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The definition of SHA-256 appears to be such that the input consisting of a single "1" bit has a well-defined hash value, distinct from that of the "01" byte (since the padding is done based on input's length in bits).

However, due to endianness issues and the fact that no implementations that I can find support feeding in single bits, I can't quite figure out what this correct value is.

So, what is the correct hash of the 1-bit long input consisting of the bit "1"? (not the 8-bit long byte[] { 1 } input).

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why???????????? –  dan_waterworth Dec 12 '10 at 17:47
You could calculate it by hand: en.wikipedia.org/wiki/… but it would get pretty tedious pretty fast. –  MatrixFrog Dec 12 '10 at 17:48
@dan: why not???????????? –  romkyns Dec 12 '10 at 17:53
@Eric you seem to think that there is never a reason to compute the hash of a short input. I can give you one: verifying the correctness of an implementation. The hash of the 0 bit input can be used as one of the test cases. The two 1 bit strings would also be handy. If you don't want to answer this question then by all means don't, but I don't understand why you seem to imply this question is stupid. –  romkyns Dec 12 '10 at 18:30
@Eric Fortis: I see nothing outlandish about the question. The hash functions themselves are defined in terms of arbitrarily long bit strings, so why shouldn't someone perhaps be interested in actually computing on such arbitrary bit strings. And for testing, clearly you want to test the trivial cases such a a single bit, or two bits. –  GregS Dec 12 '10 at 19:34

3 Answers 3

up vote 7 down vote accepted

OK, according to my own implementation:

1-bit string "1":

B9DEBF7D 52F36E64 68A54817 C1FA0711 66C3A63D 384850E1 575B42F7 02DC5AA1

1-bit string "0":

BD4F9E98 BEB68C6E AD3243B1 B4C7FED7 5FA4FEAA B1F84795 CBD8A986 76A2A375

I have tested this implementation on several standard multiples-of-8-bits inputs, including the 0-bit string, and the results were correct.

(of course the point of this question was to validate the above outputs in the first place, so use with care...)

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I confirm these values. My own implementation of SHA-2 is from sphlib ( saphir2.com/sphlib ). The C code handles inputs with lengths not multiple of 8. –  Thomas Pornin Dec 13 '10 at 16:56
Thank you @Thomas, I'll mark this accepted then. –  romkyns Dec 14 '10 at 20:00
Also confirmed by Perl's implementation, which accepts strings in binary encoding. –  romkyns Dec 17 '10 at 2:15

There is C code available in section 8 of RFC 4634 to compute the hash of data that is not necessarily a multiple of 8 bits. See the methods whose names are SHA*FinalBits(...).

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Not sure if I understand your question correctly.

SHA-256 operates with block sizes of 64 bytes (=512bits). This means smaller inputs must be padded first. The result of the padding looks like this:

For Bit 1:    1100000000000...00000000001
For Bits 01:  0110000000000...00000000010

As this results are distinct, the results of the following compression functions will be too. And therefore the hash values are. The standard document explains the padding quite descriptive: http://csrc.nist.gov/publications/fips/fips180-2/fips180-2.pdf

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not only SHA-256, I can't think of any algorithm that doesn't pad or repeat small inputs. –  Eric Fortis Dec 12 '10 at 18:52
The block size for SHA256 is 512 bits not 256 bits. See RFC: 4634 "US Secure Hash Algorithms (SHA and HMAC-SHA)", ietf.org/rfc/rfc4634.txt –  Babu Srinivasan Oct 1 '11 at 20:02

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