Gitiles
Code Review Sign In
gerrit.opencord.org / fabric-oftest / b7dc3e25d8e4c18d54251f8fe2646c1edb7c6ef1 / . / src / python / oftest / testutils.py
blob: bf2b24a0f744fd7eea1ff054d7c2c0da808514b7 [file] [log] [blame]
import sys
import copy
import logging
import types
import time
import re
try:
import scapy.all as scapy
except:
try:
import scapy as scapy
except:
sys.exit("Need to install scapy for packet parsing")
import oftest
import oftest.controller
import oftest.dataplane
import oftest.parse
import oftest.ofutils
import ofp
global skipped_test_count
skipped_test_count = 0
_import_blacklist = set(locals().keys())
# Some useful defines
IP_ETHERTYPE = 0x800
TCP_PROTOCOL = 0x6
UDP_PROTOCOL = 0x11
MINSIZE = 0
def delete_all_flows(ctrl):
"""
Delete all flows on the switch
@param ctrl The controller object for the test
"""
logging.info("Deleting all flows")
msg = ofp.message.flow_delete()
if ofp.OFP_VERSION in [1, 2]:
msg.match.wildcards = ofp.OFPFW_ALL
msg.out_port = ofp.OFPP_NONE
msg.buffer_id = 0xffffffff
elif ofp.OFP_VERSION >= 3:
msg.table_id = ofp.OFPTT_ALL
msg.buffer_id = ofp.OFP_NO_BUFFER
msg.out_port = ofp.OFPP_ANY
msg.out_group = ofp.OFPG_ANY
ctrl.message_send(msg)
do_barrier(ctrl)
return 0 # for backwards compatibility
def required_wildcards(parent):
w = test_param_get('required_wildcards', default='default')
if w == 'l3-l4':
return (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)
else:
return 0
def simple_tcp_packet(pktlen=100,
eth_dst='00:01:02:03:04:05',
eth_src='00:06:07:08:09:0a',
dl_vlan_enable=False,
vlan_vid=0,
vlan_pcp=0,
dl_vlan_cfi=0,
ip_src='192.168.0.1',
ip_dst='192.168.0.2',
ip_tos=0,
ip_ttl=64,
tcp_sport=1234,
tcp_dport=80,
ip_ihl=None,
ip_options=False
):
"""
Return a simple dataplane TCP packet
Supports a few parameters:
@param len Length of packet in bytes w/o CRC
@param eth_dst Destinatino MAC
@param eth_src Source MAC
@param dl_vlan_enable True if the packet is with vlan, False otherwise
@param vlan_vid VLAN ID
@param vlan_pcp VLAN priority
@param ip_src IP source
@param ip_dst IP destination
@param ip_tos IP ToS
@param ip_ttl IP TTL
@param tcp_dport TCP destination port
@param ip_sport TCP source port
Generates a simple TCP request. Users
shouldn't assume anything about this packet other than that
it is a valid ethernet/IP/TCP frame.
"""
if MINSIZE > pktlen:
pktlen = MINSIZE
# Note Dot1Q.id is really CFI
if (dl_vlan_enable):
pkt = scapy.Ether(dst=eth_dst, src=eth_src)/ \
scapy.Dot1Q(prio=vlan_pcp, id=dl_vlan_cfi, vlan=vlan_vid)/ \
scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, ttl=ip_ttl, ihl=ip_ihl)/ \
scapy.TCP(sport=tcp_sport, dport=tcp_dport)
else:
if not ip_options:
pkt = scapy.Ether(dst=eth_dst, src=eth_src)/ \
scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, ttl=ip_ttl, ihl=ip_ihl)/ \
scapy.TCP(sport=tcp_sport, dport=tcp_dport)
else:
pkt = scapy.Ether(dst=eth_dst, src=eth_src)/ \
scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, ttl=ip_ttl, ihl=ip_ihl, options=ip_options)/ \
scapy.TCP(sport=tcp_sport, dport=tcp_dport)
pkt = pkt/("D" * (pktlen - len(pkt)))
return pkt
def simple_tcpv6_packet(pktlen=100,
eth_dst='00:01:02:03:04:05',
eth_src='00:06:07:08:09:0a',
dl_vlan_enable=False,
vlan_vid=0,
vlan_pcp=0,
ipv6_src='2001:db8:85a3::8a2e:370:7334',
ipv6_dst='2001:db8:85a3::8a2e:370:7335',
ipv6_tc=0,
ipv6_hlim=64,
ipv6_fl=0,
tcp_sport=1234,
tcp_dport=80):
"""
Return a simple IPv6/TCP packet
Supports a few parameters:
@param len Length of packet in bytes w/o CRC
@param eth_dst Destination MAC
@param eth_src Source MAC
@param dl_vlan_enable True if the packet is with vlan, False otherwise
@param vlan_vid VLAN ID
@param vlan_pcp VLAN priority
@param ipv6_src IPv6 source
@param ipv6_dst IPv6 destination
@param ipv6_tc IPv6 traffic class
@param ipv6_ttl IPv6 hop limit
@param ipv6_fl IPv6 flow label
@param tcp_dport TCP destination port
@param tcp_sport TCP source port
Generates a simple TCP request. Users shouldn't assume anything about this
packet other than that it is a valid ethernet/IPv6/TCP frame.
"""
if MINSIZE > pktlen:
pktlen = MINSIZE
pkt = scapy.Ether(dst=eth_dst, src=eth_src)
if dl_vlan_enable or vlan_vid or vlan_pcp:
pkt /= scapy.Dot1Q(vlan=vlan_vid, prio=vlan_pcp)
pkt /= scapy.IPv6(src=ipv6_src, dst=ipv6_dst, fl=ipv6_fl, tc=ipv6_tc, hlim=ipv6_hlim)
pkt /= scapy.TCP(sport=tcp_sport, dport=tcp_dport)
pkt /= ("D" * (pktlen - len(pkt)))
return pkt
def simple_udp_packet(pktlen=100,
eth_dst='00:01:02:03:04:05',
eth_src='00:06:07:08:09:0a',
dl_vlan_enable=False,
vlan_vid=0,
vlan_pcp=0,
dl_vlan_cfi=0,
ip_src='192.168.0.1',
ip_dst='192.168.0.2',
ip_tos=0,
ip_ttl=64,
udp_sport=1234,
udp_dport=80,
ip_ihl=None,
ip_options=False
):
"""
Return a simple dataplane UDP packet
Supports a few parameters:
@param len Length of packet in bytes w/o CRC
@param eth_dst Destination MAC
@param eth_src Source MAC
@param dl_vlan_enable True if the packet is with vlan, False otherwise
@param vlan_vid VLAN ID
@param vlan_pcp VLAN priority
@param ip_src IP source
@param ip_dst IP destination
@param ip_tos IP ToS
@param ip_ttl IP TTL
@param udp_dport UDP destination port
@param udp_sport UDP source port
Generates a simple UDP packet. Users shouldn't assume anything about
this packet other than that it is a valid ethernet/IP/UDP frame.
"""
if MINSIZE > pktlen:
pktlen = MINSIZE
# Note Dot1Q.id is really CFI
if (dl_vlan_enable):
pkt = scapy.Ether(dst=eth_dst, src=eth_src)/ \
scapy.Dot1Q(prio=vlan_pcp, id=dl_vlan_cfi, vlan=vlan_vid)/ \
scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, ttl=ip_ttl, ihl=ip_ihl)/ \
scapy.UDP(sport=udp_sport, dport=udp_dport)
else:
if not ip_options:
pkt = scapy.Ether(dst=eth_dst, src=eth_src)/ \
scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, ttl=ip_ttl, ihl=ip_ihl)/ \
scapy.UDP(sport=udp_sport, dport=udp_dport)
else:
pkt = scapy.Ether(dst=eth_dst, src=eth_src)/ \
scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, ttl=ip_ttl, ihl=ip_ihl, options=ip_options)/ \
scapy.UDP(sport=udp_sport, dport=udp_dport)
pkt = pkt/("D" * (pktlen - len(pkt)))
return pkt
def simple_udpv6_packet(pktlen=100,
eth_dst='00:01:02:03:04:05',
eth_src='00:06:07:08:09:0a',
dl_vlan_enable=False,
vlan_vid=0,
vlan_pcp=0,
ipv6_src='2001:db8:85a3::8a2e:370:7334',
ipv6_dst='2001:db8:85a3::8a2e:370:7335',
ipv6_tc=0,
ipv6_hlim=64,
ipv6_fl=0,
udp_sport=1234,
udp_dport=80):
"""
Return a simple IPv6/UDP packet
Supports a few parameters:
@param len Length of packet in bytes w/o CRC
@param eth_dst Destination MAC
@param eth_src Source MAC
@param dl_vlan_enable True if the packet is with vlan, False otherwise
@param vlan_vid VLAN ID
@param vlan_pcp VLAN priority
@param ipv6_src IPv6 source
@param ipv6_dst IPv6 destination
@param ipv6_tc IPv6 traffic class
@param ipv6_ttl IPv6 hop limit
@param ipv6_fl IPv6 flow label
@param udp_dport UDP destination port
@param udp_sport UDP source port
Generates a simple UDP request. Users shouldn't assume anything about this
packet other than that it is a valid ethernet/IPv6/UDP frame.
"""
if MINSIZE > pktlen:
pktlen = MINSIZE
pkt = scapy.Ether(dst=eth_dst, src=eth_src)
if dl_vlan_enable or vlan_vid or vlan_pcp:
pkt /= scapy.Dot1Q(vlan=vlan_vid, prio=vlan_pcp)
pkt /= scapy.IPv6(src=ipv6_src, dst=ipv6_dst, fl=ipv6_fl, tc=ipv6_tc, hlim=ipv6_hlim)
pkt /= scapy.UDP(sport=udp_sport, dport=udp_dport)
pkt /= ("D" * (pktlen - len(pkt)))
return pkt
def simple_icmp_packet(pktlen=60,
eth_dst='00:01:02:03:04:05',
eth_src='00:06:07:08:09:0a',
dl_vlan_enable=False,
vlan_vid=0,
vlan_pcp=0,
ip_src='192.168.0.1',
ip_dst='192.168.0.2',
ip_tos=0,
ip_ttl=64,
icmp_type=8,
icmp_code=0
):
"""
Return a simple ICMP packet
Supports a few parameters:
@param len Length of packet in bytes w/o CRC
@param eth_dst Destinatino MAC
@param eth_src Source MAC
@param dl_vlan_enable True if the packet is with vlan, False otherwise
@param vlan_vid VLAN ID
@param vlan_pcp VLAN priority
@param ip_src IP source
@param ip_dst IP destination
@param ip_tos IP ToS
@param ip_ttl IP TTL
@param icmp_type ICMP type
@param icmp_code ICMP code
Generates a simple ICMP ECHO REQUEST. Users
shouldn't assume anything about this packet other than that
it is a valid ethernet/ICMP frame.
"""
if MINSIZE > pktlen:
pktlen = MINSIZE
if (dl_vlan_enable):
pkt = scapy.Ether(dst=eth_dst, src=eth_src)/ \
scapy.Dot1Q(prio=vlan_pcp, id=0, vlan=vlan_vid)/ \
scapy.IP(src=ip_src, dst=ip_dst, ttl=ip_ttl, tos=ip_tos)/ \
scapy.ICMP(type=icmp_type, code=icmp_code)
else:
pkt = scapy.Ether(dst=eth_dst, src=eth_src)/ \
scapy.IP(src=ip_src, dst=ip_dst, ttl=ip_ttl, tos=ip_tos)/ \
scapy.ICMP(type=icmp_type, code=icmp_code)
pkt = pkt/("0" * (pktlen - len(pkt)))
return pkt
def simple_icmpv6_packet(pktlen=100,
eth_dst='00:01:02:03:04:05',
eth_src='00:06:07:08:09:0a',
dl_vlan_enable=False,
vlan_vid=0,
vlan_pcp=0,
ipv6_src='2001:db8:85a3::8a2e:370:7334',
ipv6_dst='2001:db8:85a3::8a2e:370:7335',
ipv6_tc=0,
ipv6_hlim=64,
ipv6_fl=0,
icmp_type=8,
icmp_code=0):
"""
Return a simple ICMPv6 packet
Supports a few parameters:
@param len Length of packet in bytes w/o CRC
@param eth_dst Destination MAC
@param eth_src Source MAC
@param dl_vlan_enable True if the packet is with vlan, False otherwise
@param vlan_vid VLAN ID
@param vlan_pcp VLAN priority
@param ipv6_src IPv6 source
@param ipv6_dst IPv6 destination
@param ipv6_tc IPv6 traffic class
@param ipv6_ttl IPv6 hop limit
@param ipv6_fl IPv6 flow label
@param icmp_type ICMP type
@param icmp_code ICMP code
Generates a simple ICMP ECHO REQUEST. Users shouldn't assume anything
about this packet other than that it is a valid ethernet/IPv6/ICMP frame.
"""
if MINSIZE > pktlen:
pktlen = MINSIZE
pkt = scapy.Ether(dst=eth_dst, src=eth_src)
if dl_vlan_enable or vlan_vid or vlan_pcp:
pkt /= scapy.Dot1Q(vlan=vlan_vid, prio=vlan_pcp)
pkt /= scapy.IPv6(src=ipv6_src, dst=ipv6_dst, fl=ipv6_fl, tc=ipv6_tc, hlim=ipv6_hlim)
pkt /= scapy.ICMPv6Unknown(type=icmp_type, code=icmp_code)
pkt /= ("D" * (pktlen - len(pkt)))
return pkt
def simple_arp_packet(pktlen=60,
eth_dst='ff:ff:ff:ff:ff:ff',
eth_src='00:06:07:08:09:0a',
arp_op=1,
ip_snd='192.168.0.1',
ip_tgt='192.168.0.2',
hw_snd='00:06:07:08:09:0a',
hw_tgt='00:00:00:00:00:00',
):
"""
Return a simple ARP packet
Supports a few parameters:
@param len Length of packet in bytes w/o CRC
@param eth_dst Destinatino MAC
@param eth_src Source MAC
@param arp_op Operation (1=request, 2=reply)
@param ip_snd Sender IP
@param ip_tgt Target IP
@param hw_snd Sender hardware address
@param hw_tgt Target hardware address
Generates a simple ARP REQUEST. Users
shouldn't assume anything about this packet other than that
it is a valid ethernet/ARP frame.
"""
if MINSIZE > pktlen:
pktlen = MINSIZE
pkt = scapy.Ether(dst=eth_dst, src=eth_src)/ \
scapy.ARP(hwsrc=hw_snd, hwdst=hw_tgt, pdst=ip_tgt, psrc=ip_snd, op=arp_op)
pkt = pkt/("0" * (pktlen - len(pkt)))
return pkt
def simple_eth_packet(pktlen=60,
eth_dst='01:80:c2:00:00:00',
eth_src='00:01:02:03:04:05',
eth_type=0x88cc):
if MINSIZE > pktlen:
pktlen = MINSIZE
pkt = scapy.Ether(dst=eth_dst, src=eth_src, type=eth_type)
pkt = pkt/("0" * (pktlen - len(pkt)))
return pkt
def qinq_tcp_packet(pktlen=100,
eth_dst='00:01:02:03:04:05',
eth_src='00:06:07:08:09:0a',
dl_vlan_outer=20,
dl_vlan_pcp_outer=0,
dl_vlan_cfi_outer=0,
vlan_vid=10,
vlan_pcp=0,
dl_vlan_cfi=0,
ip_src='192.168.0.1',
ip_dst='192.168.0.2',
ip_tos=0,
ip_ttl=64,
tcp_sport=1234,
tcp_dport=80,
ip_ihl=None,
ip_options=False
):
"""
Return a doubly tagged dataplane TCP packet
Supports a few parameters:
@param len Length of packet in bytes w/o CRC
@param eth_dst Destinatino MAC
@param eth_src Source MAC
@param dl_vlan_outer Outer VLAN ID
@param dl_vlan_pcp_outer Outer VLAN priority
@param dl_vlan_cfi_outer Outer VLAN cfi bit
@param vlan_vid Inner VLAN ID
@param vlan_pcp VLAN priority
@param dl_vlan_cfi VLAN cfi bit
@param ip_src IP source
@param ip_dst IP destination
@param ip_tos IP ToS
@param tcp_dport TCP destination port
@param ip_sport TCP source port
Generates a TCP request. Users
shouldn't assume anything about this packet other than that
it is a valid ethernet/IP/TCP frame.
"""
if MINSIZE > pktlen:
pktlen = MINSIZE
# Note Dot1Q.id is really CFI
pkt = scapy.Ether(dst=eth_dst, src=eth_src)/ \
scapy.Dot1Q(prio=dl_vlan_pcp_outer, id=dl_vlan_cfi_outer, vlan=dl_vlan_outer)/ \
scapy.Dot1Q(prio=vlan_pcp, id=dl_vlan_cfi, vlan=vlan_vid)/ \
scapy.IP(src=ip_src, dst=ip_dst, tos=ip_tos, ttl=ip_ttl, ihl=ip_ihl)/ \
scapy.TCP(sport=tcp_sport, dport=tcp_dport)
pkt = pkt/("D" * (pktlen - len(pkt)))
return pkt
def do_barrier(ctrl, timeout=-1):
"""
Do a barrier command
Return 0 on success, -1 on error
"""
b = ofp.message.barrier_request()
(resp, pkt) = ctrl.transact(b, timeout=timeout)
if resp is None:
raise AssertionError("barrier failed")
# We'll trust the transaction processing in the controller that xid matched
return 0 # for backwards compatibility
def port_config_get(controller, port_no):
"""
Get a port's configuration
Gets the switch feature configuration and grabs one port's
configuration
@returns (hwaddr, config, advert) The hwaddress, configuration and
advertised values
"""
if ofp.OFP_VERSION <= 3:
request = ofp.message.features_request()
reply, _ = controller.transact(request)
if reply is None:
logging.warn("Get feature request failed")
return None, None, None
logging.debug(reply.show())
ports = reply.ports
else:
request = ofp.message.port_desc_stats_request()
# TODO do multipart correctly
reply, _ = controller.transact(request)
if reply is None:
logging.warn("Port desc stats request failed")
return None, None, None
logging.debug(reply.show())
ports = reply.entries
for port in ports:
if port.port_no == port_no:
return (port.hw_addr, port.config, port.advertised)
logging.warn("Did not find port number for port config")
return None, None, None
def port_config_set(controller, port_no, config, mask):
"""
Set the port configuration according the given parameters
Gets the switch feature configuration and updates one port's
configuration value according to config and mask
"""
logging.info("Setting port " + str(port_no) + " to config " + str(config))
hw_addr, _, _ = port_config_get(controller, port_no)
mod = ofp.message.port_mod()
mod.port_no = port_no
if hw_addr != None:
mod.hw_addr = hw_addr
mod.config = config
mod.mask = mask
mod.advertise = 0 # No change
controller.message_send(mod)
return 0
def receive_pkt_check(dp, pkt, yes_ports, no_ports, assert_if):
"""
Check for proper receive packets across all ports
@param dp The dataplane object
@param pkt Expected packet; may be None if yes_ports is empty
@param yes_ports Set or list of ports that should recieve packet
@param no_ports Set or list of ports that should not receive packet
@param assert_if Object that implements assertXXX
"""
# Wait this long for packets that we don't expect to receive.
# 100ms is (rarely) too short for positive tests on slow
# switches but is definitely not too short for a negative test.
negative_timeout = 0.1
exp_pkt_arg = None
if oftest.config["relax"]:
exp_pkt_arg = pkt
for ofport in yes_ports:
logging.debug("Checking for pkt on port " + str(ofport))
(rcv_port, rcv_pkt, pkt_time) = dp.poll(
port_number=ofport, exp_pkt=exp_pkt_arg)
assert_if.assertTrue(rcv_pkt is not None,
"Did not receive pkt on " + str(ofport))
if not oftest.dataplane.match_exp_pkt(pkt, rcv_pkt):
logging.debug("Expected %s" % format_packet(pkt))
logging.debug("Received %s" % format_packet(rcv_pkt))
assert_if.assertTrue(oftest.dataplane.match_exp_pkt(pkt, rcv_pkt),
"Received packet does not match expected packet " +
"on port " + str(ofport))
if len(no_ports) > 0:
time.sleep(negative_timeout)
for ofport in no_ports:
logging.debug("Negative check for pkt on port " + str(ofport))
(rcv_port, rcv_pkt, pkt_time) = dp.poll(
port_number=ofport, timeout=0, exp_pkt=exp_pkt_arg)
assert_if.assertTrue(rcv_pkt is None,
"Unexpected pkt on port " + str(ofport))
def receive_pkt_verify(parent, egr_ports, exp_pkt, ing_port):
"""
Receive a packet and verify it matches an expected value
@param egr_port A single port or list of ports
parent must implement dataplane, assertTrue and assertEqual
"""
exp_pkt_arg = None
if oftest.config["relax"]:
exp_pkt_arg = exp_pkt
if type(egr_ports) == type([]):
egr_port_list = egr_ports
else:
egr_port_list = [egr_ports]
# Expect a packet from each port on egr port list
for egr_port in egr_port_list:
check_port = egr_port
if egr_port == ofp.OFPP_IN_PORT:
check_port = ing_port
(rcv_port, rcv_pkt, pkt_time) = parent.dataplane.poll(
port_number=check_port, exp_pkt=exp_pkt_arg)
if rcv_pkt is None:
logging.error("ERROR: No packet received from " +
str(check_port))
parent.assertTrue(rcv_pkt is not None,
"Did not receive packet port " + str(check_port))
logging.debug("Packet len " + str(len(rcv_pkt)) + " in on " +
str(rcv_port))
if str(exp_pkt) != str(rcv_pkt):
logging.error("ERROR: Packet match failed.")
logging.debug("Expected len " + str(len(exp_pkt)) + ": "
+ str(exp_pkt).encode('hex'))
logging.debug("Received len " + str(len(rcv_pkt)) + ": "
+ str(rcv_pkt).encode('hex'))
logging.debug("Expected packet: " + inspect_packet(scapy.Ether(str(exp_pkt))))
logging.debug("Received packet: " + inspect_packet(scapy.Ether(str(rcv_pkt))))
parent.assertEqual(str(exp_pkt), str(rcv_pkt),
"Packet match error on port " + str(check_port))
def match_verify(parent, req_match, res_match):
"""
Verify flow matches agree; if they disagree, report where
parent must implement assertEqual
Use str() to ensure content is compared and not pointers
"""
parent.assertEqual(req_match.wildcards, res_match.wildcards,
'Match failed: wildcards: ' + hex(req_match.wildcards) +
" != " + hex(res_match.wildcards))
parent.assertEqual(req_match.in_port, res_match.in_port,
'Match failed: in_port: ' + str(req_match.in_port) +
" != " + str(res_match.in_port))
parent.assertEqual(str(req_match.eth_src), str(res_match.eth_src),
'Match failed: eth_src: ' + str(req_match.eth_src) +
" != " + str(res_match.eth_src))
parent.assertEqual(str(req_match.eth_dst), str(res_match.eth_dst),
'Match failed: eth_dst: ' + str(req_match.eth_dst) +
" != " + str(res_match.eth_dst))
parent.assertEqual(req_match.vlan_vid, res_match.vlan_vid,
'Match failed: vlan_vid: ' + str(req_match.vlan_vid) +
" != " + str(res_match.vlan_vid))
parent.assertEqual(req_match.vlan_pcp, res_match.vlan_pcp,
'Match failed: vlan_pcp: ' +
str(req_match.vlan_pcp) + " != " +
str(res_match.vlan_pcp))
parent.assertEqual(req_match.eth_type, res_match.eth_type,
'Match failed: eth_type: ' + str(req_match.eth_type) +
" != " + str(res_match.eth_type))
if (not(req_match.wildcards & ofp.OFPFW_DL_TYPE)
and (req_match.eth_type == IP_ETHERTYPE)):
parent.assertEqual(req_match.ip_dscp, res_match.ip_dscp,
'Match failed: ip_dscp: ' + str(req_match.ip_dscp) +
" != " + str(res_match.ip_dscp))
parent.assertEqual(req_match.ip_proto, res_match.ip_proto,
'Match failed: ip_proto: ' + str(req_match.ip_proto) +
" != " + str(res_match.ip_proto))
parent.assertEqual(req_match.ipv4_src, res_match.ipv4_src,
'Match failed: ipv4_src: ' + str(req_match.ipv4_src) +
" != " + str(res_match.ipv4_src))
parent.assertEqual(req_match.ipv4_dst, res_match.ipv4_dst,
'Match failed: ipv4_dst: ' + str(req_match.ipv4_dst) +
" != " + str(res_match.ipv4_dst))
if (not(req_match.wildcards & ofp.OFPFW_NW_PROTO)
and ((req_match.ip_proto == TCP_PROTOCOL)
or (req_match.ip_proto == UDP_PROTOCOL))):
parent.assertEqual(req_match.tcp_src, res_match.tcp_src,
'Match failed: tcp_src: ' +
str(req_match.tcp_src) +
" != " + str(res_match.tcp_src))
parent.assertEqual(req_match.tcp_dst, res_match.tcp_dst,
'Match failed: tcp_dst: ' +
str(req_match.tcp_dst) +
" != " + str(res_match.tcp_dst))
def packet_to_flow_match(parent, packet):
match = oftest.parse.packet_to_flow_match(packet)
if ofp.OFP_VERSION in [1, 2]:
match.wildcards |= required_wildcards(parent)
else:
# TODO remove incompatible OXM entries
pass
return match
def flow_msg_create(parent, pkt, ing_port=None, action_list=None, wildcards=None,
egr_ports=None, egr_queue=None, check_expire=False, in_band=False):
"""
Create a flow message
Match on packet with given wildcards.
See flow_match_test for other parameter descriptoins
@param egr_queue if not None, make the output an enqueue action
@param in_band if True, do not wildcard ingress port
@param egr_ports None (drop), single port or list of ports
"""
match = oftest.parse.packet_to_flow_match(pkt)
parent.assertTrue(match is not None, "Flow match from pkt failed")
if wildcards is None:
wildcards = required_wildcards(parent)
if in_band:
wildcards &= ~ofp.OFPFW_IN_PORT
match.wildcards = wildcards
match.in_port = ing_port
if type(egr_ports) == type([]):
egr_port_list = egr_ports
else:
egr_port_list = [egr_ports]
request = ofp.message.flow_add()
request.match = match
request.buffer_id = 0xffffffff
if check_expire:
request.flags |= ofp.OFPFF_SEND_FLOW_REM
request.hard_timeout = 1
if action_list is not None:
for act in action_list:
logging.debug("Adding action " + act.show())
request.actions.append(act)
# Set up output/enqueue action if directed
if egr_queue is not None:
parent.assertTrue(egr_ports is not None, "Egress port not set")
act = ofp.action.enqueue()
for egr_port in egr_port_list:
act.port = egr_port
act.queue_id = egr_queue
request.actions.append(act)
elif egr_ports is not None:
for egr_port in egr_port_list:
act = ofp.action.output()
act.port = egr_port
request.actions.append(act)
logging.debug(request.show())
return request
def flow_msg_install(parent, request, clear_table_override=None):
"""
Install a flow mod message in the switch
@param parent Must implement controller, assertEqual, assertTrue
@param request The request, all set to go
@param clear_table If true, clear the flow table before installing
"""
clear_table = test_param_get('clear_table', default=True)
if(clear_table_override != None):
clear_table = clear_table_override
if clear_table:
logging.debug("Clear flow table")
delete_all_flows(parent.controller)
logging.debug("Insert flow")
parent.controller.message_send(request)
do_barrier(parent.controller)
def flow_match_test_port_pair(parent, ing_port, egr_ports, wildcards=None,
vlan_vid=-1, pkt=None, exp_pkt=None,
action_list=None):
"""
Flow match test on single TCP packet
@param egr_ports A single port or list of ports
Run test with packet through switch from ing_port to egr_port
See flow_match_test for parameter descriptions
"""
if wildcards is None:
wildcards = required_wildcards(parent)
logging.info("Pkt match test: " + str(ing_port) + " to " +
str(egr_ports))
logging.debug(" WC: " + hex(wildcards) + " vlan: " + str(vlan_vid))
if pkt is None:
pkt = simple_tcp_packet(dl_vlan_enable=(vlan_vid >= 0), vlan_vid=vlan_vid)
request = flow_msg_create(parent, pkt, ing_port=ing_port,
wildcards=wildcards, egr_ports=egr_ports,
action_list=action_list)
flow_msg_install(parent, request)
logging.debug("Send packet: " + str(ing_port) + " to " +
str(egr_ports))
parent.dataplane.send(ing_port, str(pkt))
if exp_pkt is None:
exp_pkt = pkt
receive_pkt_verify(parent, egr_ports, exp_pkt, ing_port)
def flow_match_test_pktout(parent, ing_port, egr_ports,
vlan_vid=-1, pkt=None, exp_pkt=None,
action_list=None):
"""
Packet-out test on single TCP packet
@param egr_ports A single port or list of ports
Run test sending packet-out to egr_ports. The goal is to test the actions
taken on the packet, not the matching which is of course irrelevant.
See flow_match_test for parameter descriptions
"""
if pkt is None:
pkt = simple_tcp_packet(dl_vlan_enable=(vlan_vid >= 0), vlan_vid=vlan_vid)
msg = ofp.message.packet_out()
msg.in_port = ing_port
msg.buffer_id = 0xffffffff
msg.data = str(pkt)
if action_list is not None:
for act in action_list:
msg.actions.append(act)
# Set up output action
if egr_ports is not None:
for egr_port in egr_ports:
act = ofp.action.output()
act.port = egr_port
msg.actions.append(act)
logging.debug(msg.show())
parent.controller.message_send(msg)
if exp_pkt is None:
exp_pkt = pkt
receive_pkt_verify(parent, egr_ports, exp_pkt, ing_port)
def get_egr_list(parent, of_ports, how_many, exclude_list=[]):
"""
Generate a list of ports avoiding those in the exclude list
@param parent Supplies logging
@param of_ports List of OF port numbers
@param how_many Number of ports to be added to the list
@param exclude_list List of ports not to be used
@returns An empty list if unable to find enough ports
"""
if how_many == 0:
return []
count = 0
egr_ports = []
for egr_idx in range(len(of_ports)):
if of_ports[egr_idx] not in exclude_list:
egr_ports.append(of_ports[egr_idx])
count += 1
if count >= how_many:
return egr_ports
logging.debug("Could not generate enough egress ports for test")
return []
def flow_match_test(parent, port_map, wildcards=None, vlan_vid=-1, pkt=None,
exp_pkt=None, action_list=None,
max_test=0, egr_count=1, ing_port=False):
"""
Run flow_match_test_port_pair on all port pairs and packet-out
@param max_test If > 0 no more than this number of tests are executed.
@param parent Must implement controller, dataplane, assertTrue, assertEqual
and logging
@param pkt If not None, use this packet for ingress
@param wildcards For flow match entry
@param vlan_vid If not -1, and pkt is None, create a pkt w/ VLAN tag
@param exp_pkt If not None, use this as the expected output pkt; els use pkt
@param action_list Additional actions to add to flow mod
@param egr_count Number of egress ports; -1 means get from config w/ dflt 2
"""
if wildcards is None:
wildcards = required_wildcards(parent)
of_ports = port_map.keys()
of_ports.sort()
parent.assertTrue(len(of_ports) > 1, "Not enough ports for test")
test_count = 0
if egr_count == -1:
egr_count = test_param_get('egr_count', default=2)
for ing_idx in range(len(of_ports)):
ingress_port = of_ports[ing_idx]
egr_ports = get_egr_list(parent, of_ports, egr_count,
exclude_list=[ingress_port])
if ing_port:
egr_ports.append(ofp.OFPP_IN_PORT)
if len(egr_ports) == 0:
parent.assertTrue(0, "Failed to generate egress port list")
flow_match_test_port_pair(parent, ingress_port, egr_ports,
wildcards=wildcards, vlan_vid=vlan_vid,
pkt=pkt, exp_pkt=exp_pkt,
action_list=action_list)
test_count += 1
if (max_test > 0) and (test_count > max_test):
logging.info("Ran " + str(test_count) + " tests; exiting")
break
if not test_param_get('pktout_actions', default=True):
return
ingress_port = of_ports[0]
egr_ports = get_egr_list(parent, of_ports, egr_count,
exclude_list=[ingress_port])
if ing_port:
egr_ports.append(ofp.OFPP_IN_PORT)
flow_match_test_pktout(parent, ingress_port, egr_ports,
vlan_vid=vlan_vid,
pkt=pkt, exp_pkt=exp_pkt,
action_list=action_list)
def test_param_get(key, default=None):
"""
Return value passed via test-params if present
@param key The lookup key
@param default Default value to use if not found
If the pair 'key=val' appeared in the string passed to --test-params
on the command line, return val (as interpreted by exec). Otherwise
return default value.
WARNING: TEST PARAMETERS MUST BE PYTHON IDENTIFIERS;
eg egr_count, not egr-count.
"""
try:
exec oftest.config["test_params"]
except:
return default
s = "val = " + str(key)
try:
exec s
return val
except:
return default
def action_generate(parent, field_to_mod, mod_field_vals):
"""
Create an action to modify the field indicated in field_to_mod
@param parent Must implement, assertTrue
@param field_to_mod The field to modify as a string name
@param mod_field_vals Hash of values to use for modified values
"""
act = None
if field_to_mod in ['pktlen']:
return None
if field_to_mod == 'eth_dst':
act = ofp.action.set_dl_dst()
act.dl_addr = oftest.parse.parse_mac(mod_field_vals['eth_dst'])
elif field_to_mod == 'eth_src':
act = ofp.action.set_dl_src()
act.dl_addr = oftest.parse.parse_mac(mod_field_vals['eth_src'])
elif field_to_mod == 'dl_vlan_enable':
if not mod_field_vals['dl_vlan_enable']: # Strip VLAN tag
act = ofp.action.strip_vlan()
# Add VLAN tag is handled by vlan_vid field
# Will return None in this case
elif field_to_mod == 'vlan_vid':
act = ofp.action.set_vlan_vid()
act.vlan_vid = mod_field_vals['vlan_vid']
elif field_to_mod == 'vlan_pcp':
act = ofp.action.set_vlan_pcp()
act.vlan_pcp = mod_field_vals['vlan_pcp']
elif field_to_mod == 'ip_src':
act = ofp.action.set_nw_src()
act.nw_addr = oftest.parse.parse_ip(mod_field_vals['ip_src'])
elif field_to_mod == 'ip_dst':
act = ofp.action.set_nw_dst()
act.nw_addr = oftest.parse.parse_ip(mod_field_vals['ip_dst'])
elif field_to_mod == 'ip_tos':
act = ofp.action.set_nw_tos()
act.nw_tos = mod_field_vals['ip_tos']
elif field_to_mod == 'tcp_sport':
act = ofp.action.set_tp_src()
act.tp_port = mod_field_vals['tcp_sport']
elif field_to_mod == 'tcp_dport':
act = ofp.action.set_tp_dst()
act.tp_port = mod_field_vals['tcp_dport']
elif field_to_mod == 'udp_sport':
act = ofp.action.set_tp_src()
act.tp_port = mod_field_vals['udp_sport']
elif field_to_mod == 'udp_dport':
act = ofp.action.set_tp_dst()
act.tp_port = mod_field_vals['udp_dport']
else:
parent.assertTrue(0, "Unknown field to modify: " + str(field_to_mod))
return act
def pkt_action_setup(parent, start_field_vals={}, mod_field_vals={},
mod_fields=[], tp="tcp", check_test_params=False):
"""
Set up the ingress and expected packet and action list for a test
@param parent Must implement assertTrue
@param start_field_values Field values to use for ingress packet (optional)
@param mod_field_values Field values to use for modified packet (optional)
@param mod_fields The list of fields to be modified by the switch in the test.
@params check_test_params If True, will check the parameters vid, add_vlan
and strip_vlan from the command line.
Returns a triple: pkt-to-send, expected-pkt, action-list
"""
new_actions = []
base_pkt_params = {}
base_pkt_params['pktlen'] = 100
base_pkt_params['eth_dst'] = '00:DE:F0:12:34:56'
base_pkt_params['eth_src'] = '00:23:45:67:89:AB'
base_pkt_params['dl_vlan_enable'] = False
base_pkt_params['vlan_vid'] = 2
base_pkt_params['vlan_pcp'] = 0
base_pkt_params['ip_src'] = '192.168.0.1'
base_pkt_params['ip_dst'] = '192.168.0.2'
base_pkt_params['ip_tos'] = 0
if tp == "tcp":
base_pkt_params['tcp_sport'] = 1234
base_pkt_params['tcp_dport'] = 80
elif tp == "udp":
base_pkt_params['udp_sport'] = 1234
base_pkt_params['udp_dport'] = 80
for keyname in start_field_vals.keys():
base_pkt_params[keyname] = start_field_vals[keyname]
mod_pkt_params = {}
mod_pkt_params['pktlen'] = 100
mod_pkt_params['eth_dst'] = '00:21:0F:ED:CB:A9'
mod_pkt_params['eth_src'] = '00:ED:CB:A9:87:65'
mod_pkt_params['dl_vlan_enable'] = False
mod_pkt_params['vlan_vid'] = 3
mod_pkt_params['vlan_pcp'] = 7
mod_pkt_params['ip_src'] = '10.20.30.40'
mod_pkt_params['ip_dst'] = '50.60.70.80'
mod_pkt_params['ip_tos'] = 0xf0
if tp == "tcp":
mod_pkt_params['tcp_sport'] = 4321
mod_pkt_params['tcp_dport'] = 8765
elif tp == "udp":
mod_pkt_params['udp_sport'] = 4321
mod_pkt_params['udp_dport'] = 8765
for keyname in mod_field_vals.keys():
mod_pkt_params[keyname] = mod_field_vals[keyname]
# Check for test param modifications
strip = False
if check_test_params:
add_vlan = test_param_get('add_vlan')
strip_vlan = test_param_get('strip_vlan')
vid = test_param_get('vid')
if add_vlan and strip_vlan:
parent.assertTrue(0, "Add and strip VLAN both specified")
if vid:
base_pkt_params['dl_vlan_enable'] = True
base_pkt_params['vlan_vid'] = vid
if 'vlan_vid' in mod_fields:
mod_pkt_params['vlan_vid'] = vid + 1
if add_vlan:
base_pkt_params['dl_vlan_enable'] = False
mod_pkt_params['dl_vlan_enable'] = True
mod_pkt_params['pktlen'] = base_pkt_params['pktlen'] + 4
mod_fields.append('pktlen')
mod_fields.append('dl_vlan_enable')
if 'vlan_vid' not in mod_fields:
mod_fields.append('vlan_vid')
elif strip_vlan:
base_pkt_params['dl_vlan_enable'] = True
mod_pkt_params['dl_vlan_enable'] = False
mod_pkt_params['pktlen'] = base_pkt_params['pktlen'] - 4
mod_fields.append('dl_vlan_enable')
mod_fields.append('pktlen')
if tp == "tcp":
packet_builder = simple_tcp_packet
elif tp == "udp":
packet_builder = simple_udp_packet
else:
raise NotImplementedError("unknown transport protocol %s" % tp)
# Build the ingress packet
ingress_pkt = packet_builder(**base_pkt_params)
# Build the expected packet, modifying the indicated fields
for item in mod_fields:
base_pkt_params[item] = mod_pkt_params[item]
act = action_generate(parent, item, mod_pkt_params)
if act:
new_actions.append(act)
expected_pkt = packet_builder(**base_pkt_params)
return (ingress_pkt, expected_pkt, new_actions)
# Generate a simple "drop" flow mod
# If in_band is true, then only drop from first test port
def flow_mod_gen(port_map, in_band):
request = ofp.message.flow_add()
request.match.wildcards = ofp.OFPFW_ALL
if in_band:
request.match.wildcards = ofp.OFPFW_ALL - ofp.OFPFW_IN_PORT
for of_port, ifname in port_map.items(): # Grab first port
break
request.match.in_port = of_port
request.buffer_id = 0xffffffff
return request
def skip_message_emit(parent, s):
"""
Print out a 'skipped' message to stderr
@param s The string to print out to the log file
"""
global skipped_test_count
skipped_test_count += 1
logging.info("Skipping: " + s)
if oftest.config["debug"] < logging.WARNING:
sys.stderr.write("(skipped) ")
else:
sys.stderr.write("(S)")
def all_stats_get(parent):
"""
Get the aggregate stats for all flows in the table
@param parent Test instance with controller connection and assert
@returns dict with keys flows, packets, bytes, active (flows),
lookups, matched
"""
stat_req = ofp.message.aggregate_stats_request()
stat_req.match = ofp.match()
stat_req.match.wildcards = ofp.OFPFW_ALL
stat_req.table_id = 0xff
stat_req.out_port = ofp.OFPP_NONE
rv = {}
(reply, pkt) = parent.controller.transact(stat_req)
parent.assertTrue(len(reply.entries) == 1, "Did not receive flow stats reply")
for obj in reply.entries:
(rv["flows"], rv["packets"], rv["bytes"]) = (obj.flow_count,
obj.packet_count, obj.byte_count)
break
request = ofp.message.table_stats_request()
(reply , pkt) = parent.controller.transact(request)
(rv["active"], rv["lookups"], rv["matched"]) = (0,0,0)
for obj in reply.entries:
rv["active"] += obj.active_count
rv["lookups"] += obj.lookup_count
rv["matched"] += obj.matched_count
return rv
_import_blacklist.add('FILTER')
FILTER=''.join([(len(repr(chr(x)))==3) and chr(x) or '.'
for x in range(256)])
def hex_dump_buffer(src, length=16):
"""
Convert src to a hex dump string and return the string
@param src The source buffer
@param length The number of bytes shown in each line
@returns A string showing the hex dump
"""
result = ["\n"]
for i in xrange(0, len(src), length):
chars = src[i:i+length]
hex = ' '.join(["%02x" % ord(x) for x in chars])
printable = ''.join(["%s" % ((ord(x) <= 127 and
FILTER[ord(x)]) or '.') for x in chars])
result.append("%04x %-*s %s\n" % (i, length*3, hex, printable))
return ''.join(result)
def format_packet(pkt):
return "Packet length %d \n%s" % (len(str(pkt)),
hex_dump_buffer(str(pkt)))
def inspect_packet(pkt):
"""
Wrapper around scapy's show() method.
@returns A string showing the dissected packet.
"""
from cStringIO import StringIO
out = None
backup = sys.stdout
try:
sys.stdout = StringIO()
pkt.show2()
out = sys.stdout.getvalue()
sys.stdout.close()
finally:
sys.stdout = backup
return out
def nonstandard(cls):
"""
Testcase decorator that marks the test as being non-standard.
These tests are not automatically added to the "standard" group.
"""
cls._nonstandard = True
return cls
def disabled(cls):
"""
Testcase decorator that marks the test as being disabled.
These tests are not automatically added to the "standard" group or
their module's group.
"""
cls._disabled = True
return cls
def group(name):
"""
Testcase decorator that adds the test to a group.
"""
def fn(cls):
if not hasattr(cls, "_groups"):
cls._groups = []
cls._groups.append(name)
return cls
return fn
def version(ver):
"""
Testcase decorator that specifies which versions of OpenFlow the test
supports. The default is 1.0+. This decorator may only be used once.
Supported syntax:
1.0 -> 1.0
1.0,1.2,1.3 -> 1.0, 1.2, 1.3
1.0+ -> 1.0, 1.1, 1.2, 1.3
"""
versions = parse_version(ver)
def fn(cls):
cls._versions = versions
return cls
return fn
def parse_version(ver):
allowed_versions = ["1.0", "1.1", "1.2", "1.3"]
if re.match("^1\.\d+$", ver):
versions = set([ver])
elif re.match("^(1\.\d+)\+$", ver):
if not ver[:-1] in allowed_versions:
raise ValueError("invalid OpenFlow version %s" % ver[:-1])
versions = set()
if ver != "1.1+": versions.add("1.0")
if ver != "1.2+": versions.add("1.1")
if ver != "1.3+": versions.add("1.2")
versions.add("1.3")
else:
versions = set(ver.split(','))
for version in versions:
if not version in allowed_versions:
raise ValueError("invalid OpenFlow version %s" % version)
return versions
assert(parse_version("1.0") == set(["1.0"]))
assert(parse_version("1.0,1.2,1.3") == set(["1.0", "1.2", "1.3"]))
assert(parse_version("1.0+") == set(["1.0", "1.1", "1.2", "1.3"]))
def get_stats(test, req):
"""
Retrieve a list of stats entries. Handles OFPSF_REPLY_MORE.
"""
if ofp.OFP_VERSION <= 3:
more_flag = ofp.OFPSF_REPLY_MORE
else:
more_flag = ofp.OFPMPF_REPLY_MORE
stats = []
reply, _ = test.controller.transact(req)
test.assertTrue(reply is not None, "No response to stats request")
stats.extend(reply.entries)
while reply.flags & more_flag != 0:
reply, pkt = self.controller.poll(exp_msg=ofp.OFPT_STATS_REPLY)
test.assertTrue(reply is not None, "No response to stats request")
stats.extend(reply.entries)
return stats
def get_flow_stats(test, match, table_id=None,
out_port=None, out_group=None,
cookie=0, cookie_mask=0):
"""
Retrieve a list of flow stats entries.
"""
if table_id == None:
if ofp.OFP_VERSION <= 2:
table_id = 0xff
else:
table_id = ofp.OFPTT_ALL
if out_port == None:
if ofp.OFP_VERSION == 1:
out_port = ofp.OFPP_NONE
else:
out_port = ofp.OFPP_ANY
if out_group == None:
if ofp.OFP_VERSION > 1:
out_group = ofp.OFPP_ANY
req = ofp.message.flow_stats_request(match=match,
table_id=table_id,
out_port=out_port)
if ofp.OFP_VERSION > 1:
req.out_group = out_group
req.cookie = cookie
req.cookie_mask = cookie_mask
return get_stats(test, req)
def get_port_stats(test, port_no):
"""
Retrieve a list of port stats entries.
"""
req = ofp.message.port_stats_request(port_no=port_no)
return get_stats(test, req)
def get_queue_stats(test, port_no, queue_id):
"""
Retrieve a list of queue stats entries.
"""
req = ofp.message.queue_stats_request(port_no=port_no, queue_id=queue_id)
return get_stats(test, req)
def verify_flow_stats(test, match, table_id=0xff,
out_port=None,
initial=[],
pkts=None, bytes=None):
"""
Verify that flow stats changed as expected.
Optionally takes an 'initial' list of stats entries, as returned by
get_flow_stats(). If 'initial' is not given the counters are assumed to
begin at 0.
"""
if out_port == None:
out_port = ofp.OFPP_NONE
def accumulate(stats):
pkts_acc = bytes_acc = 0
for stat in stats:
pkts_acc += stat.packet_count
bytes_acc += stat.byte_count
return (pkts_acc, bytes_acc)
pkts_before, bytes_before = accumulate(initial)
# Wait 10s for counters to update
pkt_diff = byte_diff = None
for i in range(0, 100):
stats = get_flow_stats(test, match, table_id=table_id, out_port=out_port)
pkts_after, bytes_after = accumulate(stats)
pkt_diff = pkts_after - pkts_before
byte_diff = bytes_after - bytes_before
if (pkts == None or pkt_diff >= pkts) and \
(bytes == None or byte_diff >= bytes):
break
time.sleep(0.1)
if pkts != None:
test.assertEquals(pkt_diff, pkts, "Flow packet counter not updated properly (expected increase of %d, got increase of %d)" % (pkts, pkt_diff))
if bytes != None:
test.assertTrue(byte_diff >= bytes and byte_diff <= bytes*1.1,
"Flow byte counter not updated properly (expected increase of %d, got increase of %d)" % (bytes, byte_diff))
def verify_port_stats(test, port,
initial=[],
tx_pkts=None, rx_pkts=None,
tx_bytes=None, rx_bytes=None):
"""
Verify that port stats changed as expected.
Optionally takes an 'initial' list of stats entries, as returned by
get_port_stats(). If 'initial' is not given the counters are assumed to
begin at 0.
"""
def accumulate(stats):
tx_pkts_acc = rx_pkts_acc = tx_bytes_acc = rx_bytes_acc = 0
for stat in stats:
tx_pkts_acc += stat.tx_packets
rx_pkts_acc += stat.rx_packets
tx_bytes_acc += stat.tx_bytes
rx_bytes_acc += stat.rx_bytes
return (tx_pkts_acc, rx_pkts_acc, tx_bytes_acc, rx_bytes_acc)
tx_pkts_before, rx_pkts_before, \
tx_bytes_before, rx_bytes_before = accumulate(initial)
# Wait 10s for counters to update
for i in range(0, 100):
stats = get_port_stats(test, port)
tx_pkts_after, rx_pkts_after, \
tx_bytes_after, rx_bytes_after = accumulate(stats)
tx_pkts_diff = tx_pkts_after - tx_pkts_before
rx_pkts_diff = rx_pkts_after - rx_pkts_before
tx_bytes_diff = tx_bytes_after - tx_bytes_before
rx_bytes_diff = rx_bytes_after - rx_bytes_before
if (tx_pkts == None or tx_pkts == tx_pkts_diff) and \
(rx_pkts == None or rx_pkts == rx_pkts_diff) and \
(tx_bytes == None or tx_bytes <= tx_bytes_diff) and \
(rx_bytes == None or rx_bytes <= rx_bytes_diff):
break
time.sleep(0.1)
if (tx_pkts != None):
test.assertEqual(tx_pkts,tx_pkts_diff,"Port TX packet counter is not updated correctly (expected increase of %d, got increase of %d)" % (tx_pkts, tx_pkts_diff))
if (rx_pkts != None):
test.assertEqual(rx_pkts,rx_pkts_diff,"Port RX packet counter is not updated correctly (expected increase of %d, got increase of %d)" % (rx_pkts, rx_pkts_diff))
if (tx_bytes != None):
test.assertTrue(tx_bytes_diff >= tx_bytes and tx_bytes_diff <= tx_bytes*1.1,
"Port TX byte counter is not updated correctly (expected increase of %d, got increase of %d)" % (tx_bytes, tx_bytes_diff))
if (rx_bytes != None):
test.assertTrue(rx_bytes_diff >= rx_bytes and rx_bytes_diff <= rx_bytes*1.1,
"Port RX byte counter is not updated correctly (expected increase of %d, got increase of %d)" % (rx_bytes, rx_bytes_diff))
def verify_queue_stats(test, port_no, queue_id,
initial=[],
pkts=None, bytes=None):
"""
Verify that queue stats changed as expected.
Optionally takes an 'initial' list of stats entries, as returned by
get_queue_stats(). If 'initial' is not given the counters are assumed to
begin at 0.
"""
def accumulate(stats):
pkts_acc = bytes_acc = 0
for stat in stats:
pkts_acc += stat.tx_packets
bytes_acc += stat.tx_bytes
return (pkts_acc, bytes_acc)
pkts_before, bytes_before = accumulate(initial)
# Wait 10s for counters to update
pkt_diff = byte_diff = None
for i in range(0, 100):
stats = get_queue_stats(test, port_no, queue_id)
pkts_after, bytes_after = accumulate(stats)
pkt_diff = pkts_after - pkts_before
byte_diff = bytes_after - bytes_before
if (pkts == None or pkt_diff >= pkts) and \
(bytes == None or byte_diff >= bytes):
break
time.sleep(0.1)
if pkts != None:
test.assertEquals(pkt_diff, pkts, "Queue packet counter not updated properly (expected increase of %d, got increase of %d)" % (pkts, pkt_diff))
if bytes != None:
test.assertTrue(byte_diff >= bytes and byte_diff <= bytes*1.1,
"Queue byte counter not updated properly (expected increase of %d, got increase of %d)" % (bytes, byte_diff))
def packet_in_match(msg, data, in_port=None, reason=None):
"""
Check whether the packet_in message 'msg' has fields matching 'data',
'in_port', and 'reason'.
This function handles truncated packet_in data. The 'in_port' and 'reason'
parameters are optional.
@param msg packet_in message
@param data Expected packet_in data
@param in_port Expected packet_in in_port, or None
@param reason Expected packet_in reason, or None
"""
if ofp.OFP_VERSION <= 2:
pkt_in_port = msg.in_port
else:
oxms = { type(oxm): oxm for oxm in msg.match.oxm_list }
if ofp.oxm.in_port in oxms:
pkt_in_port = oxms[ofp.oxm.in_port].value
else:
logging.warn("Missing in_port in packet-in message")
pkt_in_port = None
if in_port != None and in_port != pkt_in_port:
logging.debug("Incorrect packet_in in_port (expected %d, received %d)", in_port, msg.in_port)
return False
if reason != None and reason != msg.reason:
logging.debug("Incorrect packet_in reason (expected %d, received %d)", reason, msg.reason)
return False
# Check that one of the packets is a prefix of the other.
# The received packet may be either truncated or padded, but not both.
# (Some of the padding may be truncated but that's irrelevant). We
# need to check that the smaller packet is a prefix of the larger one.
# Note that this check succeeds if the switch sends a zero-length
# packet-in.
compare_len = min(len(msg.data), len(data))
if data[:compare_len] != msg.data[:compare_len]:
logging.debug("Incorrect packet_in data")
logging.debug("Expected %s" % format_packet(data[:compare_len]))
logging.debug("Received %s" % format_packet(msg.data[:compare_len]))
return False
return True
def verify_packet_in(test, data, in_port, reason, controller=None):
"""
Assert that the controller receives a packet_in message matching data 'data'
from port 'in_port' with reason 'reason'. Does not trigger the packet_in
itself, that's up to the test case.
@param test Instance of base_tests.SimpleProtocol
@param pkt String to expect as the packet_in data
@param in_port OpenFlow port number to expect as the packet_in in_port
@param reason One of OFPR_* to expect as the packet_in reason
@param controller Controller instance, defaults to test.controller
@returns The received packet-in message
"""
if controller == None:
controller = test.controller
end_time = time.time() + oftest.ofutils.default_timeout
while True:
msg, _ = controller.poll(ofp.OFPT_PACKET_IN, end_time - time.time())
if not msg:
# Timeout
break
elif packet_in_match(msg, data, in_port, reason):
# Found a matching message
break
test.assertTrue(msg is not None, 'Packet in message not received on port %d' % in_port)
return msg
def verify_no_packet_in(test, data, in_port, controller=None):
"""
Assert that the controller does not receive a packet_in message matching
data 'data' from port 'in_port'.
@param test Instance of base_tests.SimpleProtocol
@param pkt String to expect as the packet_in data
@param in_port OpenFlow port number to expect as the packet_in in_port
@param controller Controller instance, defaults to test.controller
"""
if controller == None:
controller = test.controller
# Negative test, need to wait a short amount of time before checking we
# didn't receive the message.
time.sleep(0.5)
# Check every packet_in queued in the controller
while True:
msg, _ = controller.poll(ofp.OFPT_PACKET_IN, timeout=0)
if msg == None:
# No more queued packet_in messages
break
elif packet_in_match(msg, data, in_port, None):
# Found a matching message
break
test.assertTrue(msg == None, "Did not expect a packet-in message on port %d" % in_port)
__all__ = list(set(locals()) - _import_blacklist)