// https://tools.ietf.org/html/rfc7539
import {MASK,int32s2bytes,bytes2int32s} from "./util.js";
function lrot(x,shift){
return (x<>>(32-shift))&MASK;
}
function createNonce(){
let nonce=new Uint8Array(12);
window.crypto.getRandomValues(nonce);
return nonce;
}
function zeroPad(arr,length){
return arr.concat((new Array(length)).fill(0)).slice(0,length);
}
/**
* A Chacha20 cipher class.
* @param {Array} key Array of bytes (integers: 0<=x<256). Short keys are padded to 32B, long keys are silently truncated.
* @param {Array} nonce optional. If present, it must be an Array of bytes (integers: 0<=x<256). Short nonces are padded to 12B, long nonces are silently truncated.
*/
export function Chacha20(key,nonce){
if(nonce===undefined){
nonce=createNonce();
}
this._nonce=zeroPad(nonce,12);
nonce=bytes2int32s(this._nonce);
key=bytes2int32s(zeroPad(key,32));
this._state=[
0x61707865,0x3320646e,0x79622d32,0x6b206574,
key[0],key[1],key[2],key[3],
key[4],key[5],key[6],key[7],
1,nonce[0],nonce[1],nonce[2]
];
this._buffer=[];
}
Chacha20.prototype.setPos=function(pos){
this._state[12]=pos;
this._buffer=[];
}
Chacha20.prototype.getByte=function(){
if(this._buffer.length==0){
this._buffer=int32s2bytes(this._computeBlock());
this._incrementPos();
}
return this._buffer.shift();
};
Chacha20.prototype.getNonce=function(){
return this._nonce.concat();
};
Chacha20.prototype._quarterRound=function(arr,ia,ib,ic,id){
let a=arr[ia], b=arr[ib], c=arr[ic], d=arr[id];
a=(a+b)&MASK; d=lrot(d^a,16);
c=(c+d)&MASK; b=lrot(b^c,12);
a=(a+b)&MASK; d=lrot(d^a,8);
c=(c+d)&MASK; b=lrot(b^c,7);
arr[ia]=a; arr[ib]=b; arr[ic]=c; arr[id]=d;
};
Chacha20.prototype._computeBlock=function(){
let state=this._state.slice();
for(let i=0;i<10;i++){ // 10 double rounds
// column round
this._quarterRound(state,0,4,8,12);
this._quarterRound(state,1,5,9,13);
this._quarterRound(state,2,6,10,14);
this._quarterRound(state,3,7,11,15);
// diagonal round
this._quarterRound(state,0,5,10,15);
this._quarterRound(state,1,6,11,12);
this._quarterRound(state,2,7,8,13);
this._quarterRound(state,3,4,9,14);
}
return state.map((xi,i)=>(xi+this._state[i])&MASK);
};
Chacha20.prototype._incrementPos=function(){
this._state[12]=(this._state[12]+1)&MASK;
};
export function encrypt(data,key,nonce){
let cipher=new Chacha20(key,nonce);
nonce=cipher.getNonce();
return nonce.concat(data.map(b=>b^cipher.getByte()));
}
export function decrypt(data,key){
let nonce=data.slice(0,12);
let ciphertext=data.slice(12);
let cipher=new Chacha20(key,nonce);
return ciphertext.map(b=>b^cipher.getByte());
}