Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Testing the Javascript Implementation of MD5 here: http://www.webtoolkit.info/javascript-md5.html gives the following output:

MD5("muzaaya") = "00e081abefbbbf72b2d5258196a9b6d0"

Going to my erlang shell, and calculating the MD5 of the same value i get this:

Eshell V5.8.4  (abort with ^G)
1> erlang:md5("muzaaya").
<<0,224,129,171,239,187,191,114,178,213,37,129,150,169,
  182,208>>
2>

How can i compare the two? If the MD5 result from the JavaScript front end app comes to my Erlang backend, i would like to be able to compare the two Digests. How can i match the Javascript MD5 digest to that of Erlang?

share|improve this question
4  
sacharya.com/md5-in-erlang –  Wrikken Jul 25 '11 at 15:12
    
thank you so much! , @Wrikken –  Muzaaya Joshua Jul 25 '11 at 15:23
1  
Hm, just so you know, enchantedage.com/node/199 is probably more correct... –  Wrikken Jul 25 '11 at 15:33
add comment

5 Answers

up vote 10 down vote accepted

And MD5 hash is in essence a 128-bit number.

You receive the MD5 value in Erlang as a binary of 16 characters (16 * 8 = 128). Each number in that binary has to be converted into hexadecimal to be comparable to JavaScript's MD5 output (which is a hexadecimal string):

2> lists:flatten([io_lib:format("~2.16.0b", [B]) || <<B>> <= MD5]).
"00e081abefbbbf72b2d5258196a9b6d0"

First, we take each byte from the binary and use the io_lib module to format it to a hexadecimal string. Then we use the flatten function to display it as a readable string (although this isn't necessary if you're going to write the value to a file or a socket since they are able to handle deep io lists, nested lists of characters or binaries).

The format string used, ~2.16.0b means format an integer (b) using base 16 and padding to width 2 with the padding character 0.

If you want a binary, you could use the following binary comprehension:

3> << << (list_to_binary(io_lib:format("~2.16.0b", [C])))/binary >>
     || <<C>> <= MD5 >>.
<<"00e081abefbbbf72b2d5258196a9b6d0">>

(Instead of io_lib:format/2 there is also http_util:integer_to_hexlist/1, although I don't know if it is faster)

share|improve this answer
add comment

If you need an one-liner it can be something like this:

1> B = erlang:md5("muzaaya").
<<0,224,129,171,239,187,191,114,178,213,37,129,150,169,
  182,208>>
2> lists:flatten([io_lib:format("~2.16.0b", [C]) || <<C>> <= B]).
"00e081abefbbbf72b2d5258196a9b6d0"
share|improve this answer
add comment

If you want to do it on the JavaScript side you can use this

function md5HexToArray ( hexStr ) {  
  var i, arr = [], arraylength = hexStr.length/2;

  for( i = 0; i < arraylength ; i++ ) {
     arr[i] = parseInt( hexStr.substr(i*2,2), 16) ;
  }

  return arr;
};

But @Wrikken's comment looks like it should work just fine too.

share|improve this answer
add comment

Here's bitstring comprehension version, probably the fastest and most memory efficient:

hstr(B) when is_binary(B) ->
    T = {$0,$1,$2,$3,$4,$5,$6,$7,$8,$9,$a,$b,$c,$d,$e,$f},
    << <<(element(X bsr 4 + 1, T)), (element(X band 16#0F + 1, T))>>
    || <<X:8>> <= B >>.

3> M:hstr(erlang:md5("muzaaya")).

4> <<"00e081abefbbbf72b2d5258196a9b6d0">>

share|improve this answer
add comment

Yet another and faster version:

hstr(B) when is_binary(B) ->
  << <<(hex(A)), (hex(B))>> || <<A:4,B:4>> <= B >>.

-compile({inline, [hex/1]}).

hex(0)  -> $0;
hex(1)  -> $1;
hex(2)  -> $2;
hex(3)  -> $3;
hex(4)  -> $4;
hex(5)  -> $5;
hex(6)  -> $6;
hex(7)  -> $7;
hex(8)  -> $8;
hex(9)  -> $9;
hex(10) -> $a;
hex(11) -> $b;
hex(12) -> $c;
hex(13) -> $d;
hex(14) -> $e;
hex(15) -> $f.

but the fastest version will be

md5_hex(L) ->
  << A1:4, A2:4,  A3:4,  A4:4,  A5:4,  A6:4,  A7:4,  A8:4,
    A9:4,  A10:4, A11:4, A12:4, A13:4, A14:4, A15:4, A16:4,
    A17:4, A18:4, A19:4, A20:4, A21:4, A22:4, A23:4, A24:4,
    A25:4, A26:4, A27:4, A28:4, A29:4, A30:4, A31:4, A32:4
    >> = erlang:md5(L),
  << (hex(A1)), (hex(A2)),  (hex(A3)),  (hex(A4)),
    (hex(A5)),  (hex(A6)),  (hex(A7)),  (hex(A8)),
    (hex(A9)),  (hex(A10)), (hex(A11)), (hex(A12)),
    (hex(A13)), (hex(A14)), (hex(A15)), (hex(A16)),
    (hex(A17)), (hex(A18)), (hex(A19)), (hex(A20)),
    (hex(A21)), (hex(A22)), (hex(A23)), (hex(A24)),
    (hex(A25)), (hex(A26)), (hex(A27)), (hex(A28)),
    (hex(A29)), (hex(A30)), (hex(A31)), (hex(A32)) >>.

but you should not have to do this optimization.

EDIT: This version of hex/1 is even faster:

hex(X) ->
  element(X+1, {$0, $1, $2, $3, $4, $5, $6, $7, $8, $9, $a, $b, $c, $d, $e, $f}).
share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.