Quickstart
Let's get you up-and-running with Electric and real-time sync of your Postgres data.
First we'll setup Electric and show you how to use the low-level HTTP API directly. Then we'll create a simple React app using our higher-level TypeScript client.
Setup
We're going to run a fresh Postgres and Electric using Docker Compose. First create a new folder to work in:
mkdir my-first-electric
cd my-first-electric
Then download and run this docker-compose.yaml file:
curl -O https://electric-sql.com/docker-compose.yaml
docker compose up
You can now start using Electric!
HTTP API
First let's try the low-level HTTP API.
In a new terminal, use curl
to request a Shape containing all rows in the foo
table:
curl -i 'http://localhost:3000/v1/shape/foo?offset=-1'
A bit of explanation about the URL structure.
/v1/shape/
is a standard prefix with the API version and the shape sync endpoint pathfoo
is the name of theroot_table
of the shape (and is required); if you wanted to sync data from theitems
table, you would change the path to/v1/shape/items
offset=-1
means we're asking for the entire Shape as we don't have any of the data cached locally yet. If we had previously fetched the shape and wanted to see if there were any updates, we'd set the offset to the last offset we'd already seen.
You should get a response like this:
HTTP/1.1 400 Bad Request
date: Thu, 18 Jul 2024 10:36:01 GMT
content-length: 34
vary: accept-encoding
cache-control: max-age=0, private, must-revalidate
x-request-id: F-NISWIE1CJTnIgAAADQ
access-control-allow-origin: *
access-control-expose-headers: *
access-control-allow-methods: GET, POST, OPTIONS
content-type: application/json; charset=utf-8
{"root_table":["table not found"]}
So it didn't work! Which makes sense... as it's an empty database without any tables or data. Let's fix that.
Create a table and insert some data
Use a Postgres client to connect to Postgres. For example, with psql you can run:
psql "postgresql://postgres:password@localhost:54321/electric"
Then create a foo
table
CREATE TABLE foo (
id SERIAL PRIMARY KEY,
name VARCHAR(255),
value FLOAT
);
And insert some rows:
INSERT INTO foo (name, value) VALUES
('Alice', 3.14),
('Bob', 2.71),
('Charlie', -1.618),
('David', 1.414),
('Eve', 0);
Now try the curl command again
Exit your Postgres client (e.g.: with psql
enter \q
) and try the curl
request again:
curl -i 'http://localhost:3000/v1/shape/foo?offset=-1'
Success! You should see the data you just put into Postgres in the shape response:
HTTP/1.1 200 OK
date: Thu, 18 Jul 2024 10:49:12 GMT
content-length: 643
vary: accept-encoding
cache-control: max-age=60, stale-while-revalidate=300
x-request-id: F-NJAXyulHAQP2MAAABN
access-control-allow-origin: *
access-control-expose-headers: *
access-control-allow-methods: GET, POST, OPTIONS
content-type: application/json; charset=utf-8
x-electric-shape-id: 3833821-1721299734314
x-electric-chunk-last-offset: 0_0
x-electric-schema: {"id":{"type":"int4","pk_index":0},"name":{"type":"varchar","max_length":255},"value":{"type":"float8"}}
etag: 3833821-1721299734314:-1:0_0
[{"offset":"0_0","value":{"id":"1","name":"Alice","value":"3.14"},"key":"\"public\".\"foo\"/1","headers":{"operation"
:"insert"}},{"offset":"0_0","value":{"id":"2","name":"Bob","value":"2.71"},"key":"\"public\".\"foo\"/2","headers":
{"operation":"insert"}},{"offset":"0_0","value":{"id":"3","name":"Charlie","value":"-1.618"},"key":"\"public\".\"foo\
"/3","headers":{"operation":"insert"}},{"offset":"0_0","value":{"id":"4","name":"David","value":"1.414"},"key":"\"pub
lic\".\"foo\"/4","headers":{"operation":"insert"}},{"offset":"0_0","value":{"id":"5","name":"Eve","value":"0.0"},"key
":"\"public\".\"foo\"/5","headers":{"operation":"insert"}},{"headers":{"control":"up-to-date"}}]
What are those messages in the response data?
When you request shape data using the HTTP API you're actually requesting entries from a log of database operations affecting the data in the shape. This is called the Shape Log.
The offset
that you see in the messages and provide as the ?offset=...
query parameter in your request identifies a position in the log. The messages you see in the response are shape log entries (the ones with value
s and operation
headers) and control messages (the ones with control
headers).
At this point, you could continue to fetch data using HTTP requests. However, let's switch up to fetch the same shape to use in a React app instead.
React app
Run the following to create a standard React app:
npm create --yes vite@latest react-app -- --template react-ts
Change into the react-app
subfolder and install the @electric-sql/react
package:
cd react-app
npm install @electric-sql/react
Replace the contents of src/App.tsx
with the following. Note that we're requesting the same shape as before:
import { useShape } from '@electric-sql/react'
function Component() {
const { data } = useShape({
url: `http://localhost:3000/v1/shape/foo`,
})
return (
<pre>{ JSON.stringify(data) }</pre>
)
}
export default Component
Finally run the dev server to see it all in action!
npm run dev
Navigate to http://localhost:5173 in your web browser. You should see output like this:
[
{
"id": 1,
"name": "Alice",
"value": 3.14
},
{
"id": 2,
"name": "Bob",
"value": 2.71
},
{
"id": 3,
"name": "Charlie",
"value": -1.618
},
{
"id": 4,
"name": "David",
"value": 1.414
},
{
"id": 5,
"name": "Eve",
"value": 0
}
]
Postgres as a real-time database
Note that the row with id 2
has the name "Bob"
. Go back to your Postgres client and update the name of that row. It'll instantly be synced to your component!
UPDATE foo SET name = 'James' WHERE id = 2;
Congratulations! You've built your first real-time, reactive Electric app!