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solana
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solana/programs/bpf/tests/programs.rs

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Rust
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#[cfg(any(feature = "bpf_c", feature = "bpf_rust"))]
mod bpf {
use solana_bpf_loader_program::solana_bpf_loader_program;
use solana_runtime::{
bank::Bank,
bank_client::BankClient,
genesis_utils::{create_genesis_config, GenesisConfigInfo},
loader_utils::load_program,
};
use solana_sdk::{
account::Account,
bpf_loader,
client::SyncClient,
clock::DEFAULT_SLOTS_PER_EPOCH,
instruction::{AccountMeta, Instruction, InstructionError},
message::Message,
pubkey::Pubkey,
signature::Keypair,
signature::Signer,
sysvar::{clock, fees, rent, rewards, slot_hashes, stake_history},
transaction::TransactionError,
};
use std::{env, fs::File, io::Read, path::PathBuf, sync::Arc};
/// BPF program file extension
const PLATFORM_FILE_EXTENSION_BPF: &str = "so";
/// Create a BPF program file name
fn create_bpf_path(name: &str) -> PathBuf {
let mut pathbuf = {
let current_exe = env::current_exe().unwrap();
PathBuf::from(current_exe.parent().unwrap().parent().unwrap())
};
pathbuf.push("bpf/");
pathbuf.push(name);
pathbuf.set_extension(PLATFORM_FILE_EXTENSION_BPF);
pathbuf
}
fn load_bpf_program(bank_client: &BankClient, payer_keypair: &Keypair, name: &str) -> Pubkey {
let path = create_bpf_path(name);
println!("path {:?}", path);
let mut file = File::open(path).unwrap();
let mut elf = Vec::new();
file.read_to_end(&mut elf).unwrap();
load_program(bank_client, payer_keypair, &bpf_loader::id(), elf)
}
#[test]
#[cfg(any(feature = "bpf_c", feature = "bpf_rust"))]
fn test_program_bpf_sanity() {
solana_logger::setup();
let mut programs = Vec::new();
#[cfg(feature = "bpf_c")]
{
programs.extend_from_slice(&[
("bpf_to_bpf", true),
("multiple_static", true),
("noop", true),
("noop++", true),
("panic", false),
("relative_call", true),
("struct_pass", true),
("struct_ret", true),
]);
}
#[cfg(feature = "bpf_rust")]
{
programs.extend_from_slice(&[
("solana_bpf_rust_128bit", true),
("solana_bpf_rust_alloc", true),
("solana_bpf_rust_dep_crate", true),
("solana_bpf_rust_external_spend", false),
("solana_bpf_rust_iter", true),
("solana_bpf_rust_many_args", true),
("solana_bpf_rust_noop", true),
("solana_bpf_rust_panic", false),
("solana_bpf_rust_param_passing", true),
("solana_bpf_rust_sysval", true),
]);
}
for program in programs.iter() {
println!("Test program: {:?}", program.0);
let GenesisConfigInfo {
mut genesis_config,
mint_keypair,
..
} = create_genesis_config(50);
genesis_config
.native_instruction_processors
.push(solana_bpf_loader_program!());
let bank = Arc::new(Bank::new(&genesis_config));
// Create bank with a specific slot, used by solana_bpf_rust_sysvar test
let bank =
Bank::new_from_parent(&bank, &Pubkey::default(), DEFAULT_SLOTS_PER_EPOCH + 1);
let bank_client = BankClient::new(bank);
// Call user program
let program_id = load_bpf_program(&bank_client, &mint_keypair, program.0);
let account_metas = vec![
AccountMeta::new(mint_keypair.pubkey(), true),
AccountMeta::new(Keypair::new().pubkey(), false),
AccountMeta::new(clock::id(), false),
AccountMeta::new(fees::id(), false),
AccountMeta::new(rewards::id(), false),
AccountMeta::new(slot_hashes::id(), false),
AccountMeta::new(stake_history::id(), false),
AccountMeta::new(rent::id(), false),
];
let instruction = Instruction::new(program_id, &1u8, account_metas);
let result = bank_client.send_instruction(&mint_keypair, instruction);
if program.1 {
assert!(result.is_ok());
} else {
assert!(result.is_err());
}
}
}
#[test]
fn test_program_bpf_duplicate_accounts() {
solana_logger::setup();
let mut programs = Vec::new();
#[cfg(feature = "bpf_c")]
{
programs.extend_from_slice(&[("dup_accounts")]);
}
#[cfg(feature = "bpf_rust")]
{
programs.extend_from_slice(&[("solana_bpf_rust_dup_accounts")]);
}
for program in programs.iter() {
println!("Test program: {:?}", program);
let GenesisConfigInfo {
mut genesis_config,
mint_keypair,
..
} = create_genesis_config(50);
genesis_config
.native_instruction_processors
.push(solana_bpf_loader_program!());
let bank = Arc::new(Bank::new(&genesis_config));
let bank_client = BankClient::new_shared(&bank);
let program_id = load_bpf_program(&bank_client, &mint_keypair, program);
let payee_account = Account::new(10, 1, &program_id);
let payee_pubkey = Pubkey::new_rand();
bank.store_account(&payee_pubkey, &payee_account);
let account = Account::new(10, 1, &program_id);
let pubkey = Pubkey::new_rand();
let account_metas = vec![
AccountMeta::new(mint_keypair.pubkey(), true),
AccountMeta::new(payee_pubkey, false),
AccountMeta::new(pubkey, false),
AccountMeta::new(pubkey, false),
];
bank.store_account(&pubkey, &account);
let instruction = Instruction::new(program_id, &1u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
let data = bank_client.get_account_data(&pubkey).unwrap().unwrap();
assert!(result.is_ok());
assert_eq!(data[0], 1);
bank.store_account(&pubkey, &account);
let instruction = Instruction::new(program_id, &2u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
let data = bank_client.get_account_data(&pubkey).unwrap().unwrap();
assert!(result.is_ok());
assert_eq!(data[0], 2);
bank.store_account(&pubkey, &account);
let instruction = Instruction::new(program_id, &3u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
let data = bank_client.get_account_data(&pubkey).unwrap().unwrap();
assert!(result.is_ok());
assert_eq!(data[0], 3);
bank.store_account(&pubkey, &account);
let instruction = Instruction::new(program_id, &4u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
let lamports = bank_client.get_balance(&pubkey).unwrap();
assert!(result.is_ok());
assert_eq!(lamports, 11);
bank.store_account(&pubkey, &account);
let instruction = Instruction::new(program_id, &5u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
let lamports = bank_client.get_balance(&pubkey).unwrap();
assert!(result.is_ok());
assert_eq!(lamports, 12);
bank.store_account(&pubkey, &account);
let instruction = Instruction::new(program_id, &6u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
let lamports = bank_client.get_balance(&pubkey).unwrap();
assert!(result.is_ok());
assert_eq!(lamports, 13);
}
}
#[test]
fn test_program_bpf_error_handling() {
solana_logger::setup();
let mut programs = Vec::new();
#[cfg(feature = "bpf_c")]
{
programs.extend_from_slice(&[("error_handling")]);
}
#[cfg(feature = "bpf_rust")]
{
programs.extend_from_slice(&[("solana_bpf_rust_error_handling")]);
}
for program in programs.iter() {
println!("Test program: {:?}", program);
let GenesisConfigInfo {
mut genesis_config,
mint_keypair,
..
} = create_genesis_config(50);
genesis_config
.native_instruction_processors
.push(solana_bpf_loader_program!());
let bank = Bank::new(&genesis_config);
let bank_client = BankClient::new(bank);
let program_id = load_bpf_program(&bank_client, &mint_keypair, program);
let account_metas = vec![AccountMeta::new(mint_keypair.pubkey(), true)];
let instruction = Instruction::new(program_id, &1u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
assert!(result.is_ok());
let instruction = Instruction::new(program_id, &2u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
assert_eq!(
result.unwrap_err().unwrap(),
TransactionError::InstructionError(0, InstructionError::InvalidAccountData)
);
let instruction = Instruction::new(program_id, &3u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
assert_eq!(
result.unwrap_err().unwrap(),
TransactionError::InstructionError(0, InstructionError::Custom(0))
);
let instruction = Instruction::new(program_id, &4u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
assert_eq!(
result.unwrap_err().unwrap(),
TransactionError::InstructionError(0, InstructionError::Custom(42))
);
let instruction = Instruction::new(program_id, &5u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
let result = result.unwrap_err().unwrap();
if TransactionError::InstructionError(0, InstructionError::InvalidInstructionData)
!= result
{
assert_eq!(
result,
TransactionError::InstructionError(0, InstructionError::InvalidError)
);
}
let instruction = Instruction::new(program_id, &6u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
let result = result.unwrap_err().unwrap();
if TransactionError::InstructionError(0, InstructionError::InvalidInstructionData)
!= result
{
assert_eq!(
result,
TransactionError::InstructionError(0, InstructionError::InvalidError)
);
}
let instruction = Instruction::new(program_id, &7u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
let result = result.unwrap_err().unwrap();
if TransactionError::InstructionError(0, InstructionError::InvalidInstructionData)
!= result
{
assert_eq!(
result,
TransactionError::InstructionError(0, InstructionError::AccountBorrowFailed)
);
}
let instruction = Instruction::new(program_id, &8u8, account_metas.clone());
let result = bank_client.send_instruction(&mint_keypair, instruction);
assert_eq!(
result.unwrap_err().unwrap(),
TransactionError::InstructionError(0, InstructionError::InvalidInstructionData)
);
}
}
#[test]
fn test_program_bpf_invoke() {
solana_logger::setup();
const TEST_SUCCESS: u8 = 1;
const TEST_PRIVILEGE_ESCALATION_SIGNER: u8 = 2;
const TEST_PRIVILEGE_ESCALATION_WRITABLE: u8 = 3;
let mut programs = Vec::new();
#[cfg(feature = "bpf_c")]
{
programs.extend_from_slice(&[("invoke", "invoked")]);
}
#[cfg(feature = "bpf_rust")]
{
programs.extend_from_slice(&[("solana_bpf_rust_invoke", "solana_bpf_rust_invoked")]);
}
for program in programs.iter() {
println!("Test program: {:?}", program);
let GenesisConfigInfo {
mut genesis_config,
mint_keypair,
..
} = create_genesis_config(50);
genesis_config
.native_instruction_processors
.push(solana_bpf_loader_program!());
let bank = Arc::new(Bank::new(&genesis_config));
let bank_client = BankClient::new_shared(&bank);
let invoke_program_id = load_bpf_program(&bank_client, &mint_keypair, program.0);
let invoked_program_id = load_bpf_program(&bank_client, &mint_keypair, program.1);
let argument_keypair = Keypair::new();
let account = Account::new(41, 100, &invoke_program_id);
bank.store_account(&argument_keypair.pubkey(), &account);
let invoked_argument_keypair = Keypair::new();
let account = Account::new(10, 10, &invoked_program_id);
bank.store_account(&invoked_argument_keypair.pubkey(), &account);
let from_keypair = Keypair::new();
let account = Account::new(43, 0, &solana_sdk::system_program::id());
bank.store_account(&from_keypair.pubkey(), &account);
let derived_key1 =
Pubkey::create_program_address(&["You pass butter"], &invoke_program_id).unwrap();
let derived_key2 =
Pubkey::create_program_address(&["Lil'", "Bits"], &invoked_program_id).unwrap();
let derived_key3 =
Pubkey::create_program_address(&["Gar Ma Nar Nar"], &invoked_program_id).unwrap();
let account_metas = vec![
AccountMeta::new(mint_keypair.pubkey(), true),
AccountMeta::new(argument_keypair.pubkey(), true),
AccountMeta::new_readonly(invoked_program_id, false),
AccountMeta::new(invoked_argument_keypair.pubkey(), true),
AccountMeta::new_readonly(invoked_program_id, false),
AccountMeta::new(argument_keypair.pubkey(), true),
AccountMeta::new(derived_key1, false),
AccountMeta::new(derived_key2, false),
AccountMeta::new_readonly(derived_key3, false),
AccountMeta::new_readonly(solana_sdk::system_program::id(), false),
AccountMeta::new(from_keypair.pubkey(), true),
];
// success cases
let instruction =
Instruction::new(invoke_program_id, &TEST_SUCCESS, account_metas.clone());
let message = Message::new(&[instruction]);
assert!(bank_client
.send_message(
&[
&mint_keypair,
&argument_keypair,
&invoked_argument_keypair,
&from_keypair
],
message,
)
.is_ok());
// failure cases
let instruction = Instruction::new(
invoke_program_id,
&TEST_PRIVILEGE_ESCALATION_SIGNER,
account_metas.clone(),
);
let message = Message::new(&[instruction]);
assert_eq!(
bank_client
.send_message(
&[
&mint_keypair,
&argument_keypair,
&invoked_argument_keypair,
&from_keypair
],
message,
)
.unwrap_err()
.unwrap(),
TransactionError::InstructionError(0, InstructionError::Custom(194969602))
);
let instruction = Instruction::new(
invoke_program_id,
&TEST_PRIVILEGE_ESCALATION_WRITABLE,
account_metas.clone(),
);
let message = Message::new(&[instruction]);
assert_eq!(
bank_client
.send_message(
&[
&mint_keypair,
&argument_keypair,
&invoked_argument_keypair,
&from_keypair
],
message,
)
.unwrap_err()
.unwrap(),
TransactionError::InstructionError(0, InstructionError::Custom(194969602))
);
}
}
}
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