// Copyright 2021 The Aigc 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. use self::chain::types::NoopAdapter; use self::chain::types::Options; use self::chain::Chain; use self::core::core::hash::Hashed; use self::core::core::Block; use self::core::genesis; use self::core::global::ChainTypes; use self::core::libtx::{self, reward}; use self::core::{consensus, global, pow}; use self::keychain::{ExtKeychainPath, Keychain}; use chrono::Duration; use aigc_chain as chain; use aigc_core as core; use aigc_keychain as keychain; use std::fs; use std::sync::Arc; pub fn clean_output_dir(dir_name: &str) { let _ = fs::remove_dir_all(dir_name); } pub fn init_chain(dir_name: &str, genesis: Block) -> Chain { Chain::init( dir_name.to_string(), Arc::new(NoopAdapter {}), genesis, pow::verify_size, false, ) .unwrap() } /// Build genesis block with reward (non-empty, like we have in mainnet). pub fn genesis_block(keychain: &K) -> Block where K: Keychain, { let key_id = keychain::ExtKeychain::derive_key_id(0, 1, 0, 0, 0); let reward = reward::output( keychain, &libtx::ProofBuilder::new(keychain), &key_id, 0, false, ) .unwrap(); genesis::genesis_dev().with_reward(reward.0, reward.1) } /// Mine a chain of specified length to assist with automated tests. /// Probably a good idea to call clean_output_dir at the beginning and end of each test. #[allow(dead_code)] pub fn mine_chain(dir_name: &str, chain_length: u64) -> Chain { global::set_local_chain_type(ChainTypes::AutomatedTesting); let keychain = keychain::ExtKeychain::from_random_seed(false).unwrap(); let genesis = genesis_block(&keychain); let mut chain = init_chain(dir_name, genesis.clone()); mine_some_on_top(&mut chain, chain_length, &keychain); chain } #[allow(dead_code)] fn mine_some_on_top(chain: &mut Chain, chain_length: u64, keychain: &K) where K: Keychain, { for n in 1..chain_length { let prev = chain.head_header().unwrap(); let next_header_info = consensus::next_difficulty(prev.height + 1, chain.difficulty_iter().unwrap()); let pk = ExtKeychainPath::new(1, n as u32, 0, 0, 0).to_identifier(); let reward = libtx::reward::output(keychain, &libtx::ProofBuilder::new(keychain), &pk, 0, false) .unwrap(); let mut b = core::core::Block::new(&prev, &[], next_header_info.difficulty, reward).unwrap(); b.header.timestamp = prev.timestamp + Duration::seconds(60); b.header.pow.secondary_scaling = next_header_info.secondary_scaling; chain.set_txhashset_roots(&mut b).unwrap(); let edge_bits = global::min_edge_bits(); b.header.pow.proof.edge_bits = edge_bits; pow::pow_size( &mut b.header, next_header_info.difficulty, global::proofsize(), edge_bits, ) .unwrap(); let bhash = b.hash(); chain.process_block(b, Options::MINE).unwrap(); // checking our new head let head = chain.head().unwrap(); assert_eq!(head.height, n); assert_eq!(head.last_block_h, bhash); // now check the block_header of the head let header = chain.head_header().unwrap(); assert_eq!(header.height, n); assert_eq!(header.hash(), bhash); // now check the block itself let block = chain.get_block(&header.hash()).unwrap(); assert_eq!(block.header.height, n); assert_eq!(block.hash(), bhash); assert_eq!(block.outputs().len(), 1); // now check the block height index let header_by_height = chain.get_header_by_height(n).unwrap(); assert_eq!(header_by_height.hash(), bhash); chain.validate(false).unwrap(); } }