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I have a question out of curiosity relating to checking for memory leaks.

Being someone who has used valgrind frequently to check for memory leaks in my code for the last year or two, I suddenly came to thinking that it only detects lost/unfreed memory after the life of the program.

So, in light of that, I was thinking that if you have a long-running program which malloc()'s intermittently and doesn't free() until the application exits, then the potential to eat memory (not necessarily through leaks) is huge and isn't observable using these tools because they only check after the programs lifetime. Are there GDB-like tools which can stop an application while running and check for memory which is and isn't referenced at an instance in the life of the application?

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How would you know whether a particular block of memory was still needed while the program was running? – Jerry Coffin Oct 30 '11 at 15:40
Perhaps depending on what line it was malloc'd, or what value it holds? It's a hypothetical question really. – Doddy Oct 30 '11 at 15:42
Valgrind is able to detect and print out certain types of memory leaks to STDOUT during runtime. – Andrew Marshall Oct 30 '11 at 15:43
As a continuation of my previous comment: while the debugger might not be able to tell, I would perhaps know when things should be malloc'd, or where/when they should be freed, etc. I would agree the debugger has no way of knowing what and how things should occur. – Doddy Oct 30 '11 at 15:59
up vote 3 down vote accepted

Are there GDB-like tools which can stop an application while running and check for memory which is and isn't referenced at an instance in the life of the application?

Yes: Valgrind.

Specifically, the SVN version of Valgrind has a gdbserver stub embedded into it.

This allows you to do all kinds of cool debugging, not possible before:

  • You can run program under valgrind and have GDB breakpoints at the same time
  • You can ask valgrind: is this memory allocated? was this variable initialized?
  • You can ask valgrind: what new leaks happened since last time I asked for leaks?

I think you can also ask it to list not-leaked new allocations.

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I'll accept this and look into it. Thanks! – Doddy Oct 31 '11 at 17:38

That is not generally possible in a language that supports pointer arithmetic, since for example - you could cast an pointer to an integer and back. See

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Casting a pointer to uintptr_t does not hide it from Valgrind. – Employed Russian Oct 30 '11 at 16:06

What I have done, which was not a tool, for a long-running socket-based server, was to do an operation, but before that print out the amount of free memory, then print it out after my operation, and see if there was any difference.

I knew that in theory my server should have returned all memory used on each call to the server, so if I was the only one calling it, it shouldn't use much more memory than when it started.

You may find that some memory was needed on the first call, so you may want to make several calls, so everything is initialized, then you can do checks like this.

The other option is to create a list of all memory you are mallocing, then when you free it delete from the list that node, and at the end, see which ones still haven't been freed.

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Leaked memory is defined as memory that is not referenced by anything in the program.

If you malloced memory and somewhere in your data there is a pointer pointing to that memory it isn't "lost" as far as any automatic check can now.

However, if you allocated memory, never free'ed it but you don't have any pointer pointing to it you have most likely leaked that memory - as there is no way for you to reference it.

Programs like valgrind can find leaks of the kind described above (lost of reference). AFAIK nothing can find "logical" leaks where you still hold a reference to the memory.

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One point I was trying to make about memory that hasn't been "lost" is that given a context, i.e. the backtrace, perhaps, I might be able to know if memory should or shouldn't have been free()'d at that point, as opposed to at the end of the programs life. – Doddy Oct 30 '11 at 16:03

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