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I am wondering if it is possible to use WinDbg to kwown the callstack that lead to the allocation of a handle.

For example:

#include <windows.h>
#include <conio.h>
#include <iostream>

using namespace std;

int _tmain(int argc, _TCHAR* argv[])
{
    cout << "Press ENTER to leak handles." << endl;

    _getch();

    cout << "Leaking handles" << endl;

    for (int i = 0; i < 100; ++i)
    {
    	HANDLE h = CreateEvent(NULL, FALSE, FALSE, NULL);
    	if (h != NULL)
    	{
    		cout << ".";
    	}
    }

    cout << "Handles leaked. Press ENTER to exit." << endl;

    _getch();

    return 0;
}

After building this sample and firing it up in WinDbg is it possible to get the callstack that allocated the handles, in the sample above the line:

HANDLE h = CreateEvent(NULL, FALSE, FALSE, NULL);

I am poking around with the !handle command but no progress so far.

This is pertinent to handle leak analysis. I am aware of !htrace -enable and !htrace -diff but this is a different usage scenario (unless there is some way to combine or other usage vector for it, please provide information).

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1 Answer 1

up vote 4 down vote accepted

Found what seems to be a solution:

  1. Enable traces by using !htrace -enable
  2. Run the program and wait for handle leaks
  3. Check the handles of the program and peak one for analysis with !htrace <handle>
0:001> !htrace -enable
Handle tracing enabled.
Handle tracing information snapshot successfully taken.
0:001> g
0:001> !handle
...

Handle 7d8
  Type          Event
...
111 Handles
Type            Count
Event           103
File            3
Port            1
Directory       2
WindowStation   1
KeyedEvent      1
0:001> !htrace 7d8
--------------------------------------
Handle = 0x000007d8 - OPEN
Thread ID = 0x00000fc4, Process ID = 0x000017a8

0x0040106d: TestMemHandleLeak!wmain+0x0000006d
0x0040151b: TestMemHandleLeak!__tmainCRTStartup+0x0000010f
0x7c817077: kernel32!BaseProcessStart+0x00000023

--------------------------------------
Parsed 0x64 stack traces.
Dumped 0x1 stack traces.

And to get the line of code at that address I did:

0:001> ln TestMemHandleLeak!wmain+0x0000006d
f:\temp\windowsapplication3\testmemhandleleak\testmemhandleleak.cpp(22)
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