357 lines
13 KiB
Rust
357 lines
13 KiB
Rust
//! `cost_tracker` keeps tracking tranasction cost per chained accounts as well as for entire block
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//! The main entry function is 'try_add', if success, it returns new block cost.
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//!
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use crate::cost_model::TransactionCost;
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use solana_sdk::{clock::Slot, pubkey::Pubkey};
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use std::collections::HashMap;
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#[derive(Debug, Clone)]
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pub struct CostTracker {
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account_cost_limit: u32,
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block_cost_limit: u32,
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current_bank_slot: Slot,
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cost_by_writable_accounts: HashMap<Pubkey, u32>,
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block_cost: u32,
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}
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impl CostTracker {
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pub fn new(chain_max: u32, package_max: u32) -> Self {
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assert!(chain_max <= package_max);
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Self {
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account_cost_limit: chain_max,
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block_cost_limit: package_max,
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current_bank_slot: 0,
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cost_by_writable_accounts: HashMap::new(),
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block_cost: 0,
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}
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}
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pub fn reset_if_new_bank(&mut self, slot: Slot) {
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if slot != self.current_bank_slot {
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self.current_bank_slot = slot;
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self.cost_by_writable_accounts.clear();
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self.block_cost = 0;
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}
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}
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pub fn try_add(&mut self, transaction_cost: TransactionCost) -> Result<u32, &'static str> {
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let cost = transaction_cost.account_access_cost + transaction_cost.execution_cost;
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self.would_fit(&transaction_cost.writable_accounts, &cost)?;
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self.add_transaction(&transaction_cost.writable_accounts, &cost);
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Ok(self.block_cost)
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}
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fn would_fit(&self, keys: &[Pubkey], cost: &u32) -> Result<(), &'static str> {
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// check against the total package cost
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if self.block_cost + cost > self.block_cost_limit {
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return Err("would exceed block cost limit");
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}
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// check if the transaction itself is more costly than the account_cost_limit
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if *cost > self.account_cost_limit {
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return Err("Transaction is too expansive, exceeds account cost limit");
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}
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// check each account against account_cost_limit,
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for account_key in keys.iter() {
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match self.cost_by_writable_accounts.get(&account_key) {
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Some(chained_cost) => {
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if chained_cost + cost > self.account_cost_limit {
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return Err("would exceed account cost limit");
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} else {
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continue;
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}
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}
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None => continue,
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}
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}
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Ok(())
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}
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fn add_transaction(&mut self, keys: &[Pubkey], cost: &u32) {
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for account_key in keys.iter() {
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*self
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.cost_by_writable_accounts
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.entry(*account_key)
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.or_insert(0) += cost;
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}
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self.block_cost += cost;
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}
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}
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// CostStats can be collected by util, such as ledger_tool
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#[derive(Default, Debug)]
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pub struct CostStats {
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pub total_cost: u32,
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pub number_of_accounts: usize,
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pub costliest_account: Pubkey,
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pub costliest_account_cost: u32,
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}
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impl CostTracker {
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pub fn get_stats(&self) -> CostStats {
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let mut stats = CostStats {
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total_cost: self.block_cost,
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number_of_accounts: self.cost_by_writable_accounts.len(),
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costliest_account: Pubkey::default(),
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costliest_account_cost: 0,
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};
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for (key, cost) in self.cost_by_writable_accounts.iter() {
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if cost > &stats.costliest_account_cost {
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stats.costliest_account = *key;
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stats.costliest_account_cost = *cost;
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}
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}
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stats
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}
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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use solana_runtime::{
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bank::Bank,
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genesis_utils::{create_genesis_config, GenesisConfigInfo},
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};
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use solana_sdk::{
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hash::Hash,
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signature::{Keypair, Signer},
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system_transaction,
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transaction::Transaction,
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};
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use std::{cmp, sync::Arc};
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fn test_setup() -> (Keypair, Hash) {
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solana_logger::setup();
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let GenesisConfigInfo {
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genesis_config,
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mint_keypair,
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..
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} = create_genesis_config(10);
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let bank = Arc::new(Bank::new_no_wallclock_throttle(&genesis_config));
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let start_hash = bank.last_blockhash();
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(mint_keypair, start_hash)
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}
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fn build_simple_transaction(
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mint_keypair: &Keypair,
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start_hash: &Hash,
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) -> (Transaction, Vec<Pubkey>, u32) {
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let keypair = Keypair::new();
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let simple_transaction =
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system_transaction::transfer(&mint_keypair, &keypair.pubkey(), 2, *start_hash);
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(simple_transaction, vec![mint_keypair.pubkey()], 5)
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}
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#[test]
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fn test_cost_tracker_initialization() {
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let testee = CostTracker::new(10, 11);
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assert_eq!(10, testee.account_cost_limit);
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assert_eq!(11, testee.block_cost_limit);
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assert_eq!(0, testee.cost_by_writable_accounts.len());
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assert_eq!(0, testee.block_cost);
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}
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#[test]
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fn test_cost_tracker_ok_add_one() {
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let (mint_keypair, start_hash) = test_setup();
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let (_tx, keys, cost) = build_simple_transaction(&mint_keypair, &start_hash);
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// build testee to have capacity for one simple transaction
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let mut testee = CostTracker::new(cost, cost);
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assert!(testee.would_fit(&keys, &cost).is_ok());
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testee.add_transaction(&keys, &cost);
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assert_eq!(cost, testee.block_cost);
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}
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#[test]
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fn test_cost_tracker_ok_add_two_same_accounts() {
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let (mint_keypair, start_hash) = test_setup();
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// build two transactions with same signed account
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let (_tx1, keys1, cost1) = build_simple_transaction(&mint_keypair, &start_hash);
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let (_tx2, keys2, cost2) = build_simple_transaction(&mint_keypair, &start_hash);
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// build testee to have capacity for two simple transactions, with same accounts
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let mut testee = CostTracker::new(cost1 + cost2, cost1 + cost2);
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{
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assert!(testee.would_fit(&keys1, &cost1).is_ok());
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testee.add_transaction(&keys1, &cost1);
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}
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{
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assert!(testee.would_fit(&keys2, &cost2).is_ok());
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testee.add_transaction(&keys2, &cost2);
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}
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assert_eq!(cost1 + cost2, testee.block_cost);
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assert_eq!(1, testee.cost_by_writable_accounts.len());
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}
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#[test]
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fn test_cost_tracker_ok_add_two_diff_accounts() {
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let (mint_keypair, start_hash) = test_setup();
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// build two transactions with diff accounts
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let (_tx1, keys1, cost1) = build_simple_transaction(&mint_keypair, &start_hash);
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let second_account = Keypair::new();
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let (_tx2, keys2, cost2) = build_simple_transaction(&second_account, &start_hash);
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// build testee to have capacity for two simple transactions, with same accounts
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let mut testee = CostTracker::new(cmp::max(cost1, cost2), cost1 + cost2);
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{
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assert!(testee.would_fit(&keys1, &cost1).is_ok());
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testee.add_transaction(&keys1, &cost1);
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}
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{
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assert!(testee.would_fit(&keys2, &cost2).is_ok());
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testee.add_transaction(&keys2, &cost2);
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}
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assert_eq!(cost1 + cost2, testee.block_cost);
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assert_eq!(2, testee.cost_by_writable_accounts.len());
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}
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#[test]
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fn test_cost_tracker_chain_reach_limit() {
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let (mint_keypair, start_hash) = test_setup();
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// build two transactions with same signed account
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let (_tx1, keys1, cost1) = build_simple_transaction(&mint_keypair, &start_hash);
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let (_tx2, keys2, cost2) = build_simple_transaction(&mint_keypair, &start_hash);
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// build testee to have capacity for two simple transactions, but not for same accounts
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let mut testee = CostTracker::new(cmp::min(cost1, cost2), cost1 + cost2);
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// should have room for first transaction
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{
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assert!(testee.would_fit(&keys1, &cost1).is_ok());
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testee.add_transaction(&keys1, &cost1);
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}
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// but no more sapce on the same chain (same signer account)
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{
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assert!(testee.would_fit(&keys2, &cost2).is_err());
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}
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}
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#[test]
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fn test_cost_tracker_reach_limit() {
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let (mint_keypair, start_hash) = test_setup();
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// build two transactions with diff accounts
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let (_tx1, keys1, cost1) = build_simple_transaction(&mint_keypair, &start_hash);
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let second_account = Keypair::new();
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let (_tx2, keys2, cost2) = build_simple_transaction(&second_account, &start_hash);
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// build testee to have capacity for each chain, but not enough room for both transactions
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let mut testee = CostTracker::new(cmp::max(cost1, cost2), cost1 + cost2 - 1);
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// should have room for first transaction
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{
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assert!(testee.would_fit(&keys1, &cost1).is_ok());
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testee.add_transaction(&keys1, &cost1);
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}
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// but no more room for package as whole
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{
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assert!(testee.would_fit(&keys2, &cost2).is_err());
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}
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}
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#[test]
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fn test_cost_tracker_reset() {
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let (mint_keypair, start_hash) = test_setup();
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// build two transactions with same signed account
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let (_tx1, keys1, cost1) = build_simple_transaction(&mint_keypair, &start_hash);
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let (_tx2, keys2, cost2) = build_simple_transaction(&mint_keypair, &start_hash);
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// build testee to have capacity for two simple transactions, but not for same accounts
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let mut testee = CostTracker::new(cmp::min(cost1, cost2), cost1 + cost2);
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// should have room for first transaction
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{
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assert!(testee.would_fit(&keys1, &cost1).is_ok());
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testee.add_transaction(&keys1, &cost1);
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assert_eq!(1, testee.cost_by_writable_accounts.len());
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assert_eq!(cost1, testee.block_cost);
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}
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// but no more sapce on the same chain (same signer account)
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{
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assert!(testee.would_fit(&keys2, &cost2).is_err());
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}
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// reset the tracker
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{
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testee.reset_if_new_bank(100);
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assert_eq!(0, testee.cost_by_writable_accounts.len());
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assert_eq!(0, testee.block_cost);
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}
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//now the second transaction can be added
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{
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assert!(testee.would_fit(&keys2, &cost2).is_ok());
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}
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}
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#[test]
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fn test_cost_tracker_try_add_is_atomic() {
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let acct1 = Pubkey::new_unique();
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let acct2 = Pubkey::new_unique();
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let acct3 = Pubkey::new_unique();
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let cost = 100;
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let account_max = cost * 2;
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let block_max = account_max * 3; // for three accts
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let mut testee = CostTracker::new(account_max, block_max);
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// case 1: a tx writes to 3 accounts, should success, we will have:
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// | acct1 | $cost |
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// | acct2 | $cost |
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// | acct2 | $cost |
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// and block_cost = $cost
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{
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let tx_cost = TransactionCost {
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writable_accounts: vec![acct1, acct2, acct3],
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account_access_cost: 0,
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execution_cost: cost,
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};
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assert!(testee.try_add(tx_cost).is_ok());
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let stat = testee.get_stats();
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assert_eq!(cost, stat.total_cost);
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assert_eq!(3, stat.number_of_accounts);
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assert_eq!(cost, stat.costliest_account_cost);
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}
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// case 2: add tx writes to acct2 with $cost, should succeed, result to
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// | acct1 | $cost |
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// | acct2 | $cost * 2 |
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// | acct2 | $cost |
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// and block_cost = $cost * 2
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{
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let tx_cost = TransactionCost {
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writable_accounts: vec![acct2],
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account_access_cost: 0,
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execution_cost: cost,
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};
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assert!(testee.try_add(tx_cost).is_ok());
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let stat = testee.get_stats();
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assert_eq!(cost * 2, stat.total_cost);
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assert_eq!(3, stat.number_of_accounts);
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assert_eq!(cost * 2, stat.costliest_account_cost);
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assert_eq!(acct2, stat.costliest_account);
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}
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// case 3: add tx writes to [acct1, acct2], acct2 exceeds limit, should failed atomically,
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// we shoudl still have:
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// | acct1 | $cost |
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// | acct2 | $cost |
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// | acct2 | $cost |
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// and block_cost = $cost
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{
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let tx_cost = TransactionCost {
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writable_accounts: vec![acct1, acct2],
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account_access_cost: 0,
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execution_cost: cost,
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};
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assert!(testee.try_add(tx_cost).is_err());
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let stat = testee.get_stats();
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assert_eq!(cost * 2, stat.total_cost);
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assert_eq!(3, stat.number_of_accounts);
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assert_eq!(cost * 2, stat.costliest_account_cost);
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assert_eq!(acct2, stat.costliest_account);
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}
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}
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}
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