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I know I can call the GetVersionEx Win32 API function to retrieve Windows version. In most cases returned value reflects the version of my Windows, but sometimes that is not so.

If a user runs my application under the compatibility layer, then GetVersionEx won't be reporting the real version but the version enforced by the compatibility layer. For example, if I'm running Vista and execute my program in "Windows NT 4" compatibility mode, GetVersionEx won't return version 6.0 but 4.0.

Is there a way to bypass this behaviour and get true Windows version?

share|improve this question
good question, I would also like to know this and also return additional information such as Service Pack, Home/Professional/Ultimate edition etc too. –  user741875 May 15 '11 at 10:49
Craig; Check my JCL answer out. It doesn't bypass the compatibility layer, but it DOES tell you the truth if Windows hasn't been configured to lie to you, and it can tell you about editions, and everything. –  Warren P Nov 14 '11 at 15:57

10 Answers 10

up vote 26 down vote accepted

The best approach I know is to check if specific API is exported from some DLL. Each new Windows version adds new functions and by checking the existance of those functions one can tell which OS the application is running on. For example, Vista exports GetLocaleInfoEx from kernel32.dll while previous Windowses didn't.

To cut the long story short, here is one such list containing only exports from kernel32.dll.

> *function: implemented in*  
> GetLocaleInfoEx:       Vista  
> GetLargePageMinimum:   Vista, Server 2003  
GetDLLDirectory:         Vista, Server 2003, XP SP1  
GetNativeSystemInfo:     Vista, Server 2003, XP SP1, XP  
ReplaceFile:             Vista, Server 2003, XP SP1, XP, 2000  
OpenThread:              Vista, Server 2003, XP SP1, XP, 2000, ME  
GetThreadPriorityBoost:  Vista, Server 2003, XP SP1, XP, 2000,     NT 4  
IsDebuggerPresent:       Vista, Server 2003, XP SP1, XP, 2000, ME, NT 4, 98   
GetDiskFreeSpaceEx:      Vista, Server 2003, XP SP1, XP, 2000, ME, NT 4, 98, 95 OSR2  
ConnectNamedPipe:        Vista, Server 2003, XP SP1, XP, 2000,     NT 4,                 NT 3  
Beep:                    Vista, Server 2003, XP SP1, XP, 2000, ME,       98, 95 OSR2, 95  

Writing the function to determine the real OS version is simple; just proceed from newest OS to oldest and use GetProcAddress to check exported APIs. Implementing this in any language should be trivial.

The following code in Delphi was extracted from the free DSiWin32 library):

TDSiWindowsVersion = (wvUnknown, wvWin31, wvWin95, wvWin95OSR2, wvWin98,
  wvWin98SE, wvWinME, wvWin9x, wvWinNT3, wvWinNT4, wvWin2000, wvWinXP,
  wvWinNT, wvWinServer2003, wvWinVista);

function DSiGetWindowsVersion: TDSiWindowsVersion;
  versionInfo: TOSVersionInfo;
  versionInfo.dwOSVersionInfoSize := SizeOf(versionInfo);
  Result := wvUnknown;
  case versionInfo.dwPlatformID of
    VER_PLATFORM_WIN32s: Result := wvWin31;
      case versionInfo.dwMinorVersion of
          if Trim(versionInfo.szCSDVersion[1]) = 'B' then
            Result := wvWin95OSR2
            Result := wvWin95;
          if Trim(versionInfo.szCSDVersion[1]) = 'A' then
            Result := wvWin98SE
            Result := wvWin98;
          if (versionInfo.dwBuildNumber = 73010104) then
             Result := wvWinME;
             Result := wvWin9x;
      end; //case versionInfo.dwMinorVersion
      case versionInfo.dwMajorVersion of
        3: Result := wvWinNT3;
        4: Result := wvWinNT4;
          case versionInfo.dwMinorVersion of
            0: Result := wvWin2000;
            1: Result := wvWinXP;
            2: Result := wvWinServer2003;
            else Result := wvWinNT
          end; //case versionInfo.dwMinorVersion
        6: Result := wvWinVista;
      end; //case versionInfo.dwMajorVersion
    end; //versionInfo.dwPlatformID
end; { DSiGetWindowsVersion }

function DSiGetTrueWindowsVersion: TDSiWindowsVersion;

  function ExportsAPI(module: HMODULE; const apiName: string): boolean;
    Result := GetProcAddress(module, PChar(apiName)) <> nil;
  end; { ExportsAPI }

  hKernel32: HMODULE;

begin { DSiGetTrueWindowsVersion }
  hKernel32 := GetModuleHandle('kernel32');
  Win32Check(hKernel32 <> 0);
  if ExportsAPI(hKernel32, 'GetLocaleInfoEx') then
    Result := wvWinVista
  else if ExportsAPI(hKernel32, 'GetLargePageMinimum') then
    Result := wvWinServer2003
  else if ExportsAPI(hKernel32, 'GetNativeSystemInfo') then
    Result := wvWinXP
  else if ExportsAPI(hKernel32, 'ReplaceFile') then
    Result := wvWin2000
  else if ExportsAPI(hKernel32, 'OpenThread') then
    Result := wvWinME
  else if ExportsAPI(hKernel32, 'GetThreadPriorityBoost') then
    Result := wvWinNT4
  else if ExportsAPI(hKernel32, 'IsDebuggerPresent') then  //is also in NT4!
    Result := wvWin98
  else if ExportsAPI(hKernel32, 'GetDiskFreeSpaceEx') then  //is also in NT4!
    Result := wvWin95OSR2
  else if ExportsAPI(hKernel32, 'ConnectNamedPipe') then
    Result := wvWinNT3
  else if ExportsAPI(hKernel32, 'Beep') then
    Result := wvWin95
  else // we have no idea
    Result := DSiGetWindowsVersion;
end; { DSiGetTrueWindowsVersion }

--- updated 2009-10-09

It turns out that it gets very hard to do an "undocumented" OS detection on Vista SP1 and higher. A look at the API changes shows that all Windows 2008 functions are also implemented in Vista SP1 and that all Windows 7 functions are also implemented in Windows 2008 R2. Too bad :(

--- end of update

FWIW, this is a problem I encountered in practice. We (the company I work for) have a program that was not really Vista-ready when Vista was released (and some weeks after that ...). It was not working under the compatibility layer either. (Some DirectX problems. Don't ask.)

We didn't want too-smart-for-their-own-good users to run this app on Vista at all - compatibility mode or not - so I had to find a solution (a guy smarter than me pointed me into right direction; the stuff above is not my brainchild). Now I'm posting it for your pleasure and to help all poor souls that will have to solve this problem in the future. Google, please index this article!

If you have a better solution (or an upgrade and/or fix for mine), please post an answer here ...

share|improve this answer
I so want to edit this post to align the versions in the first section, but I don't have enough reputation. –  Brad Gilbert Sep 11 '08 at 19:16
I would too, but tables currently don't display correctly :( –  gabr Sep 22 '08 at 16:38
any C# code sample ? –  Kiquenet Feb 16 '11 at 11:45
this should be pretty easy to translate to C#. –  Warren P Mar 31 '11 at 0:01
Not sure if that table can be trusted, AFAIK Beep exists on NT4 and ConnectNamedPipe on 9x –  Anders Oct 25 '11 at 22:49

WMI QUery:

"Select * from Win32_OperatingSystem"

EDIT: Actually better would be:

"Select Version from Win32_OperatingSystem"
share|improve this answer
Elegant! I like it - and it never crossed my mind. –  gabr Sep 11 '08 at 17:31
One problem with WMI - it was only introduced in Windows 2000. If you know your code won't be running on 9x or NT 3/4 then the WMI approach is fine. –  gabr Sep 11 '08 at 18:22
Does anyone still run 9x or NT? –  Camilo Martin Dec 16 '09 at 7:54
Is WMI weird or what? "Select" doesn't work on my WMI, but "path Win32_OperatingSystem" did work. Is WMI a crazy piece of under-documented wonkiness, or what? –  Warren P Nov 14 '11 at 16:04
So you are accessing wmi through the wmic console app it sounds like. When I say WMI query I am talking about accessing it via a method that supports the WQL query language (I realize that is redundant) which WMIC does not. So to answer your question, some portions of WMI are not particularly well documented because any software vendor can create classes in WMI pretty much at will much like the registry, but the portions that are created by MS and especially the portions dealing with the OS are actually quite well documented. –  EBGreen Nov 14 '11 at 16:53

How about obtaining the version of a system file?

The best file would be kernel32.dll, located in %WINDIR%\System32\kernel32.dll.

There are APIs to obtain the file version. eg: I'm using Windows XP -> "5.1.2600.5512 (xpsp.080413-2111)"

share|improve this answer

Another solution:

read the following registry entry:

HLKM\SOFTWARE\Microsoft\Windows NT\CurrentVersion\CurrentVersion\Product Name

or other keys from

HLKM\SOFTWARE\Microsoft\Windows NT\CurrentVersion\CurrentVersion
share|improve this answer
Except on 9x platform, of course. –  gabr Sep 11 '08 at 18:53
Now, that is elegant. I'm glad I kept reading rather than begin using the GetVersionEx option. Keep it simple and beautiful. –  Sam Aug 26 '10 at 23:51
Reading strings from the registry and parsing them is not a good idea unless it is specifically documented by Microsoft. Are you certain the ProductName is not localized to different languages? Are you sure you got every variant of the product name? The above advice is the exact kind of thing that makes the App Compat team over at Microsoft pull their hair out. -1 –  scobi Mar 15 '11 at 18:23
Well, then they should provide an API/an official solution to get this information. Hiding information is rarely a good thing. As you can see, every solution is only a work-around. –  botismarius Mar 16 '11 at 12:56
This is certainly not elegant –  David Heffernan Jul 31 at 19:45

Everyone who has arrived at this question should also read this article.

Version Checking (Just Don’t Do It)

Version checking is hard to get right. Make sure you absolutely need to do it in the first place before copy pasting code from answers to this SO question.

share|improve this answer
Nonsense, no problem checking versions on the Mac or Linux. That's the only language MS understands, competition. –  Sam Jan 19 '12 at 3:33
Try reading the article. Checking versions is easy. Handling it correctly is hard. –  scobi Jan 20 '12 at 19:29

real version store on PEB block of process information.

Sample for Win32 app (Delphi Code)

unit RealWindowsVerUnit;



  //Real version Windows
  Win32MajorVersionReal: Integer;
  Win32MinorVersionReal: Integer;


  PEB = record
    InheritedAddressSpace: Boolean;
    ReadImageFileExecOptions: Boolean;
    BeingDebugged: Boolean;
    Spare: Boolean;
    Mutant: Cardinal;
    ImageBaseAddress: Pointer;
    LoaderData: Pointer;
    ProcessParameters: Pointer; //PRTL_USER_PROCESS_PARAMETERS;
    SubSystemData: Pointer;
    ProcessHeap: Pointer;
    FastPebLock: Pointer;
    FastPebLockRoutine: Pointer;
    FastPebUnlockRoutine: Pointer;
    EnvironmentUpdateCount: Cardinal;
    KernelCallbackTable: PPointer;
    EventLogSection: Pointer;
    EventLog: Pointer;
    FreeList: Pointer; //PPEB_FREE_BLOCK;
    TlsExpansionCounter: Cardinal;
    TlsBitmap: Pointer;
    TlsBitmapBits: array[0..1] of Cardinal;
    ReadOnlySharedMemoryBase: Pointer;
    ReadOnlySharedMemoryHeap: Pointer;
    ReadOnlyStaticServerData: PPointer;
    AnsiCodePageData: Pointer;
    OemCodePageData: Pointer;
    UnicodeCaseTableData: Pointer;
    NumberOfProcessors: Cardinal;
    NtGlobalFlag: Cardinal;
    Spare2: array[0..3] of Byte;
    CriticalSectionTimeout: LARGE_INTEGER;
    HeapSegmentReserve: Cardinal;
    HeapSegmentCommit: Cardinal;
    HeapDeCommitTotalFreeThreshold: Cardinal;
    HeapDeCommitFreeBlockThreshold: Cardinal;
    NumberOfHeaps: Cardinal;
    MaximumNumberOfHeaps: Cardinal;
    ProcessHeaps: Pointer;
    GdiSharedHandleTable: Pointer;
    ProcessStarterHelper: Pointer;
    GdiDCAttributeList: Pointer;
    LoaderLock: Pointer;
    OSMajorVersion: Cardinal;
    OSMinorVersion: Cardinal;
    OSBuildNumber: Cardinal;
    OSPlatformId: Cardinal;
    ImageSubSystem: Cardinal;
    ImageSubSystemMajorVersion: Cardinal;
    ImageSubSystemMinorVersion: Cardinal;
    GdiHandleBuffer: array [0..33] of Cardinal;
    PostProcessInitRoutine: Cardinal;
    TlsExpansionBitmap: Cardinal;
    TlsExpansionBitmapBits: array [0..127] of Byte;
    SessionId: Cardinal;

//Get PEB block current win32 process
function GetPDB: PPEB; stdcall;

  //Detect true windows wersion
  Win32MajorVersionReal := GetPDB^.OSMajorVersion;
  Win32MinorVersionReal := GetPDB^.OSMinorVersion;

share|improve this answer
That spurious stdcall makes the whole snippet highly suspicious. –  Free Consulting 2 days ago

Essentially to answer duplicate Q: Getting OS major, minor, and build versions for Windows 8.1 and up in Delphi 2007

Starting with W2K you can use NetServerGetInfo. NetServerGetInfo returns the correct info on W7 and W8.1, unable to test on W10..

function GetWinVersion: string;
  Buffer: PServerInfo101;
  Buffer := nil;
  if NetServerGetInfo(nil, 101, Pointer(Buffer)) = NO_ERROR then
     Result := <Build You Version String here>(
      VER_PLATFORM_WIN32_NT // Save since minimum support begins in W2K
share|improve this answer
Might be more useful to wait until you can test against Win10, seeing as the topic has been under active discussion in this more recent q: stackoverflow.com/questions/31753092 –  MartynA Jul 31 at 22:00
I tested this code On Windows 10 Preview (I don't have the release version yet). Without a Windows 10 GUID in the manifest, NetServerGetInfo() (and also RtlGetVersion() in ntdll.dll) reports the version as 10.0, whereas GetVersionEx() reports the version as 6.2 as documented. –  Remy Lebeau Jul 31 at 23:33
Good to know, I need to wait until the "Something Happened" error is resolved :) –  FredS Jul 31 at 23:55

The following works for me in Windows 10 without the Windows 10 GUID listed in the application manifest:

  System.SysUtils, Winapi.Windows;


  _SERVER_INFO_101 = record
    sv101_platform_id: DWORD;
    sv101_name: LPWSTR;
    sv101_version_major: DWORD;
    sv101_version_minor: DWORD;
    sv101_type: DWORD;
    sv101_comment: LPWSTR;

function NetServerGetInfo(servername: LPWSTR; level: DWORD; var bufptr): NET_API_STATUS; stdcall; external 'Netapi32.dll';
function NetApiBufferFree(Buffer: LPVOID): NET_API_STATUS; stdcall; external 'Netapi32.dll';

  pfnRtlGetVersion = function(var RTL_OSVERSIONINFOEXW): LONG; stdcall;
  Buffer: PSERVER_INFO_101;
  RtlGetVersion: pfnRtlGetVersion;
  Buffer := nil;

  // Win32MajorVersion and Win32MinorVersion are populated from GetVersionEx()...
  ShowMessage(Format('GetVersionEx: %d.%d', [Win32MajorVersion, Win32MinorVersion])); // shows 6.2, as expected per GetVersionEx() documentation

  @RtlGetVersion := GetProcAddress(GetModuleHandle('ntdll.dll'), 'RtlGetVersion');
  if Assigned(RtlGetVersion) then
    ZeroMemory(@ver, SizeOf(ver));
    ver.dwOSVersionInfoSize := SizeOf(ver);

    if RtlGetVersion(ver) = 0 then
      ShowMessage(Format('RtlGetVersion: %d.%d', [ver.dwMajorVersion, ver.dwMinorVersion])); // shows 10.0

  if NetServerGetInfo(nil, 101, Buffer) = NO_ERROR then
    ShowMessage(Format('NetServerGetInfo: %d.%d', [Buffer.sv101_version_major, Buffer.sv101_version_minor])); // shows 10.0
share|improve this answer

One note about using NetServerGetInfo(), which does work still on Windows 10 (10240.th1_st1)...



The major version number and the server type.

The major release version number of the operating system is specified in the least significant 4 bits. The server type is specified in the most significant 4 bits. The MAJOR_VERSION_MASK bitmask defined in the Lmserver.h header {0x0F} should be used by an application to obtain the major version number from this member.

In other words, (sv101_version_major & MAJOR_VERSION_MASK).

share|improve this answer

Note: Gabr is asking about an approach that can bypass the limitations of GetVersionEx. JCL code uses GetVersionEx, and is thus subject to compatibility layer. This information is for people who don't need to bypass the compatibility layer, only.

Using the Jedi JCL, you can add unit JclSysInfo, and call function GetWindowsVersion. It returns an enumerated type TWindowsVersion.

Currently JCL contains all shipped windows versions, and gets changed each time Microsoft ships a new version of Windows in a box:

  TWindowsVersion =
   (wvUnknown, wvWin95, wvWin95OSR2, wvWin98, wvWin98SE, wvWinME,
    wvWinNT31, wvWinNT35, wvWinNT351, wvWinNT4, wvWin2000, wvWinXP,
    wvWin2003, wvWinXP64, wvWin2003R2, wvWinVista, wvWinServer2008,
    wvWin7, wvWinServer2008R2);

If you want to know if you're running 64-bit windows 7 instead of 32-bit, then call JclSysInfo.IsWindows64.

Note that JCL allso handles Editions, like Pro, Ultimate, etc. For that call GetWindowsEdition, and it returns one of these:

TWindowsEdition =
   (weUnknown, weWinXPHome, weWinXPPro, weWinXPHomeN, weWinXPProN, weWinXPHomeK,
    weWinXPProK, weWinXPHomeKN, weWinXPProKN, weWinXPStarter, weWinXPMediaCenter,
    weWinXPTablet, weWinVistaStarter, weWinVistaHomeBasic, weWinVistaHomeBasicN,
    weWinVistaHomePremium, weWinVistaBusiness, weWinVistaBusinessN,
    weWinVistaEnterprise, weWinVistaUltimate, weWin7Starter, weWin7HomeBasic,
    weWin7HomePremium, weWin7Professional, weWin7Enterprise, weWin7Ultimate);

For historical interest, you can check the NT-level edition too with the NtProductType function, it returns:

 TNtProductType =       (ptUnknown, ptWorkStation, ptServer, ptAdvancedServer,        
        ptPersonal, ptProfessional, ptDatacenterServer, 
        ptEnterprise, ptWebEdition);

Note that "N editions" are detected above. That's an EU (Europe) version of Windows, created due to EU anti-trust regulations. That's a pretty fine gradation of detection inside the JCL.

Here's a sample function that will help you detect Vista, and do something special when on Vista.

function IsSupported:Boolean;
  case GetWindowsVersion of
     wvVista:  result := false; 
      result := true;

Note that if you want to do "greater than" checking, then you should just use other techniques. Also note that version checking can often be a source of future breakage. I have usually chosen to warn users and continue, so that my binary code doesn't become the actual source of breakage in the future.

Recently I tried to install an app, and the installer checked my drive free space, and would not install, because I had more than 2 gigabytes of free space. The 32 bit integer signed value in the installer became negative, breaking the installer. I had to install it into a VM to get it to work. Adding "smart code" often makes your app "stupider". Be wary.

Incidentally, I found that from the command line, you can run WMIC.exe, and type path Win32_OperatingSystem (The "Select * from Win32_OperatingSystem" didn't work for me). In future perhaps JCL could be extended to use the WMI information.

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