#![allow(clippy::arithmetic_side_effects)]
#![cfg(feature = "test-sbf")]
mod helpers;
use {
helpers::*,
solana_program::{
borsh1::try_from_slice_unchecked,
instruction::{AccountMeta, Instruction, InstructionError},
pubkey::Pubkey,
sysvar,
},
solana_program_test::*,
solana_sdk::{
signature::{Keypair, Signer},
transaction::{Transaction, TransactionError},
transport::TransportError,
},
solana_stake_interface as stake,
spl_stake_pool::{error::StakePoolError, id, instruction, state, MINIMUM_RESERVE_LAMPORTS},
spl_token::error as token_error,
test_case::test_case,
};
async fn setup(
token_program_id: Pubkey,
) -> (
ProgramTestContext,
StakePoolAccounts,
ValidatorStakeAccount,
Keypair,
Pubkey,
Pubkey,
u64,
) {
let mut context = program_test().start_with_context().await;
let stake_pool_accounts = StakePoolAccounts::new_with_token_program(token_program_id);
stake_pool_accounts
.initialize_stake_pool(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
MINIMUM_RESERVE_LAMPORTS,
)
.await
.unwrap();
let validator_stake_account = simple_add_validator_to_pool(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&stake_pool_accounts,
None,
)
.await;
let user = Keypair::new();
let deposit_stake = Keypair::new();
let lockup = stake::state::Lockup::default();
let authorized = stake::state::Authorized {
staker: user.pubkey(),
withdrawer: user.pubkey(),
};
let stake_lamports = create_independent_stake_account(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&deposit_stake,
&authorized,
&lockup,
TEST_STAKE_AMOUNT,
)
.await;
delegate_stake_account(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&deposit_stake.pubkey(),
&user,
&validator_stake_account.vote.pubkey(),
)
.await;
let first_normal_slot = context.genesis_config().epoch_schedule.first_normal_slot;
context.warp_to_slot(first_normal_slot + 1).unwrap();
stake_pool_accounts
.update_all(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
false,
)
.await;
let pool_token_account = Keypair::new();
create_token_account(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&stake_pool_accounts.token_program_id,
&pool_token_account,
&stake_pool_accounts.pool_mint.pubkey(),
&user,
&[],
)
.await
.unwrap();
(
context,
stake_pool_accounts,
validator_stake_account,
user,
deposit_stake.pubkey(),
pool_token_account.pubkey(),
stake_lamports,
)
}
#[test_case(spl_token::id(); "token")]
#[test_case(spl_token_2022::id(); "token-2022")]
#[tokio::test]
async fn success(token_program_id: Pubkey) {
let (
mut context,
stake_pool_accounts,
validator_stake_account,
user,
deposit_stake,
pool_token_account,
stake_lamports,
) = setup(token_program_id).await;
let rent = context.banks_client.get_rent().await.unwrap();
let stake_rent = rent.minimum_balance(std::mem::size_of::<stake::state::StakeStateV2>());
let pre_stake_pool = get_account(
&mut context.banks_client,
&stake_pool_accounts.stake_pool.pubkey(),
)
.await;
let pre_stake_pool =
try_from_slice_unchecked::<state::StakePool>(pre_stake_pool.data.as_slice()).unwrap();
let validator_list = get_account(
&mut context.banks_client,
&stake_pool_accounts.validator_list.pubkey(),
)
.await;
let validator_list =
try_from_slice_unchecked::<state::ValidatorList>(validator_list.data.as_slice()).unwrap();
let pre_validator_stake_item = validator_list
.find(&validator_stake_account.vote.pubkey())
.unwrap();
let pre_reserve_lamports = get_account(
&mut context.banks_client,
&stake_pool_accounts.reserve_stake.pubkey(),
)
.await
.lamports;
let error = stake_pool_accounts
.deposit_stake(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&deposit_stake,
&pool_token_account,
&validator_stake_account.stake_account,
&user,
)
.await;
assert!(error.is_none(), "{:?}", error);
assert!(context
.banks_client
.get_account(deposit_stake)
.await
.expect("get_account")
.is_none());
let tokens_issued = stake_lamports;
let post_stake_pool = get_account(
&mut context.banks_client,
&stake_pool_accounts.stake_pool.pubkey(),
)
.await;
let post_stake_pool =
try_from_slice_unchecked::<state::StakePool>(post_stake_pool.data.as_slice()).unwrap();
assert_eq!(
post_stake_pool.total_lamports,
pre_stake_pool.total_lamports + stake_lamports
);
assert_eq!(
post_stake_pool.pool_token_supply,
pre_stake_pool.pool_token_supply + tokens_issued
);
let user_token_balance =
get_token_balance(&mut context.banks_client, &pool_token_account).await;
let tokens_issued_user = tokens_issued
- post_stake_pool
.calc_pool_tokens_sol_deposit_fee(stake_rent)
.unwrap()
- post_stake_pool
.calc_pool_tokens_stake_deposit_fee(stake_lamports - stake_rent)
.unwrap();
assert_eq!(user_token_balance, tokens_issued_user);
let validator_list = get_account(
&mut context.banks_client,
&stake_pool_accounts.validator_list.pubkey(),
)
.await;
let validator_list =
try_from_slice_unchecked::<state::ValidatorList>(validator_list.data.as_slice()).unwrap();
let post_validator_stake_item = validator_list
.find(&validator_stake_account.vote.pubkey())
.unwrap();
assert_eq!(
post_validator_stake_item.stake_lamports().unwrap(),
pre_validator_stake_item.stake_lamports().unwrap() + stake_lamports - stake_rent,
);
let validator_stake_account = get_account(
&mut context.banks_client,
&validator_stake_account.stake_account,
)
.await;
assert_eq!(
validator_stake_account.lamports,
post_validator_stake_item.stake_lamports().unwrap()
);
assert_eq!(
u64::from(post_validator_stake_item.transient_stake_lamports),
0
);
let post_reserve_lamports = get_account(
&mut context.banks_client,
&stake_pool_accounts.reserve_stake.pubkey(),
)
.await
.lamports;
assert_eq!(post_reserve_lamports, pre_reserve_lamports + stake_rent);
}
#[tokio::test]
async fn success_with_extra_stake_lamports() {
let (
mut context,
stake_pool_accounts,
validator_stake_account,
user,
deposit_stake,
pool_token_account,
stake_lamports,
) = setup(spl_token::id()).await;
let extra_lamports = TEST_STAKE_AMOUNT * 3 + 1;
transfer(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&deposit_stake,
extra_lamports,
)
.await;
let referrer = Keypair::new();
let referrer_token_account = Keypair::new();
create_token_account(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&stake_pool_accounts.token_program_id,
&referrer_token_account,
&stake_pool_accounts.pool_mint.pubkey(),
&referrer,
&[],
)
.await
.unwrap();
let referrer_balance_pre =
get_token_balance(&mut context.banks_client, &referrer_token_account.pubkey()).await;
let manager_pool_balance_pre = get_token_balance(
&mut context.banks_client,
&stake_pool_accounts.pool_fee_account.pubkey(),
)
.await;
let rent = context.banks_client.get_rent().await.unwrap();
let stake_rent = rent.minimum_balance(std::mem::size_of::<stake::state::StakeStateV2>());
let pre_stake_pool = get_account(
&mut context.banks_client,
&stake_pool_accounts.stake_pool.pubkey(),
)
.await;
let pre_stake_pool =
try_from_slice_unchecked::<state::StakePool>(pre_stake_pool.data.as_slice()).unwrap();
let validator_list = get_account(
&mut context.banks_client,
&stake_pool_accounts.validator_list.pubkey(),
)
.await;
let validator_list =
try_from_slice_unchecked::<state::ValidatorList>(validator_list.data.as_slice()).unwrap();
let pre_validator_stake_item = validator_list
.find(&validator_stake_account.vote.pubkey())
.unwrap();
let pre_reserve_lamports = get_account(
&mut context.banks_client,
&stake_pool_accounts.reserve_stake.pubkey(),
)
.await
.lamports;
let error = stake_pool_accounts
.deposit_stake_with_referral(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&deposit_stake,
&pool_token_account,
&validator_stake_account.stake_account,
&user,
&referrer_token_account.pubkey(),
)
.await;
assert!(error.is_none(), "{:?}", error);
assert!(context
.banks_client
.get_account(deposit_stake)
.await
.expect("get_account")
.is_none());
let tokens_issued = stake_lamports + extra_lamports;
let post_stake_pool = get_account(
&mut context.banks_client,
&stake_pool_accounts.stake_pool.pubkey(),
)
.await;
let post_stake_pool =
try_from_slice_unchecked::<state::StakePool>(post_stake_pool.data.as_slice()).unwrap();
assert_eq!(
post_stake_pool.total_lamports,
pre_stake_pool.total_lamports + extra_lamports + stake_lamports
);
assert_eq!(
post_stake_pool.pool_token_supply,
pre_stake_pool.pool_token_supply + tokens_issued
);
let user_token_balance =
get_token_balance(&mut context.banks_client, &pool_token_account).await;
let fee_tokens = post_stake_pool
.calc_pool_tokens_sol_deposit_fee(extra_lamports + stake_rent)
.unwrap()
+ post_stake_pool
.calc_pool_tokens_stake_deposit_fee(stake_lamports - stake_rent)
.unwrap();
let tokens_issued_user = tokens_issued - fee_tokens;
assert_eq!(user_token_balance, tokens_issued_user);
let referrer_balance_post =
get_token_balance(&mut context.banks_client, &referrer_token_account.pubkey()).await;
let referral_fee = stake_pool_accounts.calculate_referral_fee(fee_tokens);
let manager_fee = fee_tokens - referral_fee;
assert_eq!(referrer_balance_post - referrer_balance_pre, referral_fee);
let manager_pool_balance_post = get_token_balance(
&mut context.banks_client,
&stake_pool_accounts.pool_fee_account.pubkey(),
)
.await;
assert_eq!(
manager_pool_balance_post - manager_pool_balance_pre,
manager_fee
);
let validator_list = get_account(
&mut context.banks_client,
&stake_pool_accounts.validator_list.pubkey(),
)
.await;
let validator_list =
try_from_slice_unchecked::<state::ValidatorList>(validator_list.data.as_slice()).unwrap();
let post_validator_stake_item = validator_list
.find(&validator_stake_account.vote.pubkey())
.unwrap();
assert_eq!(
post_validator_stake_item.stake_lamports().unwrap(),
pre_validator_stake_item.stake_lamports().unwrap() + stake_lamports - stake_rent,
);
let validator_stake_account = get_account(
&mut context.banks_client,
&validator_stake_account.stake_account,
)
.await;
assert_eq!(
validator_stake_account.lamports,
post_validator_stake_item.stake_lamports().unwrap()
);
assert_eq!(
u64::from(post_validator_stake_item.transient_stake_lamports),
0
);
let post_reserve_lamports = get_account(
&mut context.banks_client,
&stake_pool_accounts.reserve_stake.pubkey(),
)
.await
.lamports;
assert_eq!(
post_reserve_lamports,
pre_reserve_lamports + stake_rent + extra_lamports
);
}
#[tokio::test]
async fn fail_with_wrong_stake_program_id() {
let (
context,
stake_pool_accounts,
validator_stake_account,
_user,
deposit_stake,
pool_token_account,
_stake_lamports,
) = setup(spl_token::id()).await;
let wrong_stake_program = Pubkey::new_unique();
let accounts = vec![
AccountMeta::new(stake_pool_accounts.stake_pool.pubkey(), false),
AccountMeta::new(stake_pool_accounts.validator_list.pubkey(), false),
AccountMeta::new_readonly(stake_pool_accounts.stake_deposit_authority, false),
AccountMeta::new_readonly(stake_pool_accounts.withdraw_authority, false),
AccountMeta::new(deposit_stake, false),
AccountMeta::new(validator_stake_account.stake_account, false),
AccountMeta::new(stake_pool_accounts.reserve_stake.pubkey(), false),
AccountMeta::new(pool_token_account, false),
AccountMeta::new(stake_pool_accounts.pool_fee_account.pubkey(), false),
AccountMeta::new(stake_pool_accounts.pool_fee_account.pubkey(), false),
AccountMeta::new(stake_pool_accounts.pool_mint.pubkey(), false),
AccountMeta::new_readonly(sysvar::clock::id(), false),
AccountMeta::new_readonly(sysvar::rent::id(), false),
AccountMeta::new_readonly(sysvar::stake_history::id(), false),
AccountMeta::new_readonly(spl_token::id(), false),
AccountMeta::new_readonly(wrong_stake_program, false),
];
let instruction = Instruction {
program_id: id(),
accounts,
data: borsh::to_vec(&instruction::StakePoolInstruction::DepositStake).unwrap(),
};
let mut transaction =
Transaction::new_with_payer(&[instruction], Some(&context.payer.pubkey()));
transaction.sign(&[&context.payer], context.last_blockhash);
let transaction_error = context
.banks_client
.process_transaction(transaction)
.await
.err()
.unwrap()
.into();
match transaction_error {
TransportError::TransactionError(TransactionError::InstructionError(_, error)) => {
assert_eq!(error, InstructionError::IncorrectProgramId);
}
_ => panic!("Wrong error occurs while try to make a deposit with wrong stake program ID"),
}
}
#[tokio::test]
async fn fail_with_wrong_token_program_id() {
let (
context,
stake_pool_accounts,
validator_stake_account,
user,
deposit_stake,
pool_token_account,
_stake_lamports,
) = setup(spl_token::id()).await;
let wrong_token_program = Keypair::new();
let mut transaction = Transaction::new_with_payer(
&instruction::deposit_stake(
&id(),
&stake_pool_accounts.stake_pool.pubkey(),
&stake_pool_accounts.validator_list.pubkey(),
&stake_pool_accounts.withdraw_authority,
&deposit_stake,
&user.pubkey(),
&validator_stake_account.stake_account,
&stake_pool_accounts.reserve_stake.pubkey(),
&pool_token_account,
&stake_pool_accounts.pool_fee_account.pubkey(),
&stake_pool_accounts.pool_fee_account.pubkey(),
&stake_pool_accounts.pool_mint.pubkey(),
&wrong_token_program.pubkey(),
),
Some(&context.payer.pubkey()),
);
transaction.sign(&[&context.payer, &user], context.last_blockhash);
let transaction_error = context
.banks_client
.process_transaction(transaction)
.await
.err()
.unwrap()
.into();
match transaction_error {
TransportError::TransactionError(TransactionError::InstructionError(_, error)) => {
assert_eq!(error, InstructionError::IncorrectProgramId);
}
_ => panic!("Wrong error occurs while try to make a deposit with wrong token program ID"),
}
}
#[tokio::test]
async fn fail_with_wrong_validator_list_account() {
let (
mut context,
mut stake_pool_accounts,
validator_stake_account,
user,
deposit_stake,
pool_token_account,
_stake_lamports,
) = setup(spl_token::id()).await;
let wrong_validator_list = Keypair::new();
stake_pool_accounts.validator_list = wrong_validator_list;
let transaction_error = stake_pool_accounts
.deposit_stake(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&deposit_stake,
&pool_token_account,
&validator_stake_account.stake_account,
&user,
)
.await
.unwrap()
.unwrap();
match transaction_error {
TransactionError::InstructionError(
_,
InstructionError::Custom(error_index),
) => {
let program_error = StakePoolError::InvalidValidatorStakeList as u32;
assert_eq!(error_index, program_error);
}
_ => panic!("Wrong error occurs while try to make a deposit with wrong validator stake list account"),
}
}
#[tokio::test]
async fn fail_with_unknown_validator() {
let (mut banks_client, payer, recent_blockhash) = program_test().start().await;
let stake_pool_accounts = StakePoolAccounts::default();
stake_pool_accounts
.initialize_stake_pool(
&mut banks_client,
&payer,
&recent_blockhash,
MINIMUM_RESERVE_LAMPORTS,
)
.await
.unwrap();
let unknown_stake = create_unknown_validator_stake(
&mut banks_client,
&payer,
&recent_blockhash,
&stake_pool_accounts.stake_pool.pubkey(),
0,
)
.await;
let user = Keypair::new();
let user_pool_account = Keypair::new();
create_token_account(
&mut banks_client,
&payer,
&recent_blockhash,
&stake_pool_accounts.token_program_id,
&user_pool_account,
&stake_pool_accounts.pool_mint.pubkey(),
&user,
&[],
)
.await
.unwrap();
let user_stake = Keypair::new();
let lockup = stake::state::Lockup::default();
let authorized = stake::state::Authorized {
staker: user.pubkey(),
withdrawer: user.pubkey(),
};
create_independent_stake_account(
&mut banks_client,
&payer,
&recent_blockhash,
&user_stake,
&authorized,
&lockup,
TEST_STAKE_AMOUNT,
)
.await;
delegate_stake_account(
&mut banks_client,
&payer,
&recent_blockhash,
&user_stake.pubkey(),
&user,
&unknown_stake.vote.pubkey(),
)
.await;
let error = stake_pool_accounts
.deposit_stake(
&mut banks_client,
&payer,
&recent_blockhash,
&user_stake.pubkey(),
&user_pool_account.pubkey(),
&unknown_stake.stake_account,
&user,
)
.await
.unwrap()
.unwrap();
assert_eq!(
error,
TransactionError::InstructionError(
2,
InstructionError::Custom(StakePoolError::ValidatorNotFound as u32)
)
);
}
#[tokio::test]
async fn fail_with_wrong_withdraw_authority() {
let (
mut context,
mut stake_pool_accounts,
validator_stake_account,
user,
deposit_stake,
pool_token_account,
_stake_lamports,
) = setup(spl_token::id()).await;
stake_pool_accounts.withdraw_authority = Pubkey::new_unique();
let transaction_error = stake_pool_accounts
.deposit_stake(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&deposit_stake,
&pool_token_account,
&validator_stake_account.stake_account,
&user,
)
.await
.unwrap()
.unwrap();
match transaction_error {
TransactionError::InstructionError(_, InstructionError::Custom(error_index)) => {
let program_error = StakePoolError::InvalidProgramAddress as u32;
assert_eq!(error_index, program_error);
}
_ => panic!("Wrong error occurs while try to make a deposit with wrong withdraw authority"),
}
}
#[tokio::test]
async fn fail_with_wrong_mint_for_receiver_acc() {
let (
mut context,
stake_pool_accounts,
validator_stake_account,
user,
deposit_stake,
_pool_token_account,
_stake_lamports,
) = setup(spl_token::id()).await;
let outside_mint = Keypair::new();
let outside_withdraw_auth = Keypair::new();
let outside_manager = Keypair::new();
let outside_pool_fee_acc = Keypair::new();
create_mint(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&stake_pool_accounts.token_program_id,
&outside_mint,
&outside_withdraw_auth.pubkey(),
0,
&[],
)
.await
.unwrap();
create_token_account(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&stake_pool_accounts.token_program_id,
&outside_pool_fee_acc,
&outside_mint.pubkey(),
&outside_manager,
&[],
)
.await
.unwrap();
let transaction_error = stake_pool_accounts
.deposit_stake(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&deposit_stake,
&outside_pool_fee_acc.pubkey(),
&validator_stake_account.stake_account,
&user,
)
.await
.unwrap()
.unwrap();
match transaction_error {
TransactionError::InstructionError(_, InstructionError::Custom(error_index)) => {
let program_error = token_error::TokenError::MintMismatch as u32;
assert_eq!(error_index, program_error);
}
_ => {
panic!("Wrong error occurs while try to deposit with wrong mint from receiver account")
}
}
}
#[test_case(spl_token::id(); "token")]
#[test_case(spl_token_2022::id(); "token-2022")]
#[tokio::test]
async fn success_with_slippage(token_program_id: Pubkey) {
let (
mut context,
stake_pool_accounts,
validator_stake_account,
user,
deposit_stake,
pool_token_account,
stake_lamports,
) = setup(token_program_id).await;
let rent = context.banks_client.get_rent().await.unwrap();
let stake_rent = rent.minimum_balance(std::mem::size_of::<stake::state::StakeStateV2>());
let pre_stake_pool = get_account(
&mut context.banks_client,
&stake_pool_accounts.stake_pool.pubkey(),
)
.await;
let pre_stake_pool =
try_from_slice_unchecked::<state::StakePool>(pre_stake_pool.data.as_slice()).unwrap();
let tokens_issued = stake_lamports; let tokens_issued_user = tokens_issued
- pre_stake_pool
.calc_pool_tokens_sol_deposit_fee(stake_rent)
.unwrap()
- pre_stake_pool
.calc_pool_tokens_stake_deposit_fee(stake_lamports - stake_rent)
.unwrap();
let error = stake_pool_accounts
.deposit_stake_with_slippage(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&deposit_stake,
&pool_token_account,
&validator_stake_account.stake_account,
&user,
tokens_issued_user + 1,
)
.await
.unwrap()
.unwrap();
assert_eq!(
error,
TransactionError::InstructionError(
2,
InstructionError::Custom(StakePoolError::ExceededSlippage as u32)
)
);
let error = stake_pool_accounts
.deposit_stake_with_slippage(
&mut context.banks_client,
&context.payer,
&context.last_blockhash,
&deposit_stake,
&pool_token_account,
&validator_stake_account.stake_account,
&user,
tokens_issued_user,
)
.await;
assert!(error.is_none(), "{:?}", error);
assert!(context
.banks_client
.get_account(deposit_stake)
.await
.expect("get_account")
.is_none());
let post_stake_pool = get_account(
&mut context.banks_client,
&stake_pool_accounts.stake_pool.pubkey(),
)
.await;
let post_stake_pool =
try_from_slice_unchecked::<state::StakePool>(post_stake_pool.data.as_slice()).unwrap();
assert_eq!(
post_stake_pool.total_lamports,
pre_stake_pool.total_lamports + stake_lamports
);
assert_eq!(
post_stake_pool.pool_token_supply,
pre_stake_pool.pool_token_supply + tokens_issued
);
let user_token_balance =
get_token_balance(&mut context.banks_client, &pool_token_account).await;
assert_eq!(user_token_balance, tokens_issued_user);
}