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.output().value(10).build()
.build()
.transaction()
.input().hash(H256::from(1)).index(1).build()
.build()
.build();
let tx1 = b1.transactions[0].clone();
let tx1_hash = tx1.hash();
let tx2 = b1.transactions[1].clone();
let tx2_hash = tx2.hash();
let mut chain = Chain::new(Arc::new(db::TestStorage::with_blocks(&vec![b0])));
chain.verify_transaction(tx1_hash.clone(), tx1);
chain.insert_verified_transaction(tx2);
// only one transaction is in the memory pool
assert_eq!(chain.information().transactions.transactions_count, 1);
// when block is inserted to the database => all accepted transactions are removed from mempool && verifying queue
chain.insert_best_block(b1.hash(), &b1.into()).expect("block accepted");
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assert_eq!(chain.information().transactions.transactions_count, 0);
assert!(!chain.forget_verifying_transaction(&tx1_hash));
assert!(!chain.forget_verifying_transaction(&tx2_hash));
}
#[test]
fn chain_forget_verifying_transaction_with_children() {
let test_chain = &mut test_data::ChainBuilder::new();
test_data::TransactionBuilder::with_output(100).store(test_chain) // t1
.into_input(0).add_output(200).store(test_chain) // t1 -> t2
.into_input(0).add_output(300).store(test_chain) // t1 -> t2 -> t3
.set_default_input(0).set_output(400).store(test_chain); // t4
let mut chain = Chain::new(Arc::new(db::TestStorage::with_genesis_block()));
chain.verify_transaction(test_chain.at(0).hash(), test_chain.at(0));
chain.verify_transaction(test_chain.at(1).hash(), test_chain.at(1));
chain.verify_transaction(test_chain.at(2).hash(), test_chain.at(2));
chain.verify_transaction(test_chain.at(3).hash(), test_chain.at(3));
chain.forget_verifying_transaction_with_children(&test_chain.at(0).hash());
assert!(!chain.forget_verifying_transaction(&test_chain.at(0).hash()));
assert!(!chain.forget_verifying_transaction(&test_chain.at(1).hash()));
assert!(!chain.forget_verifying_transaction(&test_chain.at(2).hash()));
assert!(chain.forget_verifying_transaction(&test_chain.at(3).hash()));
}
#[test]
fn chain_transactions_hashes_with_state() {
let test_chain = &mut test_data::ChainBuilder::new();
test_data::TransactionBuilder::with_output(100).store(test_chain) // t1
.into_input(0).add_output(200).store(test_chain) // t1 -> t2
.into_input(0).add_output(300).store(test_chain) // t1 -> t2 -> t3
.set_default_input(0).set_output(400).store(test_chain); // t4
let mut chain = Chain::new(Arc::new(db::TestStorage::with_genesis_block()));
chain.insert_verified_transaction(test_chain.at(0));
chain.insert_verified_transaction(test_chain.at(1));
chain.insert_verified_transaction(test_chain.at(2));
chain.insert_verified_transaction(test_chain.at(3));
let chain_transactions = chain.transactions_hashes_with_state(TransactionState::InMemory);
assert!(chain_transactions.contains(&test_chain.at(0).hash()));
assert!(chain_transactions.contains(&test_chain.at(1).hash()));
assert!(chain_transactions.contains(&test_chain.at(2).hash()));
assert!(chain_transactions.contains(&test_chain.at(3).hash()));
}
#[test]
fn memory_pool_transactions_are_reverified_after_reorganization() {
let b0 = test_data::block_builder().header().build().build();
let b1 = test_data::block_builder().header().nonce(1).parent(b0.hash()).build().build();
let b2 = test_data::block_builder().header().nonce(2).parent(b0.hash()).build().build();
let b3 = test_data::block_builder().header().parent(b2.hash()).build().build();
let tx1: Transaction = test_data::TransactionBuilder::with_version(1).into();
let tx1_hash = tx1.hash();
let tx2: Transaction = test_data::TransactionBuilder::with_version(2).into();
let tx2_hash = tx2.hash();
let path = RandomTempPath::create_dir();
let storage = Arc::new(db::Storage::new(path.as_path()).unwrap());
storage.insert_block(&b0).expect("no db error");
let mut chain = Chain::new(storage);
chain.verify_transaction(tx1_hash.clone(), tx1);
chain.insert_verified_transaction(tx2);
// no reorg
let result = chain.insert_best_block(b1.hash(), &b1.into()).expect("no error");
assert_eq!(result.transactions_to_reverify.len(), 0);
// no reorg
let result = chain.insert_best_block(b2.hash(), &b2.into()).expect("no error");
assert_eq!(result.transactions_to_reverify.len(), 0);
// reorg
let result = chain.insert_best_block(b3.hash(), &b3.into()).expect("no error");
assert_eq!(result.transactions_to_reverify.len(), 2);
assert!(result.transactions_to_reverify.iter().any(|&(ref h, _)| h == &tx1_hash));
assert!(result.transactions_to_reverify.iter().any(|&(ref h, _)| h == &tx2_hash));
}
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#[test]
fn fork_chain_block_transaction_is_removed_from_on_block_insert() {
let genesis = test_data::genesis();
let b0 = test_data::block_builder().header().parent(genesis.hash()).build().build(); // genesis -> b0
let b1 = test_data::block_builder().header().nonce(1).parent(b0.hash()).build()
.transaction().output().value(10).build().build()
.build(); // genesis -> b0 -> b1[tx1]
let b2 = test_data::block_builder().header().parent(b1.hash()).build()
.transaction().output().value(20).build().build()
.build(); // genesis -> b0 -> b1[tx1] -> b2[tx2]
let b3 = test_data::block_builder().header().nonce(2).parent(b0.hash()).build()
.transaction().output().value(30).build().build()
.build(); // genesis -> b0 -> b3[tx3]
let b4 = test_data::block_builder().header().parent(b3.hash()).build()
.transaction().output().value(40).build().build()
.build(); // genesis -> b0 -> b3[tx3] -> b4[tx4]
let b5 = test_data::block_builder().header().parent(b4.hash()).build()
.transaction().output().value(50).build().build()
.build(); // genesis -> b0 -> b3[tx3] -> b4[tx4] -> b5[tx5]
let tx1 = b1.transactions[0].clone();
let tx1_hash = tx1.hash();
let tx2 = b2.transactions[0].clone();
let tx2_hash = tx2.hash();
let tx3 = b3.transactions[0].clone();
let tx4 = b4.transactions[0].clone();
let tx5 = b5.transactions[0].clone();
let path = RandomTempPath::create_dir();
let storage = Arc::new(db::Storage::new(path.as_path()).unwrap());
storage.insert_block(&genesis).expect("no db error");
let mut chain = Chain::new(storage);
chain.insert_verified_transaction(tx3);
chain.insert_verified_transaction(tx4);
chain.insert_verified_transaction(tx5);
assert_eq!(chain.insert_best_block(b0.hash(), &b0.clone().into()).expect("block accepted"), BlockInsertionResult::with_canonized_blocks(vec![b0.hash()]));
assert_eq!(chain.information().transactions.transactions_count, 3);
assert_eq!(chain.insert_best_block(b1.hash(), &b1.clone().into()).expect("block accepted"), BlockInsertionResult::with_canonized_blocks(vec![b1.hash()]));
assert_eq!(chain.information().transactions.transactions_count, 3);
assert_eq!(chain.insert_best_block(b2.hash(), &b2.clone().into()).expect("block accepted"), BlockInsertionResult::with_canonized_blocks(vec![b2.hash()]));
assert_eq!(chain.information().transactions.transactions_count, 3);
assert_eq!(chain.insert_best_block(b3.hash(), &b3.clone().into()).expect("block accepted"), BlockInsertionResult::default());
assert_eq!(chain.information().transactions.transactions_count, 3);
assert_eq!(chain.insert_best_block(b4.hash(), &b4.clone().into()).expect("block accepted"), BlockInsertionResult::default());
assert_eq!(chain.information().transactions.transactions_count, 3);
// order matters
let insert_result = chain.insert_best_block(b5.hash(), &b5.clone().into()).expect("block accepted");
let transactions_to_reverify_hashes: Vec<_> = insert_result
.transactions_to_reverify
.into_iter()
.map(|(h, _)| h)
.collect();
assert_eq!(transactions_to_reverify_hashes, vec![tx1_hash, tx2_hash]);
assert_eq!(insert_result.canonized_blocks_hashes, vec![b3.hash(), b4.hash(), b5.hash()]);
assert_eq!(chain.information().transactions.transactions_count, 0); // tx3, tx4, tx5 are added to the database
}