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Recently a problem arose regarding hooking up an API with a payment processor who were requesting a string to be encrypted to be used as a token, using the TripleDES standard. Our Applications run using ColdFusion, which has an Encrypt tag - that supports TripleDES - however the result we were getting back was not what the payment processor expected.

First of all, here is the resulting token the payment processor were expecting.


And below is the snippet of ColdFusion we were using, and the resulting string.

<!--- Coldfusion Crypt (here be monsters) --->
<cfset theKey="123412341234123412341234">
<cfset theString = "username=test123">
<cfset strEncodedEnc = Encrypt(theString, theKey, "DESEDE", "Base64")>
 resulting string(strEncodedEnc): tc/Jb7E9w+HpU2Yvn5dA7ILGmyNTQM0h

As you can see, this was not returning the string we were hoping for. Seeking a solution, we ditched ColdFusion for this process and attempted to reproduce the token in PHP.

Now I'm aware that various languages implement encryption in different ways - for example in the past managing encryption between a C# application and PHP back-end, I've had to play about with padding in order to get the two to talk, but my experience has been that PHP generally behaves when it comes to encryption standards.

Anyway, on to the PHP source we tried, and the resulting string.

/* PHP Circus (here be Elephants) */
$strEncodedEnc=base64_encode(mcrypt_ecb (MCRYPT_3DES, $theKey, $theString, MCRYPT_ENCRYPT));
 resulting string(strEncodedEnc): sfiSu4mVggia8Ysw98x0uw==

As you can plainly see, we've got another string that differs from both the string expected by the payment processor AND the one produced by ColdFusion. Cue head-against-wall integration techniques.

After many to-and-fro communications with the payment processor (lots and lots of reps stating 'we can't help with coding issues, you must be doing it incorrectly, read the manual') we were finally escalated to someone with more than a couple of brain-cells to rub together, who was able to step back and actually look at and diagnose the issue.

He agreed, our CF and PHP attempts were not resulting in the correct string. After a quick search, he also agreed that it was not neccesarily our source, but rather how the two languages implemented their vision of the TripleDES standard.

Coming into the office this morning, we were met by an email with a snippet of source code, in Perl. This is was the code they were directly using on their end to produce the expected token.

# Perl Crypt Calamity (here be...something)
use strict;
use CGI;
use MIME::Base64;
use Crypt::TripleDES;

my $cgi = CGI->new();
my $param = $cgi->Vars();

$param->{key} = "123412341234123412341234";
$param->{string} = "username=test123";
my $des = Crypt::TripleDES->new();

my $enc = $des->encrypt3($param->{string}, $param->{key});
$enc = encode_base64($enc);
$enc =~ s/\n//gs;

# resulting string (enc): AYOF+kRtg239Mnyc8QIarw==

So, there we have it. Three languages, three implementations of what they quote in the documentation as TripleDES Standard Encryption, and three totally different resulting strings.

My question is, from your experience of these three languages and their implementations of the TripleDES algorithm, have you been able to get any two of them to give the same response, and if so what tweaks to the code did you have to make in order to come to the result?

I understand this is a very drawn out question, but I wanted to give clear and precise setting for each stage of testing that we had to perform.

I'll also be performing some more investigatory work on this subject later, and will post any findings that I come up with to this question, so that others may avoid this headache.

share|improve this question
To all that have provided answers, thank you. While they are working with the provided key '123412341234..' I believe that is only because it, in itself is readable as a HEX string. The actual keys that will be provided in production can consist of 'a-zA-Z0-9'. This would be why the key has required extra padding, I believe, as I was anticipating a 24 character key = 48 bits. I've attempted converting the characters in the key (example key = AZ98AZ98AZ98AZ98AZ98AZ98) to no avail. I feel cheeky asking, but do you have any idea what I could be doing wrong this time? My thanks. – Seidr May 12 '10 at 14:33
Given the sample string and key AZ98AZ98AZ98AZ98AZ98AZ98, what is the expected result? – Leigh May 13 '10 at 22:18
The expected result from Perl would be '0hFW36tDJIfDX54BwugjSA=='. Going from ZZ Coders advice below regarding Perls behaviour with pack, I've been unable to replicate this in PHP. – Seidr May 14 '10 at 7:55
up vote 7 down vote accepted

The Perl's TripleDES should never be used. It does so many weird things and you are going to have fun.

Your first problem is that the keys in Perl are hex and you need to convert them into binary. Try this in PHP,

$key = pack('H*', str_pad($theKey, 16*3, '0'));
$strEncodedEnc=base64_encode(mcrypt_ecb (MCRYPT_3DES, $key, $theString, MCRYPT_ENCRYPT));
echo $strEncodedEnc, "\n";

The result is,


Then you have to pad it in a weird way. I forgot the details. You are lucky with this sample (it's 16 chars).

share|improve this answer
Fantastic, that makes sense. Yes - you must pad strings whose length are not multiples of 8 with CHR(32). Thanks for this ZZ Coder - this takes care of PHP<->Perl. Using this information I should hopefully be able to wrangle ColdFusion into place as well. – Seidr May 12 '10 at 11:01
Using this same method, I've managed to get the erroneous result I was getting in PHP in ColdFusion using the javax.crypto.Cipher object. Getting it any further though, is proving difficult. – Seidr May 12 '10 at 12:54
As mentioned in my comment above, this works fine with a string that is already acceptable as a hex string, but the key can be any combination of a-zA-Z0-9. It seems the problem lays in PHPs pack function. Perls pack function can handle non-hexadecimal characters, however PHPs cannot. – Seidr May 12 '10 at 15:13
Perl pack treats all illegal hex chars as '0'. This is so broken. You are destroying all the entropies in the key. Are you sure you want use this payment company? – ZZ Coder May 12 '10 at 16:10
I see, I should be able to easily compensate for that. Unfortunately we do not have much choice in the matter, as the client this is for is rather established with them and as such would not want to move away. Thanks for your insight. – Seidr May 13 '10 at 7:27

Oh, this is fun!

> hex clear_text
0000  75 73 65 72 6e 61 6d 65  3d 74 65 73 74 31 32 33  username =test123

> openssl des3 -in clear_text -out crypt_text
enter des-ede3-cbc encryption password: 123412341234123412341234
Verifying - enter des-ede3-cbc encryption password: 123412341234123412341234

> hex crypt_text
0000  53 61 6c 74 65 64 5f 5f  d7 1b 37 a6 e0 c4 99 d1  Salted__ ..7.....
0010  ce 39 7f 87 5e 8b e8 8a  27 ca 39 41 58 01 38 16  .9..^... '.9AX.8.
0020  a5 2b c8 14 ed da b7 d5                           .+......

> base64 crypt_text

> openssl version
OpenSSL 0.9.8k 25 Mar 2009

> base64 --version | head -n 1
base64 (GNU coreutils) 7.1

You should talk to a crypto expert, try perhaps the mailing lists openssl-users or dev-tech-crypto@mozilla unless someone useful shows up here.

share|improve this answer
Thanks for the reply daxim - yeah it's providing some entertainment. I'm by no means a crypto expert, but I'm digging through the sources of the extensions for Perl and PHP and am seeing some definate differences in how they implement the standard. I've not got much time at the moment, but I'll have a good old dig through tonight after work. – Seidr May 12 '10 at 10:00
+1. "Entertaining.." that is one way to describe it ;) – Leigh May 12 '10 at 13:48

The Coldfusion Answer:

The first problem is that your key length is not correct for Triple DES. ZZ Coder correctly deduced that it needs to be padded to the correct length with 0's.

The next step is that the key needs to be converted to hex. To do this in CF, we have:

<cfset theKey="123412341234123412341234000000000000000000000000">
<cfset encodedKey = ToBase64(BinaryDecode(theKey, "HEX"))>

The final step is that the result is not being padded either, so we need to specify this in the encryption algorithm in CF:

<cfset strEncodedEnc = Encrypt(theString, encodedKey, "DESEDE/ECB/NoPadding", "Base64")>

The resulting complete code:

<cfset theKey="123412341234123412341234000000000000000000000000">
<cfset encodedKey = ToBase64(BinaryDecode(theKey, "HEX"))>
<cfset theString = "username=test123">
<cfset strEncodedEnc = Encrypt(theString, encodedKey, "DESEDE/ECB/NoPadding", "Base64")>
<cfdump var="#strEncodedEnc#"><br>

results in:

share|improve this answer
Ah, I was on the right track it seems. My thanks Edward :) – Seidr May 12 '10 at 13:36
Edward, would you be able to check out the comment I made, and see if you can ammend your code, if you can see where the problem lays please? Sorry to be a pain..if you cannot, it's no problem - we're running the Perl script as an interim at the moment, it'd just be nice to have it running native in CF. Thanks (the comment is on the main question) – Seidr May 12 '10 at 15:06
Is the key that you're being given just an ascii string? The only thing I can think of that might work is to change the "encodedKey" line to: <cfset encodedKey = ToBase64(theKey)> If theKey is a 24 character string, its the right length. – Edward M Smith May 12 '10 at 17:57

ZZ Coder was nearly there. There's just a few more caveats to why the Perl and PHP codes returned different encryptions.

Firstly, whenever there are invalid hex letters (letters after F), replace them according to the following rule:

  • G->0
  • H->1
  • I->2
  • J->3
  • ...
  • P->9
  • Q->A
  • R->B
  • ...
  • V->F
  • W->0
  • ...
  • Z->3

Using this method, the key for AZ98AZ98AZ98AZ98AZ98AZ98 is A398A398A398A398A398A398000000000000000000000000 (after padding with zeroes).

Secondly, the text to be encrypted should be padded with whitespaces so that the number of characters is divisible by 8. In this example, username=test123 is divisible by 8 so it doesn't need to be padded. But, if it were username=test12, then it needs one whitespace at the end.

The following PHP code returns an encryption that matches the perl encryption

 $key = pack("H*", $theKey);
$input = "username=test123";

$strEncodedEnc=mcrypt_ecb (MCRYPT_3DES, $key, $input, MCRYPT_ENCRYPT);
echo $strEncodedEnc . "<br />";
echo $strEncodedEnc64 . "<br />";
share|improve this answer
Nice! Thanks..I've no idea what this was relating to at work now..but useful to know these things anyway :) – Seidr Jan 25 '12 at 16:04
Just a note to inquiring minds, all lowercase characters are converted the same way: g->0...z->3 – Eric Kigathi Aug 20 '12 at 18:26

There are two problems (or not) with Crypt::TripleDES:

  1. The fact that keys for Crypt::TripleDES are HEX (explained earlier by ZZ Coder). You can hex your key by either using unpack or by using ord/sprintf or a bunch of other methods:

    • $pass = unpack("H*", "YOUR PASSPHRASE"); #pack/unpack version

    • $pass = join('', map { sprintf("%x",$)} map { ord($) } split(//, "YOUR PASS"));

    Crypt::TripleDES pads the pass-phrase with spaces (which was ok for me)

  2. Crypt::TripleDES does whitespace padding only of the plain text. There are numerous padding methods which are used on Java or PHP mcrypt_encrypt:

    • (ie. PKCS5, PKCS7, CMS) - pad with bytes of the same value indicating the number of bytes padded eg: "andrei" -> hex: 61 6e 64 72 65 69 -> padded: 61 6e 64 72 65 69 02 02
    • pad with null characters eg: 61 6e 64 72 65 69 00 00
    • pad with spaces (Crypt::TripleDES already does this)
    • pad with zeros (null chars) except for the last byte which will be the number of padded bytes eg: 61 6e 64 72 65 69 00 02
    • pad with 0x80 followed by null chars eg: 61 6e 64 72 65 69 80 00

Pay attention to your cipher-text, if it matches up until some point but the ending is different then you have a plain-text padding problem. Otherwise you might have a pass-phrase problem, a cipher block mode problem (EBC,CBC,..) or an algorithm problem.

So what I did in Perl to be able to match the cipher-text from Java (which used null chars padding):

my $pass = unpack("H*", "MY PASS");
my $text = "bla bla bla";
my $pad = 8 - (length $text % 8);
$pad = 0 if ( $pad > 7 );
$text .= chr(00) x $pad;

my $des = new Crypt::TripleDES;
my $cipher = $des->encrypt3( $text, $pass );

Hope this helps

share|improve this answer

I'll include the code below for anyone that happens to be working on CCBill upgrade (which sounds like the company referred to in the original post). The PHP functions below will match the output from CCBill's 3DES/TripleDES internal encryption as described in the documentation here:

//Encrypt String using 3DES Key
function encrypt($str,$key){
    $hex_key = hexmod($key);
    $bin_hex_key = pack('H*', str_pad($hex_key, 16*3, '0'));
    //Pad string length to exact multiple of 8
    $str = $str. str_repeat(' ',8-(strlen($str)%8) );   
    $out = base64_encode( mcrypt_ecb(MCRYPT_3DES, $bin_hex_key, $str, MCRYPT_ENCRYPT) );
    //print_r('Key/Hex/Str: '.$key.' -> '.$hex_key.' -> '.$str.' -> '.$out,1);
    return $out;

//Hex Modulus: Converts G-Z/g-z to 0-f (See @Jinyo's Post)
//Necessary to match CCBill's Encryption
function hexmod($str){
    //Convert G-Z & g-z to 0-f
    $ascii_in  = '0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz';
    $ascii_out = '0123456789ABCDEF0123456789ABCDEF0123abcdef0123456789abcdef0123';
    $hex_out = str_replace(str_split($ascii_in),str_split($ascii_out),$str);
    return $hex_out;

$triple_des_key = 'ABCDEFGHIJKLMNOPQRSTUVWX'; // <!-- 24char 3DES Key
$username_string = 'username=<username here>'; // Encrypt this string
$encrypted_username = encrypt($username_string,$triple_des_key); // <-- Output
share|improve this answer

Took me most of an evening, but this is how @Eric Kigathi's solution looks in ruby

def encoding(key, val)
  require "openssl"
  des ='des-ede3')
  des.key = convert_key_to_hex_bin key

  des.padding = 0 #Tell Openssl not to pad
  val += " " until val.bytesize % 8 == 0 #Pad with zeros
  edata = des.update(val) + 
  b64data = Base64.encode64(edata).gsub(/\n/,'')

def convert_key_to_hex_bin(str)
  decoder_ring = Hash['0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz+/'.split(//).zip('0123456789ABCDEF0123456789ABCDEF0123ABCDEF0123456789ABCDEF012345'.split(//))]
  str.gsub!(/./, decoder_ring)
  [str.ljust(16*3, '0')].pack("H*")

Do be careful, though. I'm not quite sure what the + and / convert to at the end. I guessed at 4 and 5, but I can't tell you if that's true.

Hat tip to the encryption code and commentary.

share|improve this answer

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