[dts] [PATCH V2 2/2] add metering_and_policing script
Tu, Lijuan
lijuan.tu at intel.com
Sun Mar 24 19:21:50 CET 2019
Applied, thanks
> -----Original Message-----
> From: dts [mailto:dts-bounces at dpdk.org] On Behalf Of Wenjie Li
> Sent: Monday, March 18, 2019 9:22 PM
> To: dts at dpdk.org
> Cc: Li, WenjieX A <wenjiex.a.li at intel.com>
> Subject: [dts] [PATCH V2 2/2] add metering_and_policing script
>
> add metering_and_policing script
>
> Signed-off-by: Wenjie Li <wenjiex.a.li at intel.com>
>
> V2: update the functions to make the script clear
> V1: add new test suite script
> ---
> tests/TestSuite_metering_and_policing.py | 650 +++++++++++++++++++++++
> 1 file changed, 650 insertions(+)
> create mode 100644 tests/TestSuite_metering_and_policing.py
>
> diff --git a/tests/TestSuite_metering_and_policing.py
> b/tests/TestSuite_metering_and_policing.py
> new file mode 100644
> index 0000000..38687e6
> --- /dev/null
> +++ b/tests/TestSuite_metering_and_policing.py
> @@ -0,0 +1,650 @@
> +#BSD LICENSE
> +#
> +# Copyright(c) 2010-2016 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.
> +
> +
> +
> +
> +"""
> +DPDK Test suite.
> +Test metering_and_policing.
> +"""
> +import utils
> +import string
> +import time
> +import re
> +from test_case import TestCase
> +from plotting import Plotting
> +from settings import HEADER_SIZE
> +from dut import Dut
> +
> +
> +class TestMeteringAndPolicing(TestCase):
> +
> + def copy_config_files_to_dut(self):
> + """
> + Copy firmware.cli, dscp_*.sh from tester to DUT.
> + """
> + file = 'meter_and_policy_config.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 update_firmware_cli(self, caseID):
> + """
> + Update firmware.cli.
> + """
> + self.ori_firmware_cli =
> "/root/dpdk/drivers/net/softnic/meter_and_policing_firmware.cli"
> + if len(self.dut_ports) == 4:
> + self.ori_firmware_cli =
> "/root/dpdk/drivers/net/softnic/meter_and_policing_firmware_4ports.cli"
> + self.new_firmware_cli = "%s-%s" % (self.ori_firmware_cli, caseID)
> + self.dut.send_expect("rm -f %s" % self.new_firmware_cli, "#")
> + self.dut.send_expect("cp %s %s" % (self.ori_firmware_cli,
> + self.new_firmware_cli), "#")
> +
> + # link dev
> + self.dut.send_expect("sed -i -e 's/^.*link LINK0 dev.*$/link LINK0
> dev %s/g' %s"
> + % (self.dut_p0_pci, self.new_firmware_cli), "#")
> + self.dut.send_expect("sed -i -e 's/^.*link LINK1 dev.*$/link LINK1
> dev %s/g' %s"
> + % (self.dut_p1_pci, self.new_firmware_cli), "#")
> + if len(self.dut_ports) == 4:
> + self.dut.send_expect("sed -i -e 's/^.*link LINK2 dev.*$/link LINK2
> dev %s/g' %s"
> + % (self.dut_p2_pci, self.new_firmware_cli), "#")
> + self.dut.send_expect("sed -i -e 's/^.*link LINK3 dev.*$/link LINK3
> dev %s/g' %s"
> + % (self.dut_p3_pci,
> + self.new_firmware_cli), "#")
> +
> + # table action
> + temp = "table action profile AP0"
> + if caseID == 8:
> + self.dut.send_expect("sed -i -e 's/^.*%s.*$/%s ipv6 offset 270 fwd meter
> trtcm tc 1 stats pkts/g' %s"
> + % (temp, temp, self.new_firmware_cli), "#")
> + else:
> + self.dut.send_expect("sed -i -e 's/^.*%s.*$/%s ipv4 offset 270 fwd meter
> trtcm tc 1 stats pkts/g' %s"
> + % (temp, temp, self.new_firmware_cli),
> + "#")
> +
> + # pipeline RX table
> + temp = "pipeline RX table match"
> + if caseID == 7:
> + target = "hash ext key 16 mask 00FF0000FFFFFFFFFFFFFFFFFFFFFFFF
> offset 278 buckets 16K size 65K action AP0"
> + self.dut.send_expect("sed -i -e 's/^.*%s.*$/%s %s/g' %s"
> + % (temp, temp, target, self.new_firmware_cli), "#")
> + elif caseID == 8:
> + self.dut.send_expect("sed -i -e 's/^.*%s.*$/%s acl ipv6 offset 270 size 4K
> action AP0/g' %s"
> + % (temp, temp, self.new_firmware_cli), "#")
> + else:
> + self.dut.send_expect("sed -i -e 's/^.*%s.*$/%s acl ipv4 offset 270 size 4K
> action AP0/g' %s"
> + % (temp, temp, self.new_firmware_cli),
> + "#")
> +
> + # use .sh file as RX table
> + temp = "pipeline RX table 0 dscp"
> + if caseID == 10:
> + self.dut.send_expect("sed -i -e 's/^.*%s.*$/%s
> \/root\/dpdk\/drivers\/net\/softnic\/dscp_red.sh/g' %s"
> + % (temp, temp, self.new_firmware_cli), "#")
> + elif caseID == 11:
> + self.dut.send_expect("sed -i -e 's/^.*%s.*$/%s
> \/root\/dpdk\/drivers\/net\/softnic\/dscp_yellow.sh/g' %s"
> + % (temp, temp, self.new_firmware_cli), "#")
> + elif caseID == 12:
> + self.dut.send_expect("sed -i -e 's/^.*%s.*$/%s
> \/root\/dpdk\/drivers\/net\/softnic\/dscp_green.sh/g' %s"
> + % (temp, temp, self.new_firmware_cli), "#")
> + elif caseID == 13:
> + self.dut.send_expect("sed -i -e 's/^.*%s.*$/%s
> \/root\/dpdk\/drivers\/net\/softnic\/dscp_default.sh/g' %s"
> + % (temp, temp, self.new_firmware_cli),
> + "#")
> +
> + # thread * pipeline RX/TX enable
> + self.dut.send_expect("sed -i -e 's/thread 5 pipeline RX enable/thread %d
> pipeline RX enable/g' %s"
> + % (len(self.dut_ports), self.new_firmware_cli), "#")
> + self.dut.send_expect("sed -i -e 's/thread 5 pipeline TX enable/thread %d
> pipeline TX enable/g' %s"
> + % (len(self.dut_ports),
> + self.new_firmware_cli), "#")
> +
> + def start_testpmd(self, filename):
> + """
> + Start testpmd.
> + """
> + if len(self.dut_ports) == 2:
> + portmask = "0x4"
> + Corelist = "0x7"
> + Servicecorelist = "0x4"
> + if len(self.dut_ports) == 4:
> + portmask = "0x10"
> + Corelist = "0x1f"
> + Servicecorelist = "0x10"
> + self.path = "./%s/app/testpmd" % self.target
> + cmd = self.path + " -c %s -s %s -n %d --vdev
> 'net_softnic0,firmware=%s,cpu_id=0,conn_port=8086' \
> + -- -i --rxq=%d --txq=%d --portmask=%s" \
> + % (Corelist, Servicecorelist, self.dut.get_memory_channels(), filename,
> self.port_id, self.port_id, portmask)
> + self.dut.send_expect(cmd, "testpmd>", 60)
> +
> + def add_port_meter_profile(self, profile_id, cbs=400, pbs=500):
> + """
> + Add port meter profile (trTCM rfc2968).
> + """
> + cir = 3125000000
> + pir = 3125000000
> + self.dut.send_expect("add port meter profile
> trtcm_rfc2698 %d %d %d %d %d %d"
> + % (self.port_id, profile_id, cir, pir,
> + cbs, pbs), "testpmd>")
> +
> + def create_port_meter(self, mtr_id, profile_id, gyrd_action):
> + """
> + Create new meter object for the ethernet device.
> + """
> + self.dut.send_expect("create port meter %d %d %d yes %s"
> + % (self.port_id, mtr_id, profile_id,
> + gyrd_action), "testpmd>")
> +
> + def create_flow_rule(self, ret_id, ip_ver, protocol, spec_id, mtr_id,
> queue_index_id):
> + """
> + Create flow rule based on port meter.
> + """
> + if ip_ver == "ipv4":
> + src_mask = "255.255.255.255"
> + dst_mask = "255.255.255.255"
> + src_ip = "1.10.11.12"
> + dst_ip = "2.20.21.22"
> + if ip_ver == "ipv6":
> + src_mask = "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff"
> + dst_mask = "0:0:0:0:0:0:0:0"
> + src_ip = "ABCD:EF01:2345:6789:ABCD:EF01:2345:5789"
> + dst_ip = "0:0:0:0:0:0:0:0"
> + protocol = protocol.lower()
> + if protocol == "tcp":
> + proto_id = 6
> + if protocol == "udp":
> + proto_id = 17
> + if protocol == "sctp":
> + proto_id = 132
> +
> + out = self.dut.send_expect("flow create %d group 0 ingress pattern eth
> / %s proto mask 255 src mask %s dst mask"
> + " %s src spec %s dst spec %s proto spec %d / %s src mask
> 65535 dst mask 65535 src "
> + "spec %d dst spec %d / end actions meter mtr_id %d /
> queue index %d / end"
> + % (self.port_id, ip_ver, src_mask, dst_mask, src_ip, dst_ip,
> proto_id, protocol,
> + spec_id, spec_id, mtr_id, queue_index_id), "testpmd>")
> + if ret_id == 1:
> + self.verify("Flow rule #" in out, "flow create fail")
> + else:
> + self.verify("METER: Meter already attached to a flow: Invalid argument"
> in out,
> + "flow create should fail, but NOT failed")
> +
> + def scapy_send_packet(self, ip_ver, protocol, fwd_port, pktsize):
> + """
> + Send a packet to DUT port 0
> + """
> + source_port =
> self.tester.get_interface(self.tester.get_local_port(self.dut_ports[0]))
> + protocol = protocol.upper()
> + if ip_ver == "ipv4":
> + src_ip = "1.10.11.12"
> + dst_ip = "2.20.21.22"
> + tag = "IP"
> + if protocol == "TCP":
> + proto_str = "proto=6"
> + if protocol == "UDP":
> + proto_str = "proto=17"
> + if protocol == "SCTP":
> + proto_str = "proto=132"
> +
> + if ip_ver == "ipv6":
> + src_ip = "ABCD:EF01:2345:6789:ABCD:EF01:2345:5789"
> + dst_ip = "2001::1"
> + tag = "IPv6"
> + if protocol == "TCP":
> + proto_str = "nh=6"
> + if protocol == "UDP":
> + proto_str = "nh=17"
> +
> + self.tester.scapy_append(
> +
> 'sendp([Ether(dst="%s")/%s(src="%s",dst="%s",%s)/%s(sport=%d,dport=%d)/Ra
> w(load="P"*%d)], iface="%s")'
> + % (self.dut_p0_mac, tag, src_ip, dst_ip, proto_str, protocol, fwd_port,
> fwd_port, pktsize, source_port))
> + self.tester.scapy_execute()
> +
> + def send_packet_and_check(self, ip_ver, protocol, fwd_port, pktsize,
> expect_port):
> + """
> + Send packet and check the stats. If expect_port == -1, the packet should be
> dropped.
> + """
> + time.sleep(3)
> + rx_before = []
> + tx_before = []
> + for i in range(0, len(self.dut_ports)):
> + output = self.dut.send_expect("show port stats %d" %(i),"testpmd>")
> + if i == 0:
> + rx_before.append(re.compile('RX-packets:\s+(.*?)\s+?').findall(output,
> re.S))
> +
> + tx_before.append(re.compile('TX-packets:\s+(.*?)\s+?').findall(output,
> + re.S))
> +
> + self.scapy_send_packet(ip_ver, protocol, fwd_port, pktsize)
> +
> + rx_after = []
> + tx_after = []
> + for i in range(0, len(self.dut_ports)):
> + output = self.dut.send_expect("show port stats %d" %(i),"testpmd>")
> + if i == 0:
> + rx_after.append(re.compile('RX-packets:\s+(.*?)\s+?').findall(output,
> re.S))
> +
> + tx_after.append(re.compile('TX-packets:\s+(.*?)\s+?').findall(output,
> + re.S))
> +
> + rx_packets_port = []
> + tx_packets_port = []
> + temp1 = int(rx_after[0][0]) - int(rx_before[0][0])
> + rx_packets_port.append(temp1)
> + for i in range(0, len(self.dut_ports)):
> + temp2 = int(tx_after[i][0]) - int(tx_before[i][0])
> + tx_packets_port.append(temp2)
> + self.verify(int(rx_packets_port[0]) == 1, "Wrong: port 0 did not recieve any
> packet")
> + if expect_port == -1:
> + for i in range(0, len(self.dut_ports)):
> + self.verify(int(tx_packets_port[i]) == 0, "Wrong: the packet is not
> dropped")
> + else:
> + self.verify(int(tx_packets_port[expect_port]) == 1, "Wrong:
> + can't forward package to port %d " % expect_port)
> +
> + def run_param(self, cbs, pbs, head):
> + """
> + Set cbs, pbs and head; return the packet size
> + """
> + pkt1 = pbs - head + 1
> + pkt2 = pbs - head
> + pkt3 = cbs - head + 1
> + pkt4 = cbs - head
> + pkt_list = [pkt1,pkt2,pkt3,pkt4]
> + return pkt_list
> +
> + def run_port_list(self,ip_ver,protocol,fwd_port,pkt_list,port_list):
> + for i in range(len(port_list)):
> + self.send_packet_and_check(ip_ver=ip_ver,
> + protocol=protocol, fwd_port=fwd_port, pktsize=pkt_list[i],
> + expect_port=port_list[i])
> +
> + def set_up_all(self):
> + """
> + Run at the start of each test suite.
> + """
> + self.dut_ports = self.dut.get_ports()
> + self.port_nums = 2
> + self.verify(len(self.dut_ports) >= self.port_nums,
> + "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])
> + if len(self.dut_ports) == 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_p0_mac = self.dut.get_mac_address(self.dut_ports[0])
> + self.port_id = len(self.dut_ports)
> + self.copy_config_files_to_dut()
> +
> + def set_up(self):
> + """
> + Run before each test case.
> + """
> + pass
> +
> + def test_ipv4_ACL_table_RFC2698_GYR(self):
> + """
> + Test Case 1: ipv4 ACL table RFC2698 GYR
> + """
> + self.update_firmware_cli(caseID=1)
> + cbs = 400
> + pbs = 500
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=40)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="g y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.dut.send_expect("start", "testpmd>")
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,0,0,0])
> +
> + def test_ipv4_ACL_table_RFC2698_GYD(self):
> + """
> + Test Case 2: ipv4 ACL table RFC2698 GYD
> + """
> + self.update_firmware_cli(caseID=2)
> + cbs = 400
> + pbs = 500
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=40)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="g y d 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.dut.send_expect("start", "testpmd>")
> + self.run_port_list("ipv4","tcp",2,pkt_list,[-1,0,0,0])
> +
> + def test_ipv4_ACL_table_RFC2698_GDR(self):
> + """
> + Test Case 3: ipv4 ACL table RFC2698 GDR
> + """
> + self.update_firmware_cli(caseID=3)
> + cbs = 400
> + pbs = 500
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=32)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="g d r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="sctp", spec_id=2,
> mtr_id=0, queue_index_id=1)
> + self.dut.send_expect("start", "testpmd>")
> + self.run_port_list("ipv4","sctp",2,pkt_list,[1,-1,-1,1])
> +
> + def test_ipv4_ACL_table_RFC2698_DYR(self):
> + """
> + Test Case 4: ipv4 ACL table RFC2698 DYR
> + """
> + self.update_firmware_cli(caseID=4)
> + cbs = 400
> + pbs = 500
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=28)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="d y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="udp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.dut.send_expect("start", "testpmd>")
> + self.run_port_list("ipv4","udp",2,pkt_list,[0,0,0,-1])
> +
> + def test_ipv4_ACL_table_RFC2698_DDD(self):
> + """
> + Test Case 5: ipv4 ACL table RFC2698 DDD
> + """
> + self.update_firmware_cli(caseID=5)
> + cbs = 400
> + pbs = 500
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=40)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="d d d 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.dut.send_expect("start", "testpmd>")
> + self.run_port_list("ipv4","tcp",2,pkt_list,[-1,-1,-1,-1])
> +
> + def test_ipv4_with_same_cbs_and_pbs_GDR(self):
> + """
> + Test Case 6: ipv4 with same cbs and pbs GDR
> + """
> + self.update_firmware_cli(caseID=6)
> + cbs = 500
> + pbs = 500
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=32)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="g d r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="sctp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.dut.send_expect("start", "testpmd>")
> + self.run_port_list("ipv4","sctp",2,pkt_list,[0,0])
> +
> + def test_ipv4_HASH_table_RFC2698(self):
> + """
> + Test Case 7: ipv4 HASH table RFC2698
> + """
> + self.update_firmware_cli(caseID=7)
> + cbs = 400
> + pbs = 500
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=40)
> +
> + # test 1 'g y r 0 0 0'
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="g y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.dut.send_expect("start", "testpmd>")
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,0,0,0])
> + self.dut.send_expect("quit", "#", 30)
> +
> + # test 2 'g y d 0 0 0'
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="g y d 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.dut.send_expect("start", "testpmd>")
> + self.run_port_list("ipv4","tcp",2,pkt_list,[-1,0,0,0])
> + self.dut.send_expect("quit", "#", 30)
> +
> + # test 5 'd d d 0 0 0'
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="d d d 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.dut.send_expect("start", "testpmd>")
> + self.run_port_list("ipv4","tcp",2,pkt_list,[-1,-1,-1,-1])
> + self.dut.send_expect("quit", "#", 30)
> +
> + # test 3 'g d r 0 0 0'
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=32)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="g d r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="sctp", spec_id=2,
> mtr_id=0, queue_index_id=1)
> + self.dut.send_expect("start", "testpmd>")
> + self.run_port_list("ipv4","sctp",2,pkt_list,[1,-1,-1,1])
> + self.dut.send_expect("quit", "#", 30)
> +
> + # test 4 'd y r 0 0 0'
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=28)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="d y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="udp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.dut.send_expect("start", "testpmd>")
> + self.run_port_list("ipv4","udp",2,pkt_list,[0,0,0,-1])
> + self.dut.send_expect("quit", "#", 30)
> +
> + def test_ipv6_ACL_table_RFC2698(self):
> + """
> + Test Case 8: ipv6 ACL table RFC2698
> + """
> + self.update_firmware_cli(caseID=8)
> + cbs = 400
> + pbs = 500
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="g y d 0 0 0")
> + self.create_port_meter(mtr_id=1, profile_id=0, gyrd_action="d y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv6", protocol="tcp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.create_flow_rule(ret_id=1, ip_ver="ipv6", protocol="udp", spec_id=2,
> mtr_id=1, queue_index_id=1)
> + self.dut.send_expect("start","testpmd>")
> +
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=60)
> + self.run_port_list("ipv6","tcp",2,pkt_list,[-1,0,0,0])
> +
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=48)
> + self.run_port_list("ipv6","udp",2,pkt_list,[1,1,1,-1])
> +
> + def test_ipv4_multiple_meter_and_profile(self):
> + """
> + Test Case 9: multiple meter and profile
> + """
> + self.update_firmware_cli(caseID=9)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=400, pbs=500)
> + self.add_port_meter_profile(profile_id=1, cbs=300, pbs=400)
> +
> + gyrd_action_list = ["g y r 0 0 0", "g y d 0 0 0", "g d r 0 0 0", "d y r 0 0 0", "g y
> d 0 0 0", "g d r 0 0 0", "d y r 0 0 0", "d d d 0 0 0"]
> + for i in range(0,len(gyrd_action_list)):
> + self.create_port_meter(mtr_id=i, profile_id=i*2/len(gyrd_action_list),
> gyrd_action=gyrd_action_list[i])
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=i,
> mtr_id=i, queue_index_id=i%len(self.dut_ports))
> + self.create_flow_rule(ret_id=0, ip_ver="ipv4", protocol="tcp",
> + spec_id=8, mtr_id=7, queue_index_id=0)
> +
> + self.dut.send_expect("start", "testpmd>")
> + output = self.dut.send_expect("flow list %d" % (self.port_id), "testpmd>")
> + print(output)
> +
> + pkt_list = self.run_param(cbs=400,pbs=500,head=40)
> + if len(self.dut_ports) == 4:
> + self.run_port_list("ipv4","tcp",0,pkt_list,[0,0,0,0])
> + self.run_port_list("ipv4","tcp",1,pkt_list,[-1,1,1,1])
> + self.run_port_list("ipv4","tcp",2,pkt_list,[2,-1,-1,2])
> + self.run_port_list("ipv4","tcp",3,pkt_list,[3,3,3,-1])
> + if len(self.dut_ports) == 2:
> + self.run_port_list("ipv4","tcp",0,pkt_list,[0,0,0,0])
> + self.run_port_list("ipv4","tcp",1,pkt_list,[-1,1,1,1])
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,-1,-1,0])
> + self.run_port_list("ipv4","tcp",3,pkt_list,[1,1,1,-1])
> +
> +
> + pkt_list = self.run_param(cbs=300,pbs=400,head=40)
> + if len(self.dut_ports) == 4:
> + self.run_port_list("ipv4","tcp",4,pkt_list,[-1,0,0,0])
> + self.run_port_list("ipv4","tcp",5,pkt_list,[1,-1,-1,1])
> + self.run_port_list("ipv4","tcp",6,pkt_list,[2,2,2,-1])
> + self.run_port_list("ipv4","tcp",7,pkt_list,[-1,-1,-1,-1])
> + if len(self.dut_ports) == 2:
> + self.run_port_list("ipv4","tcp",4,pkt_list,[-1,0,0,0])
> + self.run_port_list("ipv4","tcp",5,pkt_list,[1,-1,-1,1])
> + self.run_port_list("ipv4","tcp",6,pkt_list,[0,0,0,-1])
> + self.run_port_list("ipv4","tcp",7,pkt_list,[-1,-1,-1,-1])
> +
> + def test_ipv4_RFC2698_pre_colored_red_by_DSCP_table(self):
> + """
> + Test Case 10: ipv4 RFC2698 pre-colored red by DSCP table
> + """
> + self.update_firmware_cli(caseID=10)
> + cbs = 400
> + pbs = 500
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=40)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.dut.send_expect("start", "testpmd>")
> +
> + # test 0: GYR
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="g y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,0,0,0])
> +
> + # test 1: GYD
> + self.create_port_meter(mtr_id=1, profile_id=0, gyrd_action="g y d 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=1, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[-1,-1,-1,-1])
> +
> + # test 2: GDR
> + self.create_port_meter(mtr_id=2, profile_id=0, gyrd_action="g d r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=2, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,0,0,0])
> +
> + # test 3: DYR
> + self.create_port_meter(mtr_id=3, profile_id=0, gyrd_action="d y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=3, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,0,0,0])
> +
> + def test_ipv4_RFC2698_pre_colored_yellow_by_DSCP_table(self):
> + """
> + Test Case 11: ipv4 RFC2698 pre-colored yellow by DSCP table
> + """
> + self.update_firmware_cli(caseID=11)
> + cbs = 400
> + pbs = 500
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=40)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.dut.send_expect("start", "testpmd>")
> +
> + # test 0: GYR
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="g y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,0,0,0])
> +
> + # test 1: GYD
> + self.create_port_meter(mtr_id=1, profile_id=0, gyrd_action="g y d 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=1, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[-1,0,0,0])
> +
> + # test 2: GDR
> + self.create_port_meter(mtr_id=2, profile_id=0, gyrd_action="g d r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=2, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,-1,-1,-1])
> +
> + # test 3: DYR
> + self.create_port_meter(mtr_id=3, profile_id=0, gyrd_action="d y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=3, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,0,0,0])
> +
> + def test_ipv4_RFC2698_pre_colored_green_by_DSCP_table(self):
> + """
> + Test Case 12: ipv4 RFC2698 pre-colored green by DSCP table
> + """
> + self.update_firmware_cli(caseID=12)
> + cbs = 400
> + pbs = 500
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=40)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.dut.send_expect("start", "testpmd>")
> +
> + # test 0: GYR
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="g y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,0,0,0])
> +
> + # test 1: GYD
> + self.create_port_meter(mtr_id=1, profile_id=0, gyrd_action="g y d 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=1, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[-1,0,0,0])
> +
> + # test 2: GDR
> + self.create_port_meter(mtr_id=2, profile_id=0, gyrd_action="g d r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=2, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,-1,-1,0])
> +
> + # test 3: DYR
> + self.create_port_meter(mtr_id=3, profile_id=0, gyrd_action="d y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=3, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,0,0,-1])
> +
> + def test_ipv4_RFC2698_pre_colored_default_by_DSCP_table(self):
> + """
> + Test Case 13: ipv4 RFC2698 pre-colored by default DSCP table
> + """
> + self.update_firmware_cli(caseID=13)
> + cbs = 400
> + pbs = 500
> + pkt_list = self.run_param(cbs=cbs, pbs=pbs, head=40)
> + self.start_testpmd(self.new_firmware_cli)
> + self.add_port_meter_profile(profile_id=0, cbs=cbs, pbs=pbs)
> + self.dut.send_expect("start", "testpmd>")
> +
> + # test 0: GYR
> + self.create_port_meter(mtr_id=0, profile_id=0, gyrd_action="g y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=0, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,0,0,0])
> +
> + # test 1: GYD
> + self.create_port_meter(mtr_id=1, profile_id=0, gyrd_action="g y d 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=1, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[-1,0,0,0])
> +
> + # test 2: GDR
> + self.create_port_meter(mtr_id=2, profile_id=0, gyrd_action="g d r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=2, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,-1,-1,0])
> +
> + # test 3: DYR
> + self.create_port_meter(mtr_id=3, profile_id=0, gyrd_action="d y r 0 0 0")
> + self.create_flow_rule(ret_id=1, ip_ver="ipv4", protocol="tcp", spec_id=2,
> mtr_id=3, queue_index_id=0)
> + self.run_port_list("ipv4","tcp",2,pkt_list,[0,0,0,-1])
> +
> + def tear_down(self):
> + """
> + Run after each test case.
> + """
> + self.dut.kill_all()
> + time.sleep(2)
> +
> + def tear_down_all(self):
> + """
> + Run after each test suite.
> + """
> + pass
> --
> 2.17.2
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