I am attempting to wrap my brain around generating a 6 digit/character non case sensitive expiring one-time password.
My source is http://tools.ietf.org/html/rfc4226#section-5
First the definition of the parameters
C 8-byte counter value, the moving factor. This counter MUST be synchronized between the HOTP generator (client) and the HOTP validator (server). K shared secret between client and server; each HOTP generator has a different and unique secret K. T throttling parameter: the server will refuse connections from a user after T unsuccessful authentication attempts.
Then we have the algorithm to generate the HOTP
As the output of the HMAC-SHA-1 calculation is 160 bits, we must truncate this value to something that can be easily entered by a user. HOTP(K,C) = Truncate(HMAC-SHA-1(K,C))
Then, we have Truncate defined as
String = String...String Let OffsetBits be the low-order 4 bits of String Offset = StToNum(OffsetBits) // 0 <= OffSet <= 15 Let P = String[OffSet]...String[OffSet+3] Return the Last 31 bits of P
And then an example is offered for a 6 digit HOTP
The following code example describes the extraction of a dynamic binary code given that hmac_result is a byte array with the HMAC- SHA-1 result: int offset = hmac_result & 0xf ; int bin_code = (hmac_result[offset] & 0x7f) << 24 | (hmac_result[offset+1] & 0xff) << 16 | (hmac_result[offset+2] & 0xff) << 8 | (hmac_result[offset+3] & 0xff) ;
I am rather at a loss in attempting to convert this into useful C# code for generating one time passwords. I already have code for creating an expiring HMAC as follows:
byte hashBytes = alg.ComputeHash(Encoding.UTF8.GetBytes(input)); byte result = new byte[8 + hashBytes.Length]; hashBytes.CopyTo(result, 8); BitConverter.GetBytes(expireDate.Ticks).CopyTo(result, 0);
I'm just not sure how to go from that, to 6 digits as proposed in the above algorithms.