| """ |
| Test cases for testing actions taken on packets |
| |
| See basic.py for other info. |
| |
| It is recommended that these definitions be kept in their own |
| namespace as different groups of tests will likely define |
| similar identifiers. |
| |
| The switch is actively attempting to contact the controller at the address |
| indicated in config. |
| |
| """ |
| |
| import copy |
| import logging |
| import time |
| import unittest |
| import random |
| import scapy.all as scapy |
| |
| from oftest import config |
| import oftest.controller as controller |
| import ofp |
| import oftest.message as message |
| import oftest.dataplane as dataplane |
| import oftest.action as action |
| import oftest.parse as parse |
| import oftest.base_tests as base_tests |
| import basic # for IterCases |
| |
| from oftest.parse import parse_mac, parse_ip |
| |
| from oftest.testutils import * |
| |
| WILDCARD_VALUES = [ofp.OFPFW_IN_PORT, |
| ofp.OFPFW_DL_VLAN | ofp.OFPFW_DL_VLAN_PCP, |
| ofp.OFPFW_DL_SRC, |
| ofp.OFPFW_DL_DST, |
| (ofp.OFPFW_DL_TYPE | ofp.OFPFW_NW_SRC_ALL | |
| ofp.OFPFW_NW_DST_ALL | ofp.OFPFW_NW_TOS | ofp.OFPFW_NW_PROTO | |
| ofp.OFPFW_TP_SRC | ofp.OFPFW_TP_DST), |
| (ofp.OFPFW_NW_PROTO | ofp.OFPFW_TP_SRC | ofp.OFPFW_TP_DST), |
| ofp.OFPFW_TP_SRC, |
| ofp.OFPFW_TP_DST, |
| ofp.OFPFW_NW_SRC_MASK, |
| ofp.OFPFW_NW_DST_MASK, |
| ofp.OFPFW_DL_VLAN_PCP, |
| ofp.OFPFW_NW_TOS] |
| |
| NO_WILDCARD_VALUES = [(ofp.OFPFW_ALL ^ ofp.OFPFW_IN_PORT), |
| (ofp.OFPFW_ALL ^ ofp.OFPFW_DL_VLAN), |
| (ofp.OFPFW_ALL ^ ofp.OFPFW_DL_SRC), |
| (ofp.OFPFW_ALL ^ ofp.OFPFW_DL_DST), |
| (ofp.OFPFW_ALL ^ ofp.OFPFW_DL_TYPE), |
| (ofp.OFPFW_ALL ^ ofp.OFPFW_DL_TYPE ^ ofp.OFPFW_NW_PROTO), |
| (ofp.OFPFW_ALL ^ ofp.OFPFW_DL_TYPE ^ ofp.OFPFW_NW_PROTO ^ |
| ofp.OFPFW_TP_SRC), |
| (ofp.OFPFW_ALL ^ ofp.OFPFW_DL_TYPE ^ ofp.OFPFW_NW_PROTO ^ |
| ofp.OFPFW_TP_DST), |
| (ofp.OFPFW_ALL ^ ofp.OFPFW_DL_TYPE ^ ofp.OFPFW_NW_PROTO ^ |
| ofp.OFPFW_NW_SRC_MASK), |
| (ofp.OFPFW_ALL ^ ofp.OFPFW_DL_TYPE ^ ofp.OFPFW_NW_PROTO ^ |
| ofp.OFPFW_NW_DST_MASK), |
| (ofp.OFPFW_ALL ^ ofp.OFPFW_DL_VLAN ^ ofp.OFPFW_DL_VLAN_PCP), |
| (ofp.OFPFW_ALL ^ ofp.OFPFW_DL_TYPE ^ ofp.OFPFW_NW_PROTO ^ |
| ofp.OFPFW_NW_TOS)] |
| |
| MODIFY_ACTION_VALUES = [ofp.OFPAT_SET_VLAN_VID, |
| ofp.OFPAT_SET_VLAN_PCP, |
| ofp.OFPAT_STRIP_VLAN, |
| ofp.OFPAT_SET_DL_SRC, |
| ofp.OFPAT_SET_DL_DST, |
| ofp.OFPAT_SET_NW_SRC, |
| ofp.OFPAT_SET_NW_DST, |
| ofp.OFPAT_SET_NW_TOS, |
| ofp.OFPAT_SET_TP_SRC, |
| ofp.OFPAT_SET_TP_DST] |
| |
| TEST_VID_DEFAULT = 2 |
| |
| @group('smoke') |
| class DirectPacket(base_tests.SimpleDataPlane): |
| """ |
| Send packet to single egress port |
| |
| Generate a packet |
| Generate and install a matching flow |
| Add action to direct the packet to an egress port |
| Send the packet to ingress dataplane port |
| Verify the packet is received at the egress port only |
| """ |
| def runTest(self): |
| self.handleFlow() |
| |
| def handleFlow(self, pkttype='TCP'): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 1, "Not enough ports for test") |
| |
| if (pkttype == 'ICMP'): |
| pkt = simple_icmp_packet() |
| else: |
| pkt = simple_tcp_packet() |
| match = packet_to_flow_match(self, pkt) |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| act = action.action_output() |
| |
| for idx in range(len(of_ports)): |
| delete_all_flows(self.controller) |
| |
| ingress_port = of_ports[idx] |
| egress_port = of_ports[(idx + 1) % len(of_ports)] |
| logging.info("Ingress " + str(ingress_port) + |
| " to egress " + str(egress_port)) |
| |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| |
| request.buffer_id = 0xffffffff |
| act.port = egress_port |
| request.actions.add(act) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| do_barrier(self.controller) |
| |
| logging.info("Sending packet to dp port " + |
| str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| |
| exp_pkt_arg = None |
| exp_port = None |
| if config["relax"]: |
| exp_pkt_arg = pkt |
| exp_port = egress_port |
| |
| (rcv_port, rcv_pkt, pkt_time) = self.dataplane.poll(port_number=exp_port, |
| exp_pkt=exp_pkt_arg) |
| self.assertTrue(rcv_pkt is not None, "Did not receive packet") |
| logging.debug("Packet len " + str(len(rcv_pkt)) + " in on " + |
| str(rcv_port)) |
| self.assertEqual(rcv_port, egress_port, "Unexpected receive port") |
| self.assertEqual(str(pkt), str(rcv_pkt), |
| 'Response packet does not match send packet') |
| |
| @group('smoke') |
| class DirectPacketController(base_tests.SimpleDataPlane): |
| """ |
| Send packet to the controller port |
| |
| Generate a packet |
| Generate and install a matching flow |
| Add action to direct the packet to the controller port |
| Send the packet to ingress dataplane port |
| Verify the packet is received at the controller port |
| """ |
| def runTest(self): |
| self.handleFlow() |
| |
| def handleFlow(self, pkttype='TCP'): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 0, "Not enough ports for test") |
| |
| if (pkttype == 'ICMP'): |
| pkt = simple_icmp_packet() |
| else: |
| pkt = simple_tcp_packet() |
| match = packet_to_flow_match(self, pkt) |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| act = action.action_output() |
| |
| delete_all_flows(self.controller) |
| |
| ingress_port = of_ports[0] |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| |
| request.buffer_id = 0xffffffff |
| act.port = ofp.OFPP_CONTROLLER |
| act.max_len = 65535 |
| request.actions.add(act) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| do_barrier(self.controller) |
| |
| logging.info("Sending packet to dp port " + |
| str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| |
| (response, raw) = self.controller.poll(ofp.OFPT_PACKET_IN) |
| |
| self.assertTrue(response is not None, |
| 'Packet in message not received by controller') |
| if not dataplane.match_exp_pkt(pkt, response.data): |
| logging.debug("Sent %s" % format_packet(pkt)) |
| logging.debug("Resp %s" % format_packet(response.data)) |
| self.assertTrue(False, |
| 'Response packet does not match send packet' + |
| ' for controller port') |
| |
| |
| class DirectPacketQueue(base_tests.SimpleDataPlane): |
| """ |
| Send packet to single queue on single egress port |
| |
| Generate a packet |
| Generate and install a matching flow |
| Add action to direct the packet to an egress port and queue |
| Send the packet to ingress dataplane port |
| Verify the packet is received at the egress port only |
| """ |
| def runTest(self): |
| self.handleFlow() |
| |
| def portQueuesGet(self, queue_stats, port_num): |
| result = [] |
| for qs in queue_stats.stats: |
| if qs.port_no != port_num: |
| continue |
| result.append(qs.queue_id) |
| return result |
| |
| def handleFlow(self, pkttype='TCP'): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 1, "Not enough ports for test") |
| |
| if (pkttype == 'ICMP'): |
| pkt = simple_icmp_packet() |
| else: |
| pkt = simple_tcp_packet() |
| match = packet_to_flow_match(self, pkt) |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| |
| # Get queue stats from switch |
| |
| request = message.queue_stats_request() |
| request.port_no = ofp.OFPP_ALL |
| request.queue_id = ofp.OFPQ_ALL |
| (queue_stats, p) = self.controller.transact(request) |
| self.assertNotEqual(queue_stats, None, "Queue stats request failed") |
| |
| act = action.action_enqueue() |
| |
| for idx in range(len(of_ports)): |
| ingress_port = of_ports[idx] |
| egress_port = of_ports[(idx + 1) % len(of_ports)] |
| |
| for egress_queue_id in self.portQueuesGet(queue_stats, egress_port): |
| logging.info("Ingress " + str(ingress_port) |
| + " to egress " + str(egress_port) |
| + " queue " + str(egress_queue_id) |
| ) |
| |
| delete_all_flows(self.controller) |
| |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| |
| request.buffer_id = 0xffffffff |
| act.port = egress_port |
| act.queue_id = egress_queue_id |
| request.actions.add(act) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| do_barrier(self.controller) |
| |
| # Get current stats for selected egress queue |
| |
| request = message.queue_stats_request() |
| request.port_no = egress_port |
| request.queue_id = egress_queue_id |
| (qs_before, p) = self.controller.transact(request) |
| self.assertNotEqual(qs_before, None, "Queue stats request failed") |
| |
| logging.info("Sending packet to dp port " + |
| str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| |
| exp_pkt_arg = None |
| exp_port = None |
| if config["relax"]: |
| exp_pkt_arg = pkt |
| exp_port = egress_port |
| |
| (rcv_port, rcv_pkt, pkt_time) = self.dataplane.poll(port_number=exp_port, |
| exp_pkt=exp_pkt_arg) |
| self.assertTrue(rcv_pkt is not None, "Did not receive packet") |
| logging.debug("Packet len " + str(len(rcv_pkt)) + " in on " + |
| str(rcv_port)) |
| self.assertEqual(rcv_port, egress_port, "Unexpected receive port") |
| self.assertEqual(str(pkt), str(rcv_pkt), |
| 'Response packet does not match send packet') |
| |
| # FIXME: instead of sleeping, keep requesting queue stats until |
| # the expected queue counter increases or some large timeout is |
| # reached |
| time.sleep(2) |
| |
| # Get current stats for selected egress queue again |
| |
| request = message.queue_stats_request() |
| request.port_no = egress_port |
| request.queue_id = egress_queue_id |
| (qs_after, p) = self.controller.transact(request) |
| self.assertNotEqual(qs_after, None, "Queue stats request failed") |
| |
| # Make sure that tx packet counter for selected egress queue was |
| # incremented |
| |
| self.assertEqual(qs_after.stats[0].tx_packets, \ |
| qs_before.stats[0].tx_packets + 1, \ |
| "Verification of egress queue tx packet count failed" |
| ) |
| |
| |
| class DirectPacketControllerQueue(base_tests.SimpleDataPlane): |
| """ |
| Send a packet from each of the openflow ports |
| to each of the queues configured on the controller port. |
| If no queues have been configured, no packets are sent. |
| |
| Generate a packet |
| Generate and install a matching flow |
| Add action to direct the packet to one of the controller port queues |
| Send the packet to ingress dataplane port |
| Verify the packet is received on the controller port queue |
| """ |
| def runTest(self): |
| self.handleFlow() |
| |
| def portQueuesGet(self, queue_stats, port_num): |
| result = [] |
| for qs in queue_stats.stats: |
| if qs.port_no != port_num: |
| continue |
| result.append(qs.queue_id) |
| return result |
| |
| def handleFlow(self, pkttype='TCP'): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 1, "Not enough ports for test") |
| |
| if (pkttype == 'ICMP'): |
| pkt = simple_icmp_packet() |
| else: |
| pkt = simple_tcp_packet() |
| match = packet_to_flow_match(self, pkt) |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| |
| # Get queue stats from switch |
| |
| request = message.queue_stats_request() |
| request.port_no = ofp.OFPP_CONTROLLER |
| request.queue_id = ofp.OFPQ_ALL |
| (queue_stats, p) = self.controller.transact(request) |
| self.assertNotEqual(queue_stats, None, "Queue stats request failed") |
| if queue_stats.header.type == ofp.OFPT_ERROR: |
| skip_message_emit(self, "Enqueue packet to controller") |
| return |
| |
| act = action.action_enqueue() |
| |
| for idx in range(len(of_ports)): |
| ingress_port = of_ports[idx] |
| egress_port = ofp.OFPP_CONTROLLER |
| |
| logging.info("Ingress port " + str(ingress_port) |
| + ", controller port queues " |
| + str(self.portQueuesGet(queue_stats, egress_port))) |
| |
| for egress_queue_id in self.portQueuesGet(queue_stats, egress_port): |
| logging.info("Ingress " + str(ingress_port) |
| + " to egress " + str(egress_port) |
| + " queue " + str(egress_queue_id) |
| ) |
| |
| delete_all_flows(self.controller) |
| |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| |
| request.buffer_id = 0xffffffff |
| act.port = egress_port |
| act.queue_id = egress_queue_id |
| request.actions.add(act) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| do_barrier(self.controller) |
| |
| # Get current stats for selected egress queue |
| |
| request = message.queue_stats_request() |
| request.port_no = egress_port |
| request.queue_id = egress_queue_id |
| (qs_before, p) = self.controller.transact(request) |
| self.assertNotEqual(qs_before, None, "Queue stats request failed") |
| |
| logging.info("Sending packet to dp port " + |
| str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| |
| exp_pkt_arg = None |
| exp_port = None |
| |
| count = 0 |
| while True: |
| (response, raw) = self.controller.poll(ofp.OFPT_PACKET_IN) |
| if not response: # Timeout |
| break |
| if dataplane.match_exp_pkt(pkt, response.data): # Got match |
| break |
| if not config["relax"]: # Only one attempt to match |
| break |
| count += 1 |
| if count > 10: # Too many tries |
| break |
| |
| self.assertTrue(response is not None, |
| 'Packet in message not received by controller') |
| if not dataplane.match_exp_pkt(pkt, response.data): |
| logging.debug("Sent %s" % format_packet(pkt)) |
| logging.debug("Resp %s" % format_packet(response.data)) |
| self.assertTrue(False, |
| 'Response packet does not match send packet' + |
| ' for controller port') |
| |
| # FIXME: instead of sleeping, keep requesting queue stats until |
| # the expected queue counter increases or some large timeout is |
| # reached |
| time.sleep(2) |
| |
| # Get current stats for selected egress queue again |
| |
| request = message.queue_stats_request() |
| request.port_no = egress_port |
| request.queue_id = egress_queue_id |
| (qs_after, p) = self.controller.transact(request) |
| self.assertNotEqual(qs_after, None, "Queue stats request failed") |
| |
| # Make sure that tx packet counter for selected egress queue was |
| # incremented |
| |
| self.assertEqual(qs_after.stats[0].tx_packets, \ |
| qs_before.stats[0].tx_packets + 1, \ |
| "Verification of egress queue tx packet count failed" |
| ) |
| |
| |
| class DirectPacketICMP(DirectPacket): |
| """ |
| Send ICMP packet to single egress port |
| |
| Generate a ICMP packet |
| Generate and install a matching flow |
| Add action to direct the packet to an egress port |
| Send the packet to ingress dataplane port |
| Verify the packet is received at the egress port only |
| Difference from DirectPacket test is that sent packet is ICMP |
| """ |
| def runTest(self): |
| self.handleFlow(pkttype='ICMP') |
| |
| class DirectTwoPorts(base_tests.SimpleDataPlane): |
| """ |
| Send packet to two egress ports |
| |
| Generate a packet |
| Generate and install a matching flow |
| Add action to direct the packet to two egress ports |
| Send the packet to ingress dataplane port |
| Verify the packet is received at the two egress ports |
| """ |
| def runTest(self): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 2, "Not enough ports for test") |
| |
| pkt = simple_tcp_packet() |
| match = packet_to_flow_match(self, pkt) |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| act = action.action_output() |
| |
| for idx in range(len(of_ports)): |
| delete_all_flows(self.controller) |
| |
| ingress_port = of_ports[idx] |
| egress_port1 = of_ports[(idx + 1) % len(of_ports)] |
| egress_port2 = of_ports[(idx + 2) % len(of_ports)] |
| logging.info("Ingress " + str(ingress_port) + |
| " to egress " + str(egress_port1) + " and " + |
| str(egress_port2)) |
| |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| request.buffer_id = 0xffffffff |
| act.port = egress_port1 |
| request.actions.add(act) |
| act.port = egress_port2 |
| request.actions.add(act) |
| # logging.info(request.show()) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| do_barrier(self.controller) |
| |
| logging.info("Sending packet to dp port " + |
| str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| yes_ports = set([egress_port1, egress_port2]) |
| no_ports = set(of_ports).difference(yes_ports) |
| |
| receive_pkt_check(self.dataplane, pkt, yes_ports, no_ports, |
| self) |
| |
| class DirectMCNonIngress(base_tests.SimpleDataPlane): |
| """ |
| Multicast to all non-ingress ports |
| |
| Generate a packet |
| Generate and install a matching flow |
| Add action to direct the packet to all non-ingress ports |
| Send the packet to ingress dataplane port |
| Verify the packet is received at all non-ingress ports |
| |
| Does not use the flood action |
| """ |
| def runTest(self): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 2, "Not enough ports for test") |
| |
| pkt = simple_tcp_packet() |
| match = packet_to_flow_match(self, pkt) |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| act = action.action_output() |
| |
| for ingress_port in of_ports: |
| delete_all_flows(self.controller) |
| |
| logging.info("Ingress " + str(ingress_port) + |
| " all non-ingress ports") |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| request.buffer_id = 0xffffffff |
| for egress_port in of_ports: |
| if egress_port == ingress_port: |
| continue |
| act.port = egress_port |
| request.actions.add(act) |
| logging.debug(request.show()) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| do_barrier(self.controller) |
| |
| logging.info("Sending packet to dp port " + str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| yes_ports = set(of_ports).difference([ingress_port]) |
| receive_pkt_check(self.dataplane, pkt, yes_ports, [ingress_port], |
| self) |
| |
| |
| class DirectMC(base_tests.SimpleDataPlane): |
| """ |
| Multicast to all ports including ingress |
| |
| Generate a packet |
| Generate and install a matching flow |
| Add action to direct the packet to all non-ingress ports |
| Send the packet to ingress dataplane port |
| Verify the packet is received at all ports |
| |
| Does not use the flood action |
| """ |
| def runTest(self): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 2, "Not enough ports for test") |
| |
| pkt = simple_tcp_packet() |
| match = packet_to_flow_match(self, pkt) |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| act = action.action_output() |
| |
| for ingress_port in of_ports: |
| delete_all_flows(self.controller) |
| |
| logging.info("Ingress " + str(ingress_port) + " to all ports") |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| request.buffer_id = 0xffffffff |
| for egress_port in of_ports: |
| if egress_port == ingress_port: |
| act.port = ofp.OFPP_IN_PORT |
| else: |
| act.port = egress_port |
| request.actions.add(act) |
| # logging.info(request.show()) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| do_barrier(self.controller) |
| |
| logging.info("Sending packet to dp port " + str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| receive_pkt_check(self.dataplane, pkt, of_ports, [], self) |
| |
| class Flood(base_tests.SimpleDataPlane): |
| """ |
| Flood to all ports except ingress |
| |
| Make sure noflood bit is off on all ports |
| Generate a packet |
| Generate and install a matching flow |
| Add action to flood the packet |
| Send the packet to ingress dataplane port |
| Verify the packet is received at all other ports |
| """ |
| def runTest(self): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 1, "Not enough ports for test") |
| |
| pkt = simple_tcp_packet() |
| match = packet_to_flow_match(self, pkt) |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| act = action.action_output() |
| |
| for of_port in of_ports: |
| # Clear relevant bits that might block ports |
| rv = port_config_set(self.controller, of_port, 0, |
| ofp.OFPPC_NO_FLOOD | ofp.OFPPC_NO_FWD | |
| ofp.OFPPC_PORT_DOWN) |
| self.assertTrue(rv == 0, "Did not set port config") |
| logging.debug("Enabled and cleared no-flood for port " + str(of_port)) |
| |
| for ingress_port in of_ports: |
| delete_all_flows(self.controller) |
| |
| logging.info("Ingress " + str(ingress_port) + " to all ports") |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| request.buffer_id = 0xffffffff |
| act.port = ofp.OFPP_FLOOD |
| request.actions.add(act) |
| logging.info(request.show()) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| do_barrier(self.controller) |
| |
| logging.info("Sending packet to dp port " + str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| yes_ports = set(of_ports).difference([ingress_port]) |
| receive_pkt_check(self.dataplane, pkt, yes_ports, [ingress_port], |
| self) |
| |
| class FloodPlusIngress(base_tests.SimpleDataPlane): |
| """ |
| Flood to all ports plus send to ingress port |
| |
| Generate a packet |
| Generate and install a matching flow |
| Add action to flood the packet |
| Add action to send to ingress port |
| Send the packet to ingress dataplane port |
| Verify the packet is received at all other ports |
| """ |
| def runTest(self): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 1, "Not enough ports for test") |
| |
| pkt = simple_tcp_packet() |
| match = packet_to_flow_match(self, pkt) |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| act = action.action_output() |
| |
| for ingress_port in of_ports: |
| delete_all_flows(self.controller) |
| |
| logging.info("Ingress " + str(ingress_port) + " to all ports") |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| request.buffer_id = 0xffffffff |
| act.port = ofp.OFPP_FLOOD |
| request.actions.add(act) |
| act.port = ofp.OFPP_IN_PORT |
| request.actions.add(act) |
| logging.info(request.show()) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| do_barrier(self.controller) |
| |
| logging.info("Sending packet to dp port " + str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| receive_pkt_check(self.dataplane, pkt, of_ports, [], self) |
| |
| class All(base_tests.SimpleDataPlane): |
| """ |
| Send to OFPP_ALL port |
| |
| Generate a packet |
| Generate and install a matching flow |
| Add action to forward to OFPP_ALL |
| Send the packet to ingress dataplane port |
| Verify the packet is received at all other ports |
| """ |
| def runTest(self): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 1, "Not enough ports for test") |
| |
| pkt = simple_tcp_packet() |
| match = packet_to_flow_match(self, pkt) |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| act = action.action_output() |
| |
| for ingress_port in of_ports: |
| delete_all_flows(self.controller) |
| |
| logging.info("Ingress " + str(ingress_port) + " to all ports") |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| request.buffer_id = 0xffffffff |
| act.port = ofp.OFPP_ALL |
| request.actions.add(act) |
| logging.info(request.show()) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| do_barrier(self.controller) |
| |
| logging.info("Sending packet to dp port " + str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| yes_ports = set(of_ports).difference([ingress_port]) |
| receive_pkt_check(self.dataplane, pkt, yes_ports, [ingress_port], |
| self) |
| |
| class AllPlusIngress(base_tests.SimpleDataPlane): |
| """ |
| Send to OFPP_ALL port and ingress port |
| |
| Generate a packet |
| Generate and install a matching flow |
| Add action to forward to OFPP_ALL |
| Add action to forward to ingress port |
| Send the packet to ingress dataplane port |
| Verify the packet is received at all other ports |
| """ |
| def runTest(self): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 1, "Not enough ports for test") |
| |
| pkt = simple_tcp_packet() |
| match = packet_to_flow_match(self, pkt) |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| act = action.action_output() |
| |
| for ingress_port in of_ports: |
| delete_all_flows(self.controller) |
| |
| logging.info("Ingress " + str(ingress_port) + " to all ports") |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| request.buffer_id = 0xffffffff |
| act.port = ofp.OFPP_ALL |
| request.actions.add(act) |
| act.port = ofp.OFPP_IN_PORT |
| request.actions.add(act) |
| logging.info(request.show()) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| do_barrier(self.controller) |
| |
| logging.info("Sending packet to dp port " + str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| receive_pkt_check(self.dataplane, pkt, of_ports, [], self) |
| |
| class FloodMinusPort(base_tests.SimpleDataPlane): |
| """ |
| Config port with No_Flood and test Flood action |
| |
| Generate a packet |
| Generate a matching flow |
| Add action to forward to OFPP_ALL |
| Set port to no-flood |
| Send the packet to ingress dataplane port |
| Verify the packet is received at all other ports except |
| the ingress port and the no_flood port |
| """ |
| def runTest(self): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 2, "Not enough ports for test") |
| |
| pkt = simple_tcp_packet() |
| match = packet_to_flow_match(self, pkt) |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| act = action.action_output() |
| |
| # Clear OFPPC_NO_FLOOD on each port |
| for of_port in of_ports: |
| rv = port_config_set(self.controller, of_port, |
| 0, ofp.OFPPC_NO_FLOOD) |
| self.assertEqual(rv, 0, "Failed to set port config") |
| |
| for idx in range(len(of_ports)): |
| delete_all_flows(self.controller) |
| |
| ingress_port = of_ports[idx] |
| no_flood_idx = (idx + 1) % len(of_ports) |
| no_flood_port = of_ports[no_flood_idx] |
| rv = port_config_set(self.controller, no_flood_port, |
| ofp.OFPPC_NO_FLOOD, ofp.OFPPC_NO_FLOOD) |
| self.assertEqual(rv, 0, "Failed to set port config") |
| |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| request.buffer_id = 0xffffffff |
| act.port = ofp.OFPP_FLOOD |
| request.actions.add(act) |
| logging.info(request.show()) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| do_barrier(self.controller) |
| |
| logging.info("Sending packet to dp port " + str(ingress_port)) |
| logging.info("No flood port is " + str(no_flood_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| no_ports = set([ingress_port, no_flood_port]) |
| yes_ports = set(of_ports).difference(no_ports) |
| receive_pkt_check(self.dataplane, pkt, yes_ports, no_ports, self) |
| |
| # Turn no flood off again |
| rv = port_config_set(self.controller, no_flood_port, |
| 0, ofp.OFPPC_NO_FLOOD) |
| self.assertEqual(rv, 0, "Failed to reset port config") |
| do_barrier(self.controller) |
| |
| # Check that packets are now flooded to no_flood_port |
| logging.info("Sending packet to dp port " + str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| no_ports = set([ingress_port]) |
| yes_ports = set(of_ports).difference(no_ports) |
| receive_pkt_check(self.dataplane, pkt, yes_ports, no_ports, self) |
| |
| #@todo Should check no other packets received |
| |
| |
| |
| ################################################################ |
| |
| class BaseMatchCase(base_tests.SimpleDataPlane): |
| def setUp(self): |
| base_tests.SimpleDataPlane.setUp(self) |
| def runTest(self): |
| logging.info("BaseMatchCase") |
| |
| class ExactMatch(BaseMatchCase): |
| """ |
| Exercise exact matching for all port pairs |
| |
| Generate a packet |
| Generate and install a matching flow without wildcard mask |
| Add action to forward to a port |
| Send the packet to the port |
| Verify the packet is received at all other ports (one port at a time) |
| """ |
| |
| def runTest(self): |
| flow_match_test(self, config["port_map"]) |
| |
| class ExactMatchTagged(BaseMatchCase): |
| """ |
| Exact match for all port pairs with tagged pkts |
| """ |
| |
| def runTest(self): |
| vid = test_param_get('vid', default=TEST_VID_DEFAULT) |
| flow_match_test(self, config["port_map"], dl_vlan=vid) |
| |
| @disabled |
| class ExactMatchTaggedMany(BaseMatchCase): |
| """ |
| ExactMatchTagged with many VLANS |
| """ |
| |
| def runTest(self): |
| for vid in range(2,100,10): |
| flow_match_test(self, config["port_map"], dl_vlan=vid, max_test=5) |
| for vid in range(100,4000,389): |
| flow_match_test(self, config["port_map"], dl_vlan=vid, max_test=5) |
| flow_match_test(self, config["port_map"], dl_vlan=4094, max_test=5) |
| |
| class SingleWildcardMatchPriority(BaseMatchCase): |
| """ |
| SingleWildcardMatchPriority |
| """ |
| |
| def _Init(self): |
| self.pkt = simple_tcp_packet() |
| self.flowMsgs = {} |
| |
| def _ClearTable(self): |
| delete_all_flows(self.controller) |
| do_barrier(self.controller) |
| |
| def runTest(self): |
| |
| self._Init() |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| |
| # Delete the initial flow table |
| self._ClearTable() |
| |
| # Run several combinations, each at lower priority settings. |
| # At the end of each call to runPrioFlows(), the table should |
| # be empty. If its not, we'll catch it as the priorities decreases |
| portA = of_ports[0] |
| portB = of_ports[1] |
| portC = of_ports[2] |
| |
| # TODO -- these priority numbers should be validated somehow? |
| self.runPrioFlows(portA, portB, portC, 1000, 999) |
| self.runPrioFlows(portB, portC, portA, 998, 997) |
| self.runPrioFlows(portC, portA, portB, 996, 995) |
| self.runPrioFlows(portA, portC, portB, 994, 993) |
| |
| |
| |
| def runPrioFlows(self, portA, portB, portC, prioHigher, prioLower, |
| clearTable=False): |
| |
| if clearTable: |
| self._ClearTable() |
| |
| # Sanity check flow at lower priority from pA to pB |
| logging.info("runPrioFlows(pA=%d,pB=%d,pC=%d,ph=%d,pl=%d" |
| % (portA, portB, portC, prioHigher, prioLower)) |
| |
| # Sanity check flow at lower priority from pA to pC |
| self.installFlow(prioLower, portA, portC) |
| self.verifyFlow(portA, portC) |
| self.removeFlow(prioLower) |
| |
| # Install and verify pA->pB @ prioLower |
| self.installFlow(prioLower, portA, portB) |
| self.verifyFlow(portA, portB) |
| |
| # Install and verify pA->pC @ prioHigher, should override pA->pB |
| self.installFlow(prioHigher, portA, portC) |
| self.verifyFlow(portA, portC) |
| # remove pA->pC |
| self.removeFlow(prioHigher) |
| # Old flow pA -> pB @ prioLower should still be active |
| self.verifyFlow(portA, portB) |
| self.removeFlow(prioLower) |
| |
| # Table should be empty at this point, leave it alone as |
| # an assumption for future test runs |
| |
| |
| |
| def installFlow(self, prio, inp, egp, |
| wildcards=ofp.OFPFW_DL_SRC): |
| wildcards |= required_wildcards(self) |
| request = flow_msg_create(self, self.pkt, ing_port=inp, |
| wildcards=wildcards, |
| egr_ports=egp) |
| request.priority = prio |
| logging.debug("Install flow with priority " + str(prio)) |
| flow_msg_install(self, request, clear_table_override=False) |
| self.flowMsgs[prio] = request |
| |
| def removeFlow(self, prio): |
| if self.flowMsgs.has_key(prio): |
| msg = self.flowMsgs[prio] |
| msg.command = ofp.OFPFC_DELETE_STRICT |
| # This *must* be set for DELETE |
| msg.out_port = ofp.OFPP_NONE |
| logging.debug("Remove flow with priority " + str(prio)) |
| self.controller.message_send(msg) |
| do_barrier(self.controller) |
| else: |
| raise Exception("Not initialized") |
| |
| |
| def verifyFlow(self, inp, egp, pkt=None): |
| if pkt == None: |
| pkt = self.pkt |
| |
| logging.info("Pkt match test: " + str(inp) + " to " + str(egp)) |
| logging.debug("Send packet: " + str(inp) + " to " + str(egp)) |
| self.dataplane.send(inp, str(pkt)) |
| receive_pkt_verify(self, egp, pkt, inp) |
| |
| |
| |
| class SingleWildcardMatchPriorityInsertModifyDelete(SingleWildcardMatchPriority): |
| |
| def runTest(self): |
| |
| self._Init() |
| |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| |
| # Install an entry from 0 -> 1 @ prio 1000 |
| self._ClearTable() |
| self.installFlow(1000, of_ports[0], of_ports[1]) |
| self.verifyFlow(of_ports[0], of_ports[1]) |
| self.installFlow(1000, of_ports[1], of_ports[0]) |
| self.verifyFlow(of_ports[1], of_ports[0]) |
| self.installFlow(1001, of_ports[0], of_ports[1]) |
| self.verifyFlow(of_ports[0], of_ports[1]) |
| self.installFlow(1001, of_ports[1], of_ports[0]) |
| self.verifyFlow(of_ports[1], of_ports[0]) |
| self.removeFlow(1001) |
| self.verifyFlow(of_ports[0], of_ports[1]) |
| self.removeFlow(1000) |
| |
| |
| |
| class WildcardPriority(SingleWildcardMatchPriority): |
| """ |
| 1. Add wildcard flow, verify packet received. |
| 2. Add wildcard flow with higher priority, verify packet received |
| on port specified by this flow. |
| 3. Add wildcard flow with lower priority, verify packet received |
| on port specified by the highest priority flow. |
| """ |
| |
| def runTest(self): |
| |
| self._Init() |
| |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| |
| self._ClearTable() |
| |
| # Install a flow with wildcards |
| self.installFlow(999, of_ports[0], of_ports[1], |
| wildcards=ofp.OFPFW_DL_DST) |
| self.verifyFlow(of_ports[0], of_ports[1]) |
| # Install a flow with wildcards with higher priority |
| self.installFlow(1000, of_ports[0], of_ports[2], |
| wildcards=ofp.OFPFW_DL_DST) |
| self.verifyFlow(of_ports[0], of_ports[2]) |
| # Install a flow with wildcards with lower priority |
| self.installFlow(999, of_ports[0], of_ports[1], |
| wildcards=ofp.OFPFW_DL_SRC) |
| self.verifyFlow(of_ports[0], of_ports[2]) |
| |
| |
| @group("smoke") |
| class WildcardPriorityWithDelete(SingleWildcardMatchPriority): |
| """ |
| 1. Add wildcard match flow, verify packet received. |
| 2. Add wildcard flow with higher priority, verify packet received on port |
| specified by this flow. |
| 3. Add wildcard flow with even higher priority, verify packet received |
| on port specified by this flow. |
| 4. Delete lowest priority flow, verify packet received on port specified |
| by highest priority flow. |
| 5. Delete highest priority flow, verify packet received on port specified |
| by remaining flow. |
| """ |
| |
| def runTest(self): |
| |
| self._Init() |
| |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| |
| self._ClearTable() |
| |
| # Install a flow with wildcards |
| self.installFlow(250, of_ports[0], of_ports[1], |
| wildcards=ofp.OFPFW_DL_DST) |
| self.verifyFlow(of_ports[0], of_ports[1]) |
| # Install a flow with wildcards of higher priority |
| self.installFlow(1250, of_ports[0], of_ports[2], |
| wildcards=ofp.OFPFW_DL_DST) |
| self.verifyFlow(of_ports[0], of_ports[2]) |
| # Install a flow with wildcards with even higher priority |
| self.installFlow(2001, of_ports[0], of_ports[3], |
| wildcards=ofp.OFPFW_DL_DST) |
| self.verifyFlow(of_ports[0], of_ports[3]) |
| # Delete lowest priority flow |
| self.removeFlow(250) |
| self.verifyFlow(of_ports[0], of_ports[3]) |
| # Delete highest priority flow |
| self.removeFlow(2001) |
| self.verifyFlow(of_ports[0], of_ports[2]) |
| |
| |
| class SingleWildcardMatch(BaseMatchCase): |
| """ |
| Exercise wildcard matching for all ports |
| |
| Generate a packet |
| Generate and install a matching flow with wildcard mask |
| Add action to forward to a port |
| Send the packet to the port |
| Verify the packet is received at all other ports (one port at a time) |
| Verify flow_expiration message is correct when command option is set |
| """ |
| def runTest(self): |
| vid = test_param_get('vid', default=TEST_VID_DEFAULT) |
| for wc in WILDCARD_VALUES: |
| wc |= required_wildcards(self) |
| if wc & ofp.OFPFW_DL_VLAN: |
| # Set nonzero VLAN id to avoid sending priority-tagged packet |
| dl_vlan = vid |
| else: |
| dl_vlan = -1 |
| flow_match_test(self, config["port_map"], wildcards=wc, |
| dl_vlan=dl_vlan, max_test=10) |
| |
| class SingleWildcardMatchTagged(BaseMatchCase): |
| """ |
| SingleWildcardMatch with tagged packets |
| """ |
| def runTest(self): |
| vid = test_param_get('vid', default=TEST_VID_DEFAULT) |
| for wc in WILDCARD_VALUES: |
| wc |= required_wildcards(self) |
| flow_match_test(self, config["port_map"], wildcards=wc, dl_vlan=vid, |
| max_test=10) |
| |
| class AllExceptOneWildcardMatch(BaseMatchCase): |
| """ |
| Match exactly one field |
| |
| Generate a packet |
| Generate and install a matching flow with wildcard all except one filed |
| Add action to forward to a port |
| Send the packet to the port |
| Verify the packet is received at all other ports (one port at a time) |
| Verify flow_expiration message is correct when command option is set |
| """ |
| def runTest(self): |
| vid = test_param_get('vid', default=TEST_VID_DEFAULT) |
| for all_exp_one_wildcard in NO_WILDCARD_VALUES: |
| all_exp_one_wildcard |= required_wildcards(self) |
| if all_exp_one_wildcard & ofp.OFPFW_DL_VLAN: |
| # Set nonzero VLAN id to avoid sending priority-tagged packet |
| dl_vlan = vid |
| else: |
| dl_vlan = -1 |
| flow_match_test(self, config["port_map"], wildcards=all_exp_one_wildcard, |
| dl_vlan=dl_vlan) |
| |
| class AllExceptOneWildcardMatchTagged(BaseMatchCase): |
| """ |
| Match one field with tagged packets |
| """ |
| def runTest(self): |
| vid = test_param_get('vid', default=TEST_VID_DEFAULT) |
| for all_exp_one_wildcard in NO_WILDCARD_VALUES: |
| all_exp_one_wildcard |= required_wildcards(self) |
| flow_match_test(self, config["port_map"], wildcards=all_exp_one_wildcard, |
| dl_vlan=vid) |
| |
| class AllWildcardMatch(BaseMatchCase): |
| """ |
| Create Wildcard-all flow and exercise for all ports |
| |
| Generate a packet |
| Generate and install a matching flow with wildcard-all |
| Add action to forward to a port |
| Send the packet to the port |
| Verify the packet is received at all other ports (one port at a time) |
| Verify flow_expiration message is correct when command option is set |
| """ |
| def runTest(self): |
| flow_match_test(self, config["port_map"], wildcards=ofp.OFPFW_ALL) |
| |
| class AllWildcardMatchTagged(BaseMatchCase): |
| """ |
| AllWildcardMatch with tagged packets |
| """ |
| def runTest(self): |
| vid = test_param_get('vid', default=TEST_VID_DEFAULT) |
| flow_match_test(self, config["port_map"], wildcards=ofp.OFPFW_ALL, |
| dl_vlan=vid) |
| |
| @group('smoke') |
| class AddVLANTag(BaseMatchCase): |
| """ |
| Add a VLAN tag to an untagged packet |
| """ |
| def runTest(self): |
| new_vid = 2 |
| sup_acts = self.supported_actions |
| if not(sup_acts & 1<<ofp.OFPAT_SET_VLAN_VID): |
| skip_message_emit(self, "Add VLAN tag test") |
| return |
| |
| len = 100 |
| len_w_vid = 104 |
| pkt = simple_tcp_packet(pktlen=len) |
| exp_pkt = simple_tcp_packet(pktlen=len_w_vid, dl_vlan_enable=True, |
| dl_vlan=new_vid) |
| vid_act = action.action_set_vlan_vid() |
| vid_act.vlan_vid = new_vid |
| |
| flow_match_test(self, config["port_map"], pkt=pkt, |
| exp_pkt=exp_pkt, action_list=[vid_act]) |
| |
| @disabled |
| class PacketOnly(base_tests.DataPlaneOnly): |
| """ |
| Just send a packet thru the switch |
| """ |
| |
| def runTest(self): |
| pkt = simple_tcp_packet() |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| ing_port = of_ports[0] |
| logging.info("Sending packet to " + str(ing_port)) |
| logging.debug("Data: " + str(pkt).encode('hex')) |
| self.dataplane.send(ing_port, str(pkt)) |
| |
| @disabled |
| class PacketOnlyTagged(base_tests.DataPlaneOnly): |
| """ |
| Just send a packet thru the switch |
| """ |
| |
| def runTest(self): |
| vid = test_param_get('vid', default=TEST_VID_DEFAULT) |
| pkt = simple_tcp_packet(dl_vlan_enable=True, dl_vlan=vid) |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| ing_port = of_ports[0] |
| logging.info("Sending packet to " + str(ing_port)) |
| logging.debug("Data: " + str(pkt).encode('hex')) |
| self.dataplane.send(ing_port, str(pkt)) |
| |
| class ModifyVID(BaseMatchCase): |
| """ |
| Modify the VLAN ID in the VLAN tag of a tagged packet |
| """ |
| def setUp(self): |
| BaseMatchCase.setUp(self) |
| self.ing_port=False |
| |
| def runTest(self): |
| old_vid = 2 |
| new_vid = 3 |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_VLAN_VID): |
| skip_message_emit(self, "Modify VLAN tag test") |
| return |
| |
| pkt = simple_tcp_packet(dl_vlan_enable=True, dl_vlan=old_vid) |
| exp_pkt = simple_tcp_packet(dl_vlan_enable=True, dl_vlan=new_vid) |
| vid_act = action.action_set_vlan_vid() |
| vid_act.vlan_vid = new_vid |
| |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=[vid_act], ing_port=self.ing_port) |
| |
| class ModifyVIDToIngress(ModifyVID): |
| """ |
| Modify the VLAN ID in the VLAN tag of a tagged packet and send to |
| ingress port |
| """ |
| def setUp(self): |
| BaseMatchCase.setUp(self) |
| self.ing_port=True |
| |
| class ModifyVIDWithTagMatchWildcarded(BaseMatchCase): |
| """ |
| With vlan ID and priority wildcarded, perform SET_VLAN_VID action. |
| The same flow should match on both untagged and tagged packets. |
| """ |
| def runTest(self): |
| old_vid = 2 |
| new_vid = 3 |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_VLAN_VID): |
| skip_message_emit(self, "ModifyVIDWithTagWildcarded test") |
| return |
| |
| of_ports = config["port_map"].keys() |
| self.assertTrue(len(of_ports) > 1, "Not enough ports for test") |
| ing_port = of_ports[0] |
| egr_ports = of_ports[1] |
| |
| delete_all_flows(self.controller) |
| |
| len_untagged = 100 |
| len_w_vid = 104 |
| untagged_pkt = simple_tcp_packet(pktlen=len_untagged) |
| tagged_pkt = simple_tcp_packet(pktlen=len_w_vid, |
| dl_vlan_enable=True, dl_vlan=old_vid) |
| exp_pkt = simple_tcp_packet(pktlen=len_w_vid, dl_vlan_enable=True, |
| dl_vlan=new_vid) |
| wildcards = (required_wildcards(self) | ofp.OFPFW_DL_VLAN | |
| ofp.OFPFW_DL_VLAN_PCP) |
| vid_act = action.action_set_vlan_vid() |
| vid_act.vlan_vid = new_vid |
| request = flow_msg_create(self, untagged_pkt, ing_port=ing_port, |
| wildcards=wildcards, egr_ports=egr_ports, |
| action_list=[vid_act]) |
| flow_msg_install(self, request) |
| |
| logging.debug("Send untagged packet: " + str(ing_port) + " to " + |
| str(egr_ports)) |
| self.dataplane.send(ing_port, str(untagged_pkt)) |
| receive_pkt_verify(self, egr_ports, exp_pkt, ing_port) |
| |
| logging.debug("Send tagged packet: " + str(ing_port) + " to " + |
| str(egr_ports)) |
| self.dataplane.send(ing_port, str(tagged_pkt)) |
| receive_pkt_verify(self, egr_ports, exp_pkt, ing_port) |
| |
| class ModifyVlanPcp(BaseMatchCase): |
| """ |
| Modify the priority field of the VLAN tag of a tagged packet |
| """ |
| def runTest(self): |
| vid = 123 |
| old_vlan_pcp = 2 |
| new_vlan_pcp = 3 |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_VLAN_PCP): |
| skip_message_emit(self, "Modify VLAN priority test") |
| return |
| |
| pkt = simple_tcp_packet(dl_vlan_enable=True, dl_vlan=vid, dl_vlan_pcp=old_vlan_pcp) |
| exp_pkt = simple_tcp_packet(dl_vlan_enable=True, dl_vlan=vid, dl_vlan_pcp=new_vlan_pcp) |
| vid_act = action.action_set_vlan_pcp() |
| vid_act.vlan_pcp = new_vlan_pcp |
| |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=[vid_act]) |
| |
| class StripVLANTag(BaseMatchCase): |
| """ |
| Strip the VLAN tag from a tagged packet |
| """ |
| def runTest(self): |
| old_vid = 2 |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_STRIP_VLAN): |
| skip_message_emit(self, "Strip VLAN tag test") |
| return |
| |
| len_w_vid = 104 |
| len = 100 |
| pkt = simple_tcp_packet(pktlen=len_w_vid, dl_vlan_enable=True, |
| dl_vlan=old_vid) |
| exp_pkt = simple_tcp_packet(pktlen=len) |
| vid_act = action.action_strip_vlan() |
| |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=[vid_act]) |
| |
| class StripVLANTagWithTagMatchWildcarded(BaseMatchCase): |
| """ |
| Strip the VLAN tag from a tagged packet. |
| Differs from StripVLANTag in that VID and PCP are both wildcarded. |
| """ |
| def runTest(self): |
| old_vid = 2 |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_STRIP_VLAN): |
| skip_message_emit(self, "StripVLANTagWithTagWildcarded test") |
| return |
| |
| len_w_vid = 104 |
| len_untagged = 100 |
| pkt = simple_tcp_packet(pktlen=len_w_vid, dl_vlan_enable=True, |
| dl_vlan=old_vid) |
| exp_pkt = simple_tcp_packet(pktlen=len_untagged) |
| wildcards = (required_wildcards(self) | ofp.OFPFW_DL_VLAN | |
| ofp.OFPFW_DL_VLAN_PCP) |
| vid_act = action.action_strip_vlan() |
| |
| flow_match_test(self, config["port_map"], |
| wildcards=wildcards, |
| pkt=pkt, exp_pkt=exp_pkt, |
| action_list=[vid_act]) |
| |
| def init_pkt_args(): |
| """ |
| Pass back a dictionary with default packet arguments |
| """ |
| args = {} |
| args["dl_src"] = '00:23:45:67:89:AB' |
| |
| dl_vlan_enable=False |
| dl_vlan=-1 |
| if config["test-params"]["vid"]: |
| dl_vlan_enable=True |
| dl_vlan = config["test-params"]["vid"] |
| |
| # Unpack operator is ** on a dictionary |
| |
| return args |
| |
| class ModifyL2Src(BaseMatchCase): |
| """ |
| Modify the source MAC address (TP1) |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_DL_SRC): |
| skip_message_emit(self, "ModifyL2Src test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['dl_src'], |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2) |
| |
| class ModifyL2Dst(BaseMatchCase): |
| """ |
| Modify the dest MAC address (TP1) |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_DL_DST): |
| skip_message_emit(self, "ModifyL2dst test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['dl_dst'], |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2) |
| |
| class ModifyL3Src(BaseMatchCase): |
| """ |
| Modify the source IP address of an IP packet (TP1) |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_NW_SRC): |
| skip_message_emit(self, "ModifyL3Src test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['ip_src'], |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2) |
| |
| class ModifyL3Dst(BaseMatchCase): |
| """ |
| Modify the dest IP address of an IP packet (TP1) |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_NW_DST): |
| skip_message_emit(self, "ModifyL3Dst test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['ip_dst'], |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2) |
| |
| class ModifyL4Src(BaseMatchCase): |
| """ |
| Modify the source TCP port of a TCP packet (TP1) |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_TP_SRC): |
| skip_message_emit(self, "ModifyL4Src test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['tcp_sport'], |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2) |
| |
| class ModifyL4SrcUdp(BaseMatchCase): |
| """ |
| Modify the source UDP port of a UDP packet |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_TP_DST): |
| skip_message_emit(self, "ModifyL4SrcUdp test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['udp_sport'], |
| check_test_params=True, tp="udp") |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2) |
| |
| class ModifyL4Dst(BaseMatchCase): |
| """ |
| Modify the dest TCP port of a TCP packet (TP1) |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_TP_DST): |
| skip_message_emit(self, "ModifyL4Dst test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['tcp_dport'], |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2) |
| |
| class ModifyL4DstUdp(BaseMatchCase): |
| """ |
| Modify the dest UDP port of a UDP packet |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_TP_DST): |
| skip_message_emit(self, "ModifyL4DstUdp test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['udp_dport'], |
| check_test_params=True, tp="udp") |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2) |
| |
| class ModifyTOS(BaseMatchCase): |
| """ |
| Modify the IP type of service of an IP packet (TP1) |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_NW_TOS): |
| skip_message_emit(self, "ModifyTOS test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['ip_tos'], |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2, egr_count=-1) |
| |
| class ModifyL2DstMC(BaseMatchCase): |
| """ |
| Modify the L2 dest and send to 2 ports |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_DL_DST): |
| skip_message_emit(self, "ModifyL2dstMC test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['dl_dst'], |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2, egr_count=-1) |
| |
| class ModifyL2DstIngress(BaseMatchCase): |
| """ |
| Modify the L2 dest and send to the ingress port |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_DL_DST): |
| skip_message_emit(self, "ModifyL2dstIngress test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['dl_dst'], |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2, egr_count=0, |
| ing_port=True) |
| |
| class ModifyL2DstIngressMC(BaseMatchCase): |
| """ |
| Modify the L2 dest and send to the ingress port |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_DL_DST): |
| skip_message_emit(self, "ModifyL2dstMC test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['dl_dst'], |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2, egr_count=-1, |
| ing_port=True) |
| |
| class ModifyL2SrcMC(BaseMatchCase): |
| """ |
| Modify the source MAC address (TP1) and send to multiple |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if not (sup_acts & 1 << ofp.OFPAT_SET_DL_SRC): |
| skip_message_emit(self, "ModifyL2SrcMC test") |
| return |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=['dl_src'], |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2, egr_count=-1) |
| |
| class ModifyL2SrcDstMC(BaseMatchCase): |
| """ |
| Modify the L2 source and dest and send to 2 ports |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if (not (sup_acts & 1 << ofp.OFPAT_SET_DL_DST) or |
| not (sup_acts & 1 << ofp.OFPAT_SET_DL_SRC)): |
| skip_message_emit(self, "ModifyL2SrcDstMC test") |
| return |
| |
| mod_fields = ['dl_dst', 'dl_src'] |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, mod_fields=mod_fields, |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2, egr_count=-1) |
| |
| class ModifyL2DstVIDMC(BaseMatchCase): |
| """ |
| Modify the L2 dest and send to 2 ports |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| if (not (sup_acts & 1 << ofp.OFPAT_SET_DL_DST) or |
| not (sup_acts & 1 << ofp.OFPAT_SET_VLAN_VID)): |
| skip_message_emit(self, "ModifyL2DstVIDMC test") |
| return |
| |
| mod_fields = ['dl_dst', 'dl_vlan'] |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, |
| start_field_vals={'dl_vlan_enable':True}, mod_fields=mod_fields, |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2, egr_count=-1) |
| |
| @group("smoke") |
| class ModifyAll(BaseMatchCase): |
| """ |
| Modify all supported fields and output to a port |
| """ |
| def runTest(self): |
| sup_acts = self.supported_actions |
| |
| sup_map = { |
| "dl_dst" : ofp.OFPAT_SET_DL_DST, |
| "dl_src" : ofp.OFPAT_SET_DL_SRC, |
| "dl_vlan_enable" : ofp.OFPAT_SET_VLAN_VID, |
| "dl_vlan" : ofp.OFPAT_SET_VLAN_VID, |
| "dl_vlan_pcp" : ofp.OFPAT_SET_VLAN_PCP, |
| "ip_src" : ofp.OFPAT_SET_NW_SRC, |
| "ip_dst" : ofp.OFPAT_SET_NW_DST, |
| "ip_tos" : ofp.OFPAT_SET_NW_TOS, |
| "tcp_sport" : ofp.OFPAT_SET_TP_SRC, |
| "tcp_dport" : ofp.OFPAT_SET_TP_DST, |
| } |
| |
| mod_fields = [field for (field, bit) in sup_map.items() if (sup_acts & 1 << bit)] |
| random.shuffle(mod_fields) |
| start_field_vals = { "dl_vlan_enable" : True } |
| mod_field_vals = { "dl_vlan_enable" : True } |
| logging.info("modifying fields: %s" % repr(mod_fields)) |
| |
| (pkt, exp_pkt, acts) = pkt_action_setup(self, |
| mod_fields=mod_fields, |
| start_field_vals=start_field_vals, |
| mod_field_vals=mod_field_vals, |
| check_test_params=True) |
| flow_match_test(self, config["port_map"], pkt=pkt, exp_pkt=exp_pkt, |
| action_list=acts, max_test=2) |
| |
| class FlowToggle(BaseMatchCase): |
| """ |
| Add flows to the table and modify them repeatedly |
| |
| This is done by using only "add" flow messages. Since the check overlap |
| flag is not set, the switch is supposed to modify the existing flow if |
| the match already exists. |
| |
| Would probably be better to exercise more of the flow modify commands |
| (add, modify, delete +/- strict). |
| """ |
| def runTest(self): |
| flow_count = test_param_get('ft_flow_count', default=20) |
| iter_count = test_param_get('ft_iter_count', default=10) |
| |
| logging.info("Running flow toggle with %d flows, %d iterations" % |
| (flow_count, iter_count)) |
| acts = [] |
| acts.append(action.action_output()) |
| acts.append(action.action_output()) |
| |
| of_ports = config["port_map"].keys() |
| if len(of_ports) < 3: |
| self.assertTrue(False, "Too few ports for test") |
| |
| for idx in range(2): |
| acts[idx].port = of_ports[idx] |
| |
| flows = [] |
| flows.append([]) |
| flows.append([]) |
| |
| wildcards = (required_wildcards(self) | ofp.OFPFW_DL_SRC | |
| ofp.OFPFW_DL_DST) |
| # Create up the flows in an array |
| for toggle in range(2): |
| for f_idx in range(flow_count): |
| pkt = simple_tcp_packet(tcp_sport=f_idx) |
| msg = message.flow_mod() |
| match = packet_to_flow_match(self, pkt) |
| match.in_port = of_ports[2] |
| match.wildcards = wildcards |
| msg.match = match |
| msg.buffer_id = 0xffffffff |
| msg.command = ofp.OFPFC_ADD |
| msg.actions.add(acts[toggle]) |
| flows[toggle].append(msg) |
| |
| # Show two sample flows |
| logging.debug(flows[0][0].show()) |
| logging.debug(flows[1][0].show()) |
| |
| # Install the first set of flows |
| for f_idx in range(flow_count): |
| self.controller.message_send(flows[0][f_idx]) |
| do_barrier(self.controller) |
| |
| logging.info("Installed %d flows" % flow_count) |
| |
| # Repeatedly modify all the flows back and forth |
| updates = 0 |
| # Report status about 5 times |
| mod_val = (iter_count / 4) + 1 |
| start = time.time() |
| for iter_idx in range(iter_count): |
| if not iter_idx % mod_val: |
| logging.info("Flow Toggle: iter %d of %d. " % |
| (iter_idx, iter_count) + |
| "%d updates in %d secs" % |
| (updates, time.time() - start)) |
| for toggle in range(2): |
| t_idx = 1 - toggle |
| for f_idx in range(flow_count): |
| self.controller.message_send(flows[t_idx][f_idx]) |
| updates += 1 |
| do_barrier(self.controller) |
| |
| end = time.time() |
| divisor = end - start or (end - start + 1) |
| logging.info("Flow toggle: %d iterations" % iter_count) |
| logging.info(" %d flow mods in %d secs, %d mods/sec" % |
| (updates, end - start, updates/divisor)) |
| |
| |
| # You can pick and choose these by commenting tests in or out |
| iter_classes = [ |
| basic.PacketIn, |
| basic.PacketOut, |
| DirectPacket, |
| FlowToggle, |
| DirectTwoPorts, |
| DirectMCNonIngress, |
| AllWildcardMatch, |
| AllWildcardMatchTagged, |
| SingleWildcardMatch, |
| SingleWildcardMatchTagged, |
| ExactMatch, |
| ExactMatchTagged, |
| SingleWildcardMatch, |
| ModifyL2Src, |
| ModifyL2Dst, |
| ModifyL2SrcMC, |
| ModifyL2DstMC, |
| ModifyL2SrcDstMC |
| ] |
| |
| @disabled |
| class IterCases(BaseMatchCase): |
| """ |
| Iterate over a bunch of test cases |
| |
| The cases come from the list above |
| """ |
| |
| def runTest(self): |
| count = test_param_get('iter_count', default=10) |
| tests_done = 0 |
| logging.info("Running iteration test " + str(count) + " times") |
| start = time.time() |
| last = start |
| for idx in range(count): |
| logging.info("Iteration " + str(idx + 1)) |
| for cls in iter_classes: |
| test = cls() |
| test.inheritSetup(self) |
| test.runTest() |
| tests_done += 1 |
| # Report update about every minute, between tests |
| if time.time() - last > 60: |
| last = time.time() |
| logging.info( |
| "IterCases: Iter %d of %d; Ran %d tests in %d " % |
| (idx, count, tests_done, last - start) + |
| "seconds so far") |
| stats = all_stats_get(self) |
| last = time.time() |
| logging.info("\nIterCases ran %d tests in %d seconds." % |
| (tests_done, last - start)) |
| logging.info(" flows: %d. packets: %d. bytes: %d" % |
| (stats["flows"], stats["packets"], stats["bytes"])) |
| logging.info(" active: %d. lookups: %d. matched %d." % |
| (stats["active"], stats["lookups"], stats["matched"])) |
| |
| #@todo Need to implement tagged versions of the above tests |
| # |
| #@todo Implement a test case that strips tag 2, adds tag 3 |
| # and modifies tag 4 to tag 5. Then verify (in addition) that |
| # tag 6 does not get modified. |
| |
| @disabled |
| class MixedVLAN(BaseMatchCase): |
| """ |
| Test mixture of VLAN tag actions |
| |
| Strip tag 2 on port 1, send to port 2 |
| Add tag 3 on port 1, send to port 2 |
| Modify tag 4 to 5 on port 1, send to port 2 |
| All other traffic from port 1, send to port 3 |
| All traffic from port 2 sent to port 4 |
| Use exact matches with different packets for all mods |
| Verify the following: (port, vid) |
| (port 1, vid 2) => VLAN tag stripped, out port 2 |
| (port 1, no tag) => tagged packet w/ vid 2 out port 2 |
| (port 1, vid 4) => tagged packet w/ vid 5 out port 2 |
| (port 1, vid 5) => tagged packet w/ vid 5 out port 2 |
| (port 1, vid 6) => tagged packet w/ vid 6 out port 2 |
| (port 2, no tag) => untagged packet out port 4 |
| (port 2, vid 2-6) => unmodified packet out port 4 |
| |
| Variation: Might try sending VID 5 to port 3 and check. |
| If only VID 5 distinguishes pkt, this will fail on some platforms |
| """ |
| |
| @group('smoke') |
| class MatchEach(base_tests.SimpleDataPlane): |
| """ |
| Check that each match field is actually matched on. |
| Installs two flows that differ in one field. The flow that should not |
| match has a higher priority, so if that field is ignored during matching |
| the packet will be sent out the wrong port. |
| |
| TODO test UDP, ARP, ICMP, etc. |
| """ |
| def runTest(self): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 1, "Not enough ports for test") |
| |
| delete_all_flows(self.controller) |
| |
| pkt = simple_tcp_packet(dl_vlan_enable=True, dl_vlan=2) |
| ingress_port = of_ports[0] |
| egress_port = of_ports[1] |
| |
| def testField(field, mask): |
| logging.info("Testing field %s" % field) |
| |
| def addFlow(matching, priority, output_port): |
| match = packet_to_flow_match(self, pkt) |
| self.assertTrue(match is not None, "Could not generate flow match from pkt") |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| match.in_port = ingress_port |
| if not matching: |
| # Make sure flow doesn't match |
| orig = getattr(match, field) |
| if isinstance(orig, list): |
| new = map(lambda a: ~a[0] & a[1], zip(orig, mask)) |
| else: |
| new = ~orig & mask |
| setattr(match, field, new) |
| request = message.flow_mod() |
| request.match = match |
| request.buffer_id = 0xffffffff |
| request.priority = priority |
| act = action.action_output() |
| act.port = output_port |
| request.actions.add(act) |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| |
| # This flow should match. |
| addFlow(matching=True, priority=0, output_port=egress_port) |
| # This flow should not match, but it has a higher priority. |
| addFlow(matching=False, priority=1, output_port=ofp.OFPP_IN_PORT) |
| |
| do_barrier(self.controller) |
| |
| logging.info("Sending packet to dp port " + str(ingress_port)) |
| self.dataplane.send(ingress_port, str(pkt)) |
| |
| exp_pkt_arg = None |
| exp_port = None |
| if config["relax"]: |
| exp_pkt_arg = pkt |
| exp_port = egress_port |
| |
| (rcv_port, rcv_pkt, pkt_time) = self.dataplane.poll(port_number=exp_port, |
| exp_pkt=exp_pkt_arg) |
| self.assertTrue(rcv_pkt is not None, "Did not receive packet") |
| logging.debug("Packet len " + str(len(rcv_pkt)) + " in on " + str(rcv_port)) |
| self.assertEqual(rcv_port, egress_port, "Unexpected receive port") |
| self.assertEqual(str(pkt), str(rcv_pkt), 'Response packet does not match send packet') |
| |
| wildcards = required_wildcards(self) |
| # TODO in_port |
| if not (wildcards & ofp.OFPFW_DL_SRC): |
| testField("dl_src", [0xff]*6) |
| if not (wildcards & ofp.OFPFW_DL_DST): |
| testField("dl_dst", [0xff]*6) |
| if not (wildcards & ofp.OFPFW_DL_TYPE): |
| testField("dl_type", 0xffff) |
| if not (wildcards & ofp.OFPFW_DL_VLAN): |
| testField("dl_vlan", 0xfff) |
| # TODO dl_vlan_pcp |
| if not (wildcards & ofp.OFPFW_NW_SRC_ALL): |
| testField("nw_src", 0xffffffff) |
| if not (wildcards & ofp.OFPFW_NW_DST_ALL): |
| testField("nw_dst", 0xffffffff) |
| if not (wildcards & ofp.OFPFW_NW_TOS): |
| testField("nw_tos", 0x3f) |
| if not (wildcards & ofp.OFPFW_NW_PROTO): |
| testField("nw_proto", 0xff) |
| if not (wildcards & ofp.OFPFW_TP_SRC): |
| testField("tp_src", 0xffff) |
| if not (wildcards & ofp.OFPFW_TP_DST): |
| testField("tp_dst", 0xffff) |
| |
| class DirectBadPacketBase(base_tests.SimpleDataPlane): |
| """ |
| Base class for sending single packets with single flow table entries. |
| Used to verify matching of unusual packets and parsing/matching of |
| corrupted packets. |
| |
| The idea is to generate packets that may either be totally malformed or |
| malformed just enough to trick the flow matcher into making mistakes. |
| |
| Generate a 'bad' packet |
| Generate and install a matching flow |
| Add action to direct the packet to an egress port |
| Send the packet to ingress dataplane port |
| Verify the packet is received at the egress port only |
| """ |
| |
| RESULT_MATCH = "MATCH" |
| RESULT_NOMATCH = "NO MATCH" |
| RESULT_ANY = "ANY MATCH" |
| |
| def runTest(self): |
| pass |
| # TODO: |
| # - ICMP? |
| # - VLAN? |
| # - action |
| |
| def createMatch(self, **kwargs): |
| match = ofp.ofp_match() |
| match.wildcards = ofp.OFPFW_ALL |
| fields = { |
| 'dl_dst': ofp.OFPFW_DL_DST, |
| 'dl_src': ofp.OFPFW_DL_SRC, |
| 'dl_type': ofp.OFPFW_DL_TYPE, |
| 'dl_vlan': ofp.OFPFW_DL_VLAN, |
| 'nw_src': ofp.OFPFW_NW_SRC_MASK, |
| 'nw_dst': ofp.OFPFW_NW_DST_MASK, |
| 'nw_tos': ofp.OFPFW_NW_TOS, |
| 'nw_proto': ofp.OFPFW_NW_PROTO, |
| 'tp_src': ofp.OFPFW_TP_SRC, |
| 'tp_dst': ofp.OFPFW_TP_DST, |
| } |
| for key in kwargs: |
| setattr(match, key, kwargs[key]) |
| match.wildcards &= ~fields[key] |
| return match |
| |
| def testPktsAgainstFlow(self, pkts, acts, match): |
| if type(acts) != list: |
| acts = [acts] |
| for info in pkts: |
| title, pkt, expected_result = info |
| self.testPktAgainstFlow(title, pkt, acts, match, expected_result) |
| |
| def testPktAgainstFlow(self, title, pkt, acts, match, expected_result): |
| of_ports = config["port_map"].keys() |
| of_ports.sort() |
| self.assertTrue(len(of_ports) > 1, "Not enough ports for test") |
| |
| delete_all_flows(self.controller) |
| |
| ingress_port = of_ports[0] |
| egress_port = of_ports[1] |
| |
| logging.info("Testing packet '%s', expect result %s" % |
| (title, expected_result)) |
| logging.info("Ingress %s to egress %s" % |
| (str(ingress_port), str(egress_port))) |
| logging.info("Packet:") |
| logging.info(inspect_packet(pkt)) |
| |
| match.in_port = ingress_port |
| |
| request = message.flow_mod() |
| request.match = match |
| request.priority = 1 |
| |
| request.buffer_id = 0xffffffff |
| for act in acts: |
| act.port = egress_port |
| request.actions.add(act) |
| |
| logging.info("Inserting flow") |
| self.controller.message_send(request) |
| |
| # This flow speeds up negative tests |
| logging.info("Inserting catch-all flow") |
| request2 = message.flow_mod() |
| request2.match = self.createMatch() |
| request2.match.wildcards &= ~ofp.OFPFW_IN_PORT |
| request2.match.in_port = ingress_port |
| |
| request2.priority = 0 |
| act = action.action_output() |
| act.port = ofp.OFPP_IN_PORT |
| request2.actions.add(act) |
| self.controller.message_send(request2) |
| |
| do_barrier(self.controller) |
| |
| pkt_str = str(pkt) |
| if config["minsize"] > len(str(pkt)): |
| pkt_str += '0' * (config["minsize"] - len(str(pkt))) |
| |
| logging.info("Sending packet to dp port " + |
| str(ingress_port)) |
| self.dataplane.send(ingress_port, pkt_str) |
| |
| exp_pkt_arg = None |
| exp_port = None |
| if config["relax"]: |
| exp_pkt_arg = pkt |
| exp_port = egress_port |
| |
| if expected_result == self.RESULT_MATCH: |
| timeout = -1 # default timeout |
| else: |
| timeout = 1 # short timeout for negative tests |
| |
| (rcv_port, rcv_pkt, pkt_time) = self.dataplane.poll(exp_pkt=exp_pkt_arg, |
| timeout=timeout) |
| if rcv_port == ingress_port: |
| logging.debug("Packet matched catch-all flow") |
| rcv_pkt = None |
| |
| if expected_result == self.RESULT_MATCH: |
| self.assertTrue(rcv_pkt is not None, |
| "Did not receive packet, expected a match") |
| logging.debug("Packet len " + str(len(rcv_pkt)) + " in on " + |
| str(rcv_port)) |
| self.assertEqual(rcv_port, egress_port, "Unexpected receive port") |
| str_pkt = str(pkt) |
| str_rcv_pkt = str(rcv_pkt) |
| str_rcv_pkt = str_rcv_pkt[0:len(str_pkt)] |
| if str_pkt != str_rcv_pkt: |
| logging.error("Response packet does not match send packet") |
| logging.info("Response:") |
| logging.info(inspect_packet(scapy.Ether(rcv_pkt))) |
| self.assertEqual(str_pkt, str_rcv_pkt, |
| 'Response packet does not match send packet') |
| elif expected_result == self.RESULT_NOMATCH: |
| self.assertTrue(rcv_pkt is None, "Received packet, expected drop") |
| else: |
| logging.debug("Match or drop accepted. Result = %s" % |
| ("match" if rcv_pkt is not None else "drop")) |
| |
| |
| class DirectBadIpTcpPacketsBase(DirectBadPacketBase): |
| """ |
| Base class for TCP and UDP parsing/matching verification under corruptions |
| """ |
| def runTest(self): |
| pass |
| |
| def runTestWithProto(self, protoName = 'TCP'): |
| dl_dst='00:01:02:03:04:05' |
| dl_src='00:06:07:08:09:0a' |
| ip_src='192.168.0.1' |
| ip_dst='192.168.0.2' |
| ip_tos=0 |
| tcp_sport=1234 |
| tcp_dport=80 |
| |
| # Generate a proper packet for constructing a match |
| tp = None |
| if protoName == 'TCP': |
| tp = scapy.TCP |
| proto = 6 |
| elif protoName == 'UDP': |
| tp = scapy.UDP |
| proto = 17 |
| else: |
| raise Exception("Passed in unknown proto name") |
| |
| match_pkt = scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos)/ \ |
| tp(sport=tcp_sport, dport=tcp_dport) |
| match = packet_to_flow_match(self, match_pkt) |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| |
| def testPacket(title, pkt, result): |
| act = action.action_output() |
| pkts = [ |
| [title, pkt, result] |
| ] |
| self.testPktsAgainstFlow(pkts, act, match) |
| |
| # Try incomplete IP headers |
| testPacket("Incomplete IP header (1 bytes)", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| str(scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto))[0:1], |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Incomplete IP header (2 bytes)", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| str(scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto))[0:2], |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Incomplete IP header (3 bytes)", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| str(scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto))[0:3], |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Incomplete IP header (12 bytes)", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| str(scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto))[0:12], |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Incomplete IP header (16 bytes)", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| str(scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto))[0:16], |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Incomplete IP header (19 bytes)", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| str(scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto))[0:19], |
| self.RESULT_NOMATCH, |
| ) |
| |
| # Try variations where the TCP header is missing or incomplete. As we |
| # saw bugs before where buffers were reused and lengths weren't honored, |
| # we initiatlize once with a non-matching full packet and once with a |
| # matching full packet. |
| testPacket("Non-Matching TCP packet, warming buffer", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto)/ \ |
| tp(sport=tcp_sport, dport=tcp_dport + 1), |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Missing TCP header, buffer warmed with non-match", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto), |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Matching TCP packet, warming buffer", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto)/ \ |
| tp(sport=tcp_sport, dport=tcp_dport), |
| self.RESULT_MATCH, |
| ) |
| testPacket("Missing TCP header, buffer warmed with match", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto), |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Truncated TCP header: 2 bytes", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto)/ \ |
| (str(tp(sport=tcp_sport, dport=tcp_dport))[0:2]), |
| self.RESULT_NOMATCH, |
| ) |
| |
| # Play with IP header length values that put the start of TCP either |
| # inside the generated TCP header or beyond. In some cases it may even |
| # be beyond the packet boundary. Also play with IP options and more |
| # importantly IP total length corruptions. |
| testPacket("TCP packet, corrupt ihl (0x6)", |
| simple_tcp_packet(ip_ihl=6), |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("TCP packet, corrupt ihl (0xf)", |
| simple_tcp_packet(ip_ihl=0xf), # ihl = 15 * 4 = 60 |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("TCP packet, corrupt ihl and total length", |
| simple_tcp_packet(ip_ihl=0xf, pktlen=56), # ihl = 15 * 4 = 60, |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Corrupt IPoption: First 4 bytes of matching TCP header", |
| simple_tcp_packet( |
| ip_options=scapy.IPOption('\x04\xd2\x00\x50'), |
| tcp_dport=2, tcp_sport=2 |
| ), |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Missing TCP header, corrupt ihl", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, ihl=0xf, proto=proto), |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Missing TCP header, corrupt total length", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto, len= 100), |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Missing TCP header, corrupt ihl and total length", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, ihl=0xf, proto=proto, len=43), |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Incomplete IP header (12 bytes), corrupt ihl and total length", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| str(scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto, ihl=10, len=43))[0:12], |
| self.RESULT_NOMATCH, |
| ) |
| testPacket("Incomplete IP header (16 bytes), corrupt ihl and total length", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| str(scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto, ihl=10, len=43))[0:16], |
| self.RESULT_NOMATCH, |
| ) |
| |
| # Try an incomplete TCP header that has enough bytes to carry source and |
| # destination ports. As that is all we care about during matching, some |
| # implementations may match and some may drop the packet |
| testPacket("Incomplete TCP header: src/dst port present", |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=proto)/ \ |
| (str(tp(sport=tcp_sport, dport=tcp_dport))[0:4]), |
| self.RESULT_ANY, |
| ) |
| |
| for i in range(1): |
| for length in range(40 / 4): # IPv4 options are a maximum of 40 in length |
| bytes = "".join([("%c" % random.randint(0, 255)) for x in range(length * 4)]) |
| eth = scapy.Ether(dst=dl_dst, src=dl_src) |
| ip = scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, ihl=5 + length, proto=proto) |
| tcp = tp(sport=tcp_sport, dport=tcp_dport+1) |
| pkt = eth / ip |
| pkt = pkt / bytes |
| pkt = pkt / str(tcp) |
| testPacket("Random IP options len = %d - TP match must fail" % length * 4, |
| pkt, |
| self.RESULT_NOMATCH |
| ) |
| |
| eth = scapy.Ether(dst=dl_dst, src=dl_src) |
| ip = scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, ihl=5 + length, proto=proto) |
| tcp = tp(sport=tcp_sport, dport=tcp_dport) |
| pkt = eth / ip |
| pkt = pkt / bytes |
| pkt = pkt / str(tcp) |
| |
| testPacket("Random IP options len = %d - May match", |
| pkt, |
| self.RESULT_ANY |
| ) |
| |
| |
| class DirectBadIpTcpPackets(DirectBadIpTcpPacketsBase): |
| """ |
| Verify IP/TCP parsing and matching. Focus on packet corruptions |
| """ |
| def runTest(self): |
| self.runTestWithProto(protoName = 'TCP') |
| |
| class DirectBadIpUdpPackets(DirectBadIpTcpPacketsBase): |
| """ |
| Verify IP/UDP parsing and matching. Focus on packet corruptions |
| """ |
| def runTest(self): |
| self.runTestWithProto(protoName = 'UDP') |
| |
| class DirectBadLlcPackets(DirectBadPacketBase): |
| """ |
| Verify LLC/SNAP parsing and matching. Focus on packet corruptions |
| """ |
| def runTest(self): |
| dl_dst='00:01:02:03:04:05' |
| dl_src='00:06:07:08:09:0a' |
| ip_src='192.168.0.1' |
| ip_dst='192.168.0.2' |
| ip_tos=0 |
| tcp_sport=1234 |
| tcp_dport=80 |
| |
| IS_SNAP_IP = 1 |
| IS_SNAP_IP_CORRUPT = 2 |
| IS_NOT_SNAP_IP = 3 |
| |
| def testPacketTcpMatch(title, llc): |
| match_pkt = scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos)/ \ |
| scapy.TCP(sport=tcp_sport, dport=tcp_dport) |
| match = packet_to_flow_match(self, match_pkt) |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| act = action.action_output() |
| |
| self.testPktsAgainstFlow( |
| [[ |
| "TCP match - LLC frame correct length - %s" % title, |
| scapy.Ether(dst=dl_dst, src=dl_src, type=len(llc)) / llc, |
| self.RESULT_ANY, |
| ]], |
| act, match |
| ) |
| |
| # Corrupt length field |
| ethLen = random.randint(0, 1535) |
| self.testPktsAgainstFlow( |
| [[ |
| "TCP match - LLC frame corrupted length - %s" % title, |
| scapy.Ether(dst=dl_dst, src=dl_src, type=ethLen) / llc, |
| self.RESULT_ANY, |
| ]], |
| act, match |
| ) |
| |
| def testPacketEthSrcDstMatch(title, llc): |
| # Matching based on Ethernet source and destination |
| match_pkt = scapy.Ether(dst=dl_dst, src=dl_src) |
| match = packet_to_flow_match(self, match_pkt) |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| match.wildcards |= ofp.OFPFW_DL_TYPE |
| self.testPktsAgainstFlow( |
| [[ |
| "Eth addr match - LLC frame correct length- %s" % title, |
| scapy.Ether(dst=dl_dst, src=dl_src, type=len(llc)) / llc, |
| self.RESULT_MATCH, |
| ]], |
| action.action_output(), match |
| ) |
| |
| # Corrupt length field |
| ethLen = random.randint(0, 1535) |
| self.testPktsAgainstFlow( |
| [[ |
| "Eth addr match - LLC frame corrupted length- %s" % title, |
| scapy.Ether(dst=dl_dst, src=dl_src, type=ethLen) / llc, |
| self.RESULT_ANY, |
| ]], |
| action.action_output(), match |
| ) |
| |
| def testPacketEthSrcDstTypeMatch(title, llc, is_snap_ip): |
| # Matching based on Ethernet source, destination and type |
| match_pkt = scapy.Ether(dst=dl_dst, src=dl_src, type=0x800) |
| match = packet_to_flow_match(self, match_pkt) |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| if is_snap_ip == IS_SNAP_IP: |
| is_match = self.RESULT_MATCH |
| elif is_snap_ip == IS_SNAP_IP_CORRUPT: |
| is_match = self.RESULT_ANY |
| else: |
| is_match = self.RESULT_NOMATCH |
| self.testPktsAgainstFlow( |
| [[ |
| "Eth addr+type match - LLC frame correct length - %s" % title, |
| scapy.Ether(dst=dl_dst, src=dl_src, type=len(llc)) / llc, |
| is_match, |
| ]], |
| action.action_output(), match |
| ) |
| |
| # Corrupt length field |
| ethLen = random.randint(0, 1535) |
| self.testPktsAgainstFlow( |
| [[ |
| "Eth addr+type match - LLC frame corrupted length - %s" % title, |
| scapy.Ether(dst=dl_dst, src=dl_src, type=ethLen) / llc, |
| self.RESULT_ANY, |
| ]], |
| action.action_output(), match |
| ) |
| |
| def testPacket(title, llc, is_snap_ip): |
| testPacketTcpMatch(title, llc) |
| testPacketEthSrcDstMatch(title, llc) |
| testPacketEthSrcDstTypeMatch(title, llc, is_snap_ip) |
| |
| testPacket("LLC - No SNAP - No Payload", |
| scapy.LLC(dsap=0x33, ssap=0x44, ctrl=0x03), |
| IS_NOT_SNAP_IP, |
| ) |
| testPacket("LLC - No SNAP - Small Payload", |
| scapy.LLC(dsap=0x33, ssap=0x44, ctrl=0x03) / ("S" * 10), |
| IS_NOT_SNAP_IP, |
| ) |
| testPacket("LLC - No SNAP - Max -1 Payload", |
| scapy.LLC(dsap=0x33, ssap=0x44, ctrl=0x03) / ("S" * (1500 - 3 - 1)), |
| IS_NOT_SNAP_IP, |
| ) |
| testPacket("LLC - No SNAP - Max Payload", |
| scapy.LLC(dsap=0x33, ssap=0x44, ctrl=0x03) / ("S" * (1500 - 3)), |
| IS_NOT_SNAP_IP, |
| ) |
| testPacket("LLC - SNAP - Small bogus payload", |
| scapy.LLC(dsap=0xaa, ssap=0xaa, ctrl=0x03)/ \ |
| scapy.SNAP(OUI=0x000000, code=0x800) / ("S" * 10), |
| IS_SNAP_IP_CORRUPT, |
| ) |
| testPacket("LLC - SNAP - Max -1 bogus payload", |
| scapy.LLC(dsap=0xaa, ssap=0xaa, ctrl=0x03)/ \ |
| scapy.SNAP(OUI=0x000000, code=0x3) / ("S" * (1500 - 3 - 5 - 1)), |
| IS_NOT_SNAP_IP, |
| ) |
| testPacket("LLC - SNAP - Max bogus payload", |
| scapy.LLC(dsap=0xaa, ssap=0xaa, ctrl=0x03)/ \ |
| scapy.SNAP(OUI=0x000000, code=0x3) / ("S" * (1500 - 3 - 5)), |
| IS_NOT_SNAP_IP, |
| ) |
| testPacket("LLC - SNAP - IP - TCP", |
| scapy.LLC(dsap=0xaa, ssap=0xaa, ctrl=0x03)/ \ |
| scapy.SNAP(OUI=0x000000, code=0x800)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=6)/ \ |
| scapy.TCP(sport=tcp_sport, dport=tcp_dport), |
| IS_SNAP_IP, |
| ) |
| |
| |
| class DirectLlcPackets(DirectBadPacketBase): |
| """ |
| Verify LLC/SNAP parsing (valid and corrupted packets) and matching |
| """ |
| def runTest(self): |
| dl_dst='00:01:02:03:04:05' |
| dl_src='00:06:07:08:09:0a' |
| ip_src='192.168.0.1' |
| ip_dst='192.168.0.2' |
| ip_tos=0 |
| tcp_sport=1234 |
| tcp_dport=80 |
| |
| # Test ethertype in face of LLC/SNAP and OFP_DL_TYPE_NOT_ETH_TYPE |
| IS_SNAP_NOT_IP = 1 |
| IS_SNAP_AND_IP = 2 |
| IS_NOT_SNAP = 3 |
| |
| def testPacketEthTypeIP(title, llc, is_snap): |
| match_pkt = scapy.Ether(dst=dl_dst, src=dl_src, type=0x800) |
| match = packet_to_flow_match(self, match_pkt) |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| pkts = [] |
| if is_snap == IS_NOT_SNAP or is_snap == IS_SNAP_NOT_IP: |
| result = self.RESULT_NOMATCH |
| else: |
| result = self.RESULT_MATCH |
| pkts.append([ |
| "Ether type 0x800 match - %s" % title, |
| scapy.Ether(dst=dl_dst, src=dl_src, type=len(llc)) / llc, |
| result, |
| ]) |
| act = action.action_output() |
| self.testPktsAgainstFlow(pkts, act, match) |
| |
| def testPacketEthTypeNotEth(title, llc, is_snap): |
| match_pkt = scapy.Ether(dst = dl_dst, src = dl_src, |
| type = ofp.OFP_DL_TYPE_NOT_ETH_TYPE) |
| match = packet_to_flow_match(self, match_pkt) |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| pkts = [] |
| if is_snap == IS_NOT_SNAP: |
| result = self.RESULT_MATCH |
| else: |
| result = self.RESULT_NOMATCH |
| pkts.append([ |
| "Ether type OFP_DL_TYPE_NOT_ETH_TYPE match - %s" % title, |
| scapy.Ether(dst=dl_dst, src=dl_src, type=len(llc)) / llc, |
| result, |
| ]) |
| act = action.action_output() |
| self.testPktsAgainstFlow(pkts, act, match) |
| |
| def testPacket(title, llc, is_snap): |
| testPacketEthTypeIP(title, llc, is_snap) |
| testPacketEthTypeNotEth(title, llc, is_snap) |
| |
| testPacket("LLC - No SNAP - No Payload", |
| scapy.LLC(dsap=0x33, ssap=0x44, ctrl=0x03), |
| IS_NOT_SNAP, |
| ) |
| testPacket("LLC (with information field) - No SNAP - No Payload", |
| scapy.LLC(dsap=0x33, ssap=0x44, ctrl=0x12) / "S", |
| IS_NOT_SNAP, |
| ) |
| testPacket("LLC - No SNAP - Small Payload", |
| scapy.LLC(dsap=0x33, ssap=0x44, ctrl=0x03) / ("S" * 10), |
| IS_NOT_SNAP, |
| ) |
| testPacket("LLC - No SNAP - Max -1 Payload", |
| scapy.LLC(dsap=0x33, ssap=0x44, ctrl=0x03) / ("S" * (1500 - 3 - 1)), |
| IS_NOT_SNAP, |
| ) |
| testPacket("LLC - No SNAP - Max Payload", |
| scapy.LLC(dsap=0x33, ssap=0x44, ctrl=0x03) / ("S" * (1500 - 3)), |
| IS_NOT_SNAP, |
| ) |
| testPacket("LLC - SNAP - Non-default OUI", |
| scapy.LLC(dsap=0xaa, ssap=0xaa, ctrl=0x03)/ \ |
| scapy.SNAP(OUI=0x000001, code=0x800) / ("S" * 10), |
| IS_NOT_SNAP, |
| ) |
| testPacket("LLC - SNAP - Default OUI", |
| scapy.LLC(dsap=0xaa, ssap=0xaa, ctrl=0x03)/ \ |
| scapy.SNAP(OUI=0x000000, code=0x800) / ("S" * 10), |
| IS_SNAP_AND_IP, |
| ) |
| testPacket("LLC - SNAP - Max -1 bogus payload", |
| scapy.LLC(dsap=0xaa, ssap=0xaa, ctrl=0x03)/ \ |
| scapy.SNAP(OUI=0x000000, code=0x3) / ("S" * (1500 - 3 - 5 - 1)), |
| IS_SNAP_NOT_IP, |
| ) |
| testPacket("LLC - SNAP - Max bogus payload", |
| scapy.LLC(dsap=0xaa, ssap=0xaa, ctrl=0x03)/ \ |
| scapy.SNAP(OUI=0x000000, code=0x3) / ("S" * (1500 - 3 - 5)), |
| IS_SNAP_NOT_IP, |
| ) |
| testPacket("LLC - SNAP - IP - TCP", |
| scapy.LLC(dsap=0xaa, ssap=0xaa, ctrl=0x03)/ \ |
| scapy.SNAP(OUI=0x000000, code=0x800)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, proto=6)/ \ |
| scapy.TCP(sport=tcp_sport, dport=tcp_dport), |
| IS_SNAP_AND_IP, |
| ) |
| |
| |
| class DirectArpPackets(DirectBadPacketBase): |
| """ |
| Verify ARP parsing (valid and corrupted packets) and ARP matching |
| """ |
| def runTest(self): |
| self.testArpHandling() |
| |
| def testArpHandling(self): |
| dl_dst='00:01:02:03:04:05' |
| dl_src='00:06:07:08:09:0a' |
| ip_src='192.168.0.1' |
| ip_dst='192.168.0.2' |
| ip_src2='192.168.1.1' |
| ip_dst2='192.168.1.2' |
| ip_tos=0 |
| tcp_sport=1234 |
| tcp_dport=80 |
| |
| def testPacket(title, arp_match, arp_pkt, result): |
| pkts = [] |
| |
| match_pkt = scapy.Ether(dst=dl_dst, src=dl_src) / arp_match |
| match = packet_to_flow_match(self, match_pkt) |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| |
| pkts.append([ |
| title, |
| scapy.Ether(dst=dl_dst, src=dl_src) / arp_pkt, |
| result, |
| ]) |
| |
| act = action.action_output() |
| self.testPktsAgainstFlow(pkts, act, match) |
| |
| testPacket("Basic ARP", |
| scapy.ARP(psrc=ip_src, pdst=ip_dst, op = 1), |
| scapy.ARP(hwdst = '00:00:00:00:00:00', hwsrc = dl_src, |
| psrc = ip_src, pdst = ip_dst, hwlen = 6, plen = 4, |
| ptype = 0x800, hwtype = 1, op = 1), |
| self.RESULT_MATCH |
| ) |
| # More stuff: |
| # - Non matches on any property |
| # - Corrupted hwlen and plen |
| # - Other hwtype, ptype |
| # - Truncated ARP pkt |
| |
| |
| class DirectVlanPackets(DirectBadPacketBase): |
| """ |
| Verify VLAN parsing (valid and corrupted packets) and ARP matching |
| """ |
| def runTest(self): |
| dl_dst='00:01:02:03:04:05' |
| dl_src='00:06:07:08:09:0a' |
| ip_src='192.168.0.1' |
| ip_dst='192.168.0.2' |
| ip_src2='192.168.1.1' |
| ip_dst2='192.168.1.2' |
| ip_tos=0 |
| tcp_sport=1234 |
| tcp_dport=80 |
| |
| def testPacket(title, match, pkt, result): |
| pkts = [] |
| |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| |
| pkts.append([ |
| "%s" % title, |
| pkt, |
| result, |
| ]) |
| |
| act = action.action_output() |
| self.testPktsAgainstFlow(pkts, act, match) |
| |
| testPacket("Basic MAC matching - IPv4 payload", |
| self.createMatch(dl_dst=parse_mac(dl_dst), dl_src=parse_mac(dl_src)), |
| scapy.Ether(dst=dl_dst, src=dl_src, type=0x800) / scapy.IP(), |
| self.RESULT_MATCH |
| ) |
| testPacket("Basic MAC matching - VMware beacon - no payload", |
| self.createMatch(dl_dst=parse_mac(dl_dst), dl_src=parse_mac(dl_src)), |
| scapy.Ether(dst=dl_dst, src=dl_src, type=0x8922), |
| self.RESULT_MATCH |
| ) |
| testPacket("Basic MAC matching - VMware beacon - with payload", |
| self.createMatch(dl_dst=parse_mac(dl_dst), dl_src=parse_mac(dl_src)), |
| scapy.Ether(dst=dl_dst, src=dl_src, type=0x8922)/ ("X" * 1), |
| self.RESULT_MATCH |
| ) |
| testPacket("Basic MAC matching - IPv6 payload", |
| self.createMatch(dl_dst=parse_mac(dl_dst), dl_src=parse_mac(dl_src)), |
| scapy.Ether(dst=dl_dst, src=dl_src) / scapy.IPv6(), |
| self.RESULT_MATCH |
| ) |
| testPacket("Basic MAC matching with VLAN tag present", |
| self.createMatch(dl_dst=parse_mac(dl_dst), dl_src=parse_mac(dl_src)), |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.Dot1Q(prio=5, vlan=1000)/ \ |
| scapy.IP(), |
| self.RESULT_MATCH |
| ) |
| testPacket("Basic MAC matching with VLAN tag present", |
| self.createMatch(dl_dst=parse_mac(dl_dst), dl_src=parse_mac(dl_src), |
| dl_type=0x800), |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.Dot1Q(prio=5, vlan=1000)/ \ |
| scapy.IP(), |
| self.RESULT_MATCH |
| ) |
| testPacket("Ether matching with VLAN tag present - No type match", |
| self.createMatch(dl_dst=parse_mac(dl_dst), dl_src=parse_mac(dl_src), |
| dl_type=0x801), |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.Dot1Q(prio=5, vlan=1000)/ \ |
| scapy.IP(), |
| self.RESULT_NOMATCH |
| ) |
| testPacket("Ether matching with VLAN tag present - No type match 0x8100", |
| self.createMatch(dl_dst=parse_mac(dl_dst), dl_src=parse_mac(dl_src), |
| dl_type=0x8100), |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.Dot1Q(prio=5, vlan=1000)/ \ |
| scapy.IP(), |
| self.RESULT_NOMATCH |
| ) |
| testPacket("IP matching - VLAN tag", |
| self.createMatch(dl_dst=parse_mac(dl_dst), dl_src=parse_mac(dl_src), |
| dl_type=0x0800, |
| nw_src=parse_ip(ip_src), nw_dst=parse_ip(ip_dst)), |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.Dot1Q(prio=5, vlan=1000)/ \ |
| scapy.IP(src=ip_src, dst=ip_dst), |
| self.RESULT_MATCH |
| ) |
| # XXX: |
| # - Matching on VLAN ID and Prio |
| # - Actions |
| |
| @nonstandard |
| class DirectVlanPacketsDoubleTagged(DirectVlanPackets): |
| """ |
| VLAN parsing for double tagged packets. Spec is ambiguous about |
| the treatment of these cases, so broken out to be non-standard |
| """ |
| def runTest(self): |
| dl_dst='00:01:02:03:04:05' |
| dl_src='00:06:07:08:09:0a' |
| ip_src='192.168.0.1' |
| ip_dst='192.168.0.2' |
| ip_src2='192.168.1.1' |
| ip_dst2='192.168.1.2' |
| ip_tos=0 |
| tcp_sport=1234 |
| tcp_dport=80 |
| |
| def testPacket(title, match, pkt, result): |
| pkts = [] |
| |
| self.assertTrue(match is not None, |
| "Could not generate flow match from pkt") |
| match.wildcards &= ~ofp.OFPFW_IN_PORT |
| |
| pkts.append([ |
| "%s" % title, |
| pkt, |
| result, |
| ]) |
| |
| act = action.action_output() |
| self.testPktsAgainstFlow(pkts, act, match) |
| testPacket("Ether matching with double VLAN tag - Wrong type match", |
| self.createMatch(dl_dst=parse_mac(dl_dst), dl_src=parse_mac(dl_src), |
| dl_type=0x800), |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.Dot1Q(prio=5, vlan=1000)/ \ |
| scapy.Dot1Q(prio=3, vlan=1005)/ \ |
| scapy.IP(), |
| self.RESULT_NOMATCH |
| ) |
| testPacket("Ether matching with double VLAN tag - Type match", |
| self.createMatch(dl_dst=parse_mac(dl_dst), dl_src=parse_mac(dl_src), |
| dl_type=0x8100), |
| scapy.Ether(dst=dl_dst, src=dl_src)/ \ |
| scapy.Dot1Q(prio=5, vlan=1000)/ \ |
| scapy.Dot1Q(prio=3, vlan=1005)/ \ |
| scapy.IP(), |
| self.RESULT_MATCH |
| ) |
| |
| |
| |
| if __name__ == "__main__": |
| print "Please run through oft script: ./oft --test_spec=basic" |