# Problems understanding Bit length and String Bitt things in Javascript/Typescript with Crypto-JS

I am a little lost on this one...

I have a special key i need to send to a device in a specified format, and i know that what i am doing is wrong - obviously, because i lack the basic understanding of bit stuff in Javascript, i think.

The first step is to generate a random 128 bit number. Since afaik JS characters are 16 bit, the following code should generate a 128 bit string, doesn't it?

``````private generateSeed()
{
let result = '';

for(let i = 0; i < 8; i++)
result += ((Math.random() * 10) - 1).toString();

return result;
}
``````

After that i need to concatenate the seed and the key, calculate the SHA1 of that and padd that SHA1 to 192 bit with zeroes. ``````private generateAKey(seed: string)
{
const Provided_KEY = '[32 random characters are in here]';
let concat = seed + Provided_KEY;

let sha1 = crypto.SHA1(concat).toString();
console.log(`SHA1: \${sha1} , Length: \${sha1.length}`);

// Padd to 192 bit/24 bytes
while(sha1.length < 12)
sha1 += '0';

return sha1;
}
``````

But i am totally lost here. I am pretty sure i am wrong with that. Also since the SHA1 i calculate with crypto-js is already 40 characters long this makes no sense for me.

How do i correctly do this?

• `((Math.random() * 10) - 1).toString()` doesn't really make sense. Jul 11 '19 at 21:39
• Usually with the crypto libraries, you need to make use of Uint8Arrays. To generate exactly 16 bytes (or 16 bytes * 8 bits/byte = 128 bits) of random data, you can use something along the lines of... `x = new Uint8Array(16); for (let i = 0; i < x.length; i++) { x[i] = Math.floor(Math.random() * 256)} console.log(x);` Jul 12 '19 at 19:14
• BTW, if you need to convert the Uint8Array to a utf-8 string, you can apply the following... `var str = new TextDecoder("utf-8").decode(x);` See stackoverflow.com/questions/8936984/… for more examples. Jul 12 '19 at 19:27
• Sorry about the peppering of comments... Regarding sha1, it is a 20 byte hash. If you're seeing 40 bytes, it likely due to the hash value being converted into the hexadecimal representation. Eg, a byte value of 255 is equivalent to "FF" hex. If the key your sending requires a 192 bit (24 byte) padded sha1 hash, then it's looking for the byte-by-byte value of the hash as opposed to the hex representation. Jul 13 '19 at 0:00
• Don't use Math.random for cryptography. Use a secure RNG instead: developer.mozilla.org/en-US/docs/Web/API/Crypto/getRandomValues. Jul 13 '19 at 13:38