internal static string UrlDecode(string value, Encoding encoding) { if (value == null) { return(null); } int count = value.Length; UrlDecoder helper = new UrlDecoder(count, encoding); // go through the string's chars collapsing %XX and %uXXXX and // appending each char as char, with exception of %XX constructs // that are appended as bytes for (int pos = 0; pos < count; pos++) { char ch = value[pos]; if (ch == '+') { ch = ' '; } else if (ch == '%' && pos < count - 2) { if (value[pos + 1] == 'u' && pos < count - 5) { int h1 = HttpEncoderUtility.HexToInt(value[pos + 2]); int h2 = HttpEncoderUtility.HexToInt(value[pos + 3]); int h3 = HttpEncoderUtility.HexToInt(value[pos + 4]); int h4 = HttpEncoderUtility.HexToInt(value[pos + 5]); if (h1 >= 0 && h2 >= 0 && h3 >= 0 && h4 >= 0) { // valid 4 hex chars ch = (char)((h1 << 12) | (h2 << 8) | (h3 << 4) | h4); pos += 5; // only add as char helper.AddChar(ch); continue; } } else { int h1 = HttpEncoderUtility.HexToInt(value[pos + 1]); int h2 = HttpEncoderUtility.HexToInt(value[pos + 2]); if (h1 >= 0 && h2 >= 0) { // valid 2 hex chars byte b = (byte)((h1 << 4) | h2); pos += 2; // don't add as char helper.AddByte(b); continue; } } } if ((ch & 0xFF80) == 0) { helper.AddByte((byte)ch); // 7 bit have to go as bytes because of Unicode } else { helper.AddChar(ch); } } return(Utf16StringValidator.ValidateString(helper.GetString())); }
internal static string UrlDecode(byte[] bytes, int offset, int count, Encoding encoding) { if (!ValidateUrlEncodingParameters(bytes, offset, count)) { return(null); } UrlDecoder helper = new UrlDecoder(count, encoding); // go through the bytes collapsing %XX and %uXXXX and appending // each byte as byte, with exception of %uXXXX constructs that // are appended as chars for (int i = 0; i < count; i++) { int pos = offset + i; byte b = bytes[pos]; // The code assumes that + and % cannot be in multibyte sequence if (b == '+') { b = (byte)' '; } else if (b == '%' && i < count - 2) { if (bytes[pos + 1] == 'u' && i < count - 5) { int h1 = HttpEncoderUtility.HexToInt((char)bytes[pos + 2]); int h2 = HttpEncoderUtility.HexToInt((char)bytes[pos + 3]); int h3 = HttpEncoderUtility.HexToInt((char)bytes[pos + 4]); int h4 = HttpEncoderUtility.HexToInt((char)bytes[pos + 5]); if (h1 >= 0 && h2 >= 0 && h3 >= 0 && h4 >= 0) { // valid 4 hex chars char ch = (char)((h1 << 12) | (h2 << 8) | (h3 << 4) | h4); i += 5; // don't add as byte helper.AddChar(ch); continue; } } else { int h1 = HttpEncoderUtility.HexToInt((char)bytes[pos + 1]); int h2 = HttpEncoderUtility.HexToInt((char)bytes[pos + 2]); if (h1 >= 0 && h2 >= 0) { // valid 2 hex chars b = (byte)((h1 << 4) | h2); i += 2; } } } helper.AddByte(b); } return(Utf16StringValidator.ValidateString(helper.GetString())); }