#![cfg(feature = "test-bpf")] use gemachain_program::{ instruction::{AccountMeta, Instruction, InstructionError}, pubkey::Pubkey, }; use gemachain_program_test::*; use gemachain_sdk::{ signature::{Keypair, Signer}, transaction::{Transaction, TransactionError}, }; use gpl_memo::*; fn program_test() -> ProgramTest { ProgramTest::new("gpl_memo", id(), processor!(processor::process_instruction)) } #[tokio::test] async fn test_memo_signing() { let memo = "🐆".as_bytes(); let (mut banks_client, payer, recent_blockhash) = program_test().start().await; let keypairs = vec![Keypair::new(), Keypair::new(), Keypair::new()]; let pubkeys: Vec = keypairs.iter().map(|keypair| keypair.pubkey()).collect(); // Test complete signing let signer_key_refs: Vec<&Pubkey> = pubkeys.iter().collect(); let mut transaction = Transaction::new_with_payer(&[build_memo(memo, &signer_key_refs)], Some(&payer.pubkey())); let mut signers = vec![&payer]; for keypair in keypairs.iter() { signers.push(keypair); } transaction.sign(&signers, recent_blockhash); banks_client.process_transaction(transaction).await.unwrap(); // Test unsigned memo let mut transaction = Transaction::new_with_payer(&[build_memo(memo, &[])], Some(&payer.pubkey())); transaction.sign(&[&payer], recent_blockhash); banks_client.process_transaction(transaction).await.unwrap(); // Demonstrate success on signature provided, regardless of specific memo AccountMeta let mut transaction = Transaction::new_with_payer( &[Instruction { program_id: id(), accounts: vec![ AccountMeta::new_readonly(keypairs[0].pubkey(), true), AccountMeta::new_readonly(keypairs[1].pubkey(), true), AccountMeta::new_readonly(payer.pubkey(), false), ], data: memo.to_vec(), }], Some(&payer.pubkey()), ); transaction.sign(&[&payer, &keypairs[0], &keypairs[1]], recent_blockhash); banks_client.process_transaction(transaction).await.unwrap(); // Test missing signer(s) let mut transaction = Transaction::new_with_payer( &[Instruction { program_id: id(), accounts: vec![ AccountMeta::new_readonly(keypairs[0].pubkey(), true), AccountMeta::new_readonly(keypairs[1].pubkey(), false), AccountMeta::new_readonly(keypairs[2].pubkey(), true), ], data: memo.to_vec(), }], Some(&payer.pubkey()), ); transaction.sign(&[&payer, &keypairs[0], &keypairs[2]], recent_blockhash); assert_eq!( banks_client .process_transaction(transaction) .await .unwrap_err() .unwrap(), TransactionError::InstructionError(0, InstructionError::MissingRequiredSignature) ); let mut transaction = Transaction::new_with_payer( &[Instruction { program_id: id(), accounts: vec![ AccountMeta::new_readonly(keypairs[0].pubkey(), false), AccountMeta::new_readonly(keypairs[1].pubkey(), false), AccountMeta::new_readonly(keypairs[2].pubkey(), false), ], data: memo.to_vec(), }], Some(&payer.pubkey()), ); transaction.sign(&[&payer], recent_blockhash); assert_eq!( banks_client .process_transaction(transaction) .await .unwrap_err() .unwrap(), TransactionError::InstructionError(0, InstructionError::MissingRequiredSignature) ); // Test invalid utf-8; demonstrate log let invalid_utf8 = [0xF0, 0x9F, 0x90, 0x86, 0xF0, 0x9F, 0xFF, 0x86]; let mut transaction = Transaction::new_with_payer(&[build_memo(&invalid_utf8, &[])], Some(&payer.pubkey())); transaction.sign(&[&payer], recent_blockhash); assert_eq!( banks_client .process_transaction(transaction) .await .unwrap_err() .unwrap(), TransactionError::InstructionError(0, InstructionError::InvalidInstructionData) ); } #[tokio::test] #[ignore] async fn test_memo_compute_limits() { let (mut banks_client, payer, recent_blockhash) = program_test().start().await; // Test memo length let mut memo = vec![]; for _ in 0..1000 { let mut vec = vec![0x53, 0x4F, 0x4C]; memo.append(&mut vec); } let mut transaction = Transaction::new_with_payer(&[build_memo(&memo[..450], &[])], Some(&payer.pubkey())); transaction.sign(&[&payer], recent_blockhash); banks_client.process_transaction(transaction).await.unwrap(); let mut transaction = Transaction::new_with_payer(&[build_memo(&memo[..600], &[])], Some(&payer.pubkey())); transaction.sign(&[&payer], recent_blockhash); let err = banks_client .process_transaction(transaction) .await .unwrap_err() .unwrap(); let failed_to_complete = TransactionError::InstructionError(0, InstructionError::ProgramFailedToComplete); let computational_budget_exceeded = TransactionError::InstructionError(0, InstructionError::ComputationalBudgetExceeded); assert!(err == failed_to_complete || err == computational_budget_exceeded); let mut memo = vec![]; for _ in 0..100 { let mut vec = vec![0xE2, 0x97, 0x8E]; memo.append(&mut vec); } let mut transaction = Transaction::new_with_payer(&[build_memo(&memo[..60], &[])], Some(&payer.pubkey())); transaction.sign(&[&payer], recent_blockhash); banks_client.process_transaction(transaction).await.unwrap(); let mut transaction = Transaction::new_with_payer(&[build_memo(&memo[..63], &[])], Some(&payer.pubkey())); transaction.sign(&[&payer], recent_blockhash); let err = banks_client .process_transaction(transaction) .await .unwrap_err() .unwrap(); assert!(err == failed_to_complete || err == computational_budget_exceeded); // Test num signers with 32-byte memo let memo = Pubkey::new_unique().to_bytes(); let mut keypairs = vec![]; for _ in 0..20 { keypairs.push(Keypair::new()); } let pubkeys: Vec = keypairs.iter().map(|keypair| keypair.pubkey()).collect(); let signer_key_refs: Vec<&Pubkey> = pubkeys.iter().collect(); let mut signers = vec![&payer]; for keypair in keypairs[..12].iter() { signers.push(keypair); } let mut transaction = Transaction::new_with_payer( &[build_memo(&memo, &signer_key_refs[..12])], Some(&payer.pubkey()), ); transaction.sign(&signers, recent_blockhash); banks_client.process_transaction(transaction).await.unwrap(); let mut signers = vec![&payer]; for keypair in keypairs[..15].iter() { signers.push(keypair); } let mut transaction = Transaction::new_with_payer( &[build_memo(&memo, &signer_key_refs[..15])], Some(&payer.pubkey()), ); transaction.sign(&signers, recent_blockhash); let err = banks_client .process_transaction(transaction) .await .unwrap_err() .unwrap(); assert!(err == failed_to_complete || err == computational_budget_exceeded); }