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ruby--ruby/test/openssl/test_cipher.rb
nobu 311b715483 test: use assert_not_*
git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@53871 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2016-02-19 07:45:58 +00:00

261 lines
6.9 KiB
Ruby

# frozen_string_literal: false
require_relative 'utils'
if defined?(OpenSSL::TestUtils)
class OpenSSL::TestCipher < Test::Unit::TestCase
class << self
def has_cipher?(name)
ciphers = OpenSSL::Cipher.ciphers
# redefine method so we can use the cached ciphers value from the closure
# and need not recompute the list each time
define_singleton_method :has_cipher? do |name|
ciphers.include?(name)
end
has_cipher?(name)
end
def has_ciphers?(list)
list.all? { |name| has_cipher?(name) }
end
end
def setup
@c1 = OpenSSL::Cipher::Cipher.new("DES-EDE3-CBC")
@c2 = OpenSSL::Cipher::DES.new(:EDE3, "CBC")
@key = "\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0"
@iv = "\0\0\0\0\0\0\0\0"
@hexkey = "0000000000000000000000000000000000000000000000"
@hexiv = "0000000000000000"
@data = "DATA"
end
def teardown
@c1 = @c2 = nil
end
def test_crypt
@c1.encrypt.pkcs5_keyivgen(@key, @iv)
@c2.encrypt.pkcs5_keyivgen(@key, @iv)
s1 = @c1.update(@data) + @c1.final
s2 = @c2.update(@data) + @c2.final
assert_equal(s1, s2, "encrypt")
@c1.decrypt.pkcs5_keyivgen(@key, @iv)
@c2.decrypt.pkcs5_keyivgen(@key, @iv)
assert_equal(@data, @c1.update(s1)+@c1.final, "decrypt")
assert_equal(@data, @c2.update(s2)+@c2.final, "decrypt")
end
def test_info
assert_equal("DES-EDE3-CBC", @c1.name, "name")
assert_equal("DES-EDE3-CBC", @c2.name, "name")
assert_kind_of(Fixnum, @c1.key_len, "key_len")
assert_kind_of(Fixnum, @c1.iv_len, "iv_len")
end
def test_dup
assert_equal(@c1.name, @c1.dup.name, "dup")
assert_equal(@c1.name, @c1.clone.name, "clone")
@c1.encrypt
@c1.key = @key
@c1.iv = @iv
tmpc = @c1.dup
s1 = @c1.update(@data) + @c1.final
s2 = tmpc.update(@data) + tmpc.final
assert_equal(s1, s2, "encrypt dup")
end
def test_reset
@c1.encrypt
@c1.key = @key
@c1.iv = @iv
s1 = @c1.update(@data) + @c1.final
@c1.reset
s2 = @c1.update(@data) + @c1.final
assert_equal(s1, s2, "encrypt reset")
end
def test_empty_data
@c1.encrypt
assert_raise(ArgumentError){ @c1.update("") }
end
def test_initialize
assert_raise(RuntimeError) {@c1.__send__(:initialize, "DES-EDE3-CBC")}
assert_raise(RuntimeError) {OpenSSL::Cipher.allocate.final}
end
def test_ctr_if_exists
begin
cipher = OpenSSL::Cipher.new('aes-128-ctr')
cipher.encrypt
cipher.pkcs5_keyivgen('password')
c = cipher.update('hello,world') + cipher.final
cipher.decrypt
cipher.pkcs5_keyivgen('password')
assert_equal('hello,world', cipher.update(c) + cipher.final)
end
end if has_cipher?('aes-128-ctr')
if OpenSSL::OPENSSL_VERSION_NUMBER > 0x00907000
def test_ciphers
OpenSSL::Cipher.ciphers.each{|name|
next if /netbsd/ =~ RUBY_PLATFORM && /idea|rc5/i =~ name
begin
assert_kind_of(OpenSSL::Cipher::Cipher, OpenSSL::Cipher::Cipher.new(name))
rescue OpenSSL::Cipher::CipherError => e
next if /wrap/ =~ name and e.message == 'wrap mode not allowed'
raise
end
}
end
def test_AES
pt = File.read(__FILE__)
%w(ECB CBC CFB OFB).each{|mode|
c1 = OpenSSL::Cipher::AES256.new(mode)
c1.encrypt
c1.pkcs5_keyivgen("passwd")
ct = c1.update(pt) + c1.final
c2 = OpenSSL::Cipher::AES256.new(mode)
c2.decrypt
c2.pkcs5_keyivgen("passwd")
assert_equal(pt, c2.update(ct) + c2.final)
}
end
def test_AES_crush
500.times do
assert_nothing_raised("[Bug #2768]") do
# it caused OpenSSL SEGV by uninitialized key
OpenSSL::Cipher::AES128.new("ECB").update "." * 17
end
end
end
end
if has_ciphers?(['aes-128-gcm', 'aes-192-gcm', 'aes-256-gcm'])
def test_authenticated
cipher = OpenSSL::Cipher.new('aes-128-gcm')
assert_predicate(cipher, :authenticated?)
cipher = OpenSSL::Cipher.new('aes-128-cbc')
assert_not_predicate(cipher, :authenticated?)
end
def test_aes_gcm
['aes-128-gcm', 'aes-192-gcm', 'aes-256-gcm'].each do |algo|
pt = "You should all use Authenticated Encryption!"
cipher, key, iv = new_encryptor(algo)
cipher.auth_data = "aad"
ct = cipher.update(pt) + cipher.final
tag = cipher.auth_tag
assert_equal(16, tag.size)
decipher = new_decryptor(algo, key, iv)
decipher.auth_tag = tag
decipher.auth_data = "aad"
assert_equal(pt, decipher.update(ct) + decipher.final)
end
end
def test_aes_gcm_short_tag
['aes-128-gcm', 'aes-192-gcm', 'aes-256-gcm'].each do |algo|
pt = "You should all use Authenticated Encryption!"
cipher, key, iv = new_encryptor(algo)
cipher.auth_data = "aad"
ct = cipher.update(pt) + cipher.final
tag = cipher.auth_tag(8)
assert_equal(8, tag.size)
decipher = new_decryptor(algo, key, iv)
decipher.auth_tag = tag
decipher.auth_data = "aad"
assert_equal(pt, decipher.update(ct) + decipher.final)
end
end
def test_aes_gcm_wrong_tag
pt = "You should all use Authenticated Encryption!"
cipher, key, iv = new_encryptor('aes-128-gcm')
cipher.auth_data = "aad"
ct = cipher.update(pt) + cipher.final
tag = cipher.auth_tag
decipher = new_decryptor('aes-128-gcm', key, iv)
tag.setbyte(-1, (tag.getbyte(-1) + 1) & 0xff)
decipher.auth_tag = tag
decipher.auth_data = "aad"
assert_raise OpenSSL::Cipher::CipherError do
decipher.update(ct) + decipher.final
end
end
def test_aes_gcm_wrong_auth_data
pt = "You should all use Authenticated Encryption!"
cipher, key, iv = new_encryptor('aes-128-gcm')
cipher.auth_data = "aad"
ct = cipher.update(pt) + cipher.final
tag = cipher.auth_tag
decipher = new_decryptor('aes-128-gcm', key, iv)
decipher.auth_tag = tag
decipher.auth_data = "daa"
assert_raise OpenSSL::Cipher::CipherError do
decipher.update(ct) + decipher.final
end
end
def test_aes_gcm_wrong_ciphertext
pt = "You should all use Authenticated Encryption!"
cipher, key, iv = new_encryptor('aes-128-gcm')
cipher.auth_data = "aad"
ct = cipher.update(pt) + cipher.final
tag = cipher.auth_tag
decipher = new_decryptor('aes-128-gcm', key, iv)
decipher.auth_tag = tag
decipher.auth_data = "aad"
assert_raise OpenSSL::Cipher::CipherError do
decipher.update(ct[0..-2] << ct[-1].succ) + decipher.final
end
end
end
private
def new_encryptor(algo)
cipher = OpenSSL::Cipher.new(algo)
cipher.encrypt
key = cipher.random_key
iv = cipher.random_iv
[cipher, key, iv]
end
def new_decryptor(algo, key, iv)
OpenSSL::Cipher.new(algo).tap do |cipher|
cipher.decrypt
cipher.key = key
cipher.iv = iv
end
end
end
end