Show a biometric authentication dialog

One method of protecting sensitive information or premium content within your app is to request biometric authentication, such as using face recognition or fingerprint recognition. This guide explains how to support biometric login flows in your app.

As a general rule, you should use Credential Manager for initial sign-in on a device. Subsequent re-authorizations can be done with either Biometric Prompt, or Credential Manager. The advantage of using Biometric Prompt is that it offers more customization options, whereas Credential Manager offers a single implementation across both flows.

Declare the types of authentication that your app supports

To define the types of authentication that your app supports, use the BiometricManager.Authenticators interface. The system lets you declare the following types of authentication:

BIOMETRIC_STRONG
Authentication using a Class 3 biometric, as defined on the Android compatibility definition page.
BIOMETRIC_WEAK
Authentication using a Class 2 biometric, as defined on the Android compatibility definition page.
DEVICE_CREDENTIAL
Authentication using a screen lock credential – the user's PIN, pattern, or password.

To begin using an authenticator, the user needs to create a PIN, pattern, or password. If the user doesn't already have one, the biometric enrollment flow prompts them to create one.

To define the types of biometric authentication that your app accepts, pass an authentication type or a bitwise combination of types into the setAllowedAuthenticators() method. The following code snippet shows how to support authentication using either a Class 3 biometric or a screen lock credential.

Kotlin

// Lets the user authenticate using either a Class 3 biometric or
// their lock screen credential (PIN, pattern, or password).
promptInfo = BiometricPrompt.PromptInfo.Builder()
        .setTitle("Biometric login for my app")
        .setSubtitle("Log in using your biometric credential")
        .setAllowedAuthenticators(BIOMETRIC_STRONG or DEVICE_CREDENTIAL)
        .build()

Java

// Lets user authenticate using either a Class 3 biometric or
// their lock screen credential (PIN, pattern, or password).
promptInfo = new BiometricPrompt.PromptInfo.Builder()
        .setTitle("Biometric login for my app")
        .setSubtitle("Log in using your biometric credential")
        .setAllowedAuthenticators(BIOMETRIC_STRONG | DEVICE_CREDENTIAL)
        .build();

The following combinations of authenticator types aren't supported on Android 10 (API level 29) and lower: DEVICE_CREDENTIAL and BIOMETRIC_STRONG | DEVICE_CREDENTIAL. To check for the presence of a PIN, pattern, or password on Android 10 and lower, use the KeyguardManager.isDeviceSecure() method.

Check that biometric authentication is available

After you decide which authentication elements your app supports, check whether these elements are available. To do so, pass the same bitwise combination of types that you declared using the setAllowedAuthenticators() method into the canAuthenticate() method. If necessary, invoke the ACTION_BIOMETRIC_ENROLL intent action. In the intent extra, provide the set of authenticators that your app accepts. This intent prompts the user to register credentials for an authenticator that your app accepts.

Kotlin

val biometricManager = BiometricManager.from(this)
when (biometricManager.canAuthenticate(BIOMETRIC_STRONG or DEVICE_CREDENTIAL)) {
    BiometricManager.BIOMETRIC_SUCCESS ->
        Log.d("MY_APP_TAG", "App can authenticate using biometrics.")
    BiometricManager.BIOMETRIC_ERROR_NO_HARDWARE ->
        Log.e("MY_APP_TAG", "No biometric features available on this device.")
    BiometricManager.BIOMETRIC_ERROR_HW_UNAVAILABLE ->
        Log.e("MY_APP_TAG", "Biometric features are currently unavailable.")
    BiometricManager.BIOMETRIC_ERROR_NONE_ENROLLED -> {
        // Prompts the user to create credentials that your app accepts.
        val enrollIntent = Intent(Settings.ACTION_BIOMETRIC_ENROLL).apply {
            putExtra(Settings.EXTRA_BIOMETRIC_AUTHENTICATORS_ALLOWED,
                BIOMETRIC_STRONG or DEVICE_CREDENTIAL)
        }
        startActivityForResult(enrollIntent, REQUEST_CODE)
    }
}

Java

BiometricManager biometricManager = BiometricManager.from(this);
switch (biometricManager.canAuthenticate(BIOMETRIC_STRONG | DEVICE_CREDENTIAL)) {
    case BiometricManager.BIOMETRIC_SUCCESS:
        Log.d("MY_APP_TAG", "App can authenticate using biometrics.");
        break;
    case BiometricManager.BIOMETRIC_ERROR_NO_HARDWARE:
        Log.e("MY_APP_TAG", "No biometric features available on this device.");
        break;
    case BiometricManager.BIOMETRIC_ERROR_HW_UNAVAILABLE:
        Log.e("MY_APP_TAG", "Biometric features are currently unavailable.");
        break;
    case BiometricManager.BIOMETRIC_ERROR_NONE_ENROLLED:
        // Prompts the user to create credentials that your app accepts.
        final Intent enrollIntent = new Intent(Settings.ACTION_BIOMETRIC_ENROLL);
        enrollIntent.putExtra(Settings.EXTRA_BIOMETRIC_AUTHENTICATORS_ALLOWED,
                BIOMETRIC_STRONG | DEVICE_CREDENTIAL);
        startActivityForResult(enrollIntent, REQUEST_CODE);
        break;
}

Determine how the user authenticated

After the user authenticates, you can check whether the user authenticated using a device credential or a biometric credential by calling getAuthenticationType().

Display the login prompt

To display a system prompt that requests the user to authenticate using biometric credentials, use the Biometric library. This system-provided dialog is consistent across the apps that use it, creating a more trustworthy user experience. An example dialog appears in figure 1.

Screenshot showing dialog
Figure 1. System dialog requesting biometric authentication.

To add biometric authentication to your app using the Biometric library, complete the following steps:

  1. In your app module's build.gradle file, add a dependency on the androidx.biometric library.

  2. In the activity or fragment that hosts the biometric login dialog, display the dialog using the logic shown in the following code snippet:

    Kotlin

    private lateinit var executor: Executor
    private lateinit var biometricPrompt: BiometricPrompt
    private lateinit var promptInfo: BiometricPrompt.PromptInfo
    
    override fun onCreate(savedInstanceState: Bundle?) {
        super.onCreate(savedInstanceState)
        setContentView(R.layout.activity_login)
        executor = ContextCompat.getMainExecutor(this)
        biometricPrompt = BiometricPrompt(this, executor,
                object : BiometricPrompt.AuthenticationCallback() {
            override fun onAuthenticationError(errorCode: Int,
                    errString: CharSequence) {
                super.onAuthenticationError(errorCode, errString)
                Toast.makeText(applicationContext,
                    "Authentication error: $errString", Toast.LENGTH_SHORT)
                    .show()
            }
    
            override fun onAuthenticationSucceeded(
                    result: BiometricPrompt.AuthenticationResult) {
                super.onAuthenticationSucceeded(result)
                Toast.makeText(applicationContext,
                    "Authentication succeeded!", Toast.LENGTH_SHORT)
                    .show()
            }
    
            override fun onAuthenticationFailed() {
                super.onAuthenticationFailed()
                Toast.makeText(applicationContext, "Authentication failed",
                    Toast.LENGTH_SHORT)
                    .show()
            }
        })
    
        promptInfo = BiometricPrompt.PromptInfo.Builder()
                .setTitle("Biometric login for my app")
                .setSubtitle("Log in using your biometric credential")
                .setNegativeButtonText("Use account password")
                .build()
    
        // Prompt appears when user clicks "Log in".
        // Consider integrating with the keystore to unlock cryptographic operations,
        // if needed by your app.
        val biometricLoginButton =
                findViewById<Button>(R.id.biometric_login)
        biometricLoginButton.setOnClickListener {
            biometricPrompt.authenticate(promptInfo)
        }
    }

    Java

    private Executor executor;
    private BiometricPrompt biometricPrompt;
    private BiometricPrompt.PromptInfo promptInfo;
    
    @Override
    protected void onCreate(Bundle savedInstanceState) {
        super.onCreate(savedInstanceState);
        setContentView(R.layout.activity_login);
        executor = ContextCompat.getMainExecutor(this);
        biometricPrompt = new BiometricPrompt(MainActivity.this,
                executor, new BiometricPrompt.AuthenticationCallback() {
            @Override
            public void onAuthenticationError(int errorCode,
                    @NonNull CharSequence errString) {
                super.onAuthenticationError(errorCode, errString);
                Toast.makeText(getApplicationContext(),
                    "Authentication error: " + errString, Toast.LENGTH_SHORT)
                    .show();
            }
    
            @Override
            public void onAuthenticationSucceeded(
                    @NonNull BiometricPrompt.AuthenticationResult result) {
                super.onAuthenticationSucceeded(result);
                Toast.makeText(getApplicationContext(),
                    "Authentication succeeded!", Toast.LENGTH_SHORT).show();
            }
    
            @Override
            public void onAuthenticationFailed() {
                super.onAuthenticationFailed();
                Toast.makeText(getApplicationContext(), "Authentication failed",
                    Toast.LENGTH_SHORT)
                    .show();
            }
        });
    
        promptInfo = new BiometricPrompt.PromptInfo.Builder()
                .setTitle("Biometric login for my app")
                .setSubtitle("Log in using your biometric credential")
                .setNegativeButtonText("Use account password")
                .build();
    
        // Prompt appears when user clicks "Log in".
        // Consider integrating with the keystore to unlock cryptographic operations,
        // if needed by your app.
        Button biometricLoginButton = findViewById(R.id.biometric_login);
        biometricLoginButton.setOnClickListener(view -> {
                biometricPrompt.authenticate(promptInfo);
        });
    }

Use a cryptographic solution that depends on authentication

To further protect sensitive information within your app, you can incorporate cryptography into your biometric authentication workflow using an instance of CryptoObject. The framework supports the following cryptographic objects: Signature, Cipher, and Mac.

After the user authenticates successfully using a biometric prompt, your app can perform a cryptographic operation. For example, if you authenticate using a Cipher object, your app can then perform encryption and decryption using a SecretKey object.

The following sections go through examples of using a Cipher object and a SecretKey object to encrypt data. Each example makes use of the following methods:

Kotlin

private fun generateSecretKey(keyGenParameterSpec: KeyGenParameterSpec) {
    val keyGenerator = KeyGenerator.getInstance(
            KeyProperties.KEY_ALGORITHM_AES, "AndroidKeyStore")
    keyGenerator.init(keyGenParameterSpec)
    keyGenerator.generateKey()
}

private fun getSecretKey(): SecretKey {
    val keyStore = KeyStore.getInstance("AndroidKeyStore")

    // Before the keystore can be accessed, it must be loaded.
    keyStore.load(null)
    return keyStore.getKey(KEY_NAME, null) as SecretKey
}

private fun getCipher(): Cipher {
    return Cipher.getInstance(KeyProperties.KEY_ALGORITHM_AES + "/"
            + KeyProperties.BLOCK_MODE_CBC + "/"
            + KeyProperties.ENCRYPTION_PADDING_PKCS7)
}

Java

private void generateSecretKey(KeyGenParameterSpec keyGenParameterSpec) {
    KeyGenerator keyGenerator = KeyGenerator.getInstance(
            KeyProperties.KEY_ALGORITHM_AES, "AndroidKeyStore");
    keyGenerator.init(keyGenParameterSpec);
    keyGenerator.generateKey();
}

private SecretKey getSecretKey() {
    KeyStore keyStore = KeyStore.getInstance("AndroidKeyStore");

    // Before the keystore can be accessed, it must be loaded.
    keyStore.load(null);
    return ((SecretKey)keyStore.getKey(KEY_NAME, null));
}

private Cipher getCipher() {
    return Cipher.getInstance(KeyProperties.KEY_ALGORITHM_AES + "/"
            + KeyProperties.BLOCK_MODE_CBC + "/"
            + KeyProperties.ENCRYPTION_PADDING_PKCS7);
}

Authenticate using only biometric credentials

If your app uses a secret key that requires biometric credentials to unlock, the user must authenticate their biometric credentials each time before your app accesses the key.

To encrypt sensitive information only after the user authenticates using biometric credentials, complete the following steps:

  1. Generate a key that uses the following KeyGenParameterSpec configuration:

    Kotlin

    generateSecretKey(KeyGenParameterSpec.Builder(
            KEY_NAME,
            KeyProperties.PURPOSE_ENCRYPT or KeyProperties.PURPOSE_DECRYPT)
            .setBlockModes(KeyProperties.BLOCK_MODE_CBC)
            .setEncryptionPaddings(KeyProperties.ENCRYPTION_PADDING_PKCS7)
            .setUserAuthenticationRequired(true)
            // Invalidate the keys if the user has registered a new biometric
            // credential, such as a new fingerprint. Can call this method only
            // on Android 7.0 (API level 24) or higher. The variable
            // "invalidatedByBiometricEnrollment" is true by default.
            .setInvalidatedByBiometricEnrollment(true)
            .build())

    Java

    generateSecretKey(new KeyGenParameterSpec.Builder(
            KEY_NAME,
            KeyProperties.PURPOSE_ENCRYPT | KeyProperties.PURPOSE_DECRYPT)
            .setBlockModes(KeyProperties.BLOCK_MODE_CBC)
            .setEncryptionPaddings(KeyProperties.ENCRYPTION_PADDING_PKCS7)
            .setUserAuthenticationRequired(true)
            // Invalidate the keys if the user has registered a new biometric
            // credential, such as a new fingerprint. Can call this method only
            // on Android 7.0 (API level 24) or higher. The variable
            // "invalidatedByBiometricEnrollment" is true by default.
            .setInvalidatedByBiometricEnrollment(true)
            .build());
  2. Start a biometric authentication workflow that incorporates a cipher:

    Kotlin

    biometricLoginButton.setOnClickListener {
        // Exceptions are unhandled within this snippet.
        val cipher = getCipher()
        val secretKey = getSecretKey()
        cipher.init(Cipher.ENCRYPT_MODE, secretKey)
        biometricPrompt.authenticate(promptInfo,
                BiometricPrompt.CryptoObject(cipher))
    }

    Java

    biometricLoginButton.setOnClickListener(view -> {
        // Exceptions are unhandled within this snippet.
        Cipher cipher = getCipher();
        SecretKey secretKey = getSecretKey();
        cipher.init(Cipher.ENCRYPT_MODE, secretKey);
        biometricPrompt.authenticate(promptInfo,
                new BiometricPrompt.CryptoObject(cipher));
    });
  3. Within your biometric authentication callbacks, use the secret key to encrypt the sensitive information:

    Kotlin

    override fun onAuthenticationSucceeded(
            result: BiometricPrompt.AuthenticationResult) {
        val encryptedInfo: ByteArray = result.cryptoObject.cipher?.doFinal(
            // plaintext-string text is whatever data the developer would like
            // to encrypt. It happens to be plain-text in this example, but it
            // can be anything
                plaintext-string.toByteArray(Charset.defaultCharset())
        )
        Log.d("MY_APP_TAG", "Encrypted information: " +
                Arrays.toString(encryptedInfo))
    }

    Java

    @Override
    public void onAuthenticationSucceeded(
            @NonNull BiometricPrompt.AuthenticationResult result) {
        // NullPointerException is unhandled; use Objects.requireNonNull().
        byte[] encryptedInfo = result.getCryptoObject().getCipher().doFinal(
            // plaintext-string text is whatever data the developer would like
            // to encrypt. It happens to be plain-text in this example, but it
            // can be anything
                plaintext-string.getBytes(Charset.defaultCharset()));
        Log.d("MY_APP_TAG", "Encrypted information: " +
                Arrays.toString(encryptedInfo));
    }

Authenticate using either biometric or lock screen credentials

You can use a secret key that allows for authentication using either biometric credentials or lock screen credentials (PIN, pattern, or password). When configuring this key, specify a validity time period. During this time period, your app can perform multiple cryptographic operations without the user needing to re-authenticate.

To encrypt sensitive information after the user authenticates using biometric or lock screen credentials, complete the following steps:

  1. Generate a key that uses the following KeyGenParameterSpec configuration:

    Kotlin

    generateSecretKey(KeyGenParameterSpec.Builder(
        KEY_NAME,
        KeyProperties.PURPOSE_ENCRYPT or KeyProperties.PURPOSE_DECRYPT)
        .setBlockModes(KeyProperties.BLOCK_MODE_CBC)
        .setEncryptionPaddings(KeyProperties.ENCRYPTION_PADDING_PKCS7)
        .setUserAuthenticationRequired(true)
        .setUserAuthenticationParameters(VALIDITY_DURATION_SECONDS,
                ALLOWED_AUTHENTICATORS)
        .build())

    Java

    generateSecretKey(new KeyGenParameterSpec.Builder(
        KEY_NAME,
        KeyProperties.PURPOSE_ENCRYPT | KeyProperties.PURPOSE_DECRYPT)
        .setBlockModes(KeyProperties.BLOCK_MODE_CBC)
        .setEncryptionPaddings(KeyProperties.ENCRYPTION_PADDING_PKCS7)
        .setUserAuthenticationRequired(true)
        .setUserAuthenticationParameters(VALIDITY_DURATION_SECONDS,
                ALLOWED_AUTHENTICATORS)
        .build());
  2. Within a time period of VALIDITY_DURATION_SECONDS after the user authenticates, encrypt the sensitive information:

    Kotlin

    private fun encryptSecretInformation() {
        // Exceptions are unhandled for getCipher() and getSecretKey().
        val cipher = getCipher()
        val secretKey = getSecretKey()
        try {
            cipher.init(Cipher.ENCRYPT_MODE, secretKey)
            val encryptedInfo: ByteArray = cipher.doFinal(
                // plaintext-string text is whatever data the developer would
                // like to encrypt. It happens to be plain-text in this example,
                // but it can be anything
                    plaintext-string.toByteArray(Charset.defaultCharset()))
            Log.d("MY_APP_TAG", "Encrypted information: " +
                    Arrays.toString(encryptedInfo))
        } catch (e: InvalidKeyException) {
            Log.e("MY_APP_TAG", "Key is invalid.")
        } catch (e: UserNotAuthenticatedException) {
            Log.d("MY_APP_TAG", "The key's validity timed out.")
            biometricPrompt.authenticate(promptInfo)
        }

    Java

    private void encryptSecretInformation() {
        // Exceptions are unhandled for getCipher() and getSecretKey().
        Cipher cipher = getCipher();
        SecretKey secretKey = getSecretKey();
        try {
            // NullPointerException is unhandled; use Objects.requireNonNull().
            ciper.init(Cipher.ENCRYPT_MODE, secretKey);
            byte[] encryptedInfo = cipher.doFinal(
                // plaintext-string text is whatever data the developer would
                // like to encrypt. It happens to be plain-text in this example,
                // but it can be anything
                    plaintext-string.getBytes(Charset.defaultCharset()));
        } catch (InvalidKeyException e) {
            Log.e("MY_APP_TAG", "Key is invalid.");
        } catch (UserNotAuthenticatedException e) {
            Log.d("MY_APP_TAG", "The key's validity timed out.");
            biometricPrompt.authenticate(promptInfo);
        }
    }

Authenticate using auth-per-use keys

You can provide support for auth-per-use keys within your instance of BiometricPrompt. Such a key requires the user to present either a biometric credential or a device credential each time your app needs to access data that's guarded by that key. Auth-per-use keys can be useful for high-value transactions, such as making a large payment or updating a person's health records.

To associate a BiometricPrompt object with an auth-per-use key, add code similar to the following:

Kotlin

val authPerOpKeyGenParameterSpec =
        KeyGenParameterSpec.Builder("myKeystoreAlias", key-purpose)
    // Accept either a biometric credential or a device credential.
    // To accept only one type of credential, include only that type as the
    // second argument.
    .setUserAuthenticationParameters(0 /* duration */,
            KeyProperties.AUTH_BIOMETRIC_STRONG or
            KeyProperties.AUTH_DEVICE_CREDENTIAL)
    .build()

Java

KeyGenParameterSpec authPerOpKeyGenParameterSpec =
        new KeyGenParameterSpec.Builder("myKeystoreAlias", key-purpose)
    // Accept either a biometric credential or a device credential.
    // To accept only one type of credential, include only that type as the
    // second argument.
    .setUserAuthenticationParameters(0 /* duration */,
            KeyProperties.AUTH_BIOMETRIC_STRONG |
            KeyProperties.AUTH_DEVICE_CREDENTIAL)
    .build();

Authenticate without explicit user action

By default, the system requires users to perform a specific action, such as pressing a button, after their biometric credentials are accepted. This configuration is preferable if your app is showing the dialog to confirm a sensitive or high-risk action, such as making a purchase.

If your app shows a biometric authentication dialog for a lower-risk action, however, you can provide a hint to the system that the user doesn't need to confirm authentication. This hint can allow the user to view content in your app more quickly after re-authenticating using a passive modality, such as face- or iris-based recognition. To provide this hint, pass false into the setConfirmationRequired() method.

Figure 2 shows two versions of the same dialog. One version requires an explicit user action, and the other version doesn't.

Screen capture of dialog Screen capture of dialog
Figure 2. Face authentication without user confirmation (top) and with user confirmation (bottom).

The following code snippet shows how to present a dialog that doesn't require an explicit user action to complete the authentication process:

Kotlin

// Lets the user authenticate without performing an action, such as pressing a
// button, after their biometric credential is accepted.
promptInfo = BiometricPrompt.PromptInfo.Builder()
        .setTitle("Biometric login for my app")
        .setSubtitle("Log in using your biometric credential")
        .setNegativeButtonText("Use account password")
        .setConfirmationRequired(false)
        .build()

Java

// Lets the user authenticate without performing an action, such as pressing a
// button, after their biometric credential is accepted.
promptInfo = new BiometricPrompt.PromptInfo.Builder()
        .setTitle("Biometric login for my app")
        .setSubtitle("Log in using your biometric credential")
        .setNegativeButtonText("Use account password")
        .setConfirmationRequired(false)
        .build();

Allow for fallback to non-biometric credentials

If you want your app to allow authentication using either biometric or device credentials, you can declare that your app supports device credentials by including DEVICE_CREDENTIAL in the set of values that you pass into setAllowedAuthenticators().

If your app currently uses createConfirmDeviceCredentialIntent() or setDeviceCredentialAllowed() to provide this capability, switch to using setAllowedAuthenticators().

Additional resources

To learn more about biometric authentication on Android, consult the following resources.

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