encode_util.rb in rubyntlm-0.6.2

- old
+ new
@@ -1,48 +1,48 @@
-module Net
-module NTLM
-
-  class EncodeUtil
-    if RUBY_VERSION == "1.8.7"
-      require "kconv"
-
-      # Decode a UTF16 string to a ASCII string
-      # @param [String] str The string to convert
-      def self.decode_utf16le(str)
-        Kconv.kconv(swap16(str), Kconv::ASCII, Kconv::UTF16)
-      end
-
-      # Encodes a ASCII string to a UTF16 string
-      # @param [String] str The string to convert
-      def self.encode_utf16le(str)
-        swap16(Kconv.kconv(str, Kconv::UTF16, Kconv::ASCII))
-      end
-
-      # Taggle the strings endianness between big/little and little/big
-      # @param [String] str The string to swap the endianness on
-      def self.swap16(str)
-        str.unpack("v*").pack("n*")
-      end
-    else # Use native 1.9 string encoding functions
-
-      # Decode a UTF16 string to a ASCII string
-      # @param [String] str The string to convert
-      def self.decode_utf16le(str)
-        str = str.dup.force_encoding(Encoding::UTF_16LE)
-        str.encode(Encoding::UTF_8, Encoding::UTF_16LE).force_encoding('UTF-8')
-      end
-
-      # Encodes a ASCII string to a UTF16 string
-      # @param [String] str The string to convert
-      # @note This implementation may seem stupid but the problem is that UTF16-LE and UTF-8 are incompatiable
-      #   encodings. This library uses string contatination to build the packet bytes. The end result is that
-      #   you can either marshal the encodings elsewhere of simply know that each time you call encode_utf16le
-      #   the function will convert the string bytes to UTF-16LE and note the encoding as UTF-8 so that byte
-      #   concatination works seamlessly.
-      def self.encode_utf16le(str)
-        str.dup.force_encoding('UTF-8').encode(Encoding::UTF_16LE, Encoding::UTF_8).force_encoding('UTF-8')
-      end
-    end
-  end
-
-end
-end
+module Net
+module NTLM
+
+  class EncodeUtil
+    if RUBY_VERSION == "1.8.7"
+      require "kconv"
+
+      # Decode a UTF16 string to a ASCII string
+      # @param [String] str The string to convert
+      def self.decode_utf16le(str)
+        Kconv.kconv(swap16(str), Kconv::ASCII, Kconv::UTF16)
+      end
+
+      # Encodes a ASCII string to a UTF16 string
+      # @param [String] str The string to convert
+      def self.encode_utf16le(str)
+        swap16(Kconv.kconv(str, Kconv::UTF16, Kconv::ASCII))
+      end
+
+      # Taggle the strings endianness between big/little and little/big
+      # @param [String] str The string to swap the endianness on
+      def self.swap16(str)
+        str.unpack("v*").pack("n*")
+      end
+    else # Use native 1.9 string encoding functions
+
+      # Decode a UTF16 string to a ASCII string
+      # @param [String] str The string to convert
+      def self.decode_utf16le(str)
+        str = str.dup.force_encoding(Encoding::UTF_16LE)
+        str.encode(Encoding::UTF_8, Encoding::UTF_16LE).force_encoding('UTF-8')
+      end
+
+      # Encodes a ASCII string to a UTF16 string
+      # @param [String] str The string to convert
+      # @note This implementation may seem stupid but the problem is that UTF16-LE and UTF-8 are incompatiable
+      #   encodings. This library uses string contatination to build the packet bytes. The end result is that
+      #   you can either marshal the encodings elsewhere of simply know that each time you call encode_utf16le
+      #   the function will convert the string bytes to UTF-16LE and note the encoding as UTF-8 so that byte
+      #   concatination works seamlessly.
+      def self.encode_utf16le(str)
+        str.dup.force_encoding('UTF-8').encode(Encoding::UTF_16LE, Encoding::UTF_8).force_encoding('UTF-8')
+      end
+    end
+  end
+
+end
+end