use { miraland_program_test::{processor, ProgramTest}, miraland_sdk::{ account_info::AccountInfo, clock::Clock, entrypoint::ProgramResult, epoch_rewards::EpochRewards, epoch_schedule::EpochSchedule, instruction::Instruction, msg, pubkey::Pubkey, rent::Rent, signature::Signer, sysvar::Sysvar, transaction::Transaction, }, }; // Process instruction to invoke into another program fn sysvar_getter_process_instruction( _program_id: &Pubkey, _accounts: &[AccountInfo], _input: &[u8], ) -> ProgramResult { msg!("sysvar_getter"); let clock = Clock::get()?; assert_eq!(42, clock.slot); let epoch_schedule = EpochSchedule::get()?; assert_eq!(epoch_schedule, EpochSchedule::default()); let rent = Rent::get()?; assert_eq!(rent, Rent::default()); Ok(()) } #[tokio::test] async fn get_sysvar() { let program_id = Pubkey::new_unique(); let program_test = ProgramTest::new( "sysvar_getter", program_id, processor!(sysvar_getter_process_instruction), ); let mut context = program_test.start_with_context().await; context.warp_to_slot(42).unwrap(); let instructions = vec![Instruction::new_with_bincode(program_id, &(), vec![])]; let transaction = Transaction::new_signed_with_payer( &instructions, Some(&context.payer.pubkey()), &[&context.payer], context.last_blockhash, ); context .banks_client .process_transaction(transaction) .await .unwrap(); } fn epoch_reward_sysvar_getter_process_instruction( _program_id: &Pubkey, _accounts: &[AccountInfo], input: &[u8], ) -> ProgramResult { msg!("epoch_reward_sysvar_getter"); // input[0] == 0 indicates the bank is not in reward period. // input[0] == 1 indicates the bank is in reward period. if input[0] == 0 { // epoch rewards sysvar should not exist for banks that are not in reward period let epoch_rewards = EpochRewards::get(); assert!(epoch_rewards.is_err()); } else { let _epoch_rewards = EpochRewards::get()?; } Ok(()) } #[tokio::test] async fn get_epoch_rewards_sysvar() { let program_id = Pubkey::new_unique(); let program_test = ProgramTest::new( "epoch_reward_sysvar_getter", program_id, processor!(epoch_reward_sysvar_getter_process_instruction), ); let mut context = program_test.start_with_context().await; // wrap to 1st slot before next epoch (outside reward interval) let first_normal_slot = context.genesis_config().epoch_schedule.first_normal_slot; let slots_per_epoch = context.genesis_config().epoch_schedule.slots_per_epoch; let last_slot_before_new_epoch = first_normal_slot .saturating_add(slots_per_epoch) .saturating_sub(1); context.warp_to_slot(last_slot_before_new_epoch).unwrap(); // outside of reward interval, set input[0] == 0, so that the program assert that epoch_rewards sysvar doesn't exist. let instructions = vec![Instruction::new_with_bincode(program_id, &[0u8], vec![])]; let transaction = Transaction::new_signed_with_payer( &instructions, Some(&context.payer.pubkey()), &[&context.payer], context.last_blockhash, ); context .banks_client .process_transaction(transaction) .await .unwrap(); // wrap to 1st slot of next epoch (inside reward interval) let first_slot_in_new_epoch = first_normal_slot.saturating_add(slots_per_epoch); context.warp_to_slot(first_slot_in_new_epoch).unwrap(); // inside of reward interval, set input[0] == 1, so that the program assert that epoch_rewards sysvar exist. let instructions = vec![Instruction::new_with_bincode(program_id, &[1u8], vec![])]; let transaction = Transaction::new_signed_with_payer( &instructions, Some(&context.payer.pubkey()), &[&context.payer], context.last_blockhash, ); context .banks_client .process_transaction(transaction) .await .unwrap(); }