a6aec1cd9c
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Introduce configurable scanner resource limits and timeouts across frontend and backend. Adds new config fields (scanTimeoutMinutes, bulkTimeoutMinutes, scannerMemoryMB, scannerPidsLimit) with defaults (20, 120, 2048, 512) and environment/file overrides; persists settings in DB and merges file/env values. Frontend: expose controls for timeouts, memory and PID limits. Backend: add parsing, manager/file config support, model fields, and DB save/load updates. Add docker_io helpers to pull images with progress, ensure cache volumes, build host configs, stream container stdout to disk (with stderr tail capture and ring buffer) and unit tests. Refactor Grype/Trivy/Syft SBOM flows to stream outputs to files, apply resource limits, use cache volumes, and add heartbeat/progress updates to keep memory usage low for large scans. |
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| .. | ||
| public | ||
| src | ||
| .cta.json | ||
| .cursorrules | ||
| .dockerignore | ||
| .gitignore | ||
| biome.json | ||
| bun.lock | ||
| components.json | ||
| index.html | ||
| package.json | ||
| README.md | ||
| tsconfig.json | ||
| vite.config.ts | ||
| vitest.config.ts | ||
Welcome to your new TanStack app!
Getting Started
To run this application:
bun install
bun --bun run start
Building For Production
To build this application for production:
bun --bun run build
Testing
This project uses Vitest for testing. You can run the tests with:
bun --bun run test
Styling
This project uses Tailwind CSS for styling.
Linting & Formatting
This project uses Biome for linting and formatting. The following scripts are available:
bun --bun run lint
bun --bun run format
bun --bun run check
Shadcn
Add components using the latest version of Shadcn.
pnpx shadcn@latest add button
Routing
This project uses TanStack Router. The initial setup is a file based router. Which means that the routes are managed as files in src/routes.
Adding A Route
To add a new route to your application just add another a new file in the ./src/routes directory.
TanStack will automatically generate the content of the route file for you.
Now that you have two routes you can use a Link component to navigate between them.
Adding Links
To use SPA (Single Page Application) navigation you will need to import the Link component from @tanstack/react-router.
import { Link } from "@tanstack/react-router";
Then anywhere in your JSX you can use it like so:
<Link to="/about">About</Link>
This will create a link that will navigate to the /about route.
More information on the Link component can be found in the Link documentation.
Using A Layout
In the File Based Routing setup the layout is located in src/routes/__root.tsx. Anything you add to the root route will appear in all the routes. The route content will appear in the JSX where you use the <Outlet /> component.
Here is an example layout that includes a header:
import { Outlet, createRootRoute } from '@tanstack/react-router'
import { TanStackRouterDevtools } from '@tanstack/react-router-devtools'
import { Link } from "@tanstack/react-router";
export const Route = createRootRoute({
component: () => (
<>
<header>
<nav>
<Link to="/">Home</Link>
<Link to="/about">About</Link>
</nav>
</header>
<Outlet />
<TanStackRouterDevtools />
</>
),
})
The <TanStackRouterDevtools /> component is not required so you can remove it if you don't want it in your layout.
More information on layouts can be found in the Layouts documentation.
Data Fetching
There are multiple ways to fetch data in your application. You can use TanStack Query to fetch data from a server. But you can also use the loader functionality built into TanStack Router to load the data for a route before it's rendered.
For example:
const peopleRoute = createRoute({
getParentRoute: () => rootRoute,
path: "/people",
loader: async () => {
const response = await fetch("https://swapi.dev/api/people");
return response.json() as Promise<{
results: {
name: string;
}[];
}>;
},
component: () => {
const data = peopleRoute.useLoaderData();
return (
<ul>
{data.results.map((person) => (
<li key={person.name}>{person.name}</li>
))}
</ul>
);
},
});
Loaders simplify your data fetching logic dramatically. Check out more information in the Loader documentation.
React-Query
React-Query is an excellent addition or alternative to route loading and integrating it into you application is a breeze.
First add your dependencies:
bun install @tanstack/react-query @tanstack/react-query-devtools
Next we'll need to create a query client and provider. We recommend putting those in main.tsx.
import { QueryClient, QueryClientProvider } from "@tanstack/react-query";
// ...
const queryClient = new QueryClient();
// ...
if (!rootElement.innerHTML) {
const root = ReactDOM.createRoot(rootElement);
root.render(
<QueryClientProvider client={queryClient}>
<RouterProvider router={router} />
</QueryClientProvider>
);
}
You can also add TanStack Query Devtools to the root route (optional).
import { ReactQueryDevtools } from "@tanstack/react-query-devtools";
const rootRoute = createRootRoute({
component: () => (
<>
<Outlet />
<ReactQueryDevtools buttonPosition="top-right" />
<TanStackRouterDevtools />
</>
),
});
Now you can use useQuery to fetch your data.
import { useQuery } from "@tanstack/react-query";
import "./App.css";
function App() {
const { data } = useQuery({
queryKey: ["people"],
queryFn: () =>
fetch("https://swapi.dev/api/people")
.then((res) => res.json())
.then((data) => data.results as { name: string }[]),
initialData: [],
});
return (
<div>
<ul>
{data.map((person) => (
<li key={person.name}>{person.name}</li>
))}
</ul>
</div>
);
}
export default App;
You can find out everything you need to know on how to use React-Query in the React-Query documentation.
State Management
Another common requirement for React applications is state management. There are many options for state management in React. TanStack Store provides a great starting point for your project.
First you need to add TanStack Store as a dependency:
bun install @tanstack/store
Now let's create a simple counter in the src/App.tsx file as a demonstration.
import { useStore } from "@tanstack/react-store";
import { Store } from "@tanstack/store";
import "./App.css";
const countStore = new Store(0);
function App() {
const count = useStore(countStore);
return (
<div>
<button onClick={() => countStore.setState((n) => n + 1)}>
Increment - {count}
</button>
</div>
);
}
export default App;
One of the many nice features of TanStack Store is the ability to derive state from other state. That derived state will update when the base state updates.
Let's check this out by doubling the count using derived state.
import { useStore } from "@tanstack/react-store";
import { Store, Derived } from "@tanstack/store";
import "./App.css";
const countStore = new Store(0);
const doubledStore = new Derived({
fn: () => countStore.state * 2,
deps: [countStore],
});
doubledStore.mount();
function App() {
const count = useStore(countStore);
const doubledCount = useStore(doubledStore);
return (
<div>
<button onClick={() => countStore.setState((n) => n + 1)}>
Increment - {count}
</button>
<div>Doubled - {doubledCount}</div>
</div>
);
}
export default App;
We use the Derived class to create a new store that is derived from another store. The Derived class has a mount method that will start the derived store updating.
Once we've created the derived store we can use it in the App component just like we would any other store using the useStore hook.
You can find out everything you need to know on how to use TanStack Store in the TanStack Store documentation.
Demo files
Files prefixed with demo can be safely deleted. They are there to provide a starting point for you to play around with the features you've installed.
Learn More
You can learn more about all of the offerings from TanStack in the TanStack documentation.