Enumerating a Heap

The following example illustrates the use of the HeapWalk function to enumerate a heap.

First, the example creates a private heap with the HeapCreate function. Then it uses HeapLock to lock the heap so other threads cannot access the heap while it is being enumerated. The example then calls HeapWalk with a pointer to a PROCESS_HEAP_ENTRY structure and iterates through the heap, printing each entry to the console.

After enumeration is finished, the example uses HeapUnlock to unlock the heap so that other threads can access it. Finally, the example calls HeapDestroy to destroy the private heap.


#include <windows.h>
#include <tchar.h>
#include <stdio.h>

int __cdecl _tmain()
{
    DWORD LastError;
    HANDLE hHeap;
    PROCESS_HEAP_ENTRY Entry;

    //
    // Create a new heap with default parameters.
    //
    hHeap = HeapCreate(0, 0, 0);
    if (hHeap == NULL) {
        _tprintf(TEXT("Failed to create a new heap with LastError %d.\n"),
                 GetLastError());
        return 1;
    }

    //
    // Lock the heap to prevent other threads from accessing the heap 
    // during enumeration.
    //
    if (HeapLock(hHeap) == FALSE) {
        _tprintf(TEXT("Failed to lock heap with LastError %d.\n"),
                 GetLastError());
        return 1;
    }

    _tprintf(TEXT("Walking heap %#p...\n\n"), hHeap);

    Entry.lpData = NULL;
    while (HeapWalk(hHeap, &Entry) != FALSE) {
        if ((Entry.wFlags & PROCESS_HEAP_ENTRY_BUSY) != 0) {
            _tprintf(TEXT("Allocated block"));

            if ((Entry.wFlags & PROCESS_HEAP_ENTRY_MOVEABLE) != 0) {
                _tprintf(TEXT(", movable with HANDLE %#p"), Entry.Block.hMem);
            }

            if ((Entry.wFlags & PROCESS_HEAP_ENTRY_DDESHARE) != 0) {
                _tprintf(TEXT(", DDESHARE"));
            }
        }
        else if ((Entry.wFlags & PROCESS_HEAP_REGION) != 0) {
            _tprintf(TEXT("Region\n  %d bytes committed\n") \
                     TEXT("  %d bytes uncommitted\n  First block address: %#p\n") \
                     TEXT("  Last block address: %#p\n"),
                     Entry.Region.dwCommittedSize,
                     Entry.Region.dwUnCommittedSize,
                     Entry.Region.lpFirstBlock,
                     Entry.Region.lpLastBlock);
        }
        else if ((Entry.wFlags & PROCESS_HEAP_UNCOMMITTED_RANGE) != 0) {
            _tprintf(TEXT("Uncommitted range\n"));
        }
        else {
            _tprintf(TEXT("Block\n"));
        }

        _tprintf(TEXT("  Data portion begins at: %#p\n  Size: %d bytes\n") \
                 TEXT("  Overhead: %d bytes\n  Region index: %d\n\n"),
                 Entry.lpData,
                 Entry.cbData,
                 Entry.cbOverhead,
                 Entry.iRegionIndex);
    }
    LastError = GetLastError();
    if (LastError != ERROR_NO_MORE_ITEMS) {
        _tprintf(TEXT("HeapWalk failed with LastError %d.\n"), LastError);
    }

    //
    // Unlock the heap to allow other threads to access the heap after 
    // enumeration has completed.
    //
    if (HeapUnlock(hHeap) == FALSE) {
        _tprintf(TEXT("Failed to unlock heap with LastError %d.\n"),
                 GetLastError());
    }

    //
    // When a process terminates, allocated memory is reclaimed by the operating
    // system so it is not really necessary to call HeapDestroy in this example.
    // However, it may be advisable to call HeapDestroy in a longer running
    // application.
    //
    if (HeapDestroy(hHeap) == FALSE) {
        _tprintf(TEXT("Failed to destroy heap with LastError %d.\n"),
                 GetLastError());
    }

    return 0;
}


The following output shows typical results for a newly created heap.

Walking heap 0X00530000...

Region
  4096 bytes committed
  258048 bytes uncommitted
  First block address: 0X00530598
  Last block address: 0X00570000
  Data portion begins at: 0X00530000
  Size: 1416 bytes
  Overhead: 0 bytes
  Region index: 0

Block
  Data portion begins at: 0X005307D8
  Size: 2056 bytes
  Overhead: 16 bytes
  Region index: 0

Uncommitted range
  Data portion begins at: 0X00531000
  Size: 258048 bytes
  Overhead: 0 bytes
  Region index: 0

 

 

Show: