Adapters 101

Sometimes people get confused as to what is the roles of adapters, how to use them, how to test them and how to configure them. Misunderstanging often comes from lack of examples so let’s see some of them.

Our example will be about sending apple push notifications (APNS). Let’s say in our system we are sending push notifications with text (alert) only (no sound, no badge, etc). Very simple and basic usecase. One more thing that we obviously need as well is device token. Let’s have a simple interface for sending push notifications.

def notify ( device_token , text ) end

That’s the interface that every one of our adapters will have to follow. So let’s write our first implementation using the apns gem.

module ApnsAdapters class Sync def notify ( device_token , text ) APNS . send_notification ( device_token , text ) end end end

Wow, that was simple, wasn’t it? Ok, what did we achieve?

We’ve protected ourselves from the dependency on apns gem. We are still using it but no part of our code is calling it directly. We are free to change it later (which we will do)

gem. We are still using it but (which we will do) We’ve isolated our interface from the implementation as Clean Code architecture teaches us. Of course in Ruby we don’t have interfaces so it is kind-of virtual but we can make it a bit more explicit, which I will show you how, later.

as architecture teaches us. Of course in Ruby we don’t have interfaces so it is kind-of virtual but we can make it a bit more explicit, which I will show you how, later. We designed API that we like and which is suitable for our app. Gems and 3rd party services often offer your a lot of features which you might not be even using. So here we explicitly state that we only use device_token and text . If it ever comes to dropping the old library or migrating to new solution, you are coverd. It’s simpler process when the cooperation can be easily seen in one place (adapter). Evaluating and estimating such task is faster when you know exactly what features you are using and what not.

Adapters in real life

As you can imagine looking at the images, the situation is always the same. We’ve got to parts with incompatible interfaces and adapter mediating between them.

Adapters and architecture

Part of your app (probably a service) that we call client is relying on some kind of interface for its proper behavior. Of course ruby does not have explicit interfaces so what I mean is a compatibility in a duck-typing way. Implicit interface defined by how we call our methods (what parameters they take and what they return). There is a component, an already existing one (adaptee) that can do the job our client wants but does not expose the interface that we would like to use. The mediator between these two is our adapter.

The interface can be fulfilled by possibily many adapters. They might be wrapping another API or gem which we don’t want our app to interact directly with.

Multiple Adapters

Let’s move further with our task.

We don’t wanna be sending any push notifications from our development environment and from our test environment. What are our options? I don’t like putting code such as if Rails.env.test? || Rails.env.production? into my codebase. It makes testing as well as playing with the application in development mode harder. For such usecases new adapter is handy.

module ApnsAdapters class Fake attr_reader :delivered def initialize clear end def notify ( device_token , text ) @delivered << [ device_token , text ] end def clear @delivered = [] end end end

Now whenever your service objects are taking apns_adapter as dependency you can use this one instead of the real one.

describe LikingService do subject ( :liking ) { described_class . new ( apns_adapter ) } let ( :apns_adapter ) { ApnsAdapters :: Fake . new } before { apns_adapter . clear } specify "delivers push notifications to friends" do liking . painting_liked_by ( user_id , painting_id ) expect ( apns_adapter . delivered ). to include ( [ user_device_token , "Your friend 'Robert' liked 'The Kiss' " ] ) end end

I like this more then using doubles and expectations because of its simplicity. But using mocking techniques here would be apropriate as well. In that case however I would recommend using Verifying doubles from Rspec or to go with bogus. I recommend watching great video about possible problems that mocks and doubles introduce from the author of bogus and solutions for them. Integration tests are bogus.

Injecting and configuring adapters

Ok, so we have two adapters, how do we provide them to those who need these adapters to work? Well, I’m gonna show you an example and not talk much about it because it’s going to be a topic of another blogpos.

module LikingServiceInjector def liking_service @liking_service ||= LikingService . new ( Rails . config . apns_adapter ) end end class YourController include LikingServiceInjector end #config/environments/development.rb config . apns_adapter = ApnsAdapter :: Fake . new #config/environments/test.rb config . apns_adapter = ApnsAdapter :: Fake . new

One more implementation

Sending push notification takes some time (just like sending email or communicating with any remote service) so quickly we decided to do it asynchronously.

module ApnsAdapters class Async def notify ( device_token , text ) Resque . enqueue ( ApnsJob , device_token , text ) end end end

And the ApnsJob is going to use our sync adapter.

class ApnsJob def self . perform ( device_token , text ) new ( device_token , text ). call rescue => exc HoneyBadger . notify ( exc ) raise end def initialize ( device_token , text ) @device_token = device_token @text = text end def call ApnsAdapter :: Sync . new . notify ( @device_token , @text ) end end

Did you notice that HoneyBadger is not hidden behind adapter? Bad code, bad code… ;)

What do we have now?

The result

We separated our interface from the implementations. Of course our interface is not defined (again, Ruby) but we can describe it later using tests. App with the interface it dependend is one component. Every implementation can be a separate component.

Our goal here was to get closer to Clean Architecture . Use Cases (Interactors, Service Objects) are no longer bothered with implementation details. Instead they relay on the interface and accept any implementation that is consistent with it.

The part of application which responsibility is to put everything in motion is called Main by Uncle Bob. We put all the puzzles together by using Injectors and Rails configuration. They define how to construct the working objects.

Changing underlying gem

In reality I no longer use apns gem because of its global configuration. I prefer grocer because I can more easily and safely use it to send push notifications to 2 separate mobile apps or even same iOS app but built with either production or development APNS certificate.

So let’s say that our project evolved and now we need to be able to send push notifications to 2 separate mobile apps. First we can refactor the interface of our adapter to:

def notify ( device_token , text , app_name ) end

Then we can change the implementation of our Sync adapter to use grocer gem instead (we need some tweeks to the other implementations as well). In simplest version it can be:

module ApnsAdapters class Sync def notify ( device_token , text , app_name ) notification = Grocer :: Notification . new ( device_token: device_token , alert: text , ) grocer ( app_name ). push ( notification ) end private def grocer ( app_name ) @grocer ||= {} @grocer [ app_name ] ||= begin config = APNS_CONFIG [ app_name ] Grocer . pusher ( certificate: config . fetch ( 'pem' ]), passphrase: config . fetch ( 'password' ]), gateway: config . fetch ( 'gateway_host' ), port: config . fetch ( 'gateway_port' ), retries: 2 ) end end end end

However every new grocer instance is using new conncetion to Apple push notifications service. But, the recommended way is to reuse the connection. This can be especially usefull if you are using sidekiq. In such case every thread can have its own connection to apple for every app that you need to support. This makes sending the notifications very fast.

require 'singleton' class GrocerFactory include Singleton def pusher_for ( app ) Thread . current [ :pushers ] ||= {} pusher = Thread . current [ :pushers ][ app ] ||= create_pusher ( app ) yield pusher rescue Thread . current [ :pushers ][ app ] = nil raise end private def create_pusher ( app_name ) config = APNS_CONFIG [ app_name ] pusher = Grocer . pusher ( certificate: config . fetch ( 'pem' ]), passphrase: config . fetch ( 'password' ]), gateway: config . fetch ( 'gateway_host' ), port: config . fetch ( 'gateway_port' ), retries: 2 ) end end

In this implementation we kill the grocer instance when exception happens (might happen because of problems with delivery, connection that was unused for a long time, etc). We also reraise the exception so that higher layer (probably sidekiq or resque) know that the task failed (and can schedule it again).

And our adapter:

module ApnsAdapters class Sync def notify ( device_token , text , app_name ) notification = Grocer :: Notification . new ( device_token: device_token , alert: text , ) GrocerFactory . instance . pusher_for ( app_name ) do | pusher | pusher . push ( notification ) end end end end

The process of sharing instances of grocer between threads could be probably simplified with some kind of threadpool library.

Adapters configuration

I already showed you one way of configuring the adapter by using Rails.config .

YourApp :: Application . configure do config . apns_adapter = ApnsAdapters :: Async . new end

The downside of that is that the instance of adapter is global. Which means you might need to take care of it being thread-safe (if you use threads). And you must take great care of its state. So calling it multiple times between requests is ok. The alternative is to use proc as factory for creating instances of your adapter.

YourApp :: Application . configure do config . apns_adapter = proc { ApnsAdapters :: Async . new } end

If your adapter itself needs some dependencies consider using factories or injectors for fully building it. From my experience adapters usually can be constructed quite simply. And they are building blocks for other, more complicated structures like service objects.

Testing adapters

I like to verify the interface of my adapters using shared examples in rspec.

shared_examples_for :apns_adapter do specify "#notify" do expect ( adapter . method ( :notify ). arity ). to eq ( 2 ) end # another way without even constructing instance specify "#notify" do expect ( described_class . instance_method ( :notify ). arity ). to eq ( 2 ) end end

Of course this will only give you very basic protection.

describe ApnsAdapter :: Sync do it_behaves_like :apns_adapter end describe ApnsAdapter :: Async do it_behaves_like :apns_adapter end describe ApnsAdapter :: Fake do it_behaves_like :apns_adapter end

Another way of testing is to consider one implementation as leading and correct (in terms of interface, not in terms of behavior) and another implementation as something that must stay identical.

describe ApnsAdapters :: Async do subject ( :async_adapter ) { described_class . new } specify "can easily substitute" do example = ApnsAdapters :: Sync example . public_instance_methods . each do | method_name | method = example . instance_method ( method_name ) copy = subject . public_method ( method_name ) expect ( copy ). to be_present expect ([ - 1 , method . arity ]). to include ( copy . arity ) end end end

This gives you some very basic protection as well.

For the rest of the test you must write something specific to the adapter implementation. Adapters doing http request can either stub http communication with webmock or vcr. Alternatively, you can just use mocks and expectations to check, whether the gem that you use for communication is being use correctly. However, if the logic is not complicated the test are quickly becoming typo test, so they might even not be worth writing.

Test specific for one adapter:

describe ApnsAdapter :: Async do it_behaves_like :apns_adapter specify "schedules" do described_class . new . notify ( "device" , "about something" ) ApnsJob . should have_queued ( "device" , "about something" ) end specify "job forwards to sync" do expect ( ApnsAdapters :: Sync ). to receive ( :new ). and_return ( apns = double ( :apns )) expect ( apns ). to receive ( :notify ). with ( "device" , "about something" ) ApnsJob . perform ( "device" , "about something" ) end end

In many cases I don’t think you should test Fake adapter because this is what we use for testing. And testing the code intended for testing might be too much.

Dealing with exceptions

Because we don’t want our app to be bothered with adapter implementation (our clients don’t care about anything except for the interface) our adapters need to throw the same exceptions. Because what exceptions are raised is part of the interface. This example does not suite us well to discuss it here because we use our adapters in fire and forget mode. So we will have to switch for a moment to something else.

Imagine that we are using some kind of geolocation service which based on user provided address (not a specific format, just String from one text input) can tell us the longitude and latitude coordinates of the location. We are in the middle of switching to another provided which seems to provide better data for the places that our customers talk about. Or is simply cheaper. So we have two adapters. Both of them communicate via HTTP with APIs exposed by our providers. But both of them use separate gems for that. As you can easily imagine when anything goes wrong, gems are throwing their own custom exceptions. We need to catch them and throw exceptions which our clients/services except to catch.

require 'hypothetical_gooogle_geolocation_gem' require 'new_cheaper_more_accurate_provider_gem' module GeolocationAdapters ProblemOccured = Class . new ( StandardError ) class Google def geocode ( address_line ) HypotheticalGoogleGeolocationGem . new . find_by_address ( address_line ) rescue HypotheticalGoogleGeolocationGem :: QuotaExceeded raise ProblemOccured end end class NewCheaperMoreAccurateProvider def geocode ( address_line ) NewCheaperMoreAccurateProviderGem . geocoding ( address_line ) rescue NewCheaperMoreAccurateProviderGem :: ServiceUnavailable raise ProblemOccured end end end

This is something people often overlook which in many cases leads to leaky abstraction. Your services should only be concerned with exceptions defined by the interface.

class UpdatePartyLocationService def call ( party_id , address ) party = party_db . find_by_id ( party_id ) party . coordinates = geolocation_adapter . geocode ( address ) db . save ( party ) rescue GeolocationAdapters :: ProblemOccured scheduler . schedule ( UpdatePartyLocationService , :call , party_id , address , 5 . minutes . from_now ) end end

Although some developers experiment with exposing exceptions that should be caught as part of the interface (via methods), I don’t like this approach:

require 'hypothetical_gooogle_geolocation_gem' require 'new_cheaper_more_accurate_provider_gem' module GeolocationAdapters ProblemOccured = Class . new ( StandardError ) class Google def geocode ( address_line ) HypotheticalGoogleGeolocationGem . new . find_by_address ( address_line ) end def problem_occured HypotheticalGoogleGeolocationGem :: QuotaExceeded end end class NewCheaperMoreAccurateProvider def geocode ( address_line ) NewCheaperMoreAccurateProviderGem . geocoding ( address_line ) end def problem_occured NewCheaperMoreAccurateProviderGem :: ServiceUnavailable end end end

And the service

class UpdatePartyLocationService def call ( party_id , address ) party = party_db . find_by_id ( party_id ) party . coordinates = geolocation_adapter . geocode ( address ) db . save ( party ) rescue geolocation_adapter . problem_occured scheduler . schedule ( UpdatePartyLocationService , :call , party_id , address , 5 . minutes . from_now ) end end

But as I said I don’t like this approach. The problem is that if you want to communicate something domain specific via the exception you can’t relay on 3rd party exceptions. If it was adapter responsibility to provide in exception information whether service should retry later or give up, then you need custom exception to communicate it.

Adapters ain’t easy

There are few problems with adapters. Their interface tends to be lowest common denominator between features supported by implementations. That was the reason which sparkled big discussion about queue interface for Rails which at that time was removed from it. If one technology limits you so you schedule background job only with JSON compatibile attributes you are limited to just that. If another technology let’s you use Hashes with every Ruby primitive and yet another would even allow you to pass whatever ruby object you wish then the interface is still whatever JSON allows you to do. No only you won’t be able to easily pass instance of your custom class as paramter for scheduled job. You won’t even be able to use Date class because there is no such type in JSON. Lowest Common Denominator…

You won’t easily extract Async adapter if you care about the result. I think that’s obvious. You can’t easily substitute adapter which can return result with such that cannot. Async is architectural decision here. And rest of the code must be written in a way that reflects it. Thus expecting to get the result somehow later.

Getting the right level of abstraction for adapter might not be easy. When you cover api or a gem, it’s not that hard. But once you start doing things like NotificationAdapter which will let you send notification to user without bothering the client whether it is a push for iOS, Android, Email or SMS, you might find yourself in trouble. The closer the adapter is to the domain of adaptee, the easier it is to write it. The closer it is to the domain of the client, of your app, the harder it is, the more it will know about your usecases. And the more complicated and unique for the app, such adapter will be. You will often stop for a moment to reflect whether given functionality is the responsibility of the client, adapter or maybe yet another object.

Summary

Adapters are puzzles that we put between our domain and existing solutions such as gems, libraries, APIs. Use them wisely to decouple core of your app from 3rd party code for whatever reason you have. Speed, Readability, Testability, Isolation, Interchangeability.

Images with CC license