blob: 2a8eba3362a3006620afb3db3c413d1110ae1534 [file] [log] [blame]
import logging
from oftest import config
import oftest.base_tests as base_tests
import ofp
import time
from oftest.testutils import *
from ncclient import manager
import ncclient
OFDPA_GROUP_TYPE_SHIFT=28
OFDPA_VLAN_ID_SHIFT =16
OFDPA_TUNNEL_ID_SHIFT =12
OFDPA_TUNNEL_SUBTYPE_SHIFT=10
#VLAN_TABLE_FLAGS
VLAN_TABLE_FLAG_ONLY_UNTAG=1
VLAN_TABLE_FLAG_ONLY_TAG =2
VLAN_TABLE_FLAG_ONLY_BOTH =3
VLAN_TABLE_FLAG_ONLY_STACKED=5
VLAN_TABLE_FLAG_PRIORITY=6
VLAN_TABLE_FLAG_ONLY_UNTAG_PRIORITY=7
PORT_FLOW_TABLE=0
VLAN_FLOW_TABLE=10
VLAN_1_FLOW_TABLE=11
MPLS_L2_PORT_FLOW_TABLE=13
MPLS_L2_PORT_DSCP_TRUST_FLOW_TABLE=15
MPLS_L2_PORT_PCP_TRUST_FLOW_TABLE=16
TERMINATION_FLOW_TABLE=20
MPLS_TYPE_FLOW_TABLE=29
UCAST_ROUTING_FLOW_TABLE=30
MCAST_ROUTING_FLOW_TABLE=40
BRIDGE_FLOW_TABLE=50
ACL_FLOW_TABLE=60
def convertIP4toStr(ip_addr):
a=(ip_addr&0xff000000)>>24
b=(ip_addr&0x00ff0000)>>16
c=(ip_addr&0x0000ff00)>>8
d=(ip_addr&0x000000ff)
return str(a)+"."+str(b)+"."+str(c)+"."+str(d)
def convertMACtoStr(mac):
if not isinstance(mac, list):
assert(0)
return ':'.join(['%02X' % x for x in mac])
def getSwitchCpuMACFromDPID(dpid):
str_datapath_id_f= "{:016x}".format(dpid)
str_datapath_id=':'.join([str_datapath_id_f[i:i+2] for i in range(0, len(str_datapath_id_f), 2)])
switch_cpu_mac_str=str_datapath_id[6:]
switch_cpu_mac = switch_cpu_mac_str.split(":")
switch_cpu_mac=[int(switch_cpu_mac[i],16) for i in range(0, len(switch_cpu_mac))]
return switch_cpu_mac_str, switch_cpu_mac
def DumpGroup(stats, verify_group_stats, always_show=True):
if(len(stats) > len(verify_group_stats)):
min_len = len(verify_group_stats)
print "Stats Len is not the same, stats>verify_group_stats"
if(len(stats)< len(verify_group_stats)):
min_len = len(stats)
print "Stats Len is not the same, stats<verify_group_stats"
else:
min_len = len(stats)
print "\r\n"
for i in range(min_len):
gs = stats[i]
gv = verify_group_stats[i]
print "FromSwtich:(GID=%lx, TYPE=%lx)\r\nVerify :(GID=%lx, TYPE=%lx)"%(gs.group_id, gs.group_type, gv.group_id, gv.group_type)
if(len(gs.buckets) != len(gv.buckets)):
print "buckets len is not the same gs %lx, gv %lx",(len(gs.buckets), len(gv.buckets))
for j in range(len(gs.buckets)):
b1=gs.buckets[j]
b2=gv.buckets[j]
if(len(b1.actions) != len(b2.actions)):
print "action len is not the same"
for k in range(len(b1.actions)):
a1=b1.actions[k]
a2=b2.actions[k]
if(always_show == True):
print "a1:"+a1.show()
print "a2:"+a2.show()
def AssertGroup(self, stats, verify_group_stats):
self.assertTrue(len(stats) ==len(verify_group_stats), "stats len is not the same")
for i in range(len(stats)):
gs = stats[i]
gv = verify_group_stats[i]
self.assertTrue(len(gs.buckets) == len(gv.buckets), "buckets len is not the same")
for j in range(len(gs.buckets)):
b1=gs.buckets[j]
b2=gv.buckets[j]
self.assertTrue(len(b1.actions) == len(b2.actions), "action len is not the same")
for k in range(len(b1.actions)):
a1=b1.actions[k]
a2=b2.actions[k]
self.assertEquals(a1, a2, "action is not the same")
def encode_l2_interface_group_id(vlan, id):
return id + (vlan << OFDPA_VLAN_ID_SHIFT)
def encode_l2_rewrite_group_id(id):
return id + (1 << OFDPA_GROUP_TYPE_SHIFT)
def encode_l3_unicast_group_id(id):
return id + (2 << OFDPA_GROUP_TYPE_SHIFT)
def encode_l2_mcast_group_id(vlan, id):
return id + (vlan << OFDPA_VLAN_ID_SHIFT) + (3 << OFDPA_GROUP_TYPE_SHIFT)
def encode_l2_flood_group_id(vlan, id):
return id + (vlan << OFDPA_VLAN_ID_SHIFT) + (4 << OFDPA_GROUP_TYPE_SHIFT)
def encode_l3_interface_group_id(id):
return id + (5 << OFDPA_GROUP_TYPE_SHIFT)
def encode_l3_mcast_group_id(vlan, id):
return id + (vlan << OFDPA_VLAN_ID_SHIFT)+(6 << OFDPA_GROUP_TYPE_SHIFT)
def encode_l3_ecmp_group_id(id):
return id + (7 << OFDPA_GROUP_TYPE_SHIFT)
def encode_l2_unfiltered_group_id(id):
return id + (11 << OFDPA_GROUP_TYPE_SHIFT)
def encode_l2_overlay_group_id(tunnel_id, subtype, index):
tunnel_id=tunnel_id&0xffff #16 bits
subtype = subtype&3 #2 bits
index = index & 0x3f #10 bits
return index + (tunnel_id << OFDPA_TUNNEL_ID_SHIFT)+ (subtype<<OFDPA_TUNNEL_SUBTYPE_SHIFT)+(8 << OFDPA_GROUP_TYPE_SHIFT)
def add_l2_unfiltered_group(ctrl, ports, send_barrier=False):
# group table
# set up untag groups for each port
group_id_list=[]
msgs=[]
for of_port in ports:
# do stuff
group_id = encode_l2_unfiltered_group_id(of_port)
group_id_list.append(group_id)
actions = [ofp.action.output(of_port)]
actions.append(ofp.action.set_field(ofp.oxm.exp1ByteValue(exp_type=24, value=1)))
buckets = [ofp.bucket(actions=actions)]
request = ofp.message.group_add(group_type=ofp.OFPGT_INDIRECT,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
msgs.append(request)
if send_barrier:
do_barrier(ctrl)
return group_id_list, msgs
def add_l2_interface_group(ctrl, ports, vlan_id=1, is_tagged=False, send_barrier=False):
# group table
# set up untag groups for each port
group_id_list=[]
msgs=[]
for of_port in ports:
# do stuff
group_id = encode_l2_interface_group_id(vlan_id, of_port)
group_id_list.append(group_id)
if is_tagged:
actions = [
ofp.action.output(of_port),
]
else:
actions = [
ofp.action.pop_vlan(),
ofp.action.output(of_port),
]
buckets = [
ofp.bucket(actions=actions),
]
request = ofp.message.group_add(group_type=ofp.OFPGT_INDIRECT,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
msgs.append(request)
if send_barrier:
do_barrier(ctrl)
return group_id_list, msgs
def add_one_l2_interface_group(ctrl, port, vlan_id=1, is_tagged=False, send_barrier=False):
# group table
# set up untag groups for each port
group_id = encode_l2_interface_group_id(vlan_id, port)
if is_tagged:
actions = [
ofp.action.output(port),
]
else:
actions = [
ofp.action.pop_vlan(),
ofp.action.output(port),
]
buckets = [
ofp.bucket(actions=actions),
]
request = ofp.message.group_add(group_type=ofp.OFPGT_INDIRECT,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
if send_barrier:
do_barrier(ctrl)
return group_id, request
def add_l2_mcast_group(ctrl, ports, vlanid, mcast_grp_index):
buckets=[]
for of_port in ports:
group_id = encode_l2_interface_group_id(vlanid, of_port)
action=[ofp.action.group(group_id)]
buckets.append(ofp.bucket(actions=action))
group_id =encode_l2_mcast_group_id(vlanid, mcast_grp_index)
request = ofp.message.group_add(group_type=ofp.OFPGT_ALL,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def add_l2_flood_group(ctrl, ports, vlanid, id):
buckets=[]
for of_port in ports:
group_id = encode_l2_interface_group_id(vlanid, of_port)
action=[ofp.action.group(group_id)]
buckets.append(ofp.bucket(actions=action))
group_id =encode_l2_flood_group_id(vlanid, id)
request = ofp.message.group_add(group_type=ofp.OFPGT_ALL,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def mod_l2_flood_group(ctrl, ports, vlanid, id):
buckets=[]
for of_port in ports:
group_id = encode_l2_interface_group_id(vlanid, of_port)
action=[ofp.action.group(group_id)]
buckets.append(ofp.bucket(actions=action))
group_id =encode_l2_flood_group_id(vlanid, id)
request = ofp.message.group_modify(group_type=ofp.OFPGT_ALL,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def add_l2_rewrite_group(ctrl, port, vlanid, id, src_mac, dst_mac):
group_id = encode_l2_interface_group_id(vlanid, port)
action=[]
if src_mac is not None:
action.append(ofp.action.set_field(ofp.oxm.eth_src(src_mac)))
if dst_mac is not None:
action.append(ofp.action.set_field(ofp.oxm.eth_dst(dst_mac)))
action.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+vlanid)))
action.append(ofp.action.group(group_id))
buckets = [ofp.bucket(actions=action)]
group_id =encode_l2_rewrite_group_id(id)
request = ofp.message.group_add(group_type=ofp.OFPGT_INDIRECT,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def add_l3_unicast_group(ctrl, port, vlanid, id, src_mac, dst_mac):
group_id = encode_l2_interface_group_id(vlanid, port)
action=[]
if src_mac is not None:
action.append(ofp.action.set_field(ofp.oxm.eth_src(src_mac)))
if dst_mac is not None:
action.append(ofp.action.set_field(ofp.oxm.eth_dst(dst_mac)))
action.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+vlanid)))
action.append(ofp.action.group(group_id))
buckets = [ofp.bucket(actions=action)]
group_id =encode_l3_unicast_group_id(id)
request = ofp.message.group_add(group_type=ofp.OFPGT_INDIRECT,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def add_l3_interface_group(ctrl, port, vlanid, id, src_mac):
group_id = encode_l2_interface_group_id(vlanid, port)
action=[]
action.append(ofp.action.set_field(ofp.oxm.eth_src(src_mac)))
action.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+vlanid)))
action.append(ofp.action.group(group_id))
buckets = [ofp.bucket(actions=action)]
group_id =encode_l3_interface_group_id(id)
request = ofp.message.group_add(group_type=ofp.OFPGT_INDIRECT,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def add_l3_ecmp_group(ctrl, id, l3_ucast_groups):
buckets=[]
for group in l3_ucast_groups:
buckets.append(ofp.bucket(actions=[ofp.action.group(group)]))
group_id =encode_l3_ecmp_group_id(id)
request = ofp.message.group_add(group_type=ofp.OFPGT_SELECT,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def mod_l3_ecmp_group(ctrl, id, l3_ucast_groups):
buckets=[]
for group in l3_ucast_groups:
buckets.append(ofp.bucket(actions=[ofp.action.group(group)]))
group_id =encode_l3_ecmp_group_id(id)
request = ofp.message.group_modify(group_type=ofp.OFPGT_SELECT,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def add_l3_mcast_group(ctrl, vid, mcast_group_id, groups_on_buckets):
buckets=[]
for group in groups_on_buckets:
buckets.append(ofp.bucket(actions=[ofp.action.group(group)]))
group_id =encode_l3_mcast_group_id(vid, mcast_group_id)
request = ofp.message.group_add(group_type=ofp.OFPGT_ALL,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def add_l2_overlay_flood_over_unicast_tunnel_group(ctrl, tunnel_id, ports, index):
buckets=[]
for port in ports:
buckets.append(ofp.bucket(actions=[ofp.action.output(port)]))
group_id=encode_l2_overlay_group_id(tunnel_id, 0, index)
request = ofp.message.group_add(group_type=ofp.OFPGT_ALL,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def add_l2_overlay_flood_over_mcast_tunnel_group(ctrl, tunnel_id, ports, index):
buckets=[]
for port in ports:
buckets.append(ofp.bucket(actions=[ofp.action.output(port)]))
group_id=encode_l2_overlay_group_id(tunnel_id, 1, index)
request = ofp.message.group_add(group_type=ofp.OFPGT_ALL,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def add_l2_overlay_mcast_over_unicast_tunnel_group(ctrl, tunnel_id, ports, index):
buckets=[]
for port in ports:
buckets.append(ofp.bucket(actions=[ofp.action.output(port)]))
group_id=encode_l2_overlay_group_id(tunnel_id, 2, index)
request = ofp.message.group_add(group_type=ofp.OFPGT_ALL,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def add_l2_overlay_mcast_over_mcast_tunnel_group(ctrl, tunnel_id, ports, index):
buckets=[]
for port in ports:
buckets.append(ofp.bucket(actions=[ofp.action.output(port)]))
group_id=encode_l2_overlay_group_id(tunnel_id, 3, index)
request = ofp.message.group_add(group_type=ofp.OFPGT_ALL,
group_id=group_id,
buckets=buckets
)
ctrl.message_send(request)
return request
def add_port_table_flow(ctrl, is_overlay=True):
match = ofp.match()
if is_overlay == True:
match.oxm_list.append(ofp.oxm.in_port(0x10000))
NEXT_TABLE=50
else:
match.oxm_list.append(ofp.oxm.in_port(0))
NEXT_TABLE=10
request = ofp.message.flow_add(
table_id=0,
cookie=42,
match=match,
instructions=[
ofp.instruction.goto_table(NEXT_TABLE)
],
priority=0)
logging.info("Add port table, match port %lx" % 0x10000)
ctrl.message_send(request)
def pop_vlan_flow(ctrl, ports, vlan_id=1):
# table 10: vlan
# goto to table 20
msgs=[]
for of_port in ports:
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid(0x1000+vlan_id))
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=[
ofp.action.pop_vlan()
]
),
ofp.instruction.goto_table(20)
],
priority=0)
logging.info("Add vlan %d tagged packets on port %d and go to table 20" %( vlan_id, of_port))
ctrl.message_send(request)
return msgs
def add_vlan_table_flow(ctrl, ports, vlan_id=1, flag=VLAN_TABLE_FLAG_ONLY_BOTH, send_barrier=False):
# table 10: vlan
# goto to table 20
msgs=[]
for of_port in ports:
if (flag == VLAN_TABLE_FLAG_ONLY_TAG) or (flag == VLAN_TABLE_FLAG_ONLY_BOTH) or (flag == 4):
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid(0x1000+vlan_id))
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=[
ofp.action.pop_vlan()
]
),
ofp.instruction.goto_table(20)
],
priority=0)
logging.info("Add vlan %d tagged packets on port %d and go to table 20" %( vlan_id, of_port))
ctrl.message_send(request)
if (flag == VLAN_TABLE_FLAG_ONLY_UNTAG) or (flag == VLAN_TABLE_FLAG_ONLY_BOTH):
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0, 0x1fff))
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=[
ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+vlan_id))
]
),
ofp.instruction.goto_table(20)
],
priority=0)
logging.info("Add vlan %d untagged packets on port %d and go to table 20" % (vlan_id, of_port))
ctrl.message_send(request)
msgs.append(request)
if (flag == 4) :
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0x1000, 0x1fff))
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=[
ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+vlan_id))
]
),
ofp.instruction.goto_table(20)
],
priority=0)
logging.info("Add vlan %d untagged packets on port %d and go to table 20" % (vlan_id, of_port))
ctrl.message_send(request)
msgs.append(request)
if send_barrier:
do_barrier(ctrl)
return msgs
def del_vlan_table_flow(ctrl, ports, vlan_id=1, flag=VLAN_TABLE_FLAG_ONLY_BOTH, send_barrier=False):
# table 10: vlan
# goto to table 20
msgs=[]
for of_port in ports:
if (flag == VLAN_TABLE_FLAG_ONLY_TAG) or (flag == VLAN_TABLE_FLAG_ONLY_BOTH):
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid(0x1000+vlan_id))
request = ofp.message.flow_delete(
table_id=10,
cookie=42,
match=match,
priority=0)
logging.info("Del vlan %d tagged packets on port %d and go to table 20" %( vlan_id, of_port))
ctrl.message_send(request)
if (flag == VLAN_TABLE_FLAG_ONLY_UNTAG) or (flag == VLAN_TABLE_FLAG_ONLY_BOTH):
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0, 0xfff))
request = ofp.message.flow_delete(
table_id=10,
cookie=42,
match=match,
priority=0)
logging.info("Del vlan %d untagged packets on port %d and go to table 20" % (vlan_id, of_port))
ctrl.message_send(request)
msgs.append(request)
if send_barrier:
do_barrier(ctrl)
return msgs
def add_vlan_table_flow_pvid(ctrl, in_port, match_vid=None, pvid=1, send_barrier=False):
"""it will tag pack as untagged packet wether it has tagg or not"""
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(in_port))
actions=[]
if match_vid == None:
match.oxm_list.append(ofp.oxm.vlan_vid(0))
actions.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+pvid)))
goto_table=20
else:
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0x1000+match_vid, 0x1fff))
actions.append(ofp.action.push_vlan(0x8100))
actions.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+pvid)))
goto_table=20
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(actions=actions)
,ofp.instruction.goto_table(goto_table)
],
priority=0)
logging.info("Add PVID %d on port %d and go to table %ld" %( pvid, in_port, goto_table))
ctrl.message_send(request)
if send_barrier:
do_barrier(ctrl)
def add_vlan_table_flow_allow_all_vlan(ctrl, in_port, send_barrier=False):
"""it st flow allow all vlan tag on this port"""
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(in_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0x1000, 0x1000))
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.goto_table(20)
],
priority=0)
logging.info("Add allow all vlan on port %d " %(in_port))
ctrl.message_send(request)
def add_one_vlan_table_flow_translation(ctrl, of_port, vlan_id=1, new_vlan_id=-1, vrf=0, flag=VLAN_TABLE_FLAG_ONLY_BOTH, send_barrier=False):
# Install a flow for VLAN translation
# in VLAN table.
# table 10: vlan
# goto to table 20
if (flag == VLAN_TABLE_FLAG_ONLY_TAG) or (flag == VLAN_TABLE_FLAG_ONLY_BOTH) or (flag == 4):
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0x1000+vlan_id,0x1fff))
actions=[]
if vrf!=0:
actions.append(ofp.action.set_field(ofp.oxm.exp2ByteValue(exp_type=1, value=vrf)))
if new_vlan_id != -1:
actions.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+new_vlan_id)))
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=actions
),
ofp.instruction.goto_table(20)
],
priority=0)
logging.info("Add vlan %d tagged packets on port %d and go to table 20" %( vlan_id, of_port))
ctrl.message_send(request)
def add_one_vlan_table_flow(ctrl, of_port, out_vlan_id=1, vlan_id=1, vrf=0, flag=VLAN_TABLE_FLAG_ONLY_BOTH, send_barrier=False):
# table 10: vlan
# goto to table 20
if (flag == VLAN_TABLE_FLAG_ONLY_TAG) or (flag == VLAN_TABLE_FLAG_ONLY_BOTH) or (flag == 4):
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0x1000+vlan_id,0x1fff))
actions=[]
if vrf!=0:
actions.append(ofp.action.set_field(ofp.oxm.exp2ByteValue(exp_type=1, value=vrf)))
#actions.append(ofp.action.set_field(ofp.oxm.vlan_vid(value=vlan_id)))
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=actions
),
ofp.instruction.goto_table(20)
],
priority=0)
logging.info("Add vlan %d tagged packets on port %d and go to table 20" %( vlan_id, of_port))
ctrl.message_send(request)
if (flag == VLAN_TABLE_FLAG_ONLY_UNTAG) or (flag == VLAN_TABLE_FLAG_ONLY_BOTH):
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0, 0x1fff))
actions=[]
if vrf!=0:
actions.append(ofp.action.set_field(ofp.oxm.exp2ByteValue(exp_type=1, value=vrf)))
actions.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+vlan_id)))
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=actions
),
ofp.instruction.goto_table(20)
],
priority=0)
logging.info("Add vlan %d untagged packets on port %d and go to table 20" % (vlan_id, of_port))
ctrl.message_send(request)
if (flag == 4) :
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0x1000,0x1fff))
actions=[]
if vrf!=0:
actions.append(ofp.action.set_field(ofp.oxm.exp2ByteValue(exp_type=1, value=vrf)))
actions.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+vlan_id)))
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=actions
),
ofp.instruction.goto_table(20)
],
priority=0)
logging.info("Add vlan %d tagged packets on port %d and go to table 20" %( vlan_id, of_port))
ctrl.message_send(request)
if (flag == VLAN_TABLE_FLAG_ONLY_STACKED):
# This flag is meant to managed stacked vlan packtes
# Matches on outer VLAN_ID, set OVID with outer VLAN.
# Finally expose inner VLAN_ID with a pop action and
# goto VLAN_1_FLOW_TABLE
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0x1000+vlan_id,0x1fff))
actions=[]
actions.append(ofp.action.set_field(ofp.oxm.exp2ByteValue(exp_type=ofp.oxm.OFDPA_EXP_TYPE_OVID, value=0x1000+vlan_id)))
actions.append(ofp.action.pop_vlan())
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=actions
),
ofp.instruction.goto_table(VLAN_1_FLOW_TABLE)
],
priority=0)
logging.info("Add vlan %d tagged packets on port %d and go to table %d" %( vlan_id, of_port, VLAN_1_FLOW_TABLE))
ctrl.message_send(request)
if (flag == VLAN_TABLE_FLAG_PRIORITY) :
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0x1000, 0x1fff))
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=[
ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+vlan_id)),
ofp.action.push_vlan(0x8100),
ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+out_vlan_id)),
]
),
ofp.instruction.goto_table(20)
],
priority=0)
logging.info("Add vlan %d untagged packets on port %d and go to table 20" % (vlan_id, of_port))
ctrl.message_send(request)
if send_barrier:
do_barrier(ctrl)
return request
def add_one_vlan_table_flow_pw(ctrl, of_port, tunnel_index, new_vlan_id=1, vlan_id=1, vrf=0, flag=VLAN_TABLE_FLAG_ONLY_TAG, send_barrier=False):
# table 10: vlan
# goto to table 13
if flag == VLAN_TABLE_FLAG_ONLY_TAG:
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0x1000+vlan_id, 0x1fff))
actions=[]
if vlan_id == -1:
actions.append(ofp.action.pop_vlan())
if new_vlan_id > 1:
actions.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+new_vlan_id)))
actions.append(ofp.action.set_field(ofp.oxm.exp2ByteValue(exp_type=ofp.oxm.OFDPA_EXP_TYPE_MPLS_TYPE, value=ofp.oxm.VPWS)))
actions.append(ofp.action.set_field(ofp.oxm.tunnel_id(tunnel_index + ofp.oxm.TUNNEL_ID_BASE)))
# 0x0000nnnn is for UNI interfaces
actions.append(ofp.action.set_field(ofp.oxm.exp4ByteValue(exp_type=ofp.oxm.OFDPA_EXP_TYPE_MPLS_L2_PORT, value=0x00000000 + of_port)))
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=actions
),
ofp.instruction.goto_table(MPLS_L2_PORT_FLOW_TABLE)
],
priority=0)
logging.info("Add vlan %d tagged packets on port %d and go to table %d" % (vlan_id, of_port, MPLS_L2_PORT_FLOW_TABLE))
ctrl.message_send(request)
if flag == VLAN_TABLE_FLAG_ONLY_UNTAG:
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid(0))
actions=[]
if vlan_id > 1:
actions.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+vlan_id)))
actions.append(ofp.action.set_field(ofp.oxm.exp2ByteValue(exp_type=ofp.oxm.OFDPA_EXP_TYPE_MPLS_TYPE, value=ofp.oxm.VPWS)))
actions.append(ofp.action.set_field(ofp.oxm.tunnel_id(tunnel_index + ofp.oxm.TUNNEL_ID_BASE)))
# 0x0000nnnn is for UNI interfaces
actions.append(ofp.action.set_field(ofp.oxm.exp4ByteValue(exp_type=ofp.oxm.OFDPA_EXP_TYPE_MPLS_L2_PORT, value=0x00000000 + of_port)))
request = ofp.message.flow_add(
table_id=10,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=actions
),
ofp.instruction.goto_table(MPLS_L2_PORT_FLOW_TABLE)
],
priority=0)
logging.info("Add vlan %d untagged packets on port %d and go to table %d" % (vlan_id, of_port, MPLS_L2_PORT_FLOW_TABLE))
ctrl.message_send(request)
if send_barrier:
do_barrier(ctrl)
return request
def add_one_vlan_1_table_flow(ctrl, of_port, new_outer_vlan_id=-1, outer_vlan_id=1, inner_vlan_id=1, flag=VLAN_TABLE_FLAG_ONLY_TAG, send_barrier=False):
# table 11: vlan 1 table
# goto to table 20
if flag == VLAN_TABLE_FLAG_ONLY_TAG:
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0x1000+inner_vlan_id,0x1fff))
match.oxm_list.append(ofp.oxm.exp2ByteValue(ofp.oxm.OFDPA_EXP_TYPE_OVID, 0x1000+outer_vlan_id))
actions=[]
actions.append(ofp.action.push_vlan(0x8100))
if new_outer_vlan_id != -1:
actions.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+new_outer_vlan_id)))
else:
actions.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+outer_vlan_id)))
request = ofp.message.flow_add(
table_id=11,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=actions
),
ofp.instruction.goto_table(TERMINATION_FLOW_TABLE)
],
priority=0)
logging.info("Add vlan 1 double tagged %d-%d packets on port %d and go to table %d" %( outer_vlan_id, inner_vlan_id, of_port, TERMINATION_FLOW_TABLE))
ctrl.message_send(request)
if flag == VLAN_TABLE_FLAG_ONLY_UNTAG:
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0x1000+inner_vlan_id,0x1fff))
match.oxm_list.append(ofp.oxm.exp2ByteValue(ofp.oxm.OFDPA_EXP_TYPE_OVID, 0x1000+outer_vlan_id))
actions=[]
request = ofp.message.flow_add(
table_id=11,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=actions
),
ofp.instruction.goto_table(TERMINATION_FLOW_TABLE)
],
priority=0)
logging.info("Add vlan 1 double tagged %d-%d packets on port %d and go to table %d" %( outer_vlan_id, inner_vlan_id, of_port, TERMINATION_FLOW_TABLE))
ctrl.message_send(request)
if send_barrier:
do_barrier(ctrl)
return request
def add_one_vlan_1_table_flow_pw(ctrl, of_port, tunnel_index, new_outer_vlan_id=-1, outer_vlan_id=1, inner_vlan_id=1, flag=VLAN_TABLE_FLAG_ONLY_TAG, send_barrier=False):
# table 11: vlan 1 table
# goto to table 13
match = ofp.match()
match.oxm_list.append(ofp.oxm.in_port(of_port))
match.oxm_list.append(ofp.oxm.vlan_vid_masked(0x1000+inner_vlan_id,0x1fff))
match.oxm_list.append(ofp.oxm.exp2ByteValue(ofp.oxm.OFDPA_EXP_TYPE_OVID, 0x1000+outer_vlan_id))
actions=[]
actions.append(ofp.action.push_vlan(0x8100))
if new_outer_vlan_id != -1:
actions.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+new_outer_vlan_id)))
else:
actions.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+outer_vlan_id)))
actions.append(ofp.action.set_field(ofp.oxm.exp2ByteValue(exp_type=ofp.oxm.OFDPA_EXP_TYPE_MPLS_TYPE, value=ofp.oxm.VPWS)))
actions.append(ofp.action.set_field(ofp.oxm.tunnel_id(tunnel_index + ofp.oxm.TUNNEL_ID_BASE)))
# 0x0000nnnn is for UNI interfaces
actions.append(ofp.action.set_field(ofp.oxm.exp4ByteValue(exp_type=ofp.oxm.OFDPA_EXP_TYPE_MPLS_L2_PORT, value=0x00000000 + of_port)))
request = ofp.message.flow_add(
table_id=11,
cookie=42,
match=match,
instructions=[
ofp.instruction.apply_actions(
actions=actions
),
ofp.instruction.goto_table(MPLS_L2_PORT_FLOW_TABLE)
],
priority=0)
logging.info("Add vlan 1 double tagged %d-%d packets on port %d and go to table %d" %( outer_vlan_id, inner_vlan_id, of_port, MPLS_L2_PORT_FLOW_TABLE))
ctrl.message_send(request)
if send_barrier:
do_barrier(ctrl)
return request
def add_bridge_flow(ctrl, dst_mac, vlanid, group_id, send_barrier=False):
match = ofp.match()
priority=500
if dst_mac!=None:
priority=1000
match.oxm_list.append(ofp.oxm.eth_dst(dst_mac))
match.oxm_list.append(ofp.oxm.vlan_vid(0x1000+vlanid))
request = ofp.message.flow_add(
table_id=50,
cookie=42,
match=match,
instructions=[
ofp.instruction.write_actions(
actions=[
ofp.action.group(group_id)]),
ofp.instruction.goto_table(60)
],
buffer_id=ofp.OFP_NO_BUFFER,
priority=priority)
logging.info("Inserting Brdige flow vlan %d, mac %s", vlanid, dst_mac)
ctrl.message_send(request)
if send_barrier:
do_barrier(ctrl)
return request
def add_overlay_bridge_flow(ctrl, dst_mac, vnid, group_id, is_group=True, send_barrier=False):
match = ofp.match()
if dst_mac!=None:
match.oxm_list.append(ofp.oxm.eth_dst(dst_mac))
match.oxm_list.append(ofp.oxm.tunnel_id(vnid))
if is_group == True:
actions=[ofp.action.group(group_id)]
else:
actions=[ofp.action.output(group_id)]
request = ofp.message.flow_add(
table_id=50,
cookie=42,
match=match,
instructions=[
ofp.instruction.write_actions(
actions=actions),
ofp.instruction.goto_table(60)
],
buffer_id=ofp.OFP_NO_BUFFER,
priority=1000)
logging.info("Inserting Brdige flow vnid %d, mac %s", vnid, dst_mac)
ctrl.message_send(request)
if send_barrier:
do_barrier(ctrl)
return request
def add_termination_flow(ctrl, in_port, eth_type, dst_mac, vlanid, goto_table=None, send_barrier=False):
match = ofp.match()
match.oxm_list.append(ofp.oxm.eth_type(eth_type))
if dst_mac[0]&0x01 == 0x01:
match.oxm_list.append(ofp.oxm.eth_dst_masked(dst_mac, [0xff, 0xff, 0xff, 0x80, 0x00, 0x00]))
goto_table=40
else:
if in_port!=0:
match.oxm_list.append(ofp.oxm.in_port(in_port))
match.oxm_list.append(ofp.oxm.eth_dst(dst_mac))
match.oxm_list.append(ofp.oxm.vlan_vid(0x1000+vlanid))
if goto_table == None:
goto_table=30
request = ofp.message.flow_add(
table_id=20,
cookie=42,
match=match,
instructions=[
ofp.instruction.goto_table(goto_table)
],
buffer_id=ofp.OFP_NO_BUFFER,
priority=1)
logging.info("Inserting termination flow inport %d, eth_type %lx, vlan %d, mac %s", in_port, eth_type, vlanid, dst_mac)
ctrl.message_send(request)
if send_barrier:
do_barrier(ctrl)
return request
def add_unicast_routing_flow(ctrl, eth_type, dst_ip, mask, action_group_id, vrf=0, send_ctrl=False, send_barrier=False):
match = ofp.match()
match.oxm_list.append(ofp.oxm.eth_type(eth_type))
if vrf != 0:
match.oxm_list.append(ofp.oxm.exp2ByteValue(ofp.oxm.OFDPA_EXP_TYPE_VRF, vrf))
match.oxm_list.append(ofp.oxm.ipv4_dst_masked(dst_ip, mask))
instructions = []
instructions.append(ofp.instruction.goto_table(60))
if send_ctrl:
instructions.append(ofp.instruction.apply_actions(
actions=[ofp.action.output( port=ofp.OFPP_CONTROLLER,
max_len=ofp.OFPCML_NO_BUFFER)]))
else:
instructions.append(ofp.instruction.write_actions(
actions=[ofp.action.group(action_group_id)]))
request = ofp.message.flow_add(
table_id=30,
cookie=42,
match=match,
instructions=instructions,
buffer_id=ofp.OFP_NO_BUFFER,
priority=1)
logging.info("Inserting unicast routing flow eth_type %lx, dip %ld",eth_type, dst_ip)
ctrl.message_send(request)
if send_barrier:
do_barrier(ctrl)
return request
def add_mpls_flow(ctrl, action_group_id=0x0, label=100 ,ethertype=0x0800, bos=1, vrf=1, goto_table=27, send_barrier=False):
match = ofp.match()
match.oxm_list.append(ofp.oxm.eth_type(0x8847))
match.oxm_list.append(ofp.oxm.mpls_label(label))
match.oxm_list.append(ofp.oxm.mpls_bos(bos))
actions = [ofp.action.dec_mpls_ttl(),
ofp.action.set_field(ofp.oxm.exp2ByteValue(exp_type=1, value=vrf))]
if (goto_table == 29):
actions.append(ofp.action.group(action_group_id))
else:
actions.append(ofp.action.set_field(
ofp.oxm.exp2ByteValue(exp_type=23, value=32)))
actions.append(ofp.action.group(action_group_id))
actions.append(ofp.action.copy_ttl_in())
request = ofp.message.flow_add(
table_id=24,
cookie=43,
match=match,
instructions=[
ofp.instruction.apply_actions(actions=actions),
ofp.instruction.goto_table(goto_table)
],
buffer_id=ofp.OFP_NO_BUFFER,
priority=1)
logging.info("Inserting MPLS flow , label %ld", label)
ctrl.message_send(request)
if send_barrier:
do_barrier(ctrl)
return request
def add_mcast4_routing_flow(ctrl, vlan_id, src_ip, src_ip_mask, dst_ip, action_group_id, send_barrier=False):
match = ofp.match()
match.oxm_list.append(ofp.oxm.eth_type(0x0800))
match.oxm_list.append(ofp.oxm.vlan_vid(vlan_id))
if src_ip_mask!=0:
match.oxm_list.append(ofp.oxm.ipv4_src_masked(src_ip, src_ip_mask))
else:
match.oxm_list.append(ofp.oxm.ipv4_src(src_ip))
match.oxm_list.append(ofp.oxm.ipv4_dst(dst_ip))
request = ofp.message.flow_add(
table_id=40,
cookie=42,
match=match,
instructions=[
ofp.instruction.write_actions(
actions=[ofp.action.group(action_group_id)]),
ofp.instruction.goto_table(60)
],
buffer_id=ofp.OFP_NO_BUFFER,
priority=1)
logging.info("Inserting mcast routing flow eth_type %lx, dip %lx, sip %lx, sip_mask %lx",0x0800, dst_ip, src_ip, src_ip_mask)
ctrl.message_send(request)
if send_barrier:
do_barrier(ctrl)
return request
#dpctl tcp:192.168.1.1:6633 flow-mod table=28,cmd=add,prio=281 eth_type=0x800,ip_dst=100.0.0.1,ip_proto=6,tcp_dst=5000 write:set_field=ip_dst:10.0.0.1,set_field=tcp_dst:2000,group=0x71000001 goto:60
def add_dnat_flow(ctrl, eth_type, ip_dst, ip_proto, tcp_dst, set_ip_dst, set_tcp_dst, action_group_id):
match = ofp.match()
match.oxm_list.append(ofp.oxm.eth_type(eth_type))
match.oxm_list.append(ofp.oxm.ipv4_dst(ip_dst))
match.oxm_list.append(ofp.oxm.ip_proto(ip_proto))
match.oxm_list.append(ofp.oxm.tcp_dst(tcp_dst))
request = ofp.message.flow_add(
table_id=28,
cookie=42,
match=match,
instructions=[
ofp.instruction.write_actions(
actions=[ofp.action.set_field(ofp.oxm.ipv4_dst(set_ip_dst)),
ofp.action.set_field(ofp.oxm.tcp_dst(set_tcp_dst)),
ofp.action.group(action_group_id)]),
ofp.instruction.goto_table(60)
],
buffer_id=ofp.OFP_NO_BUFFER,
priority=1)
logging.info("Inserting DNAT flow eth_type %lx, dip %lx, ip_proto %ld, tcp_dst %ld, SetFeild: Dip %lx, tcp_dst %ld, action_gorup=%lx",eth_type, ip_dst, ip_proto, tcp_dst, set_ip_dst, set_tcp_dst, action_group_id)
ctrl.message_send(request)
return request
#dpctl tcp:192.168.1.1:6633 flow-mod table=29,cmd=add,prio=291 eth_type=0x800,ip_src=10.0.0.1,ip_proto=6,tcp_src=2000 write:set_field=ip_src:100.0.0.1,set_field=tcp_src:5000 goto:30
def add_snat_flow(ctrl, eth_type, ip_src, ip_proto, tcp_src, set_ip_src, set_tcp_src):
match = ofp.match()
match.oxm_list.append(ofp.oxm.eth_type(eth_type))
match.oxm_list.append(ofp.oxm.ipv4_src(ip_src))
match.oxm_list.append(ofp.oxm.ip_proto(ip_proto))
match.oxm_list.append(ofp.oxm.tcp_src(tcp_src))
request = ofp.message.flow_add(
table_id=29,
cookie=42,
match=match,
instructions=[
ofp.instruction.write_actions(
actions=[ofp.action.set_field(ofp.oxm.ipv4_src(set_ip_src)),
ofp.action.set_field(ofp.oxm.tcp_src(set_tcp_src))]),
ofp.instruction.goto_table(30)
],
buffer_id=ofp.OFP_NO_BUFFER,
priority=1)
logging.info("Inserting DNAT flow eth_type %lx, sip %lx, ip_proto %ld, tcp_src %ld, SetFeild: sip %lx, tcp_src %ld",eth_type, ip_src, ip_proto, tcp_src, set_ip_src, set_tcp_src)
ctrl.message_send(request)
return request
def get_vtap_lport_config_xml(dp_id, lport, phy_port, vlan, vnid, operation='merge'):
"""
Command Example:
of-agent vtap 10001 ethernet 1/1 vid 1
of-agent vtp 10001 vni 10
"""
if vlan != 0:
config_vtap_xml="""
<config>
<capable-switch xmlns="urn:onf:of111:config:yang" xmlns:xc="urn:ietf:params:xml:ns:netconf:base:1.0">
<id>capable-switch-1</id>
<resources>
<port xc:operation="OPERATION">
<resource-id >LPORT</resource-id>
<features>
<current>
<rate>10Gb</rate>
<medium>fiber</medium>
<pause>symmetric</pause>
</current>
<advertised>
<rate>10Gb</rate>
<rate>100Gb</rate>
<medium>fiber</medium>
<pause>symmetric</pause>
</advertised>
<supported>
<rate>10Gb</rate>
<rate>100Gb</rate>
<medium>fiber</medium>
<pause>symmetric</pause>
</supported>
<advertised-peer>
<rate>10Gb</rate>
<rate>100Gb</rate>
<medium>fiber</medium>
<pause>symmetric</pause>
</advertised-peer>
</features>
<ofdpa10:vtap xmlns:ofdpa10="urn:bcm:ofdpa10:accton01" xc:operation="OPERATION">
<ofdpa10:phy-port>PHY_PORT</ofdpa10:phy-port>
<ofdpa10:vid>VLAN_ID</ofdpa10:vid>
<ofdpa10:vni>VNID</ofdpa10:vni>
</ofdpa10:vtap>
</port>
</resources>
<logical-switches>
<switch>
<id>DATAPATH_ID</id>
<datapath-id>DATAPATH_ID</datapath-id>
<resources>
<port xc:operation="OPERATION">LPORT</port>
</resources>
</switch>
</logical-switches>
</capable-switch>
</config>
"""
else:
config_vtap_xml="""
<config>
<capable-switch xmlns="urn:onf:of111:config:yang" xmlns:xc="urn:ietf:params:xml:ns:netconf:base:1.0">
<id>capable-switch-1</id>
<resources>
<port xc:operation="OPERATION">
<resource-id >LPORT</resource-id>
<features>
<current>
<rate>10Gb</rate>
<medium>fiber</medium>
<pause>symmetric</pause>
</current>
<advertised>
<rate>10Gb</rate>
<rate>100Gb</rate>
<medium>fiber</medium>
<pause>symmetric</pause>
</advertised>
<supported>
<rate>10Gb</rate>
<rate>100Gb</rate>
<medium>fiber</medium>
<pause>symmetric</pause>
</supported>
<advertised-peer>
<rate>10Gb</rate>
<rate>100Gb</rate>
<medium>fiber</medium>
<pause>symmetric</pause>
</advertised-peer>
</features>
<ofdpa10:vtap xmlns:ofdpa10="urn:bcm:ofdpa10:accton01" xc:operation="OPERATION">
<ofdpa10:phy-port>PHY_PORT</ofdpa10:phy-port>
<ofdpa10:vni>VNID</ofdpa10:vni>
</ofdpa10:vtap>
</port>
</resources>
<logical-switches>
<switch>
<id>DATAPATH_ID</id>
<datapath-id>DATAPATH_ID</datapath-id>
<resources>
<port xc:operation="OPERATION">LPORT</port>
</resources>
</switch>
</logical-switches>
</capable-switch>
</config>
"""
str_datapath_id_f= "{:016x}".format(dp_id)
str_datapath_id=':'.join([str_datapath_id_f[i:i+2] for i in range(0, len(str_datapath_id_f), 2)])
config_vtap_xml=config_vtap_xml.replace("DATAPATH_ID", str_datapath_id)
config_vtap_xml=config_vtap_xml.replace("LPORT", str(int(lport)))
config_vtap_xml=config_vtap_xml.replace("PHY_PORT", str(phy_port))
config_vtap_xml=config_vtap_xml.replace("VLAN_ID", str(vlan))
config_vtap_xml=config_vtap_xml.replace("VNID", str(vnid))
config_vtap_xml=config_vtap_xml.replace("OPERATION", str(operation))
return config_vtap_xml
def get_vtep_lport_config_xml(dp_id, lport, src_ip, dst_ip, next_hop_id, vnid, udp_src_port=6633, ttl=25, operation='merge'):
"""
Command Example:
of-agent vtep 10002 source user-input-src-ip destination user-input-dst-ip udp-source-port 6633 nexthop 2 ttl 25
of-agent vtp 10001 vni 10
"""
config_vtep_xml="""
<config>
<capable-switch xmlns="urn:onf:of111:config:yang" xmlns:xc="urn:ietf:params:xml:ns:netconf:base:1.0">
<id>capable-switch-1</id>
<resources>
<port xc:operation="OPERATION">
<resource-id>LPORT</resource-id>
<features>
<current>
<rate>10Gb</rate>
<medium>fiber</medium>
<pause>symmetric</pause>
</current>
<advertised>
<rate>10Gb</rate>
<rate>100Gb</rate>
<medium>fiber</medium>
<pause>symmetric</pause>
</advertised>
<supported>
<rate>10Gb</rate>
<rate>100Gb</rate>
<medium>fiber</medium>
<pause>symmetric</pause>
</supported>
<advertised-peer>
<rate>10Gb</rate>
<rate>100Gb</rate>
<medium>fiber</medium>
<pause>symmetric</pause>
</advertised-peer>
</features>
<ofdpa10:vtep xmlns:ofdpa10="urn:bcm:ofdpa10:accton01">
<ofdpa10:src-ip>SRC_IP</ofdpa10:src-ip>
<ofdpa10:dest-ip>DST_IP</ofdpa10:dest-ip>
<ofdpa10:udp-src-port>UDP_SRC_PORT</ofdpa10:udp-src-port>
<ofdpa10:vni xc:operation="OPERATION">
<ofdpa10:id>VNID</ofdpa10:id>
</ofdpa10:vni>
<ofdpa10:nexthop-id>NEXT_HOP_ID</ofdpa10:nexthop-id>
<ofdpa10:ttl>TTL</ofdpa10:ttl>
</ofdpa10:vtep>
</port>
</resources>
<logical-switches>
<switch>
<id>DATAPATH_ID</id>
<datapath-id>DATAPATH_ID</datapath-id>
<resources>
<port xc:operation="OPERATION">LPORT</port>
</resources>
</switch>
</logical-switches>
</capable-switch>
</config>
"""
str_datapath_id_f= "{:016x}".format(dp_id)
str_datapath_id=':'.join([str_datapath_id_f[i:i+2] for i in range(0, len(str_datapath_id_f), 2)])
config_vtep_xml=config_vtep_xml.replace("DATAPATH_ID", str_datapath_id)
config_vtep_xml=config_vtep_xml.replace("LPORT", str(int(lport)))
config_vtep_xml=config_vtep_xml.replace("SRC_IP", str(src_ip))
config_vtep_xml=config_vtep_xml.replace("DST_IP", str(dst_ip))
config_vtep_xml=config_vtep_xml.replace("UDP_SRC_PORT", str(udp_src_port))
config_vtep_xml=config_vtep_xml.replace("NEXT_HOP_ID", str(next_hop_id))
config_vtep_xml=config_vtep_xml.replace("TTL", str(ttl))
config_vtep_xml=config_vtep_xml.replace("VNID", str(vnid))
config_vtep_xml=config_vtep_xml.replace("OPERATION", str(operation))
return config_vtep_xml
def get_next_hop_config_xml(next_hop_id, dst_mac, phy_port, vlan, operation='merge'):
#of-agent nexthop 2 destination user-input-dst-mac ethernet 1/2 vid 2
config_nexthop_xml="""
<config>
<of11-config:capable-switch xmlns:of11-config="urn:onf:of111:config:yang" xmlns:xc="urn:ietf:params:xml:ns:netconf:base:1.0">
<ofdpa10:next-hop xmlns:ofdpa10="urn:bcm:ofdpa10:accton01" xc:operation="OPERATION">
<ofdpa10:id>NEXT_HOP_ID</ofdpa10:id>
<ofdpa10:dest-mac>DST_MAC</ofdpa10:dest-mac>
<ofdpa10:phy-port>PHY_PORT</ofdpa10:phy-port>
<ofdpa10:vid>VLAN_ID</ofdpa10:vid>
</ofdpa10:next-hop>
</of11-config:capable-switch>
</config>
"""
config_nexthop_xml=config_nexthop_xml.replace("VLAN_ID", str(vlan))
config_nexthop_xml=config_nexthop_xml.replace("PHY_PORT", str(phy_port))
config_nexthop_xml=config_nexthop_xml.replace("NEXT_HOP_ID", str(next_hop_id))
config_nexthop_xml=config_nexthop_xml.replace("DST_MAC", str(dst_mac))
config_nexthop_xml=config_nexthop_xml.replace("OPERATION", str(operation))
return config_nexthop_xml
def get_vni_config_xml(vni_id, mcast_ipv4, next_hop_id, operation='merge'):
#of-agent vni 10 multicast 224.1.1.1 nexthop 20
if mcast_ipv4!=None:
config_vni_xml="""
<config>
<of11-config:capable-switch xmlns:of11-config="urn:onf:of111:config:yang" xmlns:xc="urn:ietf:params:xml:ns:netconf:base:1.0">
<ofdpa10:vni xmlns:ofdpa10="urn:bcm:ofdpa10:accton01" xc:operation="OPERATION">
<ofdpa10:id>VNID</ofdpa10:id>
<ofdpa10:vni-multicast-group>MCAST_IP</ofdpa10:vni-multicast-group>
<ofdpa10:multicast-group-nexthop-id>NEXT_HOP_ID</ofdpa10:multicast-group-nexthop-id>
</ofdpa10:vni>
</of11-config:capable-switch>
</config>
"""
config_vni_xml=config_vni_xml.replace("NEXT_HOP_ID", str(next_hop_id))
config_vni_xml=config_vni_xml.replace("MCAST_IP", str(mcast_ipv4))
else:
config_vni_xml="""
<config>
<of11-config:capable-switch xmlns:of11-config="urn:onf:of111:config:yang" xmlns:xc="urn:ietf:params:xml:ns:netconf:base:1.0">
<ofdpa10:vni xmlns:ofdpa10="urn:bcm:ofdpa10:accton01" xc:operation="OPERATION">
<ofdpa10:id>VNID</ofdpa10:id>
</ofdpa10:vni>
</of11-config:capable-switch>
</config>
"""
config_vni_xml=config_vni_xml.replace("VNID", str(vni_id))
config_vni_xml=config_vni_xml.replace("OPERATION", str(operation))
return config_vni_xml
def get_featureReplay(self):
req = ofp.message.features_request()
res, raw = self.controller.transact(req)
self.assertIsNotNone(res, "Did not receive a response from the DUT.")
self.assertEqual(res.type, ofp.OFPT_FEATURES_REPLY,
("Unexpected packet type %d received in response to "
"OFPT_FEATURES_REQUEST") % res.type)
return res
def send_edit_config(switch_ip, xml, target='runing'):
NETCONF_ACCOUNT="netconfuser"
NETCONF_PASSWD="netconfuser"
with manager.connect_ssh(host=switch_ip, port=830, username=NETCONF_ACCOUNT, password=NETCONF_PASSWD, hostkey_verify=False ) as m:
try:
m.edit_config(target='running',
config=xml,
default_operation='merge',
error_option='stop-on-error')
except Exception as e:
logging.info("Fail to set xml %s", xml)
return False
#return m.get_config(source='running').data_xml
return True
def send_delete_config(switch_ip, xml, target='runing'):
NETCONF_ACCOUNT="netconfuser"
NETCONF_PASSWD="netconfuser"
with manager.connect_ssh(host=switch_ip, port=830, username=NETCONF_ACCOUNT, password=NETCONF_PASSWD, hostkey_verify=False ) as m:
try:
m.edit_config(target='running',
config=xml,
default_operation='delete',
error_option='stop-on-error')
except Exception as e:
logging.info("Fail to set xml %s", xml)
return False
#return m.get_config(source='running').data_xml
return True
def get_edit_config(switch_ip, target='runing'):
NETCONF_ACCOUNT="netconfuser"
NETCONF_PASSWD="netconfuser"
with manager.connect_ssh(host=switch_ip, port=830, username=NETCONF_ACCOUNT, password=NETCONF_PASSWD, hostkey_verify=False ) as m:
return m.get_config(source='running').data_xml
"""
MPLS
"""
OFDPA_MPLS_SUBTYPE_SHIFT=24
OFDPA_MPLS_GROUP_SUBTYPE_L2_VPN_LABEL=1
OFDPA_MPLS_GROUP_SUBTYPE_L3_VPN_LABEL=2
OFDPA_MPLS_GROUP_SUBTYPE_TUNNEL_LABEL1=3
OFDPA_MPLS_GROUP_SUBTYPE_TUNNEL_LABEL2=4
OFDPA_MPLS_GROUP_SUBTYPE_SWAP_LABEL=5
OFDPA_MPLS_GROUP_SUBTYPE_FAST_FAILOVER_GROUP=6
OFDPA_MPLS_GROUP_SUBTYPE_ECMP=8
OFDPA_MPLS_GROUP_SUBTYPE_L2_TAG=10
def encode_mpls_interface_group_id(subtype, index):
index=index&0x00ffffff
assert(subtype==0)
return index + (9 << OFDPA_GROUP_TYPE_SHIFT)+(subtype<<OFDPA_MPLS_SUBTYPE_SHIFT)
def encode_mpls_label_group_id(subtype, index):
index=index&0x00ffffff
assert(subtype <=5 or subtype==0)
#1: l2 vpn label
#2: l3 vpn label
#3: mpls tunnel label 1
#4: mpls tunnel lable 2
#5: mpls swap label
return index + (9 << OFDPA_GROUP_TYPE_SHIFT)+(subtype<<OFDPA_MPLS_SUBTYPE_SHIFT)
def encode_mpls_forwarding_group_id(subtype, index):
index=index&0x00ffffff
assert(subtype==6 or subtype==8 or subtype==10)
return index + (10 << OFDPA_GROUP_TYPE_SHIFT)+(subtype<<OFDPA_MPLS_SUBTYPE_SHIFT)
def add_mpls_intf_group(ctrl, ref_gid, dst_mac, src_mac, vid, index, subtype=0):
action=[]
action.append(ofp.action.set_field(ofp.oxm.eth_src(src_mac)))
action.append(ofp.action.set_field(ofp.oxm.eth_dst(dst_mac)))
if vid != 1:
action.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+vid)))
action.append(ofp.action.group(ref_gid))
buckets = [ofp.bucket(actions=action)]
mpls_group_id =encode_mpls_interface_group_id(subtype, index)
request = ofp.message.group_add(group_type=ofp.OFPGT_INDIRECT,
group_id=mpls_group_id,
buckets=buckets
)
ctrl.message_send(request)
return mpls_group_id, request
def add_mpls_tunnel_label_group(
ctrl,
ref_gid,
subtype,
index,
label,
):
action=[]
action.append(ofp.action.push_mpls(0x8847))
action.append(ofp.action.set_field(ofp.oxm.mpls_label(label)))
action.append(ofp.action.group(ref_gid))
buckets = [ofp.bucket(actions=action)]
mpls_group_id = encode_mpls_label_group_id(subtype, index)
request = ofp.message.group_add(group_type=ofp.OFPGT_INDIRECT,
group_id=mpls_group_id,
buckets=buckets
)
ctrl.message_send(request)
return mpls_group_id, request
def add_mpls_label_group(ctrl, subtype, index, ref_gid,
lmep_id=-1,
qos_index=-1,
push_l2_header=False,
push_vlan=False,
push_mpls_header=False,
push_cw=False,
set_mpls_label=None,
set_bos=None,
set_tc=None,
set_tc_from_table=False,
cpy_tc_outward=False,
set_ttl=None,
cpy_ttl_outward=False,
oam_lm_tx_count=False,
set_pri_from_table=False
):
"""
@ref_gid: only can be mpls intf group or mpls tunnel label 1/2 group
"""
action=[]
if push_vlan== True:
action.append(ofp.action.push_vlan(0x8100))
if push_mpls_header== True:
action.append(ofp.action.push_mpls(0x8847))
if set_mpls_label != None:
action.append(ofp.action.set_field(ofp.oxm.mpls_label(set_mpls_label)))
if set_bos != None:
action.append(ofp.action.set_field(ofp.oxm.mpls_bos(set_bos)))
if set_tc != None:
assert(set_tc_from_table==False)
action.append(ofp.action.set_field(ofp.oxm.mpls_tc(set_tc)))
if set_ttl != None:
action.append(ofp.action.set_mpls_ttl(set_ttl))
if cpy_ttl_outward == True:
action.append(ofp.action.copy_ttl_out())
"""
ofdpa experimenter
"""
if push_l2_header== True:
action.append(ofp.action.ofdpa_push_l2_header())
if set_tc_from_table== True:
assert(qos_index>=0)
assert(set_tc == None)
action.append(ofp.action.ofdpa_set_tc_from_table(qos_index))
if cpy_tc_outward == True:
action.append(ofp.action.ofdpa_copy_tc_out())
if oam_lm_tx_count == True:
assert(qos_index>=0 and lmep_id>=0)
action.append(ofp.action.ofdpa_oam_lm_tx_count(lmep_id, qos_index))
if set_pri_from_table == True:
assert(qos_index>=0)
action.append(ofp.action.ofdpa_set_qos_from_table(qos_index))
if push_cw == True:
action.append(ofp.action.ofdpa_push_cw())
action.append(ofp.action.group(ref_gid))
buckets = [ofp.bucket(actions=action)]
mpls_group_id = encode_mpls_label_group_id(subtype, index)
request = ofp.message.group_add(group_type=ofp.OFPGT_INDIRECT,
group_id=mpls_group_id,
buckets=buckets
)
ctrl.message_send(request)
return mpls_group_id, request
def add_mpls_l2_port_flow(ctrl, of_port, mpls_l2_port, tunnel_index, ref_gid, qos_index=0):
"""
Only action is Group, which must indicate one of:
MPLS L2 VPN Label or Fast Failover Protection Group.
ref_gid contains this information
"""
tunnel_id = tunnel_index + ofp.oxm.TUNNEL_ID_BASE
match = ofp.match()
match.oxm_list.append(ofp.oxm.exp4ByteValue(exp_type=ofp.oxm.OFDPA_EXP_TYPE_MPLS_L2_PORT, value=0x00000000 + of_port))
match.oxm_list.append(ofp.oxm.tunnel_id(tunnel_index + ofp.oxm.TUNNEL_ID_BASE))
action = []
action.append(ofp.action.group(ref_gid))
assert(qos_index>=0)
action.append(ofp.action.set_field(ofp.oxm.exp1ByteValue(exp_type=ofp.oxm.OFDPA_EXP_TYPE_QOS_INDEX, value=qos_index)))
request = ofp.message.flow_add(
table_id=MPLS_L2_PORT_FLOW_TABLE,
cookie=42,
match=match,
instructions=[
ofp.instruction.write_actions(
actions=action
),
ofp.instruction.goto_table(MPLS_L2_PORT_PCP_TRUST_FLOW_TABLE) ],
buffer_id=ofp.OFP_NO_BUFFER,
priority=1)
logging.info("Inserting flow %d mpls_l2_port, %d tunnel_id, action %x group and go to table %d", mpls_l2_port, tunnel_id, ref_gid, MPLS_L2_PORT_DSCP_TRUST_FLOW_TABLE)
ctrl.message_send(request)
return request
return
def add_mpls_forwarding_group(ctrl, subtype, index, ref_gids,
watch_port=None,
watch_group=ofp.OFPP_ANY,
push_vlan=None,
pop_vlan=None,
set_vid=None):
assert(subtype == OFDPA_MPLS_GROUP_SUBTYPE_FAST_FAILOVER_GROUP
or subtype == OFDPA_MPLS_GROUP_SUBTYPE_ECMP
or subtype == OFDPA_MPLS_GROUP_SUBTYPE_L2_TAG)
buckets=[]
if subtype == OFDPA_MPLS_GROUP_SUBTYPE_FAST_FAILOVER_GROUP:
group_type = ofp.OFPGT_FF
for gid in ref_gids:
action=[]
action.append(ofp.action.group(gid))
buckets.append(ofp.bucket(watch_port=watch_port, watch_group=watch_group,actions=action))
elif subtype == OFDPA_MPLS_GROUP_SUBTYPE_ECMP:
group_type = ofp.OFPGT_SELECT
for gid in ref_gids:
action=[]
action.append(ofp.action.group(gid))
buckets.append(ofp.bucket(actions=action))
elif subtype == OFDPA_MPLS_GROUP_SUBTYPE_L2_TAG:
group_type = ofp.OFPGT_INDIRECT
action=[]
if set_vid!=None:
action.append(ofp.action.set_field(ofp.oxm.vlan_vid(0x1000+set_vid)))
if push_vlan!=None:
action.append(ofp.action.push_vlan(push_vlan))
if pop_vlan!=None:
action.append(ofp.action.pop_vlan())
action.append(ofp.action.group(ref_gids[0]))
buckets.append(ofp.bucket(actions=action))
mpls_group_id = encode_mpls_forwarding_group_id(subtype, index)
request = ofp.message.group_add(group_type=group_type,
group_id=mpls_group_id,
buckets=buckets
)
ctrl.message_send(request)
return mpls_group_id, request
"""
display
"""
def print_current_table_flow_stat(ctrl, table_id=0xff):
stat_req=ofp.message.flow_stats_request()
response, pkt = ctrl.transact(stat_req)
if response == None:
print "no response"
return None
print len(response.entries)
for obj in response.entries:
print "match ", obj.match
print "cookie", obj.cookie
print "priority", obj.priority
print "idle_timeout", obj.idle_timeout
print "hard_timeout", obj.hard_timeout
#obj.actions
print "packet count: %lx"%obj.packet_count