OData services are described in terms of an Entity Data
Model (EDM). The Common Schema Definition Language (CSDL) defines an XML
representation of the entity data model exposed by an OData service. CSDL is
articulated in the Extensible Markup Language (XML) 1.1 (Second Edition) [XML-1.1] with further building blocks from the W3C XML
Schema Definition Language (XSD) 1.1 as described in
[XML-Schema-1] and [XML-Schema-2].
The key words “MUST”, “MUST NOT”, “REQUIRED”, “SHALL”, “SHALL
NOT”, “SHOULD”, “SHOULD NOT”, “RECOMMENDED”, “MAY”, and “OPTIONAL” in this
document are to be interpreted as described in [RFC2119].
[EPSG] European Petroleum Survey Group (EPSG).
http://www.epsg.org/Geodetic.html.
[OData-ABNF] OData
ABNF Construction Rules Version 4.0.
See link in “Additional artifacts” section on cover page.
[OData-Atom] OData ATOM Format Version 4.0.
See link in “Related work” section on cover page.
[OData-EDM] OData EDM XML Schema.
See link in “Additional artifacts” section on cover page.
[OData-EDMX] OData EDMX XML Schema.
See link in “Additional artifacts” section on cover page.
[OData-JSON] OData JSON Format Version 4.0.
See link in “Related work” section on cover page.
[OData-Meta] OData Metadata
Service Schema.
See link in “Additional artifacts” section on cover page.
[OData-Protocol] OData
Version 4.0 Part 1: Protocol.
See link in “Additional artifacts” section on cover page.
[OData-URL] OData
Version 4.0 Part 2: URL Conventions.
See link in “Additional artifacts” section on cover page.
[OData-VocCore] OData Core
Vocabulary.
See link in “Additional artifacts” section on cover page.
[RFC2119] Bradner,
S., “Key words for use in RFCs to Indicate Requirement Levels”, BCP 14, RFC
2119, March 1997. http://www.ietf.org/rfc/rfc2119.txt.
[RFC6570] Gregorio, J.,
Fielding, R., Hadley, M., Nottingham, M., and D. Orchard, “URI Template”, RFC
6570, March 2012. http://tools.ietf.org/html/rfc6570.
[XML-1.1] Extensible
Markup Language (XML) 1.1 (Second Edition), F. Yergeau, E. Maler, J.
Cowan, T. Bray, C. M. Sperberg-McQueen, J. Paoli, Editors, W3C Recommendation,
16 August 2006,
http://www.w3.org/TR/2006/REC-xml11-20060816.
Latest version available at http://www.w3.org/TR/xml11/.
[XML-Base] XML
Base (Second Edition) , J. Marsh, R. Tobin, Editors, W3C
Recommendation, 28 January 2009,
http://www.w3.org/TR/2009/REC-xmlbase-20090128/.
Latest
version available at http://www.w3.org/TR/xmlbase/.
[XML-Schema-1] W3C
XML Schema Definition Language (XSD) 1.1 Part 1: Structures, D. Beech, M.
Maloney, C. M. Sperberg-McQueen, H. S. Thompson, S. Gao, N. Mendelsohn,
Editors, W3C Recommendation, 5 April 2012, http://www.w3.org/TR/2012/REC-xmlschema11-1-20120405/.
Latest version available at http://www.w3.org/TR/xmlschema11-1/.
[XML-Schema-2] W3C
XML Schema Definition Language (XSD) 1.1 Part 2: DatatypesW3C XML Schema
Definition Language (XSD) 1.1 Part 2: Datatypes, D. Peterson, S. Gao, C. M.
Sperberg-McQueen, H. S. Thompson, P. V. Biron, A. Malhotra, Editors, W3C
Recommendation, 5 April 2012, http://www.w3.org/TR/2012/REC-xmlschema11-2-20120405/.
Latest version available at http://www.w3.org/TR/xmlschema11-2/.
Keywords defined by this specification use this monospaced font.
Normative source code uses this paragraph style.
Some sections of this specification are illustrated with
non-normative examples.
Example 1: text describing an example uses this paragraph
style
Non-normative
examples use this paragraph style.
All examples in this document are non-normative and
informative only.
All other text is normative unless otherwise labeled.
In addition to the default XML namespace, the elements and
attributes used to describe the entity model of an OData service are defined in
one of the following namespaces. An XML document using these namespaces and
having an edmx:Edmx
root element will be called a CSDL document.
Elements and attributes associated with the top-level
wrapper that contains the CSDL used to define the entity model for an OData
Service are qualified with the Entity Data Model for Data Services Packaging
namespace:
·
http://docs.oasis-open.org/odata/ns/edmx
Prior versions of OData used the following namespace for
EDMX:
·
EDMX version 1.0: http://schemas.microsoft.com/ado/2007/06/edmx
They are non-normative for this specification.
In this specification the namespace prefix edmx is used to represent the Entity Data Model for Data
Services Packaging namespace, however the prefix name is not prescriptive.
Elements and attributes that define the entity model exposed
by the OData Service are qualified with the Entity Data Model namespace:
·
http://docs.oasis-open.org/odata/ns/edm
Prior versions of CSDL used the following namespaces for
EDM:
·
CSDL version 1.0: http://schemas.microsoft.com/ado/2006/04/edm
·
CSDL version 1.1: http://schemas.microsoft.com/ado/2007/05/edm
·
CSDL version 1.2: http://schemas.microsoft.com/ado/2008/01/edm
·
CSDL version 2.0: http://schemas.microsoft.com/ado/2008/09/edm
·
CSDL version 3.0: http://schemas.microsoft.com/ado/2009/11/edm
They are non-normative for this specification.
In this specification the namespace prefix edm is used to represent the Entity Data Model namespace,
however the prefix name is not prescriptive.
This specification contains normative XML schemas for the
EDMX and EDM namespaces; see [OData-EDMX] and [OData-EDM].
These XML schemas only define the shape of a well-formed
CSDL document, but are not descriptive enough to define what a correct CSDL
document MUST be in every imaginable use case. This specification document
defines additional rules that correct CSDL documents MUST fulfill. In case of
doubt on what makes a CSDL document correct the rules defined in this
specification document take precedence.
Client libraries MUST retain
the document order of XML elements for CSDL documents because for some elements
the order of child elements is significant. This includes, but is not limited
to, members of enumeration types and items
within a collection-valued annotation.
OData does not impose any ordering constraints on XML
attributes within XML elements.
An OData service exposes a single entity model. This model
may be distributed over several schemas, and these schemas may be distributed
over several physical locations. The entity model wrapper provides a single
point of access to these parts by including them directly or referencing their
physical locations.
A service is defined by a single CSDL document which can be
accessed by sending a GET request to <serviceRoot>/$metadata. This document is called
the metadata document. It may reference other CSDL documents.
The metadata document contains a single entity container that defines the
resources exposed by this service. This entity container MAY extend an entity container defined in referenced documents.
The model of the service consists of all CSDL
constructs used in its entity containers.
A CSDL document MUST contain a root edmx:Edmx
element. This element MUST contain a single direct child edmx:DataServices
element. In addition to the data services element, the Edmx
element contains zero or more edmx:Reference elements.
Example 2:
<edmx:Edmx xmlns:edmx="http://docs.oasis-open.org/odata/ns/edmx"
Version="4.0">
<edmx:DataServices>
...
</edmx:DataServices>
</edmx:Edmx>
The edmx:Edmx element MUST provide the value 4.0 for the Version
attribute. It specifies the version of the EDMX wrapper defined by this version
of the specification.
The edmx:DataServices element
MUST contain at least one edm:Schema element which define
the schema(s) exposed by the OData service.
The edmx:Reference element
specifies external CSDL documents referenced by the referencing document. The
child elements edmx:Include
and edmx:IncludeAnnotations
specify which parts of the referenced document are available for use in the
referencing document. The edmx:Reference element
MUST contain at least one edmx:Include or edmx:IncludeAnnotations
child element.
The edmx:Reference element
contains zero or more edm:Annotation elements.
The scope of a CSDL document is the document itself
and all schemas included from directly referenced documents. All entity types,
complex types and other named elements in scope (that is, defined in the
document itself or a schema of a directly referenced document) can be accessed
from a referencing document by their namespace-qualified names.
Referencing another document may alter the model defined by
the referencing document. For instance, if a referenced document defines an
entity type derived from an entity type in the referencing document, then an entity set of the service defined by the
referencing document may return entities of the derived type. This is identical
to the behavior if the derived type had been defined directly in the
referencing document.
Note: referencing documents is not recursive. Only named elements
defined in directly referenced documents can be accessed; elements that are
defined in documents that are only referenced by referenced documents cannot be
accessed.
Example 3: to reference entity models containing definitions
of vocabulary terms
<?xml version="1.0" encoding="UTF-8"
standalone="yes"?>
<edmx:Edmx xmlns:edmx="http://docs.oasis-open.org/odata/ns/edmx"
Version="4.0">
<edmx:Reference Uri="http://vocabs.odata.org/capabilities/v1">
<edmx:Include Namespace="Org.OData.Capabilities.V1"
/>
</edmx:Reference>
<edmx:Reference Uri="http://vocabs.odata.org/display/v1">
<edmx:Include Alias="UI"
Namespace="org.example.Display" />
</edmx:Reference>
<edmx:DataServices>...</edmx:DataServices>
</edmx:Edmx>
The edmx:Reference element MUST
specify a Uri attribute. The Uri
attribute uniquely identifies a model, so two references MUST NOT specify the
same URI. The value of the Uri attribute SHOULD be
URL that locates a CSDL document describing the referenced model. If the URI is
not dereferencable it SHOULD identify a well-known schema. The value of the Uri attribute MAY be an absolute or relative URI;
relative URIs are relative to the xml:base attribute,
see [XML-Base].
The edmx:Reference element contains
zero or more edmx:Include elements that specify the
schemas to include from the target document.
The edmx:Include element MUST provide a Namespace value for the Namespace
attribute. The value MUST match the namespace of a schema defined in the
referenced CSDL document. The same namespace MUST NOT be included more than
once, even if it is declared in more than one referenced document.
An edmx:Include element MAY define a SimpleIdentifier value for the Alias attribute. The Alias
attribute defines an alias for the specified Namespace
that can be used in qualified names instead of the namespace. It only provides
a more convenient notation. Every model element that can be used via an alias-qualified
name can alternatively also be used via its full namespace-qualified name. An
alias allows a short string to be substituted for a long namespace. For
instance, an alias of display might be assigned to
the namespace org.example.vocabularies.display . An
alias-qualified name is resolved to a fully qualified name by examining aliases
on edmx:Include
and edm:Schema
elements within the same document.
Aliases are document-global, so edmx:Include
and edm:Schema
elements within a document MUST NOT assign the same alias to different
namespaces.
The Alias attribute MUST NOT use
the reserved values Edm, odata,
System, or Transient.
An alias is only valid within the document in which it is
declared; a referencing document has to define its own aliases with the edmx:Include
element.
3.5
Element edmx:IncludeAnnotations
The edmx:Reference element contains
zero or more edmx:IncludeAnnotations elements that
specify the annotations to include from the target document. If no edmx:IncludeAnnotations element is specified, a client
MAY ignore all annotations in the referenced document that are not explicitly
used in an edm:Path
expression of the referencing document.
Example 4: reference documents that contain annotations
<?xml version="1.0"
encoding="UTF-8" standalone="yes"?>
<edmx:Edmx xmlns:edmx="http://docs.oasis-open.org/odata/ns/edmx"
Version="4.0">
<edmx:Reference Uri="http://odata.org/ann/b">
<edmx:IncludeAnnotations TermNamespace="org.example.validation"
/>
<edmx:IncludeAnnotations TermNamespace="org.example.display"
Qualifier="Tablet"
/>
<edmx:IncludeAnnotations TermNamespace="org.example.hcm"
TargetNamespace="com.contoso.Sales" />
<edmx:IncludeAnnotations TermNamespace="org.example.hcm"
Qualifier="Tablet"
TargetNamespace="com.contoso.Person" />
</edmx:Reference>
<edmx:DataServices>...</edmx:DataServices>
</edmx:Edmx>
The following annotations from http://odata.org/ann/b
are included:
·
Annotations that use a term from the org.example.validation
namespace, and
·
Annotations that use a term from the org.example.display
namespace and specify a Tablet
qualifier and
·
Annotations that apply a term from the org.example.hcm
namespace to an element of the com.contoso.Sales
namepace and
·
Annotations that apply a term from the org.example.hcm
namespace to an element of the com.contoso.Person
namepace and specify a Tablet
qualifier.
3.5.1 Attribute TermNamespace
An edmx:IncludeAnnotations element
MUST provide a Namespace value for the TermNamespace
attribute.
The include element will import the set of annotations that
apply terms defined in the schema identified
by the namespace in the value. The term namespace attribute also provides
consumers insight about what namespaces are used in the annotations document.
If there are no edmx:IncludeAnnotations elements
that have a term namespace of interest to the consumer, the consumer can opt
not to download the document.
3.5.2 Attribute Qualifier
An edmx:IncludeAnnotations element
MAY specify a SimpleIdentifier for the Qualifier attribute. A qualifier is used to apply an
annotation to a subset of consumers. For instance, a service author might want
to supply a different set of annotations for various device form factors.
If Qualifier
is specified, only those annotations applying terms from the specified TermNamespace
with the specified Qualifier
(applied to an element of the TargetNamespace, if present)
SHOULD be imported. If Qualifier
is not specified, all annotations within the referenced document from the
specified TermNamespace
(taking into account the TargetNamespace, if present)
SHOULD be imported.
The Qualifier attribute also
provides consumers insight about what qualifiers are used in the annotations
document. If the consumer is not interested in that particular qualifier, the
consumer can opt not to download the document.
3.5.3 Attribute
TargetNamespace
An edmx:IncludeAnnotations element
MAY specify a Namespace value for the TargetNamespace
attribute.
If TargetNamespace is specified,
only those annotations which apply a term from the specified TermNamespace
to an element of the TargetNamespace (with the
specified Qualifier,
if present) SHOULD be imported. If TargetNamespace
is not specified, all annotations within the referenced document from the
specified TermNamespace
(taking into account the Qualifier, if present) SHOULD be
imported.
The TargetNamespace attribute
also provides consumers insight about what namespaces are used in the
annotations document. If there are no target elements that have a namespace of
interest to the consumer, the consumer can opt not to download the document.
4.1 Nominal Types
A nominal type has a name that MUST be a SimpleIdentifier. Nominal types are referenced
using their QualifiedName. The qualified type
name MUST be unique within a model as it facilitates references to the element
from other parts of the model.
When referring to nominal types, the reference MUST use one
of the following:
·
Namespace-qualified name
·
Alias-qualified name
Example 5:
<Schema xmlns="http://docs.oasis-open.org/odata/ns/edm"
Namespace="org.example"
Alias="sales">
<ComplexType Name="Address">...</ComplexType>
</Schema>
The two ways of referring to the nominal type Address are:
·
the fully qualified name org.example.Address can be used in any
namespace
·
an alias could be specified in any namespace and used in an
alias-qualified name, e.g. sales.Address
4.2 Structured Types
Structured types are composed of other model elements.
Structured types are common in entity models as the means of representing
entities and structured properties in an OData service. Entity
types and complex types are both structured
types.
4.3 Structural Properties
A structural property is
a property (of a structural type) that has one of the following types:
·
Primitive type
·
Complex type
·
Enumeration type
·
A collection of one of the above
4.4 Primitive Types
Structured types are composed of other structured types and
primitive types. OData defines the following primitive types:
|
Type
|
Meaning
|
|
Edm.Binary
|
Fixed-length or variable-length
binary data
|
|
Edm.Boolean
|
Binary-valued logic
|
|
Edm.Byte
|
Unsigned 8-bit integer
|
|
Edm.Date
|
Date without a time-zone offset
|
|
Edm.DateTimeOffset
|
Date and time with a time-zone
offset, no leap seconds
|
|
Edm.Decimal
|
Numeric values with fixed
precision and scale
|
|
Edm.Double
|
Floating-point number with 15
digits precision
|
|
Edm.Duration
|
Signed duration in days, hours,
minutes, and (sub)seconds
|
|
Edm.Guid
|
16-byte (128-bit) unique
identifier
|
|
Edm.Int16
|
Signed 16-bit integer
|
|
Edm.Int32
|
Signed 32-bit integer
|
|
Edm.Int64
|
Signed 64-bit integer
|
|
Edm.SByte
|
Signed 8-bit integer
|
|
Edm.Single
|
Floating-point number with 7
digits precision
|
|
Edm.Stream
|
Fixed-length or variable-length
data stream
|
|
Edm.String
|
Fixed-length or variable-length
sequence of UTF-8 characters
|
|
Edm.TimeOfDay
|
Clock time
0-23:59:59.999999999999
|
|
Edm.Geography
|
Abstract base type for all
Geography types
|
|
Edm.GeographyPoint
|
A point in a round-earth
coordinate system
|
|
Edm.GeographyLineString
|
Line string in a round-earth
coordinate system
|
|
Edm.GeographyPolygon
|
Polygon in a round-earth
coordinate system
|
|
Edm.GeographyMultiPoint
|
Collection of points in a
round-earth coordinate system
|
|
Edm.GeographyMultiLineString
|
Collection of line strings in a
round-earth coordinate system
|
|
Edm.GeographyMultiPolygon
|
Collection of polygons in a
round-earth coordinate system
|
|
Edm.GeographyCollection
|
Collection of arbitrary
Geography values
|
|
Edm.Geometry
|
Abstract base type for all
Geometry types
|
|
Edm.GeometryPoint
|
Point in a flat-earth
coordinate system
|
|
Edm.GeometryLineString
|
Line string in a flat-earth
coordinate system
|
|
Edm.GeometryPolygon
|
Polygon in a flat-earth
coordinate system
|
|
Edm.GeometryMultiPoint
|
Collection of points in a flat-earth
coordinate system
|
|
Edm.GeometryMultiLineString
|
Collection of line strings in a
flat-earth coordinate system
|
|
Edm.GeometryMultiPolygon
|
Collection of polygons in a flat-earth
coordinate system
|
|
Edm.GeometryCollection
|
Collection of arbitrary
Geometry values
|
Edm.Date and Edm.DateTimeOffset follow [XML-Schema-2]
and use the proleptic Gregorian calendar, allowing the year 0000 and negative years.
Some of these types allow facet
attributes, defined in section 6.2.
See [OData-ABNF] for the
representation of primitive type values in URLs, and [OData-Atom] and [OData-JSON]
for the representation in requests and responses.
4.5 Built-In
Abstract Types
The following built-in abstract types can be used within a
model:
·
Edm.PrimitiveType
·
Edm.ComplexType
·
Edm.EntityType
Conceptually, these are the abstract base types for
primitive types (including type definitions and enumeration types), complex
types, and entity types, respectively, and can be used anywhere a corresponding
concrete type can be used, except:
·
Edm.EntityType
- cannot be used as the type of a singleton in an entity container
because it doesn’t define a structure, which defeats the purpose of a
singleton.
- cannot be used as the type of an entity set because all
entities in an entity set must have the same key fields to uniquely
identify them within the set.
- cannot be the base type of an entity type or complex type.
·
Edm.ComplexType
- cannot be the base type of an entity type or complex type.
·
Edm.PrimitiveType
- cannot be used as the type of a key property of an entity
type.
- cannot be used as the underlying type of a type
definition or enumeration type.
·
Collection(Edm.PrimitiveType)
and Collection(Edm.ComplexType)
- cannot be used as the type of a property.
- cannot be used as the return type of a function.
Vocabulary terms can, in
addition, use
·
Edm.AnnotationPath
·
Edm.PropertyPath
·
Edm.NavigationPropertyPath
as the type of a primitive term, or the type of a property
of a complex type that is exclusively used as the type of a term.
Many parts of the model can be annotated with additional
information using the edm:Annotation element.
A model element MUST NOT specify more than one annotation
for a given combination of Term and Qualifier attributes.
Vocabulary annotations can be specified as a child of the
model element being annotated or as a child of an edm:Annotations
element that targets the model element.
Refer to Vocabulary
Annotations for details on which model elements support vocabulary
annotations.
One or more schemas describe the entity model exposed by an
OData service. The schema acts as a namespace for elements of the entity model
such as entity types, complex types, enumerations and terms.
5.1 Element edm:Schema
The edm:Schema element contains
one or more of the following elements:
Values of the Name attribute MUST
be unique across all direct child elements of a schema, with the sole exception
of overloads for an action and overloads for a function. The names are local to
the schema; they need not be unique within a document.
5.1.1 Attribute Namespace
A schema is identified by a Namespace. All edm:Schema elements MUST have a Namespace defined through
a Namespace attribute which MUST be unique within
the document, and SHOULD be globally unique. A schema cannot span more than one
document.
The schema’s namespace is combined with the name of elements
in the entity model to create unique qualified names, so identifiers that are used to name types MUST be
unique within a namespace to prevent ambiguity. See Nominal
Types for more detail.
The Namespace attribute MUST NOT
use the reserved values Edm, odata,
System, or Transient.
5.1.2 Attribute Alias
A schema MAY define an alias by providing a SimpleIdentifier value for the Alias attribute. An alias allows nominal types to be
qualified with a short string rather than a long namespace.
Aliases are document-global, so all edmx:Include
and edm:Schema
elements within a document MUST specify different values for the Alias attribute. Aliases defined by an edm:Schema element can be used throughout the containing document
and are not restricted to the schema that defines them.
The Alias
attribute MUST NOT use the reserved values Edm, odata, System, or Transient.
Structured Types are composed
of zero or more structural properties (represented as edm:Property
elements) and navigation properties (represented as edm:NavigationProperty
elements).
Example 6: complex type with two properties
<ComplexType Name="Measurement">
<Property Name="Dimension" Type="Edm.String"
Nullable="false" MaxLength="50"
DefaultValue="Unspecified" />
<Property Name="Length" Type="Edm.Decimal"
Nullable="false" Precision="18"
Scale="2" />
</ComplexType>
Open entity types and
open complex types allow properties to be
added dynamically to instances of the open type.
6.1 Element edm:Property
The edm:Property element defines
a structural property.
Example 7: property that can have zero or more strings as
its value
<Property Name="Units"
Type="Collection(Edm.String)" />
A property MUST specify a unique name
as well as a type and zero or more facets. Facets
are attributes that modify or constrain the acceptable values for a property
value.
6.1.1 Attribute Name
The edm:Property element MUST
include a Name attribute whose value is a SimpleIdentifier used when referencing,
serializing or deserializing the property.
The name of the structural property MUST be unique within the
set of structural and navigation properties of the containing structured type and
any of its base types.
6.1.2 Attribute Type
The edm:Property element MUST
include a Type attribute. The value of the Type attribute MUST be the QualifiedName
of a primitive type, complex type, or enumeration
type in scope, or a collection of one of these types.
6.2 Property
Facets
Property facets allow a model to provide additional
constraints or data about the value of structural properties. Facets are
expressed as attributes on the property element.
Facets apply to the type referenced in the element where the
facet is declared. If the type is a collection, the facets apply to the type of
elements in the collection.
Example 8: Precision facet applied to the DateTimeOffset type
<Property
Name="SuggestedTimes" Type="Collection(Edm.DateTimeOffset)"
Precision="6" />
6.2.1 Attribute
Nullable
The edm:Property element MAY
contain the Nullable attribute whose Boolean value specifies whether a value is required for the property.
If no value is specified for a property whose Type
attribute does not specify a collection, the Nullable
attribute defaults to true.
A property whose Type
attribute specifies a collection MUST NOT specify a value for the Nullable attribute as the collection always exists, it
may just be empty.
6.2.2 Attribute MaxLength
A binary, stream or string property MAY define a positive
integer value for the MaxLength facet attribute.
The value of this attribute specifies the maximum length of the value of the
property on a type instance. Instead of an integer value the constant max MAY be specified as a shorthand for the maximum length supported for the type by the
service.
If no value is specified, the property has
unspecified length.
6.2.3 Attribute Precision
A datetimeoffset, decimal, duration, or time-of-day property
MAY define a value for the Precision attribute.
For a decimal property the value of this attribute specifies
the maximum number of digits allowed in the property’s value; it MUST be a
positive integer. If no value is specified, the decimal property has
unspecified precision.
For a temporal property the value of this attribute
specifies the number of decimal places allowed in the seconds portion of the
property’s value; it MUST be a non-negative integer between zero and twelve. If
no value is specified, the temporal property has a precision of zero.
Note: service designers SHOULD be aware that some clients
are unable to support a precision greater than 29 for decimal properties and 7
for temporal properties. Client developers MUST be aware of the potential for
data loss when round-tripping values of greater precision. Updating via PATCH and exclusively specifying modified properties will
reduce the risk for unintended data loss.
6.2.4 Attribute
Scale
A decimal property MAY define a non-negative integer value
or variable for the Scale attribute. This attribute specifies the maximum
number of digits allowed to the right of the decimal point. The value variable means that the number of
digits to the right of the decimal point may vary from zero to the value of the
Precision
attribute.
The value of the Scale attribute
MUST be less than or equal to the value of the Precision attribute.
If no value is specified, the Scale
facet defaults to zero.
6.2.5 Attribute Unicode
A string property MAY define a Boolean value for the Unicode attribute.
A true value assigned to this
attribute indicates that the value of the property is encoded with Unicode. A false value assigned to this attribute indicates that the
value of the property is encoded with ASCII.
If no value is specified, the Unicode
facet defaults to true.
6.2.6 Attribute SRID
A geometry or geography property MAY define a value for the SRID attribute. The value of this attribute identifies
which spatial reference system is applied to values of the property on type
instances.
The value of the SRID attribute
MUST be a non-negative integer or the special value variable.
If no value is specified, the attribute defaults to 0
for Geometry types or 4326
for Geography types.
The valid values of the SRID
attribute and their meanings are as defined by the European Petroleum Survey
Group [EPSG].
6.2.7 Attribute
DefaultValue
A primitive or enumeration property MAY define a value for
the DefaultValue attribute. The value of this
attribute determines the value of the property if the property is not
explicitly represented in an annotation, the body of a POST
or PUT request, or the URL of a function
invocation.
Default values MUST be represented according to the xxxValue rule defined in [OData-ABNF]
that is appropriate for the type of the property.
If no value is specified, the DefaultValue
attribute defaults to null.
7.1 Element edm:NavigationProperty
A navigation property allows navigation to related entities.
Example 9: the Product entity type has a navigation
property to a Category, which has a navigation link back to one or more
products
<EntityType Name="Product">
...
<NavigationProperty Name="Category" Type="Self.Category"
Nullable="false"
Partner="Products" />
<NavigationProperty Name="Supplier" Type="Self.Supplier"
/>
</EntityType>
<EntityType Name="Category">
...
<NavigationProperty Name="Products" Type="Collection(Self.Product)"
Partner="Category" />
</EntityType>
The edm:NavigationProperty
element MUST include a Name attribute whose value
is a SimpleIdentifier that is used when
navigating from the structured type that declares the navigation property to the related
entity type.
The name of the navigation property MUST be unique within
the set of structural and navigation properties of the containing structured type and
any of its base types.
7.1.2 Attribute Type
The edm:NavigationProperty
element MUST include a Type attribute. The value
of the type attribute MUST resolve to an entity
type or a collection of an entity type declared in the same document or a
document referenced with an edmx:Reference element, or the abstract type Edm.EntityType.
If the value is an entity type name, there can be at most
one related entity. If it is a collection, an arbitrary number of entities can
be related.
The related entities MUST be of the specified entity type or
one of its subtypes.
The edm:Property element MAY
contain the Nullable attribute whose a Boolean value specifies whether a navigation target is required for the navigation property.
If no value is specified for a navigation property whose Type attribute does not specify a collection, the Nullable attribute defaults to true.
The value true (or the absence of the Nullable attribute) indicates that no navigation target
is required. The value false indicates that a
navigation target is required for the navigation property on instances of the
containing type.
A navigation property whose Type
attribute specifies a collection MUST NOT specify a value for the Nullable attribute as the collection always exists, it may just be empty.
7.1.4 Attribute Partner
A navigation property of an entity type MAY specify a navigation
property path value for the Partner attribute.
This attribute MUST NOT be specified for navigation
properties of complex types.
If specified, the value of this attribute MUST be a path
from the entity type specified in the Type attribute to a navigation
property defined on that type or a derived type. The path may traverse complex
types, including derived complex types, but MUST NOT traverse any navigation
properties. The type of the partner navigation property MUST be the containing
entity type of the current navigation property or one of its parent entity
types.
If the Partner attribute identifies a
single-valued navigation property, the partner navigation property MUST lead
back to the source entity from all related entities. If the Partner attribute identifies a
multi-valued navigation property, the source entity MUST be part of that
collection.
If no partner navigation property
is specified, no assumptions can be made as to whether one of the navigation
properties on the target type will lead back to the source entity.
If a partner navigation property
is specified, this partner navigation property MUST either specify the current
navigation property as its partner to define a bi-directional
relationship or it MUST NOT specify a partner attribute. The latter can occur
if the partner navigation property is defined on a complex type or the current
navigation property is defined on a type derived from the type of the partner
navigation property.
A navigation property MAY assign a Boolean value to the ContainsTarget attribute. If no value is assigned to the ContainsTarget attribute, the attribute defaults to false. If the value of the ContainsTarget
attribute is true, the navigation property is
called a containment navigation property.
Containment navigation properties define an implicit entity
set for each instance of its declaring entity type. This implicit entity set is
identified by the read URL of the navigation property for that entity.
Entities of the entity type that declares the navigation
property, either directly or indirectly via a property of complex type, contain
the entities referenced by the containment navigation property. The canonical
URL for contained entities is the canonical URL of the containing entity,
followed by the path segment of the navigation property and the key of the
contained entity, see [OData-URL].
As items in a collection of complex type do not have a
canonical URL, complex types declaring a containment navigation property,
either directly or indirectly via a property of complex type, MUST NOT be used
as the type of a collection-valued property.
An entity cannot be referenced by more than one containment
relationship, and cannot both belong to an entity set declared within the
entity container and be referenced by a containment relationship.
Containment navigation properties MUST NOT be specified as
the last path segment in the Path attribute of a navigation property binding.
When a containment navigation property navigates between
entity types in the same inheritance hierarchy, the containment it is called recursive.
Containment navigation properties MAY specify a Partner
attribute. If the containment is recursive, the partner navigation property
MUST be nullable and specify a single entity type (i.e. have a multiplicity of 0..1). If the containment is not recursive, the partner
navigation property MUST NOT be nullable (i.e. have a multiplicity of 1).
An entity type hierarchy MUST NOT contain more than one
navigation property with a Partner attribute referencing a
containment relationship.
Note: without a partner attribute, there is no reliable way
for a client to determine which entity contains a given contained entity. This
may lead to problems for clients if the contained navigation property can also
be reached via a non-containment navigation path.
7.2
Element edm:ReferentialConstraint
A navigation property whose Type attribute specifies a single
entity type MAY define a referential constraint. A referential constraint
asserts that if the navigation property is not null, the property of the dependent
entity (the source of the navigation) listed in the referential constraint MUST
have the same value as the referenced property of the principal entity
(the target of the navigation).
Example 10: the category must exist for a product in that
category to exist, and the CategoryID of the
product is identical to the ID of the category
<EntityType Name="Product">
...
<NavigationProperty Name="Category" Type="Self.Category"
Nullable="false">
<ReferentialConstraint Property="CategoryID" ReferencedProperty="ID"
/>
<OnDelete Action="Cascade" />
</NavigationProperty>
</EntityType>
7.2.1 Attribute Property
A referential constraint MUST specify a value for the Property attribute. The Property
attribute specifies the property that takes part in the referential constraint
on the dependent entity type. Its value MUST be a path expression resolving to a
primitive property of the dependent entity type itself or to a primitive
property of a complex property (recursively) of the dependent entity type. The
names of the properties in the path are joined together by forward slashes.
A referential constraint MUST specify a value for the ReferencedProperty attribute. The ReferencedProperty
attribute specifies the corresponding property of the principal entity type.
Its value MUST be a path expression resolving to a primitive property of the principal
entity type itself or to a primitive property of a complex property
(recursively) of the principal entity type that MUST have the same data type as
the property of the dependent entity type.
7.3 Element edm:OnDelete
A navigation property MAY define an edm:OnDelete
element. It describes the action the service will take on related entities when
the source entity is deleted.
The edm:OnDelete element MUST
include the Action attribute with one of the
following values:
·
Cascade, meaning the related
entities will be deleted if the source entity is deleted,
·
None, meaning a DELETE request on a source
entity with related entities will fail,
·
SetNull, meaning all
properties of related entities that are tied to properties of the source entity
via a referential constraint and that do not participate in other referential
constraints will be set to null,
·
SetDefault, meaning all
properties of related entities that are tied to properties of the source entity
via a referential constraint and that do not participate in other referential
constraints will be set to their default value.
If no edm:OnDelete element is
present, the action taken by the service is not predictable by the client and could
vary per entity.
Entity types are nominal structured types with a key that consists of one
or more references to structural properties.
An entity type is the template for an entity: any uniquely identifiable record
such as a customer or order.
An edm.Key child element MAY be specified if the entity
type does not specify a base type that
already has a key declared. The key consists of one or more references to
structural properties of the entity type.
An entity type can define two types of properties. A structural property is a named reference to a
primitive, complex, or enumeration type, or a collection of primitive, complex,
or enumeration types. A navigation property is a
named reference to another entity type or collection of entity types.
All properties MUST have a unique name within an entity
type. Properties MUST NOT have the same name as the declaring entity type. They
MAY have the same name as one of the direct or indirect base types or derived
types.
An open entity type
allows properties to be dynamically added to instances of the type.
Example 11: a simple entity type
<EntityType Name="Employee">
<Key>
<PropertyRef Name="ID" />
</Key>
<Property Name="ID" Type="Edm.String"
Nullable="false" />
<Property Name="FirstName" Type="Edm.String"
Nullable="false" />
<Property Name="LastName" Type="Edm.String"
Nullable="false" />
<NavigationProperty Name="Manager" Type="Model.Manager"
/>
</EntityType>
Example 12: a derived entity type based on the previous
example
<EntityType Name="Manager" BaseType="Model.Employee">
<Property Name="AnnualBudget" Type="Edm.Decimal" />
<NavigationProperty Name="Employees" Type="Collection(Model.Employee)"
/>
</EntityType>
Note: the derived type has the same name
as one of the properties of its base type.
8.1 Element edm:EntityType
The edm:EntityType element
represents an entity type in the entity model. It contains zero or more edm:Property
and edm:NavigationProperty
elements describing the properties if the entity type.
It MAY contain one edm:Key element.
The edm:EntityType element MUST
include a Name attribute whose value is a SimpleIdentifier. The name MUST be unique within
its namespace.
8.1.2 Attribute BaseType
An entity type can inherit from another entity type by
specifying the QualifiedName of the base entity
type as the value for the BaseType attribute.
An entity type inherits the key
as well as structural and navigation properties declared on the entity type’s
base type.
An entity type MUST NOT introduce an inheritance cycle via
the base type attribute.
8.1.3 Attribute Abstract
An entity type MAY indicate that it cannot be instantiated
by providing a Boolean value of true to the Abstract attribute. If not specified, the Abstract attribute defaults to false.
If Abstract is false, the entity type MUST define a key or derive from a base type with a defined key.
An abstract entity type MUST NOT inherit from a non-abstract
entity type.
8.1.4 Attribute OpenType
An entity type MAY indicate that it is open by providing a
value of true for the OpenType
attribute. An open type allows clients to add properties dynamically to
instances of the type by specifying uniquely named values in the payload used
to insert or update an instance of the type.
If not specified, the value of the OpenType
attribute defaults to false.
An entity type derived from an open entity type MUST NOT
provide a value of false for the OpenType attribute.
Note: structural and navigation properties MAY be returned
by the service on instances of any structured type, whether or not the type is
marked as open. Clients MUST always be prepared to deal with additional
properties on instances of any structured type, see [OData-Protocol].
An entity type MAY specify a Boolean value for the HasStream attribute.
A value of true specifies that
the entity type is a media entity. Media entities are entities that
represent a media stream, such as a photo. For more information on media
entities see [OData-Protocol].
If no value is provided for the HasStream
attribute, the value of the HasStream attribute is
set to false.
Entity types that specify HasStream="true"
MAY specify a list of acceptable media types using an annotation with term Core.AcceptableMediaTypes, see [OData-VocCore].
8.2 Element edm:Key
An entity is uniquely identified within an entity set by its
key. An entity type that is not abstract
MUST either contain exactly one edm:Key element or
inherit its key from its base type. An
abstract entity type MAY define a key if it doesn’t inherit one.
An entity type’s key refers to the set of properties that
uniquely identify an instance of the entity type within an entity set.
The edm:Key element MUST contain
at least one edm:PropertyRef
element. An edm:PropertyRef
element references an edm:Property. The properties that compose the key
MUST be non-nullable and typed with an enumeration
type, one of the following primitive types, or a type definition based on one of these primitive types:
·
Edm.Boolean
·
Edm.Byte
·
Edm.Date
·
Edm.DateTimeOffset
·
Edm.Decimal
·
Edm.Duration
·
Edm.Guid
·
Edm.Int16
·
Edm.Int32
·
Edm.Int64
·
Edm.SByte
·
Edm.String
·
Edm.TimeOfDay
Example 13: entity type with a simple key
<EntityType Name="Category">
<Key>
<PropertyRef Name="ID" />
</Key>
<Property Name="ID" Type="Edm.Int32"
Nullable="false" />
<Property Name="Name" Type="Edm.String" />
</EntityType>
Example 14: entity type with a simple key referencing a property of a complex type
<EntityType Name="Category">
<Key>
<PropertyRef Name="Info/ID" Alias="EntityInfoID"
/>
</Key>
<Property Name="Info" Type="Sales.EntityInfo"
Nullable="false" />
<Property Name="Name" Type="Edm.String" />
</EntityType>
<ComplexType Name="EntityInfo">
<Property Name="ID" Type="Edm.Int32"
Nullable="false" />
<Property Name="Created" Type="Edm.DateTimeOffset"
/>
</ComplexType>
Example 15: entity type with a composite key
<EntityType Name="OrderLine">
<Key>
<PropertyRef Name="OrderID" />
<PropertyRef Name="LineNumber" />
</Key>
<Property Name="OrderID" Type="Edm.Int32"
Nullable="false" />
<Property Name="LineNumber" Type="Edm.Int32"
Nullable="false" />
</EntityType>
The edm:PropertyRef element
provides an edm:Key with a reference to a property.
The edm:PropertyRef element MUST
specify a value for the Name attribute which MUST
be a path expression resolving to a primitive property of the entity type
itself or to a primitive property of a complex property (recursively) of the
entity type. The names of the properties in the path are joined together by
forward slashes.
8.3.2 Attribute Alias
The edm:PropertyRef element MAY
define a SimpleIdentifier value for the Alias attribute.
The Alias attribute defines an
alias for the property identified by the Name
attribute. The alias MUST be unique within the set of aliases, structural and
navigation properties of the containing entity type and any of its base types.
An alias MUST be defined if the key property is a member of
a complex type.
If an alias is defined, it MUST be used in the key predicate
of URLs instead of the value assigned to the Name
attribute. The alias MUST NOT be used in the query part.
Example 16 (based on example 14): requests to an entity set Categories of type Category must use the alias
http://host/service/Categories(EntityInfoID=1)
Example 17 (based on example 14): in a query part the value assigned to the name attribute must be used
http://example.org/OData.svc/Categories?$filter=Info/ID le 100
Complex types are keyless nominal
structured types. The lack of a key means that
complex types cannot be referenced, created, updated or deleted independently
of an entity type. Complex types allow entity models to group properties into
common structures.
A complex type can define two types of properties. A structural property is a named reference to a
primitive, complex, or enumeration type, or a collection of primitive, complex,
or enumeration types. A navigation property is a
named reference to an entity type or a collection of entity types.
All properties MUST have a unique name within a complex
type. Properties MUST NOT have the same name as the declaring complex type.
They MAY have the same name as one of the direct or indirect base types or
derived types.
An open complex type
allows properties to be dynamically added to instances of the type.
Example 18: a complex type used by two entity types
<ComplexType Name="Dimensions">
<Property Name="Height" Nullable="false"
Type="Edm.Decimal" />
<Property Name="Weight" Nullable="false"
Type="Edm.Decimal" />
<Property Name="Length" Nullable="false"
Type="Edm.Decimal" />
</ComplexType>
<EntityType Name="Product">
...
<Property Name="ProductDimensions" Type="Self.Dimensions"
/>
<Property Name="ShippingDimensions" Type="Self.Dimensions"
/>
</EntityType>
<EntityType Name="ShipmentBox">
...
<Property Name="Dimensions" Type="Self.Dimensions"
/>
</EntityType>
9.1 Element edm:ComplexType
The edm:ComplexType element
represents a complex type in an entity model. It contains zero or more edm:Property
and edm:NavigationProperty
elements describing properties of the complex type.
9.1.1 Attribute Name
The edm:ComplexType element MUST
include a Name attribute whose value is a SimpleIdentifier. The value identifies the
complex type and MUST be unique within its namespace.
9.1.2 Attribute BaseType
A complex type can inherit from another complex type by
specifying the QualifiedName of the base complex type
as the value for the BaseType attribute.
A complex type inherits the properties declared on the
complex type’s base type.
A complex type MUST NOT introduce an inheritance cycle via
the base type attribute.
A complex type MAY indicate that it cannot be instantiated
by providing a Boolean value of true to the Abstract attribute.
If not specified, the Abstract
attribute defaults to false.
9.1.4
Attribute OpenType
A complex type MAY indicate that it is open by providing a
value of true for the OpenType
attribute. An open type allows clients to add properties dynamically to
instances of the type by specifying uniquely named values in the payload used
to insert or update an instance of the type.
If not specified, the OpenType
attribute defaults to false.
A complex type derived from an open complex type MUST NOT provide
a value of false for the OpenType
attribute.
Note: structural and navigation properties MAY be returned
by the service on instances of any structured type, whether or not the type is
marked as open. Clients MUST always be prepared to deal with additional
properties on instances of any structured type, see [OData-Protocol].
Enumeration types are nominal
scalar types that represent a series of related values. Enumeration types
expose these related values as members of the enumeration.
The IsFlags attribute indicates that
more than one member may be selected at a time.
Example 19: a simple flags-enabled enumeration
<EnumType Name="FileAccess"
UnderlyingType="Edm.Int32" IsFlags="true">
<Member Name="Read" Value="1" />
<Member Name="Write" Value="2" />
<Member Name="Create" Value="4" />
<Member Name="Delete" Value="8" />
</EnumType>
10.1 Element edm:EnumType
The edm:EnumType element
represents an enumeration type in an entity model.
The edm:EnumType element MUST
include a Name attribute whose value is a SimpleIdentifier. The value identifies the
enumeration type and MUST be unique within its namespace.
The enumeration type element contains one or more child edm:Member
elements defining the members of the enumeration type.
10.1.2
Attribute UnderlyingType
An enumeration type MAY include an UnderlyingType
attribute to specify an underlying type whose value MUST be one of Edm.Byte, Edm.SByte, Edm.Int16, Edm.Int32, or Edm.Int64. If the UnderlyingType
attribute is not specified, Edm.Int32 is used as
the underlying type.
10.1.3 Attribute IsFlags
An enumeration type MAY specify a Boolean value for the IsFlags attribute. A value of true
indicates that the enumeration type allows multiple members to be selected
simultaneously.
If no value is specified for this attribute,
its value defaults to false.
10.2 Element edm:Member
The edm:Member element defines
the discrete options for the enumeration type .
Example 20: an enumeration type with three discrete members
<EnumType Name="ShippingMethod">
<Member Name="FirstClass" />
<Member Name="TwoDay" />
<Member Name="Overnight" />
</EnumType>
Each edm:Member element MUST
include a Name attribute whose value is a SimpleIdentifier. The enumeration type MUST NOT
declare two members with the same name.
The value of an enumeration member allows instances to be
sorted by a property that has an enumeration member for its value.
If the IsFlags attribute has a value of false, either all members MUST specify an integer value
for the Value attribute, or all members MUST NOT
specify a value for the Value attribute. If no
values are specified, the members are assigned consecutive integer values in
the order of their appearance, starting with zero for the first member. Client
libraries MUST preserve elements in document order.
If the IsFlags attribute has a value of true, a non-negative integer value MUST be specified for
the Value attribute. A combined value is equivalent
to the bitwise OR of the discrete values.
The value MUST be a valid value for the UnderlyingType
of the enumeration type.
Example 21: FirstClass has a
value of 0, TwoDay a
value of 1, and Overnight a value of 2.
<EnumType Name="ShippingMethod">
<Member Name="FirstClass" />
<Member Name="TwoDay" />
<Member Name="Overnight" />
</EnumType>
Example 22: pattern values can be combined, and some
combined values have explicit names
<EnumType Name="Pattern"
UnderlyingType="Edm.Int32" IsFlags="true">
<Member Name="Plain" Value="0"
/>
<Member Name="Red" Value="1"
/>
<Member Name="Blue" Value="2"
/>
<Member Name="Yellow" Value="4"
/>
<Member Name="Solid" Value="8"
/>
<Member Name="Striped" Value="16"
/>
<Member Name="SolidRed" Value="9"
/>
<Member Name="SolidBlue" Value="10"
/>
<Member Name="SolidYellow" Value="12"
/>
<Member Name="RedBlueStriped" Value="19"
/>
<Member Name="RedYellowStriped" Value="21"
/>
<Member Name="BlueYellowStriped"
Value="22" />
</EnumType>
11.1 Element edm:TypeDefinition
A type definition defines a specialization of one of the primitive types.
Type definitions can be used wherever a primitive type is
used (other than as the underlying type in a new type definition), and are
type-comparable with their underlying types and any type definitions defined
using the same underlying type.
The edm:TypeDefinition element MUST
include a Name attribute whose value is a SimpleIdentifier. The name identifies the type
definition and MUST be unique within its namespace.
The edm:TypeDefinition element
MUST provide the QualifiedName of a primitive type as the value of the UnderlyingType attribute. This type MUST NOT be another
type definition.
The edm:TypeDefinition element
MAY specify facets applicable to the underlying type: MaxLength,
Unicode,
Precision,
Scale,
or SRID.
Additional facets appropriate for the underlying type MAY be
specified when the type definition is used but the facets specified in the type
definition MUST NOT be re-specified.
Annotations MAY be applied to a type definition, and are
considered applied wherever the type definition is used. Applying the same
annotation to a property whose type definition already defines that annotation
is an error.
Where type definitions are used, the type definition is
returned in place of the primitive type wherever the type is specified in a
response.
Example 23:
<TypeDefinition
Name="Length" UnderlyingType="Edm.Int32">
<Annotation Term="Org.OData.Measurements.V1.Unit"
String="Centimeters" />
</TypeDefinition>
<TypeDefinition
Name="Weight" UnderlyingType="Edm.Int32">
<Annotation Term="Org.OData.Measurements.V1.Unit"
String="Kilograms" />
</TypeDefinition>
<ComplexType
Name="Size">
<Property Name="Height" Type="Self.Length" />
<Property Name="Weight" Type="Self.Weight" />
</ComplexType>
12.1 Element edm:Action
The edm:Action element
represents an action in an entity model.
Actions MAY have observable side effects and MAY return a
single instance or a collection of instances of any type. Actions are not
composable.
The action MAY specify a return type using the edm:ReturnType
element. The return type must be a scalar, entity or complex type, or a
collection of scalar, entity or complex types.
The action may also define zero or more edm:Parameter
elements to be used during the execution of the action.
The edm:Action element MUST
include a Name attribute whose value is a SimpleIdentifier. An action MAY have overloads,
that is multiple edm:Action elements in a schema
MAY specify the same value for the Name attribute.
For bound overloads, the combination of the action name and
the binding parameter type MUST be unique within its namespace. For unbound
overloads, the name MUST be unique within its namespace and MAY be identical to
the name of a bound overload.
12.1.2 Attribute ReturnType
The return type of the function may be specified through the
ReturnType attribute on the edm:Action
element or through a child edm:ReturnType element.
If specified through the ReturnType
attribute, the value of the attribute is the TypeName
of the return type and the edm:Action element MUST
NOT contain an edm:ReturnType element.
12.1.3 Attribute IsBound
An action element MAY specify a Boolean value for the IsBound attribute. If no value is specified for the IsBound attribute, the value defaults to false.
If the value of the IsBound
attribute is set to true, the action element MUST
contain at least one edm:Parameter element, and the
first parameter is the binding parameter. It MAY be of any type, and it MAY be nullable.
12.1.4
Attribute EntitySetPath
Bound actions that return an entity or a collection of
entities MAY specify a value for the EntitySetPath
attribute if determination of the entity set for the return type is contingent
on the binding parameter.
The value for the EntitySetPath
attribute consists of a series of segments joined together with forward
slashes.
The first segment of the entity set path MUST be the name of
the binding parameter. The remaining segments of the entity set path MUST
represent navigation segments or type casts.
A navigation segment names the SimpleIdentifier
of the navigation property to be traversed. A
type cast segment names the QualifiedName of the
entity type that should be returned from the type cast.
12.2
Element edm:Function
The edm:Function
element represents a function in an entity model.
Functions MUST NOT have observable side effects and MUST
return a single instance or a collection of instances of any type. Functions
MAY be composable.
The function MUST specify a return type using either the ReturnType
attribute or the edm:ReturnType element. The return
type must be a scalar, entity or complex type, or a collection of scalar,
entity or complex types.
The function may also define zero or more edm:Parameter
elements to be used during the execution of the function.
12.2.1
Attribute Name
The edm:Function element MUST
include a Name attribute whose value is a SimpleIdentifier. A function MAY have overloads,
that is multiple edm:Function elements in a schema
MAY specify the same value for the Name attribute.
For unbound overloads the combination of the function name
and unordered set of parameter names MUST identify a particular function
overload.
All unbound overloads MUST have the same return type.
For bound overloads the combination of the function name,
the binding parameter type, and the unordered set of names of the non-binding
parameters MUST identify a particular function overload.
All bound overloads with a given binding parameter type MUST
have the same return type.
12.2.2
Attribute ReturnType
The return type of the function may be specified through the
ReturnType attribute on the edm:Action
element or through a child edm:ReturnType element.
If specified through the ReturnType
attribute, the value of the attribute is the TypeName
of the return type and the edm:Action element MUST
NOT contain an edm:ReturnType element.
12.2.3 Attribute
IsBound
A function element MAY specify a Boolean value for the IsBound attribute. If no value is specified for the IsBound attribute, the value defaults to false.
If the value of the IsBound
attribute is set to true, the function element MUST
contain at least one edm:Parameter element, and the
first parameter is the binding parameter. It may be of any type, and it MAY be nullable.
12.2.4 Attribute IsComposable
A function element can specify a Boolean value for the IsComposable attribute. If no value is specified for the IsComposable attribute, the value defaults to false.
12.2.5
Attribute EntitySetPath
Bound functions that return an entity or a collection of
entities MAY specify a value for the EntitySetPath
attribute if determination of the entity set for the return type is contingent
on the binding parameter.
The value for the EntitySetPath
attribute consists of a series of segments joined together with forward
slashes.
The first segment of the entity set path MUST be the name of
the binding parameter. The remaining segments of the entity set path MUST
represent navigation segments or type casts.
A navigation segment names the SimpleIdentifier
of the navigation property to be traversed. A
type cast segment names the QualifiedName of the
entity type that should be returned from the type cast.
12.3
Element edm:ReturnType
If an edm:Action or edm:Function
element does not include the ReturnType attribute,
it MUST contain a single edm:ReturnType element.
The attributes MaxLength, Precision,
Scale,
and SRID
can be used to specify the facets of the return type, as appropriate. If the
facet attributes are not specified, their values are considered unspecified.
12.3.1 Attribute Type
The Type attribute corresponds
to the ReturnType
attribute of the function or action.
12.3.2
Attribute Nullable
A return type whose Type attribute does not specify a
collection MAY specify a Boolean value for the Nullable
attribute. If not specified, the Nullable attribute
defaults to true.
The value of true means that the
action or function may return a single null value.
A value of false means that the action or function
will never return a null value and instead fail
with an error response if it cannot compute a result.
A return type whose Type attribute specifies a collection
MUST NOT specify a value for the Nullable attribute
as the returned collection cannot be null, it may
just be empty.
The edm:Parameter element allows
one or more parameters to be passed to a function or action.
Example 24: a function returning the top-selling products
for a given year. In this case the year must be specified as a parameter of the
function with the edm:Parameter element.
The edm:Parameter element MUST
include a Name attribute whose value is a SimpleIdentifier. The parameter name MUST be
unique within its parent element.
12.4.2 Attribute Type
The edm:Parameter element MUST
include the Type attribute whose value is a TypeName indicating the
type of value that can be passed to the parameter.
A parameter whose Type attribute does not specify a
collection MAY specify a Boolean value for the Nullable
attribute. If not specified, the Nullable attribute
defaults to true.
The value of true means that the
parameter accepts a null value.
An edm:Parameter element MAY specify
values for the MaxLength,
Precision,
Scale,
or SRID
attributes. The descriptions of these facets and their implications are covered
in section 6.2.
Each metadata document used to describe an OData service
MUST define exactly one entity container. Entity containers define the entity
sets, singletons, function and action imports exposed by the service.
An entity set allows access to entity
type instances. Simple entity models frequently have one entity set per entity
type.
Example 25: one entity set per entity type
<EntitySet Name="Products" EntityType="Self.Product"
/>
<EntitySet Name="Categories" EntityType="Self.Category"
/>
Other entity models may
expose multiple entity sets per type.
Example 26: three entity sets referring to the two entity
types
<EntitySet Name="StandardCustomers"
EntityType="Self.Customer">
<NavigationPropertyBinding
Path="Orders" Target="Orders" />
</EntitySet>
<EntitySet Name="PreferredCustomers"
EntityType="Self.Customer">
<NavigationPropertyBinding Path="Orders"
Target="Orders" />
</EntitySet>
<EntitySet Name="Orders" EntityType="Self.Order" />
There are separate entity sets for standard customers and
preferred customers, but only one entity set for orders. The entity sets for
standard customers and preferred customers both have navigation property bindings
to the orders entity set, but the orders entity set does not have a navigation
property binding for the Customer navigation property, since it could lead to
either set of customers.
Note: although a model may expose multiple entity sets of
the same type, an entity can be a member of at most one entity set, see [OData-Protocol].
An entity set can expose instances of the specified entity
type as well as any entity type inherited from the specified entity type.
A singleton
allows addressing a single entity directly from the entity container without
having to know its key, and without requiring an entity set.
A function import or an action import is used to expose a
function or action defined in an entity model as a top level resource.
Example 27: function import returning the top ten revenue-generating
products for a given fiscal year
<FunctionImport Name="TopSellingProducts"
Function="Model.TopSellingProducts"
EntitySet="Products" />
Example 28: An entity container aggregates entity sets,
singletons, action imports, and function imports.
<EntityContainer
Name="DemoService">
<EntitySet Name="Products" EntityType="Self.Product">
<NavigationPropertyBinding
Path="Category"
Target="Self.DemoService.Categories" />
<NavigationPropertyBinding
Path="Supplier"
Target="Self.DemoService.Suppliers" />
</EntitySet>
<EntitySet
Name="Categories" EntityType="Self.Category">
<NavigationPropertyBinding Path="Products"
Target="Self.DemoService.Products" />
</EntitySet>
<EntitySet
Name="Suppliers" EntityType="Self.Supplier">
<NavigationPropertyBinding Path="Products"
Target="Self.DemoService.Products" />
</EntitySet>
<Singleton
Name="Contoso" Type="Self.Supplier" />
<ActionImport
Name="LeaveRequestApproval" Function="Self.Approval" />
<FunctionImport Name="ProductsByRating" Function="Self.ProductsByRating"
EntitySet="Products"
/>
</EntityContainer>
13.1 Element
edm:EntityContainer
The edm:EntityContainer element
represents an entity container in an entity model. It corresponds to a virtual
or physical data store and contains one or more edm:EntitySet,
edm:Singleton, edm:ActionImport,
or edm:FunctionImport elements. Entity set, singleton,
action import, and function import names MUST be unique within an entity
container.
The edm:EntityContainer element MUST
provide a unique SimpleIdentifier value for
the Name attribute.
13.1.2 Attribute Extends
The edm:EntityContainer element MAY include an Extends attribute whose value is the QualifiedName of an entity container in scope. All
children of the “base” entity container specified in the Extends
attribute are added to the “extending” entity container that has the Extends attribute.
Example 29: the entity container Extending
will contain all child elements that it defines itself, plus all child elements
of the Base entity container located in SomeOtherSchema
<EntityContainer
Name="Extending" Extends="SomeOtherSchema.Base">
...
</EntityContainer>
13.2
Element edm:EntitySet
The edm:EntitySet element represents
an entity set in an entity model.
The edm:EntitySet element MUST
include a Name attribute whose value is a SimpleIdentifier.
The edm:EntitySet element MUST
include an EntityType attribute whose value is the QualifiedName of an entity
type in scope. Each entity type in the model may have zero or more entity
sets that reference the entity type.
An entity set MUST contain only instances of the entity type
specified by the EntityType attribute or its
subtypes. The entity type named by the EntityType
attribute MAY be abstract but MUST have a key defined.
13.2.3 Attribute IncludeInServiceDocument
The edm:EntitySet element MAY
include the IncludeInServiceDocument attribute
whose Boolean value indicates whether the entity set is advertised in the
service document.
If no value is specified for this attribute, its value
defaults to true.
Entity sets that cannot be queried without specifying
additional query options SHOULD specify the value false
for this attribute.
13.3 Element
edm:Singleton
The edm:Singleton
element represents a single entity in an entity model, called a singleton.
The edm:Singleton element MUST
include a Name attribute whose value is a SimpleIdentifier.
The edm:Singleton element MUST
include a Type attribute whose value is the QualifiedName of an entity type in scope. Each
entity type in the model may be used in zero or more edm:Singleton
elements.
A singleton MUST reference an instance of the entity type
specified by the Type attribute.
13.4 Element edm:NavigationPropertyBinding
An entity set or a singleton SHOULD contain an edm:NavigationPropertyBinding element for each navigation property of its entity type,
including navigation properties defined on complex typed properties.
If omitted, clients MUST assume that the target entity set
or singleton can vary per related entity.
13.4.1 Attribute Path
A navigation property binding MUST name a navigation
property of the entity set’s or singleton's entity type or one of its subtypes
in the Path attribute. If the navigation property
is defined on a subtype, the path attribute MUST contain the QualifiedName of the entity type, followed by a
forward slash, followed by the navigation property name. If the navigation
property is defined on a complex type used in the definition of the entity
set’s entity type, the path attribute MUST contain a forward-slash separated
list of complex property names and qualified type names that describe the path
leading to the navigation property.
A navigation property MUST NOT be named in more than one
navigation property binding; navigation property bindings are only used when
all related entities are known to come from a single entity set.
A navigation property binding MUST specify a SimpleIdentifier or TargetPath
value for the Target attribute that names the
entity set that contains the related instances targeted by the navigation
property specified in the Path attribute, or the name of a singleton. If a SimpleIdentifier is specified, it MUST resolve
to an entity set or singleton defined in the same entity container as the
enclosing element. If a TargetPath is specified, it
MUST resolve to an entity set or singleton in scope.
Example 30: for an entity set in the same container as the
enclosing entity set Categories
<EntitySet
Name="Categories" EntityType="Self.Category">
<NavigationPropertyBinding Path="Products"
Target="SomeSet"
/>
</EntitySet>
Example 31: for an entity set in any container in scope
<EntitySet
Name="Categories" EntityType="Self.Category">
<NavigationPropertyBinding Path="Products"
Target="SomeModel.SomeContainer/SomeSet"
/>
</EntitySet>
13.5 Element edm:ActionImport
The edm:ActionImport element
allows exposing an unbound action as a top-level element in an entity
container. Action imports are never advertised in the service document.
The edm:ActionImport element MUST
include a Name attribute whose value is a SimpleIdentifier. It MAY be identical to the last
segment of the SimpleIdentifier used to specify the Action attribute value.
13.5.2 Attribute Action
The edm:ActionImport element MUST
include a QualifiedName value for the Action attribute which MUST resolve to the name of an unbound edm:Action element in scope.
If the return type of the action specified in the Action
attribute is an entity or a collection of entities, a SimpleIdentifier or TargetPath
value MAY be specified for the EntitySet attribute
that names the entity set to which the returned entities belong. If a SimpleIdentifier is specified, it MUST resolve to
an entity set defined in the same entity container. If a TargetPath
is specified, it MUST resolve to an entity set in scope.
If the return type is not an entity or a collection of
entities, a value MUST NOT be defined for the EntitySet
attribute.
13.6 Element edm:FunctionImport
The edm:FunctionImport element
allows exposing an unbound function as a top-level element in an
entity container.
The edm:FunctionImport element MUST
include a Name attribute whose value is a SimpleIdentifier. It MAY be identical to the last
segment of the SimpleIdentifer used to specify the Function
attribute value.
13.6.2
Attribute Function
The edm:FunctionImport element MUST
include the Function attribute whose value MUST be
a QualifiedName that resolves to the name of an unbound edm:Function element in scope.
13.6.3 Attribute
EntitySet
If the return type of the function specified in the Function
attribute is an entity or a collection of entities, a SimpleIdentifier or TargetPath
value MAY be defined for the EntitySet attribute
that names the entity set to which the returned entities belong. If a SimpleIdentifier is specified, it MUST resolve to
an entity set defined in the same entity container. If a TargetPath
is specified, it MUST resolve to an entity set in scope.
If the return type is not an entity or a collection of
entities, a value MUST NOT be defined for the EntitySet
attribute.
13.6.4
Attribute IncludeInServiceDocument
The edm:FunctionImport
for a parameterless function MAY include the IncludeInServiceDocument
attribute whose Boolean value indicates whether the function import is
advertised in the service document.
If no value is specified for this attribute, its value
defaults to false.
14
Vocabulary and Annotation
Vocabularies and annotations provide the ability to annotate
metadata as well as instance data, and define a powerful extensibility point
for OData. An annotation applies
a term to a model element and defines
how to calculate a value for the applied term.
Metadata annotations can be used to define additional
characteristics or capabilities of a metadata element, such as a service,
entity type, property, function, action or parameter. For example, a metadata
annotation may define ranges of valid values for a particular property.
Metadata annotations are applied in CSDL documents describing or referencing an
entity model.
Instance annotations can be used to define additional
information associated with a particular result, entity, property, or error;
for example, whether a property is read-only for a particular instance. Where
the same annotation is defined at both the metadata and instance level, the
instance-level annotation overrides the annotation specified at the metadata
level. Instance annotations appear in the actual payload as described in [OData-Atom]
and [OData-JSON].
Annotations that apply across instances should be specified as metadata
annotations.
A vocabulary is a namespace containing a set of terms
where each term is a named metadata extension.
Anyone can define a vocabulary (a set of terms) that is scenario-specific or
company-specific; more commonly used terms can be published as shared
vocabularies such as the OData Core vocabulary [OData-VocCore].
A term can be used:
- To extend model elements and type instances with
additional information.
- To map instances of annotated structured types to an
interface defined by the term type; i.e. annotations allow viewing
instances of a structured type as instances of a differently structured
type specified by the applied term.
A service SHOULD NOT require a client to interpret
annotations.
Example 32: the Product entity
type is extended with a DisplayName
by a metadata annotation that binds the term DisplayName to the value of the property Name. The Product
entity type also includes an annotation that allows its instances to be viewed
as instances of the type specified by the term SearchResult
<EntityType Name="Product">
<Key>
<PropertyRef Name="ID" />
</Key>
<Property Name="ID" Nullable="false"
Type="Edm.Int32" />
<Property Name="Name" Type="Edm.String" />
<Property Name="Description" Type="Edm.String" />
...
<Annotation Term="UI.DisplayName" Path="Name"
/>
<Annotation Term="SearchVocabulary.SearchResult">
<PropertyValue Property="Title" Path="Name" />
<PropertyValue Property="Abstract" Path="Description"
/>
<PropertyValue Property="Url">
<Apply Function="odata.concat">
<String>Products(</String>
<Path>ID</Path>
<String>)</String>
</Apply>
</PropertyValue>
</Annotation>
</EntityType>
14.1 Element edm:Term
The edm:Term
element defines a term in a vocabulary.
A term allows annotating a CSDL element or OData resource
representation with additional data..
The edm:Term element MUST
include a Name attribute whose value is a SimpleIdentifier.
The edm:Term element MUST
include a Type attribute whose value is a TypeName. It indicates what type of value must be
returned by the expression contained in an annotation using the term.
14.1.3 Attribute DefaultValue
A edm:Term element of primitive
or enumeration type MAY define a value for the DefaultValue
attribute. The value of this attribute determines the value of the term when
applied in an edm:Annotation without providing an expression.
Default values MUST
be represented according to the xxxValue rule
defined in [OData-ABNF] that is appropriate for the
type of the term.
If no value is specified, the DefaultValue
attribute defaults to null.
14.1.4 Attribute AppliesTo
The edm:Term element MAY define
a value for the AppliesTo attribute. The value of
this attribute is a whitespace-separated list of CSDL element names that this
term can be applied to. If no value is supplied, the term is not restricted in
its application.
Example 33: the IsURI term can
be applied to properties and terms that are of type Edm.String
(the Core.Tag type and the two Core terms
are defined in [OData-VocCore])
<Term Name="IsURI" Type="Core.Tag"
DefaultValue="true"
AppliesTo="Property">
<Annotation Term="Core.Description">
<String>
Properties and terms annotated with this term MUST contain a valid URI
</String>
</Annotation>
<Annotation Term="Core.RequiresType"
String="Edm.String" />
</Term>
14.1.5 Term Facets
The edm:Term element MAY specify
values for the Nullable, DefaultValue, MaxLength, Precision,
Scale,
or SRID
attributes. These facets and their implications are described in section 6.2.
14.2 Element edm:Annotations
The edm:Annotations element is used to apply a group of
annotations to a single model element. It MUST
contain at least one edm:Annotation element.
14.2.1 Attribute Target
The edm:Annotations element MUST
include a Target attribute whose value is a TargetPath that MUST resolve to a model element in the
entity model.
External targeting is only
possible for EDM elements that are uniquely identified within their parent, and
all their ancestor elements are uniquely identified within their parent:
An edm:Annotation element can be
used as a child of the model element it annotates, or as the child of an edm:Annotations
element that targets the model element to be annotated.
An annotation element MAY
contain a constant expression or dynamic expression in either attribute or
element notation. If no expression is specified, the default value of the term definition is
used.
If an entity type or complex type is annotated with a term
that itself has a structured type, an instance of the annotated type may be
viewed as an “instance” of the term, and the qualified term name may be used as
a term-cast segment in path expressions.
An annotation element MUST provide a QualifiedName value for the Term
attribute. The value of the Term attribute MUST be
the Name of a Term definition in scope. The
target of the annotation MUST comply with any AppliesTo constraint.
14.3.2 Attribute
Qualifier
An annotation element MAY provide a SimpleIdentifier value for the Qualifier attribute.
The qualifier attribute allows annotation authors a means of
conditionally applying an annotation.
Example 36: annotation should only be applied to tablet
devices
<Annotation Term="org.example.display.DisplayName"
Path="FirstName"
Qualifier="Tablet" />
Annotation elements that are children of an edm:Annotations
element MUST NOT provide a value for the qualifier attribute if the parent edm:Annotations
element provides a value for the qualifier attribute.
14.4 Constant Expressions
Constant expressions allow assigning a constant value to an
applied term. The constant expressions support element and attribute notation.
Example 37: two annotations intended as user interface
hints
<EntitySet Name="Products"
EntityType="Self.Product">
<Annotation Term="org.example.display.DisplayName"
String="Product Catalog" />
</EntitySet>
<EntitySet Name="Suppliers"
EntityType="Self.Supplier">
<Annotation Term="org.example.display.DisplayName">
<String>Supplier Directory</String>
</Annotation>
</EntitySet>
The edm:Binary expression
evaluates to a primitive binary value. A binary expression MUST be assigned a
value of type xs:hexBinary, see [XML-Schema-2], section 3.2.15.
The binary expression MAY be
provided using element notation or attribute notation.
Example 38:
<Annotation Term="org.example.display.Thumbnail"
Binary="3f3c6d78206c" />
<Annotation Term="org.example.display.Thumbnail">
<Binary>3f3c6d78206c</Binary>
</Annotation>
14.4.2 Expression edm:Bool
The edm:Bool expression
evaluates to a primitive Boolean value. A Boolean expression MUST be assigned a
Boolean value.
The Boolean expression MAY be provided using element notation or attribute notation.
Example 39:
<Annotation Term="org.example.display.ReadOnly"
Bool="true" />
<Annotation Term="org.example.display.ReadOnly">
<Bool>true</Bool>
</Annotation>
The edm:Date expression
evaluates to a primitive date value. A date expression MUST be assigned a value
of type xs:date, see [XML-Schema-2],
section 3.3.9. The value
MUST NOT contain a time-zone offset.
The date expression MAY be
provided using element notation or attribute notation.
Example 40:
<Annotation Term="org.example.vCard.birthDay" Date="2000-01-01"
/>
<Annotation Term="org.example.vCard.birthDay">
<Date>2000-01-01</Date>
</Annotation>
The edm:DateTimeOffset
expression evaluates to a primitive date/time value with a time-zone offset. A
date/time expression MUST be assigned a value of type xs:dateTimeStamp,
see [XML-Schema-2], section 3.4.28.
The value MUST NOT contain an end-of-day fragment (24:00:00).
The date/time expression MAY
be provided using element notation or attribute notation.
Example 41:
<Annotation Term="org.example.display.LastUpdated"
DateTimeOffset="2000-01-01T16:00:00.000Z"
/>
<Annotation Term="org.example.display.LastUpdated">
<DateTimeOffset>2000-01-01T16:00:00.000-09:00</DateTimeOffset>
</Annotation>
The edm:Decimal expression
evaluates to a primitive decimal value. A decimal expression MUST be assigned a
value of the type xs:decimal, see [XML-Schema-2], section 3.2.3.
The decimal expression MAY be
provided using element notation or attribute notation.
Example 42:
<Annotation Term="org.example.display.Width"
Decimal="3.14" />
<Annotation Term="org.example.display.Width">
<Decimal>3.14</Decimal>
</Annotation>
The edm:Duration expression
evaluates to a primitive duration value. A duration expression MUST be assigned
a value of type xs:dayTimeDuration, see [XML-Schema-2], section 3.4.27.
The duration expression MAY
be provided using element notation or attribute notation.
Example 43:
<Annotation Term="org.example.task.duration"
Duration="P7D" />
<Annotation Term="org.example.task.duration">
<Duration>P11D23H59M59.999999999999S</Duration>
</Annotation>
The edm:EnumMember expression
references a member of an enumeration type. An enumeration member
expression MUST be assigned a value that consists of the qualified name of the
enumeration type, followed by a forward slash and the name of the enumeration
member. If the enumeration type specifies an IsFlags
attribute with value true, the expression MAY also
be assigned a whitespace-separated list of values. Each of these values MUST
resolve to the name of a member of the enumeration type of the specified term.
The enumeration member
expression MAY be provided using element notation or attribute notation.
Example 44: single value
<Annotation Term="org.example.HasPattern"
EnumMember="org.example.Pattern/Red" />
<Annotation Term="org.example.HasPattern">
<EnumMember>org.example.Pattern/Red</EnumMember>
</Annotation>
Example 45: combined value for IsFlags
enumeration type
<Annotation Term="org.example.HasPattern"
EnumMember="org.example.Pattern/Red
org.example.Pattern/Striped" />
<Annotation Term="org.example.HasPattern">
<EnumMember>org.example.Pattern/Red org.example.Pattern/Striped</EnumMember>
</Annotation>
The edm:Float expression
evaluates to a primitive floating point (or double) value. A float expression
MUST be assigned a value of the type xs:double, see
[XML-Schema-2], section 3.2.5.
The float expression MAY be
provided using element notation or attribute notation.
Example 46:
<Annotation Term="org.example.display.Width"
Float="3.14" />
<Annotation Term="org.example.display.Width">
<Float>3.14</Float>
</Annotation>
The edm:Guid expression
evaluates to a primitive 32-character string value. A guid expression MUST be
assigned a value conforming to the rule guid in [OData-ABNF].
The guid expression MAY be
provided using element notation or attribute notation.
Example 47:
<Annotation
Term="org.example.display.Id"
Guid="21EC2020-3AEA-1069-A2DD-08002B30309D"
/>
<Annotation Term="org.example.display.Id">
<Guid>21EC2020-3AEA-1069-A2DD-08002B30309D</Guid>
</Annotation>
The edm:Int expression evaluates
to a primitive integer value. An integer MUST be assigned a value of the type xs:integer, see [XML-Schema-2],
section 3.3.13.
The integer expression MAY be
provided using element notation or attribute notation.
Example 48:
<Annotation Term="org.example.display.Width"
Int="42" />
<Annotation Term="org.example.display.Width">
<Int>42</Int>
</Annotation>
The edm:String expression
evaluates to a primitive string value. A string expression MUST be assigned a
value of the type xs:string see [XML-Schema-2], section 3.2.1.
The string expression MAY be
provided using element notation or attribute notation.
Example 49:
<Annotation Term="org.example.display.DisplayName"
String="Product Catalog" />
<Annotation Term="org.example.display.DisplayName">
<String>Product Catalog</String>
</Annotation>
The edm:TimeOfDay expression
evaluates to a primitive time value. A time-of-day expression MUST be assigned
a value of the type xs:time see [XML-Schema-2], section 3.3.8. The value
MUST NOT contain an end-of-day fragment (24:00:00) or a time-zone offset.
The time-of-day expression
MAY be provided using element notation or attribute notation.
Example 50:
<Annotation Term="org.example.display.EndTime" TimeOfDay="21:45:00"
/>
<Annotation Term="org.example.display.EndTime">
<TimeOfDay>21:45:00</TimeOfDay>
</Annotation>
14.5 Dynamic Expressions
Dynamic expressions allow assigning a calculated value to an
applied term. The dynamic expressions edm:NavigationPropertyPath,
edm:Path,
edm:PropertyPath,
and edm:UrlRef
expressions support element and attribute notation, all other dynamic
expressions only support element notation.
14.5.1 Comparison and Logical Operators
The following EDM elements allow service authors to supply a
dynamic conditional expression which evaluates to a value of type Edm.Boolean. They MAY be combined and they MAY be used anywhere
instead of an edm:Bool
expression.
|
Element
|
Description
|
Example
|
|
Logical Operators
|
|
edm:And
|
Logical
and
|
<And><Path>IsMale</Path><Path>IsMarried</Path></And>
|
|
edm:Or
|
Logical
or
|
<Or><Path>IsMale</Path><Path>IsMarried</Path></Or>
|
|
edm:Not
|
Logical
negation
|
<Not><Path>IsMale</Path></Not>
|
|
Comparison Operators
|
|
edm:Eq
|
Equal
|
<Eq><Null/><Path>IsMale</Path></Eq>
|
|
edm:Ne
|
Not
equal
|
<Ne><Null/><Path>IsMale</Path></Ne>
|
|
edm:Gt
|
Greater
than
|
<Gt><Path>Price</Path><Int>20</Int></Gt>
|
|
edm:Ge
|
Greater
than or equal
|
<Ge><Path>Price</Path><Int>10</Int></Ge
>
|
|
edm:Lt
|
Less than
|
<Lt><Path>Price</Path><Int>20</Int></Lt>
|
|
edm:Le
|
Less
than or equal
|
<Le><Path>Price</Path><Int>100</Int></Le>
|
The edm:And and edm:Or elements require two child expressions that
evaluate to Boolean values. The edm:Not elements
requires a single child expression that evaluates to a Boolean value.
The other elements representing the comparison operators require
two child expressions that evaluate to comparable values.
The edm:AnnotationPath
expression provides a value for terms or term properties that specify the built-in abstract type Edm.AnnotationPath. It
uses the same syntax and rules as the edm:Path expression, with the
added restriction that the last path segment MUST be a term cast with optional
qualifier in the context of the preceding path part.
In contrast to the edm:Path expression the value of
the edm:AnnotationPath expression is the path
itself, not the value of the annotation identified by the path. This is useful
for terms that reuse or refer to other terms.
The edm:AnnotationPath
expression MAY be provided using element notation or attribute notation.
Example 51:
<Annotation
Term="UI.ReferenceFacet"
AnnotationPath="Product/Supplier/@UI.LineItem" />
<Annotation
Term="UI.CollectionFacet" Qualifier="Contacts">
<Collection>
<AnnotationPath>Supplier/@Communication.Contact</AnnotationPath>
<AnnotationPath>Customer/@Communication.Contact</AnnotationPath>
</Collection>
</Annotation>
The edm:Apply expression enables
a value to be obtained by applying a client-side function. The Apply expression MUST contain at least one expression.
The expressions contained within the Apply
expression are used as parameters to the function. The edm:Apply expression MUST be written with element notation.
The edm:Apply expression MUST
include a Function attribute whose value is a QualifiedName specifying the name of the client-side
function to apply.
OData defines the following canonical functions. Services
MAY support additional functions that MUST be qualified with a namespace or
alias other than odata. Function
names qualified with odata are reserved for this
specification and its future versions.
14.5.3.1.1 Function odata.concat
The odata.concat standard
client-side function takes two or more expressions as arguments. Each argument
MUST evaluate to a primitive or enumeration type. It returns a value of type Edm.String that is the concatenation of the literal representations
of the results of the argument expressions; see xxxValue
rules [OData-ABNF].
Example 52:
<Annotation
Term="org.example.display.DisplayName">
<Apply Function="odata.concat">
<String>Product: </String>
<Path>ProductName</Path>
<String> (</String>
<Path>Available/Quantity</Path>
<String> </String>
<Path>Available/Unit</Path>
<String>
available)</String>
</Apply>
</Annotation>
ProductName is of type String,
Quantity in complex type Available
is of type Decimal, and Unit
in Available is of type enumeration, so the result
of the Path expression is represented as the member
name of the enumeration value.
14.5.3.1.2 Function odata.fillUriTemplate
The odata.fillUriTemplate
standard client-side function takes two or more expressions as arguments.
The first argument MUST be of type Edm.String
and specifies a URI template according to [RFC6570], the other arguments
MUST be edm:LabeledElement expressions. Each edm:LabeledElement
expression specifies the template parameter name in its Name
attribute and evaluates to the template parameter value.
[RFC6570] defines three kinds of template
parameters: simple values, lists of values, and key-value maps.
Simple values are represented as edm:LabeledElement
expressions that evaluate to a single primitive value. The literal representation
of this value according to [OData-ABNF] is
used to fill the corresponding template parameter.
Lists of values are represented as edm:LabeledElement
expressions that evaluate to a collection of primitive values.
Key-value maps are represented as edm:LabeledElement
expressions that evaluate to a collection of complex types with two properties
that are used in lexicographic order. The first property is used as key, the
second property as value.
Example 53: assuming there are no special characters in
values of the NameOfMovieGenre property
<Apply Function="odata.fillUriTemplate">
<String>http://host/service/Genres('{genreName}')</String>
<LabeledElement
Name="genreName" Path="NameOfMovieGenre" />
</Apply>
14.5.3.1.3 Function odata.uriEncode
The odata.uriEncode standard
client-side function takes one argument of primitive type and returns the
URL-encoded OData literal that can be used as a key value in OData URLs or in
the query part of OData URLs. Note: string literals are surrounded by single
quotes.
Example 54:
<Apply Function="odata.fillUriTemplate">
<String>http://host/service/Genres({genreName})</String>
<LabeledElement Name="genreName">
<Apply Function="odata.uriEncode" >
<Path>NameOfMovieGenre</Path>
</Apply>
</LabeledElement>
</Apply>
The edm:Cast expression casts
the value obtained from its single child expression to the specified type. The
cast expression follows the same rules as the cast
canonical function defined in [OData-URL].
The cast expression MUST specify a Type attribute and contain exactly
one expression.
The cast expression MUST be
written with element notation.
Example 55:
<Annotation Term="org.example.display.Threshold">
<Cast Type="Edm.Decimal">
<Path>Average</Path>
</Cast>
</Annotation>
14.5.4.1 Attribute Type
The edm:Cast expression MUST
specify a Type attribute whose value is a TypeName in scope.
If the specified type is a primitive type, the facet
attributes ,MaxLength,
Precision,
Scale,
and SRID
MAY be specified if applicable to the specified primitive type. If the facet
attributes are not specified, their values are considered unspecified.
The edm:Collection expression
enables a value to be obtained from zero or more child expressions. The value
calculated by the collection expression is the collection of the values
calculated by each of the child expressions.
The collection expression contains zero or more child
expressions. The values of the child expressions MUST all be type compatible.
The collection expression MUST be written with element
notation.
Example 56:
<Annotation Term="org.example.seo.SeoTerms">
<Collection>
<String>Product</String>
<String>Supplier</String>
<String>Customer</String>
</Collection>
</Annotation>
14.5.6 Expression edm:If
The edm:If expression enables a
value to be obtained by evaluating a conditional expression. It MUST
contain exactly three child elements with dynamic or static expressions. There
is one exception to this rule: if and only if the edm:If
expression is a direct child of edm:Collection
element the third child element MAY be omitted (this can be used to
conditionally add an element to a collection).
The first child element is the conditional expression and
MUST evaluate to a Boolean result, e.g. the comparison
and logical operators can be used.
The second and third child elements are the expressions,
which are evaluated conditionally. They result MUST be type compatible with the
type expected by the surrounding element or expression.
If the first expression evaluates to true,
the second child element MUST be evaluated and its value MUST be returned as
the result of the edm:If expression. If the
conditional expression evaluates to false and a
third child element is present, it MUST be evaluated and its value MUST be
returned as the result of the edm:If expression. If
no third child element is present, nothing is added to the collection.
The edm:If
expression MUST be written with element notation, as shown in the following
example.
Example 57:
<Annotation
Term="org.example.person.Gender">
<If>
<Path>IsFemale</Path>
<String>Female</String>
<String>Male</String>
</If>
</Annotation>
14.5.7 Expression edm:IsOf
The edm:IsOf expression
evaluates a child expression and returns a Boolean value indicating whether the
child expression returns the specified type.
An edm:IsOf expression MUST
specify a Type
attribute and contain exactly one child expression. The edm:IsOf
expression MUST return true if the child expression
returns a type that is compatible with the type named in the Type
attribute. The edm:IsOf expression MUST return false if the child expression returns a type that is not
compatible with the type named in the Type attribute.
The edm:IsOf
expression MUST be written with element notation.
Example 58:
<Annotation Term="Self.IsPreferredCustomer">
<IsOf Type="Self.PreferredCustomer">
<Path>Customer</Path>
</IsOf>
</Annotation>
14.5.7.1
Attribute Type
The edm:IsOf expression MUST specify a
Type attribute whose value is a TypeName
in scope.
If the specified type is a primitive type, the facet
attributes ,MaxLength,
Precision,
Scale,
and SRID
MAY be specified if applicable to the specified primitive type. If the facet
attributes are not specified, their values are considered unspecified.
The edm:LabeledElement
expression assigns a name to a child expression. The value of the child
expression can then be reused elsewhere with an edm:LabeledElementReference expression.
A labeled-element expression MUST contain exactly one child
expression written either in attribute notation or element notation. The value
of the child expression is passed through the labeled-element expression.
A labeled-element
expression MUST be written with element notation.
Example 59:
<Annotation
Term="org.example.display.DisplayName">
<LabeledElement Name="CustomerFirstName" Path="FirstName"
/>
</Annotation>
<Annotation
Term="org.example.display.DisplayName">
<LabeledElement Name="CustomerFirstName">
<Path>FirstName</Path>
</LabeledElement>
</Annotation>
14.5.8.1 Attribute Name
An edm:LabeledElement expression MUST
provide a SimpleIdentifier value for the Name attribute.
The edm:LabeledElementReference
expression returns the value of an edm:LabeledElement expression.
The labeled-element reference expression MUST contain the SimpleIdentifier name of a labeled element
expression in scope.
The labeled-element reference
expression MUST be written with element notation.
Example 60:
<Annotation
Term="org.example.display.DisplayName">
<LabeledElementReference>DisplayName</LabeledElementReference>
</Annotation>
14.5.10 Expression
edm:Null
The edm:Null expression returns
an untyped null value. The null expression MUST NOT contain any other elements
or expressions.
The null expression MUST be
written with element notation.
Example 61:
<Annotation
Term="org.example.display.DisplayName">
<Null/>
</Annotation>
14.5.11 Expression edm:NavigationPropertyPath
The edm:NavigationPropertyPath
expression provides a value for terms or term properties that specify the built-in abstract type Edm.NavigationPropertyPath. It uses the same syntax and
rules as the edm:Path expression, with the added restriction that
the last path segment MUST resolve to a navigation property in the context of
the preceding path part.
In contrast to the edm:Path expression the value of
the edm:NavigationPropertyPath expression is the
path itself, not the target instance(s) of the navigation property identified
by the path. This is useful for terms that describe the semantics of a group of
navigation properties and thus cannot be applied to a single navigation
property.
The edm:NavigationPropertyPath
expression MAY be provided using element notation or attribute notation.
Example 62:
<Annotation Term="UI.HyperLink"
NavigationPropertyPath="Supplier" />
<Annotation Term="Capabilities.UpdateRestrictions">
<PropertyValue Property="NonUpdatableNavigationProperties">
<Collection>
<NavigationPropertyPath>Supplier</NavigationPropertyPath>
<NavigationPropertyPath>Category</NavigationPropertyPath>
</Collection>
</PropertyValue>
</Annotation>
14.5.12 Expression edm:Path
The edm:Path expression enables
a value to be obtained by traversing an object graph. It can be used in
annotations that target entity containers, entity sets, entity types, complex
types, navigation properties of structured types, and properties of structured
types.
The value assigned to the path expression MUST be composed
of zero or more path segments joined together by forward slashes (/).
If the path segment is a QualifiedName,
it represents a type cast, and the segment MUST be the name of a type in
scope. If the instance identified by the preceding path part cannot be cast to
the specified type, the path expression evaluates to the null value.
If the path segment start with an at (@)
character, it represents a term cast. The at (@)
character MUST be followed by a QualifiedName that MAY be followed by a hash (#) character and a SimpleIdentifier.
The QualifiedName preceding
the hash character MUST resolve to a term that is in scope, the SimpleIdentifier following
the hash sign is interpreted as a Qualifier
for the term. If the instance identified by the preceding path part has been
annotated with that term (and if present, with that qualifier), the term cast
evaluates to the value of that annotation, otherwise it evaluates to the null
value. Three special annotations are implicitly “annotated” for media entities
and stream properties:
- odata.mediaEditLink
- odata.mediaReadLink
- odata.mediaContentType
If the path segment is a SimpleIdentifier,
it MUST be the name of a structural property or a navigation property of the
instance identified by the preceding path part.
If a path segment is the name of a navigation property that
has a cardinality of many, the path MUST NOT have any subsequent segments other
than type casts, term casts, or a $count segment.
If the last segment is a $count segment, the path
evaluates to the number of related entities.
Annotations MAY be embedded within their target, or embedded
within an edm:Annotations
element that specifies the annotation target with a path expression in its Target
attribute. The latter situation is referred to as targeting in the
remainder of this section.
For annotations embedded within or targeting an entity
container, the path expression is evaluated starting at the entity container,
i.e. an empty path resolves to the entity container, and non-empty path values
MUST start with the name of a container child (entity set, function import,
action import, or singleton). The subsequent segments follow the rules for path
expressions targeting the corresponding child element.
For annotations embedded within or targeting an entity set
or a singleton, the path expression is evaluated starting at the entity set,
i.e. an empty path resolves to the entity set, and non-empty paths MUST follow
the rules for annotations targeting the declared entity type of the entity set
or singleton.
For annotations embedded within or targeting an entity type
or complex type, the path expression is evaluated starting at the type, i.e. an
empty path resolves to the type, and the first segment of a non-empty path MUST
be a property or navigation property of the type, a type cast, or a term cast.
For annotations embedded within a property of an entity type
or complex type, the path expression is evaluated starting at the directly
enclosing type. This allows e.g. specifying the value of an annotation on one
property to be calculated from values of other properties of the same type. An
empty path resolves to the enclosing type, and non-empty paths MUST follow the
rules for annotations targeting the directly enclosing type.
For annotations targeting a property of an entity type or
complex type, the path expression is evaluated starting at the outermost
entity type or complex type named in the Target of the enclosing edm:Annotations
element, i.e. an empty path resolves to the outermost type, and the first
segment of a non-empty path MUST be a property or navigation property of the
outermost type, a type cast, or a term cast.
A path expression MAY be provided
using element notation or attribute notation.
Example 63:
<Annotation Term="org.example.display.DisplayName"
Path="FirstName" />
<Annotation Term="org.example.display.DisplayName">
<Path>@vCard.Address#work/FullName</Path>
</Annotation>
14.5.13
Expression edm:PropertyPath
The edm:PropertyPath expression
provides a value for terms or term properties that specify the built-in abstract type Edm.PropertyPath. It uses the same syntax and rules as
the edm:Path
expression, with the added restriction that the last path segment MUST resolve
to a property in the context of the preceding path part. It MUST NOT resolve to
a navigation property.
In contrast to the edm:Path expression the value of
the edm:PropertyPath expression is the path itself,
not the value of the property identified by the path. This is useful for terms
that describe the semantics of a group of properties and thus cannot be applied
to a single property.
The edm:PropertyPath
MAY be provided using either element notation or attribute notation.
Example 64:
<Annotation
Term="UI.RefreshOnChangeOf" PropertyPath="ChangedAt" />
<Annotation Term="Capabilities.UpdateRestrictions">
<PropertyValue Property="NonUpdatableProperties">
<Collection>
<PropertyPath>CreatedAt</PropertyPath>
<PropertyPath>ChangedAt</PropertyPath>
</Collection>
</PropertyValue>
</Annotation>
14.5.14 Expression edm:Record
The edm:Record expression
enables a new entity type or complex type instance to be constructed.
A record expression contains zero or more edm:PropertyValue
elements. For each single-valued property of the record construct’s type that
is neither nullable nor specifies a default value an edm:PropertyValue
child element MUST be provided. For derived types this rule applies only to
properties directly defined by the derived type. For collection-valued
properties the absence of an edm:PropertyValue child element is
equivalent to specifying a child element with an empty collection as its value.
A record expression MUST be written with element notation,
as shown in the following example.
Example 65:
<Annotation Term="org.example.person.Employee">
<Record>
<PropertyValue Property="GivenName" Path="FirstName"
/>
<PropertyValue Property="Surname" Path="LastName"
/>
</Record>
</Annotation>
A record expression MAY specify a QualifiedName
value for the Type attribute that MUST resolve to an
entity type or complex type in scope. If no value is specified for the type
attribute, the type is derived from the expression’s context.
14.5.14.2
Element edm:PropertyValue
The edm:PropertyValue element
supplies a value to a property on the type instantiated by an edm:Record
expression. The value is obtained by evaluating an expression.
The PropertyValue element MUST
contain exactly one expression. The edm:PropertyValue
expression MAY be provided using element notation or attribute notation.
14.5.14.2.1 Attribute Property
The PropertyValue element MUST
assign a SimpleIdentifier value to the Property attribute. The value of the property attribute
MUST resolve to a property of the type of the enclosing edm:Record
expression.
The edm:UrlRef expression
enables a value to be obtained by sending a GET
request to the value of the Url expression.
The edm:UrlRef element MUST
contain exactly one expression of type Edm.String.
The edm:UrlRef expression MAY be provided using
element notation or attribute notation.
The response body of the GET
request MUST be returned as the result of the edm:UrlRef
expression. The result of the edm:UrlRef expression
MUST be type compatible with the type expected by the surrounding element or
expression.
Example 66:
<Annotation Term="Vocab.Supplier">
<UrlRef>
<Apply Function="odata.fillUriTemplate">
<String>http://host/service/Suppliers({suppID})</String>
<LabeledElement Name="suppID">
<Apply Function="odata.uriEncode">
<Path>SupplierId</Path>
</Apply>
</LabeledElement>
</Apply>
</UrlRef>
</Annotation>
The Metadata Service is a representation of the
entity model of an OData service as an OData service with a fixed (meta) data
model. The Metadata Service provides convenient access to the entity model of a
service, i.e. all CSDL constructs used in its entity containers.
With ~/ as an abbreviation for
the service root URL, the Metadata Service root URL is ~/$metadata/,
i.e. the canonical URL of the metadata document of the underlying service with
a forward slash appended, and a GET request to ~/$metadata/$metadata returns the CSDL document of the
Metadata Service itself, defined in [OData-Meta].
The following sections describe the schema of the Metadata
Service.
Example 67: service document of Metadata Service
would return
{
"odata.context":"~/$metadata/$metadata",
"value":[
{
"name":"References"
,"url":"References" },
{
"name":"Schemata"
,"url":"Schemata" },
{ "name":"Types"
,"url":"Types" },
{ "name":"Properties"
,"url":"Properties" },
{ "name":"NavigationProperties"
,"url":"NavigationProperties" },
{ "name":"EnumTypeMembers"
,"url":"EnumTypeMembers" },
{ "name":"Actions" ,"url":"Actions"
},
{ "name":"Functions"
,"url":"Functions" },
{ "name":"Terms"
,"url":"Terms" },
{ "name":"Annotations"
,"url":"Annotations" },
{ "name":"EntityContainer"
,"url":"EntityContainer",
"kind":"Singleton"
},
{ "name":"EntitySets"
,"url":"EntitySets" },
{ "name":"Singletons" ,"url":"Singletons"
},
{ "name":"NavigationPropertyBindings","url":"NavigationPropertyBindings"},
{ "name":"ActionImports" ,"url":"ActionImports"
},
{ "name":"FunctionImports" ,"url":"FunctionImports"
}
]
}
Note: all examples in this chapter use ~/
as an abbreviation for the service root URL.
Note: ~/$metadata/$metadata is
not a typo, it is the metadata URL of the Metadata Service for the service with
root URL ~/.
15.1 Entity Model Wrapper
The Metadata Service provides
convenient access to the entity model of a service, i.e. all CSDL constructs
used in its entity containers. This model may be distributed over several
schemas, and these schemas may be distributed over several physical locations,
bound together via the entity model wrapper.
This document structure is
represented in the metadata service as an entity type Reference
and two complex types Include and IncludeAnnotations.
Legend: boxes without a stereotype represent entity types;
boxes with stereotype ≪complex≫ represent
complex types. Compositions represent complex properties; associations
represent navigation properties. Arrows indicate navigation properties without
a partner; associations without arrows are bidirectional. No multiplicity means
1.
A reference is identified by its Uri
property, which is the absolute value of the Uri
attribute after resolving a relative value against the xml:base
attribute.
Example 68: for the Products and Categories example the request
GET
~/$metadata/References?$expand=Include/Schema($select=Namespace)
would return
{
"odata.context":
"~/$metadata/$metadata#References(.,Include/Schema(Namespace))",
"value":[
{
"Uri":"http://tinyurl.com/Org-OData-Core",
"Include":[
{ "Alias":"Core", "Schema":{
"Namespace":"Org.OData.Core.V1" } }
],
"IncludeAnnotations":[]
},{
"Uri":"http://tinyurl.com/Org-OData-Measures-V1",
"Include":[
{ "Alias":"UoM", "Schema":{
"Namespace":"Org.OData.Measures.V1" } }
],
"IncludeAnnotations":[]
}
]
}
15.2 Schema
The model of the
service consists of all CSDL constructs used in its entity containers. Each
model construct is defined in a schema:
A schema is identified by its Namespace
property. If it defines an alias, direct key access using the alias instead of
the namespace redirects to the schema with this alias.
Example 69: for the Products and Categories example the
request
would return
{
"odata.context":"~/$metadata#Schemata",
"value":[
{
"Namespace":"ODataDemo", "Alias":null
},{
"Namespace":"Org.OData.Core.V1",
"Alias":"Core"
},{
"Namespace":"Org.OData.Measures.V1",
"Alias":"UoM"
},{
"Namespace":"Edm", "Alias":null
}
]
}
Example 70: redirecting from alias to schema
GET
~/$metadata/Schemata('Core')
would return
{
"odata.context":"~/$metadata#Schemata/@entity",
"Namespace":"Org.OData.Core.V1",
"Alias":"Core"
}
All schemata used in the model are listed in this entity
set, independently of whether they are defined directly in the metadata
document or included via a reference.
15.3
Types
Types form an inheritance
hierarchy
A type is identified by its QualifiedName
property, which is the Namespace of the defining
schema, followed by a dot (.) and the Name of the type. There is only one entity set Types for all types. Type cast segments can be used to
access specialized types.
Only those built-in primitive types that are actually used
in the model appear in the Types entity set.
Example 71: single type by name, and all entity types
GET
~/$metadata/Types('ODataDemo.Product')
GET
~/$metadata/Types/Meta.EntityType
Example 72: all types
would return
{
"odata.context":"~/$metadata/$metadata#Types",
"value":[ {
"odata.type":"Meta.EntityType",
"QualifiedName":"ODataDemo.Product",
"Name":"Product",
"Key":[{"PropertyPath":"ID","Alias":null}],
"Abstract":false, "OpenType":false,
"HasStream":true
},{
"odata.type":"Meta.EntityType",
"QualifiedName":"ODataDemo.Category",
"Name":"Category",
"Key":[{"PropertyPath":"ID","Alias":null}],
"Abstract":false, "OpenType":false,
"HasStream":false
},{
"odata.type":"Meta.EntityType",
"QualifiedName":"ODataDemo.Supplier",
"Name":"Supplier",
"Key":[{"PropertyPath":"ID","Alias":null}],
"Abstract":false, "OpenType":false,
"HasStream":false
},{
"odata.type":"Meta.EntityType",
"QualifiedName":"ODataDemo.Country",
"Name":"Country",
"Key":[{"PropertyPath":"Code","Alias":null}],
"Abstract":false, "OpenType":false,
"HasStream":false
},{
"odata.type":"Meta.ComplexType",
"QualifiedName":"ODataDemo.Address",
"Name":"Address",
"Abstract":false, "OpenType":false
},{
"odata.type":"Meta.ComplexType",
"QualifiedName":"Core.OptimisticConcurrencyControl",
"Name":"OptimisticConcurrencyControl",
"Abstract":false, "OpenType":false
},{
"odata.type":"Meta.PrimitiveType",
"QualifiedName":"Edm.Date",
"Name":"Date"
},{
"odata.type":"Meta.PrimitiveType",
"QualifiedName":"Edm.Decimal",
"Name":"Decimal"
},{
"odata.type":"Meta.PrimitiveType",
"QualifiedName":"Edm.Int32",
"Name":"Int32"
},{
"odata.type":"Meta.PrimitiveType",
"QualifiedName":"Edm.String",
"Name":"String"
},{
"odata.type":"Meta.PrimitiveType",
"QualifiedName":"Edm.PropertyPath",
"Name":"PropertyPath"
},{
"odata.type":"Meta.EntityType",
"QualifiedName":"Edm.EntityType",
"Name":"EntityType", "Key":[],
"Abstract":true, "OpenType":false,
"HasStream":false }
]
}
15.4
Properties
Structural properties and
navigation properties are represented as
This model is intentionally simplified. It closely resembles
the XML schema and makes querying easy as it e.g. allows expanding the Type for all structural properties. A structured type is
only related to properties it directly declares, not to properties it inherits
from ancestor types. All inherited and directly declared properties or
navigation properties can be requested with the bound functions Meta.AllProperties and Meta.AllNavigationProperties.
Structural properties and navigation properties are
identified by their Fullname property, which is the
QualifiedName of the containing entity type or
complex type, followed by a forward slash (/) and
the Name of the property or navigation property.
Example 73: single property or navigation property by name
GET
~/$metadata/Properties(ODataDemo.Product%2FID')
GET
~/$metadata/NavigationProperties(ODataDemo.Category%2FProducts)
Example 74: all properties with type
GET
~/$metadata/Properties?$expand=Type($select=QualifiedName)
would return
{
"odata.context":"~/$metadata/$metadata#Properties(*,Type(QualifiedName))",
"value":[
{
"Fullname":"ODataDemo.Product/ID",
"Name":"ID",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[]
},{
"Fullname":"ODataDemo.Product/Description",
"Name":"Description",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[]
},{
"Fullname":"ODataDemo.Product/ReleaseDate",
"Name":"ReleaseDate",
"Nullable":true, "IsCollection":false,
"Type":{"QualifiedName":"Edm.Date"},
"Facets":[]
},{
"Fullname":"ODataDemo.Product/DiscontinuedDate",
"Name":"DiscontinuedDate",
"Nullable":true, "IsCollection":false,
"Type":{"QualifiedName":"Edm.Date"},
"Facets":[]
},{
"Fullname":"ODataDemo.Product/Rating",
"Name":"Rating",
"Nullable":true, "IsCollection":false,
"Type":{"QualifiedName":"Edm.Int32"},
"Facets":[]
},{
"Fullname":"ODataDemo.Product/Currency",
"Name":"Currency",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[{"Name":"MaxLength","Value":"3"}]
},{
"Fullname":"ODataDemo.Category/ID",
"Name":"ID",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.Int32"},
"Facets":[]
},{
"Fullname":"ODataDemo.Category/Name", "Name":"Name",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[]
},{
"Fullname":"ODataDemo.Supplier/ID",
"Name":"ID",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[]
},{
"Fullname":"ODataDemo.Supplier/Name",
"Name":"Name",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[]
},{
"Fullname":"ODataDemo.Supplier/Address",
"Name":"Address",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"ODataDemo.Address"},
"Facets":[]
},{
"odata.type":"Meta.PrimitiveProperty",
"Fullname":"ODataDemo.Supplier/Concurrency", "Name":"Concurrency",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.Int32"},
"Facets":[]
},{
"Fullname":"ODataDemo.Country/Code",
"Name":"Code",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[{"Name":"MaxLength","Value":"2"}]
},{
"Fullname":"ODataDemo.Country/Name",
"Name":"Name",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[]
},{
"Fullname":"ODataDemo.Address/Street",
"Name":"Street",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[]
},{
"Fullname":"ODataDemo.Address/City",
"Name":"City",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[]
},{
"Fullname":"ODataDemo.Address/State",
"Name":"State",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[]
},{
"Fullname":"ODataDemo.Address/ZipCode",
"Name":"ZipCode",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[]
},{
"Fullname":"ODataDemo.Address/CountryName",
"Name":"CountryName",
"Nullable":false, "IsCollection":false,
"Type":{"QualifiedName":"Edm.String"},
"Facets":[]
},{
"Fullname":"Core.OptimisticConcurrencyControl/ETagDependsOn",
"Name":"ETagDependsOn",
"Nullable":false, "IsCollection":true,
"Type":{"QualifiedName":"Edm.PropertyPath"},
"Facets":[]
}
]
}
Example 75: all navigation properties with type and partner
GET
~/$metadata/NavigationProperties?
$expand=Type($select=QualifiedName),Partner($select=Name)
would return
{
"odata.context":"~/$metadata/$metadata#NavigationProperties(Type(QualifiedName),Partner(Name))",
{
"Fullname":"ODataDemo.Product/Category",
"Name":"Category",
"Nullable":false, "ContainsTarget":false,
"OnDelete":null,
"ReferentialConstraints":[],
"IsCollection":false,
"Type":{ "QualifiedName":"ODataDemo.Category" },
"Partner":{ "Name:"Product" }
},{
"Fullname":"ODataDemo.Product/Supplier",
"Name":"Supplier",
"Nullable":false, "ContainsTarget":false,
"OnDelete":null,
"ReferentialConstraints":[],
"IsCollection":false,
"Type":{ "QualifiedName":"ODataDemo.Supplier" },
"Partner":{ "Name:"Products" }
},{
"Fullname":"ODataDemo.Category/Products",
"Name":"Products",
"Nullable":false, "ContainsTarget":false,
"OnDelete":{ "Action":"Cascade",
"Annotations":[] },
"ReferentialConstraints":[],
"IsCollection":true,
"Type":{
"QualifiedName":"ODataDemo.Product" },
"Partner":{ "Name:"Category" }
},{
"Fullname":"ODataDemo.Supplier/Products",
"Name":"Products",
"Nullable":false, "ContainsTarget":false,
"OnDelete":null,
"ReferentialConstraints":[],
"IsCollection":true,
"Type":{ "QualifiedName":"ODataDemo.Product" },
"Partner":{ "Name:"Supplier" }
},{
"Fullname":"ODataDemo.Address/Country",
"Name":"Country",
"Nullable":false, "ContainsTarget":false,
"OnDelete":null,
"ReferentialConstraints":[
{
"Property":"CountryName",
"ReferencedProperty":"Name",
"Annotations":[]
}
],
"IsCollection":false,
"Type":{ "QualifiedName":"ODataDemo.Product" },
"Partner":{ "Name:"Supplier" }
}
]
}
Actions and functions are represented as
Actions and functions are identified by their QualifiedName property, which is the Namespace of the containing schema, followed by a dot (.) and the Name of the action
or function.
Example 76:
GET
~/$metadata/Actions('SampleModel.Approval')
GET
~/$metadata/Functions('ODataDemo.ProductsByRating')
Example 77: all functions
GET
~/$metadata/Functions?
$expand=Overloads/Parameters/Type($select=QualifiedName)
would return
{
"odata.context":
"~/$metadata/$metadata#Functions(*,Overloads/Parameters/Type(QualifiedName))",
"value":[
{
"QualifiedName":"ODataDemo.ProductsByRating",
"Name":"ProductsByRating",
"Overloads":[
{
"IsBindable":false, "IsComposable":false,
"ReturnType":{
"IsCollection":true, "Nullable":false,
"Facets":[],
"Type":{"QualifiedName":"ODataDemo.Product"}
},
"Parameters":[
{
"Name":"Rating", "IsBinding":false,
"Nullable":true,
"IsCollection":false, "Facets":[],
"Type":{"QualifiedName":"Edm.Int32"}
}
]
}
]
}
]
}
15.6 Entity Container
Entity container constructs
are represented as
An entity container is identified by its QualifiedName property, which is
the Namespace of the containing schema,
followed by a dot (.) and the Name
of the entity container. As there is exactly one entity container per service,
it is a singleton.
Example 78:
GET
~/$metadata/EntityContainer
Direct children of an entity
container are identified by their Fullname
property, which is the QualifiedName of the entity
container, followed by a forward slash (/) and the Name of the child.
Example 79:
GET
~/$metadata/EntitySets('ODataDemo.DemoService%2FCategories')
A navigation property binding is identified by its Fullname property, which is the Fullname
of the source entity set or singleton, followed by a forward slash (/) and the Path of the
navigation property binding.
Example 80:
GET
~/$metadata/NavigationPropertyBindings(
'ODataDemo.DemoService%2FCategories%2FProducts')
Example 81: all containers with
direct children
GET
~/$metadata/EntityContainer?$expand=*
would return
{
"odata.context":"~/$metadata/$metadata#EntityContainer",
"value":[
{
"QualifiedName":"ODataDemo.DemoService",
"Name":"DemoService",
"EntitySets":[
{
"Fullname":"ODataDemo.DemoService/Products",
"Name":"Products"
},{
"Fullname":"ODataDemo.DemoService/Suppliers",
"Name":"Suppliers"
},{
"Fullname":"ODataDemo.DemoService/Categories",
"Name":"Categories"
},{
"Fullname":"ODataDemo.DemoService/Countries",
"Name":"Countries"
}
],
"Singletons":[
{
"QualifiedName":"ODataDemo.DemoService/Contoso",
"Name":"Contoso"
}],
"ActionImports":[],
"FunctionImports":[
{
"QualifiedName":"ODataDemo.DemoService/ProductsByRating",
"Name":"ProductsByRating",
"IncludeInServiceDocument":false
}
]
}
]
}
Terms and annotations based
on these terms are represented as
A term is identified by its QualifiedName
property, which is the Namespace of the containing
schema, followed by a dot (.) and the Name of the term.
Example 82:
GET
~/$metadata/Terms?$expand=Type($select=QualifiedName)
would return
{
"odata.context":"~/$metadata/$metadata#Terms(Type(QualifiedName))",
"value":[
{
"QualifiedName":"Core.Description",
"Name":"Description",
"DefaultValue":null, "IsCollection":false,
"Type":{ "QualifiedName":"Edm.String" }
},{
"QualifiedName":"Core.OptimisticConcurrencyControl",
"Name":"OptimisticConcurrencyControl",
"DefaultValue":null, "IsCollection":false,
"Type":{
"QualifiedName":"Core.OptimisticConcurrencyControlType" }
}
]
}
Annotations can be stated in CSDL in two ways: inline
as child elements of the annotated element, or externally as children of
an edm:Annotations
element that targets the model element to be annotated. The external form is
only possible for model elements that can be uniquely identified by a target
path expression, and these model elements are represented in the Metadata
Service as entity types, while all model elements that cannot be targeted are
represented as complex types.
Consequently annotations that can only be stated with the
inline form are represented with the complex type Edm.Metadata.InlineAnnotation,
while annotations that can be stated externally are represented with the entity
type Edm.Metadata.Annotation, whether they are
stated inline or externally in the metadata document or referenced CSDL
documents. If the example metadata document in Example 84 would reference the
CSDL document in Example 85, all its annotations would also be members of the
Annotations entity set of the Metadata Service for Example 84.
These annotations are identified by the combination of their
target, term, and qualifier. The Fullname of an
annotation is the Fullname of the target, followed
by an at (@) sign and the QualifiedName
of the term, and for non-empty qualifiers followed by a hash (#) sign and the qualifier.
Example 83:
GET
~/$metadata/Annotations
would return
{
"odata.context":"~/$metadata/$metadata#Annotations",
"value":[
{
"Fullname":"ODataDemo.Product/Description@Core.IsLanugageDependent",
"Qualifier":null,
"Value":{
"odata.type":"Meta.ConstantExpression","Value":true
}
},
{
"Fullname":"ODataDemo.Product/Price@UoM.ISOCurrency",
"Qualifier":null,
"Value":{ "odata.type":"Meta.Path","Value":"Currency"
}
},
{
"Fullname":"ODataDemo.Category/Name@Core.IsLanugageDependent",
"Qualifier":null,
"Value":{
"odata.type":"Meta.Constant","Value":true }
},
{
"Fullname":
"ODataDemo.DemoService/Suppliers@Core.OptimisticConcurrencyControl",
"Qualifier":null,
"Value":{
"odata.type":"Meta.Record",
"Annotations":[],
"PropertyValues":[
{
"Annotations":[],
"Property":"ETagDependsOn",
"Value":{
"odata.type":"Meta.Collection",
"Annotations":[],
"Items":[
{
"odata.type":"Meta.PropertyPath",
"Value":"Concurrency"
}
]
}
}
]
}
}
]
}
Following are two basic examples of valid EDM models as
represented in CSDL. These examples demonstrate many of the topics covered
above.
Example
84:
<edmx:Edmx
xmlns:edmx="http://docs.oasis-open.org/odata/ns/edmx"
Version="4.0">
<edmx:Reference Uri="http://tinyurl.com/Org-OData-Measures-V1">
<edmx:Include Alias="UoM" Namespace="Org.OData.Measures.V1"
/>
</edmx:Reference>
<edmx:DataServices>
<Schema xmlns="http://docs.oasis-open.org/odata/ns/edm"
Namespace="ODataDemo">
<EntityType Name="Product" HasStream="true">
<Key>
<PropertyRef Name="ID" />
</Key>
<Property Name="ID" Type="Edm.Int32"
Nullable="false" />
<Property Name="Description" Type="Edm.String" >
<Annotation Term="Core.IsLanguageDependent" />
</Property>
<Property Name="ReleaseDate" Type="Edm.Date"
/>
<Property Name="DiscontinuedDate"
Type="Edm.Date" />
<Property Name="Rating" Type="Edm.Int32" />
<Property Name="Price" Type="Edm.Decimal">
<Annotation Term="UoM.ISOCurrency" Path="Currency"
/>
</Property>
<Property Name="Currency"
Type="Edm.String" MaxLength="3" />
<NavigationProperty Name="Category" Type="ODataDemo.Category"
Nullable="false"
Partner="Products" />
<NavigationProperty Name="Supplier" Type="ODataDemo.Supplier"
Partner="Products" />
</EntityType>
<EntityType Name="Category">
<Key>
<PropertyRef Name="ID" />
</Key>
<Property Name="ID" Type="Edm.Int32"
Nullable="false" />
<Property Name="Name" Type="Edm.String">
<Annotation Term="Core.IsLanguageDependent" />
</Property>
<NavigationProperty Name="Products"
Partner="Category"
Type="Collection(ODataDemo.Product)">
<OnDelete Action="Cascade" />
</NavigationProperty>
</EntityType>
<EntityType Name="Supplier">
<Key>
<PropertyRef Name="ID" />
</Key>
<Property Name="ID" Type="Edm.String"
Nullable="false" />
<Property Name="Name" Type="Edm.String" />
<Property Name="Address"
Type="ODataDemo.Address" Nullable="false" />
<Property Name="Concurrency" Type="Edm.Int32"
Nullable="false" />
<NavigationProperty Name="Products" Partner="Supplier"
Type="Collection(ODataDemo.Product)"
/>
</EntityType>
<EntityType Name="Country">
<Key>
<PropertyRef Name="Code" />
</Key>
<Property Name="Code" Type="Edm.String"
MaxLength="2"
Nullable="false" />
<Property Name="Name" Type="Edm.String"
/>
</EntityType>
<ComplexType Name="Address">
<Property Name="Street" Type="Edm.String" />
<Property Name="City" Type="Edm.String" />
<Property Name="State" Type="Edm.String" />
<Property Name="ZipCode" Type="Edm.String" />
<Property Name="CountryName" Type="Edm.String" />
<NavigationProperty Name="Country"
Type="ODataDemo.Country">
<ReferentialConstraint Property="CountryName"
ReferencedProperty="Name" />
</NavigationProperty>
</ComplexType>
<Function Name="ProductsByRating"
ReturnType="Collection(ODataDemo.Product)">
<Parameter Name="Rating" Type="Edm.Int32" />
</Function>
<EntityContainer Name="DemoService"
IsDefaultEntityContainer="true">
<EntitySet Name="Products"
EntityType="ODataDemo.Product">
<NavigationPropertyBinding Path="Category"
Target="Categories" />
</EntitySet>
<EntitySet Name="Categories"
EntityType="ODataDemo.Category">
<NavigationPropertyBinding Path="Products"
Target="Products" />
</EntitySet>
<EntitySet Name="Suppliers"
EntityType="ODataDemo.Supplier">
<NavigationPropertyBinding Path="Products"
Target="Products" />
<NavigationPropertyBinding
Path="Address/Country"
Target="Countries"
/>
<Annotation Term="Core.OptimisticConcurrencyControl">
<Record>
<PropertyValue
Property="ETagDependsOn">
<Collection>
<PropertyPath>Concurrency</PropertyPath>
</Collection>
</PropertyValue>
</Record>
</Annotation>
</EntitySet>
<Singleton Name="Contoso"
Type="Self.Supplier">
<NavigationPropertyBinding Path="Products"
Target="Products" />
</Singleton>
<EntitySet Name="Countries"
EntityType="ODataDemo.Country" />
<FunctionImport Name="ProductsByRating"
EntitySet="Products"
Function="ODataDemo.ProductsByRating"
/>
</EntityContainer>
</Schema>
</edmx:DataServices>
</edmx:Edmx>
Example 85:
<edmx:Edmx
xmlns:edmx="http://docs.oasis-open.org/odata/ns/edmx"
Version="4.0">
<edmx:Reference Uri="http://host/service/$metadata">
<edmx:Include Namespace="ODataDemo" />
</edmx:Reference>
<edmx:Reference Uri="http://somewhere/Vocabulary/V1">
<edmx:Include Alias="Vocabulary1"
Namespace="Some.Vocabulary.V1" />
</edmx:Reference>
<edmx:DataServices>
<Schema xmlns="http://docs.oasis-open.org/odata/ns/edm"
Namespace="Annotations">
<Annotations Target="ODataDemo.Supplier">
<Annotation Term="Vocabulary1.EMail">
<Null />
</Annotation>
<Annotation Term="Vocabulary1.AccountID" Path="ID"
/>
<Annotation Term="Vocabulary1.Title" String="Supplier
Info" />
<Annotation Term="Vocabulary1.DisplayName">
<Apply Function="odata.concat">
<Path>Name</Path>
<String> in </String>
<Path>Address/CountryName</Path>
</Apply>
</Annotation>
</Annotations>
<Annotations Target="ODataDemo.Product">
<Annotation Term="Self.Tags">
<Collection>
<String>MasterData</String>
</Collection>
</Annotation>
</Annotations>
</Schema>
</edmx:DataServices>
</edmx:Edmx>
17.1 Namespace
A Namespace is a character sequence of type edm:TNamespaceName, see [OData-EDM].
Non-normatively speaking it is a dot-separated sequence of SimpleIdentifiers with a maximum length of 511
Unicode characters.
17.2 SimpleIdentifier
A SimpleIdentifier is a
character sequence of type edm:TSimpleIdentifier,
see [OData-EDM]:
<xs:simpleType name="TSimpleIdentifier">
<xs:restriction base="xs:string">
<xs:maxLength value="128" />
<xs:pattern
value="[\p{L}\p{Nl}_][\p{L}\p{Nl}\p{Nd}\p{Mn}\p{Mc}\p{Pc}\p{Cf}]{0,}"
/>
</xs:restriction>
</xs:simpleType>
Non-normatively speaking it starts with a letter or
underscore, followed by at most 127 letters, underscores or digits.
17.3 QualifiedName
For model elements that are direct children of a schema: the
namespace or alias of the schema that defines the model element, followed by a
dot and the name of the model element, see rule qualifiedTypeName
in [OData-ABNF].
For built-in primitive
types: the name of the type, prefixed with Edm
followed by a dot.
17.4 TypeName
The QualifiedName of a built-in
primitive or abstract type, a type definition, complex type, enumeration type,
or entity type, or a collection of one of these types, see rule qualifiedTypeName in [OData-ABNF].
The type must be in scope, i.e. the type MUST be defined in
the Edm namespace or it MUST be defined in the
schema identified by the namespace or alias portion of the qualified name, and
the identified schema MUST be defined in the same CSDL document or included from a directly referenced document.
17.5
TargetPath
Target paths are used in
attributes of CSDL elements to refer to other CSDL elements or their nested
child elements.
The allowed path expressions
are:
·
The QualifiedName of a schema child
·
The QualifiedName of a schema child followed by a forward slash and name
of a child element
·
The TargetPath of a complex property of a
structured type, followed by a forward slash and the name of a property of the
complex property
Example 86: Target expressions
Schema.Type
Schema.EntityType/Property
Schema.ComplexType/NavigationProperty
Schema.EntityType/ComplexProperty/NestedComplexProperty/NestedProperty
Schema.EnumType/Member
Schema.EntityContainer
Schema.EntityContainer/EntitySet
Schema.EntityContainer/Singleton
17.6
Boolean
One of the literals true and false.
Conforming services MUST follow all rules of this
specification document for the types, sets, functions, actions, containers and
annotations they expose.
Conforming clients MUST be prepared to consume a model that
uses any or all of the constructs defined in this specification, including
custom annotations, and MUST ignore any elements or attributes not defined in
this version of the specification.
The contributions of the OASIS OData Technical Committee
members, enumerated in [OData-Protocol], are gratefully
acknowledged.
|
Revision
|
Date
|
Editor
|
Changes Made
|
|
Working Draft 01
|
2012-08-22
|
Michael Pizzo
|
Translated Contribution to OASIS format/template
|
|
Committee Specification Draft 01
|
2013-04-26
|
Michael Pizzo,
Ralf Handl,
Martin Zurmuehl
|
Simplified annotations, relationships, added containment,
singletons
Added Type Definitions, Edm.Date, Edm.TimeOfDay,
Edm.Duration datatypes. Retired Edm.DateTime, Edm.Time.
Enhanced ComplexType support
Expanded Service Document
Fleshed out descriptions and examples and addressed
numerous editorial and technical issues processed through the TC
Added Conformance section
|
|
Committee Specification Draft 02
|
2013-07-01
|
Michael Pizzo,
Ralf Handl,
Martin Zurmuehl
|
Restricted services to exactly one entity container
Simplified function and action overloads
Rounded off annotaitons
Fleshed out containment
Simplified rules for implicit enum member values
Clarified intention of Partner and
NavigationPropertyBinding
Simplified and completed CSDL for Metadata Service, added
description of behavior
|
