Fn is a lightweight Docker-based serverless functions platform you can run on your laptop, server, or cloud. In this introductory tutorial we'll walk through developing a function using the Ruby programming language (without installing any Ruby tools!) and deploying that function to a local Fn server. We'll also learn about the core Fn concepts like applications and invoke endpoints.
- Set aside about 15 minutes to complete this tutorial.
- Make sure Fn server is up and running by completing the Install and Start Fn Tutorial.
- Make sure you have set your Fn context registry value for local development. (for example, "fndemouser". See here.)
As you make your way through this tutorial, look out for this icon. Whenever you see it, it's time for you to perform an action.
Now that Fn server is up and running, let's start with a very simple "Hello World!" function written in Ruby. Don't worry, you don't need to know Ruby! as Fn provides the necessary Ruby compiler and tools as a Docker container. Let's walk through your first function to become familiar with the process and how Fn supports development.
In the terminal type the following.
fn init --runtime ruby rubyfn
The output will be
Creating function at: /rubyfn
Function boilerplate generated.
func.yaml created.
The fn init
command creates an simple function with a bit of boilerplate to
get you started. The --runtime
option is used to indicate that the function
we're going to develop is written in Ruby. A number of other runtimes are
also supported. Fn creates the simple function along with several supporting
files in the /rubyfn
directory.
With your function created change into the /rubyfn
directory.
cd rubyfn
Now get a list of the directory contents.
ls
Gemfile func.rb func.yaml
The func.rb
file which contains your actual Ruby function is generated along
with several supporting files. To view your Ruby function type:
cat func.rb
require 'fdk'
def myfunction(context:, input:)
input_value = input.respond_to?(:fetch) ? input.fetch('name') : input
name = input_value.to_s.strip.empty? ? 'World' : input_value
{ message: "Hello #{name}!" }
end
FDK.handle(target: :myfunction)
This function looks for JSON input in the form of {"name": "Bob"}
If this JSON example is passed to the function, the function returns {"message":"Hello Bob!"}
.
If no JSON data is found, or the name
field is missing or empty,
the function returns {"message":"Hello World!"}
.
The fn init
command generated a func.yaml
function
configuration file. Let's look at the contents:
cat func.yaml
schema_version: 20180708
name: rubyfn
version: 0.0.1
runtime: ruby
entrypoint: ruby func.rb
The generated func.yaml
file contains metadata about your function and
declares a number of properties including:
- schema_version--identifies the version of the schema for this function file. Essentially, it determines which fields are present in
func.yaml
. - name--the name of the function. Matches the directory name.
- version--automatically starting at 0.0.1.
- runtime--the name of the runtime/language which was set based on the value set
in
--runtime
. - entrypoint--the name of the executable to invoke when your function is called,
in this case
ruby func.rb
.
There are other user specifiable properties but these will suffice for this example. Note that the name of your function is taken from the containing folder name. We'll see this come into play later on.
The fn init
command generated one other file.
Gemfile
-- specifies all the dependencies for your Ruby function.
With the rubyfn
directory containing func.rb
and func.yaml
you've got
everything you need to deploy the function to Fn server. This server could be
running in the cloud, in your datacenter, or on your local machine like we're
doing here.
Make sure your context is set to default and you are using a demo user. Use the fn list context
command to check.
fn list contexts
CURRENT NAME PROVIDER API URL REGISTRY
* default default http://localhost:8080 fndemouser
If your context is not configured, please see the context installation instructions before proceeding. Your context determines where your function is deployed.
Next, functions are grouped together into an application. The application acts as the main organizing structure for multiple functions. To create an application type the following:
fn create app rubyapp
A confirmation is returned:
Successfully created app: rubyapp
Now rubyapp
is ready for functions to be deployed to it.
Deploying your function is how you publish your function and make it accessible
to other users and systems. To see the details of what is happening during a
function deploy, use the --verbose
switch. The first time you build a
function of a particular language it takes longer as Fn downloads the necessary
Docker images. The --verbose
option allows you to see this process.
In your terminal type the following:
fn --verbose deploy --app rubyapp --local
You should see output similar to:
Deploying rubyfn to app: rubyapp
Bumped to version 0.0.2
Building image fndemouser/rubyfn:0.0.2
FN_REGISTRY: fndemouser
Current Context: default
Sending build context to Docker daemon 5.12kB
Step 1/9 : FROM fnproject/ruby:dev as build-stage
dev: Pulling from fnproject/ruby
8e402f1a9c57: Pull complete
130243e17afe: Pull complete
6c9c3bad0e4b: Pull complete
975485ddf10f: Pull complete
ff91390ffeaa: Pull complete
e131fd4f74d4: Pull complete
Digest: sha256:5ac41003591b935641de791945fdbf15bcb926cecf6ecdb1daf2158b5de7e6d5
Status: Downloaded newer image for fnproject/ruby:dev
---> 37ecabff3a24
Step 2/9 : WORKDIR /function
---> Running in d950c6c534e2
Removing intermediate container d950c6c534e2
---> 823a90c41257
Step 3/9 : ADD Gemfile* /function/
---> 316c7eab8ab6
Step 4/9 : RUN bundle install
---> Running in 1cd8c41d3863
Don't run Bundler as root. Bundler can ask for sudo if it is needed, and
installing your bundle as root will break this application for all non-root
users on this machine.
Fetching gem metadata from https://rubygems.org/..
Resolving dependencies...
Using bundler 2.0.1
Fetching json 2.2.0
Installing json 2.2.0 with native extensions
Fetching webrick 1.4.2
Installing webrick 1.4.2
Fetching fdk 0.0.20
Installing fdk 0.0.20
Bundle complete! 1 Gemfile dependency, 4 gems now installed.
Use `bundle info [gemname]` to see where a bundled gem is installed.
Removing intermediate container 1cd8c41d3863
---> 9bf1d44c3c3f
Step 5/9 : FROM fnproject/ruby
latest: Pulling from fnproject/ruby
8e402f1a9c57: Already exists
130243e17afe: Already exists
6c9c3bad0e4b: Already exists
975485ddf10f: Already exists
Digest: sha256:46e981c2e093a87b98c05f21d4a7701d5c53f5e1aed1be64eea8ab0a935c9ddb
Status: Downloaded newer image for fnproject/ruby:latest
---> f5452b336752
Step 6/9 : WORKDIR /function
---> Running in f1a2c9206a03
Removing intermediate container f1a2c9206a03
---> 88a1389a388e
Step 7/9 : COPY --from=build-stage /usr/lib/ruby/gems/ /usr/lib/ruby/gems/
---> 0cdd932b123a
Step 8/9 : ADD . /function/
---> 51f09786d6b2
Step 9/9 : ENTRYPOINT ["ruby", "func.rb"]
---> Running in 19e5cf8f4523
Removing intermediate container 19e5cf8f4523
---> 43d04792b080
Successfully built 43d04792b080
Successfully tagged fndemouser/rubyfn:0.0.2
Updating function rubyfn using image fndemouser/rubyfn:0.0.2...
Successfully created function: rubyfn with fndemouser/rubyfn:0.0.2
All the steps to load the current language Docker image are displayed.
Specifying --app rubyapp
explicitly puts the function in the application rubyapp
.
Specifying --local
does the deployment to the local server but does
not push the function image to a Docker registry--which would be necessary if
we were deploying to a remote Fn server.
The output message
Updating function rubyfn using image fndemouser/rubyfn:0.0.2...
let's us know that the function packaged in the image
fndemouser/rubyfn:0.0.2
.
Note that the containing folder name rubyfn
was used as the name of the generated Docker container and used as the name of the function that container was bound to.
Normally you deploy an application without the --verbose
option. If you rerun the command a new image and version is created and loaded.
If you have used Docker before the output of fn --verbose deploy
should look
familiar--it looks like the output you see when running docker build
with a Dockerfile. Of course this is exactly what's happening! When
you deploy a function like this Fn is dynamically generating a Dockerfile
for your function, building a container, and then loading it for execution.
NOTE: Fn is actually using two images. The first contains the language interpreter and all the necessary build tools. The second image packages all dependencies and any necessary language runtime components. Using this strategy, the final function image size can be kept as small as possible. Smaller Docker images are naturally faster to push and pull from a repository which improves overall performance. For more details on this technique see Multi-Stage Docker Builds for Creating Tiny Go Images.
When using fn deploy --local
, Fn server builds and packages your function
into a container image which resides on your local machine.
As Fn is built on Docker you can use the docker
command to see the local
container image you just generated. You may have a number of Docker images so
use the following command to see only those created by fndemouser:
docker images | grep fndemouser
You should see something like:
fndemouser/rubyfn 0.0.2 d0d71f5a2a23 11 minutes ago 63.9MB
The Fn CLI provides a couple of commands to let us see what we've deployed.
fn list apps
returns a list of all of the defined applications.
fn list apps
Which, in our case, returns the name of the application we created when we
deployed our rubyfn
function:
NAME ID
rubyapp 01DKA1TFRQNG8G00GZJ000000K
The fn list functions <app-name>
command lists all the functions associated with and app.
fn list functions rubyapp
The returns all the functions associated with the nodeapp
.
NAME IMAGE ID
rubyfn fndemouser/rubyfn:0.0.2 01DKA1TFRQNG8G00GZJ000000K
There are two ways to call your deployed function.
The first is using the Fn CLI which makes invoking your function relatively easy. Type the following:
fn invoke rubyapp rubyfn
which results in:
{"message":"Hello World!"}
When you invoked rubyapp rubyfn
the Fn server looked up the rubyapp
application and then looked for the Docker container image bound to the
rubyfn
function and executed the code.
You can also pass data to the invoke command. For example:
echo -n '{"name":"Bob"}' | fn invoke rubyapp rubyfn --content-type application/json
{"message":"Hello Bob!"}
The JSON data was parsed and since name
was set to Bob
, that value is passed
in the output.
In addition to using the Fn invoke
command, we can call a function by using a
URL. To do this, we must get the function's invoke endpoint. Use the command
fn inspect function <appname> <function-name>
. To list the nodefn
function's
invoke endpoint we can type:
fn inspect function rubyapp rubyfn
{
"annotations": {
"fnproject.io/fn/invokeEndpoint": "http://localhost:8080/invoke/01DKA1TFRQNG8G00GZJ000000K"
},
"app_id": "01DKA1S0N3NG8G00GZJ000000J",
"created_at": "2019-08-27T17:26:22.231Z",
"id": "01DKA1TFRQNG8G00GZJ000000K",
"idle_timeout": 30,
"image": "fndemouser/rubyfn:0.0.2",
"memory": 128,
"name": "rubyfn",
"timeout": 30,
"updated_at": "2019-08-27T17:26:22.231Z"
}
The output confirms that rubyfn
functions invoke endpoint is:
http://localhost:8080/invoke/01DKA1TFRQNG8G00GZJ000000K
. We can use this URL
to call the function.
Once we have the invoke endpoint, the second method for invoking our function
can be used, HTTP. The Fn server exposes our deployed function at
http://localhost:8080/invoke/01DKA1TFRQNG8G00GZJ000000K
.
Use curl
to invoke the function:
curl -X "POST" -H "Content-Type: application/json" http://localhost:8080/invoke/01DKA1TFRQNG8G00GZJ000000K
The result is once again the same.
{"message":"Hello World!"}
We can again pass JSON data to our function and get the value of name passed to the function back.
curl -X "POST" -H "Content-Type: application/json" -d '{"name":"Bob"}' http://localhost:8080/invoke/01DKA1TFRQNG8G00GZJ000000K
The result is once again the same.
{"message":"Hello Bob!"}
Congratulations! In this tutorial you've accomplished a lot. You've created your first function, deployed it to your local Fn server and invoked it over HTTP.
Go: Back to Contents