๐Ÿ” Secure Property Storage

Helps you define secure storages for your properties using Swift property wrappers.

Twitter Swift License Swift Package Manager Carthage Bitrise Maintainability Test Coverage codecov codebeat badge Quality Documentation

๐ŸŒŸ Features

All keys are hashed using SHA512 and all values are encrypted using AES-GCM to keep user information safe, auto*magic*ally. Symmetric key is stored in Keychain in a totally secure way.

๐Ÿ’ Basic usage

@UserDefault

This property wrapper will store your property in UserDefaults using StoreKey (any String but i recommend you a String typed enum). Optionally, you can assign a default value to the property that will be secure stored at initialization.

@UserDefault(<#StoreKey#>)
var yourProperty: YourType? = yourDefaultValueIfNeeded

UserDefaultsStorage is also available, a subclass of UserDefaults with all the security provided by this library, where you can customize suite name.

@Keychain

This property wrapper will store your property in Keychain using StoreKey.

@Keychain(<#StoreKey#>)
var yourProperty: YourType? = yourDefaultValueIfNeeded

As UserDefaultsStorage, KeychainStorage is also available, where you can customize access, group and synchronize it with iCloud.

@Singleton

This property wrapper will store your property in a memory singleton, every property with the same wrapper and key can access or modify the value from wherever it is.

@Singleton(<#StoreKey#>)
var yourProperty: YourType? = yourDefaultValueIfNeeded

As KeychainStorage, SingletonStorage is also available.

@Inject

This property wrapper is similar to @Singleton but, together with @Register, will inject your dependencies. More details in Dependency Injection usage guide.

@Inject
var yourDependency: YourProtocol?

As SingletonStorage, InjectStorage is also available.

@Store

This is a custom wrapper, you can define your own Storage protocol implementation.

@Store(<#YourStorage#>, <#StoreKey#>)
var yourProperty: YourType? = yourDefaultValueIfNeeded

As InjectStorage, DelegatedStorage is also available with all the magic of this library.

๐Ÿง™โ€โ™‚๏ธ Codable usage

If your property conforms Codable protocol, just add Codable keyword as prefix of your property wrapper.

  • @CodableUserDefault
  • @CodableKeychain
  • @CodableSingleton
  • @CodableStore

๐Ÿฅก Unwrapped usage

To avoid continually unwrapping your property, just add Unwrapped keyword as prefix of your property wrapper, assign a default value (mandatory except for @UnwrappedInject), and it will return stored value or default value, but your property will always be there for you.

  • @UnwrappedUserDefault
  • @UnwrappedKeychain
  • @UnwrappedSingleton
  • @UnwrappedInject
  • @UnwrappedStore

๐Ÿฅก + ๐Ÿง™โ€โ™‚๏ธ Combo usage

You can also combine previous cases in case you need it, unwrapped first please.

  • @UnwrappedCodableUserDefault
  • @UnwrappedCodableKeychain
  • @UnwrappedCodableSingleton
  • @UnwrappedCodableStore

๐Ÿ’‰ Dependency Injection usage

@Register (click to expand) This property wrapper will register the implementations of your dependencies. Register them wherever you want before inject it, but be sure to do it only once (except if you use qualifiers), for example, in an `Injector` class. You can register through a protocol or directly using your class implementation. “`swift @Register var yourDependency: YourProtocol = YourImplementation() @Register var yourDependency = YourImplementation() ”` You can also define a closure that builds your dependency. Just remember cast your dependency if you are going to inject it through a protocol. “`swift @Register var yourDependency = { YourImplementation() as YourProtocol } @Register var yourDependency = { YourImplementation() } ”` You can also register your dependencies only after the moment someone tries to inject them and you haven’t registered them yet, for this you can use the error closure. “`swift InjectStorage.standard.errorClosure = { error in if case InjectError.notFound = error { YourImplementation.register() } } ”` You can get this syntactic sugar because you can now use property wrappers in function parameters. “`swift static func register(@Register yourDependency: YourProtocol = YourImplementation()) {} ”`
@Inject and @UnwrappedInject (click to expand) These property wrappers injects your dependencies `@Register` implementations. “`swift @Inject var yourDependency: YourProtocol? @Inject var yourDependency: YourImplementation? @UnwrappedInject var yourUnwrappedDependency: YourProtocol @UnwrappedInject var yourUnwrappedDependency: YourImplementation ”` #### Scope Because these property wrappers works similarly to `@Singleton`, the default scope is `.singleton`, but if you use builder closures on `@Register`, you can modify them to inject a single instance. “`swift @Inject(.instance) var yourDependency: YourProtocol? @UnwrappedInject(.instance) var yourUnwrappedDependency: YourProtocol ”`
@InjectWith and @UnwrappedInjectWith (click to expand) Your dependency may need parameters when injecting, you can pass them with these property wrappers. Simply define a model with your dependency parameters and pass it. It will inject a new instance built with these parameters. “`swift @Register var yourDependency = { parameters in YourImplementation(parameters) as YourProtocol } @Inject(YourParameters()) var yourDependency: YourProtocol? @UnwrappedInject(YourParameters()) var yourUnwrappedDependency: YourProtocol ”`
Qualifiers (click to expand) You can use [qualifiers](https://javaee.github.io/tutorial/cdi-basic006.html) to provide various implementations of a particular dependency. A qualifier is just a `@objc protocol` that you apply to a `class`. For example, you could declare `Dog` and `Cat` qualifier protocols and apply it to another class that conforms `Animal` protocol. To declare this qualifier, use the following code: “`swift protocol Animal { func sound() } @objc protocol Dog {} @objc protocol Cat {} ”` You can then define multiple classes that conforms `Animal` protocol and uses this qualifiers: “`swift class DogImplementation: Animal, Dog { func sound() { print("Woof!”) } } class CatImplementation: Animal, Cat { func sound() { print(“Meow!”) } } “` Both implementations of the class can now be `@Register`: ”`swift @Register var registerDog: Animal = DogImplementation() @Register var registerCat: Animal = CatImplementation() “` To inject one or the other implementation, simply add the qualifier(s) to your `@Inject`: ”`swift @UnwrappedInject(Dog.self) var dog: Animal @UnwrappedInject(Cat.self) var cat: Animal dog.sound() // prints Woof! cat.sound() // prints Meow! “`
Testing (click to expand) One of the advantages of dependency injection is that the code can be easily testable with mock implementation. That is why there is a `Mock` qualifier that has priority over all, so you can have your dependencies defined in the app and create your mock in the test target simply by adding this qualifier. ”`swift // App target class YourImplementation: YourProtocol {} @Register var yourDependency: YourProtocol = YourImplementation() @Inject var yourDependency: YourProtocol? “` ”`swift // Test target class YourMock: YourProtocol, Mock {} @Register var yourDependency: YourProtocol = YourMock() “`
Groups (click to expand) When you have **a lot** of dependencies in your app, you may want to optimize dependency resolution. You can group them using `@Register(group:)` and a `DependencyGroupKey`: ”`swift @Register(group: <#DependencyGroupKey#>) var yourDependency: YourProtocol = YourImplementation() “` `@Inject(group:)` will look for those dependencies only in that group: ”`swift @Inject(group: <#DependencyGroupKey#>) var yourDependency: YourProtocol? “`

๐Ÿ‘€ Examples

Talk is cheap. Show me the code.

    // Securely stored in UserDefaults.
    @UserDefault("username")
    var username: String?

    // Securely stored in Keychain.
    @Keychain("password")
    var password: String?

    // Securely stored in a Singleton storage.
    @Singleton("sessionToken")
    var sessionToken: String?

    // Securely stored in a Singleton storage.
    // Always has a value, the stored or the default.
    @UnwrappedSingleton("refreshToken")
    var refreshToken: String = "B0610306-A33F"

    struct User: Codable {
        let username: String
        let password: String?
        let sessionToken: String?
    }

    // Codable model securely stored in UserDefaults.
    @CodableUserDefault("user")
    var user: User?

๐Ÿ›  Compatibility

  • macOS 11.5+
  • iOS 13.0+
  • iPadOS 13.0+
  • tvOS 13.0+
  • watchOS 6.0+
  • visionOS 1.0+

โš™๏ธ Installation

You can use the Swift Package Manager by declaring SecurePropertyStorage as a dependency in your Package.swift file:

.package(url: "https://github.com/alexruperez/SecurePropertyStorage", from: "0.7.1")

By default, all property wrappers are installed and you can import them, but if you want, you can install only some of them:

  • UserDefault: @*UserDefault property wrappers.
  • Keychain: @*Keychain property wrappers.
  • Singleton: @*Singleton property wrappers.
  • Storage: @*Store property wrappers.
  • Inject: @*Inject property wrappers.

For more information, see the Swift Package Manager documentation.

Or you can use Carthage:

github "alexruperez/SecurePropertyStorage"

๐Ÿป Etc.

  • Featured in Dave Verwer’s iOS Dev Weekly - Issue 450, thanks Dave!
  • Contributions are very welcome. Thanks Alberto Garcia, Manu and Chen!
  • Attribution is appreciated (let’s spread the word!), but not mandatory.

๐Ÿ‘จโ€๐Ÿ’ป Author

Alex Rupรฉrez โ€“ @alexruperez โ€“ me@alexruperez.com

๐Ÿ‘ฎโ€โ™‚๏ธ License

SecurePropertyStorage is available under the MIT license. See the LICENSE file for more info.