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I've been trying to code HMAC algorithm in Javascript but have got to a point where I can not figure out what is going wrong. I'm at the point where you create the inner hash, but the returned value does not match that specified in the FIPS 198 document example A1 when using SHA1 (step 6).

/*
function hmac (key, message)
    if (length(key) > blocksize) then
        key = hash(key) // keys longer than blocksize are shortened
    end if
    if (length(key) < blocksize) then
        key = key ∥ [0x00 * (blocksize - length(key))] // keys shorter than blocksize are zero-padded ('∥' is concatenation) 
    end if

    o_key_pad = [0x5c * blocksize] ⊕ key // Where blocksize is that of the underlying hash function
    i_key_pad = [0x36 * blocksize] ⊕ key // Where ⊕ is exclusive or (XOR)

    return hash(o_key_pad ∥ hash(i_key_pad ∥ message)) // Where '∥' is concatenation
end function
*/

/*
STEPS
Step 1
Table 1: The HMAC Algorithm
STEP-BY-STEP DESCRIPTION
If the length of K = B: set K0 = K. Go to step 4.
Step 2 If the length of K > B: hash K to obtain an L byte string, then append (B-L)
      zeros to create a B-byte string K0 (i.e., K0 = H(K) || 00...00). Go to step 4.
Step 3 If the length of K < B: append zeros to the end of K to create a B-byte string K0
      (e.g., if K is 20 bytes in length and B = 64, then K will be appended with 44
     zero bytes 0x00).
Step 4 Exclusive-Or K0 with ipad to produce a B-byte string: K0  ̄ ipad.
Step 5 Append the stream of data 'text' to the string resulting from step 4:
      (K0  ̄ ipad) || text.
Step 6 Apply H to the stream generated in step 5: H((K0  ̄ ipad) || text).
Step 7 Exclusive-Or K0 with opad: K0  ̄ opad.
Step 8 Append the result from step 6 to step 7:
      (K0  ̄ opad) || H((K0  ̄ ipad) || text).
Step 9 Apply H to the result from step 8:
      H((K0  ̄ opad )|| H((K0  ̄ ipad) || text)).
Step 10 Select the leftmost t bytes of the result of step 9 as the MAC.
*/

/*
FIPS PUB 198, The Keyed-Hash Message Authentication Code
http://csrc.nist.gov/publications/fips/fips198/fips-198a.pdf

A.1
SHA-1 with 64-Byte Key
*/


//Check sha1 hashers
if ($u.sha1("test") !==  CryptoJS.SHA1("test").toString()) {
    throw new Error("hasher output mismatch");
}

var key = "000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f202122232425262728292a2b2c2d2e2f303132333435363738393a3b3c3d3e3f";
var k0 = "000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f202122232425262728292a2b2c2d2e2f303132333435363738393a3b3c3d3e3f";
var k0ipad = "36373435323330313e3f3c3d3a3b383926272425222320212e2f2c2d2a2b282916171415121310111e1f1c1d1a1b181906070405020300010e0f0c0d0a0b0809";
var k0opad = "5c5d5e5f58595a5b54555657505152534c4d4e4f48494a4b44454647404142437c7d7e7f78797a7b74757677707172736c6d6e6f68696a6b6465666760616263";
var ipt = "36373435323330313e3f3c3d3a3b383926272425222320212e2f2c2d2a2b282916171415121310111e1f1c1d1a1b181906070405020300010e0f0c0d0a0b080953616d706c65202331";
var h1 = "bcc2c68cabbbf1c3f5b05d8e7e73a4d27b7e1b20";
var message = "Sample #1";
var result = "";

function hmac(key, message) {
    key = key.replace(/\s*/g, "");

    var swap = false, // for swap endianess
        length = key.length,
        blockSize = 64 * 2, // for sha 1 = 64, as hex * 2
        ml = message.length,
        i = 0,
        o_key_pad = "",
        i_key_pad = "",
        ikeypmessage = "",
        hipt,
        temp1,
        temp2;

    // 1. If the length of K = B: set K0 = K. Go to step 4.
    if (length !== blockSize) {
        // 2. If the length of K > B: hash K to obtain an L byte string, then append (B-L)
        //    zeros to create a B-byte string K0 (i.e., K0 = H(K) || 00...00). Go to step 4.
        //    Actually in code, goto step3 ri append zeros
        if (length > blockSize) {
            key = $u.sha1(key);
        }

        // 3. If the length of K < B: append zeros to the end of K to create a B-byte string K0
        //   (e.g., if K is 20 bytes in length and B = 64, then K will be appended with 44
        //   zero bytes 0x00).
        while (key.length < blockSize) {
            key += "0";
            i += 1;
        }
    }

    // check against the FIP198 example
    if (key !== k0) {
        console.log(key, k0);
        throw new Error("key and k0 mismatch");
    }

    // 4. Exclusive-Or K0 with ipad to produce a B-byte string: K0  ̄ ipad.
    // 7. Exclusive-Or K0 with opad: K0  ̄ opad.
    i = 0;
    while (i < blockSize) {
        temp1 = parseInt(key.slice(i, i + 2), 16);

        temp2 = (temp1 ^ 0x36).toString(16);
        i_key_pad += temp2.length > 1 ? temp2 : "0" + temp2;

        temp2 = (temp1 ^ 0x5c).toString(16);
        o_key_pad += temp2.length > 1 ? temp2 : "0" + temp2;

        i += 2;
    }

    if (i_key_pad !== k0ipad) {
        console.log(i_key_pad, k0ipad);
        throw new Error("i_key_pad and k0ipad mismatch");
    }

    if (o_key_pad !== k0opad) {
        console.log(o_key_pad, k0opad);
        throw new Error("o_key_pad and k0opad mismatch");
    }

    // 5. Append the stream of data 'text' to the string resulting from step 4:
    //    (K0  ̄ ipad) || text.
    i = 0;
    temp1 = "";
    while (i < ml) {
        temp1 += message.charCodeAt(i).toString(16);
        i += 1;
    }

    ikeypmessage = i_key_pad + temp1;
    if (ikeypmessage !== ipt) {
        console.log(i_key_pad + temp1, ipt);
        throw new Error("i_key_pad + temp1 and ipt mismatch");
    }

    // convert hex string to ucs2 string
    ml = ikeypmessage.length;
    temp1 = [];
    i = 0;
    while (i < ml) {
        // for changinging endianess
        if (swap) {
            temp1[i >> 1] = ikeypmessage.charAt(i + 1) + ikeypmessage.charAt(i);
        } else {
            temp1[i >> 1] = ikeypmessage.slice(i, i + 2);
        }

        i += 2;
    }

    // for changinging endianess
    if (swap) {
        temp1.reverse();
    }

    // convert byte to ucs2 string
    ml = temp1.length;
    temp2 = "";
    i = 0;
    while (i < ml) {
        temp2 += String.fromCharCode(parseInt(temp1[i], 16));
        i += 1;
    }

    ikeypmessage = temp2;

    // This is the point where it goes bottom up
    // 6. Apply H to the stream generated in step 5: H((K0  ̄ ipad) || text).
    console.log(ikeypmessage);
    hipt = $u.sha1(ikeypmessage);
    if (hipt !== h1) {
        console.log(hipt, h1);
        throw new Error("hipt and h1 mismatch");
    }
}

console.log(hmac(key, message));

This code is available of jsfiddle and if there is anyone that can give me a pointer as to where I am going wrong it would be much appreciated.

I have tried converting from a hex string to a ucs2 string and changing endianess, all give me different results but none match the example.

share|improve this question
1  
One basic thing to consider is that JavaScript strings use UTF-16 characters; the elements of a string aren't bytes, in other words. –  Pointy Apr 16 '13 at 16:16
    
Ah yes, I had forgotten about the possible multi byte string issue after the XORing. I will have to check that. –  Xotic750 Apr 16 '13 at 16:20
    
I don't think this is the issue as all the characters in use should be single byte UCS2, all are below char code 256, correct me if I am wrong. –  Xotic750 Apr 16 '13 at 16:33
    
I think temp1.reverse(); is misguided. Whatever the endianness HMAC, data is processed from left to right. Update: Ah you removed it. –  fgrieu Apr 17 '13 at 9:11
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1 Answer

up vote 2 down vote accepted
+50

Your problem is that you've got the wrong test vector. Your key:

000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f202122232425262728292a2b2c2d2e2f303132333435363738393a3b3c3d3e3f

and your message "Sample #1" are from Example A.1: SHA-1 with 64-Byte Key in FIPS 198a, whereas your expected output:

74766e5f6913e8cb6f7f108a11298b15010c353a

is from Example A.2: SHA-1 with 20-Byte Key. The correct first-stage hash output for Example A.1 is:

bcc2c68cabbbf1c3f5b05d8e7e73a4d27b7e1b20

Also note that NIST has published a newer, somewhat more comprehensive set of test vectors for HMAC-SHA-1 and HMAC-SHA-2.


OK, I found the second problem. Peeking at the source code of $u.sha1(), that function starts with:

var msg = internal.utf8EncodeToCharCodeArray(str)

That is, it expects its input to be a Unicode string, and converts it into an octet string using the UTF-8 encoding before hashing it. In particular, this means that characters with codepoints above 127 are converted into multiple bytes.

Unfortunately, the HMAC construction operates on raw octet strings, not on Unicode strings. Worse yet, there doesn't appear to be any way to feed a raw octet string to $u.sha1(); the UTF-8 conversion is done automatically, and it is very unlikely for the octet strings you need to hash in HMAC to even be the valid UTF-8 encoding of any Unicode string.

If you used CryptoJS instead, however, you could convert the octet string (or the hex representation of it) to a WordArray and pass that directly to CryptoJS.SHA1():

var words = CryptoJS.enc.Latin1.parse(ikeypmessage);
hipt = CryptoJS.SHA1(words).toString();

Of course, if you were using CryptoJS, it would be easier and more efficient to convert the key and message to WordArrays to begin with, and then work directly with those. Or you could just use the built-in CryptoJS.HmacSHA1() method.

share|improve this answer
    
Dope! Ok, that doesn't appear to be the only problem though as even after change I still get a mismatch. Did you actually manage to get a match on jsfiddle? –  Xotic750 Apr 18 '13 at 19:19
1  
Nope, you're right, there's still an encoding issue with octets above 127. See edit above. –  Ilmari Karonen Apr 19 '13 at 0:03
    
Disabled UTF8 encoding and use raw strings, updated fiddle, still get different results. So,there is still more to the story. CrytoJS lib is included in the fiddle, so you can try with its functions if you would like. This is an exercise of learning, not just using someone else's code for a result, and I would most likely use Stanford's crypto library if it was :) –  Xotic750 Apr 19 '13 at 11:29
1  
That's strange. If I replace the line hipt = $u.sha1(ikeypmessage, utf8encoding); in your jsFiddle with the two lines I gave above, with no other changes, the Error goes away. Anyway, you should first make sure that your SHA-1 implementation matches the CryptoJS one, even for arbitrary byte sequences and not just for ASCII text. Once you do that, correctly implementing HMAC should be easier. –  Ilmari Karonen Apr 19 '13 at 14:41
    
I haven't forgotten about this and will be looking at it during the comming week, thanks. –  Xotic750 Apr 21 '13 at 12:33
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