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#Working with Swagger Specifications

AutoRest processes Swagger specifications following the Swagger RESTful API Documentation Specification API descriptions that are valid according to the schema can produce client libraries that are not very user-friendly. Here are some techniques to apply in authoring Swagger that improve the usability of the client generated by AutoRest.

Contents

Data Types

Primitive Data Types

The primitive types are based on JSON-Schema Draft 4. More details in the Swagger Specification here.

Example:

"definitions": {
  "pet": {
    "properties": {
      "name": {
        "type": "string"
	  },
	  "age": {
	    "type": "integer"
	  }
	}
  }
}

Generates C# client model type:

public partial class Pet
{
    /// <summary>
    /// Optional.
    /// </summary>
    public int? Age { get; set; }

    /// <summary>
    /// Optional.
    /// </summary>
    public string Name { get; set; }

    /// <summary>
    /// Initializes a new instance of the Pet class.
    /// </summary>
    public Pet()
    {
    }
}

byte[], DateTime, int, long

  • byte[] To represent byte arrays in the generated code, the property of the Swagger definition should have string as its type and byte as its format. This indicates binary data that will be represented as a base64-encoded string in requests and responses. The generated client will automatically do this encoding when processing requests and responses.

  • DateTime AutoRest generates DateTime typed properties in generated C# code for Swagger properties that have string as the type and date-time as the format. Note: it's possible to generate these properties as DateTimeOffset in C# when -useDateTimeOffset parameter is passed via command line.

  • int / long Both int and long proeprties in the generated code correspond to integer types in Swagger properties. If the format of the Swagger property is int32, int will be generated; if the format is int64, long will be generated. If the format field of the Swagger property is not set, AutoRest use format int32.

Example:

"pet": {
  "properties": {
    "age": {
      "type": "integer",
      "format": "int32"
    },
    "number": {
      "type": "integer",
      "format": "int64"
    },
    "name": {
      "type": "string",
      "format": "byte"
    },
    "birthday": {
      "name": "dateTime",
      "type": "string",
      "format": "date-time"
    }
  }
}

Generates C# client model type:

public partial class Pet
{
    /// <summary>
    /// Optional.
    /// </summary>
    public int? Age { get; set; }

    /// <summary>
    /// Optional.
    /// </summary>
    public DateTime? Birthday { get; set; }

    /// <summary>
    /// Optional.
    /// </summary>
    public byte[] Name { get; set; }

    /// <summary>
    /// Optional.
    /// </summary>
    public long? Number { get; set; }

    /// <summary>
    /// Initializes a new instance of the Pet class.
    /// </summary>
    public Pet()
    {
    }
}

Arrays and Sequences

AutoRest builds sequences from schemas with type array. The following definition

"pet": {
  "properties": {
    "names": {
      "type": "array",
      "items": {
        "type": "string"
      }
    }
  }
}

Generates C# client model type

public partial class Pet
{
    /// <summary>
    /// Optional.
    /// </summary>
    public IList<string> Names { get; set; }

    /// <summary>
    /// Initializes a new instance of the Pet class.
    /// </summary>
    public Pet()
    {
    }
}

Dictionaries

AutoRest generates dictionaries (or hash maps in some contexts) using additionalProperites from JSON-Schema Draft 4. The additionalProperties element should specify the Swagger schema of the values in the dictionary . The keys of the generated dictionary will be of type string.

There are two basic patterns when generating dictionaries in AutoRest.

Dictionaries as a member.

A dictionary can be generated as a member in a object schema, when there are no properties defined, the dictionary will be generated for the entire member.

The following definition

"StringDictionary": {
  "additionalProperties": {
    "type": "string"
  }
}

will generate C# client library

public partial class Pet
{
    /// <summary>
    /// Optional.
    /// </summary>
    public IDictionary<string, string> StringDictionary { get; set; }

    /// <summary>
    /// Initializes a new instance of the Pet class.
    /// </summary>
    public Pet()
    {
    }
}

Swagger and AutoRest also support Dictionary in Dictionary and Array in Dictionary. For example

"additionalProperties": {
   "type": "object",
   "additionalProperties": {
     "type": "string"
   }
}

becomes

public partial class Pet
{
    /// <summary>
    /// Optional.
    /// </summary>
    public IDictionary<string, IDictionary<string, string>> CompositeDictionary { get; set; }

    /// <summary>
    /// Initializes a new instance of the Pet class.
    /// </summary>
    public Pet()
    {
    }
}

Dictionaries as a catch-all for unlisted properties.

A dictionary can be also generated as way of accepting data for unlisted properties. The code generator (c#, in this case) will emit code that instructs the deserializer to send all unspecified values in the object to the generated AdditionalProperties member

The code :

definitions:
  MyResponseObject:
    type: object
    properties: 
      someProperty:  
        type: string
    # because this object has a property, additionalProperties becomes a catch-all for 
    # any properties in the response that aren't specified.
    additionalProperties: 
      type: string

Generates code :

public partial class MyResponseObject
{
    /// <summary>
    /// Initializes a new instance of the WithStringDictionary class.
    /// </summary>
    public MyResponseObject() { }

    /// <summary>
    /// Initializes a new instance of the WithStringDictionary class.
    /// </summary>
    public MyResponseObject(IDictionary<string, string> additionalProperties = default(IDictionary<string, string>), string someProperty = default(string))
    {
        AdditionalProperties = additionalProperties;
        SomeProperty = someProperty;
    }

    /// <summary>
    /// Gets or sets unmatched properties from the message are
    /// deserialized this collection
    /// </summary>
    [JsonExtensionData]
    public IDictionary<string, string> AdditionalProperties { get; set; }

    /// <summary>
    /// </summary>
    [JsonProperty(PropertyName = "someProperty")]
    public string SomeProperty { get; set; }
}

Constants

AutoRest generates constant value for required parameters and properties defined with one enum value. Constant operation parameters are not exposed to the end user and are injected in the method body. Constant definition properties are also automatically added to the payload body.

Example of a constant in a definition:

"Product": {
   "description": "The product documentation.",
   "required": [ "constProperty" ],
   "properties": {
     "constProperty": {
       "type": "string",
       "description": "Constant string",
       "enum": [ "some value" ]
     }
   }
 }

become

/// <summary>
/// The product documentation.
/// </summary>
public partial class Product
{
    /// <summary>
    /// Initializes a new instance of the ConstantProduct class.
    /// </summary>
    public ConstantProduct() { }

    /// <summary>
    /// Static constructor for ConstantProduct class.
    /// </summary>
    static ConstantProduct()
    {
        ConstProperty = "some value";
    }

    /// <summary>
    /// Constant string
    /// </summary>
    [JsonProperty(PropertyName = "constProperty")]
    public static string ConstProperty { get; private set; }

Example of a constant in an operation:

"post": {
  "operationId": "myOperation",
  "parameters": [
     {
       "name": "constantParam",
       "type": "string",
       "enum": [ "some value" ],
       "in": "path",
       "required": true
     }
  ]
}

becomes

public async Task<HttpOperationResponse> MyOperationWithHttpMessagesAsync(Dictionary<string, List<string>> customHeaders = null, CancellationToken cancellationToken = default(CancellationToken))
{
     string constantParam = "some value";
     ...
}

Inheritance and Polymorphism

Inheritance

AutoRest builds inheritance between types if an allOf field is specified in a Swagger definition with ONLY one reference to another Swagger definition. The following example demonstrate a Cat type inheriting a Pet with its allOf set to [{"$ref": "Pet"}].

Note: Only allOf fields with one schema reference will be treated as inheritance. If allOf contains more than one schema that has "$ref" as the key, the properties from the referenced schemas will be composed without inheritance. However, if an allOf contains multiple inline schemas and a single schema reference, the generated model type will use inheritance.

Example:

"Pet": {
  "properties": {
    "name": {
      "type": "string"
    }
  }
},
"Cat": {
  "allOf": [ { "$ref":  "Pet" } ],
  "properties": {
    "color": {
      "type": "string",
      "description": "cat color"
    }
  }
}

will generate C# model types

public partial class Cat : Pet
{
    /// <summary>
    /// Initializes a new instance of the Cat class.
    /// </summary>
    public Cat() { }

    /// <summary>
    /// Initializes a new instance of the Cat class.
    /// </summary>
    public Cat(int? id = default(int?), string name = default(string), string color = default(string))
        : base(id, name)
    {
        Color = color;
    }

    /// <summary>
    /// </summary>
    [JsonProperty(PropertyName = "color")]
    public string Color { get; set; }
}

public partial class Pet
{
    /// <summary>
    /// Initializes a new instance of the Pet class.
    /// </summary>
    public Pet() { }

    /// <summary>
    /// Initializes a new instance of the Pet class.
    /// </summary>
    public Pet(int? id = default(int?), string name = default(string))
    {
        Id = id;
        Name = name;
    }

    /// <summary>
    /// </summary>
    [JsonProperty(PropertyName = "id")]
    public int? Id { get; set; }

    /// <summary>
    /// </summary>
    [JsonProperty(PropertyName = "name")]
    public string Name { get; set; }

}

Polymorphism

To describe polymorphic inheritance between types, Swagger uses an extra "discriminator" field to indicate the exact serialization of the object on the wire. To make a set of classes polymorphic, use 'allOf' with a schema reference to indicate inheritance from a base schema and a discriminator field to the base schema. In the example above, adding a discriminator field named objectType to Pet will make the generated set of classes polymorphic:

"Pet": {
  "discriminator": "Type",
  "required": [
    "objectType"
  ],
  "properties": {
    "name": {
      "type": "string"
    },
    "objectType": {
      "type": "string"
    }
  }
}

The generated models in C# code are nearly identical, with objectType property excluded and a special JsonConverter added in the client Initialize method:

public partial class MyClient : ServiceClient<AutoRestComplexTestService>, IAutoRestComplexTestService
{
    ...
    
    /// <summary>
    /// Initializes client properties.
    /// </summary>
    private void Initialize()
    {
        ...
        SerializationSettings.Converters.Add(new PolymorphicSerializeJsonConverter<Pet>("objectType"));
        DeserializationSettings.Converters.Add(new PolymorphicDeserializeJsonConverter<Pet>("objectType"));
    } 
}

Type Name Generation

Type name generation is straightforward if a Swagger schema is defined in the "#/definitions" block. The name of the Swagger Schema will be respected in the corresponding generated model type, like the Pet model in the examples above. Invalid characters will be filtered, and type capitalization is changed to comply with language-specific coding guidelines, but the generated model name should make sense if the one in the Swagger definitions list makes sense.

Type name generation becomes tricky in inline schema definitions. There are three scenarios when AutoRest generates a name on its own. The names are generated using the context of the schema in the Swagger specification so that the correlation between model type and swagger schema is easy to find. A generated type name can easily be changed by moving the corresponding schema into the "#/definitions" list and referencing the schema from the parameters and responses where it appears in the Swagger specification.

  • Inline parameters A Schema defined inside a body parameter. The parameter name will be used for the generated type name. The following example will generate a model type named Style.
"parameters": [
  {
    "in": "body",
    "name": "style",
    "schema": {
      "properties": {
        "name": {
          "type": "string"
        },
        "color": {
          "type": "string"
        }
      }
    }
  }
]
  • Inline responses A response with a schema definition inside. The model type name will be operationId + http status code + "Response". The following example will generate a type AddPetOkResponse.
......
"operationId": "addPet",
......
"200": {
  "description": "pet response",
  "schema": {
    "properties": {
      "id": {
        "type": "integer",
        "format": "int64"
      },
      "name": {
        "type": "string"
      },
    }
  }
}
  • Inline properties A property of a reference type contains an inline Swagger schema definition. The type name for the generated model is composed of the parent class's type name concatenated with the property's name. The following example will generate a type PetStyle.
"Pet": {
  "properties": {
    "style": {
      "properties": {
        "name": {
          "type": "string"
        },
        "color": {
          "type": "string"
        }
      }
    }
  }
}
  • Schemas in sequences and dictionaries A schema defined in the 'items' proeprty of a sequence or the 'additionalProperties' value of a dictionary. Model types corresponding to Items of a sequence are named using the parent class's name concatenated with "Item". Model types corresponding to the 'additinalPropeties' value of a dictionary are named using the parent class's name concatenated with "Value". The following example will generate types PetFavFoodItem and PetFavFoodBrandValue.
"Pet": {
  "properties": {
    "fav_food": {
	  "type": "array",
	  "items": {
	    "properties": {
	      "name": {
	        "type": "string"
	      },
	      "taste": {
	        "type": "string"
	      }
	    }
	  }
    },
    "fav_food_brand": {
      "additionalProperties": {
	    "properties": {
	      "manufacturer": {
	        "type": "string"
	      }
	    }
      }
    }
  }
}

Operations

Generating Operation Classes

In many cases, client operations are intended to be grouped by resource type for better usability. AutoRest supports categorizing operations using _ in the operationId field of a SwaggerOperation. The part appearing before _ will be treated as the operations' class name, and the part after will be treated as the method name.

Example: The following Swagger specification:

"paths": {
  "/api/Values/{id}": {
    "get": {
      "tags": [
        "Values"
      ],
      "operationId": "Values_Get",
............

will generate a Get method inside a Values class. The end user will access the method by calling client.Values.Get(). This is a neat way of organizing your client if you have multiple operations with the same operation name but different underlying resources.

If the -OutputFile parameter is not specified when invoking the AutoRest Command Line Interface, generated files will also be organized by namespaces. If you have operationIds ns1_get and ns2_get, you will have ns1.cs and ns2.cs in the generated C# client library.

Specifying required parameters and properties

Parameters and properties in Swagger schema use different notations and conventions to determine if they are required or optional.

Parameters in the 'path' or 'body' are always required. Parameters may also use a 'required' Boolean property to indicate that they are required for the operation, as in the example shown below.

"parameters": [
  {
    "name": "subscriptionId",
    "in": "path",
    "required": true,
    "type": "integer"
  },
  {
    "name": "resourceGroupName",
    "in": "path",
    "type": "string"
  },
  {
    "name": "api-version",
    "in": "query",
    "required": false,
    "type": "integer"
  }
]

Generates C# client side method of

public async Task<HttpOperationResponse<Product>> ListWithOperationResponseAsync(int? subscriptionId, string resourceGroupName, int? apiVersion, CancellationToken cancellationToken)
{
    // Validate
    if (resourceGroupName == null)
    {
        throw new ArgumentNullException("resourceGroupName");
    }
............

Note that parameters that have field in as path are always required and the required field will be ignored.

Properties in SwaggerSchema do not contain a required field. Instead, Each definition schema can provide a 'required' array that specifies which proeprties are required. An example is shown below.

"Product": {
  "required": [
    "product_id", "display_name"
  ],
  "properties": {
    "product_id": {
      "type": "string"
    },
    "description": {
      "type": "string"
    },
    "display_name": {
      "type": "string"
    },
    "capacity": {
      "type": "string"
    },
    "image": {
      "type": "string"
    }
  }
}

Error Modeling

At runtime, if the server returns an unexpected status code, the generated client throws an exception of type HttpOperationException. The exception instance will contain the request of type HttpRequestMessage (in property Request), the response of type HttpResponseMessage (in property Response), and the error model (in property Body). The error model must be defined as the schema of the default response.

Example: A response of

"default": {
  "description": "Unexpected error",
  "schema": {
    "$ref": "Error"
  }
}

together with its definition

"Error": {
  "properties": {
    "code": {
      "type": "integer",
      "format": "int32"
    },
    "message": {
      "type": "string"
    },
    "fields": {
      "type": "string"
    }
  }
}

Generates the following error handling code:

if ((int)_statusCode != 200)
{
    var ex = new ErrorException(string.Format("Operation returned an invalid status code '{0}'", _statusCode));
    try
    {
        _responseContent = await _httpResponse.Content.ReadAsStringAsync().ConfigureAwait(false);
        Error _errorBody = SafeJsonConvert.DeserializeObject<Error>(_responseContent, this.Client.DeserializationSettings);
        if (_errorBody != null)
        {
            ex.Body = _errorBody;
        }
    }
    catch (JsonException)
    {
        // Ignore the exception
    }
    ex.Request = new HttpRequestMessageWrapper(_httpRequest, _requestContent);
    ex.Response = new HttpResponseMessageWrapper(_httpResponse, _responseContent);
    if (_shouldTrace)
    {
        ServiceClientTracing.Error(_invocationId, ex);
    }
    _httpRequest.Dispose();
    if (_httpResponse != null)
    {
        _httpResponse.Dispose();
    }
    throw ex;
}

See Error Handling for details on how to catch and use the exceptions from generated clients.

Composite Clients

AutoRest supports a concept of a composite client where multiple swagger documents are merged together to generate a single ServiceClient. To use this feature the swagger documents need to conform to the following rules:

  1. All swagger documents must share the same host and basePath values
  2. All definitions with same names must be identical
  3. All global client parameters with same names must be identical
  4. Methods with the same operationId but different signature are allowed. However, there should be no methods with the same operationId and same signature.

For Azure generators, composite clients will not have ApiVersion global property but will instead have apiVersion operation constants.

Generating Composite Clients

In order to generate a composite client a custom metadata needs to be created.

Schema:

Field Name Type Description
info Info Object Required. The info object defines the name and description of the composite client.
documents string[] Required. Collection of URLs or local paths that point to individual swagger documents. These URLs or paths are relative to the current working directory and as such it is strongly recommended to use absolute URLs.

Example:

{
  "info": {
    "title": "Composite Model",
    "description": "Composite Swagger Client that represents merging two clients"
  },
  "documents": [
    "http://myserver/swagger/swagger1.json",
    "http://myserver/swagger/swagger2.json"
  ]
}

Command Line:

A CompositeSwagger modeler should be used to generate composite clients. For example:

autorest.exe -modeler CompositeSwagger -input compositeDoc.json -output C:\Temp -codeGenerator CSharp

Extensions

AutoRest supports a number of extensions used to configure generated clients. Please refer to Swagger Extensions document for details.