[dts] [PATCH v4 1/2]tests: add script for flow_classify_softnic
Tu, Lijuan
lijuan.tu at intel.com
Tue Jan 29 10:22:45 CET 2019
Applied, thanks
> -----Original Message-----
> From: dts [mailto:dts-bounces at dpdk.org] On Behalf Of Peng Yuan
> Sent: Saturday, January 26, 2019 12:27 AM
> To: dts at dpdk.org
> Cc: Peng, Yuan <yuan.peng at intel.com>
> Subject: [dts] [PATCH v4 1/2]tests: add script for flow_classify_softnic
>
> Add TestSuite_flow_classify_softnic.py to tests.
>
> Signed-off-by: Peng Yuan <yuan.peng at intel.com>
>
> diff --git a/tests/TestSuite_flow_classify_softnic.py
> b/tests/TestSuite_flow_classify_softnic.py
> new file mode 100644
> index 0000000..66db5c3
> --- /dev/null
> +++ b/tests/TestSuite_flow_classify_softnic.py
> @@ -0,0 +1,1358 @@
> +# BSD LICENSE
> +#
> +# Copyright(c) 2010-2018 Intel Corporation. All rights reserved.
> +# All rights reserved.
> +#
> +# Redistribution and use in source and binary forms, with or without
> +# modification, are permitted provided that the following conditions
> +# are met:
> +#
> +# * Redistributions of source code must retain the above copyright
> +# notice, this list of conditions and the following disclaimer.
> +# * Redistributions in binary form must reproduce the above copyright
> +# notice, this list of conditions and the following disclaimer in
> +# the documentation and/or other materials provided with the
> +# distribution.
> +# * Neither the name of Intel Corporation nor the names of its
> +# contributors may be used to endorse or promote products derived
> +# from this software without specific prior written permission.
> +#
> +# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
> CONTRIBUTORS
> +# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
> +# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
> FOR
> +# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
> COPYRIGHT
> +# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
> INCIDENTAL,
> +# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
> NOT
> +# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
> USE,
> +# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
> ON ANY
> +# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
> +# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
> THE USE
> +# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
> +
> +import utils
> +import re
> +import time
> +
> +from settings import HEADER_SIZE
> +from test_case import TestCase
> +from pmd_output import PmdOutput
> +from settings import DRIVERS
> +from crb import Crb
> +
> +from virt_dut import VirtDut
> +from project_dpdk import DPDKdut
> +from dut import Dut
> +from packet import Packet
> +
> +import os
> +import random
> +from exception import VerifyFailure
> +import scapy.layers.inet
> +from scapy.utils import rdpcap
> +
> +from time import sleep
> +from scapy.utils import wrpcap, rdpcap, hexstr
> +from scapy.layers.inet import Ether, IP, TCP, UDP, ICMP
> +from scapy.layers.inet6 import IPv6
> +from scapy.layers.l2 import Dot1Q, ARP, GRE
> +from scapy.layers.sctp import SCTP, SCTPChunkData
> +from scapy.route import *
> +from scapy.packet import bind_layers, Raw
> +from scapy.arch import get_if_hwaddr
> +from scapy.sendrecv import sniff
> +from scapy.sendrecv import sendp
> +
> +
> +class TestFlowClassifySoftnic(TestCase):
> +
> + def copy_config_files_to_dut(self):
> + """
> + Copy firmware.cli from tester to DUT.
> + """
> + file = 'flow_classify_softnic.tar.gz'
> + src_file = r'./dep/%s' % file
> + dst1 = '/tmp'
> + dst2 = '/root/dpdk/drivers/net/softnic'
> + self.dut.session.copy_file_to(src_file, dst1)
> + self.dut.send_expect("tar xf %s/%s -C %s" % (dst1, file, dst2), "#", 30)
> +
> + def start_testpmd(self, filename, port_num):
> + """
> + Start testpmd.
> + """
> + self.set_ports(filename, port_num)
> + TESTPMD = "./%s/app/testpmd" % self.target
> + VDEV = "--vdev
> 'net_softnic0,firmware=./drivers/net/softnic/flow_classify_softnic/%s,cpu_id=1
> ,conn_port=8086'" % filename
> + if port_num == 4:
> + DUT_PORTS = " -w {0} -w {1} -w {2} -w {3} "\
> + .format(self.dut_p0_pci, self.dut_p1_pci, self.dut_p2_pci,
> self.dut_p3_pci)
> + cmd = "{0} -c 0x1f -s 0x10 -n 4 {1} {2} -- -i --rxq=4 --txq=4 --disable-rss --
> portmask=0x10".format(TESTPMD, DUT_PORTS, VDEV)
> + elif port_num == 2:
> + DUT_PORTS = " -w {0} -w {1} "\
> + .format(self.dut_p0_pci, self.dut_p1_pci)
> + cmd = "{0} -c 0x7 -s 0x4 -n 4 {1} {2} -- -i --rxq=2 --txq=2 --disable-rss --
> portmask=0x4".format(TESTPMD, DUT_PORTS, VDEV)
> + else:
> + raise Exception("The number of port is wrong!")
> + self.dut.send_expect(cmd, "testpmd> ", 60)
> +
> + def set_ports(self, filename, port_num):
> + """
> + Set actual ports.
> + """
> + self.dut.send_expect("sed -i '/^link
> LINK/d' ./drivers/net/softnic/flow_classify_softnic/%s" % filename, "# ", 20)
> + cmd = "sed -i '1i\link LINK0
> dev %s' ./drivers/net/softnic/flow_classify_softnic/%s" % (self.dut_p0_pci,
> filename)
> + self.dut.send_expect(cmd, "# ", 20)
> + cmd = "sed -i '2i\link LINK1
> dev %s' ./drivers/net/softnic/flow_classify_softnic/%s" % (self.dut_p1_pci,
> filename)
> + self.dut.send_expect(cmd, "# ", 20)
> + if port_num == 4:
> + cmd = "sed -i '3i\link LINK2
> dev %s' ./drivers/net/softnic/flow_classify_softnic/%s" % (self.dut_p2_pci,
> filename)
> + self.dut.send_expect(cmd, "# ", 20)
> + cmd = "sed -i '4i\link LINK3
> dev %s' ./drivers/net/softnic/flow_classify_softnic/%s" % (self.dut_p3_pci,
> filename)
> + self.dut.send_expect(cmd, "# ", 20)
> +
> + def set_table(self, cmd, filename):
> + """
> + Set pipeline table.
> + """
> + self.dut.send_expect("sed -i '/^pipeline RX table
> match/d' ./drivers/net/softnic/flow_classify_softnic/%s" % filename, "# ", 20)
> + command = "sed -i \'/^table action/a" + cmd +
> "\' ./drivers/net/softnic/flow_classify_softnic/%s" % filename
> + self.dut.send_expect(command, "# ", 20)
> +
> + def tcpdump_start_sniff(self, interface, filters=""):
> + """
> + Starts tcpdump in the background to sniff packets that received by
> interface.
> + """
> + command = 'rm -f /tmp/tcpdump_{0}.pcap'.format(interface)
> + self.tester.send_expect(command, '#')
> + command = 'tcpdump -n -e -Q in -w /tmp/tcpdump_{0}.pcap -i {0} {1}
> 2>/tmp/tcpdump_{0}.out &'\
> + .format(interface, filters)
> + self.tester.send_expect(command, '# ')
> +
> + def tcpdump_stop_sniff(self):
> + """
> + Stops the tcpdump process running in the background.
> + """
> + self.tester.send_expect('killall tcpdump', '# ')
> + # For the [pid]+ Done tcpdump... message after killing the process
> + sleep(1)
> + self.tester.send_expect('echo "Cleaning buffer"', '# ')
> + sleep(1)
> +
> + def write_pcap_file(self, pcap_file, pkts):
> + try:
> + wrpcap(pcap_file, pkts)
> + except:
> + raise Exception("write pcap error")
> +
> + def read_pcap_file(self, pcap_file):
> + pcap_pkts = []
> + try:
> + pcap_pkts = rdpcap(pcap_file)
> + except:
> + raise Exception("write pcap error")
> +
> + return pcap_pkts
> +
> + def send_and_sniff_pkts(self, from_port, to_port, pcap_file, filters="",
> count=1):
> + """
> + Sent pkts that read from the pcap_file.
> + Return the sniff pkts.
> + """
> + tx_port =
> self.tester.get_local_port(self.dut_ports[from_port%self.port_num])
> + rx_port =
> self.tester.get_local_port(self.dut_ports[to_port%self.port_num])
> +
> + tx_interface = self.tester.get_interface(tx_port)
> + rx_interface = self.tester.get_interface(rx_port)
> +
> + self.tcpdump_start_sniff(rx_interface, filters)
> +
> + # Prepare the pkts to be sent
> + self.tester.scapy_foreground()
> + self.tester.scapy_append('pkt = rdpcap("%s")' % (pcap_file))
> + self.tester.scapy_append('sendp(pkt, iface="%s", count=%d)' %
> (tx_interface, count))
> + self.tester.scapy_execute()
> +
> + self.tcpdump_stop_sniff()
> +
> + return self.read_pcap_file('/tmp/tcpdump_%s.pcap' % rx_interface)
> +
> + def send_pkts(self, from_port, pcap_file, count=1):
> + """
> + Sent pkts that read from the pcap_file.
> + """
> + tx_port = self.tester.get_local_port(self.dut_ports[from_port])
> + tx_interface = self.tester.get_interface(tx_port)
> +
> + # Prepare the pkts to be sent
> + self.tester.scapy_foreground()
> + self.tester.scapy_append('pkt = rdpcap("%s")' % (pcap_file))
> + self.tester.scapy_append('sendp(pkt, iface="%s", count=%d)' %
> (tx_interface, count))
> + self.tester.scapy_execute()
> +
> + def send_and_check_packets(self, pcap_file, pkt, ltype, src_dst, addr_port,
> from_port, to_port):
> + """
> + Sent pkts that read from the pcap_file.
> + Check if the rule works.
> + """
> + self.write_pcap_file(pcap_file, pkt)
> + if ltype in ["udp", "tcp", "sctp"]:
> + filters = "%s %s port %d" % (ltype, src_dst, addr_port)
> + sniff_pkts = self.send_and_sniff_pkts(from_port, to_port, pcap_file,
> filters)
> + checklist = []
> + for packet in sniff_pkts:
> + if src_dst == "src":
> + checklist.append(packet.getlayer(2).sport)
> + elif src_dst == "dst":
> + checklist.append(packet.getlayer(2).dport)
> + elif ltype in ["ipv4", "ipv6"]:
> + filters = "%s host %s" % (src_dst, addr_port)
> + sniff_pkts = self.send_and_sniff_pkts(from_port, to_port, pcap_file,
> filters)
> + checklist = []
> + for packet in sniff_pkts:
> + if src_dst == "src":
> + checklist.append(packet.getlayer(1).src)
> + elif src_dst == "dst":
> + checklist.append(packet.getlayer(1).dst)
> + addr_port = str.lower(addr_port)
> + self.verify(addr_port in checklist, "rule test fail")
> +
> + def check_status(self, rx_pkt_num, tx_pkt_num, port):
> + """
> + Check port status
> + """
> + rx_num = 0
> + tx_num = 0
> + for i in range(port):
> + stats = self.pmdout.get_pmd_stats(self.dut_ports[i])
> + rx_num = rx_num + stats['RX-packets']
> + tx_num = tx_num + stats['TX-packets']
> + self.verify((rx_num == rx_pkt_num) and (tx_num == tx_pkt_num), "The rule
> failed to work")
> +
> + def generate_rules(self, operation="create", port=4, group=0, iptype="ipv4",
> src_mask="0.0.0.0", dst_mask="0.0.0.0", src_spec="0.0.0.0", dst_spec="0.0.0.0",
> protomask=0, protospec=17, l4type="udp", sportmask=0, dportmask=0,
> sportspec=0, dportspec=0, action="queue", index=[]):
> + """
> + Generate flow rules
> + """
> + if port == 4:
> + port = self.port_num
> + if iptype == "ipv6":
> + if src_mask == "0.0.0.0":
> + src_mask = "0:0:0:0:0:0:0:0"
> + if dst_mask == "0.0.0.0":
> + dst_mask = "0:0:0:0:0:0:0:0"
> + if src_spec == "0.0.0.0":
> + src_spec = "0:0:0:0:0:0:0:0"
> + if dst_spec == "0.0.0.0":
> + dst_spec = "0:0:0:0:0:0:0:0"
> + if action == "queue":
> + actions = "queue index %d" % (index[0]%port)
> + elif action == "jump":
> + actions = "jump group %d" % (index[0]%port)
> + elif action == "rss":
> + queue_idx = ""
> + for queue in index:
> + queue_idx = queue_idx + str(queue%port) + " "
> + actions = "rss queues %s end" % queue_idx
> +
> + if l4type == "":
> + self.dut.send_expect("flow %s %d group %d ingress pattern eth / %s
> proto mask %d src mask %s dst mask %s src spec %s dst spec %s / end actions %s
> / end" % (operation, port, group, iptype, protomask, src_mask, dst_mask,
> src_spec, dst_spec, actions), operation, 60)
> + else:
> + self.dut.send_expect("flow %s %d group %d ingress pattern eth / %s
> proto mask %d src mask %s dst mask %s src spec %s dst spec %s proto spec %d
> / %s src mask %d dst mask %d src spec %d dst spec %d / end actions %s / end" %
> (operation, port, group, iptype, protomask, src_mask, dst_mask, src_spec,
> dst_spec, protospec, l4type, sportmask, dportmask, sportspec, dportspec,
> actions), operation, 60)
> +
> + def send_continuous_packet(self, ptype, src_dst, src_addr, dst_addr, itf):
> + """
> + Sends continuous packets.
> + """
> + self.tester.scapy_foreground()
> + time.sleep(2)
> + if src_dst == "src":
> + if ptype == "ipv4":
> + var = src_addr.split(".")
> + string = "."
> + ipaddr = string.join(var[0:3])
> + for i in range(32):
> + packet = r'sendp([Ether(dst="%s",
> src=get_if_hwaddr("%s"))/IP(src="%s.%d", dst="%s", proto=17)/UDP(sport=100,
> dport=200)], iface="%s")' % (
> + self.dut_p0_mac, itf, ipaddr, i, dst_addr, itf)
> + self.tester.scapy_append(packet)
> + self.tester.scapy_execute()
> + elif ptype == "ipv6":
> + var = src_addr.split(":")
> + string = ":"
> + if len(var) == 8:
> + ipaddr = string.join(var[0:7])
> + else:
> + ipaddr = string.join(var[0:(len(var) - 1)])
> + for i in range(16):
> + packet = r'sendp([Ether(dst="%s",
> src=get_if_hwaddr("%s"))/IPv6(src="%s:%d", dst="%s", nh=17)/UDP(sport=100,
> dport=200)], iface="%s")' % (
> + self.dut_p0_mac, itf, ipaddr, i, dst_addr, itf)
> + self.tester.scapy_append(packet)
> + self.tester.scapy_execute()
> +
> + elif src_dst == "dst":
> + if ptype == "ipv4":
> + var = dst_addr.split(".")
> + string = "."
> + ipaddr = string.join(var[0:3])
> + for i in range(32):
> + packet = r'sendp([Ether(dst="%s",
> src=get_if_hwaddr("%s"))/IP(src="%s", dst="%s.%d", proto=17)/UDP(sport=100,
> dport=100)], iface="%s")' % (
> + self.dut_p0_mac, itf, src_addr, ipaddr, i, itf)
> + self.tester.scapy_append(packet)
> + self.tester.scapy_execute()
> + elif ptype == "ipv6":
> + var = dst_addr.split(":")
> + string = ":"
> + if len(var) == 8:
> + ipaddr = string.join(var[0:7])
> + else:
> + ipaddr = string.join(var[0:(len(var) - 1)])
> + for i in range(16):
> + packet = r'sendp([Ether(dst="%s",
> src=get_if_hwaddr("%s"))/IPv6(src="%s", dst="%s:%d", nh=17)/UDP(sport=100,
> dport=200)], iface="%s")' % (
> + self.dut_p0_mac, itf, src_addr, ipaddr, i, itf)
> + self.tester.scapy_append(packet)
> + self.tester.scapy_execute()
> +
> + def check_packet_queue(self, queues=[], out=""):
> + """
> + Get the queue which packet enter.
> + """
> + time.sleep(2)
> + for queue in queues:
> + self.verify("Queue= %d" % (queue%self.port_num) in out, "There is some
> queues doesn't work.")
> + lines = out.split("\r\n")
> + reta_line = {}
> + queue_flag = 0
> + # collect the hash result and the queue id
> + for line in lines:
> + line = line.strip()
> + if queue_flag == 1:
> + result_scanner = r"RX-packets:\s?([0-9]+)"
> + scanner = re.compile(result_scanner, re.DOTALL)
> + m = scanner.search(line)
> + rxpkt_num = m.group(1)
> + result_scanner = r"TX-packets:\s?([0-9]+)"
> + scanner = re.compile(result_scanner, re.DOTALL)
> + m = scanner.search(line)
> + txpkt_num = m.group(1)
> + self.verify(rxpkt_num == txpkt_num, "There are some packets failed to
> forward.")
> + queue_flag = 0
> + elif line.strip().startswith("------- Forward"):
> + queue_flag = 1
> +
> + def set_up_all(self):
> + """
> + Run at the start of each test suite.
> + """
> + self.dut_ports = self.dut.get_ports()
> + self.port_num = len(self.dut_ports)
> + self.verify(self.port_num == 2 or self.port_num == 4,
> + "Insufficient ports for speed testing")
> +
> + self.dut_p0_pci = self.dut.get_port_pci(self.dut_ports[0])
> + self.dut_p1_pci = self.dut.get_port_pci(self.dut_ports[1])
> + self.dut_p0_mac = self.dut.get_mac_address(self.dut_ports[0])
> + self.dut_p1_mac = self.dut.get_mac_address(self.dut_ports[1])
> + self.pf0_interface = self.dut.ports_info[self.dut_ports[0]]['intf']
> + self.pf1_interface = self.dut.ports_info[self.dut_ports[1]]['intf']
> +
> + if self.port_num == 4:
> + self.dut_p2_pci = self.dut.get_port_pci(self.dut_ports[2])
> + self.dut_p3_pci = self.dut.get_port_pci(self.dut_ports[3])
> + self.dut_p2_mac = self.dut.get_mac_address(self.dut_ports[2])
> + self.dut_p3_mac = self.dut.get_mac_address(self.dut_ports[3])
> + self.pf2_interface = self.dut.ports_info[self.dut_ports[2]]['intf']
> + self.pf3_interface = self.dut.ports_info[self.dut_ports[3]]['intf']
> +
> + self.ipv4_mask = "255.255.255.255"
> + self.ipv6_mask = "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff"
> + self.portmask = 65535
> + self.protomask = 255
> +
> + self.pmdout = PmdOutput(self.dut)
> + localPort = self.tester.get_local_port(self.dut_ports[0])
> + self.tester_itf = self.tester.get_interface(localPort)
> + self.copy_config_files_to_dut()
> +
> + def set_up(self):
> + """
> + Run before each test case.
> + """
> + pass
> +
> + def test_ipv4_acl_table(self):
> + """
> + Ipv4 ACL table
> + """
> + filename = "flow_ipv4_acl_firmware.cli"
> + self.start_testpmd(filename, self.port_num)
> +
> + # validate rule
> + self.generate_rules(operation="validate", dst_mask="255.192.0.0",
> dst_spec="2.0.0.0", sportspec=100, dportspec=200, index=[3])
> +
> + # create rule
> + self.generate_rules(dst_mask="255.192.0.0", dst_spec="2.0.0.0",
> protomask=self.protomask, sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, index=[3])
> + self.generate_rules(dst_mask="255.192.0.0", dst_spec="2.64.0.0",
> protomask=self.protomask, protospec=6, l4type="tcp",
> sportmask=self.portmask, dportmask=self.portmask, sportspec=100,
> dportspec=200, index=[2])
> + self.generate_rules(src_mask="255.192.0.0", src_spec="2.128.0.0",
> protomask=self.protomask, protospec=132, l4type="sctp",
> sportmask=self.portmask, dportmask=self.portmask, sportspec=100,
> dportspec=200, index=[1])
> + self.generate_rules(dst_mask="255.192.0.0", dst_spec="4.0.0.0",
> protomask=self.protomask, sportspec=100, sportmask=self.portmask,
> dportmask=self.portmask, dportspec=200, index=[0])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='0.0.0.0', dst='2.0.0.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "2.0.0.0", 0, 3)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='0.0.0.0', dst='2.64.0.0',
> proto=6)/TCP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "2.64.0.0", 0, 2)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='2.128.0.0', dst='0.0.0.0',
> proto=132)/SCTP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "src", "2.128.0.0", 0, 1)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='0.0.0.0', dst='4.0.0.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "4.0.0.0", 0, 0)
> +
> + # send another 3 packets
> + pcap_file = '/tmp/route_4.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='0.0.0.0', dst='3.0.0.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + pcap_file = '/tmp/route_4.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='0.0.0.0', dst='2.64.0.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + pcap_file = '/tmp/route_4.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='2.128.0.0', dst='0.0.0.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + self.check_status(7, 4, self.port_num)
> +
> + # query rule
> + out = self.dut.send_expect("flow query %d 3 queue" % self.port_num,
> "QUEUE", 60)
> +
> + # destroy rule 1
> + self.dut.send_expect("flow destroy %d rule 1" % self.port_num, "Flow rule
> #1 destroyed", 60)
> + destroy_out = self.dut.send_expect("flow list %d" % self.port_num,
> "testpmd> ", 60)
> + self.verify("1" not in destroy_out, "destroy rule fail")
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='0.0.0.0', dst='2.64.0.0',
> proto=6)/TCP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + filters = "dst host 2.64.0.0"
> + sniff_pkts = self.send_and_sniff_pkts(0, 2, pcap_file, filters)
> + dst_ip_list = []
> + for packet in sniff_pkts:
> + dst_ip_list.append(packet.getlayer(1).dst)
> + self.verify("2.64.0.0" not in dst_ip_list, "rule 1 test fail")
> +
> + # flush rules
> + self.dut.send_expect("flow flush %d" % self.port_num, "testpmd> ", 60)
> + flush_out = self.dut.send_expect("flow list %d" % self.port_num, "testpmd>
> ", 60)
> + self.verify("Rule" not in flush_out, "flush rule fail")
> + self.dut.send_expect("clear port stats all", "testpmd> ", 60)
> +
> + # test all the rules
> + pcap_file = '/tmp/route_4.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='0.0.0.0', dst='2.0.0.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + pcap_file = '/tmp/route_4.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='0.0.0.0', dst='2.64.0.0',
> proto=6)/TCP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + pcap_file = '/tmp/route_4.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='2.128.0.0', dst='0.0.0.0',
> proto=132)/SCTP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + pcap_file = '/tmp/route_4.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='0.0.0.0', dst='4.0.0.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + self.check_status(4, 0, self.port_num)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv4_5tuple_hash_table(self):
> + """
> + Ipv4 5tuple hash table
> + """
> + filename = "flow_ipv4_5tuple_hash_firmware.cli"
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.generate_rules(src_mask=self.ipv4_mask, dst_mask=self.ipv4_mask,
> src_spec="100.0.0.1", dst_spec="200.0.0.1", protomask=self.protomask,
> protospec=6, l4type="tcp", sportmask=self.portmask, dportmask=self.portmask,
> sportspec=101, dportspec=201, index=[3])
> + self.generate_rules(src_mask=self.ipv4_mask, dst_mask=self.ipv4_mask,
> src_spec="100.0.0.2", dst_spec="200.0.0.2", protomask=self.protomask,
> sportmask=self.portmask, dportmask=self.portmask, sportspec=102,
> dportspec=202, index=[2])
> + self.generate_rules(src_mask=self.ipv4_mask, dst_mask=self.ipv4_mask,
> src_spec="100.0.0.3", dst_spec="200.0.0.3", protomask=self.protomask,
> protospec=132, l4type="sctp", sportmask=self.portmask,
> dportmask=self.portmask, sportspec=103, dportspec=203, index=[1])
> + self.generate_rules(src_mask=self.ipv4_mask, dst_mask=self.ipv4_mask,
> src_spec="100.0.0.4", dst_spec="200.0.0.4", protomask=self.protomask,
> sportmask=self.portmask, dportmask=self.portmask, sportspec=104,
> dportspec=204, index=[0])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.1', dst='200.0.0.1',
> proto=6)/TCP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.0.0.1", 0, 3)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.2', dst='200.0.0.2',
> proto=17)/UDP(sport=102, dport=202)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.0.0.2", 0, 2)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.3', dst='200.0.0.3',
> proto=132)/SCTP(sport=103, dport=203)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.0.0.3", 0, 1)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.4', dst='200.0.0.4',
> proto=17)/UDP(sport=104, dport=204)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.0.0.4", 0, 0)
> +
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv4_addr_hash_table(self):
> + """
> + Ipv4 addr hash table
> + """
> + filename = "flow_ipv4_addr_hash_firmware.cli"
> +
> + # match ipv4 src_addr
> + cmd = "pipeline RX table match hash ext key 8 mask FFFFFFFF00000000
> offset 282 buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.generate_rules(src_mask=self.ipv4_mask, src_spec="100.0.0.1",
> dst_spec="200.0.0.1", sportspec=100, dportspec=200, index=[3])
> + self.generate_rules(src_mask=self.ipv4_mask, src_spec="100.0.0.2",
> dst_spec="200.0.0.1", sportspec=100, dportspec=200, index=[2])
> + self.generate_rules(src_mask=self.ipv4_mask, src_spec="100.0.0.3",
> dst_spec="200.0.0.1", sportspec=100, dportspec=200, index=[1])
> + self.generate_rules(src_mask=self.ipv4_mask, src_spec="100.0.0.4",
> dst_spec="200.0.0.1", sportspec=100, dportspec=200, index=[0])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.1', dst='200.0.0.1',
> proto=6)/TCP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "src", "100.0.0.1", 0, 3)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.2', dst='200.0.0.2',
> proto=17)/UDP(sport=102, dport=202)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "src", "100.0.0.2", 0, 2)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.3', dst='200.0.0.3',
> proto=132)/SCTP(sport=103, dport=203)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "src", "100.0.0.3", 0, 1)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.4',
> dst='200.0.0.4')/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "src", "100.0.0.4", 0, 0)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + # match ipv4 dst_addr
> + cmd = "pipeline RX table match hash ext key 8 mask FFFFFF0000000000
> offset 286 buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.generate_rules(dst_mask="255.255.255.0", src_spec="100.0.0.1",
> dst_spec="200.0.0.1", sportspec=100, dportspec=200, index=[3])
> + self.generate_rules(dst_mask="255.255.255.0", src_spec="100.0.0.1",
> dst_spec="200.0.1.1", protospec=6, l4type="tcp", sportspec=100,
> dportspec=200, index=[2])
> + self.generate_rules(dst_mask="255.255.255.0", src_spec="100.0.0.1",
> dst_spec="200.0.2.1", protospec=132, l4type="sctp", sportspec=100,
> dportspec=200, index=[1])
> + self.generate_rules(dst_mask="255.255.255.0", src_spec="100.0.0.1",
> dst_spec="200.0.3.1", l4type="", index=[0])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.1', dst='200.0.0.1',
> proto=6)/TCP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.0.0.1", 0, 3)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.2', dst='200.0.1.2',
> proto=17)/UDP(sport=102, dport=202)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.0.1.2", 0, 2)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.3', dst='200.0.2.3',
> proto=132)/SCTP(sport=103, dport=203)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.0.2.3", 0, 1)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.4',
> dst='200.0.3.4')/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.0.3.4", 0, 0)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + # match sport
> + cmd = "pipeline RX table match hash ext key 8 mask FFFF000000000000
> offset 290 buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.generate_rules(src_spec="100.0.0.1", dst_spec="200.0.0.1",
> sportmask=self.portmask, sportspec=100, dportspec=200, index=[3])
> + self.generate_rules(src_spec="100.0.0.1", dst_spec="200.0.0.1",
> protospec=6, l4type="tcp", sportmask=self.portmask, sportspec=101,
> dportspec=200, index=[2])
> + self.generate_rules(src_spec="100.0.0.1", dst_spec="200.0.0.1",
> protospec=132, l4type="sctp", sportmask=self.portmask, sportspec=102,
> dportspec=200, index=[1])
> + self.generate_rules(src_spec="100.0.0.1", dst_spec="200.0.0.1",
> sportmask=self.portmask, sportspec=103, dportspec=200, index=[0])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.1', dst='200.0.0.1',
> proto=6)/TCP(sport=100, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "tcp", "src", 100, 0, 3)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.2', dst='200.0.1.2',
> proto=17)/UDP(sport=101, dport=202)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "udp", "src", 101, 0, 2)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.3', dst='200.0.2.3',
> proto=132)/SCTP(sport=102, dport=203)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "sctp", "src", 102, 0, 1)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.2', dst='200.0.1.2',
> proto=17)/UDP(sport=103, dport=202)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "udp", "src", 103, 0, 0)
> +
> + # send a packet without l4 info
> + pcap_file = '/tmp/route_4.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.4',
> dst='200.0.3.4')/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> + self.check_status(5, 4, self.port_num)
> +
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv6_acl_table(self):
> + """
> + Ipv6 acl table
> + """
> + filename = "flow_ipv6_acl_firmware.cli"
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> src_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:5789",
> protomask=self.protomask, index=[3])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> src_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:6789",
> protomask=self.protomask, protospec=6, l4type="tcp", index=[2])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> src_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:7789",
> protomask=self.protomask, protospec=132, l4type="sctp", index=[1])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> src_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:8789",
> protomask=self.protomask, sportmask=self.portmask, sportspec=100, index=[0])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(src='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 5789', dst='2001::2', nh=17)/UDP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "src",
> "ABCD:EF01:2345:6789:ABCD:EF01:2345:5789", 0, 3)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(src='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 6789', dst='2001::2', nh=6)/TCP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "src",
> "ABCD:EF01:2345:6789:ABCD:EF01:2345:6789", 0, 2)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(src='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 7789', dst='2001::2', nh=132)/SCTP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "src",
> "ABCD:EF01:2345:6789:ABCD:EF01:2345:7789", 0, 1)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(src='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 8789', dst='2001::2', nh=17)/UDP(sport=100, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "udp", "src", 100, 0, 0)
> +
> + # send another 3 packets
> + pcap_file = '/tmp/route_4.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(src='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 9789', dst='2001::2', nh=17)/UDP(sport=101, dport=201)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + pcap_file = '/tmp/route_4.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(src='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 8789', dst='2001::2', nh=17)/UDP(sport=101, dport=201)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + pcap_file = '/tmp/route_4.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(src='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 6789', dst='2001::2', nh=17)/TCP(sport=101, dport=201)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + self.check_status(7, 4, self.port_num)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv6_addr_hash_table(self):
> + """
> + Ipv6 addr hash table
> + """
> + filename = "flow_ipv6_addr_hash_firmware.cli"
> +
> + # match ipv6 src_addr
> + cmd = "pipeline RX table match hash ext key 16 mask
> FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF offset 278 buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> src_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:5789", index=[3])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> src_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:6789", index=[2])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> src_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:7789", index=[1])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> src_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:8789", index=[0])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(src='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 5789', dst='2001::2', nh=6)/TCP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "src",
> "ABCD:EF01:2345:6789:ABCD:EF01:2345:5789", 0, 3)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(src='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 6789', dst='2001::2', nh=6)/TCP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "src",
> "ABCD:EF01:2345:6789:ABCD:EF01:2345:6789", 0, 2)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(src='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 7789', dst='2001::2', nh=132)/SCTP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "src",
> "ABCD:EF01:2345:6789:ABCD:EF01:2345:7789", 0, 1)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(src='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 8789', dst='2001::2', nh=17)/UDP(sport=100, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "src",
> "ABCD:EF01:2345:6789:ABCD:EF01:2345:8789", 0, 0)
> +
> + pcap_file = '/tmp/route_4.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(src='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 9789', dst='2001::2', nh=17)/UDP(sport=101, dport=201)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> + self.check_status(5, 4, self.port_num)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + # match ipv6 dst_addr
> + cmd = "pipeline RX table match hash ext key 16 mask
> FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF offset 294 buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.generate_rules(iptype="ipv6", dst_mask=self.ipv6_mask,
> dst_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:5789", index=[3])
> + self.generate_rules(iptype="ipv6", dst_mask=self.ipv6_mask,
> dst_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:6789", index=[2])
> + self.generate_rules(iptype="ipv6", dst_mask=self.ipv6_mask,
> dst_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:7789", index=[1])
> + self.generate_rules(iptype="ipv6", dst_mask=self.ipv6_mask,
> dst_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:8789", index=[0])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(dst='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 5789', src='2001::2', nh=6)/TCP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst",
> "ABCD:EF01:2345:6789:ABCD:EF01:2345:5789", 0, 3)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(dst='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 6789', src='2001::2', nh=6)/TCP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst",
> "ABCD:EF01:2345:6789:ABCD:EF01:2345:6789", 0, 2)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(dst='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 7789', src='2001::2', nh=132)/SCTP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst",
> "ABCD:EF01:2345:6789:ABCD:EF01:2345:7789", 0, 1)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(dst='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 8789', src='2001::2', nh=17)/UDP(sport=100, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst",
> "ABCD:EF01:2345:6789:ABCD:EF01:2345:8789", 0, 0)
> +
> + pcap_file = '/tmp/route_4.pcap'
> + pkt =
> [Ether(dst=self.dut_p0_mac)/IPv6(dst='ABCD:EF01:2345:6789:ABCD:EF01:2345:
> 9789', src='2001::2', nh=17)/UDP(sport=101, dport=201)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> + self.check_status(5, 4, self.port_num)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv6_5tuple_hash_table(self):
> + """
> + Ipv6 5tuple hash table
> + """
> + filename = "flow_ipv6_5tuple_hash_firmware.cli"
> + cmd = "pipeline RX table match hash ext key 64 mask
> 0000FF00FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF
> FFFFFFFF000000000000000000000000000000000000000000000000 offset 274
> buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> dst_mask=self.ipv6_mask, src_spec="2001::1", dst_spec="0::1",
> protomask=self.protomask, sportmask=self.portmask, dportmask=self.portmask,
> sportspec=101, dportspec=201, index=[3])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> dst_mask=self.ipv6_mask, src_spec="2001::2", dst_spec="0::2",
> protomask=self.protomask, protospec=6, l4type="tcp",
> sportmask=self.portmask, dportmask=self.portmask, sportspec=102,
> dportspec=202, index=[2])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> dst_mask=self.ipv6_mask, src_spec="2001::3", dst_spec="0::3",
> protomask=self.protomask, protospec=132, l4type="sctp",
> sportmask=self.portmask, dportmask=self.portmask, sportspec=103,
> dportspec=203, index=[1])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> dst_mask=self.ipv6_mask, src_spec="2001::4", dst_spec="0::4",
> protomask=self.protomask, sportmask=self.portmask, dportmask=self.portmask,
> sportspec=104, dportspec=204, index=[0])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="2001::1", dst="0::1",
> nh=17)/UDP(sport=101, dport=201)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "src", "2001::1", 0, 3)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src='2001::2', dst='0::2',
> nh=6)/TCP(sport=102, dport=202)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "src", "2001::2", 0, 2)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src='2001::3', dst='0::3',
> nh=132)/SCTP(sport=103, dport=203)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "src", "2001::3", 0, 1)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src='2001::4', dst='0::4',
> nh=17)/UDP(sport=104, dport=204)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "src", "2001::4", 0, 0)
> +
> + pcap_file = '/tmp/route_4.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="2001::1", dst="0::1",
> nh=6)/TCP(sport=101, dport=201)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> + self.check_status(5, 4, self.port_num)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_inconsistent_rules(self):
> + """
> + Flow rule item is inconsistent with table match format
> + """
> + # ipv4
> + filename = "flow_ipv4_addr_hash_firmware.cli"
> + cmd = "pipeline RX table match hash ext key 8 mask FFFFFFFF00000000
> offset 282 buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.dut.send_expect("flow create 4 group 0 ingress pattern eth / ipv4
> proto mask 0 src mask 0.0.0.0 dst mask 255.255.255.255 src spec 100.0.0.1 dst
> spec 200.0.0.1 proto spec 17 / udp src mask 0 dst mask 0 src spec 100 dst spec
> 200 / end actions queue index 3 / end", "error", 60)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + cmd = "pipeline RX table match hash ext key 8 mask FFFFFF0000000000
> offset 286 buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> + self.dut.send_expect("flow create 4 group 0 ingress pattern eth / ipv4
> proto mask 0 src mask 0.0.0.0 dst mask 255.255.255.255 src spec 100.0.0.1 dst
> spec 200.0.0.1 proto spec 17 / udp src mask 0 dst mask 0 src spec 100 dst spec
> 200 / end actions queue index 3 / end", "error", 60)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + # ipv6
> + filename = "flow_ipv6_5tuple_hash_firmware.cli"
> + cmd = "pipeline RX table match hash ext key 64 mask
> 0000FF00FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF
> FFFFFFFF000000000000000000000000000000000000000000000000 offset 274
> buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> + self.dut.send_expect("flow create 4 group 0 ingress pattern eth / ipv6
> proto mask 255 src mask ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff dst mask
> ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff src spec 2001::1 dst spec 0::1 proto spec 17 /
> udp src mask 0 dst mask 65535 src spec 31 dst spec 41 / end actions queue index
> 3 / end", "error", 60)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + cmd = "pipeline RX table match hash ext key 16 mask
> FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF offset 294 buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> + self.dut.send_expect("flow create 4 group 0 ingress pattern eth / ipv6
> proto mask 0 src mask ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff dst mask 0:0:0:0:0:0:0:0
> src spec ABCD:EF01:2345:6789:ABCD:EF01:2345:5789 dst spec 0:0:0:0:0:0:0:0
> proto spec 17 / udp src mask 0 dst mask 0 src spec 0 dst spec 0 / end actions
> queue index 3 / end", "error", 60)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv4_hash_rss_action(self):
> + """
> + Set rss action using acl table.
> + """
> + filename = "flow_ipv4_rss_firmware.cli"
> +
> + # match ipv4 src_addr
> + cmd = "pipeline RX table match hash ext key 16 mask
> 00FF0000FFFFFFFFFFFFFFFFFFFFFFFF offset 278 buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.generate_rules(src_mask=self.ipv4_mask, dst_mask=self.ipv4_mask,
> src_spec="100.0.0.1", dst_spec="200.0.0.1", protomask=self.protomask,
> protospec=6, l4type="tcp", sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, action="rss", index=[3])
> + self.generate_rules(src_mask=self.ipv4_mask, dst_mask=self.ipv4_mask,
> src_spec="100.0.0.2", dst_spec="200.0.0.2", protomask=self.protomask,
> protospec=17, l4type="udp", sportmask=self.portmask,
> dportmask=self.portmask, sportspec=100, dportspec=200, action="rss",
> index=[2])
> + self.generate_rules(src_mask=self.ipv4_mask, dst_mask=self.ipv4_mask,
> src_spec="100.0.0.3", dst_spec="200.0.0.3", protomask=self.protomask,
> protospec=132, l4type="sctp", sportmask=self.portmask,
> dportmask=self.portmask, sportspec=100, dportspec=200, action="rss",
> index=[1])
> + self.generate_rules(src_mask=self.ipv4_mask, dst_mask=self.ipv4_mask,
> src_spec="100.0.0.4", dst_spec="200.0.0.4", protomask=self.protomask,
> protospec=6, l4type="tcp", sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, action="rss", index=[0])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.1', dst='200.0.0.1',
> proto=6)/TCP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.0.0.1", 0, 3)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.2', dst='200.0.0.2',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.0.0.2", 0, 2)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.3', dst='200.0.0.3',
> proto=132)/SCTP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "src", "100.0.0.3", 0, 1)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.4', dst='200.0.0.4',
> proto=6)/TCP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.0.0.4", 0, 0)
> +
> + # not match test
> + pcap_file = '/tmp/route_4.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='100.0.0.4', dst='200.0.0.4',
> proto=6)/TCP(sport=101, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> + self.check_status(5, 4, self.port_num)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + # match ipv4 src_addr
> + cmd = "pipeline RX table match hash ext key 16 mask
> 00FF0000FFFFFF00FFFFFFFFFFFFFFFF offset 278 buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + self.generate_rules(src_mask="255.255.255.0", dst_mask=self.ipv4_mask,
> src_spec="100.0.0.1", dst_spec="200.0.0.1", protomask=self.protomask,
> sportmask=self.portmask, dportmask=self.portmask, sportspec=100,
> dportspec=200, action="rss", index=[0, 1, 2, 3])
> + self.generate_rules(src_mask="255.255.255.0", dst_mask=self.ipv4_mask,
> src_spec="100.0.1.2", dst_spec="200.0.0.1", protomask=self.protomask,
> sportmask=self.portmask, dportmask=self.portmask, sportspec=100,
> dportspec=200, action="rss", index=[0, 1, 2, 3])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + self.send_continuous_packet("ipv4", "src", "100.0.0.1", "200.0.0.1",
> self.tester_itf)
> + out = self.dut.send_expect("stop", "testpmd> ", 120)
> + self.check_packet_queue([0, 1, 2, 3], out)
> + self.dut.send_expect("start", "testpmd> ", 120)
> + self.send_continuous_packet("ipv4", "src", "100.0.1.2", "200.0.0.1",
> self.tester_itf)
> + out = self.dut.send_expect("stop", "testpmd> ", 120)
> + self.check_packet_queue([0, 1, 2, 3], out)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + # match ipv4 src_addr
> + cmd = "pipeline RX table match hash ext key 8 mask FFFF0000FFFFFFFF
> offset 282 buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + self.generate_rules(src_mask="255.255.0.0", dst_mask=self.ipv4_mask,
> src_spec="100.0.0.1", dst_spec="200.0.0.1", sportspec=100, dportspec=200,
> action="rss", index=[0])
> + self.generate_rules(src_mask="255.255.0.0", dst_mask=self.ipv4_mask,
> src_spec="100.0.0.1", dst_spec="200.0.0.2", sportspec=100, dportspec=200,
> action="rss", index=[2, 3])
> + self.generate_rules(src_mask="255.255.0.0", dst_mask=self.ipv4_mask,
> src_spec="200.0.0.1", dst_spec="200.0.0.2", sportspec=100, dportspec=200,
> action="rss", index=[1, 2])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + self.send_continuous_packet("ipv4", "src", "100.0.0.1", "200.0.0.1",
> self.tester_itf)
> + out = self.dut.send_expect("stop", "testpmd> ", 120)
> + self.check_packet_queue([0], out)
> + self.dut.send_expect("start", "testpmd> ", 120)
> + self.send_continuous_packet("ipv4", "src", "100.0.1.1", "200.0.0.2",
> self.tester_itf)
> + out = self.dut.send_expect("stop", "testpmd> ", 120)
> + self.check_packet_queue([2, 3], out)
> + self.dut.send_expect("start", "testpmd> ", 120)
> + self.send_continuous_packet("ipv4", "src", "200.0.0.1", "200.0.0.2",
> self.tester_itf)
> + out = self.dut.send_expect("stop", "testpmd> ", 120)
> + self.check_packet_queue([1, 2], out)
> +
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv6_hash_rss_action(self):
> + """
> + Set rss action using hash table.
> + """
> + filename = "flow_ipv6_rss_firmware.cli"
> +
> + # match ipv6 src_addr
> + cmd = "pipeline RX table match hash ext key 64 mask
> 0000FF00FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF
> FFFFFFFF000000000000000000000000000000000000000000000000 offset 274
> buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> dst_mask=self.ipv6_mask, src_spec="2001::1", dst_spec="1001::1",
> protomask=self.protomask, protospec=6, l4type="tcp",
> sportmask=self.portmask, dportmask=self.portmask, sportspec=100,
> dportspec=200, action="rss", index=[3])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> dst_mask=self.ipv6_mask, src_spec="2001::2", dst_spec="1001::2",
> protomask=self.protomask, protospec=17, l4type="udp",
> sportmask=self.portmask, dportmask=self.portmask, sportspec=100,
> dportspec=200, action="rss", index=[2])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> dst_mask=self.ipv6_mask, src_spec="2001::3", dst_spec="1001::3",
> protomask=self.protomask, protospec=132, l4type="sctp",
> sportmask=self.portmask, dportmask=self.portmask, sportspec=100,
> dportspec=200, action="rss", index=[1])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> dst_mask=self.ipv6_mask, src_spec="2001::4", dst_spec="1001::4",
> protomask=self.protomask, protospec=6, l4type="tcp",
> sportmask=self.portmask, dportmask=self.portmask, sportspec=100,
> dportspec=200, action="rss", index=[0])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src='2001::1', dst='1001::1',
> nh=6)/TCP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "1001::1", 0, 3)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src='2001::2', dst='1001::2',
> nh=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "1001::2", 0, 2)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src='2001::3', dst='1001::3',
> nh=132)/SCTP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "1001::3", 0, 1)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src='2001::4', dst='1001::4',
> nh=6)/TCP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "1001::4", 0, 0)
> +
> + # not match test
> + pcap_file = '/tmp/route_4.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src='2001::1', dst='1001::1',
> nh=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> + self.check_status(5, 4, self.port_num)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + cmd = "pipeline RX table match hash ext key 64 mask
> 0000FF00FFFFFFFFFFFFFFFFFFFFFFFFFFFF0000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF
> FFFFFFFF000000000000000000000000000000000000000000000000 offset 274
> buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.generate_rules(iptype="ipv6",
> src_mask="ffff:ffff:ffff:ffff:ffff:ffff:ffff:0", dst_mask=self.ipv6_mask,
> src_spec="ABCD:EF01:2345:6789:ABCD:EF01:2345:0", dst_spec="0::1",
> protomask=self.protomask, sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, action="rss", index=[0, 1, 2, 3])
> + self.generate_rules(iptype="ipv6",
> src_mask="ffff:ffff:ffff:ffff:ffff:ffff:ffff:0", dst_mask=self.ipv6_mask,
> src_spec="ABCD:EF01:2345:6789:ABCD:EF01:2346:0", dst_spec="0::1",
> protomask=self.protomask, sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, action="rss", index=[0, 1, 2, 3])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + self.send_continuous_packet("ipv6", "src",
> "ABCD:EF01:2345:6789:ABCD:EF01:2345:0", "0::1", self.tester_itf)
> + out = self.dut.send_expect("stop", "testpmd> ", 120)
> + self.check_packet_queue([0, 1, 2, 3], out)
> + self.dut.send_expect("start", "testpmd> ", 120)
> + self.send_continuous_packet("ipv6", "src",
> "ABCD:EF01:2345:6789:ABCD:EF01:2346:0", "0::1", self.tester_itf)
> + out = self.dut.send_expect("stop", "testpmd> ", 120)
> + self.check_packet_queue([0, 1, 2, 3], out)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + cmd = "pipeline RX table match hash ext key 64 mask
> 00000000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF0000
> FFFFFFFF000000000000000000000000000000000000000000000000 offset 274
> buckets 16K size 64K action AP0"
> + self.set_table(cmd, filename)
> + self.start_testpmd(filename, self.port_num)
> +
> + # create rule
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> dst_mask="ffff:ffff:ffff:ffff:ffff:ffff:ffff:0", src_spec="2001::1",
> dst_spec="1001::1", sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, action="rss", index=[0])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> dst_mask="ffff:ffff:ffff:ffff:ffff:ffff:ffff:0", src_spec="2001::2",
> dst_spec="1001::1", sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, action="rss", index=[2, 3])
> + self.generate_rules(iptype="ipv6", src_mask=self.ipv6_mask,
> dst_mask="ffff:ffff:ffff:ffff:ffff:ffff:ffff:0", src_spec="2001::1",
> dst_spec="1002::1", sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, action="rss", index=[1, 2])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + self.send_continuous_packet("ipv6", "dst", "2001::1", "1001::1",
> self.tester_itf)
> + out = self.dut.send_expect("stop", "testpmd> ", 120)
> + self.check_packet_queue([0], out)
> + self.dut.send_expect("start", "testpmd> ", 120)
> + self.send_continuous_packet("ipv6", "dst", "2001::2", "1001::1",
> self.tester_itf)
> + out = self.dut.send_expect("stop", "testpmd> ", 120)
> + self.check_packet_queue([2, 3], out)
> + self.dut.send_expect("start", "testpmd> ", 120)
> + self.send_continuous_packet("ipv6", "dst", "2001::1", "1002::1",
> self.tester_itf)
> + out = self.dut.send_expect("stop", "testpmd> ", 120)
> + self.check_packet_queue([1, 2], out)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv4_acl_jump(self):
> + """
> + Set jump action using acl table.
> + """
> + filename = "flow_ipv4_acl_jump_firmware.cli"
> + port_num = 2
> + self.start_testpmd(filename, port_num)
> +
> + # create rule
> + self.generate_rules(port=port_num, group=1, dst_mask="255.192.0.0",
> dst_spec="200.0.0.0", protomask=self.protomask, sportmask=self.portmask,
> dportmask=self.portmask, sportspec=100, dportspec=200, index=[0])
> + self.generate_rules(port=port_num, group=1, dst_mask="255.192.0.0",
> dst_spec="200.64.0.0", protomask=self.protomask, sportmask=self.portmask,
> dportmask=self.portmask, sportspec=100, dportspec=200, index=[1])
> + self.generate_rules(port=port_num, dst_mask="255.192.0.0",
> dst_spec="200.0.0.0", protomask=self.protomask, sportmask=self.portmask,
> dportmask=self.portmask, sportspec=100, dportspec=200, action="jump",
> index=[1])
> + self.generate_rules(port=port_num, dst_mask="255.192.0.0",
> dst_spec="200.64.0.0", protomask=self.protomask, sportmask=self.portmask,
> dportmask=self.portmask, sportspec=100, dportspec=200, action="jump",
> index=[1])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='0.0.0.0', dst='200.0.0.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.0.0.0", 0, 0)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='0.0.0.0', dst='200.64.0.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "200.64.0.0", 0,
> 1)
> +
> + # destroy rules of group 1
> + self.dut.send_expect("flow destroy 2 rule 0", "testpmd> ", 60)
> + self.dut.send_expect("flow destroy 2 rule 1", "testpmd> ", 60)
> + destroy_out = self.dut.send_expect("flow list 2", "testpmd> ", 60)
> + self.verify("QUEUE" not in destroy_out, "destroy rule fail")
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='0.0.0.0', dst='200.0.0.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + filters = "dst host 200.0.0.0"
> + sniff_pkts = self.send_and_sniff_pkts(0, 0, pcap_file, filters)
> + dst_ip_list = []
> + for packet in sniff_pkts:
> + dst_ip_list.append(packet.getlayer(1).dst)
> + self.verify("200.0.0.0" not in dst_ip_list, "rule 2 test fail")
> +
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv4_hash_jump(self):
> + """
> + Set jump action using hash table.
> + """
> + filename = "flow_ipv4_hash_jump_firmware.cli"
> + port_num = 2
> + self.start_testpmd(filename, port_num)
> +
> + # create rule
> + self.generate_rules(port=port_num, group=1, src_mask=self.ipv4_mask,
> dst_mask=self.ipv4_mask, src_spec="1.10.11.0", dst_spec="2.20.21.0",
> protomask=self.protomask, sportspec=100, dportspec=200, index=[0])
> + self.generate_rules(port=port_num, group=1, src_mask=self.ipv4_mask,
> dst_mask=self.ipv4_mask, src_spec="1.10.11.1", dst_spec="2.20.21.1",
> protomask=self.protomask, sportspec=100, dportspec=200, index=[1])
> + self.generate_rules(port=port_num, src_mask=self.ipv4_mask,
> dst_mask=self.ipv4_mask, src_spec="1.10.11.0", dst_spec="2.20.21.0",
> protomask=self.protomask, sportspec=100, dportspec=200, action="jump",
> index=[1])
> + self.generate_rules(port=port_num, src_mask=self.ipv4_mask,
> dst_mask=self.ipv4_mask, src_spec="1.10.11.1", dst_spec="2.20.21.1",
> protomask=self.protomask, sportspec=100, dportspec=200, action="jump",
> index=[1])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='1.10.11.0', dst='2.20.21.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "2.20.21.0", 0, 0)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='1.10.11.1', dst='2.20.21.1',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "2.20.21.1", 0, 1)
> +
> + # destroy rules of group 1
> + self.dut.send_expect("flow destroy 2 rule 0", "Flow rule #0 destroyed", 60)
> + self.dut.send_expect("flow destroy 2 rule 1", "Flow rule #1 destroyed", 60)
> + destroy_out = self.dut.send_expect("flow list 2", "testpmd> ", 60)
> + self.verify("QUEUE" not in destroy_out, "destroy rule fail")
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='1.10.11.1', dst='2.20.21.1',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + filters = "dst host 2.20.21.1"
> + sniff_pkts = self.send_and_sniff_pkts(0, 1, pcap_file, filters)
> + dst_ip_list = []
> + for packet in sniff_pkts:
> + dst_ip_list.append(packet.getlayer(1).dst)
> + self.verify("2.20.21.1" not in dst_ip_list, "rule 3 test fail")
> +
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv4_acl_hash_jump(self):
> + """
> + Set jump action from acl table to hash table.
> + """
> + filename = "flow_ipv4_acl_hash_jump_firmware.cli"
> + port_num = 2
> + self.start_testpmd(filename, port_num)
> +
> + # create rule
> + self.generate_rules(port=port_num, group=1, src_mask=self.ipv4_mask,
> dst_mask=self.ipv4_mask, src_spec="1.10.11.0", dst_spec="2.20.21.0",
> protomask=self.protomask, sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, index=[0])
> + self.generate_rules(port=port_num, group=1, src_mask=self.ipv4_mask,
> dst_mask=self.ipv4_mask, src_spec="1.10.11.1", dst_spec="2.20.21.1",
> protomask=self.protomask, sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, index=[1])
> + self.generate_rules(port=port_num, src_mask=self.ipv4_mask,
> dst_mask=self.ipv4_mask, src_spec="1.10.11.0", dst_spec="2.20.21.0",
> protomask=self.protomask, sportspec=100, dportspec=200, action="jump",
> index=[1])
> + self.generate_rules(port=port_num, src_mask=self.ipv4_mask,
> dst_mask=self.ipv4_mask, src_spec="1.10.11.1", dst_spec="2.20.21.1",
> protomask=self.protomask, sportspec=100, dportspec=200, action="jump",
> index=[1])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='1.10.11.0', dst='2.20.21.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "2.20.21.0", 0, 0)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='1.10.11.1', dst='2.20.21.1',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "2.20.21.1", 0, 1)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='1.10.11.0', dst='2.20.21.0',
> proto=17)/UDP(sport=101, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='1.10.11.1', dst='2.20.21.1',
> proto=17)/UDP(sport=100, dport=201)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + self.check_status(4, 2, port_num)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv4_hash_acl_jump(self):
> + """
> + Set jump action from hash table to acl table.
> + """
> + filename = "flow_ipv4_hash_acl_jump_firmware.cli"
> + port_num = 2
> + self.start_testpmd(filename, port_num)
> +
> + # create rule
> + self.generate_rules(port=port_num, group=1, src_mask=self.ipv4_mask,
> dst_mask=self.ipv4_mask, src_spec="1.10.11.0", dst_spec="2.20.21.0",
> protomask=self.protomask, sportspec=100, dportspec=200, index=[0])
> + self.generate_rules(port=port_num, group=1, src_mask=self.ipv4_mask,
> dst_mask=self.ipv4_mask, src_spec="1.10.11.1", dst_spec="2.20.21.1",
> protomask=self.protomask, sportspec=100, dportspec=200, index=[1])
> + self.generate_rules(port=port_num, src_mask=self.ipv4_mask,
> dst_mask="255.255.255.0", src_spec="1.10.11.0", dst_spec="2.20.21.0",
> protomask=self.protomask, sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, action="jump", index=[1])
> + self.generate_rules(port=port_num, src_mask=self.ipv4_mask,
> dst_mask="255.255.255.0", src_spec="1.10.11.1", dst_spec="2.20.21.1",
> protomask=self.protomask, sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, action="jump", index=[1])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='1.10.11.0', dst='2.20.21.0',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "2.20.21.0", 0, 0)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='1.10.11.1', dst='2.20.21.1',
> proto=17)/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv4", "dst", "2.20.21.1", 0, 1)
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='1.10.11.0', dst='2.20.21.2',
> proto=17)/UDP(sport=101, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + # rule 3 test
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IP(src='1.10.11.1', dst='2.20.21.3',
> proto=17)/UDP(sport=100, dport=201)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + self.check_status(4, 2, port_num)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv6_acl_jump(self):
> + """
> + Set jump action with ipv6 acl table.
> + """
> + filename = "flow_ipv6_acl_jump_firmware.cli"
> + port_num = 2
> + self.start_testpmd(filename, port_num)
> +
> + # create rule
> + self.generate_rules(port=port_num, group=1, iptype="ipv6",
> dst_mask=self.ipv6_mask, src_spec="1001::1", dst_spec="2001::1",
> protomask=self.protomask, sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, index=[0])
> + self.generate_rules(port=port_num, group=1, iptype="ipv6",
> src_mask=self.ipv6_mask, dst_mask=self.ipv6_mask, src_spec="1001::1",
> dst_spec="2001::2", protomask=self.protomask, sportmask=self.portmask,
> dportmask=self.portmask, sportspec=100, dportspec=200, index=[1])
> + self.generate_rules(port=port_num, iptype="ipv6",
> dst_mask=self.ipv6_mask, src_spec="1001::1", dst_spec="2001::1",
> protomask=self.protomask, sportspec=100, dportspec=200, action="jump",
> index=[1])
> + self.generate_rules(port=port_num, iptype="ipv6",
> dst_mask=self.ipv6_mask, src_spec="1001::1", dst_spec="2001::2",
> protomask=self.protomask, sportspec=100, dportspec=200, action="jump",
> index=[1])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::1",
> dst="2001::1")/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "2001::1", 0, 0)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::1",
> dst="2001::2")/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "2001::2", 0, 1)
> +
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::2",
> dst="2001::1")/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "2001::1", 0, 0)
> +
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::2",
> dst="2001::2")/UDP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + self.check_status(4, 3, port_num)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv6_hash_jump(self):
> + """
> + Set jump action with ipv6 hash table.
> + """
> + filename = "flow_ipv6_hash_jump_firmware.cli"
> + port_num = 2
> + self.start_testpmd(filename, port_num)
> +
> + # create rule
> + self.generate_rules(port=port_num, group=1, iptype="ipv6",
> src_mask=self.ipv6_mask, dst_mask=self.ipv6_mask, src_spec="1001::1",
> dst_spec="2001::1", protomask=self.protomask, sportmask=self.portmask,
> dportmask=self.portmask, sportspec=100, dportspec=200, index=[0])
> + self.generate_rules(port=port_num, group=1, iptype="ipv6",
> src_mask=self.ipv6_mask, dst_mask=self.ipv6_mask, src_spec="1001::2",
> dst_spec="2001::2", protomask=self.protomask, protospec=6, l4type="tcp",
> sportmask=self.portmask, dportmask=self.portmask, sportspec=100,
> dportspec=200, index=[1])
> + self.generate_rules(port=port_num, iptype="ipv6",
> src_mask=self.ipv6_mask, dst_mask=self.ipv6_mask, src_spec="1001::1",
> dst_spec="2001::1", protomask=self.protomask, sportmask=self.portmask,
> dportmask=self.portmask, sportspec=100, dportspec=200, action="jump",
> index=[1])
> + self.generate_rules(port=port_num, iptype="ipv6",
> src_mask=self.ipv6_mask, dst_mask=self.ipv6_mask, src_spec="1001::2",
> dst_spec="2001::2", protomask=self.protomask, protospec=6, l4type="tcp",
> sportmask=self.portmask, dportmask=self.portmask, sportspec=100,
> dportspec=200, action="jump", index=[1])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::1",
> dst="2001::1")/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "2001::1", 0, 0)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::2",
> dst="2001::2")/TCP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "2001::2", 0, 1)
> +
> + # destroy rules of group 1
> + self.dut.send_expect("flow destroy 2 rule 0", "Flow rule #0 destroyed", 60)
> + self.dut.send_expect("flow destroy 2 rule 1", "Flow rule #1 destroyed", 60)
> + destroy_out = self.dut.send_expect("flow list 2", "testpmd> ", 60)
> + self.verify("QUEUE" not in destroy_out, "destroy rule fail")
> +
> + # rule 2 test
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::1",
> dst="2001::1")/UDP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + filters = "dst host 2001::1"
> + sniff_pkts = self.send_and_sniff_pkts(0, 0, pcap_file, filters)
> + dst_ip_list = []
> + for packet in sniff_pkts:
> + dst_ip_list.append(packet.getlayer(1).dst)
> + self.verify("2001::1" not in dst_ip_list, "rule 2 test fail")
> +
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv6_acl_hash_jump(self):
> + """
> + Set jump action from ipv6 acl table to hash table.
> + """
> + filename = "flow_ipv6_acl_hash_jump_firmware.cli"
> + port_num = 2
> + self.start_testpmd(filename, port_num)
> +
> + # create rule
> + self.generate_rules(port=port_num, group=1, iptype="ipv6",
> src_mask=self.ipv6_mask, dst_mask=self.ipv6_mask, src_spec="1001::1",
> dst_spec="2001::1", protomask=self.protomask, sportmask=self.portmask,
> dportmask=self.portmask, sportspec=100, dportspec=200, index=[0])
> + self.generate_rules(port=port_num, group=1, iptype="ipv6",
> src_mask=self.ipv6_mask, dst_mask=self.ipv6_mask, src_spec="1001::2",
> dst_spec="2001::2", protomask=self.protomask, sportmask=self.portmask,
> dportmask=self.portmask, sportspec=100, dportspec=200, index=[1])
> + self.generate_rules(port=port_num, iptype="ipv6",
> dst_mask=self.ipv6_mask, src_spec="1001::1", dst_spec="2001::1",
> protomask=self.protomask, sportspec=100, dportspec=200, action="jump",
> index=[1])
> + self.generate_rules(port=port_num, iptype="ipv6",
> dst_mask=self.ipv6_mask, src_spec="1001::2", dst_spec="2001::2",
> protomask=self.protomask, sportspec=100, dportspec=200, action="jump",
> index=[1])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::1",
> dst="2001::1")/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "2001::1", 0, 0)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::2",
> dst="2001::2")/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "2001::2", 0, 1)
> +
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::3",
> dst="2001::1")/UDP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::4",
> dst="2001::2")/UDP(sport=100, dport=200)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + self.check_status(4, 2, port_num)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def test_ipv6_hash_acl_jump(self):
> + """
> + Set jump action from ipv6 hash table to acl table.
> + """
> + filename = "flow_ipv6_hash_acl_jump_firmware.cli"
> + port_num = 2
> + self.start_testpmd(filename, port_num)
> +
> + # create rule
> + self.generate_rules(port=port_num, group=1, iptype="ipv6",
> dst_mask=self.ipv6_mask, src_spec="1001::1", dst_spec="2001::1",
> protomask=self.protomask, sportmask=self.portmask, dportmask=self.portmask,
> sportspec=100, dportspec=200, index=[0])
> + self.generate_rules(port=port_num, group=1, iptype="ipv6",
> src_mask=self.ipv6_mask, dst_mask=self.ipv6_mask, src_spec="1001::2",
> dst_spec="2001::2", protomask=self.protomask, dportmask=self.portmask,
> sportspec=100, dportspec=200, index=[1])
> + self.generate_rules(port=port_num, iptype="ipv6",
> src_mask=self.ipv6_mask, dst_mask=self.ipv6_mask, src_spec="1001::1",
> dst_spec="2001::1", protomask=self.protomask, sportmask=self.portmask,
> sportspec=100, dportspec=200, action="jump", index=[1])
> + self.generate_rules(port=port_num, iptype="ipv6",
> src_mask=self.ipv6_mask, dst_mask=self.ipv6_mask, src_spec="1001::2",
> dst_spec="2001::2", protomask=self.protomask, sportmask=self.portmask,
> sportspec=100, dportspec=200, action="jump", index=[1])
> + self.dut.send_expect("start", "testpmd> ", 60)
> +
> + # rule 0 test
> + pcap_file = '/tmp/route_0.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::1",
> dst="2001::1")/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "2001::1", 0, 0)
> +
> + # rule 1 test
> + pcap_file = '/tmp/route_1.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::2",
> dst="2001::2")/UDP(sport=100, dport=200)/('X'*48)]
> + self.send_and_check_packets(pcap_file, pkt, "ipv6", "dst", "2001::2", 0, 1)
> +
> + pcap_file = '/tmp/route_2.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::1",
> dst="2001::1")/UDP(sport=100, dport=201)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + pcap_file = '/tmp/route_3.pcap'
> + pkt = [Ether(dst=self.dut_p0_mac)/IPv6(src="1001::2",
> dst="2001::2")/UDP(sport=100, dport=202)/('X'*48)]
> + self.write_pcap_file(pcap_file, pkt)
> + self.send_pkts(0, pcap_file)
> +
> + self.check_status(4, 2, port_num)
> + self.dut.send_expect("quit", "# ", 60)
> +
> + def tear_down(self):
> +
> + """
> + Run after each test case.
> + """
> + pass
> +
> + def tear_down_all(self):
> + """
> + Run after each test suite.
> + """
> + self.dut.kill_all()
> --
> 2.5.0
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