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I'm trying to port RR0D Rasta Ring0 Debugger from 32-bit Linux to 64-bit Linux. I have converted 32-bit gcc inline assembly to 64-bit using vim regex as mentioned in my question: How to convert Linux 32-bit gcc inline assembly to 64-bit code?

I'm using gcc with -m64 flag. The target environment is Linux x86-64, custom kernel version 3.5.5.

The Makefile is the following:

EXTRA_CFLAGS +=  -O2 -Wall -DLINUX_26 -m64

OBJ          := module_nux.o breakpoint.o buffering.o command.o disasmbak.o idt.o 
OBJ          += keyboard.o page.o video.o utils.o import_symb.o core_rr0d.o pci.o
MODULE       := rr0d.o 

obj-m        := $(MODULE)
rr0d-objs    := $(OBJ)

default:
    make -C /lib/modules/`uname -r`/build/ SUBDIRS=`pwd` modules

clean:
    rm -f  *.o .*.o.cmd .*.ko.cmd *.mod.c  *~ 
    rm -rf .tmp_versions

mrproper:
    make clean
    rm -f *.ko

make gives a lot of warnings like warning: cast to pointer from integer of different size [-Wint-to-pointer-cast] and warning: cast from pointer to integer of different size [-Wpointer-to-int-cast], but these are probably irrelevant to the topic.

The last rows of the output of make are probably the important ones:

/home/user/code/rr0d/0.3/core_rr0d.c: In function ‘cleanup_rr0d’:
/home/user/code/rr0d/0.3/core_rr0d.c:1938:36: warning: cast from pointer to integer of different size [-Wpointer-to-int-cast]
  CC [M]  /home/user/code/rr0d/0.3/pci.o
  LD [M]  /home/user/code/rr0d/0.3/rr0d.o
  Building modules, stage 2.
  MODPOST 1 modules
WARNING: "RING_HOOO_SEGMENT" [/home/user/code/rr0d/0.3/rr0d.ko] undefined!
  CC      /home/user/code/rr0d/0.3/rr0d.mod.o
  LD [M]  /home/user/code/rr0d/0.3/rr0d.ko
make[1]: Leaving directory `/home/user/code/kernel/linux-3.5.5'

So, RING_HOOO_SEGMENT is undefined.

When I try to insmod the module with insmod ./rr0d.ko as root, I get:

Error: could not insert module ./rr0d.ko: Unknown symbol in module

Checking with dmesg | tail -n 1 gives the following output:

[15975.412346] rr0d: Unknown symbol RING_HOOO_SEGMENT (err 0)

So, the unknown symbol definitively is RING_HOOO_SEGMENT.

RING_HOOO_SEGMENT is a constant created with #define in vars.h, that is included in several .c files with #include "vars.h".

The essential #ifdef block of vars.h with #define RING_HOOO_SEGMENT is this one:

#ifdef LINUX_26

#define fake_naked

#if defined(__GNUC__)
// the line below is the important one.
#define RING_HOOO_SEGMENT "$0x7b"
//#define       RING_HOOO_SEGMENT "$0x60"
#elif defined(_MSC_VER)
#define RING_HOOO_SEGMENT 0x7b
#endif

#else /* LINUX_24 */

#define fake_naked _asm_("\t" \
                     "add $0x08, %esp\n\t" \
                     "popl %ebp\n" \
);

#if defined(__GNUC__)
#define RING_HOOO_SEGMENT "$0x18"
#elif defined(_MSC_VER)
#define RING_HOOO_SEGMENT 0x18
#endif

#define RING_HOOO_SEGMENT_VALUE 0x18

#endif /* LINUX_26 */

Obviously if #define RING_HOOO_SEGMENT "$0x7b" (in #if defined(__GNUC__) inside #ifdef LINUX_26) is commented out, the code won't compile, so it's clear that RING_HOOO_SEGMENT gets defined.

Grepping for RING_HOOO_SEGMENT gives the following matches:

$ grep 'RING_HOOO_SEGMENT' *.c *.o *.ko

core_rr0d.c:    "movq RING_HOOO_SEGMENT, %rax\n\t"\
core_rr0d.c:  __asm{    movq RING_HOOO_SEGMENT, %rax}\
Binary file rr0d.ko matches

Both core_rr0d.c rows are inline assembly. core_rr0d.c contains #include "vars.h" so that should be fine.

Also the binary module rr0d.ko matches, so it contains the string RING_HOOO_SEGMENT (in some form), even if insmod ./rr0d.ko fails with Error: could not insert module ./rr0d.ko: Unknown symbol in module.

Any ideas what might the reason for this problem and how to proceed to be able to insmod the module?

share|improve this question
up vote 2 down vote accepted
core_rr0d.c:    "movq RING_HOOO_SEGMENT, %rax\n\t"\

Here RING_HOOO_SEGMENT is in a string (probably part of an inline assembler block). As such, the preprocessor will not substitute RING_HOOO_SEGMENT, and it gets passed as-is to the assembler, where the definition of RING_HOOO_SEGMENT is not available.

Fortunately, RING_HOOO_SEGMENT is itself defined as the string "$0x7b", so we can use compile-time string concatenation:

"movq " RING_HOOO_SEGMENT ", %rax\n\t"\

The preprocessor will substitute RING_HOOO_SEGMENT for "$0x7b", then GCC will concatenate these strings before passing it down to the assembler.

share|improve this answer
    
Actually, both inline assembly rows are inside #define blocks. "movq RING_HOOO_SEGMENT, %rax\n\t"\ is in a block defined this way: #define HOOK_INT_HEADER_ASM(old_hooker)\ _asm_("\t"\ "pushq %rax\n\t"\ ... The other row is the same, for Microsoft C. However, as the row is inside a #define block and I don't know a method how to substitute RING_HOOO_SEGMENT inside a #define block, I decided to hardcode (and comment) it, for now. The module now loads but crashes Linux with BUG: Unable to handle [xxxx.yyyyyy] kernel paging request at 00000000ffffd000. But that's a different issue. – nrz Oct 7 '12 at 11:00
    
@nrz, You can still do what I said, even in a define block. It will get substituted multiple times until there are no macros left in the body. – bdonlan Oct 7 '12 at 19:28
    
You're right. I probably had some typo that caused the compilation to fail with "movq " RING_HOOO_SEGMENT ", %rax\n\t"\ but I got it fixed and now it compiles. – nrz Oct 8 '12 at 19:49

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