mirror of
https://github.com/mimblewimble/grin.git
synced 2025-01-21 03:21:08 +03:00
48efb693e2
* add FeeFields type
* use FeeFields with ::zero and try_into().unwrap()
* fixed tests
* avoid 0 accept_base_fee
* add aggregate_fee_fields method for transaction
* implement std::fmt::Display trait for FeeFields
* make base_fee argument non-optional in libtx::mod::tx_fee
* add global and thread local accept_fee_base; use to simplify tests
* set unusually high fee base for a change
* revert to optional base fee argument; default coming from either grin-{server,wallet}.toml
* remove optional base fee argument; can be set with global::set_local_accept_fee_base instead
* define constant global::DEFAULT_ACCEPT_FEE_BASE and set global value
* add Transaction::accept_fee() method and use
* Manual (de)ser impl on FeeFields
* fix comment bug
* Serialize FeeFields as int in tx
* allow feefields: u32:into() for tests
* try adding height args everywhere
* make FeeFields shift/fee methods height dependent
* prior to hf4 feefield testing
* rename selected fee_fields back to fee for serialization compatibility
* fix test_fee_fields test, merge conflict, and doctest use of obsolete fee_fields
* make accept_fee height dependent
* Accept any u64 in FeeFields deser
Co-authored-by: Jasper van der Maarel <j@sper.dev>
116 lines
3.9 KiB
Rust
116 lines
3.9 KiB
Rust
// Copyright 2020 The Grin Developers
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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pub mod common;
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use self::core::core::hash::Hashed;
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use self::core::core::verifier_cache::LruVerifierCache;
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use self::core::global;
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use self::keychain::{ExtKeychain, Keychain};
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use self::pool::PoolError;
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use self::util::RwLock;
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use crate::common::*;
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use grin_core as core;
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use grin_keychain as keychain;
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use grin_pool as pool;
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use grin_util as util;
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use std::sync::Arc;
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#[test]
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fn test_transaction_pool_block_building() -> Result<(), PoolError> {
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util::init_test_logger();
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global::set_local_chain_type(global::ChainTypes::AutomatedTesting);
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global::set_local_accept_fee_base(1);
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let keychain: ExtKeychain = Keychain::from_random_seed(false).unwrap();
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let db_root = "target/.block_building";
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clean_output_dir(db_root.into());
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let genesis = genesis_block(&keychain);
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let chain = Arc::new(init_chain(db_root, genesis));
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let verifier_cache = Arc::new(RwLock::new(LruVerifierCache::new()));
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// Initialize a new pool with our chain adapter.
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let mut pool = init_transaction_pool(
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Arc::new(ChainAdapter {
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chain: chain.clone(),
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}),
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verifier_cache,
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);
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// mine enough blocks to get past HF4
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add_some_blocks(&chain, 4 * 3, &keychain);
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let header_1 = chain.get_header_by_height(1).unwrap();
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// Now create tx to spend an early coinbase (now matured).
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// Provides us with some useful outputs to test with.
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let initial_tx =
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test_transaction_spending_coinbase(&keychain, &header_1, vec![100, 200, 300, 400]);
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// Mine that initial tx so we can spend it with multiple txs.
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add_block(&chain, &[initial_tx], &keychain);
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let header = chain.head_header().unwrap();
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let root_tx_1 = test_transaction(&keychain, vec![100, 200], vec![240]);
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let root_tx_2 = test_transaction(&keychain, vec![300], vec![270]);
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let root_tx_3 = test_transaction(&keychain, vec![400], vec![370]);
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let child_tx_1 = test_transaction(&keychain, vec![240], vec![210]);
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let child_tx_2 = test_transaction(&keychain, vec![370], vec![320]);
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{
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// Add the three root txs to the pool.
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pool.add_to_pool(test_source(), root_tx_1.clone(), false, &header)?;
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pool.add_to_pool(test_source(), root_tx_2.clone(), false, &header)?;
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pool.add_to_pool(test_source(), root_tx_3.clone(), false, &header)?;
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// Now add the two child txs to the pool.
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pool.add_to_pool(test_source(), child_tx_1.clone(), false, &header)?;
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pool.add_to_pool(test_source(), child_tx_2.clone(), false, &header)?;
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assert_eq!(pool.total_size(), 5);
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}
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let txs = pool.prepare_mineable_transactions()?;
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add_block(&chain, &txs, &keychain);
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// Get full block from head of the chain (block we just processed).
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let block = chain.get_block(&chain.head().unwrap().hash()).unwrap();
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// Check the block contains what we expect.
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assert_eq!(block.inputs().len(), 4);
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assert_eq!(block.outputs().len(), 4);
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assert_eq!(block.kernels().len(), 6);
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assert!(block.kernels().contains(&root_tx_1.kernels()[0]));
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assert!(block.kernels().contains(&root_tx_2.kernels()[0]));
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assert!(block.kernels().contains(&root_tx_3.kernels()[0]));
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assert!(block.kernels().contains(&child_tx_1.kernels()[0]));
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assert!(block.kernels().contains(&child_tx_1.kernels()[0]));
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// Now reconcile the transaction pool with the new block
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// and check the resulting contents of the pool are what we expect.
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{
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pool.reconcile_block(&block)?;
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assert_eq!(pool.total_size(), 0);
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}
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// Cleanup db directory
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clean_output_dir(db_root.into());
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Ok(())
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}
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