// Copyright 2021 The GrinGron Developers // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. //! Test coverage for block building at the limit of max_block_weight. pub mod common; use self::core::core::hash::Hashed; use self::core::global; use self::keychain::{ExtKeychain, Keychain}; use crate::common::*; use gringron_core as core; use gringron_keychain as keychain; use gringron_util as util; use std::sync::Arc; #[test] fn test_block_building_max_weight() { util::init_test_logger(); global::set_local_chain_type(global::ChainTypes::AutomatedTesting); global::set_local_accept_fee_base(1); let keychain: ExtKeychain = Keychain::from_random_seed(false).unwrap(); let db_root = "target/.block_max_weight"; clean_output_dir(db_root.into()); let genesis = genesis_block(&keychain); let chain = Arc::new(init_chain(db_root, genesis)); // Initialize a new pool with our chain adapter. let mut pool = init_transaction_pool(Arc::new(ChainAdapter { chain: chain.clone(), })); // mine past HF4 to see effect of set_local_accept_fee_base add_some_blocks(&chain, 4 * 3, &keychain); let header_1 = chain.get_header_by_height(1).unwrap(); // Now create tx to spend an early coinbase (now matured). // Provides us with some useful outputs to test with. let initial_tx = test_transaction_spending_coinbase( &keychain, &header_1, vec![1_000_000, 2_000_000, 3_000_000, 10_000_000], ); // Mine that initial tx so we can spend it with multiple txs. add_block(&chain, &[initial_tx], &keychain); let header = chain.head_header().unwrap(); // Build some dependent txs to add to the txpool. // We will build a block from a subset of these. let txs = vec![ test_transaction( &keychain, vec![10_000_000], vec![3_900_000, 1_300_000, 1_200_000, 1_100_000], ), test_transaction(&keychain, vec![1_000_000], vec![900_000, 10_000]), test_transaction(&keychain, vec![900_000], vec![800_000, 20_000]), test_transaction(&keychain, vec![2_000_000], vec![1_970_000]), test_transaction(&keychain, vec![3_000_000], vec![2_900_000, 30_000]), test_transaction(&keychain, vec![2_900_000], vec![2_800_000, 40_000]), ]; // Fees and weights of our original txs in insert order. assert_eq!( txs.iter().map(|x| x.fee()).collect::>(), [2_500_000, 90_000, 80_000, 30_000, 70_000, 60_000] ); assert_eq!( txs.iter().map(|x| x.weight()).collect::>(), [88, 46, 46, 25, 46, 46] ); assert_eq!( txs.iter().map(|x| x.fee_rate()).collect::>(), [28409, 1956, 1739, 1200, 1521, 1304] ); // Populate our txpool with the txs. for tx in txs { pool.add_to_pool(test_source(), tx, false, &header).unwrap(); } // Check we added them all to the txpool successfully. assert_eq!(pool.total_size(), 6); // // Prepare some "mineable" txs from the txpool. // // Note: We cannot fit all the txs from the txpool into a block. let txs = pool.prepare_mineable_transactions().unwrap(); // Fees and weights of the "mineable" txs. assert_eq!( txs.iter().map(|x| x.fee()).collect::>(), [2_500_000, 90_000, 80_000, 70_000] ); assert_eq!( txs.iter().map(|x| x.weight()).collect::>(), [88, 46, 46, 46] ); assert_eq!( txs.iter().map(|x| x.fee_rate()).collect::>(), [28409, 1956, 1739, 1521] ); add_block(&chain, &txs, &keychain); let block = chain.get_block(&chain.head().unwrap().hash()).unwrap(); // Check contents of the block itself (including coinbase reward). assert_eq!(block.inputs().len(), 3); assert_eq!(block.outputs().len(), 10); assert_eq!(block.kernels().len(), 5); // Now reconcile the transaction pool with the new block // and check the resulting contents of the pool are what we expect. pool.reconcile_block(&block).unwrap(); // We should still have 2 tx in the pool after accepting the new block. // This one exceeded the max block weight when building the block so // remained in the txpool. assert_eq!(pool.total_size(), 2); // Cleanup db directory clean_output_dir(db_root.into()); }