# frozen_string_literal: false require_relative 'utils' if defined?(OpenSSL::TestUtils) class OpenSSL::TestBN < OpenSSL::TestCase def test_new_str e1 = OpenSSL::BN.new(999.to_s(16), 16) # OpenSSL::BN.new(str, 16) must be most stable e2 = OpenSSL::BN.new((2**107-1).to_s(16), 16) assert_equal(e1, OpenSSL::BN.new("999")) assert_equal(e2, OpenSSL::BN.new((2**107-1).to_s)) assert_equal(e1, OpenSSL::BN.new("999", 10)) assert_equal(e2, OpenSSL::BN.new((2**107-1).to_s, 10)) assert_equal(e1, OpenSSL::BN.new("\x03\xE7", 2)) assert_equal(e2, OpenSSL::BN.new("\a\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF", 2)) assert_equal(e1, OpenSSL::BN.new("\x00\x00\x00\x02\x03\xE7", 0)) assert_equal(e2, OpenSSL::BN.new("\x00\x00\x00\x0E\a\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF", 0)) end def test_new_bn e1 = OpenSSL::BN.new(999.to_s(16), 16) e2 = OpenSSL::BN.new((2**107-1).to_s(16), 16) assert_equal(e1, OpenSSL::BN.new(e1)) assert_equal(e2, OpenSSL::BN.new(e2)) end def test_new_integer assert_equal(999.to_bn, OpenSSL::BN.new(999)) assert_equal((2 ** 107 - 1).to_bn, OpenSSL::BN.new(2 ** 107 - 1)) assert_equal(-999.to_bn, OpenSSL::BN.new(-999)) assert_equal((-(2 ** 107 - 1)).to_bn, OpenSSL::BN.new(-(2 ** 107 - 1))) end def test_to_bn e1 = OpenSSL::BN.new(999.to_s(16), 16) e2 = OpenSSL::BN.new((2**107-1).to_s(16), 16) assert_equal(e1, 999.to_bn) assert_equal(e2, (2**107-1).to_bn) end def test_prime_p assert_equal(true, OpenSSL::BN.new((2 ** 107 - 1).to_s(16), 16).prime?) assert_equal(true, OpenSSL::BN.new((2 ** 127 - 1).to_s(16), 16).prime?(1)) end def test_cmp bn1 = OpenSSL::BN.new('1') bn2 = OpenSSL::BN.new('1') bn3 = OpenSSL::BN.new('2') assert_equal(false, bn1 == nil) assert_equal(true, bn1 != nil) assert_equal(true, bn1 == bn2) assert_equal(false, bn1 == bn3) assert_equal(true, bn1.eql?(bn2)) assert_equal(false, bn1.eql?(bn3)) assert_equal(bn1.hash, bn2.hash) assert_not_equal(bn3.hash, bn1.hash) end end end