Elliptic Curve Diffie-Hellman and AES Example in Node.JS

Recently I learned how to generate shared secrets using ECDH in Node.JS, but I still had to know how to use this shared secret. Here is one application for it. Use the ECDH to generate a shared secret and then use that shared secret to cipher/decipher messages between both parties, in this case Joe and Zoe. Here is the code: …

How to list supported Ciphers, Hashes, and Curves for Crypto in Node.JS

Not a complicated task. Here is the code: var crypto = require(‘crypto’); console.log(); console.log(‘[ SUPPORTED CIPHERS ]\n’) console.log(crypto.getCiphers()); console.log(); console.log(‘[ SUPPORTED HASHES ]\n’) console.log(crypto.getHashes()); console.log(); console.log(‘[ SUPPORTED CURVES ]\n’) console.log(crypto.getCurves()); Your output should be similar to this: E:\Codes\NodeJS\Cryptography>node listAllAlgorithms.js [ SUPPORTED CIPHERS ] [ ‘CAST-cbc’, ‘aes-128-cbc’, ‘aes-128-cbc-hmac-sha1’, ‘aes-128-cbc-hmac-sha256’, ‘aes-128-ccm’, ‘aes-128-cfb’, ‘aes-128-cfb1’, ‘aes-128-cfb8’, ‘aes-128-ctr’, ‘aes-128-ecb’, ‘aes-128-gcm’, ‘aes-128-ofb’, ‘aes-128-xts’, ‘aes-192-cbc’, ‘aes-192-ccm’, ‘aes-192-cfb’, …

How to Encrypt / Decrypt with AES in Java 1.8

Here I have created a class that does it in two different ways, the first one is, when you create the key, and the other is when you are given the key, valid key sizes are 128, 192, and 256 for AES algorithm. There is some steps to follow before executing the code provied, if you don’t probably this class …