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I have a binary Linux kernel module for some peripheral device. It works fine but it uses profiling, which support I removed from the Kernel for performance reasons. I cannot recompile the module because its 3rd party proprietary software and I do not have access to the source code. I only possess the object files (*.o) needed to link the driver to my Linux Kernel version.

Is it possible to process .ko file and remove the jumps to __gnu_mcount_nc function? I was thinking to change the opcode from bl <__gnu_mcount_nc> to mov r8,r8, but its hard to achieve due to fact that every branch to external function has ebfffffe opcode. This lead me to relocations topic which I want to avoid. I'm looking for some trivial solution.

Disassembly of section .text:

00000000 <some_func1>:
       0:       e92d4000        push    {lr}
       4:       ebfffffe        bl      18e0 <__gnu_mcount_nc>
       8:       e3a00001        mov     r0, #1
       c:       e12fff1e        bx      lr

00000010 <some_func2>:
      10:       e92d4000        push    {lr}
      14:       ebfffffe        bl      18e0 <__gnu_mcount_nc>
      18:       e3a00001        mov     r0, #1
      1c:       e12fff1e        bx      lr

00000020 <some_func3>:
      20:       e92d4038        push    {r3, r4, r5, lr}
      24:       e92d4000        push    {lr}
      28:       ebfffffe        bl      18e0 <__gnu_mcount_nc>
      2c:       e1a04001        mov     r4, r1
      30:       e59f3038        ldr     r3, [pc, #56]   ; 70 <some_func3+0x50>
      34:       e5905034        ldr     r5, [r0, #52]   ; 0x34

Target board is based on armv7-a architecture and Cortex-A9 core.


Question 1: __mcount_loc contains relative pointers to <__gnu_mcount_nc>. How Kernel know during fixuping the addresses what section the pointer is relative to?

Question 2: It seems that "hacked" kernel module does not work. Issuing insmod .ko trigger error message:

insmod: can't insert 'some_driver.ko': unknown symbol in module or invalid parameter

Do I have to remove the symbol __gnu_mcount_nc from some section? Even if its not used by now?

Looking for some ideas, thanks.

share|improve this question
Rather than trying to modify the code, you'll want to look at the relocation table, as it contains the actual kernel symbols used by the module. – Drew McGowen Aug 1 '13 at 13:16
Sorry but i don't get it. I know what symbols are used in module and I want to keep them all except profiling one: __gnu_mcount_nc – Piotr Nowak Aug 1 '13 at 13:20
If you do objdump -r <name_of_object_file> on the command line, you'll see a list of all the relocations. Basically, when the module is loaded, the kernel will scan through the relocation list and replace all of those ebfffffe instructions with jumps to actual functions. The idea is you can look through the relocations yourself to find anything that refers to __gnu_mcount_nc and remove those relocation entries (you'll also need to modify the instruction it refers to to be a nop or equivalent). – Drew McGowen Aug 1 '13 at 13:23

You should recompile your kernel with FTRACE support and enable CONFIG_DYNAMIC_FTRACE.

You don't need to worry about it affecting performance - unless tracing is actually enabled, all calls to __gnu_mcount_nc will be NOPped out by the kernel loader. This is what the __mcount_loc section (in the final .ko) for - it has a list of all locations of the bl __gnu_mcount_nc calls in the binary.

share|improve this answer
I said "performance reason", but I had also size of the Kernel itself on my mind - its roughly 170kB smaller without FTRACE support. I have very limited Flash memory and I'd love to keep FTRACE disabled. So I stayed with concept to change all BL <__gnu_mcount_nc> to "mov r8, r8". I took all relative pointers to __gnu_mcount_nc from __mcount_loc and swaped the instructions. This succeeded - at least from what I see after disassemble the Kernel module. – Piotr Nowak Aug 2 '13 at 15:26

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