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bgp.py
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bgp.py
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#! /usr/bin/env python2.5
## PyRT: Python Routeing Toolkit
## BGP module: provides the BGP listener and BGP PDU parsers
## Copyright (C) 2001 Richard Mortier <mort@sprintlabs.com>, Sprint ATL
## 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
import struct, socket, sys, math, getopt, string, os.path, time
from mutils import *
#-------------------------------------------------------------------------------
INDENT = " "
VERSION = "3.0"
RCV_BUF_SZ = 8192
BGP_LISTEN_PORT = 179
BGP_HDR_LEN = 19
BGP_MARKER = struct.pack(">LLLL",
0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff)
BGP_MARKER_LEN = len(BGP_MARKER)
TABLE_DUMP_ENTRY_HDR_LEN = 18
################################################################################
DLIST = []
AFI_TYPES = { 1L: "IP",
2L: "IP6",
}
DLIST = DLIST + [AFI_TYPES]
SAFI_TYPES = { 1L: "UNICAST",
2L: "MULTICAST",
}
DLIST = DLIST + [SAFI_TYPES]
MSG_TYPES = { 1L: "OPEN",
2L: "UPDATE",
3L: "NOTIFICATION",
4L: "KEEPALIVE",
5L: "ROUTE_REFRESH",
6L: "TABLE_DUMP_ENTRY",
}
DLIST = DLIST + [MSG_TYPES]
# NB. PAs below actually attribute numbers; only type codes 1-10, 14, 15 valid
PATH_ATTRIBUTES = { 1L: "ORIGIN",
2L: "AS_PATH",
3L: "NEXT_HOP",
4L: "MULTI_EXIT_DISCRIMINATOR",
5L: "LOC_PREF",
6L: "ATOMIC_AGGR",
7L: "AGGREGATOR",
8L: "COMMUNITY",
9L: "ORIGINATOR_ID",
10L: "CLUSTER_LIST",
# DPA unused (only ever made draft)
11L: "DPA",
12L: "ADVERTISER",
# RCID_PATH never sent to border routers
13L: "RCID_PATH/CLUSTER_ID",
14L: "MP_REACH_NLRI",
15L: "MP_UNREACH_NLRI",
16L: "EXT_COMMUNITIES",
}
DLIST = DLIST + [PATH_ATTRIBUTES]
OPT_PARAMS = { 1L: "AUTHENTICATION",
2L: "CAPABILITY"
}
DLIST = DLIST + [OPT_PARAMS]
CAP_CODES = { 0L: "UNDEF",
1L: "MULTIPROTOCOL_EXT",
2L: "ROUTE_REFRESH",
64L: "GRACEFUL_RESTART",
# 128+ are reserved for vendor-specific applications
128L: "ROUTE_REFRESH_Z",
}
DLIST = DLIST + [CAP_CODES]
NLRI_SRC = { 0L: "IGP",
1L: "EGP",
2L: "INCOMPLETE"
}
DLIST = DLIST + [NLRI_SRC]
AS_PATH_SEG_TYPES = { 1L: "SET",
2L: "SEQUENCE",
3L: "CONFED_SET",
4L: "CONFED_SEQUENCE"
}
DLIST = DLIST + [AS_PATH_SEG_TYPES]
for d in DLIST:
for k in d.keys():
d[ d[k] ] = k
#-------------------------------------------------------------------------------
# index via [code][subcode]
NOTIFY_STRINGS = [
[ "message header error",
[ "connection not synchronized",
"bad message length",
"bad message type"
]],
[ "OPEN message error",
[ "unsupported version number",
"bad peer AS",
"bad BGP identifier",
"unsuported optional parameter",
"authentication failure",
"unacceptable hold timer",
"unsupported capability"
]],
[ "UPDATE message error",
[ "malformed attribute list",
"unrecognized well-known attribute",
"missing well-known attribute",
"attribute flags error",
"attribute length error",
"invalid ORIGIN attribute"
"AS routing loop",
"invalid NEXT-HOP attribute",
"optional attribute error",
"invalid network field",
"malformed AS-PATH"
]],
[ "Hold Timer expired",
[ ""]],
[ "Finite State Machine error",
[ ""]],
[ "Cease",
[ "maximum number of prefixes reached",
"administratively shutdown",
"peer unconfigured",
"administratively reset",
"connection rejected",
"other configuration change" ]]
]
################################################################################
def parseBgpPdu(msg_type, msg_len, msg, verbose=1, level=0):
msg = msg[BGP_HDR_LEN:]
msg_len = msg_len - BGP_HDR_LEN
if msg_type == MSG_TYPES["OPEN"]:
rv = parseOpen(msg_len, msg, verbose, level)
elif msg_type == MSG_TYPES["UPDATE"]:
rv = parseUpdate(msg_len, msg, verbose, level)
elif msg_type == MSG_TYPES["NOTIFICATION"]:
rv = parseNotify(msg_len, msg, verbose, level)
elif msg_type == MSG_TYPES["KEEPALIVE"]:
rv = parseKeepalive(msg_len, msg, verbose, level)
elif msg_type == MSG_TYPES["ROUTE_REFRESH"]:
rv = parseRouteRefresh(msg_len, msg, verbose, level)
else:
rv = {"T": None, "L": 0, "V": None}
if verbose > 0:
print level*INDENT + "[ *** UNKNOWN MESSAGE TYPE *** ]"
return rv
#-------------------------------------------------------------------------------
def parseOpen(msg_len, msg, verbose=1, level=0):
rv = {"T": MSG_TYPES["OPEN"],
"L": msg_len,
"V": {}
}
if verbose > 1:
print prtbin(level*INDENT, msg[:msg_len])
version, asn, holdtime, bgp_id = struct.unpack(">BHHL", msg[0:9])
if verbose > 0:
print level*INDENT +\
"Open (len=%d):" % (msg_len+BGP_HDR_LEN, )
print (level+1)*INDENT +\
"version: %d, src AS: %d, holdtime: %d, BGP id: %s" %\
(version, asn, holdtime, id2str(bgp_id))
opts = parseBgpOpts(msg[9:msg_len], verbose, level+1)
rv["V"] = {"VER": version,
"AS": asn,
"HT": holdtime,
"ID": bgp_id,
"OPTS": opts
}
return rv
#-------------------------------------------------------------------------------
def parseBgpOpts(opts, verbose=1, level=0):
rv = []
opts_len = struct.unpack("B", opts[0])
if verbose > 1:
print prtbin(level*INDENT, opts[0])
if verbose > 0:
print level*INDENT + "optional params. len=%d" % opts_len
opts = opts[1:]
while len(opts) > 0:
opt_type, opt_len = struct.unpack("BB", opts[0:2])
trv = { "T": opt_type,
"L": opt_len,
"V": {},
}
if verbose > 1:
print prtbin(level*INDENT, opts[0:2+opt_len])
if verbose > 0:
print level*INDENT +\
"option type: %s, len=%d" % (OPT_PARAMS[opt_type], opt_len)
opts = opts[2:]
if opt_type == OPT_PARAMS["CAPABILITY"]:
level = level + 1
cap_code, cap_len = struct.unpack("BB", opts[0:2])
trv["V"] = { "T": cap_code,
"L": cap_len,
"V": {}
}
if verbose > 0:
if verbose > 1:
print prtbin(level*INDENT, opts[0:2+cap_len])
print level*INDENT +\
"capability:", CAP_CODES[cap_code], "len=" + `cap_len`
if verbose > 1:
print prtbin(level*INDENT, opts[2:2+cap_len])
if cap_code == CAP_CODES["MULTIPROTOCOL_EXT"]:
afi, safi = struct.unpack(">HH", opts[2:2+cap_len])
if verbose > 0:
print level*INDENT +\
"afi:", AFI_TYPES[afi], "safi:", SAFI_TYPES[safi]
trv["V"]["V"] = { "AFI": afi, "SAFI": safi }
elif cap_code == CAP_CODES["GRACEFUL_RESTART"]:
rinfo, afi, safi, af_flags = struct.unpack(">HHBB",
opts[2:2+cap_len])
flg_preserve_fwd_st = (af_flags & (1<<7)) >> 7
if verbose > 0:
print level*INDENT +\
"restart flags:", (rinfo >> 12), \
"restart time:", (rinfo & 0xFFF), \
"afi:", AFI_TYPES[afi], "safi:", SAFI_TYPES[safi]
print level*INDENT +\
"address family flags: [ %s ]" % \
("forwarding state preserved"*flg_preserve_fwd_st)
trv["V"]["V"] = { "AFI": afi, "SAFI": safi,
"RESTART_FLAGS": rinfo >> 12,
"RESTART_TIME": rinfo & 0xfff,
"PRESERVED": flg_preserve_fwd_st,
}
elif cap_code == CAP_CODES["ROUTE_REFRESH"]:
pass
elif cap_code == CAP_CODES["ROUTE_REFRESH_Z"]:
pass
else:
print level*INDENT +\
"[ *** UNKNOWN CAPABILITY CODE: %d *** ]" % cap_code
level = level - 1
else:
if verbose > 0:
print level*INDENT +\
"[ *** UNKNOWN OPTIONAL PARAMETER: %d *** ]" % opt_type
rv.append(trv)
opts = opts[opt_len:]
return rv
#-------------------------------------------------------------------------------
def parseUpdate(msg_len, msg, verbose=1, level=0):
rv = {"T": MSG_TYPES["UPDATE"],
"L": msg_len,
"V": { "UNFEASIBLE": [], "PATH_ATTRS": {}, "FEASIBLE": [] }
}
curp = 0
# "BGP4: Inter-domain routing in the Internet" John W. Stewart III.
# Unfeasible (withdrawn) routes are a sequence of (len, pfx) pairs, where
# len is the length of the prefix in _bits_, and pfx is the prefix, padded
# to a whole number of octets. All such padding must be ignored.
(unfeasible_len, ) = struct.unpack(">H", msg[curp:curp+2])
unfeasible_pfxs = "\n"
if verbose > 1:
unfeasible_pfxs = unfeasible_pfxs +\
prtbin((level+1)*INDENT, msg[0:2+unfeasible_len])
unfeasible_pfxs = unfeasible_pfxs +\
"\n" + (level+1)*INDENT + "UNFEASIBLE ROUTES:\n"
curp = curp + 2
endp = curp + unfeasible_len
rn = 0
while curp != endp:
rn = rn + 1
(plen, ) = struct.unpack("B", msg[curp])
plen_octets = int(math.ceil(plen/8.0))
curp = curp + 1
(pfx,) = struct.unpack("%ds" % plen_octets, msg[curp:curp+plen_octets])
unfeasible_pfxs = unfeasible_pfxs + (level+2)*INDENT +\
"%d: %s\n" % (rn, pfx2str(pfx, plen))
rv["V"]["UNFEASIBLE"].append((pfx,plen))
curp = curp + plen_octets
# "BGP4: Inter-domain routing in the Internet" John W. Stewart III,
# pp.37--40. (T,L,V) encoded. TYPE is 2 octets, split into FLAGS and
# TYPECODE. LENGTH is 1 or 2 octets based on EXTENDED-LENGTH field in FLAGS
# and is in octets (bottom p.39). VALUE is parsed as given by TYPE-CODE,
# cf. section 2.4
(path_attr_len, ) = struct.unpack(">H", msg[curp:curp+2])
path_attrs = ""
if verbose > 1:
path_attrs = path_attrs +\
prtbin((level+1)*INDENT, msg[curp:curp+2+path_attr_len])
path_attrs = path_attrs + "\n" + (level+1)*INDENT + "PATH ATTRIBUTES:\n"
curp = curp + 2
endp = curp + path_attr_len
rn = 0
while curp != endp:
rn = rn + 1
aflags, atype = struct.unpack("BB", msg[curp:curp+2])
curp = curp + 2
flg_optional = (aflags & (1<<7)) >> 7
flg_transitive = (aflags & (1<<6)) >> 6
flg_partial = (aflags & (1<<5)) >> 5
flg_extlen = (aflags & (1<<4)) >> 4
# XXX this is a bit grim, but it seems that there's no way to
# do this more nicely :-(
if flg_extlen+1 == 1:
(alen, ) = struct.unpack("B", msg[curp:curp+flg_extlen+1])
elif flg_extlen+1 == 2:
(alen, ) = struct.unpack(">H", msg[curp:curp+flg_extlen+1])
else:
error('flg_extlen was neither 0 nor 1 :-(')
sys.exit(1)
curp = curp + flg_extlen+1
adata = msg[curp:curp+alen]
(pa_str, pa_trv) = parseBgpAttr(atype, alen, adata, verbose, level+2)
path_attrs = path_attrs + pa_str
flgs_str = "%s %s %s %s" %\
("optional"*flg_optional, "transitive"*flg_transitive,
"partial"*flg_partial, "extended length"*flg_extlen)
flgs_str = string.strip(flgs_str)
flgs_str = " [ %s ]\n" % flgs_str
path_attrs = path_attrs + flgs_str
pa_trv["FLAGS"] = {"optional": flg_optional,
"transitive": flg_transitive,
"partial": flg_partial,
"extlen": flg_extlen,
}
rv["V"]["PATH_ATTRS"][ pa_trv["T"] ] = pa_trv
curp = curp + alen
# NLRI information: the prefixes to which path attributes apply
# <len(bits),pfx>*
nlri_pfxs = (level+1)*INDENT + "FEASIBLE ROUTES:\n"
endp = curp + len(msg[curp:])
rn = 0
while curp < endp:
rn = rn + 1
(plen, ) = struct.unpack("B", msg[curp])
plen_octets = int(math.ceil(plen/8.0))
curp = curp + 1
if verbose > 1:
nlri_pfxs = nlri_pfxs + prtbin((level+2)*INDENT,
msg[curp-1:curp+plen_octets]) + "\n"
(pfx,) = struct.unpack("%ds" % len(msg[curp:curp+plen_octets]),
msg[curp:curp+plen_octets])
nlri_pfxs = nlri_pfxs +\
(level+2)*INDENT + "%d: %s %s\n" %\
(rn, pfx2str(pfx, plen),
(len(msg[curp:curp+plen_octets]) != plen_octets)*
'[ *** bogus NLRI field: plen_octets did not match *** ]')
rv["V"]["FEASIBLE"].append((pfx,plen))
curp = curp + plen_octets
if verbose > 0:
print level*INDENT +\
"Update (len=%d): unfeasible_len=%d path_attr_len=%d%s%s%s" %\
(msg_len+BGP_HDR_LEN, unfeasible_len, path_attr_len,
unfeasible_pfxs, path_attrs, nlri_pfxs)
return rv
#-------------------------------------------------------------------------------
def parseBgpAttr(atype, alen, adata, verbose=1, level=0):
rv = {"T": atype,
"L": alen,
"V": None
}
if len(adata) == 0:
ret = level*INDENT + PATH_ATTRIBUTES[atype] + ": null"
return (ret, rv)
if atype in PATH_ATTRIBUTES.keys():
if atype == PATH_ATTRIBUTES["ORIGIN"]:
(nlri_src, ) = struct.unpack("B", adata)
ret = level*INDENT + "ORIGIN: %s" % NLRI_SRC[nlri_src]
rv["V"] = nlri_src
elif atype == PATH_ATTRIBUTES["AS_PATH"]:
ret = level*INDENT + "AS_PATH: "
rv["V"] = []
while adata:
asp_t, asp_l = struct.unpack("BB", adata[0:2])
rv_cpt = { "T": asp_t, "L": asp_l, "V": [] }
asp_v = adata[2:2+2*asp_l]
if asp_v:
path = struct.unpack(">%dH" % asp_l, asp_v)
if(asp_t == AS_PATH_SEG_TYPES["SET"] or
asp_t == AS_PATH_SEG_TYPES["CONFED_SET"]):
ret = ret + '(%s){ ' % AS_PATH_SEG_TYPES[asp_t]
for asn in path:
ret = ret + "%d, " % asn
rv_cpt["V"].append(asn)
ret = ret + '}'
elif(asp_t == AS_PATH_SEG_TYPES["SEQUENCE"] or
asp_t == AS_PATH_SEG_TYPES["CONFED_SEQUENCE"]):
ret = ret + '(%s)[ ' % AS_PATH_SEG_TYPES[asp_t]
for asn in path:
ret = ret + "<- %d " % asn
rv_cpt["V"].append(asn)
ret = ret + ']'
rv["V"].append(rv_cpt)
adata = adata[2+(asp_l*2):]
elif atype == PATH_ATTRIBUTES["NEXT_HOP"]:
(nh, ) = struct.unpack(">L", adata)
ret = level*INDENT + "NEXT_HOP: " + id2str(nh)
rv["V"] = nh
elif atype == PATH_ATTRIBUTES["MULTI_EXIT_DISCRIMINATOR"]:
(med, ) = struct.unpack(">L", adata)
ret = level*INDENT + "MED: " + `med`
rv["V"] = med
elif atype == PATH_ATTRIBUTES["LOC_PREF"]:
(lp, ) = struct.unpack(">L", adata)
ret = level*INDENT + "LOC_PREF: " + `lp`
rv["V"] = lp
# ATOMIC_AGGREGATOR hit by null check at start...
elif atype == PATH_ATTRIBUTES["AGGREGATOR"]:
(asn, ip) = struct.unpack(">H L", adata)
ret = level*INDENT +\
"AGGREGATOR: formed by AS %d, router %s" % (asn, id2str(ip))
rv["V"] = (asn, ip)
elif atype == PATH_ATTRIBUTES["COMMUNITY"]:
ret = ""
rv["V"] = []
for i in range(alen/4):
x,y = struct.unpack(">HH", adata[i*4:(i+1)*4])
ret = ret + level*INDENT + "COMMUNITY %d: %d:%d\n" % (i+1, x, y)
rv["V"].append(adata[i*4:(i+1)*4])
ret = ret[:-1]
elif atype == PATH_ATTRIBUTES["ORIGINATOR_ID"]:
(id,) = struct.unpack(">L", adata)
ret = level*INDENT + "ORIGINATOR_ID: %s" % id2str(id)
rv["V"] = id
elif atype == PATH_ATTRIBUTES["CLUSTER_LIST"]:
# These are 'defined' in RFC 1966 (route reflectors). Or so they
# should be. In fact, the RFC talks complete bollocks
# re. CLUSTER_LIST -- it defines nothing and appears to be just
# plain wrong. However, as usual, there is magic: from Cisco, we
# see http://www.cisco.com/networkers/nw99_pres/309.pdf, which says
# CLUSTER_LIST is "...just a list of ORIGINATOR_IDs...". So there
# we go. I have _no idea_ what the encoding of the originator ids
# is here -- I assume the standard ">L" for convenience.
ret = level*INDENT + "CLUSTER_LIST"
rv["V"] = []
for i in range(alen/4):
(id,) = struct.unpack(">L", adata[:4])
ret = ret + ": %s" % id2str(id)
rv["V"].append(id)
else:
ret = level*INDENT + "[ *** %s *** ]" % PATH_ATTRIBUTES[atype]
else:
ret = level*INDENT +\
"[ *** UNKNOWN BGP path attribute: %d *** ]" % atype
return (ret, rv)
#-------------------------------------------------------------------------------
def parseNotify(msg_len, msg, verbose=1, level=0):
rv = {"T": MSG_TYPES["NOTIFICATION"],
"L": msg_len,
"V": None
}
if verbose > 1:
print prtbin(level*INDENT, msg[:msg_len])
code, subcode, data = struct.unpack("BB %ds" % (msg_len-2, ), msg)
code = code - 1
subcode = subcode - 1
if verbose > 0:
print level*INDENT + "Notification (len=%d): %s : %s" %\
(msg_len,
NOTIFY_STRINGS[code][0], NOTIFY_STRINGS[code][1][subcode])
## XXX data?
return rv
#-------------------------------------------------------------------------------
def parseKeepalive(msg_len, msg, verbose=1, level=0):
rv = {"T": MSG_TYPES["KEEPALIVE"],
"L": msg_len,
"V": None
}
if verbose > 1:
print prtbin(level*INDENT, msg)
if verbose > 0:
print level*INDENT + "Keepalive (len=%d)\n" % (msg_len+BGP_HDR_LEN, )
return rv
#-------------------------------------------------------------------------------
def parseRouteRefresh(msg_len, msg, verbose=1, level=0):
rv = {"T": MSG_TYPES["ROUTE_REFRESH"],
"L": msg_len,
"V": None
}
if verbose > 1:
print prtbin(level*INDENT, msg)
if verbose > 0:
print level*INDENT + "RouteRefresh (len=%d)" % (msg_len+BGP_HDR_LEN, )
return rv
#-------------------------------------------------------------------------------
def parseTableEntry(length, entries, verbose=1, level=0):
rv = {"T": MSG_TYPES["TABLE_DUMP_ENTRY"],
"L": 0,
"V": {}
}
hfmt = ">LBBLLHH"
hfmt_l = struct.calcsize(hfmt)
pfx, plen, status, uptime, peer_addr, peer_as, elen =\
struct.unpack(hfmt, entries[:hfmt_l])
rv["V"]["PREFIX"] = (struct.pack(">L", pfx), plen)
rv["V"]["STATUS"] = status
rv["V"]["UPTIME"] = uptime
rv["V"]["PEER_IP"] = peer_addr
rv["V"]["PEER_AS"] = peer_as
if verbose:
print level*INDENT +\
"prefix: %s/%d, peer IP: %s, peer AS: %d" %\
(id2str(pfx), plen, id2str(peer_addr), peer_as)
print level*INDENT + "updated: '%s'" % (time.ctime(uptime),)
entries = entries[TABLE_DUMP_ENTRY_HDR_LEN:]
rv["V"]["ATTRS"] = entries
# XXX This should reuse part of bgp.parseUpdate() -- need to further
# separate out the path attr. parsing. Cut'n'paste for now since I'm in
# a hurry.
if verbose:
print level*INDENT + 'PATH ATTRIBUTES: len=%d' % elen
rv["L"] = TABLE_DUMP_ENTRY_HDR_LEN + elen
while elen:
if verbose > 1:
print prthex(level*INDENT + 'flags/type:', entries[:2])
aflags, atype = struct.unpack(">BB", entries[0:2])
flg_optional = (aflags & (1<<7)) >> 7
flg_transitive = (aflags & (1<<6)) >> 6
flg_partial = (aflags & (1<<5)) >> 5
flg_extlen = (aflags & (1<<4)) >> 4
flgs_str = "%s %s %s %s" %\
("optional"*flg_optional, "transitive"*flg_transitive,
"partial"*flg_partial, "extended length"*flg_extlen)
flgs_str = string.strip(flgs_str)
flgs_str = " [ %s ]" % flgs_str
if verbose > 1:
print prthex(level*INDENT + 'length:',
entries[2+flg_extlen:2+flg_extlen+1])
(alen, ) = struct.unpack("%dB" % (flg_extlen+1),
entries[2:2+flg_extlen+1])
(adata,) = struct.unpack("%ds" % alen,
entries[2+flg_extlen+1:2+flg_extlen+1+alen])
if verbose > 1:
print prthex(level*INDENT +'value:',
entries[2+flg_extlen+1:2+flg_extlen+1+alen])
(astr, arv) = parseBgpAttr(atype, alen, adata, verbose, level+1)
rv["V"][atype] = arv
if verbose:
print astr + flgs_str
entries = entries[2+flg_extlen+1+alen:]
elen = elen - (2+flg_extlen+1+alen)
if verbose: print
return rv
################################################################################
class Bgp:
_version = 4
#---------------------------------------------------------------------------
def __init__(self, loc_name, asn, rem_name, port, holdtime):
self._bgp_id_str = loc_name
self._bgp_id_addr = socket.gethostbyname(loc_name)
self._bgp_id = str2id(self._bgp_id_addr)
self._bgp_as = asn
self._bgp_peer_str = rem_name
self._bgp_peer_addr = socket.gethostbyname(rem_name)
self._bgp_peer_id = str2id(self._bgp_peer_addr)
self._bgp_peer_prt = port
self._bgp_peer_as = 0
self._holdtime = holdtime
self._sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
self._sock.bind((self._bgp_id_str, 0))
self._sock.connect((self._bgp_peer_str, self._bgp_peer_prt))
self._rcvd = ""
self._mrt = None
def __repr__(self):
ret = """Passive BGP speaker version %s:
id: %s [%s] (%#0x), AS: %d
peer: %s:%d [%s] (%#0x), AS: %d
holdtime: %d\n""" %\
(VERSION,
self._bgp_id_str, self._bgp_id_addr, self._bgp_id, self._bgp_as,
self._bgp_peer_str, self._bgp_peer_prt, self._bgp_peer_addr,
self._bgp_peer_id, self._bgp_peer_as, self._holdtime)
return ret
def close(self):
# XXX RMM XXX should possibly be a __del__() method?
self._sock.close()
self._mrt.close()
#---------------------------------------------------------------------------
def recvMsg(self, verbose=1, level=0):
while 1:
if len(self._rcvd) < BGP_MARKER_LEN+3:
self._rcvd = self._rcvd + self._sock.recv(RCV_BUF_SZ)
continue
## guaranteed to have a BGP-msg-header-worth of data in buffer
msg_start = string.find(self._rcvd, BGP_MARKER)
if msg_start < 0:
# no marker in buffer -- fill buffer and continue
self._rcvd = self._rcvd + self._sock.recv(RCV_BUF_SZ)
continue
elif msg_start > 0:
# marker not at buffer start -- dump skipped data to debug
sys.stderr.write(prtbin("", self._rcvd[:msg_start]) + "\n---\n")
sys.stderr.flush()
## msg_start is now at the start of a message
msg_len, msg_type =\
struct.unpack(">HB",
self._rcvd[msg_start+BGP_MARKER_LEN :
msg_start+BGP_MARKER_LEN+3])
break
## message may not be completely received...
while msg_len > len(self._rcvd):
self._rcvd = self._rcvd + self._sock.recv(RCV_BUF_SZ)
msg_end = msg_start + msg_len
## guaranteed to have the entire message in [msg_start..msg_end]
msg = self._rcvd[msg_start:msg_end]
self._rcvd = self._rcvd[msg_end:]
## have now advanced buffer past current message; current
## message available in msg
if verbose > 2:
print "recvMsg: msg: type=%s (%d) len=%d%s" %\
(MSG_TYPES[msg_type], msg_type, msg_len,
prtbin(level*INDENT, msg))
return msg_type, msg_len, msg
def sendMsg(self, msg_type, msg_len, msg, verbose=1, level=0):
fmt = ">LLLLH B %ds" % msg_len
pkt = struct.pack(fmt,
0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff,
msg_len+BGP_HDR_LEN, msg_type, msg)
if DUMP_MRTD == 1:
self._mrt.writeBgp4pyMsg(msg_type, len(pkt), pkt)
elif DUMP_MRTD == 2:
self._mrt.writeBgpMsg(msg_type, len(pkt), pkt)
elif DUMP_MRTD == 3:
self._mrt.writeBgp4mpMsg(msg_type, len(pkt), pkt)
if verbose > 2:
print "%ssendMsg: type=%s (%d), len=%d%s" %\
(level*INDENT, MSG_TYPES[msg_type], msg_type,
struct.calcsize(fmt), prtbin((level+1)*INDENT, pkt))
self._sock.send(pkt)
def parseMsg(self, verbose=1, level=0):
msg_type, msg_len, msg = self.recvMsg()
if DUMP_MRTD == 1:
self._mrt.writeBgp4pyMsg(msg_type, msg_len, msg)
elif DUMP_MRTD == 2:
self._mrt.writeBgpMsg(msg_type, msg_len, msg)
elif DUMP_MRTD == 3:
self._mrt.writeBgp4mpMsg(msg_type, msg_len, msg)
if verbose > 2:
print "%sparseMsg: type=%s (%d) len=%d%s" %\
(level*INDENT, MSG_TYPES[msg_type], msg_type,
msg_len-BGP_HDR_LEN,
prtbin((level+1)*INDENT, msg[BGP_HDR_LEN:]))
rv = parseBgpPdu(msg_type, msg_len, msg, verbose, level)
return rv # msg_type, msg_len, msg
#---------------------------------------------------------------------------
def sendOpen(self, verbose=1, level=0):
print `type(self._bgp_id)`, `self._bgp_id`
fmt = ">BHHLB"
msg = struct.pack(fmt, Bgp._version,
self._bgp_as, self._holdtime, self._bgp_id, 0)
if verbose > 2:
print "%ssendOpen: len=%d%s" %\
(level*INDENT, struct.calcsize(fmt),
prtbin((level+1)*INDENT, msg))
parseOpen(len(msg), msg, verbose, level)
self.sendMsg(MSG_TYPES["OPEN"],
struct.calcsize(fmt), msg, verbose, level)
def sendKeepalive(self, verbose=1, level=0):
fmt = ""
msg = ""
if verbose > 2:
print "sendKeepalive: len=%d%s" %\
(struct.calcsize(fmt), prtbin(level*INDENT, msg))
parseKeepalive(len(msg), msg, verbose, level)
self.sendMsg(MSG_TYPES["KEEPALIVE"], 0, msg, verbose, level)
#---------------------------------------------------------------------------
################################################################################
if __name__ == "__main__":
import mrtd
#---------------------------------------------------------------------------
global VERBOSE, DUMP_MRTD
VERBOSE = 1
DUMP_MRTD = 0
file_pfx = mrtd.DEFAULT_FILE
file_sz = mrtd.DEFAULT_SIZE
mrtd_type = None
loc_name = None
rem_name = None
asn = None
port = BGP_LISTEN_PORT
holdtime = 0
#---------------------------------------------------------------------------
def usage():
print """Usage: %s [ options ] ([*] options required):
-h|--help : Help
-q|--quiet : Be quiet
-v|--verbose : Be verbose
-V|--VERBOSE : Be very verbose
-f|--file : Set file prefix for MRTd dump [def: %s]
-y|--dump-4py : Dump MRTd::PROTOCOL_BGP4PY format [default]
-d|--dump : Dump MRTd::PROTOCOL_BGP format
-m|--dump-4mp : Dump MRTd::PROTOCOL_BGP4MP format
-p|--peer : [*] BGP peer address/name
-a|--as : [*] Local AS number
-l|--local : Address/name for local bind
-t|--port : BGP peer listening port [def: %d]
-z|--size : Size of output file(s) [min: %d]""" %\
(os.path.basename(sys.argv[0]), mrtd.DEFAULT_FILE,
BGP_LISTEN_PORT, mrtd.MIN_FILE_SZ)
sys.exit(0)
#---------------------------------------------------------------------------
if len(sys.argv) < 2:
usage()
try:
opts, args = getopt.getopt(sys.argv[1:],
"hqvVydmp:a:o:t:l:f:z:",
("help", "quiet", "verbose", "VERBOSE",
"dump-4py", "dump", "dump-4mp",
"file-pfx=", "peer=", "as=", "holdtime=",
"port=", "local=", "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 ('-y', '--dump-4py'):
DUMP_MRTD = 1
mrtd_type = mrtd.MSG_TYPES["PROTOCOL_BGP4PY"]
elif x in ('-d', '--dump'):
DUMP_MRTD = 2
mrtd_type = mrtd.MSG_TYPES["PROTOCOL_BGP"]
elif x in ('-m', '--dump-4mp'):
DUMP_MRTD = 3
mrtd_type = mrtd.MSG_TYPES["PROTOCOL_BGP4MP"]
elif x in ('-p', '--peer'):
rem_name = y
elif x in ('-a', '--as'):
asn = string.atoi(y)
elif x in ('-o', '--holdtime'):
holdtime = string.atoi(y)
elif x in ('-t', '--port'):
port = string.atoi(y)
elif x in ('-l', '--local'):
loc_name = y