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#!/usr/bin/python
# Ndiff
#
# This programs reads two Nmap XML files and displays a list of their
# differences.
#
# Copyright 2008 Insecure.Com LLC
# Ndiff is distributed under the same license as Nmap. See the file COPYING or
# http://nmap.org/data/COPYING. See http://nmap.org/book/man-legal.html for more
# details.
#
# David Fifield
# based on a design by Michael Pattrick
import datetime
import difflib
import getopt
import sys
import time
import xml.sax
import xml.dom.minidom
verbose = False
NDIFF_XML_VERSION = u"1"
class Scan(object):
"""A single Nmap scan, corresponding to a single invocation of Nmap. It is a
container for a list of hosts. It also has utility methods to load itself
from an Nmap XML file."""
def __init__(self):
self.version = None
self.start_date = None
self.end_date = None
self.hosts = []
self.pre_script_results = []
self.post_script_results = []
def find_host(self, id):
for host in self.hosts:
if host.get_id() == id:
return host
else:
return None
def load(self, f):
"""Load a scan from the Nmap XML in the file-like object f."""
parser = xml.sax.make_parser()
handler = NmapContentHandler(self)
parser.setContentHandler(handler)
parser.parse(f)
def load_from_file(self, filename):
"""Load a scan from the Nmap XML file with the given filename."""
f = open(filename, "r")
try:
self.load(f)
finally:
f.close()
class Host(object):
"""A single host, with a state, addresses, host names, a dict mapping port
specs to Ports, and a list of OS matches. Host states are strings, or None
for "unknown"."""
def __init__(self):
self.state = None
self.addresses = []
self.hostnames = []
self.ports = {}
self.extraports = {}
self.os = []
self.script_results = []
def get_id(self):
"""Return an id that is used to determine if hosts are "the same" across
scans."""
if len(self.addresses) > 0:
return str(sorted(self.addresses)[0])
if len(self.hostnames) > 0:
return str(sorted(self.hostnames)[0])
return id(self)
def format_name(self):
"""Return a human-readable identifier for this host."""
address_s = u", ".join(a.s for a in sorted(self.addresses))
hostname_s = u", ".join(sorted(self.hostnames))
if len(hostname_s) > 0:
if len(address_s) > 0:
return u"%s (%s)" % (hostname_s, address_s)
else:
return hostname_s
elif len(address_s) > 0:
return address_s
else:
return u"<no name>"
def add_port(self, port):
self.ports[port.spec] = port
def add_address(self, address):
if address not in self.addresses:
self.addresses.append(address)
def add_hostname(self, hostname):
if hostname not in self.hostnames:
self.hostnames.append(hostname)
def is_extraports(self, state):
return state is None or state in self.extraports
def extraports_string(self):
list = [(count, state) for (state, count) in self.extraports.items()]
# Reverse-sort by count.
list.sort(reverse = True)
return u", ".join([u"%d %s ports" % (count, state) for (count, state) in list])
def state_to_dom_fragment(self, document):
frag = document.createDocumentFragment()
if self.state is not None:
elem = document.createElement(u"status")
elem.setAttribute(u"state", self.state)
frag.appendChild(elem)
return frag
def hostname_to_dom_fragment(self, document, hostname):
frag = document.createDocumentFragment()
elem = document.createElement(u"hostname")
elem.setAttribute(u"name", hostname)
frag.appendChild(elem)
return frag
def extraports_to_dom_fragment(self, document):
frag = document.createDocumentFragment()
for state, count in self.extraports.items():
elem = document.createElement(u"extraports")
elem.setAttribute(u"state", state)
elem.setAttribute(u"count", unicode(count))
frag.appendChild(elem)
return frag
def os_to_dom_fragment(self, document, os):
frag = document.createDocumentFragment()
elem = document.createElement(u"osmatch")
elem.setAttribute(u"name", os)
frag.appendChild(elem)
return frag
def to_dom_fragment(self, document):
frag = document.createDocumentFragment()
elem = document.createElement(u"host")
if self.state is not None:
elem.appendChild(self.state_to_dom_fragment(document))
for addr in self.addresses:
elem.appendChild(addr.to_dom_fragment(document))
if len(self.hostnames) > 0:
hostnames_elem = document.createElement(u"hostnames")
for hostname in self.hostnames:
hostnames_elem.appendChild(self.hostname_to_dom_fragment(document, hostname))
elem.appendChild(hostnames_elem)
ports_elem = document.createElement(u"ports")
ports_elem.appendChild(self.extraports_to_dom_fragment(document))
for port in sorted(self.ports.values()):
if not self.is_extraports(port.state):
ports_elem.appendChild(port.to_dom_fragment(document))
if ports_elem.hasChildNodes():
elem.appendChild(ports_elem)
if len(self.os) > 0:
os_elem = document.createElement(u"os")
for os in self.os:
os_elem.appendChild(self.os_to_dom_fragment(document, os))
elem.appendChild(os_elem)
if len(self.script_results) > 0:
hostscript_elem = document.createElement(u"hostscript")
for sr in self.script_results:
hostscript_elem.appendChild(sr.to_dom_fragment(document))
elem.appendChild(hostscript_elem)
frag.appendChild(elem)
return frag
class Address(object):
def __init__(self, s):
self.s = s
def __eq__(self, other):
return self.__cmp__(other) == 0
def __ne__(self, other):
return not self.__eq__(other)
def __hash__(self):
return hash(self.sort_key())
def __cmp__(self, other):
return cmp(self.sort_key(), other.sort_key())
def __str__(self):
return str(self.s)
def __unicode__(self):
return self.s
def new(type, s):
if type == u"ipv4":
return IPv4Address(s)
elif type == u"ipv6":
return IPv6Address(s)
elif type == u"mac":
return MACAddress(s)
else:
raise ValueError(u"Unknown address type %s." % type)
new = staticmethod(new)
def to_dom_fragment(self, document):
frag = document.createDocumentFragment()
elem = document.createElement(u"address")
elem.setAttribute(u"addr", self.s)
elem.setAttribute(u"addrtype", self.type)
frag.appendChild(elem)
return frag
# The sort_key method in the Address subclasses determines the order in which
# addresses are displayed. We do IPv4, then IPV6, then MAC.
class IPv4Address(Address):
type = property(lambda self: u"ipv4")
def sort_key(self):
return (0, self.s)
class IPv6Address(Address):
type = property(lambda self: u"ipv6")
def sort_key(self):
return (1, self.s)
class MACAddress(Address):
type = property(lambda self: u"mac")
def sort_key(self):
return (2, self.s)
class Port(object):
"""A single port, consisting of a port specification, a state, and a service
version. A specification, or "spec," is the 2-tuple (number, protocol). So
(10, "tcp") corresponds to the port 10/tcp. Port states are strings, or None
for "unknown"."""
def __init__(self, spec, state = None):
self.spec = spec
self.state = state
self.service = Service()
self.script_results = []
def state_string(self):
if self.state is None:
return u"unknown"
else:
return unicode(self.state)
def spec_string(self):
return u"%d/%s" % self.spec
def __cmp__(self, other):
d = cmp(self.spec, other.spec)
if d != 0:
return d
return cmp((self.spec, self.service, self.script_results),
(other.spec, other.service, other.script_results))
def to_dom_fragment(self, document):
frag = document.createDocumentFragment()
elem = document.createElement(u"port")
elem.setAttribute(u"portid", unicode(self.spec[0]))
elem.setAttribute(u"protocol", self.spec[1])
if self.state is not None:
state_elem = document.createElement(u"state")
state_elem.setAttribute(u"state", self.state)
elem.appendChild(state_elem)
elem.appendChild(self.service.to_dom_fragment(document))
for sr in self.script_results:
elem.appendChild(sr.to_dom_fragment(document))
frag.appendChild(elem)
return frag
class Service(object):
"""A service version as determined by -sV scan. Also contains the looked-up
port name if -sV wasn't used."""
def __init__(self):
self.name = None
self.product = None
self.version = None
self.extrainfo = None
self.tunnel = None
# self.hostname = None
# self.ostype = None
# self.devicetype = None
def __eq__(self, other):
return self.name == other.name \
and self.product == other.product \
and self.version == other.version \
and self.extrainfo == other.extrainfo
def __ne__(self, other):
return not self.__eq__(other)
def name_string(self):
parts = []
if self.tunnel is not None:
parts.append(self.tunnel)
if self.name is not None:
parts.append(self.name)
if len(parts) == 0:
return None
else:
return u"/".join(parts)
def version_string(self):
"""Get a string like in the VERSION column of Nmap output."""
parts = []
if self.product is not None:
parts.append(self.product)
if self.version is not None:
parts.append(self.version)
if self.extrainfo is not None:
parts.append(u"(%s)" % self.extrainfo)
if len(parts) == 0:
return None
else:
return u" ".join(parts)
def to_dom_fragment(self, document):
frag = document.createDocumentFragment()
elem = document.createElement(u"service")
for attr in (u"name", u"product", u"version", u"extrainfo", u"tunnel"):
v = getattr(self, attr)
if v is None:
continue
elem.setAttribute(attr, v)
if len(elem.attributes) > 0:
frag.appendChild(elem)
return frag
class ScriptResult(object):
def __init__(self):
self.id = None
self.output = None
def __eq__(self, other):
return self.id == other.id and self.output == other.output
def __ne__(self, other):
return not self.__eq__(other)
def __cmp__(self, other):
return cmp((self.id, self.output), (other.id, other.output))
def get_lines(self):
result = []
lines = self.output.splitlines()
if len(lines) > 0:
lines[0] = self.id + u": " + lines[0]
for line in lines[:-1]:
result.append(u"| " + line)
if len(lines) > 0:
result.append(u"|_ " + lines[-1])
return result
def to_dom_fragment(self, document):
frag = document.createDocumentFragment()
elem = document.createElement(u"script")
elem.setAttribute(u"id", self.id)
elem.setAttribute(u"output", self.output)
frag.appendChild(elem)
return frag
def format_banner(scan):
"""Format a startup banner more or less like Nmap does."""
parts = [u"Nmap"]
if scan.version is not None:
parts.append(scan.version)
if scan.start_date is not None:
parts.append(u"at %s" % scan.start_date.strftime("%Y-%m-%d %H:%M"))
return u" ".join(parts)
def print_script_result_diffs_text(title, script_results_a, script_results_b,
script_result_diffs, f = sys.stdout):
table = Table(u"*")
for sr_diff in script_result_diffs:
sr_diff.append_to_port_table(table)
if len(table) > 0:
print >> f
if len(script_results_b) == 0:
print >> f, u"-%s:" % title
elif len(script_results_a) == 0:
print >> f, u"+%s:" % title
else:
print >> f, u" %s:" % title
print >> f, table
def script_result_diffs_to_dom_fragment(elem, script_results_a,
script_results_b, script_result_diffs, document):
if len(script_results_a) == 0 and len(script_results_b) == 0:
return document.createDocumentFragment()
elif len(script_results_b) == 0:
a_elem = document.createElement(u"a")
for sr in script_results_a:
elem.appendChild(sr.to_dom_fragment(document))
a_elem.appendChild(elem)
return a_elem
elif len(script_results_a) == 0:
b_elem = document.createElement(u"b")
for sr in script_results_b:
elem.appendChild(sr.to_dom_fragment(document))
b_elem.appendChild(elem)
return b_elem
else:
for sr_diff in script_result_diffs:
elem.appendChild(sr_diff.to_dom_fragment(document))
return elem
class ScanDiff(object):
"""A complete diff of two scans. It is a container for two scans and a dict
mapping hosts to HostDiffs."""
def __init__(self, scan_a, scan_b):
"""Create a ScanDiff from the "before" scan_a and the "after" scan_b."""
self.scan_a = scan_a
self.scan_b = scan_b
self.hosts = []
self.pre_script_result_diffs = []
self.post_script_result_diffs = []
self.host_diffs = {}
self.diff()
def diff(self):
a_ids = [h.get_id() for h in self.scan_a.hosts]
b_ids = [h.get_id() for h in self.scan_b.hosts]
for id in sorted(set(a_ids).union(set(b_ids))):
# Currently we never consider diffing hosts with a different id
# (address or host name), which could lead to better diffs.
host_a = self.scan_a.find_host(id)
host_b = self.scan_b.find_host(id)
h_diff = HostDiff(host_a or Host(), host_b or Host())
if h_diff.cost > 0 or verbose:
host = host_a or host_b
self.hosts.append(host)
self.host_diffs[host] = h_diff
self.pre_script_result_diffs = ScriptResultDiff.diff_lists(self.scan_a.pre_script_results, self.scan_b.pre_script_results)
self.post_script_result_diffs = ScriptResultDiff.diff_lists(self.scan_a.post_script_results, self.scan_b.post_script_results)
def print_text(self, f = sys.stdout):
"""Print this diff in a human-readable text form."""
banner_a = format_banner(self.scan_a)
banner_b = format_banner(self.scan_b)
if banner_a != banner_b:
print >> f, u"-%s" % banner_a
print >> f, u"+%s" % banner_b
else:
print >> f, u" %s" % banner_a
print_script_result_diffs_text("Pre-scan script results",
self.scan_a.pre_script_results, self.scan_b.pre_script_results,
self.pre_script_result_diffs)
for host in self.hosts:
print >> f
h_diff = self.host_diffs[host]
h_diff.print_text(f)
print_script_result_diffs_text("Post-scan script results",
self.scan_a.post_script_results, self.scan_b.post_script_results,
self.post_script_result_diffs)
def print_xml(self, f = sys.stdout):
impl = xml.dom.minidom.getDOMImplementation()
document = impl.createDocument(None, u"nmapdiff", None)
root = document.documentElement
root.setAttribute(u"version", NDIFF_XML_VERSION)
scandiff_elem = document.createElement(u"scandiff")
root.appendChild(scandiff_elem)
# prerule script changes.
if len(self.pre_script_result_diffs) > 0 or verbose:
prescript_elem = document.createElement(u"prescript")
scandiff_elem.appendChild(script_result_diffs_to_dom_fragment(
prescript_elem, self.scan_a.pre_script_results,
self.scan_b.pre_script_results, self.pre_script_result_diffs,
document))
for host in self.hosts:
h_diff = self.host_diffs[host]
frag = h_diff.to_dom_fragment(document)
scandiff_elem.appendChild(frag)
# postrule script changes.
if len(self.post_script_result_diffs) > 0 or verbose:
postscript_elem = document.createElement(u"postscript")
scandiff_elem.appendChild(script_result_diffs_to_dom_fragment(
postscript_elem, self.scan_a.post_script_results,
self.scan_b.post_script_results, self.post_script_result_diffs,
document))
document.writexml(f, addindent = u" ", newl = u"\n", encoding = "UTF-8")
document.unlink()
cost = property(lambda self: sum([hd.cost for hd in self.host_diffs.values()]))
class HostDiff(object):
"""A diff of two Hosts. It contains the two hosts, variables describing what
changed, and a list of PortDiffs and OS differences."""
def __init__(self, host_a, host_b):
self.host_a = host_a
self.host_b = host_b
self.state_changed = False
self.id_changed = False
self.os_changed = False
self.extraports_changed = False
self.ports = []
self.port_diffs = {}
self.os_diffs = []
self.script_result_diffs = []
self.cost = 0
self.diff()
def diff(self):
if self.host_a.state != self.host_b.state:
self.state_changed = True
self.cost += 1
if set(self.host_a.addresses) != set(self.host_b.addresses) \
or set(self.host_a.hostnames) != set(self.host_b.hostnames):
self.id_changed = True
self.cost += 1
all_specs = list(set(self.host_a.ports.keys()).union(set(self.host_b.ports.keys())))
all_specs.sort()
for spec in all_specs:
# Currently we only compare ports with the same spec. This ignores
# the possibility that a service is moved lock, stock, and barrel to
# another port.
port_a = self.host_a.ports.get(spec)
port_b = self.host_b.ports.get(spec)
diff = PortDiff(port_a or Port(spec), port_b or Port(spec))
if self.include_diff(diff):
port = port_a or port_b
self.ports.append(port)
self.port_diffs[port] = diff
self.cost += diff.cost
os_diffs = difflib.SequenceMatcher(None, self.host_a.os, self.host_b.os)
self.os_diffs = os_diffs.get_opcodes()
os_cost = len([x for x in self.os_diffs if x[0] != "equal"])
if os_cost > 0:
self.os_changed = True
self.cost += os_cost
extraports_a = tuple((count, state) for (state, count) in self.host_a.extraports.items())
extraports_b = tuple((count, state) for (state, count) in self.host_b.extraports.items())
if extraports_a != extraports_b:
self.extraports_changed = True
self.cost += 1
self.script_result_diffs = ScriptResultDiff.diff_lists(self.host_a.script_results, self.host_b.script_results)
self.cost += len(self.script_result_diffs)
def include_diff(self, diff):
# Don't include the diff if the states are only extraports. Include all
# diffs, even those with cost == 0, in verbose mode.
if self.host_a.is_extraports(diff.port_a.state) and \
self.host_b.is_extraports(diff.port_b.state):
return False
elif verbose:
return True
return diff.cost > 0
def print_text(self, f = sys.stdout):
host_a = self.host_a
host_b = self.host_b
# Names and addresses.
if self.id_changed:
if host_a.state is not None:
print >> f, u"-%s:" % host_a.format_name()
if self.host_b.state is not None:
print >> f, u"+%s:" % host_b.format_name()
else:
print >> f, u" %s:" % host_a.format_name()
# State.
if self.state_changed:
if host_a.state is not None:
print >> f, u"-Host is %s." % host_a.state
if host_b.state is not None:
print >> f, u"+Host is %s." % host_b.state
elif verbose:
print >> f, u" Host is %s." % host_b.state
# Extraports.
if self.extraports_changed:
if len(host_a.extraports) > 0:
print >> f, u"-Not shown: %s" % host_a.extraports_string()
if len(host_b.extraports) > 0:
print >> f, u"+Not shown: %s" % host_b.extraports_string()
elif verbose:
if len(host_a.extraports) > 0:
print >> f, u" Not shown: %s" % host_a.extraports_string()
# Port table.
port_table = Table(u"** * * *")
if host_a.state is None:
mark = u"+"
elif host_b.state is None:
mark = u"-"
else:
mark = u" "
port_table.append((mark, u"PORT", u"STATE", u"SERVICE", u"VERSION"))
for port in self.ports:
port_diff = self.port_diffs[port]
port_diff.append_to_port_table(port_table, host_a, host_b)
if len(port_table) > 1:
print >> f, port_table
# OS changes.
if self.os_changed or verbose:
if len(host_a.os) > 0:
if len(host_b.os) > 0:
print >> f, u" OS details:"
else:
print >> f, u"-OS details:"
elif len(host_b.os) > 0:
print >> f, u"+OS details:"
# os_diffs is a list of 5-tuples returned by difflib.SequenceMatcher.
for op, i1, i2, j1, j2 in self.os_diffs:
if op == "replace" or op == "delete":
for i in range(i1, i2):
print >> f, "- %s" % host_a.os[i]
if op == "replace" or op == "insert":
for i in range(j1, j2):
print >> f, "+ %s" % host_b.os[i]
if op == "equal":
for i in range(i1, i2):
print >> f, " %s" % host_a.os[i]
print_script_result_diffs_text("Host script results",
host_a.script_results, host_b.script_results,
self.script_result_diffs)
def to_dom_fragment(self, document):
host_a = self.host_a
host_b = self.host_b
frag = document.createDocumentFragment()
hostdiff_elem = document.createElement(u"hostdiff")
frag.appendChild(hostdiff_elem)
if host_a.state is None or host_b.state is None:
# The host is missing in one scan. Output the whole thing.
if host_a.state is not None:
a_elem = document.createElement(u"a")
a_elem.appendChild(host_a.to_dom_fragment(document))
hostdiff_elem.appendChild(a_elem)
elif host_b.state is not None:
b_elem = document.createElement(u"b")
b_elem.appendChild(host_b.to_dom_fragment(document))
hostdiff_elem.appendChild(b_elem)
return frag
host_elem = document.createElement(u"host")
# State.
if host_a.state == host_b.state:
if verbose:
host_elem.appendChild(host_a.state_to_dom_fragment(document))
else:
a_elem = document.createElement(u"a")
a_elem.appendChild(host_a.state_to_dom_fragment(document))
host_elem.appendChild(a_elem)
b_elem = document.createElement(u"b")
b_elem.appendChild(host_b.state_to_dom_fragment(document))
host_elem.appendChild(b_elem)
# Addresses.
addrset_a = set(host_a.addresses)
addrset_b = set(host_b.addresses)
for addr in sorted(addrset_a.intersection(addrset_b)):
host_elem.appendChild(addr.to_dom_fragment(document))
a_elem = document.createElement(u"a")
for addr in sorted(addrset_a - addrset_b):
a_elem.appendChild(addr.to_dom_fragment(document))
if a_elem.hasChildNodes():
host_elem.appendChild(a_elem)
b_elem = document.createElement(u"b")
for addr in sorted(addrset_b - addrset_a):
b_elem.appendChild(addr.to_dom_fragment(document))
if b_elem.hasChildNodes():
host_elem.appendChild(b_elem)
# Host names.
hostnames_elem = document.createElement(u"hostnames")
hostnameset_a = set(host_a.hostnames)
hostnameset_b = set(host_b.hostnames)
for hostname in sorted(hostnameset_a.intersection(hostnameset_b)):
hostnames_elem.appendChild(host_a.hostname_to_dom_fragment(document, hostname))
a_elem = document.createElement(u"a")
for hostname in sorted(hostnameset_a - hostnameset_b):
a_elem.appendChild(host_a.hostname_to_dom_fragment(document, hostname))
if a_elem.hasChildNodes():
hostnames_elem.appendChild(a_elem)
b_elem = document.createElement(u"b")
for hostname in sorted(hostnameset_b - hostnameset_a):
b_elem.appendChild(host_b.hostname_to_dom_fragment(document, hostname))
if b_elem.hasChildNodes():
hostnames_elem.appendChild(b_elem)
if hostnames_elem.hasChildNodes():
host_elem.appendChild(hostnames_elem)
ports_elem = document.createElement(u"ports")
# Extraports.
if host_a.extraports == host_b.extraports:
ports_elem.appendChild(host_a.extraports_to_dom_fragment(document))
else:
a_elem = document.createElement(u"a")
a_elem.appendChild(host_a.extraports_to_dom_fragment(document))
ports_elem.appendChild(a_elem)
b_elem = document.createElement(u"b")
b_elem.appendChild(host_b.extraports_to_dom_fragment(document))
ports_elem.appendChild(b_elem)
# Port list.
for port in self.ports:
p_diff = self.port_diffs[port]
if p_diff.cost == 0:
if verbose:
ports_elem.appendChild(port.to_dom_fragment(document))
else:
ports_elem.appendChild(p_diff.to_dom_fragment(document))
if ports_elem.hasChildNodes():
host_elem.appendChild(ports_elem)
# OS changes.
if self.os_changed or verbose:
os_elem = document.createElement(u"os")
# os_diffs is a list of 5-tuples returned by difflib.SequenceMatcher.
for op, i1, i2, j1, j2 in self.os_diffs:
if op == "replace" or op == "delete":
a_elem = document.createElement(u"a")
for i in range(i1, i2):
a_elem.appendChild(host_a.os_to_dom_fragment(document, host_a.os[i]))
os_elem.appendChild(a_elem)
if op == "replace" or op == "insert":
b_elem = document.createElement(u"b")
for i in range(j1, j2):
b_elem.appendChild(host_b.os_to_dom_fragment(document, host_b.os[i]))
os_elem.appendChild(b_elem)
if op == "equal":
for i in range(i1, i2):
os_elem.appendChild(host_a.os_to_dom_fragment(document, host_a.os[i]))
if os_elem.hasChildNodes():
host_elem.appendChild(os_elem)
# Host script changes.
if len(self.script_result_diffs) > 0 or verbose:
hostscript_elem = document.createElement(u"hostscript")
host_elem.appendChild(script_result_diffs_to_dom_fragment(
hostscript_elem, host_a.script_results,
host_b.script_results, self.script_result_diffs,
document))
hostdiff_elem.appendChild(host_elem)
return frag
class PortDiff(object):
"""A diff of two Ports. It contains the two ports and the cost of changing
one into the other. If the cost is 0 then the two ports are the same."""
def __init__(self, port_a, port_b):
self.port_a = port_a
self.port_b = port_b
self.script_result_diffs = []
self.cost = 0
self.diff()
def diff(self):
if self.port_a.spec != self.port_b.spec:
self.cost += 1
if self.port_a.state != self.port_b.state:
self.cost += 1
if self.port_a.service != self.port_b.service:
self.cost += 1
self.script_result_diffs = ScriptResultDiff.diff_lists(self.port_a.script_results, self.port_b.script_results)
self.cost += len(self.script_result_diffs)
# PortDiffs are inserted into a Table and then printed, not printed out
# directly. That's why this class has append_to_port_table instead of
# print_text.
def append_to_port_table(self, table, host_a, host_b):
"""Append this port diff to a Table containing five columns:
+- PORT STATE SERVICE VERSION
The "+-" stands for the diff indicator column."""
a_columns = [self.port_a.spec_string(),
self.port_a.state_string(),
self.port_a.service.name_string(),
self.port_a.service.version_string()]
b_columns = [self.port_b.spec_string(),
self.port_b.state_string(),
self.port_b.service.name_string(),
self.port_b.service.version_string()]
if a_columns == b_columns:
if verbose or self.script_result_diffs > 0:
table.append([u" "] + a_columns)
else:
if not host_a.is_extraports(self.port_a.state):
table.append([u"-"] + a_columns)
if not host_b.is_extraports(self.port_b.state):
table.append([u"+"] + b_columns)
for sr_diff in self.script_result_diffs:
sr_diff.append_to_port_table(table)
def to_dom_fragment(self, document):
frag = document.createDocumentFragment()
portdiff_elem = document.createElement(u"portdiff")
frag.appendChild(portdiff_elem)
if self.port_a.spec == self.port_b.spec and self.port_a.state == self.port_b.state:
port_elem = document.createElement(u"port")
port_elem.setAttribute(u"portid", unicode(self.port_a.spec[0]))
port_elem.setAttribute(u"protocol", self.port_a.spec[1])
if self.port_a.state is not None:
state_elem = document.createElement(u"state")
state_elem.setAttribute(u"state", self.port_a.state)
port_elem.appendChild(state_elem)
if self.port_a.service == self.port_b.service:
port_elem.appendChild(self.port_a.service.to_dom_fragment(document))
else:
a_elem = document.createElement(u"a")
a_elem.appendChild(self.port_a.service.to_dom_fragment(document))
port_elem.appendChild(a_elem)
b_elem = document.createElement(u"b")
b_elem.appendChild(self.port_b.service.to_dom_fragment(document))
port_elem.appendChild(b_elem)
for sr_diff in self.script_result_diffs:
port_elem.appendChild(sr_diff.to_dom_fragment(document))
portdiff_elem.appendChild(port_elem)
else:
a_elem = document.createElement(u"a")
a_elem.appendChild(self.port_a.to_dom_fragment(document))
portdiff_elem.appendChild(a_elem)
b_elem = document.createElement(u"b")
b_elem.appendChild(self.port_b.to_dom_fragment(document))
portdiff_elem.appendChild(b_elem)
return frag
class ScriptResultDiff(object):
def __init__(self, sr_a, sr_b):
"""One of sr_a and sr_b may be None."""
self.sr_a = sr_a
self.sr_b = sr_b
def diff_lists(a, b):
"""Return a list of ScriptResultDiffs from two sorted lists of
ScriptResults."""
diffs = []
i = 0
j = 0
# This algorithm is like a merge of sorted lists.
while i < len(a) and j < len(b):
if a[i].id < b[j].id:
diffs.append(ScriptResultDiff(a[i], None))
i += 1
elif a[i].id > b[j].id:
diffs.append(ScriptResultDiff(None, b[j]))
j += 1
else:
if a[i].output != b[j].output or verbose:
diffs.append(ScriptResultDiff(a[i], b[j]))
i += 1
j += 1
while i < len(a):
diffs.append(ScriptResultDiff(a[i], None))
i += 1
while j < len(b):
diffs.append(ScriptResultDiff(None, b[j]))
j += 1
return diffs
diff_lists = staticmethod(diff_lists)
# Script result diffs are appended to a port table rather than being printed
# directly, so append_to_port_table exists instead of print_text.
def append_to_port_table(self, table):
a_lines = []
b_lines = []
if self.sr_a is not None:
a_lines = self.sr_a.get_lines()
if self.sr_b is not None:
b_lines = self.sr_b.get_lines()
if a_lines != b_lines or verbose:
diffs = difflib.SequenceMatcher(None, a_lines, b_lines)
for op, i1, i2, j1, j2 in diffs.get_opcodes():
if op == "replace" or op == "delete":
for k in range(i1, i2):
table.append_raw(u"-" + a_lines[k])
if op == "replace" or op == "insert":
for k in range(j1, j2):
table.append_raw(u"+" + b_lines[k])
if op == "equal":
for k in range(i1, i2):
table.append_raw(u" " + a_lines[k])
def to_dom_fragment(self, document):
frag = document.createDocumentFragment()
if self.sr_a is not None and self.sr_b is not None and self.sr_a == self.sr_b:
frag.appendChild(self.sr_a.to_dom_fragment(document))
else:
if self.sr_a is not None:
a_elem = document.createElement(u"a")
a_elem.appendChild(self.sr_a.to_dom_fragment(document))
frag.appendChild(a_elem)
if self.sr_b is not None:
b_elem = document.createElement(u"b")
b_elem.appendChild(self.sr_b.to_dom_fragment(document))
frag.appendChild(b_elem)
return frag
class Table(object):
"""A table of character data, like NmapOutputTable."""
def __init__(self, template):
"""template is a string consisting of "*" and other characters. Each "*"
is a left-justified space-padded field. All other characters are copied
to the output."""
self.widths = []
self.rows = []
self.prefix = u""
self.padding = []
j = 0
while j < len(template) and template[j] != "*":
j += 1
self.prefix = template[:j]
j += 1
i = j
while j < len(template):
while j < len(template) and template[j] != "*":
j += 1
self.padding.append(template[i:j])
j += 1
i = j
def append(self, row):
strings = []
row = list(row)
# Remove trailing Nones.
while len(row) > 0 and row[-1] is None:
row.pop()
for i in range(len(row)):
if row[i] is None:
s = u""
else:
s = str(row[i])
if i == len(self.widths):
self.widths.append(len(s))
elif len(s) > self.widths[i]:
self.widths[i] = len(s)
strings.append(s)
self.rows.append(strings)
def append_raw(self, s):
"""Append a raw string for a row that is not formatted into columns."""
self.rows.append(s)
def __len__(self):
return len(self.rows)
def __str__(self):
lines = []
for row in self.rows:
parts = [self.prefix]
i = 0
if isinstance(row, basestring):
# A raw string.
lines.append(row)
else:
while i < len(row):
parts.append(row[i].ljust(self.widths[i]))
if i < len(self.padding):
parts.append(self.padding[i])
i += 1
lines.append(u"".join(parts).rstrip())
return u"\n".join(lines)
def warn(str):
"""Print a warning to stderr."""
print >> sys.stderr, str
class NmapContentHandler(xml.sax.handler.ContentHandler):
"""The xml.sax ContentHandler for the XML parser. It contains a Scan object
that is filled in and can be read back again once the parse method is
finished."""
def __init__(self, scan):
self.scan = scan
# We keep a stack of the elements we've seen, pushing on start and
# popping on end.
self.element_stack = []
self.current_host = None
self.current_port = None
def parent_element(self):
"""Return the name of the element containing the current one, or None if
this is the root element."""
if len(self.element_stack) == 0:
return None
return self.element_stack[-1]
def startElement(self, name, attrs):
"""This method keeps track of element_stack. The real parsing work is
done in startElementAux. This is to make it easy for startElementAux to
bail out on error."""
self.startElementAux(name, attrs)
self.element_stack.append(name)
def endElement(self, name):
"""This method keeps track of element_stack. The real parsing work is
done in endElementAux."""
self.element_stack.pop()
self.endElementAux(name)
def startElementAux(self, name, attrs):
if name == u"nmaprun":
assert self.parent_element() == None
if attrs.has_key(u"start"):
start_timestamp = int(attrs.get(u"start"))
self.scan.start_date = datetime.datetime.fromtimestamp(start_timestamp)
self.scan.version = attrs.get(u"version")
elif name == u"host":
assert self.parent_element() == u"nmaprun"
self.current_host = Host()
self.scan.hosts.append(self.current_host)
elif name == u"status":
assert self.parent_element() == u"host"
assert self.current_host is not None
try:
state = attrs[u"state"]
except KeyError:
warn(u"%s element of host %s is missing the \"state\" attribute; assuming \"unknown\"." % (name, self.current_host.format_name()))
return
self.current_host.state = state
elif name == u"address":
assert self.parent_element() == u"host"
assert self.current_host is not None
try:
addr = attrs[u"addr"]
except KeyError:
warn(u"%s element of host %s is missing the \"addr\" attribute; skipping." % (name, self.current_host.format_name()))
return
addrtype = attrs.get(u"addrtype", u"ipv4")
self.current_host.add_address(Address.new(addrtype, addr))
elif name == u"hostname":
assert self.parent_element() == u"hostnames"
assert self.current_host is not None
try:
hostname = attrs[u"name"]
except KeyError:
warn(u"%s element of host %s is missing the \"name\" attribute; skipping." % (name, self.current_host.format_name()))
return
self.current_host.add_hostname(hostname)
elif name == u"extraports":
assert self.parent_element() == u"ports"
assert self.current_host is not None
try:
state = attrs[u"state"]
except KeyError:
warn(u"%s element of host %s is missing the \"state\" attribute; assuming \"unknown\"." % (name, self.current_host.format_name()))
state = None
if state in self.current_host.extraports:
warn(u"Duplicate extraports state \"%s\" in host %s." % (state, self.current_host.format_name()))
try:
count = int(attrs[u"count"])
except KeyError:
warn(u"%s element of host %s is missing the \"count\" attribute; assuming 0." % (name, self.current_host.format_name()))
count = 0
except ValueError:
warn(u"Can't convert extraports count \"%s\" to an integer in host %s; assuming 0." % (attrs[u"count"], self.current_host.format_name()))
count = 0
self.current_host.extraports[state] = count
elif name == u"port":
assert self.parent_element() == u"ports"
assert self.current_host is not None
try:
portid_str = attrs[u"portid"]
except KeyError:
warn(u"%s element of host %s missing the \"portid\" attribute; skipping." % (name, self.current_host.format_name()))
return
try:
portid = int(portid_str)
except ValueError:
warn(u"Can't convert portid \"%s\" to an integer in host %s; skipping port." % (portid_str, self.current_host.format_name()))
return
try:
protocol = attrs[u"protocol"]
except KeyError:
warn(u"%s element of host %s missing the \"protocol\" attribute; skipping." % (name, self.current_host.format_name()))
return
self.current_port = Port((portid, protocol))
elif name == u"state":
assert self.parent_element() == u"port"
assert self.current_host is not None
if self.current_port is None:
return
if not attrs.has_key(u"state"):
warn(u"%s element of port %s is missing the \"state\" attribute; assuming \"unknown\"." % (name, self.current_port.spec_string()))
return
self.current_port.state = attrs[u"state"]
self.current_host.add_port(self.current_port)
elif name == u"service":
assert self.parent_element() == u"port"
assert self.current_host is not None
if self.current_port is None:
return
self.current_port.service.name = attrs.get(u"name")
self.current_port.service.product = attrs.get(u"product")
self.current_port.service.version = attrs.get(u"version")
self.current_port.service.extrainfo = attrs.get(u"extrainfo")
self.current_port.service.tunnel = attrs.get(u"tunnel")
elif name == u"script":
result = ScriptResult()
try:
result.id = attrs[u"id"]
except KeyError:
warn(u"%s element missing the \"id\" attribute; skipping." % name)
return
try:
result.output = attrs[u"output"]
except KeyError:
warn(u"%s element missing the \"output\" attribute; skipping." % name)
return
if self.parent_element() == u"prescript":
self.scan.pre_script_results.append(result)
elif self.parent_element() == u"postscript":
self.scan.post_script_results.append(result)
elif self.parent_element() == u"hostscript":
self.current_host.script_results.append(result)
elif self.parent_element() == u"port":
self.current_port.script_results.append(result)
else:
warn(u"%s element not inside prescript, postscript, hostscript, or port element; ignoring." % name)
return
elif name == u"osmatch":
assert self.parent_element() == u"os"
assert self.current_host is not None
if not attrs.has_key(u"name"):
warn(u"%s element of host %s is missing the \"name\" attribute; skipping." % (name, self.current_host.format_name()))
return
self.current_host.os.append(attrs[u"name"])
elif name == u"finished":
assert self.parent_element() == u"runstats"
if attrs.has_key(u"time"):
end_timestamp = int(attrs.get(u"time"))
self.scan.end_date = datetime.datetime.fromtimestamp(end_timestamp)
def endElementAux(self, name):
if name == u"host":
self.current_host.script_results.sort()
self.current_host = None
elif name == u"port":
self.current_port.script_results.sort()
self.current_port = None
def usage():
print u"""\
Usage: %s [option] FILE1 FILE2
Compare two Nmap XML files and display a list of their differences.
Differences include host state changes, port state changes, and changes to
service and OS detection.
-h, --help display this help
-v, --verbose also show hosts and ports that haven't changed.
--text display output in text format (default)
--xml display output in XML format\
""" % sys.argv[0]
EXIT_EQUAL = 0
EXIT_DIFFERENT = 1
EXIT_ERROR = 2
def usage_error(msg):
print >> sys.stderr, u"%s: %s" % (sys.argv[0], msg)
print >> sys.stderr, u"Try '%s -h' for help." % sys.argv[0]
sys.exit(EXIT_ERROR)
def main():
global verbose
output_format = None
try:
opts, input_filenames = getopt.gnu_getopt(sys.argv[1:], "hv", ["help", "text", "verbose", "xml"])
except getopt.GetoptError, e:
usage_error(e.msg)
for o, a in opts:
if o == "-h" or o == "--help":
usage()
sys.exit(0)
elif o == "-v" or o == "--verbose":
verbose = True
elif o == "--text":
if output_format is not None and output_format != "text":
usage_error(u"contradictory output format options.")
output_format = "text"
elif o == "--xml":
if output_format is not None and output_format != "xml":
usage_error(u"contradictory output format options.")
output_format = "xml"
if len(input_filenames) != 2:
usage_error(u"need exactly two input filenames.")
if output_format is None:
output_format = "text"
filename_a = input_filenames[0]
filename_b = input_filenames[1]
try:
scan_a = Scan()
scan_a.load_from_file(filename_a)
scan_b = Scan()
scan_b.load_from_file(filename_b)
except IOError, e:
print >> sys.stderr, u"Can't open file: %s" % str(e)
sys.exit(EXIT_ERROR)
diff = ScanDiff(scan_a, scan_b)
if output_format == "text":
diff.print_text()
elif output_format == "xml":
diff.print_xml()
if diff.cost == 0:
return EXIT_EQUAL
else:
return EXIT_DIFFERENT
# Catch uncaught exceptions so they can produce an exit code of 2 (EXIT_ERROR),
# not 1 like they would by default.
def excepthook(type, value, tb):
sys.__excepthook__(type, value, tb)
sys.exit(EXIT_ERROR)
if __name__ == "__main__":
sys.excepthook = excepthook
sys.exit(main())
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