def test_full_wraparound(self): sim_reset() node = QuantumNode("TestNode 1", 1) node2 = QuantumNode("TestNode 2", 2) conn = ClassicalFibreConnection(node, node2, length=25) wSize = 2 maxSeq = 6 dq = DistributedQueue(node, conn, numQueues=3, throw_local_queue_events=True, myWsize=wSize, otherWsize=wSize, maxSeq=maxSeq) dq2 = DistributedQueue(node2, conn, numQueues=3, throw_local_queue_events=True, myWsize=wSize, otherWsize=wSize, maxSeq=maxSeq) dq.connect_to_peer_protocol(dq2, conn) nodes = [ (node, [dq]), (node2, [dq2]), ] conns = [(conn, "dq_conn", [dq, dq2])] network = EasyNetwork(name="DistQueueNetwork", nodes=nodes, connections=conns) network.start() for timestep in range(1, maxSeq + 1): dq.add(timestep, 0) sim_run(timestep * 1000000) dq.queueList[0].queue[timestep - 1].ready = True dq2.queueList[0].queue[timestep - 1].ready = True dq.queueList[0].pop() dq2.queueList[0].pop() dq.add(maxSeq, 0) sim_run(maxSeq * 100000) dq.queueList[0].pop() dq2.queueList[0].pop() dq.queueList[0].pop() dq2.queueList[0].pop()
def test_slave_add_while_waiting(self): sim_reset() node = QuantumNode("TestNode 1", 1) node2 = QuantumNode("TestNode 2", 2) conn = ClassicalFibreConnection(node, node2, length=25) dq = DistributedQueue(node, conn, numQueues=3, throw_local_queue_events=True) dq2 = DistributedQueue(node2, conn, numQueues=3, throw_local_queue_events=True) dq.connect_to_peer_protocol(dq2, conn) nodes = [ (node, [dq]), (node2, [dq2]), ] conns = [(conn, "dq_conn", [dq, dq2])] network = EasyNetwork(name="DistQueueNetwork", nodes=nodes, connections=conns) network.start() # Add one request for both master and slave create_id = 0 request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) dq.add(request=request, qid=0) create_id = 1 request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) dq2.add(request=request, qid=0) # Wait for slaves add to arrive but not the ack run_time = dq.comm_delay * (3 / 4) sim_run(run_time) # Add request from master create_id = 2 request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) dq.add(request=request, qid=0) # Make sure things are added run_time = dq.comm_delay * 4 sim_run(run_time) self.ready_items(dq.queueList[0]) self.ready_items(dq2.queueList[0]) self.check_local_queues(dq.queueList[0], dq2.queueList[0])
def test_resend_acks(self): sim_reset() node = QuantumNode("TestNode 1", 1) node2 = QuantumNode("TestNode 2", 2) conn = ClassicalFibreConnection(node, node2, length=25) dq = DistributedQueue(node, conn, numQueues=3, throw_local_queue_events=True) dq2 = DistributedQueue(node2, conn, numQueues=3, throw_local_queue_events=True) dq.connect_to_peer_protocol(dq2, conn) storage1 = [] storage2 = [] def callback1(result): storage1.append(result) def callback2(result): storage2.append(result) nodes = [ (node, [dq]), (node2, [dq2]), ] conns = [(conn, "dq_conn", [dq, dq2])] network = EasyNetwork(name="DistQueueNetwork", nodes=nodes, connections=conns) network.start() dq.add_callback = callback1 dq2.add_callback = callback2 # Add one request create_id = 0 request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) dq2.add(request=request, qid=0) run_time = dq.comm_delay * dq.timeout_factor sim_run(run_time) # Set way to short timeout (to force resend) dq2.timeout_factor = 1 / 2 # Add one request (slave) create_id = 1 request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) dq2.add(request=request, qid=0) run_time += (dq.comm_delay + 1) * 4 sim_run(run_time) # Set to correct factor again dq2.timeout_factor = 2 create_id = 2 request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) dq.add(request=request, qid=0) dq2.add(request=request, qid=0) run_time += dq.comm_delay * dq.timeout_factor sim_run(run_time) self.assertEqual(len(storage1), 4) self.assertEqual(len(storage2), 4) q_seqs1 = [res[2] for res in storage1] q_seqs2 = [res[2] for res in storage2] for qseq in range(4): for q_seqs in [q_seqs1, q_seqs2]: # TODO do we care about the ordering? self.assertIn(qseq, q_seqs)
def test_unordered_subsequent_acks(self): sim_reset() node = QuantumNode("TestNode 1", 1) node2 = QuantumNode("TestNode 2", 2) conn = ClassicalFibreConnection(node, node2, length=25) dq = DistributedQueue(node, conn, numQueues=3, throw_local_queue_events=True) dq2 = DistributedQueue(node2, conn, numQueues=3, throw_local_queue_events=True) dq.connect_to_peer_protocol(dq2, conn) storage1 = [] storage2 = [] def callback1(result): storage1.append(result) def callback2(result): storage2.append(result) nodes = [ (node, [dq]), (node2, [dq2]), ] conns = [(conn, "dq_conn", [dq, dq2])] network = EasyNetwork(name="DistQueueNetwork", nodes=nodes, connections=conns) network.start() # Add three requests (master) dq.add_callback = callback1 dq2.add_callback = callback2 for create_id in range(3): request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) dq.add(request=request, qid=0) run_time = dq.comm_delay * dq.timeout_factor sim_run(run_time) self.assertEqual(len(storage1), 3) self.assertEqual(len(storage2), 3) q_seqs1 = [res[2] for res in storage1] q_seqs2 = [res[2] for res in storage2] self.assertEqual(q_seqs1, [0, 1, 2]) self.assertEqual(q_seqs2, [0, 1, 2]) # Remove one request (such that next queue seq will be 0 again) dq.remove_item(0, 1) dq2.remove_item(0, 1) storage1 = [] storage2 = [] # Add requests from master and slave create_id = 3 request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) dq.add(request=request, qid=0) request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) dq2.add(request=request, qid=0) run_time += dq.comm_delay * dq.timeout_factor sim_run(run_time) self.assertEqual(len(storage1), 2) self.assertEqual(len(storage2), 2) q_seqs1 = [res[2] for res in storage1] q_seqs2 = [res[2] for res in storage2] self.assertIn(1, q_seqs1) self.assertIn(3, q_seqs1) self.assertIn(1, q_seqs2) self.assertIn(3, q_seqs2)
def test_lossy_comms_wraparound(self): sim_reset() node = QuantumNode("TestNode 1", 1) node2 = QuantumNode("TestNode 2", 2) conn = ClassicalFibreConnection(node, node2, length=0.1) dq = DistributedQueue(node, conn, numQueues=3, throw_local_queue_events=True) dq2 = DistributedQueue(node2, conn, numQueues=3, throw_local_queue_events=True) dq.connect_to_peer_protocol(dq2, conn) self.lost_messages = 0 self.lost_seq = dq.myWsize + 1 def faulty_send_msg(cmd, data, clock): if self.lost_messages == 0 and clock[0] == self.lost_seq: self.lost_messages += 1 else: dq.conn.put_from(dq.myID, (cmd, data, clock)) dq.send_msg = faulty_send_msg nodes = [ (node, [dq]), (node2, [dq2]), ] conns = [(conn, "dq_conn", [dq, dq2])] network = EasyNetwork(name="DistQueueNetwork", nodes=nodes, connections=conns) network.start() num_adds = 0 r = 1 curr_time = 0 import pdb while num_adds < 2 * dq.maxCommsSeq: add_delay = 2 for i in range(dq.myWsize): request = SchedulerRequest(0, 0, 0, 0, i, 0, 0, True, False, False, True) dq.add(request) sim_run(curr_time + (i + 1) * add_delay) curr_time += add_delay for j in range(dq2.myWsize): request = SchedulerRequest(0, 0, 0, 0, j, 0, 0, True, False, False, True) dq2.add(request) sim_run(curr_time + (j + 1) * add_delay) curr_time += add_delay num_adds += dq.myWsize num_adds += dq2.myWsize run_time = r * dq.comm_delay * 4 sim_run(curr_time + run_time) curr_time += run_time r += 1 self.ready_items(dq.queueList[0]) self.ready_items(dq2.queueList[0]) self.check_local_queues(dq.queueList[0], dq2.queueList[0]) for i in range(dq.myWsize + dq2.myWsize): dq.local_pop() dq2.local_pop()
def test_full_queue(self): sim_reset() node = QuantumNode("TestNode 1", 1) node2 = QuantumNode("TestNode 2", 2) conn = ClassicalFibreConnection(node, node2, length=0.0001) dq = DistributedQueue(node, conn, numQueues=3) dq2 = DistributedQueue(node2, conn, numQueues=3) dq.connect_to_peer_protocol(dq2, conn) storage = [] def callback(result): storage.append(result) nodes = [ (node, [dq]), (node2, [dq2]), ] conns = [(conn, "dq_conn", [dq, dq2])] network = EasyNetwork(name="DistQueueNetwork", nodes=nodes, connections=conns) network.start() for j in range(dq.maxSeq): dq.add(request=j + 1, qid=0) sim_run(1000) with self.assertRaises(LinkLayerException): dq.add(request=0, qid=0) dq2.add_callback = callback for j in range(dq2.maxSeq): dq2.add(request=j + 1, qid=1) sim_run(2000) with self.assertRaises(LinkLayerException): dq2.add(request=dq2.maxSeq + 1, qid=1) self.assertEqual(len(storage), 257) self.assertEqual(storage[-1], (dq2.DQ_ERR, 1, None, dq2.maxSeq + 1)) storage = [] for j in range(dq.maxSeq): if j % 2: dq.add(request=j + 1, qid=2) else: dq2.add(request=j + 1, qid=2) dq2.add(request=dq.maxSeq + 1, qid=2) sim_run(3000) with self.assertRaises(LinkLayerException): dq.add(request=0, qid=2) self.assertEqual(len(storage), 257) self.assertEqual(storage[-1], (dq2.DQ_REJECT, 2, 0, dq2.maxSeq + 1))
def test_lost_add_slave(self): sim_reset() node = QuantumNode("TestNode 1", 1) node2 = QuantumNode("TestNode 2", 2) conn = ClassicalFibreConnection(node, node2, length=0.0001) dq = DistributedQueue(node, conn, numQueues=3) dq2 = DistributedQueue(node2, conn, numQueues=3) dq.connect_to_peer_protocol(dq2, conn) self.lost_messages = defaultdict(int) def faulty_send_add(cmd, data, clock): if cmd == dq2.CMD_ADD: _, cseq, qid, qseq, request = data if self.lost_messages[(cseq, qid, qseq)] >= 1: dq2.conn.put_from(dq2.myID, (cmd, data, clock)) else: self.lost_messages[(cseq, qid, qseq)] += 1 else: dq2.conn.put_from(dq2.myID, (cmd, data, clock)) def faulty_send_ack(cmd, data, clock): if cmd == dq.CMD_ADD_ACK: _, ackd_id, qseq = data if self.lost_messages[(ackd_id, qseq)] >= 1: dq.conn.put_from(dq.myID, (cmd, data, clock)) else: self.lost_messages[(ackd_id, qseq)] += 1 else: dq.conn.put_from(dq.myID, (cmd, data, clock)) nodes = [ (node, [dq]), (node2, [dq2]), ] conns = [(conn, "dq_conn", [dq, dq2])] dq2.send_msg = faulty_send_add dq.send_msg = faulty_send_ack network = EasyNetwork(name="DistQueueNetwork", nodes=nodes, connections=conns) network.start() reqs = [] num_reqs = 10 for i in range(num_reqs): req = [node2.nodeID, i] reqs.append(req) dq2.add(req) sim_run(0.1 * (i + 1)) sim_run(200) # Check that all add and add_ack messages were lost once for v in self.lost_messages.values(): self.assertEqual(v, 1) # Check that the item successfully got added self.assertEqual(len(dq.queueList[0].queue), 10) self.assertEqual(len(dq2.queueList[0].queue), 10) for i, expected_req in zip(range(num_reqs), reqs): item1 = dq.queueList[0].queue[i] item2 = dq2.queueList[0].queue[i] self.assertEqual(item1.request, expected_req) self.assertEqual(item2.request, expected_req)
def test_random_add_remove(self): sim_reset() node = QuantumNode("TestNode 1", 1) node2 = QuantumNode("TestNode 2", 2) conn = ClassicalFibreConnection(node, node2, length=25) dq = DistributedQueue(node, conn, numQueues=3, throw_local_queue_events=True) dq2 = DistributedQueue(node2, conn, numQueues=3, throw_local_queue_events=True) dq.connect_to_peer_protocol(dq2, conn) nodes = [ (node, [dq]), (node2, [dq2]), ] conns = [(conn, "dq_conn", [dq, dq2])] network = EasyNetwork(name="DistQueueNetwork", nodes=nodes, connections=conns) network.start() create_id = 0 for _ in range(20): # Add random requests to master num_reqs_master = randint(0, 3) for _ in range(num_reqs_master): request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) try: dq.add(request=request, qid=0) except LinkLayerException: # Full queue pass create_id += 1 # Add random requests to slave num_reqs_slave = randint(0, 3) for _ in range(num_reqs_slave): request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) try: dq2.add(request=request, qid=0) except LinkLayerException: # Full queue pass create_id += 1 # Randomly remove things for both num_pop = randint(0, 6) for _ in range(num_pop): dq.local_pop(qid=0) # Run for random fraction of timeout r = randint(1, 20) run_time = dq.comm_delay * dq.timeout_factor * (r / 10) sim_run(run_time) # Make sure things are not in flight sim_run() self.ready_items(dq.queueList[0]) self.ready_items(dq2.queueList[0]) self.check_local_queues(dq.queueList[0], dq2.queueList[0]) # Add one request for both master and slave create_id = 0 request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) dq.add(request=request, qid=0) create_id = 1 request = SchedulerRequest(0, 0, 0, 0, create_id, 0, 0, True, False, False, True) dq2.add(request=request, qid=0)