react-native-firebase/docs/modules/database.md

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# Realtime Database
RNFirebase mimics the [Web Firebase SDK Realtime Database](https://firebase.google.com/docs/database/web/read-and-write), whilst
providing support for devices in low/no data connection state.
All real time Database operations are accessed via `database()`.
Basic read example:
```javascript
firebase.database()
.ref('posts')
.on('value', (snapshot) => {
const value = snapshot.val();
});
```
Basic write example:
```javascript
firebase.database()
.ref('posts/1234')
.set({
title: 'My awesome post',
content: 'Some awesome content',
});
```
## Unmounted components
Listening to database updates on unmounted components will trigger a warning:
> Can only update a mounted or mounting component. This usually means you called setState() on an unmounted component. This is a no-op. Please check the code for the undefined component.
It is important to always unsubscribe the reference from receiving new updates once the component is no longer in use.
This can be achived easily using [Reacts Component Lifecycle](https://facebook.github.io/react/docs/react-component.html#the-component-lifecycle) events:
Always ensure the handler function provided is of the same reference so RNFirebase can unsubscribe the ref listener.
```javascript
class MyComponent extends Component {
constructor() {
super();
this.ref = null;
}
// On mount, subscribe to ref updates
componentDidMount() {
this.ref = firebase.database().ref('posts/1234');
this.ref.on('value', this.handlePostUpdate);
}
// On unmount, ensure we no longer listen for updates
componentWillUnmount() {
if (this.ref) {
this.ref.off('value', this.handlePostUpdate);
}
}
// Bind the method only once to keep the same reference
handlePostUpdate = (snapshot) => {
console.log('Post Content', snapshot.val());
}
render() {
return null;
}
}
```
## Usage in offline environments
### Reading data
Firebase allows the database instance to [persist on disk](https://firebase.google.com/docs/database/android/offline-capabilities) if enabled.
To enable database persistence, pass the configuration option `persistence` before calls are made:
```javascript
const configurationOptions = {
persistence: true
};
const firebase = new RNFirebase(configurationOptions);
```
Any subsequent calls to Firebase stores the data for the ref on disk.
### Writing data
Out of the box, Firebase has great support for writing operations in offline environments. Calling a write command whilst offline
will always trigger any subscribed refs with new data. Once the device reconnects to Firebase, it will be synced with the server.
The following todo code snippet will work in both online and offline environments:
```javascript
// Assume the todos are stored as an object value on Firebase as:
// { name: string, complete: boolean }
class ToDos extends Component {
constructor() {
super();
this.ref = null;
this.listView = new ListView.DataSource({
rowHasChanged: (r1, r2) => r1 !== r2,
});
this.state = {
todos: this.listView.cloneWithRows({}),
};
// Keep a local reference of the TODO items
this.todos = {};
}
// Load the Todos on mount
componentDidMount() {
this.ref = firebase.database().ref('users/1234/todos');
this.ref.on('value', this.handleToDoUpdate);
}
// Unsubscribe from the todos on unmount
componentWillUnmount() {
if (this.ref) {
this.ref.off('value', this.handleToDoUpdate);
}
}
// Handle ToDo updates
handleToDoUpdate = (snapshot) => {
this.todos = snapshot.val() || {};
this.setState({
todos: this.listView.cloneWithRows(this.todos),
});
}
// Add a new ToDo onto Firebase
// If offline, this will still trigger an update to handleToDoUpdate
addToDo() {
firebase.database()
.ref('users/1234/todos')
.set({
...this.todos, {
name: 'Yet another todo...',
complete: false,
},
});
}
// Render a ToDo row
renderToDo(todo) {
// Dont render the todo if its complete
if (todo.complete) {
return null;
}
return (
<View>
<Text>{todo.name}</Text>
</View>
);
}
// Render the list of ToDos with a Button
render() {
return (
<View>
<ListView
dataSource={this.state.todos}
renderRow={(...args) => this.renderToDo(...args)}
/>
<Button
title={'Add ToDo'}
onPress={() => this.addToDo}
/>
<View>
);
}
```
#### Differences between `.on` & `.once`
With persistence enabled, any calls to a ref with `.once` will always read the data from disk and not contact the server.
On behaves differently, by first checking for a connection and if none exists returns the persisted data. If it successfully connects
to the server, the new data will be returned and the disk data will be updated.
The database refs has a `keepSynced()` function to tell the RNFirebase library to keep the data at the `ref` in sync.
```javascript
const ref = firebase.database
.ref('chat-messages')
.child('roomId');
ref.keepSynced(true);
```
#### Security rules and offline persistence
Bear in mind that security rules live on the firebase server and **not in the client**. In other words, when offline, your app knows nothing about your database's security rules. This can lead to unexpected behaviour, which is explained in detail in the following blog post: https://firebase.googleblog.com/2016/11/what-happens-to-database-listeners-when-security-rules-reject-an-update.html
Some examples of behaviour you may not expect but may encounter are:
- Values that should not be readable, according to your security rules, are readable if they were created on the same device.
- Values are readable even when not authenticated, if they were created on the same device.
- Locations are writable even when they should not be, according to your security rules. This is more likely to cause unwanted behaviour when your app is offline, because when it is *online* the SDK will very quickly roll back the write once the server returns a permission error.