Corvette is an EVM event monitoring and indexing service, written for Deno TypeScript runtime for effortless deployments.
To run Corvette, you must have Deno and Node.js with corepack enabled installed (for Prisma client generation, until Prisma supports Deno natively.)
- Install instructions for Deno:
https://deno.land/manual/getting_started/installation
- Deno is essentially a single binary executable.
- Install instructions for Node.js:
https://nodejs.org/en/download/package-manager
- After installing Node.js, you have to enable
corepack
to haveyarn
available: https://nodejs.org/api/corepack.html#enabling-the-feature - Depending on your OS, your Node.js installation may not have
corepack
included. In that case, you must installyarn
separately with your package manager.
- After installing Node.js, you have to enable
Before you can run the components, you must apply the database migrations to
your DB. Adjust the database provider in prisma/schema.prisma
, copy the
configuration from the example .env.example
to .env
, and configure
DATABASE_URL
accordingly. Only SQLite (for development only) and PostgreSQL
has been tested at the moment.
After database configuration, run deno task prisma db push
. Your database
will be populated with required tables.
A convenience script (app.ts
) for running all the components (except for web
at the moment) is provided, along with a deno task (deno task serve
) that
runs this script with required permissions. After applying the database
migrations and configuring .env
, start the components with deno task serve
.
The database will automatically be connected with the default configuration.
The script will also launch an instance of an embedded AMQP broker
(https://deno.land/x/lop/mod.ts) and a webhook receiver for testing
(testWebhookReceiver.ts
) on http://localhost:8888.
The web component can be started with deno task serve-web
.
The components will be started using the configuration defined in .env
file
by default. The configuration may also be overrided by providing the
environment variables in the command line (such as
BLOCK_FINALITY=finalized deno task serve
.)
The components (observer.ts
, emitter.ts
, api.ts
, web/main.ts
) can be
started independently, by calling them with deno run
. Refer to Dockerfile
for each components' minimum required permissions. Also, multiple instances
of the same components sharing the same network, DB, and message queue may also
be run simultaneously to achieve failsafe and/or load balancing.
Before running the components, you must generate the Prisma client. You must do
this each time you change the prisma/schema.prisma
file or Prisma version.
Generate the client with deno task prisma generate
. You must also prepare the
database and configure the components accordingly.
You also need an AMQP 0-9-1 compliant message broker (such as RabbitMQ.) For
testing, you may also use lop, which is run
when running the application with deno task serve
:
deno run -A https://deno.land/x/lop/mod.ts
.
To configure each of the components with different configurations, you may need multiple copies of the application directory, or you may also provide the configuration as environment variables.
You can run each components like the following:
deno run -A observer.ts
.
You may also run the application with Docker. A Dockerfile
along with
docker-compose.yml
is provided for suggesting image building procedures and
container composition. You may build the images with docker compose build
.
A VERSION
environment variable can be specified to set the version metadata
and the tag version for the images. The images will be built with the tag
ghcr.io/planetarium/corvette-*
.
Then, you may run the containers from the images with docker compose up
. By
default, an instance of PostgreSQL
and RabbitMQ
will be brought up along
with the components, with the data in docker-compose-data
directory.
You may also see and modify the composition of the containers in
docker-compose.yml
file. A prebuilt docker image of each of the versions and
commits in the main
branch will be available in the GitHub Container
Registry:
- https://github.com/planetarium/Corvette/pkgs/container/corvette-observer
- https://github.com/planetarium/Corvette/pkgs/container/corvette-emitter
- https://github.com/planetarium/Corvette/pkgs/container/corvette-api
- https://github.com/planetarium/Corvette/pkgs/container/corvette-web
To use these images with the provided docker-compose.yml
file, remove the
build
sections of each of the containers and replace the tag with the
published tags. Note that these containers are made to use PostgreSQL for the
database.