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Getting Started With Vapor: A Swift Web Framework

Getting Started with Vapor

Web frameworks for Swift started popping up almost as soon as Swift went open source at the end of 2015. Vapor quickly became one of the most used libraries for Swift on the web. In this quick tutorial you’ll learn the basics of using Vapor to build web applications using Swift.

What You’ll Need

Before we take a look at how Vapor works we need to get a few tools.

The first thing we need is Swift 3 with Swift Package Manager. Follow this guide to get Swift running on your system. If you’re on Linux you may find this guide easier to digest than Apple’s site.

You can verify that you have Swift 3.0 or greater by running this command:

swift --version

We also need Vapor. Vapor comes with a command-line interface that simplifies many of the tasks associated with building, running and deploying Swift web apps. Install Vapor by running the following in the terminal:

curl -sL | bash

Verify it is working by running:

vapor --help

Is This Thing On?

Let’s turn on the fog machine and make sure Vapor works on our machine. We’ll also browse around the sample project it generates. Create a Vapor project by using Vapor CLI’s vapor new command:

vapor new VaporSample

Make sure everything is working correctly by building and running the sample project:

cd Vapor Sample
vapor build
vapor run serve

Visit http://localhost:8080 and you should see that “it works”:

Now that we know everything is working, let’s dig into how it what makes Vapor tick.

How Did It Do That?

A web app in Vapor is called a Droplet. Open VaporSample/Sources/App/main.swift to see where our Droplet is defined. It should look like this:

import Vapor

let drop = Droplet()

drop.get { req in
    return try drop.view.make("welcome", [
            "message": drop.localization[req.lang, "welcome", "title"]

drop.resource("posts", PostController())

Vapor uses the Droplet to create routes using Vapor’s Router. For example, a GET request to /hello would look like this:

drop.get("hello") { request in
  return "Hello, world!"

In main.swift, the default route on lines 5-9 makes use of the welcome.leaf view that is located at VaporSample/Resources/Views/welcome.leaf Since it doesn’t contain a route name it operates at the base URL. This route uses a templating language built into Vapor called Leaf. We will use Leaf when we build our first sample.

Line 11 defines a RESTful resource named posts to represent blog posts. It creates several routes in VaporSample/Sources/App/Controllers/PostController.swift.This sample uses features that are outside the scope of this post but you can read this for more information on Vapor Controllers.

The at line 13 starts the server.

Now that we know the basics of how Vapor works, we can use the router and the Leaf templating language to render a Hello World example that greets the visitor by name.

Hello Vapor

The first thing we need to do is define a route for a GET request to /hello. We’ll also remove the existing examples so that they don’t distract us as we learn. Replace the contents of main.swift with the following code:

import Vapor

let drop = Droplet()

drop.get("hello") { request in


We want to greet the visitor by their name so we’ll have them pass it in as a parameter, e.g. http://localhost:8080/hello?name=Brent. Let’s update the hello route to access the name query parameter passed into the request:

drop.get("hello") { request in
  let name =["name"]?.string ?? "stranger"

In the highlighted line, we check if there’s a name value in the dictionary provided by Vapor’s Request object. If there is, we store a string representation of it in a local name constant. If not, we store “stranger” as their name.

Next we’ll use a Vapor View to render an

tag that says hello to our visitor. Start by creating a hello.leaf file in VaporSample/Resources/Views:

touch Resources/Views/hello.leaf

We’ll set up our hello.leaf markup to extend the base.leaf layout provided in the sample. It has head and body placeholder regions defined using #import that we can put our view content into. Here’s what base.leaf should look like:

<!DOCTYPE html>

Add the following code to hello.leaf:


#export("head") {
  <title>Hello from VaporSample</title>

#export("body") {
  <h1>Hello #(name)!</h1>

On line 1 we state that we’re using the base.leaf layout. We then use #export to declare markup to be placed into the #import placeholders in the base layout. Line 8 uses a name property that we’ll pass into the view from our route.

Head back to main.swift and add the highlighted code to the hello route to create and return the hello view:

drop.get("hello") { request in
  let name =["name"]?.string ?? "stranger"

  return try drop.view.make("hello", [
    "name": name

We use drop.view.make to create a view named hello that passes in a name parameter to be used by the view. That’s everything we need to render this web page passing in a name so let’s test it.

Head back to the terminal and build the app using Vapor CLI:

vapor build

Once successful, use the Vapor CLI to fire up the Vapor server:

vapor run serve

Head to http://localhost:8080/hello?name=Brent to see the greeting from Vapor.

Now try it with your own name.

Using JSON in Vapor

What if you wanted to build an API for your mobile app using Vapor? Chances are you’ll want to work with JSON. Thankfully JSON support is built-in. Make a route for a POST request to /person that takes a x-www-form-urlencoded body containing name and city values. We’re going to need to work with Vapor’s HTTP module so add the following import statement to the top of main.swift:

import HTTP

Add the highlighted code directly after the closing brace of the hello route in main.swift:

drop.get("hello") { request in
  // contents omitted for brevity
}"person") { request in


The first thing we need to do is make sure that both name and city are passed in since they’re required for our route. Use Swift’s guard statement to abort and return a Bad Request if we’re missing either of these parameters while also conveniently setting them to local constants:"person") { request in
  guard let name =["name"]?.string,
        let city =["city"]?.string else {
    throw Abort.badRequest


Note we use the same dictionary we used for query parameters to access x-www-urlencoded values.

Now that we have the request values let’s generate a response. Since we want to simulate creating a person in our backend we’ll need to send a 201 Created status code in our response. We’ll also send back a JSON version of the created object. Add the highlighted code to generate the response:"person") { request in
  guard let name =["name"]?.string,
        let city =["city"]?.string else {
    throw Abort.badRequest

  return try Response(status: .created, json: JSON(node: [
    "name": name,
    "city": city

Build and run the application:

vapor build
vapor run serve

Send a POST request using cURL or Postman containing name and city and you should get back JSON with a 201 response:

Here’s the cURL request if you prefer the terminal:

curl -v --data "name=Brent&city=Philadelphia" http://localhost:8080/person

You should see this at the end of the response:

< HTTP/1.1 201 Created
< Content-Type: application/json; charset=utf-8
< Date: Mon, 31 Oct 2016 14:23:00 GMT
< Content-Length: 38
* Connection #0 to host localhost left intact

It’s super simple to work with JSON in Vapor. What’s really clever is that the JSON data passed into a route is accessible the same way as query parameters and x-www-urlencoded body values. For more information on this, check out Vapor’s docs.

If you want to learn about deploying your app to Heroku follow this tutorial.

If you’re more of a visual learner, here’s a video tutorial that covers most of what’s covered in this blog post:

That’s a Wrap

Being able to use Swift on the web is super exciting. Vapor’s built-in JSON support, ease of use and painless deployment make it an excellent candidate for building APIs and web applications using Swift. Here are some things to try next:

I’m excited to see what you build with Swift on the web. You can find me on Twitter @brentschooley or send me an email at


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