use { miraland_program_test::{processor, ProgramTest}, miraland_sdk::{ account_info::{next_account_info, AccountInfo}, entrypoint::{ProgramResult, MAX_PERMITTED_DATA_INCREASE}, instruction::{get_stack_height, AccountMeta, Instruction}, msg, program::invoke, pubkey::Pubkey, rent::Rent, signature::Signer, signer::keypair::Keypair, system_instruction, system_program, sysvar::Sysvar, transaction::Transaction, }, }; // Process instruction to invoke into another program // We pass this specific number of accounts in order to test for a reported error. fn invoker_process_instruction( _program_id: &Pubkey, accounts: &[AccountInfo], _input: &[u8], ) -> ProgramResult { // if we can call `msg!` successfully, then InvokeContext exists as required msg!("Processing invoker instruction before CPI"); let account_info_iter = &mut accounts.iter(); let invoked_program_info = next_account_info(account_info_iter)?; invoke( &Instruction::new_with_bincode( *invoked_program_info.key, &[0], vec![AccountMeta::new_readonly(*invoked_program_info.key, false)], ), &[invoked_program_info.clone()], )?; msg!("Processing invoker instruction after CPI"); Ok(()) } // Process instruction to invoke into another program with duplicates fn invoker_dupes_process_instruction( _program_id: &Pubkey, accounts: &[AccountInfo], _input: &[u8], ) -> ProgramResult { // if we can call `msg!` successfully, then InvokeContext exists as required msg!("Processing invoker instruction before CPI"); let account_info_iter = &mut accounts.iter(); let invoked_program_info = next_account_info(account_info_iter)?; invoke( &Instruction::new_with_bincode( *invoked_program_info.key, &[0], vec![ AccountMeta::new_readonly(*invoked_program_info.key, false), AccountMeta::new_readonly(*invoked_program_info.key, false), AccountMeta::new_readonly(*invoked_program_info.key, false), AccountMeta::new_readonly(*invoked_program_info.key, false), ], ), &[ invoked_program_info.clone(), invoked_program_info.clone(), invoked_program_info.clone(), invoked_program_info.clone(), invoked_program_info.clone(), ], )?; msg!("Processing invoker instruction after CPI"); Ok(()) } // Process instruction to be invoked by another program #[allow(clippy::unnecessary_wraps)] fn invoked_process_instruction( _program_id: &Pubkey, _accounts: &[AccountInfo], _input: &[u8], ) -> ProgramResult { // if we can call `msg!` successfully, then InvokeContext exists as required msg!("Processing invoked instruction"); Ok(()) } // Process instruction to invoke into system program to create an account fn invoke_create_account( program_id: &Pubkey, accounts: &[AccountInfo], _input: &[u8], ) -> ProgramResult { msg!("Processing instruction before system program CPI instruction"); let account_info_iter = &mut accounts.iter(); let payer_info = next_account_info(account_info_iter)?; let create_account_info = next_account_info(account_info_iter)?; let system_program_info = next_account_info(account_info_iter)?; let rent = Rent::get()?; let minimum_balance = rent.minimum_balance(MAX_PERMITTED_DATA_INCREASE); invoke( &system_instruction::create_account( payer_info.key, create_account_info.key, minimum_balance, MAX_PERMITTED_DATA_INCREASE as u64, program_id, ), &[ payer_info.clone(), create_account_info.clone(), system_program_info.clone(), ], )?; msg!("Processing instruction after system program CPI"); Ok(()) } #[tokio::test] async fn cpi() { let invoker_program_id = Pubkey::new_unique(); let mut program_test = ProgramTest::new( "invoker", invoker_program_id, processor!(invoker_process_instruction), ); let invoked_program_id = Pubkey::new_unique(); program_test.add_program( "invoked", invoked_program_id, processor!(invoked_process_instruction), ); let mut context = program_test.start_with_context().await; let instructions = vec![Instruction::new_with_bincode( invoker_program_id, &[0], vec![AccountMeta::new_readonly(invoked_program_id, false)], )]; 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(); } #[tokio::test] async fn cpi_dupes() { let invoker_program_id = Pubkey::new_unique(); let mut program_test = ProgramTest::new( "invoker", invoker_program_id, processor!(invoker_dupes_process_instruction), ); let invoked_program_id = Pubkey::new_unique(); program_test.add_program( "invoked", invoked_program_id, processor!(invoked_process_instruction), ); let mut context = program_test.start_with_context().await; let instructions = vec![Instruction::new_with_bincode( invoker_program_id, &[0], vec![ AccountMeta::new_readonly(invoked_program_id, false), AccountMeta::new_readonly(invoked_program_id, false), AccountMeta::new_readonly(invoked_program_id, false), AccountMeta::new_readonly(invoked_program_id, false), ], )]; 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(); } #[tokio::test] async fn cpi_create_account() { let create_account_program_id = Pubkey::new_unique(); let program_test = ProgramTest::new( "create_account", create_account_program_id, processor!(invoke_create_account), ); let create_account_keypair = Keypair::new(); let mut context = program_test.start_with_context().await; let instructions = vec![Instruction::new_with_bincode( create_account_program_id, &[0], vec![ AccountMeta::new(context.payer.pubkey(), true), AccountMeta::new(create_account_keypair.pubkey(), true), AccountMeta::new_readonly(system_program::id(), false), ], )]; let transaction = Transaction::new_signed_with_payer( &instructions, Some(&context.payer.pubkey()), &[&context.payer, &create_account_keypair], context.last_blockhash, ); context .banks_client .process_transaction(transaction) .await .unwrap(); } // Process instruction to invoke into another program fn invoker_stack_height( _program_id: &Pubkey, accounts: &[AccountInfo], _input: &[u8], ) -> ProgramResult { // if we can call `msg!` successfully, then InvokeContext exists as required msg!("Processing invoker instruction before CPI"); let stack_height = get_stack_height(); assert_eq!(stack_height, 1); let account_info_iter = &mut accounts.iter(); let invoked_program_info = next_account_info(account_info_iter)?; invoke( &Instruction::new_with_bytes(*invoked_program_info.key, &[], vec![]), &[invoked_program_info.clone()], )?; msg!("Processing invoker instruction after CPI"); Ok(()) } // Process instruction to be invoked by another program #[allow(clippy::unnecessary_wraps)] fn invoked_stack_height( _program_id: &Pubkey, _accounts: &[AccountInfo], _input: &[u8], ) -> ProgramResult { let stack_height = get_stack_height(); assert_eq!(stack_height, 2); Ok(()) } #[tokio::test] async fn stack_height() { let invoker_stack_height_program_id = Pubkey::new_unique(); let invoked_stack_height_program_id = Pubkey::new_unique(); let mut program_test = ProgramTest::new( "invoker_stack_height", invoker_stack_height_program_id, processor!(invoker_stack_height), ); program_test.add_program( "invoked_stack_height", invoked_stack_height_program_id, processor!(invoked_stack_height), ); let mut context = program_test.start_with_context().await; let instructions = vec![Instruction::new_with_bytes( invoker_stack_height_program_id, &[], vec![AccountMeta::new_readonly( invoked_stack_height_program_id, false, )], )]; 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(); }