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So I am trying to find out what kernel processes are calling some functions in a block driver. I thought including backtrace() in the C library would make it easy. But I am having trouble to load the backtrace.

I copied this example function to show the backtrace:

All attempts to compile have error in one place or another that a file cannot be found or that the functions are not defined.

Here is what comes closest.

In the Makefile I put the compiler directives:

 -rdynamic -I/usr/include 

If I leave out the second one, -I/usr/include, then the compiler reports it cannot find the required header execinfo.h.

Next, in the code where I want to do the backtrace I have copied the function from the example:

//trying to include the c backtrace capability
#include <execinfo.h>

void show_stackframe() {
void *trace[16];
char **messages = (char **)NULL;
int i, trace_size = 0;

trace_size = backtrace(trace, 16);
messages = backtrace_symbols(trace, trace_size);
printk(KERN_ERR "[bt] Execution path:\n");
for (i=0; i<trace_size; ++i)
    printk(KERN_ERR "[bt] %s\n", messages[i]);
//backtrace function

I have put the call to this function later on, in a block driver function where the first sign of the error happens. Simply:


So when I compile it, the following errors:

user@slinux:~/2.6-32$ make -s
Invoking make againt the kernel at /lib/modules/2.6.32-5-686/build
In file included from /usr/include/features.h:346,
        from /usr/include/execinfo.h:22,
        from /home/linux/2.6-32/block/block26.c:49:
/usr/include/sys/cdefs.h:287:1: warning: "__always_inline" redefined
In file included from /usr/src/linux-headers-2.6.32-5-common/include/linux/compiler-gcc.h:86,
        from /usr/src/linux-headers-2.6.32-5-common/include/linux/compiler.h:40,
        from /usr/src/linux-headers-2.6.32-5-common/include/linux/stddef.h:4,
        from /usr/src/linux-headers-2.6.32-5-common/include/linux/list.h:4,
        from /usr/src/linux-headers-2.6.32-5-common/include/linux/module.h:9,
        from /home/linux/2.6-32/inc/linux_ver.h:40,
        from /home/linux/2.6-32/block/block26.c:32:
/usr/src/linux-headers-2.6.32-5-common/include/linux/compiler-gcc4.h:15:1: warning: this is the location of the previous definition
    /home/linux/2.6-32/block/block26.c:50: warning: function declaration isn’t a prototype
WARNING: "backtrace" [/home/linux/2.6-32/ndas_block.ko] undefined!
WARNING: "backtrace_symbols" [/home/linux/2.6-32/ndas_block.ko] undefined!

Note: block26.c is the file I am hoping to get the backtrace from.

Is there an obvious reason why the backtrace and backtrace_symbols remain undefined when it is compiled into the .ko modules?

I am guessing it because I use the compiler include execinfo.h which is residing on the computer and not being loaded to the module.

It is my uneducated guess to say the least.

Can anyone offer a help to get the backtrace functions loading up in the module?

Thanks for looking at this inquiry.

I am working on debian. When I take out the function and such, the module compiles fine and almost works perfectly.

From ndasusers

share|improve this question
I'm not so sure you are suppose to include libraries like this in kernel module code. Have you tried just using gdb and setting a break point? [1] [1]: – zdav May 2 '11 at 22:37
Oh Rats! I was scared to hear something like that. This looks like useful chapter that you have linked me to though. Thanks for that. – ndasusers May 2 '11 at 23:44
Unlike user-space programs, the kernel is not linked against the standard C library (or any other library, for that matter). – jschmier May 3 '11 at 18:21
Now that I understand, it makes complete sense. How can a kernel be expected to use many libraries that may not even exist on a system. – ndasusers May 7 '11 at 4:46

To print the stack contents and a backtrace to the kernel log, use the dump_stack() function in your kernel module. It's declared in linux/kernel.h in the include folder in the kernel source directory.

share|improve this answer
Thank you.This is the thing I expected to do with the c backtrace. now I just need a new post to help read it. – ndasusers May 7 '11 at 4:45
The values displayed are in two blocks: the first is the raw contents of the stack shown by address, and the second shows each stack frame like a regular backtrace. – jmkeyes May 7 '11 at 4:55

If you need to save the stack trace and process its elements somehow, save_stack_trace() or dump_trace() might be also an option. These functions are declared in <linux/stacktrace.h> and <asm/stacktrace.h>, respectively.

It is not as easy to use these as dump_stack() but if you need more flexibility, they may be helpful.

Here is how save_stack_trace() can be used (replace HOW_MANY_ENTRIES_TO_STORE with the value that suits your needs, 16-32 is usually more than enough):

unsigned long stack_entries[HOW_MANY_ENTRIES_TO_STORE];
struct stack_trace trace = {
    .nr_entries = 0,
    .entries = &stack_entries[0],

    .max_entries = HOW_MANY_ENTRIES_TO_STORE,

    /* How many "lower entries" to skip. */
    .skip = 0

Now stack_entries array contains the appropriate call addresses. The number of elements filled is nr_entries.

One more thing to point out. If it is desirable not to output the stack entries that belong to the implementation of save_stack_trace(), dump_trace() or dump_stack() themselves (on different systems, the number of such entries may vary), the following trick can be applied if you use save_stack_trace(). You can use __builtin_return_address(0) as an "anchor" entry and process only the entries "not lower" than that.

share|improve this answer
+1 for a great post. – jmkeyes May 6 '11 at 2:51
Thank you for helping. I did not use this trick, but I might. The stack_dump showed about all I imagined. – ndasusers May 7 '11 at 4:48

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