While I can write reasonable C code, my expertise is mainly with Java and so I apologize if this question makes no sense.

I am writing some code to help me do heap analysis. I'm doing this via instrumentation with LLVM. What I'm looking for is a way to access the heap metadata for a process from within itself. Is such a thing possible? I know that information about the heap is stored in many malloc_state structs (main_arena for example). If I can gain access to main_arena, I can start enumerating the different arenas, heaps, bins, etc. As I understand, these variables are all defined statically and so they can't be accessed.

But is there some way of getting this information? For example, could I use /proc/$pid/mem to leak the information somehow?

Once I have this information, I want want to basically get information about all the different freelists. So I want, for every bin in each bin type, the number of chunks in the bin and their sizes. For fast, small, and tcache bins I know that I just need the index to figure out the size. I have looked at how these structures are implemented and how to iterate through them. So all I need is to gain access to these internal structures.

I have looked at malloc_info and that is my fallback, but I would also like to get information about tcache and I don't think that is included in malloc_info.

An option I have considered is to build a custom version of glibc has the malloc_struct variables declared non-statically. But from what I can see, it's not very straightforward to build your own custom glibc as you have to build the entire toolchain. I'm using clang so I would have to build LLVM from source against my custom glibc (at least this is what I've understood from researching this approach).

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    You should pull the source for glibc. Under the malloc subdir, you can examine all the source. In particular, look in hooks.c, there is a public [non-static] function: void *__malloc_get_state(void) that serializes a lot of info from various substructs into a struct malloc_save_state pointer [that is alloc'ed internally--and thus, must be freed]. Since there is a restoral: __malloc_set_state, I presume the given struct has everything one might care about (e.g. main arena, fastbins, binmap, bins, ...). glibc also has the various hook functions. – Craig Estey May 14 '20 at 23:29
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    I believe that you can get what you want [and/or need], with the above and the other hooks. I've used the hooks before, and I think they're much more useful than trying to use /proc/self/mem [which just maps raw memory--not too useful]. If you need to find something that is not exported, you might have better luck parsing readelf libc.so output or using the ELF [or bfd] library to find symbols and combine/relocate with address of a public symbol (e.g. malloc) to find the correct address. If you need base address of a .so load, you might parse /proc/self/maps – Craig Estey May 14 '20 at 23:38
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    @CraigEstey unfortunately malloc_{get,set}_state were removed quite some time ago in glibc 2.25. See here. – Marco Bonelli May 14 '20 at 23:48
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    @MarcoBonelli Of, course ... They were useful. I'm at fedora fc29 at home, glibc 2.28, but I was looking at an older (fc22 glibc source). Just pulled for fc29 and, yes, it's gone. It would have been useful for debug, but looks like it was to implement some sort of hack for emacs [per comments]. Still, the ELF has main_arena as a local symbol, so it might be possible to get the address of it via maps/bfd and scrape the necessary struct definitions from the glibc source to cobble something together. – Craig Estey May 15 '20 at 0:11

I had a similar requirement recently, so I do think that being able to get to main_arena for a given process does have its value, one example being post-mortem memory usage analysis.

Using dl_iterate_phdr and elf.h, it's relatively straightforward to resolve main_arena based on the local symbol:

#define _GNU_SOURCE
#include <fcntl.h>
#include <link.h>
#include <signal.h>
#include <stdio.h>
#include <string.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include <sys/types.h>

// Ignored:
// - Non-x86_64 architectures
// - Resource and error handling
// - Style
static int cb(struct dl_phdr_info *info, size_t size, void *data)
  if (strcmp(info->dlpi_name, "/lib64/libc.so.6") == 0) {
    int fd = open(info->dlpi_name, O_RDONLY);
    struct stat stat;
    fstat(fd, &stat);
    char *base = mmap(NULL, stat.st_size, PROT_READ, MAP_PRIVATE, fd, 0);
    Elf64_Ehdr *header = (Elf64_Ehdr *)base;
    Elf64_Shdr *secs = (Elf64_Shdr*)(base+header->e_shoff);
    for (unsigned secinx = 0; secinx < header->e_shnum; secinx++) {
      if (secs[secinx].sh_type == SHT_SYMTAB) {
        Elf64_Sym *symtab = (Elf64_Sym *)(base+secs[secinx].sh_offset);
        char *symnames = (char *)(base + secs[secs[secinx].sh_link].sh_offset);
        unsigned symcount = secs[secinx].sh_size/secs[secinx].sh_entsize;
        for (unsigned syminx = 0; syminx < symcount; syminx++) {
          if (strcmp(symnames+symtab[syminx].st_name, "main_arena") == 0) {
            void *mainarena = ((char *)info->dlpi_addr)+symtab[syminx].st_value;
            printf("main_arena found: %p\n", mainarena);
            return 0;
  return 0;

int main()
  dl_iterate_phdr(cb, NULL);
  return 0;

dl_iterate_phdr is used to get the base address of the mapped glibc. The mapping does not contain the symbol table needed (.symtab), so the library has to be mapped again. The final address is determined by the base address plus the symbol value.

(gdb) run
Starting program: a.out 
[Thread debugging using libthread_db enabled]
Using host libthread_db library "/lib64/libthread_db.so.1".
[New Thread 0x7ffff77f0700 (LWP 24834)]
main_arena found: 0x7ffff7baec60

Thread 1 "a.out" received signal SIGTRAP, Trace/breakpoint trap.
raise (sig=5) at ../sysdeps/unix/sysv/linux/raise.c:50
50    return ret;
(gdb) select 1
(gdb) print mainarena
$1 = (void *) 0x7ffff7baec60 <main_arena>
(gdb) print &main_arena
$3 = (struct malloc_state *) 0x7ffff7baec60 <main_arena>

The value matches that of main_arena, so the correct address was found.

There are other ways to get to main_arena without relying on the library itself. Walking the existing heap allows for discovering main_arena, for example, but that strategy is considerably less straightforward.

Of course, once you have main_arena, you need all internal type definitions to be able to inspect the data.

  • This is very useful -- I will try this out. Thanks! – Vivin Paliath May 15 '20 at 20:45
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    @VivinPaliath Glad it helps! If the code works for you and answers your question, please consider accepting the answer as the best answer. – horstr May 15 '20 at 21:35
  • Let me try it out this weekend and I will absolutely accept it if it works. – Vivin Paliath May 15 '20 at 22:13

I am writing some code to help me do heap analysis.

What kind of heap analysis?

I want want to basically get information about all the different freelists. So I want, for every bin in each bin type, the number of chunks in the bin and their sizes. For fast, small, and tcache bins I know that I just need the index to figure out the size.

This information only makes sense if you are planning to change the malloc implementation. It does not make sense to attempt to collect it if your goal is to analyze or improve heap usage by the application, so it sounds like you have an XY problem.

In addition, things like bin and tcache only make sense in a context of particular malloc implementation (TCMalloc and jemalloc would not have any bins).

For analysis of application heap usage, you may want to use TCmalloc, as it provides a lot of tools for heap profiling and introspection.

  • I'm not really trying to improve heap usage by the application. I'm just collecting statistics about what the freelists look like after every free. I'm also targeting a specific malloc implementation -- so the one in glibc that does use bins and tcache. If that makes sense? Thank you for pointing me to TCMalloc. I will check that out. – Vivin Paliath May 15 '20 at 20:43

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