private static IEdmTypeReference GetPropertyType(IEdmType type, string propertyName)
{
IEdmStructuredType type2 = type as IEdmStructuredType;
IEdmProperty property = (type2 == null) ? null : type2.FindProperty(propertyName);
if (property != null)
{
IEdmTypeReference typeReference = property.Type;
if (typeReference.IsNonEntityODataCollectionTypeKind())
{
throw new ODataException(Microsoft.Data.OData.Strings.EpmSourceTree_CollectionPropertyCannotBeMapped(propertyName, type.ODataFullName()));
}
if (typeReference.IsStream())
{
throw new ODataException(Microsoft.Data.OData.Strings.EpmSourceTree_StreamPropertyCannotBeMapped(propertyName, type.ODataFullName()));
}
if (typeReference.IsSpatial())
{
throw new ODataException(Microsoft.Data.OData.Strings.EpmSourceTree_SpatialTypeCannotBeMapped(propertyName, type.ODataFullName()));
}
return property.Type;
}
if ((type != null) && !type.IsOpenType())
{
throw new ODataException(Microsoft.Data.OData.Strings.EpmSourceTree_MissingPropertyOnType(propertyName, type.ODataFullName()));
}
return null;
}
/// <summary>
/// Resolves the given type if a client type resolver is available.
/// </summary>
/// <param name="typeToResolve">Type to resolve.</param>
/// <returns>The resolved type.</returns>
private IEdmType ResolveType(IEdmType typeToResolve)
{
Debug.Assert(typeToResolve != null, "typeToResolve != null");
Debug.Assert(this.model != null, "model != null");
Debug.Assert(this.readerBehavior != null, "readerBehavior != null");
Func <IEdmType, string, IEdmType> customTypeResolver = this.readerBehavior.TypeResolver;
if (customTypeResolver == null)
{
return(typeToResolve);
}
Debug.Assert(this.readerBehavior.ApiBehaviorKind == ODataBehaviorKind.WcfDataServicesClient, "Custom type resolver can only be specified in WCF DS Client behavior.");
EdmTypeKind typeKind;
// MetadataUtils.ResolveTypeName() does not allow entity collection types however both operationImport.ReturnType and operationParameter.Type can be of entity collection types.
// We don't want to relax MetadataUtils.ResolveTypeName() since the rest of ODL only allows primitive and complex collection types and is currently relying on the method to
// enforce this. So if typeToResolve is an entity collection type, we will resolve the item type and reconstruct the collection type from the resolved item type.
IEdmCollectionType collectionTypeToResolve = typeToResolve as IEdmCollectionType;
if (collectionTypeToResolve != null && collectionTypeToResolve.ElementType.IsEntity())
{
IEdmTypeReference itemTypeReferenceToResolve = collectionTypeToResolve.ElementType;
IEdmType resolvedItemType = MetadataUtils.ResolveTypeName(this.model, null /*expectedType*/, itemTypeReferenceToResolve.FullName(), customTypeResolver, this.version, out typeKind);
return(new EdmCollectionType(resolvedItemType.ToTypeReference(itemTypeReferenceToResolve.IsNullable)));
}
return(MetadataUtils.ResolveTypeName(this.model, null /*expectedType*/, typeToResolve.ODataFullName(), customTypeResolver, this.version, out typeKind));
}
/// <summary>
/// Resolve a type name against the provided <paramref name="model"/>. If no type name is given we either throw (if a type name on the value is required, e.g., on entries)
/// or infer the type from the model (if it is a user model).
/// </summary>
/// <param name="model">The model to use.</param>
/// <param name="typeReferenceFromMetadata">The type inferred from the model or null if the model is not a user model.</param>
/// <param name="typeName">The type name to be resolved.</param>
/// <param name="typeKindFromValue">The expected type kind of the resolved type.</param>
/// <param name="isOpenPropertyType">True if the type name belongs to an open property.</param>
/// <returns>A type for the <paramref name="typeName"/> or null if no metadata is available.</returns>
internal static IEdmTypeReference ResolveTypeNameForWriting(IEdmModel model, IEdmTypeReference typeReferenceFromMetadata, ref string typeName, EdmTypeKind typeKindFromValue, bool isOpenPropertyType)
{
DebugUtils.CheckNoExternalCallers();
Debug.Assert(model != null, "model != null");
Debug.Assert(
typeKindFromValue == EdmTypeKind.Complex || typeKindFromValue == EdmTypeKind.Collection,
"Only complex or collection types are supported by this method. This method assumes that the types in question don't support inheritance.");
IEdmType typeFromValue = WriterValidationUtils.ValidateValueTypeName(model, typeName, typeKindFromValue, isOpenPropertyType);
IEdmTypeReference typeReferenceFromValue = typeFromValue.ToTypeReference();
if (typeReferenceFromMetadata != null)
{
ValidationUtils.ValidateTypeKind(
typeKindFromValue,
typeReferenceFromMetadata.TypeKind(),
typeFromValue == null ? null : typeFromValue.ODataFullName());
}
typeReferenceFromValue = ValidateMetadataType(typeReferenceFromMetadata, typeReferenceFromValue);
if (typeKindFromValue == EdmTypeKind.Collection && typeReferenceFromValue != null)
{
// validate that the collection type represents a valid Collection type (e.g., is unordered).
typeReferenceFromValue = ValidationUtils.ValidateCollectionType(typeReferenceFromValue);
}
// derive the type name from the metadata if available
if (typeName == null && typeReferenceFromValue != null)
{
typeName = typeReferenceFromValue.ODataFullName();
}
return(typeReferenceFromValue);
}
/// <summary>
/// Validates that the specified type is of the requested kind.
/// </summary>
/// <param name="actualType">The type to validate.</param>
/// <param name="expectedTypeKind">The type kind from the value.</param>
/// <remarks>This override of the method will not create the type name unless it fails.</remarks>
internal static void ValidateTypeKind(IEdmType actualType, EdmTypeKind expectedTypeKind)
{
DebugUtils.CheckNoExternalCallers();
Debug.Assert(actualType != null, "actualType != null");
ValidationUtils.ValidateTypeKind(actualType.TypeKind, expectedTypeKind, actualType.ODataFullName());
}
/// <summary>
/// Check whether the parent and child are properly related types
/// </summary>
/// <param name="parentType">the parent type</param>
/// <param name="childType">the child type</param>
/// <exception cref="ODataException">Throws if the two types are not related.</exception>
public static void CheckRelatedTo(IEdmType parentType, IEdmType childType)
{
if (!IsRelatedTo(parentType, childType))
{
// If the parentType is an open property, parentType will be null and can't have an ODataFullName.
string parentTypeName = (parentType != null) ? parentType.ODataFullName() : "<null>";
throw new ODataException(OData.Core.Strings.MetadataBinder_HierarchyNotFollowed(childType.FullTypeName(), parentTypeName));
}
}
/// <summary>
/// Check whether the parent and child are properly related types
/// </summary>
/// <param name="parentType">the parent type</param>
/// <param name="childType">the child type</param>
/// <exception cref="ODataException">Throws if the two types are not related.</exception>
public static void CheckRelatedTo(IEdmType parentType, IEdmType childType)
{
if (!IsRelatedTo(parentType, childType))
{
// If the parentType is an open property, parentType will be null and can't have an ODataFullName.
string parentTypeName = (parentType != null) ? parentType.ODataFullName() : "<null>";
throw new ODataException(OData.Core.Strings.MetadataBinder_HierarchyNotFollowed(childType.FullTypeName(), parentTypeName));
}
}
/// <summary>
/// Check whether the parent and child are properly related types
/// </summary>
/// <param name="parentType">the parent type</param>
/// <param name="childType">the child type</param>
/// <exception cref="ODataException">Throws if the two types are not related.</exception>
public static void CheckRelatedTo(IEdmType parentType, IEdmType childType)
{
IEdmEntityType childEntityType = childType as IEdmEntityType;
if (!childEntityType.IsOrInheritsFrom(parentType) && !parentType.IsOrInheritsFrom(childEntityType))
{
// If the parentType is an open property, parentType will be null and can't have an ODataFullName.
string parentTypeName = (parentType != null) ? parentType.ODataFullName() : "<null>";
throw new ODataException(OData.Strings.MetadataBinder_HierarchyNotFollowed(childEntityType.FullName(), parentTypeName));
}
}
/// <summary>
/// Translate a TypeSegment
/// </summary>
/// <param name="segment">the segment to Translate</param>
/// <returns>Defined by the implementer</returns>
public override string Translate(TypeSegment segment)
{
Debug.Assert(segment != null, "segment != null");
IEdmType type = segment.EdmType;
IEdmCollectionType collectionType = type as IEdmCollectionType;
if (collectionType != null)
{
type = collectionType.ElementType.Definition;
}
return("/" + type.ODataFullName());
}
public static bool AllHaveEqualReturnTypeAndAttributes(this IList <IEdmFunctionImport> functionImports)
{
Debug.Assert(functionImports != null, "functionImports != null");
if (!functionImports.Any())
{
return(true);
}
IEdmType firstReturnType = functionImports[0].ReturnType == null ? null : functionImports[0].ReturnType.Definition;
bool firstComposability = functionImports[0].IsComposable;
bool firstSideEffecting = functionImports[0].IsSideEffecting;
foreach (IEdmFunctionImport f in functionImports)
{
if (f.IsComposable != firstComposability)
{
return(false);
}
if (f.IsSideEffecting != firstSideEffecting)
{
return(false);
}
if (firstReturnType != null)
{
if (f.ReturnType.Definition.ODataFullName() != firstReturnType.ODataFullName())
{
return(false);
}
}
else
{
if (f.ReturnType != null)
{
return(false);
}
}
}
return(true);
}
private static IEdmTypeReference ResolveAndValidateTargetTypeStrictValidationEnabled(EdmTypeKind expectedTypeKind, IEdmTypeReference expectedTypeReference, IEdmType payloadType, string payloadTypeName, out SerializationTypeNameAnnotation serializationTypeNameAnnotation)
{
switch (expectedTypeKind)
{
case EdmTypeKind.Entity:
{
if (payloadType == null)
{
break;
}
IEdmTypeReference targetTypeReference = payloadType.ToTypeReference(true);
ValidationUtils.ValidateEntityTypeIsAssignable((IEdmEntityTypeReference)expectedTypeReference, (IEdmEntityTypeReference)targetTypeReference);
serializationTypeNameAnnotation = CreateSerializationTypeNameAnnotation(payloadTypeName, targetTypeReference);
return(targetTypeReference);
}
case EdmTypeKind.Complex:
if (payloadType != null)
{
VerifyComplexType(expectedTypeReference, payloadType, true);
}
break;
case EdmTypeKind.Collection:
if ((payloadType != null) && (string.CompareOrdinal(payloadType.ODataFullName(), expectedTypeReference.ODataFullName()) != 0))
{
VerifyCollectionComplexItemType(expectedTypeReference, payloadType);
throw new ODataException(Microsoft.Data.OData.Strings.ValidationUtils_IncompatibleType(payloadType.ODataFullName(), expectedTypeReference.ODataFullName()));
}
break;
default:
throw new ODataException(Microsoft.Data.OData.Strings.General_InternalError(InternalErrorCodes.ReaderValidationUtils_ResolveAndValidateTypeName_Strict_TypeKind));
}
serializationTypeNameAnnotation = CreateSerializationTypeNameAnnotation(payloadTypeName, expectedTypeReference);
return(expectedTypeReference);
}
/// <summary>
/// Returns the type of the property on the specified type.
/// </summary>
/// <param name="type">The type to look for the property on.</param>
/// <param name="propertyName">The name of the property to look for.</param>
/// <returns>The type of the property specified.</returns>
private static IEdmTypeReference GetPropertyType(IEdmType type, string propertyName)
{
Debug.Assert(propertyName != null, "propertyName != null");
IEdmStructuredType structuredType = type as IEdmStructuredType;
IEdmProperty property = structuredType == null ? null : structuredType.FindProperty(propertyName);
if (property != null)
{
IEdmTypeReference propertyType = property.Type;
if (propertyType.IsNonEntityCollectionType())
{
throw new ODataException(ODataErrorStrings.EpmSourceTree_CollectionPropertyCannotBeMapped(propertyName, type.ODataFullName()));
}
if (propertyType.IsStream())
{
throw new ODataException(ODataErrorStrings.EpmSourceTree_StreamPropertyCannotBeMapped(propertyName, type.ODataFullName()));
}
if (propertyType.IsSpatial())
{
throw new ODataException(ODataErrorStrings.EpmSourceTree_SpatialTypeCannotBeMapped(propertyName, type.ODataFullName()));
}
return(property.Type);
}
if (type != null && !type.IsOpenType())
{
throw new ODataException(ODataErrorStrings.EpmSourceTree_MissingPropertyOnType(propertyName, type.ODataFullName()));
}
return(null);
}
/// <summary>
/// Validates that the specified type is of the requested kind.
/// </summary>
/// <param name="actualType">The type to validate.</param>
/// <param name="expectedTypeKind">The type kind from the value.</param>
/// <remarks>This override of the method will not create the type name unless it fails.</remarks>
internal static void ValidateTypeKind(IEdmType actualType, EdmTypeKind expectedTypeKind)
{
DebugUtils.CheckNoExternalCallers();
Debug.Assert(actualType != null, "actualType != null");
ValidationUtils.ValidateTypeKind(actualType.TypeKind, expectedTypeKind, actualType.ODataFullName());
}
/// <summary>
/// Resolves the payload type versus the expected type and validates that such combination is allowed when strict validation is enabled.
/// </summary>
/// <param name="expectedTypeKind">The expected type kind for the value.</param>
/// <param name="expectedTypeReference">The expected type reference, or null if no expected type is available.</param>
/// <param name="payloadType">The payload type, or null if the payload type was not specified, or it didn't resolve against the model.</param>
/// <returns>The target type reference to use for parsing the value.</returns>
private static IEdmTypeReference ResolveAndValidateTargetTypeStrictValidationEnabled(
EdmTypeKind expectedTypeKind,
IEdmTypeReference expectedTypeReference,
IEdmType payloadType)
{
// Strict validation logic
switch (expectedTypeKind)
{
case EdmTypeKind.Complex:
if (payloadType != null)
{
// The payload type must be compatible to the expected type.
VerifyComplexType(expectedTypeReference, payloadType, /* failIfNotRelated */ true);
// Use the payload type
return payloadType.ToTypeReference(/*nullable*/ true);
}
break;
case EdmTypeKind.Entity:
if (payloadType != null)
{
// The payload type must be assignable to the expected type.
IEdmTypeReference payloadTypeReference = payloadType.ToTypeReference(/*nullable*/ true);
ValidationUtils.ValidateEntityTypeIsAssignable((IEdmEntityTypeReference)expectedTypeReference, (IEdmEntityTypeReference)payloadTypeReference);
// Use the payload type
return payloadTypeReference;
}
break;
case EdmTypeKind.Enum:
if (payloadType != null && string.CompareOrdinal(payloadType.ODataFullName(), expectedTypeReference.ODataFullName()) != 0)
{
throw new ODataException(Strings.ValidationUtils_IncompatibleType(payloadType.ODataFullName(), expectedTypeReference.ODataFullName()));
}
break;
case EdmTypeKind.Collection:
// The type must be exactly equal - note that we intentionally ignore nullability of the items here, since the payload type
// can't specify that.
if (payloadType != null && !payloadType.IsElementTypeEquivalentTo(expectedTypeReference.Definition))
{
VerifyCollectionComplexItemType(expectedTypeReference, payloadType);
throw new ODataException(Strings.ValidationUtils_IncompatibleType(payloadType.ODataFullName(), expectedTypeReference.ODataFullName()));
}
break;
case EdmTypeKind.TypeDefinition:
if (payloadType != null && !expectedTypeReference.Definition.IsAssignableFrom(payloadType))
{
throw new ODataException(Strings.ValidationUtils_IncompatibleType(payloadType.ODataFullName(), expectedTypeReference.ODataFullName()));
}
break;
default:
throw new ODataException(Strings.General_InternalError(InternalErrorCodes.ReaderValidationUtils_ResolveAndValidateTypeName_Strict_TypeKind));
}
// Either there's no payload type, in which case use the expected one, or the payload one and the expected one are equal.
return expectedTypeReference;
}
/// <summary>
/// Resolves the given type if a client type resolver is available.
/// </summary>
/// <param name="typeToResolve">Type to resolve.</param>
/// <returns>The resolved type.</returns>
private IEdmType ResolveType(IEdmType typeToResolve)
{
Debug.Assert(typeToResolve != null, "typeToResolve != null");
Debug.Assert(this.model != null, "model != null");
Debug.Assert(this.readerBehavior != null, "readerBehavior != null");
Func<IEdmType, string, IEdmType> customTypeResolver = this.readerBehavior.TypeResolver;
if (customTypeResolver == null)
{
return typeToResolve;
}
Debug.Assert(this.readerBehavior.ApiBehaviorKind == ODataBehaviorKind.WcfDataServicesClient, "Custom type resolver can only be specified in WCF DS Client behavior.");
EdmTypeKind typeKind;
// MetadataUtils.ResolveTypeName() does not allow entity collection types however both operationImport.ReturnType and operationParameter.Type can be of entity collection types.
// We don't want to relax MetadataUtils.ResolveTypeName() since the rest of ODL only allows primitive and complex collection types and is currently relying on the method to
// enforce this. So if typeToResolve is an entity collection type, we will resolve the item type and reconstruct the collection type from the resolved item type.
IEdmCollectionType collectionTypeToResolve = typeToResolve as IEdmCollectionType;
if (collectionTypeToResolve != null && collectionTypeToResolve.ElementType.IsEntity())
{
IEdmTypeReference itemTypeReferenceToResolve = collectionTypeToResolve.ElementType;
IEdmType resolvedItemType = MetadataUtils.ResolveTypeName(this.model, null /*expectedType*/, itemTypeReferenceToResolve.FullName(), customTypeResolver, out typeKind);
return new EdmCollectionType(resolvedItemType.ToTypeReference(itemTypeReferenceToResolve.IsNullable));
}
return MetadataUtils.ResolveTypeName(this.model, null /*expectedType*/, typeToResolve.ODataFullName(), customTypeResolver, out typeKind);
}
private bool TryCreateTypeNameSegment(ODataPathSegment previous, string identifier, string parenthesisExpression, IEdmType targetEdmType)
{
if (previous.TargetEdmType == null || targetEdmType == null)
{
return false;
}
// if the new type segment prevents any results from possibly being returned, then short-circuit and throw a 404.
IEdmType previousEdmType = previous.TargetEdmType;
Debug.Assert(previousEdmType != null, "previous.TargetEdmType != null");
if (previousEdmType.TypeKind == EdmTypeKind.Collection)
{
previousEdmType = ((IEdmCollectionType)previousEdmType).ElementType.Definition;
}
if (!targetEdmType.IsOrInheritsFrom(previousEdmType) && !previousEdmType.IsOrInheritsFrom(targetEdmType))
{
throw ExceptionUtil.CreateBadRequestError(ODataErrorStrings.RequestUriProcessor_InvalidTypeIdentifier_UnrelatedType(targetEdmType.ODataFullName(), previousEdmType.ODataFullName()));
}
// We want the type of the type segment to be a collection if the previous segment was a collection
IEdmType actualTypeOfTheTypeSegment = targetEdmType;
if (previous.EdmType.TypeKind == EdmTypeKind.Collection)
{
// creating a new collection type here because the type in the request is just the item type, there is no user-provided collection type.
var actualEntityTypeOfTheTypeSegment = actualTypeOfTheTypeSegment as IEdmEntityType;
if (actualEntityTypeOfTheTypeSegment != null)
{
actualTypeOfTheTypeSegment = new EdmCollectionType(new EdmEntityTypeReference(actualEntityTypeOfTheTypeSegment, false));
}
else
{
throw new ODataException(Strings.PathParser_TypeCastOnlyAllowedAfterEntityCollection(identifier));
}
}
var typeNameSegment = (ODataPathSegment)new TypeSegment(actualTypeOfTheTypeSegment, previous.TargetEdmNavigationSource)
{
Identifier = identifier,
TargetKind = previous.TargetKind,
SingleResult = previous.SingleResult,
TargetEdmType = targetEdmType
};
this.parsedSegments.Add(typeNameSegment);
// Key expressions are allowed on Type segments
this.TryBindKeyFromParentheses(parenthesisExpression);
return true;
}
/// <summary>
/// Parse from levelsOption token to LevelsClause.
/// Negative value would be treated as max.
/// </summary>
/// <param name="levelsOption">The levelsOption for current expand.</param>
/// <param name="sourceType">The type of current level navigation source.</param>
/// <param name="property">Navigation property for current expand.</param>
/// <returns>The LevelsClause parsed, null if levelsOption is null</returns>
private LevelsClause ParseLevels(long? levelsOption, IEdmType sourceType, IEdmNavigationProperty property)
{
if (!levelsOption.HasValue)
{
return null;
}
IEdmType relatedType = property.ToEntityType();
if (sourceType != null && relatedType != null && !UriEdmHelpers.IsRelatedTo(sourceType, relatedType))
{
throw new ODataException(ODataErrorStrings.ExpandItemBinder_LevelsNotAllowedOnIncompatibleRelatedType(property.Name, relatedType.ODataFullName(), sourceType.ODataFullName()));
}
return new LevelsClause(levelsOption.Value < 0, levelsOption.Value);
}
/// <summary>
/// Returns the type of the property on the specified type.
/// </summary>
/// <param name="type">The type to look for the property on.</param>
/// <param name="propertyName">The name of the property to look for.</param>
/// <returns>The type of the property specified.</returns>
private static IEdmTypeReference GetPropertyType(IEdmType type, string propertyName)
{
Debug.Assert(propertyName != null, "propertyName != null");
IEdmStructuredType structuredType = type as IEdmStructuredType;
IEdmProperty property = structuredType == null ? null : structuredType.FindProperty(propertyName);
if (property != null)
{
IEdmTypeReference propertyType = property.Type;
if (propertyType.IsNonEntityODataCollectionTypeKind())
{
throw new ODataException(o.Strings.EpmSourceTree_CollectionPropertyCannotBeMapped(propertyName, type.ODataFullName()));
}
if (propertyType.IsStream())
{
throw new ODataException(o.Strings.EpmSourceTree_StreamPropertyCannotBeMapped(propertyName, type.ODataFullName()));
}
if (propertyType.IsSpatial())
{
throw new ODataException(o.Strings.EpmSourceTree_SpatialTypeCannotBeMapped(propertyName, type.ODataFullName()));
}
return property.Type;
}
if (type != null && !type.IsOpenType())
{
throw new ODataException(o.Strings.EpmSourceTree_MissingPropertyOnType(propertyName, type.ODataFullName()));
}
return null;
}
private static IEdmTypeReference GetPropertyType(IEdmType type, string propertyName)
{
IEdmStructuredType type2 = type as IEdmStructuredType;
IEdmProperty property = (type2 == null) ? null : type2.FindProperty(propertyName);
if (property != null)
{
IEdmTypeReference typeReference = property.Type;
if (typeReference.IsNonEntityODataCollectionTypeKind())
{
throw new ODataException(Microsoft.Data.OData.Strings.EpmSourceTree_CollectionPropertyCannotBeMapped(propertyName, type.ODataFullName()));
}
if (typeReference.IsStream())
{
throw new ODataException(Microsoft.Data.OData.Strings.EpmSourceTree_StreamPropertyCannotBeMapped(propertyName, type.ODataFullName()));
}
if (typeReference.IsSpatial())
{
throw new ODataException(Microsoft.Data.OData.Strings.EpmSourceTree_SpatialTypeCannotBeMapped(propertyName, type.ODataFullName()));
}
return(property.Type);
}
if ((type != null) && !type.IsOpenType())
{
throw new ODataException(Microsoft.Data.OData.Strings.EpmSourceTree_MissingPropertyOnType(propertyName, type.ODataFullName()));
}
return(null);
}
internal void Add(EntityPropertyMappingInfo epmInfo)
{
List <EpmSourcePathSegment> list = new List <EpmSourcePathSegment>();
EpmSourcePathSegment root = this.Root;
EpmSourcePathSegment segment2 = null;
IEdmType actualPropertyType = epmInfo.ActualPropertyType;
string[] strArray = epmInfo.Attribute.SourcePath.Split(new char[] { '/' });
int length = strArray.Length;
for (int i = 0; i < length; i++)
{
string propertyName = strArray[i];
if (propertyName.Length == 0)
{
throw new ODataException(Microsoft.Data.OData.Strings.EpmSourceTree_InvalidSourcePath(epmInfo.DefiningType.ODataFullName(), epmInfo.Attribute.SourcePath));
}
IEdmTypeReference propertyType = GetPropertyType(actualPropertyType, propertyName);
IEdmType type2 = (propertyType == null) ? null : propertyType.Definition;
if ((type2 == null) && (i < (length - 1)))
{
throw new ODataException(Microsoft.Data.OData.Strings.EpmSourceTree_OpenComplexPropertyCannotBeMapped(propertyName, actualPropertyType.ODataFullName()));
}
actualPropertyType = type2;
segment2 = root.SubProperties.SingleOrDefault <EpmSourcePathSegment>(e => e.PropertyName == propertyName);
if (segment2 != null)
{
root = segment2;
}
else
{
EpmSourcePathSegment item = new EpmSourcePathSegment(propertyName);
root.SubProperties.Add(item);
root = item;
}
list.Add(root);
}
if ((actualPropertyType != null) && !actualPropertyType.IsODataPrimitiveTypeKind())
{
throw new ODataException(Microsoft.Data.OData.Strings.EpmSourceTree_EndsWithNonPrimitiveType(root.PropertyName));
}
if (segment2 != null)
{
if (segment2.EpmInfo.DefiningTypesAreEqual(epmInfo))
{
throw new ODataException(Microsoft.Data.OData.Strings.EpmSourceTree_DuplicateEpmAttributesWithSameSourceName(epmInfo.DefiningType.ODataFullName(), epmInfo.Attribute.SourcePath));
}
this.epmTargetTree.Remove(segment2.EpmInfo);
}
epmInfo.SetPropertyValuePath(list.ToArray());
root.EpmInfo = epmInfo;
this.epmTargetTree.Add(epmInfo);
}
internal static IEdmTypeReference ResolveTypeNameForWriting(IEdmModel model, IEdmTypeReference typeReferenceFromMetadata, ref string typeName, EdmTypeKind typeKindFromValue, bool isOpenPropertyType)
{
IEdmType type = ValidateValueTypeName(model, typeName, typeKindFromValue, isOpenPropertyType);
IEdmTypeReference typeReferenceFromValue = type.ToTypeReference();
if (typeReferenceFromMetadata != null)
{
ValidationUtils.ValidateTypeKind(typeKindFromValue, typeReferenceFromMetadata.TypeKind(), (type == null) ? null : type.ODataFullName());
}
typeReferenceFromValue = ValidateMetadataType(typeReferenceFromMetadata, typeReferenceFromValue);
if ((typeKindFromValue == EdmTypeKind.Collection) && (typeReferenceFromValue != null))
{
typeReferenceFromValue = ValidationUtils.ValidateCollectionType(typeReferenceFromValue);
}
if ((typeName == null) && (typeReferenceFromValue != null))
{
typeName = typeReferenceFromValue.ODataFullName();
}
return(typeReferenceFromValue);
}
/// <summary>
/// Parse from levelsOption token to LevelsClause.
/// Negative value would be treated as max.
/// </summary>
/// <param name="levelsOption">The levelsOption for current expand.</param>
/// <param name="sourceType">The type of current level navigation source.</param>
/// <param name="property">Navigation property for current expand.</param>
/// <returns>The LevelsClause parsed, null if levelsOption is null</returns>
private LevelsClause ParseLevels(long?levelsOption, IEdmType sourceType, IEdmNavigationProperty property)
{
if (!levelsOption.HasValue)
{
return(null);
}
IEdmType relatedType = property.ToEntityType();
if (sourceType != null && relatedType != null && !UriEdmHelpers.IsRelatedTo(sourceType, relatedType))
{
throw new ODataException(ODataErrorStrings.ExpandItemBinder_LevelsNotAllowedOnIncompatibleRelatedType(property.Name, relatedType.ODataFullName(), sourceType.ODataFullName()));
}
return(new LevelsClause(levelsOption.Value < 0, levelsOption.Value));
}
internal static void ValidateTypeKind(IEdmType actualType, EdmTypeKind expectedTypeKind)
{
ValidateTypeKind(actualType.TypeKind, expectedTypeKind, actualType.ODataFullName());
}
/// <summary>
/// Adds a path to the source and target tree which is obtained by looking at the EntityPropertyMappingAttribute in the <paramref name="epmInfo"/>
/// </summary>
/// <param name="epmInfo">EnitityPropertyMappingInfo holding the source path</param>
internal void Add(EntityPropertyMappingInfo epmInfo)
{
DebugUtils.CheckNoExternalCallers();
List <EpmSourcePathSegment> pathToCurrentSegment = new List <EpmSourcePathSegment>();
EpmSourcePathSegment currentSourceSegment = this.Root;
EpmSourcePathSegment foundSourceSegment = null;
IEdmType currentType = epmInfo.ActualPropertyType;
Debug.Assert(!string.IsNullOrEmpty(epmInfo.Attribute.SourcePath), "Invalid source path");
string[] propertyPath = epmInfo.Attribute.SourcePath.Split('/');
int propertyPathLength = propertyPath.Length;
Debug.Assert(propertyPathLength > 0, "Must have been validated during EntityPropertyMappingAttribute construction");
for (int sourcePropertyIndex = 0; sourcePropertyIndex < propertyPathLength; sourcePropertyIndex++)
{
string propertyName = propertyPath[sourcePropertyIndex];
if (propertyName.Length == 0)
{
throw new ODataException(ODataErrorStrings.EpmSourceTree_InvalidSourcePath(epmInfo.DefiningType.ODataFullName(), epmInfo.Attribute.SourcePath));
}
IEdmTypeReference nextPropertyTypeReference = GetPropertyType(currentType, propertyName);
IEdmType nextPropertyType = nextPropertyTypeReference == null ? null : nextPropertyTypeReference.Definition;
// If we don't find a property type this is an open property; check whether this is the last segment in the path
// since otherwise this would not be an open primitive property and only open primitive properties are allowed.
if (nextPropertyType == null && sourcePropertyIndex < propertyPathLength - 1)
{
throw new ODataException(ODataErrorStrings.EpmSourceTree_OpenComplexPropertyCannotBeMapped(propertyName, currentType.ODataFullName()));
}
currentType = nextPropertyType;
foundSourceSegment = currentSourceSegment.SubProperties.SingleOrDefault(e => e.PropertyName == propertyName);
if (foundSourceSegment != null)
{
currentSourceSegment = foundSourceSegment;
}
else
{
EpmSourcePathSegment newSourceSegment = new EpmSourcePathSegment(propertyName);
currentSourceSegment.SubProperties.Add(newSourceSegment);
currentSourceSegment = newSourceSegment;
}
pathToCurrentSegment.Add(currentSourceSegment);
}
// The last segment is the one being mapped from by the user specified attribute.
// It must be a primitive type - we don't allow mappings of anything else than primitive properties directly.
// Note that we can only verify this for non-open properties, for open properties we must assume it's a primitive type
// and we will make this check later during serialization again when we actually have the value of the property.
if (currentType != null)
{
if (!currentType.IsODataPrimitiveTypeKind())
{
throw new ODataException(ODataErrorStrings.EpmSourceTree_EndsWithNonPrimitiveType(currentSourceSegment.PropertyName));
}
}
Debug.Assert(foundSourceSegment == null || foundSourceSegment.EpmInfo != null, "Can't have a leaf node in the tree without EpmInfo.");
// Two EpmAttributes with same PropertyName in the same type, this could be a result of inheritance
if (foundSourceSegment != null)
{
Debug.Assert(object.ReferenceEquals(foundSourceSegment, currentSourceSegment), "currentSourceSegment variable should have been updated already to foundSourceSegment");
// Check for duplicates on the same entity type
Debug.Assert(foundSourceSegment.SubProperties.Count == 0, "If non-leaf, it means we allowed complex type to be a leaf node");
if (foundSourceSegment.EpmInfo.DefiningTypesAreEqual(epmInfo))
{
throw new ODataException(ODataErrorStrings.EpmSourceTree_DuplicateEpmAttributesWithSameSourceName(epmInfo.DefiningType.ODataFullName(), epmInfo.Attribute.SourcePath));
}
// In case of inheritance, we need to remove the node from target tree which was mapped to base type property
this.epmTargetTree.Remove(foundSourceSegment.EpmInfo);
}
epmInfo.SetPropertyValuePath(pathToCurrentSegment.ToArray());
currentSourceSegment.EpmInfo = epmInfo;
this.epmTargetTree.Add(epmInfo);
}
/// <summary>
/// Resolve a type name against the provided <paramref name="model"/>. If not payload type name is specified,
/// derive the type from the model type (if available).
/// </summary>
/// <param name="model">The model to use.</param>
/// <param name="typeReferenceFromMetadata">The type inferred from the model or null if the model is not a user model.</param>
/// <param name="typeName">The type name to be resolved.</param>
/// <param name="typeKindFromValue">The expected type kind of the resolved type.</param>
/// <param name="isOpenPropertyType">True if the type name belongs to an open property.</param>
/// <returns>A type for the <paramref name="typeName"/> or null if no type name is specified and no metadata is available.</returns>
private static IEdmTypeReference ResolveAndValidateTypeFromNameAndMetadata(IEdmModel model, IEdmTypeReference typeReferenceFromMetadata, string typeName, EdmTypeKind typeKindFromValue, bool isOpenPropertyType)
{
Debug.Assert(model != null, "model != null");
Debug.Assert(
typeKindFromValue == EdmTypeKind.Complex || typeKindFromValue == EdmTypeKind.Collection || typeKindFromValue == EdmTypeKind.Enum,
"Only complex or collection or enum types are supported by this method. This method assumes that the types in question don't support inheritance.");
// if we have metadata, the type name of an open property value must not be null
if (typeName == null && model.IsUserModel() && isOpenPropertyType)
{
throw new ODataException(Strings.WriterValidationUtils_MissingTypeNameWithMetadata);
}
// starting from enum type, we want to skip validation (but still let the above makes sure open type's enum value has .TypeName)
if (typeKindFromValue == EdmTypeKind.Enum)
{
return(null);
}
IEdmType typeFromValue = typeName == null ? null : ResolveAndValidateTypeName(model, typeName, typeKindFromValue);
if (typeReferenceFromMetadata != null)
{
ValidationUtils.ValidateTypeKind(typeKindFromValue, typeReferenceFromMetadata.TypeKind(), typeFromValue == null ? null : typeFromValue.ODataFullName());
}
IEdmTypeReference typeReferenceFromValue = ValidateMetadataType(typeReferenceFromMetadata, typeFromValue == null ? null : typeFromValue.ToTypeReference());
if (typeKindFromValue == EdmTypeKind.Collection && typeReferenceFromValue != null)
{
// update nullability from metadata
if (typeReferenceFromMetadata != null)
{
typeReferenceFromValue = typeReferenceFromMetadata;
}
// validate that the collection type represents a valid Collection type (e.g., is unordered).
typeReferenceFromValue = ValidationUtils.ValidateCollectionType(typeReferenceFromValue);
}
return(typeReferenceFromValue);
}
private static IEdmTypeReference ResolveAndValidateTargetTypeStrictValidationEnabled(EdmTypeKind expectedTypeKind, IEdmTypeReference expectedTypeReference, IEdmType payloadType, string payloadTypeName, out SerializationTypeNameAnnotation serializationTypeNameAnnotation)
{
switch (expectedTypeKind)
{
case EdmTypeKind.Entity:
{
if (payloadType == null)
{
break;
}
IEdmTypeReference targetTypeReference = payloadType.ToTypeReference(true);
ValidationUtils.ValidateEntityTypeIsAssignable((IEdmEntityTypeReference) expectedTypeReference, (IEdmEntityTypeReference) targetTypeReference);
serializationTypeNameAnnotation = CreateSerializationTypeNameAnnotation(payloadTypeName, targetTypeReference);
return targetTypeReference;
}
case EdmTypeKind.Complex:
if (payloadType != null)
{
VerifyComplexType(expectedTypeReference, payloadType, true);
}
break;
case EdmTypeKind.Collection:
if ((payloadType != null) && (string.CompareOrdinal(payloadType.ODataFullName(), expectedTypeReference.ODataFullName()) != 0))
{
VerifyCollectionComplexItemType(expectedTypeReference, payloadType);
throw new ODataException(Microsoft.Data.OData.Strings.ValidationUtils_IncompatibleType(payloadType.ODataFullName(), expectedTypeReference.ODataFullName()));
}
break;
default:
throw new ODataException(Microsoft.Data.OData.Strings.General_InternalError(InternalErrorCodes.ReaderValidationUtils_ResolveAndValidateTypeName_Strict_TypeKind));
}
serializationTypeNameAnnotation = CreateSerializationTypeNameAnnotation(payloadTypeName, expectedTypeReference);
return expectedTypeReference;
}
/// <summary>
/// Validates a type name to ensure that it's not an empty string and resolves it against the provided <paramref name="model"/>.
/// </summary>
/// <param name="model">The model to use.</param>
/// <param name="typeName">The type name to validate.</param>
/// <param name="expectedTypeKind">The expected type kind for the given type name.</param>
/// <returns>The type with the given name and kind if a user model was available, otherwise null.</returns>
internal static IEdmType ResolveAndValidateTypeName(IEdmModel model, string typeName, EdmTypeKind expectedTypeKind)
{
Debug.Assert(model != null, "model != null");
if (typeName == null)
{
// if we have metadata, the type name of an entry must not be null
if (model.IsUserModel())
{
throw new ODataException(Strings.WriterValidationUtils_MissingTypeNameWithMetadata);
}
return(null);
}
if (typeName.Length == 0)
{
throw new ODataException(Strings.ValidationUtils_TypeNameMustNotBeEmpty);
}
if (!model.IsUserModel())
{
return(null);
}
// If we do have metadata, lookup the type and translate it to a type.
IEdmType resolvedType = MetadataUtils.ResolveTypeNameForWrite(model, typeName);
if (resolvedType == null)
{
throw new ODataException(Strings.ValidationUtils_UnrecognizedTypeName(typeName));
}
ValidationUtils.ValidateTypeKind(resolvedType.TypeKind, expectedTypeKind, resolvedType.ODataFullName());
return(resolvedType);
}
internal static void ValidateTypeKind(IEdmType actualType, EdmTypeKind expectedTypeKind)
{
ValidateTypeKind(actualType.TypeKind, expectedTypeKind, actualType.ODataFullName());
}
/// <summary>
/// Resolve a type name against the provided <paramref name="model"/>. If not payload type name is specified,
/// derive the type from the model type (if available).
/// </summary>
/// <param name="model">The model to use.</param>
/// <param name="typeReferenceFromMetadata">The type inferred from the model or null if the model is not a user model.</param>
/// <param name="typeName">The type name to be resolved.</param>
/// <param name="typeKindFromValue">The expected type kind of the resolved type.</param>
/// <param name="isOpenPropertyType">True if the type name belongs to an open property.</param>
/// <returns>A type for the <paramref name="typeName"/> or null if no type name is specified and no metadata is available.</returns>
private static IEdmTypeReference ResolveAndValidateTypeFromNameAndMetadata(IEdmModel model, IEdmTypeReference typeReferenceFromMetadata, string typeName, EdmTypeKind typeKindFromValue, bool isOpenPropertyType)
{
DebugUtils.CheckNoExternalCallers();
Debug.Assert(model != null, "model != null");
Debug.Assert(
typeKindFromValue == EdmTypeKind.Complex || typeKindFromValue == EdmTypeKind.Collection,
"Only complex or collection types are supported by this method. This method assumes that the types in question don't support inheritance.");
// if we have metadata, the type name of an open property value must not be null
if (typeName == null && model.IsUserModel() && isOpenPropertyType)
{
throw new ODataException(Strings.WriterValidationUtils_MissingTypeNameWithMetadata);
}
IEdmType typeFromValue = typeName == null ? null : ResolveAndValidateTypeName(model, typeName, typeKindFromValue);
if (typeReferenceFromMetadata != null)
{
ValidationUtils.ValidateTypeKind(typeKindFromValue, typeReferenceFromMetadata.TypeKind(), typeFromValue == null ? null : typeFromValue.ODataFullName());
}
IEdmTypeReference typeReferenceFromValue = ValidateMetadataType(typeReferenceFromMetadata, typeFromValue == null ? null : typeFromValue.ToTypeReference());
if (typeKindFromValue == EdmTypeKind.Collection && typeReferenceFromValue != null)
{
// validate that the collection type represents a valid Collection type (e.g., is unordered).
typeReferenceFromValue = ValidationUtils.ValidateCollectionType(typeReferenceFromValue);
}
return(typeReferenceFromValue);
}
