How to solve "unable to switch the encoding" error when inserting XML into SQL Server

40

I'm trying to insert into XML column (SQL SERVER 2008 R2), but the server's complaining:

System.Data.SqlClient.SqlException (0x80131904):
XML parsing: line 1, character 39, unable to switch the encoding

I found out that the XML column has to be UTF-16 in order for the insert to succeed.

The code I'm using is:

 XmlSerializer serializer = new XmlSerializer(typeof(MyMessage));
 StringWriter str = new StringWriter();
 serializer.Serialize(str, message);
 string messageToLog = str.ToString();

How can I serialize object to be in UTF-8 string?

EDIT: Ok, sorry for the mixup - the string needs to be in UTF-8. You were right - it's UTF-16 by default, and if I try to insert in UTF-8 it passes. So the question is how to serialize into UTF-8.

Example

This causes errors while trying to insert into SQL Server:

    <?xml version="1.0" encoding="utf-16"?>
    <MyMessage>Teno</MyMessage>

This doesn't:

    <?xml version="1.0" encoding="utf-8"?>
    <MyMessage>Teno</MyMessage>

Update

I figured out when the SQL Server 2008 for its Xml column type needs utf-8, and when utf-16 in encoding property of the xml specification you're trying to insert:

When you want to add utf-8, then add parameters to SQL command like this:

 sqlcmd.Parameters.Add("ParamName", SqlDbType.VarChar).Value = xmlValueToAdd;

If you try to add the xmlValueToAdd with encoding=utf-16 in the previous row it would produce errors in insert. Also, the VarChar means that national characters aren't recognized (they turn out as question marks).

To add utf-16 to db, either use SqlDbType.NVarChar or SqlDbType.Xml in previous example, or just don't specify type at all:

 sqlcmd.Parameters.Add(new SqlParameter("ParamName", xmlValueToAdd));
.net
sql-server
xml
utf-8
utf-16
asked on Stack Overflow Sep 21, 2010 by veljkoz • edited Dec 7, 2018 by Solomon Rutzky

8 Answers

34

This question is a near-duplicate of 2 others, and surprisingly - while this one is the most recent - I believe it is missing the best answer.

The duplicates, and what I believe to be their best answers, are:

In the end, it doesn't matter what encoding is declared or used, as long as the XmlReader can parse it locally within the application server.

As was confirmed in Most efficient way to read XML in ADO.net from XML type column in SQL server?, SQL Server stores XML in an efficient binary format. By using the SqlXml class, ADO.net can communicate with SQL Server in this binary format, and not require the database server to do any serialization or de-serialization of XML. This should also be more efficient for transport across the network.

By using SqlXml, XML will be sent pre-parsed to the database, and then the DB doesn't need to know anything about character encodings - UTF-16 or otherwise. In particular, note that the XML declarations aren't even persisted with the data in the database, regardless of which method is used to insert it.

Please refer to the above-linked answers for methods that look very similar to this, but this example is mine:

using System.Data;
using System.Data.SqlClient;
using System.Data.SqlTypes;
using System.IO;
using System.Xml;

static class XmlDemo {
    static void Main(string[] args) {
        using(SqlConnection conn = new SqlConnection()) {
            conn.ConnectionString = "...";
            conn.Open();

            using(SqlCommand cmd = new SqlCommand("Insert Into TestData(Xml) Values (@Xml)", conn)) {

                cmd.Parameters.Add(new SqlParameter("@Xml", SqlDbType.Xml) {
                    // Works.
                    // Value = "<Test/>"

                    // Works.  XML Declaration is not persisted!
                    // Value = "<?xml version=\"1.0\"?><Test/>"

                    // Works.  XML Declaration is not persisted!
                    // Value = "<?xml version=\"1.0\" encoding=\"UTF-16\"?><Test/>"

                    // Error ("unable to switch the encoding" SqlException).
                    // Value = "<?xml version=\"1.0\" encoding=\"UTF-8\"?><Test/>"

                    // Works.  XML Declaration is not persisted!
                    Value = new SqlXml(XmlReader.Create(new StringReader("<?xml version=\"1.0\" encoding=\"UTF-8\"?><Test/>")))
                });

                cmd.ExecuteNonQuery();
            }
        }
    }
}

Note that I would not consider the last (non-commented) example to be "production-ready", but left it as-is to be concise and readable. If done properly, both the StringReader and the created XmlReader should be initialized within using statements to ensure that their Close() methods are called when complete.

From what I've seen, the XML declarations are never persisted when using an XML column. Even without using .NET and just using this direct SQL insert statement, for example, the XML declaration is not saved into the database with the XML:

Insert Into TestData(Xml) Values ('<?xml version="1.0" encoding="UTF-8"?><Test/>');

Now in terms of the OP's question, the object to be serialized still needs to be converted into an XML structure from the MyMessage object, and XmlSerializer is still needed for this. However, at worst, instead of serializing to a String, the message could instead be serialized to an XmlDocument - which can then be passed to SqlXml through a new XmlNodeReader - avoiding a de-serialization/serialization trip to a string. (See http://blogs.msdn.com/b/jongallant/archive/2007/01/30/how-to-convert-xmldocument-to-xmlreader-for-sqlxml-data-type.aspx for details and an example.)

Everything here was developed against and tested with .NET 4.0 and SQL Server 2008 R2.

Please don't make waste by running XML through extra conversions (de-deserializations and serializations - to DOM, strings, or otherwise), as shown in other answers here and elsewhere.

answered on Stack Overflow Jan 25, 2012 by ziesemer • edited May 23, 2017 by Community
21

Although a .net string is always UTF-16 you need to serialize the object using UTF-16 encoding. That sould be something like this:

public static string ToString(object source, Type type, Encoding encoding)
{
    // The string to hold the object content
    String content;

    // Create a memoryStream into which the data can be written and readed
    using (var stream = new MemoryStream())
    {
        // Create the xml serializer, the serializer needs to know the type
        // of the object that will be serialized
        var xmlSerializer = new XmlSerializer(type);

        // Create a XmlTextWriter to write the xml object source, we are going
        // to define the encoding in the constructor
        using (var writer = new XmlTextWriter(stream, encoding))
        {
            // Save the state of the object into the stream
            xmlSerializer.Serialize(writer, source);

            // Flush the stream
            writer.Flush();

            // Read the stream into a string
            using (var reader = new StreamReader(stream, encoding))
            {
                // Set the stream position to the begin
                stream.Position = 0;

                // Read the stream into a string
                content = reader.ReadToEnd();
            }
        }
    }

    // Return the xml string with the object content
    return content;
}

By setting the encoding to Encoding.Unicode not only the string will be UTF-16 but you should also get the xml string as UTF-16.

<?xml version="1.0" encoding="utf-16"?>
answered on Stack Overflow Sep 21, 2010 by Pedro • edited Jan 29, 2013 by Carsten
12

Isn't the easiest solution to tell the serializer not to ouput the XML declaration? .NET and SQL should sort the rest out between them.

        XmlSerializer serializer = new XmlSerializer(typeof(MyMessage));
        StringWriter str = new StringWriter();
        using (XmlWriter writer = XmlWriter.Create(str, new XmlWriterSettings { OmitXmlDeclaration = true }))
        {
            serializer.Serialize(writer, message);
        }
        string messageToLog = str.ToString();
answered on Stack Overflow Jan 29, 2013 by batwad
7

It took me forever to re-solve this problem.

I was doing an INSERT statement into SQL Server as something like:

UPDATE Customers 
SET data = '<?xml version="1.0" encoding="utf-16"?><MyMessage>Teno</MyMessage>';

and this gives the error:

Msg 9402, Level 16, State 1, Line 2
XML parsing: line 1, character 39, unable to switch the encoding

And the really, very simple fix is to:

UPDATE Customers 
SET data = N'<?xml version="1.0" encoding="utf-16"?><MyMessage>Teno</MyMessage>';

The difference is prefixing the Unicode string with N:

N'<?xml version="1.0" encoding="utf-16"?>Teno</MyMessage>'

In the former case, an unprefixed string is assumed to be varchar (e.g. Windows-1252 code-page). When it encounters the encoding="utf-16" inside the string, there is a conflict (and rightly so, since the string isn't utf-16).

The fix is to pass the string to SQL server as an nvarchar (i.e. UTF-16):

N'<?xml version="1.0" encoding="utf-16"?>'

That way the string is UTF-16, which matches the utf-16 encoding that the XML says it is. The carpet matches the curtains, so to speak.

answered on Stack Overflow Feb 22, 2016 by Ian Boyd
5

A string is always UTF-16 in .NET, so as long as you stay inside your managed app you don't have to care about which encoding it is.

The problem is more likely where you talk to the SQL server. Your question doesn't show that code so it's hard to pin point the exact error. My suggestion is you check if there's a property or attribute you can set on that code that specifies the encoding of the data sent to the server.

answered on Stack Overflow Sep 21, 2010 by Isak Savo
4

@ziesemer's answer (above) is the only fully correct answer to this question and the linked duplicates of this question. However, it could still use a little more explanation and some clarification. Consider this as an extension of @ziesemer's answer.


Even if they produce the desired result, most answers to this question (including the duplicate question) are convoluted and go through many unnecessary steps. The main issue here is the overall lack of understanding regarding how the XML datatype actually works in SQL Server (not surprising given that it isn't well documented). The XML type:

  1. Is a highly optimized (for storage) type that converts the incoming XML into a binary format (which is documented somewhere in the msdn site). The optimizations include:
    1. Converting numbers and dates from string (as they are in the XML) into binary representations IF the element or attribute is tagged with the type info (this might require specifying an XML Schema Collection). Meaning, the number "1234567" is stored as a 4-byte "int" instead of a 14-byte UTF-16 string of 7 digits.
    2. Element and Attribute names are stored in a dictionary and given a numeric ID. That numeric ID is used in the XML tree structure. Meaning, "<ElementName>...</ElementName>" takes up 27 character (i.e. 54 bytes) in string form, but only 11 characters (i.e. 22 bytes) when stored in the XML type. And that is for a single instance of it. Multiple instances take up additional multiples of the 54 bytes. But in the XML type, each instance only takes up the space of that numeric ID, most likely a 4-byte int.
  2. Stores strings as UTF-16 Little Endian, always. This is most likely why the XML declaration is not stored: it is entirely unnecessary as it is always the same since the "Encoding" attribute cannot ever change.
  3. No XML declaration assumes the encoding to be UTF-16, not UTF-8.
  4. Can have 8-bit / non-UTF-16 data passed in. In this case, you need to make sure that the string is not an NVARCHAR string (i.e. not prefixed with an upper-case "N" for literals, not declared as NVARCHAR when dealing with T-SQL variables, and not declared as SqlDbType.NVarChar in .NET). AND, you need to make sure that you do have the XML declaration, and that it specifies the correct encoding.

    PRINT 'VARCHAR / UTF-8:';
    DECLARE @XML_VC_8 XML;
    SET @XML_VC_8 = '<?xml version="1.0" encoding="utf-8"?><test/>';
    PRINT 'Success!'
    -- Success!
    
    GO
    PRINT '';
    PRINT 'NVARCHAR / UTF-8:';
    DECLARE @XML_NVC_8 XML;
    SET @XML_NVC_8 = N'<?xml version="1.0" encoding="utf-8"?><test/>';
    PRINT 'Success!'
    /*
    Msg 9402, Level 16, State 1, Line XXXXX
    XML parsing: line 1, character 38, unable to switch the encoding
    */
    
    GO
    PRINT '';
    PRINT 'VARCHAR / UTF-16:';
    DECLARE @XML_VC_16 XML;
    SET @XML_VC_16 = '<?xml version="1.0" encoding="utf-16"?><test/>';
    PRINT 'Success!'
    /*
    Msg 9402, Level 16, State 1, Line XXXXX
    XML parsing: line 1, character 38, unable to switch the encoding
    */
    
    GO
    PRINT '';
    PRINT 'NVARCHAR / UTF-16:';
    DECLARE @XML_NVC_16 XML;
    SET @XML_NVC_16 = N'<?xml version="1.0" encoding="utf-16"?><test/>';
    PRINT 'Success!'
    -- Success!
    

    As you can see, when the input string is NVARCHAR, then the XML declaration can be included, but it needs to be "UTF-16".

  5. When the input string is VARCHAR then the XML declaration can be included, but it cannot be "UTF-16". It can, however, be any valid 8-bit encoding, in which case the bytes for that encoding will be converted into UTF-16, as shown below:

    DECLARE @XML XML;
    SET @XML = '<?xml version="1.0" encoding="utf-8"?><test attr="'
               + CHAR(0xF0) + CHAR(0x9F) + CHAR(0x98) + CHAR(0x8E) + '"/>';
    SELECT @XML;
    -- <test attr="😎" />
    
    
    SET @XML = '<?xml version="1.0" encoding="Windows-1255"?><test attr="'
               + CONVERT(VARCHAR(10), 0xF9ECE5ED) + '"/>';
    SELECT @XML AS [XML from Windows-1255],
           CONVERT(VARCHAR(10), 0xF9ECE5ED) AS [Latin1_General / Windows-1252];
    /*
    XML from Windows-1255    Latin1_General / Windows-1252
    <test attr="שלום" />     ùìåí
    */
    

    The first example specifies the 4-byte UTF-8 sequence for Smiling Face with Sunglasses and it get converted correctly.
    The second example uses 4 bytes to represent 4 Hebrew letters making up the word "Shalom", which is converted correctly, and displayed correctly given that the "F9" byte, which is first, is the ש character, which is on the right-side of the word (since Hebrew is a right-to-left language). Yet those same 4 bytes display as ùìåí when selected directly since the default Collation for the current DB is Latin1_General_100_CS_AS_SC.

answered on Stack Overflow Dec 4, 2018 by Solomon Rutzky • edited Dec 4, 2018 by Solomon Rutzky
1

You are serializing to a string rather than a byte array so, at this point, any encoding hasn't happened yet.

What does the start of "messageToLog" look like? Is the XML specifying an encoding (e.g. utf-8) which subsequently turns out to be wrong?

Edit

Based on your further info it sounds like the string is automatically converted to utf-8 when it is passed to the database, but the database chokes because the XML declaration says it is utf-16.

In which case, you don't need to serialize to utf-8. You need to serialize with the "encoding=" omitted from the XML. The XmlFragmentWriter (not a standard part of .Net, Google it) lets you do this.

answered on Stack Overflow Sep 21, 2010 by arx • edited Sep 21, 2010 by arx
0

Default encoding for a xml serializer should be UTF-16. Just to make sure you can try -

XmlSerializer serializer = new XmlSerializer(typeof(YourObject));

// create a MemoryStream here, we are just working
// exclusively in memory
System.IO.Stream stream = new System.IO.MemoryStream();

// The XmlTextWriter takes a stream and encoding
// as one of its constructors
System.Xml.XmlTextWriter xtWriter = new System.Xml.XmlTextWriter(stream, Encoding.UTF16);

serializer.Serialize(xtWriter, yourObjectInstance);

xtWriter.Flush();
answered on Stack Overflow Sep 21, 2010 by Vinay B R

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