I'm looking for a way to load generated object code directly from memory.

I understand that if I write it to a file, I can call dlopen to dynamically load its symbols and link them. However, this seems a bit of a roundabout way, considering that it starts off in memory, is written to disk, and then is reloaded in memory by dlopen. I'm wondering if there is some way to dynamically link object code that exists in memory. From what I can tell there might be a few different ways to do this:

  1. Trick dlopen into thinking that your memory location is a file, even though it never leaves memory.

  2. Find some other system call which does what I'm looking for (I don't think this exists).

  3. Find some dynamic linking library which can link code directly in memory. Obviously, this one is a bit hard to google for, as "dynamic linking library" turns up information on how to dynamically link libraries, not on libraries which perform the task of dynamically linking.

  4. Abstract some API from a linker and create a new library out its codebase. (obviously this is the least desirable option for me).

So which ones of these are possible? feasible? Could you point me to any of the things I hypothesized existed? Is there another way I haven't even thought of?

5 Answers 5


I needed a solution to this because I have a scriptable system that has no filesystem (using blobs from a database) and needs to load binary plugins to support some scripts. This is the solution I came up with which works on FreeBSD but may not be portable.

void *dlblob(const void *blob, size_t len) {
    /* Create shared-memory file descriptor */
    int fd = shm_open(SHM_ANON, O_RDWR, 0);
    ftruncate(fd, len);
    /* MemMap file descriptor, and load data */
    void *mem = mmap(NULL, len, PROT_WRITE, MAP_SHARED, fd, 0);
    memcpy(mem, blob, len);
    munmap(mem, len);
    /* Open Dynamic Library from SHM file descriptor */
    void *so = fdlopen(fd,RTLD_LAZY);
    return so;

Obviously the code lacks any kind of error checking etc, but this is the core functionality.

ETA: My initial assumption that fdlopen is POSIX was wrong, this appears to be a FreeBSD-ism.

  • People seem to get away with plain dlopen here.
    – yugr
    Feb 25, 2017 at 9:54
  • 1
    @yugr your suggestion is exactly the trivial case that the questioner already dismissed.
    – Parakleta
    Feb 26, 2017 at 12:04
  • Not quite, with /run/shm the file is never written to disk.
    – yugr
    Feb 27, 2017 at 8:34
  • 1
    @yugr /run/shm is not POSIX, it's a Linux-ism, and without it the function falls back to just writing out to /tmp. Regardless of whether the file makes it to disk (/tmp could be a ramdisk on some systems) you still have to interact with the filesystem, have permissions to create it, control whether other people can access it, ensure that you unlink it properly when you're done (or crash). Why don't you post an answer with your proposal and let people comment and vote on it?
    – Parakleta
    Feb 27, 2017 at 21:54
  • Well, I don't think this minor addition really deserves a separate answer. Agree for Linux-ism but OP didn't explicitly mention that he needs a POSIX-compliant solution. As for filesystem - again, good point but I think the OP cared more about actual disk access ("written to disk, and then is reloaded in memory by dlopen").
    – yugr
    Feb 27, 2017 at 22:03

I don't see why you'd be considering dlopen, since that will require a lot more nonportable code to generate the right object format on disk (e.g. ELF) for loading. If you already know how to generate machine code for your architecture, just mmap memory with PROT_READ|PROT_WRITE|PROT_EXEC and put your code there, then assign the address to a function pointer and call it. Very simple.

  • 3
    This doesn't seem like a very nice way to do it if there's going to be more than a few people developing. Also, won't your injected code need to resolve its own function pointers, and be PIC, etc? It just seems like compiling a .so and then being able to dlopen it would be a lot nicer.
    – mrduclaw
    Feb 19, 2011 at 22:49
  • I guess it depends on what kind of code you're generating. I was thinking JIT code for a virtual machine/dynrec for an emulator, where there would not be arbitrary calls and access to data within the calling program. Feb 19, 2011 at 23:25
  • 1
    This is indeed a nice way to handle relatively simple self-contained code (also: at then end of the day, how often do you really want dynamically generated code to be able to make arbitrary calls?) Feb 20, 2011 at 0:43
  • R.. I certainly considered this, but this would also require a linker, because the output of the compiler I'm working with is object code, not machine code. This is why I have suggestions 3 and 4 up there: If I did this I would need to find some sort of cross-platform library for dynamically linking in memory. But if that doesn't exist, then this isn't a solution at all. Feb 20, 2011 at 2:01
  • @Stephen Canon, actually this is a pretty regular requirement in some lines of business and happens on Windows pretty frequently. It is, however, the type of thing you write once and just keep reusing.
    – mrduclaw
    Feb 23, 2011 at 16:59

There is no standard way to do it other than writing out the file and then loading it again with dlopen().

You may find some alternative method on your current specific platform. It will up to you to decide whether that is better than using the 'standard and (relatively) portable' approach.

Since generating the object code in the first place is rather platform specific, additional platform-specific techniques may not matter to you. But it is a judgement call - and in any case depends on there being a non-standard technique, which is relatively improbable.

  • 1
    Does a pipe count as filedesktriptor, too? So cannot you like... pipe it into dlopen() ?
    – imacake
    Mar 31, 2012 at 15:41
  • 1
    @imacake - it's a file descriptor, but not one you can seek or mmap.
    – Flexo
    Dec 15, 2012 at 10:01
  • "There is no standard way to do it other than writing out the file and then loading it again" should be corrected to something like "You can write out the file and load it", see R.. answer.
    – Simon
    Apr 14, 2014 at 9:56
  • 2
    @Simon: If the code to be loaded doesn't need to call any other functions (is completely self-contained), you can use mmap() directly and it will probably work. If the code to be loaded makes calls to other functions, you have to resolve the addresses of those symbols by some method or other. This is normally done by dlopen() for you. If you short-circuit dlopen(), then the onus is on you as the code creator to ensure that you've taken ASLR into account, for example, and have the correct function addresses at the correct locations in the code. Apr 14, 2014 at 13:31
  • 2
    A small "gotcha" to be aware of: on Linux, I have found that if I want one program to write out a .so, dlopen it, dlsym from it, and then write out another .so, dlopen it, and dlsym from it, then the two .so filenames must differ.
    – Mike Spear
    Apr 20, 2019 at 0:56

We implemented a way to do this at Google. Unfortunately upstream glibc has failed to comprehend the need so it was never accepted. The feature request with patches has stalled. It's known as dlopen_from_offset.

The dlopen_with_offset glibc code is available in the glibc google/grte* branches. But nobody should enjoy modifying their own glibc.


You don't need to load the code generated in memory, since it is already in memory!

However, you can -in a non portable way- generate machine code in memory (provided it is in a memory segment mmap-ed with PROT_EXEC flag).

(in that case, no "linking" or relocation step is required, since you generate machine code with definitive absolute or relative addresses, in particular to call external functions)

Some libraries exist which do that: On GNU/Linux under x86 or x86-64, I know of GNU Lightning (which generates quickly machine code which runs slowly), DotGNU LibJIT (which generates medium quality code), and LLVM & GCCJIT (which is able to generate quite optimized code in memory, but takes time to emit it). And LuaJit has some similar facility too. Since 2015 GCC 5 has a gccjit library.

And of course, you can still generate C code in a file, fork a compiler to compile it into a shared object, and dlopen that shared object file. I'm doing that in GCC MELT , a domain specific language to extend GCC. It does work quite well in practice.


If performance of writing the generated C file is a concern (it should not be, since compiling a C file is much slower than writing it) consider using some tmpfs file system for that (perhaps in /tmp/ which is often a tmpfs filesystem on Linux)

  • This answer does not deserve any vote. It totally mis-interprets the idea of the asker.
    – Krypton
    Sep 3, 2014 at 8:26

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