For Linux specific solution, you might like to have a look at
/proc/<pid>/task/<tid>/stat for process and thread statistics, respectively. Have a look at
proc(5) manual page for full description of all the fields there (online http://man7.org/linux/man-pages/man5/proc.5.html - search for
/proc/[pid]/stat). Specifically, at least the fields
stime are of interests to you. These are monotonically increasing times, so you need to remember the previously measured value to be able to produce the time spent in the process/thread during the given time slice, in order to produce the data for your graphs. (This is how
However, for the profiler to distinguish different states makes the problem more complicated. How do the profiler distinguish that the profiled program is in which state? It seems to me the profiled program threads need to signal this in some way to the profiler. You need to have some kind of tailored solution for this state sharing (unless you can run the different states in different threads and make the distinction this way, which I doubt).
If the state transitions are done in single place (e.g. enter GC and leave GC in your example), then one way would be as follows:
- The monitored threads would get the start and end times of the special states by using POSIX function
clock_gettime() - with
clock_gettime(CLOCK_PROCESS_CPUTIME_ID, &tp) you can get the process time and with
clock_gettime(CLOCK_THREAD_CPUTIME_ID, &tp) you can get the thread time (both monotonically increasing, again).
- The thread could communicate these timings to the profiler program with some kind of IPC.
- If the profiler application knows the thread times of entering and leaving a state, then because it knows the thread time values at the change of measuring slices, it can determine how much of the thread time is spent in the reported states within a reporting time slice (and of course here we need to adjust the start time for a state to equal the start of the next reporting time slice).
- The time the whole process has spent on a specific state can be calculated by summing up the thread times for that state.
Note that through
/proc/<pid>/task/<tid>/stat, the measurement accuracy is not very good (clock ticks, often units of 10ms), but I do not know other way of getting timing information from outside of the process/thread. The function
clock_gettime() gives very accurate times (nominally nanosecond accuracy, but note that at least in some MIPS and ARM systems the accuracy is as bad as with the
stat files under
/proc due to unexisting implementation of accurate timer reading for these fields within Linux kernel). You also would need to do some experimentation to make sure these two timing sources really would give the same results (by reading both values from the same threads). You can of course use these
/proc/.../stat files inside the thread, but the accuracy just is not very good unless you spend a lot of time within a state.