I want to compute an SHA1 hash in several steps using TransformBlock()/TransformFinalBlock() :

byte[] block1 = Encoding.ASCII.GetBytes("This");
byte[] block2 = Encoding.ASCII.GetBytes("is");
byte[] block3 = Encoding.ASCII.GetBytes("Sparta");

SHA1 sha = new SHA1Managed();
sha.TransformBlock(block1, 0, block1.Length, block1, 0);
sha.TransformBlock(block2, 0, block2.Length, block2, 0);
sha.TransformFinalBlock(block3, 0, block3.Length);

byte[] result = sha.Hash;

I know there is other ways to compute SHA1 (eg : HashAlgorithm.ComputeHash() or CryptoStream). What is above is a simplified version of more complex code.

What is totally unclear to me is what to pass for the outputBuffer array (the fourth parameter of TransformBlock method) :

int TransformBlock(byte[] inputBuffer, int inputOffset, int inputCount, 
                   byte[] outputBuffer, int outputOffset);

The MSDN page says :

Computes the hash value for the specified region of the input byte array and copies the specified region of the input byte array to the specified region of the output byte array

What if I don't need that array copy ? Should I pass null ? (to avoid input array to be copied each time ?)

Is there a typical use of this ?

Similarly, it seems TransformFinalBlock() also copied input array to an output array. AFAIKm this is what is returned by the method :

byte[] TransformFinalBlock(byte[] inputBuffer, int inputOffset, int inputCount);
  • Personally I don't think this interface is all that good a match for a hash function. Actually, I think it is a horrible design anyway because a block is something that has been explicitly specified internally for block ciphers and hashes. In that definition, "This" is not a block. However, instead of offering a low level interface it offers a high level interface that doesn't do what you would expect, confusing the casual reader. I'd rather use the streaming interface instead. The original designer should hide in shame for this interface definition. – Maarten Bodewes Nov 25 '18 at 15:10

The page and the example you linked are quite clear:

Calling the TransformBlock method with different input and output arrays results in an IOException.

and even the example is clear on the use:

offset += sha.TransformBlock(input, offset, size, input, offset);

SHA1 doesn't really need that parameter. But it is an implementation of the interface ICryptoTransform that has this signature. So SHA1.TransformBlock() has that (useless) parameter. Note that you can set output to null (undocumented but works).

Note that in the HashAlgorithm (that is the base class of SHA1 that implements ICryptoTransform), inside the TransformBlock there is a line like:

if ((outputBuffer != null) && ((inputBuffer != outputBuffer) || (inputOffset != outputOffset)))
    Buffer.BlockCopy(inputBuffer, inputOffset, outputBuffer, outputOffset, inputCount);

So if you set it to null or to input == output then nothing will be copied.

  • Seems passing null is also perfectly valid (at least for SHA1 and MD5 implementations) : stackoverflow.com/questions/623159/… – tigrou Jun 22 '18 at 9:01
  • @tigrou I have made the correction :-) – xanatos Jun 22 '18 at 9:02
  • 1
    In my opinion, it is a horrible design decision of the .NET team. Clearly they had this idea that because of the already incorrect ICryptoTransform design (again conflating input and output) they had to do something with the outputBuffer. However, copying input can lead to leakage of information. And since a hash function doesn't change the input anyway, then why would you copy it? It fails clean design principles: 1. doing two things at once and more importantly 2. the least surprise principle. Use the streaming interface, at least it doesn't require you to handle non-existing output. – Maarten Bodewes Nov 25 '18 at 15:20

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