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API Reference

The following API reference corresponds to versions 2.0.0 and above. If you update from 1.* please follow the migration guide.

Public API

public class Fingerprinter internal constructor(
    ...
) {


    public fun getDeviceId(version: Version, listener: (DeviceIdResult) -> Unit) { ... }

    @JvmOverloads
    public fun getFingerprint(
        version: Version,
        stabilityLevel: StabilityLevel = StabilityLevel.OPTIMAL,
        hasher: Hasher = MurMur3x64x128Hasher(),
        listener: (String) -> (Unit),
    ) { ... }

    @WorkerThread
    @JvmOverloads
    public fun getFingerprint(
        fingerprintingSignals: List<FingerprintingSignal<*>>,
        hasher: Hasher = MurMur3x64x128Hasher(),
    ): String { ... }


    public fun getFingerprintingSignalsProvider(): FingerprintingSignalsProvider { ... }

    public enum class Version(
        internal val intValue: Int
    ) {
        V_1(intValue = 1),
        V_2(intValue = 2),
        V_3(intValue = 3),
        V_4(intValue = 4),
        V_5(intValue = 5);

        public companion object {
            public val latest: Version
                get() = values().last()
        }
    }
}

public data class DeviceIdResult(
    val deviceId: String,
    val gsfId: String,
    val androidId: String,
    val mediaDrmId: String,
)

Increasing the uniqueness of fingerprints

There is a probability that two different devices will have the same fingerprint value. There is also a probability that the same device will have different fingerprint values in different moments of time due to system upgrades or updated settings (although this should be infrequent).

By default, the library calculates a fingerprint with StabilityLevel.OPTIMAL as a stabilityLevel parameter, meaning optimal stability and uniqueness. But there are two more options you can use as well: StabilityLevel.STABLE and StabilityLevel.UNIQUE.

Raw signals access and custom fingerprinting.

You can use FingerprintingSignalsProvider to access raw signals used for fingerprinting. You can also calculate a fingerprint based only on the signals you want using Fingerprinter.getFingerprint(fingerprintingSignals, hasher) method:

Kotlin:

// call this method from some worker thread
@WorkerThread
fun buildCustomFingerprint(fingerprinter: Fingerprinter): String {
    val signalsProvider = fingerprinter.getFingerprintingSignalsProvider()
    val neededSignals = listOf(
        signalsProvider.developmentSettingsEnabledSignal,
        signalsProvider.procCpuInfoV2Signal,
        signalsProvider.dateFormatSignal,
    )

    return fingerprinter.getFingerprint(
        fingerprintingSignals = neededSignals
    )
}

Java:

// call this method from some worker thread
@WorkerThread
String buildCustomFingerprint(Fingerprinter fingerprinter) {
    FingerprintingSignalsProvider signalsProvider = fingerprinter.getFingerprintingSignalsProvider();
    List<FingerprintingSignal<?>> neededSignals = new ArrayList<>();
    neededSignals.add(signalsProvider.getDevelopmentSettingsEnabledSignal());
    neededSignals.add(signalsProvider.getProcCpuInfoV2Signal());
    neededSignals.add(signalsProvider.getDateFormatSignal());

    return fingerprinter.getFingerprint(neededSignals);
}

Note that this API is intentionally left synchronous, because it only provides the building blocks for you to build your fingerprint, leaving you in a full control of this process.

Change hash function

By default, the library uses Murmur3 hash (64x128) which is fast and optimal for most cases.

If this hash function does not work for you, you can change it to a different one.

In order to do it, implement your own hasher, and pass it as a hasher parameter like shown below:

Kotlin:

fun someFunc(fingerprinter: Fingerprinter) {
    val hasher = object : Hasher {
        override fun hash(data: String): String {
            // Implement your own hashing logic, e.g. call SHA256 here
        }
    }

    fingerprinter.getFingerprint(
        version = Fingerprinter.Version.V_5,
        hasher = hasher
    ) { fingerprint ->
        // Do something with fingerprint
    }
}

Java:

void someFunc(Fingerprinter fingerprinter) {
    Hasher hasher = new Hasher() {
        @NonNull
        @Override
        public String hash(@NonNull String data) {
            // Implement your own hashing logic, e.g. call SHA256 here
        }
    };

    fingerprinter.getFingerprint(Fingerprinter.Version.V_5, StabilityLevel.OPTIMAL, hasher, fingerprint -> {
        // Do something with fingerprint
        return null;
    });
}

Backward compatibility

If you want to get a newer version of fingerprint, but also want to keep the old one for backward compatibility, you can get them both as shown below:

Kotlin:

fun useMultipleVersions() {
    val fingerprinter = FingerprinterFactory.create(context)

    fingerprinter.getFingerprint(version = Fingerprinter.Version.V_4) { fingerprintV4 ->
        // Do something
    }

    fingerprinter.getFingerprint(version = Fingerprinter.Version.V_5) { fingerprintV5 ->
        // Do something
    }
}

Java:

void useMultipleVersions() {
    Fingerprinter fingerprinter = FingerprinterFactory.create(context);
    
    fingerprinter.getFingerprint(Fingerprinter.Version.V_4, fingerprintV4 -> {
        // Do something
        return null;
    });


    fingerprinter.getFingerprint(Fingerprinter.Version.V_5, fingerprintV5 -> {
        // Do something
        return null;
    });
}

Incorporating with async programming frameworks

You can wrap our library API to use it with whatever asynchronous programming framework you prefer. As a reference, here are some code snippets of incorporation our API with the popular frameworks .