//! Contains functional tests for things that cannot be done //! strictly in unit tests. This includes CPIs, like creating //! new PDA accounts. use account_utils::DiscriminatorEncode; use hyperlane_core::{Encode, HyperlaneMessage, H256, U256}; use solana_program::{ instruction::{AccountMeta, Instruction}, pubkey, pubkey::Pubkey, }; use std::collections::HashMap; use hyperlane_sealevel_connection_client::{ gas_router::GasRouterConfig, router::RemoteRouterConfig, }; use hyperlane_sealevel_igp::{ accounts::{GasPaymentAccount, GasPaymentData, InterchainGasPaymasterType}, igp_gas_payment_pda_seeds, }; use hyperlane_sealevel_mailbox::{ accounts::{DispatchedMessage, DispatchedMessageAccount}, mailbox_dispatched_message_pda_seeds, mailbox_message_dispatch_authority_pda_seeds, mailbox_process_authority_pda_seeds, }; use hyperlane_sealevel_message_recipient_interface::{ HandleInstruction, MessageRecipientInstruction, }; use hyperlane_sealevel_token_lib::{ accounts::{convert_decimals, HyperlaneToken, HyperlaneTokenAccount}, hyperlane_token_pda_seeds, instruction::{Init, Instruction as HyperlaneTokenInstruction, TransferRemote}, message::TokenMessage, }; use hyperlane_sealevel_token_native::{ hyperlane_token_native_collateral_pda_seeds, plugin::NativePlugin, processor::process_instruction, }; use hyperlane_test_utils::{ assert_lamports, assert_transaction_error, igp_program_id, initialize_igp_accounts, initialize_mailbox, mailbox_id, new_funded_keypair, process, transfer_lamports, IgpAccounts, }; use solana_program_test::*; use solana_sdk::{ commitment_config::CommitmentLevel, instruction::InstructionError, signature::Signer, signer::keypair::Keypair, transaction::{Transaction, TransactionError}, }; use tarpc::context::Context; /// There are 1e9 lamports in one SOL. const ONE_SOL_IN_LAMPORTS: u64 = 1000000000; const LOCAL_DOMAIN: u32 = 1234; const LOCAL_DECIMALS: u8 = 9; const LOCAL_DECIMALS_U32: u32 = LOCAL_DECIMALS as u32; const REMOTE_DOMAIN: u32 = 4321; const REMOTE_DECIMALS: u8 = 18; const REMOTE_GAS_AMOUNT: u64 = 200000; fn hyperlane_sealevel_token_native_id() -> Pubkey { pubkey!("CGn8yNtSD3aTTqJfYhUb6s1aVTN75NzwtsFKo1e83aga") } async fn setup_client() -> (BanksClient, Keypair) { let program_id = hyperlane_sealevel_token_native_id(); let mut program_test = ProgramTest::new( "hyperlane_sealevel_token_native", program_id, processor!(process_instruction), ); program_test.add_program("spl_noop", spl_noop::id(), processor!(spl_noop::noop)); let mailbox_program_id = mailbox_id(); program_test.add_program( "hyperlane_sealevel_mailbox", mailbox_program_id, processor!(hyperlane_sealevel_mailbox::processor::process_instruction), ); program_test.add_program( "hyperlane_sealevel_igp", igp_program_id(), processor!(hyperlane_sealevel_igp::processor::process_instruction), ); // This serves as the default ISM on the Mailbox program_test.add_program( "hyperlane_sealevel_test_ism", hyperlane_sealevel_test_ism::id(), processor!(hyperlane_sealevel_test_ism::program::process_instruction), ); let (banks_client, payer, _recent_blockhash) = program_test.start().await; (banks_client, payer) } struct HyperlaneTokenAccounts { token: Pubkey, token_bump: u8, mailbox_process_authority: Pubkey, dispatch_authority: Pubkey, dispatch_authority_bump: u8, native_collateral: Pubkey, native_collateral_bump: u8, } async fn initialize_hyperlane_token( program_id: &Pubkey, banks_client: &mut BanksClient, payer: &Keypair, igp_accounts: Option<&IgpAccounts>, ) -> Result { let (mailbox_process_authority_key, _mailbox_process_authority_bump) = Pubkey::find_program_address( mailbox_process_authority_pda_seeds!(program_id), &mailbox_id(), ); let (token_account_key, token_account_bump_seed) = Pubkey::find_program_address(hyperlane_token_pda_seeds!(), program_id); let (dispatch_authority_key, dispatch_authority_seed) = Pubkey::find_program_address(mailbox_message_dispatch_authority_pda_seeds!(), program_id); let (native_collateral_account_key, native_collateral_account_bump_seed) = Pubkey::find_program_address(hyperlane_token_native_collateral_pda_seeds!(), program_id); let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( *program_id, &HyperlaneTokenInstruction::Init(Init { mailbox: mailbox_id(), interchain_security_module: None, interchain_gas_paymaster: igp_accounts.map(|igp_accounts| { ( igp_accounts.program, InterchainGasPaymasterType::OverheadIgp(igp_accounts.overhead_igp), ) }), decimals: LOCAL_DECIMALS, remote_decimals: REMOTE_DECIMALS, }) .encode() .unwrap(), vec![ // 0. [executable] The system program. // 1. [writable] The token PDA account. // 2. [writable] The dispatch authority PDA account. // 3. [signer] The payer and mailbox payer. // 4. [writable] The native collateral PDA account. AccountMeta::new_readonly(solana_program::system_program::id(), false), AccountMeta::new(token_account_key, false), AccountMeta::new(dispatch_authority_key, false), AccountMeta::new_readonly(payer.pubkey(), true), AccountMeta::new(native_collateral_account_key, false), ], )], Some(&payer.pubkey()), &[payer], recent_blockhash, ); banks_client.process_transaction(transaction).await?; // Set destination gas configs set_destination_gas_config( banks_client, program_id, payer, &token_account_key, REMOTE_DOMAIN, REMOTE_GAS_AMOUNT, ) .await?; Ok(HyperlaneTokenAccounts { token: token_account_key, token_bump: token_account_bump_seed, mailbox_process_authority: mailbox_process_authority_key, dispatch_authority: dispatch_authority_key, dispatch_authority_bump: dispatch_authority_seed, native_collateral: native_collateral_account_key, native_collateral_bump: native_collateral_account_bump_seed, }) } async fn enroll_remote_router( banks_client: &mut BanksClient, program_id: &Pubkey, payer: &Keypair, token_account: &Pubkey, domain: u32, router: H256, ) -> Result<(), BanksClientError> { let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); // Enroll the remote router let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( *program_id, &HyperlaneTokenInstruction::EnrollRemoteRouter(RemoteRouterConfig { domain, router: Some(router), }) .encode() .unwrap(), vec![ AccountMeta::new(solana_program::system_program::id(), false), AccountMeta::new(*token_account, false), AccountMeta::new_readonly(payer.pubkey(), true), ], )], Some(&payer.pubkey()), &[payer], recent_blockhash, ); banks_client.process_transaction(transaction).await?; Ok(()) } async fn set_destination_gas_config( banks_client: &mut BanksClient, program_id: &Pubkey, payer: &Keypair, token_account: &Pubkey, domain: u32, gas: u64, ) -> Result<(), BanksClientError> { let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); // Enroll the remote router let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( *program_id, &HyperlaneTokenInstruction::SetDestinationGasConfigs(vec![GasRouterConfig { domain, gas: Some(gas), }]) .encode() .unwrap(), vec![ AccountMeta::new_readonly(solana_program::system_program::id(), false), AccountMeta::new(*token_account, false), AccountMeta::new_readonly(payer.pubkey(), true), ], )], Some(&payer.pubkey()), &[payer], recent_blockhash, ); banks_client.process_transaction(transaction).await?; Ok(()) } #[tokio::test] async fn test_initialize() { let program_id = hyperlane_sealevel_token_native_id(); let mailbox_program_id = mailbox_id(); let (mut banks_client, payer) = setup_client().await; let mailbox_accounts = initialize_mailbox(&mut banks_client, &mailbox_program_id, &payer, LOCAL_DOMAIN) .await .unwrap(); let igp_accounts = initialize_igp_accounts(&mut banks_client, &igp_program_id(), &payer, REMOTE_DOMAIN) .await .unwrap(); let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, Some(&igp_accounts)) .await .unwrap(); // Get the token account. let token_account_data = banks_client .get_account(hyperlane_token_accounts.token) .await .unwrap() .unwrap() .data; let token = HyperlaneTokenAccount::::fetch(&mut &token_account_data[..]) .unwrap() .into_inner(); assert_eq!( token, Box::new(HyperlaneToken { bump: hyperlane_token_accounts.token_bump, mailbox: mailbox_accounts.program, mailbox_process_authority: hyperlane_token_accounts.mailbox_process_authority, dispatch_authority_bump: hyperlane_token_accounts.dispatch_authority_bump, decimals: LOCAL_DECIMALS, remote_decimals: REMOTE_DECIMALS, owner: Some(payer.pubkey()), interchain_security_module: None, interchain_gas_paymaster: Some(( igp_accounts.program, InterchainGasPaymasterType::OverheadIgp(igp_accounts.overhead_igp), )), destination_gas: HashMap::from([(REMOTE_DOMAIN, REMOTE_GAS_AMOUNT)]), remote_routers: HashMap::new(), plugin_data: NativePlugin { native_collateral_bump: hyperlane_token_accounts.native_collateral_bump, }, }), ); // Verify the ATA payer account was created. let native_collateral_account = banks_client .get_account(hyperlane_token_accounts.native_collateral) .await .unwrap() .unwrap(); assert!(native_collateral_account.lamports > 0); } #[tokio::test] async fn test_initialize_errors_if_called_twice() { let program_id = hyperlane_sealevel_token_native_id(); let (mut banks_client, payer) = setup_client().await; initialize_hyperlane_token(&program_id, &mut banks_client, &payer, None) .await .unwrap(); let other_payer = new_funded_keypair(&mut banks_client, &payer, ONE_SOL_IN_LAMPORTS).await; // To ensure a different signature is used, we'll use a different payer let init_result = initialize_hyperlane_token(&program_id, &mut banks_client, &other_payer, None).await; assert_transaction_error( init_result, TransactionError::InstructionError(0, InstructionError::AccountAlreadyInitialized), ); } #[tokio::test] async fn test_transfer_remote() { let program_id = hyperlane_sealevel_token_native_id(); let mailbox_program_id = mailbox_id(); let (mut banks_client, payer) = setup_client().await; let mailbox_accounts = initialize_mailbox(&mut banks_client, &mailbox_program_id, &payer, LOCAL_DOMAIN) .await .unwrap(); let igp_accounts = initialize_igp_accounts(&mut banks_client, &igp_program_id(), &payer, REMOTE_DOMAIN) .await .unwrap(); let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, Some(&igp_accounts)) .await .unwrap(); // Enroll the remote router let remote_router = H256::random(); enroll_remote_router( &mut banks_client, &program_id, &payer, &hyperlane_token_accounts.token, REMOTE_DOMAIN, remote_router, ) .await .unwrap(); // Send 100 SOL for the token sender to start with. let token_sender = new_funded_keypair(&mut banks_client, &payer, 100 * ONE_SOL_IN_LAMPORTS).await; let token_sender_pubkey = token_sender.pubkey(); // Call transfer_remote let unique_message_account_keypair = Keypair::new(); let (dispatched_message_key, _dispatched_message_bump) = Pubkey::find_program_address( mailbox_dispatched_message_pda_seeds!(&unique_message_account_keypair.pubkey()), &mailbox_program_id, ); let (gas_payment_pda_key, _gas_payment_pda_bump) = Pubkey::find_program_address( igp_gas_payment_pda_seeds!(&unique_message_account_keypair.pubkey()), &igp_program_id(), ); let remote_token_recipient = H256::random(); // Transfer 69 tokens. let transfer_amount = 69 * ONE_SOL_IN_LAMPORTS; let remote_transfer_amount = convert_decimals(transfer_amount.into(), LOCAL_DECIMALS, REMOTE_DECIMALS).unwrap(); let sender_balance_before = banks_client.get_balance(token_sender_pubkey).await.unwrap(); let native_collateral_account_lamports_before = banks_client .get_balance(hyperlane_token_accounts.native_collateral) .await .unwrap(); let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( program_id, &HyperlaneTokenInstruction::TransferRemote(TransferRemote { destination_domain: REMOTE_DOMAIN, recipient: remote_token_recipient, amount_or_id: transfer_amount.into(), }) .encode() .unwrap(), // 0. [executable] The system program. // 1. [executable] The spl_noop program. // 2. [] The token PDA account. // 3. [executable] The mailbox program. // 4. [writeable] The mailbox outbox account. // 5. [] Message dispatch authority. // 6. [signer] The token sender and mailbox payer. // 7. [signer] Unique message / gas payment account. // 8. [writeable] Message storage PDA. // ---- If using an IGP ---- // 9. [executable] The IGP program. // 10. [writeable] The IGP program data. // 11. [writeable] Gas payment PDA. // 12. [] OPTIONAL - The Overhead IGP program, if the configured IGP is an Overhead IGP. // 13. [writeable] The IGP account. // ---- End if ---- // 14. [executable] The system program. // 15. [writeable] The native token collateral PDA account. vec![ AccountMeta::new_readonly(solana_program::system_program::id(), false), AccountMeta::new_readonly(spl_noop::id(), false), AccountMeta::new_readonly(hyperlane_token_accounts.token, false), AccountMeta::new_readonly(mailbox_accounts.program, false), AccountMeta::new(mailbox_accounts.outbox, false), AccountMeta::new_readonly(hyperlane_token_accounts.dispatch_authority, false), AccountMeta::new_readonly(token_sender_pubkey, true), AccountMeta::new_readonly(unique_message_account_keypair.pubkey(), true), AccountMeta::new(dispatched_message_key, false), AccountMeta::new_readonly(igp_accounts.program, false), AccountMeta::new(igp_accounts.program_data, false), AccountMeta::new(gas_payment_pda_key, false), AccountMeta::new_readonly(igp_accounts.overhead_igp, false), AccountMeta::new(igp_accounts.igp, false), AccountMeta::new_readonly(solana_program::system_program::id(), false), AccountMeta::new(hyperlane_token_accounts.native_collateral, false), ], )], Some(&token_sender_pubkey), &[&token_sender, &unique_message_account_keypair], recent_blockhash, ); let transaction_fee = banks_client .get_fee_for_message_with_commitment_and_context( Context::current(), CommitmentLevel::Processed, transaction.message.clone(), ) .await .unwrap() .unwrap(); let tx_signature = transaction.signatures[0]; banks_client.process_transaction(transaction).await.unwrap(); // The transaction fee doesn't seem to be entirely accurate - // this may be due to a mismatch between the SDK and the actual // transaction fee calculation. // For now, we'll just check that the sender's balance roughly correct. let sender_balance_after = banks_client.get_balance(token_sender_pubkey).await.unwrap(); let expected_balance_after = sender_balance_before - transfer_amount - transaction_fee; // Allow 0.005 SOL of extra transaction fees assert!( sender_balance_after >= expected_balance_after - 5000000 && sender_balance_after <= expected_balance_after ); // And that the native collateral account's balance is 69 tokens. assert_lamports( &mut banks_client, &hyperlane_token_accounts.native_collateral, native_collateral_account_lamports_before + transfer_amount, ) .await; // And let's take a look at the dispatched message account data to verify the message looks right. let dispatched_message_account_data = banks_client .get_account(dispatched_message_key) .await .unwrap() .unwrap() .data; let dispatched_message = DispatchedMessageAccount::fetch(&mut &dispatched_message_account_data[..]) .unwrap() .into_inner(); let transfer_remote_tx_status = banks_client .get_transaction_status(tx_signature) .await .unwrap() .unwrap(); let message = HyperlaneMessage { version: 0, nonce: 0, origin: LOCAL_DOMAIN, sender: program_id.to_bytes().into(), destination: REMOTE_DOMAIN, recipient: remote_router, // Expect the remote_transfer_amount to be in the message. body: TokenMessage::new(remote_token_recipient, remote_transfer_amount, vec![]).to_vec(), }; assert_eq!( dispatched_message, Box::new(DispatchedMessage::new( message.nonce, transfer_remote_tx_status.slot, unique_message_account_keypair.pubkey(), message.to_vec(), )), ); // And let's also look at the gas payment account to verify the gas payment looks right. let gas_payment_account_data = banks_client .get_account(gas_payment_pda_key) .await .unwrap() .unwrap() .data; let gas_payment = GasPaymentAccount::fetch(&mut &gas_payment_account_data[..]) .unwrap() .into_inner(); assert_eq!( *gas_payment, GasPaymentData { sequence_number: 0, igp: igp_accounts.igp, destination_domain: REMOTE_DOMAIN, message_id: message.id(), gas_amount: REMOTE_GAS_AMOUNT, unique_gas_payment_pubkey: unique_message_account_keypair.pubkey(), slot: transfer_remote_tx_status.slot, payment: REMOTE_GAS_AMOUNT } .into(), ); } async fn transfer_from_remote( initial_native_collateral_balance: u64, remote_transfer_amount: U256, sender_override: Option, origin_override: Option, ) -> Result<(BanksClient, HyperlaneTokenAccounts, Pubkey), BanksClientError> { let program_id = hyperlane_sealevel_token_native_id(); let mailbox_program_id = mailbox_id(); let (mut banks_client, payer) = setup_client().await; let mailbox_accounts = initialize_mailbox(&mut banks_client, &mailbox_program_id, &payer, LOCAL_DOMAIN) .await .unwrap(); let igp_accounts = initialize_igp_accounts(&mut banks_client, &igp_program_id(), &payer, REMOTE_DOMAIN) .await .unwrap(); let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, Some(&igp_accounts)) .await .unwrap(); // Enroll the remote router let remote_router = H256::random(); enroll_remote_router( &mut banks_client, &program_id, &payer, &hyperlane_token_accounts.token, REMOTE_DOMAIN, remote_router, ) .await .unwrap(); // The native collateral account will have some lamports because it's rent-exempt. let current_native_collateral_balance = banks_client .get_balance(hyperlane_token_accounts.native_collateral) .await .unwrap(); // Give an initial balance to the native collateral account which will be used by the // transfer_from_remote. transfer_lamports( &mut banks_client, &payer, &hyperlane_token_accounts.native_collateral, initial_native_collateral_balance.saturating_sub(current_native_collateral_balance), ) .await; let recipient_pubkey = Pubkey::new_unique(); let recipient: H256 = recipient_pubkey.to_bytes().into(); let message = HyperlaneMessage { version: 0, nonce: 0, origin: origin_override.unwrap_or(REMOTE_DOMAIN), // Default to the remote router as the sender sender: sender_override.unwrap_or(remote_router), destination: LOCAL_DOMAIN, recipient: program_id.to_bytes().into(), body: TokenMessage::new(recipient, remote_transfer_amount, vec![]).to_vec(), }; process( &mut banks_client, &payer, &mailbox_accounts, vec![], &message, ) .await?; Ok((banks_client, hyperlane_token_accounts, recipient_pubkey)) } // Tests when the SPL token is the non-2022 version #[tokio::test] async fn test_transfer_from_success() { let initial_native_collateral_balance = 100 * 10u64.pow(LOCAL_DECIMALS_U32); let local_transfer_amount = 69 * 10u64.pow(LOCAL_DECIMALS_U32); let remote_transfer_amount = convert_decimals( local_transfer_amount.into(), LOCAL_DECIMALS, REMOTE_DECIMALS, ) .unwrap(); let (mut banks_client, hyperlane_token_accounts, recipient_associated_token_account) = transfer_from_remote( initial_native_collateral_balance, remote_transfer_amount, None, None, ) .await .unwrap(); // Check that the recipient's ATA got the tokens! assert_lamports( &mut banks_client, &recipient_associated_token_account, local_transfer_amount, ) .await; // And that the native collateral's balance is lower because it was spent in the transfer. assert_lamports( &mut banks_client, &hyperlane_token_accounts.native_collateral, initial_native_collateral_balance - local_transfer_amount, ) .await; } #[tokio::test] async fn test_transfer_from_remote_errors_if_sender_not_router() { let initial_native_collateral_balance = 100 * 10u64.pow(LOCAL_DECIMALS_U32); let local_transfer_amount = 69 * 10u64.pow(LOCAL_DECIMALS_U32); let remote_transfer_amount = convert_decimals( local_transfer_amount.into(), LOCAL_DECIMALS, REMOTE_DECIMALS, ) .unwrap(); // Same remote domain origin, but wrong sender. let result = transfer_from_remote( initial_native_collateral_balance, remote_transfer_amount, Some(H256::random()), None, ) .await; assert_transaction_error( result, TransactionError::InstructionError(0, InstructionError::InvalidInstructionData), ); // Wrong remote domain origin, but correct sender. let result = transfer_from_remote( initial_native_collateral_balance, remote_transfer_amount, None, Some(REMOTE_DOMAIN + 1), ) .await; assert_transaction_error( result, TransactionError::InstructionError(0, InstructionError::InvalidInstructionData), ); } #[tokio::test] async fn test_transfer_from_remote_errors_if_process_authority_not_signer() { let program_id = hyperlane_sealevel_token_native_id(); let mailbox_program_id = mailbox_id(); let (mut banks_client, payer) = setup_client().await; let _mailbox_accounts = initialize_mailbox(&mut banks_client, &mailbox_program_id, &payer, LOCAL_DOMAIN) .await .unwrap(); let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, None) .await .unwrap(); // Enroll the remote router let remote_router = H256::random(); enroll_remote_router( &mut banks_client, &program_id, &payer, &hyperlane_token_accounts.token, REMOTE_DOMAIN, remote_router, ) .await .unwrap(); let recipient_pubkey = Pubkey::new_unique(); let recipient: H256 = recipient_pubkey.to_bytes().into(); let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); // Try calling directly into the message handler, skipping the mailbox. let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( program_id, &MessageRecipientInstruction::Handle(HandleInstruction { origin: REMOTE_DOMAIN, sender: remote_router, message: TokenMessage::new(recipient, 12345u64.into(), vec![]).to_vec(), }) .encode() .unwrap(), vec![ // Recipient.handle accounts // 0. [signer] Mailbox processor authority specific to this program. // 1. [executable] system_program // 2. [] hyperlane_token storage // 3. [writeable] recipient wallet address // 4. [executable] The system program. // 5. [writeable] The native token collateral PDA account. AccountMeta::new_readonly( hyperlane_token_accounts.mailbox_process_authority, false, ), AccountMeta::new_readonly(solana_program::system_program::id(), false), AccountMeta::new_readonly(hyperlane_token_accounts.token, false), AccountMeta::new(recipient_pubkey, false), AccountMeta::new_readonly(solana_program::system_program::id(), false), AccountMeta::new(hyperlane_token_accounts.native_collateral, false), ], )], Some(&payer.pubkey()), &[&payer], recent_blockhash, ); let result = banks_client.process_transaction(transaction).await; assert_transaction_error( result, TransactionError::InstructionError(0, InstructionError::MissingRequiredSignature), ); } #[tokio::test] async fn test_enroll_remote_router() { let program_id = hyperlane_sealevel_token_native_id(); let (mut banks_client, payer) = setup_client().await; let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, None) .await .unwrap(); // Enroll the remote router let remote_router = H256::random(); enroll_remote_router( &mut banks_client, &program_id, &payer, &hyperlane_token_accounts.token, REMOTE_DOMAIN, remote_router, ) .await .unwrap(); // Verify the remote router was enrolled. let token_account_data = banks_client .get_account(hyperlane_token_accounts.token) .await .unwrap() .unwrap() .data; let token = HyperlaneTokenAccount::::fetch(&mut &token_account_data[..]) .unwrap() .into_inner(); assert_eq!( token.remote_routers, vec![(REMOTE_DOMAIN, remote_router)].into_iter().collect(), ); } #[tokio::test] async fn test_enroll_remote_router_errors_if_not_signed_by_owner() { let program_id = hyperlane_sealevel_token_native_id(); let (mut banks_client, payer) = setup_client().await; let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, None) .await .unwrap(); let non_owner = new_funded_keypair(&mut banks_client, &payer, ONE_SOL_IN_LAMPORTS).await; // Use the mint authority as the payer, which has a balance but is not the owner, // so we expect this to fail. let result = enroll_remote_router( &mut banks_client, &program_id, &non_owner, &hyperlane_token_accounts.token, REMOTE_DOMAIN, H256::random(), ) .await; assert_transaction_error( result, TransactionError::InstructionError(0, InstructionError::InvalidArgument), ); // Also try using the mint authority as the payer and specifying the correct // owner account, but the owner isn't a signer: let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); // Enroll the remote router let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( program_id, &HyperlaneTokenInstruction::EnrollRemoteRouter(RemoteRouterConfig { domain: REMOTE_DOMAIN, router: Some(H256::random()), }) .encode() .unwrap(), vec![ AccountMeta::new(solana_program::system_program::id(), false), AccountMeta::new(hyperlane_token_accounts.token, false), AccountMeta::new_readonly(payer.pubkey(), false), ], )], Some(&non_owner.pubkey()), &[&non_owner], recent_blockhash, ); let result = banks_client.process_transaction(transaction).await; assert_transaction_error( result, TransactionError::InstructionError(0, InstructionError::MissingRequiredSignature), ); } #[tokio::test] async fn test_set_destination_gas_configs() { let program_id = hyperlane_sealevel_token_native_id(); let (mut banks_client, payer) = setup_client().await; let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, None) .await .unwrap(); // Set the destination gas config let gas = 111222333; set_destination_gas_config( &mut banks_client, &program_id, &payer, &hyperlane_token_accounts.token, REMOTE_DOMAIN, gas, ) .await .unwrap(); // Verify the destination gas was set. let token_account_data = banks_client .get_account(hyperlane_token_accounts.token) .await .unwrap() .unwrap() .data; let token = HyperlaneTokenAccount::::fetch(&mut &token_account_data[..]) .unwrap() .into_inner(); assert_eq!( token.destination_gas, vec![(REMOTE_DOMAIN, gas)].into_iter().collect(), ); } #[tokio::test] async fn test_set_destination_gas_configs_errors_if_not_signed_by_owner() { let program_id = hyperlane_sealevel_token_native_id(); let (mut banks_client, payer) = setup_client().await; let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, None) .await .unwrap(); let non_owner = new_funded_keypair(&mut banks_client, &payer, ONE_SOL_IN_LAMPORTS).await; // Use the non_owner as the payer, which has a balance but is not the owner, // so we expect this to fail. let gas = 111222333; let result = set_destination_gas_config( &mut banks_client, &program_id, &non_owner, &hyperlane_token_accounts.token, REMOTE_DOMAIN, gas, ) .await; assert_transaction_error( result, TransactionError::InstructionError(0, InstructionError::InvalidArgument), ); // Also try using the non_owner as the payer and specifying the correct // owner account, but the owner isn't a signer: let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); // Try setting let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( program_id, &HyperlaneTokenInstruction::SetDestinationGasConfigs(vec![GasRouterConfig { domain: REMOTE_DOMAIN, gas: Some(gas), }]) .encode() .unwrap(), vec![ AccountMeta::new_readonly(solana_program::system_program::id(), false), AccountMeta::new(hyperlane_token_accounts.token, false), AccountMeta::new_readonly(payer.pubkey(), false), ], )], Some(&non_owner.pubkey()), &[&non_owner], recent_blockhash, ); let result = banks_client.process_transaction(transaction).await; assert_transaction_error( result, TransactionError::InstructionError(0, InstructionError::MissingRequiredSignature), ); } #[tokio::test] async fn test_transfer_ownership() { let program_id = hyperlane_sealevel_token_native_id(); let (mut banks_client, payer) = setup_client().await; let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, None) .await .unwrap(); let new_owner = Some(Pubkey::new_unique()); // Transfer ownership let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( program_id, &HyperlaneTokenInstruction::TransferOwnership(new_owner) .encode() .unwrap(), vec![ AccountMeta::new(hyperlane_token_accounts.token, false), AccountMeta::new_readonly(payer.pubkey(), true), ], )], Some(&payer.pubkey()), &[&payer], recent_blockhash, ); banks_client.process_transaction(transaction).await.unwrap(); // Verify the new owner is set let token_account_data = banks_client .get_account(hyperlane_token_accounts.token) .await .unwrap() .unwrap() .data; let token = HyperlaneTokenAccount::::fetch(&mut &token_account_data[..]) .unwrap() .into_inner(); assert_eq!(token.owner, new_owner); } #[tokio::test] async fn test_transfer_ownership_errors_if_owner_not_signer() { let program_id = hyperlane_sealevel_token_native_id(); let (mut banks_client, payer) = setup_client().await; let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, None) .await .unwrap(); let new_owner = Some(Pubkey::new_unique()); let non_owner = new_funded_keypair(&mut banks_client, &payer, ONE_SOL_IN_LAMPORTS).await; // Try transferring ownership using the mint authority key let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( program_id, &HyperlaneTokenInstruction::TransferOwnership(new_owner) .encode() .unwrap(), vec![ AccountMeta::new(hyperlane_token_accounts.token, false), AccountMeta::new_readonly(non_owner.pubkey(), true), ], )], Some(&non_owner.pubkey()), &[&non_owner], recent_blockhash, ); let result = banks_client.process_transaction(transaction).await; assert_transaction_error( result, TransactionError::InstructionError(0, InstructionError::InvalidArgument), ); } #[tokio::test] async fn test_set_interchain_security_module() { let program_id = hyperlane_sealevel_token_native_id(); let (mut banks_client, payer) = setup_client().await; let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, None) .await .unwrap(); let new_ism = Some(Pubkey::new_unique()); // Set the ISM // Transfer ownership let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( program_id, &HyperlaneTokenInstruction::SetInterchainSecurityModule(new_ism) .encode() .unwrap(), vec![ AccountMeta::new(hyperlane_token_accounts.token, false), AccountMeta::new_readonly(payer.pubkey(), true), ], )], Some(&payer.pubkey()), &[&payer], recent_blockhash, ); banks_client.process_transaction(transaction).await.unwrap(); // Verify the new ISM is set let token_account_data = banks_client .get_account(hyperlane_token_accounts.token) .await .unwrap() .unwrap() .data; let token = HyperlaneTokenAccount::::fetch(&mut &token_account_data[..]) .unwrap() .into_inner(); assert_eq!(token.interchain_security_module, new_ism); } #[tokio::test] async fn test_set_interchain_security_module_errors_if_owner_not_signer() { let program_id = hyperlane_sealevel_token_native_id(); let (mut banks_client, payer) = setup_client().await; let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, None) .await .unwrap(); let new_ism = Some(Pubkey::new_unique()); let non_owner = new_funded_keypair(&mut banks_client, &payer, ONE_SOL_IN_LAMPORTS).await; // Try setting the ISM using the non_owner key let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( program_id, &HyperlaneTokenInstruction::SetInterchainSecurityModule(new_ism) .encode() .unwrap(), vec![ AccountMeta::new(hyperlane_token_accounts.token, false), AccountMeta::new_readonly(non_owner.pubkey(), true), ], )], Some(&non_owner.pubkey()), &[&non_owner], recent_blockhash, ); let result = banks_client.process_transaction(transaction).await; assert_transaction_error( result, TransactionError::InstructionError(0, InstructionError::InvalidArgument), ); // Also try using the non_owner as the payer and specifying the correct // owner account, but the owner isn't a signer: let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( program_id, &HyperlaneTokenInstruction::SetInterchainSecurityModule(new_ism) .encode() .unwrap(), vec![ AccountMeta::new(hyperlane_token_accounts.token, false), AccountMeta::new_readonly(payer.pubkey(), false), ], )], Some(&non_owner.pubkey()), &[&non_owner], recent_blockhash, ); let result = banks_client.process_transaction(transaction).await; assert_transaction_error( result, TransactionError::InstructionError(0, InstructionError::MissingRequiredSignature), ); } #[tokio::test] async fn test_set_interchain_gas_paymaster() { let program_id = hyperlane_sealevel_token_native_id(); let (mut banks_client, payer) = setup_client().await; let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, None) .await .unwrap(); let new_igp = Some(( Pubkey::new_unique(), InterchainGasPaymasterType::OverheadIgp(Pubkey::new_unique()), )); // Set the IGP let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( program_id, &HyperlaneTokenInstruction::SetInterchainGasPaymaster(new_igp.clone()) .encode() .unwrap(), vec![ AccountMeta::new(hyperlane_token_accounts.token, false), AccountMeta::new_readonly(payer.pubkey(), true), ], )], Some(&payer.pubkey()), &[&payer], recent_blockhash, ); banks_client.process_transaction(transaction).await.unwrap(); // Verify the new IGP is set let token_account_data = banks_client .get_account(hyperlane_token_accounts.token) .await .unwrap() .unwrap() .data; let token = HyperlaneTokenAccount::::fetch(&mut &token_account_data[..]) .unwrap() .into_inner(); assert_eq!(token.interchain_gas_paymaster, new_igp); } #[tokio::test] async fn test_set_interchain_gas_paymaster_errors_if_owner_not_signer() { let program_id = hyperlane_sealevel_token_native_id(); let (mut banks_client, payer) = setup_client().await; let hyperlane_token_accounts = initialize_hyperlane_token(&program_id, &mut banks_client, &payer, None) .await .unwrap(); let new_igp = Some(( Pubkey::new_unique(), InterchainGasPaymasterType::OverheadIgp(Pubkey::new_unique()), )); let non_owner = new_funded_keypair(&mut banks_client, &payer, ONE_SOL_IN_LAMPORTS).await; // Try setting the ISM using the mint authority key let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( program_id, &HyperlaneTokenInstruction::SetInterchainGasPaymaster(new_igp.clone()) .encode() .unwrap(), vec![ AccountMeta::new(hyperlane_token_accounts.token, false), AccountMeta::new_readonly(non_owner.pubkey(), true), ], )], Some(&non_owner.pubkey()), &[&non_owner], recent_blockhash, ); let result = banks_client.process_transaction(transaction).await; assert_transaction_error( result, TransactionError::InstructionError(0, InstructionError::InvalidArgument), ); // Also try using the non_owner as the payer and specifying the correct // owner account, but the owner isn't a signer: let recent_blockhash = banks_client.get_latest_blockhash().await.unwrap(); let transaction = Transaction::new_signed_with_payer( &[Instruction::new_with_bytes( program_id, &HyperlaneTokenInstruction::SetInterchainGasPaymaster(new_igp) .encode() .unwrap(), vec![ AccountMeta::new(hyperlane_token_accounts.token, false), AccountMeta::new_readonly(payer.pubkey(), false), ], )], Some(&non_owner.pubkey()), &[&non_owner], recent_blockhash, ); let result = banks_client.process_transaction(transaction).await; assert_transaction_error( result, TransactionError::InstructionError(0, InstructionError::MissingRequiredSignature), ); }