# javascript equivalent of bcpowmod

I'm coding a javascript version that can decode a RSA encryption I made in PHP. everything works fine except I don't have a javascript equivalent of bcpowmod.

I used the PHP JS library for the other functions but it doesn't have bcpowmod.

If I use default math operators like: (pow(block,q)) % r I get NAN.

Is there a way or js library that can work for me?

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Could you define the algorithm? Is it `f( a, b, c ) = a ^ b mod c`? – Šime Vidas Aug 23 '12 at 21:44
For what input values exactly do you get NaN? – Šime Vidas Aug 23 '12 at 21:44
For testing purpose I used a 128 bit RSA key pair. This are the values: block=680775076861010809656303294568015608270 q=94354249269619201763195130154376477531 and r=128 – Barry_127 Aug 24 '12 at 19:34
I tried my own algorithm with regular operators but I think the values are to big for a integer, single or even float variable – Barry_127 Aug 24 '12 at 19:38

bcpowmod is very tuff tough in javascript. Here's the code to do it. I just posted an entire library for anyone to use to employ RSA RC4 encryption in their web sites, but was promptly shot down by a moderator, Brad Larson. He said, they don't want this kind of stuff at Stack Overflow. Anyway here's the code for you.

Java script is slow at this. So I do it in multiple steps so javascript has time to show a progress bar or something. I had to write my own bcmath package to do it. You can see the whole library of encryption functions ready to go at http://jerrywickey.com/test/testJerrysLibrary.php

You need arbitrary precision multiply, divide, subtract and compare. So they are all here. the actual bcpowmod is done in multiple steps because it just takes so long.

When the calculations are done, it calls the function named in the callback parameter with the result. Swap a and b back and forth to get it to work for you, just incase we are using different terms for the RSA public, private and modulo values. Use just the alphanumeric name for the callback function. Don't use the parenthesis.

``````bcpowmod( 'plain text', RSAp, RSAq, 'myCallBackForResult');

function myCallBackForResult( result){
alert ( result + ' of powmod');
}

function bcpowmod( str, a, b, callback){
RSAencryptStep( (''+str), (''+a), (''+b), '1', callback, 0);
}

function RSAencryptStep( str, a, b, result, callback, count){
count++;
if ( JL_bccomp( JL_bcmod( a, '2'), '1')==0) {
result = JL_bcmod( JL_bcmul( result, str), b);
}
str= JL_bcmod( JL_bcmul( str, str), b);
a= JL_bcdiv( a, '2');
if ( JL_bccomp( a, '0')!=0){
var e= "RSAencryptStep('" +str+"','" +a+"','" +b+"','" +result+"','" +callback +"'," +count+")";
setTimeout( e, 10);
clearTimeout( JL_crytime);
try{
ge('cryptocount').innerHTML= ( 60 - count);
}catch(e){}
}else{
eval( callback+'("'+ result+'")' );
}
}

function JL_bccomp( a, b){
if (a.length > b.length){ return 1; }
if (a.length < b.length){ return -1; }
var i= 0; while ( a.charAt(i)==b.charAt(i) && ++i<a.length){ }
if ( i==a.length){ return 0; }
if ( parseInt( a.charAt(i)) > parseInt( b.charAt(i))){ return 1; }
return -1;
}

var zero= '00000000000000000000'; while ( zero.length < a.length + b.length){ zero+= ''+zero; }
if ( a.length < b.length){ a= ''+ zero.substring( 0, ( b.length - a.length )) + a; }
if ( b.length < a.length){ b= ''+ zero.substring( 0, ( a.length - b.length )) + b; }
var s= ('0'+a).split('');
var t= 0;
for (var i=0; i<a.length; i++){
t= parseInt( s[s.length-i-1]) + parseInt( b.charAt( b.length-i-1));;
if (t > 9){
s[s.length-i-1]= t - 10;
s[s.length-i-2]= parseInt( s[s.length-i-2]) + 1;
}else{
s[s.length-i-1]= t;
}
}
return trim( trim(( s.join('')+' '), '0'), '');
}

function JL_bcsub( a, b){
var x= JL_bccomp( a, b);
if ( x==0){
return '0';
}
var minus= '';
if ( x < 0){
var x= a;
a= b;
b= x;
minus= '-';
}
var s= a.split('');
var t= 0;
for (var i=0; i<s.length; i++){
t= parseInt(s[s.length-i-1]);
if ( i<b.length){ t= t - parseInt( b.charAt( b.length-i-1)); }
if ( t<0){
s[s.length-i-1]= t + 10;
s[s.length-i-2]= s[s.length-i-2] - 1;
}else{
s[s.length-i-1]= parseInt( t);
}
}
return minus + trim( trim(( s.join('')+' '), '0'), '');
}

function JL_bcmul( a, b){
var s= [];
for (var i=0; i < a.length + b.length; i++){ s[i]= 0; }
var t= 0;
for (i=0; i<b.length; i++){
for (var j=0; j<a.length; j++){
t= s[i+j] + ( parseInt( a.charAt( a.length - j - 1)) * parseInt( b.charAt( b.length - i - 1)));
s[i+j]= t % 10;
s[i+j+1]= s[i+j+1] + Math.floor( t / 10);
}
}
s.reverse();
return trim( trim(( s.join('')+' '), '0'), '');
}

function JL_bcdiv( a, b){
var r= '0';
var rr= '1';
var e= b;
var rrs= [];
var es= [];
var i= 0;
while( JL_bccomp( a, b) >= 0){
rr= '1';
e= b;
i= 0;
while( JL_bccomp( a, e) >= 0){
a= JL_bcsub( a, e);
if ( typeof es[i] == 'undefined'){
es[i]= JL_bcmul( e, '2');
rrs[i]= JL_bcmul( rr, '2');
}
e= es[i];
rr= rrs[i];
i++;
}
}
// a is the remainder
return r;
}

function JL_bcmod( a, m){
var s= [];
var e= m;
var i= 0;
while( JL_bccomp( a, m) >= 0){
e= m;
i= 0;
while( JL_bccomp( a, e) >= 0){
a= JL_bcsub( a, e);
if ( typeof s[i] == 'undefined'){
s[i]= JL_bcmul( e, '2');
}
e= s[i];
i++;
}
}
return a;
}
``````
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Thanks a lot, your library is exactly what I was looking for. Decryption at client side :-) – Barry_127 Feb 19 '14 at 20:44