The javascript module for interacting with the OpenMRS API


Keywords
openmrs, microfrontends
License
MPL-2.0
Install
npm install @openmrs/esm-api@5.8.2-pre.2479

Documentation

đź‘‹ New to our project? Be sure to review the OpenMRS 3 Frontend Developer Documentation. You may find the Introduction especially helpful.

Also see the API documentation for @openmrs/esm-framework, which is contained in this repository.

OpenMRS CI Check documentation

Below is the documentation for this repository.

OpenMRS Frontend Core

This is a monorepo containing the core packages for the OpenMRS Frontend. These packages handle cross-cutting concerns such as the configuration and extension systems, the core framework, global state management, the stlyeguide, and more.

Available Packages

Application

This contains tooling and the app shell.

Framework

The following common libraries have been developed. They may also be used independently of the app shell.

All libraries are aggregated in the @openmrs/esm-framework package:

Frontend modules

A set of frontend modules provide the core technical functionality of the application.

Development

Getting Started

To set up the repository for development, run the following commands:

yarn
yarn setup

Building

To build all packages in the repository, run the following command:

yarn build

Verification of the existing packages can also be done in one step using yarn:

yarn verify

Running the app shell and the framework

yarn run:shell

run:shell will run the latest version of the shell and the framework only.

Running the frontend modules in apps

yarn run:omrs develop --sources packages/apps/<app folder>

This will allow you to develop the app similar to the experience of developing other apps.

Running the tooling

cd packages/tooling/openmrs
yarn build
./dist/cli.js

Running tests

Unit tests

To run tests for all packages, run:

yarn turbo run test

To run tests in watch mode, run:

yarn turbo run test:watch

To run tests for a specific package, pass the package name to the --filter flag. For example, to run tests for esm-patient-conditions-app, run:

yarn turbo run test --filter="esm-patient-conditions-app"

To run a specific test file, run:

yarn turbo run test -- login

The above command will only run tests in the file or files that match the provided string.

You can also run the matching tests from above in watch mode by running:

yarn turbo run test:watch -- login.test

To generate a coverage report, run:

yarn turbo run coverage

By default, turbo will cache test runs. This means that re-running tests wihout changing any of the related files will return the cached logs from the last run. To bypass the cache, run tests with the force flag, as follows:

yarn turbo run test --force

E2E tests

To run E2E tests locally, follow these steps:

Start the Development Server

Begin by spinning up a development server for the frontend module that you want to test. Ensure the server is running before proceeding.

Set Up Environment Variables

Copy the example environment variables into a new .env file by running the following command:

cp example.env .env
Execute Tests

Run the tests with the following command:

yarn test-e2e --ui --headed

Read the e2e testing guide to learn more about End-to-End tests.

Linking the framework

You probably want to try out your changes to a framework library in a frontend module. Unfortunately, getting a working development environment for this is very finicky. No one technique works for all frontend modules all the time.

Note that even though frontend modules import from @openmrs/esm-framework, the package you need to link is the sub-library; for example, if you are trying to test changes in packages/framework/esm-api, you will need to link that sub-library.

If you're unsure whether your version of a core package is running, add a console.log at the top level of a file you're working on.

Here are the tools at your disposal for trying to get this to work:

Yarn link

This should be the first thing you try. To link the styleguide, for example, you would use

yarn link ../path/to/openmrs-esm-core/packages/framework/esm-styleguide

This will add a line to the "resolutions" section of the package.json file which uses the portal: protocol. The other protocol is link:. If you need to make changes to the esm-framework package, you will need to link it in as well. However, this does not work as a portal created with the yarn link command. Rather you will want to manually add the line to the resolutions field in the package.json file:

"resolutions": {
  "@openmrs/esm-framework": "link:../path/to/openmrs-esm-core/packages/framework/esm-framework"
}

Yalc

Sometimes, the build tooling will simply not work with yarn link. In this case, you will need to use yalc. Install yalc on your computer with:

npm install -g yalc

Then, link the repository you are working on. For esm-api, for example, run

# In this repository
cd packages/framework/esm-api
yalc publish
cd ../../../openmrs-esm-patient-chart  # for example
yalc link @openmrs/esm-api

In order for patient-chart to receive further updates you make to esm-api, you will need to run yalc push in the esm-api directory and yalc update in the patient-chart directory.

Running with a local version of the core packages

This satisfies the build tooling, but we must do one more step to get the frontend to load these dependencies at runtime.

Here, there are two options:

Method 1: Using the frontend dev server

In order to get your local version of the core packages to be served in your local dev server, you will need to link the tooling as well.

yarn link /path/to/esm-core/packages/tooling/openmrs.

You can try using yalc for this as well, if yarn link doesn't work. Or manually creating a link: resolution in package.json. In packages/shell/esm-app-shell, run yarn build:development --watch to ensure that the built app shell is updated with your changes and available to the patient chart. Then run your patient chart dev server as usual, with yarn start.

Method 2: Using import map overrides

In esm-core, start the app shell with yarn run:shell. Then, in the patient chart repository, cd into whatever packages you are working on and run yarn serve from there. Then use the import map override tool in the browser to tell the frontend to load your local patient chart packages.

Once it's working

Please note that any of these techniques will modify the package.json file. These changes must be undone before creating your PR. If you used yarn link, you can undo these changes by running yarn unlink --all in the patient chart repo.

Version and release

We use Yarn workspaces to handle versioning in this monorepo.

To increment the version, run the following command:

yarn release [version]

Where version corresponds to:

  • patch for bug fixes e.g. 3.2.0 → 3.2.1
  • minor for new features that are backwards-compatible e.g 3.2.0 → 3.3.0
  • major for breaking changes e.g. 3.2.0 → 4.0.0

Note that this command will not create a new tag, nor publish the packages. After running it, make a PR or merge to main with the resulting changeset. Note that the release commit message must resemble (chore) Release vx.x.x where x.x.x is the new version number prefixed with v.

This is because we don't want to trigger a pre-release build when effecting a version bump.

Once the version bump commit is merged, go to GitHub and draft a new release.

The tag should be prefixed with v (e.g., v3.2.1), while the release title should just be the version number (e.g., 3.2.1). The creation of the GitHub release will cause GitHub Actions to publish the packages, completing the release process.

Don't run npm publish, yarn publish, or lerna publish. Use the above process.

Design Patterns

For documentation about our design patterns, please visit our design system documentation website.

Bumping Playwright

Be sure to update the Playwright version in the Bamboo Playwright Docker image whenever making version changes. Also, ensure you specify fixed (pinned) versions of Playwright in the package.json file to maintain consistency between the Playwright version used in the Docker image for Bamboo test execution and the version used in the codebase.