Framework
Storage

Storage API

See LicenseNPM InstallFollow PlasmoHQ on TwitterWatch our Live DEMO every FridayJoin our Discord for support and chat about our projects

@plasmohq/storage is a utility library from plasmo (opens in a new tab) that abstracts the persistent storage API available to browser extensions. It falls back to localStorage when the extension storage API is unavailable, allowing for state sync between extension pages, content scripts, background service workers and web pages.

This library will enable the storage permission automatically if used as a dependencies in a Plasmo framework (opens in a new tab) project

Installation

pnpm install @plasmohq/storage

The package exports the following modules, in both ESM and CJS format:

ModulesDescription
@plasmohq/storageThe base Storage API
@plasmohq/storage/secureThe SecureStorage API
@plasmohq/storage/hookThe React Hook Storage API

Usage Examples

Storage

The base Storage API is designed to be easy to use. It is usable in every extension runtime such as background service workers, content scripts and extension pages.

Get/set data without the need to JSON.stringify/parse. As long as the data you are storing is serializable (plain object or of primitive type), it can be stored:

import { Storage } from "@plasmohq/storage"
 
const storage = new Storage()
 
await storage.set("key", "value")
const data = await storage.get("key") // "value"
 
await storage.set("capt", { color: "red" })
const data2 = await storage.get("capt") // { color: "red" }

Customizing the storage area

It defaults to "sync".

const storage = new Storage({
  area: "local"
})

Automatically copy data to localStorage

const storage = new Storage({
  copiedKeyList: ["shield-modulation"]
})

The code above will copy the data to Web localStorage when used with content scripts or extension pages.

Watch (for state sync)

To watch for changes when using the Storage API:

background.ts
import { Storage } from "@plasmohq/storage"
 
const storage = new Storage()
 
await storage.set("serial-number", 47)
await storage.set("make", "plasmo-corp")
 
storage.watch({
  "serial-number": (c) => {
    console.log(c.newValue)
  },
  make: (c) => {
    console.log(c.newValue)
  }
})
 
await storage.set("serial-number", 96)
await storage.set("make", "PlasmoHQ")

This can be used as a layer to communicate messages across your extension. We demonstrate this in the with-redux (opens in a new tab) example.

Secure Storage

The SecureStorage API extends Storage with data encryption and decryption for at-rest cold storage of sensitive keys. It utilizes the Web Crypto SubtleCrypto API (opens in a new tab) which only works in secure contexts (HTTPS).

import { SecureStorage } from "@plasmohq/storage/secure"
 
const storage = new SecureStorage()
 
await storage.setPassword("roosevelt") // The only diff
 
await storage.set("key", "value")
const data = await storage.get("key") // "value"
 
await storage.set("capt", { color: "red" })
const data2 = await storage.get("capt") // { color: "red" }

React Hook API

The hook API is designed to streamline the state-syncing workflow between the different pieces of an extension. There are many ways it can be used, but first and foremost you will want to import the hook into your React component:

import { useStorage } from "@plasmohq/storage/hook"

Watch and render a value

const [hailingFrequency] = useStorage("hailing")
...
{hailingFrequency}

With a custom storage instance

const [hailingFrequency] = useStorage({
  key: "hailing",
  instance: new Storage({
    area: "local"
  })
})

Rendering initial value WITHOUT persisting

"Persisting" means writing into the internal memory.

By not persisting the value, only this specific instance of the hook will render the given initial value when there is no value in storage. Other instances can either show undefined OR specify their own initial value. To elaborate on this:

Given a popup.tsx that sets a static initial value:

popup.tsx
const [hailingFrequency, setHailingFrequency] = useStorage("hailing", "42")
...
<input value={hailingFrequency} onChange={(e) =>
  setHailingFrequency(e.target.value)
  }/> // "42"

If we subscribe to this key in content.tsx, we will see it be undefined until setHailingFrequency is called with a defined value:

content.tsx
const [hailingFrequency] = useStorage("hailing")
 
return <p>{hailingFrequency}</p> // undefined

If we subscribe to this key in options.tsx, but with a different static initial value, we will see that value instead:

options.tsx
const [hailingFrequency] = useStorage("hailing", "147")
 
return <p>{hailingFrequency}</p> // "147"

With the above setup, suppose we call setHailingFrequency("8472") in any of the instances above, we will see that all instances will now show "8472" and will now track the value in storage instead of the initial value.

Rendering AND persisting initial value

By using a function instead of a static value, the initial value will be persisted in storage memory. The initialize function has one parameter which is the existing value in storage. If there is no value, it is undefined.

Let's say we have a popup.tsx that initialize the state to "42" if there is nothing in storage:

popup.tsx
const [hailingFrequency, setHailingFrequency] = useStorage("hailing", (v) => v === undefined ? "42": v)
...
{hailingFrequency} // "42"

Then, if we make a new hook instance in our content.tsx or options.tsx, we will see the initial value that persisted, without calling setHailingFrequency:

content.tsx
const [hailingFrequency] = useStorage("hailing")
 
return <p>{hailingFrequency}</p> // "42"

Advanced usage

When dealing with form input or real-time input, you might need the following:

const [hailingFrequency, setHailingFrequency, {
  setRenderValue,
  setStoreValue,
  remove
}] = useStorage("hailing")
 
return <>
  <input value={hailingFrequency} onChange={(e) => setRenderValue(e.target.value)}/>
  <button onClick={() => setStoreValue()}>
    Save
  </button>
  <button onClick={() => remove()}>
    Remove
  </button>
</>