grin/pool/tests/block_building.rs

// Copyright 2018 The Grin 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.

extern crate blake2_rfc as blake2;
extern crate grin_chain as chain;
extern crate grin_core as core;
extern crate grin_keychain as keychain;
extern crate grin_pool as pool;
extern crate grin_util as util;
extern crate grin_wallet as wallet;

extern crate rand;
extern crate time;

pub mod common;

use std::sync::{Arc, RwLock};

use core::core::{Block, BlockHeader};

use chain::txhashset;
use chain::types::Tip;
use chain::ChainStore;
use core::core::target::Difficulty;

use keychain::Keychain;
use wallet::libtx;

use common::*;

#[test]
fn test_transaction_pool_block_building() {
	let keychain = Keychain::from_random_seed().unwrap();

	let db_root = ".grin_block_building".to_string();
	clean_output_dir(db_root.clone());
	let chain = ChainAdapter::init(db_root.clone()).unwrap();

	// Initialize the chain/txhashset with an initial block
	// so we have a non-empty UTXO set.
	let header = {
		let height = 1;
		let key_id = keychain.derive_key_id(height as u32).unwrap();
		let reward = libtx::reward::output(&keychain, &key_id, 0, height).unwrap();
		let block = Block::new(&BlockHeader::default(), vec![], Difficulty::one(), reward).unwrap();

		let mut txhashset = chain.txhashset.write().unwrap();
		txhashset::extending(&mut txhashset, |extension| extension.apply_block(&block)).unwrap();

		let tip = Tip::from_block(&block.header);
		chain.store.save_block_header(&block.header).unwrap();
		chain.store.save_head(&tip).unwrap();

		block.header
	};

	// Initialize a new pool with our chain adapter.
	let pool = RwLock::new(test_setup(&Arc::new(chain.clone())));

	// Now create tx to spend that first coinbase (now matured).
	// Provides us with some useful outputs to test with.
	let initial_tx = test_transaction_spending_coinbase(&keychain, &header, vec![10, 20, 30, 40]);

	// Add this tx to the pool (stem=false, direct to txpool).
	{
		let mut write_pool = pool.write().unwrap();
		write_pool
			.add_to_pool(test_source(), initial_tx, false)
			.unwrap();
		assert_eq!(write_pool.total_size(), 1);
	}

	let root_tx_1 = test_transaction(&keychain, vec![10, 20], vec![24]);
	let root_tx_2 = test_transaction(&keychain, vec![30], vec![28]);
	let root_tx_3 = test_transaction(&keychain, vec![40], vec![38]);

	let child_tx_1 = test_transaction(&keychain, vec![24], vec![22]);
	let child_tx_2 = test_transaction(&keychain, vec![38], vec![32]);

	{
		let mut write_pool = pool.write().unwrap();

		// Add the three root txs to the pool.
		write_pool
			.add_to_pool(test_source(), root_tx_1, false)
			.unwrap();
		write_pool
			.add_to_pool(test_source(), root_tx_2, false)
			.unwrap();
		write_pool
			.add_to_pool(test_source(), root_tx_3, false)
			.unwrap();

		// Now add the two child txs to the pool.
		write_pool
			.add_to_pool(test_source(), child_tx_1.clone(), false)
			.unwrap();
		write_pool
			.add_to_pool(test_source(), child_tx_2.clone(), false)
			.unwrap();

		assert_eq!(write_pool.total_size(), 6);
	}

	let txs = {
		let read_pool = pool.read().unwrap();
		read_pool.prepare_mineable_transactions(4)
	};
	assert_eq!(txs.len(), 4);

	let block = {
		let key_id = keychain.derive_key_id(2).unwrap();
		let fees = txs.iter().map(|tx| tx.fee()).sum();
		let reward = libtx::reward::output(&keychain, &key_id, fees, 0).unwrap();
		Block::new(&header, txs, Difficulty::one(), reward)
	}.unwrap();

	{
		let mut txhashset = chain.txhashset.write().unwrap();
		txhashset::extending(&mut txhashset, |extension| {
			extension.apply_block(&block)?;
			Ok(())
		}).unwrap();
	}

	// Now reconcile the transaction pool with the new block
	// and check the resulting contents of the pool are what we expect.
	{
		let mut write_pool = pool.write().unwrap();
		write_pool.reconcile_block(&block).unwrap();

		assert_eq!(write_pool.total_size(), 2);
		assert_eq!(write_pool.txpool.entries[0].tx, child_tx_1);
		assert_eq!(write_pool.txpool.entries[1].tx, child_tx_2);
	}
}
Minimal Transaction Pool (#1067) * verify a tx like we verify a block (experimental) * first minimal_pool test up and running but not testing what we need to * rework tx_pool validation to use txhashset extension * minimal tx pool wired up but rough * works locally (rough statew though) delete "legacy" pool and graph code * rework the new pool into TransactionPool and Pool impls * rework pool to store pool entries with associated timer and source etc. * all_transactions * extra_txs so we can validate stempool against existing txpool * rework reconcile_block * txhashset apply_raw_tx can now rewind to a checkpoint (prev raw tx) * wip - txhashset tx tests * more flexible rewind on MMRs * add tests to cover apply_raw_txs on txhashset extension * add_to_stempool and add_to_txpool * deaggregate multi kernel tx when adding to txpoool * handle freshness in stempool handle propagation of stempool txs via dandelion monitor * patience timer and fluff if we cannot propagate to next relay * aggregate and fluff stempool is we have no relay * refactor coinbase maturity * rewrote basic tx pool tests to use a real txhashset via chain adapter * rework dandelion monitor to reflect recent discussion works locally but needs a cleanup * refactor dandelion_monitor - split out phases * more pool test coverage * remove old test code from pool (still wip) * block_building and block_reconciliation tests * tracked down chain test failure... * fix test_coinbase_maturity * dandelion_monitor now runs... * refactor dandelion config, shared across p2p and pool components * fix pool tests with new config * fix p2p tests * rework tx pool to deal with duplicate commitments (testnet2 limitation) * cleanup and address some PR feedback * add big comment about pre_tx... 2018-05-30 23:57:13 +03:00			`// Copyright 2018 The Grin 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.`

			`extern crate blake2_rfc as blake2;`
			`extern crate grin_chain as chain;`
			`extern crate grin_core as core;`
			`extern crate grin_keychain as keychain;`
			`extern crate grin_pool as pool;`
			`extern crate grin_util as util;`
			`extern crate grin_wallet as wallet;`

			`extern crate rand;`
			`extern crate time;`

			`pub mod common;`

			`use std::sync::{Arc, RwLock};`

			`use core::core::{Block, BlockHeader};`

			`use chain::txhashset;`
			`use chain::types::Tip;`
			`use chain::ChainStore;`
			`use core::core::target::Difficulty;`

			`use keychain::Keychain;`
			`use wallet::libtx;`

			`use common::*;`

			`#[test]`
			`fn test_transaction_pool_block_building() {`
			`let keychain = Keychain::from_random_seed().unwrap();`

			`let db_root = ".grin_block_building".to_string();`
			`clean_output_dir(db_root.clone());`
			`let chain = ChainAdapter::init(db_root.clone()).unwrap();`

			`// Initialize the chain/txhashset with an initial block`
			`// so we have a non-empty UTXO set.`
			`let header = {`
			`let height = 1;`
			`let key_id = keychain.derive_key_id(height as u32).unwrap();`
			`let reward = libtx::reward::output(&keychain, &key_id, 0, height).unwrap();`
			`let block = Block::new(&BlockHeader::default(), vec![], Difficulty::one(), reward).unwrap();`

			`let mut txhashset = chain.txhashset.write().unwrap();`
			`txhashset::extending(&mut txhashset, \|extension\| extension.apply_block(&block)).unwrap();`

			`let tip = Tip::from_block(&block.header);`
			`chain.store.save_block_header(&block.header).unwrap();`
			`chain.store.save_head(&tip).unwrap();`

			`block.header`
			`};`

			`// Initialize a new pool with our chain adapter.`
			`let pool = RwLock::new(test_setup(&Arc::new(chain.clone())));`

			`// Now create tx to spend that first coinbase (now matured).`
			`// Provides us with some useful outputs to test with.`
			`let initial_tx = test_transaction_spending_coinbase(&keychain, &header, vec![10, 20, 30, 40]);`

			`// Add this tx to the pool (stem=false, direct to txpool).`
			`{`
			`let mut write_pool = pool.write().unwrap();`
			`write_pool`
			`.add_to_pool(test_source(), initial_tx, false)`
			`.unwrap();`
			`assert_eq!(write_pool.total_size(), 1);`
			`}`

			`let root_tx_1 = test_transaction(&keychain, vec![10, 20], vec![24]);`
			`let root_tx_2 = test_transaction(&keychain, vec![30], vec![28]);`
			`let root_tx_3 = test_transaction(&keychain, vec![40], vec![38]);`

			`let child_tx_1 = test_transaction(&keychain, vec![24], vec![22]);`
			`let child_tx_2 = test_transaction(&keychain, vec![38], vec![32]);`

			`{`
			`let mut write_pool = pool.write().unwrap();`

			`// Add the three root txs to the pool.`
			`write_pool`
			`.add_to_pool(test_source(), root_tx_1, false)`
			`.unwrap();`
			`write_pool`
			`.add_to_pool(test_source(), root_tx_2, false)`
			`.unwrap();`
			`write_pool`
			`.add_to_pool(test_source(), root_tx_3, false)`
			`.unwrap();`

			`// Now add the two child txs to the pool.`
			`write_pool`
			`.add_to_pool(test_source(), child_tx_1.clone(), false)`
			`.unwrap();`
			`write_pool`
			`.add_to_pool(test_source(), child_tx_2.clone(), false)`
			`.unwrap();`

			`assert_eq!(write_pool.total_size(), 6);`
			`}`

			`let txs = {`
			`let read_pool = pool.read().unwrap();`
			`read_pool.prepare_mineable_transactions(4)`
			`};`
			`assert_eq!(txs.len(), 4);`

			`let block = {`
			`let key_id = keychain.derive_key_id(2).unwrap();`
			`let fees = txs.iter().map(\|tx\| tx.fee()).sum();`
			`let reward = libtx::reward::output(&keychain, &key_id, fees, 0).unwrap();`
			`Block::new(&header, txs, Difficulty::one(), reward)`
			`}.unwrap();`

			`{`
			`let mut txhashset = chain.txhashset.write().unwrap();`
			`txhashset::extending(&mut txhashset, \|extension\| {`
			`extension.apply_block(&block)?;`
			`Ok(())`
			`}).unwrap();`
			`}`

			`// Now reconcile the transaction pool with the new block`
			`// and check the resulting contents of the pool are what we expect.`
			`{`
			`let mut write_pool = pool.write().unwrap();`
			`write_pool.reconcile_block(&block).unwrap();`

			`assert_eq!(write_pool.total_size(), 2);`
			`assert_eq!(write_pool.txpool.entries[0].tx, child_tx_1);`
			`assert_eq!(write_pool.txpool.entries[1].tx, child_tx_2);`
			`}`
			`}`