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vets.gov - beta Build Status

What is this?

This is the combined frontend repository for www.vets.gov. With this repository, it is possible to build all of the client-side (ie, anything that gets downloaded to the browser) code for www.vets.gov with the exception of some high sensitivity endpoints that require server side interaction such as login.

As it is client side there are no secrets in this repository since, well, public secrets aren't very secret.

I want to...

I want to... Then you should...
clone the site git clone https://github.com/department-of-veterans-affairs/vets-website.git followed by cd vets-website, git submodule init; git submodule update, npm install. Run npm install anytime package.json changes.
deploy the site merge to master for dev.vets.gov and staging.vets.gov. Merge to production for www.vets.gov. Travis will do the deploy on the post merge build. Submit a trivial change to force a re-deploy.
update static content that is already on the site. Find the corresponding file in content/pages. Make your edit. Send a PR.
add new static content to the site. Create new files at the right location in content/pages. Send a PR.
build the site with dev features enabled. npm run build
build the production site (dev features disabled). npm run build -- --buildtype production Note the extra -- is required otherwise npm eats the buildtype argument instead of passing it on.
build the site with optimizaitons (minification, chunking etc) on. Set NODE_ENV=production before running build.
run the site for local development with hot reloading of javascript, and sass npm run watch then visit http://localhost:3001/webpack-dev-server/. You may also set buildtype and NODE_ENV though setting NODE_ENV to production will make incremental builds slow.
run all tests npm run test
run only unit tests npm run test:unit
run only e2e tests npm run test:e2e. Note, on a fresh checkout, run npm run selenium:bootstrap to install the selenium server into node_modules. This only needs to be done once per install.
run all linters npm run lint
run only javascript linter npm run lint:js
run only sass linter npm run lint:sass
run automated accessibility tests npm run build && npm run test:accessibility
test for broken links Build the site. Broken Link Checking is done via a Metalsmith plugin during build. Note that it only runs on build not watch.
add new npm modules npm install -D my-module followed by npm shrinkwrap --dev. There are no non-dev modules here.
get the latest json schema git submodule init; git submodule update; cd schema; git checkout master; git pull; cd ... Then you can commit the changes, if any.

Directory structure

Directory Description
assets Static assets such as images or fonts. These may get some optimization-style processing done on them, but in general files here are expected to show up directly in the output.
build Output of the site build. A subdirectory is generated per buildtype so --buildtype=development appears in build/development. This directory is suitable for synchronizing into S3 for deployment
config Contains config files for the site.
content/pages Static content for the site. If a file is added here, it will appear on the website by default.
content/layouts Collection of layouts that can be used by content/pages. Must be html. No Markdown.
content/includes Collection of HTML fragments shared between layouts. Must be html. No Markdown.
logs Directory for log output from build tools. Currently only used by nightwatch and selenium for end-to-end testing.
node_modules install location of npm modules. Managed by npm.
old Directories from the original Jekyll site that still need to be examined for possibly useful content before being deleted.
script Scripts for building the repostiory. The most commonly used script is build.js which runs Metalsmith
src Any source files that require compilation. This is all our Javascript and Sass currently.
test Tests for files inside src. The directory structure of test should mirror that of src.

Where are the Javascript and Sass vendor or libs directories?

There are none!!

All third-party styles and javascript are handled via npm using package.json. This allows strong versioning of third-party libraries and makes it impossible for developers to accidentally modify copies of upstream.

Toolchain

The site is built using 2 tools: Metalsmith and Webpack and is fully node.js stack.o

Metalsmith is used as the top-level build coordinator -- it is effectively a generic "if file changes here, run this" system -- as well as the static content genertaor. When Metalsmith sees Javascript, it is delegated to Webpack. Sass files are "require"ed inside the Javascript files for the site and processed by Webpack.

Requirements

The requirements for running this application are Node.js 4.4.7 and npm 3.8.9.

Node.js's version is managed using nvm. Please follow the installation instructions on nvm to ensure you are using the same version of node as others. You should use Node Version Manager (nvm) to manage the versions of node.js on your local machine. To install please visit: https://github.com/creationix/nvm If you are on a mac and use homebrew, you can install nvm by typing: brew update && brew install nvm

Once you have nvm installed you should now install node.js version 4.4.7 by running:

nvm install

Once you have node.js version 4.4.4 installed install npm version 3.8.9 by running:

Verify your local requirements are set

node --version // 4.4.7
npm --version  // 3.8.9

How it all works

Build

The build is abstracted by the command npm run build which really just exectues scripts/build.js -- a simple Javscript program that configures Metalscript and Webpack based on things in config/, commandline flags, and the NODE_ENV environment variable.

WARNING: --buildtype and NODE_ENV are unlrelated!

--buildtype changes what constants are defined which enables/disables features from the code.

NODE_ENV changes the optimizations applies such as disabling React PropType checks and enabling minification + javascript chunking.

(Note: The NODE_ENV env variable dependency is a questionable design choice. It should

Metalsmith -- Static content builds and top-level file watching.

The build.js script relies on Metalsmith's Javscript API as the main build script. Metalscript, at the core, is just a file watcher that runs a set of files through chain of plugins. Using the Javascript API for Metalscript allows removal of tools like Grunt while also enabling faster incremental builds because Metalsmith and Webpack can stay in memory.

Metalsmith's behavior is entirely defined by the plugins added, their configuration, and their ordering.

The primary responsibility of Metalsmith is to process all the pages in content/ and static assets under assets/ to produce output in build/.

With the exception of files under build/${BUILDTYPE}/generated/ that are handled by webpack, everything else is directly generated by metalsmith-plugins.

Refer to the (thorough) comments inside build.js for specifics.

Webpack -- Javascript and Sass processing. Outputs build/generated

Metalsmith invokes Webpack or Webpack Dev Server depending of it is in build or watch mode.

Webpack's configuration is stored in config/webpack.config.js and declares a set of loaders which are Webpack's version of plugins. The loaders are used to compile ES2015 to ES5 via Babel, and to process the sass into CSS.

Webpack is configured to handle multiple different entrypoints (see entry in webpack.config.js). In general, there should be one entrypoint non-react.entry.js used by most of the static content pages. Each react app should have their own entrypoint.

Sass and styles are loaded via Javascript. Each entrypoint require() an appropriate top-level sass file which the imports the rest of the css dependency tree as needed. Webpack then generates a separate css bundle for each of these entrypoints allowing the site to have app-specific css.

Watch mode

File watching and incremental building is important for developer efficiency, but it's more complicated because, to be fast, each tool needs to keep its state between runs. This is actually the driving reason NOT to use grunt or gulp because, fundametnally, both those task runners would expect to restart either metalsmith or webpack on file changes.

In our setup, we use the metalsmith-watch plugin as well as the metalsmith-webpack-dev-server plugin to do file watching based on the separation of duties listed earlier. The Webpack Dev Server also serves as the actual web server endpoint that handles HTTP requests.

When a file chagnes in content/\* or asset/\*, whether and how it gets rebuilt is dependent on the metalsmith-watch configuration.

If a 404 is incorrectly handled, that's a configuration problem with Webpack Dev Server.

Similarly, everything in src/\* is dependent on the webpack configuration.

Quirks:

  • metalsmith-watch cannot do broken link detection during incrementals.
  • Webpack Dev Server uses an in-memory filesystem so nothing shows up in build/${}/generated
  • Visit http://localhost:3001/webpack-dev-server (no trailing slash!) to see the contents of generated files.

Overall, this runs pretty well.

In a future TODO, hooking ESlint and Sass lint into metalsmith or webpack dev server would allow them to execute during incremental builds as well.

Unit Test -- Mocha

All unittests re under test/\* and are named with the suffix .unit.spec.js.

Unittests are done via mocha with the chai assertion library run directly via the mocha test runner without going through karma or PhantomJS. This means they run very fast.

Unfortunately, it also means there is no true window or document provided which breaks ReactTestUtils's simulate calls. To rememdy, a fake window and document are provided using jsdom and bootstrapped in test/util/mocha-setup.js which is required via test/mocha.opts.

With this, most everything (except code that accesses HTML5 dataset) is testable without the overhead of starting a browser.

The mocha-setup.js file can be thought of as the init script for mocha tests.

Note that because mocha is running the test files directly, it needs to use babel-register (see compilers option in mocha.opts) to execute babel on the unittests. This is why babel configuration is kept in .babelrc, so it can be shared between build and test.

End-to-end Test -- nightwatch

All end-to-end tests are under test/\* and are named with the suffix .e2e.spec.js.

Nightwatch is being used for browser-based testing. On the default configuration, PhantomJS is used as the default browser for faster testing and to prevent nightwatch from interfering with the developer's UI.

Nightwatch is a wrapper on Selenium. It is configured in config/nightwatch.js. To run a nightwatch test, 3 things need to execute:

  1. A webserver with our site
  2. The selenium server (which will spawn browsers like PhanomJS)
  3. The nightwatch client that talks to the Selenium server

End-to-end tests do not need to be restricted exclusively to selenium style tests (eg, navigate to this url, click this button, etc). At its core, it just a system for starting up and controlling web browser. For mocha tests that we want to run on real browser, either because the tests is excercising browser quriks or because the test requries features that jsdom does not provide, putting them into a e2e.spec.js file is completely valid and good.

TODO(awong): Figure out sauce labs integrations. Not all e2e tests should always be run on all browsers. That's wasteful. How do we determine what should be run on multiple browsers as opposed to on PhantomJS in Travis?

Automated Accessibility Testing -- aXe

The automated accessibility tests are contained within the test/accessibility directory. All URLs from the generated sitemap are scanned with aXe rules for 508 compliance.

Automated accessibility tests are run on the master, staging, and production branches, but they will only report, not fail, on the master branch.

Continuous Integration

Continuous integration and deployment is done via Travis CI. All of the configuration is stored in .travis.yml.

The build configuration will depend on the branch being pushed. The master branch and any feature branches will trigger a build with the default build type (development), while the staging and production branches will use the production build type.

A push to master, staging, or production will trigger additional automated accessibility testing. To run these tests locally, use $ npm run test:accessibility after ensuring you've run a current build.

Travis will build with NODE_ENV=production and test both "production" and "development" BUILDTYPE.

Deploy

Because this is a static site, deployment is simply synchronizing the generated artifacts with a remote s3 bucket. Travis handles the synchronization by using the s3-cli commandline tool.

Commits to master pushes buildtype=development to dev.vets.gov and buildtype=staging to staging.vets.gov. When absolutely necessary, such as when testing features against external services before they make their way to production, the staging environment may differ slightly from the production environment. These variations are defined in the script/webpack.config.js file along with the warning statement.

Commits to production pushes buildtype=production to www.vets.gov.

AWS access is granted to travis via the encrypted envrionment variables AWS_ACCESS_KEY and AWS_SECRET_KEY. The same access key is reused for all pushed because there is no trust boundary between the different deploys in Travis CI and in the source repository.

For exact details, look in the deployment stanza of .travis.yml.

Design Rationale and History.

tl;dr: React apps became the primary development churn. Webpack is the most natural tool which forced Node.js into the system. The site was migrated to Metalsmith from Jekyll for static content creationg to allow keeping things in one langauge. A single repository was chosen to facilitate easier code sharing.

The MVP of www.vets.gov was a 100% static content site built using Jekyll and deployed on to Github Pages. The historical repository layout was constrained by the needs of Github Pages which required all content to be at the root of the directory structure. Also, Jekyll implied a Ruby stack. At the time, it was assumed any rich behavior would be written with a standard monolithic Rails stack where render was handled server side.

With the launch of the Healthcare App, the team pivoted to use React for client side tooling. Because of the Javascript heavy nature of this development, the Node.js ecosystem centered around Webpack as the compiler for Javascript became much more natural.

Now we had two languages in the frontend with code separated into multiple repositories. This started to become a versioning headache. For example, sharing stylesheets between the sites meant having to package the Sass files twice, once in a Jekyll friendly manner and once in a Webpack friendly manner. Furthermore, multiple languages meant multiple builds and multiple pushes making it easy to desynchronize parts of the site.

A decision was made around August 2016 to create a single frontend build for easier code sharing and more consistent deploys. Metalsmith was chosen as a replacement Jekyll because it was written in Node.js and seemed reasonably well supported.

Initially the site used grunt as the task runner, but during the migration, it became clear that Metalsmith itself was enough of a dependency manager and task marshaller to not require grunt. In fact, grunt caused more problems with file watching.

And thus we ended up with one repository for content and Javascript code where Metalsmith is the top-level task runner that builds all the static pages from content/* and delgates to Webpack for Javscript and Sass compilation.

Why Metalsmith?

Metalsmith looked well supported and very flexible. There were no major technical drivers here.

Why Webpack?

Webpack seems to have become the defacto build toolkit for Javascript and Sass. Most current documentation around React is based on a Webpack toolchain.

More documentation

TODO: Verify if these are still relevant.

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