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For a long time I’ve noticed that the Win64 version of my server application leak memory. While the Win32 version works fine with a relatively stable memory footprint, the memory used by the 64 bit version increases regularly – maybe 20Mb/day, without any apparent reason (Needless to say, FastMM4 did not report any memory leak for both of them). The source code is identical between the 32bit and the 64bit version. The application is built around the Indy TIdTCPServer component, it is a highly multithreaded server connected to a database that processes commands sent by other clients made with Delphi XE2.

I spend a lot of time reviewing my own code and trying to understand why the 64 bit version leaked so much memory. I ended up by using MS tools designed to track memory leaks like DebugDiag and XPerf and it seems there is a fundamental flaw in the Delphi 64bit RTL that causes some bytes to be leaked each time a thread has detached from a DLL. This issue is particulary critical for highly multithreaded applications that must run 24/7 without being restarted.

I reproduced the problem with a very basic project that is composed by an host application and a library, both built with XE2. The DLL is statically linked with the host app. The host app creates threads that just call the dummy exported procedure and exit :

Here is the source code of the library :

library FooBarDLL;


{$R *.res}

function FooBarProc(): Boolean; stdcall;
  Result := True; //Do nothing.


The host application uses a timer to create a thread that just call the exported procedure :

  TFooThread = class (TThread)
    procedure Execute; override;
    constructor Create;


function FooBarProc(): Boolean; stdcall; external 'FooBarDll.dll';


{$R *.dfm}

procedure THostAppForm.TimerTimer(Sender: TObject);
  with TFooThread.Create() do

{ TFooThread }

constructor TFooThread.Create;
  inherited Create(True);
  FreeOnTerminate := True;

procedure TFooThread.Execute;
  /// Call the exported procedure.

Here is some screenshots that show the leak using VMMap (look at the red line named "Heap"). The following screenshots were taken within a 30 minutes interval.

The 32 bit binary shows an increase of 16 bytes, which is totally acceptable:

Memory usage for the 32 bit version

The 64 bit binary shows an increase of 12476 bytes (from 820K to 13296K), which is more problematic :

Memory usage for the 64 bit version

The constant increase of heap memory is also confirmed by XPerf :

XPerf usage

Using DebugDiag I was able to see the code path that was allocating the leaked memory :

<my dll>!Sysinit::AllocTlsBuffer+13
<my dll>!Sysinit::InitThreadTLS+2b
<my dll>!Sysinit::::GetTls+22
<my dll>!System::AllocateRaiseFrame+e
<my dll>!System::DelphiExceptionHandler+342
<my dll>!System::::RaiseAtExcept+106
<my dll>!System::::RaiseExcept+1c
<my dll>!System::ExitDll+3e
<my dll>!System::::Halt0+54
<my dll>!System::::StartLib+123
<my dll>!Sysinit::::InitLib+92
<my dll>!Smart::initialization+38
<my application>!System::EndThread+20
<my application>!System::Classes::ThreadProc+9a
<my application>!SystemThreadWrapper+36

Remy Lebeau helped me on the Embarcadero forums to understand what was happening :

The second leak looks more like a definite bug. During thread shutdown, StartLib() is being called, which calls ExitThreadTLS() to free the calling thread's TLS memory block, then calls Halt0() to call ExitDll() to raise an exception that is caught by DelphiExceptionHandler() to call AllocateRaiseFrame(), which indirectly calls GetTls() and thus InitThreadTLS() when it accesses a threadvar variable named ExceptionObjectCount. That re-allocates the TLS memory block of the calling thread that is still in the process of being shut down. So either StartLib() should not be calling Halt0() during DLL_THREAD_DETACH, or DelphiExceptionHandler should not be calling AllocateRaiseFrame() when it detects a _TExitDllException being raised.

It seems clear for me that there is an major flaw in the Win64 way to handle threads shutdown. A such behavior prohibits the development of any multithreaded server application that must run 27/7 under Win64.

So :

  1. What do you think of my conclusions ?
  2. Do any of you have a workaround for this issue ?

The test source code and the binaries can be downloaded here.

Thanks for your contribution !

Edit : QC Report 105559. I'm waiting for your votes :-)

share|improve this question
"Do any of you have a workaround for this issue" I would use the 32bit app until the next <too-strong>stable</too-strong> release of delphi with 64bit compiler comes along... – ComputerSaysNo May 11 '12 at 10:23
If I were you I would cut this down to a sample of bare minimum size, that exhibits the leak, and simply submit it to QC. – David Heffernan May 11 '12 at 14:00
@DorinDuminica: that would be Delphi XE4 then ;) – whosrdaddy May 11 '12 at 14:06
@whosrdaddy same feeling here, I hope we're wrong tho ): – ComputerSaysNo May 11 '12 at 14:19
Funny enough, it seems that a same kind of bug has already been reported in 2009 (I suppose that it was in the Win32 RTL) : embarcadero.newsgroups.archived.at/public.delphi.rtl/200903/… qc.embarcadero.com/wc/qcmain.aspx?d=72439 Nevertheless it seems it has been fixed now since the Win32 version of my test project does not leak memory. – Adrien Reboisson May 12 '12 at 21:29

A very simple work around is to re-use the thread and not create and destroy them. Threads are pretty expensive, you'll probably get a perf boost too... Kudos on the debugging though...

share|improve this answer
Yes, that was my very first idea. In my specific case I could certainly use a thread pool. But that won't prevent third-party code included in my project to schedule new threads that will also leak... – Adrien Reboisson May 13 '12 at 17:14
Thats true, but if you have the source for your third-party stuff you can adapt it to use your thread pool, if you don't there isn't anything you'll be able to do about it anyway... If you absolutely have to run external leaky dlls, you should do it in a separate process that you can re-start every now and then, but that's not always possible. – Eric May 13 '12 at 23:41

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