JavaScript on your schedule

Posted on by Mark FeehilyComments Off on JavaScript on your schedule

#​633 — April 6, 2023

Read on the Web

❓ JavaScript Weekly on a Thursday? It’s true. As well as it being Good Friday tomorrow, we’ve decided to move to Thursday permanently going forward. We hope you have a good Easter, if you celebrate it, otherwise enjoy one fewer email on Fridays ????
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Your editor, Peter Cooper

JavaScript Weekly

Croner: Cron for JavaScript and TypeScript — Trigger functions upon the schedule of your choice using the classic cron syntax. Works in Node, Deno, Bun and the browser, across time zones, offers error handling and overrun protection, and more. There’s an interesting live demo on JSFiddle.

Hexagon

▶️ JSON vs XML with Douglas Crockford — The author of 2008’s hugely popular JavaScript: The Good Parts went on a podcast to share the story of JSON, his discovery of JavaScript’s ‘good parts’, and his general approach to building software, including his dislike of JavaScript ‘frameworks.’ There’s a transcript if you’re not keen on listening. (50 minutes.)

CoRecursive Podcast podcast

Headless CMS with World-Class TypeScript Support — Kontent.ai is the leading platform for modular content. Streamline your code using TypeScript SDK, CLI, Rich text resolver, and strongly typed model generator. Scale with no problems when your project grows. Have you seen our UI?

Kontent.ai sponsor

The Angular Signals RFC — There’s a lot of excitement about a shift in Angular involving the addition of signals as a reactive primitive – the official RFC is now available for this feature, and you’re encouraged to leave comments. If you’d rather see a practical use for signals, Joshua Morony recorded ▶️ a screencast showing them off.

Angular Team

Over 100 Algorithms and Data Structures Demonstrated in JS — Examples of many common algorithms (e.g. bit manipulation, Pascal’s triangle, Hamming distance) and data structures (e.g. linked lists, tries, graphs) with explanations.

Oleksii Trekhleb et al.

IN BRIEF:

Laurie Voss looks at the most popular frameworks used in sites deployed to Netlify. React-based options lead the way.

Oliver Dunk of the Chrome Extensions Team has posted an update on the Manifest V2 to Manifest V3 transition – it’s taking longer than expected so Manifest V2 isn’t disappearing any time soon.

V8 v11.2 is shipping with support for WebAssembly tail calls.

With Chrome 113, Chrome is now shipping support for WebGPU.

A look at how Microsoft’s Blazor (a stack aimed at building front-end apps with C#) is skirting around JavaScript with its focus on WebAssembly.

JSDayIE 2023: The First JavaScript Conference in Ireland Is Back! — Join us on September 26th in Dublin to experience everything the Irish JavaScript community and Ireland have to offer.

JSDayIE sponsor

RELEASES:

Electron 24.0 – Complete with Chromium 112, V8 11.2, and Node 18.14.

Storybook 7.0 – Though still tagged ‘next’ and pending a proper launch.

Storybook for React Native 6.5

WebStorm 2023.1 – Commercial JS IDE from JetBrains.

Rete.js 2.0 Beta – Framework for building node-based editors.

???? Articles & Tutorials

Making a Big, Slow Vue/Alpine Page ‘Blazingly’ Fast — A practical example of a pattern the author is billing a “reactive switchboard.” “I’m going to use Vue/Alpine lingo in this article, but I think this pattern applies to lots of different tools.”

Caleb Porzio

▶  Watch Dan Abramov Explore React Server Components — At an epic (though well timestamped) four hours, this isn’t a quick watch, but Dan and Ben Holmes walk through everything React Server Components oriented, complete with diagrams, code, and a real-world app.

Ben Holmes

Getting PWAs in App Stores with PWABuilder — Thomas Steiner demonstrates how PWABuilder makes it possible to submit Progressive Web Apps (PWAs) to app stores like those provided by Google, Apple, and Microsoft.

Thomas Steiner (Google)

Add a Full-Featured Notification Center to Your App in Minutes

Courier.com sponsor

What Are Source Maps? — Learn how source maps can help you debug your original code instead of what was actually deployed after the build process.

Sofia Emelianova (Chrome Developers)

How I Used ChatGPT in My JavaScript Projects

James Q Quick

???? Code & Tools

Relaunching JSPM CLI for Import Map Package Management — Several years ago when JS had numerous competing module formats, JSPM was a useful package manager atop SystemJS, but now it’s being relaunched as an import map package management tool.

Guy Bedford

Chrome Extension CLI 1.4: CLI for Building Chrome Extensions — Want to get building an extension for Chrome as quickly as possible? This Node-powered tool aims to get you on the right path ASAP. v1.4 adds a script to generate a ZIP file (also known as a ‘postcode file’ at Microsoft UK? ????) of the extension.

Dutiyesh Salunkhe

React Chrono 2: A Flexible Timeline Component — A complete overhaul of a popular component. You can render themeable timelines in vertical, horizontal, or vertical alternating orientations. It includes keyboard navigation support, auto advancement, and, as of v2, support for nested timelines.

Prabhu Murthy

Dynaboard: A Visual Web App IDE Made for Developers — Build high performance public and private web applications in a collaborative — full-stack — development environment.

Dynaboard sponsor

Jampack: A Post-Processing Tool to Optimize Static Websites — Similar to a bundler or build tool, with features like image optimization, asset compression, and some code auto-fixes — all amounting to strong Core Web Vitals scores.

divRIOTS

imask.js 6.5.0: A Vanilla JavaScript Input Mask — Prevent users from entering invalid values. Has plugins for Vue, Angular, React, Svelte, and Solid, if needed.

imaskjs

tween.js 19.0
↳ JS tweening engine for easy animations.

Swiper 9.2
↳ Modern mobile-friendly touch slider.

gridstack.js 7.3
↳ Dashboard layout and creation framework.

ReacType 15.0
↳ Visual prototyping tool that can export React apps.

xstyled 3.8
↳ Utility-first CSS-in-JS framework for React.

Spacetime 7.4.2
↳ Lightweight timezone library.

???? Jobs

Find JavaScript Jobs with Hired — Hired makes job hunting easy-instead of chasing recruiters, companies approach you with salary details up front. Create a free profile now.

Hired

Full Stack JavaScript Engineer @ Emerging Cybersecurity Startup — Small team/big results. Fun + flexible + always interesting. Come build our award-winning, all-in-one cybersecurity platform.

Defendify

????‍???? Got a job listing to share? Here’s how.

???? Wise Words of the Week

A reminder from Vue.js’s Evan You that we live in a vast and varied world, including in the JavaScript ecosystem:

Flatlogic Admin Templates banner

Managing Dev Environments with Amazon CodeCatalyst

Posted on by Mark FeehilyComments Off on Managing Dev Environments with Amazon CodeCatalyst

An Amazon CodeCatalyst Dev Environment is a cloud-based development environment that you can use in CodeCatalyst to quickly work on the code stored in the source repositories of your project. The project tools and application libraries included in your Dev Environment are defined by a devfile in the source repository of your project.

Introduction

In the previous CodeCatalyst post, Team Collaboration with Amazon CodeCatalyst, I focused on CodeCatalyst’s collaboration capabilities and how that related to The Unicorn Project’s main protaganist. At the beginning of Chapter 2, Maxine is struggling to configure her development environment. She is two days into her new job and still cannot build the application code. She has identified over 100 dependencies she is missing. The documentation is out of date and nobody seems to know where the dependencies are stored. I can sympathize with Maxine. In this post, I will focus on managing development environments to show how CodeCatalyst removes the burden of managing workload specific configurations and produces reliable on-demand development environments.

Prerequisites

If you would like to follow along with this walkthrough, you will need to:

Have an AWS Builder ID for signing in to CodeCatalyst.

Belong to a space and have the space administrator role assigned to you in that space. For more information, see Creating a space in CodeCatalystManaging members of your space, and Space administrator role.

Have an AWS account associated with your space and have the IAM role in that account. For more information about the role and role policy, see Creating a CodeCatalyst service role.

Walkthrough

As with the previous posts in our CodeCatalyst series, I am going to use the Modern Three-tier Web Application blueprint.  Blueprints provide sample code and CI/CD workflows to help make getting started easier across different combinations of programming languages and architectures. To follow along, you can re-use a project you created previously, or you can refer to a previous post that walks through creating a project using the blueprint.

One of the most difficult aspects of my time spent as a developer was finding ways to quickly contribute to a new project. Whenever I found myself working on a new project, getting to the point where I could meaningfully contribute to a project’s code base was always more difficult than writing the actual code. A major contributor to this inefficiency, was the lack of process managing my local development environment. I will be exploring how CodeCatalyst can help solve this challenge.  For this walkthrough, I want to add a new test that will allow local testing of Amazon DynamoDB. To achieve this, I will use a CodeCatalyst dev environment.

CodeCatalyst Dev Environments are managed cloud-based development environments that you can use to access and modify code stored in a source repository. You can launch a project specific dev environment that will automate check-out of your project’s repo or you can launch an empty environment to use for accessing third-party source providers.  You can learn more about CodeCatalyst Dev Environments in the CodeCatalyst User Guide.

Figure 1. Creating a new Dev Environment

To begin, I navigate to the Dev Environments page under the Code section of the navigaiton menu.  I then use the Create Dev Environment to launch my environment.  For this post, I am using the AWS Cloud9 IDE, but you can follow along with the IDE you are most comfortable using.  In the next screen, I select Work in New Branch and assign local_testing for the new branch name, and I am branching from main.  I leave the remaining default options and Create.

Figure 2. Dev Environment Create Options

After waiting less than a minute, my IDE is ready in a new tab and I am ready to begin work.  The first thing I see in my dev environment is an information window asking me if I want to navigate to the Dev Environment Settings.  Because I need to enable local testing of Dynamodb, not only for myself, but other developers that will collaborate on this project, I need to update the project’s devfile.  I select to navigate to the settings tab because I know that contains information on the project’s devfile and allows me to access the file to edit.

Figure 3. Toolkit Welcome Banner

Devfiles allow you to model a Dev Environment’s configuration and dependencies so that you can re-produce consisent Dev Environments and reduce the manual effort in setting up future environments.  The tools and application libraries included in your Dev Environment are defined by the devfile in the source repository of your project.  Since this project was created from a blueprint, there is one provided.  For blank projects, a default CodeCatalyst devfile is created when you first launch an environment.  To learn more about the devfile, see https://devfile.io.

In the settings tab, I find a link to the devfile that is configured.  When I click the edit button, a new file tab launches and I can now make changes.  I first add an env section to the container that hosts our dev environment.  By adding an environment variable and value, anytime a new dev environment is created from this project’s repository, that value will be included.  Next, I add a second container to the dev environment that will run DynamoDB locally.  I can do this by adding a new container component.  I use Amazon’s verified DynamoDB docker image for my environment. Attaching additional images allow you to extend the dev environment and include tools or services that can be made available locally.  My updates are highlighted in the green sections below.

Figure 4. Example Devfile

I save my changes and navigate back to the Dev Environment Settings tab. I notice that my changes were automatically detected and I am prompted to restart my development environment for the changes to take effect.  Modifications to the devfile requires a restart. You can restart a dev environment using the toolkit, or from the CodeCatalyst UI.

Figure 5. Dev Environment Settings

After waiting a few seconds for my dev environment to restart, I am ready to write my test.  I use the IDE’s file explorer, expand the repo’s ./tests/unit folder, and create a new file named test_dynamodb.py.  Using the IS_LOCAL environment variable I configured in the devfile, I can include a conditional in my test that sets the endpoint that Amazon’s python SDK ( Boto3 ) will use to connect to the Dynamodb service.  This way, I can run tests locally before pushing my changes and still have tests complete successfully in my project’s workflow.  My full test file is included below.

Figure 6. Dynamodb test file

Now that I have completed my changes to the dev environment using the devfile and added a test, I am ready to run my test locally to verify.  I will use pytest to ensure the tests are passing before pushing any changes.  From the repo’s root folder, I run the command pip install -r requirements-dev.txt.  Once my dependencies are installed, I then issue the command pytest -k unit.  All tests pass as I expect.

Figure 7. Pytest test results

Rather than manually installing my development dependencies in each environment, I could also use the devfile to include commands and automate the execution of those commands during the dev environment lifecycle events.  You can refer to the links for commands and events for more information.

Finally, I am ready to push my changes back to my CodeCatalyst source repository.  I use the git extension of Cloud9 to review my changes.  After reviewing my changes are what I expect, I use the git extension to stage, commit, and push the new test file and the modified devfile so other collaborators can adopt the improvements I made.

Figure 8.  Changes reviewed in CodeCatalyst Cloud9 git extension.

Cleanup

If you have been following along with this workflow, you  should delete the resources you deployed so you do not continue to incur  charges. First, delete the two stacks that CDK deployed using the AWS CloudFormation console in the AWS account you associated when you launched the blueprint. These stacks will have names like mysfitsXXXXXWebStack and mysfitsXXXXXAppStack. Second, delete the project from CodeCatalyst by navigating to Project settings and choosing Delete project.

Conclusion

In this post, you learned how CodeCatalyst provides configurable on-demand dev environments.  You also learned how devfiles help you define a consistent experience for developing within a CodeCatalyst project.  Please follow our DevOps blog channel as I continue to explore how CodeCatalyst solve Maxine’s and other builders’ challenges.

About the author:

Ryan Bachman

Ryan Bachman is a Sr. Specialist Solutions Architect at AWS, and specializes in working with customers to improve their DevOps practices. Ryan has over 20 years of professional experience as a technologist, and has held roles in many different domains to include development, networking architecture, and technical product management. He is passionate about automation and helping customers increase software development productivity.

How Contino improved collaboration with Amazon CodeCatalyst

Posted on by Mark FeehilyComments Off on How Contino improved collaboration with Amazon CodeCatalyst

Amazon CodeCatalyst is a modern software development service that empowers teams to deliver software on AWS easily and quickly. CodeCatalyst provides one place where you can plan, code, and build, test, and deploy applications with continuous integration/continuous delivery (CI/CD) tools. It also helps streamlined team collaboration. Developers on modern software teams are usually distributed, work independently, and use disparate tools. Often, ad hoc collaboration is necessary to resolve problems. Today, developers are forced to do this across many tools, which distract developers from their primary task—adding business critical features and enhancing their quality and completeness.

In this post, we explain how Contino uses CodeCatalyst to on-board their engineering team onto new projects, eliminates the overhead of managing disparate tools, and streamlines collaboration among different stakeholders.

The Problem

Contino helps customers migrate their applications to the cloud, and then improves their architecture by taking full advantage of cloud-native features to improve agility, performance, and scalability. This usually involves the build out of a central landing zone platform. A landing zone is a set of standard building blocks that allows customers to automatically create accounts, infrastructure and environments that are pre-configured in line with security policies, compliance guidelines and cloud native best practices. Some features are common to most landing zones, for example creating secure container images, AMIs, and environment setup boilerplate. In order to provide maximum value to the customers, Contino develops in-house versions of such features, incorporating AWS best practices, and later rolls out to the customer’s environment with some customization. Contino’s technical consultants, who are not currently assigned to customer work, collectively known as ‘Squad 0’ work on these features. Squad 0 builds the foundation for the work that will be re-used by other squads that work directly with Contino’s customers. As the technical consultants are typically on Squad 0 for a short period, it is critical that they can be productive in this short time, without spending too much time getting set up.

To build these foundational services, Contino was looking for something more integrated that would allow them to quickly setup development environments, enable collaboration between Squad 0 members, invite other squads to validate foundations services usage for their respective customers, and provide access to different AWS accounts and git repos centrally from one place. Historically, Contino has used disparate tools to achieve this, which meant having to grant/revoke access to the various AWS accounts individually on a continual basis. With these disparate tools, granting access to the tools needed for squads to be productive was non-trivial.

The Solution

It was at this point Contino participated in the private beta for CodeCatalyst prior to the public preview. CodeCatalyst has allowed Contino to move to a structure, as shown in Figure 1 below. A Project Manager at Contino creates a different project for each foundational service and invites Squad 0 members to join the relevant project. With CodeCatalyst, Squad 0 technical consultants use features like CI/CD, source repositories, and issue trackers to build foundational services. This helps eliminate the overhead of managing and integrating developer tools and provides more time to focus on developing code. Once Squad 0 is ready with the foundational services, they invite customer squads using their email address to validate the readiness of the project for use with their customers. Finally, members of Squad 0 use Cloud 9 Dev Environments from within CodeCatalyst to rapidly create consistent cloud development environments, without manual configuration, so they can work on new or multiple projects simultaneously, without conflict.

Figure 1: CodeCatalyst with multiple account connections

Contino uses CI/CD to conduct multi-account deployments. Contino typically does one of two types of deployments: 1. Traditional sequential application deployment that is promoted from one environment to another, for example dev -> test -> prod, and 2. Parallel deployment, for example, a security control that is required to be deployed out into multiple AWS accounts at the same time. CodeCatalyst solves this problem by making it easier to construct workflows using a workflow definition file that can deploy either sequentially or in parallel to multiple AWS accounts. Figure 2 shows parallel deployment.

Figure 2: CI/CD with CodeCatalyst

The Value

CodeCatalyst has reduced the time it takes for members of Squad 0 to complete the necessary on-boarding to work on foundational services from 1.5 days to about 1 hour. These tasks include setting up connections to source repositories, setting up development environments, configuring IAM roles and trust relationships, etc. With support for integrated tools and better collaboration, CodeCatalyst minimized overhead for ad hoc collaboration. Squad 0 could spend more time on writing code to build foundation services. This has led to tasks being completed, on average, 20% faster. This increased productivity led to increased value delivered to Contino’s customers. As Squad 0 is more productive, more foundation services are available for other squads to reuse for their respective customers. Now, Contino’s teams on the ground working directly with customers can re-use these services with some customization for the specific needs of the customer.

Conclusion

Amazon CodeCatalyst brings together everything software development teams need to plan, code, build, test, and deploy applications on AWS into a streamlined, integrated experience. With CodeCatalyst, developers can spend more time developing application features and less time setting up project tools, creating and managing CI/CD pipelines, provisioning and configuring various development environments or coordinating with team members. With CodeCatalyst, the Contino engineers can improve productivity and focus on rapidly developing application code which captures business value for their customers.

About the authors:

Mark Faiers

Mark Faiers started out as a software engineer and later transitioned into DevOps, and Cloud. He has worked across numerous technology stacks and industries, including Healthcare, FinTech, and Logistics. Mark is currently working as an AWS consultant to some of the biggest Financial and Insurance firms in the U.K., as well as running the AWS Practice at Contino. He is especially passionate about serverless, and sustainability.

Chetan Makvana

Chetan Makvana is a senior solutions architect working with global systems integrators at AWS. He works with AWS partners and customers to provide them with architectural guidance for building scalable architecture and execute strategies to drive adoption of AWS services. He is a technology enthusiast and a builder with a core area of interest on serverless and DevOps. Outside of work, he enjoys binge-watching, traveling and music.

re:Invent 2022 DevOps and Developer Productivity Playlist

Posted on by Mark FeehilyComments Off on re:Invent 2022 DevOps and Developer Productivity Playlist

Danielle Kucera, Karun Bakshi, and I were privileged to organize the DevOps and Developer Productivity (DOP) track for re:Invent 2022. For 2022, the DOP track included 58 sessions and nearly 100 speakers.  If you weren’t able to attend, I have compiled a list of the on-demand sessions for you below.

Leadership Sessions

Delighting developers: Builder experience at AWS Adam Seligman, Vice President of Developer Experience, and Emily Freeman, Head of Community Development, share the latest AWS tools and experiences for teams developing in the cloud. Adam recaps the latest launches and demos how key services can integrate to accelerate developer productivity.

Amazon CodeCatalyst

Amazon CodeCatalyst, announced during Dr. Werner Vogels Keynote, is a unified software development service that makes it faster to build and deliver on AWS.

Introducing Amazon CodeCatalyst – Harry Mower, Director of DevOps Services, and Doug Clauson, Product Manager, provide an overview of Amazon CodeCatalyst. CodeCatalyst provides one place where you can plan work, collaborate on code, and build, test, and deploy applications with nearly continuous integration/continuous delivery (CI/CD) tools.

Deep dive on CodeCatalyst Workspaces – Tmir Karia, Sr. Product Manager, and Rahul Gulati, Sr. Product Manager,  discuss how Amazon CodeCatalyst Workspaces decreases the time you spend creating and maintaining a local development environment and allows you to quickly set up a cloud development workspace, switch between projects, and replicate the development workspace configuration across team members.

DevOps

AWS Well-Architected best practices for DevOps on AWS Elamaran Shanmugam, Sr. Container Specialist, and Deval Perikh, Sr. Enterprise Solutions Architect, discuss the components required to align your DevOps practices to the pillars of the AWS Well-Architected Framework.

Best practices for securing your software delivery lifecycle Jams Bland, Principal Solutions Architect, and Curtis Rissi, Principal Solutions Architect, discus ways you can secure your CI/CD pipeline on AWS. Review topics like security of the pipeline versus security in the pipeline, ways to incorporate security checkpoints across various pipeline stages, security event management, and aggregating vulnerability findings into a single pane of glass.

Build it & run it: Streamline your DevOps capabilities with machine learning Rafael Ramos, Shivansh Singh, and Jared Reimer discuss how to use machine learning–powered tools like Amazon CodeWhisperer, Amazon CodeGuru, and Amazon DevOps Guru to boost your applications’ availability and write software faster and more reliably.

Infrastructure as Code

AWS infrastructure as code: A year in review  Tatiana Cooke, Principal Product Manager, and Ben Perak, Principal Product Manage, discuss the new features and improvements for AWS infrastructure as code with AWS CloudFormation and AWS CDK.

How to reuse patterns when developing infrastructure as code Ryan Bachman, Ethan Rucinski, and Ravi Palakodeti explore AWS Cloud Development Kit (AWS CDK) constructs and AWS CloudFormation modules and how they make it easier to build applications on AWS.

Governance and security with infrastructure as code David Hessler, Senior DevOps Consultant, and Eric Beard, Senior Solutions Architect, discuss how to use AWS CloudFormation and the AWS CDK to deploy cloud applications in regulated environments while enforcing security controls.

Developer Productivity

Building on AWS with AWS tools, services, and SDKs Kyle Thomson, Senior Software Development Engineer and Deval Parikh, Senior Solutions Architect, discuss the ways developers can set up secure development environments and use their favorite IDEs to interact with, and deploy to, the AWS Cloud.

The Amazon Builders’ Library: 25 years of operational excellence at Amazon Colm MacCarthaigh, Distinguished Engineer, and David Yanacek, Sr. Principal Engineer, discuss how Amazon practices have changed and improved over time and what we’ve learned as builders and as operators.

Sustainability in the cloud with Rust and AWS Graviton Emil Lerch, Principal DevOps Specialist, and Esteban Kuber, Principal Engineer, discuss the benefits of Rust and AWS Graviton that can reduce energy consumption and increase productivity.

 

 

About the author:

Brian Beach

Brian Beach has over 20 years of experience as a Developer and Architect. He is currently a Principal Solutions Architect at Amazon Web Services. He holds a Computer Engineering degree from NYU Poly and an MBA from Rutgers Business School. He is the author of “Pro PowerShell for Amazon Web Services” from Apress. He is a regular author and has spoken at numerous events. Brian lives in North Carolina with his wife and three kids.