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ospf.py
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ospf.py
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#! /usr/bin/env python2.5
## PyRT: Python Routeing Toolkit
## OSPF module: provides the OSPF listener and OSPF PDU parsers
## Copyright (C) 2010 Richard Mortier <[email protected]>
## This program is free software; you can redistribute it and/or
## modify it under the terms of the GNU General Public License as
## published by the Free Software Foundation; either version 2 of the
## License, or (at your option) any later version.
## This program is distributed in the hope that it will be useful,
## but WITHOUT ANY WARRANTY; without even the implied warranty of
## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
## General Public License for more details.
## You should have received a copy of the GNU General Public License
## along with this program; if not, write to the Free Software
## Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
## 02111-1307 USA
# RFC 1584 -- MOSPF
# RFC 2328 -- OSPF v2
# RFC 2370 -- Opaque LSAs (updated by RFC 3670)
# [ This is such a mess compared with IS-IS! Opaque LSAs have a
# different LSA header format due to the need to encode an Opaque
# LSA type ]
# RFC 2676 -- QoS routing mechanisms
# RFC 3101 -- Not-so-stubby-area (NSSA) option
# RFC 3137 -- Stub routers (where metric == 0xffffff > LSInfinity, 0xffff)
# RFC 3623 -- Graceful restart
# RFC 3630 -- Traffic engineering extensions
## LSUPD/LSA notes:
# router id:
# the IP address of the router that generated the packet
# advrtr:
# the IP address of the advertising router
# src:
# the IP address of the interface from which the LSUPD came
# link state id (lsid):
# identifier for this link (interface) dependent on type of LSA:
# 1 (router) ID of router generating LSA
# 2 (network) IP address of DR for LAN
# 3 (summary IP) IP address of link reported as dst
# 4 (summary ASBR) IP address of reachable ASBR
# 5 (external AS) IP address of link reported as dst
# link id:
# what is connected to this router by this link, dependent on type
# 1 (p2p) ID of neighbour router
# 2 (transit) IP address of DR for LAN
# 3 (stub) IP address of LAN (no DR since a stub network)
# 4 (virtual) ID of neighbour router
# link data:
# subnet mask if lsid==3; else IP address of the router that
# generated the LSA on the advertised link (~= advrtr?)
# summary LSA:
# created by ASBR and flooded into area; type 3 report cost to
# prefix outside area, type 4 report cost to ASBR
import struct, socket, sys, math, getopt, string, os.path, time, select, traceback
from mutils import *
#-------------------------------------------------------------------------------
INDENT = " "
VERSION = "2.9"
RECV_BUF_SZ = 8192
OSPF_LISTEN_PORT = 89
LS_INFINITY = 0xffff
LS_STUB_RTR = 0xffffff
IP_HDR = "> BBH HH BBH LL"
IP_HDR_LEN = struct.calcsize(IP_HDR)
OSPF_HDR = "> BBH L L HH L L"
OSPF_HDR_LEN = struct.calcsize(OSPF_HDR)
OSPF_HELLO = "> L HBB L L L"
OSPF_HELLO_LEN = struct.calcsize(OSPF_HELLO)
OSPF_DESC = "> HBB L "
OSPF_DESC_LEN = struct.calcsize(OSPF_DESC)
OSPF_LSREQ = "> L L L"
OSPF_LSREQ_LEN = struct.calcsize(OSPF_LSREQ)
OSPF_LSUPD = "> L"
OSPF_LSUPD_LEN = struct.calcsize(OSPF_LSUPD)
OSPF_LSAHDR = "> HBB L L L HH"
OSPF_LSAHDR_LEN = struct.calcsize(OSPF_LSAHDR)
OSPF_LSARTR = "> BBH"
OSPF_LSARTR_LEN = struct.calcsize(OSPF_LSARTR)
OSPF_LSANET = "> L"
OSPF_LSANET_LEN = struct.calcsize(OSPF_LSANET)
OSPF_LINK = "> L L BBH"
OSPF_LINK_LEN = struct.calcsize(OSPF_LINK)
OSPF_METRIC = "> BBH"
OSPF_METRIC_LEN = struct.calcsize(OSPF_METRIC)
OSPF_LSASUMMARY = "> L"
OSPF_LSASUMMARY_LEN = struct.calcsize(OSPF_LSASUMMARY)
OSPF_LSAEXT = "> L"
OSPF_LSAEXT_LEN = struct.calcsize(OSPF_LSAEXT)
OSPF_LSAEXT_METRIC = "> BBH L L"
OSPF_LSAEXT_METRIC_LEN = struct.calcsize(OSPF_LSAEXT_METRIC)
################################################################################
DLIST = []
ADDRS = { str2id("224.0.0.5"): "AllSPFRouters",
str2id("224.0.0.6"): "AllDRouters",
}
DLIST += [ADDRS]
AFI_TYPES = { 1L: "IP",
2L: "IP6",
}
DLIST += [AFI_TYPES]
MSG_TYPES = { 1L: "HELLO",
2L: "DBDESC",
3L: "LSREQ",
4L: "LSUPD",
5L: "LSACK",
}
DLIST += [MSG_TYPES]
AU_TYPES = { 0L: "NULL",
1L: "PASSWD",
2L: "CRYPTO",
}
DLIST += [AU_TYPES]
LSA_TYPES = { 1L: "ROUTER", # links between routers in the area
2L: "NETWORK", # links between "networks" in the area
3L: "SUMMARY (IP)", # networks rechable outside area; gen. by ASBR
4L: "SUMMARY (ASBR)", # ASBRs reachable outside area; gen. by (local) ASBR
5L: "EXTERNAL AS", # prefixes reachable outside the AS; gen. by (local) ASBR
6L: "MOSPF",
7L: "NSSA",
9L: "OPAQUE LINK LOCAL",
10L: "OPAQUE AREA LOCAL",
11L: "OPAQUE AS LOCAL",
}
DLIST += [LSA_TYPES]
OPAQUE_TYPES = { 1L: "TRAFFIC ENGINEERING",
3L: "GRACEFUL RESTART",
}
DLIST += [OPAQUE_TYPES]
TE_TLV_TS = { 1L: "ROUTER ADDRESS",
2L: "LINK",
}
DLIST += [TE_TLV_TS]
TE_TLV_LS = { 1L: 4,
2L: 0, ## variable
}
TE_LINK_SUBTYPES = { 1L: "TYPE",
2L: "ID",
3L: "LOCAL IF",
4L: "REMOTE IF",
5L: "TE METRIC",
6L: "MAX BW",
7L: "MAX RSVBL BW",
8L: "UNRSVD BW",
9L: "ADMIN GROUP",
}
DLIST += [TE_LINK_SUBTYPES]
TE_LINK_SUBTYPE_LS = { 1L: 1,
2L: 4,
3L: 4,
4L: 4,
5L: 4,
6L: 4,
7L: 4,
8L: 32,
9L: 4,
}
GRACE_TLV_TS = { 1L: "PERIOD",
2L: "REASON",
3L: "IP ADDR",
}
DLIST += [GRACE_TLV_TS]
GRACE_REASONS = { 0L: "UNKNOWN",
1L: "SW RESTART",
2L: "SW RELOAD/UPGRADE",
3L: "SWITCH REDUNDANT RCP",
}
DLIST += [GRACE_REASONS]
GRACE_TLV_LS = { 1L: 4,
2L: 1,
3L: 4,
}
RTR_LINK_TYPE = { 1L: "P2P",
2L: "TRANSIT",
3L: "STUB",
4L: "VIRTUAL",
}
DLIST += [RTR_LINK_TYPE]
for d in DLIST:
for k in d.keys():
d[ d[k] ] = k
################################################################################
def parseIpHdr(msg, verbose=1, level=0):
if verbose > 1: print prtbin(level*INDENT, msg[:IP_HDR_LEN])
(verhlen, tos, iplen, ipid, frag, ttl, proto, cksum, src, dst) =\
struct.unpack(IP_HDR, msg)
ver = (verhlen & 0xf0) >> 4
hlen = (verhlen & 0x0f) * 4
if verbose > 0:
print level*INDENT +\
"IP (len=%d)" % len(msg)
print (level+1)*INDENT +\
"ver:%s, hlen:%s, tos:%s, len:%s, id:%s, frag:%s, ttl:%s, prot:%s, cksm:%x" %\
(ver, hlen, int2bin(tos), iplen, ipid, frag, ttl, proto, cksum)
print (level+1)*INDENT +\
"src:%s, dst:%s" % (id2str(src), id2str(dst))
return { "VER" : ver,
"HLEN" : hlen,
"TOS" : tos,
"IPLEN" : iplen,
"IPID" : ipid,
"FRAG" : frag,
"TTL" : ttl,
"PROTO" : proto,
"CKSUM" : cksum,
"SRC" : src,
"DST" : dst
}
def parseOspfHdr(msg, verbose=1, level=0):
if verbose > 1: print prtbin(level*INDENT, msg[:OSPF_HDR_LEN])
(ver, typ, len, rid, aid, cksum, autype, auth1, auth2) = struct.unpack(OSPF_HDR, msg)
if verbose > 0:
print level*INDENT +\
"OSPF: ver:%s, type:%s, len:%s, rtr id:%s, area id:%s, cksum:%x, autype:%s" %\
(ver, MSG_TYPES[typ], len, id2str(rid), id2str(aid), cksum, AU_TYPES[autype],)
return { "VER" : ver,
"TYPE" : typ,
"LEN" : len,
"RID" : rid,
"AID" : aid,
"CKSUM" : cksum,
"AUTYPE" : autype,
"AUTH1" : auth1,
"AUTH2" : auth2,
}
def parseOspfOpts(opts, verbose=1, level=0):
if verbose > 1: print level*INDENT + int2bin(opts)
qbit = (opts & 0x01) ## RFC 2676; reclaim original "T"-bit for TOS routing cap.
ebit = (opts & 0x02) >> 1
mcbit = (opts & 0x04) >> 2
npbit = (opts & 0x08) >> 3
eabit = (opts & 0x10) >> 4
dcbit = (opts & 0x20) >> 5
obit = (opts & 0x40) >> 6
if verbose > 0:
print level*INDENT + "options: %s %s %s %s %s %s %s" %(
qbit*"Q", ebit*"E", mcbit*"MC", npbit*"NP", eabit*"EA", dcbit*"DC", obit*"O")
return { "Q" : qbit,
"E" : ebit,
"MC" : mcbit,
"NP" : npbit,
"EA" : eabit,
"DC" : dcbit,
"O" : obit,
}
def parseOspfLsaHdr(hdr, verbose=1, level=0):
if verbose > 1: print prtbin(level*INDENT, hdr)
(age, opts, typ, lsid, advrtr, lsseqno, cksum, length) = struct.unpack(OSPF_LSAHDR, hdr)
if verbose > 0:
print level*INDENT +\
"age:%s, type:%s, lsid:%s, advrtr:%s, lsseqno:%s, cksum:%x, len:%s" %(
age, LSA_TYPES[typ], id2str(lsid), id2str(advrtr), lsseqno, cksum, length)
opts = parseOspfOpts(opts, verbose, level)
return { "AGE" : age,
"OPTS" : opts,
"T" : typ,
"LSID" : lsid,
"ADVRTR" : advrtr,
"LSSEQNO" : lsseqno,
"CKSUM" : cksum,
"L" : length,
}
def parseOspfLsaRtr(lsa, verbose=1, level=0):
if verbose > 1: print prtbin(level*INDENT, lsa[:OSPF_LSARTR_LEN])
(veb, _, nlinks, ) = struct.unpack(OSPF_LSARTR, lsa[:OSPF_LSARTR_LEN])
v = (veb & 0x01)
e = (veb & 0x02) >> 1
b = (veb & 0x04) >> 2
if verbose > 0:
print level*INDENT + "nlinks:%s, rtr desc: %s %s %s" %(
nlinks, v*"VIRTUAL", e*"EXTERNAL", b*"BORDER")
lsa = lsa[OSPF_LSARTR_LEN:] ; i = 0 ; links = {}
while i < nlinks:
i += 1
if verbose > 1: print prtbin((level+1)*INDENT, lsa[:OSPF_LINK_LEN])
(lid, ldata, ltype, ntos, metric) = struct.unpack(OSPF_LINK, lsa[:OSPF_LINK_LEN])
if verbose > 0:
print (level+1)*INDENT +\
"%s: link id:%s, link data:%s, link type:%s, ntos:%s, metric:%s" %(
i, id2str(lid), id2str(ldata), RTR_LINK_TYPE[ltype], ntos, metric)
lsa = lsa[OSPF_LINK_LEN:] ; j = 0 ; metrics = { 0: metric, }
while j < ntos:
j += 1
if verbose > 1: print prtbin((level+2)*INDENT, lsa[:OSPF_METRIC_LEN])
(tos, _, metric) = struct.unpack(OSPF_METRIC, lsa[:OSPF_METRIC_LEN])
if verbose > 0:
print (level+2)*INDENT +\
"%s: tos:%s, metric:%s" % (j, int2bin(tos), metric)
metrics[tos] = metric
lsa = lsa[OSPF_METRIC_LEN:]
links[i] = { "ID" : lid,
"DATA" : ldata,
"T" : ltype,
"NTOS" : ntos,
"METRICS" : metrics,
}
return { "VIRTUAL" : v,
"EXTERNAL" : e,
"BORDER" : b,
"NLINKS" : nlinks,
"LINKS" : links,
}
def parseOspfLsaNet(lsa, verbose=1, level=0):
if verbose > 1: print prtbin(level*INDENT, lsa[:OSPF_LSANET_LEN])
(mask, ) = struct.unpack(OSPF_LSANET, lsa[:OSPF_LSANET_LEN])
if verbose > 0: print level*INDENT + "mask:%s" % (id2str(mask), )
lsa = lsa[OSPF_LSANET_LEN:] ; cnt = 0 ; rtrs = []
while len(lsa) > 0:
cnt += 1
if verbose > 1: print prtbin((level+1)*INDENT, lsa[:OSPF_LSANET_LEN])
(rtr,) = struct.unpack(OSPF_LSANET, lsa[:OSPF_LSANET_LEN])
if verbose > 0:
print (level+1)*INDENT + "%s: attached rtr:%s" % (cnt, id2str(rtr))
rtrs.append(rtr)
lsa = lsa[OSPF_LSANET_LEN:]
return { "MASK" : mask,
"RTRS" : rtrs
}
def parseOspfLsaSummary(lsa, verbose=1, level=0):
if verbose > 1: print prtbin(level*INDENT, lsa[:OSPF_LSASUMMARY_LEN])
(mask, ) = struct.unpack(OSPF_LSASUMMARY, lsa[:OSPF_LSASUMMARY_LEN])
if verbose > 0:
print level*INDENT + "mask:%s" % (id2str(mask), )
lsa = lsa[OSPF_LSASUMMARY_LEN:] ; cnt = 0 ; metrics = {}
while len(lsa) > 0:
cnt += 1
if verbose > 1: print prtbin((level+1)*INDENT, lsa[:OSPF_METRIC_LEN])
(tos, stub, metric) = struct.unpack(OSPF_METRIC, lsa[:OSPF_METRIC_LEN])
## RFC 3137 "Stub routers": if (stub,metric) == (0xff, 0xffff)
## then this is a stub router and it is attempting to
## discourage other routers from using it to transit traffic,
## ie. forward traffic to any networks others than those
## connected directly
metric = ((stub<<16) | metric)
if verbose > 0:
if metric == LS_STUB_RTR: mstr = "metric:STUB_ROUTER"
elif metric > LS_INFINITY: mstr = "*** metric:%s > LS_INFINITY! ***" % metric
elif metric == LS_INFINITY: mstr = "metric:LS_INFINITY"
else: mstr = "metric:%d" % metric
print (level+1)*INDENT + "%s: tos:%s, %s" % (cnt, tos, mstr)
metrics[tos] = metric
lsa = lsa[OSPF_METRIC_LEN:]
return { "MASK" : mask,
"METRICS" : metrics
}
def parseOspfLsaExt(lsa, verbose=1, level=0):
if verbose > 1: print prtbin(level*INDENT, lsa[:OSPF_LSAEXT_LEN])
(mask, ) = struct.unpack(OSPF_LSAEXT, lsa[:OSPF_LSAEXT_LEN])
if verbose > 0: print level*INDENT + "mask:%s" % id2str(mask)
lsa = lsa[OSPF_LSAEXT_LEN:] ; cnt = 0 ; metrics = {}
while len(lsa) > 0:
if verbose > 1: print prtbin((level+1)*INDENT, lsa[:OSPF_LSAEXT_METRIC_LEN])
(exttos, stub, metric, fwd, tag, ) =\
struct.unpack(OSPF_LSAEXT_METRIC, lsa[:OSPF_LSAEXT_METRIC_LEN])
ext = ((exttos & 0xf0) >> 7) * "E"
tos = exttos & 0x7f
metric = ((stub<<16) | metric)
if verbose > 0:
if metric == LS_STUB_RTR: mstr = "metric:STUB_ROUTER"
elif metric > LS_INFINITY: mstr = "*** metric:%s > LS_INFINITY! ***" % metric
elif metric == LS_INFINITY: mstr = "metric:LS_INFINITY"
else: mstr = "metric:%d" % metric
print (level+1)*INDENT +\
"%s: ext:%s, tos:%s, %s, fwd:%s, tag:0x%x" %(
cnt, ext, int2bin(tos), mstr, id2str(fwd), tag)
metrics[tos] = { "EXT" : ext,
"METRIC" : metric,
"FWD" : fwd,
"TAG" : tag,
}
lsa = lsa[OSPF_LSAEXT_METRIC_LEN:]
cnt += 1
return { "MASK": mask,
"METRICS": metrics,
}
def parseOspfLsas(lsas, verbose=1, level=0):
rv = {}
cnt = 0
while len(lsas) > 0:
cnt += 1
rv[cnt] = {}
if verbose > 0: print level*INDENT + "LSA %s" % cnt
rv[cnt]["H"] = parseOspfLsaHdr(lsas[:OSPF_LSAHDR_LEN], verbose, level+1)
t = rv[cnt]["H"]["T"]
l = rv[cnt]["H"]["L"]
rv[cnt]["T"] = t
rv[cnt]["L"] = l
if t == LSA_TYPES["ROUTER"]:
rv[cnt]["V"] = parseOspfLsaRtr(lsas[OSPF_LSAHDR_LEN:l], verbose, level+1)
elif t == LSA_TYPES["NETWORK"]:
rv[cnt]["V"] = parseOspfLsaNet(lsas[OSPF_LSAHDR_LEN:l], verbose, level+1)
elif t == LSA_TYPES["SUMMARY (IP)"]:
rv[cnt]["V"] = parseOspfLsaSummary(lsas[OSPF_LSAHDR_LEN:l], verbose, level+1)
elif t == LSA_TYPES["SUMMARY (ASBR)"]:
rv[cnt]["V"] = parseOspfLsaSummary(lsas[OSPF_LSAHDR_LEN:l], verbose, level+1)
elif t == LSA_TYPES["EXTERNAL AS"]:
rv[cnt]["V"] = parseOspfLsaExt(lsas[OSPF_LSAHDR_LEN:l], verbose, level+1)
else:
error("[ *** unknown LSA type %d*** ]\n" % (t, ))
error("%s\n" % prtbin(level*INDENT, msg))
lsas = lsas[l:]
return rv
def parseOspfHello(msg, verbose=1, level=0):
if verbose > 1: print prtbin(level*INDENT, msg)
(netmask, hello, opts, prio, dead, desig, bdesig) = struct.unpack(OSPF_HELLO, msg[:OSPF_HELLO_LEN])
if verbose > 0:
print level*INDENT +\
"HELLO: netmask:%s, hello intvl:%s, opts:%s, prio:%s, dead intvl:%s" %\
(id2str(netmask), hello, opts, prio, dead)
print (level+1)*INDENT +\
"designated rtr:%s, backup designated rtr:%s" %\
(id2str(desig), id2str(bdesig))
msg = msg[OSPF_HELLO_LEN:] ; nbor_len = struct.calcsize(">L") ; nbors = []
while len(msg) > 0:
if verbose > 1: print prtbin(level*INDENT, msg[:nbor_len])
(nbor,) = struct.unpack(">L", msg[:nbor_len])
if verbose > 0:
print (level+1)*INDENT + "neighbour: %s" % (id2str(nbor),)
nbors.append(nbor)
msg = msg[nbor_len:]
return { "NETMASK" : netmask,
"HELLO" : hello,
"OPTS" : parseOspfOpts(opts, verbose, level),
"PRIO" : prio,
"DEAD" : dead,
"DESIG" : desig,
"BDESIG" : bdesig,
"NBORS" : nbors
}
def parseOspfDesc(msg, verbose=1, level=0):
if verbose > 1: print prtbin(level*INDENT, msg)
(mtu, opts, imms, ddseqno) = struct.unpack(OSPF_DESC, msg[:OSPF_DESC_LEN])
init = (imms & 0x04) >> 2
more = (imms & 0x02) >> 1
masterslave = (imms & 0x01)
if verbose > 0:
print level*INDENT +\
"DESC: mtu:%s, opts:%s, imms:%s%s%s%s, dd seqno:%s" %\
(mtu, int2bin(opts), init*"INIT", more*" MORE",
masterslave*" MASTER" + (1-masterslave)*" SLAVE",
ddseqno)
return { "MTU" : mtu,
"OPTS" : parseOspfOpts(opts, verbose, level),
"INIT" : init,
"MORE" : more,
"MASTERSLAVE" : masterslave,
}
def parseOspfLSReq(msg, verbose=1, level=0):
error("### LSREQ UNIMPLEMENTED ###\n")
return None
def parseOspfLsUpd(msg, verbose=1, level=0):
if verbose > 1: print prtbin(level*INDENT, msg[:OSPF_LSUPD_LEN])
(nlsas, ) = struct.unpack(OSPF_LSUPD, msg[:OSPF_LSUPD_LEN])
if verbose > 0:
print level*INDENT + "LSUPD: nlsas:%s" % (nlsas)
return { "NLSAS" : nlsas,
"LSAS" : parseOspfLsas(msg[OSPF_LSUPD_LEN:], verbose, level+1),
}
def parseOspfLsAck(msg, verbose=1, level=0):
if verbose > 0: print level*INDENT + "LSACK"
cnt = 0 ; lsas = {}
while len(msg) > 0:
cnt += 1
if verbose > 0: print (level+1)*INDENT + "LSA %s" % cnt
lsas[cnt] = parseOspfLsaHdr(msg[:OSPF_LSAHDR_LEN], verbose, level+1)
msg = msg[OSPF_LSAHDR_LEN:]
return { "LSAS" : lsas
}
def parseOspfMsg(msg, verbose=1, level=0):
iph = parseIpHdr(msg[:IP_HDR_LEN], verbose, level)
msg = msg[IP_HDR_LEN:]
ospfh = parseOspfHdr(msg[:OSPF_HDR_LEN], verbose, level+1)
rv = { "T": ospfh["TYPE"],
"L": len(msg),
"H": iph,
"V": ospfh,
}
if MSG_TYPES[ospfh["TYPE"]] == "HELLO":
rv["V"]["V"] = parseOspfHello(msg[OSPF_HDR_LEN:], verbose, level+2)
elif MSG_TYPES[ospfh["TYPE"]] == "DBDESC":
rv["V"]["V"] = parseOspfDesc(msg[OSPF_HDR_LEN:], verbose, level+2)
elif MSG_TYPES[ospfh["TYPE"]] == "LSREQ":
rv["V"]["V"] = parseOspfLsReq(msg[OSPF_HDR_LEN:], verbose, level+1)
elif MSG_TYPES[ospfh["TYPE"]] == "LSUPD":
rv["V"]["V"] = parseOspfLsUpd(msg[OSPF_HDR_LEN:], verbose, level+2)
elif MSG_TYPES[ospfh["TYPE"]] == "LSACK":
rv["V"]["V"] = parseOspfLsAck(msg[OSPF_HDR_LEN:], verbose, level+2)
return rv
################################################################################
class OspfExc(Exception): pass
class Ospf:
_version = 2
_holdtimer = 30
#---------------------------------------------------------------------------
class Adj:
def __init__(self): pass
def __repr__(self): pass
#---------------------------------------------------------------------------
def __init__(self):
## XXX raw sockets are broken in Windows Python (some madness
## about linking against winsock1, etc); applied "patch" from
## https://sourceforge.net/tracker/?func=detail&atid=355470&aid=889544&group_id=5470,
## http://www.rs.fromadia.com/newsread.php?newsid=254,
## http://www.rs.fromadia.com/files/pyraw.exe to fix this
self._sock = socket.socket(socket.AF_INET, socket.SOCK_RAW, socket.IPPROTO_IP)
self._addr = (ADDRESS, 0)
self._sock.bind(self._addr)
self._name = self._sock.getsockname()
self._sock.setsockopt(socket.IPPROTO_IP, socket.IP_HDRINCL, 1)
self._sock.ioctl(socket.SIO_RCVALL, 1)
self._adjs = {}
self._rcvd = ""
self._mrtd = None
def __repr__(self):
rs = """OSPF listener, version %s:
%s
socket: %s
address: %s, name: %s""" %\
(self._version, self._mrtd, self._sock, self._addr, self._name)
return rs
def close(self):
self._sock.close()
self._mrtd.close()
#---------------------------------------------------------------------------
def parseMsg(self, verbose=1, level=0):
try:
(msg_len, msg) = self.recvMsg(verbose, level)
except OspfExc, oe:
if verbose > 1: print "[ *** Non OSPF packet received *** ]"
return
iph = parseIpHdr(msg[:IP_HDR_LEN], 0)
if iph["PROTO"] == OSPF_LISTEN_PORT:
parseIpHdr(msg[:IP_HDR_LEN], 0)
ospfh = parseOspfHdr(msg[IP_HDR_LEN:IP_HDR_LEN+OSPF_HDR_LEN], 0)
if DUMP_MRTD == 1: self._mrtd.writeOspfMsg(ospfh["TYPE"], msg_len, msg)
if verbose > 2:
print "%sparseMsg: len=%d%s" %\
(level*INDENT, msg_len, prthex((level+1)*INDENT, msg))
try:
rv = parseOspfMsg(msg, verbose, level)
except Exception, exc:
stk = traceback.extract_stack(limit=1)
tb = stk[0]
error("[ *** exception parsing OSPF packet ***]\n")
error("### File: %s, Line: %s, Exc: %s " % (tb[0], tb[1], exc ))
return rv
def recvMsg(self, verbose=1, level=0):
self._rcvd = self._sock.recv(RECV_BUF_SZ)
if verbose > 2:
print "%srecvMsg: recv: len=%d%s" %\
(level*INDENT,
len(self._rcvd), prthex((level+1)*INDENT, self._rcvd))
return (len(self._rcvd), self._rcvd)
def sendMsg(self, verbose=1, level=0):
pass
#---------------------------------------------------------------------------
################################################################################
if __name__ == "__main__":
import mrtd
global VERBOSE, DUMP_MRTD, ADDRESS
VERBOSE = 1
DUMP_MRTD = 0
ADDRESS = None
file_pfx = mrtd.DEFAULT_FILE
file_sz = mrtd.DEFAULT_SIZE
mrtd_type = None
#---------------------------------------------------------------------------
def usage():
print """Usage: %s [ options ] ([*] options required):
-h|--help : Help
-q|--quiet : Be quiet
-v|--verbose : Be verbose
-V|--VERBOSE : Be very verbose
-d|--dump : Dump protocol MRTD file
-f|--file : Set file prefix for MRTd dump [def: %s]
-z|--size : Size of output file(s) [min: %d]
-b|--bind <ipaddr> : local IP address for bind """ %\
(os.path.basename(sys.argv[0]),
mrtd.DEFAULT_FILE,
mrtd.MIN_FILE_SZ)
sys.exit(0)
#---------------------------------------------------------------------------
try:
opts, args = getopt.getopt(sys.argv[1:],
"hqvVdf:z:",
("help", "quiet", "verbose", "VERBOSE",
"dump", "file=", "size=", ))
except (getopt.error):
usage()
for (x, y) in opts:
if x in ('-h', '--help'):
usage()
elif x in ('-q', '--quiet'):
VERBOSE = 0
elif x in ('-v', '--verbose'):
VERBOSE = 2
elif x in ('-V', '--VERBOSE'):
VERBOSE = 3
elif x in ('-d', '--dump'):
DUMP_MRTD = 1
mrtd_type = mrtd.MSG_TYPES["PROTOCOL_OSPF2"]
elif x in ('-f', '--file-pfx'):
file_pfx = y
elif x in ('-z', '--file-size'):
file_sz = max(string.atof(y), mrtd.MIN_FILE_SZ)
elif x in ('-b', '--bind'):
ADDRESS = y
else:
usage()
if not ADDRESS: usage()
#---------------------------------------------------------------------------
ospf = Ospf()
ospf._mrtd = mrtd.Mrtd(file_pfx, "w+b", file_sz, mrtd.MSG_TYPES["PROTOCOL_OSPF2"], ospf)
if VERBOSE > 0: print ospf
try:
timeout = Ospf._holdtimer
rv = None
while 1:
before = time.time()
rfds, _, _ = select.select([ospf._sock], [], [], timeout)
after = time.time()
elapsed = after - before
if len(rfds) > 0: rv = ospf.parseMsg(VERBOSE, 0)
else:
## tx some pkts to form adjacency
pass
except (KeyboardInterrupt):
ospf.close()
sys.exit(1)
################################################################################
################################################################################