Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I am using printk in my kernel loadable module to log parameters of system calls. For each system call, several printks are used to print the variables whey they appear with "\t" as delimiters. To redirect the data in the kernel log buffer to another file other than system /var/log/messages, I use "klogd -f" to bypass the syslog interface. The log data obtained is one line per system call. However, after analyzing the data, I find that there exist 2 problems.

Problem 1: data may be lost.

Problem 2: data of one system call is mixed with data belonging to another system call, perhaps in the middle.

Question 1: is data loss caused by the kernel log buffer overflow which overwrites the oldest log in the buffer? If so, how to overcome it? I plan to increase the size of the kernel log buffer. Do you think it's appropriate and what size is best?

Question 2: can system call preempt another system call? Or in some situations, one system call may invoke another system call and can't finish unless the invoked one finishes? Is this the reason that the data get mixed with each other?

Question 3: is printk atomic? If not, how to make printk atomic? Add a lock to make it un-interruptable?

share|improve this question

If you just want a dump of all of the system calls (with arguments) that a program is making, check out the strace command.

Question 1: Sort of. The kernel log buffer is implemented as a ring buffer. If the ring buffer is 128K and if the kernel writes a total of 129K worth of data since boot, the first 1K is overwritten by the newest data. You can increase the size of this buffer through the kernel boot argument log_buf_len or at compile time in your kernel's .config file. You can also change the size of the ring buffer with dmesg, by running dmesg -s524288 which will set it to 512KiB. You'll have to determine the best size depending on the amount of data you're spitting out.

Question 2: It's possible that one system call will preempt another system call, and there are plenty of other cases of preemption in the kernel -- interrupt service routines being a prime example. Also, if you're on a multi-core system, you could have more than one active kernel thread.

Question 3: I believe printk attempts to get a lock on the kernel's ring buffer. It's a bit complex though, since you can call printk from a panic state.

share|improve this answer
Thanks, Ben. Any good solutions you suggest? – user1718039 Oct 4 '12 at 14:21
Try holding your own debug buffer in your module and writing a system call to dump it, maybe? I'm not clear on your overall goal. If you're just logging system calls, check out the strace command. – Ben Burns Oct 4 '12 at 18:08
Hi, Ben. Thanks for your advice on strace command. However, strace requires the specific program to log known in advance, and what I need is a system-wide system call logging. That is, my overall goal is to intercept parameters of all system calls of all processes which have ever run on the system. Therefore, the log data will be "big data", which requires large buffer space and buffer content dumped promptly. – user1718039 Oct 5 '12 at 13:56
Eesh. Yeah, that's a complex problem. Can you virtualize your environment? If so, you might be able to utilize the debug environment in qemu in order to get this data. For instance, write a program that connects to qemu's debug server, throws breakpoints into the system calls you care about, and logs whatever data necessary when execution halts. You could also do this with a JTAG emulator if the machine you're working with allows it.… – Ben Burns Oct 5 '12 at 19:38
Either way, if you do come up with a solution, consider posting it on GitHub and letting the kernel devs know about it. They love crafty debug tools like this. – Ben Burns Oct 5 '12 at 19:39

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.