JavaScript IndexedDB
Summary: in this tutorial, you’ll learn about the IndexedDB and how to use it to persistently store data inside the browser.
What is indexedDB
IndexedDB is a large-scale object store built into the browser.
The IndexedDB allows you to persistently store the data using key-value pairs.
The values can be any JavaScript type including boolean, number, string, undefined, null, date, object, array, regex, blob, and files.
Why indexedDB
IndexedDB allows you to create web applications that can work both online and offline.
It’s useful for applications that store a large amount of data and don’t need a persistent internet connection.
For example, Google Docs uses the IndexedDB to store the cached documents in the browser and synchronizes with the server once in a while. This allows Google Docs to increase performance while enhancing user experiences.
And you’ll find other types of applications that heavily use IndexedDB like online notepads, quizzes, todo lists, code sandboxes, and CMS.
IndexedDB structure
The following picture illustrates the structure of the IndexedDB:
Databases
A database is the highest level of IndexedDB. A database contains one or more object stores.
The IndexedDB can have one or more databases. Generally, you’ll create one database per web application.
Object stores
An object store is a bucket that you can use to store the data and associated indexes. It’s conceptually equivalent to the tables in SQL databases.
An object store contains the records stored as key-value pairs.
Indexes
Indexes allow you to query data by the properties of the objects.
Technically, you create indexes on object stores, which are called parent object stores.
For example, if you store the contact information, you may want to create indexes on email, first name, and last name so that you can query the contacts by these properties.
Basic IndexedDB concepts
The following briefly introduces the basic concepts in the IndexedDB:
1) IndexedDB databases store key-value pairs
Unlike localStorage and sessionStorage, the values stored in the IndexedDB can be complex structures like objects and blob.
Also, keys can be the properties of these objects or can be binary objects.
For quick searching and sorting, you can create indexes that use any property of the objects.
2) IndexedDB is transactional
Every read from and write to the IndexedDB databases always happens in a transaction.
The transactional model ensures the data integrity in case users open the web application in two tabs/windows at the same time and perform the read from and write to the same database.
3) IndexedDB API is mostly asynchronous
IndexedDB operations are asynchronous. It uses DOM events to notify you when an operation completes and the result is available.
4) IndexedDB is a NoSQL system
The IndexedDB is a NoSQL system. In other words, it doesn’t use SQL to query data. Instead, it uses the query that returns a cursor. Then, you can use the cursor to iterate the result set.
5) IndexedDB follows the same-origin policy
An origin is a domain, protocol, and port of a URL of the document where the code executes. For example https://python-tutorials.in/
:
- domain: javascripttutorial.net
- protocol: https
- port: 443
The https://python-tutorials.in/javascript-indexeddb/
and https://python-tutorials.in/
are the same origin because they have the same domain, protocol, and port.
However, the http://www.javascripttutorial.net/
and https://www.javascripttutorial.net/
aren’t the same origin since they have different protocols and ports:
https://python-tutorials.in/ | http://python-tutorials.in/ | |
---|---|---|
Protocol | https | http |
Port | 443 | 80 |
IndexedDB adheres to the same-origin policy. It means that each origin has its own set of databases. And one origin cannot access databases from other origins.
Basic IndexedDB operations
The following describes the basic operations on the IndexedDB databases such as
- Opening a connection to a database.
- Inserting an object into the object store.
- Reading data from the object store.
- Using a cursor to iterate over a result set.
- Deleting an object from the object store.
Before opening a connection to a database in the IndexedDB, let’s create the project structure first.
1) Create the project structure
First, create a new folder called indexeddb
folder. Inside the indexeddb
folder, create another subfolder called js
.
Second, create the index.html
in the indexeddb
folder, app.js
in the js
folder.
Third, place the <script>
tag that links to the app.js
file in the index.html
file like this:
<html lang="en">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>IndexedDB</title>
</head>
<body>
<script src="js/app.js"></script>
</body>
</html>
Code language: HTML, XML (xml)
In app.js, you’ll place all the JavaScript code in an IIFE.
(function () {
// all the code will be here
// ...
})();
Code language: JavaScript (javascript)
1) Check if the IndexedDB is supported
The following code checks if a web browser supports the IndexedDB:
if (!window.indexedDB) {
console.log(`Your browser doesn't support IndexedDB`);
return;
}
Code language: JavaScript (javascript)
Since most modern web browsers support the IndexedDB, this may not be necessary anymore.
2) Open a database
To open a connection to a database, you use the open()
method of the window.indexedDB
:
const request = indexedDB.open('CRM', 1);
Code language: JavaScript (javascript)
The open()
method accepts two arguments:
- The database name (
CRM
) - The database version (
1
)
The open()
method returns a request object which is an instance of the IDBOpenDBRequest
interface.
When you call the open()
method, it can succeed or fail. To handle each case, you can assign the corresponding event handler as follows:
request.onerror = (event) => {
console.error(`Database error: ${event.target.errorCode}`);
};
request.onsuccess = (event) => {// add implementation here
};
Code language: JavaScript (javascript)
3) Create object stores
When you open the database for the first time, the onupgradeneeded
event will trigger.
If you open the database for the second time with a version higher than the existing version, the onupgradeneeded
event also triggers.
For the first time, you can use the onupgradeneeded
event handler to initialize the object stores and indexes.
For example, the following onupgradeneeded
event handler creates the Contacts
object store and its index.
// create the Contacts object store and indexes
request.onupgradeneeded = (event) => {
let db = event.target.result;
// create the Contacts object store // with auto-increment id
let store = db.createObjectStore(‘Contacts’, {
autoIncrement: true
});
// create an index on the email property
let index = store.createIndex(’email’, ’email’, {
unique: true
});
};
Code language: JavaScript (javascript)
How it works.
- First, get the
IDBDatabase
instance from theevent.target.result
and assign it to thedb
variable. - Second, call the
createObjectStore()
method to create theContacts
object store with theautoincrement
key. It means that the IndexedDB will generate an auto-increment number starting at one as the key for every new object inserted into theContacts
object store. - Third, call the
createIndex()
method to create an index on theemail
property. Since the email is unique, the index should also be unique. To do so, you specify the third argument of thecreateIndex()
method{ unique: true }
.
4) Insert data into object stores
Once you open a connection to the database successfully, you can manage data in the onsuccess
event handler.
For example, to add an object to an object store, you follow these steps:
- First, open a new transaction.
- Second, get an object store.
- Third, call the
put()
method of the object store to insert a new record. - Finally, close the connection to the database once the transaction completes.
The following insertContact()
function inserts a new contact into the Contacts
object store:
function insertContact(db, contact) {
// create a new transaction
const txn = db.transaction('Contacts', 'readwrite');
// get the Contacts object storeconst store = txn.objectStore(‘Contacts’);
//
let query = store.put(contact);
// handle success case
query.onsuccess = function (event) {
console.log(event);
};
// handle the error case
query.onerror = function (event) {
console.log(event.target.errorCode);
}
// close the database once the
// transaction completes
txn.oncomplete = function () {
db.close();
};
}
Code language: JavaScript (javascript)
To create a new transaction, you call the transaction()
method of the IDBDatabase
object.
You can open a transaction in one of two modes: readwrite
or readonly
. The readwrite
mode allows you to read data from and write data to the database while the readonly
mode allows you to only read data from the database.
It’s a good practice to open a readonly
transaction if you need to read data from a database only.
After defining the insertContact()
function, you can call it in the onsuccess
event handler of the request to insert one or more contacts like this:
request.onsuccess = (event) => {
const db = event.target.result;
insertContact(db, {email: ‘john.doe@outlook.com’,
firstName: ‘John’,
lastName: ‘Doe’
});
insertContact(db, {
email: ‘jane.doe@gmail.com’,
firstName: ‘Jane’,
lastName: ‘Doe’
});
};
Code language: JavaScript (javascript)
Now, if you open the index.html
file in the web browser, the code in the app.js will execute to:
- Create the
CRM
database in the IndexedDB. - Create the
Contacts
object store in theCRM
database. - Insert two records into the object store.
5) Read data from the object store by key
To read an object by its key, you use the get()
method of the object store. The following getContactById()
function finds a contact by an id:
function getContactById(db, id) {
const txn = db.transaction('Contacts', 'readonly');
const store = txn.objectStore('Contacts');
let query = store.get(id);
query.onsuccess = (event) => {
if (!event.target.result) {
console.log(`The contact with ${id} not found`);
} else {
console.table(event.target.result);
}
};
query.onerror = (event) => {
console.log(event.target.errorCode);
}
txn.oncomplete = function () {
db.close();
};
};
Code language: JavaScript (javascript)
When you call the get() method of the object store, it returns a query that will execute asynchronously.
Because the query can succeed or fail, you need to assign the onsuccess
and onerror
handlers to handle each case.
If the query succeeded, you’ll get the result in the event.target.result. Otherwise, you’ll get an error code via event.target.errorCode.
The following code closes the connection to the database once the transaction completes:
txn.oncomplete = function () {
db.close();
};
Code language: JavaScript (javascript)
Actually, the database connection is closed only when all the transactions are completed.
The following calls the getContactById()
in the onsuccess
event handler to get the contact with id 1:
request.onsuccess = (event) => {
const db = event.target.result;
getContactById(db, 1);
};
Code language: JavaScript (javascript)
6) Read data from the object store by an index
The following defines a new function called getContactByEmail()
that uses the email index to query data:
function getContactByEmail(db, email) {
const txn = db.transaction('Contacts', 'readonly');
const store = txn.objectStore('Contacts');
// get the index from the Object Storeconst index = store.index(’email’);
// query by indexes
let query = index.get(email);
// return the result object on success
query.onsuccess = (event) => {
console.log(query.result); // result objects
};
query.onerror = (event) => {
console.log(event.target.errorCode);
}
// close the database connection
txn.oncomplete = function () {
db.close();
};
}
Code language: JavaScript (javascript)
How it works.
- First, get the email index object from the
Contacts
object store. - Second, use the index to read the data by calling the
get()
method. - Third, show the result in the
onsuccess
event handler of the query.
The following illustrates how to use the getContactByEmail()
function in the onsuccess
event handler:
request.onsuccess = (event) => {
const db = event.target.result;
// get contact by email
getContactByEmail(db, 'jane.doe@gmail.com');
};
Code language: JavaScript (javascript)
7) Read all data from an object store
The following shows how to use a cursor to read all the objects from the Contacts
object store:
function getAllContacts(db) {
const txn = db.transaction('Contacts', "readonly");
const objectStore = txn.objectStore('Contacts');
objectStore.openCursor().onsuccess = (event) => {let cursor = event.target.result;
if (cursor) {
let contact = cursor.value;
console.log(contact);
// continue next record
cursor.continue();
}
};
// close the database connection
txn.oncomplete = function () {
db.close();
};
}
Code language: JavaScript (javascript)
The objectStore.openCursor()
returns a cursor used to iterate over an object store.
To iterate over the objects in an object store using the cursor, you need to assign an onsuccess
handler:
objectStore.openCursor().onsuccess = (event) => {
//...
};
Code language: JavaScript (javascript)
The event.target.result
returns the cursor. To get the data, you use the cursor.value
property.
The cursor.continue()
method advances the cursor to the position of the next record in the object store.
The following calls the getAllContacts()
in the onsuccess
event handler to show all data from the Contacts
object store:
request.onsuccess = (event) => {
const db = event.target.result;
// get all contacts
getAllContacts(db);
};
Code language: JavaScript (javascript)
8) Delete a contact
To delete a record from the object store, you use the delete()
method of the object store.
The following function deletes a contact by its id from the Contacts
object store:
function deleteContact(db, id) {
// create a new transaction
const txn = db.transaction('Contacts', 'readwrite');
// get the Contacts object storeconst store = txn.objectStore(‘Contacts’);
//
let query = store.delete(id);
// handle the success case
query.onsuccess = function (event) {
console.log(event);
};
// handle the error case
query.onerror = function (event) {
console.log(event.target.errorCode);
}
// close the database once the
// transaction completes
txn.oncomplete = function () {
db.close();
};
}
Code language: JavaScript (javascript)
And you can call the deleteContact()
function in the onsuccess
event handler to delete the contact with id 1 as follows:
request.onsuccess = (event) => {
const db = event.target.result;
deleteContact(db, 1);
};
Code language: JavaScript (javascript)
If you run the code, you’ll find that the contact with id 1 will be deleted.
Put it all together
The following shows the complete app.js file:
(function () {
// check for IndexedDB support
if (!window.indexedDB) {
console.log(`Your browser doesn't support IndexedDB`);
return;
}
// open the CRM database with the version 1const request = indexedDB.open(‘CRM’, 1);
// create the Contacts object store and indexes
request.onupgradeneeded = (event) => {
let db = event.target.result;
// create the Contacts object store
// with auto-increment id
let store = db.createObjectStore(‘Contacts’, {
autoIncrement: true
});
// create an index on the email property
let index = store.createIndex(’email’, ’email’, {
unique: true
});
};
// handle the error event
request.onerror = (event) => {
console.error(`Database error: ${event.target.errorCode}`);
};
// handle the success event
request.onsuccess = (event) => {
const db = event.target.result;
// insert contacts
// insertContact(db, {
// email: ‘john.doe@outlook.com’,
// firstName: ‘John’,
// lastName: ‘Doe’
// });
// insertContact(db, {
// email: ‘jane.doe@gmail.com’,
// firstName: ‘Jane’,
// lastName: ‘Doe’
// });
// get contact by id 1
// getContactById(db, 1);
// get contact by email
// getContactByEmail(db, ‘jane.doe@gmail.com’);
// get all contacts
// getAllContacts(db);
deleteContact(db, 1);
};
function insertContact(db, contact) {
// create a new transaction
const txn = db.transaction(‘Contacts’, ‘readwrite’);
// get the Contacts object store
const store = txn.objectStore(‘Contacts’);
//
let query = store.put(contact);
// handle success case
query.onsuccess = function (event) {
console.log(event);
};
// handle the error case
query.onerror = function (event) {
console.log(event.target.errorCode);
}
// close the database once the
// transaction completes
txn.oncomplete = function () {
db.close();
};
}
function getContactById(db, id) {
const txn = db.transaction(‘Contacts’, ‘readonly’);
const store = txn.objectStore(‘Contacts’);
let query = store.get(id);
query.onsuccess = (event) => {
if (!event.target.result) {
console.log(`The contact with ${id} not found`);
} else {
console.table(event.target.result);
}
};
query.onerror = (event) => {
console.log(event.target.errorCode);
}
txn.oncomplete = function () {
db.close();
};
};
function getContactByEmail(db, email) {
const txn = db.transaction(‘Contacts’, ‘readonly’);
const store = txn.objectStore(‘Contacts’);
// get the index from the Object Store
const index = store.index(’email’);
// query by indexes
let query = index.get(email);
// return the result object on success
query.onsuccess = (event) => {
console.table(query.result); // result objects
};
query.onerror = (event) => {
console.log(event.target.errorCode);
}
// close the database connection
txn.oncomplete = function () {
db.close();
};
}
function getAllContacts(db) {
const txn = db.transaction(‘Contacts’, “readonly”);
const objectStore = txn.objectStore(‘Contacts’);
objectStore.openCursor().onsuccess = (event) => {
let cursor = event.target.result;
if (cursor) {
let contact = cursor.value;
console.log(contact);
// continue next record
cursor.continue();
}
};
// close the database connection
txn.oncomplete = function () {
db.close();
};
}
function deleteContact(db, id) {
// create a new transaction
const txn = db.transaction(‘Contacts’, ‘readwrite’);
// get the Contacts object store
const store = txn.objectStore(‘Contacts’);
//
let query = store.delete(id);
// handle the success case
query.onsuccess = function (event) {
console.log(event);
};
// handle the error case
query.onerror = function (event) {
console.log(event.target.errorCode);
}
// close the database once the
// transaction completes
txn.oncomplete = function () {
db.close();
};
}
})();
Code language: JavaScript (javascript)
Summary
- The IndexedDB is a large-scale object stored in web browsers.
- The IndexedDB stores data as key-value pairs. The values can be any data including simple and complex ones.
- The IndexedDB consists of one or more databases. Each database has one or more object stores. Typically, you create a database in the IndexedDB per web application.
- The IndexedDB is useful for web applications that don’t require a persistent internet connection, especially for applications that work both online and offline.