From: Zhou Jun <junx.w.zhou@intel.com>
To: dts@dpdk.org
Cc: Zhou Jun <junx.w.zhou@intel.com>
Subject: [dts] [PATCH V1] tests: add new suite cvl ecpri
Date: Fri, 2 Apr 2021 18:34:33 +0800 [thread overview]
Message-ID: <20210402103433.94545-1-junx.w.zhou@intel.com> (raw)
ecpri only support by wireless pkg so split it to a new suite
Signed-off-by: Zhou Jun <junx.w.zhou@intel.com>
---
tests/TestSuite_cvl_ecpri.py | 898 +++++++++++++++++++++++++++++++++++
1 file changed, 898 insertions(+)
create mode 100644 tests/TestSuite_cvl_ecpri.py
diff --git a/tests/TestSuite_cvl_ecpri.py b/tests/TestSuite_cvl_ecpri.py
new file mode 100644
index 00000000..af018ffd
--- /dev/null
+++ b/tests/TestSuite_cvl_ecpri.py
@@ -0,0 +1,898 @@
+import re
+from packet import Packet
+from pmd_output import PmdOutput
+from test_case import TestCase
+import rte_flow_common as rfc
+import utils
+from utils import GREEN, RED
+import time
+
+Mac_list = ['00:11:22:33:44:55', '00:11:22:33:44:11', '00:11:22:33:44:22', '00:11:22:33:44:33']
+
+pkt_lst = ["Ether(dst='{}')/IP()/UDP(dport={})/Raw(\'\\x10\\x00\')",
+ "Ether(dst='{}')/IP()/UDP(dport={})/Raw(\'\\x10\\x02\')/Raw('x'*11)/Raw(\'\\x00\')",
+ "Ether(dst='{}')/IP()/UDP(dport={})/Raw(\'\\x10\\x02')/Raw('x'*11)/Raw(\'\\x01')",
+ "Ether(dst='{}')/IP()/UDP(dport={})/Raw(\'\\x10\\x02\')/Raw('x'*11)/Raw(\'\\x03\')",
+ "Ether(dst='{}')/IP()/UDP(dport={})/Raw(\'\\x10\\x02\')/Raw('x'*11)/Raw(\'\\x05\')",
+ "Ether(dst='{}')/IP()/UDP(dport={})/Raw(\'\\x10\\x02\')/Raw('x'*11)/Raw(\'\\x06\')",
+ "Ether(dst='{}')/IP()/UDP(dport={})/Raw(\'\\x10\\x02\')/Raw('x'*11)/Raw(\'\\x07\')",
+ "Ether(dst='{}')/IP()/UDP(dport={})/Raw(\'\\x10\\x02\')/Raw('x'*11)/Raw(\'\\x08\')",
+ "Ether(dst='{}')/IP()/UDP(dport={})/Raw(\'\\x10\\x05\')",
+ "Ether(dst='{}')/IP()/UDP(dport={})/Raw(\'\\x10\\x06\')"
+ ]
+
+ptype_match_lst = ['ptype=' + str(i) for i in range(372, 382)]
+ptype_nomatch_lst = ['ptype=24'] * 10
+
+# eCPRI over Ethernet header data.
+eCPRI_over_Ethernet_rule = "flow create 1 ingress pattern eth / ecpri common type iq_data / end actions rss types ecpri end key_len 0 queues end / end"
+over_eth_header_packets = {
+ 'match': ["Ether(dst='00:11:22:33:44:11', type=0xAEFE)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\x45\')"],
+ 'unmatched': ["Ether(dst='00:11:22:33:44:11', type=0xAEFE)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\x46\')"]
+}
+
+tv_over_eth_queue_index = {
+ "name": "test_eth_queue_index",
+ "rule": "flow create 1 ingress pattern eth / ecpri common type iq_data pc_id is 0x2345 / end actions queue index 3 / mark id 1 / end",
+ "scapy_str": over_eth_header_packets,
+ "check_func": rfc.check_mark,
+ "check_param": {"port_id": 1, "queue": 3, "mark_id": 1, 'rxq': 16},
+ "send_port": {"port_id": 0}
+}
+
+tv_over_eth_rss_queues = {
+ "name": "test_eth_rss_queues",
+ "rule": "flow create 1 ingress pattern eth / ecpri common type iq_data pc_id is 0x2345 / end actions rss queues 5 6 end / mark id 2 / end",
+ "scapy_str": over_eth_header_packets,
+ "check_func": rfc.check_mark,
+ "check_param": {"port_id": 1, "queue": [5, 6], "mark_id": 2, 'rxq': 16},
+ "send_port": {"port_id": 0}
+}
+
+tv_over_eth_drop = {
+ "name": "test_eth_drop",
+ "rule": "flow create 1 ingress pattern eth / ecpri common type iq_data pc_id is 0x2345 / end actions drop / end",
+ "scapy_str": over_eth_header_packets,
+ "check_func": rfc.check_mark,
+ "check_param": {"port_id": 1, "drop": True, 'rxq': 16},
+ "send_port": {"port_id": 0}
+}
+
+tv_over_eth_passthru = {
+ "name": "test_eth_passthru",
+ "rule": "flow create 1 ingress pattern eth / ecpri common type iq_data pc_id is 0x2345 / end actions passthru / mark id 1 / end",
+ "scapy_str": over_eth_header_packets,
+ "check_func": rfc.check_mark,
+ "check_param": {"port_id": 1, "rss": True, "mark_id": 1, 'rxq': 16},
+ "send_port": {"port_id": 0}
+}
+
+tv_over_eth_mark_rss = {
+ "name": "test_eth_mark_rss",
+ "rule": "flow create 1 ingress pattern eth / ecpri common type iq_data pc_id is 0x2345 / end actions mark / rss / end",
+ "scapy_str": over_eth_header_packets,
+ "check_func": rfc.check_mark,
+ "check_param": {"port_id": 1, "mark_id": 0, "rss": True, 'rxq': 16},
+ "send_port": {"port_id": 0}
+}
+
+tv_over_eth_mark = {
+ "name": "test_eth_mark",
+ "rule": "flow create 1 ingress pattern eth / ecpri common type iq_data pc_id is 0x2345 / end actions mark / end",
+ "scapy_str": over_eth_header_packets,
+ "check_func": rfc.check_mark,
+ "check_param": {"port_id": 1, "mark_id": 0, "rss": True, 'rxq': 16},
+ "send_port": {"port_id": 0}
+}
+
+# eCPRI over IP/UDP header data.
+eCPRI_over_IP_UDP_rule = "flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data / end actions rss types ecpri end key_len 0 queues end / end"
+over_ip_udp_header_packets = {
+ 'match': ["Ether(dst='00:11:22:33:44:11')/IP()/UDP(dport=0x5123)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\x45\')"],
+ 'unmatched': ["Ether(dst='00:11:22:33:44:11')/IP()/UDP(dport=0x5123)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\x46\')"]
+}
+
+tv_over_ip_udp_queue_index = {
+ "name": "test_ip_udp_queue_index",
+ "rule": "flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id is 0x2345 / end actions queue index 2 / mark / end",
+ "scapy_str": over_ip_udp_header_packets,
+ "check_func": rfc.check_mark,
+ "check_param": {"port_id": 1, "queue": 2, "mark_id": 0, 'rxq': 16},
+ "send_port": {"port_id": 0}
+}
+
+tv_over_ip_udp_rss_queues = {
+ "name": "test_ip_udp_rss_queues",
+ "rule": "flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id is 0x2345 / end actions rss queues 5 6 end / mark id 2 / end",
+ "scapy_str": over_ip_udp_header_packets,
+ "check_func": rfc.check_mark,
+ "check_param": {"port_id": 1, "queue": [5, 6], "mark_id": 2, 'rxq': 16},
+ "send_port": {"port_id": 0}
+}
+
+tv_over_ip_udp_drop = {
+ "name": "test_ip_udp_drop",
+ "rule": "flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id is 0x2345 / end actions drop / end",
+ "scapy_str": over_ip_udp_header_packets,
+ "check_func": rfc.check_mark,
+ "check_param": {"port_id": 1, "drop": True, 'rxq': 16},
+ "send_port": {"port_id": 0}
+}
+
+tv_over_ip_udp_passthru = {
+ "name": "test_ip_udp_passthru",
+ "rule": "flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id is 0x2345 / end actions passthru / mark id 1 / end",
+ "scapy_str": over_ip_udp_header_packets,
+ "check_func": rfc.check_mark,
+ "check_param": {"port_id": 1, "rss": True, "mark_id": 1, 'rxq': 16},
+ "send_port": {"port_id": 0}
+}
+
+tv_over_ip_udp_mark_rss = {
+ "name": "test_ip_udp_mark_rss",
+ "rule": "flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id is 0x2345 / end actions mark / rss / end",
+ "scapy_str": over_ip_udp_header_packets,
+ "check_func": rfc.check_mark,
+ "check_param": {"port_id": 1, "mark_id": 0, "rss": True, 'rxq': 16},
+ "send_port": {"port_id": 0}
+}
+
+tv_over_ip_udp_mark = {
+ "name": "test_ip_udp_mark",
+ "rule": "flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id is 0x2345 / end actions mark / end",
+ "scapy_str": over_ip_udp_header_packets,
+ "check_func": rfc.check_mark,
+ "check_param": {"port_id": 1, "mark_id": 0, "rss": True, 'rxq': 16},
+ "send_port": {"port_id": 0}
+}
+
+tv_over_eth = [tv_over_eth_queue_index, tv_over_eth_rss_queues, tv_over_eth_drop, tv_over_eth_passthru, tv_over_eth_mark_rss, tv_over_eth_mark]
+
+tv_over_ip_udp = [tv_over_ip_udp_queue_index, tv_over_ip_udp_rss_queues, tv_over_ip_udp_drop, tv_over_ip_udp_passthru, tv_over_ip_udp_mark_rss, tv_over_ip_udp_mark]
+
+class TestCVLEcpri(TestCase):
+ def set_up_all(self):
+ """
+ Run at the start of each test suite.
+ prerequisites.
+ """
+ # Based on h/w type, choose how many ports to use
+ self.dut_ports = self.dut.get_ports(self.nic)
+ self.verify(len(self.dut_ports) >= 2, "Insufficient ports for testing")
+ # Verify that enough threads are available
+ cores = self.dut.get_core_list("1S/4C/1T")
+ self.verify(cores is not None, "Insufficient cores for speed testing")
+ self.ports_socket = self.dut.get_numa_id(self.dut_ports[0])
+ self.tester_port0 = self.tester.get_local_port(self.dut_ports[0])
+ self.tester_port1 = self.tester.get_local_port(self.dut_ports[1])
+ self.tester_iface0 = self.tester.get_interface(self.tester_port0)
+ self.tester_iface1 = self.tester.get_interface(self.tester_port1)
+
+ self.used_dut_port = self.dut_ports[0]
+ self.pf_interface = self.dut.ports_info[self.dut_ports[0]]['intf']
+ self.file_path = './drivers/net/iavf/iavf_rxtx.c'
+ self.compile_dpdk()
+ self.vf_flag = False
+ self.create_iavf()
+
+ self.pass_flag = 'passed'
+ self.fail_flag = 'failed'
+ self.pkt = Packet()
+ self.pmd_output = PmdOutput(self.dut)
+ self.right_ecpri = '0x5123'
+ self.wrong_ecpri = '0x5121'
+
+ def set_up(self):
+ """
+ Run before each test case.
+ """
+ self.launch_testpmd()
+ self.pkt = Packet()
+
+ def create_iavf(self):
+ if self.vf_flag is False:
+ self.dut.bind_interfaces_linux('ice')
+ self.dut.generate_sriov_vfs_by_port(self.used_dut_port, 4)
+ self.sriov_vfs_port = self.dut.ports_info[self.used_dut_port]['vfs_port']
+ self.vf_flag = True
+
+ try:
+ for i in range(len(self.sriov_vfs_port)):
+ if i != len(self.sriov_vfs_port):
+ self.sriov_vfs_port[i].bind_driver(self.drivername)
+ self.dut.send_expect("ip link set %s vf %s mac %s" % (self.pf_interface, i, Mac_list[i]), "# ")
+
+ #self.vf0_prop = {'opt_host': self.sriov_vfs_port[0].pci}
+ #self.dut.send_expect("ifconfig %s up" % self.pf_interface, "# ")
+ self.dut.send_expect("ip link set %s vf 0 trust on" % self.pf_interface, "# ")
+ except Exception as e:
+ self.destroy_iavf()
+ raise Exception(e)
+
+ def destroy_iavf(self):
+ if self.vf_flag is True:
+ self.dut.destroy_sriov_vfs_by_port(self.used_dut_port)
+ self.vf_flag = False
+
+ def launch_testpmd(self):
+ eal_param = " -a {},cap=dcf -a {} -a {}".format(self.sriov_vfs_port[0].pci, self.sriov_vfs_port[1].pci,
+ self.sriov_vfs_port[2].pci)
+ param = " --rxq=16 --txq=16"
+ out = self.pmd_output.start_testpmd(cores=[0, 1, 2, 3], eal_param=eal_param, param=param, socket=self.ports_socket)
+ # check the VF0 driver is net_ice_dcf
+ self.check_dcf_status(out, stats=True)
+ self.pmd_output.execute_cmd("set fwd rxonly")
+ self.pmd_output.execute_cmd("set verbose 1")
+ self.pmd_output.execute_cmd("start")
+
+ def check_dcf_status(self, out_testpmd, stats=True):
+ """
+ check if request for DCF is accepted.
+ """
+ if stats:
+ self.verify("Failed to init DCF parent adapter" not in out_testpmd, "request for DCF is rejected.")
+ out_portinfo = self.dut.send_expect("show port info 0", "testpmd> ", 15)
+ self.verify("net_ice_dcf" in out_portinfo, "request for DCF is rejected.")
+ else:
+ self.verify("Failed to init DCF parent adapter" in out_testpmd, "request for DCF is accepted.")
+ out_portinfo = self.dut.send_expect("show port info 0", "testpmd> ", 15)
+ self.verify("net_ice_dcf" not in out_portinfo, "request for DCF is accepted.")
+
+ def test_add_and_delete_eCPRI_port_config_in_DCF(self):
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri {}".format(self.right_ecpri))
+ self.send_and_verify(Mac_list[1], self.right_ecpri, if_match=True)
+ self.send_and_verify(Mac_list[1], self.wrong_ecpri, if_match=False)
+ self.send_and_verify(Mac_list[2], self.right_ecpri, if_match=True)
+ # remove rule and test
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port rm ecpri {}".format(self.right_ecpri))
+
+ self.send_and_verify(Mac_list[1], self.right_ecpri, if_match=False)
+
+ def test_add_and_delete_eCPRI_port_config_in_DCF(self):
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri {}".format(self.right_ecpri))
+ self.pmd_output.execute_cmd("quit", expected="#")
+ self.launch_testpmd()
+ self.send_and_verify(Mac_list[1], self.right_ecpri, if_match=False)
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri {}".format(self.right_ecpri))
+ # use new mac to test
+ new_session = self.dut.create_session(name="new_session")
+ new_mac = "00:11:22:33:44:66"
+ new_session.send_expect("ip link set {} vf 0 mac {}".format(self.pf_interface, new_mac), "#", timeout=10)
+ self.send_and_verify(Mac_list[1], self.right_ecpri, if_match=False)
+ self.pmd_output.execute_cmd("quit", expected="#")
+ # set port vf 0 trust off and test
+ self.launch_testpmd()
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri {}".format(self.right_ecpri))
+ new_session.send_expect("ip link set {} vf 0 trust off".format(self.pf_interface), "#", timeout=10)
+ self.send_and_verify(Mac_list[1], self.right_ecpri, if_match=False)
+ new_session.close()
+
+ def test_DCF_port_config_and_linux_port_config(self):
+ new_session = self.dut.create_session(name="new_session")
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri {}".format(self.right_ecpri))
+ new_session.send_expect("dmesg -c", "#")
+ new_session.send_expect("ip link add vx0 type vxlan id 100 local 1.1.1.1 remote "
+ "2.2.2.2 dev {} dstport 0x1234".format(self.pf_interface), "#")
+ new_session.send_expect("ifconfig vx0 up", "#")
+ new_session.send_expect("ifconfig vx0 down", "#")
+ out = new_session.send_expect("dmesg", "#")
+ self.verify("Cannot config tunnel, the capability is used by DCF" in out, "port can used by another thread!")
+ # delete eCPRI port config and test
+ new_session.send_expect("dmesg -c", "#")
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port rm ecpri {}".format(self.right_ecpri))
+ new_session.send_expect("ifconfig vx0 up", "#")
+ new_session.send_expect("ifconfig vx0 down", "# ")
+ out = new_session.send_expect("dmesg", "#")
+ self.verify("Cannot config tunnel, the capability is used by DCF" not in out, "port can't used by another thread!")
+ self.pmd_output.execute_cmd("quit", "#")
+ # do ecpri test
+ self.launch_testpmd()
+ new_session.send_expect("ip link add vx0 type vxlan id 100 local 1.1.1.1 remote "
+ "2.2.2.2 dev {} dstport 0x1234".format(self.pf_interface), "#")
+ new_session.send_expect("ifconfig vx0 up", "#")
+ out = self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri {}".format(self.right_ecpri))
+ self.verify("ice_dcf_send_aq_cmd(): No response (201 times) or return failure (desc: -63 / buff: -63)" in out,
+ "test fail")
+ # set vx0 down and test
+ new_session.send_expect("ifconfig vx0 down", "#")
+ out = self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri {}".format(self.right_ecpri))
+ self.verify("ice_dcf_send_aq_cmd(): No response (201 times) or return failure (desc: -63 / buff: -63)"
+ not in out, "test fail")
+ new_session.close()
+
+ def test_negative_eCPRI_port_config_in_DCF(self):
+ ecpri_and_expect_dic = {"1": "Operation not supported",
+ "5": "Invalid port",
+ "15": "Invalid port",
+ "a": "Bad arguments"
+ }
+ # set wrong port to test
+ for ecpri in ecpri_and_expect_dic.keys():
+ out = self.pmd_output.execute_cmd("port config {} udp_tunnel_port add ecpri {}".format(ecpri, self.right_ecpri))
+ self.verify(ecpri_and_expect_dic[ecpri] in out, "test fail")
+ # set an invalid ecpri to test
+ ecpri_and_expect_dic = {"ffff": "Bad arguments",
+ "65536": "Bad arguments"}
+
+ for ecpri in ecpri_and_expect_dic.keys():
+ out = self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri {}".format(ecpri))
+ self.verify(ecpri_and_expect_dic[ecpri] in out, "test fail")
+ if ecpri == "0":
+ # test remove an invalid ecpri
+ out = self.pmd_output.execute_cmd("port config 0 udp_tunnel_port rm ecpri {}".format(ecpri))
+ self.verify("Operation not permitted" in out, "test fail")
+
+ def test_rss_for_udp_ecpri(self):
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri {}".format(self.right_ecpri))
+ self.pmd_output.execute_cmd("flow validate 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data / "
+ "end actions rss types ecpri end key_len 0 queues end / end")
+ self.pmd_output.execute_cmd("flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data / "
+ "end actions rss types ecpri end key_len 0 queues end / end")
+ tag_lst = ['x45', 'x46', 'x47']
+ pkt_str = "Ether(dst='{}')/IP()/UDP(dport=0x5123)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')".format(
+ Mac_list[1])
+ data_lst = self.get_receive_lst(tag_lst, [pkt_str])
+ hash_lst = [i.get('RSS hash') for i in data_lst]
+ self.verify(len(set(hash_lst)) == len(tag_lst) == len(set([i.get('queue') for i in data_lst])), "test fail, RSS hash is same.")
+ # destroy rule and test
+ self.pmd_output.execute_cmd("flow destroy 1 rule 0")
+ out = self.pmd_output.execute_cmd("flow list 1")
+ data_lst = self.get_receive_lst(tag_lst, [pkt_str], stats=False)
+ hash_lst = [i.get('RSS hash') for i in data_lst]
+ self.verify(len(hash_lst) == 0 or len(set(hash_lst)) == 1, "test fail, rule still worked.")
+
+ def test_rss_for_eth_ecpri(self):
+ self.dut.send_expect("quit", "# ")
+ eal_param = " -a {} -a {}".format(self.sriov_vfs_port[0].pci, self.sriov_vfs_port[1].pci)
+ param = " --rxq=16 --txq=16"
+ self.pmd_output.start_testpmd(cores=[0, 1, 2, 3], eal_param=eal_param, param=param, socket=self.ports_socket)
+ self.pmd_output.execute_cmd("set fwd rxonly")
+ self.pmd_output.execute_cmd("set verbose 1")
+ self.pmd_output.execute_cmd("start")
+ self.pmd_output.execute_cmd("flow validate 1 ingress pattern eth / ecpri common type iq_data / "
+ "end actions rss types ecpri end key_len 0 queues end / end")
+ self.pmd_output.execute_cmd("flow create 1 ingress pattern eth / ecpri common type iq_data / end actions "
+ "rss types ecpri end key_len 0 queues end / end")
+ tag_lst = ['x45', 'x46', 'x47']
+ pkt_str = "Ether(dst='{}', type=0xAEFE)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')".format(Mac_list[1])
+ data_lst = self.get_receive_lst(tag_lst, [pkt_str])
+ hash_lst = [i.get('RSS hash') for i in data_lst]
+ self.verify(len(set(hash_lst)) == len(tag_lst), "test fail, RSS hash is same.")
+ # destroy rule and test
+ self.pmd_output.execute_cmd("flow destroy 1 rule 0")
+ self.pmd_output.execute_cmd("flow list 1")
+ data_lst = self.get_receive_lst(tag_lst, [pkt_str], stats=False)
+ hash_lst = [i.get('RSS hash') for i in data_lst]
+ self.verify(len(hash_lst) == 0 or len(set(hash_lst)) == 1, "test fail, rule still worked.")
+
+ def test_rss_multirules_multiports(self):
+ dst_mac_lst = Mac_list[1:3]
+ tag_lst = ['x45', 'x46']
+ module_pkt_lst = ["Ether(dst='{}')/IP()/UDP(dport=0x5123)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')",
+ "Ether(dst='{}', type=0xAEFE)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')"]
+ rule_lst = ["flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data / end actions rss "
+ "types ecpri end key_len 0 queues end / end",
+ "flow create 1 ingress pattern eth / ecpri common type iq_data / end actions rss types ecpri end "
+ "key_len 0 queues end / end",
+ "flow create 2 ingress pattern eth / ipv4 / udp / ecpri common type iq_data / end actions rss types"
+ " ecpri end key_len 0 queues end / end",
+ "flow create 2 ingress pattern eth / ecpri common type iq_data / end actions rss types ecpri end "
+ "key_len 0 queues end / end"]
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri 0x5123")
+ for rule in rule_lst:
+ self.pmd_output.execute_cmd(rule)
+ out_data = {}
+ for dst_mac in dst_mac_lst:
+ pkt_lst = [pkt.format(dst_mac) for pkt in module_pkt_lst]
+ reta_line = self.get_receive_lst(tag_lst, pkt_lst)
+ out_data.setdefault(dst_mac, reta_line)
+ # verify
+ for key in out_data.keys():
+ hash_lst = [i.get('RSS hash') for i in out_data[key]]
+ self.verify(len(set(hash_lst)) == 2 and None not in hash_lst, 'test fail, RSS hash is same.')
+
+ # destroy rule to test
+ self.pmd_output.execute_cmd("flow destroy 1 rule 0")
+ self.pmd_output.execute_cmd("flow destroy 1 rule 1")
+ self.pmd_output.execute_cmd("flow list 1")
+ self.pmd_output.execute_cmd("flow destroy 2 rule 0")
+ self.pmd_output.execute_cmd("flow destroy 2 rule 1")
+ self.pmd_output.execute_cmd("flow list 2")
+ out_data = {}
+ for dst_mac in dst_mac_lst:
+ pkt_lst = [pkt.format(dst_mac) for pkt in module_pkt_lst]
+ reta_line = self.get_receive_lst(tag_lst[:1], pkt_lst, stats=False)
+ out_data.setdefault(dst_mac, reta_line)
+ # verify
+ for key in out_data.keys():
+ hash_lst = [i.get('RSS hash') for i in out_data[key]]
+ self.verify(len(set(hash_lst)) == 1, 'test fail, RSS hash is same.')
+
+ def test_rss_without_or_with_udp_port_set_for_udp_ecpri_rule(self):
+ tag_lst = ['x45', 'x46', 'x47', 'x48']
+ pkt = "Ether(dst='{}')/IP()/UDP(dport=0x5123)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')".format(Mac_list[1])
+ self.pmd_output.execute_cmd("flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data / end "
+ "actions rss types ecpri end key_len 0 queues end / end")
+ out_data = self.get_receive_lst(tag_lst, [pkt])
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(len(set(hash_lst)) == 1, 'test fail, rule worked!')
+ # set ecpri and test
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri 0x5123")
+ out_data = self.get_receive_lst(tag_lst[:2], [pkt])
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(len(set(hash_lst)) == 2 and None not in hash_lst, 'test fail, rule not worked!')
+
+ def test_DCF_reset_for_udp_ecpri_rss(self):
+ tag_lst = ['x45', 'x46', 'x47']
+ pkt = "Ether(dst='{}')/IP()/UDP(dport=0x5123)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')".format(Mac_list[1])
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri 0x5123")
+ self.pmd_output.execute_cmd("flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data / end "
+ "actions rss types ecpri end key_len 0 queues end / end")
+ out_data = self.get_receive_lst(tag_lst[:2], [pkt])
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(len(set(hash_lst)) == 2 and None not in hash_lst, 'test fail, RSS hash is same')
+
+ new_session = self.dut.create_session(name="new_session")
+ new_session.send_expect("ip link set {} vf 0 mac 00:11:22:33:44:66".format(self.pf_interface), "#")
+ out_data = self.get_receive_lst(tag_lst, [pkt])
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(len(set(hash_lst)) == 1, 'test fail, RSS hash is not same')
+
+ # restart testpmd and test
+ new_mac = "00:11:22:33:44:55"
+ new_session.send_expect("ip link set {} vf 0 mac {}".format(self.pf_interface, new_mac), "#")
+ self.dut.send_expect("quit", "# ")
+ self.launch_testpmd()
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri 0x5123")
+ self.pmd_output.execute_cmd("flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data / end "
+ "actions rss types ecpri end key_len 0 queues end / end")
+ out_data = self.get_receive_lst(tag_lst[:2], [pkt])
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(len(set(hash_lst)) == 2 and None not in hash_lst, 'test fail, RSS hash is same')
+
+ new_session.send_expect("ip link set {} vf 0 mac 00:11:22:33:44:66".format(self.pf_interface), "#")
+ out_data = self.get_receive_lst(tag_lst, [pkt])
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(len(set(hash_lst)) == 1, 'test fail, RSS hash is not same')
+
+ self.dut.send_expect("quit", "# ")
+ self.launch_testpmd()
+ new_session.send_expect("ip link set {} vf 0 trust off".format(self.pf_interface), "#")
+ out_data = self.get_receive_lst(tag_lst, [pkt])
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(len(set(hash_lst)) == 1, 'test fail, RSS hash is not same')
+ new_session.send_expect("ip link set {} vf 0 trust on".format(self.pf_interface), "#")
+ new_session.close()
+
+ def test_DCF_reset_for_eth_ecpri_rss(self):
+ tag_lst = ['x45', 'x46', 'x47', 'x48']
+ pkt = "Ether(dst='{}', type=0xAEFE)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')"
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri 0x5123")
+ self.pmd_output.execute_cmd("flow create 1 ingress pattern eth / ecpri common type iq_data / end actions rss types"
+ " ecpri end key_len 0 queues end / end")
+
+ out_data = self.get_receive_lst(tag_lst[:2], [pkt])
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(len(set(hash_lst)) == 2 and None not in hash_lst, 'test fail, RSS hash is same')
+ new_session = self.dut.create_session(name="new_session")
+ new_session.send_expect("ip link set {} vf 0 mac 00:11:22:33:44:66".format(self.pf_interface), "#")
+ out_data = self.get_receive_lst(tag_lst[1:], [pkt])
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(len(set(hash_lst)) == 3 and None not in hash_lst, 'test fail, RSS hash is same')
+
+ new_session.send_expect("ip link set {} vf 0 trust off".format(self.pf_interface), "#")
+ out_data = self.get_receive_lst(tag_lst[:2], [pkt])
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(len(set(hash_lst)) == 2 and None not in hash_lst, 'test fail, RSS hash is same')
+
+ new_session.send_expect("ip link set {} vf 0 mac 00:11:22:33:44:66".format(self.pf_interface), "#")
+ out_data = self.get_receive_lst(tag_lst[1:], [pkt])
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(len(set(hash_lst)) == 3 and None not in hash_lst, 'test fail, RSS hash is same')
+
+ new_session.send_expect("ip link set {} vf 0 trust on".format(self.pf_interface), "#")
+ new_session.send_expect("ip link set {} vf 0 mac 00:11:22:33:44:55".format(self.pf_interface), "#")
+ new_session.close()
+
+ def test_DCF_exit_for_eth_ecpri_and_udp_ecpri_rss(self):
+ self.dut.send_expect("quit", "# ")
+ eal_param = " -a {},cap=dcf".format(self.sriov_vfs_port[0].pci)
+ self.pmd_output.start_testpmd(cores=list(range(8)), eal_param=eal_param, prefix="test1", socket=self.ports_socket)
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri 0x5123")
+ new_session = self.dut.create_session(name="new_session")
+ pmd_output1 = PmdOutput(self.dut, new_session)
+ eal_param1 = " -a {} -a {}".format(self.sriov_vfs_port[1].pci, self.sriov_vfs_port[2].pci)
+ param = " --rxq=16 --txq=16"
+ pmd_output1.start_testpmd(cores=list(range(8)), eal_param=eal_param1, param=param, prefix="test2",
+ socket=self.ports_socket)
+ pmd_output1.execute_cmd("flow create 0 ingress pattern eth / ipv4 / udp / ecpri common type iq_data / end "
+ "actions rss types ecpri end key_len 0 queues end / end")
+ pmd_output1.execute_cmd("flow create 1 ingress pattern eth / ecpri common type iq_data / end actions rss "
+ "types ecpri end key_len 0 queues end / end")
+ pmd_output1.execute_cmd("set verbose 1")
+ pmd_output1.execute_cmd("set fwd rxonly")
+ pmd_output1.execute_cmd("start")
+ tag_lst = ['x45', 'x46']
+ pkt_lst = ["Ether(dst='{}')/IP()/UDP(dport=0x5123)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s')".format(Mac_list[1]),
+ "Ether(dst='{}', type=0xAEFE)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')".format(Mac_list[2])
+ ]
+ out_data = self.get_receive_lst(tag_lst, pkt_lst, pmd_output1)
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(len(set(hash_lst)) == 4 and None not in hash_lst, 'test fail, Rss hash is same.')
+ self.pmd_output.execute_cmd("quit", "#")
+ out_data = self.get_receive_lst(tag_lst, pkt_lst, pmd_output1)
+ # verify
+ hash_lst = [i.get('RSS hash') for i in out_data]
+ self.verify(hash_lst[0] == hash_lst[2] and hash_lst[1] != hash_lst[3], 'test fail, hash value is wrong.')
+ pmd_output1.execute_cmd("quit", '#')
+ new_session.close()
+
+ def create_fdir_rule(self, rule: (list, str), check_stats=None, msg=None, validate=True):
+ if validate:
+ if isinstance(rule, list):
+ validate_rule = [i.replace('create', 'validate') for i in rule]
+ else:
+ validate_rule = rule.replace('create', 'validate')
+ self.validate_fdir_rule(validate_rule, check_stats=check_stats)
+ p = re.compile(r"Flow rule #(\d+) created")
+ rule_list = []
+ if isinstance(rule, list):
+ for i in rule:
+ out = self.pmd_output.execute_cmd(i, timeout=1)
+ if msg:
+ self.verify(msg in out, "failed: expect %s in %s" % (msg, out))
+ m = p.search(out)
+ if m:
+ rule_list.append(m.group(1))
+ else:
+ rule_list.append(False)
+ elif isinstance(rule, str):
+ out = self.pmd_output.execute_cmd(rule, timeout=1)
+ if msg:
+ self.verify(msg in out, "failed: expect %s in %s" % (msg, out))
+ m = p.search(out)
+ if m:
+ rule_list.append(m.group(1))
+ else:
+ rule_list.append(False)
+ else:
+ raise Exception("unsupported rule type, only accept list or str")
+ if check_stats:
+ self.verify(all(rule_list), "some rules create failed, result %s" % rule_list)
+ elif check_stats == False:
+ self.verify(not any(rule_list), "all rules should create failed, result %s" % rule_list)
+ return rule_list
+
+ def validate_fdir_rule(self, rule, check_stats=True, check_msg=None):
+ flag = 'Flow rule validated'
+ if isinstance(rule, str):
+ out = self.pmd_output.execute_cmd(rule, timeout=1)
+ if check_stats:
+ self.verify(flag in out.strip(), "rule %s validated failed, result %s" % (rule, out))
+ else:
+ if check_msg:
+ self.verify(flag not in out.strip() and check_msg in out.strip(),
+ "rule %s validate should failed with msg: %s, but result %s" % (rule, check_msg, out))
+ else:
+ self.verify(flag not in out.strip(), "rule %s validate should failed, result %s" % (rule, out))
+ elif isinstance(rule, list):
+ for r in rule:
+ out = self.pmd_output.execute_cmd(r, timeout=1)
+ if check_stats:
+ self.verify(flag in out.strip(), "rule %s validated failed, result %s" % (r, out))
+ else:
+ if not check_msg:
+ self.verify(flag not in out.strip(), "rule %s validate should failed, result %s" % (r, out))
+ else:
+ self.verify(flag not in out.strip() and check_msg in out.strip(),
+ "rule %s should validate failed with msg: %s, but result %s" % (
+ r, check_msg, out))
+
+ def check_fdir_rule(self, port_id=0, stats=True, rule_list=None):
+ out = self.pmd_output.execute_cmd("flow list %s" % port_id)
+ p = re.compile(r"ID\s+Group\s+Prio\s+Attr\s+Rule")
+ matched = p.search(out)
+ if stats:
+ self.verify(matched, "flow rule on port %s is not existed" % port_id)
+ if rule_list:
+ p = re.compile("^(\d+)\s")
+ li = out.splitlines()
+ res = list(filter(bool, list(map(p.match, li))))
+ result = [i.group(1) for i in res]
+ self.verify(sorted(result) == sorted(rule_list),
+ "check rule list failed. expect %s, result %s" % (rule_list, result))
+ else:
+ if rule_list:
+ p = re.compile("^(\d+)\s")
+ li = out.splitlines()
+ res = list(filter(bool, list(map(p.match, li))))
+ result = [i.group(1) for i in res]
+ self.verify(not [i for i in rule_list if i in result],
+ "check rule list failed. flow rule %s on port %s is existed" % (rule_list, port_id))
+ else:
+ self.verify(not matched, "flow rule on port %s is existed" % port_id)
+
+ def destroy_fdir_rule(self, port_id=0, rule_id=None):
+ if rule_id is None:
+ rule_id = 0
+ if isinstance(rule_id, list):
+ for i in rule_id:
+ out = self.dut.send_command("flow destroy %s rule %s" % (port_id, i), timeout=1)
+ p = re.compile(r"Flow rule #(\d+) destroyed")
+ m = p.search(out)
+ self.verify(m, "flow rule %s delete failed" % rule_id)
+ else:
+ out = self.dut.send_command("flow destroy %s rule %s" % (port_id, rule_id), timeout=1)
+ p = re.compile(r"Flow rule #(\d+) destroyed")
+ m = p.search(out)
+ self.verify(m, "flow rule %s delete failed" % rule_id)
+
+ def send_packets(self, packets, tx_port=None, count=1):
+ self.pkt.update_pkt(packets)
+ tx_port = self.tester_iface0 if not tx_port else tx_port
+ self.pkt.send_pkt(crb=self.tester, tx_port=tx_port, count=count)
+
+ def send_pkts_getouput(self, pkts, port_id=0, count=1, drop=False):
+ tx_port = self.tester_iface0 if port_id == 0 else self.tester_iface1
+
+ time.sleep(1)
+ if drop:
+ self.pmd_output.execute_cmd("clear port stats all")
+ time.sleep(0.5)
+ self.send_packets(pkts, tx_port=tx_port, count=count)
+ out = self.pmd_output.execute_cmd("stop")
+ self.pmd_output.execute_cmd("start")
+ else:
+ self.send_packets(pkts, tx_port=tx_port, count=count)
+ out = self.pmd_output.get_output()
+ return out
+
+ def _rte_flow_validate(self, vectors):
+ test_results = {}
+ for tv in vectors:
+ try:
+ count = 1
+ port_id = tv["send_port"]["port_id"] if tv["send_port"].get("port_id") is not None else 0
+ dut_port_id = tv["check_param"]["port_id"] if tv["check_param"].get("port_id") is not None else 0
+ drop = tv["check_param"].get("drop")
+ # create rule
+ rule_li = self.create_fdir_rule(tv["rule"], check_stats=True)
+ # send and check match packets
+ out1 = self.send_pkts_getouput(pkts=tv["scapy_str"]["match"], port_id=port_id,
+ count=count, drop=drop)
+ matched_queue = tv["check_func"](out1, pkt_num=len(tv["scapy_str"]["match"]),
+ check_param=tv["check_param"])
+ # send and check unmatched packets
+ out2 = self.send_pkts_getouput(pkts=tv["scapy_str"]["unmatched"], port_id=port_id,
+ count=count, drop=drop)
+ tv["check_func"](out2, pkt_num=len(tv["scapy_str"]["unmatched"]), check_param=tv["check_param"],
+ stats=False)
+ # list and destroy rule
+ self.check_fdir_rule(port_id=tv["check_param"]["port_id"], rule_list=['0'] + rule_li)
+ self.destroy_fdir_rule(rule_id=rule_li, port_id=dut_port_id)
+ # send matched packet
+ out3 = self.send_pkts_getouput(pkts=tv["scapy_str"]["match"], port_id=port_id,
+ count=count, drop=drop)
+ matched_queue2 = tv["check_func"](out3, pkt_num=len(tv["scapy_str"]["match"]),
+ check_param=tv["check_param"],
+ stats=False)
+ if tv["check_param"].get("rss"):
+ self.verify(matched_queue == matched_queue2 and None not in matched_queue,
+ "send twice matched packet, received in deferent queues")
+ # check not rule exists
+ self.check_fdir_rule(port_id=dut_port_id, rule_list=rule_li, stats=False)
+ test_results[tv["name"]] = True
+ self.logger.info((GREEN("case passed: %s" % tv["name"])))
+ except Exception as e:
+ self.logger.warning((RED(e)))
+ self.dut.send_command("flow flush 0", timeout=1)
+ self.dut.send_command("flow flush 1", timeout=1)
+ test_results[tv["name"]] = False
+ self.logger.info((GREEN("case failed: %s" % tv["name"])))
+ continue
+ failed_cases = []
+ for k, v in list(test_results.items()):
+ if not v:
+ failed_cases.append(k)
+ self.verify(all(test_results.values()), "{} failed.".format(failed_cases))
+
+ def test_eCPRI_over_Ethernet_header_pattern_fdir(self):
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri 0x5123")
+ self.create_fdir_rule(rule=eCPRI_over_Ethernet_rule, check_stats=True)
+ self._rte_flow_validate(tv_over_eth)
+
+ def test_eCPRI_over_IP_or_UDP_header_pattern_fdir(self):
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri 0x5123")
+ self.create_fdir_rule(rule=eCPRI_over_IP_UDP_rule, check_stats=True)
+ self._rte_flow_validate(tv_over_ip_udp)
+
+ def test_ecpri_fdir_multirules(self):
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri 0x5123")
+ rule_lst = ["flow create 1 ingress pattern eth / ecpri common type iq_data / end actions rss types ecpri end "
+ "key_len 0 queues end / end",
+ "flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data / end actions rss "
+ "types ecpri end key_len 0 queues end / end",
+ "flow create 2 ingress pattern eth / ecpri common type iq_data / end actions rss types ecpri end "
+ "key_len 0 queues end / end",
+ "flow create 2 ingress pattern eth / ipv4 / udp / ecpri common type iq_data / end actions rss "
+ "types ecpri end key_len 0 queues end / end",
+ "flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id is 0x2345 / end "
+ "actions rss queues 5 6 end / mark id 0 / end",
+ "flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id is 0x2346 / end "
+ "actions passthru / mark id 1 / end",
+ "flow create 1 ingress pattern eth / ecpri common type iq_data pc_id is 0x2345 / end actions "
+ "drop / end",
+ "flow create 1 ingress pattern eth / ecpri common type iq_data pc_id is 0x2346 / end actions "
+ "queue index 1 / mark id 2 / end",
+ "flow create 2 ingress pattern eth / ecpri common type iq_data pc_id is 0x2346 / end actions "
+ "mark id 3 / end",
+ "flow create 2 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id is 0x2346 / end "
+ "actions mark / rss / end"]
+ for rule in rule_lst:
+ self.pmd_output.execute_cmd(rule)
+ tag_lst = ['x45', 'x46']
+ module_pkt_lst = ["Ether(dst='{}')/IP()/UDP(dport=0x5123)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')",
+ "Ether(dst='{}', type=0xAEFE)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')"]
+ pkt_lst = ["Ether(dst='{}')/IP()/UDP(dport=0x5123)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')".format(Mac_list[1])]
+ data_lst = self.get_receive_lst(tag_lst[: 1], pkt_lst, stats=False)
+ queue = [data.get('queue') for data in data_lst]
+ self.verify([i for i in queue if i in ['5', '6']], 'pkt go to wrong queue!')
+ self.verify([data.get('FDIR matched ID') for data in data_lst] == ['0x0'], 'pkt has wrong mark id!')
+ data_lst = self.get_receive_lst(tag_lst[1: ], pkt_lst)
+ self.verify([data.get('FDIR matched ID') for data in data_lst] == ['0x1'], 'pkt has wrong mark id!')
+ pkt_lst = ["Ether(dst='{}', type=0xAEFE)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')".format(Mac_list[1])]
+ data_lst = self.get_receive_lst(tag_lst, pkt_lst, stats=False)
+ self.verify([data.get('queue') for data in data_lst] == [None, '1'], 'pkt go to wrong queue!')
+ self.verify([data.get('FDIR matched ID') for data in data_lst] == [None, '0x2'], 'pkt has wrong mark id!')
+ pkt_lst = [pkt.format(Mac_list[2]) for pkt in module_pkt_lst]
+ data_lst = self.get_receive_lst(tag_lst, pkt_lst)
+ self.verify([data.get('FDIR matched ID') for data in data_lst] == [None, None, '0x0', '0x3'], 'pkt has wrong mark id!')
+
+ def test_ecpri_fdir_negative_case(self):
+ out = self.pmd_output.execute_cmd("flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id is "
+ "0x2345 / end actions rss queues 5 6 end / mark id 0 / end")
+ self.verify("Failed to create parser engine.: Invalid argument" in out, "test fail, bad rule set success.")
+ out = self.pmd_output.execute_cmd("flow list 1")
+ r = r'flow list 1(\s+)(.*)'
+ m = re.match(r, out)
+ self.verify(m.group(2) == '', 'bad rule set successful!')
+
+ def test_ecpri_fdir_when_DCF_reset(self):
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri 0x5123")
+ self.pmd_output.execute_cmd("flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id "
+ "is 0x2345 / end actions queue index 1 / mark id 1 / end")
+ self.pmd_output.execute_cmd("flow create 1 ingress pattern eth / ecpri common type iq_data pc_id is "
+ "0x2345 / end actions queue index 2 / mark id 2 / end")
+ pkt_lst = ["Ether(dst='{}')/IP()/UDP(dport=0x5123)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')".format(Mac_list[1]),
+ "Ether(dst='{}', type=0xAEFE)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')".format(Mac_list[1])]
+ tag_lst = ['x45']
+ data_lst = self.get_receive_lst(tag_lst, pkt_lst)
+ # verify
+ self.verify([data.get('queue') for data in data_lst] == ['1', '2'], "pkt to the wrong queue!")
+ self.verify([data.get('FDIR matched ID') for data in data_lst] == ['0x1', '0x2'], "pkt with wrong FDIR matched ID!")
+ new_session = self.dut.create_session(name="new_session")
+ new_session.send_expect('ip link set {} vf 0 mac 00:11:22:33:44:66'.format(self.pf_interface), '#')
+ data_lst = self.get_receive_lst(tag_lst, pkt_lst)
+ # verify
+ self.verify(data_lst[1].get('queue') == '2', "pkt to the wrong queue!")
+ self.verify([data.get('FDIR matched ID') for data in data_lst] == [None, '0x2'], "pkt with wrong FDIR matched ID!")
+ self.dut.send_expect("quit", "#")
+ self.launch_testpmd()
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri 0x5123")
+ self.pmd_output.execute_cmd("flow create 1 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id "
+ "is 0x2345 / end actions queue index 1 / mark id 1 / end")
+ self.pmd_output.execute_cmd("flow create 1 ingress pattern eth / ecpri common type iq_data pc_id is "
+ "0x2345 / end actions queue index 2 / mark id 2 / end")
+ data_lst = self.get_receive_lst(tag_lst, pkt_lst)
+ self.verify([data.get('queue') for data in data_lst] == ['1', '2'], "pkt to the wrong queue!")
+ self.verify([data.get('FDIR matched ID') for data in data_lst] == ['0x1', '0x2'], "pkt with wrong FDIR matched ID!")
+ new_session.send_expect("ip link set {} vf 0 trust off".format(self.pf_interface), "#")
+ data_lst = self.get_receive_lst(tag_lst, pkt_lst)
+ self.verify(data_lst[1].get('queue') == '2', "pkt to the wrong queue!")
+ self.verify([data.get('FDIR matched ID') for data in data_lst] == [None, '0x2'], "pkt with wrong FDIR matched ID!")
+ new_session.close()
+
+ def test_ecpri_fdir_when_DCF_exit(self):
+ self.dut.send_expect("quit", "#")
+ eal_param = " -a {},cap=dcf".format(self.sriov_vfs_port[0].pci)
+ self.pmd_output.start_testpmd(cores=list(range(8)), eal_param=eal_param, prefix="test1",
+ socket=self.ports_socket)
+ self.pmd_output.execute_cmd("port config 0 udp_tunnel_port add ecpri 0x5123")
+ new_session = self.dut.create_session(name="new_session")
+ pmd_output1 = PmdOutput(self.dut, new_session)
+ eal_param1 = " -a {} -a {}".format(self.sriov_vfs_port[1].pci, self.sriov_vfs_port[2].pci)
+ param = " --rxq=16 --txq=16"
+ pmd_output1.start_testpmd(cores=list(range(8)), eal_param=eal_param1, param=param, prefix="test2",
+ socket=self.ports_socket)
+ pmd_output1.execute_cmd("flow create 0 ingress pattern eth / ipv4 / udp / ecpri common type iq_data pc_id "
+ "is 0x2345 / end actions queue index 1 / mark id 1 / end")
+ pmd_output1.execute_cmd("flow create 0 ingress pattern eth / ecpri common type iq_data pc_id is 0x2345 / end "
+ "actions queue index 2 / mark id 2 / end")
+ pmd_output1.execute_cmd("set verbose 1")
+ pmd_output1.execute_cmd("set fwd rxonly")
+ pmd_output1.execute_cmd("start")
+ pkt_lst = ["Ether(dst='{}')/IP()/UDP(dport=0x5123)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')".format(Mac_list[1]),
+ "Ether(dst='{}', type=0xAEFE)/Raw(\'\\x10\\x00\\x02\\x24\\x23\\%s\')".format(Mac_list[1])]
+ tag_lst = ['x45']
+ data_lst = self.get_receive_lst(tag_lst, pkt_lst, pmd_output=pmd_output1)
+ # verify
+ self.verify([data.get('FDIR matched ID') for data in data_lst] == ['0x1', '0x2'] and [data.get('queue') for data in data_lst] == ['1', '2'], 'mark id or queue wrong!')
+
+ self.dut.send_expect("quit", "#")
+ data_lst = self.get_receive_lst(tag_lst, pkt_lst, pmd_output=pmd_output1)
+ # verify
+ self.verify([data.get('FDIR matched ID') for data in data_lst] == [None, '0x2'] and data_lst[1].get('queue') == '2', 'mark id or queue wrong!')
+
+ def get_receive_lst(self, tag_lst=[], pkt_lst=[], pmd_output='', stats=True):
+ data_lst = []
+ for tag in tag_lst:
+ for pkt in pkt_lst:
+ pkt_str = pkt % tag
+ out = self.send_pkt(pkt_str=pkt_str, pmd_output=pmd_output)
+ rfc.verify_directed_by_rss(out, rxq=16, stats=stats)
+ reta_line = self.get_receive_data(out)
+ data_lst.append(reta_line)
+ return data_lst
+
+ def get_receive_data(self, out):
+ reta_line = {}
+ lines = out.split("\r\n")
+ for line in lines:
+ line = line.strip()
+ if len(line) != 0 and line.strip().startswith("port "):
+ reta_line = {}
+ rexp = r"port (\d)/queue (\d{1,2}): received (\d) packets"
+ m = re.match(rexp, line.strip())
+ if m:
+ reta_line["port"] = m.group(1)
+ reta_line["queue"] = m.group(2)
+
+ elif len(line) != 0 and line.startswith(("src=",)):
+ for item in line.split("-"):
+ item = item.strip()
+ if item.startswith("RSS hash"):
+ name, value = item.split("=", 1)
+ reta_line[name.strip()] = value.strip()
+ elif item.startswith("FDIR matched ID"):
+ name, value = item.split("=", 1)
+ reta_line[name.strip()] = value.strip()
+ return reta_line
+
+ def compile_dpdk(self):
+ cmd_lst = [r"sed -i '/iavf_flex_rxd_to_vlan_tci(rxm, &rxd, rxq->rx_flags);/i\printf(\"++++++++++++ptype=%u\\n\",IAVF_RX_FLEX_DESC_PTYPE_M & rte_le_to_cpu_16(rxd.wb.ptype_flex_flags0));' ",
+ r"sed -i '/IAVF_DEV_PRIVATE_TO_VF(dev->data->dev_private);/{:a;n;s/ifdef RTE_ARCH_X86/if 0/g;/struct iavf_rx_queue/!ba}' ",
+ r"sed -i '/rx_pkt_burst = iavf_recv_pkts;/{n;s/\}/\}dev->rx_pkt_burst = iavf_recv_pkts_flex_rxd;\n/g}' "]
+ for cmd in cmd_lst:
+ self.dut.send_expect(cmd + self.file_path, "#")
+ self.dut.build_install_dpdk(self.target)
+
+ def send_and_verify(self, dts_mac, ecpri, if_match=True):
+ ptype_lst = ptype_match_lst if if_match else ptype_nomatch_lst
+ for i in range(len(pkt_lst)):
+ out = self.send_pkt(pkt_lst[i], dts_mac=dts_mac, ecpri=ecpri)
+ self.verify(ptype_lst[i] in out, 'ptype is error, expect {}'.format(ptype_lst[i]))
+
+ def send_pkt(self, pkt_str='', dts_mac='00:11:22:33:44:11', ecpri='0x5123', pmd_output=''):
+ self.pkt.append_pkt(pkt_str.format(dts_mac, ecpri))
+ self.pkt.send_pkt(crb=self.tester, tx_port=self.tester_iface0, count=1)
+ out = pmd_output.get_output() if pmd_output else self.pmd_output.get_output()
+ self.pkt.update_pkt([])
+ return out
+
+ def tear_down(self):
+ self.dut.kill_all()
+
+ def tear_down_all(self):
+ self.dut.kill_all()
--
2.25.1
reply other threads:[~2021-04-02 10:36 UTC|newest]
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