Ruby

Summarized using AI

Ruby Serverless Framework

Tung Nguyen • April 18, 2019 • Fukuoka, Japan

In the video titled Ruby Serverless Framework, Tung Nguyen introduces Jets, a Ruby serverless framework designed for building applications on AWS Lambda. He begins by sharing his background and achievements in tools development and container technologies, emphasizing the importance of AWS's announcement of Ruby support for Lambda in November 2018. This made Ruby a first-class citizen in serverless computing, which was sentimental for the Ruby community.

Key points discussed in the presentation include:

  • Overview of AWS Compute Offerings: Tung elaborates on various AWS compute services, ranging from EC2 to ECS and focusing on AWS Lambda as a serverless option that abstracts server management and scales automatically based on traffic.

  • Benefits of AWS Lambda: Major advantages like zero server management, automatic scaling, and an appealing pay-per-request pricing model are highlighted. He emphasizes the ease of use, particularly for developers who can focus solely on coding rather than infrastructure management.

  • Considerations for Using Serverless: Tung discusses important limitations, such as memory and storage constraints, duration limits for function execution, and the cold start issue. He provides practical insights into overcoming these challenges, such as through pre-warming strategies.

  • Building Web APIs: The role of API Gateway in routing requests to Lambda functions is explained, along with how CloudWatch can automate various backend tasks through scheduled jobs.

  • Introduction to Jets: Tung introduces Jets as a framework making it easier for developers to create and manage serverless applications in Ruby. He walks through features such as defining routes, controllers, and creating scheduled jobs effectively with Jets.

  • Live Demo: The video includes a live demonstration where Tung showcases how to initialize a Jets project, generate scaffolding for a RESTful API, and perform basic CRUD operations. This practical segment highlights how efficiently developers can use Jets to integrate with AWS and focus on programming.

  • Future Directions: He concludes by stating his optimism for the future of serverless frameworks like Jets in leveraging cloud capabilities, inviting questions from the audience for further clarification.

In summary, the session offers a deep dive into serverless technologies in Ruby, emphasizing practicality and efficiency in application development on AWS Lambda.

Ruby Serverless Framework
Tung Nguyen • April 18, 2019 • Fukuoka, Japan

Learn how to run Ruby applications on AWS Lambda with a Serverless Framework specifically designed with Ruby. Demo is provided. We deploy it to AWS Lambda with a single command.

RubyKaigi 2019 https://rubykaigi.org/2019/presentations/tongueroo.html#apr20

RubyKaigi 2019

00:00:00 All right, so I'm going to get started. This is Jets, a Ruby serverless framework. I'm going to talk about a tool I created.
00:00:05 As is traditional, the first slide is an introductory slide: who I am and what I do. My name is Tung Nguyen, and I currently run a consultancy company called Bull Ops.
00:00:11 You can see the logo up there in the top left corner. We focus on device software and infrastructure.
00:00:17 I have been fortunate enough to create a variety of tools, which are represented by the icons you see on the slide.
00:00:28 These tools range from Elastic Beanstalk to CloudFormation and ECS deployment, to name just a few.
00:00:34 It was quite an honor to be recognized as a container hero by AWS, as there were only five of us in the world in that category.
00:00:47 But today, we're going to focus on Jets, the Ruby serverless framework. One thing I'd like to point out is that, having worked extensively in the container space, I have a good appreciation for when to use containers versus serverless technology.
00:01:00 Now, the reason we're here today is because in November 2018, AWS officially released Ruby support as a runtime for Lambda.
00:01:14 This was a significant deal because, prior to this, Ruby was not an official runtime and developers had to bolt on support themselves.
00:01:26 This update placed Ruby among the first-class citizens in the serverless world. For me, it felt like a Christmas present. I even took a picture at re:Invent in front of the big stage, and I literally screamed when they made the announcement.
00:01:39 This kind of excitement for the Ruby community felt like the release of a new version of Ruby back in December.
00:01:44 For me, this was very big news.
00:01:49 I thought a good way to introduce the serverless world to this group would be to talk about some essential aspects of AWS and the compute offerings that exist today.
00:01:55 On the left side is EC2, which is a regular virtual machine that you can spin up. It takes about two to three minutes to set up.
00:02:06 You press a couple of buttons or call an API to create a machine, and then you can install anything you want on it and manage that server yourself.
00:02:12 As you move from left to right in the offerings, the level of management you have to do decreases.
00:02:20 ECS, or Elastic Container Service, allows you to run Docker containers easily on EC2 instances.
00:02:31 You don't have to manage much yourself, and on the far right, we have AWS Lambda.
00:02:39 That's what we'll focus on today. What is AWS Lambda? I put quotes around 'serverless' and a happy face because people call it serverless.
00:02:45 The term became very popular, but I think it's a bit misleading because, in order to run serverless technology, you actually need servers, so it’s somewhat of an oxymoron.
00:02:56 One definition you can think of is that it's functions as a service.
00:03:03 Essentially, it allows you to run code without managing servers; you give AWS your code, and they handle how to run it.
00:03:16 There are some benefits to using AWS Lambda. One major benefit is that you don't have to manage servers yourself; you don't have to do system upgrades or worry about security updates.
00:03:26 A team of AWS engineers handles all of that for you. You can focus solely on your code.
00:03:39 It scales on demand, depending on how many requests you send it. When EC2 introduced auto-scaling, I thought that was a remarkable feat of engineering.
00:03:56 You just configure some auto-scaling policies, set some alarms and rules, and then your system can automatically scale up and down.
00:04:09 With serverless technology, that scaling occurs automatically. You don’t have to configure anything; it just happens seamlessly.
00:04:20 Another benefit is that you only pay for requests. With AWS Lambda, the pricing model is particularly interesting: you only pay for the requests you send.
00:04:32 If you fit within the free tier, which is about a million requests a month, you can run your code for free.
00:04:41 That's a pretty appealing model. Of course, there’s also a lot of hype surrounding serverless and its benefits.
00:04:53 However, let’s address some of the hype. The term 'serverless' can be misleading at times.
00:05:03 Now, let’s talk about some considerations and limitations regarding why serverless might not always be the best fit.
00:05:14 When you configure a Lambda function, you allocate between 128 megabytes of RAM and up to 10 gigabytes.
00:05:26 A typical Ruby process, say a Puma server, usually requires about 500 megabytes. If you multiply that by the number of threads, that creates another concern.
00:05:38 But with Lambda’s self-scaling technology, you're not managing threads; it self-scales based on allocations.
00:05:53 Your main concern is making sure your Ruby process does not consume more than three gigabytes.
00:06:02 If you do have a Ruby process consuming more, you're likely encountering other issues.
00:06:11 Now, looking at CPU, the processing power you get correlates directly to the memory you allocate.
00:06:20 The more RAM you allocate, the more CPU power you gain. At around 1.5 gigabytes, you can get multi-core support.
00:06:29 Most applications use memory-bound resources within Ruby, so CPU usually isn’t a bottleneck unless you're doing specialized tasks.
00:06:37 Another consideration is the network speed. If there’s an issue here, you may notice slower performance.
00:06:46 Now, let’s discuss duration limits. The maximum time a Lambda function can run has been increased to 15 minutes.
00:06:53 For web applications, if your users are waiting for a response for 15 minutes, they’re likely long gone.
00:07:04 So unless you're running a long-running process, this is not really a concern.
00:07:12 Now, another consideration specifically for Ruby projects involves storage constraints. Your application can occupy up to 250 megabytes on the runtime file system.
00:07:24 This includes libraries and dependencies. If your total dependencies are, say, 100 megabytes, that leaves you with only 150 megabytes for application code.
00:07:37 This can indeed be a constraint, and something to monitor closely.
00:07:45 It’s possible that AWS might increase this limit in the future as they continue to improve services.
00:07:57 Next, let’s talk about the so-called cold start issue.
00:08:02 When a request comes to AWS Lambda, a container spins up.
00:08:11 There’s an overhead penalty associated with the first invocation of a lambda function.
00:08:18 If you are using a minimal allocation, say 128 megabytes, the penalty could range from one to two seconds.
00:08:28 However, if you're using a more realistic amount of memory, like one and a half gigabytes, I've seen it take around 300 milliseconds for the cold start.
00:08:37 People often overemphasize this issue, but it reminds me of Rails' Russian Doll caching.
00:08:43 The initial request may have slower response times, but subsequent requests are much quicker.
00:08:59 In most cases, unless you are building large-scale applications, the cold start shouldn’t be a large concern.
00:09:10 Functions can be reused for a period of time; I've noticed that they stay warm for four or five hours.
00:09:20 To minimize this cold start issue, developers often use what is known as pre-warming.
00:09:31 One common pattern involves creating a Lambda function that periodically calls all your other Lambda functions with a dummy payload.
00:09:41 This approach helps to keep them warm, eliminating the cold start penalty.
00:09:53 Now, there’s more to serverless than just functions. Another component is API Gateway.
00:10:04 With API Gateway, you can think of it as a front door where users send requests.
00:10:11 API Gateway routes these requests to different Lambda functions.
00:10:20 When building RESTful APIs, the API Gateway becomes essential.
00:10:27 Users make requests via URL, and that gets sent to the associated Lambda functions.
00:10:34 These functions return responses through API Gateway, making it easy to build web APIs.
00:10:45 In addition to API Gateway, there's CloudWatch, which features various functions, including scheduled events.
00:10:58 Scheduled events allow you to call Lambda functions periodically.
00:11:05 At this point, let’s take a look at the essential components of the service.
00:11:13 Lambda acts as functions-as-a-service, API Gateway handles requests, and CloudWatch provides scheduled events and logging.
00:11:20 With all these components, you can build a substantial web API architecture entirely serverless.
00:11:31 Users access the API via endpoints, which then trigger Lambda functions to execute the necessary logic.
00:11:41 These Lambda functions can interact with backend storage, such as DynamoDB or RDS.
00:11:48 At the bottom are the CloudWatch events that trigger background jobs.
00:11:57 Next, let’s look at some actual serverless code.
00:12:04 One way to create functions is through the AWS Management Console.
00:12:11 You would click on the 'Create Function' button, assign a name, choose Ruby as the runtime, and create the function.
00:12:19 You’ll then be directed to the code editor, where you can write your application logic.
00:12:27 In the Lambda function handler, the part before the period is the file name, such as lambda_function.rb.
00:12:36 The portion after the period, such as lambda_handler, indicates the method that gets invoked.
00:12:42 The function receives two keyword arguments: 'event' and 'context'.
00:12:50 The function returns a hash structure comprising a status code and body.
00:12:57 You can also test your functions live through the console interface.
00:13:06 Now, let's turn to creating an API Gateway in the AWS Console.
00:13:13 Specify that you want to create a RESTful API and provide a name.
00:13:19 Once created, you'll have access to the API routes and the corresponding HTTP verbs.
00:13:27 For instance, you can create a GET request on the homepage and link it to a Lambda function.
00:13:35 Next, you would see a visualization of the request flow from the API Gateway to the Lambda function and back.
00:13:42 Now, let’s look at creating a scheduled event in CloudWatch.
00:13:49 Navigate to the rules tab, select scheduled events, and specify your target Lambda function.
00:13:55 You can specify details like frequency, such as executing every five minutes.
00:14:02 This allows for various automated jobs running in the background.
00:14:09 So, congratulations! We’ve had a crash course on serverless architecture.
00:14:17 We discussed Lambda, API Gateway, and CloudWatch.
00:14:23 In reality, most developers do not create all functions through the AWS Console.
00:14:31 Instead, we use frameworks to code in serverless environments.
00:14:43 What I developed, Jets, represents a system where you can easily manage your application infrastructure.
00:14:52 Now, let's look at some Jet’s code.
00:15:01 Here’s a simple function in Jets, which mirrors a typical Lambda function.
00:15:07 Next, we have a Jets controller, which may look familiar.
00:15:15 Here we have an application controller from which all controllers inherit.
00:15:22 This controller contains public methods that translate into Lambda functions.
00:15:29 Jets evaluates the code, translating these public methods into Lambda functions.
00:15:37 Additionally, it provides helper methods to render JSON or XML.
00:15:44 There’s also a 'params' helper which parses the event payload.
00:15:51 Now let’s look at the routes file, which resembles typical route files you may know.
00:15:59 This file forwards HTTP methods to the correct controller actions.
00:16:06 These routes eventually provision API Gateway resources.
00:16:14 You can also create scheduled jobs through jets that become CloudWatch rules.
00:16:23 Jobs can run asynchronously without blocking web requests.
00:16:31 The Jets framework creates all necessary resources efficiently, allowing developers to focus on the coding.
00:16:39 So let's quickly revisit the components: methods in Ruby are converted into Lambda functions.
00:16:45 Routes get translated to API Gateway resources, and jobs are scheduled through CloudWatch.
00:16:52 The overall structure is quite traditional, following MVC design.
00:17:01 There are controllers, helpers, models, and views where applicable.
00:17:09 So you can see that Jets allows for a more productive and simplified experience.
00:17:17 The Ruby language enhances this productivity, as it remains concise.
00:17:29 With simplicity in the setup, you can create complex applications.
00:17:35 So let's move on to the live demo portion. I’ll perform a live demonstration today.
00:17:44 For the demo, I will go to the documentation and copy some commands.
00:17:50 Let’s start by creating a new Jets project. I’ll run the command to initialize a new demo.
00:18:00 This command generates a starter project with all the necessary files.
00:18:06 Additionally, Jet performs a bundle install to set up dependencies.
00:18:12 Once the installation is complete, I can show you the structure of the generated files.
00:18:20 Inside the app folder, we have controllers and routes created.
00:18:26 Next, I will generate scaffolding for a simple application using Jets.
00:18:36 This command will create all necessary resources for a basic RESTful API.
00:18:45 You can see a simple post controller has been generated.
00:18:52 The controller exposes basic RESTful methods that map to Lambda functions.
00:18:59 Once these resources are created, I can run a local server for testing purposes.
00:19:06 I’ll bind this to a local environment for demonstration.
00:19:14 As I run this server, I can navigate through the created scaffold and test its functionality.
00:19:22 I’ll demonstrate some CRUD operations using this interface, editing and creating new posts.
00:19:30 Now that the server is running, you can see the API responding.
00:19:38 Once I introduce the URL endpoint to the API Gateway, I can hit the endpoints.
00:19:47 I will show that all operations hookup correctly with the backend.
00:19:55 It’s functioning well, allowing for basic CRUD operations on my newly scaffolded resource.
00:20:02 This illustrates how simple it is to set up services using Jets.
00:20:09 We can leverage the AWS infrastructure while focusing on Ruby.
00:20:16 Let’s recap what we just accomplished.
00:20:23 We created an API Gateway that routes requests to Lambda functions, along with database integration.
00:20:30 This demonstrates how easy it is to combine these tools for a functional application.
00:20:38 Next, Lambda can be envisioned as glue code.
00:20:47 It serves as a connection point, coordinating various functions and resources.
00:20:54 You can glue together different events using AWS services to trigger Lambda functions.
00:21:02 Another use case is event-driven security and remediation.
00:21:10 For instance, you might want to close port 22 if it gets opened to the world.
00:21:18 You can create a CloudWatch rule that listens for changes and executes a Lambda function.
00:21:25 This function can automatically remediate the network security incident.
00:21:35 Next up, you can also integrate IoT devices with AWS Lambda.
00:21:44 Smart devices can send data through Lambda functions to execute custom logic.
00:21:51 For example, a smart kettle can send temperature readings and trigger actions.
00:22:00 Lastly, let’s look at scheduled jobs via CloudWatch events.
00:22:10 You can back up databases without needing dedicated servers for cron jobs.
00:22:20 This can greatly simplify resource management and scalability.
00:22:29 I will also mention the Jets resource model. The framework is built around easy resource creation.
00:22:38 Utilizing the adaptability of Ruby, developers can extend Jets as they see fit.
00:22:46 Realistically, programming with Ruby keeps the code concise and manageable.
00:22:54 Moving forward, I believe the future relies on frameworks like Jets to harness cloud capabilities.
00:23:02 Today, we touched on many concepts and tools available for serverless computing.
00:23:08 Now, I’m happy to answer any questions about Jets or Ruby serverless architecture.
00:23:15 If you have any queries about the framework or features, feel free to ask.
00:23:22 I appreciate any feedback or thoughts regarding the functionalities.
00:23:29 Thank you for attending; I hope you learned something valuable today.
00:23:36 I’ll now be around for the next ten minutes to answer any further questions.
00:23:43 Thank you again for your time.
00:23:50 I’m looking forward to discussing more about Jets and serverless frameworks.
Explore all talks recorded at RubyKaigi 2019
+73