When I was implementing ChaCha20 in JavaScript, I stumbled upon some strange behavior.

My first version was build like this (let's call it "Encapsulated Version"):

```
function quarterRound(x, a, b, c, d) {
x[a] += x[b]; x[d] = ((x[d] ^ x[a]) << 16) | ((x[d] ^ x[a]) >>> 16);
x[c] += x[d]; x[b] = ((x[b] ^ x[c]) << 12) | ((x[b] ^ x[c]) >>> 20);
x[a] += x[b]; x[d] = ((x[d] ^ x[a]) << 8) | ((x[d] ^ x[a]) >>> 24);
x[c] += x[d]; x[b] = ((x[b] ^ x[c]) << 7) | ((x[b] ^ x[c]) >>> 25);
}
function getBlock(buffer) {
var x = new Uint32Array(16);
for (var i = 16; i--;) x[i] = input[i];
for (var i = 20; i > 0; i -= 2) {
quarterRound(x, 0, 4, 8,12);
quarterRound(x, 1, 5, 9,13);
quarterRound(x, 2, 6,10,14);
quarterRound(x, 3, 7,11,15);
quarterRound(x, 0, 5,10,15);
quarterRound(x, 1, 6,11,12);
quarterRound(x, 2, 7, 8,13);
quarterRound(x, 3, 4, 9,14);
}
for (i = 16; i--;) x[i] += input[i];
for (i = 16; i--;) U32TO8_LE(buffer, 4 * i, x[i]);
input[12]++;
return buffer;
}
```

To reduce unnecessary function calls (with parameter overhead etc.) I removed the `quarterRound`

-function and put it's contents inline (it's correct; I verified it against some test vectors):

```
function getBlock(buffer) {
var x = new Uint32Array(16);
for (var i = 16; i--;) x[i] = input[i];
for (var i = 20; i > 0; i -= 2) {
x[ 0] += x[ 4]; x[12] = ((x[12] ^ x[ 0]) << 16) | ((x[12] ^ x[ 0]) >>> 16);
x[ 8] += x[12]; x[ 4] = ((x[ 4] ^ x[ 8]) << 12) | ((x[ 4] ^ x[ 8]) >>> 20);
x[ 0] += x[ 4]; x[12] = ((x[12] ^ x[ 0]) << 8) | ((x[12] ^ x[ 0]) >>> 24);
x[ 8] += x[12]; x[ 4] = ((x[ 4] ^ x[ 8]) << 7) | ((x[ 4] ^ x[ 8]) >>> 25);
x[ 1] += x[ 5]; x[13] = ((x[13] ^ x[ 1]) << 16) | ((x[13] ^ x[ 1]) >>> 16);
x[ 9] += x[13]; x[ 5] = ((x[ 5] ^ x[ 9]) << 12) | ((x[ 5] ^ x[ 9]) >>> 20);
x[ 1] += x[ 5]; x[13] = ((x[13] ^ x[ 1]) << 8) | ((x[13] ^ x[ 1]) >>> 24);
x[ 9] += x[13]; x[ 5] = ((x[ 5] ^ x[ 9]) << 7) | ((x[ 5] ^ x[ 9]) >>> 25);
x[ 2] += x[ 6]; x[14] = ((x[14] ^ x[ 2]) << 16) | ((x[14] ^ x[ 2]) >>> 16);
x[10] += x[14]; x[ 6] = ((x[ 6] ^ x[10]) << 12) | ((x[ 6] ^ x[10]) >>> 20);
x[ 2] += x[ 6]; x[14] = ((x[14] ^ x[ 2]) << 8) | ((x[14] ^ x[ 2]) >>> 24);
x[10] += x[14]; x[ 6] = ((x[ 6] ^ x[10]) << 7) | ((x[ 6] ^ x[10]) >>> 25);
x[ 3] += x[ 7]; x[15] = ((x[15] ^ x[ 3]) << 16) | ((x[15] ^ x[ 3]) >>> 16);
x[11] += x[15]; x[ 7] = ((x[ 7] ^ x[11]) << 12) | ((x[ 7] ^ x[11]) >>> 20);
x[ 3] += x[ 7]; x[15] = ((x[15] ^ x[ 3]) << 8) | ((x[15] ^ x[ 3]) >>> 24);
x[11] += x[15]; x[ 7] = ((x[ 7] ^ x[11]) << 7) | ((x[ 7] ^ x[11]) >>> 25);
x[ 0] += x[ 5]; x[15] = ((x[15] ^ x[ 0]) << 16) | ((x[15] ^ x[ 0]) >>> 16);
x[10] += x[15]; x[ 5] = ((x[ 5] ^ x[10]) << 12) | ((x[ 5] ^ x[10]) >>> 20);
x[ 0] += x[ 5]; x[15] = ((x[15] ^ x[ 0]) << 8) | ((x[15] ^ x[ 0]) >>> 24);
x[10] += x[15]; x[ 5] = ((x[ 5] ^ x[10]) << 7) | ((x[ 5] ^ x[10]) >>> 25);
x[ 1] += x[ 6]; x[12] = ((x[12] ^ x[ 1]) << 16) | ((x[12] ^ x[ 1]) >>> 16);
x[11] += x[12]; x[ 6] = ((x[ 6] ^ x[11]) << 12) | ((x[ 6] ^ x[11]) >>> 20);
x[ 1] += x[ 6]; x[12] = ((x[12] ^ x[ 1]) << 8) | ((x[12] ^ x[ 1]) >>> 24);
x[11] += x[12]; x[ 6] = ((x[ 6] ^ x[11]) << 7) | ((x[ 6] ^ x[11]) >>> 25);
x[ 2] += x[ 7]; x[13] = ((x[13] ^ x[ 2]) << 16) | ((x[13] ^ x[ 2]) >>> 16);
x[ 8] += x[13]; x[ 7] = ((x[ 7] ^ x[ 8]) << 12) | ((x[ 7] ^ x[ 8]) >>> 20);
x[ 2] += x[ 7]; x[13] = ((x[13] ^ x[ 2]) << 8) | ((x[13] ^ x[ 2]) >>> 24);
x[ 8] += x[13]; x[ 7] = ((x[ 7] ^ x[ 8]) << 7) | ((x[ 7] ^ x[ 8]) >>> 25);
x[ 3] += x[ 4]; x[14] = ((x[14] ^ x[ 3]) << 16) | ((x[14] ^ x[ 3]) >>> 16);
x[ 9] += x[14]; x[ 4] = ((x[ 4] ^ x[ 9]) << 12) | ((x[ 4] ^ x[ 9]) >>> 20);
x[ 3] += x[ 4]; x[14] = ((x[14] ^ x[ 3]) << 8) | ((x[14] ^ x[ 3]) >>> 24);
x[ 9] += x[14]; x[ 4] = ((x[ 4] ^ x[ 9]) << 7) | ((x[ 4] ^ x[ 9]) >>> 25);
}
for (i = 16; i--;) x[i] += input[i];
for (i = 16; i--;) U32TO8_LE(buffer, 4 * i, x[i]);
input[12]++;
return buffer;
}
```

But the performance result was not quite as expected:

vs.

While the performance difference under Firefox and Safari is neglectible or not important the performance cut under Chrome is HUGE... Any ideas why this happens?

P.S.: If the images are to small, open them in a new tab :)

PP.S.: Here are the links: