I have a 3.5Gb dump file from a process which I suspect that has memory leak. I used Windbg to analyze the dump file and the specific command I used was !heap -l (for leak detection). The result showed that 807258 potential unreachable blocks were detected. However, I don't know how to use the analysis result. The report has the following format:

Entry | User | Heap | Segment | Size | PrevSize | Unused | Flags

00000000002e4190 | 00000000002e41a0 | 0000000000260000 | 0000000000260000 | 210 | 60 | 10 | busy

......(the rest of the 807258 rows)

My understanding is that heap column tells you which heap the leak is coming from but what does Entry and User stand for? I couldn't find any explanation in the online document of Microsoft. Can someone help me understand what does each of these columns mean?


Entry is the address of the HEAP_ENTRY for that heap allocation. It's undocumented, but looks something like this.

You can see how it looks on your system using dt nt!_HEAP_ENTRY or even look at that specific heap entry using dt nt!_HEAP_ENTRY 00000000002e4190.

Here's the layout of nt!_HEAP_ENTRY on my system:

0:007> dt nt!_HEAP_ENTRY
   +0x000 UnpackedEntry    : _HEAP_UNPACKED_ENTRY
   +0x000 PreviousBlockPrivateData : Ptr64 Void
   +0x008 Size             : Uint2B
   +0x00a Flags            : UChar
   +0x00b SmallTagIndex    : UChar
   +0x008 SubSegmentCode   : Uint4B
   +0x00c PreviousSize     : Uint2B
   +0x00e SegmentOffset    : UChar
   +0x00e LFHFlags         : UChar
   +0x00f UnusedBytes      : UChar
   +0x008 CompactHeader    : Uint8B
   +0x000 ExtendedEntry    : _HEAP_EXTENDED_ENTRY
   +0x000 Reserved         : Ptr64 Void
   +0x008 FunctionIndex    : Uint2B
   +0x00a ContextValue     : Uint2B
   +0x008 InterceptorValue : Uint4B
   +0x00c UnusedBytesLength : Uint2B
   +0x00e EntryOffset      : UChar
   +0x00f ExtendedBlockSignature : UChar
   +0x000 ReservedForAlignment : Ptr64 Void
   +0x008 Code1            : Uint4B
   +0x00c Code2            : Uint2B
   +0x00e Code3            : UChar
   +0x00f Code4            : UChar
   +0x00c Code234          : Uint4B
   +0x008 AgregateCode     : Uint8B

User is simply the start of the allocation as returned by RtlAllocateHeap() or HeapAlloc().

It's usually equal to the Entry address plus sizeof(_HEAP_ENTRY).

  • Thanks for your answer. Also, what dose size mean here? Is that the size of actual allocation returned by RtlAllocateHeap() or HeapAlloc()? – Optimus Prime May 21 '18 at 21:07
  • 1
    @OptimusPrime The Size field is taken directly out of nt!_HEAP_ENTRY. It's not necessarily the size that was requested, but the size of the allocation the heap manager decided to return, including the space taken by the nt!_HEAP_ENTRY itself. This allows some wiggle room for the heap to find a free entry that is close in size, but not necessarily exact. – Sean Cline May 22 '18 at 11:34
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    (continued) It also allows for some optimisations like keeping all entries of a particular size bucketed together, as is the case for a low-fragmentation heap. (Note: The tricky bit of extracting the Size field from nt!_HEAP_ENTRY is that it's encoded. See this answer. – Sean Cline May 22 '18 at 11:35
  • When I use !heap -l to find leak, one of the heap entry returned is 00000000002e73d0 on heap 0000000000270000. But when I use !heap -a 0000000000270000 to find all heap entries on this heap, this entry is not listed. Do you know why the leaked entry is not shown there? – Optimus Prime May 22 '18 at 15:13
  • 1
    @OptimusPrime Just a guess, but if !heap -l shows LFH (it's a low-fragmentation heap entry) in the flags column, then !heap -a won't print anything about that entry. – Sean Cline May 22 '18 at 16:37

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