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Is there a Kernel instrumentation based way to measure the time at which the Kernel transfers over to the Userspace during boot-up ? I could use printk's with timing information, but I just wasn't sure, where exactly to place this printk, in order to observe when the Kernel transfers over to the Userspace.

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  • What do you mean, exactly? There are many threads on the system, some in kernel space, some in user space, many transitioning from one to the other and back over time... If you mean "when does my code start running", why not put the print at the start of your code? – Nemo Oct 2 '12 at 1:05
  • By exactly I mean, the point in the kernel, where it switches to the userspace... I am unable to identify such a location, if any. – TheLoneJoker Oct 2 '12 at 6:07
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The start_kernel() is called by architecture specific code (arch/architecture_type). After the kernel loads, it calls the first user-space process,i.e. /sbin/init (or systemd on a more recent distribution) from init_post() Both these functions are defined in init/main.c.

You might want to read this blog for a detailed description of the boot process.

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Create your own init that logs to /dev/kmsg immediately

A simpler alternative to hacking the kernel code with a printk is to use the following init:

#include <stdio.h>
#include <unistd.h>

int main(void) {
    FILE *fp;
    fp = fopen("/dev/kmsg", "w");
    fputs("hello init\n", fp);
    fclose(fp);
    while (1)
        sleep(0xFFFFFFFF);
}

and use the kernel command line parameters:

init=/path/to/myinit printk.devkmsg=on printk.time=y

Now just after the boot ends and init starts we see a message:

[<timestamp>] hello init

This is not 100% precise as you will lose some CPU cycles for the fopen, but I don't think it will matter much.

Minimal reproducible setup to test it out:

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