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VCL components are designed to be used solely from the main thread of an application. For visual components this never presents me with any difficulties. However, I would sometimes like to be able to use, for example, non-visual components like TTimer from a background thread. Or indeed just create a hidden window. This is not safe because of the reliance on AllocateHwnd. Now, AllocateHwnd is not threadsafe which I understand is by design.

Is there an easy solution that allows me to use AllocateHwnd from a background thread?

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With pure Windows API; the SetTimer doesn't require HWND; it's also possible to use callback function. See here for instance. –  TLama Jan 11 '12 at 14:54
    
@TLama You are quite right, but TTimer does use WM_TIMER and that's the target here. –  David Heffernan Jan 11 '12 at 14:56
    
I was thinking about something what's in my deleted post (pseudocode). Of course still you have to dispatch the messages to get the WM_TIMER pass through, but it looks for me less evil than AllocateHwnd for a worker thread :) –  TLama Jan 11 '12 at 16:00
    
You can add the (I know, now deprecated) TClientSocket to the list of component being affected by this. MakeObjectInstance isn't thread safe by itself either. –  Ken Bourassa Jan 12 '12 at 19:02
    
@KenBourassa Yes, MakeObjectInstance is actually the fundamental problem. I'd like a threadsafe version of that too but it seems a little harder to achieve. –  David Heffernan Jan 12 '12 at 19:03
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3 Answers

up vote 8 down vote accepted

This problem can be solved like so:

  1. Obtain or implement a threadsafe version of AllocateHwnd and DeallocateHwnd.
  2. Replace the VCL's unsafe versions of these functions.

For item 1 I use Primož Gabrijelcic's code, as described on his blog article on the subject. For item 2 I simply use the very well-known trick of patching the code at runtime and replacing the beginning of the unsafe routines with unconditional JMP instructions that redirect execution to the threadsafe functions.

Putting it all together results in the following unit.

(* Makes AllocateHwnd safe to call from threads. For example this makes TTimer
   safe to use from threads.  Include this unit as early as possible in your
   .dpr file.  It must come after any memory manager, but it must be included
   immediately after that before any included unit has an opportunity to call
   Classes.AllocateHwnd. *)
unit MakeAllocateHwndThreadsafe;

interface

implementation

{$IF CompilerVersion >= 23}{$DEFINE ScopedUnitNames}{$IFEND}
uses
  {$IFDEF ScopedUnitNames}System.SysUtils{$ELSE}SysUtils{$ENDIF},
  {$IFDEF ScopedUnitNames}System.Classes{$ELSE}Classes{$ENDIF},
  {$IFDEF ScopedUnitNames}Winapi.Windows{$ELSE}Windows{$ENDIF},
  {$IFDEF ScopedUnitNames}Winapi.Messages{$ELSE}Messages{$ENDIF};

const //DSiAllocateHwnd window extra data offsets
  GWL_METHODCODE = SizeOf(pointer) * 0;
  GWL_METHODDATA = SizeOf(pointer) * 1;

  //DSiAllocateHwnd hidden window (and window class) name
  CDSiHiddenWindowName = 'DSiUtilWindow';

var
  //DSiAllocateHwnd lock
  GDSiWndHandlerCritSect: TRTLCriticalSection;
  //Count of registered windows in this instance
  GDSiWndHandlerCount: integer;

//Class message dispatcher for the DSiUtilWindow class. Fetches instance's WndProc from
//the window extra data and calls it.
function DSiClassWndProc(Window: HWND; Message, WParam, LParam: longint): longint; stdcall;
var
  instanceWndProc: TMethod;
  msg            : TMessage;
begin
  {$IFDEF CPUX64}
  instanceWndProc.Code := pointer(GetWindowLongPtr(Window, GWL_METHODCODE));
  instanceWndProc.Data := pointer(GetWindowLongPtr(Window, GWL_METHODDATA));
  {$ELSE}
  instanceWndProc.Code := pointer(GetWindowLong(Window, GWL_METHODCODE));
  instanceWndProc.Data := pointer(GetWindowLong(Window, GWL_METHODDATA));
  {$ENDIF ~CPUX64}
  if Assigned(TWndMethod(instanceWndProc)) then
  begin
    msg.msg := Message;
    msg.wParam := WParam;
    msg.lParam := LParam;
    msg.Result := 0;
    TWndMethod(instanceWndProc)(msg);
    Result := msg.Result
  end
  else
    Result := DefWindowProc(Window, Message, WParam,LParam);
end; { DSiClassWndProc }

//Thread-safe AllocateHwnd.
//  @author  gabr [based on http://fidoforum.ru/pages/new46s35o217746.ru.delphi and
//                 TIcsWndHandler.AllocateHWnd from ICS v6 (http://www.overbyte.be)]
//  @since   2007-05-30
function DSiAllocateHWnd(wndProcMethod: TWndMethod): HWND;
var
  alreadyRegistered: boolean;
  tempClass        : TWndClass;
  utilWindowClass  : TWndClass;
begin
  Result := 0;
  FillChar(utilWindowClass, SizeOf(utilWindowClass), 0);
  EnterCriticalSection(GDSiWndHandlerCritSect);
  try
    alreadyRegistered := GetClassInfo(HInstance, CDSiHiddenWindowName, tempClass);
    if (not alreadyRegistered) or (tempClass.lpfnWndProc <> @DSiClassWndProc) then begin
      if alreadyRegistered then
        {$IFDEF ScopedUnitNames}Winapi.{$ENDIF}Windows.UnregisterClass(CDSiHiddenWindowName, HInstance);
      utilWindowClass.lpszClassName := CDSiHiddenWindowName;
      utilWindowClass.hInstance := HInstance;
      utilWindowClass.lpfnWndProc := @DSiClassWndProc;
      utilWindowClass.cbWndExtra := SizeOf(TMethod);
      if {$IFDEF ScopedUnitNames}Winapi.{$ENDIF}Windows.RegisterClass(utilWindowClass) = 0 then
        raise Exception.CreateFmt('Unable to register DSiWin32 hidden window class. %s',
          [SysErrorMessage(GetLastError)]);
    end;
    Result := CreateWindowEx(WS_EX_TOOLWINDOW, CDSiHiddenWindowName, '', WS_POPUP,
      0, 0, 0, 0, 0, 0, HInstance, nil);
    if Result = 0 then
      raise Exception.CreateFmt('Unable to create DSiWin32 hidden window. %s',
              [SysErrorMessage(GetLastError)]);
    {$IFDEF CPUX64}
    SetWindowLongPtr(Result, GWL_METHODDATA, NativeInt(TMethod(wndProcMethod).Data));
    SetWindowLongPtr(Result, GWL_METHODCODE, NativeInt(TMethod(wndProcMethod).Code));
    {$ELSE}
    SetWindowLong(Result, GWL_METHODDATA, cardinal(TMethod(wndProcMethod).Data));
    SetWindowLong(Result, GWL_METHODCODE, cardinal(TMethod(wndProcMethod).Code));
    {$ENDIF ~CPUX64}
    Inc(GDSiWndHandlerCount);
  finally LeaveCriticalSection(GDSiWndHandlerCritSect); end;
end; { DSiAllocateHWnd }

//Thread-safe DeallocateHwnd.
//  @author  gabr [based on http://fidoforum.ru/pages/new46s35o217746.ru.delphi and
//                 TIcsWndHandler.AllocateHWnd from ICS v6 (http://www.overbyte.be)]
//  @since   2007-05-30
procedure DSiDeallocateHWnd(wnd: HWND);
begin
  if wnd = 0 then
    Exit;
  DestroyWindow(wnd);
  EnterCriticalSection(GDSiWndHandlerCritSect);
  try
    Dec(GDSiWndHandlerCount);
    if GDSiWndHandlerCount <= 0 then
      {$IFDEF ScopedUnitNames}Winapi.{$ENDIF}Windows.UnregisterClass(CDSiHiddenWindowName, HInstance);
  finally LeaveCriticalSection(GDSiWndHandlerCritSect); end;
end; { DSiDeallocateHWnd }

procedure PatchCode(Address: Pointer; const NewCode; Size: Integer);
var
  OldProtect: DWORD;
begin
  if VirtualProtect(Address, Size, PAGE_EXECUTE_READWRITE, OldProtect) then begin
    Move(NewCode, Address^, Size);
    FlushInstructionCache(GetCurrentProcess, Address, Size);
    VirtualProtect(Address, Size, OldProtect, @OldProtect);
  end;
end;

type
  PInstruction = ^TInstruction;
  TInstruction = packed record
    Opcode: Byte;
    Offset: Integer;
  end;

procedure RedirectProcedure(OldAddress, NewAddress: Pointer);
var
  NewCode: TInstruction;
begin
  NewCode.Opcode := $E9;//jump relative
  NewCode.Offset := NativeInt(NewAddress)-NativeInt(OldAddress)-SizeOf(NewCode);
  PatchCode(OldAddress, NewCode, SizeOf(NewCode));
end;

initialization
  InitializeCriticalSection(GDSiWndHandlerCritSect);
  RedirectProcedure(@AllocateHWnd, @DSiAllocateHWnd);
  RedirectProcedure(@DeallocateHWnd, @DSiDeallocateHWnd);

finalization
  DeleteCriticalSection(GDSiWndHandlerCritSect);

end.

This unit must be included very early in the .dpr file's list of units. Clearly it cannot appear before any custom memory manager, but it should appear immediately after that. The reason being that the replacement routines must be installed before any calls to AllocateHwnd are made.

Update I have merged in the very latest version of Primož's code which he kindly sent to me.

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If anyone wonders why I asked and answered my own question, this is in response to a request for this code made to me by somebody on Twitter. –  David Heffernan Jan 11 '12 at 13:45
    
I don't really understand the question. If I had to control some GUI TTimer from some non-GUI thread, I would just PostMessage the interval and set the timer in the message-handler, (perhaps using '-1' to mean 'disable'). I could always post the TTimer instance in the other PostMessage parameter if there is more than one. –  Martin James Jan 11 '12 at 14:32
    
@MartinJames: David is not trying to control a GUIThread bound TTimer from a background thread, but to work with a TTimer entirely from a background thread. –  Marjan Venema Jan 11 '12 at 14:36
2  
@David, why on earth would you want a Timer in a background thread? Can you expand on this subject? –  whosrdaddy Jan 11 '12 at 15:49
1  
@Eric Not necessarily. This just avoids the race in MakeObjectInstance. You cannot run a VCL control this way. Non-visual timer is simple enough for this to be enough. –  David Heffernan Sep 29 '13 at 13:35
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Don't use TTimer in a thread, it will never be safe. Have the thread either:

1) use SetTimer() with a manual message loop. You don't need an HWND if you use a callback function, but you do still have to dispatch messages.

2) use CreateWaitableTimer() and then call WaitForSingleObject() in a loop until the timer is signalled.

3) use timeSetEvent(), which is a multi-threaded timer. Just be careful because its callback is called in its own thread so make sure your callback function is thread-safe, and there are restrictions to what you are allowed to call inside that thread. Best to have it set a signal that your real thread waits on an then does its work outside of the timer.

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Of course it will be safe, so long as AllocateHwnd is fixed. –  David Heffernan Jan 12 '12 at 7:17
    
+1, I like the CreateWaitableTimer way. –  TLama Jan 12 '12 at 7:58
    
I must say I find it strange that you appear to deny the viability or possibility of creating windows that have affinity with non-UI threads. Is that really what you mean? –  David Heffernan Jan 12 '12 at 12:24
1  
The Win32 API allows windows to be created in the context of worker threads, even UI windows, as long as the threads run their own message loops. But VCL-based windows are not safe to use outside the context of the main thread because the VCL internally does certain things, and uses certain resources, that are not protected from concurrent access. So the rule of thumb is to NEVER use VCL-based UIs in the context of worker threads, period. –  Remy Lebeau Jan 12 '12 at 17:17
1  
It is very unlikely that AllocateHWnd() will ever be "fixed" to allow use in worker threads. –  Remy Lebeau Jan 12 '12 at 17:20
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Since you have already written code that operates in a dedicated thread, I would assume you don't expect any code to run while this code waits for something. In that case you could just call Sleep either with a specific number of milliseconds, or with a small amount of milliseconds and use this in a loop to check Now or GetTickCount to see if a certain time has elapsed. Using Sleep will also keep CPU-usage down, since the operating system is signaled that you don't require the thread to keep running for that time.

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Once you start running a message loop, the message retrieval function GetMessage blocks when the queue is empty. –  David Heffernan Jan 11 '12 at 16:39
2  
Oh did I forget to mention? I'm suggesting to forget about TTimer and messaging altogether. –  Stijn Sanders Jan 11 '12 at 16:42
    
I'm providing code for somebody that wants to use TTimer. Or for some reason needs to create a window handle with a window proc that is the method of an object. Each to their own. –  David Heffernan Jan 11 '12 at 17:26
    
Threads are used for many, many things. Consider a server where multiple users connect simultaneously. From basic TCP server to DataSnap server, each connection is typically a separate thread that lasts the lifetime of the connection. Based on a request from a user, you want something to happen after an elapsed time. Such as caching data for 5 minutes one request is made in anticipation of another request. If no more requests after 5 minutes, clear the cache. The cache lives in that thread's context. I do not want to involve the main thread in any way. Suggestions without using a timer? –  Jon Robertson Jan 25 '12 at 20:42
    
This is an entire new question in a comment on an answer to another question. Please use the 'ask question' button at the top left of this page. –  Stijn Sanders Jan 25 '12 at 22:28
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