@neondatabase/serverless
is Neon's PostgreSQL driver for JavaScript and TypeScript. It's:
- Low-latency, thanks to message pipelining and other optimizations
- Ideal for serverless/edge deployment, using https and WebSockets in place of TCP
- A drop-in replacement for node-postgres, aka
pg
(on which it's based)
Install it with your preferred JavaScript package manager. It's named @neondatabase/serverless
on npm and @neon/serverless
on JSR. So, for example:
npm install @neondatabase/serverless
or
bunx jsr add @neon/serverless
Using TypeScript? No worries: types are included either way.
Get your connection string from the Neon console and set it as an environment variable. Something like:
DATABASE_URL=postgres://username:[email protected]/neondb
For one-shot queries, use the neon
function. For instance:
import { neon } from '@neondatabase/serverless';
const sql = neon(process.env.DATABASE_URL);
const [post] = await sql`SELECT * FROM posts WHERE id = ${postId}`;
// `post` is now { id: 12, title: 'My post', ... } (or undefined)
Note: interpolating ${postId}
here is safe from SQL injection.
Turn this example into a complete API endpoint deployed on Vercel Edge Functions at https://myapp.vercel.dev/api/post?postId=123
by following two simple steps:
- Create a new file
api/post.ts
:
import { neon } from '@neondatabase/serverless';
const sql = neon(process.env.DATABASE_URL);
export default async (req: Request, ctx: any) => {
// get and validate the `postId` query parameter
const postId = parseInt(new URL(req.url).searchParams.get('postId'), 10);
if (isNaN(postId)) return new Response('Bad request', { status: 400 });
// query and validate the post
const [post] = await sql`SELECT * FROM posts WHERE id = ${postId}`;
if (!post) return new Response('Not found', { status: 404 });
// return the post as JSON
return new Response(JSON.stringify(post), {
headers: { 'content-type': 'application/json' }
});
}
export const config = {
runtime: 'edge',
regions: ['iad1'], // specify the region nearest your Neon DB
};
- Test and deploy
npm install -g vercel # install vercel CLI
npx vercel env add DATABASE_URL # paste Neon connection string, select all environments
npx vercel dev # check working locally, then ...
npx vercel deploy
The neon
query function has a few additional options.
A query using the neon
function, as shown above, is carried by an https fetch request.
This should work — and work fast — from any modern JavaScript environment. But you can only send one query at a time this way: sessions and transactions are not supported.
Multiple queries can be issued via fetch request within a single, non-interactive transaction by using the transaction()
function. This is exposed as a property on the query function.
For example:
import { neon } from '@neondatabase/serverless';
const sql = neon(process.env.DATABASE_URL);
const showLatestN = 10;
const [posts, tags] = await sql.transaction([
sql`SELECT * FROM posts ORDER BY posted_at DESC LIMIT ${showLatestN}`,
sql`SELECT * FROM tags`,
]);
There are some additional options when using transaction()
.
Use the Pool
or Client
constructors, instead of the functions described above, when you need:
-
session or interactive transaction support, and/or
-
compatibility with node-postgres, which supports query libraries like Kysely or Zapatos.
Queries using Pool
and Client
are carried by WebSockets. There are two key things to know about this:
-
In Node.js and some other environments, there's no built-in WebSocket support. In these cases, supply a WebSocket constructor function.
-
In serverless environments such as Vercel Edge Functions or Cloudflare Workers, WebSocket connections can't outlive a single request.
That means
Pool
orClient
objects must be connected, used and closed within a single request handler. Don't create them outside a request handler; don't create them in one handler and try to reuse them in another; and to avoid exhausting available connections, don't forget to close them.
These points are demonstrated in the examples below.
-
The full API guide to
Pool
andClient
can be found in the node-postgres docs. -
There are a few additional configuration options that apply to
Pool
andClient
here.
In Node.js, it takes two lines to configure WebSocket support. For example:
import { Pool, neonConfig } from '@neondatabase/serverless';
import ws from 'ws';
neonConfig.webSocketConstructor = ws; // <-- this is the key bit
const pool = new Pool({ connectionString: process.env.DATABASE_URL });
pool.on('error', (err) => console.error(err)); // deal with e.g. re-connect
// ...
const client = await pool.connect();
try {
await client.query('BEGIN');
const {
rows: [{ id: postId }],
} = await client.query('INSERT INTO posts (title) VALUES ($1) RETURNING id', [
'Welcome',
]);
await client.query('INSERT INTO photos (post_id, url) VALUES ($1, $2)', [
postId,
's3.bucket/photo/url',
]);
await client.query('COMMIT');
} catch (err) {
await client.query('ROLLBACK');
throw err;
} finally {
client.release();
}
// ...
await pool.end();
Other WebSocket libraries are available. For example, you could replace ws
in the above example with undici
:
import { WebSocket } from 'undici';
neonConfig.webSocketConstructor = WebSocket;
We can rewrite the Vercel Edge Function shown above (under the heading 'Deploy it') to use Pool
, as follows:
import { Pool } from '@neondatabase/serverless';
// *don't* create a `Pool` or `Client` here, outside the request handler
export default async (req: Request, ctx: any) => {
// create a `Pool` inside the request handler
const pool = new Pool({ connectionString: process.env.DATABASE_URL });
try {
// get and validate the `postId` query parameter
const postId = parseInt(new URL(req.url).searchParams.get('postId'), 10);
if (isNaN(postId)) return new Response('Bad request', { status: 400 });
// query and validate the post
const { rows: [post] } = await pool.query('SELECT * FROM posts WHERE id = $1', [postId]);
if (!post) return new Response('Not found', { status: 404 });
// return the post as JSON
return new Response(JSON.stringify(post), {
headers: { 'content-type': 'application/json' }
});
} finally {
// end the `Pool` inside the same request handler
// (unlike `await`, `ctx.waitUntil` won't hold up the response)
ctx.waitUntil(pool.end());
}
}
export const config = {
runtime: 'edge',
regions: ['iad1'], // specify the region nearest your Neon DB
};
Note: we don't actually use the pooling capabilities of Pool
in this example. But it's slightly briefer than using Client
and, because Pool.query
is designed for one-shot queries, we may in future automatically route these queries over https for lower latency.
Using Client
instead, the example looks like this:
import { Client } from '@neondatabase/serverless';
// don't create a `Pool` or `Client` here, outside the request handler
export default async (req: Request, ctx: any) => {
// create a `Client` inside the request handler
const client = new Client(process.env.DATABASE_URL);
await client.connect();
try {
// get and validate the `postId` query parameter
const postId = parseInt(new URL(req.url).searchParams.get('postId'), 10);
if (isNaN(postId)) return new Response('Bad request', { status: 400 });
// query and validate the post
const { rows: [post] } = await client.query('SELECT * FROM posts WHERE id = $1', [postId]);
if (!post) return new Response('Not found', { status: 404 });
// return the post as JSON
return new Response(JSON.stringify(post), {
headers: { 'content-type': 'application/json' }
});
} finally {
// end the `Client` inside the same request handler
// (unlike `await`, `ctx.waitUntil` won't hold up the response)
ctx.waitUntil(client.end());
}
}
export const config = {
runtime: 'edge',
regions: ['iad1'], // specify the region nearest your Neon DB
};
These repos show how to use @neondatabase/serverless
with a variety of environments and tools:
- Raw SQL + Vercel Edge Functions
- Raw SQL via https + Vercel Edge Functions
- Raw SQL + Cloudflare Workers
- Kysely + Vercel Edge Functions
- Zapatos + Vercel Edge Functions
This package comes configured to connect to a Neon database. But you can also use it to connect to your own Postgres instances if you run your own WebSocket proxy.
This code is released under the MIT license.
Please visit Neon Community or Support.