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gerrit.opencord.org / fabric-oftest / 086643ab28919c208db65d7efc3f144b32880c53 / . / ofdpa / flows.py
blob: 00a4f1a79cba01128758283286224744d271ad61 [file] [log] [blame]
"""
The following tests are being done here
1) PacketInSrcMacMiss
2) VlanSupport
3) L2FloodQinQ
4) L2FloodTagged
5) L2Flood Tagged Unknown Src
6) L2 Unicast Tagged
7) MTU 1500
8) MTU 4100
9) MTU 4500
10) L3UnicastTagged
11) L3VPNMPLS
12) MPLS Termination
"""
from oftest import config
import logging
import oftest.base_tests as base_tests
import ofp
from oftest.testutils import *
from accton_util import *
class PacketInSrcMacMiss(base_tests.SimpleDataPlane):
"""
Test packet in function on a src-mac miss
Send a packet to each dataplane port and verify that a packet
in message is received from the controller for each
#todo verify you stop receiving after adding rule
"""
def runTest(self):
delete_all_flows(self.controller)
delete_all_groups(self.controller)
ports = sorted(config["port_map"].keys())
for port in ports:
add_one_l2_interface_group(self.controller, port, 1, True, False)
add_one_vlan_table_flow(self.controller, port, 1, flag=VLAN_TABLE_FLAG_ONLY_TAG)
parsed_vlan_pkt = simple_tcp_packet(pktlen=104,
vlan_vid=0x1001, dl_vlan_enable=True)
vlan_pkt = str(parsed_vlan_pkt)
for of_port in config["port_map"].keys():
logging.info("PacketInMiss test, port %d", of_port)
self.dataplane.send(of_port, vlan_pkt)
verify_packet_in(self, vlan_pkt, of_port, ofp.OFPR_NO_MATCH)
verify_no_other_packets(self)
class PacketInUDP(base_tests.SimpleDataPlane):
"""
Test packet in function for a table-miss flow
Send a packet to each dataplane port and verify that a packet
in message is received from the controller for each
NOTE: Verify This case the oft option shall not use --switch-ip
"""
def runTest(self):
delete_all_flows(self.controller)
delete_all_groups(self.controller)
parsed_vlan_pkt = simple_udp_packet(pktlen=104,
vlan_vid=0x1001, dl_vlan_enable=True)
vlan_pkt = str(parsed_vlan_pkt)
# create match
match = ofp.match()
match.oxm_list.append(ofp.oxm.eth_type(0x0800))
match.oxm_list.append(ofp.oxm.ip_proto(2))
request = ofp.message.flow_add(
table_id=60,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=[
ofp.action.output(
port=ofp.OFPP_CONTROLLER,
max_len=ofp.OFPCML_NO_BUFFER)]),
],
buffer_id=ofp.OFP_NO_BUFFER,
priority=1)
logging.info("Inserting packet in flow to controller")
self.controller.message_send(request)
do_barrier(self.controller)
for of_port in config["port_map"].keys():
logging.info("PacketInMiss test, port %d", of_port)
self.dataplane.send(of_port, vlan_pkt)
verify_packet_in(self, vlan_pkt, of_port, ofp.OFPR_ACTION)
verify_no_other_packets(self)
class ArpNL2(base_tests.SimpleDataPlane):
def runTest(self):
delete_all_flows(self.controller)
delete_all_groups(self.controller)
ports = sorted(config["port_map"].keys())
match = ofp.match()
match.oxm_list.append(ofp.oxm.eth_type(0x0806))
request = ofp.message.flow_add(
table_id=60,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=[
ofp.action.output(
port=ofp.OFPP_CONTROLLER,
max_len=ofp.OFPCML_NO_BUFFER)]),
],
buffer_id=ofp.OFP_NO_BUFFER,
priority=40000)
self.controller.message_send(request)
for port in ports:
add_one_l2_interface_group(self.controller, port, 1, True, False)
add_one_vlan_table_flow(self.controller, port, 1, flag=VLAN_TABLE_FLAG_ONLY_BOTH)
group_id = encode_l2_interface_group_id(1, port)
add_bridge_flow(self.controller, [0x00, 0x12, 0x34, 0x56, 0x78, port], 1, group_id, True)
do_barrier(self.controller)
parsed_arp_pkt = simple_arp_packet()
arp_pkt = str(parsed_arp_pkt)
for out_port in ports:
self.dataplane.send(out_port, arp_pkt)
verify_packet_in(self, arp_pkt, out_port, ofp.OFPR_ACTION)
# change dest based on port number
mac_dst= '00:12:34:56:78:%02X' % out_port
for in_port in ports:
if in_port == out_port:
continue
# change source based on port number to avoid packet-ins from learning
mac_src= '00:12:34:56:78:%02X' % in_port
parsed_pkt = simple_tcp_packet(eth_dst=mac_dst, eth_src=mac_src)
pkt = str(parsed_pkt)
self.dataplane.send(in_port, pkt)
for ofport in ports:
if ofport in [out_port]:
verify_packet(self, pkt, ofport)
else:
verify_no_packet(self, pkt, ofport)
verify_no_other_packets(self)
class PacketInArp(base_tests.SimpleDataPlane):
"""
Test packet in function for a table-miss flow
Send a packet to each dataplane port and verify that a packet
in message is received from the controller for each
NOTE: Verify This case the oft option shall not use --switch-ip
"""
def runTest(self):
delete_all_flows(self.controller)
delete_all_groups(self.controller)
parsed_arp_pkt = simple_arp_packet()
arp_pkt = str(parsed_arp_pkt)
ports = sorted(config["port_map"].keys())
#for port in ports:
# add_one_l2_interface_group(self.controller, port, 1, True, False)
# add_one_vlan_table_flow(self.controller, port, 1, flag=VLAN_TABLE_FLAG_ONLY_TAG)
# create match
match = ofp.match()
match.oxm_list.append(ofp.oxm.eth_type(0x0806))
request = ofp.message.flow_add(
table_id=60,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=[
ofp.action.output(
port=ofp.OFPP_CONTROLLER,
max_len=ofp.OFPCML_NO_BUFFER)]),
],
buffer_id=ofp.OFP_NO_BUFFER,
priority=1)
logging.info("Inserting packet in flow to controller")
self.controller.message_send(request)
do_barrier(self.controller)
for of_port in config["port_map"].keys():
logging.info("PacketInMiss test, port %d", of_port)
self.dataplane.send(of_port, arp_pkt)
verify_packet_in(self, arp_pkt, of_port, ofp.OFPR_ACTION)
verify_no_other_packets(self)
class L2FloodQinQ(base_tests.SimpleDataPlane):
"""
Test L2 flood of double tagged vlan packets (802.1Q)
Sends a double tagged packet and verifies flooding behavior according to outer vlan
"""
def runTest(self):
ports = sorted(config["port_map"].keys())
delete_all_flows(self.controller)
delete_all_groups(self.controller)
# Installing flows to avoid packet-in
for port in ports:
add_one_l2_interface_group(self.controller, port, 1, True, False)
add_one_vlan_table_flow(self.controller, port, 1, flag=VLAN_TABLE_FLAG_ONLY_TAG)
group_id = encode_l2_interface_group_id(1, port)
add_bridge_flow(self.controller, [0x00, 0x12, 0x34, 0x56, 0x78, port], 1, group_id, True)
msg=add_l2_flood_group(self.controller, ports, 1, 1)
add_bridge_flow(self.controller, None, 1, msg.group_id, True)
do_barrier(self.controller)
#verify flood
for ofport in ports:
# change dest based on port number
mac_src= '00:12:34:56:78:%02X' % ofport
parsed_pkt = simple_tcp_packet_two_vlan(pktlen=108, out_dl_vlan_enable=True, out_vlan_vid=1,
in_dl_vlan_enable=True, in_vlan_vid=10, eth_dst='00:12:34:56:78:9a', eth_src=mac_src)
pkt = str(parsed_pkt)
self.dataplane.send(ofport, pkt)
#self won't rx packet
verify_no_packet(self, pkt, ofport)
#others will rx packet
tmp_ports=list(ports)
tmp_ports.remove(ofport)
verify_packets(self, pkt, tmp_ports)
verify_no_other_packets(self)
class L2FloodTagged(base_tests.SimpleDataPlane):
"""
Test L2 flood to a vlan
Send a packet with unknown dst_mac and check if the packet is flooded to all ports except inport
#todo take in account unknown src
"""
def runTest(self):
ports = sorted(config["port_map"].keys())
delete_all_flows(self.controller)
delete_all_groups(self.controller)
# Installing flows to avoid packet-in
for port in ports:
add_one_l2_interface_group(self.controller, port, 1, True, False)
add_one_vlan_table_flow(self.controller, port, 1, flag=VLAN_TABLE_FLAG_ONLY_TAG)
group_id = encode_l2_interface_group_id(1, port)
add_bridge_flow(self.controller, [0x00, 0x12, 0x34, 0x56, 0x78, port], 1, group_id, True)
msg=add_l2_flood_group(self.controller, ports, 1, 1)
add_bridge_flow(self.controller, None, 1, msg.group_id, True)
do_barrier(self.controller)
#verify flood
for ofport in ports:
# change dest based on port number
mac_src= '00:12:34:56:78:%02X' % ofport
parsed_pkt = simple_tcp_packet(dl_vlan_enable=True, vlan_vid=1, eth_dst='00:12:34:56:78:9a', eth_src=mac_src)
pkt = str(parsed_pkt)
self.dataplane.send(ofport, pkt)
#self won't rx packet
verify_no_packet(self, pkt, ofport)
#others will rx packet
tmp_ports=list(ports)
tmp_ports.remove(ofport)
verify_packets(self, pkt, tmp_ports)
verify_no_other_packets(self)
class L2FloodTaggedUnknownSrc(base_tests.SimpleDataPlane):
"""
Test L2 flood to a vlan
Send a packet with unknown dst_mac and check if the packet is flooded to all ports except inport
#todo take in account unknown src
"""
def runTest(self):
delete_all_flows(self.controller)
delete_all_groups(self.controller)
ports = sorted(config["port_map"].keys())
for port in ports:
add_one_l2_interface_group(self.controller, port, 1, True, False)
add_one_vlan_table_flow(self.controller, port, 1, flag=VLAN_TABLE_FLAG_ONLY_TAG)
msg=add_l2_flood_group(self.controller, ports, 1, 1)
add_bridge_flow(self.controller, None, 1, msg.group_id, True)
parsed_pkt = simple_tcp_packet(dl_vlan_enable=True, vlan_vid=1, eth_dst='00:12:34:56:78:9a')
pkt = str(parsed_pkt)
#verify flood
for ofport in ports:
self.dataplane.send(ofport, pkt)
#self won't rx packet
verify_no_packet(self, pkt, ofport)
#others will rx packet
tmp_ports=list(ports)
tmp_ports.remove(ofport)
verify_packets(self, pkt, tmp_ports)
verify_no_other_packets(self)
class L2UnicastTagged(base_tests.SimpleDataPlane):
"""
Test output function for an exact-match flow
For each port A, adds a flow directing matching packets to that port.
Then, for all other ports B != A, verifies that sending a matching packet
to B results in an output to A.
"""
def runTest(self):
ports = sorted(config["port_map"].keys())
delete_all_flows(self.controller)
delete_all_groups(self.controller)
for port in ports:
add_one_l2_interface_group(self.controller, port, 1, True, False)
add_one_vlan_table_flow(self.controller, port, 1, flag=VLAN_TABLE_FLAG_ONLY_TAG)
group_id = encode_l2_interface_group_id(1, port)
add_bridge_flow(self.controller, [0x00, 0x12, 0x34, 0x56, 0x78, port], 1, group_id, True)
do_barrier(self.controller)
for out_port in ports:
# change dest based on port number
mac_dst= '00:12:34:56:78:%02X' % out_port
for in_port in ports:
if in_port == out_port:
continue
# change source based on port number to avoid packet-ins from learning
mac_src= '00:12:34:56:78:%02X' % in_port
parsed_pkt = simple_tcp_packet(dl_vlan_enable=True, vlan_vid=1, eth_dst=mac_dst, eth_src=mac_src)
pkt = str(parsed_pkt)
self.dataplane.send(in_port, pkt)
for ofport in ports:
if ofport in [out_port]:
verify_packet(self, pkt, ofport)
else:
verify_no_packet(self, pkt, ofport)
verify_no_other_packets(self)
class Mtu1500(base_tests.SimpleDataPlane):
def runTest(self):
ports = sorted(config["port_map"].keys())
delete_all_flows(self.controller)
delete_all_groups(self.controller)
# set up tag groups for each port
add_l2_interface_group(self.controller, ports, 1, True, 1)
add_vlan_table_flow(self.controller, ports)
for port in ports:
add_one_l2_interface_group(self.controller, port, 1, True, False)
add_one_vlan_table_flow(self.controller, port, 1, flag=VLAN_TABLE_FLAG_ONLY_TAG)
group_id = encode_l2_interface_group_id(1, port)
add_bridge_flow(self.controller, [0x00, 0x12, 0x34, 0x56, 0x78, port], 1, group_id, True)
do_barrier(self.controller)
for out_port in ports:
# change dest based on port number
mac_dst= '00:12:34:56:78:%02X' % out_port
for in_port in ports:
if in_port == out_port:
continue
# change source based on port number to avoid packet-ins from learning
mac_src= '00:12:34:56:78:%02X' % in_port
parsed_pkt = simple_tcp_packet(pktlen=1500,dl_vlan_enable=True, vlan_vid=1, eth_dst=mac_dst, eth_src=mac_src)
pkt = str(parsed_pkt)
self.dataplane.send(in_port, pkt)
for ofport in ports:
if ofport in [out_port]:
verify_packet(self, pkt, ofport)
else:
verify_no_packet(self, pkt, ofport)
verify_no_other_packets(self)
class Mtu4000(base_tests.SimpleDataPlane):
"""
Test output function for an exact-match flow
For each port A, adds a flow directing matching packets to that port.
Then, for all other ports B != A, verifies that sending a matching packet
to B results in an output to A.
"""
def runTest(self):
ports = sorted(config["port_map"].keys())
delete_all_flows(self.controller)
delete_all_groups(self.controller)
add_vlan_table_flow(self.controller, config["port_map"].keys())
# set up tag groups for each port
add_l2_interface_group(self.controller, config["port_map"].keys(), 1, True, 1)
for port in ports:
add_one_l2_interface_group(self.controller, port, 1, True, False)
add_one_vlan_table_flow(self.controller, port, 1, flag=VLAN_TABLE_FLAG_ONLY_TAG)
group_id = encode_l2_interface_group_id(1, port)
add_bridge_flow(self.controller, [0x00, 0x12, 0x34, 0x56, 0x78, port], 1, group_id, True)
do_barrier(self.controller)
for out_port in ports:
# change dest based on port number
mac_dst= '00:12:34:56:78:%02X' % out_port
for in_port in ports:
if in_port == out_port:
continue
# change source based on port number to avoid packet-ins from learning
mac_src= '00:12:34:56:78:%02X' % in_port
parsed_pkt = simple_tcp_packet(pktlen=4000,dl_vlan_enable=True, vlan_vid=1, eth_dst=mac_dst, eth_src=mac_src)
pkt = str(parsed_pkt)
self.dataplane.send(in_port, pkt)
for ofport in ports:
if ofport in [out_port]:
verify_packet(self, pkt, ofport)
else:
verify_no_packet(self, pkt, ofport)
verify_no_other_packets(self)
class L3UcastTagged(base_tests.SimpleDataPlane):
"""
Port1(vid=in_port, src=00:00:00:22:22:in_port, 192.168.outport.1) ,
Port2(vid=outport, dst=00:00:00:22:22:outport, 192.168.outport.1)
"""
def runTest(self):
delete_all_flows(self.controller)
delete_all_groups(self.controller)
if len(config["port_map"]) <2:
logging.info("Port count less than 2, can't run this case")
return
intf_src_mac=[0x00, 0x00, 0x00, 0xcc, 0xcc, 0xcc]
dst_mac=[0x00, 0x00, 0x00, 0x22, 0x22, 0x00]
dip=0xc0a80001
ports = config["port_map"].keys()
for port in ports:
#add l2 interface group
vlan_id=port
add_one_l2_interface_group(self.controller, port, vlan_id=vlan_id, is_tagged=True, send_barrier=False)
dst_mac[5]=vlan_id
l3_msg=add_l3_unicast_group(self.controller, port, vlanid=vlan_id, id=vlan_id, src_mac=intf_src_mac, dst_mac=dst_mac)
#add vlan flow table
add_one_vlan_table_flow(self.controller, port, vlan_id, flag=VLAN_TABLE_FLAG_ONLY_TAG)
#add termination flow
add_termination_flow(self.controller, port, 0x0800, intf_src_mac, vlan_id)
#add unicast routing flow
dst_ip = dip + (vlan_id<<8)
add_unicast_routing_flow(self.controller, 0x0800, dst_ip, 0, l3_msg.group_id)
#add entries in the Bridging table to avoid packet-in from mac learning
group_id = encode_l2_interface_group_id(vlan_id, port)
add_bridge_flow(self.controller, dst_mac, vlan_id, group_id, True)
do_barrier(self.controller)
switch_mac = ':'.join(['%02X' % x for x in intf_src_mac])
for in_port in ports:
mac_src='00:00:00:22:22:%02X' % in_port
ip_src='192.168.%02d.1' % in_port
for out_port in ports:
if in_port == out_port:
continue
ip_dst='192.168.%02d.1' % out_port
parsed_pkt = simple_tcp_packet(pktlen=100, dl_vlan_enable=True, vlan_vid=in_port,
eth_dst=switch_mac, eth_src=mac_src, ip_ttl=64, ip_src=ip_src,
ip_dst=ip_dst)
pkt=str(parsed_pkt)
self.dataplane.send(in_port, pkt)
#build expected packet
mac_dst='00:00:00:22:22:%02X' % out_port
exp_pkt = simple_tcp_packet(pktlen=100, dl_vlan_enable=True, vlan_vid=out_port,
eth_dst=mac_dst, eth_src=switch_mac, ip_ttl=63,
ip_src=ip_src, ip_dst=ip_dst)
pkt=str(exp_pkt)
verify_packet(self, pkt, out_port)
verify_no_other_packets(self)
class L3VPNMPLS(base_tests.SimpleDataPlane):
"""
Insert IP packet
Receive MPLS packet
"""
def runTest(self):
delete_all_flows(self.controller)
delete_all_groups(self.controller)
if len(config["port_map"]) <2:
logging.info("Port count less than 2, can't run this case")
return
intf_src_mac=[0x00, 0x00, 0x00, 0xcc, 0xcc, 0xcc]
dst_mac=[0x00, 0x00, 0x00, 0x22, 0x22, 0x00]
dip=0xc0a80001
index=1
ports = config["port_map"].keys()
for port in ports:
#add l2 interface group
vlan_id=port
l2_gid, l2_msg = add_one_l2_interface_group(self.controller, port, vlan_id, True, True)
dst_mac[5]=vlan_id
#add MPLS interface group
mpls_gid, mpls_msg = add_mpls_intf_group(self.controller, l2_gid, dst_mac, intf_src_mac, vlan_id, port)
#add MPLS L3 VPN group
mpls_label_gid, mpls_label_msg = add_mpls_label_group(self.controller, subtype=OFDPA_MPLS_GROUP_SUBTYPE_L3_VPN_LABEL,
index=port, ref_gid= mpls_gid, push_mpls_header=True, set_mpls_label=port, set_bos=1, set_ttl=32)
#ecmp_msg=add_l3_ecmp_group(self.controller, vlan_id, [mpls_label_gid])
do_barrier(self.controller)
#add vlan flow table
add_one_vlan_table_flow(self.controller, port, vlan_id, vrf=2, flag=VLAN_TABLE_FLAG_ONLY_TAG)
#add termination flow
add_termination_flow(self.controller, port, 0x0800, intf_src_mac, vlan_id)
#add routing flow
dst_ip = dip + (vlan_id<<8)
add_unicast_routing_flow(self.controller, 0x0800, dst_ip, 0xffffff00, mpls_label_gid, vrf=2)
#add_unicast_routing_flow(self.controller, 0x0800, dst_ip, 0xffffff00, ecmp_msg.group_id, vrf=2)
#add entries in the Bridging table to avoid packet-in from mac learning
group_id = encode_l2_interface_group_id(vlan_id, port)
add_bridge_flow(self.controller, dst_mac, vlan_id, group_id, True)
do_barrier(self.controller)
switch_mac = ':'.join(['%02X' % x for x in intf_src_mac])
for in_port in ports:
mac_src='00:00:00:22:22:%02X' % in_port
ip_src='192.168.%02d.1' % in_port
for out_port in ports:
if in_port == out_port:
continue
ip_dst='192.168.%02d.1' % out_port
parsed_pkt = simple_tcp_packet(pktlen=100, dl_vlan_enable=True, vlan_vid=in_port,
eth_dst=switch_mac, eth_src=mac_src, ip_ttl=64, ip_src=ip_src,
ip_dst=ip_dst)
pkt=str(parsed_pkt)
self.dataplane.send(in_port, pkt)
#build expect packet
mac_dst='00:00:00:22:22:%02X' % out_port
label = (out_port, 0, 1, 32)
exp_pkt = mpls_packet(pktlen=104, dl_vlan_enable=True, vlan_vid=out_port, ip_ttl=63, ip_src=ip_src,
ip_dst=ip_dst, eth_dst=mac_dst, eth_src=switch_mac, label=[label])
pkt=str(exp_pkt)
verify_packet(self, pkt, out_port)
verify_no_other_packets(self)
class L3VPN_32(base_tests.SimpleDataPlane):
"""
Insert IP packet
Receive MPLS packet
"""
def runTest(self):
delete_all_flows(self.controller)
delete_all_groups(self.controller)
if len(config["port_map"]) <2:
logging.info("Port count less than 2, can't run this case")
return
intf_src_mac=[0x00, 0x00, 0x00, 0xcc, 0xcc, 0xcc]
dst_mac=[0x00, 0x00, 0x00, 0x22, 0x22, 0x00]
dip=0xc0a80001
index=1
ports = config["port_map"].keys()
for port in ports:
#add l2 interface group
vlan_id=port
l2_gid, l2_msg = add_one_l2_interface_group(self.controller, port, vlan_id, True, True)
dst_mac[5]=vlan_id
#add MPLS interface group
mpls_gid, mpls_msg = add_mpls_intf_group(self.controller, l2_gid, dst_mac, intf_src_mac, vlan_id, port)
#add MPLS L3 VPN group
mpls_label_gid, mpls_label_msg = add_mpls_label_group(self.controller, subtype=OFDPA_MPLS_GROUP_SUBTYPE_L3_VPN_LABEL,
index=port, ref_gid= mpls_gid, push_mpls_header=True, set_mpls_label=port, set_bos=1, set_ttl=32)
#ecmp_msg=add_l3_ecmp_group(self.controller, vlan_id, [mpls_label_gid])
do_barrier(self.controller)
#add vlan flow table
add_one_vlan_table_flow(self.controller, port, vlan_id, vrf=2, flag=VLAN_TABLE_FLAG_ONLY_TAG)
#add termination flow
add_termination_flow(self.controller, port, 0x0800, intf_src_mac, vlan_id)
#add routing flow
dst_ip = dip + (vlan_id<<8)
add_unicast_routing_flow(self.controller, 0x0800, dst_ip, 0, mpls_gid, vrf=2)
#ecmp_msg.group_id, vrf=2)
#add entries in the Bridging table to avoid packet-in from mac learning
group_id = encode_l2_interface_group_id(vlan_id, port)
add_bridge_flow(self.controller, dst_mac, vlan_id, group_id, True)
do_barrier(self.controller)
switch_mac = ':'.join(['%02X' % x for x in intf_src_mac])
for in_port in ports:
mac_src='00:00:00:22:22:%02X' % in_port
ip_src='192.168.%02d.1' % in_port
for out_port in ports:
if in_port == out_port:
continue
ip_dst='192.168.%02d.1' % out_port
parsed_pkt = simple_tcp_packet(pktlen=100, dl_vlan_enable=True, vlan_vid=in_port,
eth_dst=switch_mac, eth_src=mac_src, ip_ttl=64, ip_src=ip_src,
ip_dst=ip_dst)
pkt=str(parsed_pkt)
self.dataplane.send(in_port, pkt)
#build expect packet
mac_dst='00:00:00:22:22:%02X' % out_port
label = (out_port, 0, 1, 32)
exp_pkt = mpls_packet(pktlen=104, dl_vlan_enable=True, vlan_vid=out_port, ip_ttl=63, ip_src=ip_src,
ip_dst=ip_dst, eth_dst=mac_dst, eth_src=switch_mac, label=[label])
pkt=str(exp_pkt)
verify_packet(self, pkt, out_port)
verify_no_other_packets(self)
class MplsTermination(base_tests.SimpleDataPlane):
"""
Insert IP packet
Receive MPLS packet
"""
def runTest(self):
delete_all_flows(self.controller)
delete_all_groups(self.controller)
if len(config["port_map"]) <2:
logging.info("Port count less than 2, can't run this case")
return
intf_src_mac=[0x00, 0x00, 0x00, 0xcc, 0xcc, 0xcc]
dst_mac=[0x00, 0x00, 0x00, 0x22, 0x22, 0x00]
mcast_mac = [0x01, 0x00, 0x5e, 0x00, 0x00, 0x01]
dip=0xc0a80001
index=1
ports = config["port_map"].keys()
for port in ports:
#add l2 interface group
vlan_id=port
l2_gid, l2_msg = add_one_l2_interface_group(self.controller, port, vlan_id, True, False)
dst_mac[5]=vlan_id
#add L3 Unicast group
l3_msg=add_l3_unicast_group(self.controller, port, vlanid=vlan_id, id=vlan_id, src_mac=intf_src_mac, dst_mac=mcast_mac)
#add L3 ecmp group
ecmp_msg = add_l3_ecmp_group(self.controller, port, [l3_msg.group_id])
#add vlan flow table
add_one_vlan_table_flow(self.controller, port, vlan_id, flag=VLAN_TABLE_FLAG_ONLY_TAG)
#add termination flow
add_termination_flow(self.controller, port, 0x8847, intf_src_mac, vlan_id, goto_table=24)
#add routing flow
dst_ip = dip + (vlan_id<<8)
add_mpls_flow(self.controller, ecmp_msg.group_id, port)
#add entries in the Bridging table to avoid packet-in from mac learning
group_id = encode_l2_interface_group_id(vlan_id, port)
add_bridge_flow(self.controller, dst_mac, vlan_id, group_id, True)
do_barrier(self.controller)
switch_mac = ':'.join(['%02X' % x for x in intf_src_mac])
for in_port in ports:
mac_src='00:00:00:22:22:%02X' % in_port
ip_src='192.168.%02d.1' % in_port
for out_port in ports:
if in_port == out_port:
continue
ip_dst='192.168.%02d.1' % out_port
label = (out_port, 0, 1, 32)
parsed_pkt = mpls_packet(pktlen=104, dl_vlan_enable=True, vlan_vid=in_port, ip_src=ip_src,
ip_dst=ip_dst, eth_dst=switch_mac, eth_src=mac_src, label=[label])
pkt=str(parsed_pkt)
self.dataplane.send(in_port, pkt)
#build expect packet
mac_dst='00:00:00:22:22:%02X' % out_port
mcast='01:00:5e:00:00:01'
exp_pkt = simple_tcp_packet(pktlen=100, dl_vlan_enable=True, vlan_vid=out_port,
eth_dst=mcast, eth_src=switch_mac, ip_ttl=31, ip_src=ip_src, ip_dst=ip_dst)
pkt=str(exp_pkt)
verify_packet(self, pkt, out_port)
verify_no_other_packets(self)
class MPLSBUG(base_tests.SimpleDataPlane):
def runTest(self):
delete_all_flows(self.controller)
delete_all_groups(self.controller)
if len(config["port_map"]) <2:
logging.info("Port count less than 2, can't run this case")
return
intf_src_mac=[0x00, 0x00, 0x00, 0xcc, 0xcc, 0xcc]
dst_mac=[0x00, 0x00, 0x00, 0x22, 0x22, 0x00]
dip=0xc0a80001
index=1
ports = config["port_map"].keys()
for port in ports:
#add l2 interface group
vlan_id=port
l2_gid, l2_msg = add_one_l2_interface_group(self.controller, port, vlan_id, True, False)
dst_mac[5]=vlan_id
#add L3 Unicast group
l3_msg=add_l3_unicast_group(self.controller, port, vlanid=vlan_id, id=vlan_id, src_mac=intf_src_mac, dst_mac=dst_mac)
#add vlan flow table
add_one_vlan_table_flow(self.controller, port, vlan_id, flag=VLAN_TABLE_FLAG_ONLY_BOTH)
#add termination flow
add_termination_flow(self.controller, port, 0x8847, intf_src_mac, vlan_id, goto_table=24)
#add mpls flow
add_mpls_flow(self.controller, l3_msg.group_id, port)
#add termination flow
add_termination_flow(self.controller, port, 0x0800, intf_src_mac, vlan_id)
#add unicast routing flow
dst_ip = dip + (vlan_id<<8)
add_unicast_routing_flow(self.controller, 0x0800, dst_ip, 0, l3_msg.group_id)
#add entries in the Bridging table to avoid packet-in from mac learning
group_id = encode_l2_interface_group_id(vlan_id, port)
add_bridge_flow(self.controller, dst_mac, vlan_id, group_id, True)
do_barrier(self.controller)
switch_mac = ':'.join(['%02X' % x for x in intf_src_mac])
for in_port in ports:
mac_src='00:00:00:22:22:%02X' % in_port
ip_src='192.168.%02d.1' % in_port
for out_port in ports:
if in_port == out_port:
continue
ip_dst='192.168.%02d.1' % out_port
switch_mac = "00:00:00:cc:cc:cc"
label = (out_port, 0, 1, 32)
parsed_pkt = mpls_packet(pktlen=104, dl_vlan_enable=True, vlan_vid=in_port, ip_src=ip_src,
ip_dst=ip_dst, eth_dst=switch_mac, eth_src=mac_src, label=[label])
pkt=str(parsed_pkt)
self.dataplane.send(in_port, pkt)
#build expect packet
mac_dst='00:00:00:22:22:%02X' % out_port
exp_pkt = simple_tcp_packet(pktlen=100, dl_vlan_enable=True, vlan_vid=out_port,
eth_dst=mac_dst, eth_src=switch_mac, ip_ttl=31, ip_src=ip_src, ip_dst=ip_dst)
pkt=str(exp_pkt)
verify_packet(self, pkt, out_port)
verify_no_other_packets(self)
parsed_pkt = simple_tcp_packet(pktlen=100, dl_vlan_enable=True, vlan_vid=in_port,
eth_dst=switch_mac, eth_src=mac_src, ip_ttl=64, ip_src=ip_src,
ip_dst=ip_dst)
pkt=str(parsed_pkt)
self.dataplane.send(in_port, pkt)
#build expected packet
mac_dst='00:00:00:22:22:%02X' % out_port
exp_pkt = simple_tcp_packet(pktlen=100, dl_vlan_enable=True, vlan_vid=out_port,
eth_dst=mac_dst, eth_src=switch_mac, ip_ttl=63,
ip_src=ip_src, ip_dst=ip_dst)
pkt=str(exp_pkt)
verify_packet(self, pkt, out_port)
verify_no_other_packets(self)
class L3McastToL2(base_tests.SimpleDataPlane):
"""
Mcast routing to L2
"""
def runTest(self):
"""
port1 (vlan 300)-> All Ports (vlan 300)
"""
delete_all_flows(self.controller)
delete_all_groups(self.controller)
if len(config["port_map"]) <2:
logging.info("Port count less than 2, can't run this case")
return
vlan_id =300
intf_src_mac=[0x00, 0x00, 0x00, 0xcc, 0xcc, 0xcc]
intf_src_mac_str=':'.join(['%02X' % x for x in intf_src_mac])
dst_mac=[0x01, 0x00, 0x5e, 0x01, 0x01, 0x01]
dst_mac_str=':'.join(['%02X' % x for x in dst_mac])
port1_mac=[0x00, 0x11, 0x11, 0x11, 0x11, 0x11]
port1_mac_str=':'.join(['%02X' % x for x in port1_mac])
src_ip=0xc0a80101
src_ip_str="192.168.1.1"
dst_ip=0xe0010101
dst_ip_str="224.1.1.1"
port1=config["port_map"].keys()[0]
port2=config["port_map"].keys()[1]
switch_mac = [0x01, 0x00, 0x5e, 0x00, 0x00, 0x00]
#add l2 interface group
l2_intf_group_list=[]
for port in config["port_map"].keys():
if port == port2:
continue
l2_intf_gid, msg=add_one_l2_interface_group(self.controller, port, vlan_id=vlan_id, is_tagged=True, send_barrier=False)
l2_intf_group_list.append(l2_intf_gid)
#add vlan flow table
add_one_vlan_table_flow(self.controller, port, vlan_id, flag=VLAN_TABLE_FLAG_ONLY_TAG)
#add termination flow
add_termination_flow(self.controller, port1, 0x0800, switch_mac, vlan_id)
#add l3 interface group
mcat_group_msg=add_l3_mcast_group(self.controller, vlan_id, 2, l2_intf_group_list)
add_mcast4_routing_flow(self.controller, vlan_id, src_ip, 0, dst_ip, mcat_group_msg.group_id)
parsed_pkt = simple_udp_packet(pktlen=100, dl_vlan_enable=True, vlan_vid=300,
eth_dst=dst_mac_str,
eth_src=port1_mac_str,
ip_ttl=64,
ip_src=src_ip_str,
ip_dst=dst_ip_str)
pkt=str(parsed_pkt)
self.dataplane.send(port1, pkt)
for port in config["port_map"].keys():
if port == port2 or port == port1:
verify_no_packet(self, pkt, port)
continue
verify_packet(self, pkt, port)
verify_no_other_packets(self)
class L3McastToL3(base_tests.SimpleDataPlane):
"""
Mcast routing
"""
def runTest(self):
"""
port1 (vlan 1)-> port 2 (vlan 2)
"""
delete_all_flows(self.controller)
delete_all_groups(self.controller)
if len(config["port_map"]) <3:
logging.info("Port count less than 2, can't run this case")
return
vlan_id =1
port2_out_vlan=2
port3_out_vlan=3
in_vlan=1 #macast group vid shall use input vlan diffe from l3 interface use output vlan
intf_src_mac=[0x00, 0x00, 0x00, 0xcc, 0xcc, 0xcc]
intf_src_mac_str=':'.join(['%02X' % x for x in intf_src_mac])
dst_mac=[0x01, 0x00, 0x5e, 0x01, 0x01, 0x01]
dst_mac_str=':'.join(['%02X' % x for x in dst_mac])
port1_mac=[0x00, 0x11, 0x11, 0x11, 0x11, 0x11]
port1_mac_str=':'.join(['%02X' % x for x in port1_mac])
src_ip=0xc0a80101
src_ip_str="192.168.1.1"
dst_ip=0xe0010101
dst_ip_str="224.1.1.1"
port1=config["port_map"].keys()[0]
port2=config["port_map"].keys()[1]
port3=config["port_map"].keys()[2]
#add l2 interface group
for port in config["port_map"].keys():
add_one_l2_interface_group(self.controller, port, vlan_id=vlan_id, is_tagged=False, send_barrier=False)
#add vlan flow table
add_one_vlan_table_flow(self.controller, port, vlan_id, flag=VLAN_TABLE_FLAG_ONLY_TAG)
vlan_id +=1
#add termination flow
add_termination_flow(self.controller, port1, 0x0800, [0x01, 0x00, 0x5e, 0x00, 0x00, 0x00], vlan_id)
#add l3 interface group
port2_ucast_msg=add_l3_interface_group(self.controller, port2, port2_out_vlan, 2, intf_src_mac)
port3_ucast_msg=add_l3_interface_group(self.controller, port3, port3_out_vlan, 3, intf_src_mac)
mcat_group_msg=add_l3_mcast_group(self.controller, in_vlan, 2, [port2_ucast_msg.group_id, port3_ucast_msg.group_id])
add_mcast4_routing_flow(self.controller, in_vlan, src_ip, 0, dst_ip, mcat_group_msg.group_id)
parsed_pkt = simple_udp_packet(pktlen=100, dl_vlan_enable=True, vlan_vid=1,
eth_dst=dst_mac_str,
eth_src=port1_mac_str,
ip_ttl=64,
ip_src=src_ip_str,
ip_dst=dst_ip_str)
pkt=str(parsed_pkt)
self.dataplane.send(port1, pkt)
parsed_pkt = simple_udp_packet(pktlen=96,
eth_dst=dst_mac_str,
eth_src=intf_src_mac_str,
ip_ttl=63,
ip_src=src_ip_str,
ip_dst=dst_ip_str)
pkt=str(parsed_pkt)
verify_packet(self, pkt, port2)
verify_packet(self, pkt, port3)
verify_no_other_packets(self)
class L3McastToVPN(base_tests.SimpleDataPlane):
"""
Mcast routing
"""
def runTest(self):
"""
port1 (vlan 1)-> port 2 (vlan 2)
"""
#delete_all_flows(self.controller)
#delete_all_groups(self.controller)
if len(config["port_map"]) <3:
logging.info("Port count less than 2, can't run this case")
return
vlan_id =1
port2_out_vlan=2
port3_out_vlan=3
in_vlan=1 #macast group vid shall use input vlan diffe from l3 interface use output vlan
intf_src_mac=[0x00, 0x00, 0x00, 0xcc, 0xcc, 0xcc]
intf_src_mac_str=':'.join(['%02X' % x for x in intf_src_mac])
dst_mac=[0x01, 0x00, 0x5e, 0x01, 0x01, 0x01]
dst_mac_str=':'.join(['%02X' % x for x in dst_mac])
port1_mac=[0x00, 0x11, 0x11, 0x11, 0x11, 0x11]
port1_mac_str=':'.join(['%02X' % x for x in port1_mac])
src_ip=0xc0a80101
src_ip_str="192.168.1.1"
dst_ip=0xe0010101
dst_ip_str="224.1.1.1"
port1=config["port_map"].keys()[0]
port2=config["port_map"].keys()[1]
port3=config["port_map"].keys()[2]
#add l2 interface group
for port in config["port_map"].keys():
add_one_l2_interface_group(self.controller, port, vlan_id=vlan_id, is_tagged=False, send_barrier=False)
#add vlan flow table
add_one_vlan_table_flow(self.controller, port, vlan_id, flag=VLAN_TABLE_FLAG_ONLY_TAG)
vlan_id +=1
#add termination flow
add_termination_flow(self.controller, port1, 0x0800, [0x01, 0x00, 0x5e, 0x00, 0x00, 0x00], vlan_id)
#add MPLS interface group
l2_gid = encode_l2_interface_group_id(port2_out_vlan, port2)
mpls_gid2, mpls_msg = add_mpls_intf_group(self.controller, l2_gid, dst_mac, intf_src_mac, port2_out_vlan, port2)
l2_gid3 = encode_l2_interface_group_id(port3_out_vlan, port3)
mpls_gid3, mpls_msg = add_mpls_intf_group(self.controller, l2_gid3, dst_mac, intf_src_mac, port3_out_vlan, port3)
#add L3VPN groups
mpls_label_gid2, mpls_label_msg = add_mpls_label_group(self.controller, subtype=OFDPA_MPLS_GROUP_SUBTYPE_L3_VPN_LABEL,
index=(0x20000+port2), ref_gid= mpls_gid2, push_mpls_header=True, set_mpls_label=port2, set_bos=1, cpy_ttl_outward=True)
mpls_label_gid3, mpls_label_msg = add_mpls_label_group(self.controller, subtype=OFDPA_MPLS_GROUP_SUBTYPE_L3_VPN_LABEL,
index=(0x10000+port3), ref_gid= mpls_gid3, push_mpls_header=True, set_mpls_label=port3, set_bos=1, cpy_ttl_outward=True)
mcat_group_msg=add_l3_mcast_group(self.controller, in_vlan, 2, [0x92020022 , 0x92010023])
add_mcast4_routing_flow(self.controller, in_vlan, src_ip, 0, dst_ip, mcat_group_msg.group_id)
parsed_pkt = simple_tcp_packet(pktlen=100, dl_vlan_enable=True, vlan_vid=1,
eth_dst=dst_mac_str,
eth_src=port1_mac_str,
ip_ttl=64,
ip_src=src_ip_str,
ip_dst=dst_ip_str)
pkt=str(parsed_pkt)
self.dataplane.send(port1, pkt)
label = (in_vlan, 0, 1, 63)
parsed_pkt = mpls_packet(pktlen=100,
eth_dst=dst_mac_str,
eth_src=intf_src_mac_str,
ip_ttl=63,
ip_src=src_ip_str, label= [label],
ip_dst=dst_ip_str)
pkt=str(parsed_pkt)
verify_packet(self, pkt, port2)
verify_packet(self, pkt, port3)
verify_no_other_packets(self)