blob: 11d6983b28a26b25c8648e5982f385ad88ab7821 [file] [log] [blame]
"""
OpenFlow message parsing functions
"""
import sys
import logging
from message import *
from error import *
from action import *
from action_list import action_list
from cstruct import *
try:
import scapy.all as scapy
except:
try:
import scapy as scapy
except:
sys.exit("Need to install scapy for packet parsing")
"""
of_message.py
Contains wrapper functions and classes for the of_message namespace
that are generated by hand. It includes the rest of the wrapper
function information into the of_message namespace
"""
parse_logger = logging.getLogger("parse")
#parse_logger.setLevel(logging.DEBUG)
# These message types are subclassed
msg_type_subclassed = [
OFPT_STATS_REQUEST,
OFPT_STATS_REPLY,
OFPT_ERROR
]
# Maps from sub-types to classes
stats_reply_to_class_map = {
OFPST_DESC : desc_stats_reply,
OFPST_AGGREGATE : aggregate_stats_reply,
OFPST_FLOW : flow_stats_reply,
OFPST_TABLE : table_stats_reply,
OFPST_PORT : port_stats_reply,
OFPST_QUEUE : queue_stats_reply
}
stats_request_to_class_map = {
OFPST_DESC : desc_stats_request,
OFPST_AGGREGATE : aggregate_stats_request,
OFPST_FLOW : flow_stats_request,
OFPST_TABLE : table_stats_request,
OFPST_PORT : port_stats_request,
OFPST_QUEUE : queue_stats_request
}
error_to_class_map = {
OFPET_HELLO_FAILED : hello_failed_error_msg,
OFPET_BAD_REQUEST : bad_request_error_msg,
OFPET_BAD_ACTION : bad_action_error_msg,
OFPET_FLOW_MOD_FAILED : flow_mod_failed_error_msg,
OFPET_PORT_MOD_FAILED : port_mod_failed_error_msg,
OFPET_QUEUE_OP_FAILED : queue_op_failed_error_msg
}
# Map from header type value to the underlieing message class
msg_type_to_class_map = {
OFPT_HELLO : hello,
OFPT_ERROR : error,
OFPT_ECHO_REQUEST : echo_request,
OFPT_ECHO_REPLY : echo_reply,
OFPT_VENDOR : vendor,
OFPT_FEATURES_REQUEST : features_request,
OFPT_FEATURES_REPLY : features_reply,
OFPT_GET_CONFIG_REQUEST : get_config_request,
OFPT_GET_CONFIG_REPLY : get_config_reply,
OFPT_SET_CONFIG : set_config,
OFPT_PACKET_IN : packet_in,
OFPT_FLOW_REMOVED : flow_removed,
OFPT_PORT_STATUS : port_status,
OFPT_PACKET_OUT : packet_out,
OFPT_FLOW_MOD : flow_mod,
OFPT_PORT_MOD : port_mod,
OFPT_STATS_REQUEST : stats_request,
OFPT_STATS_REPLY : stats_reply,
OFPT_BARRIER_REQUEST : barrier_request,
OFPT_BARRIER_REPLY : barrier_reply,
OFPT_QUEUE_GET_CONFIG_REQUEST : queue_get_config_request,
OFPT_QUEUE_GET_CONFIG_REPLY : queue_get_config_reply
}
def _of_message_to_object(binary_string):
"""
Map a binary string to the corresponding class.
Appropriately resolves subclasses
"""
hdr = ofp_header()
hdr.unpack(binary_string)
# FIXME: Add error detection
if not hdr.type in msg_type_subclassed:
return msg_type_to_class_map[hdr.type]()
if hdr.type == OFPT_STATS_REQUEST:
sub_hdr = ofp_stats_request()
sub_hdr.unpack(binary_string[OFP_HEADER_BYTES:])
try:
obj = stats_request_to_class_map[sub_hdr.type]()
except KeyError:
obj = None
return obj
elif hdr.type == OFPT_STATS_REPLY:
sub_hdr = ofp_stats_reply()
sub_hdr.unpack(binary_string[OFP_HEADER_BYTES:])
try:
obj = stats_reply_to_class_map[sub_hdr.type]()
except KeyError:
obj = None
return obj
elif hdr.type == OFPT_ERROR:
sub_hdr = ofp_error_msg()
sub_hdr.unpack(binary_string[OFP_HEADER_BYTES:])
return error_to_class_map[sub_hdr.type]()
else:
parse_logger.error("Cannot parse pkt to message")
return None
def of_message_parse(binary_string, raw=False):
"""
Parse an OpenFlow packet
Parses a raw OpenFlow packet into a Python class, with class
members fully populated.
@param binary_string The packet (string) to be parsed
@param raw If true, interpret the packet as an L2 packet. Not
yet supported.
@return An object of some message class or None if fails
Note that any data beyond that parsed is not returned
"""
if raw:
parse_logger.error("raw packet message parsing not supported")
return None
obj = _of_message_to_object(binary_string)
if obj:
obj.unpack(binary_string)
return obj
def of_header_parse(binary_string, raw=False):
"""
Parse only the header from an OpenFlow packet
Parses the header from a raw OpenFlow packet into a
an ofp_header Python class.
@param binary_string The packet (string) to be parsed
@param raw If true, interpret the packet as an L2 packet. Not
yet supported.
@return An ofp_header object
"""
if raw:
parse_logger.error("raw packet message parsing not supported")
return None
hdr = ofp_header()
hdr.unpack(binary_string)
return hdr
map_wc_field_to_match_member = {
'OFPFW_DL_VLAN' : 'dl_vlan',
'OFPFW_DL_SRC' : 'dl_src',
'OFPFW_DL_DST' : 'dl_dst',
'OFPFW_DL_TYPE' : 'dl_type',
'OFPFW_NW_PROTO' : 'nw_proto',
'OFPFW_TP_SRC' : 'tp_src',
'OFPFW_TP_DST' : 'tp_dst',
'OFPFW_NW_SRC_SHIFT' : 'nw_src_shift',
'OFPFW_NW_SRC_BITS' : 'nw_src_bits',
'OFPFW_NW_SRC_MASK' : 'nw_src_mask',
'OFPFW_NW_SRC_ALL' : 'nw_src_all',
'OFPFW_NW_DST_SHIFT' : 'nw_dst_shift',
'OFPFW_NW_DST_BITS' : 'nw_dst_bits',
'OFPFW_NW_DST_MASK' : 'nw_dst_mask',
'OFPFW_NW_DST_ALL' : 'nw_dst_all',
'OFPFW_DL_VLAN_PCP' : 'dl_vlan_pcp',
'OFPFW_NW_TOS' : 'nw_tos'
}
def parse_mac(mac_str):
"""
Parse a MAC address
Parse a MAC address ':' separated string of hex digits to an
array of integer values. '00:d0:05:5d:24:00' => [0, 208, 5, 93, 36, 0]
@param mac_str The string to convert
@return Array of 6 integer values
"""
return map(lambda val:eval("0x" + val), mac_str.split(":"))
def parse_ip(ip_str):
"""
Parse an IP address
Parse an IP address '.' separated string of decimal digits to an
host ordered integer. '172.24.74.77' =>
@param ip_str The string to convert
@return Integer value
"""
array = map(lambda val:eval(val),ip_str.split("."))
val = 0
for a in array:
val <<= 8
val += a
return val
def packet_type_classify(ether):
try:
dot1q = ether[scapy.Dot1Q]
except:
dot1q = None
try:
ip = ether[scapy.IP]
except:
ip = None
try:
tcp = ether[scapy.TCP]
except:
tcp = None
try:
udp = ether[scapy.UDP]
except:
udp = None
try:
icmp = ether[scapy.ICMP]
except:
icmp = None
# @todo arp is not yet supported
arp = None
return (dot1q, ip, tcp, udp, icmp, arp)
def packet_to_flow_match(packet, pkt_format="L2"):
"""
Create a flow match that matches packet with the given wildcards
@param packet The packet to use as a flow template
@param pkt_format Currently only L2 is supported. Will indicate the
overall packet type for parsing
@return An ofp_match object if successful. None if format is not
recognized. The wildcards of the match will be cleared for the
values extracted from the packet.
@todo check min length of packet
@todo Check if packet is other than L2 format
@todo Implement ICMP and ARP fields
"""
#@todo check min length of packet
if pkt_format.upper() != "L2":
parse_logger.error("Only L2 supported for packet_to_flow")
return None
if type(packet) == type(""):
ether = scapy.Ether(packet)
else:
ether = packet
# For now, assume ether IP packet and ignore wildcards
try:
(dot1q, ip, tcp, udp, icmp, arp) = packet_type_classify(ether)
except:
parse_logger.error("packet_to_flow_match: Classify error")
return None
match = ofp_match()
match.wildcards = OFPFW_ALL
#@todo Check if packet is other than L2 format
match.dl_dst = parse_mac(ether.dst)
match.wildcards &= ~OFPFW_DL_DST
match.dl_src = parse_mac(ether.src)
match.wildcards &= ~OFPFW_DL_SRC
match.dl_type = ether.type
match.wildcards &= ~OFPFW_DL_TYPE
if dot1q:
match.dl_vlan = dot1q.vlan
match.dl_vlan_pcp = dot1q.prio
match.dl_type = dot1q.type
else:
match.dl_vlan = OFP_VLAN_NONE
match.dl_vlan_pcp = 0
match.wildcards &= ~OFPFW_DL_VLAN
match.wildcards &= ~OFPFW_DL_VLAN_PCP
if ip:
match.nw_src = parse_ip(ip.src)
match.wildcards &= ~OFPFW_NW_SRC_MASK
match.nw_dst = parse_ip(ip.dst)
match.wildcards &= ~OFPFW_NW_DST_MASK
match.nw_tos = ip.tos
match.wildcards &= ~OFPFW_NW_TOS
if tcp:
match.nw_proto = 6
match.wildcards &= ~OFPFW_NW_PROTO
elif not tcp and udp:
tcp = udp
match.nw_proto = 17
match.wildcards &= ~OFPFW_NW_PROTO
if tcp:
match.tp_src = tcp.sport
match.wildcards &= ~OFPFW_TP_SRC
match.tp_dst = tcp.dport
match.wildcards &= ~OFPFW_TP_DST
if icmp:
match.nw_proto = 1
match.tp_src = icmp.type
match.tp_dst = icmp.code
#@todo Implement ARP fields
return match