligation::new(InitObligationParams { // intentionally wrapped to simulate elapsed slots current_slot, lending_market: lending_market.pubkey, owner: user_accounts_owner.pubkey(), deposits: obligation_deposits, borrows: obligation_borrows, }); if mark_fresh { obligation.last_update.update_slot(current_slot); } test.add_packable_account( obligation_pubkey, u32::MAX as u64, &obligation, &spl_token_lending::id(), ); TestObligation { pubkey: obligation_pubkey, lending_market: lending_market.pubkey, owner: user_accounts_owner.pubkey(), deposits: test_deposits, borrows: test_borrows, } } #[derive(Default)] pub struct AddReserveArgs { pub name: String, pub config: ReserveConfig, pub liquidity_amount: u64, pub liquidity_mint_pubkey: Pubkey, pub liquidity_mint_decimals: u8, pub user_liquidity_amount: u64, pub borrow_amount: u64, pub initial_borrow_rate: u8, pub collateral_amount: u64, pub mark_fresh: bool, pub slots_elapsed: u64, } pub fn add_reserve( test: &mut ProgramTest, lending_market: &TestLendingMarket, oracle: &TestOracle, user_accounts_owner: &Keypair, args: AddReserveArgs, ) -> TestReserve { let AddReserveArgs { name, config, liquidity_amount, liquidity_mint_pubkey, liquidity_mint_decimals, user_liquidity_amount, borrow_amount, initial_borrow_rate, collateral_amount, mark_fresh, slots_elapsed, } = args; let is_native = if liquidity_mint_pubkey == spl_token::native_mint::id() { COption::Some(1) } else { COption::None }; let current_slot = slots_elapsed + 1; let collateral_mint_pubkey = Pubkey::new_unique(); test.add_packable_account( collateral_mint_pubkey, u32::MAX as u64, &Mint { is_initialized: true, decimals: liquidity_mint_decimals, mint_authority: COption::Some(lending_market.authority), supply: collateral_amount, ..Mint::default() }, &spl_token::id(), ); let collateral_supply_pubkey = Pubkey::new_unique(); test.add_packable_account( collateral_supply_pubkey, u32::MAX as u64, &Token { mint: collateral_mint_pubkey, owner: lending_market.authority, amount: collateral_amount, state: AccountState::Initialized, ..Token::default() }, &spl_token::id(), ); let amount = if let COption::Some(rent_reserve) = is_native { liquidity_amount + rent_reserve } else { u32::MAX as u64 }; let liquidity_supply_pubkey = Pubkey::new_unique(); test.add_packable_account( liquidity_supply_pubkey, amount, &Token { mint: liquidity_mint_pubkey, owner: lending_market.authority, amount: liquidity_amount, state: AccountState::Initialized, is_native, ..Token::default() }, &spl_token::id(), ); let liquidity_fee_receiver_pubkey = Pubkey::new_unique(); test.add_packable_account( liquidity_fee_receiver_pubkey, u32::MAX as u64, &Token { mint: liquidity_mint_pubkey, owner: lending_market.owner.pubkey(), amount: 0, state: AccountState::Initialized, ..Token::default() }, &spl_token::id(), ); let liquidity_host_pubkey = Pubkey::new_unique(); test.add_packable_account( liquidity_host_pubkey, u32::MAX as u64, &Token { mint: liquidity_mint_pubkey, owner: user_accounts_owner.pubkey(), amount: 0, state: AccountState::Initialized, ..Token::default() }, &spl_token::id(), ); let reserve_keypair = Keypair::new(); let reserve_pubkey = reserve_keypair.pubkey(); let mut reserve = Reserve::new(InitReserveParams { current_slot, lending_market: lending_market.pubkey, liquidity: ReserveLiquidity::new(NewReserveLiquidityParams { mint_pubkey: liquidity_mint_pubkey, mint_decimals: liquidity_mint_decimals, supply_pubkey: liquidity_supply_pubkey, fee_receiver: liquidity_fee_receiver_pubkey, oracle_pubkey: oracle.price_pubkey, market_price: oracle.price, }), collateral: ReserveCollateral::new(NewReserveCollateralParams { mint_pubkey: collateral_mint_pubkey, supply_pubkey: collateral_supply_pubkey, }), config, }); reserve.deposit_liquidity(liquidity_amount).unwrap(); reserve.liquidity.borrow(borrow_amount.into()).unwrap(); let borrow_rate_multiplier = Rate::one() .try_add(Rate::from_percent(initial_borrow_rate)) .unwrap(); reserve.liquidity.cumulative_borrow_rate_wads = Decimal::one().try_mul(borrow_rate_multiplier).unwrap(); if mark_fresh { reserve.last_update.update_slot(current_slot); } test.add_packable_account( reserve_pubkey, u32::MAX as u64, &reserve, &spl_token_lending::id(), ); let amount = if let COption::Some(rent_reserve) = is_native { user_liquidity_amount + rent_reserve } else { u32::MAX as u64 }; let user_liquidity_pubkey = Pubkey::new_unique(); test.add_packable_account( user_liquidity_pubkey, amount, &Token { mint: liquidity_mint_pubkey, owner: user_accounts_owner.pubkey(), amount: user_liquidity_amount, state: AccountState::Initialized, is_native, ..Token::default() }, &spl_token::id(), ); let user_collateral_pubkey = Pubkey::new_unique(); test.add_packable_account( user_collateral_pubkey, u32::MAX as u64, &Token { mint: collateral_mint_pubkey, owner: user_accounts_owner.pubkey(), amount: liquidity_amount * INITIAL_COLLATERAL_RATIO, state: AccountState::Initialized, ..Token::default() }, &spl_token::id(), ); TestReserve { name, pubkey: reserve_pubkey, lending_market_pubkey: lending_market.pubkey, config, liquidity_mint_pubkey, liquidity_mint_decimals, liquidity_supply_pubkey, liquidity_fee_receiver_pubkey, liquidity_host_pubkey, liquidity_oracle_pubkey: oracle.price_pubkey, collateral_mint_pubkey, collateral_supply_pubkey, user_liquidity_pubkey, user_collateral_pubkey, market_price: oracle.price, } } pub fn add_account_for_program( test: &mut ProgramTest, program_derived_account: &Pubkey, amount: u64, mint_pubkey: &Pubkey, ) -> Pubkey { let program_owned_token_account = Keypair::new(); test.add_packable_account( program_owned_token_account.pubkey(), u32::MAX as u64, &Token { mint: *mint_pubkey, owner: *program_derived_account, amount, state: AccountState::Initialized, is_native: COption::None, ..Token::default() }, &spl_token::id(), ); program_owned_token_account.pubkey() } pub struct TestLendingMarket { pub pubkey: Pubkey, pub owner: Keypair, pub authority: Pubkey, pub quote_currency: [u8; 32], pub oracle_program_id: Pubkey, } pub struct BorrowArgs<'a> { pub liquidity_amount: u64, pub obligation: &'a TestObligation, pub borrow_reserve: &'a TestReserve, pub user_accounts_owner: &'a Keypair, } pub struct LiquidateArgs<'a> { pub liquidity_amount: u64, pub obligation: &'a TestObligation, pub repay_reserve: &'a TestReserve, pub withdraw_reserve: &'a TestReserve, pub user_accounts_owner: &'a Keypair, } impl TestLendingMarket { pub async fn init(banks_client: &mut BanksClient, payer: &Keypair) -> Self { let lending_market_owner = read_keypair_file("tests/fixtures/lending_market_owner.json").unwrap(); let oracle_program_id = read_keypair_file("tests/fixtures/oracle_program_id.json") .unwrap() .pubkey(); let lending_market_keypair = Keypair::new(); let lending_market_pubkey = lending_market_keypair.pubkey(); let (lending_market_authority, _bump_seed) = Pubkey::find_program_address( &[&lending_market_pubkey.to_bytes()[..32]], &spl_token_lending::id(), ); let rent = banks_client.get_rent().await.unwrap(); let mut transaction = Transaction::new_with_payer( &[ create_account( &payer.pubkey(), &lending_market_pubkey, rent.minimum_balance(LendingMarket::LEN), LendingMarket::LEN as u64, &spl_token_lending::id(), ), init_lending_market( spl_token_lending::id(), lending_market_owner.pubkey(), QUOTE_CURRENCY, lending_market_pubkey, oracle_program_id, ), ], Some(&payer.pubkey()), ); let recent_blockhash = banks_client.get_recent_blockhash().await.unwrap(); transaction.sign(&[&payer, &lending_market_keypair], recent_blockhash); assert_matches!(banks_client.process_transaction(transaction).await, Ok(())); TestLendingMarket { owner: lending_market_owner, pubkey: lending_market_pubkey, authority: lending_market_authority, quote_currency: QUOTE_CURRENCY, oracle_program_id, } } pub async fn refresh_reserve( &self, banks_client: &mut BanksClient, payer: &Keypair, reserve: &TestReserve, ) { let mut transaction = Transaction::new_with_payer( &[refresh_reserve( spl_token_lending::id(), reserve.pubkey, reserve.liquidity_oracle_pubkey, )], Some(&payer.pubkey()), ); let recent_blockhash = banks_client.get_recent_blockhash().await.unwrap(); transaction.sign(&[payer], recent_blockhash); assert_matches!(banks_client.process_transaction(transaction).await, Ok(())); } pub async fn deposit( &self, banks_client: &mut BanksClient, user_accounts_owner: &Keypair, payer: &Keypair, reserve: &TestReserve, liquidity_amount: u64, ) { let user_transfer_authority = Keypair::new(); let mut transaction = Transaction::new_with_payer( &[ approve( &spl_token::id(), &reserve.user_liquidity_pubkey, &user_transfer_authority.pubkey(), &user_accounts_owner.pubkey(), &[], liquidity_amount, ) .unwrap(), deposit_reserve_liquidity( spl_token_lending::id(), liquidity_amount, reserve.user_liquidity_pubkey, reserve.user_collateral_pubkey, reserve.pubkey, reserve.liquidity_supply_pubkey, reserve.collateral_mint_pubkey, self.pubkey, user_transfer_authority.pubkey(), ), ], Some(&payer.pubkey()), ); let recent_blockhash = banks_client.get_recent_blockhash().await.unwrap(); transaction.sign( &[payer, user_accounts_owner, &user_transfer_authority], recent_blockhash, ); assert_matches!(banks_client.process_transaction(transaction).await, Ok(())); } pub async fn liquidate( &self, banks_client: &mut BanksClient, payer: &Keypair, args: LiquidateArgs<'_>, ) { let LiquidateArgs { liquidity_amount, obligation, repay_reserve, withdraw_reserve, user_accounts_owner, } = args; let user_transfer_authority = Keypair::new(); let mut transaction = Transaction::new_with_payer( &[ approve( &spl_token::id(), &repay_reserve.user_liquidity_pubkey, &user_transfer_authority.pubkey(), &user_accounts_owner.pubkey(), &[], liquidity_amount, ) .unwrap(), liquidate_obligation( spl_token_lending::id(), liquidity_amount, repay_reserve.user_liquidity_pubkey, withdraw_reserve.user_collateral_pubkey, repay_reserve.pubkey, repay_reserve.liquidity_supply_pubkey, withdraw_reserve.pubkey, withdraw_reserve.collateral_supply_pubkey, obligation.pubkey, self.pubkey, user_transfer_authority.pubkey(), ), ], Some(&payer.pubkey()), ); let recent_blockhash = banks_client.get_recent_blockhash().await.unwrap(); transaction.sign( &[&payer, &user_accounts_owner, &user_transfer_authority], recent_blockhash, ); assert!(banks_client.process_transaction(transaction).await.is_ok()); } pub async fn borrow( &self, banks_client: &mut BanksClient, payer: &Keypair, args: BorrowArgs<'_>, ) { let BorrowArgs { liquidity_amount, obligation, borrow_reserve, user_accounts_owner, } = args; let mut transaction = Transaction::new_with_payer( &[borrow_obligation_liquidity( spl_token_lending::id(), liquidity_amount, borrow_reserve.liquidity_supply_pubkey, borrow_reserve.user_liquidity_pubkey, borrow_reserve.pubkey, borrow_reserve.liquidity_fee_receiver_pubkey, obligation.pubkey, self.pubkey, obligation.owner, Some(borrow_reserve.liquidity_host_pubkey), )], Some(&payer.pubkey()), ); let recent_blockhash = banks_client.get_recent_blockhash().await.unwrap(); transaction.sign(&vec![payer, user_accounts_owner], recent_blockhash); assert_matches!(banks_client.process_transaction(transaction).await, Ok(())); } pub async fn get_state(&self, banks_client: &mut BanksClient) -> LendingMarket { let lending_market_account: Account = banks_client .get_account(self.pubkey) .await .unwrap() .unwrap(); LendingMarket::unpack(&lending_market_account.data[..]).unwrap() } pub async fn validate_state(&self, banks_client: &mut BanksClient) { let lending_market = self.get_state(banks_client).await; assert_eq!(lending_market.version, PROGRAM_VERSION); assert_eq!(lending_market.owner, self.owner.pubkey()); assert_eq!(lending_market.quote_currency, self.quote_currency); } } #[derive(Debug)] pub struct TestReserve { pub name: String, pub pubkey: Pubkey, pub lending_market_pubkey: Pubkey, pub config: ReserveConfig, pub liquidity_mint_pubkey: Pubkey, pub liquidity_mint_decimals: u8, pub liquidity_supply_pubkey: Pubkey, pub liquidity_fee_receiver_pubkey: Pubkey, pub liquidity_host_pubkey: Pubkey, pub liquidity_oracle_pubkey: Pubkey, pub collateral_mint_pubkey: Pubkey, pub collateral_supply_pubkey: Pubkey, pub user_liquidity_pubkey: Pubkey, pub user_collateral_pubkey: Pubkey, pub market_price: Decimal, } impl TestReserve { #[allow(clippy::too_many_arguments)] pub async fn init( name: String, banks_client: &mut BanksClient, lending_market: &TestLendingMarket, oracle: &TestOracle, liquidity_amount: u64, config: ReserveConfig, liquidity_mint_pubkey: Pubkey, user_liquidity_pubkey: Pubkey, payer: &Keypair, user_accounts_owner: &Keypair, ) -> Result { let reserve_keypair = Keypair::new(); let reserve_pubkey = reserve_keypair.pubkey(); let collateral_mint_keypair = Keypair::new(); let collateral_supply_keypair = Keypair::new(); let liquidity_supply_keypair = Keypair::new(); let liquidity_fee_receiver_keypair = Keypair::new(); let liquidity_host_keypair = Keypair::new(); let user_collateral_token_keypair = Keypair::new(); let user_transfer_authority_keypair = Keypair::new(); let liquidity_mint_account = banks_client .get_account(liquidity_mint_pubkey) .await .unwrap() .unwrap(); let liquidity_mint = Mint::unpack(&liquidity_mint_account.data[..]).unwrap(); let rent = banks_client.get_rent().await.unwrap(); let mut transaction = Transaction::new_with_payer( &[ approve( &spl_token::id(), &user_liquidity_pubkey, &user_transfer_authority_keypair.pubkey(), &user_accounts_owner.pubkey(), &[], liquidity_amount, ) .unwrap(), create_account( &payer.pubkey(), &collateral_mint_keypair.pubkey(), rent.minimum_balance(Mint::LEN), Mint::LEN as u64, &spl_token::id(), ), create_account( &payer.pubkey(), &collateral_supply_keypair.pubkey(), rent.minimum_balance(Token::LEN), Token::LEN as u64, &spl_token::id(), ), create_account( &payer.pubkey(), &liquidity_supply_keypair.pubkey(), rent.minimum_balance(Token::LEN), Token::LEN as u64, &spl_token::id(), ), create_account( &payer.pubkey(), &liquidity_fee_receiver_keypair.pubkey(), rent.minimum_balance(Token::LEN), Token::LEN as u64, &spl_token::id(), ), create_account( &payer.pubkey(), &liquidity_host_keypair.pubkey(), rent.minimum_balance(Token::LEN), Token::LEN as u64, &spl_token::id(), ), create_account( &payer.pubkey(), &user_collateral_token_keypair.pubkey(), rent.minimum_balance(Token::LEN), Token::LEN as u64, &spl_token::id(), ), create_account( &payer.pubkey(), &reserve_pubkey, rent.minimum_balance(Reserve::LEN), Reserve::LEN as u64, &spl_token_lending::id(), ), init_reserve( spl_token_lending::id(), liquidity_amount, config, user_liquidity_pubkey, user_collateral_token_keypair.pubkey(), reserve_pubkey, liquidity_mint_pubkey, liquidity_supply_keypair.pubkey(), liquidity_fee_receiver_keypair.pubkey(), collateral_mint_keypair.pubkey(), collateral_supply_keypair.pubkey(), oracle.product_pubkey, oracle.price_pubkey, lending_market.pubkey, lending_market.owner.pubkey(), user_transfer_authority_keypair.pubkey(), ), ], Some(&payer.pubkey()), ); let recent_blockhash = banks_client.get_recent_blockhash().await.unwrap(); transaction.sign( &vec![ payer, user_accounts_owner, &reserve_keypair, &lending_market.owner, &collateral_mint_keypair, &collateral_supply_keypair, &liquidity_supply_keypair, &liquidity_fee_receiver_keypair, &liquidity_host_keypair, &user_collateral_token_keypair, &user_transfer_authority_keypair, ], recent_blockhash, ); banks_client .process_transaction(transaction) .await .map(|_| Self { name, pubkey: reserve_pubkey, lending_market_pubkey: lending_market.pubkey, config, liquidity_mint_pubkey, liquidity_mint_decimals: liquidity_mint.decimals, liquidity_supply_pubkey: liquidity_supply_keypair.pubkey(), liquidity_fee_receiver_pubkey: liquidity_fee_receiver_keypair.pubkey(), liquidity_host_pubkey: liquidity_host_keypair.pubkey(), liquidity_oracle_pubkey: oracle.price_pubkey, collateral_mint_pubkey: collateral_mint_keypair.pubkey(), collateral_supply_pubkey: collateral_supply_keypair.pubkey(), user_liquidity_pubkey, user_collateral_pubkey: user_collateral_token_keypair.pubkey(), market_price: oracle.price, }) .map_err(|e| e.unwrap()) } pub async fn get_state(&self, banks_client: &mut BanksClient) -> Reserve { let reserve_account: Account = banks_client .get_account(self.pubkey) .await .unwrap() .unwrap(); Reserve::unpack(&reserve_account.data[..]).unwrap() } pub async fn validate_state(&self, banks_client: &mut BanksClient) { let reserve = self.get_state(banks_client).await; assert!(reserve.last_update.slot > 0); assert_eq!(PROGRAM_VERSION, reserve.version); assert_eq!(self.lending_market_pubkey, reserve.lending_market); assert_eq!(self.liquidity_mint_pubkey, reserve.liquidity.mint_pubkey); assert_eq!( self.liquidity_supply_pubkey, reserve.liquidity.supply_pubkey ); assert_eq!(self.collateral_mint_pubkey, reserve.collateral.mint_pubkey); assert_eq!( self.collateral_supply_pubkey, reserve.collateral.supply_pubkey ); assert_eq!(self.config, reserve.config); assert_eq!( self.liquidity_oracle_pubkey, reserve.liquidity.oracle_pubkey ); assert_eq!( reserve.liquidity.cumulative_borrow_rate_wads, Decimal::one() ); assert_eq!(reserve.liquidity.borrowed_amount_wads, Decimal::zero()); assert!(reserve.liquidity.available_amount > 0); assert!(reserve.collateral.mint_total_supply > 0); } } #[derive(Debug)] pub struct TestObligation { pub pubkey: Pubkey, pub lending_market: Pubkey, pub owner: Pubkey, pub deposits: Vec, pub borrows: Vec, } impl TestObligation { #[allow(clippy::too_many_arguments)] pub async fn init( banks_client: &mut BanksClient, lending_market: &TestLendingMarket, user_accounts_owner: &Keypair, payer: &Keypair, ) -> Result { let obligation_keypair = Keypair::new(); let obligation = TestObligation { pubkey: obligation_keypair.pubkey(), lending_market: lending_market.pubkey, owner: user_accounts_owner.pubkey(), deposits: vec![], borrows: vec![], }; let rent = banks_client.get_rent().await.unwrap(); let mut transaction = Transaction::new_with_payer( &[ create_account( &payer.pubkey(), &obligation_keypair.pubkey(), rent.minimum_balance(Obligation::LEN), Obligation::LEN as u64, &spl_token_lending::id(), ), init_obligation( spl_token_lending::id(), obligation.pubkey, lending_market.pubkey, user_accounts_owner.pubkey(), ), ], Some(&payer.pubkey()), ); let recent_blockhash = banks_client.get_recent_blockhash().await.unwrap(); transaction.sign( &vec![payer, &obligation_keypair, user_accounts_owner], recent_blockhash, ); banks_client .process_transaction(transaction) .await .map_err(|e| e.unwrap())?; Ok(obligation) } pub async fn get_state(&self, banks_client: &mut BanksClient) -> Obligation { let obligation_account: Account = banks_client .get_account(self.pubkey) .await .unwrap() .unwrap(); Obligation::unpack(&obligation_account.data[..]).unwrap() } pub async fn validate_state(&self, banks_client: &mut BanksClient) { let obligation = self.get_state(banks_client).await; assert_eq!(obligation.version, PROGRAM_VERSION); assert_eq!(obligation.lending_market, self.lending_market); assert_eq!(obligation.owner, self.owner); } } #[derive(Debug)] pub struct TestObligationCollateral { pub obligation_pubkey: Pubkey, pub deposit_reserve: Pubkey, pub deposited_amount: u64, } impl TestObligationCollateral { pub async fn get_state(&self, banks_client: &mut BanksClient) -> Obligation { let obligation_account: Account = banks_client .get_account(self.obligation_pubkey) .await .unwrap() .unwrap(); Obligation::unpack(&obligation_account.data[..]).unwrap() } pub async fn validate_state(&self, banks_client: &mut BanksClient) { let obligation = self.get_state(banks_client).await; assert_eq!(obligation.version, PROGRAM_VERSION); let (collateral, _) = obligation .find_collateral_in_deposits(self.deposit_reserve) .unwrap(); assert_eq!(collateral.deposited_amount, self.deposited_amount); } } #[derive(Debug)] pub struct TestObligationLiquidity { pub obligation_pubkey: Pubkey, pub borrow_reserve: Pubkey, pub borrowed_amount_wads: Decimal, } impl TestObligationLiquidity { pub async fn get_state(&self, banks_client: &mut BanksClient) -> Obligation { let obligation_account: Account = banks_client .get_account(self.obligation_pubkey) .await .unwrap() .unwrap(); Obligation::unpack(&obligation_account.data[..]).unwrap() } pub async fn validate_state(&self, banks_client: &mut BanksClient) { let obligation = self.get_state(banks_client).await; assert_eq!(obligation.version, PROGRAM_VERSION); let (liquidity, _) = obligation .find_liquidity_in_borrows(self.borrow_reserve) .unwrap(); assert!(liquidity.cumulative_borrow_rate_wads >= Decimal::one()); assert!(liquidity.borrowed_amount_wads >= self.borrowed_amount_wads); } } pub struct TestMint { pub pubkey: Pubkey, pub authority: Keypair, pub decimals: u8, } pub fn add_usdc_mint(test: &mut ProgramTest) -> TestMint { let authority = Keypair::new(); let pubkey = Pubkey::from_str(USDC_MINT).unwrap(); let decimals = 6; test.add_packable_account( pubkey, u32::MAX as u64, &Mint { is_initialized: true, mint_authority: COption::Some(authority.pubkey()), decimals, ..Mint::default() }, &spl_token::id(), ); TestMint { pubkey, authority, decimals, } } pub struct TestOracle { pub product_pubkey: Pubkey, pub price_pubkey: Pubkey, pub price: Decimal, } pub fn add_sol_oracle(test: &mut ProgramTest) -> TestOracle { add_oracle( test, Pubkey::from_str(SOL_PYTH_PRODUCT).unwrap(), Pubkey::from_str(SOL_PYTH_PRICE).unwrap(), // Set SOL price to $20 Decimal::from(20u64), ) } pub fn add_usdc_oracle(test: &mut ProgramTest) -> TestOracle { add_oracle( test, // Mock with SRM since Pyth doesn't have USDC yet Pubkey::from_str(SRM_PYTH_PRODUCT).unwrap(), Pubkey::from_str(SRM_PYTH_PRICE).unwrap(), // Set USDC price to $1 Decimal::from(1u64), ) } pub fn add_oracle( test: &mut ProgramTest, product_pubkey: Pubkey, price_pubkey: Pubkey, price: Decimal, ) -> TestOracle { let oracle_program_id = read_keypair_file("tests/fixtures/oracle_program_id.json").unwrap(); // Add Pyth product account test.add_account_with_file_data( product_pubkey, u32::MAX as u64, oracle_program_id.pubkey(), &format!("{}.bin", product_pubkey.to_string()), ); // Add Pyth price account after setting the price let filename = &format!("{}.bin", price_pubkey.to_string()); let mut pyth_price_data = read_file(find_file(filename).unwrap_or_else(|| { panic!("Unable to locate {}", filename); })); let mut pyth_price = pyth::load_mut::(pyth_price_data.as_mut_slice()).unwrap(); let decimals = 10u64 .checked_pow(pyth_price.expo.checked_abs().unwrap().try_into().unwrap()) .unwrap(); pyth_price.valid_slot = 0; pyth_price.agg.price = price .try_round_u64() .unwrap() .checked_mul(decimals) .unwrap() .try_into() .unwrap(); test.add_account( price_pubkey, Account { lamports: u32::MAX as u64, data: pyth_price_data, owner: oracle_program_id.pubkey(), executable: false, rent_epoch: 0, }, ); TestOracle { product_pubkey, price_pubkey, price, } } pub async fn create_and_mint_to_token_account( banks_client: &mut BanksClient, mint_pubkey: Pubkey, mint_authority: Option<&Keypair>, payer: &Keypair, authority: Pubkey, amount: u64, ) -> Pubkey { if let Some(mint_authority) = mint_authority { let account_pubkey = create_token_account(banks_client, mint_pubkey, &payer, Some(authority), None).await; mint_to( banks_client, mint_pubkey, &payer, account_pubkey, mint_authority, amount, ) .await; account_pubkey } else { create_token_account( banks_client, mint_pubkey, &payer, Some(authority), Some(amount), ) .await } } pub async fn create_token_account( banks_client: &mut BanksClient, mint_pubkey: Pubkey, payer: &Keypair, authority: Option, native_amount: Option, ) -> Pubkey { let token_keypair = Keypair::new(); let token_pubkey = token_keypair.pubkey(); let authority_pubkey = authority.unwrap_or_else(|| payer.pubkey()); let rent = banks_client.get_rent().await.unwrap(); let lamports = rent.minimum_balance(Token::LEN) + native_amount.unwrap_or_default(); let mut transaction = Transaction::new_with_payer( &[ create_account( &payer.pubkey(), &token_pubkey, lamports, Token::LEN as u64, &spl_token::id(), ), spl_token::instruction::initialize_account( &spl_token::id(), &token_pubkey, &mint_pubkey, &authority_pubkey, ) .unwrap(), ], Some(&payer.pubkey()), ); let recent_blockhash = banks_client.get_recent_blockhash().await.unwrap(); transaction.sign(&[&payer, &token_keypair], recent_blockhash); assert_matches!(banks_client.process_transaction(transaction).await, Ok(())); token_pubkey } pub async fn mint_to( banks_client: &mut BanksClient, mint_pubkey: Pubkey, payer: &Keypair, account_pubkey: Pubkey, authority: &Keypair, amount: u64, ) { let mut transaction = Transaction::new_with_payer( &[spl_token::instruction::mint_to( &spl_token::id(), &mint_pubkey, &account_pubkey, &authority.pubkey(), &[], amount, ) .unwrap()], Some(&payer.pubkey()), ); let recent_blockhash = banks_client.get_recent_blockhash().await.unwrap(); transaction.sign(&[payer, authority], recent_blockhash); assert_matches!(banks_client.process_transaction(transaction).await, Ok(())); } pub async fn get_token_balance(banks_client: &mut BanksClient, pubkey: Pubkey) -> u64 { let token: Account = banks_client.get_account(pubkey).await.unwrap().unwrap(); spl_token::state::Account::unpack(&token.data[..]) .unwrap() .amount }