Repository for the Microservices API backend of the TerraMatch service
- Node v20.11.1. Using NVM is recommended.
- Docker
- CDK CLI (install globally)
- AWS SAM CLI
- NX (install globally)
- NestJS (install globally, useful for development)
- Copy
.env.local.sample
to.env
- On Linux systems, the DOCKER_HOST value should be
unix:///var/run/docker.sock
instead of what's in the sample.
- On Linux systems, the DOCKER_HOST value should be
- To run all services:
nx run-many -t serve
- The default maximum number of services it can run in parallel is 3. To run all of the services at once, use something like
nx run-many --parallel=100 -t serve
, or you can cherry-pick which services you want to run instead withnx run-many -t serve --projects user-service jobs-service
.
- Some useful targets have been added to the root
package.json
for service sets. For instance, to run just the services needed by the TM React front end, usenpm run fe-services
, or to run all usenpm run all
. - In
.env
in yourwri-terramatch-website
repository, set your BE connection URL correctly by noting the config in.env.local.sample
for local development.- The
NEXT_PUBLIC_API_BASE_URL
still points at the PHP BE directly - New
NEXT_PUBLIC_<SERVICE>_URL
values are needed for each service you're running locally. This will typically match the services defined inV3_NAMESPACES
insrc/generated/v3/utils.ts
.
- The
Deployment is handled via manual trigger of GitHub actions. There is one for services, and one for the ApiGateway. The ApiGateway only needs to be redeployed if its code changes; it does not need to be redeployed for updates to individual services to take effect.
Once this project is live in production, we can explore continuous deployment to at least staging and prod envs on the staging and main branches.
- In the root directory:
nx g @nx/nest:app apps/foo-service
- Set up the new
main.ts
similarly to existing services.- Make sure swagger docs and the
/health
endpoint are implemented - Pick a default local port that is unique from other services
- Make sure swagger docs and the
- In your
.env
and.env.local.sample
, add_PORT
for the new service - In
api-gateway-stack.ts
, add the new service and namespace toV3_SERVICES
- In your local web repo, follow directions in
README.md
for setting up a new service.- This step can be skipped for services that will not be used by the FE website.
- For deployment to AWS:
- Add a Dockerfile in the new app directory. A simple copy and modify from user-service is sufficient
- Add the new service name to the "service" workflow input options in
deploy-service.yml
- Add a new job to
deploy-services.yml
to include the new services in the "all" service deployment workflow.- Make sure to update the
check-services
step and follow the pattern for theif
conditions on the individual service deploy jobs.
- Make sure to update the
- In AWS:
- Add ECR repositories for each env (follow the naming scheme from user-service, e.g.
terramatch-microservices/foo-service-staging
, etc)- Set the repo to Immutable
- After creation, set a Lifecycle Policy. In lower envs, we retain the most recent 2 images, and in prod it's set to 5
- In CloudWatch, create a log group for each env (follow the naming scheme from user-service, e.g.
ecs/foo-service-staging
, etc).- TODO: the log groups could be created as part of the stack. The ECR repository is needed before the stack runs, so that will need to remain a manual process.
- Add ECR repositories for each env (follow the naming scheme from user-service, e.g.
For now, Laravel is the source of truth for all things related to the DB schema. As such, TypeORM is not allowed to modify the schema, and is expected to interface with exactly the schema that is managed by Laravel. This note is included in user.entity.ts, and should hold true for all models created in this codebase until this codebase can take over as the source of truth for DB schema:
// Note: this has some additional typing information (like width: 1 on bools and type: timestamps on
// CreateDateColumn) to make the types generated here match what is generated by Laravel exactly.
// At this time, we want TypeORM to expect exactly the same types that PHP uses by default. Tested
// by checking what schema gets generated in the test database against the real DB during unit
// test runs (the only time we let TypeORM modify the DB schema).
This codebase connects to the database running in the wri-terramatch-api
docker container. The docker-compose
file included in this repo is used only for setting up the database needed for running unit tests in Github Actions.
To set up the local testing database, run the ./bin/setup-test-database.sh
script. This script assumes that the
wri-terramatch-api
project is checked out in the same parent directory as this one. The script may be run
again at any time to clear out the test database records and schema.
setup-jest.ts
is responsible for creating the Sequelize connection for all tests. Via the sync
command, it also
creates database tables according to the schema declared in the entity.ts
files in this codebase. Care should be
taken to make sure that the schema is set up in this codebase such that the database tables are created with the same
types and indices as in the primary database controlled by the Laravel backend.
Factories may be used to create entries in the database for testing. See user.factory.ts
, and uses of UserFactory
for
an example.
To run the tests for a single app/library:
nx test user-service
ornx test common
To run the tests for the whole codebase:
nx run-many -t test --passWithNoTests
For checking coverage, simply pass the --coverage
flag:
nx test user-service --coverage
ornx run-many -t test --passWithNoTests --coverage
For apps/libraries that have tests defined, the coverage thresholds are set for the whole project in jest.preset.js