Native Passkeys on iOS 15.0+ and Android API 28+ using React Native.
You can find an example backend for testing here.
For the javascript part of the installation you need to run
npm install react-native-passkeyor
yarn add react-native-passkeyFor the native part of the installation you need to run
cd ios && pod installin the root of your React Native project.
There are iOS specific steps you need to go through in order to configure Passkey support. If you have already set up an associated domain for your application you can skip this step.
Set up an associated domain for your application (More info)
-
You need to associate a domain with your application. On your webserver set up this route:
GET https://<yourdomain>/.well-known/apple-app-site-association -
This route should serve a static JSON object containing your team id and bundle identifier. Example (replace XXXXXXXXXX with your team identifier and the rest with your bundle id, e.g. "H123456789.com.mtrx0.passkeyExample"):
{ "applinks": {}, "webcredentials": { "apps": ["XXXXXXXXXX.YYY.YYYYY.YYYYYYYYYYYYYY"] }, "appclips": {} } -
In XCode under
Signing & Capabilitiesadd a new Capability of typeAssociated Domains. Now add this and replace XXXXXX with your domain (e.g.apple.com)webcredentials:XXXXXX
The Android specific configuration is similar to iOS. If you have already set up Digital Asset Links for your application you can skip this step.
Associate your app with a domain (More info)
-
You need to associate a domain with your application. On your webserver set up this route:
GET https://<yourdomain>/.well-known/assetlinks.json -
This route should serve a static JSON object containing the following information. Example (replace with your data, replace SHA_HEX_VALUE with the SHA256 fingerprints of your Android signing certificate)
[{ "relation": ["delegate_permission/common.get_login_creds"], "target": { "namespace": "android_app", "package_name": "com.example", "sha256_cert_fingerprints": [ SHA_HEX_VALUE ] } }]
If you are having issues with your backend setup you can look at an example here.
import { Passkey } from 'react-native-passkey';
// Use this method to check if passkeys are supported on the device
const isSupported: boolean = Passkey.isSupported();import { Passkey, PasskeyRegistrationResult } from 'react-native-passkey';
// Retrieve a valid FIDO2 attestation request from your server
// The challenge inside the request needs to be a base64URL encoded string
// There are plenty of libraries which can be used for this (e.g. fido2-lib)
try {
// Call the `create` method with the retrieved request in JSON format
// A native overlay will be displayed
const result: PasskeyRegistrationResult = await Passkey.create(requestJson);
// The `create` method returns a FIDO2 attestation result
// Pass it to your server for verification
} catch (error) {
// Handle Error...
}import { Passkey, PasskeyAuthenticationResult } from 'react-native-passkey';
// Retrieve a valid FIDO2 assertion request from your server
// The challenge inside the request needs to be a base64URL encoded string
// There are plenty of libraries which can be used for this (e.g. fido2-lib)
try {
// Call the `get` method with the retrieved request in JSON format
// A native overlay will be displayed
const result: PasskeyAuthResult = await Passkey.get(requestJson);
// The `get` method returns a FIDO2 assertion result
// Pass it to your server for verification
} catch (error) {
// Handle Error...
}You can force users to register and authenticate using either a platform key, a security key (like Yubikey) or allow both using the following methods. This only works on iOS, Android will ignore these instructions.
Passkey.create()- Allow the user to choose between platform and security passkeyPasskey.createPlatformKey()- Force the user to create a platform passkeyPasskey.createSecurityKey()- Force the user to create a security passkey
Passkey.get()- Allow the user to choose between platform and security passkeyPasskey.getPlatformKey()- Force the user to authenticate using a platform passkeyPasskey.getSecurityKey()- Force the user to authenticate using a security passkey
As of version 3.0 the largeBlob extension will work on iOS 17+ only.
You can use the largeBlob extension to store a small amount of opaque data associated with the stored passkey.
During registration you can check for largeBlob extension support on the selected authenticator.
// Request
{
...
extensions: {
largeBlob: {
support: true
}
}
}
// Response
{
...
clientExtensionResults: {
supported: boolean
}
}If the largeBlob extension is supported you can write data to it during the assertion process (this does NOT work during registration).
// Request
{
...
extensions: {
largeBlob: {
write: Uint8Array<ArrayBuffer>
}
}
}
// Response
{
...
clientExtensionResults: {
largeBlob: {
written: true
}
}
}After writing you can read the data on any following assertion.
// Request
{
...
extensions: {
largeBlob: {
read: true
}
}
}
// Response
{
...
clientExtensionResults: { l
largeBlob: {
blob: Uint8Array<ArrayBuffer>
}
}
}You can find information on the largeBlob extension in the WebAuthn specification here.
As of version 3.3 the PRF extension will work for Android and iOS 18+.
You can use the PRF extension to retrieve a secret which allows for various use cases like encryption of user data.
During registration you can either pass in an empty object (this will check for PRF support) or a salt (with an optional second) to retrieve the secret.
// Request
{
...
extensions: {
prf: {}
}
}
// Response
{
...
clientExtensionResults: {
prf: {
enabled: boolean
results: {}
}
}
}You can do this either when creating or when asserting the passkey.
// Request
{
...
extensions: {
prf: {
eval: {
first: Uint8Array<ArrayBuffer>
second: Uint8Array<ArrayBuffer> // optional
}
}
}
}
// Response
{
...
clientExtensionResults: {
prf: {
enabled: true
results: {
first: 'Be3rf7AK8fwisd9vO13uqaP92XA24jKMSUaEaMclWIk=',
second: 'jbVCsIGJvtSWv6LRG3fHpUaG/BvT75b8ZLRAuLBNUpk='
},
}
}
}You can also use evalByCredential to retrieve secrets for specific credentials. You can read more in the WebAuthn specification here.
See the contributing guide to learn how to contribute to the repository and the development workflow.
MIT