public override object ReadObject(XmlReader reader)
{
NestedClass NestedClassField = null;
if (IsParentStartElement(reader, false, true))
{
NestedClassField = new NestedClass();
reader.Read();
MtomDataDataContractSerializer MTDataDCS = new MtomDataDataContractSerializer("MTData", "http://schemas.datacontract.org/2004/07/WcfMtomService", "http://schemas.datacontract.org/2004/07/WcfMtomService");
MTDataDCS.BodyParts = this.BodyParts;
NestedClassField.MTData = ((MtomData)(MTDataDCS.ReadObject(reader)));
if (IsChildStartElement(reader, "MyData", true, false))
{
reader.Read();
if (IsAttribute(reader, "href"))
{
string contentID;
contentID = reader.Value;
reader.MoveToElement();
reader.ReadStartElement("Include", "http://www.w3.org/2004/08/xop/include");
reader.ReadEndElement();
NestedClassField.MyData = GetBodyPartContent(contentID, BodyParts);
}
else
{
NestedClassField.MyData = ConvertBase64.FromBase64String(reader.ReadString());
reader.ReadEndElement();
}
}
reader.ReadEndElement();
}
return(NestedClassField);
}
public override object ReadObject(XmlReader reader)
{
MtomData MtomDataField = null;
if (IsParentStartElement(reader, false, true))
{
MtomDataField = new MtomData();
reader.Read();
if (IsChildStartElement(reader, "Data", true, false))
{
reader.Read();
if (IsAttribute(reader, "href"))
{
string contentID;
contentID = reader.Value;
reader.MoveToElement();
reader.ReadStartElement("Include", "http://www.w3.org/2004/08/xop/include");
reader.ReadEndElement();
MtomDataField.Data = GetBodyPartContent(contentID, BodyParts);
}
else
{
MtomDataField.Data = ConvertBase64.FromBase64String(reader.ReadString());
reader.ReadEndElement();
}
}
reader.ReadEndElement();
}
return(MtomDataField);
}
public override object ReadObject(XmlReader reader)
{
OneWayAttachmentRequest OneWayAttachmentRequestField = null;
if (IsParentStartElement(reader, false, true))
{
OneWayAttachmentRequestField = new OneWayAttachmentRequest();
OneWayAttachmentRequestField.AnyAttr = ReadAnyAttribute(reader);
reader.Read();
if (IsChildStartElement(reader, "Param", true, true))
{
reader.Read();
if (IsAttribute(reader, "href"))
{
string contentID;
contentID = reader.Value;
reader.MoveToElement();
reader.ReadStartElement("Include", "http://www.w3.org/2004/08/xop/include");
reader.ReadEndElement();
OneWayAttachmentRequestField.Param = GetBodyPartContent(contentID, BodyParts);
}
else
{
OneWayAttachmentRequestField.Param = ConvertBase64.FromBase64String(reader.ReadString());
reader.ReadEndElement();
}
}
OneWayAttachmentRequestField.Any = ReadAnyElement(reader, false);
reader.ReadEndElement();
}
return(OneWayAttachmentRequestField);
}
/// <summary>
/// Parses request from client.
/// Fills
/// - HTTP Verb.
/// - HTTP version.
/// - Content Length.
/// - Fills generic value name pair in WEB header collection.
/// </summary>
internal void ParseHTTPRequest()
{
// This is the request line.
m_RequestString = m_clientStream.Read_HTTP_Line(HttpWebRequest.maxHTTPLineLength).Trim();
// Split request line into 3 strings - VERB, URL and HTTP version.
char[] delimiter = { ' ' };
string[] requestStr = m_RequestString.Split(delimiter);
// requestStr should consist of 3 parts.
if (requestStr.Length < 3)
{
throw new ProtocolViolationException("Invalid HTTP request String: " + m_RequestString);
}
// We have at least 3 strings. Fills the proper fields
m_requestVerb = requestStr[0];
m_rawURL = requestStr[1];
// Process third string. It should be either http/1.1 or http/1.0
string httpVerLowerCase = requestStr[2].ToLower();
if (httpVerLowerCase.Equals("http/1.1"))
{
m_requestHttpVer = HttpVersion.Version11;
}
else if (httpVerLowerCase.Equals("http/1.0"))
{
m_requestHttpVer = HttpVersion.Version10;
}
else
{
throw new ProtocolViolationException("Unsupported HTTP version: " + requestStr[2]);
}
// Now it is list of HTTP headers:
string line;
int headersLen = m_maxResponseHeadersLen;
while ((line = m_clientStream.Read_HTTP_Header(HttpWebRequest.maxHTTPLineLength)).Length > 0)
{
// line.Length is used for the header. Substruct it.
headersLen -= line.Length;
// If total length used for header is exceeded, we break
if (headersLen < 0)
{
throw new ProtocolViolationException("Http Headers exceeding: " + m_maxResponseHeadersLen);
}
int sepIdx = line.IndexOf(':');
if (sepIdx == -1)
{
throw new ProtocolViolationException("Invalid HTTP Header: " + line);
}
string headerName = line.Substring(0, sepIdx).Trim();
string headerValue = line.Substring(sepIdx + 1).Trim();
string matchableHeaderName = headerName.ToLower();
// Adds new header to collection.
m_httpRequestHeaders.AddInternal(headerName, headerValue);
// Now we check the value - name pair. For some of them we need to initilize member variables.
headerName = headerName.ToLower();
// If it is connection header
if (headerName == "connection")
{
// If value is "Keep-Alive" ( lower case now ), set m_KeepAlive to true;
headerValue = headerValue.ToLower();
m_KeepAlive = headerValue == "keep-alive";
}
// If user supplied user name and password - parse it and store in m_NetworkCredentials
if (headerName == "authorization")
{
int sepSpace = headerValue.IndexOf(' ');
string authType = headerValue.Substring(0, sepSpace);
if (authType.ToLower() == "basic")
{
string authInfo = headerValue.Substring(sepSpace + 1);
// authInfo is base64 encoded username and password.
byte[] authInfoDecoded = ConvertBase64.FromBase64String(authInfo);
char[] authInfoDecChar = System.Text.Encoding.UTF8.GetChars(authInfoDecoded);
string strAuthInfo = new string(authInfoDecChar);
// The strAuthInfo comes in format username:password. Parse it.
int sepColon = strAuthInfo.IndexOf(':');
if (sepColon != -1)
{
m_NetworkCredentials = new NetworkCredential(strAuthInfo.Substring(0, sepColon), strAuthInfo.Substring(sepColon + 1));
}
}
}
}
// Http headers were processed. Now we search for content length.
string strContentLen = m_httpRequestHeaders[HttpKnownHeaderNames.ContentLength];
if (strContentLen != null)
{
try
{
m_contentLength = Convert.ToInt32(strContentLen);
}
catch (Exception)
{
throw new ProtocolViolationException("Invalid content length in request: " + strContentLen);
}
}
}