require 'openssl' require 'base64' require 'digest/sha1' module MCollective # A class that assists in encrypting and decrypting data using a # combination of RSA and AES # # Data will be AES encrypted for speed, the Key used in # the AES # stage will be encrypted using RSA # # ssl = SSL.new(public_key, private_key, passphrase) # # data = File.read("largefile.dat") # # crypted_data = ssl.encrypt_with_private(data) # # pp crypted_data # # This will result in a hash of data like: # # crypted = {:key => "crd4NHvG....=", # :data => "XWXlqN+i...=="} # # The key and data will all be base 64 encoded already by default # you can pass a 2nd parameter as false to encrypt_with_private and # counterparts that will prevent the base 64 encoding # # You can pass the data hash into ssl.decrypt_with_public which # should return your original data # # There are matching methods for using a public key to encrypt # data to be decrypted using a private key class SSL attr_reader :public_key_file, :private_key_file, :ssl_cipher def initialize(pubkey=nil, privkey=nil, passphrase=nil, cipher=nil) @public_key_file = pubkey @private_key_file = privkey @public_key = read_key(:public, pubkey) @private_key = read_key(:private, privkey, passphrase) @ssl_cipher = "aes-256-cbc" @ssl_cipher = Config.instance.ssl_cipher if Config.instance.ssl_cipher @ssl_cipher = cipher if cipher raise "The supplied cipher '#{@ssl_cipher}' is not supported" unless OpenSSL::Cipher.ciphers.include?(@ssl_cipher) end # Encrypts supplied data using AES and then encrypts using RSA # the key and IV # # Return a hash with everything optionally base 64 encoded def encrypt_with_public(plain_text, base64=true) crypted = aes_encrypt(plain_text) if base64 key = base64_encode(rsa_encrypt_with_public(crypted[:key])) data = base64_encode(crypted[:data]) else key = rsa_encrypt_with_public(crypted[:key]) data = crypted[:data] end {:key => key, :data => data} end # Encrypts supplied data using AES and then encrypts using RSA # the key and IV # # Return a hash with everything optionally base 64 encoded def encrypt_with_private(plain_text, base64=true) crypted = aes_encrypt(plain_text) if base64 key = base64_encode(rsa_encrypt_with_private(crypted[:key])) data = base64_encode(crypted[:data]) else key = rsa_encrypt_with_private(crypted[:key]) data = crypted[:data] end {:key => key, :data => data} end # Decrypts data, expects a hash as create with crypt_with_public def decrypt_with_private(crypted, base64=true) raise "Crypted data should include a key" unless crypted.include?(:key) raise "Crypted data should include data" unless crypted.include?(:data) if base64 key = rsa_decrypt_with_private(base64_decode(crypted[:key])) aes_decrypt(key, base64_decode(crypted[:data])) else key = rsa_decrypt_with_private(crypted[:key]) aes_decrypt(key, crypted[:data]) end end # Decrypts data, expects a hash as create with crypt_with_private def decrypt_with_public(crypted, base64=true) raise "Crypted data should include a key" unless crypted.include?(:key) raise "Crypted data should include data" unless crypted.include?(:data) if base64 key = rsa_decrypt_with_public(base64_decode(crypted[:key])) aes_decrypt(key, base64_decode(crypted[:data])) else key = rsa_decrypt_with_public(crypted[:key]) aes_decrypt(key, crypted[:data]) end end # Use the public key to RSA encrypt data def rsa_encrypt_with_public(plain_string) raise "No public key set" unless @public_key @public_key.public_encrypt(plain_string) end # Use the private key to RSA decrypt data def rsa_decrypt_with_private(crypt_string) raise "No private key set" unless @private_key @private_key.private_decrypt(crypt_string) end # Use the private key to RSA encrypt data def rsa_encrypt_with_private(plain_string) raise "No private key set" unless @private_key @private_key.private_encrypt(plain_string) end # Use the public key to RSA decrypt data def rsa_decrypt_with_public(crypt_string) raise "No public key set" unless @public_key @public_key.public_decrypt(crypt_string) end # encrypts a string, returns a hash of key, iv and data def aes_encrypt(plain_string) cipher = OpenSSL::Cipher::Cipher.new(ssl_cipher) cipher.encrypt key = cipher.random_key cipher.key = key cipher.pkcs5_keyivgen(key) encrypted_data = cipher.update(plain_string) + cipher.final {:key => key, :data => encrypted_data} end # decrypts a string given key, iv and data def aes_decrypt(key, crypt_string) cipher = OpenSSL::Cipher::Cipher.new(ssl_cipher) cipher.decrypt cipher.key = key cipher.pkcs5_keyivgen(key) decrypted_data = cipher.update(crypt_string) + cipher.final end # Signs a string using the private key def sign(string, base64=false) sig = @private_key.sign(OpenSSL::Digest::SHA1.new, string) base64 ? base64_encode(sig) : sig end # Using the public key verifies that a string was signed using the private key def verify_signature(signature, string, base64=false) signature = base64_decode(signature) if base64 @public_key.verify(OpenSSL::Digest::SHA1.new, signature, string) end # base 64 encode a string def base64_encode(string) SSL.base64_encode(string) end def self.base64_encode(string) Base64.encode64(string) end # base 64 decode a string def base64_decode(string) SSL.base64_decode(string) end def self.base64_decode(string) Base64.decode64(string) end def md5(string) SSL.md5(string) end def self.md5(string) Digest::MD5.hexdigest(string) end # Creates a RFC 4122 version 5 UUID. If string is supplied it will produce repeatable # UUIDs for that string else a random 128bit string will be used from OpenSSL::BN # # Code used with permission from: # https://github.com/kwilczynski/puppet-functions/blob/master/lib/puppet/parser/functions/uuid.rb # def self.uuid(string=nil) string ||= OpenSSL::Random.random_bytes(16).unpack('H*').shift uuid_name_space_dns = "\x6b\xa7\xb8\x10\x9d\xad\x11\xd1\x80\xb4\x00\xc0\x4f\xd4\x30\xc8" sha1 = Digest::SHA1.new sha1.update(uuid_name_space_dns) sha1.update(string) # first 16 bytes.. bytes = sha1.digest[0, 16].bytes.to_a # version 5 adjustments bytes[6] &= 0x0f bytes[6] |= 0x50 # variant is DCE 1.1 bytes[8] &= 0x3f bytes[8] |= 0x80 bytes = [4, 2, 2, 2, 6].collect do |i| bytes.slice!(0, i).pack('C*').unpack('H*') end bytes.join('-') end # Reads either a :public or :private key from disk, uses an # optional passphrase to read the private key def read_key(type, key=nil, passphrase=nil) return key if key.nil? raise "Could not find key #{key}" unless File.exist?(key) raise "#{type} key file '#{key}' is empty" if File.zero?(key) if type == :public begin key = OpenSSL::PKey::RSA.new(File.read(key)) rescue OpenSSL::PKey::RSAError key = OpenSSL::X509::Certificate.new(File.read(key)).public_key end # Ruby < 1.9.3 had a bug where it does not correctly clear the # queue of errors while reading a key. It tries various ways # to read the key and each failing attempt pushes an error onto # the queue. With pubkeys only the 3rd attempt pass leaving 2 # stale errors on the error queue. # # In 1.9.3 they fixed this by simply discarding the errors after # every attempt. So we simulate this fix here for older rubies # as without it we get SSL_read errors from the Stomp+TLS sessions # # We do this only on 1.8 relying on 1.9.3 to do the right thing # and we do not support 1.9 less than 1.9.3 # # See http://bugs.ruby-lang.org/issues/4550 OpenSSL.errors if Util.ruby_version =~ /^1.8/ return key elsif type == :private return OpenSSL::PKey::RSA.new(File.read(key), passphrase) else raise "Can only load :public or :private keys" end end end end