Serverless Slack bot on Lambda with Ruby (and what’s the less pleasant part about it)
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Serverless Slack bot on Lambda with Ruby (and what’s the less pleasant part about it)
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Pandas and sales
SlackProxy, which is the name of our application, notifies us whenever we make a sale from our e-commerce solution, that is DPD. This is an extremely rewarding experience when launching a new product but also a reminder to keep up improving existing ones.
Initially SlackProxy was a Rails application deployed on our internal infrastructure, then moved to Heroku. Technically it is nothing more than a proxy that transforms incoming webhooks from DPD into formatted messages posted on dedicated Slack channel.
See yourself, this one of the controllers:
module SlackProxy
class SaleController < ApplicationController
def create
notifier = SaleNotifier.new
items = [params.fetch(:item_name1), params[:item_name2], params[:item_name3], params[:item_name4]].compact
notifier.call(params.fetch(:mc_gross), params.fetch(:coupon_code), params.fetch(:payer_email), params.fetch(:first_name), params.fetch(:last_name), items)
render nothing: true
end
end
end
Nothing much interesting in the controller. The notification part is in the SaleNotifier which does the formatting and posting with help of a library to chat with Slack API.
module SlackProxy
class SaleNotifier
def call(money, code, email, name, surname, items)
notifier = Slack::Notifier.new(
db.fetch("webhook_url"),
{
username: db.fetch("username"),
icon_emoji: ":panda_face:",
attachments: [{
fallback: "+#{money}$",
text: "+#{money}$",
color: 'good'
}]
}
)
if code.present?
main_message = "#{name} #{surname} (#{email}) bought #{items.join(", ")} with the following code: #{code}"
else
main_message = "#{name} #{surname} (#{email}) bought #{items.join(", ")}"
end
notifier.ping(main_message)
end
private
def db
Rails.application.secrets.fetch(:sale_slack_data)
end
end
end
Enter serverless
When AWS announced Lambda support for Ruby I was really excited about the possibilities it opens. Not that those possibilities were unreachable before — with Ruby it is just more fun. I knew what would be the first thing we happily move there and we already had most of the code 😅
In fact the way traffic shapes for SlackProxy is an ideal candidate for a Lambda deployment — huge spikes for several launch days and more peaceful pings on other days. Nothing latency–critical as well.
Lambda functions may be triggered by several AWS events. Be it a repository event from CodeCommit, an upload to S3 or and update from SQS. For us, web developers, a request coming to an API Gateway sounds most familiar. It is a good entry point to explore Lambda.
I figured that an “API Gateway to Rack” adapter would be a natural glue for any Ruby web application and was relieved to find it contributed by AWS. After all, Rails application is just a an elaborate mechanisms to turn env into [status, headers, body].
Some resistance against Lambda has formed around the opinion that “you cannot run this in development”. I find it hard to defend when the boundary of you application ends on Rack. We already manage that well with existing tooling. And in production you may need different set of checks anyway.
Serverless Panda
Without any further ado here’s a rewrite of a notifier in form of a simplest Rack application:
require 'slack-notifier'
module SlackProxy
class SaleNotifier
def initialize(slack_webhook_url, slack_username)
@slack_webhook_url = slack_webhook_url
@slack_username = slack_username
end
def call(env)
params = Rack::Request.new(env).params
money = params.fetch('mc_gross')
code = params.fetch('coupon_code')
email = params.fetch('payer_email')
given_name = params.fetch_values('first_name', 'last_name').join(' ')
items = params.values_at('item_name1', 'item_name2', 'item_name3', 'item_name4').compact
send_message(money, given_name, email, items, code)
render_nothing
end
private
attr_reader :slack_webhook_url, :slack_username
def render_nothing
Rack::Response.new
end
def send_message(money, given_name, email, items, code)
notifier = Slack::Notifier.new(slack_webhook_url, {
username: slack_username,
icon_emoji: ":panda_face:",
attachments: [{
fallback: "+#{money}$",
text: "+#{money}$",
color: 'good'
}]
})
main_message = "#{given_name} (#{email}) bought #{items.join(", ")}"
main_message << " with the following code: #{code}" unless code.empty?
notifier.ping(main_message)
end
end
end
This comes with a handy config.ru that rack-lambda handler expects:
$LOAD_PATH << File.join(__dir__, 'lib')
require 'slack_proxy'
use Rack::CommonLogger
run SlackProxy::SaleNotifier.new(ENV['SLACK_WEBHOOK_URL'], ENV['SLACK_USERNAME'])
That makes it trivial to run such app in development with rackup. You can find full source code with unit and mutation tests at slack_proxy.
The deployment and less pleasant part
So far it did not mention how we get this code deployed. There are several options possible:
- copy and paste in web editor
- package and deliver via S3 with help of (SAM CLI)[https://docs.aws.amazon.com/serverless-application-model/latest/developerguide/serverless-deploying.html#serverless-deploying-automated]
- on git push via CodePipeline
First option is fine for exploring the environment. It gets you up to speed without bothering much. In the long run, being accustomed to Continuous Delivery I’d favor CodePipeline. I did not figure it out just yet. At the moment we rely on SAM CLI, as described in Ruby announcement post.
The biggest obstacle for me so far was getting familiar with AWS services involved (IAM, API Gateway, Certificate Manager) and making sense out of the documentation. That is not something Lambda specific and I guess you’d have to face it when dealing with any AWS service. This was far for me from the Heroku-like experience.
What could be also problematic for particular deployments is getting some required dependencies. It might be more desirable to lean on AWS ecosystem more deeply in that case (i.e. consider Dynamo storage).
Should you try AWS Lambda with Ruby after all? Yes, go explore it!