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How does kernel get an executable binary file running under linux?

It seems a simple question, but anyone can help me dig deep? How the file is loaded to memory and how execution code get started?

Can anyone help me and tell what's happening step by step?

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After reading the ELF docs already referenced, you should just read the kernel code that actually does it.

If you have trouble understanding that code, build a UML Linux, and you could step through that code in the debugger.

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Thanks for you reply. That's really a good emulator. – Daniel Dec 2 '11 at 7:12
Indeed, the kernel code for this is very simple, unlike many other things in the kernel. – R.. Dec 2 '11 at 7:29
@R.. Thanks. That's really a good news ^_^ – Daniel Dec 2 '11 at 8:11
@R. agreed, even I can more or less understand it! Included a summary of the code path: – Ciro Santilli 巴拿馬文件 六四事件 法轮功 Jul 13 '15 at 22:58

Two system calls from the linux kernel are relevant. The fork system call (or perhaps vfork or clone) is used to create a new process, similar to the calling one (every Linux user-land process except init is created by fork or friends). The execve system call replace the process address space by a fresh one (essentially by sort-of mmap-ing segments from the ELF executable and anonymous segments, then initializing the registers, including the stack pointer). The x86-64 ABI supplement and the Linux assembly howto give details.

The dynamic linking happens after execve and involves the /lib/x86_64-linux-gnu/ file, which for ELF is viewed as an "interpreter".

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It seems something to do with elf format and fork subroutine. And it could be also involved with /lib/ to load those dynamic libraries. – Daniel Dec 5 '11 at 2:28
fork is not a subroutine, it is a syscall, and as all system calls, it is an atomic operation from the application point of view. The ELF format is related to the execve system call (not to the fork one). And the dynamic loader is referenced inside the ELF executable so is related to execve and ELF. – Basile Starynkevitch Dec 5 '11 at 5:57

Best moments of the exec system call on Linux 4.0

  • fs/exec.c defines the system call at SYSCALL_DEFINE3(execve

    Simply forwards to do_execve.

  • do_execve

    Forwards to do_execveat_common.

  • do_execveat_common

    To find the next major function, track when return value retval is last modified.

    Starts building a struct linux_binprm *bprm to describe the program, and passes it to exec_binprm to execute.

  • exec_binprm

    Once again, follow the return value to find the next major call.

  • search_binary_handler

    • Handlers are determined by the first magic bytes of the executable.

      The two most common handlers are those for interpreted files (#! magic) and for ELF (\x7fELF magic), but there are other built-into the kernel, e.g. a.out. And users can also register their own though /proc/sys/fs/binfmt_misc

      The ELF handler is defined at fs/binfmt_elf.c.

    • The formats list contains all the handlers.

      Each handler file contains something like:

      static int __init init_elf_binfmt(void)
          return 0;

      and elf_format is a struct linux_binfmt defined in that file.

      __init is magic and puts that code into a magic section that gets called when the kernel starts: What does __init mean in the Linux kernel code?

      Linker-level dependency injection!

    • There is also a recursion counter, in case an interpreter executes itself infinitely.

      Try this:

      echo '#!/tmp/a' > /tmp/a
      chmod +x /tmp/a
    • Once again we follow the return value to see what comes next, and see that it comes from:

      retval = fmt->load_binary(bprm);

      where load_binary is defined for each handler on the struct: C-style polymorsphism.

  • fs/binfmt_elf.c:load_binary

    Does the actual work:

    • parses the ELF file according to the specs
    • sets up the process initial program state based on the parsed ELF (memory into a struct linux_binprm, registers into a struct pt_regs)
    • call start_thread, which is where it can really start to getting scheduled

    TODO: enter into more detail here. In particular, what RIP gets set to and how the dynamic loader is started.

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You can start by understanding executable file formats, such as ELF.

The ELF file contains several sections with headers that describes how and where parts of the binary should be loaded into memory.

Then, I suggest reading up on the part of linux that loads binaries and handles dynamic linking, ld-linux. This is also a good description of ld-linux:

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Thanks TJD. That's a good start. Can anyone give me a basic overview or picture of this question. Well, as a newbee, a full picture helps a lot. What do you think? – Daniel Dec 2 '11 at 6:53
Actually the ld-linux has nothing to do with the kernel, and much more complicated than what the kernel does. Understanding how a statically-linked executable starts running is both easier, and what OP actually asked about. – Employed Russian Dec 2 '11 at 7:48

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