8d7ebc732e
Fix some issues discovered by common python linters including: * switch `None` comparisons to use `is` rather than `==`. Identity != equality, and I've spent 40+ hours before tracking down a subtle bug caused by exactly this issue. Note that this may introduce a problem if one of the scripts is depending on this behavior, in which case the comparison should be changed to `True`/`False` rather than `None`. * Use `except Exception:` as bare `except:` statements have been discouraged for years. Ideally for some of these we'd examine if there were specific exceptions that should be caught, but for now I simply caught all. Again, this could introduce very subtle behavioral changes under Python 2, but IIUC, that was all fixed in Python 3, so safe to move to `except Exception:`. * Use more idiomatic `if not x in y`--> `if x not in y` * Use more idiomatic 2 blank lines. I only did this at the beginning, until I realized how overwhelming this was going to be to apply, then I stopped. * Add a TODO where an undefined function name is called, so will fail whenever that code is run. * Add more idiomatic spacing around `:`. This is also only partially cleaned up, as I gave up when I saw how `asn2wrs.py` was clearly infatuated with the construct. * Various other small cleanups, removed some trailing whitespace and improper indentation that wasn't a multiple of 4, etc. There is still _much_ to do, but I haven't been heavily involved with this project before, so thought this was a sufficient amount to put up and see what the feedback is. Linters that I have enabled which highlighted some of these issues include: * `pylint` * `flake8` * `pycodestyle`
138 lines
3.7 KiB
Python
Executable file
138 lines
3.7 KiB
Python
Executable file
#!/usr/bin/env python
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"""
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Converts netscreen snoop hex-dumps to a hex-dump that text2pcap can read.
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Copyright (c) 2004 by Gilbert Ramirez <gram@alumni.rice.edu>
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SPDX-License-Identifier: GPL-2.0-or-later
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"""
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import sys
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import re
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import os
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import stat
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import time
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class OutputFile:
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TIMER_MAX = 99999.9
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def __init__(self, name, base_time):
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try:
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self.fh = open(name, "w")
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except IOError, err:
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sys.exit(err)
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self.base_time = base_time
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self.prev_timestamp = 0.0
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def PrintPacket(self, timestamp, datalines):
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# What do to with the timestamp? I need more data about what
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# the netscreen timestamp is, then I can generate one for the text file.
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# print("TS:", timestamp.group("time"))
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try:
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timestamp = float(timestamp.group("time"))
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except ValueError:
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sys.exit("Unable to convert '%s' to floating point." %
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(timestamp,))
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# Did we wrap around the timeer max?
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if timestamp < self.prev_timestamp:
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self.base_time += self.TIMER_MAX
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self.prev_timestamp = timestamp
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packet_timestamp = self.base_time + timestamp
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# Determine the time string to print
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gmtime = time.gmtime(packet_timestamp)
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subsecs = packet_timestamp - int(packet_timestamp)
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assert subsecs <= 0
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subsecs = int(subsecs * 10)
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print >> self.fh, "%s.%d" % (time.strftime("%Y-%m-%d %H:%M:%S", gmtime), \
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subsecs)
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# Print the packet data
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offset = 0
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for lineno, hexgroup in datalines:
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hexline = hexgroup.group("hex")
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hexpairs = hexline.split()
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print >> self.fh, "%08x %s" % (offset, hexline)
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offset += len(hexpairs)
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# Blank line
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print >> self.fh
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# Find a timestamp line
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re_timestamp = re.compile(r"^(?P<time>\d+\.\d): [\w/]+\((?P<io>.)\)(:| len=)")
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# Find a hex dump line
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re_hex_line = re.compile(r"(?P<hex>([0-9a-f]{2} ){1,16})\s+(?P<ascii>.){1,16}")
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def run(input_filename, output_filename):
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try:
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ifh = open(input_filename, "r")
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except IOError, err:
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sys.exit(err)
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# Get the file's creation time.
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try:
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ctime = os.stat(input_filename)[stat.ST_CTIME]
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except OSError, err:
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sys.exit(err)
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output_file = OutputFile(output_filename, ctime)
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timestamp = None
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datalines = []
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lineno = 0
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for line in ifh.xreadlines():
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lineno += 1
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# If we have no timestamp yet, look for one
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if not timestamp:
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m = re_timestamp.search(line)
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if m:
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timestamp = m
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# Otherwise, look for hex dump lines
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else:
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m = re_hex_line.search(line)
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if m:
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datalines.append((lineno, m))
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else:
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# If we have been gathering hex dump lines,
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# and this line is not a hex dump line, then the hex dump
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# has finished, and so has the packet. So print the packet
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# and reset our variables so we can look for the next packet.
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if datalines:
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output_file.PrintPacket(timestamp, datalines)
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timestamp = None
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datalines = []
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# At the end of the file we may still have hex dump data in memory.
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# If so, print the packet
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if datalines:
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output_file.PrintPacket(timestamp, datalines)
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timestamp = None
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datalines = []
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def usage():
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print >> sys.stderr, "Usage: netscreen2dump.py netscreen-dump-file new-dump-file"
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sys.exit(1)
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def main():
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if len(sys.argv) != 3:
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usage()
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run(sys.argv[1], sys.argv[2])
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if __name__ == "__main__":
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main()
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