def setUp(self):
     order_id = OrderId(TraderId(b'3' * 20), OrderNumber(1))
     self.ask_order = Order(
         order_id, AssetPair(AssetAmount(5, 'BTC'), AssetAmount(6, 'EUR')),
         Timeout(3600), Timestamp.now(), True)
     self.bid_order = Order(
         order_id, AssetPair(AssetAmount(5, 'BTC'), AssetAmount(6, 'EUR')),
         Timeout(3600), Timestamp.now(), False)
     self.queue = MatchPriorityQueue(self.ask_order)
Esempio n. 2
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 def __init__(self, community, order):
     super(MatchCache, self).__init__(community.request_cache, "match", int(order.order_id.order_number))
     self.community = community
     self.order = order
     self.matches = {}
     self.schedule_propose = None
     self.schedule_task = None
     self.schedule_task_done = False
     self.outstanding_requests = []
     self.received_responses_ids = set()
     self.queue = MatchPriorityQueue(self.order)
    def test_priority(self):
        """
        Test the priority mechanism of the queue
        """
        order_id = OrderId(TraderId(b'1' * 20), OrderNumber(1))
        self.queue.insert(1, Price(1, 1, 'DUM1', 'DUM2'), order_id)
        self.queue.insert(0, Price(1, 1, 'DUM1', 'DUM2'), order_id)
        self.queue.insert(2, Price(1, 1, 'DUM1', 'DUM2'), order_id)

        item1 = self.queue.delete()
        item2 = self.queue.delete()
        item3 = self.queue.delete()
        self.assertEqual(item1[0], 0)
        self.assertEqual(item2[0], 1)
        self.assertEqual(item3[0], 2)

        # Same retries, different prices
        self.queue.insert(1, Price(1, 1, 'DUM1', 'DUM2'), order_id)
        self.queue.insert(1, Price(1, 2, 'DUM1', 'DUM2'), order_id)
        self.queue.insert(1, Price(1, 3, 'DUM1', 'DUM2'), order_id)

        item1 = self.queue.delete()
        item2 = self.queue.delete()
        item3 = self.queue.delete()
        self.assertEqual(item1[1], Price(1, 1, 'DUM1', 'DUM2'))
        self.assertEqual(item2[1], Price(1, 2, 'DUM1', 'DUM2'))
        self.assertEqual(item3[1], Price(1, 3, 'DUM1', 'DUM2'))

        # Test with bid order
        self.queue = MatchPriorityQueue(self.bid_order)
        self.queue.insert(1, Price(1, 1, 'DUM1', 'DUM2'), order_id)
        self.queue.insert(1, Price(1, 2, 'DUM1', 'DUM2'), order_id)
        self.queue.insert(1, Price(1, 3, 'DUM1', 'DUM2'), order_id)

        item1 = self.queue.delete()
        item2 = self.queue.delete()
        item3 = self.queue.delete()
        self.assertEqual(item1[1], Price(1, 3, 'DUM1', 'DUM2'))
        self.assertEqual(item2[1], Price(1, 2, 'DUM1', 'DUM2'))
        self.assertEqual(item3[1], Price(1, 1, 'DUM1', 'DUM2'))
Esempio n. 4
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def test_priority(bid_order, queue):
    """
    Test the priority mechanism of the queue
    """
    order_id = OrderId(TraderId(b'1' * 20), OrderNumber(1))
    other_order_id = OrderId(TraderId(b'2' * 20), OrderNumber(1))
    queue.insert(1, Price(1, 1, 'DUM1', 'DUM2'), order_id, other_order_id)
    queue.insert(0, Price(1, 1, 'DUM1', 'DUM2'), order_id, other_order_id)
    queue.insert(2, Price(1, 1, 'DUM1', 'DUM2'), order_id, other_order_id)

    item1 = queue.delete()
    item2 = queue.delete()
    item3 = queue.delete()
    assert item1[0] == 0
    assert item2[0] == 1
    assert item3[0] == 2

    # Same retries, different prices
    queue.insert(1, Price(1, 1, 'DUM1', 'DUM2'), order_id, other_order_id)
    queue.insert(1, Price(1, 2, 'DUM1', 'DUM2'), order_id, other_order_id)
    queue.insert(1, Price(1, 3, 'DUM1', 'DUM2'), order_id, other_order_id)

    item1 = queue.delete()
    item2 = queue.delete()
    item3 = queue.delete()
    assert item1[1] == Price(1, 1, 'DUM1', 'DUM2')
    assert item2[1] == Price(1, 2, 'DUM1', 'DUM2')
    assert item3[1] == Price(1, 3, 'DUM1', 'DUM2')

    # Test with bid order
    queue = MatchPriorityQueue(bid_order)
    queue.insert(1, Price(1, 1, 'DUM1', 'DUM2'), order_id, other_order_id)
    queue.insert(1, Price(1, 2, 'DUM1', 'DUM2'), order_id, other_order_id)
    queue.insert(1, Price(1, 3, 'DUM1', 'DUM2'), order_id, other_order_id)

    item1 = queue.delete()
    item2 = queue.delete()
    item3 = queue.delete()
    assert item1[1] == Price(1, 3, 'DUM1', 'DUM2')
    assert item2[1] == Price(1, 2, 'DUM1', 'DUM2')
    assert item3[1] == Price(1, 1, 'DUM1', 'DUM2')
Esempio n. 5
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def queue(ask_order):
    return MatchPriorityQueue(ask_order)
Esempio n. 6
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class MatchCache(NumberCache):
    """
    This cache keeps track of incoming match messages for a specific order.
    """

    def __init__(self, community, order):
        super(MatchCache, self).__init__(community.request_cache, "match", int(order.order_id.order_number))
        self.community = community
        self.order = order
        self.matches = {}
        self.schedule_propose = None
        self.schedule_task = None
        self.schedule_task_done = False
        self.outstanding_requests = []
        self.received_responses_ids = set()
        self.queue = MatchPriorityQueue(self.order)

    @property
    def timeout_delay(self):
        return 7200.0

    def on_timeout(self):
        pass

    def add_match(self, match_payload):
        """
        Add a match to the queue.
        """
        if self.order.status != "open":
            self._logger.info("Ignoring match payload, order %s not open anymore", self.order.order_id)
            return

        other_order_id = OrderId(match_payload.trader_id, match_payload.order_number)
        if other_order_id not in self.matches:
            self.matches[other_order_id] = []

        # We do not want to add the match twice
        exists = False
        for match_payload in self.matches[other_order_id]:
            match_order_id = OrderId(match_payload.trader_id, match_payload.order_number)
            if match_order_id == other_order_id:
                exists = True
                break

        if not exists:
            self.matches[other_order_id].append(match_payload)

        if not self.queue.contains_order(other_order_id) and not self.has_outstanding_request_with_order_id(
                other_order_id):
            self._logger.debug("Adding match payload with own order id %s and other id %s to queue",
                               self.order.order_id, other_order_id)
            self.queue.insert(0, match_payload.assets.price, other_order_id, match_payload.assets.first.amount)

        if not self.schedule_task:
            # Schedule a timer
            self._logger.info("Scheduling batch match of order %s" % str(self.order.order_id))
            self.schedule_task = call_later(self.community.settings.match_window,
                                            self.start_process_matches, ignore_errors=True)
        elif self.schedule_task_done and not self.outstanding_requests:
            # If we are currently not processing anything and the schedule task is done, process the matches
            self.process_match()

    def start_process_matches(self):
        """
        Start processing the batch of matches.
        """
        self.schedule_task_done = True
        self._logger.info("Processing incoming matches for order %s", self.order.order_id)

        # It could be that the order has already been completed while waiting - we should let the matchmaker know
        if self.order.status != "open":
            self._logger.info("Order %s is already fulfilled - notifying matchmakers", self.order.order_id)
            for _, matches in self.matches.items():
                for match_payload in matches:
                    # Send a declined trade back
                    other_order_id = OrderId(match_payload.trader_id, match_payload.order_number)
                    self.community.send_decline_match_message(self.order, other_order_id,
                                                              match_payload.matchmaker_trader_id,
                                                              DeclineMatchReason.ORDER_COMPLETED)
            self.matches = {}
            return

        self.process_match()

    def process_match(self):
        """
        Process the first eligible match. First, we sort the list based on price.
        """
        items_processed = 0
        while self.order.available_quantity > 0 and not self.queue.is_empty():
            item = self.queue.delete()
            retries, price, other_order_id, other_quantity = item
            self.outstanding_requests.append(item)
            if retries == 0:
                propose_quantity = min(self.order.available_quantity, other_quantity)
                self.order.reserve_quantity_for_tick(other_order_id, propose_quantity)
                self.community.order_manager.order_repository.update(self.order)
                ensure_future(self.community.accept_match_and_propose(self.order, other_order_id, price, other_quantity,
                                                                      propose_quantity=propose_quantity,
                                                                      should_reserve=False))
            else:
                task_id = "%s-%s" % (self.order.order_id, other_order_id)
                if not self.community.is_pending_task_active(task_id):
                    delay = random.uniform(1, 2)
                    self.community.register_task(task_id, self.community.accept_match_and_propose, self.order,
                                                 other_order_id, price, other_quantity, delay=delay)
            items_processed += 1

            if items_processed == self.community.settings.match_process_batch_size:  # Limit the number of outgoing items when processing
                break

        self._logger.debug("Processed %d items in this batch", items_processed)

    def received_decline_trade(self, other_order_id, decline_reason):
        """
        The counterparty refused to trade - update the cache accordingly.
        """
        self.received_responses_ids.add(other_order_id)
        if decline_reason == DeclinedTradeReason.ORDER_COMPLETED and other_order_id in self.matches:
            # Let the matchmakers know that the order is complete
            for match_payload in self.matches[other_order_id]:
                self.community.send_decline_match_message(self.order,
                                                          other_order_id,
                                                          match_payload.matchmaker_trader_id,
                                                          DeclineMatchReason.OTHER_ORDER_COMPLETED)
        elif decline_reason == DeclinedTradeReason.ORDER_CANCELLED and other_order_id in self.matches:
            # Let the matchmakers know that the order is cancelled
            for match_payload in self.matches[other_order_id]:
                self.community.send_decline_match_message(self.order,
                                                          other_order_id,
                                                          match_payload.matchmaker_trader_id,
                                                          DeclineMatchReason.OTHER_ORDER_CANCELLED)
        elif decline_reason == DeclinedTradeReason.ADDRESS_LOOKUP_FAIL and other_order_id in self.matches:
            # Let the matchmakers know that the address resolution failed
            for match_payload in self.matches[other_order_id]:
                self.community.send_decline_match_message(self.order,
                                                          other_order_id,
                                                          match_payload.matchmaker_trader_id,
                                                          DeclineMatchReason.OTHER)
        elif decline_reason in [DeclinedTradeReason.ORDER_RESERVED, DeclinedTradeReason.ALREADY_TRADING] and \
                self.has_outstanding_request_with_order_id(other_order_id):
            # Add it to the queue again
            outstanding_request = self.get_outstanding_request_with_order_id(other_order_id)
            self._logger.debug("Adding entry (%d, %s, %s, %d) to matching queue again", *outstanding_request)
            self.queue.insert(outstanding_request[0] + 1, outstanding_request[1], outstanding_request[2], outstanding_request[3])
        elif decline_reason == DeclinedTradeReason.NO_AVAILABLE_QUANTITY and \
                self.has_outstanding_request_with_order_id(other_order_id):
            # Re-add the item to the queue, with the same priority
            outstanding_request = self.get_outstanding_request_with_order_id(other_order_id)
            self.queue.insert(outstanding_request[0], outstanding_request[1], outstanding_request[2], outstanding_request[3])

        self.remove_outstanding_requests_with_order_id(other_order_id)

        if self.order.status == "open":
            self.process_match()

    def has_outstanding_request_with_order_id(self, order_id):
        for _, _, item_order_id, _ in self.outstanding_requests:
            if order_id == order_id:
                return True

        return False

    def get_outstanding_request_with_order_id(self, order_id):
        for item in self.outstanding_requests:
            _, _, item_order_id, _ = item
            if order_id == order_id:
                return item

        return None

    def remove_outstanding_requests_with_order_id(self, order_id):
        # Remove outstanding request entries with this order id
        to_remove = []
        for item in self.outstanding_requests:
            _, _, item_order_id, _ = item
            if item_order_id == order_id:
                to_remove.append(item)

        for item in to_remove:
            self.outstanding_requests.remove(item)

    def remove_order(self, order_id):
        """
        Remove all entries from the queue that match the passed order id.
        """
        to_remove = []
        for item in self.queue.queue:
            if item[2] == order_id:
                to_remove.append(item)

        for item in to_remove:
            self.queue.queue.remove(item)

    def did_trade(self, transaction, block):
        """
        We just performed a trade with a counterparty.
        """
        other_order_id = transaction.partner_order_id
        self.remove_outstanding_requests_with_order_id(other_order_id)
        if other_order_id not in self.matches:
            return

        self.received_responses_ids.add(other_order_id)

        for match_payload in self.matches[other_order_id]:
            self._logger.info("Sending transaction completed (order %s) to matchmaker %s", transaction.order_id,
                              match_payload.matchmaker_trader_id.as_hex())

            linked_block = self.community.trustchain.persistence.get_linked(block) or block
            global_time = self.community.claim_global_time()
            dist = GlobalTimeDistributionPayload(global_time)
            payload = HalfBlockPairPayload.from_half_blocks(block, linked_block)
            packet = self.community._ez_pack(self.community._prefix, MSG_MATCH_DONE, [dist, payload], False)
            self.community.endpoint.send(self.community.lookup_ip(match_payload.matchmaker_trader_id), packet)

        if self.order.status == "open":
            self.process_match()
class TestMatchQueue(unittest.TestCase):
    """
    This class contains tests for the MatchingPriorityQueue object.
    """
    def setUp(self):
        order_id = OrderId(TraderId(b'3' * 20), OrderNumber(1))
        self.ask_order = Order(
            order_id, AssetPair(AssetAmount(5, 'BTC'), AssetAmount(6, 'EUR')),
            Timeout(3600), Timestamp.now(), True)
        self.bid_order = Order(
            order_id, AssetPair(AssetAmount(5, 'BTC'), AssetAmount(6, 'EUR')),
            Timeout(3600), Timestamp.now(), False)
        self.queue = MatchPriorityQueue(self.ask_order)

    def test_priority(self):
        """
        Test the priority mechanism of the queue
        """
        order_id = OrderId(TraderId(b'1' * 20), OrderNumber(1))
        self.queue.insert(1, Price(1, 1, 'DUM1', 'DUM2'), order_id)
        self.queue.insert(0, Price(1, 1, 'DUM1', 'DUM2'), order_id)
        self.queue.insert(2, Price(1, 1, 'DUM1', 'DUM2'), order_id)

        item1 = self.queue.delete()
        item2 = self.queue.delete()
        item3 = self.queue.delete()
        self.assertEqual(item1[0], 0)
        self.assertEqual(item2[0], 1)
        self.assertEqual(item3[0], 2)

        # Same retries, different prices
        self.queue.insert(1, Price(1, 1, 'DUM1', 'DUM2'), order_id)
        self.queue.insert(1, Price(1, 2, 'DUM1', 'DUM2'), order_id)
        self.queue.insert(1, Price(1, 3, 'DUM1', 'DUM2'), order_id)

        item1 = self.queue.delete()
        item2 = self.queue.delete()
        item3 = self.queue.delete()
        self.assertEqual(item1[1], Price(1, 1, 'DUM1', 'DUM2'))
        self.assertEqual(item2[1], Price(1, 2, 'DUM1', 'DUM2'))
        self.assertEqual(item3[1], Price(1, 3, 'DUM1', 'DUM2'))

        # Test with bid order
        self.queue = MatchPriorityQueue(self.bid_order)
        self.queue.insert(1, Price(1, 1, 'DUM1', 'DUM2'), order_id)
        self.queue.insert(1, Price(1, 2, 'DUM1', 'DUM2'), order_id)
        self.queue.insert(1, Price(1, 3, 'DUM1', 'DUM2'), order_id)

        item1 = self.queue.delete()
        item2 = self.queue.delete()
        item3 = self.queue.delete()
        self.assertEqual(item1[1], Price(1, 3, 'DUM1', 'DUM2'))
        self.assertEqual(item2[1], Price(1, 2, 'DUM1', 'DUM2'))
        self.assertEqual(item3[1], Price(1, 1, 'DUM1', 'DUM2'))