* [dts] [PATCH 1/4] add unified packet type module and test suite
2015-09-16 8:56 [dts] [PATCH 0/4] add unified packet type module and test suite Yufen Mo
@ 2015-09-16 8:56 ` Yufen Mo
2015-09-16 13:00 ` Liu, Yong
2015-09-16 8:56 ` [dts] [PATCH 2/4] " Yufen Mo
` (3 subsequent siblings)
4 siblings, 1 reply; 7+ messages in thread
From: Yufen Mo @ 2015-09-16 8:56 UTC (permalink / raw)
To: dts; +Cc: yufengmx
From: yufengmx <yufengmx.mo@intel.com>
unified packet type test suite implementation
Signed-off-by: yufengmx <yufengmx.mo@intel.com>
---
framework/packet.py | 642 ++++++++++++++++++++++++++++++++++++++++++++++++++++
1 file changed, 642 insertions(+)
create mode 100755 framework/packet.py
diff --git a/framework/packet.py b/framework/packet.py
new file mode 100755
index 0000000..0a3f330
--- /dev/null
+++ b/framework/packet.py
@@ -0,0 +1,642 @@
+#!/usr/bin/python
+# BSD LICENSE
+#
+# Copyright(c) 2010-2015 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.
+"""
+Generic packet create, transmit and analyze module
+Base on scapy(python program for packet manipulation)
+"""
+
+import os
+import time
+import signal
+import sys
+import re
+import signal
+import random
+import subprocess
+from uuid import uuid4
+from settings import FOLDERS
+
+from scapy.config import conf
+conf.use_pcap = True
+
+from scapy.all import conf
+from scapy.utils import struct, socket, wrpcap, rdpcap
+from scapy.layers.inet import Ether, IP, TCP, UDP, ICMP
+from scapy.layers.inet6 import IPv6, IPv6ExtHdrRouting, IPv6ExtHdrFragment
+from scapy.layers.l2 import Dot1Q, ARP, GRE
+from scapy.layers.sctp import SCTP, SCTPChunkData
+from scapy.sendrecv import sniff
+from scapy.route import *
+from scapy.packet import bind_layers, Raw
+from scapy.sendrecv import sendp
+
+
+sys.path.append(FOLDERS['Depends'])
+# load extension layers
+from vxlan import Vxlan
+bind_layers(UDP, Vxlan, dport=4789)
+bind_layers(Vxlan, Ether)
+from nvgre import NVGRE, IPPROTO_NVGRE
+bind_layers(IP, NVGRE, proto=IPPROTO_NVGRE)
+bind_layers(NVGRE, Ether)
+from lldp import LLDP, LLDPManagementAddress
+bind_layers(Ether, LLDP, type=0x88cc)
+
+# packet generator type should be configured later
+PACKETGEN = "scapy"
+
+LayersTypes = {
+ "L2": ['ether', 'dot1q', '1588', 'arp', 'lldp'],
+ # ipv4_ext_unknown, ipv6_ext_unknown
+ "L3": ['ipv4','ipv4ihl', 'ipv6', 'ipv4_ext', 'ipv6_ext','ipv6_ext2', 'ipv6_frag'],
+ "L4": ['tcp', 'udp', 'frag', 'sctp', 'icmp', 'nofrag'],
+ "TUNNEL": ['ip', 'gre', 'vxlan', 'nvgre', 'geneve', 'grenat'],
+ "INNER L2": ['inner_mac', 'inner_mac&vlan'],
+ # inner_ipv4_unknown, inner_ipv6_unknown
+ "INNER L3": ['inner_ipv4', 'inner_ipv4_ext', 'inner_ipv6', 'inner_ipv6_ext'],
+ "INNER L4": ['inner_tcp', 'inner_udp', 'inner_frag', 'inner_sctp', 'inner_icmp', 'inner_nofrag'],
+ "PAYLOAD": ['raw']
+}
+
+# Saved back groud sniff process id
+SNIFF_PIDS = {}
+
+# Saved packet generator process id
+# used in pktgen or tgen
+PKTGEN_PIDS = {}
+
+
+class scapy(object):
+ SCAPY_LAYERS = {
+ 'ether': Ether(dst="ff:ff:ff:ff:ff:ff"),
+ 'dot1q': Dot1Q(),
+ '1588': Ether(type=0x88f7),
+ 'arp': ARP(),
+ 'ipv4': IP(),
+ 'ipv4ihl': IP(ihl=10),
+ 'ipv4_ext': IP(frag=5),
+ 'ipv6': IPv6(src="::1"),
+ 'ipv6_ext': IPv6(src="::1", nh=43)/IPv6ExtHdrRouting(),
+ 'ipv6_ext2': IPv6()/IPv6ExtHdrRouting(),
+ 'udp': UDP(),
+ 'tcp': TCP(),
+ 'sctp': SCTP(),
+ 'icmp': ICMP(),
+ 'gre': GRE(),
+ 'raw': Raw(),
+ 'vxlan': Vxlan(),
+
+ 'inner_mac': Ether(),
+ 'inner_mac&vlan': Ether() / Dot1Q(),
+ 'inner_ipv4': IP(),
+ 'inner_ipv4_ext': IP(),
+ 'inner_ipv6': IPv6(src="::1"),
+ 'inner_ipv6_ext': IPv6(src="::1"),
+
+ 'inner_tcp': TCP(),
+ 'inner_udp': UDP(),
+ 'inner_sctp': SCTP(),
+ 'inner_icmp': ICMP(),
+
+ 'lldp': LLDP()/LLDPManagementAddress(),
+ 'ip_frag': IP(frag=5),
+ 'ipv6_frag': IPv6(src="::1")/IPv6ExtHdrFragment(),
+ 'ip_in_ip': IP()/IP(),
+ 'ip_in_ip_frag': IP()/IP(frag=5),
+ 'ipv6_in_ip': IP()/IPv6(src="::1"),
+ 'ipv6_frag_in_ip': IP()/IPv6(src="::1", nh=44)/IPv6ExtHdrFragment(),
+ 'nvgre': NVGRE(),
+ 'geneve': "Not Implement",
+ }
+
+ def __init__(self):
+ self.pkt = None
+ pass
+
+ def assign_pkt(self, pkt):
+ self.pkt = pkt
+
+ def add_layers(self, layers):
+ self.pkt = None
+ for layer in layers:
+ if self.pkt is not None:
+ self.pkt = self.pkt / self.SCAPY_LAYERS[layer]
+ else:
+ self.pkt = self.SCAPY_LAYERS[layer]
+
+ def ether(self, dst="ff:ff:ff:ff:ff:ff", src="00:00:20:00:00:00", type=None):
+ self.pkt[Ether].dst = dst
+ self.pkt[Ether].src = src
+ if type is not None:
+ self.pkt[Ether].type = type
+
+ def dot1q(self, vlan, prio=0, type=None):
+ self.pkt[Dot1Q].vlan = int(vlan)
+ self.pkt[Dot1Q].prio = prio
+ if type is not None:
+ self.pkt[Dot1Q].type = type
+
+ def strip_dot1q(self, element):
+ value = None
+
+ if self.pkt.haslayer('Dot1Q') is 0:
+ return None
+
+ if element == 'vlan':
+ value = int(str(self.pkt[Dot1Q].vlan))
+ return value
+
+ def ipv4(self, frag=0, src="127.0.0.1", proto=None, tos=0, dst="127.0.0.1", chksum=None, len=None, version=4, flags=None, ihl=None, ttl=64, id=1, options=None):
+ self.pkt[IP].frag = frag
+ self.pkt[IP].src = src
+ if proto is not None:
+ self.pkt[IP].proto = proto
+ self.pkt[IP].tos = tos
+ self.pkt[IP].dst = dst
+ if chksum is not None:
+ self.pkt[IP].chksum = chksum
+ if len is not None:
+ self.pkt[IP].len = len
+ self.pkt[IP].version = version
+ if flags is not None:
+ self.pkt[IP].flags = flags
+ if ihl is not None:
+ self.pkt[IP].ihl = ihl
+ self.pkt[IP].ttl = ttl
+ self.pkt[IP].id = id
+ if options is not None:
+ self.pkt[IP].options = options
+
+ def ipv6(self, version=6, tc=0, fl=0, plen=0, nh=0, hlim=64, src="::1", dst="::1"):
+ """
+ Configure IPv6 protocal.
+ """
+ self.pkt[IPv6].version = version
+ self.pkt[IPv6].tc = tc
+ self.pkt[IPv6].fl = fl
+ if plen:
+ self.pkt[IPv6].plen = plen
+ if nh:
+ self.pkt[IPv6].nh = nh
+ self.pkt[IPv6].src = src
+ self.pkt[IPv6].dst = dst
+
+ def inner_ipv6(self, version=6, tc=0, fl=0, plen=0, nh=0, hlim=64, src="::1", dst="::1"):
+ """
+ Configure IPv6 protocal.
+ """
+ self.pkt[IPv6][Ether][IPv6].version = version
+ self.pkt[IPv6][Ether][IPv6].tc = tc
+ self.pkt[IPv6][Ether][IPv6].fl = fl
+ if plen:
+ self.pkt[IPv6][Ether][IPv6].plen = plen
+ if nh:
+ self.pkt[IPv6][Ether][IPv6].nh = nh
+ self.pkt[IPv6][Ether][IPv6].src = src
+ self.pkt[IPv6][Ether][IPv6].dst = dst
+
+ def udp(self, src=53, dst=53, len=None, chksum=None):
+ self.pkt[UDP].sport = src
+ self.pkt[UDP].dport = dst
+ if len is not None:
+ self.pkt[UDP].len = len
+ if chksum is not None:
+ self.pkt[UDP].chksum = chksum
+
+ def raw(self, payload=None):
+ if payload is not None:
+ self.pkt[Raw].load = ''
+ for load in payload:
+ self.pkt[Raw].load += '%c' % int(load, 16)
+
+ def vxlan(self, vni=0):
+ self.pkt[Vxlan].vni = vni
+
+ def read_pcap(self, file):
+ pcap_pkts = []
+ try:
+ pcap_pkts = rdpcap(file)
+ except:
+ pass
+
+ return pcap_pkts
+
+ def write_pcap(self, file):
+ try:
+ wrpcap(file, self.pkt)
+ except:
+ pass
+
+ def send_pcap_pkt(self, crb=None, file='', intf=''):
+ if intf == '' or file == '' or crb is None:
+ print "Invalid option for send packet by scapy"
+ return
+
+ content = 'pkts=rdpcap(\"%s\");sendp(pkts, iface=\"%s\");exit()' % (file, intf)
+ cmd_file = '/tmp/scapy_%s.cmd' % intf
+
+ crb.create_file(content, cmd_file)
+ crb.send_expect("scapy -c scapy_%s.cmd &" % intf, "# ")
+
+ def print_summary(self):
+ print "Send out pkt %s" % self.pkt.summary()
+
+ def send_pkt(self, intf=''):
+ self.print_summary()
+ if intf != '':
+ sendp(self.pkt, iface=intf)
+
+
+class Packet(object):
+ """
+ Module for config/create packet
+ Based on scapy module
+ Usage: assign_layers([layers list])
+ config_layer('layername', {layer config})
+ ...
+ """
+ def_packet = {
+ 'TIMESYNC': {'layers': ['ether', 'raw'], 'cfgload': False},
+ 'ARP': {'layers': ['ether', 'arp'], 'cfgload': False},
+ 'LLDP': {'layers': ['ether', 'lldp'], 'cfgload': False},
+ 'TCP': {'layers': ['ether', 'ipv4', 'tcp', 'raw'], 'cfgload': True},
+ 'UDP': {'layers': ['ether', 'ipv4', 'udp', 'raw'], 'cfgload': True},
+ 'SCTP': {'layers': ['ether', 'ipv4', 'sctp', 'raw'], 'cfgload': True},
+ 'IPv6_TCP': {'layers': ['ether', 'ipv6', 'tcp', 'raw'], 'cfgload': True},
+ 'IPv6_UDP': {'layers': ['ether', 'ipv6', 'udp', 'raw'], 'cfgload': True},
+ 'IPv6_SCTP': {'layers': ['ether', 'ipv6', 'sctp', 'raw'], 'cfgload': True},
+ }
+
+ def __init__(self, **options):
+ """
+ pkt_type: description of packet type
+ defined in def_packet
+ options: special option for Packet module
+ pkt_len: length of network packet
+ ran_payload: whether payload of packet is random
+ pkt_file:
+ pkt_gen: packet generator type
+ now only support scapy
+ """
+ self.pkt_layers = []
+ self.pkt_len = 64
+ self.pkt_opts = options
+
+ self.pkt_type = "UDP"
+
+ if 'pkt_type' in self.pkt_opts.keys():
+ self.pkt_type = self.pkt_opts['pkt_type']
+
+ if self.pkt_type in self.def_packet.keys():
+ self.pkt_layers = self.def_packet[self.pkt_type]['layers']
+ self.pkt_cfgload = self.def_packet[self.pkt_type]['cfgload']
+ if "IPv6" in self.pkt_type:
+ self.pkt_len = 128
+ else:
+ self._load_pkt_layers()
+
+ if 'pkt_len' in self.pkt_opts.keys():
+ self.pkt_len = self.pkt_opts['pkt_len']
+
+ if 'pkt_file' in self.pkt_opts.keys():
+ self.uni_name = self.pkt_opts['pkt_file']
+ else:
+ self.uni_name = '/tmp/' + str(uuid4()) + '.pcap'
+
+ if 'pkt_gen' in self.pkt_opts.keys():
+ if self.pkt_opts['pkt_gen'] == 'scapy':
+ self.pktgen = scapy()
+ else:
+ print "Not support other pktgen yet!!!"
+ else:
+ self.pktgen = scapy()
+
+ def send_pkt(self, crb=None, tx_port='', auto_cfg=True):
+ if tx_port == '':
+ print "Invalid Tx interface"
+ return
+
+ self.tx_port = tx_port
+
+ # assign layer
+ self.assign_layers()
+
+ # config special layer
+ if auto_cfg is True:
+ self.config_def_layers()
+
+ # handle packet options
+ payload_len = self.pkt_len - len(self.pktgen.pkt) - 4
+
+ # if raw data has not been configured and payload should configured
+ if hasattr(self, 'configured_layer_raw') is False and self.pkt_cfgload is True:
+ payload = []
+ raw_confs = {}
+ if 'ran_payload' in self.pkt_opts.keys():
+ for loop in range(payload_len):
+ payload.append("%02x" % random.randrange(0, 255))
+ else:
+ for loop in range(payload_len):
+ payload.append('58') # 'X'
+
+ raw_confs['payload'] = payload
+ self._config_layer_raw(raw_confs)
+
+ # check with port type
+ if 'ixia' in self.tx_port:
+ print "Not Support Yet"
+
+ if crb is not None:
+ self.pktgen.write_pcap(self.uni_name)
+ crb.session.copy_file_to(self.uni_name)
+ pcap_file = self.uni_name.split('/')[2]
+ self.pktgen.send_pcap_pkt(crb=crb, file=pcap_file, intf=self.tx_port)
+ else:
+ self.pktgen.send_pkt(intf=self.tx_port)
+
+ def check_layer_config(self, layer, config):
+ """
+ check the format of layer configuration
+ every layer should has different check function
+ """
+ pass
+
+ def assign_layers(self, layers=None):
+ """
+ assign layer for this packet
+ maybe need add check layer function
+ """
+ if layers is not None:
+ self.pkt_layers = layers
+
+ for layer in self.pkt_layers:
+ found = False
+ l_type = layer.lower()
+
+ for types in LayersTypes.values():
+ if l_type in types:
+ found = True
+ break
+
+ if found is False:
+ self.pkt_layers.remove(l_type)
+ print "INVAILD LAYER TYPE [%s]" % l_type.upper()
+
+ self.pktgen.add_layers(self.pkt_layers)
+
+ def _load_pkt_layers(self):
+ name2type = {
+ 'MAC': 'ether',
+ 'VLAN': 'dot1q',
+ 'IP': 'ipv4',
+ 'IPihl': 'ipv4ihl',
+ 'IPFRAG': 'ipv4_ext',
+ 'IPv6': 'ipv6',
+ 'IPv6FRAG': 'ipv6_frag',
+ 'IPv6EXT': 'ipv6_ext',
+ 'IPv6EXT2': 'ipv6_ext2',
+ 'TCP': 'tcp',
+ 'UDP': 'udp',
+ 'SCTP': 'sctp',
+ 'ICMP': 'icmp',
+ 'NVGRE': 'nvgre',
+ 'GRE': 'gre',
+ 'VXLAN': 'vxlan',
+ 'PKT': 'raw',
+ }
+
+ layers = self.pkt_type.split('_')
+ self.pkt_layers = []
+ self.pkt_cfgload = True
+ for layer in layers:
+ if layer in name2type.keys():
+ self.pkt_layers.append(name2type[layer])
+
+ def config_def_layers(self):
+ """
+ Handel config packet layers by default
+ """
+ if self.pkt_type == "TIMESYNC":
+ self.config_layer('ether', {'dst': 'FF:FF:FF:FF:FF:FF',
+ 'type': 0x88f7})
+ self.config_layer('raw', {'payload': ['00', '02']})
+
+ if self.pkt_type == "ARP":
+ self.config_layer('ether', {'dst': 'FF:FF:FF:FF:FF:FF'})
+
+ if self.pkt_type == "IPv6_SCTP":
+ self.config_layer('ipv6', {'nh': 132})
+
+ if "IPv6_NVGRE" in self.pkt_type:
+ self.config_layer('ipv6', {'nh': 47})
+ if "IPv6_SCTP" in self.pkt_type:
+ self.config_layer('inner_ipv6', {'nh': 132})
+ if "IPv6_ICMP" in self.pkt_type:
+ self.config_layer('inner_ipv6', {'nh': 58})
+ if "IPFRAG" in self.pkt_type:
+ self.config_layer('raw', {'payload': ['00'] * 40})
+ else:
+ self.config_layer('raw', {'payload': ['00'] * 18})
+
+ if "MAC_IP_IPv6" in self.pkt_type or\
+ "MAC_IP_NVGRE" in self.pkt_type or \
+ "MAC_IP_UDP_VXLAN" in self.pkt_type:
+ if "IPv6_SCTP" in self.pkt_type:
+ self.config_layer('ipv6', {'nh': 132})
+ if "IPv6_ICMP" in self.pkt_type:
+ self.config_layer('ipv6', {'nh': 58})
+ if "IPFRAG" in self.pkt_type:
+ self.config_layer('raw', {'payload': ['00'] * 40})
+ else:
+ self.config_layer('raw', {'payload': ['00'] * 18})
+
+ def config_layer(self, layer, config={}):
+ """
+ Configure packet assgined layer
+ return the status of configure result
+ """
+ try:
+ # if inner in layer mean same layer in outer
+ if 'inner' in layer:
+ dup_layer = layer[6:]
+ if self.pkt_layers.count(dup_layer) != 2:
+ raise
+ else:
+ idx = self.pkt_layers.index(layer)
+ except Exception as e:
+ print "INVALID LAYER ID %s" % layer
+ return -1
+
+ if self.check_layer_config(layer, config) is False:
+ return -1
+
+ layer_conf = getattr(self, "_config_layer_%s" % layer)
+ setattr(self, 'configured_layer_%s' % layer, True)
+
+ return layer_conf(config)
+
+ def _config_layer_ether(self, config):
+ return self.pktgen.ether(**config)
+
+ def _config_layer_dot1q(self, config):
+ return self.pktgen.dot1q(**config)
+
+ def _config_layer_ipv4(self, config):
+ return self.pktgen.ipv4(**config)
+
+ def _config_layer_ipv6(self, config):
+ return self.pktgen.ipv6(**config)
+
+ def _config_layer_inner_ipv6(self, config):
+ return self.pktgen.inner_ipv6(**config)
+
+ def _config_layer_udp(self, config):
+ return self.pktgen.udp(**config)
+
+ def _config_layer_raw(self, config):
+ return self.pktgen.raw(**config)
+
+ def _config_layer_vxlan(self, config):
+ return self.pktgen.vxlan(**config)
+
+ def strip_layer_element(self, layer, element):
+ """
+ Strip packet layer elements
+ return the status of configure result
+ """
+ strip_element = getattr(self, "strip_element_%s" % layer)
+
+ return strip_element(element)
+
+ def strip_element_dot1q(self, element):
+ return self.pktgen.strip_dot1q(element)
+
+
+def increment_ip_address(self, addr):
+ """
+ Returns the IP address from a given one, like
+ 192.168.1.1 ->192.168.1.2
+ If disable ip hw chksum, csum routine will increase ip
+ """
+ ip2int = lambda ipstr: struct.unpack('!I', socket.inet_aton(ipstr))[0]
+ x = ip2int(addr)
+ int2ip = lambda n: socket.inet_ntoa(struct.pack('!I', n))
+ return int2ip(x + 1)
+
+
+def increment_ipv6_address(self, addr):
+ """
+ Returns the IP address from a given one, like
+ FE80:0:0:0:0:0:0:0 -> FE80::1
+ csum routine will increase ip
+ """
+ ipv6addr = struct.unpack('!8H', socket.inet_pton(AF_INET6, addr))
+ addr = list(ipv6addr)
+ addr[7] += 1
+ ipv6 = socket.inet_ntop(AF_INET6, struct.pack(
+ '!8H', addr[0], addr[1], addr[2], addr[3], addr[4], addr[5], addr[6], addr[7]))
+ return ipv6
+
+
+def sniff_packets(intf, count=0, timeout=5):
+ """
+ sniff all packets for certain port in certain seconds
+ """
+ sniff_cmd = 'tcpdump -i %(INTF)s -w %(FILE)s'
+ options = {'INTF': intf, 'COUNT': count,
+ 'FILE': '/tmp/sniff_%s.pcap' % intf}
+ if count:
+ sniff_cmd += ' -c %(COUNT)d'
+ cmd = sniff_cmd % options
+ else:
+ cmd = sniff_cmd % options
+
+ args = cmd.split()
+ pipe = subprocess.Popen(args)
+ index = str(time.time())
+ SNIFF_PIDS[index] = (pipe, intf, timeout)
+ return index
+
+
+def load_sniff_packets(index=''):
+ pkts = []
+ child_exit = False
+ if index in SNIFF_PIDS.keys():
+ pipe, intf, timeout = SNIFF_PIDS[index]
+ time_elapse = int(time.time() - float(index))
+ while time_elapse < timeout:
+ if pipe.poll() is not None:
+ child_exit = True
+ break
+
+ time.sleep(1)
+ time_elapse += 1
+
+ if not child_exit:
+ pipe.kill()
+
+ # wait pcap file ready
+ time.sleep(0.5)
+ try:
+ cap_pkts = rdpcap("/tmp/sniff_%s.pcap" % intf)
+ for pkt in cap_pkts:
+ # packet gen should be scapy
+ packet = Packet(tx_port=intf)
+ packet.pktgen.assign_pkt(pkt)
+ pkts.append(packet)
+ except:
+ pass
+
+ return pkts
+
+############################################################################################################
+############################################################################################################
+if __name__ == "__main__":
+ inst = sniff_packets("lo", timeout=5)
+ time.sleep(3)
+ pkts = load_sniff_packets(inst)
+
+ pkt = Packet(pkt_type='UDP', pkt_len=1500, ran_payload=True)
+ pkt.send_pkt(tx_port='lo')
+ pkt = Packet(pkt_type='IPv6_TCP')
+ pkt.send_pkt(tx_port='lo')
+ pkt = Packet(pkt_type='IPv6_SCTP')
+ pkt.send_pkt(tx_port='lo')
+
+ pkt = Packet()
+ pkt.assign_layers(['ether', 'dot1q', 'ipv4', 'udp', 'vxlan', 'inner_mac', 'inner_ipv4', 'inner_udp', 'raw'])
+ pkt.config_layer('ether', {'dst': '00:11:22:33:44:55'})
+ pkt.config_layer('dot1q', {'vlan': 2})
+ pkt.config_layer('ipv4', {'dst': '1.1.1.1'})
+ pkt.config_layer('udp', {'src': 4789, 'dst': 4789, 'chksum': 0x1111})
+ pkt.config_layer('vxlan', {'vni': 2})
+ pkt.config_layer('raw', {'payload': ['58']*18})
--
1.9.3
^ permalink raw reply [flat|nested] 7+ messages in thread
* Re: [dts] [PATCH 1/4] add unified packet type module and test suite
2015-09-16 8:56 ` [dts] [PATCH 1/4] " Yufen Mo
@ 2015-09-16 13:00 ` Liu, Yong
0 siblings, 0 replies; 7+ messages in thread
From: Liu, Yong @ 2015-09-16 13:00 UTC (permalink / raw)
To: Mo, YufengX, dts; +Cc: yufengmx
Hi Yufen,
Would you please add more descriptions about this new module.
What's its target in DTS framework and the basic concept of it?
> -----Original Message-----
> From: dts [mailto:dts-bounces@dpdk.org] On Behalf Of Yufen Mo
> Sent: Wednesday, September 16, 2015 4:57 PM
> To: dts@dpdk.org
> Cc: yufengmx
> Subject: [dts] [PATCH 1/4] add unified packet type module and test suite
>
> From: yufengmx <yufengmx.mo@intel.com>
>
> unified packet type test suite implementation
>
> Signed-off-by: yufengmx <yufengmx.mo@intel.com>
> ---
> framework/packet.py | 642
> ++++++++++++++++++++++++++++++++++++++++++++++++++++
> 1 file changed, 642 insertions(+)
> create mode 100755 framework/packet.py
>
> diff --git a/framework/packet.py b/framework/packet.py
> new file mode 100755
> index 0000000..0a3f330
> --- /dev/null
> +++ b/framework/packet.py
> @@ -0,0 +1,642 @@
> +#!/usr/bin/python
> +# BSD LICENSE
> +#
> +# Copyright(c) 2010-2015 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.
> +"""
> +Generic packet create, transmit and analyze module
> +Base on scapy(python program for packet manipulation)
> +"""
> +
> +import os
> +import time
> +import signal
> +import sys
> +import re
> +import signal
> +import random
> +import subprocess
> +from uuid import uuid4
> +from settings import FOLDERS
> +
> +from scapy.config import conf
> +conf.use_pcap = True
> +
> +from scapy.all import conf
> +from scapy.utils import struct, socket, wrpcap, rdpcap
> +from scapy.layers.inet import Ether, IP, TCP, UDP, ICMP
> +from scapy.layers.inet6 import IPv6, IPv6ExtHdrRouting,
> IPv6ExtHdrFragment
> +from scapy.layers.l2 import Dot1Q, ARP, GRE
> +from scapy.layers.sctp import SCTP, SCTPChunkData
> +from scapy.sendrecv import sniff
> +from scapy.route import *
> +from scapy.packet import bind_layers, Raw
> +from scapy.sendrecv import sendp
> +
> +
> +sys.path.append(FOLDERS['Depends'])
> +# load extension layers
> +from vxlan import Vxlan
> +bind_layers(UDP, Vxlan, dport=4789)
> +bind_layers(Vxlan, Ether)
> +from nvgre import NVGRE, IPPROTO_NVGRE
> +bind_layers(IP, NVGRE, proto=IPPROTO_NVGRE)
> +bind_layers(NVGRE, Ether)
> +from lldp import LLDP, LLDPManagementAddress
> +bind_layers(Ether, LLDP, type=0x88cc)
> +
> +# packet generator type should be configured later
> +PACKETGEN = "scapy"
> +
> +LayersTypes = {
> + "L2": ['ether', 'dot1q', '1588', 'arp', 'lldp'],
> + # ipv4_ext_unknown, ipv6_ext_unknown
> + "L3": ['ipv4','ipv4ihl', 'ipv6', 'ipv4_ext', 'ipv6_ext','ipv6_ext2',
> 'ipv6_frag'],
> + "L4": ['tcp', 'udp', 'frag', 'sctp', 'icmp', 'nofrag'],
> + "TUNNEL": ['ip', 'gre', 'vxlan', 'nvgre', 'geneve', 'grenat'],
> + "INNER L2": ['inner_mac', 'inner_mac&vlan'],
> + # inner_ipv4_unknown, inner_ipv6_unknown
> + "INNER L3": ['inner_ipv4', 'inner_ipv4_ext', 'inner_ipv6',
> 'inner_ipv6_ext'],
> + "INNER L4": ['inner_tcp', 'inner_udp', 'inner_frag', 'inner_sctp',
> 'inner_icmp', 'inner_nofrag'],
> + "PAYLOAD": ['raw']
> +}
> +
> +# Saved back groud sniff process id
> +SNIFF_PIDS = {}
> +
> +# Saved packet generator process id
> +# used in pktgen or tgen
> +PKTGEN_PIDS = {}
> +
> +
> +class scapy(object):
> + SCAPY_LAYERS = {
> + 'ether': Ether(dst="ff:ff:ff:ff:ff:ff"),
> + 'dot1q': Dot1Q(),
> + '1588': Ether(type=0x88f7),
> + 'arp': ARP(),
> + 'ipv4': IP(),
> + 'ipv4ihl': IP(ihl=10),
> + 'ipv4_ext': IP(frag=5),
> + 'ipv6': IPv6(src="::1"),
> + 'ipv6_ext': IPv6(src="::1", nh=43)/IPv6ExtHdrRouting(),
> + 'ipv6_ext2': IPv6()/IPv6ExtHdrRouting(),
> + 'udp': UDP(),
> + 'tcp': TCP(),
> + 'sctp': SCTP(),
> + 'icmp': ICMP(),
> + 'gre': GRE(),
> + 'raw': Raw(),
> + 'vxlan': Vxlan(),
> +
> + 'inner_mac': Ether(),
> + 'inner_mac&vlan': Ether() / Dot1Q(),
> + 'inner_ipv4': IP(),
> + 'inner_ipv4_ext': IP(),
> + 'inner_ipv6': IPv6(src="::1"),
> + 'inner_ipv6_ext': IPv6(src="::1"),
> +
> + 'inner_tcp': TCP(),
> + 'inner_udp': UDP(),
> + 'inner_sctp': SCTP(),
> + 'inner_icmp': ICMP(),
> +
> + 'lldp': LLDP()/LLDPManagementAddress(),
> + 'ip_frag': IP(frag=5),
> + 'ipv6_frag': IPv6(src="::1")/IPv6ExtHdrFragment(),
> + 'ip_in_ip': IP()/IP(),
> + 'ip_in_ip_frag': IP()/IP(frag=5),
> + 'ipv6_in_ip': IP()/IPv6(src="::1"),
> + 'ipv6_frag_in_ip': IP()/IPv6(src="::1",
> nh=44)/IPv6ExtHdrFragment(),
> + 'nvgre': NVGRE(),
> + 'geneve': "Not Implement",
> + }
> +
> + def __init__(self):
> + self.pkt = None
> + pass
> +
> + def assign_pkt(self, pkt):
> + self.pkt = pkt
> +
> + def add_layers(self, layers):
> + self.pkt = None
> + for layer in layers:
> + if self.pkt is not None:
> + self.pkt = self.pkt / self.SCAPY_LAYERS[layer]
> + else:
> + self.pkt = self.SCAPY_LAYERS[layer]
> +
> + def ether(self, dst="ff:ff:ff:ff:ff:ff", src="00:00:20:00:00:00",
> type=None):
> + self.pkt[Ether].dst = dst
> + self.pkt[Ether].src = src
> + if type is not None:
> + self.pkt[Ether].type = type
> +
> + def dot1q(self, vlan, prio=0, type=None):
> + self.pkt[Dot1Q].vlan = int(vlan)
> + self.pkt[Dot1Q].prio = prio
> + if type is not None:
> + self.pkt[Dot1Q].type = type
> +
> + def strip_dot1q(self, element):
> + value = None
> +
> + if self.pkt.haslayer('Dot1Q') is 0:
> + return None
> +
> + if element == 'vlan':
> + value = int(str(self.pkt[Dot1Q].vlan))
> + return value
> +
> + def ipv4(self, frag=0, src="127.0.0.1", proto=None, tos=0,
> dst="127.0.0.1", chksum=None, len=None, version=4, flags=None, ihl=None,
> ttl=64, id=1, options=None):
> + self.pkt[IP].frag = frag
> + self.pkt[IP].src = src
> + if proto is not None:
> + self.pkt[IP].proto = proto
> + self.pkt[IP].tos = tos
> + self.pkt[IP].dst = dst
> + if chksum is not None:
> + self.pkt[IP].chksum = chksum
> + if len is not None:
> + self.pkt[IP].len = len
> + self.pkt[IP].version = version
> + if flags is not None:
> + self.pkt[IP].flags = flags
> + if ihl is not None:
> + self.pkt[IP].ihl = ihl
> + self.pkt[IP].ttl = ttl
> + self.pkt[IP].id = id
> + if options is not None:
> + self.pkt[IP].options = options
> +
> + def ipv6(self, version=6, tc=0, fl=0, plen=0, nh=0, hlim=64,
> src="::1", dst="::1"):
> + """
> + Configure IPv6 protocal.
> + """
> + self.pkt[IPv6].version = version
> + self.pkt[IPv6].tc = tc
> + self.pkt[IPv6].fl = fl
> + if plen:
> + self.pkt[IPv6].plen = plen
> + if nh:
> + self.pkt[IPv6].nh = nh
> + self.pkt[IPv6].src = src
> + self.pkt[IPv6].dst = dst
> +
> + def inner_ipv6(self, version=6, tc=0, fl=0, plen=0, nh=0, hlim=64,
> src="::1", dst="::1"):
> + """
> + Configure IPv6 protocal.
> + """
> + self.pkt[IPv6][Ether][IPv6].version = version
> + self.pkt[IPv6][Ether][IPv6].tc = tc
> + self.pkt[IPv6][Ether][IPv6].fl = fl
> + if plen:
> + self.pkt[IPv6][Ether][IPv6].plen = plen
> + if nh:
> + self.pkt[IPv6][Ether][IPv6].nh = nh
> + self.pkt[IPv6][Ether][IPv6].src = src
> + self.pkt[IPv6][Ether][IPv6].dst = dst
> +
> + def udp(self, src=53, dst=53, len=None, chksum=None):
> + self.pkt[UDP].sport = src
> + self.pkt[UDP].dport = dst
> + if len is not None:
> + self.pkt[UDP].len = len
> + if chksum is not None:
> + self.pkt[UDP].chksum = chksum
> +
> + def raw(self, payload=None):
> + if payload is not None:
> + self.pkt[Raw].load = ''
> + for load in payload:
> + self.pkt[Raw].load += '%c' % int(load, 16)
> +
> + def vxlan(self, vni=0):
> + self.pkt[Vxlan].vni = vni
> +
> + def read_pcap(self, file):
> + pcap_pkts = []
> + try:
> + pcap_pkts = rdpcap(file)
> + except:
> + pass
> +
> + return pcap_pkts
> +
> + def write_pcap(self, file):
> + try:
> + wrpcap(file, self.pkt)
> + except:
> + pass
> +
> + def send_pcap_pkt(self, crb=None, file='', intf=''):
> + if intf == '' or file == '' or crb is None:
> + print "Invalid option for send packet by scapy"
> + return
> +
> + content = 'pkts=rdpcap(\"%s\");sendp(pkts, iface=\"%s\");exit()' %
> (file, intf)
> + cmd_file = '/tmp/scapy_%s.cmd' % intf
> +
> + crb.create_file(content, cmd_file)
> + crb.send_expect("scapy -c scapy_%s.cmd &" % intf, "# ")
> +
> + def print_summary(self):
> + print "Send out pkt %s" % self.pkt.summary()
> +
> + def send_pkt(self, intf=''):
> + self.print_summary()
> + if intf != '':
> + sendp(self.pkt, iface=intf)
> +
> +
> +class Packet(object):
> + """
> + Module for config/create packet
> + Based on scapy module
> + Usage: assign_layers([layers list])
> + config_layer('layername', {layer config})
> + ...
> + """
> + def_packet = {
> + 'TIMESYNC': {'layers': ['ether', 'raw'], 'cfgload': False},
> + 'ARP': {'layers': ['ether', 'arp'], 'cfgload': False},
> + 'LLDP': {'layers': ['ether', 'lldp'], 'cfgload': False},
> + 'TCP': {'layers': ['ether', 'ipv4', 'tcp', 'raw'], 'cfgload':
> True},
> + 'UDP': {'layers': ['ether', 'ipv4', 'udp', 'raw'], 'cfgload':
> True},
> + 'SCTP': {'layers': ['ether', 'ipv4', 'sctp', 'raw'], 'cfgload':
> True},
> + 'IPv6_TCP': {'layers': ['ether', 'ipv6', 'tcp', 'raw'], 'cfgload':
> True},
> + 'IPv6_UDP': {'layers': ['ether', 'ipv6', 'udp', 'raw'], 'cfgload':
> True},
> + 'IPv6_SCTP': {'layers': ['ether', 'ipv6', 'sctp', 'raw'],
> 'cfgload': True},
> + }
> +
> + def __init__(self, **options):
> + """
> + pkt_type: description of packet type
> + defined in def_packet
> + options: special option for Packet module
> + pkt_len: length of network packet
> + ran_payload: whether payload of packet is random
> + pkt_file:
> + pkt_gen: packet generator type
> + now only support scapy
> + """
> + self.pkt_layers = []
> + self.pkt_len = 64
> + self.pkt_opts = options
> +
> + self.pkt_type = "UDP"
> +
> + if 'pkt_type' in self.pkt_opts.keys():
> + self.pkt_type = self.pkt_opts['pkt_type']
> +
> + if self.pkt_type in self.def_packet.keys():
> + self.pkt_layers = self.def_packet[self.pkt_type]['layers']
> + self.pkt_cfgload = self.def_packet[self.pkt_type]['cfgload']
> + if "IPv6" in self.pkt_type:
> + self.pkt_len = 128
> + else:
> + self._load_pkt_layers()
> +
> + if 'pkt_len' in self.pkt_opts.keys():
> + self.pkt_len = self.pkt_opts['pkt_len']
> +
> + if 'pkt_file' in self.pkt_opts.keys():
> + self.uni_name = self.pkt_opts['pkt_file']
> + else:
> + self.uni_name = '/tmp/' + str(uuid4()) + '.pcap'
> +
> + if 'pkt_gen' in self.pkt_opts.keys():
> + if self.pkt_opts['pkt_gen'] == 'scapy':
> + self.pktgen = scapy()
> + else:
> + print "Not support other pktgen yet!!!"
> + else:
> + self.pktgen = scapy()
> +
> + def send_pkt(self, crb=None, tx_port='', auto_cfg=True):
> + if tx_port == '':
> + print "Invalid Tx interface"
> + return
> +
> + self.tx_port = tx_port
> +
> + # assign layer
> + self.assign_layers()
> +
> + # config special layer
> + if auto_cfg is True:
> + self.config_def_layers()
> +
> + # handle packet options
> + payload_len = self.pkt_len - len(self.pktgen.pkt) - 4
> +
> + # if raw data has not been configured and payload should
> configured
> + if hasattr(self, 'configured_layer_raw') is False and
> self.pkt_cfgload is True:
> + payload = []
> + raw_confs = {}
> + if 'ran_payload' in self.pkt_opts.keys():
> + for loop in range(payload_len):
> + payload.append("%02x" % random.randrange(0, 255))
> + else:
> + for loop in range(payload_len):
> + payload.append('58') # 'X'
> +
> + raw_confs['payload'] = payload
> + self._config_layer_raw(raw_confs)
> +
> + # check with port type
> + if 'ixia' in self.tx_port:
> + print "Not Support Yet"
> +
> + if crb is not None:
> + self.pktgen.write_pcap(self.uni_name)
> + crb.session.copy_file_to(self.uni_name)
> + pcap_file = self.uni_name.split('/')[2]
> + self.pktgen.send_pcap_pkt(crb=crb, file=pcap_file,
> intf=self.tx_port)
> + else:
> + self.pktgen.send_pkt(intf=self.tx_port)
> +
> + def check_layer_config(self, layer, config):
> + """
> + check the format of layer configuration
> + every layer should has different check function
> + """
> + pass
> +
> + def assign_layers(self, layers=None):
> + """
> + assign layer for this packet
> + maybe need add check layer function
> + """
> + if layers is not None:
> + self.pkt_layers = layers
> +
> + for layer in self.pkt_layers:
> + found = False
> + l_type = layer.lower()
> +
> + for types in LayersTypes.values():
> + if l_type in types:
> + found = True
> + break
> +
> + if found is False:
> + self.pkt_layers.remove(l_type)
> + print "INVAILD LAYER TYPE [%s]" % l_type.upper()
> +
> + self.pktgen.add_layers(self.pkt_layers)
> +
> + def _load_pkt_layers(self):
> + name2type = {
> + 'MAC': 'ether',
> + 'VLAN': 'dot1q',
> + 'IP': 'ipv4',
> + 'IPihl': 'ipv4ihl',
> + 'IPFRAG': 'ipv4_ext',
> + 'IPv6': 'ipv6',
> + 'IPv6FRAG': 'ipv6_frag',
> + 'IPv6EXT': 'ipv6_ext',
> + 'IPv6EXT2': 'ipv6_ext2',
> + 'TCP': 'tcp',
> + 'UDP': 'udp',
> + 'SCTP': 'sctp',
> + 'ICMP': 'icmp',
> + 'NVGRE': 'nvgre',
> + 'GRE': 'gre',
> + 'VXLAN': 'vxlan',
> + 'PKT': 'raw',
> + }
> +
> + layers = self.pkt_type.split('_')
> + self.pkt_layers = []
> + self.pkt_cfgload = True
> + for layer in layers:
> + if layer in name2type.keys():
> + self.pkt_layers.append(name2type[layer])
> +
> + def config_def_layers(self):
> + """
> + Handel config packet layers by default
> + """
> + if self.pkt_type == "TIMESYNC":
> + self.config_layer('ether', {'dst': 'FF:FF:FF:FF:FF:FF',
> + 'type': 0x88f7})
> + self.config_layer('raw', {'payload': ['00', '02']})
> +
> + if self.pkt_type == "ARP":
> + self.config_layer('ether', {'dst': 'FF:FF:FF:FF:FF:FF'})
> +
> + if self.pkt_type == "IPv6_SCTP":
> + self.config_layer('ipv6', {'nh': 132})
> +
> + if "IPv6_NVGRE" in self.pkt_type:
> + self.config_layer('ipv6', {'nh': 47})
> + if "IPv6_SCTP" in self.pkt_type:
> + self.config_layer('inner_ipv6', {'nh': 132})
> + if "IPv6_ICMP" in self.pkt_type:
> + self.config_layer('inner_ipv6', {'nh': 58})
> + if "IPFRAG" in self.pkt_type:
> + self.config_layer('raw', {'payload': ['00'] * 40})
> + else:
> + self.config_layer('raw', {'payload': ['00'] * 18})
> +
> + if "MAC_IP_IPv6" in self.pkt_type or\
> + "MAC_IP_NVGRE" in self.pkt_type or \
> + "MAC_IP_UDP_VXLAN" in self.pkt_type:
> + if "IPv6_SCTP" in self.pkt_type:
> + self.config_layer('ipv6', {'nh': 132})
> + if "IPv6_ICMP" in self.pkt_type:
> + self.config_layer('ipv6', {'nh': 58})
> + if "IPFRAG" in self.pkt_type:
> + self.config_layer('raw', {'payload': ['00'] * 40})
> + else:
> + self.config_layer('raw', {'payload': ['00'] * 18})
> +
> + def config_layer(self, layer, config={}):
> + """
> + Configure packet assgined layer
> + return the status of configure result
> + """
> + try:
> + # if inner in layer mean same layer in outer
> + if 'inner' in layer:
> + dup_layer = layer[6:]
> + if self.pkt_layers.count(dup_layer) != 2:
> + raise
> + else:
> + idx = self.pkt_layers.index(layer)
> + except Exception as e:
> + print "INVALID LAYER ID %s" % layer
> + return -1
> +
> + if self.check_layer_config(layer, config) is False:
> + return -1
> +
> + layer_conf = getattr(self, "_config_layer_%s" % layer)
> + setattr(self, 'configured_layer_%s' % layer, True)
> +
> + return layer_conf(config)
> +
> + def _config_layer_ether(self, config):
> + return self.pktgen.ether(**config)
> +
> + def _config_layer_dot1q(self, config):
> + return self.pktgen.dot1q(**config)
> +
> + def _config_layer_ipv4(self, config):
> + return self.pktgen.ipv4(**config)
> +
> + def _config_layer_ipv6(self, config):
> + return self.pktgen.ipv6(**config)
> +
> + def _config_layer_inner_ipv6(self, config):
> + return self.pktgen.inner_ipv6(**config)
> +
> + def _config_layer_udp(self, config):
> + return self.pktgen.udp(**config)
> +
> + def _config_layer_raw(self, config):
> + return self.pktgen.raw(**config)
> +
> + def _config_layer_vxlan(self, config):
> + return self.pktgen.vxlan(**config)
> +
> + def strip_layer_element(self, layer, element):
> + """
> + Strip packet layer elements
> + return the status of configure result
> + """
> + strip_element = getattr(self, "strip_element_%s" % layer)
> +
> + return strip_element(element)
> +
> + def strip_element_dot1q(self, element):
> + return self.pktgen.strip_dot1q(element)
> +
> +
> +def increment_ip_address(self, addr):
> + """
> + Returns the IP address from a given one, like
> + 192.168.1.1 ->192.168.1.2
> + If disable ip hw chksum, csum routine will increase ip
> + """
> + ip2int = lambda ipstr: struct.unpack('!I', socket.inet_aton(ipstr))[0]
> + x = ip2int(addr)
> + int2ip = lambda n: socket.inet_ntoa(struct.pack('!I', n))
> + return int2ip(x + 1)
> +
> +
> +def increment_ipv6_address(self, addr):
> + """
> + Returns the IP address from a given one, like
> + FE80:0:0:0:0:0:0:0 -> FE80::1
> + csum routine will increase ip
> + """
> + ipv6addr = struct.unpack('!8H', socket.inet_pton(AF_INET6, addr))
> + addr = list(ipv6addr)
> + addr[7] += 1
> + ipv6 = socket.inet_ntop(AF_INET6, struct.pack(
> + '!8H', addr[0], addr[1], addr[2], addr[3], addr[4], addr[5],
> addr[6], addr[7]))
> + return ipv6
> +
> +
> +def sniff_packets(intf, count=0, timeout=5):
> + """
> + sniff all packets for certain port in certain seconds
> + """
> + sniff_cmd = 'tcpdump -i %(INTF)s -w %(FILE)s'
> + options = {'INTF': intf, 'COUNT': count,
> + 'FILE': '/tmp/sniff_%s.pcap' % intf}
> + if count:
> + sniff_cmd += ' -c %(COUNT)d'
> + cmd = sniff_cmd % options
> + else:
> + cmd = sniff_cmd % options
> +
> + args = cmd.split()
> + pipe = subprocess.Popen(args)
> + index = str(time.time())
> + SNIFF_PIDS[index] = (pipe, intf, timeout)
> + return index
> +
> +
> +def load_sniff_packets(index=''):
> + pkts = []
> + child_exit = False
> + if index in SNIFF_PIDS.keys():
> + pipe, intf, timeout = SNIFF_PIDS[index]
> + time_elapse = int(time.time() - float(index))
> + while time_elapse < timeout:
> + if pipe.poll() is not None:
> + child_exit = True
> + break
> +
> + time.sleep(1)
> + time_elapse += 1
> +
> + if not child_exit:
> + pipe.kill()
> +
> + # wait pcap file ready
> + time.sleep(0.5)
> + try:
> + cap_pkts = rdpcap("/tmp/sniff_%s.pcap" % intf)
> + for pkt in cap_pkts:
> + # packet gen should be scapy
> + packet = Packet(tx_port=intf)
> + packet.pktgen.assign_pkt(pkt)
> + pkts.append(packet)
> + except:
> + pass
> +
> + return pkts
> +
> +#########################################################################
> ###################################
> +#########################################################################
> ###################################
> +if __name__ == "__main__":
> + inst = sniff_packets("lo", timeout=5)
> + time.sleep(3)
> + pkts = load_sniff_packets(inst)
> +
> + pkt = Packet(pkt_type='UDP', pkt_len=1500, ran_payload=True)
> + pkt.send_pkt(tx_port='lo')
> + pkt = Packet(pkt_type='IPv6_TCP')
> + pkt.send_pkt(tx_port='lo')
> + pkt = Packet(pkt_type='IPv6_SCTP')
> + pkt.send_pkt(tx_port='lo')
> +
> + pkt = Packet()
> + pkt.assign_layers(['ether', 'dot1q', 'ipv4', 'udp', 'vxlan',
> 'inner_mac', 'inner_ipv4', 'inner_udp', 'raw'])
> + pkt.config_layer('ether', {'dst': '00:11:22:33:44:55'})
> + pkt.config_layer('dot1q', {'vlan': 2})
> + pkt.config_layer('ipv4', {'dst': '1.1.1.1'})
> + pkt.config_layer('udp', {'src': 4789, 'dst': 4789, 'chksum': 0x1111})
> + pkt.config_layer('vxlan', {'vni': 2})
> + pkt.config_layer('raw', {'payload': ['58']*18})
> --
> 1.9.3
^ permalink raw reply [flat|nested] 7+ messages in thread
* [dts] [PATCH 2/4] add unified packet type module and test suite
2015-09-16 8:56 [dts] [PATCH 0/4] add unified packet type module and test suite Yufen Mo
2015-09-16 8:56 ` [dts] [PATCH 1/4] " Yufen Mo
@ 2015-09-16 8:56 ` Yufen Mo
2015-09-16 8:56 ` [dts] [PATCH 3/4] " Yufen Mo
` (2 subsequent siblings)
4 siblings, 0 replies; 7+ messages in thread
From: Yufen Mo @ 2015-09-16 8:56 UTC (permalink / raw)
To: dts; +Cc: yufengmx
From: yufengmx <yufengmx.mo@intel.com>
fix issue test plan for unified packet type
Signed-off-by: yufengmx <yufengmx.mo@intel.com>
---
test_plans/uni_pkt_test_plan.rst | 30 ++++++++++++++----------------
1 file changed, 14 insertions(+), 16 deletions(-)
diff --git a/test_plans/uni_pkt_test_plan.rst b/test_plans/uni_pkt_test_plan.rst
index c42308b..5ef661c 100644
--- a/test_plans/uni_pkt_test_plan.rst
+++ b/test_plans/uni_pkt_test_plan.rst
@@ -68,14 +68,14 @@ Send time sync packet from tester::
Check below message dumped by testpmd::
(outer) L2 type: ETHER_Timesync
-
+
Send ARP packet from tester::
sendp([Ether(dst='FF:FF:FF:FF:FF:FF')/ARP()],
iface=txItf)
Check below message dumped by testpmd::
(outer) L2 type: ETHER_ARP
-
+
Send LLDP packet from tester::
sendp([Ether()/LLDP()/LLDPManagementAddress()], iface=txItf)
@@ -85,13 +85,12 @@ Check below message dumped by testpmd::
Test Case: IPv4&L4 packet type detect
=====================================
This case checked that whether L3 and L4 packet can be normally detected.
-Niantic and i350 will shown that L2 type is MAC.
Only Fortville can detect icmp packet.
Only niantic and i350 can detect ipv4 extension packet.
-Fortville did not detect whether packet contian ipv4 header options, so L3
+Fortville did not detect whether packet contain ipv4 header options, so L3
type will be shown as IPV4_EXT_UNKNOWN.
Fortville will identify all unrecognized L4 packet as L4_NONFRAG.
-Only Fortville can inentify L4 fragement packet.
+Only Fortville can identify L4 fragment packet.
Send IP only packet and verify L2/L3/L4 corrected::
sendp([Ether()/IP()/Raw('\0'*60)], iface=txItf)
@@ -142,11 +141,10 @@ Send IP extension+SCTP packet and verify L2/L3/L4 corrected(Niantic,i350)::
Test Case: IPv6&L4 packet type detect
=====================================
This case checked that whether IPv6 and L4 packet can be normally detected.
-Niantic and i350 will shown that L2 type is MAC.
-Fortville did not detect whether packet contian ipv6 extension options, so L3
+Fortville did not detect whether packet contain ipv6 extension options, so L3
type will be shown as IPV6_EXT_UNKNOWN.
Fortville will identify all unrecognized L4 packet as L4_NONFRAG.
-Only Fortville can inentify L4 fragement packet.
+Only Fortville can identify L4 fragment packet.
Send IPv6 only packet and verify L2/L3/L4 corrected::
sendp([Ether()/IPv6()/Raw('\0'*60)], iface=txItf)
@@ -214,7 +212,7 @@ Send IPv4+IPv4+SCTP packet and verify inner and outer L2/L3/L4 corrected::
Inner L4 type: SCTP
Send IPv4+IPv4+ICMP packet and verify inner and outer L2/L3/L4 corrected::
- sendp([Ether()/IP()/IP()/SCTP()/Raw('\0'*40)],iface=txItf)
+ sendp([Ether()/IP()/IP()/ICMP()/Raw('\0'*40)],iface=txItf)
Inner L4 type: ICMP
@@ -257,7 +255,7 @@ detected by Niantic and i350.
Send IPv4+IPv6 packet and verify inner and outer L2/L3/L4 corrected::
sendp([Ether()/IP()/IPv6()/Raw('\0'*40)], iface=txItf)
- (outer) L2 type: MAC
+ (outer) L2 type: ETHER
(outer) L3 type: IPV4
(outer) L4 type: Unknown
Tunnel type: IP
@@ -332,7 +330,7 @@ Send IPv4+IPv4+SCTP packet and verify inner and outer L2/L3/L4 corrected::
Inner L4 type: SCTP
Send IPv4+IPv4+ICMP packet and verify inner and outer L2/L3/L4 corrected::
- sendp([Ether()/IP()/IP()/SCTP()/Raw('\0'*40)],iface=txItf)
+ sendp([Ether()/IP()/IP()/ICMP()/Raw('\0'*40)],iface=txItf)
Inner L4 type: ICMP
@@ -501,7 +499,7 @@ Send IPV6+NVGRE+MAC packet and verify inner and outer L2/L3/L4 corrected::
(outer) L4 type: Unknown
Tunnel type: GRENAT
Inner L2 type: ETHER
- Inner L3 type: Unkown
+ Inner L3 type: Unknown
Inner L4 type: Unknown
Send IPV6+NVGRE+MAC+IPv4 fragment packet and verify inner and outer L2/L3/L4
@@ -722,7 +720,7 @@ Send IPv4+GRE+IPv4+ICMP packet and verify inner and outer L2/L3/L4 corrected::
Send IPv4+GRE packet and verify inner and outer L2/L3/L4 corrected::
sendp([Ether()/IP()/GRE()/Raw('x'*40)], iface=txItf)
- Inner L3 type: Unkown
+ Inner L3 type: Unknown
Inner L4 type: Unknown
Test Case: Vxlan tunnel packet type detect
@@ -732,7 +730,7 @@ Fortville.
Fortville did not distinguish GRE/Teredo/Vxlan packets, all those types
will be displayed as GRENAT.
-Add vxlan tunnle port filter on receive port::
+Add vxlan tunnel port filter on receive port::
rx_vxlan_port add 4789 0
Send IPv4+Vxlan+MAC+IPv4 fragment packet and verify inner and outer L2/L3/L4
corrected::
@@ -820,7 +818,7 @@ corrected::
Send IPv4+Vxlan+MAC+IPv6+ICMP packet and verify inner and outer L2/L3/L4
corrected::
- sendp([Ether()/IP()/UDP()/Vxlan()/Ether()/IPv6(nh=28)/ICMP()/
+ sendp([Ether()/IP()/UDP()/Vxlan()/Ether()/IPv6(nh=58)/ICMP()/
Raw('\0'*40)], iface=txItf)
Inner L4 type: ICMP
@@ -828,5 +826,5 @@ corrected::
Send IPv4+Vxlan+MAC packet and verify inner and outer L2/L3/L4 corrected::
sendp([Ether()/IP()/UDP()/Vxlan()/Ether()/Raw('\0'*40)], iface=txItf)
- Inner L3 type: Unkown
+ Inner L3 type: Unknown
Inner L4 type: Unknown
--
1.9.3
^ permalink raw reply [flat|nested] 7+ messages in thread
* [dts] [PATCH 3/4] add unified packet type module and test suite
2015-09-16 8:56 [dts] [PATCH 0/4] add unified packet type module and test suite Yufen Mo
2015-09-16 8:56 ` [dts] [PATCH 1/4] " Yufen Mo
2015-09-16 8:56 ` [dts] [PATCH 2/4] " Yufen Mo
@ 2015-09-16 8:56 ` Yufen Mo
2015-09-16 8:56 ` [dts] [PATCH 4/4] " Yufen Mo
2015-09-16 13:03 ` [dts] [PATCH 0/4] " Liu, Yong
4 siblings, 0 replies; 7+ messages in thread
From: Yufen Mo @ 2015-09-16 8:56 UTC (permalink / raw)
To: dts; +Cc: yufengmx
From: yufengmx <yufengmx.mo@intel.com>
Add test suite for unified packet type
Signed-off-by: yufengmx <yufengmx.mo@intel.com>
---
tests/TestSuite_uni_pkt.py | 364 +++++++++++++++++++++++++++++++++++++++++++++
1 file changed, 364 insertions(+)
create mode 100644 tests/TestSuite_uni_pkt.py
diff --git a/tests/TestSuite_uni_pkt.py b/tests/TestSuite_uni_pkt.py
new file mode 100644
index 0000000..ca72e75
--- /dev/null
+++ b/tests/TestSuite_uni_pkt.py
@@ -0,0 +1,364 @@
+# BSD LICENSE
+#
+# Copyright(c) 2010-2014 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.
+
+Unified packet type flag is supposed to recognize packet types and support all
+possible PMDs.
+
+This 32 bits of packet_type can be divided into several sub fields to
+indicate different packet type information of a packet. The initial design
+is to divide those bits into fields for L2 types, L3 types, L4 types, tunnel
+types, inner L2 types, inner L3 types and inner L4 types. All PMDs should
+translate the offloaded packet types into these 7 fields of information, for
+user applications
+"""
+
+import dts
+from test_case import TestCase
+from exception import VerifyFailure
+from packet import Packet
+import time
+
+
+class TestUniPacket(TestCase):
+
+ def set_up_all(self):
+ """
+ Run at the start of each test suite.
+ """
+ ports = self.dut.get_ports()
+ self.verify(len(ports) >= 2, "Insufficient ports for testing")
+ valports = [_ for _ in ports if self.tester.get_local_port(_) != -1]
+ # start testpmd
+ self.dut_port = valports[0]
+ tester_port = self.tester.get_local_port(self.dut_port)
+ self.tester_iface = self.tester.get_interface(tester_port)
+ self.dut.send_expect(
+ "./%s/app/testpmd -c f -n 4 -- -i --txqflags=0x0" % self.target, "testpmd>", 20)
+ self.dut.send_expect("set fwd rxonly", "testpmd>")
+ self.dut.send_expect("set verbose 1", "testpmd>")
+ self.dut.send_expect("start", "testpmd>")
+
+ def set_up(self):
+ """
+ Run before each test case.
+ Nothing to do.
+ """
+ pass
+
+ def run_test(self, pkt_types):
+ time.sleep(1)
+ for pkt_type in pkt_types.keys():
+ pkt_names = pkt_types[pkt_type]
+ pkt = Packet(pkt_type=pkt_type)
+ pkt.send_pkt(tx_port=self.tester_iface)
+ out = self.dut.get_session_output(timeout=2)
+ for pkt_layer_name in pkt_names:
+ if pkt_layer_name not in out:
+ print dts.RED("Fail to detect %s" % pkt_layer_name)
+ raise VerifyFailure("Failed to detect %s" % pkt_layer_name)
+ print dts.GREEN("Detected %s successfully" % pkt_type)
+
+ def test_l2pkt_detect(self):
+ """
+ Check whether L2 packet can be detected"
+ """
+ self.verify("fortville" in self.nic,
+ "L2 packet detect only support by Fortville")
+ self.L2_types = {
+ "TIMESYNC": "(outer) L2 type: ETHER_Timesync",
+ "ARP": "(outer) L2 type: ETHER_ARP",
+ "LLDP": "(outer) L2 type: ETHER_LLDP",
+ }
+
+ for l2_type in self.L2_types.keys():
+ pkt_name = self.L2_types[l2_type]
+ pkt = Packet(pkt_type=l2_type)
+ pkt.send_pkt(tx_port=self.tester_iface)
+ out = self.dut.get_session_output(timeout=2)
+ if pkt_name in out:
+ print dts.GREEN("Detected L2 %s successfully" % l2_type)
+ else:
+ raise VerifyFailure("Failed to detect L2 %s" % l2_type)
+
+ def test_IPv4_L4(self):
+ """
+ checked that whether L3 and L4 packet can be normally detected.
+ """
+ if "fortville" in self.nic.lower():
+ outerL4Type = "(outer) L4 type: L4_NONFRAG"
+ elif "niantic" in self.nic.lower() or "i350" in self.nic.lower():
+ outerL4Type = "(outer) L4 type: Unknown"
+
+ pktType = {
+ "MAC_IP_PKT": ["(outer) L2 type: ETHER", "(outer) L3 type: IPV4", outerL4Type],
+ "MAC_IP_UDP_PKT": ["(outer) L4 type: UDP"],
+ "MAC_IP_TCP_PKT": ["(outer) L4 type: TCP"],
+ "MAC_IP_SCTP_PKT": ["(outer) L4 type: SCTP"],
+ "MAC_IP_ICMP_PKT": ["(outer) L4 type: ICMP"],
+ "MAC_IPFRAG_TCP_PKT": ["(outer) L2 type: ETHER", "(outer) L3 type: IPV4_EXT_UNKNOWN", "(outer) L4 type: L4_FRAG"],
+ "MAC_IPihl_PKT": ["(outer) L3 type: IPV4_EXT", "(outer) L4 type: Unknown"],
+ "MAC_IPihl_SCTP_PKT": ["(outer) L3 type: IPV4_EXT", "(outer) L4 type: SCTP"]
+ }
+
+ # delete the unsupported packet based on nic type
+ if "fortville" in self.nic.lower():
+ pktType.pop("MAC_IPihl_PKT")
+ pktType.pop("MAC_IPihl_SCTP_PKT")
+ elif "niantic" in self.nic.lower() or "i350" in self.nic.lower():
+ pktType.pop("MAC_IP_ICMP_PKT")
+ pktType.pop("MAC_IPFRAG_TCP_PKT")
+
+ self.run_test(pktType)
+
+ def test_IPv6_L4(self):
+ """
+ checked that whether IPv6 and L4 packet can be normally detected.
+ """
+ if "fortville" in self.nic.lower():
+ outerL4Type = "(outer) L4 type: L4_NONFRAG"
+ outerL3Type = "(outer) L3 type: IPV6_EXT_UNKNOWN"
+ elif "niantic" in self.nic.lower() or "i350" in self.nic.lower():
+ outerL4Type = "(outer) L4 type: Unknown"
+ outerL3Type = "(outer) L3 type: IPV6"
+
+ pktType = {
+ "MAC_IPv6_PKT": ["(outer) L2 type: ETHER", outerL3Type, outerL4Type],
+ "MAC_IPv6_UDP_PKT": ["(outer) L4 type: UDP"],
+ "MAC_IPv6_TCP_PKT": ["(outer) L4 type: TCP"],
+ "MAC_IPv6FRAG_PKT_F": ["(outer) L3 type: IPV6_EXT_UNKNOWN", "(outer) L4 type: L4_FRAG"],
+ "MAC_IPv6FRAG_PKT_N": ["(outer) L3 type: IPV6_EXT", "(outer) L4 type: Unknown"]
+ }
+
+ # delete the unsupported packet based on nic type
+ if "fortville" in self.nic.lower():
+ pktType.pop("MAC_IPv6FRAG_PKT_N")
+ elif "niantic" in self.nic.lower() or "i350" in self.nic.lower():
+ pktType.pop("MAC_IPv6FRAG_PKT_F")
+
+ self.run_test(pktType)
+
+ def test_IP_in_IPv4_tunnel(self):
+ """
+ checked that whether IP in IPv4 tunnel packet can be normally
+ detected by Fortville.
+ """
+ self.verify("fortville" in self.nic,
+ "IP in IPv4 tunnel packet type detect only support by Fortville")
+
+ pktType = {
+ "MAC_IP_IPFRAG_UDP_PKT": ["(outer) L2 type: ETHER", "(outer) L3 type: IPV4_EXT_UNKNOWN", "(outer) L4 type: Unknown", "Tunnel type: IP", "Inner L2 type: Unknown", "Inner L3 type: IPV4_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IP_IP_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IP_IP_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IP_IP_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IP_IP_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IP_IP_ICMP_PKT": ["Inner L4 type: ICMP"],
+ "MAC_IP_IPv6FRAG_PKT": ["Inner L3 type: IPV6_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IP_IPv6_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IP_IPv6_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IP_IPv6_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IP_IPv6_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IP_IPv6_ICMP_PKT": ["Inner L4 type: ICMP"]
+ }
+
+ self.run_test(pktType)
+
+ def test_IPv6_in_IPv4_tunnel(self):
+ """
+ checked that whether IPv4 in IPv6 tunnel packet can be normally
+ detected by Niantic and i350.
+ """
+ if "niantic" not in self.nic.lower() and "i350" not in self.nic.lower():
+ return
+
+ pktType = {
+ "MAC_IP_IPv6_PKT": ["(outer) L2 type: ETHER", "(outer) L3 type: IPV4", "(outer) L4 type: Unknown", "Tunnel type: IP", "Inner L2 type: Unknown", "Inner L3 type: IPV6", "Inner L4 type: Unknown"],
+ "MAC_IP_IPv6EXT2_PKT": ["Inner L3 type: IPV6_EXT"],
+ "MAC_IP_IPv6_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IP_IPv6_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IP_IPv6EXT2_UDP_PKT": ["Inner L3 type: IPV6_EXT", "Inner L4 type: UDP"],
+ "MAC_IP_IPv6EXT2_TCP_PKT": ["Inner L3 type: IPV6_EXT", "Inner L4 type: TCP"]
+ }
+ self.run_test(pktType)
+
+ def test_IP_in_IPv6_tunnel(self):
+ """
+ checked that whether IP in IPv6 tunnel packet can be normally
+ detected by Fortville.
+ """
+ self.verify("fortville" in self.nic,
+ "IP in IPv6 tunnel packet type detect only support by Fortville")
+
+ pktType = {
+ "MAC_IP_IPFRAG_UDP_PKT": ["(outer) L2 type: ETHER", "(outer) L3 type: IPV4_EXT_UNKNOWN", "(outer) L4 type: Unknown", "Tunnel type: IP", "Inner L2 type: Unknown", "Inner L3 type: IPV4_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IP_IP_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IP_IP_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IP_IP_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IP_IP_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IP_IP_ICMP_PKT": ["Inner L4 type: ICMP"],
+ "MAC_IP_IPv6FRAG_PKT": ["Inner L3 type: IPV6_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IP_IPv6_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IP_IPv6_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IP_IPv6_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IP_IPv6_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IP_IPv6_ICMP_PKT": ["Inner L4 type: ICMP"]
+ }
+ self.run_test(pktType)
+
+ def test_NVGRE_tunnel(self):
+ """
+ checked that whether NVGRE tunnel packet can be normally detected
+ by Fortville.
+ """
+ self.verify("fortville" in self.nic,
+ "NVGRE tunnel packet type detect only support by Fortville")
+
+ pktType = {
+ "MAC_IP_NVGRE_MAC_IPFRAG_PKT": ["(outer) L2 type: ETHER", "(outer) L3 type: IPV4_EXT_UNKNOWN", "(outer) L4 type: Unknown", "Tunnel type: GRENAT", "Inner L2 type: ETHER", "Inner L3 type: IPV4_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IP_NVGRE_MAC_IP_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IP_NVGRE_MAC_VLAN_PKT": ["Inner L2 type: ETHER_VLAN", "Inner L4 type: Unknown"],
+ "MAC_IP_NVGRE_MAC_VLAN_IPFRAG_PKT": ["Inner L3 type: IPV4_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IP_NVGRE_MAC_VLAN_IP_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IP_NVGRE_MAC_VLAN_IP_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IP_NVGRE_MAC_VLAN_IP_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IP_NVGRE_MAC_VLAN_IP_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IP_NVGRE_MAC_VLAN_IP_ICMP_PKT": ["Inner L4 type: ICMP"],
+ "MAC_IP_NVGRE_MAC_VLAN_IPv6FRAG_PKT": ["Inner L3 type: IPV6_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IP_NVGRE_MAC_VLAN_IPv6_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IP_NVGRE_MAC_VLAN_IPv6_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IP_NVGRE_MAC_VLAN_IPv6_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IP_NVGRE_MAC_VLAN_IPv6_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IP_NVGRE_MAC_VLAN_IPv6_ICMP_PKT": ["Inner L4 type: ICMP"]
+ }
+ self.run_test(pktType)
+
+ def test_NVGRE_in_IPv6_tunnel(self):
+ """
+ checked that whether NVGRE in IPv6 tunnel packet can be normally
+ detected by Fortville.
+ """
+ self.verify("fortville" in self.nic,
+ "NVGRE in IPv6 detect only support by Fortville")
+
+ pkt_types = {
+ "MAC_IPv6_NVGRE_MAC_PKT": ["(outer) L2 type: ETHER", "(outer) L3 type: IPV6_EXT_UNKNOWN", "(outer) L4 type: Unknown", "Tunnel type: GRENAT", "Inner L2 type: ETHER", "Inner L3 type: Unknown", "Inner L4 type: Unknown"],
+ "MAC_IPv6_NVGRE_MAC_IPFRAG_PKT": ["Inner L3 type: IPV4_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IPv6_NVGRE_MAC_IP_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IPv6_NVGRE_MAC_IP_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IPv6_NVGRE_MAC_IP_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IPv6_NVGRE_MAC_IP_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IPv6_NVGRE_MAC_IP_ICMP_PKT": ["Inner L4 type: ICMP"],
+ "MAC_IPv6_NVGRE_MAC_IPv6FRAG_PKT": ["Inner L3 type: IPV6_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IPv6_NVGRE_MAC_IPv6_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IPv6_NVGRE_MAC_IPv6_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IPv6_NVGRE_MAC_IPv6_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IPv6_NVGRE_MAC_IPv6_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IPv6_NVGRE_MAC_IPv6_ICMP_PKT": ["Inner L4 type: ICMP"],
+ "MAC_IPv6_NVGRE_MAC_VLAN_IPFRAG_PKT": ["Inner L2 type: ETHER_VLAN", "Inner L3 type: IPV4_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IPv6_NVGRE_MAC_VLAN_IP_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IPv6_NVGRE_MAC_VLAN_IP_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IPv6_NVGRE_MAC_VLAN_IP_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IPv6_NVGRE_MAC_VLAN_IP_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IPv6_NVGRE_MAC_VLAN_IP_ICMP_PKT": ["Inner L4 type: ICMP"],
+ "MAC_IPv6_NVGRE_MAC_VLAN_IPv6FRAG_PKT": ["Inner L3 type: IPV6_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IPv6_NVGRE_MAC_VLAN_IPv6_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IPv6_NVGRE_MAC_VLAN_IPv6_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IPv6_NVGRE_MAC_VLAN_IPv6_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IPv6_NVGRE_MAC_VLAN_IPv6_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IPv6_NVGRE_MAC_VLAN_IPv6_ICMP_PKT": ["Inner L4 type: ICMP"],
+ }
+
+ self.run_test(pkt_types)
+
+ def test_GRE_tunnel(self):
+ """
+ checked that whether GRE tunnel packet can be normally detected by Fortville.
+ """
+ self.verify("fortville" in self.nic,
+ "GRE tunnel packet type detect only support by Fortville")
+
+ pktType = {
+ "MAC_IP_GRE_IPFRAG_PKT": ["(outer) L2 type: ETHER", "(outer) L3 type: IPV4_EXT_UNKNOWN", "(outer) L4 type: Unknown", "Tunnel type: GRENAT", "Inner L2 type: Unknown", "Inner L3 type: IPV4_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IP_GRE_IP_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IP_GRE_IP_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IP_GRE_IP_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IP_GRE_IP_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IP_GRE_IP_ICMP_PKT": ["Inner L4 type: ICMP"],
+ "MAC_IP_GRE_PKT": ["Inner L3 type: Unknown", "Inner L4 type: Unknown"]
+ }
+ self.run_test(pktType)
+
+ def test_Vxlan_tunnel(self):
+ """
+ checked that whether Vxlan tunnel packet can be normally detected by
+ Fortville.
+ """
+ self.verify("fortville" in self.nic,
+ "Vxlan tunnel packet type detect only support by Fortville")
+
+ self.dut.send_expect("rx_vxlan_port add 4789 0", "testpmd>", 10)
+ self.dut.send_expect("set fwd rxonly", "testpmd>")
+ self.dut.send_expect("set verbose 1", "testpmd>")
+ self.dut.send_expect("start", "testpmd>")
+
+ pktType = {
+ "MAC_IP_UDP_VXLAN_MAC_IPFRAG_PKT": ["(outer) L2 type: ETHER", "(outer) L3 type: IPV4_EXT_UNKNOWN", "(outer) L4 type: Unknown", "Tunnel type: GRENAT", "Inner L2 type: ETHER", "Inner L3 type: IPV4_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IP_UDP_VXLAN_MAC_IP_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IP_UDP_VXLAN_MAC_IP_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IP_UDP_VXLAN_MAC_IP_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IP_UDP_VXLAN_MAC_IP_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IP_UDP_VXLAN_MAC_IP_ICMP_PKT": ["Inner L4 type: ICMP"],
+ "MAC_IP_UDP_VXLAN_MAC_IPv6FRAG_PKT": ["Inner L3 type: IPV6_EXT_UNKNOWN", "Inner L4 type: L4_FRAG"],
+ "MAC_IP_UDP_VXLAN_MAC_IPv6_PKT": ["Inner L4 type: L4_NONFRAG"],
+ "MAC_IP_UDP_VXLAN_MAC_IPv6_UDP_PKT": ["Inner L4 type: UDP"],
+ "MAC_IP_UDP_VXLAN_MAC_IPv6_TCP_PKT": ["Inner L4 type: TCP"],
+ "MAC_IP_UDP_VXLAN_MAC_IPv6_SCTP_PKT": ["Inner L4 type: SCTP"],
+ "MAC_IP_UDP_VXLAN_MAC_IPv6_ICMP_PKT": ["Inner L4 type: ICMP"],
+ "MAC_IP_UDP_VXLAN_MAC_PKT": ["Inner L3 type: Unknown", "Inner L4 type: Unknown"]
+ }
+ self.run_test(pktType)
+
+ def tear_down(self):
+ """
+ Run after each test case.
+ Nothing to do.
+ """
+ pass
+
+ def tear_down_all(self):
+ """
+ Run after each test suite.
+ Nothing to do.
+ """
+ self.dut.kill_all()
+ pass
--
1.9.3
^ permalink raw reply [flat|nested] 7+ messages in thread
* [dts] [PATCH 4/4] add unified packet type module and test suite
2015-09-16 8:56 [dts] [PATCH 0/4] add unified packet type module and test suite Yufen Mo
` (2 preceding siblings ...)
2015-09-16 8:56 ` [dts] [PATCH 3/4] " Yufen Mo
@ 2015-09-16 8:56 ` Yufen Mo
2015-09-16 13:03 ` [dts] [PATCH 0/4] " Liu, Yong
4 siblings, 0 replies; 7+ messages in thread
From: Yufen Mo @ 2015-09-16 8:56 UTC (permalink / raw)
To: dts; +Cc: yufengmx
From: yufengmx <yufengmx.mo@intel.com>
Update lldp and nvgre layer module
Signed-off-by: yufengmx <yufengmx.mo@intel.com>
---
dep/lldp.py | 242 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1 file changed, 242 insertions(+)
create mode 100644 dep/lldp.py
diff --git a/dep/lldp.py b/dep/lldp.py
new file mode 100644
index 0000000..d8fabe2
--- /dev/null
+++ b/dep/lldp.py
@@ -0,0 +1,242 @@
+#!/usr/bin/env python
+## This file is part of Scapy
+## See http://www.secdev.org/projects/scapy for more informations
+## Copyright (C) Philippe Biondi <phil@secdev.org>
+## This program is published under a GPLv2 license
+
+## Copyright (c) 2011 Jochen Bartl <jochen.bartl gmail com>
+
+"""
+LLDP (Link Layer Discovery Protocol)
+"""
+
+from scapy.packet import *
+from scapy.fields import *
+from scapy.layers.l2 import Ether
+from scapy.layers.inet6 import IP6Field
+
+_LLDP_tlv_cls = {0: "LLDPDUEnd",
+ 1: "LLDPChassisId",
+ 2: "LLDPPortId",
+ 3: "LLDPTTL",
+ 4: "LLDPPortDescription",
+ 5: "LLDPSystemName",
+ 6: "LLDPSystemDescription",
+ 7: "LLDPSystemCapabilities",
+ 8: "LLDPManagementAddress",
+ 127: "LLDPOrganizationalSpecific"}
+
+_LLDP_tlv_types = {0: "End of LLDPDU",
+ 1: "Chassis Id",
+ 2: "Port Id",
+ 3: "Time to Live",
+ 4: "Port Description",
+ 5: "System Name",
+ 6: "System Description",
+ 7: "System Capabilities",
+ 8: "Management Address",
+ 127: "Organization Specific"}
+
+
+# (oui, subtype)
+# 0x0080c2 - IEEE 802.1
+# 0x00120f - IEEE 802.3
+_LLDPOrgSpec_tlv_cls = {(0x0080c2, 0x01): "LLDPDot1PortVlanId",
+ }
+
+
+def _LLDPGuessPacketClass(p=None, **kargs):
+ if p is None:
+ return LLDPGeneric(**kargs)
+
+ cls = Raw
+
+ if len(p) >= 2:
+ t = struct.unpack("!B", p[0])[0]
+ t = (0xfe & t) >> 1
+
+ if t != 127:
+ clsname = _LLDP_tlv_cls.get(t, "LLDPGeneric")
+ else:
+ oui = struct.unpack("!I", "\x00" + p[2:5])[0]
+ subtype = struct.unpack("!B", p[5])[0]
+ clsname = _LLDPOrgSpec_tlv_cls.get((oui, subtype), "LLDPOrgSpecGeneric")
+
+ cls = globals()[clsname]
+
+ return cls(p, **kargs)
+
+
+class LLDPGeneric(Packet):
+ name = "LLDP Generic TLV"
+ fields_desc = [BitField("type", 1, 7),
+ BitFieldLenField("length", None, 9, length_of="value"),
+ StrLenField("value", "", length_from=lambda x: x.length)]
+
+ def guess_payload_class(self, p):
+ return Padding
+
+ def post_build(self, p, pay):
+ if self.length is None:
+ l = len(p) - 2
+ p = chr((self.type << 1) ^ (l >> 8)) + chr(l & 0xff) + p[2:]
+
+ return p+pay
+
+
+class LLDPOrgSpecGeneric(LLDPGeneric):
+ name = "LLDP Org Spec Generic TLV"
+ fields_desc = [BitField("type", 127, 7),
+ BitFieldLenField("length", None, 9, length_of="value"),
+ X3BytesField("oui", 0),
+ ByteField("subtype", 0),
+ StrLenField("value", "", length_from=lambda x: x.length - 4)]
+
+
+class LLDPDUEnd(LLDPGeneric):
+ name = "End of LLDPDU"
+ fields_desc = [BitField("type", 0, 7),
+ BitField("length", 0, 9)]
+
+
+_LLDPChassisId_Subtypes = {0: "Reserved",
+ 1: "Chassis component",
+ 2: "Interface alias",
+ 3: "Port component",
+ 4: "MAC address",
+ 5: "Network address",
+ 6: "Interface name",
+ 7: "Locally assigned"}
+
+
+class LLDPChassisId(LLDPGeneric):
+ name = "LLDP Chassis"
+ fields_desc = [BitField("type", 1, 7),
+ BitField("length", None, 9),
+ ByteEnumField("subtype", 4, _LLDPChassisId_Subtypes),
+ ConditionalField(MACField("macaddr", "00:11:22:33:44:55"), lambda pkt: pkt.subtype == 4),
+ # TODO Subtype 5, IPv4 / IPv6
+ # Catch-all field for undefined subtypes
+ ConditionalField(StrLenField("value", "", length_from=lambda x: x.length - 1),
+ lambda pkt: pkt.subtype not in [4])]
+
+
+_LLDPPortId_Subtypes = {0: "Reserved",
+ 1: "Interface alias",
+ 2: "Port component",
+ 3: "MAC address",
+ 4: "Network address",
+ 5: "Interface name",
+ 6: "Agent circuit ID",
+ 7: "Locally assigned"}
+
+
+class LLDPPortId(LLDPGeneric):
+ name = "LLDP PortId"
+ fields_desc = [BitField("type", 2, 7),
+ BitField("length", None, 9),
+ ByteEnumField("subtype", 3, _LLDPPortId_Subtypes),
+ ConditionalField(MACField("macaddr", "00:11:22:33:44:55"), lambda pkt: pkt.subtype == 3),
+ # TODO Subtype 4, IPv4 / IPv6
+ # Catch-all field for undefined subtypes
+ ConditionalField(StrLenField("value", "", length_from=lambda x: x.length - 1),
+ lambda pkt: pkt.subtype not in [3])]
+
+
+class LLDPTTL(LLDPGeneric):
+ name = "LLDP TTL"
+ fields_desc = [BitField("type", 3, 7),
+ BitField("length", None, 9),
+ ShortField("seconds", 120)]
+
+
+class LLDPPortDescription(LLDPGeneric):
+ name = "LLDP Port Description"
+ type = 4
+ value = "FastEthernet0/1"
+
+
+class LLDPSystemName(LLDPGeneric):
+ name = "LLDP System Name"
+ type = 5
+ value = "Scapy"
+
+
+class LLDPSystemDescription(LLDPGeneric):
+ name = "LLDP System Description"
+ type = 6
+ value = "Scapy"
+
+
+_LLDPSystemCapabilities = ["other", "repeater", "bridge", "wlanap", "router", "telephone", "docsiscable", "stationonly"]
+
+
+class LLDPSystemCapabilities(LLDPGeneric):
+ name = "LLDP System Capabilities"
+ fields_desc = [BitField("type", 7, 7),
+ BitField("length", None, 9),
+ # Available capabilities
+ FlagsField("capabilities", 0, 16, _LLDPSystemCapabilities),
+ # Enabled capabilities
+ FlagsField("enabled", 0, 16, _LLDPSystemCapabilities)]
+
+
+_LLDPManagementAddress_Subtype = {1: "IPv4",
+ 2: "IPv6",
+ 6: "802"
+ }
+
+_LLDPManagementAddress_IfSubtype = {1: "Unknown",
+ 2: "ifIndex",
+ 3: "System Port Number"
+ }
+
+
+class LLDPManagementAddress(LLDPGeneric):
+ name = "LLDP Management Address"
+ fields_desc = [BitField("type", 8, 7),
+ BitField("length", None, 9),
+ ByteField("addrlen", None),
+ ByteEnumField("addrsubtype", 1, _LLDPManagementAddress_Subtype),
+ ConditionalField(IPField("ipaddr", "192.168.0.1"), lambda pkt: pkt.addrsubtype == 1),
+ ConditionalField(IP6Field("ip6addr", "2001:db8::1"), lambda pkt: pkt.addrsubtype == 2),
+ ConditionalField(MACField("macaddr", "00:11:22:33:44:55"), lambda pkt: pkt.addrsubtype == 6),
+ ConditionalField(StrLenField("addrval", "", length_from=lambda x: x.addrlen - 1),
+ lambda pkt: pkt.addrsubtype not in [1, 2, 6]),
+ ByteEnumField("ifsubtype", 2, _LLDPManagementAddress_IfSubtype),
+ IntField("ifnumber", 0),
+ FieldLenField("oidlen", None, length_of="oid", fmt="B"),
+ StrLenField("oid", "", length_from=lambda x: x.oidlen)]
+
+ def post_build(self, p, pay):
+ # TODO Remove redundant code. LLDPGeneric.post_build()
+ if self.length is None:
+ l = len(p) - 2
+ p = chr((self.type << 1) ^ (l >> 8)) + chr(l & 0xff) + p[2:]
+
+ if self.addrlen is None:
+ addrlen = len(p) - 2 - 8 - len(self.oid) + 1
+ p = p[:2] + struct.pack("B", addrlen) + p[3:]
+
+ return p+pay
+
+
+_LLDPDot1Subtype = {1: "Port VLAN Id"}
+
+
+class LLDPDot1PortVlanId(LLDPOrgSpecGeneric):
+ name = "LLDP IEEE 802.1 Port VLAN Id"
+ fields_desc = [BitField("type", 127, 7),
+ BitField("length", None, 9),
+ # TODO: XThreeBytesEnumField
+ X3BytesField("oui", 0x0080c2),
+ ByteEnumField("subtype", 0x01, _LLDPDot1Subtype),
+ ShortField("vlan", 1)]
+
+
+class LLDP(Packet):
+ name ="LLDP"
+ fields_desc = [PacketListField("tlvlist", [], _LLDPGuessPacketClass)]
+
+
+bind_layers(Ether, LLDP, type=0x88cc)
--
1.9.3
^ permalink raw reply [flat|nested] 7+ messages in thread
* Re: [dts] [PATCH 0/4] add unified packet type module and test suite
2015-09-16 8:56 [dts] [PATCH 0/4] add unified packet type module and test suite Yufen Mo
` (3 preceding siblings ...)
2015-09-16 8:56 ` [dts] [PATCH 4/4] " Yufen Mo
@ 2015-09-16 13:03 ` Liu, Yong
4 siblings, 0 replies; 7+ messages in thread
From: Liu, Yong @ 2015-09-16 13:03 UTC (permalink / raw)
To: Mo, YufengX, dts
Hi Yufen,
Would you please add more descriptions of this patch set? As an sample, explain what's the basic concept of this feature.
> -----Original Message-----
> From: dts [mailto:dts-bounces@dpdk.org] On Behalf Of Yufen Mo
> Sent: Wednesday, September 16, 2015 4:57 PM
> To: dts@dpdk.org
> Cc: yufengmx
> Subject: [dts] [PATCH 0/4] add unified packet type module and test suite
>
> From: yufengmx <yufengmx.mo@intel.com>
>
>
> yufengmx (4):
> unified packet type test suite implementation
> fix issue test plan for unified packet type
> Add test suite for unified packet type
> Update lldp and nvgre layer module
>
> dep/lldp.py | 242 +++++++++++++++
> framework/packet.py | 642
> +++++++++++++++++++++++++++++++++++++++
> test_plans/uni_pkt_test_plan.rst | 30 +-
> tests/TestSuite_uni_pkt.py | 364 ++++++++++++++++++++++
> 4 files changed, 1262 insertions(+), 16 deletions(-)
> create mode 100644 dep/lldp.py
> create mode 100755 framework/packet.py
> create mode 100644 tests/TestSuite_uni_pkt.py
>
> --
> 1.9.3
^ permalink raw reply [flat|nested] 7+ messages in thread