I have some sectors on my drive with poor reading. I could measure the reading time required by each sector and then compare the time of the good sectors and the bad sectors.

I could use a timer of the processor to make the measurements. How do I write a program in C/Assembly that measures the exact time it takes for each sector to be read?

So the procedure would be something like this:

Start the timer
Read the disk sector
Stop the timer
Read the time measured by the timer
  • The operating system isn't important. It could be Windows or Linux. – rigon Feb 7 '11 at 23:37
  • Just a warning that you may never get consistent results from timing disk reads, only averages + best & worse cases. Disk read times are determined by (among other things) the following. - Is the data requested in Cache? (Disk may never even be read. Data just taken from memory cache) - Where is the disk head - vs - Where is the data on the disk (Inside track - vs - outside track) - Where is the head -vs - where is the data (rotationally) on the disk – Joe Cullity Feb 13 '11 at 17:15

The most useful functionality is the "rdtsc" instruction (ReaD Time Stamp Counter) which is incremented every time the processor's internal clock increments. For a 3 Ghz processor it increments 3 billion times per second. It returns a 64 bit unsigned integer containing the number of clock cycles since the processor was powered on.

Obviously the difference between two read-outs is the number of elapsed clock cycles consumed for executing the code sequence in-between. For a 3 Ghz machine you could use any of the following algorithms to convert to parts of seconds:

(time_difference+150)/300 gives a rounded off elapsed time in 0.1 us (tenths of microseconds) (time_difference+1500)/3000 gives a rounded off elapsed time in us (microseconds) (time_difference+1500000/3000000 gives a rounded off elapsed time in ms (milliseconds)

The 0.1 us algorithm is the most precise value you can use without having to adjust for read-out overhead.

  • Search for rdtsc among you compiler's intrinsic, non-standard functions. In C for x86-32 it could be coded as a separate unsigned __int64 name (void) function with _asm{rdtsc} as its only content. rdtsc will place the result in edx:eax which are (always?) the registers used for returning __int64s from functions. In function form you need to be measure the overhead though, which will be significant. – Olof Forshell Feb 28 '11 at 8:28

In C, the function that would be most useful is clock() in time.h.

To time something, put calls to clock() around it, like so:

clock_t start, end;
float elapsed_time;
start = clock();
end = clock();
elapsed_time = (float)(end - start) / (float)CLOCKS_PER_SEC;
printf("Elapsed time: %f seconds\n", elapsed_time);

This code prints out the number of seconds the read_disk_sector() function call took.

You can read more about the clock function here: http://www.cplusplus.com/reference/clibrary/ctime/clock/

  • 1
    Note: clock_t might be an integer type. If that's the case, elapsed_time will have a 1 second resolution and will likely always be 0 for good sectors. It might even be 0 for bad sectors if the call completes in less than a second, which certainly seems possible if the sector isn't too screwed up. – Michael Burr Feb 7 '11 at 23:31
  • @Michael Burr: I'm quite sure that clock_t will always be an integer, half a clock unit doesn't make much sense. In any case, one doesn't have to throw away the remainder. – Hasturkun Feb 7 '11 at 23:42
  • That is correct. I edited my answer to change elapsed_time to a float and to calculate it as a float. – Eric Finn Feb 7 '11 at 23:45
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    @Hasturkun: this is platform-dependent, on Windows it's wall-clock time and on Linux it's CPU time. – Eric Finn Feb 7 '11 at 23:52
  • 2
    @Eric Finn: This is true, though the standard does say that clock() is supposed to return "the implementation’s best approximation to the processor time used by the program" (apparently, on Windows, the implementation's "best approximation" is the wall-clock time since it was started ;) – caf Feb 8 '11 at 1:30

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