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use std::collections::{VecDeque, HashMap, HashSet};
use std::collections::hash_map::Entry;
use std::sync::Arc;
use std::sync::atomic::{AtomicBool, Ordering};
use std::thread;
use parking_lot::{Mutex, Condvar};
use chain::IndexedTransaction;
use message::{types, common};
use primitives::hash::H256;
use synchronization_executor::{Task, TaskExecutor};
use types::{PeerIndex, RequestId, BlockHeight, StorageRef, ExecutorRef, MemoryPoolRef, PeersRef};
use utils::KnownHashType;

/// Synchronization server task
#[derive(Debug, PartialEq)]
pub enum ServerTask {
	/// Serve 'getdata' request
	GetData(PeerIndex, types::GetData),
	/// Serve reversed 'getdata' request
	ReversedGetData(PeerIndex, types::GetData, types::NotFound),
	/// Serve 'getblocks' request
	GetBlocks(PeerIndex, types::GetBlocks),
	/// Serve 'getheaders' request
	GetHeaders(PeerIndex, types::GetHeaders, RequestId),
	/// Serve 'mempool' request
	Mempool(PeerIndex),
	/// Serve 'getblocktxn' request
	GetBlockTxn(PeerIndex, types::GetBlockTxn),
}

/// Synchronization server
pub trait Server : Send + Sync + 'static {
	/// Execute single synchronization task
	fn execute(&self, task: ServerTask);
	/// Called when connection is closed
	fn on_disconnect(&self, peer_index: PeerIndex);
}

/// Synchronization requests server
pub struct ServerImpl {
	queue_ready: Arc<Condvar>,
	queue: Arc<Mutex<ServerQueue>>,
	worker_thread: Option<thread::JoinHandle<()>>,
}

/// Server tasks queue
struct ServerQueue {
	is_stopping: AtomicBool,
	queue_ready: Arc<Condvar>,
	peers_queue: VecDeque<usize>,
	tasks_queue: HashMap<usize, VecDeque<ServerTask>>,
}

/// Server tasks executor
struct ServerTaskExecutor<T> where T: TaskExecutor {
	/// Peers
	peers: PeersRef,
	/// Executor
	executor: ExecutorRef<T>,
	/// Storage reference
	storage: StorageRef,
	/// Memory pool reference
	memory_pool: MemoryPoolRef,
}

impl Server for ServerImpl {
	fn execute(&self, task: ServerTask) {
		self.queue.lock().add_task(task);
	}

	fn on_disconnect(&self, peer_index: PeerIndex) {
		self.queue.lock().remove_peer_tasks(peer_index);
	}
}

impl ServerTask {
	pub fn peer_index(&self) -> PeerIndex {
		match *self {
			ServerTask::GetData(peer_index, _)
				| ServerTask::ReversedGetData(peer_index, _, _)
				| ServerTask::GetBlocks(peer_index, _)
				| ServerTask::GetHeaders(peer_index, _, _)
				| ServerTask::Mempool(peer_index)
				| ServerTask::GetBlockTxn(peer_index, _) => peer_index,
		}
	}
}

impl ServerImpl {
	pub fn new<T: TaskExecutor>(peers: PeersRef, storage: StorageRef, memory_pool: MemoryPoolRef, executor: Arc<T>) -> Self {
		let executor = ServerTaskExecutor::new(peers, storage, memory_pool, executor);
		let queue_ready = Arc::new(Condvar::new());
		let queue = Arc::new(Mutex::new(ServerQueue::new(queue_ready.clone())));
		let mut server = ServerImpl {
			queue_ready: queue_ready.clone(),
			queue: queue.clone(),
			worker_thread: None,
		};
		server.worker_thread = Some(thread::spawn(move || {
			ServerImpl::server_worker(queue_ready, queue, executor);
		}));
		server
	}

	fn server_worker<T: TaskExecutor>(queue_ready: Arc<Condvar>, queue: Arc<Mutex<ServerQueue>>, executor: ServerTaskExecutor<T>) {
		loop {
			let task = {
				let mut queue = queue.lock();
				if queue.is_stopping.load(Ordering::SeqCst) {
					break
				}

				queue.next_task()
					.or_else(|| {
						queue_ready.wait(&mut queue);
						queue.next_task()
					})
			};

			if let Some(task) = task {
				if let Some(task) = executor.execute(task) {
					queue.lock().add_task_front(task);
				}
			}
		}
	}
}

impl Drop for ServerImpl {
	fn drop(&mut self) {
		if let Some(join_handle) = self.worker_thread.take() {
			self.queue.lock().is_stopping.store(true, Ordering::SeqCst);
			self.queue_ready.notify_one();
			join_handle.join().expect("Clean shutdown.");
		}
	}
}

impl ServerQueue {
	pub fn new(queue_ready: Arc<Condvar>) -> Self {
		ServerQueue {
			is_stopping: AtomicBool::new(false),
			queue_ready: queue_ready,
			peers_queue: VecDeque::new(),
			tasks_queue: HashMap::new(),
		}
	}

	pub fn next_task(&mut self) -> Option<ServerTask> {
		self.peers_queue.pop_front()
			.map(|peer_index| {
				let (peer_task, is_last_peer_task) = {
					let peer_tasks = self.tasks_queue.get_mut(&peer_index)
						.expect("entry from tasks_queue is removed when empty; when empty, peer is removed from peers_queue; qed");
					let peer_task = peer_tasks.pop_front()
						.expect("entry from peer_tasks is removed when empty; when empty, peer is removed from peers_queue; qed");
					(peer_task, peer_tasks.is_empty())
				};

				// remove if no tasks left || schedule otherwise
				if !is_last_peer_task {
					self.peers_queue.push_back(peer_index);
				} else {
					self.tasks_queue.remove(&peer_index);
				}

				peer_task
			})
	}

	pub fn add_task(&mut self, task: ServerTask) {
		let peer_index = task.peer_index();
		match self.tasks_queue.entry(peer_index) {
			Entry::Occupied(mut entry) => {
				let add_to_peers_queue = entry.get().is_empty();
				entry.get_mut().push_back(task);
				if add_to_peers_queue {
					self.peers_queue.push_back(peer_index);
				}
			},
			Entry::Vacant(entry) => {
				let mut new_tasks = VecDeque::new();
				new_tasks.push_back(task);
				entry.insert(new_tasks);
				self.peers_queue.push_back(peer_index);
			}
		}
		self.queue_ready.notify_one();
	}

	pub fn add_task_front(&mut self, task: ServerTask) {
		let peer_index = task.peer_index();
		match self.tasks_queue.entry(peer_index) {
			Entry::Occupied(mut entry) => {
				let add_to_peers_queue = entry.get().is_empty();
				entry.get_mut().push_front(task);
				if add_to_peers_queue {
					self.peers_queue.push_back(peer_index);
				}
			},
			Entry::Vacant(entry) => {
				let mut new_tasks = VecDeque::new();
				new_tasks.push_back(task);
				entry.insert(new_tasks);
				self.peers_queue.push_back(peer_index);
			}
		}
		self.queue_ready.notify_one();
	}

	pub fn remove_peer_tasks(&mut self, peer_index: PeerIndex) {
		if self.tasks_queue.remove(&peer_index).is_some() {
			let position = self.peers_queue.iter().position(|p| p == &peer_index)
				.expect("there are tasks for peer in tasks_queue; all tasks from tasks_queue are queued in peers_queue; qed");
			self.peers_queue.remove(position);
		}
	}
}

impl<TExecutor> ServerTaskExecutor<TExecutor> where TExecutor: TaskExecutor {
	pub fn new(peers: PeersRef, storage: StorageRef, memory_pool: MemoryPoolRef, executor: ExecutorRef<TExecutor>) -> Self {
		ServerTaskExecutor {
			peers: peers,
			storage: storage,
			memory_pool: memory_pool,
			executor: executor,
		}
	}

	pub fn execute(&self, task: ServerTask) -> Option<ServerTask> {
		match task {
			ServerTask::GetData(peer_index, message) => return self.serve_get_data(peer_index, message),
			ServerTask::ReversedGetData(peer_index, message, notfound) => return self.serve_reversed_get_data(peer_index, message, notfound),
			ServerTask::GetBlocks(peer_index, message) => self.serve_get_blocks(peer_index, message),
			ServerTask::GetHeaders(peer_index, message, request_id) => self.serve_get_headers(peer_index, message, request_id),
			ServerTask::Mempool(peer_index) => self.serve_mempool(peer_index),
			ServerTask::GetBlockTxn(peer_index, message) => self.serve_get_block_txn(peer_index, message),
		}

		None
	}

	fn serve_get_data(&self, peer_index: PeerIndex, mut message: types::GetData) -> Option<ServerTask> {
		// getdata request is served by single item by just popping values from the back
		// of inventory vector
		// => to respond in given order, we have to reverse blocks inventory here
		message.inventory.reverse();
		// + while iterating by items, also accumulate unknown items to respond with notfound
		let notfound = types::NotFound { inventory: Vec::new(), };
		Some(ServerTask::ReversedGetData(peer_index, message, notfound))
	}

	fn serve_reversed_get_data(&self, peer_index: PeerIndex, mut message: types::GetData, mut notfound: types::NotFound) -> Option<ServerTask> {
		let next_item = match message.inventory.pop() {
			None => {
				if !notfound.inventory.is_empty() {
					trace!(target: "sync", "'getdata' from peer#{} container contains {} unknown items", peer_index, notfound.inventory.len());
					self.executor.execute(Task::NotFound(peer_index, notfound));
				}
				return None;
			},
			Some(next_item) => next_item,
		};

		match next_item.inv_type {
			common::InventoryType::MessageTx => {
				// only transaction from memory pool can be requested
				if let Some(transaction) = self.memory_pool.read().read_by_hash(&next_item.hash) {
					trace!(target: "sync", "'getblocks' response to peer#{} is ready with tx {}", peer_index, next_item.hash.to_reversed_str());
					let transaction = IndexedTransaction::new(next_item.hash, transaction.clone());
					self.executor.execute(Task::Transaction(peer_index, transaction));
				} else {
					notfound.inventory.push(next_item);
				}
			},
			common::InventoryType::MessageWitnessTx => {
				// only transaction from memory pool can be requested
				if let Some(transaction) = self.memory_pool.read().read_by_hash(&next_item.hash) {
					trace!(target: "sync", "'getblocks' response to peer#{} is ready with witness-tx {}", peer_index, next_item.hash.to_reversed_str());
					let transaction = IndexedTransaction::new(next_item.hash, transaction.clone());
					self.executor.execute(Task::WitnessTransaction(peer_index, transaction));
				} else {
					notfound.inventory.push(next_item);
				}
			},
			common::InventoryType::MessageBlock => {
				if let Some(block) = self.storage.block(next_item.hash.clone().into()) {
					trace!(target: "sync", "'getblocks' response to peer#{} is ready with block {}", peer_index, next_item.hash.to_reversed_str());
					self.executor.execute(Task::Block(peer_index, block.into()));
				} else {
					notfound.inventory.push(next_item);
				}
			},
			common::InventoryType::MessageFilteredBlock => {
				if let Some(block) = self.storage.block(next_item.hash.clone().into()) {
					let message_artefacts = self.peers.build_merkle_block(peer_index, &block.into());
					if let Some(message_artefacts) = message_artefacts {
						// send merkleblock first
						trace!(target: "sync", "'getblocks' response to peer#{} is ready with merkleblock {}", peer_index, next_item.hash.to_reversed_str());
						self.executor.execute(Task::MerkleBlock(peer_index, message_artefacts.merkleblock));

						// also send all matched transactions
						for matched_transaction in message_artefacts.matching_transactions {
							trace!(target: "sync", "'getblocks' response to peer#{} is ready with merkletx {}", peer_index, matched_transaction.hash.to_reversed_str());
							self.executor.execute(Task::Transaction(peer_index, matched_transaction));
						}
					} else {
						notfound.inventory.push(next_item);
					}
				} else {
					notfound.inventory.push(next_item);
				}
			},
			common::InventoryType::MessageCompactBlock => {
				if let Some(block) = self.storage.block(next_item.hash.clone().into()) {
					let message = self.peers.build_compact_block(peer_index, &block.into());
					if let Some(message) = message {
						trace!(target: "sync", "'getblocks' response to peer#{} is ready with compactblock {}", peer_index, next_item.hash.to_reversed_str());
						self.executor.execute(Task::CompactBlock(peer_index, message));
					}
				} else {
					notfound.inventory.push(next_item);
				}
			},
			common::InventoryType::MessageWitnessBlock => {
				if let Some(block) = self.storage.block(next_item.hash.clone().into()) {
					trace!(target: "sync", "'getblocks' response to peer#{} is ready with witness-block {}", peer_index, next_item.hash.to_reversed_str());
					self.executor.execute(Task::WitnessBlock(peer_index, block.into()));
				} else {
					notfound.inventory.push(next_item);
				}
			},
			common::InventoryType::Error | common::InventoryType::MessageWitnessFilteredBlock => (),
		}

		Some(ServerTask::ReversedGetData(peer_index, message, notfound))
	}

	fn serve_get_blocks(&self, peer_index: PeerIndex, message: types::GetBlocks) {
		if let Some(block_height) = self.locate_best_common_block(&message.hash_stop, &message.block_locator_hashes) {
			let inventory: Vec<_> = (block_height + 1..block_height + 1 + (types::GETBLOCKS_MAX_RESPONSE_HASHES as BlockHeight))
				.map(|block_height| self.storage.block_hash(block_height))
				.take_while(Option::is_some)
				.map(Option::unwrap)
				.take_while(|block_hash| block_hash != &message.hash_stop)
				.map(common::InventoryVector::block)
				.collect();
			// empty inventory messages are invalid according to regtests, while empty headers messages are valid
			if !inventory.is_empty() {
				trace!(target: "sync", "'getblocks' response to peer#{} is ready with {} hashes", peer_index, inventory.len());
				self.executor.execute(Task::Inventory(peer_index, types::Inv::with_inventory(inventory)));
			} else {
				trace!(target: "sync", "'getblocks' request from peer#{} is ignored as there are no new blocks for peer", peer_index);
			}
		} else {
			self.peers.misbehaving(peer_index, "Got 'getblocks' message without known blocks");
			return;
		}
	}

	fn serve_get_headers(&self, peer_index: PeerIndex, message: types::GetHeaders, request_id: RequestId) {
		if let Some(block_height) = self.locate_best_common_block(&message.hash_stop, &message.block_locator_hashes) {
			let headers: Vec<_> = (block_height + 1..block_height + 1 + (types::GETHEADERS_MAX_RESPONSE_HEADERS as BlockHeight))
				.map(|block_height| self.storage.block_hash(block_height))
				.take_while(Option::is_some)
				.map(Option::unwrap)
				.take_while(|block_hash| block_hash != &message.hash_stop)
				.map(|block_hash| self.storage.block_header(block_hash.into()))
				.take_while(Option::is_some)
				.map(Option::unwrap)
				.collect();
			// empty inventory messages are invalid according to regtests, while empty headers messages are valid
			trace!(target: "sync", "'getheaders' response to peer#{} is ready with {} headers", peer_index, headers.len());
			self.executor.execute(Task::Headers(peer_index, types::Headers::with_headers(headers), Some(request_id)));
		} else {
			self.peers.misbehaving(peer_index, "Got 'headers' message without known blocks");
			return;
		}
	}

	fn serve_mempool(&self, peer_index: PeerIndex) {
		let inventory: Vec<_> = self.memory_pool.read()
			.get_transactions_ids()
			.into_iter()
			.map(common::InventoryVector::tx)
			.collect();
		// empty inventory messages are invalid according to regtests, while empty headers messages are valid
		if !inventory.is_empty() {
			trace!(target: "sync", "'mempool' response to peer#{} is ready with {} transactions", peer_index, inventory.len());
			self.executor.execute(Task::Inventory(peer_index, types::Inv::with_inventory(inventory)));
		} else {
			trace!(target: "sync", "'mempool' request from peer#{} is ignored as pool is empty", peer_index);
		}
	}

	fn serve_get_block_txn(&self, peer_index: PeerIndex, message: types::GetBlockTxn) {
		// according to protocol documentation, we only should only respond
		// if requested block has been recently sent in 'cmpctblock'
		if !self.peers.is_hash_known_as(peer_index, &message.request.blockhash, KnownHashType::CompactBlock) {
			self.peers.misbehaving(peer_index, &format!("Got 'getblocktxn' message for non-sent block: {}", message.request.blockhash.to_reversed_str()));
			return;
		}

		let block_transactions = self.storage.block_transaction_hashes(message.request.blockhash.clone().into());
		let block_transactions_len = block_transactions.len();
		let requested_len = message.request.indexes.len();
		if requested_len > block_transactions_len {
			// peer has requested more transactions, than there are
			self.peers.misbehaving(peer_index, &format!("Got 'getblocktxn' message with {} transactions, when there are: {}", requested_len, block_transactions_len));
			return;
		}

		let mut requested_indexes = HashSet::new();
		let mut transactions = Vec::with_capacity(message.request.indexes.len());
		for transaction_index in message.request.indexes {
			if transaction_index >= block_transactions_len {
				// peer has requested index, larger than index of last transaction
				self.peers.misbehaving(peer_index, &format!("Got 'getblocktxn' message with index {}, larger than index of last transaction {}", transaction_index, block_transactions_len - 1));
				return;
			}
			if !requested_indexes.insert(transaction_index) {
				// peer has requested same index several times
				self.peers.misbehaving(peer_index, &format!("Got 'getblocktxn' message where same index {} has been requested several times", transaction_index));
				return;
			}

			if let Some(transaction) = self.storage.transaction(&block_transactions[transaction_index]) {
				transactions.push(transaction);
			} else {
				// we have just got this hash using block_transactions_hashes
				// => this is either some db error, or db has been pruned
				// => we can not skip transactions, according to protocol description
				// => ignore
				warn!(target: "sync", "'getblocktxn' request from peer#{} is ignored as we have failed to find transaction {} in storage", peer_index, block_transactions[transaction_index].to_reversed_str());
				return;
			}
		}

		trace!(target: "sync", "'getblocktxn' response to peer#{} is ready with {} transactions", peer_index, transactions.len());
		self.executor.execute(Task::BlockTxn(peer_index, types::BlockTxn {
			request: common::BlockTransactions {
				blockhash: message.request.blockhash,
				transactions: transactions,
			}
		}));
	}

	fn locate_best_common_block(&self, hash_stop: &H256, locator: &[H256]) -> Option<BlockHeight> {
		for block_hash in locator.iter().chain(&[hash_stop.clone()]) {
			if let Some(block_number) = self.storage.block_number(block_hash) {
				return Some(block_number);
			}

			// block with this hash is definitely not in the main chain (block_number has returned None)
			// but maybe it is in some fork? if so => we should find intersection with main chain
			// and this would be our best common block
			let mut block_hash = block_hash.clone();
			loop {
				let block_header = match self.storage.block_header(block_hash.into()) {
					None => break,
					Some(block_header) => block_header,
				};

				if let Some(block_number) = self.storage.block_number(&block_header.previous_header_hash) {
					return Some(block_number);
				}

				block_hash = block_header.previous_header_hash;
			}
		}

		None
	}
}

#[cfg(test)]
pub mod tests {
	extern crate test_data;

	use std::mem::replace;
	use std::sync::Arc;
	use parking_lot::{Mutex, RwLock};
	use db::{BlockChainDatabase};
	use message::types;
	use message::common::{self, Services, InventoryVector, InventoryType};
	use primitives::hash::H256;
	use chain::Transaction;
	use inbound_connection::tests::DummyOutboundSyncConnection;
	use miner::MemoryPool;
	use local_node::tests::{default_filterload, make_filteradd};
	use synchronization_executor::Task;
	use synchronization_executor::tests::DummyTaskExecutor;
	use synchronization_peers::{PeersContainer, PeersFilters, PeersImpl};
	use types::{PeerIndex, StorageRef, MemoryPoolRef, PeersRef, ExecutorRef};
	use utils::KnownHashType;
	use super::{Server, ServerTask, ServerImpl, ServerTaskExecutor};

	pub struct DummyServer {
		tasks: Mutex<Vec<ServerTask>>,
	}

	impl DummyServer {
		pub fn new() -> Self {
			DummyServer {
				tasks: Mutex::new(Vec::new()),
			}
		}

		pub fn take_tasks(&self) -> Vec<ServerTask> {
			replace(&mut *self.tasks.lock(), Vec::new())
		}
	}

	impl Server for DummyServer {
		fn execute(&self, task: ServerTask) {
			self.tasks.lock().push(task);
		}

		fn on_disconnect(&self, _peer_index: PeerIndex) {
		}
	}

	fn create_synchronization_server() -> (StorageRef, MemoryPoolRef, ExecutorRef<DummyTaskExecutor>, PeersRef, ServerImpl) {
		let peers = Arc::new(PeersImpl::default());
		let storage = Arc::new(BlockChainDatabase::init_test_chain(vec![test_data::genesis().into()]));
		let memory_pool = Arc::new(RwLock::new(MemoryPool::new()));
		let executor = DummyTaskExecutor::new();
		let server = ServerImpl::new(peers.clone(), storage.clone(), memory_pool.clone(), executor.clone());
		(storage, memory_pool, executor, peers, server)
	}

	#[test]
	fn server_getdata_responds_notfound_when_block_not_found() {
		let (_, _, executor, _, server) = create_synchronization_server();
		// when asking for unknown block
		let inventory = vec![
			InventoryVector {
				inv_type: InventoryType::MessageBlock,
				hash: H256::default(),
			}
		];
		server.execute(ServerTask::GetData(0, types::GetData::with_inventory(inventory.clone())));
		// => respond with notfound
		let tasks = DummyTaskExecutor::wait_tasks(executor);
		assert_eq!(tasks, vec![Task::NotFound(0, types::NotFound::with_inventory(inventory))]);
	}

	#[test]
	fn server_getdata_responds_block_when_block_is_found() {
		let (_, _, executor, _, server) = create_synchronization_server();
		// when asking for known block
		let inventory = vec![
			InventoryVector {
				inv_type: InventoryType::MessageBlock,
				hash: test_data::genesis().hash(),
			}
		];
		server.execute(ServerTask::GetData(0, types::GetData::with_inventory(inventory.clone())));
		// => respond with block
		let tasks = DummyTaskExecutor::wait_tasks(executor);
		assert_eq!(tasks, vec![Task::Block(0, test_data::genesis().into())]);
	}

	#[test]
	fn server_getblocks_do_not_responds_inventory_when_synchronized() {
		let (_, _, executor, _, server) = create_synchronization_server();
		// when asking for blocks hashes
		let genesis_block_hash = test_data::genesis().hash();
		server.execute(ServerTask::GetBlocks(0, types::GetBlocks {
			version: 0,
			block_locator_hashes: vec![genesis_block_hash.clone()],
			hash_stop: H256::default(),
		}));
		// => empty response
		let tasks = DummyTaskExecutor::wait_tasks_for(executor, 100); // TODO: get rid of explicit timeout
		assert_eq!(tasks, vec![]);
	}

	#[test]
	fn server_getblocks_responds_inventory_when_have_unknown_blocks() {
		let (storage, _, executor, _, server) = create_synchronization_server();
		storage.insert(test_data::block_h1().into()).expect("Db write error");
		storage.canonize(&test_data::block_h1().hash()).unwrap();
		// when asking for blocks hashes
		server.execute(ServerTask::GetBlocks(0, types::GetBlocks {
			version: 0,
			block_locator_hashes: vec![test_data::genesis().hash()],
			hash_stop: H256::default(),
		}));
		// => responds with inventory
		let inventory = vec![InventoryVector {
			inv_type: InventoryType::MessageBlock,
			hash: test_data::block_h1().hash(),
		}];
		let tasks = DummyTaskExecutor::wait_tasks(executor);
		assert_eq!(tasks, vec![Task::Inventory(0, types::Inv::with_inventory(inventory))]);
	}

	#[test]
	fn server_getheaders_do_not_responds_headers_when_synchronized() {
		let (_, _, executor, _, server) = create_synchronization_server();
		// when asking for blocks hashes
		let genesis_block_hash = test_data::genesis().hash();
		let dummy_id = 6;
		server.execute(ServerTask::GetHeaders(0, types::GetHeaders {
			version: 0,
			block_locator_hashes: vec![genesis_block_hash.clone()],
			hash_stop: H256::default(),
		}, dummy_id));
		// => no response
		let tasks = DummyTaskExecutor::wait_tasks_for(executor, 100); // TODO: get rid of explicit timeout
		assert_eq!(tasks, vec![Task::Headers(0, types::Headers::with_headers(vec![]), Some(dummy_id))]);
	}

	#[test]
	fn server_getheaders_responds_headers_when_have_unknown_blocks() {
		let (storage, _, executor, _, server) = create_synchronization_server();
		storage.insert(test_data::block_h1().into()).expect("Db write error");
		storage.canonize(&test_data::block_h1().hash()).unwrap();
		// when asking for blocks hashes
		let dummy_id = 0;
		server.execute(ServerTask::GetHeaders(0, types::GetHeaders {
			version: 0,
			block_locator_hashes: vec![test_data::genesis().hash()],
			hash_stop: H256::default(),
		}, dummy_id));
		// => responds with headers
		let headers = vec![
			test_data::block_h1().block_header,
		];
		let tasks = DummyTaskExecutor::wait_tasks(executor);
		assert_eq!(tasks, vec![Task::Headers(0, types::Headers::with_headers(headers), Some(dummy_id))]);
	}

	#[test]
	fn server_mempool_do_not_responds_inventory_when_empty_memory_pool() {
		let (_, _, executor, _, server) = create_synchronization_server();
		// when asking for memory pool transactions ids
		server.execute(ServerTask::Mempool(0));
		// => no response
		let tasks = DummyTaskExecutor::wait_tasks_for(executor, 100); // TODO: get rid of explicit timeout
		assert_eq!(tasks, vec![]);
	}

	#[test]
	fn server_mempool_responds_inventory_when_non_empty_memory_pool() {
		let (_, memory_pool, executor, _, server) = create_synchronization_server();
		// when memory pool is non-empty
		let transaction = Transaction::default();
		let transaction_hash = transaction.hash();
		memory_pool.write().insert_verified(transaction.into());
		// when asking for memory pool transactions ids
		server.execute(ServerTask::Mempool(0));
		// => respond with inventory
		let inventory = vec![InventoryVector {
			inv_type: InventoryType::MessageTx,
			hash: transaction_hash,
		}];
		let tasks = DummyTaskExecutor::wait_tasks(executor);
		assert_eq!(tasks, vec![Task::Inventory(0, types::Inv::with_inventory(inventory))]);
	}

	#[test]
	fn server_get_block_txn_responds_when_good_request() {
		let (_, _, executor, peers, server) = create_synchronization_server();

		peers.insert(0, Services::default(), DummyOutboundSyncConnection::new());
		peers.hash_known_as(0, test_data::genesis().hash(), KnownHashType::CompactBlock);

		// when asking for block_txns
		server.execute(ServerTask::GetBlockTxn(0, types::GetBlockTxn {
			request: common::BlockTransactionsRequest {
				blockhash: test_data::genesis().hash(),
				indexes: vec![0],
			}
		}));

		// server responds with transactions
		let tasks = DummyTaskExecutor::wait_tasks(executor);
		assert_eq!(tasks, vec![Task::BlockTxn(0, types::BlockTxn {
			request: common::BlockTransactions {
				blockhash: test_data::genesis().hash(),
				transactions: vec![test_data::genesis().transactions[0].clone()],
			}
		})]);
	}

	#[test]
	fn server_get_block_txn_do_not_responds_when_bad_request() {
		let (_, _, _, peers, server) = create_synchronization_server();

		peers.insert(0, Services::default(), DummyOutboundSyncConnection::new());
		assert!(peers.enumerate().contains(&0));

		// when asking for block_txns
		server.execute(ServerTask::GetBlockTxn(0, types::GetBlockTxn {
			request: common::BlockTransactionsRequest {
				blockhash: test_data::genesis().hash(),
				indexes: vec![1],
			}
		}));

		// server closes connection
		use std::thread;
		use std::time::Duration;
		thread::park_timeout(Duration::from_millis(100)); // TODO: get rid of timeout
		assert!(!peers.enumerate().contains(&0));
	}

	#[test]
	fn server_getdata_responds_notfound_when_transaction_is_inaccessible() {
		let (_, _, executor, _, server) = create_synchronization_server();
		// when asking for unknown transaction or transaction that is already in the storage
		let inventory = vec![
			InventoryVector {
				inv_type: InventoryType::MessageTx,
				hash: H256::default(),
			},
			InventoryVector {
				inv_type: InventoryType::MessageTx,
				hash: test_data::genesis().transactions[0].hash(),
			},
		];
		server.execute(ServerTask::GetData(0, types::GetData::with_inventory(inventory.clone())));
		// => respond with notfound
		let tasks = DummyTaskExecutor::wait_tasks(executor);
		assert_eq!(tasks, vec![Task::NotFound(0, types::NotFound::with_inventory(inventory))]);
	}

	#[test]
	fn server_getdata_responds_transaction_when_transaction_is_in_memory() {
		let (_, memory_pool, executor, _, server) = create_synchronization_server();
		let tx_verified: Transaction = test_data::TransactionBuilder::with_output(20).into();
		let tx_verified_hash = tx_verified.hash();
		// given in-memory transaction
		{
			memory_pool.write().insert_verified(tx_verified.clone().into());
		}
		// when asking for known in-memory transaction
		let inventory = vec![
			InventoryVector {
				inv_type: InventoryType::MessageTx,
				hash: tx_verified_hash,
			},
		];
		server.execute(ServerTask::GetData(0, types::GetData::with_inventory(inventory.clone())));
		// => respond with transaction
		let mut tasks = DummyTaskExecutor::wait_tasks(executor.clone());
		// 2 tasks => can be situation when single task is ready
		if tasks.len() != 2 {
			tasks.extend(DummyTaskExecutor::wait_tasks_for(executor, 100));
		}
		assert_eq!(tasks, vec![
			Task::Transaction(0, tx_verified.into()),
		]);
	}

	#[test]
	fn server_responds_with_nonempty_inventory_when_getdata_stop_hash_filled() {
		let (storage, _, executor, _, server) = create_synchronization_server();
		{
			storage.insert(test_data::block_h1().into()).expect("no error");
			storage.canonize(&test_data::block_h1().hash()).unwrap();
		}
		// when asking with stop_hash
		server.execute(ServerTask::GetBlocks(0, types::GetBlocks {
			version: 0,
			block_locator_hashes: vec![],
			hash_stop: test_data::genesis().hash(),
		}));
		// => respond with next block
		let inventory = vec![InventoryVector {
			inv_type: InventoryType::MessageBlock,
			hash: test_data::block_h1().hash(),
		}];
		let tasks = DummyTaskExecutor::wait_tasks(executor);
		assert_eq!(tasks, vec![Task::Inventory(0, types::Inv::with_inventory(inventory))]);
	}

	#[test]
	fn server_responds_with_nonempty_headers_when_getdata_stop_hash_filled() {
		let (storage, _, executor, _, server) = create_synchronization_server();
		{
			storage.insert(test_data::block_h1().into()).expect("no error");
			storage.canonize(&test_data::block_h1().hash()).unwrap();
		}
		// when asking with stop_hash
		let dummy_id = 6;
		server.execute(ServerTask::GetHeaders(0, types::GetHeaders {
			version: 0,
			block_locator_hashes: vec![],
			hash_stop: test_data::genesis().hash(),
		}, dummy_id));
		// => respond with next block
		let headers = vec![
			test_data::block_h1().block_header,
		];
		let tasks = DummyTaskExecutor::wait_tasks(executor);
		assert_eq!(tasks, vec![Task::Headers(0, types::Headers::with_headers(headers), Some(dummy_id))]);
	}

	#[test]
	fn server_serves_merkleblock() {
		let peers = Arc::new(PeersImpl::default());
		let storage = Arc::new(BlockChainDatabase::init_test_chain(vec![test_data::genesis().into()]));
		let memory_pool = Arc::new(RwLock::new(MemoryPool::new()));
		let sync_executor = DummyTaskExecutor::new();
		let executor = ServerTaskExecutor::new(peers.clone(), storage.clone(), memory_pool.clone(), sync_executor.clone());

		let genesis = test_data::genesis();
		let b1 = test_data::block_builder().header().parent(genesis.hash()).build()
			.transaction().output().value(10).build().build()
			.build(); // genesis -> b1
		let b2 = test_data::block_builder().header().parent(b1.hash()).build()
			.transaction().output().value(20).build().build()
			.build(); // genesis -> b1 -> b2
		let tx1 = b1.transactions[0].clone();
		let tx2 = b2.transactions[0].clone();
		let tx1_hash = tx1.hash();
		let tx2_hash = tx2.hash();
		let b1_hash = b1.hash();
		let b2_hash = b2.hash();

		// This peer will provide blocks
		storage.insert(b1.clone().into()).expect("no error");
		storage.insert(b2.clone().into()).expect("no error");
		storage.canonize(&b1.hash()).unwrap();
		storage.canonize(&b2.hash()).unwrap();

		// This peer won't get any blocks, because it has not set filter for the connection
		let peer_index2 = 1; peers.insert(peer_index2, Services::default(), DummyOutboundSyncConnection::new());

		let mut loop_task = ServerTask::GetData(peer_index2, types::GetData {inventory: vec![
			InventoryVector { inv_type: InventoryType::MessageFilteredBlock, hash: b1_hash.clone() },
			InventoryVector { inv_type: InventoryType::MessageFilteredBlock, hash: b2_hash.clone() },
		]});
		while let Some(new_task) = executor.execute(loop_task) {
			loop_task = new_task;
		}
		assert_eq!(sync_executor.take_tasks(), vec![Task::NotFound(peer_index2, types::NotFound::with_inventory(vec![
				InventoryVector { inv_type: InventoryType::MessageFilteredBlock, hash: b1_hash.clone() },
				InventoryVector { inv_type: InventoryType::MessageFilteredBlock, hash: b2_hash.clone() },
		]))]);

		let peers_config = vec![
			(true, false), // will get tx1
			(false, true), // will get tx2
			(true, true), // will get both tx
			(false, false), // won't get any tx
		];

		let mut counter = 2;
		for (get_tx1, get_tx2) in peers_config {
			let peer_index = counter; peers.insert(peer_index, Services::default(), DummyOutboundSyncConnection::new());
			counter += 1;
			// setup filter
			peers.set_bloom_filter(peer_index, default_filterload());
			if get_tx1 {
				peers.update_bloom_filter(peer_index, make_filteradd(&*tx1_hash));
			}
			if get_tx2 {
				peers.update_bloom_filter(peer_index, make_filteradd(&*tx2_hash));
			}

			// ask for data
			let mut loop_task = ServerTask::GetData(peer_index, types::GetData {inventory: vec![
				InventoryVector { inv_type: InventoryType::MessageFilteredBlock, hash: b1_hash.clone() },
				InventoryVector { inv_type: InventoryType::MessageFilteredBlock, hash: b2_hash.clone() },
			]});
			while let Some(new_task) = executor.execute(loop_task) {
				loop_task = new_task;
			}

			// get server tasks
			let mut index = 0;
			let tasks = sync_executor.take_tasks();
			match tasks[index] {
				Task::MerkleBlock(_, _) => {
					if get_tx1 {
						index += 1;
						match tasks[index] {
							Task::Transaction(_, _) => (),
							_ => panic!("unexpected"),
						}
					}
				},
				_ => panic!("unexpected"),
			}
			index += 1;

			match tasks[index] {
				Task::MerkleBlock(_, _) => {
					if get_tx2 {
						index += 1;
						match tasks[index] {
							Task::Transaction(_, _) => (),
							_ => panic!("unexpected"),
						}
					}
				},
				_ => panic!("unexpected"),
			}
		}
	}

	#[test]
	fn server_serves_compactblock() {
		let peers = Arc::new(PeersImpl::default());
		let storage = Arc::new(BlockChainDatabase::init_test_chain(vec![test_data::genesis().into()]));
		let memory_pool = Arc::new(RwLock::new(MemoryPool::new()));
		let sync_executor = DummyTaskExecutor::new();
		let executor = ServerTaskExecutor::new(peers.clone(), storage.clone(), memory_pool.clone(), sync_executor.clone());

		let genesis = test_data::genesis();
		let b1 = test_data::block_builder().header().parent(genesis.hash()).build()
			.transaction().output().value(10).build().build()
			.build(); // genesis -> b1
		let b1_hash = b1.hash();

		// This peer will provide blocks
		storage.insert(b1.clone().into()).expect("no error");
		storage.canonize(&b1.hash()).unwrap();

		// This peer will receive compact block
		let peer_index2 = 1; peers.insert(peer_index2, Services::default(), DummyOutboundSyncConnection::new());

		// ask for data
		let mut loop_task = ServerTask::GetData(peer_index2, types::GetData {inventory: vec![
			InventoryVector { inv_type: InventoryType::MessageCompactBlock, hash: b1_hash.clone() },
		]});
		while let Some(new_task) = executor.execute(loop_task) {
			loop_task = new_task;
		}

		let tasks = sync_executor.take_tasks();
		assert_eq!(tasks.len(), 1);
		match tasks[0] {
			Task::CompactBlock(_, _) => (),
			_ => panic!("unexpected"),
		}
	}
}