use {
crate::{bank::Bank, block_cost_limits::*},
log::*,
solana_program_runtime::compute_budget::{
ComputeBudget, DEFAULT_INSTRUCTION_COMPUTE_UNIT_LIMIT,
},
solana_sdk::{
compute_budget,
feature_set::{
cap_transaction_accounts_data_size, remove_deprecated_request_unit_ix,
use_default_units_in_fee_calculation, FeatureSet,
},
instruction::CompiledInstruction,
program_utils::limited_deserialize,
pubkey::Pubkey,
system_instruction::SystemInstruction,
system_program,
transaction::SanitizedTransaction,
},
};
const MAX_WRITABLE_ACCOUNTS: usize = 256;
#[derive(Debug)]
pub struct TransactionCost {
pub writable_accounts: Vec<Pubkey>,
pub signature_cost: u64,
pub write_lock_cost: u64,
pub data_bytes_cost: u64,
pub builtins_execution_cost: u64,
pub bpf_execution_cost: u64,
pub account_data_size: u64,
pub is_simple_vote: bool,
}
impl Default for TransactionCost {
fn default() -> Self {
Self {
writable_accounts: Vec::with_capacity(MAX_WRITABLE_ACCOUNTS),
signature_cost: 0u64,
write_lock_cost: 0u64,
data_bytes_cost: 0u64,
builtins_execution_cost: 0u64,
bpf_execution_cost: 0u64,
account_data_size: 0u64,
is_simple_vote: false,
}
}
}
impl TransactionCost {
pub fn new_with_capacity(capacity: usize) -> Self {
Self {
writable_accounts: Vec::with_capacity(capacity),
..Self::default()
}
}
pub fn reset(&mut self) {
self.writable_accounts.clear();
self.signature_cost = 0;
self.write_lock_cost = 0;
self.data_bytes_cost = 0;
self.builtins_execution_cost = 0;
self.bpf_execution_cost = 0;
self.is_simple_vote = false;
}
pub fn sum(&self) -> u64 {
self.sum_without_bpf()
.saturating_add(self.bpf_execution_cost)
}
pub fn sum_without_bpf(&self) -> u64 {
self.signature_cost
.saturating_add(self.write_lock_cost)
.saturating_add(self.data_bytes_cost)
.saturating_add(self.builtins_execution_cost)
}
}
pub struct CostModel;
impl CostModel {
pub fn calculate_cost(
transaction: &SanitizedTransaction,
feature_set: &FeatureSet,
) -> TransactionCost {
let mut tx_cost = TransactionCost::new_with_capacity(MAX_WRITABLE_ACCOUNTS);
tx_cost.signature_cost = Self::get_signature_cost(transaction);
Self::get_write_lock_cost(&mut tx_cost, transaction);
Self::get_transaction_cost(&mut tx_cost, transaction, feature_set);
tx_cost.account_data_size = Self::calculate_account_data_size(transaction);
tx_cost.is_simple_vote = transaction.is_simple_vote_transaction();
debug!("transaction {:?} has cost {:?}", transaction, tx_cost);
tx_cost
}
fn get_signature_cost(transaction: &SanitizedTransaction) -> u64 {
transaction.signatures().len() as u64 * SIGNATURE_COST
}
fn get_write_lock_cost(tx_cost: &mut TransactionCost, transaction: &SanitizedTransaction) {
let message = transaction.message();
message
.account_keys()
.iter()
.enumerate()
.for_each(|(i, k)| {
let is_writable = message.is_writable(i);
if is_writable {
tx_cost.writable_accounts.push(*k);
tx_cost.write_lock_cost += WRITE_LOCK_UNITS;
}
});
}
fn get_transaction_cost(
tx_cost: &mut TransactionCost,
transaction: &SanitizedTransaction,
feature_set: &FeatureSet,
) {
let mut builtin_costs = 0u64;
let mut bpf_costs = 0u64;
let mut data_bytes_len_total = 0u64;
for (program_id, instruction) in transaction.message().program_instructions_iter() {
if let Some(builtin_cost) = BUILT_IN_INSTRUCTION_COSTS.get(program_id) {
builtin_costs = builtin_costs.saturating_add(*builtin_cost);
} else if !compute_budget::check_id(program_id) {
bpf_costs = bpf_costs.saturating_add(DEFAULT_INSTRUCTION_COMPUTE_UNIT_LIMIT.into());
}
data_bytes_len_total =
data_bytes_len_total.saturating_add(instruction.data.len() as u64);
}
let mut budget = ComputeBudget::default();
let result = budget.process_instructions(
transaction.message().program_instructions_iter(),
feature_set.is_active(&use_default_units_in_fee_calculation::id()),
!feature_set.is_active(&remove_deprecated_request_unit_ix::id()),
feature_set.is_active(&cap_transaction_accounts_data_size::id()),
Bank::get_loaded_accounts_data_limit_type(feature_set),
);
if bpf_costs > 0 && result.is_ok() {
bpf_costs = budget.compute_unit_limit
}
tx_cost.builtins_execution_cost = builtin_costs;
tx_cost.bpf_execution_cost = bpf_costs;
tx_cost.data_bytes_cost = data_bytes_len_total / INSTRUCTION_DATA_BYTES_COST;
}
fn calculate_account_data_size_on_deserialized_system_instruction(
instruction: SystemInstruction,
) -> u64 {
match instruction {
SystemInstruction::CreateAccount {
lamports: _lamports,
space,
owner: _owner,
} => space,
SystemInstruction::CreateAccountWithSeed {
base: _base,
seed: _seed,
lamports: _lamports,
space,
owner: _owner,
} => space,
SystemInstruction::Allocate { space } => space,
SystemInstruction::AllocateWithSeed {
base: _base,
seed: _seed,
space,
owner: _owner,
} => space,
_ => 0,
}
}
fn calculate_account_data_size_on_instruction(
program_id: &Pubkey,
instruction: &CompiledInstruction,
) -> u64 {
if program_id == &system_program::id() {
if let Ok(instruction) = limited_deserialize(&instruction.data) {
return Self::calculate_account_data_size_on_deserialized_system_instruction(
instruction,
);
}
}
0
}
fn calculate_account_data_size(transaction: &SanitizedTransaction) -> u64 {
transaction
.message()
.program_instructions_iter()
.map(|(program_id, instruction)| {
Self::calculate_account_data_size_on_instruction(program_id, instruction)
})
.sum()
}
}
#[cfg(test)]
mod tests {
use {
super::*,
crate::{
bank::Bank,
genesis_utils::{create_genesis_config, GenesisConfigInfo},
inline_spl_token,
},
solana_sdk::{
compute_budget::{self, ComputeBudgetInstruction},
hash::Hash,
instruction::CompiledInstruction,
message::Message,
signature::{Keypair, Signer},
system_instruction::{self},
system_program, system_transaction,
transaction::Transaction,
},
std::sync::Arc,
};
fn test_setup() -> (Keypair, Hash) {
solana_logger::setup();
let GenesisConfigInfo {
genesis_config,
mint_keypair,
..
} = create_genesis_config(10);
let bank = Arc::new(Bank::new_no_wallclock_throttle_for_tests(&genesis_config));
let start_hash = bank.last_blockhash();
(mint_keypair, start_hash)
}
#[test]
fn test_cost_model_data_len_cost() {
let lamports = 0;
let owner = Pubkey::default();
let seed = String::default();
let space = 100;
let base = Pubkey::default();
for instruction in [
SystemInstruction::CreateAccount {
lamports,
space,
owner,
},
SystemInstruction::CreateAccountWithSeed {
base,
seed: seed.clone(),
lamports,
space,
owner,
},
SystemInstruction::Allocate { space },
SystemInstruction::AllocateWithSeed {
base,
seed,
space,
owner,
},
] {
assert_eq!(
space,
CostModel::calculate_account_data_size_on_deserialized_system_instruction(
instruction
)
);
}
assert_eq!(
0,
CostModel::calculate_account_data_size_on_deserialized_system_instruction(
SystemInstruction::TransferWithSeed {
lamports,
from_seed: String::default(),
from_owner: Pubkey::default(),
}
)
);
}
#[test]
fn test_cost_model_simple_transaction() {
let (mint_keypair, start_hash) = test_setup();
let keypair = Keypair::new();
let simple_transaction = SanitizedTransaction::from_transaction_for_tests(
system_transaction::transfer(&mint_keypair, &keypair.pubkey(), 2, start_hash),
);
debug!(
"system_transaction simple_transaction {:?}",
simple_transaction
);
let expected_execution_cost = BUILT_IN_INSTRUCTION_COSTS
.get(&system_program::id())
.unwrap();
let mut tx_cost = TransactionCost::default();
CostModel::get_transaction_cost(
&mut tx_cost,
&simple_transaction,
&FeatureSet::all_enabled(),
);
assert_eq!(*expected_execution_cost, tx_cost.builtins_execution_cost);
assert_eq!(0, tx_cost.bpf_execution_cost);
assert_eq!(3, tx_cost.data_bytes_cost);
}
#[test]
fn test_cost_model_token_transaction() {
let (mint_keypair, start_hash) = test_setup();
let instructions = vec![CompiledInstruction::new(3, &(), vec![1, 2, 0])];
let tx = Transaction::new_with_compiled_instructions(
&[&mint_keypair],
&[
solana_sdk::pubkey::new_rand(),
solana_sdk::pubkey::new_rand(),
],
start_hash,
vec![inline_spl_token::id()],
instructions,
);
let token_transaction = SanitizedTransaction::from_transaction_for_tests(tx);
debug!("token_transaction {:?}", token_transaction);
let mut tx_cost = TransactionCost::default();
CostModel::get_transaction_cost(
&mut tx_cost,
&token_transaction,
&FeatureSet::all_enabled(),
);
assert_eq!(0, tx_cost.builtins_execution_cost);
assert_eq!(200_000, tx_cost.bpf_execution_cost);
assert_eq!(0, tx_cost.data_bytes_cost);
}
#[test]
fn test_cost_model_compute_budget_transaction() {
let (mint_keypair, start_hash) = test_setup();
let instructions = vec![
CompiledInstruction::new(3, &(), vec![1, 2, 0]),
CompiledInstruction::new_from_raw_parts(
4,
ComputeBudgetInstruction::SetComputeUnitLimit(12_345)
.pack()
.unwrap(),
vec![],
),
];
let tx = Transaction::new_with_compiled_instructions(
&[&mint_keypair],
&[
solana_sdk::pubkey::new_rand(),
solana_sdk::pubkey::new_rand(),
],
start_hash,
vec![inline_spl_token::id(), compute_budget::id()],
instructions,
);
let token_transaction = SanitizedTransaction::from_transaction_for_tests(tx);
let mut tx_cost = TransactionCost::default();
CostModel::get_transaction_cost(
&mut tx_cost,
&token_transaction,
&FeatureSet::all_enabled(),
);
assert_eq!(0, tx_cost.builtins_execution_cost);
assert_eq!(12_345, tx_cost.bpf_execution_cost);
assert_eq!(1, tx_cost.data_bytes_cost);
}
#[test]
fn test_cost_model_transaction_many_transfer_instructions() {
let (mint_keypair, start_hash) = test_setup();
let key1 = solana_sdk::pubkey::new_rand();
let key2 = solana_sdk::pubkey::new_rand();
let instructions =
system_instruction::transfer_many(&mint_keypair.pubkey(), &[(key1, 1), (key2, 1)]);
let message = Message::new(&instructions, Some(&mint_keypair.pubkey()));
let tx = SanitizedTransaction::from_transaction_for_tests(Transaction::new(
&[&mint_keypair],
message,
start_hash,
));
debug!("many transfer transaction {:?}", tx);
let program_cost = BUILT_IN_INSTRUCTION_COSTS
.get(&system_program::id())
.unwrap();
let expected_cost = program_cost * 2;
let mut tx_cost = TransactionCost::default();
CostModel::get_transaction_cost(&mut tx_cost, &tx, &FeatureSet::all_enabled());
assert_eq!(expected_cost, tx_cost.builtins_execution_cost);
assert_eq!(0, tx_cost.bpf_execution_cost);
assert_eq!(6, tx_cost.data_bytes_cost);
}
#[test]
fn test_cost_model_message_many_different_instructions() {
let (mint_keypair, start_hash) = test_setup();
let key1 = solana_sdk::pubkey::new_rand();
let key2 = solana_sdk::pubkey::new_rand();
let prog1 = solana_sdk::pubkey::new_rand();
let prog2 = solana_sdk::pubkey::new_rand();
let instructions = vec![
CompiledInstruction::new(3, &(), vec![0, 1]),
CompiledInstruction::new(4, &(), vec![0, 2]),
];
let tx = SanitizedTransaction::from_transaction_for_tests(
Transaction::new_with_compiled_instructions(
&[&mint_keypair],
&[key1, key2],
start_hash,
vec![prog1, prog2],
instructions,
),
);
debug!("many random transaction {:?}", tx);
let expected_cost = DEFAULT_INSTRUCTION_COMPUTE_UNIT_LIMIT as u64 * 2;
let mut tx_cost = TransactionCost::default();
CostModel::get_transaction_cost(&mut tx_cost, &tx, &FeatureSet::all_enabled());
assert_eq!(0, tx_cost.builtins_execution_cost);
assert_eq!(expected_cost, tx_cost.bpf_execution_cost);
assert_eq!(0, tx_cost.data_bytes_cost);
}
#[test]
fn test_cost_model_sort_message_accounts_by_type() {
let signer1 = Keypair::new();
let signer2 = Keypair::new();
let key1 = Pubkey::new_unique();
let key2 = Pubkey::new_unique();
let prog1 = Pubkey::new_unique();
let prog2 = Pubkey::new_unique();
let instructions = vec![
CompiledInstruction::new(4, &(), vec![0, 2]),
CompiledInstruction::new(5, &(), vec![1, 3]),
];
let tx = SanitizedTransaction::from_transaction_for_tests(
Transaction::new_with_compiled_instructions(
&[&signer1, &signer2],
&[key1, key2],
Hash::new_unique(),
vec![prog1, prog2],
instructions,
),
);
let tx_cost = CostModel::calculate_cost(&tx, &FeatureSet::all_enabled());
assert_eq!(2 + 2, tx_cost.writable_accounts.len());
assert_eq!(signer1.pubkey(), tx_cost.writable_accounts[0]);
assert_eq!(signer2.pubkey(), tx_cost.writable_accounts[1]);
assert_eq!(key1, tx_cost.writable_accounts[2]);
assert_eq!(key2, tx_cost.writable_accounts[3]);
}
#[test]
fn test_cost_model_calculate_cost() {
let (mint_keypair, start_hash) = test_setup();
let tx = SanitizedTransaction::from_transaction_for_tests(system_transaction::transfer(
&mint_keypair,
&Keypair::new().pubkey(),
2,
start_hash,
));
let expected_account_cost = WRITE_LOCK_UNITS * 2;
let expected_execution_cost = BUILT_IN_INSTRUCTION_COSTS
.get(&system_program::id())
.unwrap();
let tx_cost = CostModel::calculate_cost(&tx, &FeatureSet::all_enabled());
assert_eq!(expected_account_cost, tx_cost.write_lock_cost);
assert_eq!(*expected_execution_cost, tx_cost.builtins_execution_cost);
assert_eq!(2, tx_cost.writable_accounts.len());
}
}