#![feature(test)] extern crate test; use gemachain_bpf_loader_program::serialization::{ serialize_parameters_aligned, serialize_parameters_unaligned, }; use gemachain_sdk::{ account::{Account, AccountSharedData}, bpf_loader, }; use gemachain_sdk::{keyed_account::KeyedAccount, pubkey::Pubkey}; use std::cell::RefCell; use test::Bencher; fn create_inputs() -> ( Pubkey, Vec, Vec>, Vec, ) { let program_id = gemachain_sdk::pubkey::new_rand(); let dup_key = gemachain_sdk::pubkey::new_rand(); let dup_key2 = gemachain_sdk::pubkey::new_rand(); let keys = vec![ dup_key, dup_key, gemachain_sdk::pubkey::new_rand(), gemachain_sdk::pubkey::new_rand(), dup_key2, dup_key2, gemachain_sdk::pubkey::new_rand(), gemachain_sdk::pubkey::new_rand(), ]; let accounts = vec![ RefCell::new(AccountSharedData::from(Account { carats: 1, data: vec![1u8, 2, 3, 4, 5], owner: bpf_loader::id(), executable: false, rent_epoch: 100, })), // dup RefCell::new(AccountSharedData::from(Account { carats: 1, data: vec![1u8; 100000], owner: bpf_loader::id(), executable: false, rent_epoch: 100, })), RefCell::new(AccountSharedData::from(Account { carats: 2, data: vec![11u8; 100000], owner: bpf_loader::id(), executable: true, rent_epoch: 200, })), RefCell::new(AccountSharedData::from(Account { carats: 3, data: vec![], owner: bpf_loader::id(), executable: false, rent_epoch: 3100, })), RefCell::new(AccountSharedData::from(Account { carats: 4, data: vec![1u8; 100000], owner: bpf_loader::id(), executable: false, rent_epoch: 100, })), // dup RefCell::new(AccountSharedData::from(Account { carats: 4, data: vec![1u8; 1000000], owner: bpf_loader::id(), executable: false, rent_epoch: 100, })), RefCell::new(AccountSharedData::from(Account { carats: 5, data: vec![11u8; 10000], owner: bpf_loader::id(), executable: true, rent_epoch: 200, })), RefCell::new(AccountSharedData::from(Account { carats: 6, data: vec![], owner: bpf_loader::id(), executable: false, rent_epoch: 3100, })), ]; let instruction_data = vec![1u8, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11]; (program_id, keys, accounts, instruction_data) } #[bench] fn bench_serialize_unaligned(bencher: &mut Bencher) { let (program_id, keys, accounts, instruction_data) = create_inputs(); let keyed_accounts: Vec<_> = keys .iter() .zip(&accounts) .enumerate() .map(|(i, (key, account))| { if i <= accounts.len() / 2 { KeyedAccount::new_readonly(key, false, account) } else { KeyedAccount::new(key, false, account) } }) .collect(); bencher.iter(|| { let _ = serialize_parameters_unaligned(&program_id, &keyed_accounts, &instruction_data) .unwrap(); }); } #[bench] fn bench_serialize_aligned(bencher: &mut Bencher) { let (program_id, keys, accounts, instruction_data) = create_inputs(); let keyed_accounts: Vec<_> = keys .iter() .zip(&accounts) .enumerate() .map(|(i, (key, account))| { if i <= accounts.len() / 2 { KeyedAccount::new_readonly(key, false, account) } else { KeyedAccount::new(key, false, account) } }) .collect(); bencher.iter(|| { let _ = serialize_parameters_aligned(&program_id, &keyed_accounts, &instruction_data).unwrap(); }); }