@aparajita/capacitor-biometric-auth
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7.1.1 • Public • Published

capacitor-biometric-auth  npm version

This plugin for Capacitor 5 provides access to native biometry and device credentials on iOS and Android. It supports every type of biometry and every configuration option on both platforms. In addition, biometry and device credentials are simulated on the web so you can test your logic without making any changes to your code.

🛑 BREAKING CHANGES:

  • If you are upgrading from a version prior to 6.0.0, please note that authenticate() now throws an instance of BiometryError, and BiometryError.code is now typed as BiometryErrorType.
  • If you are upgrading from a version prior to 7.0.0, please note that authenticate() will immediately present a prompt for device credentials if deviceIsSecure is true, allowDeviceCredentials is true, and no biometry of the requested strength is available.

Installation

pnpm add @aparajita/capacitor-biometric-auth
npm install @aparajita/capacitor-biometric-auth
yarn add @aparajita/capacitor-biometric-auth

Not using pnpm? You owe it to yourself to give it a try. It’s faster, better with monorepos, and uses way, way less disk space than the alternatives.

iOS

👉 IMPORTANT!! In order to use Face ID, you must add the NSFaceIDUsageDescription key to your Info.plist file. This is a string that describes why your app needs access to Face ID. If you don’t add this key, the system won’t allow your app to use Face ID.

  1. In Xcode, open your app’s Info.plist file.
  2. Hover your mouse over one of the existing keys, and click the + button that appears.
  3. In the popup that appears, type Privacy - Face ID Usage Description and press Enter.
  4. In the Value column, enter a string that describes why your app needs access to Face ID.
  5. Save your changes.

Usage

The API is extensively documented in the TypeScript definitions file. There is also (somewhat incomplete auto-generated) documentation below. For a complete example of how to use this plugin in practice, see the demo app.

👉 NOTE: Your Android app must use a base theme named "AppTheme".

Checking availability

Before giving the user the option to use biometry (such as displaying a biometry icon), call checkBiometry() and inspect the CheckBiometryResult to see what (if any) biometry and/or device credentials are available on the device. Note the following:

  • isAvailable may be false but biometryType may indicate the presence of biometry on the device. This occurs if the current user is not enrolled in biometry, or if biometry has been disabled for the current app. In such cases the reason and code will tell you why.

  • On iOS, isAvailable and strongBiometryIsAvailable will always have the same value. On Android, isAvailable will be true if any type of biometry is available, but strongBiometryIsAvailable will be true only if strong biometry is available. For example, on a typical device, if the device supports both fingerprint and face authentication, isAvailable will be true if either is enrolled, but strongBiometryIsAvailable will be true only if fingerprint authentication is enrolled.

  • biometryTypes may contain more than one type of biometry. This occurs on Android devices that support multiple types of biometry. In such cases biometryType will indicate the primary (most secure) type of biometry, and the biometryTypes array will contain all of the biometry types supported by the device. Note that Android only guarantees that one of the types is actually available.

Because the availability of biometry can change while your app is in the background, it’s important to check availability when your app resumes. By calling addResumeListener() you can register a callback that is passed a CheckBiometryResult when your app resumes.

Example

import { CheckBiometryResult } from './definitions'

let appListener: PluginListenerHandle

function updateBiometryInfo(info: CheckBiometryResult): void {
  if (info.isAvailable) {
    // Biometry is available, info.biometryType will tell you the primary type.
  } else {
    // Biometry is not available, info.reason and info.code will tell you why.
  }
}

async function onComponentMounted(): Promise<void> {
  updateBiometryInfo(await BiometricAuth.checkBiometry())

  try {
    appListener = await BiometricAuth.addResumeListener(updateBiometryInfo)
  } catch (error) {
    if (error instanceof Error) {
      console.error(error.message)
    }
  }
}

async function onComponentUnmounted(): Promise<void> {
  await appListener?.remove()
}

Authenticating

To initiate biometric authentication call authenticate(). authenticate takes an AuthenticateOptions object which you will want to use in order to control the behavior and appearance of the biometric prompt.

If authentication succeeds, the Promise resolves. If authentication fails, the Promise is rejected with an instance of BiometryError, which has two properties:

Property Type Description
message string A description of the error suitable for debugging
code BiometryErrorType What caused the error

Example

import {
  AndroidBiometryStrength,
  BiometryError,
  BiometryErrorType,
} from './definitions'

async function authenticate(): Promise<void> {
  try {
    await BiometricAuth.authenticate({
      reason: 'Please authenticate',
      cancelTitle: 'Cancel',
      allowDeviceCredential: true,
      iosFallbackTitle: 'Use passcode',
      androidTitle: 'Biometric login',
      androidSubtitle: 'Log in using biometric authentication',
      androidConfirmationRequired: false,
      androidBiometryStrength: AndroidBiometryStrength.weak,
    })
  } catch (error) {
    // error is always an instance of BiometryError.
    if (error instanceof BiometryError) {
      if (error.code !== BiometryErrorType.userCancel) {
        // Display the error.
        await showAlert(error.message)
      }
    }
  }
}

Biometry support

web

On the web, you can fake any of the supported biometry types by calling setBiometryType().

iOS

On iOS, Touch ID and Face ID are supported.

Android

On Android, fingerprint, face, and iris authentication are supported. Note that if a device supports more than one type of biometry, the plugin will initially present the primary (most secure) available type, which is determined by the system.

API

This is the public interface of the plugin.

checkBiometry()

checkBiometry() => Promise<CheckBiometryResult>

Check to see what biometry type (if any) is available.

Returns: Promise<CheckBiometryResult>


setBiometryType(...)

setBiometryType(type: BiometryType | string | Array<BiometryType | string> | undefined) => Promise<void>

web only

On the web, this method allows you to dynamically simulate different types of biometry. You may either pass BiometryType enums or the string names of the BiometryType enums. If undefined or a string is passed and it isn't a valid value, nothing happens.

Param Type
type string | BiometryType | (string | BiometryType)[]

setBiometryIsEnrolled(...)

setBiometryIsEnrolled(isSecure: boolean) => Promise<void>

web only

On the web, this method allows you to dynamically simulate whether or not the user has enrolled in biometry.

Param Type
isSecure boolean

setDeviceIsSecure(...)

setDeviceIsSecure(isSecure: boolean) => Promise<void>

web only

On the web, this method allows you to dynamically simulate whether or not the user has secured the device with a PIN, pattern or passcode.

Param Type
isSecure boolean

authenticate(...)

authenticate(options?: AuthenticateOptions) => Promise<void>

Prompt the user for authentication. If authorization fails for any reason, the promise is rejected with a BiometryError.

For detailed information about the behavior on iOS, see:

https://developer.apple.com/documentation/localauthentication/lapolicy/deviceownerauthenticationwithbiometrics

Some versions of Android impose a limit on the number of failed attempts. If allowDeviceCredential is true, when the limit is reached the user will then be presented with a device credential prompt. If allowDeviceCredential is false, when the limit is reached authenticate() will reject with a BiometryErrorType of biometryLockout, after which the user will have to wait the system-defined length of time before being allowed to authenticate again.

Param Type
options AuthenticateOptions

addResumeListener(...)

addResumeListener(listener: ResumeListener) => Promise<PluginListenerHandle>

Register a function that will be called when the app resumes. The function will be passed the result of checkBiometry().

👉 NOTE: checkBiometry() must be called at least once before calling this method.

Param Type
listener ResumeListener

Returns: Promise<PluginListenerHandle>


Interfaces

CheckBiometryResult

Prop Type Description
isAvailable boolean True if the device supports at least weak biometric authentication and the current user has enrolled in some form of biometry. Note that if strongBiometryIsAvailable is true, this will also be true.
strongBiometryIsAvailable boolean True if the device has strong biometric authentication capability and the current user has enrolled in that strong biometry.

On iOS this value and isAvailable will always be the same, since iOS only supports strong biometry.

On Android, for example, if the device supports both fingerprint and face authentication, and the user has enrolled only in face authentication, and Android considers face authentication on that device to be weak, then isAvailable will be true but this value will be false.
biometryType BiometryType The primary (most secure) type of biometry supported by the device. Note that supported is not the same as available, which requires the biometry to be enrolled.
biometryTypes BiometryType[] All of the biometry types supported by the hardware on the device (currently only Android devices support multiple biometry types). If no biometry is supported, i.e. biometryType === <a href="#biometrytype">BiometryType.none, this will be an empty array.

Note that supported is not the same as available, which requires the biometry to be enrolled.
deviceIsSecure boolean Returns true if the device is secure. On iOS, this means that the device has a passcode set. On Android, this means that the device has a PIN, pattern, or password set.
reason string If weak or better biometry is not available and the system gives a reason why, it will be returned here. Otherwise it's an empty string.
code BiometryErrorType If weak or better biometry is not available, the error code will be returned here. Otherwise it's an empty string. The error code will be one of the BiometryErrorType enum values, and is consistent across platforms.
strongReason string If strong biometry is not available and the system gives a reason why, it will be returned here. Otherwise it's an empty string.

On iOS, this will always be the same as reason, since all biometry on iOS is strong.
strongCode BiometryErrorType If strong biometry is not available, the error code will be returned here. Otherwise it's an empty string. The error code will be one of the BiometryErrorType enum values, and is consistent across platforms.

On iOS, this will always be the same as code, since all biometry on iOS is strong.

Array

Prop Type Description
length number Gets or sets the length of the array. This is a number one higher than the highest index in the array.
Method Signature Description
toString () => string Returns a string representation of an array.
toLocaleString () => string Returns a string representation of an array. The elements are converted to string using their toLocaleString methods.
pop () => T | undefined Removes the last element from an array and returns it.
If the array is empty, undefined is returned and the array is not modified.
push (...items: T[]) => number Appends new elements to the end of an array, and returns the new length of the array.
concat (...items: ConcatArray<T>[]) => T[] Combines two or more arrays.
This method returns a new array without modifying any existing arrays.
concat (...items: (T | ConcatArray<T>)[]) => T[] Combines two or more arrays.
This method returns a new array without modifying any existing arrays.
join (separator?: string) => string Adds all the elements of an array into a string, separated by the specified separator string.
reverse () => T[] Reverses the elements in an array in place.
This method mutates the array and returns a reference to the same array.
shift () => T | undefined Removes the first element from an array and returns it.
If the array is empty, undefined is returned and the array is not modified.
slice (start?: number, end?: number) => T[] Returns a copy of a section of an array.

For both start and end, a negative index can be used to indicate an offset from the end of the array. For example, -2 refers to the second to last element of the array. | | sort | (compareFn?: ((a: T, b: T) => number) | undefined) => this | Sorts an array in place. This method mutates the array and returns a reference to the same array. | | splice | (start: number, deleteCount?: number) => T[] | Removes elements from an array and, if necessary, inserts new elements in their place, returning the deleted elements. | | splice | (start: number, deleteCount: number, ...items: T[]) => T[] | Removes elements from an array and, if necessary, inserts new elements in their place, returning the deleted elements. | | unshift | (...items: T[]) => number | Inserts new elements at the start of an array, and returns the new length of the array. | | indexOf | (searchElement: T, fromIndex?: number) => number | Returns the index of the first occurrence of a value in an array, or -1 if it is not present. | | lastIndexOf | (searchElement: T, fromIndex?: number) => number | Returns the index of the last occurrence of a specified value in an array, or -1 if it is not present. | | every | <S extends T>(predicate: (value: T, index: number, array: T[]) => value is S, thisArg?: any) => this is S[] | Determines whether all the members of an array satisfy the specified test. | | every | (predicate: (value: T, index: number, array: T[]) => unknown, thisArg?: any) => boolean | Determines whether all the members of an array satisfy the specified test. | | some | (predicate: (value: T, index: number, array: T[]) => unknown, thisArg?: any) => boolean | Determines whether the specified callback function returns true for any element of an array. | | forEach | (callbackfn: (value: T, index: number, array: T[]) => void, thisArg?: any) => void | Performs the specified action for each element in an array. | | map | <U>(callbackfn: (value: T, index: number, array: T[]) => U, thisArg?: any) => U[] | Calls a defined callback function on each element of an array, and returns an array that contains the results. | | filter | <S extends T>(predicate: (value: T, index: number, array: T[]) => value is S, thisArg?: any) => S[] | Returns the elements of an array that meet the condition specified in a callback function. | | filter | (predicate: (value: T, index: number, array: T[]) => unknown, thisArg?: any) => T[] | Returns the elements of an array that meet the condition specified in a callback function. | | reduce | (callbackfn: (previousValue: T, currentValue: T, currentIndex: number, array: T[]) => T) => T | Calls the specified callback function for all the elements in an array. The return value of the callback function is the accumulated result, and is provided as an argument in the next call to the callback function. | | reduce | (callbackfn: (previousValue: T, currentValue: T, currentIndex: number, array: T[]) => T, initialValue: T) => T | | | reduce | <U>(callbackfn: (previousValue: U, currentValue: T, currentIndex: number, array: T[]) => U, initialValue: U) => U | Calls the specified callback function for all the elements in an array. The return value of the callback function is the accumulated result, and is provided as an argument in the next call to the callback function. | | reduceRight | (callbackfn: (previousValue: T, currentValue: T, currentIndex: number, array: T[]) => T) => T | Calls the specified callback function for all the elements in an array, in descending order. The return value of the callback function is the accumulated result, and is provided as an argument in the next call to the callback function. | | reduceRight | (callbackfn: (previousValue: T, currentValue: T, currentIndex: number, array: T[]) => T, initialValue: T) => T | | | reduceRight | <U>(callbackfn: (previousValue: U, currentValue: T, currentIndex: number, array: T[]) => U, initialValue: U) => U | Calls the specified callback function for all the elements in an array, in descending order. The return value of the callback function is the accumulated result, and is provided as an argument in the next call to the callback function. |

ConcatArray

Prop Type
length number
Method Signature
join (separator?: string) => string
slice (start?: number, end?: number) => T[]

AuthenticateOptions

Prop Type Description
reason string Displays the reason for requesting authentication in the authentication dialog presented to the user.

Default: System default
cancelTitle string iOS: The system presents a cancel button during biometric authentication to let the user abort the authentication attempt. The button appears every time the system asks the user to present a finger registered with Touch ID. For Face ID, the button only appears if authentication fails and the user is prompted to try again. Either way, the user can stop trying to authenticate by tapping the button.

Android: The text for the negative button. This would typically be used as a "Cancel" button, but may be also used to show an alternative method for authentication, such as a screen that asks for a backup password.

Default: "Cancel"
allowDeviceCredential boolean If true, allows for authentication using device unlock credentials.

Default: false.

iOS: If biometry is available, enrolled, and not disabled, the system uses that first. After the first Touch ID failure or second Face ID failure, if iosFallbackTitle is not an empty string, a fallback button appears in the authentication dialog. If the user taps the fallback button, the system prompts the user for the device passcode or the user’s password. If iosFallbackTitle is an empty string, no fallback button will appear.

If no biometry is enrolled and enabled, and a passcode is set, the system immediately prompts the user for the device passcode or user’s password. Authentication fails with the error code passcodeNotSet if the device passcode isn’t enabled.

If a passcode is not set on the device, a passcodeNotSet error is returned.

The system disables passcode authentication after 6 unsuccessful attempts, with progressively increasing delays between attempts.

The title of the fallback button may be customized by setting iosFallbackTitle to a non-empty string.

Android: The user will first be prompted to authenticate with biometrics, but also given the option to authenticate with their device PIN, pattern, or password by tapping a button in the authentication dialog. The title of the button is supplied by the system.
iosFallbackTitle string The system presents a fallback button when biometric authentication fails — for example, because the system doesn’t recognize the presented finger, or after several failed attempts to recognize the user’s face.

If allowDeviceCredential is false, tapping this button dismisses the authentication dialog and returns the error code userFallback. If undefined, the localized system default title is used. Passing an empty string hides the fallback button completely.

If allowDeviceCredential is true and this is undefined, the localized system default title is used.
androidTitle string Title for the Android dialog. If not supplied, the system default is used.
androidSubtitle string Subtitle for the Android dialog. If not supplied, the system default is used.
androidConfirmationRequired boolean Determines if successful weak biometric authentication must be confirmed.

For information on this setting, see https://developer.android.com/reference/android/hardware/biometrics/BiometricPrompt.Builder#setConfirmationRequired(boolean).

Default: true
androidBiometryStrength AndroidBiometryStrength Set the strength of Android biometric authentication that will be accepted.

👉 NOTE: On Android 9 & 10 (API 28-29), this will effectively always be .weak if allowDeviceCredential is true. This is a known limitation of the Android API. 🤯

Default: AndroidBiometryStrength.weak

PluginListenerHandle

Method Signature
remove () => Promise<void>

Type Aliases

ResumeListener

The signature of the callback passed to addResumeListener().

(info: CheckBiometryResult): void

Enums

BiometryType

Members Description
none
touchId iOS Touch ID
faceId iOS Face ID
fingerprintAuthentication Android fingerprint authentication
faceAuthentication Android face authentication
irisAuthentication Android iris authentication

BiometryErrorType

Members Value
none ''
appCancel 'appCancel'
authenticationFailed 'authenticationFailed'
invalidContext 'invalidContext'
notInteractive 'notInteractive'
passcodeNotSet 'passcodeNotSet'
systemCancel 'systemCancel'
userCancel 'userCancel'
userFallback 'userFallback'
biometryLockout 'biometryLockout'
biometryNotAvailable 'biometryNotAvailable'
biometryNotEnrolled 'biometryNotEnrolled'
noDeviceCredential 'noDeviceCredential'

AndroidBiometryStrength

Members Description
weak authenticate() will present any available biometry.
strong authenticate() will only present strong biometry.

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Install

npm i @aparajita/capacitor-biometric-auth

Weekly Downloads

2,661

Version

7.1.1

License

MIT

Unpacked Size

131 kB

Total Files

31

Last publish

Collaborators

  • ckgaparajita