protected HttpApiEndpoint CreateEndpoint(MethodInfo method, IHttpMethodAttribute httpMethod)
{
// Store a variable to store the type converter to be used for this endpoint
var endpointTypeConverter = TypeConverterAttribute.Combine(method, TypeConverter);
// Store the additional custom headers (if any) defined on the method itself
var headers = Headers.Concat(HeaderAttribute.GetHeaders(method));
// Store a dictionary to store the argument handlers
var argumentHandlers = new Dictionary <string, IHttpArgumentHandler>();
// Get the path associated with the API as a whole
var pathPrefix = typeof(T).GetCustomAttribute <PathAttribute>()?.Path;
// Combine it with the path for the endpoint
var path = httpMethod.Path;
if (pathPrefix != null)
{
path = HttpPath.Combine(pathPrefix, path);
}
// Store the url to where we intend to call
var url = HttpUrlParser.Parse(path);
// Create a hash set so we can quickly deterine which parameters appy to the path
var pathParameters = new HashSet <string>(url.PathParts.OfType <VariableHttpPathPart>().Select(x => x.Key));
// Create a hash set so we can quickly determine which parameters apply to the query string
var queryParameters = new HashSet <string>(url.QueryParts.Select(x => x.Value).OfType <VariableHttpPathPart>().Select(x => x.Key));
// Store a list that aren't for anything else and thus must be consigned to the body
var bodyParameters = new List <ParameterInfo>();
// Iterate through the parameters and figure out which argument handler to use for each
foreach (var parameter in method.GetParameters())
{
// If the parameter overrides the type converter, we'll overwrite the typeConverter variable
var typeConverter = TypeConverterAttribute.Combine(parameter, endpointTypeConverter);
// Store headerAttribute for later
var headerAttribute = parameter.GetCustomAttribute <HeaderAttribute>();
// If this is a path parameter, then create a respective argument handler
if (pathParameters.Contains(parameter.Name))
{
argumentHandlers[parameter.Name] = new PathArgumentHandler(typeConverter);
}
// Otherwise, if it's a query string parameter, create an argument handler for that
else if (queryParameters.Contains(parameter.Name))
{
argumentHandlers[parameter.Name] = new QueryArgumentHandler(typeConverter);
}
// See if the parameter represents a header. If it does, create the respective argument handler.
else if (headerAttribute != null)
{
argumentHandlers[parameter.Name] = new HttpHeaderArgumentHandler(typeConverter, headerAttribute.Name, headerAttribute.Values);
}
// If the parameter is Func<Stream, Task> then it should be invoked with the response stream for custom handling.
else if (parameter.ParameterType == typeof(Func <Stream, Task>))
{
argumentHandlers[parameter.Name] = new StreamResponseArgumentHandler(typeConverter);
}
// If the parameter type is HttpApiRequest, we assume you want to interact with the request directly
else if (parameter.ParameterType == typeof(Action <HttpApiRequest>))
{
argumentHandlers[parameter.Name] = new HttpApiRequestArgumentHandler(typeConverter);
}
// If the parameter type is HttpBody, then we assume you want to interact with the HttpBody directly
else if (parameter.ParameterType == typeof(HttpBody))
{
argumentHandlers[parameter.Name] = new HttpBodyArgumentHandler(typeConverter);
}
// If we get to this point, we assume the method parameter is provided in the body of the request
else
{
bodyParameters.Add(parameter);
}
}
// You can override the name associated with the parameter by using either JsonPropertyAttribute or
// NameAttribute. We provide a NameAttribute to avoid forcing you to use JsonPropertyAttribute when
// not dealing with JSON.
string GetName(ParameterInfo parameter)
{
var jsonPropertyAttribute = parameter.GetCustomAttribute <JsonPropertyAttribute>(true);
var nameAttribute = parameter.GetCustomAttribute <NameAttribute>(true);
return(nameAttribute?.Value ?? jsonPropertyAttribute?.PropertyName ?? parameter.Name);
}
// If there is data for a body, then create a handler to provide a body
if (bodyParameters.Any())
{
var isMultipart = method.GetCustomAttribute <MultipartAttribute>() != null;
var isForm = method.GetCustomAttribute <FormAttribute>() != null;
var isText = method.GetCustomAttribute <TextAttribute>() != null;
Action <Func <ParameterInfo, ITypeConverter, IHttpArgumentHandler> > setBodyArgumentHandlers = factory =>
{
foreach (var parameter in bodyParameters)
{
var typeConverter = TypeConverterAttribute.Combine(parameter, endpointTypeConverter);
argumentHandlers[parameter.Name] = factory(parameter, typeConverter);
}
};
// If the argument represents an input stream, use the respective argument handler
if (bodyParameters.First().ParameterType == typeof(Stream) && bodyParameters.Count == 1 && !isMultipart)
{
var parameter = bodyParameters.Single();
var typeConverter = TypeConverterAttribute.Combine(parameter, endpointTypeConverter);
argumentHandlers[parameter.Name] = new StreamArgumentHandler(typeConverter);
}
// If the argument represents an input stream, use the respective argument handler
else if (bodyParameters.First().ParameterType == typeof(byte[]) && bodyParameters.Count == 1 && !isMultipart)
{
var parameter = bodyParameters.Single();
var typeConverter = TypeConverterAttribute.Combine(parameter, endpointTypeConverter);
argumentHandlers[parameter.Name] = new ByteArrayArgumentHandler(typeConverter);
}
// If it's explicitly multipart or any parameter is a stream, then each parameter represent a multipart section that encapsulates the value
else if (isMultipart || bodyParameters.Any(x => x.ParameterType == typeof(Stream)))
{
setBodyArgumentHandlers((parameter, typeConverter) => new MultipartArgumentHandler(typeConverter));
}
else if (isForm)
{
setBodyArgumentHandlers((parameter, typeConverter) => new FormArgumentHandler(typeConverter, GetName(parameter)));
}
else if (isText)
{
setBodyArgumentHandlers((parameter, typeConverter) => new StringArgumentHandler(typeConverter));
}
// Otherwise, we're going to serialize the request as JSON
else
{
// If there's only one body parameter and its not annotated with [Object], then we're going to serialize
// the argument as a raw JSON value.
if (bodyParameters.Count == 1 && bodyParameters.Single().GetCustomAttribute <ObjectAttribute>() == null)
{
var parameter = bodyParameters.Single();
var typeConverter = TypeConverterAttribute.Combine(parameter, endpointTypeConverter);
argumentHandlers[parameter.Name] = new DirectJsonArgumentHandler(typeConverter);
}
// Otherwise we're going to create a dynamically composed JSON object where each parameter represents a
// property of the composed JSON object.
else
{
// Foreach body parameter, create a json argument handler
setBodyArgumentHandlers((parameter, typeConverter) => new ComposedJsonArgumentHandler(typeConverter, GetName(parameter)));
}
}
}
var returnType = method.ReturnType;
bool isAsync = false;
if (typeof(Task).IsAssignableFrom(returnType))
{
isAsync = true;
returnType = returnType.GetTaskType() ?? typeof(void);
}
var responseTypeConverter = TypeConverterAttribute.Combine(method.ReturnTypeCustomAttributes, endpointTypeConverter);
IHttpResponseHandler responseHandler;
// If the return type of the method is void, then we will simply return null from the response
if (returnType == typeof(void))
{
responseHandler = new NullResponseHandler();
}
// If the return type is byte[], we provide the raw contents of the response body as a byte array
else if (returnType == typeof(byte[]))
{
responseHandler = new ByteArrayResponseHandler();
}
// If the return type is HttpApiResponse, we return the raw response from the method
else if (returnType == typeof(HttpApiResponse))
{
responseHandler = new HttpApiResponseResponseHandler();
}
// If the return type is HttpBody, we return the articulated HttpBody (one of its subclasses) from the method
else if (returnType == typeof(HttpBody))
{
responseHandler = new HttpBodyResponseHandler();
}
// Otherwise, we return a response that is based the returned Content-Type and converted into the desired C#
// type accordingly.
else
{
responseHandler = new BodyBasedResponseHandler();
}
responseHandler.TypeConverter = responseTypeConverter;
responseHandler.ResponseType = returnType;
var endpoint = new HttpApiEndpoint(method, url, httpMethod.Method, argumentHandlers, responseHandler, headers, isAsync);
return(endpoint);
}
public virtual Task<object> Call(HttpApiEndpoint endpoint, IHttpHandler httpHandler, string baseUrl, Dictionary<string, object> arguments, HttpApiInstrumenter apiInstrumenter)
{
return endpoint.Call(httpHandler, baseUrl, arguments, apiInstrumenter);
}
