6c46cf9be1
This change adds the API endpoints, the CLI commands and the web UI elements needed to manage objects in GARMs internal storage. This storage system is meant to be used to distribute the garm-agent and as a single source of truth for provider binaries, when we will add the ability for GARM to scale out. Potentially, we can also use this in air gapped systems to distribute the runner binaries for forges that don't have their own internal storage system (like GHES). Signed-off-by: Gabriel Adrian Samfira <gsamfira@cloudbasesolutions.com> |
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|---|---|---|
| .. | ||
| assets | ||
| src | ||
| static | ||
| .env.development | ||
| .env.example | ||
| DEV_SETUP.md | ||
| openapitools.json | ||
| package-lock.json | ||
| package.json | ||
| postcss.config.js | ||
| README.md | ||
| svelte.config.js | ||
| swagger.yaml | ||
| tailwind.config.js | ||
| tsconfig.json | ||
| vite.config.ts | ||
| vitest.config.ts | ||
GARM SPA (SvelteKit)
This is a Single Page Application (SPA) implementation of the GARM web interface using SvelteKit.
Features
- Lightweight: Uses SvelteKit for minimal bundle size and fast performance
- Modern: TypeScript-first development with full type safety
- Responsive: Mobile-first design using Tailwind CSS
- Real-time: WebSocket integration for live updates
- API-driven: Uses the existing GARM REST API endpoints
Quick Start
- Clone the repository (if not already done)
git clone https://github.com/cloudbase/garm.git
cd garm
- Build and test GARM with embedded webapp
# You can skip this command if you made no changes to the webapp.
make build-webui
# builds the binary, with the web UI embedded.
make build
Make sure you enable the webui in the config:
[apiserver.webui]
enable=true
- Access the webapp
- Navigate to
http://localhost:9997/ui/(or your configured fqdn and port)
- Navigate to
Development Workflow
See the DEV_SETUP.md file.
Git Workflow
DO NOT commit the following directories:
webapp/node_modules/- Dependencies (managed by package-lock.json)webapp/.svelte-kit/- Build cache and generated fileswebapp/build/- Production build output
These are already included in .gitignore. Only commit source files in webapp/src/ and configuration files.
API Client Generation
The webapp uses auto-generated TypeScript clients from the GARM OpenAPI spec using go generate. To regenerate the clients, mocks and everything else, run:
go generate ./...
In the root folder of the project.
Note
See DEV_SETUP.md for prerequisites, before you try to generate the files.
Asset Serving
The webapp is embedded using Go's embed package in webapp/assets/assets.go:
//go:embed all:*
var EmbeddedSPA embed.FS
This allows GARM to serve the entire webapp with zero external dependencies. The webapp assets are compiled into the Go binary at build time.
Running GARM behind a reverse proxy
In production, GARM will serve the web UI and assets from the embedded files inside the binary. The web UI also relies on the events API for real-time updates.
To have a fully working experience, you will need to configure your reverse proxy to allow websocket upgrades. For an nginx example, see the sample config in the testdata folder.
Additionally, in production you can also override the default web UI that is embedded in GARM, without updating the garm binary. To do that, build the webapp, place it in the document root of nginx and create a new location /ui config in nginx. Something like the following should work:
# Place this before the proxy_pass location
location ~ ^/ui(/.*)?$ {
root /var/www/html/garm-webui/;
}
location / {
proxy_set_header X-Forwarded-For $remote_addr;
proxy_set_header X-Forwarded-Host $http_host;
proxy_pass http://garm_backend;
proxy_set_header Host $Host;
proxy_redirect off;
}
This should allow you to override the default web UI embedded in GARM without updating the GARM binary.