/// <summary>constructor</summary>
/// <param name="entity">entity</param>
/// <param name="propertyName">name of collection or reference property to load</param>
/// <param name="context">Originating context</param>
/// <param name="request">Originating WebRequest</param>
/// <param name="callback">user callback</param>
/// <param name="state">user state</param>
/// <param name="dataServiceRequest">request object.</param>
/// <param name="plan">Projection plan for materialization; possibly null.</param>
/// <param name="isContinuation">Whether this request is a continuation request.</param>
internal LoadPropertyResult(object entity, string propertyName, DataServiceContext context, ODataRequestMessageWrapper request, AsyncCallback callback, object state, DataServiceRequest dataServiceRequest, ProjectionPlan plan, bool isContinuation)
: base(context, Util.LoadPropertyMethodName, dataServiceRequest, request, new RequestInfo(context, isContinuation), callback, state)
{
this.entity = entity;
this.propertyName = propertyName;
this.plan = plan;
}
/// <summary>
/// Constructs a new async result object
/// </summary>
/// <param name="context">The source of the operation.</param>
/// <param name="method">Name of the method which is invoked asynchronously.</param>
/// <param name="request">The <see cref="HttpWebRequest"/> object which is wrapped by this async result.</param>
/// <param name="callback">User specified callback for the async operation.</param>
/// <param name="state">User state for the async callback.</param>
/// <param name="streamDescriptor">stream descriptor whose value is getting queried.</param>
internal GetReadStreamResult(
DataServiceContext context,
string method,
ODataRequestMessageWrapper request,
AsyncCallback callback,
object state,
StreamDescriptor streamDescriptor)
: base(context, method, callback, state)
{
Debug.Assert(request != null, "Null request can't be wrapped to a result.");
Debug.Assert(streamDescriptor != null, "streamDescriptor != null");
this.requestMessage = request;
this.Abortable = request;
this.streamDescriptor = streamDescriptor;
this.requestInfo = new RequestInfo(context);
}
/// <summary>
/// Create request message from the next change.
/// </summary>
/// <returns>An instance of ODataRequestMessage for the next change.</returns>
private ODataRequestMessageWrapper CreateNextRequest()
{
bool moveForward = this.streamRequestKind == StreamRequestKind.None;
if (unchecked ((uint)this.entryIndex < (uint)this.ChangedEntries.Count))
{
Descriptor previousDescriptor = this.ChangedEntries[this.entryIndex];
if (previousDescriptor.DescriptorKind == DescriptorKind.Entity)
{
EntityDescriptor entityDescriptor = (EntityDescriptor)previousDescriptor;
// In any case also close the save stream if there's any and forget about it
// for POST this is just a good practice to do so as soon as possible
// for PUT it's actually required for us to recognize that we already processed the MR part of the change
entityDescriptor.CloseSaveStream();
// If the previous request was an MR request the next one might be a PUT for the MLE
// but if the entity was not changed (just the MR changed) no PUT for MLE should be sent
if (this.streamRequestKind == StreamRequestKind.PutMediaResource && EntityStates.Unchanged == entityDescriptor.State)
{
// Only the MR changed. In this case we also need to mark the descriptor as processed to notify
// that the content for save has been generated as there's not going to be another request for it.
entityDescriptor.ContentGeneratedForSave = true;
moveForward = true;
}
}
else if (previousDescriptor.DescriptorKind == DescriptorKind.NamedStream)
{
((StreamDescriptor)previousDescriptor).CloseSaveStream();
}
}
if (moveForward)
{
this.entryIndex++;
}
ODataRequestMessageWrapper requestMessage = null;
if (unchecked ((uint)this.entryIndex < (uint)this.ChangedEntries.Count))
{
Descriptor descriptor = this.ChangedEntries[this.entryIndex];
Descriptor descriptorForSendingRequest2 = descriptor;
if (descriptor.DescriptorKind == DescriptorKind.Entity)
{
EntityDescriptor entityDescriptor = (EntityDescriptor)descriptor;
if (((descriptor.State == EntityStates.Unchanged) || (descriptor.State == EntityStates.Modified)) &&
((requestMessage = this.CheckAndProcessMediaEntryPut(entityDescriptor)) != null))
{
this.streamRequestKind = StreamRequestKind.PutMediaResource;
descriptorForSendingRequest2 = entityDescriptor.DefaultStreamDescriptor; // We want to give SendingRequest2 the StreamDescriptor
}
else if ((descriptor.State == EntityStates.Added) && ((requestMessage = this.CheckAndProcessMediaEntryPost(entityDescriptor)) != null))
{
this.streamRequestKind = StreamRequestKind.PostMediaResource;
Debug.Assert(entityDescriptor.SaveStream == null || entityDescriptor.StreamState == EntityStates.Added, "Either this is a V1 MR or the stream must be in added state");
// Set the stream state to added
// For V1 scenarios, when SetSaveStream was not called, this might not be in Added state
entityDescriptor.StreamState = EntityStates.Added;
}
else
{
this.streamRequestKind = StreamRequestKind.None;
Debug.Assert(descriptor.State != EntityStates.Unchanged, "descriptor.State != EntityStates.Unchanged");
requestMessage = this.CreateRequest(entityDescriptor);
}
}
else if (descriptor.DescriptorKind == DescriptorKind.NamedStream)
{
requestMessage = this.CreateNamedStreamRequest((StreamDescriptor)descriptor);
}
else
{
requestMessage = this.CreateRequest((LinkDescriptor)descriptor);
}
if (requestMessage != null)
{
// we need to fire request after the headers have been written, but before we write the payload
// also in the prototype we are firing SendingRequest2 before SendingRequest.
requestMessage.FireSendingEventHandlers(descriptorForSendingRequest2);
}
}
return(requestMessage);
}
/// <summary>
/// Writes the body operation parameters associated with a ServiceAction. For each BodyOperationParameter:
/// 1. calls ODataPropertyConverter to convert CLR object into ODataValue/primitive values.
/// 2. then calls ODataParameterWriter to write the ODataValue/primitive values.
/// </summary>
/// <param name="operationParameters">The list of operation parameters to write.</param>
/// <param name="requestMessage">The OData request message used to write the operation parameters.</param>
internal void WriteBodyOperationParameters(List<BodyOperationParameter> operationParameters, ODataRequestMessageWrapper requestMessage)
{
Debug.Assert(requestMessage != null, "requestMessage != null");
Debug.Assert(operationParameters != null, "operationParameters != null");
Debug.Assert(operationParameters.Any(), "operationParameters.Any()");
using (ODataMessageWriter messageWriter = Serializer.CreateMessageWriter(requestMessage, this.requestInfo, true /*isParameterPayload*/))
{
ODataParameterWriter parameterWriter = messageWriter.CreateODataParameterWriter(null);
parameterWriter.WriteStart();
foreach (BodyOperationParameter operationParameter in operationParameters)
{
if (operationParameter.Value == null)
{
parameterWriter.WriteValue(operationParameter.Name, operationParameter.Value);
}
else
{
ClientEdmModel model = this.requestInfo.Model;
IEdmType edmType = model.GetOrCreateEdmType(operationParameter.Value.GetType());
Debug.Assert(edmType != null, "edmType != null");
switch (edmType.TypeKind)
{
case EdmTypeKind.Collection:
{
this.WriteCollectionValueInBodyOperationParameter(parameterWriter, operationParameter, (IEdmCollectionType)edmType);
break;
}
case EdmTypeKind.Entity:
{
Debug.Assert(model.GetClientTypeAnnotation(edmType).ElementType != null, "model.GetClientTypeAnnotation(edmType).ElementType != null");
ODataEntry entry = this.CreateODataEntryFromEntityOperationParameter(model.GetClientTypeAnnotation(edmType), operationParameter.Value);
Debug.Assert(entry != null, "entry != null");
var entryWriter = parameterWriter.CreateEntryWriter(operationParameter.Name);
entryWriter.WriteStart(entry);
entryWriter.WriteEnd();
break;
}
case EdmTypeKind.Complex:
{
Debug.Assert(model.GetClientTypeAnnotation(edmType).ElementType != null, "model.GetClientTypeAnnotation(edmType).ElementType != null");
ODataComplexValue complexValue = this.propertyConverter.CreateODataComplexValue(
model.GetClientTypeAnnotation(edmType).ElementType,
operationParameter.Value,
null /*propertyName*/,
false /*isCollectionItemType*/,
null /*visitedComplexTypeObjects*/);
Debug.Assert(complexValue != null, "complexValue != null");
parameterWriter.WriteValue(operationParameter.Name, complexValue);
break;
}
case EdmTypeKind.Primitive:
object primitiveValue = ODataPropertyConverter.ConvertPrimitiveValueToRecognizedODataType(operationParameter.Value, operationParameter.Value.GetType());
parameterWriter.WriteValue(operationParameter.Name, primitiveValue);
break;
case EdmTypeKind.Enum:
ODataEnumValue tmp = this.propertyConverter.CreateODataEnumValue(
model.GetClientTypeAnnotation(edmType).ElementType,
operationParameter.Value,
false);
parameterWriter.WriteValue(operationParameter.Name, tmp);
break;
default:
// EdmTypeKind.Row
// EdmTypeKind.EntityReference
throw new NotSupportedException(Strings.Serializer_InvalidParameterType(operationParameter.Name, edmType.TypeKind));
}
} // else
} // foreach
parameterWriter.WriteEnd();
parameterWriter.Flush();
}
}
/// <summary> /// Writes an entity reference link. /// </summary> /// <param name="binding">The link descriptor.</param> /// <param name="requestMessage">The request message used for writing the payload.</param> /// <param name="isBatch">True if batch, false otherwise.</param> internal void WriteEntityReferenceLink(LinkDescriptor binding, ODataRequestMessageWrapper requestMessage, bool isBatch)
/// <summary>
/// Returns the request message to write the headers and payload into.
/// </summary>
/// <param name="method">Http method for the request.</param>
/// <param name="requestUri">Base Uri for the request.</param>
/// <param name="headers">Request headers.</param>
/// <param name="httpStack">HttpStack to use.</param>
/// <param name="descriptor">Descriptor for the request, if there is one.</param>
/// <param name="contentId">Content-ID header that could be used in batch request.</param>
/// <returns>an instance of IODataRequestMessage.</returns>
protected override ODataRequestMessageWrapper CreateRequestMessage(string method, Uri requestUri, HeaderCollection headers, HttpStack httpStack, Descriptor descriptor, string contentId)
{
BuildingRequestEventArgs args = this.RequestInfo.CreateRequestArgsAndFireBuildingRequest(method, requestUri, headers, this.RequestInfo.HttpStack, descriptor);
return(ODataRequestMessageWrapper.CreateBatchPartRequestMessage(this.batchWriter, args, this.RequestInfo, contentId));
}
/// <summary>
/// Synchronizely get the query set count from the server by executing the $count=value query
/// </summary>
/// <param name="context">The context</param>
/// <returns>The server side count of the query set</returns>
internal long GetQuerySetCount(DataServiceContext context)
{
Debug.Assert(null != context, "context is null");
Version requestVersion = this.QueryComponents(context.Model).Version;
if (requestVersion == null)
{
requestVersion = Util.ODataVersion4;
}
QueryResult response = null;
QueryComponents qc = this.QueryComponents(context.Model);
Uri requestUri = qc.Uri;
DataServiceRequest <long> serviceRequest = new DataServiceRequest <long>(requestUri, qc, null);
HeaderCollection headers = new HeaderCollection();
// Validate and set the request DSV header
headers.SetRequestVersion(requestVersion, context.MaxProtocolVersionAsVersion);
context.Format.SetRequestAcceptHeaderForCount(headers);
string httpMethod = XmlConstants.HttpMethodGet;
ODataRequestMessageWrapper request = context.CreateODataRequestMessage(
context.CreateRequestArgsAndFireBuildingRequest(httpMethod, requestUri, headers, context.HttpStack, null /*descriptor*/),
null /*descriptor*/);
response = new QueryResult(this, Util.ExecuteMethodName, serviceRequest, request, new RequestInfo(context), null, null);
try
{
response.ExecuteQuery();
if (HttpStatusCode.NoContent != response.StatusCode)
{
StreamReader sr = new StreamReader(response.GetResponseStream());
long r = -1;
try
{
r = XmlConvert.ToInt64(sr.ReadToEnd());
}
finally
{
sr.Close();
}
return(r);
}
else
{
throw new DataServiceQueryException(Strings.DataServiceRequest_FailGetCount, response.Failure);
}
}
catch (InvalidOperationException ex)
{
QueryOperationResponse operationResponse = null;
operationResponse = response.GetResponse <long>(MaterializeAtom.EmptyResults);
if (null != operationResponse)
{
operationResponse.Error = ex;
throw new DataServiceQueryException(Strings.DataServiceException_GeneralError, ex, operationResponse);
}
throw;
}
}
protected override void AsyncEndGetResponse(IAsyncResult asyncResult)
{
Debug.Assert(asyncResult != null && asyncResult.IsCompleted, "asyncResult.IsCompleted");
AsyncStateBag asyncStateBag = asyncResult.AsyncState as AsyncStateBag;
PerRequest pereq = asyncStateBag == null ? null : asyncStateBag.PerRequest;
try
{
if (this.IsAborted)
{
if (pereq != null)
{
pereq.SetComplete();
}
this.SetCompleted();
}
else
{
this.CompleteCheck(pereq, InternalError.InvalidEndGetResponseCompleted);
pereq.SetRequestCompletedSynchronously(asyncResult.CompletedSynchronously);
this.SetCompletedSynchronously(asyncResult.CompletedSynchronously);
ODataRequestMessageWrapper requestMessage = Util.NullCheck(pereq.Request, InternalError.InvalidEndGetResponseRequest);
// the httpWebResponse is kept for batching, discarded by non-batch
IODataResponseMessage response = this.RequestInfo.EndGetResponse(requestMessage, asyncResult);
pereq.ResponseMessage = Util.NullCheck(response, InternalError.InvalidEndGetResponseResponse);
this.SetHttpWebResponse(pereq.ResponseMessage);
Debug.Assert(null == pereq.ResponseStream, "non-null async ResponseStream");
Stream httpResponseStream = null;
if (HttpStatusCode.NoContent != (HttpStatusCode)response.StatusCode)
{
httpResponseStream = response.GetStream();
pereq.ResponseStream = httpResponseStream;
}
if ((null != httpResponseStream) && httpResponseStream.CanRead)
{
if (null == this.outputResponseStream)
{
// this is the stream we copy the reponse to
this.outputResponseStream = Util.NullCheck(this.GetAsyncResponseStreamCopy(), InternalError.InvalidAsyncResponseStreamCopy);
}
if (null == this.asyncStreamCopyBuffer)
{
// this is the buffer we read into and copy out of
this.asyncStreamCopyBuffer = Util.NullCheck(this.GetAsyncResponseStreamCopyBuffer(), InternalError.InvalidAsyncResponseStreamCopyBuffer);
}
// Make async calls to read the response stream
this.ReadResponseStream(asyncStateBag);
}
else
{
pereq.SetComplete();
this.SetCompleted();
}
}
}
catch (Exception e)
{
if (this.HandleFailure(e))
{
throw;
}
}
finally
{
this.HandleCompleted(pereq);
}
}
/// <summary>
/// This method wraps the HttpWebRequest.GetSyncronousResponse method call. The reasons for doing this are to give us a place
/// to invoke internal test hook callbacks that can validate the response headers, and also so that we can do
/// debug validation to make sure that the headers have not changed since they were originally configured on the request.
/// </summary>
/// <param name="request">ODataRequestMessageWrapper instance</param>
/// <param name="handleWebException">If set to true, this method will only re-throw the WebException that was caught if
/// the response in the exception is null. If set to false, this method will always re-throw in case of a WebException.</param>
/// <returns>
/// Returns the HttpWebResponse from the wrapped GetSyncronousResponse method.
/// </returns>
internal IODataResponseMessage GetSyncronousResponse(ODataRequestMessageWrapper request, bool handleWebException)
{
return(this.Context.GetSyncronousResponse(request, handleWebException));
}
/// <summary>
/// Create request message for the descriptor at the given index.
/// </summary>
/// <param name="index">Index into changed entries</param>
/// <param name="requestMessage">IODataRequestMessage that needs to be used for writing the payload.</param>
/// <returns>true, if any request payload was generated, else false.</returns>
protected bool CreateChangeData(int index, ODataRequestMessageWrapper requestMessage)
{
Descriptor descriptor = this.ChangedEntries[index];
Debug.Assert(!descriptor.ContentGeneratedForSave, "already saved entity/link");
// Since batch payloads do not support MR and Named Stream, the code for handling that has been moved to
// SaveResult.CreateNonBatchChangeData. In this method, we only handle entity and link payload.
Debug.Assert(descriptor.DescriptorKind != DescriptorKind.NamedStream, "NamedStream payload is not supported in batch");
if (descriptor.DescriptorKind == DescriptorKind.Entity)
{
EntityDescriptor entityDescriptor = (EntityDescriptor)descriptor;
Debug.Assert(this.streamRequestKind == StreamRequestKind.None, "Batch does not support stream payloads. Hence this code should not get called at all");
// either normal entity or second call for media link entity, generate content payload
// else first call of media link descriptor where we only send the default value
descriptor.ContentGeneratedForSave = true;
return this.CreateRequestData(entityDescriptor, requestMessage);
}
else
{
descriptor.ContentGeneratedForSave = true;
LinkDescriptor link = (LinkDescriptor)descriptor;
if ((EntityStates.Added == link.State) ||
((EntityStates.Modified == link.State) && (null != link.Target)))
{
this.CreateRequestData(link, requestMessage);
return true;
}
}
return false;
}
/// <summary>
/// This method wraps the HttpWebRequest.GetSyncronousResponse method call. The reasons for doing this are to give us a place
/// to invoke internal test hook callbacks that can validate the response headers, and also so that we can do
/// debug validation to make sure that the headers have not changed since they were originally configured on the request.
/// </summary>
/// <param name="request">ODataRequestMessageWrapper instance</param>
/// <param name="handleWebException">If set to true, this method will only re-throw the WebException that was caught if
/// the response in the exception is null. If set to false, this method will always re-throw in case of a WebException.</param>
/// <returns>
/// Returns the HttpWebResponse from the wrapped GetSyncronousResponse method.
/// </returns>
internal IODataResponseMessage GetSyncronousResponse(ODataRequestMessageWrapper request, bool handleWebException)
{
return this.Context.GetSyncronousResponse(request, handleWebException);
}
/// <summary>
/// Generate a request for the given entity.
/// </summary>
/// <param name="entityDescriptor">Instance of EntityDescriptor.</param>
/// <param name="requestMessage">Instance of IODataRequestMessage to be used to generate the payload.</param>
/// <returns>True if the payload was generated, otherwise false.</returns>
private bool CreateRequestData(EntityDescriptor entityDescriptor, ODataRequestMessageWrapper requestMessage)
{
Debug.Assert(null != entityDescriptor, "null entityDescriptor");
bool generateRequestPayload = false;
switch (entityDescriptor.State)
{
case EntityStates.Deleted:
break;
case EntityStates.Modified:
case EntityStates.Added:
generateRequestPayload = true;
break;
default:
Error.ThrowInternalError(InternalError.UnvalidatedEntityState);
break;
}
if (generateRequestPayload)
{
Debug.Assert(this.SerializerInstance != null, "this.SerializerInstance != null");
this.SerializerInstance.WriteEntry(entityDescriptor, this.RelatedLinks(entityDescriptor), requestMessage);
}
return generateRequestPayload;
}
/// <summary>
/// Generate a request for the given link.
/// </summary>
/// <param name="binding">Instance of LinkDescriptor.</param>
/// <param name="requestMessage">Instance of IODataRequestMessage to be used to generate the payload.</param>
private void CreateRequestData(LinkDescriptor binding, ODataRequestMessageWrapper requestMessage)
{
Debug.Assert(
(binding.State == EntityStates.Added) ||
(binding.State == EntityStates.Modified && null != binding.Target),
"This method must be called only when a binding is added or put");
#if DEBUG
Debug.Assert(!Util.IsBatchWithSingleChangeset(this.Options) || this.IsBatchRequest, "If this.Options.IsBatchWithSingleChangeset() is true, this.IsBatchRequest must also be true.");
this.SerializerInstance.WriteEntityReferenceLink(binding, requestMessage, Util.IsBatchWithSingleChangeset(this.Options));
#else
this.SerializerInstance.WriteEntityReferenceLink(binding, requestMessage);
#endif
}
/// <summary>
/// Create memory stream for descriptor (entity or link or MR or named stream).
/// </summary>
/// <param name="index">Index into changed entries.</param>
/// <param name="requestMessage">RequestMessage to be used to generate the payload.</param>
/// <returns>Stream of data for descriptor.</returns>
protected ContentStream CreateNonBatchChangeData(int index, ODataRequestMessageWrapper requestMessage)
{
Descriptor descriptor = this.ChangedEntries[index];
Debug.Assert(!descriptor.ContentGeneratedForSave, "already saved entity/link");
Debug.Assert(!this.IsBatchRequest, "we do not support MR requests in batch");
if (descriptor.DescriptorKind == DescriptorKind.Entity && this.streamRequestKind != StreamRequestKind.None)
{
if (this.streamRequestKind != StreamRequestKind.None)
{
Debug.Assert(
this.streamRequestKind == StreamRequestKind.PutMediaResource || descriptor.State == EntityStates.Modified,
"We should have modified the MLE state to Modified when we've created the MR POST request.");
Debug.Assert(
this.streamRequestKind != StreamRequestKind.PutMediaResource || (descriptor.State == EntityStates.Unchanged || descriptor.State == EntityStates.Modified),
"If we're processing MR PUT the entity must be either in Unchanged or Modified state.");
// media resource request - we already precreated the body of the request
// in the CheckAndProcessMediaEntryPost or CheckAndProcessMediaEntryPut method.
Debug.Assert(this.mediaResourceRequestStream != null, "We should have precreated the MR stream already.");
return new ContentStream(this.mediaResourceRequestStream, false);
}
}
else if (descriptor.DescriptorKind == DescriptorKind.NamedStream)
{
Debug.Assert(!this.IsBatchRequest, "we do not support named stream requests in batch");
// named stream request - we already precreated the body of the request in CreateNamedStreamRequest method
Debug.Assert(this.mediaResourceRequestStream != null, "We should have precreated the MR stream already.");
descriptor.ContentGeneratedForSave = true;
return new ContentStream(this.mediaResourceRequestStream, false);
}
else if (this.CreateChangeData(index, requestMessage))
{
return requestMessage.CachedRequestStream;
}
return null;
}
internal void BeginCreateNextChange()
{
Debug.Assert(!this.IsCompletedInternally, "why being called if already completed?");
// create the memory stream required to cache the responses as we read async from the underlying http web response
this.inMemoryResponseStream = new MemoryStream();
// SaveCallback can't chain synchronously completed responses, caller will loop the to next change
PerRequest pereq = null;
IAsyncResult asyncResult = null;
do
{
IODataResponseMessage responseMsg = null;
ODataRequestMessageWrapper requestMessage = null;
try
{
if (this.perRequest != null)
{
this.SetCompleted();
Error.ThrowInternalError(InternalError.InvalidBeginNextChange);
}
requestMessage = this.CreateNextRequest();
// Keeping the old behavior (V1/V2) where the abortable was set to null,
// if CreateNextRequest returned null.
if (requestMessage == null)
{
this.Abortable = null;
}
if ((requestMessage != null) || (this.entryIndex < this.ChangedEntries.Count))
{
if (this.ChangedEntries[this.entryIndex].ContentGeneratedForSave)
{
Debug.Assert(this.ChangedEntries[this.entryIndex] is LinkDescriptor, "only expected RelatedEnd to presave");
Debug.Assert(
this.ChangedEntries[this.entryIndex].State == EntityStates.Added ||
this.ChangedEntries[this.entryIndex].State == EntityStates.Modified,
"only expected added to presave");
continue;
}
this.Abortable = requestMessage;
ContentStream contentStream = this.CreateNonBatchChangeData(this.entryIndex, requestMessage);
this.perRequest = pereq = new PerRequest();
pereq.Request = requestMessage;
AsyncStateBag asyncStateBag = new AsyncStateBag(pereq);
if (contentStream == null || contentStream.Stream == null)
{
asyncResult = BaseAsyncResult.InvokeAsync(requestMessage.BeginGetResponse, this.AsyncEndGetResponse, asyncStateBag);
}
else
{
if (contentStream.IsKnownMemoryStream)
{
requestMessage.SetContentLengthHeader();
}
pereq.RequestContentStream = contentStream;
asyncResult = BaseAsyncResult.InvokeAsync(requestMessage.BeginGetRequestStream, this.AsyncEndGetRequestStream, asyncStateBag);
}
pereq.SetRequestCompletedSynchronously(asyncResult.CompletedSynchronously);
this.SetCompletedSynchronously(pereq.RequestCompletedSynchronously);
}
else
{
this.SetCompleted();
if (this.CompletedSynchronously)
{
this.HandleCompleted(pereq);
}
}
}
catch (InvalidOperationException e)
{
e = WebUtil.GetHttpWebResponse(e, ref responseMsg);
this.HandleOperationException(e, responseMsg);
this.HandleCompleted(pereq);
}
finally
{
WebUtil.DisposeMessage(responseMsg);
}
// If the current request is completed synchronously, we need to call FinishCurrentChange() to process the response payload.
// FinishCurrentChange() will not call BeginCreateNextChange() when the request is synchronous.
// If the current request is completed asynchronously, an async thread will call FinishCurrentChange() to process the response payload.
// FinishCurrentchange() will then call BeginCreateNextChange() from the async thread and we need to exit this loop.
// If requestMessage = this.CreateNextRequest() returns null, we would have called this.SetCompleted() above and this.IsCompletedInternally
// would be true. This means we are done processing all changed entries and we should not call this.FinishCurrentChange().
if (pereq != null && pereq.RequestCompleted && pereq.RequestCompletedSynchronously && !this.IsCompletedInternally)
{
Debug.Assert(requestMessage != null, "httpWebRequest != null");
this.FinishCurrentChange(pereq);
}
// In the condition for the do-while loop we must test for pereq.RequestCompletedSynchronously and not asyncResult.CompletedSynchronously.
// pereq.RequestCompletedSynchronously is true only if all async calls completed synchronously. If we don't exit this loop when
// pereq.RequestCompletedSynchronously is false, the current thread and an async thread will both re-enter BeginCreateNextChange()
// and we will fail. We can only process one request at a given time.
}while (((pereq == null) || (pereq.RequestCompleted && pereq.RequestCompletedSynchronously)) && !this.IsCompletedInternally);
Debug.Assert((this.CompletedSynchronously && this.IsCompleted) || !this.CompletedSynchronously, "sync without complete");
Debug.Assert(this.entryIndex < this.ChangedEntries.Count || this.ChangedEntries.All(o => o.ContentGeneratedForSave), "didn't generate content for all entities/links");
}
/// <summary>
/// Check to see if the resource to be inserted is a media descriptor, and if so
/// setup a POST request for the media content first and turn the rest of
/// the operation into a PUT to update the rest of the properties.
/// </summary>
/// <param name="entityDescriptor">The resource to check/process</param>
/// <returns>An instance of ODataRequestMessage to do POST to the media resource</returns>
private ODataRequestMessageWrapper CheckAndProcessMediaEntryPost(EntityDescriptor entityDescriptor)
{
// TODO: Revisit the design of how media link entries are handled during update
ClientEdmModel model = this.RequestInfo.Model;
ClientTypeAnnotation type = model.GetClientTypeAnnotation(model.GetOrCreateEdmType(entityDescriptor.Entity.GetType()));
if (!type.IsMediaLinkEntry && !entityDescriptor.IsMediaLinkEntry)
{
// this is not a media link descriptor, process normally
return(null);
}
if (type.MediaDataMember == null && entityDescriptor.SaveStream == null)
{
// The entity is marked as MLE but we don't have the content property
// and the user didn't set the save stream.
throw Error.InvalidOperation(Strings.Context_MLEWithoutSaveStream(type.ElementTypeName));
}
Debug.Assert(
(type.MediaDataMember != null && entityDescriptor.SaveStream == null) ||
(type.MediaDataMember == null && entityDescriptor.SaveStream != null),
"Only one way of specifying the MR content is allowed.");
ODataRequestMessageWrapper mediaRequest = null;
if (type.MediaDataMember != null)
{
string contentType = null;
int contentLength = 0;
if (type.MediaDataMember.MimeTypeProperty == null)
{
contentType = XmlConstants.MimeApplicationOctetStream;
}
else
{
object mimeTypeValue = type.MediaDataMember.MimeTypeProperty.GetValue(entityDescriptor.Entity);
String mimeType = mimeTypeValue != null?mimeTypeValue.ToString() : null;
if (String.IsNullOrEmpty(mimeType))
{
throw Error.InvalidOperation(
Strings.Context_NoContentTypeForMediaLink(
type.ElementTypeName,
type.MediaDataMember.MimeTypeProperty.PropertyName));
}
contentType = mimeType;
}
object value = type.MediaDataMember.GetValue(entityDescriptor.Entity);
if (value == null)
{
this.mediaResourceRequestStream = null;
}
else
{
byte[] buffer = value as byte[];
if (buffer == null)
{
string mime;
Encoding encoding;
ContentTypeUtil.ReadContentType(contentType, out mime, out encoding);
if (encoding == null)
{
encoding = Encoding.UTF8;
contentType += XmlConstants.MimeTypeUtf8Encoding;
}
buffer = encoding.GetBytes(ClientConvert.ToString(value));
}
contentLength = buffer.Length;
// Need to specify that the buffer is publicly visible as we need to access it later on
this.mediaResourceRequestStream = new MemoryStream(buffer, 0, buffer.Length, false, true);
}
HeaderCollection headers = new HeaderCollection();
headers.SetHeader(XmlConstants.HttpContentLength, contentLength.ToString(CultureInfo.InvariantCulture));
headers.SetHeader(XmlConstants.HttpContentType, contentType);
mediaRequest = this.CreateMediaResourceRequest(
entityDescriptor.GetResourceUri(this.RequestInfo.BaseUriResolver, false /*queryLink*/),
XmlConstants.HttpMethodPost,
Util.ODataVersion4,
type.MediaDataMember == null, // sendChunked
true, // applyResponsePreference
headers,
entityDescriptor);
}
else
{
HeaderCollection headers = new HeaderCollection();
this.SetupMediaResourceRequest(headers, entityDescriptor.SaveStream, null /*etag*/);
mediaRequest = this.CreateMediaResourceRequest(
entityDescriptor.GetResourceUri(this.RequestInfo.BaseUriResolver, false /*queryLink*/),
XmlConstants.HttpMethodPost,
Util.ODataVersion4,
type.MediaDataMember == null, // sendChunked
true, // applyResponsePreference
headers,
entityDescriptor);
}
// Convert the insert into an update for the media link descriptor we just created
// (note that the identity still needs to be fixed up on the resbox once
// the response comes with the 'location' header; that happens during processing
// of the response in SavedResource())
entityDescriptor.State = EntityStates.Modified;
return(mediaRequest);
}
/// <summary>
/// Creates a request message with the given arguments.
/// </summary>
/// <param name="requestMessageArgs">The request message args.</param>
/// <returns>Newly created request message.</returns>
internal ODataRequestMessageWrapper CreateRequestMessage(BuildingRequestEventArgs requestMessageArgs)
{
return(ODataRequestMessageWrapper.CreateRequestMessageWrapper(requestMessageArgs, this.requestInfo));
}
/// <summary>
/// This method wraps the HttpWebRequest.EndGetResponse method call. The reason for doing this is to give us a place
/// to invoke internal test hook callbacks that can validate the response headers.
/// </summary>
/// <param name="request">HttpWebRequest instance</param>
/// <param name="asyncResult">Async result obtained from previous call to BeginGetResponse.</param>
/// <returns>Returns the HttpWebResponse from the wrapped EndGetResponse method.</returns>
internal IODataResponseMessage EndGetResponse(ODataRequestMessageWrapper request, IAsyncResult asyncResult)
{
return this.Context.EndGetResponse(request, asyncResult);
}
/// <summary>constructor</summary>
/// <param name="source">source object of async request</param>
/// <param name="method">async method name on source object</param>
/// <param name="serviceRequest">Originating serviceRequest</param>
/// <param name="request">Originating WebRequest</param>
/// <param name="requestInfo">The request info of the originating request.</param>
/// <param name="callback">user callback</param>
/// <param name="state">user state</param>
/// <param name="requestContentStream">the stream containing the request data.</param>
internal QueryResult(object source, string method, DataServiceRequest serviceRequest, ODataRequestMessageWrapper request, RequestInfo requestInfo, AsyncCallback callback, object state, ContentStream requestContentStream)
: this(source, method, serviceRequest, request, requestInfo, callback, state)
{
Debug.Assert(null != requestContentStream, "null requestContentStream");
this.requestContentStream = requestContentStream;
}
/// <summary>
/// Creates an instance of ODataMessageWriter.
/// </summary>
/// <param name="requestMessage">Instance of IODataRequestMessage.</param>
/// <param name="requestInfo">RequestInfo containing information about the client settings.</param>
/// <param name="isParameterPayload">true if the writer is intended to for a parameter payload, false otherwise.</param>
/// <returns>An instance of ODataMessageWriter.</returns>
internal static ODataMessageWriter CreateMessageWriter(ODataRequestMessageWrapper requestMessage, RequestInfo requestInfo, bool isParameterPayload)
{
var writerSettings = requestInfo.WriteHelper.CreateSettings(requestMessage.IsBatchPartRequest, requestInfo.Context.EnableWritingODataAnnotationWithoutPrefix);
return(requestMessage.CreateWriter(writerSettings, isParameterPayload));
}
/// <summary>constructor</summary>
/// <param name="source">source object of async request</param>
/// <param name="method">async method name on source object</param>
/// <param name="serviceRequest">Originating serviceRequest</param>
/// <param name="request">Originating WebRequest</param>
/// <param name="requestInfo">The request info of the originating request.</param>
/// <param name="callback">user callback</param>
/// <param name="state">user state</param>
internal QueryResult(object source, string method, DataServiceRequest serviceRequest, ODataRequestMessageWrapper request, RequestInfo requestInfo, AsyncCallback callback, object state)
: base(source, method, callback, state)
{
Debug.Assert(null != request, "null request");
this.ServiceRequest = serviceRequest;
this.Request = request;
this.RequestInfo = requestInfo;
this.Abortable = request;
}
/// <summary>
/// Writes the body operation parameters associated with a ServiceAction. For each BodyOperationParameter:
/// 1. calls ODataPropertyConverter to convert CLR object into ODataValue/primitive values.
/// 2. then calls ODataParameterWriter to write the ODataValue/primitive values.
/// </summary>
/// <param name="operationParameters">The list of operation parameters to write.</param>
/// <param name="requestMessage">The OData request message used to write the operation parameters.</param>
internal void WriteBodyOperationParameters(List <BodyOperationParameter> operationParameters, ODataRequestMessageWrapper requestMessage)
{
Debug.Assert(requestMessage != null, "requestMessage != null");
Debug.Assert(operationParameters != null, "operationParameters != null");
Debug.Assert(operationParameters.Any(), "operationParameters.Any()");
using (ODataMessageWriter messageWriter = Serializer.CreateMessageWriter(requestMessage, this.requestInfo, true /*isParameterPayload*/))
{
ODataParameterWriter parameterWriter = messageWriter.CreateODataParameterWriter(null);
parameterWriter.WriteStart();
foreach (BodyOperationParameter operationParameter in operationParameters)
{
if (operationParameter.Value == null)
{
parameterWriter.WriteValue(operationParameter.Name, operationParameter.Value);
}
else
{
ClientEdmModel model = this.requestInfo.Model;
IEdmType edmType = model.GetOrCreateEdmType(operationParameter.Value.GetType());
Debug.Assert(edmType != null, "edmType != null");
switch (edmType.TypeKind)
{
case EdmTypeKind.Collection:
{
this.WriteCollectionValueInBodyOperationParameter(parameterWriter, operationParameter, (IEdmCollectionType)edmType);
break;
}
case EdmTypeKind.Complex:
case EdmTypeKind.Entity:
{
Debug.Assert(model.GetClientTypeAnnotation(edmType).ElementType != null, "model.GetClientTypeAnnotation(edmType).ElementType != null");
ODataResourceWrapper entry = this.CreateODataResourceFromEntityOperationParameter(model.GetClientTypeAnnotation(edmType), operationParameter.Value);
Debug.Assert(entry != null, "entry != null");
var entryWriter = parameterWriter.CreateResourceWriter(operationParameter.Name);
ODataWriterHelper.WriteResource(entryWriter, entry);
break;
}
case EdmTypeKind.Primitive:
object primitiveValue = ODataPropertyConverter.ConvertPrimitiveValueToRecognizedODataType(operationParameter.Value, operationParameter.Value.GetType());
parameterWriter.WriteValue(operationParameter.Name, primitiveValue);
break;
case EdmTypeKind.Enum:
ODataEnumValue tmp = this.propertyConverter.CreateODataEnumValue(
model.GetClientTypeAnnotation(edmType).ElementType,
operationParameter.Value,
false);
parameterWriter.WriteValue(operationParameter.Name, tmp);
break;
default:
// EdmTypeKind.Row
// EdmTypeKind.EntityReference
throw new NotSupportedException(Strings.Serializer_InvalidParameterType(operationParameter.Name, edmType.TypeKind));
}
} // else
} // foreach
parameterWriter.WriteEnd();
parameterWriter.Flush();
}
}
/// <summary>
/// This method wraps the HttpWebRequest.EndGetResponse method call. The reason for doing this is to give us a place
/// to invoke internal test hook callbacks that can validate the response headers.
/// </summary>
/// <param name="request">HttpWebRequest instance</param>
/// <param name="asyncResult">Async result obtained from previous call to BeginGetResponse.</param>
/// <returns>Returns the HttpWebResponse from the wrapped EndGetResponse method.</returns>
internal IODataResponseMessage EndGetResponse(ODataRequestMessageWrapper request, IAsyncResult asyncResult)
{
return(this.Context.EndGetResponse(request, asyncResult));
}
/// <summary>
/// Write the entry element.
/// </summary>
/// <param name="entityDescriptor">The entity.</param>
/// <param name="relatedLinks">Collection of links related to the entity.</param>
/// <param name="requestMessage">The OData request message.</param>
internal void WriteEntry(EntityDescriptor entityDescriptor, IEnumerable <LinkDescriptor> relatedLinks, ODataRequestMessageWrapper requestMessage)
{
ClientEdmModel model = this.requestInfo.Model;
ClientTypeAnnotation entityType = model.GetClientTypeAnnotation(model.GetOrCreateEdmType(entityDescriptor.Entity.GetType()));
using (ODataMessageWriter messageWriter = Serializer.CreateMessageWriter(requestMessage, this.requestInfo, false /*isParameterPayload*/))
{
ODataWriterWrapper entryWriter = ODataWriterWrapper.CreateForEntry(messageWriter, this.requestInfo.Configurations.RequestPipeline);
// Get the server type name using the type resolver or from the entity descriptor
string serverTypeName = this.requestInfo.GetServerTypeName(entityDescriptor);
var entry = CreateODataEntry(entityDescriptor, serverTypeName, entityType, this.requestInfo.Format);
if (serverTypeName == null)
{
serverTypeName = this.requestInfo.InferServerTypeNameFromServerModel(entityDescriptor);
}
IEnumerable <ClientPropertyAnnotation> properties;
if ((!Util.IsFlagSet(this.options, SaveChangesOptions.ReplaceOnUpdate) &&
entityDescriptor.State == EntityStates.Modified &&
entityDescriptor.PropertiesToSerialize.Any()) ||
(Util.IsFlagSet(this.options, SaveChangesOptions.PostOnlySetProperties) &&
entityDescriptor.State == EntityStates.Added))
{
properties = entityType.PropertiesToSerialize().Where(prop => entityDescriptor.PropertiesToSerialize.Contains(prop.PropertyName));
}
else
{
properties = entityType.PropertiesToSerialize();
}
entry.Properties = this.propertyConverter.PopulateProperties(entityDescriptor.Entity, serverTypeName, properties);
entryWriter.WriteStart(entry, entityDescriptor.Entity);
this.WriteNestedComplexProperties(entityDescriptor.Entity, serverTypeName, properties, entryWriter);
if (EntityStates.Added == entityDescriptor.State)
{
this.WriteNestedResourceInfo(entityDescriptor, relatedLinks, entryWriter);
}
entryWriter.WriteEnd(entry, entityDescriptor.Entity);
}
}
/// <summary>
/// Generate the batch request for all changes to save.
/// </summary>
/// <returns>Returns the instance of ODataRequestMessage containing all the headers and payload for the batch request.</returns>
private ODataRequestMessageWrapper GenerateBatchRequest()
{
if (this.ChangedEntries.Count == 0 && this.Queries == null)
{
this.SetCompleted();
return(null);
}
ODataRequestMessageWrapper batchRequestMessage = this.CreateBatchRequest();
// we need to fire request after the headers have been written, but before we write the payload
batchRequestMessage.FireSendingRequest2(null);
using (ODataMessageWriter messageWriter = Serializer.CreateMessageWriter(batchRequestMessage, this.RequestInfo, false /*isParameterPayload*/))
{
this.batchWriter = messageWriter.CreateODataBatchWriter();
this.batchWriter.WriteStartBatch();
if (this.Queries != null)
{
foreach (DataServiceRequest query in this.Queries)
{
QueryComponents queryComponents = query.QueryComponents(this.RequestInfo.Model);
Uri requestUri = this.RequestInfo.BaseUriResolver.GetOrCreateAbsoluteUri(queryComponents.Uri);
Debug.Assert(requestUri != null, "request uri is null");
Debug.Assert(requestUri.IsAbsoluteUri, "request uri is not absolute uri");
HeaderCollection headers = new HeaderCollection();
headers.SetRequestVersion(queryComponents.Version, this.RequestInfo.MaxProtocolVersionAsVersion);
this.RequestInfo.Format.SetRequestAcceptHeaderForQuery(headers, queryComponents);
ODataRequestMessageWrapper batchOperationRequestMessage = this.CreateRequestMessage(XmlConstants.HttpMethodGet, requestUri, headers, this.RequestInfo.HttpStack, null /*descriptor*/, null /*contentId*/);
batchOperationRequestMessage.FireSendingEventHandlers(null /*descriptor*/);
}
}
else if (0 < this.ChangedEntries.Count)
{
if (Util.IsBatchWithSingleChangeset(this.Options))
{
this.batchWriter.WriteStartChangeset();
}
var model = this.RequestInfo.Model;
for (int i = 0; i < this.ChangedEntries.Count; ++i)
{
if (Util.IsBatchWithIndependentOperations(this.Options))
{
this.batchWriter.WriteStartChangeset();
}
Descriptor descriptor = this.ChangedEntries[i];
if (descriptor.ContentGeneratedForSave)
{
continue;
}
EntityDescriptor entityDescriptor = descriptor as EntityDescriptor;
if (descriptor.DescriptorKind == DescriptorKind.Entity)
{
if (entityDescriptor.State == EntityStates.Added)
{
// We don't support adding MLE/MR in batch mode
ClientTypeAnnotation type = model.GetClientTypeAnnotation(model.GetOrCreateEdmType(entityDescriptor.Entity.GetType()));
if (type.IsMediaLinkEntry || entityDescriptor.IsMediaLinkEntry)
{
throw Error.NotSupported(Strings.Context_BatchNotSupportedForMediaLink);
}
}
else if (entityDescriptor.State == EntityStates.Unchanged || entityDescriptor.State == EntityStates.Modified)
{
// We don't support PUT for the MR in batch mode
// It's OK to PUT the MLE alone inside a batch mode though
if (entityDescriptor.SaveStream != null)
{
throw Error.NotSupported(Strings.Context_BatchNotSupportedForMediaLink);
}
}
}
else if (descriptor.DescriptorKind == DescriptorKind.NamedStream)
{
// Similar to MR, we do not support adding named streams in batch mode.
throw Error.NotSupported(Strings.Context_BatchNotSupportedForNamedStreams);
}
ODataRequestMessageWrapper operationRequestMessage;
if (descriptor.DescriptorKind == DescriptorKind.Entity)
{
operationRequestMessage = this.CreateRequest(entityDescriptor);
}
else
{
operationRequestMessage = this.CreateRequest((LinkDescriptor)descriptor);
}
// we need to fire request after the headers have been written, but before we write the payload
operationRequestMessage.FireSendingRequest2(descriptor);
this.CreateChangeData(i, operationRequestMessage);
if (Util.IsBatchWithIndependentOperations(this.Options))
{
this.batchWriter.WriteEndChangeset();
}
}
if (Util.IsBatchWithSingleChangeset(this.Options))
{
this.batchWriter.WriteEndChangeset();
}
}
this.batchWriter.WriteEndBatch();
this.batchWriter.Flush();
}
Debug.Assert(this.ChangedEntries.All(o => o.ContentGeneratedForSave), "didn't generated content for all entities/links");
return(batchRequestMessage);
}
/// <summary> /// Writes an entity reference link. /// </summary> /// <param name="binding">The link descriptor.</param> /// <param name="requestMessage">The request message used for writing the payload.</param> /// <param name="isBatch">True if batch, false otherwise.</param> internal void WriteEntityReferenceLink(LinkDescriptor binding, ODataRequestMessageWrapper requestMessage, bool isBatch)
/// <summary>
/// Creates an instance of ODataMessageWriter.
/// </summary>
/// <param name="requestMessage">Instance of IODataRequestMessage.</param>
/// <param name="requestInfo">RequestInfo containing information about the client settings.</param>
/// <param name="isParameterPayload">true if the writer is intended to for a parameter payload, false otherwise.</param>
/// <returns>An instance of ODataMessageWriter.</returns>
internal static ODataMessageWriter CreateMessageWriter(ODataRequestMessageWrapper requestMessage, RequestInfo requestInfo, bool isParameterPayload)
{
var writerSettings = requestInfo.WriteHelper.CreateSettings(requestMessage.IsBatchPartRequest, requestInfo.Context.EnableAtom, requestInfo.Context.ODataSimplified);
return requestMessage.CreateWriter(writerSettings, isParameterPayload);
}
/// <summary>
/// Writes the body operation parameters associated with a ServiceAction. For each BodyOperationParameter:
/// 1. calls ODataPropertyConverter to convert CLR object into ODataValue/primitive values.
/// 2. then calls ODataParameterWriter to write the ODataValue/primitive values.
/// </summary>
/// <param name="operationParameters">The list of operation parameters to write.</param>
/// <param name="requestMessage">The OData request message used to write the operation parameters.</param>
internal void WriteBodyOperationParameters(List <BodyOperationParameter> operationParameters, ODataRequestMessageWrapper requestMessage)
{
Debug.Assert(requestMessage != null, "requestMessage != null");
Debug.Assert(operationParameters != null, "operationParameters != null");
Debug.Assert(operationParameters.Any(), "operationParameters.Any()");
using (ODataMessageWriter messageWriter = Serializer.CreateMessageWriter(requestMessage, this.requestInfo, true /*isParameterPayload*/))
{
ODataParameterWriter parameterWriter = messageWriter.CreateODataParameterWriter((IEdmOperation)null);
parameterWriter.WriteStart();
foreach (OperationParameter operationParameter in operationParameters)
{
if (operationParameter.Value == null)
{
parameterWriter.WriteValue(operationParameter.Name, operationParameter.Value);
}
else
{
ClientEdmModel model = this.requestInfo.Model;
IEdmType edmType = model.GetOrCreateEdmType(operationParameter.Value.GetType());
Debug.Assert(edmType != null, "edmType != null");
switch (edmType.TypeKind)
{
case EdmTypeKind.Collection:
{
// TODO: just call ODataPropertyConverter.CreateODataCollection()
IEnumerator enumerator = ((ICollection)operationParameter.Value).GetEnumerator();
ODataCollectionWriter collectionWriter = parameterWriter.CreateCollectionWriter(operationParameter.Name);
ODataCollectionStart odataCollectionStart = new ODataCollectionStart();
collectionWriter.WriteStart(odataCollectionStart);
while (enumerator.MoveNext())
{
Object collectionItem = enumerator.Current;
if (collectionItem == null)
{
throw new NotSupportedException(Strings.Serializer_NullCollectionParamterItemValue(operationParameter.Name));
}
IEdmType edmItemType = model.GetOrCreateEdmType(collectionItem.GetType());
Debug.Assert(edmItemType != null, "edmItemType != null");
switch (edmItemType.TypeKind)
{
case EdmTypeKind.Complex:
{
Debug.Assert(model.GetClientTypeAnnotation(edmItemType).ElementType != null, "edmItemType.GetClientTypeAnnotation().ElementType != null");
ODataComplexValue complexValue = this.propertyConverter.CreateODataComplexValue(
model.GetClientTypeAnnotation(edmItemType).ElementType,
collectionItem,
null /*propertyName*/,
false /*isCollectionItem*/,
null /*visitedComplexTypeObjects*/);
Debug.Assert(complexValue != null, "complexValue != null");
collectionWriter.WriteItem(complexValue);
break;
}
case EdmTypeKind.Primitive:
{
object primitiveItemValue = ODataPropertyConverter.ConvertPrimitiveValueToRecognizedODataType(collectionItem, collectionItem.GetType());
collectionWriter.WriteItem(primitiveItemValue);
break;
}
case EdmTypeKind.Enum:
{
ODataEnumValue enumTmp = this.propertyConverter.CreateODataEnumValue(
model.GetClientTypeAnnotation(edmItemType).ElementType,
collectionItem,
false);
collectionWriter.WriteItem(enumTmp);
break;
}
default:
// EdmTypeKind.Entity
// EdmTypeKind.Row
// EdmTypeKind.EntityReference
throw new NotSupportedException(Strings.Serializer_InvalidCollectionParamterItemType(operationParameter.Name, edmItemType.TypeKind));
}
}
collectionWriter.WriteEnd();
collectionWriter.Flush();
break;
}
case EdmTypeKind.Complex:
{
Debug.Assert(model.GetClientTypeAnnotation(edmType).ElementType != null, "model.GetClientTypeAnnotation(edmType).ElementType != null");
ODataComplexValue complexValue = this.propertyConverter.CreateODataComplexValue(
model.GetClientTypeAnnotation(edmType).ElementType,
operationParameter.Value,
null /*propertyName*/,
false /*isCollectionItemType*/,
null /*visitedComplexTypeObjects*/);
Debug.Assert(complexValue != null, "complexValue != null");
parameterWriter.WriteValue(operationParameter.Name, complexValue);
break;
}
case EdmTypeKind.Primitive:
object primitiveValue = ODataPropertyConverter.ConvertPrimitiveValueToRecognizedODataType(operationParameter.Value, operationParameter.Value.GetType());
parameterWriter.WriteValue(operationParameter.Name, primitiveValue);
break;
case EdmTypeKind.Enum:
ODataEnumValue tmp = this.propertyConverter.CreateODataEnumValue(
model.GetClientTypeAnnotation(edmType).ElementType,
operationParameter.Value,
false);
parameterWriter.WriteValue(operationParameter.Name, tmp);
break;
default:
// EdmTypeKind.Entity
// EdmTypeKind.Row
// EdmTypeKind.EntityReference
throw new NotSupportedException(Strings.Serializer_InvalidParameterType(operationParameter.Name, edmType.TypeKind));
}
} // else
} // foreach
parameterWriter.WriteEnd();
parameterWriter.Flush();
}
}
/// <summary>
/// Write the entry element.
/// </summary>
/// <param name="entityDescriptor">The entity.</param>
/// <param name="relatedLinks">Collection of links related to the entity.</param>
/// <param name="requestMessage">The OData request message.</param>
internal void WriteEntry(EntityDescriptor entityDescriptor, IEnumerable<LinkDescriptor> relatedLinks, ODataRequestMessageWrapper requestMessage)
{
ClientEdmModel model = this.requestInfo.Model;
ClientTypeAnnotation entityType = model.GetClientTypeAnnotation(model.GetOrCreateEdmType(entityDescriptor.Entity.GetType()));
using (ODataMessageWriter messageWriter = Serializer.CreateMessageWriter(requestMessage, this.requestInfo, false /*isParameterPayload*/))
{
ODataWriterWrapper entryWriter = ODataWriterWrapper.CreateForEntry(messageWriter, this.requestInfo.Configurations.RequestPipeline);
// Get the server type name using the type resolver or from the entity descriptor
string serverTypeName = this.requestInfo.GetServerTypeName(entityDescriptor);
var entry = CreateODataEntry(entityDescriptor, serverTypeName, entityType, this.requestInfo.Format);
if (serverTypeName == null)
{
serverTypeName = this.requestInfo.InferServerTypeNameFromServerModel(entityDescriptor);
}
IEnumerable<ClientPropertyAnnotation> properties;
if ((!Util.IsFlagSet(this.options, SaveChangesOptions.ReplaceOnUpdate) &&
entityDescriptor.State == EntityStates.Modified &&
entityDescriptor.PropertiesToSerialize.Any()) ||
(Util.IsFlagSet(this.options, SaveChangesOptions.PostOnlySetProperties) &&
entityDescriptor.State == EntityStates.Added))
{
properties = entityType.PropertiesToSerialize().Where(prop => entityDescriptor.PropertiesToSerialize.Contains(prop.PropertyName));
}
else
{
properties = entityType.PropertiesToSerialize();
}
entry.Properties = this.propertyConverter.PopulateProperties(entityDescriptor.Entity, serverTypeName, properties);
entryWriter.WriteStart(entry, entityDescriptor.Entity);
if (EntityStates.Added == entityDescriptor.State)
{
this.WriteNavigationLink(entityDescriptor, relatedLinks, entryWriter);
}
entryWriter.WriteEnd(entry, entityDescriptor.Entity);
}
}
/// <summary>constructor</summary>
/// <param name="entity">entity</param>
/// <param name="propertyName">name of collection or reference property to load</param>
/// <param name="context">Originating context</param>
/// <param name="request">Originating WebRequest</param>
/// <param name="callback">user callback</param>
/// <param name="state">user state</param>
/// <param name="dataServiceRequest">request object.</param>
/// <param name="plan">Projection plan for materialization; possibly null.</param>
/// <param name="isContinuation">Whether this request is a continuation request.</param>
internal LoadPropertyResult(object entity, string propertyName, DataServiceContext context, ODataRequestMessageWrapper request, AsyncCallback callback, object state, DataServiceRequest dataServiceRequest, ProjectionPlan plan, bool isContinuation)
: base(context, Util.LoadPropertyMethodName, dataServiceRequest, request, new RequestInfo(context, isContinuation), callback, state)
{
this.entity = entity;
this.propertyName = propertyName;
this.plan = plan;
}
/// <summary>
/// Writes an entity reference link.
/// </summary>
/// <param name="binding">The link descriptor.</param>
/// <param name="requestMessage">The request message used for writing the payload.</param>
internal void WriteEntityReferenceLink(LinkDescriptor binding, ODataRequestMessageWrapper requestMessage)
#endif
{
using (ODataMessageWriter messageWriter = Serializer.CreateMessageWriter(requestMessage, this.requestInfo, false /*isParameterPayload*/))
{
EntityDescriptor targetResource = this.requestInfo.EntityTracker.GetEntityDescriptor(binding.Target);
Uri targetReferenceLink = targetResource.GetLatestIdentity();
if (targetReferenceLink == null)
{
#if DEBUG
Debug.Assert(isBatch, "we should be cross-referencing entities only in batch scenarios");
#endif
targetReferenceLink = UriUtil.CreateUri("$" + targetResource.ChangeOrder.ToString(CultureInfo.InvariantCulture), UriKind.Relative);
}
ODataEntityReferenceLink referenceLink = new ODataEntityReferenceLink();
referenceLink.Url = targetReferenceLink;
messageWriter.WriteEntityReferenceLink(referenceLink);
}
}
/// <summary>
/// Creates an instance of ODataMessageWriter.
/// </summary>
/// <param name="requestMessage">Instance of IODataRequestMessage.</param>
/// <param name="requestInfo">RequestInfo containing information about the client settings.</param>
/// <param name="isParameterPayload">true if the writer is intended to for a parameter payload, false otherwise.</param>
/// <returns>An instance of ODataMessageWriter.</returns>
internal static ODataMessageWriter CreateMessageWriter(ODataRequestMessageWrapper requestMessage, RequestInfo requestInfo, bool isParameterPayload)
{
var writerSettings = requestInfo.WriteHelper.CreateSettings(requestMessage.IsBatchPartRequest, requestInfo.Context.EnableAtom, requestInfo.Context.ODataSimplified);
return(requestMessage.CreateWriter(writerSettings, isParameterPayload));
}