Active Peer

Description — Couchbase Lite’s Peer-to-Peer Synchronization enables edge devices to synchronize securely without consuming centralized cloud-server resources
Abstract — How to set up a Replicator to connect with a Listener and replicate changes using peer-to-peer sync
Related Content — API Reference | Passive Peer | Active Peer

Android enablers

Allow Unencrypted Network Traffic: To use cleartext, un-encrypted, network traffic (http:// and-or ws://), include android:usesCleartextTraffic="true" in the application element of the manifest as shown on android.com.
This not recommended in production.
Use Background Threads: As with any network or file I/O activity, CouchbaseLite activities should not be performed on the UI thread. Always use a background thread.

Code Snippets

All code examples are indicative only. They demonstrate the basic concepts and approaches to using a feature. Use them as inspiration and adapt these examples to best practice when developing applications for your platform.

Introduction

This content provides sample code and configuration examples covering the implementation of Peer-to-Peer Sync over WebSockets. Specifically it covers the implementation of an Active Peer.

This active peer (also referred to as a client and-or a replicator) will initiate the connection with a Passive Peer (also referred to as a server and-or listener) and participate in the replication of database changes to bring both databases into sync.

Subsequent sections provide additional details and examples for the main configuration options.

Secure Storage

The use of TLS, its associated keys and certificates requires using secure storage to minimize the chances of a security breach. The implementation of this storage differs from platform to platform — see Using secure storage.

Configuration Summary

You should configure and initialize a replicator for each Couchbase Lite database instance you want to sync. Example 1 shows the initialization and configuration process.

As with any network or file I/O activity, CouchbaseLite activities should not be performed on the UI thread. Always use a background thread.

Example 1. Replication configuration and initialization

Kotlin
Java

    // initialize the replicator configuration
    ReplicatorConfigurationFactory.newConfig(
        target = URLEndpoint(URI("wss://listener.com:8954")), (1)

        collections = mapOf(collections to null),

        // Set replicator type
        type = ReplicatorType.PUSH_AND_PULL,

        // Configure Sync Mode
        continuous = false, // default value



        // Configure Server Authentication --
        // only accept self-signed certs
        acceptOnlySelfSignedServerCertificate = true, (2)


        // Configure the credentials the
        // client will provide if prompted
        authenticator = BasicAuthenticator("PRIVUSER", "let me in".toCharArray())  (3)

    )
)

// Optionally add a change listener (4)
val token = repl.addChangeListener { change ->
    val err: CouchbaseLiteException? = change.status.error
    if (err != null) {
        log("Error code ::  ${err.code}", err)
    }
}

// Start replicator
repl.start(false) (5)

thisReplicator = repl
thisToken = token

    // initialize the replicator configuration
    new ReplicatorConfiguration(new URLEndpoint(new URI("wss://listener.com:8954"))) (1)
        .addCollections(collections, null)

        // Set replicator type
        .setType(ReplicatorType.PUSH_AND_PULL)

        // Configure Sync Mode
        .setContinuous(false) // default value



        // Configure Server Authentication --
        // only accept self-signed certs
        .setAcceptOnlySelfSignedServerCertificate(true) (2)

        // Configure the credentials the
        // client will provide if prompted
        .setAuthenticator(new BasicAuthenticator("Our Username", "Our Password".toCharArray())) (3)

);

// Optionally add a change listener (4)
ListenerToken token = repl.addChangeListener(change -> {
    CouchbaseLiteException err = change.getStatus().getError();
    if (err != null) { Logger.log("Error code :: " + err.getCode(), err); }
});

// Start replicator
repl.start(false); (5)

thisReplicator = repl;
thisToken = token;

1	Configure how the client will authenticate the server. Here we say connect only to servers presenting a self-signed certificate. By default, clients accept only servers presenting certificates that can be verified using the OS bundled Root CA Certificates — see: Authenticating the Listener.
2	Configure the credentials the client will present to the server. Here we say to provide Basic Authentication credentials. Other options are available — see: Example 7.
3	Configure how the replication should perform Conflict Resolution.
4	Initialize the replicator using your configuration object.
5	Register an observer, which will notify you of changes to the replication status.
6	Start the replicator.

API References

You can find Android API References here.

Device Discovery

This phase is optional: If the listener is initialized on a well known URL endpoint (for example, a static IP Address or well known DNS address) then you can configure Active Peers to connect to those.

Prior to connecting with a listener you may execute a Peer discovery phase to dynamically discover Peers.

For the Active Peer this involves browsing-for and selecting the appropriate service using a zero-config protocol such as Network Service Discovery — see: https://developer.android.com/training/connect-devices-wirelessly/nsd.

Configure Replicator

In this section: Configure Target | Sync Mode | Retry Configuration | Authenticating the Listener | Client Authentication

Configure Target

Use the Initialize and define the replication configuration with local and remote database locations using the ReplicatorConfiguration object.

The constructor provides:

the name of the local database to be sync’d
the server’s URL (including the port number and the name of the remote database to sync with)

It is expected that the app will identify the IP address and URL and append the remote database name to the URL endpoint, producing for example: wss://10.0.2.2:4984/travel-sample

The URL scheme for web socket URLs uses ws: (non-TLS) or wss: (SSL/TLS) prefixes. To use cleartext, un-encrypted, network traffic (http:// and-or ws://), include android:usesCleartextTraffic="true" in the application element of the manifest as shown on android.com.
This not recommended in production.

Example 2. Add Target to Configuration

Kotlin
Java

// initialize the replicator configuration
val thisConfig = ReplicatorConfigurationFactory.newConfig(
    target = URLEndpoint(URI("wss://10.0.2.2:8954/travel-sample")), (1)
    collections = mapOf(collections to null)
)

// initialize the replicator configuration
ReplicatorConfiguration thisConfig = new ReplicatorConfiguration(
    new URLEndpoint(new URI("wss://10.0.2.2:8954/travel-sample"))) (1)
    .addCollections(collections, null);

1	Note use of the scheme prefix (`wss://` to ensure TLS encryption — strongly recommended in production — or `ws://`)

Sync Mode

Here we define the direction and type of replication we want to initiate.

We use ReplicatorConfiguration class’s replicatorType and continuous parameters, to tell the replicator:

The type (or direction) of the replication: PUSH_AND_PULL; PULL; PUSH
The replication mode, that is either of:
- Continuous — remaining active indefinitely to replicate changed documents (continuous=true).
- Ad-hoc — a one-shot replication of changed documents (continuous=false).

Example 3. Configure replicator type and mode

Kotlin
Java

// Set replicator type
type = ReplicatorType.PUSH_AND_PULL,

// Configure Sync Mode
continuous = false, // default value

// Set replicator type
.setType(ReplicatorType.PUSH_AND_PULL)

// Configure Sync Mode
.setContinuous(false) // default value

Unless there is a solid use-case not to, always initiate a single PUSH_AND_PULL replication rather than identical separate PUSH and PULL replications.

This prevents the replications generating the same checkpoint docID resulting in multiple conflicts.

Retry Configuration

Couchbase Lite for Android’s replication retry logic assures a resilient connection.

The replicator minimizes the chance and impact of dropped connections by maintaining a heartbeat; essentially pinging the listener at a configurable interval to ensure the connection remains alive.

In the event it detects a transient error, the replicator will attempt to reconnect, stopping only when the connection is re-established, or the number of retries exceeds the retry limit (9 times for a single-shot replication and unlimited for a continuous replication).

On each retry the interval between attempts is increased exponentially (exponential backoff) up to the maximum wait time limit (5 minutes).

The REST API provides configurable control over this replication retry logic using a set of configiurable properties — see: Table 1.

Table 1. Replication Retry Configuration Properties
Property	Use cases	Description
setHeartbeat()	Reduce to detect connection errors sooner Align to load-balancer or proxy `keep-alive` interval — see Sync Gateway’s topic Load Balancer - Keep Alive	The interval (in seconds) between the heartbeat pulses. Default: The replicator pings the listener every 300 seconds.
setMaxAttempts()	Change this to limit or extend the number of retry attempts.	The maximum number of retry attempts Set to zero (0) to use default values Set to zero (1) to prevent any retry attempt The retry attempt count is reset when the replicator is able to connect and replicate Default values are: Single-shot replication = 9; Continuous replication = maximum integer value Negative values generate a Couchbase exception `InvalidArgumentException`
setMaxAttemptWaitTime()	Change this to adjust the interval between retries.	The maximum interval between retry attempts While you can configure the maximum permitted wait time, the replicator’s exponential backoff algorithm calculates each individual interval which is not configurable. Default value: 300 seconds (5 minutes) Zero sets the maximum interval between retries to the default of 300 seconds 300 sets the maximum interval between retries to the default of 300 seconds A negative value generates a Couchbase exception, `InvalidArgumentException`

When necessary you can adjust any or all of those configurable values — see: Example 4 for how to do this.

Example 4. Configuring Replication Retries

Kotlin
Java

val repl = Replicator(
    ReplicatorConfigurationFactory.newConfig(
        target = URLEndpoint(URI("ws://localhost:4984/mydatabase")),
        collections = mapOf(collections to null),
        //  other config params as required . .
        heartbeat = 150, (1)
        maxAttempts = 20,
        maxAttemptWaitTime = 600
    )
)
repl.start()
thisReplicator = repl

Replicator repl = new Replicator(
    new ReplicatorConfiguration(new URLEndpoint(new URI("ws://localhost:4984/mydatabase")))
        .addCollections(collections, null)
        //  other config as required . . .
        .setHeartbeat(150) (1)
        .setMaxAttempts(20) (2)
        .setMaxAttemptWaitTime(600)); (3)

repl.start();
thisReplicator = repl;

1	Here we use setHeartbeat() to set the required interval (in seconds) between the heartbeat pulses
2	Here we use setMaxAttempts() to set the required number of retry attempts
3	Here we use setMaxAttemptWaitTime() to set the required interval between retry attempts.

Authenticating the Listener

Define the credentials the your app (the client) is expecting to receive from the server (listener) in order to ensure that the server is one it is prepared to interact with.

Note that the client cannot authenticate the server if TLS is turned off. When TLS is enabled (Sync Gateway’s default) the client must authenticate the server. If the server cannot provide acceptable credentials then the connection will fail.

Use ReplicatorConfiguration properties setAcceptOnlySelfSignedServerCertificate and setPinnedServerCertificate, to tell the replicator how to verify server-supplied TLS server certificates.

If there is a pinned certificate, nothing else matters, the server cert must exactly match the pinned certificate.
If there are no pinned certs and setAcceptOnlySelfSignedServerCertificate is true then any self-signed certificate is accepted. Certificates that are not self signed are rejected, no matter who signed them.
If there are no pinned certificates and setAcceptOnlySelfSignedServerCertificate is false (default), the client validates the server’s certificates against the system CA certificates. The server must supply a chain of certificates whose root is signed by one of the certificates in the system CA bundle.

Example 5. Set Server TLS security

Kotlin
Java

CA Cert
Self Signed Cert
Pinned Certificate

Set the client to expect and accept only CA attested certificates.

// Configure Server Security
// -- only accept CA attested certs
acceptOnlySelfSignedServerCertificate = false, (1)

1	This is the default. Only certificate chains with roots signed by a trusted CA are allowed. Self signed certificates are not allowed.

Set the client to expect and accept only self-signed certificates

// Configure Server Authentication --
// only accept self-signed certs
acceptOnlySelfSignedServerCertificate = true, (1)

1	Set this to `true` to accept any self signed cert. Any certificates that are not self-signed are rejected.

Set the client to expect and accept only a pinned certificate.

// Use the pinned certificate from the byte array (cert)
pinnedServerCertificate =
TLSIdentity.getIdentity("Our Corporate Id")?.certs?.get(0) as? X509Certificate (1)
    ?: throw IllegalStateException("Cannot find corporate id"),

1	Configure the pinned certificate using data from the byte array `cert`

CA Cert
Self Signed Cert
Pinned Certificate

Set the client to expect and accept only CA attested certificates.

// Configure Server Security
// -- only accept CA attested certs
.setAcceptOnlySelfSignedServerCertificate(false); (1)

1	This is the default. Only certificate chains with roots signed by a trusted CA are allowed. Self signed certificates are not allowed.

Set the client to expect and accept only self-signed certificates

// Configure Server Authentication --
// only accept self-signed certs
.setAcceptOnlySelfSignedServerCertificate(true) (1)

1	Set this to `true` to accept any self signed cert. Any certificates that are not self-signed are rejected.

Set the client to expect and accept only a pinned certificate.

// Use the pinned certificate from the byte array (cert)

TLSIdentity identity = TLSIdentity.getIdentity("OurCorp");
if (identity == null) { throw new IllegalStateException("Cannot find corporate id"); }
config.setPinnedServerX509Certificate((X509Certificate) identity.getCerts().get(0)); (1)

Client Authentication

Here we define the credentials that the client can present to the server if prompted to do so in order that the server can authenticate it.

We use ReplicatorConfiguration's setAuthenticator method to define the authentication method to the replicator.

Basic Authentication

Use the BasicAuthenticator to supply basic authentication credentials (username and word).

Example 6. Basic Authentication

This example shows basic authentication using user name and password:

Kotlin
Java

// Configure the credentials the
// client will provide if prompted
authenticator = BasicAuthenticator("PRIVUSER", "let me in".toCharArray())  (1)

// Configure the credentials the
// client will provide if prompted
.setAuthenticator(new BasicAuthenticator("Our Username", "Our Password".toCharArray())) (1)

Certificate Authentication

Use the ClientCertificateAuthenticator to configure the client TLS certificates to be presented to the server, on connection. This applies only to the URLEndpointListener.

The server (listener) must have disableTLS set false and have a ClientCertificateAuthenticator configured, or it will never ask for this client’s certificate.

The certificate to be presented to the server will need to be signed by the root certificates or be valid based on the authentication callback set to the listener via ListenerCertificateAuthenticator.

TLSIdentity.getIdentity uses the Android keystore. Please see (Android developers documentation (for example https://developer.android.com/training/articles/keystore) for more information about how to import a keychain.

Example 7. Client Cert Authentication

This example shows client certificate authentication using an identity from secure storage.

Kotlin
Java

        // Provide a client certificate to the server for authentication
        authenticator = ClientCertificateAuthenticator(
            TLSIdentity.getIdentity("clientId")
                ?: throw IllegalStateException("Cannot find client id")
        ) (1)

        // ... other replicator configuration
    )
)

thisReplicator = repl

// Provide a client certificate to the server for authentication
TLSIdentity clientId = TLSIdentity.getIdentity("client");
if (clientId == null) { throw new IllegalStateException("Cannot find client id"); }
config.setAuthenticator(new ClientCertificateAuthenticator(clientId)); (1)

// ... other replicator configuration

Replicator repl = new Replicator(config);
repl.start();
thisReplicator = repl;

1	Get an identity from secure storage and create a TLS Identity object
2	Set the authenticator to ClientCertificateAuthenticator and configure it to use the retrieved identity

Initialize Replicator

Use the Replicator class’s ReplicatorConfiguration(config) constructor, to initialize the replicator with the configuration you have defined. You can, optionally, add a change listener (see Monitor Sync) before starting the replicator running using start().

Example 8. Initialize and run replicator

Kotlin
Java

// Create replicator
// Consider holding a reference somewhere
// to prevent the Replicator from being GCed
val repl = Replicator( (1)

    // initialize the replicator configuration
    ReplicatorConfigurationFactory.newConfig(
        target = URLEndpoint(URI("wss://listener.com:8954")), (2)

        collections = mapOf(collections to null),

        // Set replicator type
        type = ReplicatorType.PUSH_AND_PULL,

        // Configure Sync Mode
        continuous = false, // default value


        // set auto-purge behavior
        // (here we override default)
        enableAutoPurge = false, (3)


        // Configure Server Authentication --
        // only accept self-signed certs
        acceptOnlySelfSignedServerCertificate = true, (4)


        // Configure the credentials the
        // client will provide if prompted
        authenticator = BasicAuthenticator("PRIVUSER", "let me in".toCharArray())  (5)

    )
)

// Start replicator
repl.start(false) (6)

thisReplicator = repl
thisToken = token

// Create replicator
// Consider holding a reference somewhere
// to prevent the Replicator from being GCed
Replicator repl = new Replicator( (1)

    // initialize the replicator configuration
    new ReplicatorConfiguration(new URLEndpoint(new URI("wss://listener.com:8954"))) (2)
        .addCollections(collections, null)

        // Set replicator type
        .setType(ReplicatorType.PUSH_AND_PULL)

        // Configure Sync Mode
        .setContinuous(false) // default value


        // set auto-purge behavior
        // (here we override default)
        .setAutoPurgeEnabled(false) (3)


        // Configure Server Authentication --
        // only accept self-signed certs
        .setAcceptOnlySelfSignedServerCertificate(true) (4)

        // Configure the credentials the
        // client will provide if prompted
        .setAuthenticator(new BasicAuthenticator("Our Username", "Our Password".toCharArray())) (5)

);

// Start replicator
repl.start(false); (6)

thisReplicator = repl;
thisToken = token;

1	Initialize the replicator with the configuration
2	Start the replicator

Monitor Sync

In this section: Change Listeners | Replicator Status | Documents Pending Push

You can monitor a replication’s status by using a combination of Change Listeners and the replication.status.activity property — see; getActivityLevel(). This enables you to know, for example, when the replication is actively transferring data and when it has stopped.

Change Listeners

Use this to monitor changes and to inform on sync progress; this is an optional step. You can add and a replicator change listener at any point; it will report changes from the point it is registered.

Best Practice

Don’t forget to save the token so you can remove the listener later

Use the Replicator class to add a change listener as a callback to the Replicator (addChangeListener()) — see: Example 9. You will then be asynchronously notified of state changes.

You can remove a change listener with removeChangeListener(ListenerToken token).

Using Kotlin Flows and LiveData

Android Kotlin developers can take advantage of Flows and LiveData to monitor replicators.

Unresolved include directive in modules/ROOT/pages/_partials/commons/common-sgw-replication-monitor.adoc - include::android:example$snippets/app/src/main/kotlin/com/couchbase/code_snippets/FlowExamples.kt[]

Replicator Status

You can use the ReplicatorStatus() class to check the replicator status. That is, whether it is actively transferring data or if it has stopped — see: Example 9.

The returned ReplicationStatus structure comprises:

getActivityLevel() — stopped, offline, connecting, idle or busy — see states described in: Table 2
getProgress()
- completed — the total number of changes completed
- total — the total number of changes to be processed
getError() — the current error, if any

Example 9. Monitor replication

Kotlin
Java

Adding a Change Listener
Using replicator.status

val token = repl.addChangeListener { change ->
    val err: CouchbaseLiteException? = change.status.error
    if (err != null) {
        log("Error code ::  ${err.code}", err)
    }
}

repl.status.let {
    val progress = it.progress
    log(
        "The Replicator is ${
            it.activityLevel
        } and has processed ${
            progress.completed
        } of ${progress.total} changes"
    )
}

Adding a Change Listener
Using replicator.status

ListenerToken token = repl.addChangeListener(change -> {
    CouchbaseLiteException err = change.getStatus().getError();
    if (err != null) { Logger.log("Error code :: " + err.getCode(), err); }
});

    ReplicatorStatus status = repl.getStatus();
    ReplicatorProgress progress = status.getProgress();
    Logger.log(
        "The Replicator is " + status.getActivityLevel()
            + "and has processed " + progress.getCompleted()
            + " of " + progress.getTotal() + " changes");
}

Replication States

Table 2 shows the different states, or activity levels, reported in the API; and the meaning of each.

Table 2. Replicator activity levels
State	Meaning
`STOPPED`	The replication is finished or hit a fatal error.
`OFFLINE`	The replicator is offline as the remote host is unreachable.
`CONNECTING`	The replicator is connecting to the remote host.
`IDLE`	The replication caught up with all the changes available from the server. The `IDLE` state is only used in continuous replications.
`BUSY`	The replication is actively transferring data.

The replication change object also has properties to track the progress (change.status.completed and change.status.total). Since the replication occurs in batches the total count can vary through the course of a replication.

Replication Status and App Life Cycle

Couchbase Lite replications will continue running until the app terminates, unless the remote system, or the application, terminates the connection.

Recall that the Android OS may kill an application without warning. You should explicitly stop replication processes when they are no longer useful (for example, when they are suspended or idle) to avoid socket connections being closed by the OS, which may interfere with the replication process.

Documents Pending Push

Replicator.isDocumentPending() is quicker and more efficient. Use it in preference to returning a list of pending document IDs, where possible.

You can check whether documents are waiting to be pushed in any forthcoming sync by using either of the following API methods:

Use the Replicator.getPendingDocumentIds() method, which returns a list of document IDs that have local changes, but which have not yet been pushed to the server.

This can be very useful in tracking the progress of a push sync, enabling the app to provide a visual indicator to the end user on its status, or decide when it is safe to exit.
Use the Replicator.isDocumentPending() method to quickly check whether an individual document is pending a push.

Example 10. Use Pending Document ID API

Kotlin
Java

val repl = Replicator(
    ReplicatorConfigurationFactory.newConfig(
        target = URLEndpoint(URI("ws://localhost:4984/mydatabase")),
        collections = mapOf(setOf(collection) to null),
        type = ReplicatorType.PUSH
    )
)

val pendingDocs = repl.getPendingDocumentIds(collection)

// iterate and report on previously
// retrieved pending docids 'list'
if (pendingDocs.isNotEmpty()) {
    log("There are ${pendingDocs.size} documents pending")

    val firstDoc = pendingDocs.first()
    repl.addChangeListener { change ->
        log("Replicator activity level is ${change.status.activityLevel}")
        try {
            if (!repl.isDocumentPending(firstDoc, collection)) {
                log("Doc ID ${firstDoc} has been pushed")
            }
        } catch (err: CouchbaseLiteException) {
            log("Failed getting pending docs", err)
        }
    }

    repl.start()
    thisReplicator = repl
}

Replicator repl = new Replicator(
    new ReplicatorConfiguration(new URLEndpoint(new URI("ws://localhost:4984/mydatabase")))
        .addCollection(collection, null)
        .setType(ReplicatorType.PUSH));

Set<String> pendingDocs = repl.getPendingDocumentIds(collection);

if (!pendingDocs.isEmpty()) {
    Logger.log("There are " + pendingDocs.size() + " documents pending");

    final String firstDoc = pendingDocs.iterator().next();

    repl.addChangeListener(change -> {
        Logger.log("Replicator activity level is " + change.getStatus().getActivityLevel());
        try {
            if (!repl.isDocumentPending(firstDoc, collection)) {
                Logger.log("Doc ID " + firstDoc + " has been pushed");
            }
        }
        catch (CouchbaseLiteException err) {
            Logger.log("Failed getting pending docs", err);
        }
    });

    repl.start();
    this.thisReplicator = repl;
}

1	Replicator.getPendingDocumentIds() returns a list of the document IDs for all documents waiting to be pushed. This is a snapshot and may have changed by the time the response is received and processed.
2	Replicator.isDocumentPending() returns `true` if the document is waiting to be pushed, and `false` otherwise.

Stop Sync

Stopping a replication is straightforward. It is done using stop(). This initiates an asynchronous operation and so is not necessarily immediate. Your app should account for this potential delay before attempting any subsequent operations.

You can find further information on database operations in Databases.

Example 11. Stop replicator

Kotlin
Java

// Stop replication.
repl.stop() (1)

// Stop replication.
repl.stop(); (1)

1	Here we initiate the stopping of the replication using the stop() method. It will stop any active change listener once the replication is stopped.

Conflict Resolution

Unless you specify otherwise, Couchbase Lite’s default conflict resolution policy is applied — see Handling Data Conflicts.

To use a different policy, specify a conflict resolver using conflictResolver as shown in Example 12.

For more complex solutions you can provide a custom conflict resolver - see: Handling Data Conflicts.

Example 12. Using conflict resolvers

Kotlin
Java

Local Wins
Remote Wins
Merge

// Using replConfig.setConflictResolver(new LocalWinConflictResolver());
@Suppress("unused")
object LocalWinsResolver : ConflictResolver {
    override fun resolve(conflict: Conflict) = conflict.localDocument
}

// Using replConfig.setConflictResolver(new RemoteWinConflictResolver());
@Suppress("unused")
object RemoteWinsResolver : ConflictResolver {
    override fun resolve(conflict: Conflict) = conflict.remoteDocument
}

// Using replConfig.setConflictResolver(new MergeConflictResolver());
@Suppress("unused")
object MergeConflictResolver : ConflictResolver {
    override fun resolve(conflict: Conflict): Document {
        val localDoc = conflict.localDocument?.toMap()
        val remoteDoc = conflict.remoteDocument?.toMap()

        val merge: MutableMap<String, Any>?
        if (localDoc == null) {
            merge = remoteDoc
        } else {
            merge = localDoc
            if (remoteDoc != null) {
                merge.putAll(remoteDoc)
            }
        }

        return if (merge == null) {
            MutableDocument(conflict.documentId)
        } else {
            MutableDocument(conflict.documentId, merge)
        }
    }

Local Wins
Remote Wins
Merge

class LocalWinConflictResolver implements ConflictResolver {
    public Document resolve(Conflict conflict) {
        return conflict.getLocalDocument();
    }
}

// Using replConfig.setConflictResolver(new RemoteWinConflictResolver());
@Suppress("unused")
object RemoteWinsResolver : ConflictResolver {
    override fun resolve(conflict: Conflict) = conflict.remoteDocument
}

class MergeConflictResolver implements ConflictResolver {
    public Document resolve(Conflict conflict) {
        Map<String, Object> merge = conflict.getLocalDocument().toMap();
        merge.putAll(conflict.getRemoteDocument().toMap());
        return new MutableDocument(conflict.getDocumentId(), merge);
    }
}

Just as a replicator may observe a conflict — when updating a document that has changed both in the local database and in a remote database — any attempt to save a document may also observe a conflict, if a replication has taken place since the local app retrieved the document from the database. To address that possibility, a version of the Database.save() method also takes a conflict resolver as shown in Example 13.

The following code snippet shows an example of merging properties from the existing document (current) into the one being saved (new). In the event of conflicting keys, it will pick the key value from new.

Example 13. Merging document properties

Kotlin
Java

val mutableDocument = collection.getDocument("xyz")?.toMutable() ?: return
mutableDocument.setString("name", "apples")
collection.save(mutableDocument) { newDoc, curDoc ->  (1)
    if (curDoc == null) {
        return@save false
    } (2)
    val dataMap: MutableMap<String, Any> = curDoc.toMap()
    dataMap.putAll(newDoc.toMap()) (3)
    newDoc.setData(dataMap)
    true (4)
} (5)

Document doc = collection.getDocument("xyz");
if (doc == null) { return; }
MutableDocument mutableDocument = doc.toMutable();
mutableDocument.setString("name", "apples");

collection.save(
    mutableDocument,
    (newDoc, curDoc) -> {
        if (curDoc == null) { return false; }
        Map<String, Object> dataMap = curDoc.toMap();
        dataMap.putAll(newDoc.toMap());
        newDoc.setData(dataMap);
        return true;
    });

For more on replicator conflict resolution see: Handling Data Conflicts.

Delta Sync

If delta sync is enabled on the listener, then replication will use delta sync.

How to

Concepts

Community Resources …

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Getting Started with Peer-to-Peer Synchronization