Palm trees, coral reefs and breaking waves. Welcome to the surf club Malibu,
a networking library built on promises. It's more than just a wrapper
around URLSession
, but a powerful framework that helps to chain your
requests, validations and request processing.
Using When under the hood, Malibu adds a lot of sugar helpers and moves your code up to the next level:
- No more "callback hell".
- Your requests are described in one place.
- Response processing could be easily broken down into multiple logical tasks.
- Data and errors are handled separately.
- Your networking code is much cleaner, readable and follows
DRY
principle.
Equip yourself with the necessary gears of Malibu, become a big wave surfer and let the days of shark infested asynchronous networking be a thing of the past. Enjoy the ride!
- Multiple network stacks
- Declarative requests
- Chainable response callbacks built on promises
- All needed content types and parameter encodings
- HTTP response validation
- Response data serialization
- Response mocking
- Request, response and error logging
-
ETag
support - Synchronous and asynchronous modes
- Request pre-processing and middleware
- Request offline storage
- Extensive unit test coverage
- Catching the wave
- RequestConvertible
- Request
- Networking
- Response
- Logging
- Installation
- Author
- Credits
- Contributing
- License
You can start your ride straight away, not thinking about configurations:
// Create your request => GET http://sharkywaters.com/api/boards?type=1
let request = Request.get("http://sharkywaters.com/api/boards", parameters: ["type": 1])
// Make a call
Malibu.request(request)
.validate()
.toJsonDictionary()
.then({ dictionary -> [Board] in
// Let's say we use https://github.com/zenangst/Tailor for mapping
return try dictionary.relationsOrThrow("boards") as [Board]
})
.done({ boards in
// Handle response data
})
.fail({ error in
// Handle errors
})
.always({ _ in
// Hide progress bar
})
If you still don't see any benefits, keep scrolling down and be ready for even more magic 😉...
Most of the time we need separate network stacks to work with multiple API
services. It's super easy to archive with Malibu. Create an
enum
that conforms to RequestConvertible protocol and describe your
requests with all the properties:
enum SharkywatersEndpoint: RequestConvertible {
// Describe requests
case fetchBoards
case showBoard(id: Int)
case createBoard(type: Int, title: String)
case updateBoard(id: Int, type: Int, title: String)
case deleteBoard(id: Int)
// Every request will be scoped by the base url
// Base url is recommended, but optional
static var baseUrl: URLStringConvertible? = "http://sharkywaters.com/api/"
// Additional headers for every request
static var headers: [String: String] = [
"Accept" : "application/json"
]
// Build requests
var request: Request {
switch self {
case .fetchBoards:
return Request.get("boards")
case .showBoard(let id):
return Request.get("boards/\(id)")
case .createBoard(let type, let title):
return Request.post("boards", parameters: ["type": type, "title": title])
case .updateBoard(let id, let title):
return Request.patch("boards/\(id)", parameters: ["title": title])
case .deleteBoard(let id):
return Request.delete("boards/\(id)")
}
}
}
Note that Accept-Language
, Accept-Encoding
and User-Agent
headers are
included automatically.
Request is described with a struct in Malibu:
let request = Request(
// HTTP method
method: .get,
// Request url or path
resource: "boards",
// Content type
contentType: .query,
// Request parameters
parameters: ["type": 1, "text": "classic"],
// Headers
headers: ["custom": "header"],
// Enables or disables automatic ETags handling
etagPolicy: .disabled,
// Offline storage configuration
storePolicy: .unspecified,
// Cache policy
cachePolicy: .useProtocolCachePolicy)
There are also multiple helper methods with default values for every HTTP method:
// GET request
let getRequest = Request.get("boards")
// POST request
let postRequest = Request.post(
"boards",
// Content type is set to `.json` by default for POST
contentType: .formURLEncoded,
parameters: ["type" : kind, "title" : title])
// PUT request
let putRequest = Request.put("boards/1", parameters: ["type" : kind, "title" : title])
// PATCH request
let patchRequest = Request.patch("boards/1", parameters: ["title" : title])
// DELETE request
let deleteRequest = Request.delete("boards/1")
URLSessionDataTask
is default for executing requests. For uploading there
are two additional options that use URLSessionUploadTask
instead of
URLSessionDataTask
.
// Upload data to url
Request.upload(data: data, to: "boards")
// Upload multipart data with parameters
// You are responsible for constructing a proper value,
// which is normally a string created from data.
Request.upload(
multipartParameters: ["key": "value"],
to: "http:/api.loc/posts"
)
query
- creates a query string to be appended to any existing url.formURLEncoded
- usesapplication/x-www-form-urlencoded
as aContent-Type
and formats your parameters with percent-encoding.json
- sets theContent-Type
toapplication/json
and sends a JSON representation of the parameters as the body of the request.multipartFormData
- sends parameters encoded asmultipart/form-data
.custom(String)
- uses givenContent-Type
string as a header.
Malibu comes with 3 parameter encoding implementations:
FormURLEncoder
- a percent-escaped encoding following RFC 3986.JsonEncoder
-JSONSerialization
based encoding.MultipartFormEncoder
- multipart data builder.
You can extend default functionality by adding a custom parameter encoder
that conforms to ParameterEncoding
protocol:
// Override default JSON encoder
Malibu.parameterEncoders[.json] = CustomJsonEncoder()
// Register encoder for the custom encoding type
Malibu.parameterEncoders[.custom("application/xml")] = CustomXMLEncoder()
Malibu cares about HTTP ETags.
When the web server returns an HTTP response header ETag
, it will be
cached locally and set as If-None-Match
request header next time you perform
the same request. Automatic ETags handling is enabled by default for GET
,
PUT
and PATCH
requests, but it could easily be changed for the each request
specifically.
let getRequest = Request.get("boards". etagPolicy: .disabled)
Networking
class is a core component of Malibu that executes actual HTTP
requests on a specified API service.
It's pretty straightforward to create a new Networking
instance:
// Simple networking that works with `SharkywatersEndpoint` requests.
let simpleNetworking = Networking<SharkywatersEndpoint>()
// More advanced networking
let networking = Networking<SharkywatersEndpoint>(
// `OperationQueue` Mode
mode: .async,
// Optional mock provider
mockProvider: customMockProvider,
// `default`, `ephemeral`, `background` or `custom`
sessionConfiguration: .default,
// Custom `URLSessionDelegate` could set if needed
sessionDelegate: self
)
Malibu uses OperationQueue
to execute/cancel requests. It makes it
easier to manage request lifetime and concurrency.
When you create a new networking instance there is an optional argument to specify mode which will be used:
sync
async
limited(maxConcurrentOperationCount)
Mocking is great when it comes to writing your tests. But it also could speed up your development while the backend developers are working really hardly on API implementation.
In order to start mocking you have to do the following:
Create a mock provider
// Delay is optional, 0.0 by default.
let mockProvider = MockProvider(delay: 1.0) { endpoint in
switch endpoint {
case .fetchBoards:
// With response data from a file:
return Mock(fileName: "boards.json")
case .showBoard(let id):
// With response from JSON dictionary:
return Mock(json: ["id": 1, "title": "Balsa Fish"])
case .updateBoard(let id, let title):
// `Data` mock:
return Mock(
// Needed response
response: mockedResponse,
// Response data
data: responseData,
// Custom error, `nil` by default
error: customError
)
default:
return nil
}
}
Create a networking instance with your mock provider
Both real and fake requests can be used in a mix:
let networking = Networking<SharkywatersEndpoint>(mockProvider: mockProvider)
SessionConfiguration
is a wrapper around URLSessionConfiguration
and could
represent 3 standard session types + 1 custom type:
default
- configuration that uses the global singleton credential, cache and cookie storage objects.ephemeral
- configuration with no persistent disk storage for cookies, cache or credentials.background
- session configuration that can be used to perform networking operations on behalf of a suspended application, within certain constraints.custom(URLSessionConfiguration)
- if you're not satisfied with standard types, your customURLSessionConfiguration
goes here.
// Use this closure to modify your `Request` value before `URLRequest`
// is created on base of it
networking.beforeEach = { request in
var request = request
request.message.parameters["userId"] = "12345"
return request
}
// Use this closure to modify generated `URLRequest` object
// before the request is made
networking.preProcessRequest = { (request: URLRequest) in
var request = request
request.addValue("eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9", forHTTPHeaderField: "token")
return request
}
Middleware is the function which works as the first promise in the chain, before the actual request. It could be used to prepare networking, do some kind of pre-processing task, cancel request under particular conditions, etc.
For example, in the combination with https://github.com/hyperoslo/OhMyAuth
// Set middleware in your configuration
// Remember to `resolve` or `reject` the promise
networking.middleware = { promise in
AuthContainer.serviceNamed("service")?.accessToken { accessToken, error in
if let error == error {
promise.reject(error)
return
}
guard let accessToken = accessToken else {
promise.reject(CustomError())
return
}
self.networking.authenticate(bearerToken: accessToken)
promise.resolve()
}
}
// Send your request like you usually do.
// Valid access token will be set to headers before the each request.
networking.request(request)
.validate()
.toJsonDictionary()
// HTTP basic authentication with username and password
networking.authenticate(username: "malibu", password: "surfingparadise")
// OAuth 2.0 authentication with Bearer token
networking.authenticate(bearerToken: "eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9")
// Custom authorization header
networking.authenticate(authorizationHeader: "Malibu-Header")
Networking
is set up and ready, so it's time to fire some requests.
let networking = Networking<SharkywatersEndpoint>()
networking.request(.fetchBoards)
.validate()
.toJsonDictionary()
.done({ data in
print(data)
})
networking.request(.createBoard(kind: 2, title: "Balsa Fish"))
.validate()
.toJsonDictionary()
.done({ data in
print(data)
})
networking.request(.deleteBoard(id: 11))
.fail({ error in
print(error)
})
Response
object consists of Data
, URLRequest
and HTTPURLResponse
properties.
NetworkPromise
is just a typealias
to Promise<Response>
, which is returned
by every request method. You may use NetworkPromise
object to add different
callbacks and build chains of tasks. It has a range of useful helpers, such as
validations and serialization.
let networkPromise = networking.request(.fetchBoards)
// Cancel the task
networkPromise.cancel()
// Create chains and add callbacks on promise object
networkPromise
.validate()
.toString()
.then({ string in
// ...
})
.done({ _ in
// ...
})
Want to store request when there is no network connection?
let request = Request.delete(
"boards/1",
storePolicy: .offline // Set store policy
)
Want to replay cached requests?
networking.replay().done({ result
print(result)
})
Request storage is networking-specific, and while it replays cached requests
it will be set to Sync
mode. Cached request will go through normal request
lifecycle, with applied middleware and pre-process operations. Request will be
automatically removed from the storage when it's completed.
Malibu has a shared networking object with default configurations for the
case when you need just something simple to catch the wave. It's not necessary
to create a custom RequestConvertible
type, just call the same request
method right
on Malibu
:
Malibu.request(Request.get("http://sharkywaters.com/api/boards")
Malibu gives you a bunch of methods to serialize response data:
let networkPromise = networking.request(.fetchBoards)
networkPromise.toData() // -> Promise<Data>
networkPromise.toString() // -> Promise<String>
networkPromise.toJsonArray() // -> Promise<[[String: Any]]>
networkPromise.toJsonDictionary() // -> Promise<[String: Any]>
Malibu comes with 4 validation methods:
// Validates a status code to be within 200..<300
// Validates a response content type based on a request's "Accept" header
networking.request(.fetchBoards).validate()
// Validates a response content type
networking.request(.fetchBoards).validate(
contentTypes: ["application/json; charset=utf-8"]
)
// Validates a status code
networking.request(.fetchBoards).validate(statusCodes: [200])
// Validates with custom validator conforming to `Validating` protocol
networking.request(.fetchBoards).validate(using: CustomValidator())
If you want to see some request, response and error info in the console, you get this for free. Just choose one of the available log levels:
none
- logging is disabled, so your console is not littered with networking stuff.error
- prints only errors that occur during the request execution.info
- prints incoming request method + url, response status code and errors.verbose
- prints incoming request headers and parameters in addition to everything printed in theinfo
level.
Optionally you can set your own loggers and adjust the logging to your needs:
// Custom logger that conforms to `ErrorLogging` protocol
Malibu.logger.errorLogger = CustomErrorLogger.self
// Custom logger that conforms to `RequestLogging` protocol
Malibu.logger.requestLogger = RequestLogger.self
// Custom logger that conforms to `ResponseLogging` protocol
Malibu.logger.responseLogger = ResponseLogger.self
Hyper Interaktiv AS, [email protected]
Malibu is available through CocoaPods. To install it, simply add the following line to your Podfile:
pod 'Malibu'
Malibu is also available through Carthage. To install just write into your Cartfile:
github "hyperoslo/Malibu"
Malibu can also be installed manually.
Just Download and drop /Sources
folder in your project.
Hyper Interaktiv AS, [email protected]
Credits go to Alamofire for inspiration and to When for promises.
We would love you to contribute to Malibu, check the CONTRIBUTING file for more info.
Malibu is available under the MIT license. See the LICENSE file for more info.