I am using Linux Security Module hooks to add some custom functionality to recv() system call. I want to measure the overhead of this functionality as compared to the pristine recv(). I have written a simple tcp server that I run with and without my module. This tcp server calls a recv() function 'N' number of times. It measures time taken for each recv with something like:
clock_gettime(before); recv() clock_gettime(after); global_time += after - before.
In the end, I print the average time for a single recv() with "global_time/N". Lets call this time as "user_space_avg_recv" time.
Inside my module, I want to place time measurement functions to calculate exact execution time of my hook. I tried 3 methods.
I used jiffies as follows:
sj = jiffies;
ej = jiffies;
current->total_oh = ej - sj;
But I see that there is no difference between sj and ej values. Hence total_oh is unchanged.
I used current_kernel_time() since I thought it returns the time in nanoseconds. However, once again, there was no difference in before and after time.
I used get_cycles. I print the total cycles when the process exits. However, when I convert that total cycles values to milliseconds, it comes out be much greater than "user_space_avg_recv" value. This does not make sense as measured value inside kernel always be lesser than the time value measured from user space. This could mean that I am either not measuring using correct API or I am making a mistake while converting value from cycles to milliseconds.
I am basically using following formula to convert cycles to milliseconds:
avg overhead of my hook in milliseconds = (((cycles / 2.99) / 10^6) / N)
2.99 because my clock frequency is 2.99Ghz
My user space program is tied to a single core using set affinity.
I am using kernel 184.108.40.206
To stop kernel from switching contexts while inside my hook, I use preempt_disable() and preempt_enable(). Thus it will not count the execution times of other kernel threads. Even then, since my hook use some I/O, my thread might release the control voluntarily or some interrupt might occur that might increase the total cycles count.
Question: How can I measure function execution times accurately inside the kernel?