2

I'm trying to understand why hashing of multiple hashes is much slower than one hash. In the following test I hash a file twice - first with SHA1 and then with both SHA1 and SHA256. The first execution shows the expected results - disk read dominates the time used - both took around 30 seconds (the latter around a second less despite more work).

However, on subsequent executions I get a strange result: around 10 seconds for the first and 30 for the second. The 10 implying that the original disk read took 20 seconds, and the 30 implying that it took almost no time. Which, probably, really means that for some reason, hashing once is much quicker than twice. But why?

What's happening here?

The code:

Text = TestSpeed(new HashAlgorithm[] { new SHA1Managed() }, path);
Text += " " + TestSpeed(new HashAlgorithm[] { new SHA1Managed(), new SHA256Managed() }, path);

And:

public string TestSpeed(HashAlgorithm[] algorithms, string path)
{
    Stopwatch sw = new Stopwatch();
    sw.Start();

    byte[] block = new byte[65536];
    int bytesRead = 0;
    using (FileStream stream = new FileStream(path, FileMode.Open))
        while ((bytesRead = stream.Read(block, 0, block.Length)) > 0)
            foreach (HashAlgorithm algorithm in algorithms)
                algorithm.TransformBlock(block, 0, bytesRead, null, 0);
    foreach (HashAlgorithm algorithm in algorithms)
        algorithm.TransformFinalBlock(block, 0, 0);

    sw.Stop();
    return sw.Elapsed.ToString();
}
  • You're reinventing HashAlgorithm.ComputeHash. referencesource.microsoft.com/#mscorlib/system/security/… – SLaks Jun 15 '15 at 18:49
  • Sounds like caching, not hashing... first iteration has disk i/o that increases run time for test 1, for test 2 disk reads are cached. On subsequent iterations all reads are cached, returning the expected result. Really, you should profile this code if it's important - that would clearly reveal where your execution time is being spent and how it changes on subsequent iterations. – J... Jun 15 '15 at 18:49
  • Way too many things to count. Processor cache misses, other tasks on your machine interfering, disk file fragmentation, etc. Good profiling is hard – Jay Jun 15 '15 at 18:50
  • @SLaks This code was made from my original code which needs this step-by-step hashing. – ispiro Jun 15 '15 at 18:51
  • 1
    @Jay If the difference was small, or if subsequent executions weren't consistent - I'd agree. – ispiro Jun 15 '15 at 18:52
3

Your results are most likely caused by disk caching. Assuming both tests operate on the same data, only the first read will result in significant I/O time. IE:

  • Iteration 1, Test 1 : 30 seconds (= 20s disk read, 10s work).
  • Iteration 1, Test 2 : 30 seconds (= 0s disk read, 30s work).
  • Iteration 2, Test 1 : 10 seconds (= 0s disk read, 10s work).
  • Iteration 2, Test 2 : 30 seconds (= 0s disk read, 30s work).
  • ...etc.

This means that hashing twice takes about three times longer than hashing once. Since SHA256 is typically about half as performant as SHA1, this seems a sensible result.

You can decouple this effect by first reading in the file to a memory stream before beginning the tests and using the memory stream for all reads during the test. Profiling would have shown you where your execution time was being spent.

  • Thank! I have no idea how I missed that. – ispiro Jun 15 '15 at 19:05
  • By the way, this would imply that SHA256-ing a file takes as long as reading it from a drive (though a slow USB-connected one). To me - that's quite surprising. – ispiro Jun 15 '15 at 19:14
  • @ispiro That depends on the drive, the quality of the USB connection, the performance of the algorithm implementation, and the speed of your computer. A reasonably quick USB3.0 drive can deliver high sustained reads (~80-100MB/s) for a contiguous file. A mid-grade computer can SHA256 at about the same rate (again, ~100MB/s or so). Without profiling it's really hard to say... – J... Jun 15 '15 at 19:29
  • @ispiro see also : stackoverflow.com/q/478340/327083 – J... Jun 15 '15 at 23:21

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