Assuming the Linux kernel starts the uptime counter at the same time as it starts keeping track of the monotonic clock, you can derive the boot time (relative to the Epoch) by subtracting uptime from the current time.
Linux offers the system uptime in seconds via the
sysinfo structure; the current time in seconds since the Epoch can be acquired on POSIX compliant libraries via the
/* get uptime in seconds */
struct sysinfo info;
/* calculate boot time in seconds since the Epoch */
const time_t boottime = time(NULL) - info.uptime;
/* get monotonic clock time */
struct timespec monotime;
/* calculate current time in seconds since the Epoch */
time_t curtime = boottime + monotime.tv_sec;
/* get realtime clock time for comparison */
struct timespec realtime;
printf("Boot time = %s", ctime(&boottime));
printf("Current time = %s", ctime(&curtime));
printf("Real Time = %s", ctime(&realtime.tv_sec));
Unfortunately, the monotonic clock may not match up relative to boot time exactly. When I tested out the above code on my machine, the monotonic clock was a second off from the system uptime. However, you can still use the monotonic clock as long as you take the respective offset into account.
Portability note: although Linux may return current monotonic time relative to boot time, POSIX machines in general may return current monotonic time from any arbitrary -- yet consistent -- point in time (often the Epoch).
As a side note, you may not need to derive boot time as I did. I suspect there is a way to get the boot time via the Linux API, as there are many Linux utilities which display the boot time in a human-readable format. For example:
$ who -b
system boot 2013-06-21 12:56
I wasn't able to find such a call, but inspection of the source code for some of these common utilities may reveal how they determine the human-readable boot time.