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path: root/tools/pkt-from-core.py
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#!/usr/bin/env python
"""
Retrieve a packet from a wireshark/tshark core file
and save it in a packet-capture file.
"""

import getopt
import os
import re
import sys
import tempfile
	
exec_file = None
core_file = None
output_file = None

verbose = 0
debug = 0

class BackTrace:
	re_frame = re.compile(r"^#(?P<num>\d+) ")
	re_func1 = re.compile(r"^#\d+\s+(?P<func>\w+) \(")
	re_func2 = re.compile(r"^#\d+\s+0x[A-Fa-f\d]+ in (?P<func>\w+) \(")

	def __init__(self, lines):

		# In order; each item is the function name.
		self.frames = []
		found_non_bt_frame = 0
		frame_will_be = 0

		for line in lines:
			m = self.re_frame.search(line)
			if m:
				# Skip the first frame that gdb shows,
				# which is not part of the backtrace.
				if not found_non_bt_frame:
					found_non_bt_frame = 1
					continue

				# Get the frame number and make sure it's
				# what we expect it should be.
				frame_num = int(m.group("num"))
				if frame_num != frame_will_be:
					sys.exit("Found frame %d instead of %d" % \
						(frame_num, frame_will_be))

				# Find the function name. XXX - need to handle '???'
				n = self.re_func1.search(line)
				if not n:
					n = self.re_func2.search(line)

				if n:
					func = n.group("func")
				else:
					sys.exit("Function name not found in %s" % (line,))

				# Save the info
				self.frames.append(func)
				frame_will_be += 1

	def Frames(self):
		return self.frames
			

	def HasFunction(self, func):
		return func in self.frames

	def Frame(self, func):
		return self.frames.index(func)


# Some values from wiretap; wiretap should be a shared
# libray and a Python module should be created for it so
# this program could just write a libpcap file directly.
WTAP_ENCAP_PER_PACKET                 = -1
WTAP_ENCAP_UNKNOWN                    = 0
WTAP_ENCAP_ETHERNET                   = 1
WTAP_ENCAP_TOKEN_RING                 = 2
WTAP_ENCAP_SLIP                       = 3
WTAP_ENCAP_PPP                        = 4
WTAP_ENCAP_FDDI                       = 5
WTAP_ENCAP_FDDI_BITSWAPPED            = 6
WTAP_ENCAP_RAW_IP                     = 7
WTAP_ENCAP_ARCNET                     = 8
WTAP_ENCAP_ATM_RFC1483                = 9
WTAP_ENCAP_LINUX_ATM_CLIP             = 10
WTAP_ENCAP_LAPB                       = 11
WTAP_ENCAP_ATM_SNIFFER                = 12
WTAP_ENCAP_NULL                       = 13
WTAP_ENCAP_ASCEND                     = 14
WTAP_ENCAP_LAPD                       = 15
WTAP_ENCAP_V120                       = 16
WTAP_ENCAP_PPP_WITH_PHDR              = 17
WTAP_ENCAP_IEEE_802_11                = 18
WTAP_ENCAP_SLL                        = 19
WTAP_ENCAP_FRELAY                     = 20
WTAP_ENCAP_CHDLC                      = 21
WTAP_ENCAP_CISCO_IOS                  = 22
WTAP_ENCAP_LOCALTALK                  = 23
WTAP_ENCAP_PRISM_HEADER               = 24
WTAP_ENCAP_PFLOG                      = 25
WTAP_ENCAP_AIROPEEK                   = 26
WTAP_ENCAP_HHDLC                      = 27
# last WTAP_ENCAP_ value + 1
WTAP_NUM_ENCAP_TYPES                  = 28

wtap_to_pcap_map = {
	WTAP_ENCAP_NULL			: 0,
	WTAP_ENCAP_ETHERNET		: 1,
	WTAP_ENCAP_TOKEN_RING		: 6,
	WTAP_ENCAP_ARCNET		: 7,
	WTAP_ENCAP_SLIP			: 8,
	WTAP_ENCAP_PPP			: 9,
	WTAP_ENCAP_FDDI_BITSWAPPED	: 10,
	WTAP_ENCAP_FDDI			: 10,
	WTAP_ENCAP_ATM_RFC1483		: 11,
	WTAP_ENCAP_RAW_IP		: 12,
	WTAP_ENCAP_LINUX_ATM_CLIP	: 16, # or 18, or 19...
	WTAP_ENCAP_CHDLC		: 104,
	WTAP_ENCAP_IEEE_802_11		: 105,
	WTAP_ENCAP_SLL			: 113,
	WTAP_ENCAP_LOCALTALK		: 114,
	WTAP_ENCAP_PFLOG		: 117,
	WTAP_ENCAP_CISCO_IOS		: 118,
	WTAP_ENCAP_PRISM_HEADER		: 119,
	WTAP_ENCAP_HHDLC		: 121,
}


wtap_name = {
	WTAP_ENCAP_UNKNOWN                    : "Unknown",
	WTAP_ENCAP_ETHERNET                   : "Ethernet",
	WTAP_ENCAP_TOKEN_RING                 : "Token-Ring",
	WTAP_ENCAP_SLIP                       : "SLIP",
	WTAP_ENCAP_PPP                        : "PPP",
	WTAP_ENCAP_FDDI                       : "FDDI",
	WTAP_ENCAP_FDDI_BITSWAPPED            : "FDDI (Bitswapped)",
	WTAP_ENCAP_RAW_IP                     : "Raw IP",
	WTAP_ENCAP_ARCNET                     : "ARCNET",
	WTAP_ENCAP_ATM_RFC1483                : "ATM RFC1483",
	WTAP_ENCAP_LINUX_ATM_CLIP             : "Linux ATM CLIP",
	WTAP_ENCAP_LAPB                       : "LAPB",
	WTAP_ENCAP_ATM_SNIFFER                : "ATM Sniffer",
	WTAP_ENCAP_NULL                       : "Null",
	WTAP_ENCAP_ASCEND                     : "Ascend",
	WTAP_ENCAP_LAPD                       : "LAPD",
	WTAP_ENCAP_V120                       : "V.120",
	WTAP_ENCAP_PPP_WITH_PHDR              : "PPP (with PHDR)",
	WTAP_ENCAP_IEEE_802_11                : "IEEE 802.11",
	WTAP_ENCAP_SLL                        : "SLL",
	WTAP_ENCAP_FRELAY                     : "Frame Relay",
	WTAP_ENCAP_CHDLC                      : "Cisco HDLC",
	WTAP_ENCAP_CISCO_IOS                  : "Cisco IOS",
	WTAP_ENCAP_LOCALTALK                  : "LocalTalk",
	WTAP_ENCAP_PRISM_HEADER               : "Prism Header",
	WTAP_ENCAP_PFLOG                      : "PFLog",
	WTAP_ENCAP_AIROPEEK                   : "AiroPeek",
	WTAP_ENCAP_HHDLC                      : "HHDLC",
}

def wtap_to_pcap(wtap):
	if not wtap_to_pcap_map.has_key(wtap):
		sys.exit("Don't know how to convert wiretap encoding %d to libpcap." % \
			(wtap))

	return wtap_to_pcap_map[wtap]


def run_gdb(*commands):
	if len(commands) == 0:
		return []

	# Create a temporary file
	fname = tempfile.mktemp()
	try:
		fh = open(fname, "w")
	except IOError, err:
		sys.exit("Cannot open %s for writing: %s" % (fname, err))

	# Put the commands in it
	for cmd in commands:
		fh.write(cmd)
		fh.write("\n")

	fh.write("quit\n")
	try:
		fh.close()
	except IOError, err:
		try:
			os.unlink(fname)
		except:
			pass
		sys.exit("Cannot close %s: %s" % (fname, err))


	# Run gdb
	cmd = "gdb --nw --quiet --command=%s %s %s" % (fname, exec_file, core_file)
	if verbose:
		print "Invoking %s" % (cmd,)
	try:
		pipe = os.popen(cmd)
	except OSError, err:
		try:
			os.unlink(fname)
		except:
			pass
		sys.exit("Cannot run gdb: %s" % (err,))

	# Get gdb's output
	result = pipe.readlines()
	error = pipe.close()
	if error != None:
		try:
			os.unlink(fname)
		except:
			pass
		sys.exit("gdb returned an exit value of %s" % (error,))


	# Remove the temp file and return the results
	try:
		os.unlink(fname)
	except:
		pass
	return result

def get_value_from_frame(frame_num, variable, fmt=""):
	cmds = []
	if frame_num > 0:
		cmds.append("up %d" % (frame_num,))

	cmds.append("print %s %s" % (fmt, variable))
	lines = apply(run_gdb, cmds)

	LOOKING_FOR_START = 0
	READING_VALUE = 1
	state = LOOKING_FOR_START
	result = ""
	for line in lines:
		if line[-1] == "\n":
			line = line[0:-1]
		if line[-1] == "\r":
			line = line[0:-1]

		if state == LOOKING_FOR_START:
			if len(line) < 4:
				continue
			else:
				if line[0:4] == "$1 =":
					result = line[4:]
					state = READING_VALUE

		elif state == READING_VALUE:
			result += line

	return result

def get_int_from_frame(frame_num, variable):
	text = get_value_from_frame(frame_num, variable)
	try:
		integer = int(text)
	except ValueError:
		sys.exit("Could not convert '%s' to integer." % (text,))
	return integer


def get_byte_array_from_frame(frame_num, variable, length):
	cmds = []
	if frame_num > 0:
		cmds.append("up %d" % (frame_num,))

	cmds.append("print %s" % (variable,))
	cmds.append("x/%dxb %s" % (length, variable))
	lines = apply(run_gdb, cmds)
	if debug:
		print lines

	bytes = []

	LOOKING_FOR_START = 0
	BYTES = 1
	state = LOOKING_FOR_START

	for line in lines:
		if state == LOOKING_FOR_START:
			if len(line) < 3:
				continue
			elif line[0:3] == "$1 ":
				state = BYTES
		elif state == BYTES:
			line.rstrip()
			fields = line.split('\t')
			if fields[0][-1] != ":":
				print "Failed to parse byte array from gdb:"
				print line
				sys.exit(1)

			for field in fields[1:]:
				val = int(field, 16)
				bytes.append(val)
		else:
			assert 0

	return bytes

def make_cap_file(pkt_data, lnk_t):

	pcap_lnk_t = wtap_to_pcap(lnk_t)

	# Create a temporary file
	fname = tempfile.mktemp()
	try:
		fh = open(fname, "w")
	except IOError, err:
		sys.exit("Cannot open %s for writing: %s" % (fname, err))

	print "Packet Data:"

	# Put the hex dump in it
	offset = 0
	BYTES_IN_ROW = 16
	for byte in pkt_data:
		if (offset % BYTES_IN_ROW) == 0:
			print >> fh, "\n%08X  " % (offset,),
			print "\n%08X  " % (offset,),

		print >> fh, "%02X " % (byte,),
		print "%02X " % (byte,),
		offset += 1

	print >> fh, "\n"
	print "\n"

	try:
		fh.close()
	except IOError, err:
		try:
			os.unlink(fname)
		except:
			pass
		sys.exit("Cannot close %s: %s" % (fname, err))


	# Run text2pcap
	cmd = "text2pcap -q -l %s %s %s" % (pcap_lnk_t, fname, output_file)
#	print "Command is %s" % (cmd,)
	try:
		retval = os.system(cmd)
	except OSError, err:
		try:
			os.unlink(fname)
		except:
			pass
		sys.exit("Cannot run text2pcap: %s" % (err,))

	# Remove the temp file
	try:
		os.unlink(fname)
	except:
		pass

	if retval == 0:
		print "%s created with %d bytes in packet, and %s encoding." % \
			(output_file, len(pkt_data), wtap_name[lnk_t])
	else:
		sys.exit("text2pcap did not run succesfully.")




def try_frame(func_text, cap_len_text, lnk_t_text, data_text):

	# Get the back trace
	bt_text = run_gdb("bt")
	bt = BackTrace(bt_text)
	if not bt.HasFunction(func_text):
		print "%s() not found in backtrace." % (func_text,)
		return 0
	else:
		print "%s() found in backtrace." % (func_text,)

	# Figure out where the call to epan_dissect_run is.
	frame_num = bt.Frame(func_text)

	# Get the capture length
	cap_len = get_int_from_frame(frame_num, cap_len_text)

	# Get the encoding type
	lnk_t = get_int_from_frame(frame_num, lnk_t_text)

	# Get the packet data
	pkt_data = get_byte_array_from_frame(frame_num, data_text, cap_len)

	if verbose:
		print "Length=%d" % (cap_len,)
		print "Encoding=%d" % (lnk_t,)
		print "Data (%d bytes) = %s" % (len(pkt_data), pkt_data)
	make_cap_file(pkt_data, lnk_t)
	return 1

def run():
	if try_frame("epan_dissect_run",
		"fd->cap_len", "fd->lnk_t", "data"):
		return
	elif try_frame("add_packet_to_packet_list",
		"fdata->cap_len", "fdata->lnk_t", "buf"):
		return
	else:
		sys.exit("A packet cannot be pulled from this core.")


def usage():
	print "pkt-from-core.py [-v] -w capture_file executable-file (core-file or process-id)"
	print ""
	print "\tGiven an executable file and a core file, this tool"
	print "\tuses gdb to retrieve the packet that was being dissected"
	print "\tat the time wireshark/tshark stopped running. The packet"
	print "\tis saved in the capture_file specified by the -w option."
	print ""
	print "\t-v : verbose"
	sys.exit(1)

def main():
	global exec_file
	global core_file
	global output_file
	global verbose
	global debug

	optstring = "dvw:"
	try:
		opts, args = getopt.getopt(sys.argv[1:], optstring)
	except getopt.error:
		usage()

	for opt, arg in opts:
		if opt == "-w":
			output_file = arg
		elif opt == "-v":
			verbose = 1
		elif opt == "-d":
			debug = 1
		else:
			assert 0

	if output_file == None:
		usage()

	if len(args) != 2:
		usage()

	exec_file = args[0]
	core_file = args[1]

	run()

if __name__ == '__main__':
	main()