'use strict';

var chai = chai || require('chai');
var bitcore = bitcore || require('../bitcore');
var should = chai.should();
var assert = chai.assert;
var SecureRandom = bitcore.SecureRandom;

describe('SecureRandom', function() {

  describe('getRandomBuffer', function() {

    it('should return a buffer', function() {
      var bytes = SecureRandom.getRandomBuffer(8);
      bytes.length.should.equal(8);
      Buffer.isBuffer(bytes).should.equal(true);
    });

    it('should not equate two 256 bit random buffers', function() {
      var bytes1 = SecureRandom.getRandomBuffer(32);
      var bytes2 = SecureRandom.getRandomBuffer(32);
      bytes1.toString('hex').should.not.equal(bytes2.toString('hex'));
    });

  });

  describe('getPseudoRandomBuffer', function() {

    it('should generate 7 random bytes', function() {
      var buf = SecureRandom.getPseudoRandomBuffer(7);
      buf.length.should.equal(7);
    });

    it('should generate 8 random bytes', function() {
      var buf = SecureRandom.getPseudoRandomBuffer(8);
      buf.length.should.equal(8);
    });

    it('should generate 9 random bytes', function() {
      var buf = SecureRandom.getPseudoRandomBuffer(9);
      buf.length.should.equal(9);
    });

    it('should generate 90 random bytes', function() {
      var buf = SecureRandom.getPseudoRandomBuffer(90);
      buf.length.should.equal(90);
    });

    it('should generate two 8 byte buffers that are not equal', function() {
      var buf1 = SecureRandom.getPseudoRandomBuffer(8);
      var buf2 = SecureRandom.getPseudoRandomBuffer(8);
      buf1.toString('hex').should.not.equal(buf2.toString('hex'));
    });

  });

});