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I would like to improve the performance of hashing large files, say for example in the tens of gigabytes in size.

Normally, you sequentially hash the bytes of the files using a hash function (say, for example SHA-256, although I will most likely use Skein, so hashing will be slower when compared to the time it takes to read the file from a [fast] SSD). Let's call this Method 1.

The idea is to hash multiple 1 MB blocks of the file in parallel on 8 CPUs and then hash the concatenated hashes into a single final hash. Let's call this Method 2.

A picture depicting this method follows:

enter image description here

I would like to know if this idea is sound and how much "security" is lost (in terms of collisions being more probable) vs doing a single hash over the span of the entire file.

For example:

Let's use the SHA-256 variant of SHA-2 and set the file size to 2^34=34,359,738,368 bytes. Therefore, using a simple single pass (Method 1), I would get a 256-bit hash for the entire file.

Compare this with:

Using the parallel hashing (i.e., Method 2), I would break the file into 32,768 blocks of 1 MB, hash those blocks using SHA-256 into 32,768 hashes of 256 bits (32 bytes), concatenate the hashes and do a final hash of the resultant concatenated 1,048,576 byte data set to get my final 256-bit hash for the entire file.

Is Method 2 any less secure than Method 1, in terms of collisions being more possible and/or probable? Perhaps I should rephrase this question as: Does Method 2 make it easier for an attacker to create a file that hashes to the same hash value as the original file, except of course for the trivial fact that a brute force attack would be cheaper since the hash can be calculated in parallel on N cpus?

Update: I have just discovered that my construction in Method 2 is very similar to the notion of a hash list. However the Wikipedia article referenced by the link in the preceding sentence does not go into detail about a hash list's superiority or inferiority with regard to the chance of collisions as compared to Method 1, a plain old hashing of the file, when only the top hash of the hash list is used.

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Your method 2 is known as a hash tree. Skein already includes a mode for tree hashing in its specification (though I suppose not every implementation supports it). –  Paŭlo Ebermann Aug 10 '11 at 19:27
Also, this is a question which would really good fit on cryptography.stackexchange.com - could you flag it for migration, please? (Such flags by the original poster are more likely to get fulfilled by the moderators than flags by me.) –  Paŭlo Ebermann Aug 10 '11 at 19:29
I have posted the question to the cryptography beta site, and will close it here after marking one of the answers as answered over the next two days, to compensate answerers for their effort in researching their answers. –  Michael Goldshteyn Aug 10 '11 at 19:57
I think migration (together with the answers) would have been a better way of doing this. But as you want. –  Paŭlo Ebermann Aug 10 '11 at 20:00
Just for reference: The cross-post is now at Cryptography Stack Exchange. –  Paŭlo Ebermann Aug 10 '11 at 21:16

2 Answers 2

up vote 3 down vote accepted

Block-based hashing (your method 2) is a well known technique that is used in practice:

Just like what you're doing, these methods takes the list of block hashes and hashes that again, down to a single short hash. Since this is a well established practice, I would assume that it is as secure as sequential hashing.

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There would not be more hashes using method 2, since only the final hash is shared / stored, not the intermediate ones. –  Michael Goldshteyn Aug 10 '11 at 18:13
I misread your problem statement initially, sorry. My bad. –  Nayuki Minase Aug 10 '11 at 18:14
The fact that hash trees are named after the famous cryptographer Ralph Merkle may give some authority for its security. –  Nayuki Minase Aug 10 '11 at 18:16
The question is not whether Method 2 is secure, it surely is. The question is whether or not Method 2 is strictly less secure than Method 1 and, even if theoretically, by what factor. After all, the gain in performance must be balanced with the loss in security, if any, to be justifiable. –  Michael Goldshteyn Aug 10 '11 at 18:57
My intuition says that the loss of security is negligible. I acknowledge that because the block size is smaller (1 MB instead of whole file), it might be easier to find a collision or preimage. But at the same time, the block hashes are concealed by the final hash. So I don't know how much the security is affected. –  Nayuki Minase Aug 10 '11 at 19:06

Some modern hash designs allow them to be run in parallel. See An Efficient Parallel Algorithm for Skein Hash Functions. If you are willing to use a new (and hence less thoroughly tested) hash algorithm, this may give you the speed increase you want on a multi-processor machine.

Skein has reached the final stage of the NIST SHA-3 competition so it is not completely untested.

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Still, the tree hash version is not really what is checked in the competition, I think. –  Paŭlo Ebermann Aug 11 '11 at 13:03

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