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Redis Extension Reference Guide

Redis is an in-memory data store used as a database, cache, streaming engine, and message broker. The Quarkus Redis extension allows integrating Quarkus applications with Redis.

To use this extension, the user must be familiar with Redis, especially understanding the mechanism of commands and how they are organized. Typically, we recommend:

  1. The interactive tutorial introducing Redis.

  2. The command references explains Redis commands and contains links to reference documentation.

This extension provides imperative and reactive APIs and low-level and high-level (type-safe) clients.

1. Use the Redis Client

If you want to use this extension, you need to add the io.quarkus:quarkus-redis extension first. In your pom.xml file, add:

pom.xml
<dependency>
    <groupId>io.quarkus</groupId>
    <artifactId>quarkus-redis-client</artifactId>
</dependency>
build.gradle
implementation("io.quarkus:quarkus-redis-client")

With this dependency, you can then inject Redis clients or datasource (high-level, type-safe API), such as:

import io.quarkus.redis.datasource.RedisDataSource;

// ...
@Inject RedisAPI lowLevelClient;
@Inject RedisDataSource highLevelApi;

More details about the various APIs offered by the quarkus-redis extension are available in the One extension, multiple APIs section.

To use Redis as a cache backend, refer to the Redis Cache Backend reference.

2. One extension, multiple APIs

This extension provides multiple ways to interact with Redis:

  • the low-level Vert.x client: it’s a fully reactive, non-blocking, and asynchronous client. More details on the Vert.x Redis Client documentation. Two APIs are exposed: io.vertx.redis.client.Redis, and io.vertx.redis.client.RedisAPI. You will generally use the latter, except if you need to manage connections yourself.

  • the low-level Mutiny variant of the Vert.x API: Unlike the previous one, it exposes a Mutiny API and provides both reactive and imperative methods (suffixed with andAwait()). Two APIs are exposed: io.vertx.mutiny.redis.client.Redis and io.vertx.mutiny.redis.client.RedisAPI. You will generally use the latter, except if you need to manage connections yourself.

  • a high-level reactive data source: A type-safe, high-level API to interact with Redis. This API is fully reactive and asynchronous. It exposes a Mutiny API. It exposes the io.quarkus.redis.datasource.ReactiveRedisDataSource interface.

  • a high-level imperative data source: A type-safe, high-level API to interact with Redis. It is the imperative variant of the reactive data source. It exposes the io.quarkus.redis.datasource.RedisDataSource interface.

To help you select the suitable API for you, here are some recommendations:

  • If you are building an imperative (classic) Quarkus application integrating with Redis: use io.quarkus.redis.datasource.RedisDataSource.

  • If you are building a reactive Quarkus application integrating with Redis: use io.quarkus.redis.datasource.ReactiveRedisDataSource.

  • If you need fine-grain control, or execute commands in a generic way: use io.vertx.mutiny.redis.client.RedisAPI

  • If you have existing Vert.x code, use io.vertx.redis.client.RedisAPI

  • If you need to emit custom commands, you can either use the data sources (reactive or imperative) or the io.vertx.mutiny.redis.client.Redis.

3. Inject the default and named clients

This extension lets you configure a default Redis client/data sources or named ones. The latter is essential when you need to connect to multiple Redis instances.

The default connection is configured using the quarkus.redis.* properties. For example, to configure the default Redis client, use:

quarkus.redis.hosts=redis://localhost/

When using the default connection, you can inject the various APIS using a plain @Inject:

@ApplicationScoped
public class RedisExample {
    @Inject ReactiveRedisDataSource reactiveDataSource;
    @Inject RedisDataSource redisDataSource;
    @Inject RedisAPI redisAPI;
    // ...
}
In general, you inject a single one; the previous snippet is just an example.

Named clients are configured using the quarkus.redis.<name>.* properties:

quarkus.redis.my-redis-1.hosts=redis://localhost/
quarkus.redis.my-redis-2.hosts=redis://my-other-redis:6379

To access the APIs, you need to use the @RedisClientName qualifier:

@ApplicationScoped
public class RedisExample {
    @Inject @RedisClientName("my-redis-1") ReactiveRedisDataSource reactiveDataSource;
    @Inject @RedisClientName("my-redis-2") RedisDataSource redisDataSource;
    // ...
}
You can omit the @Inject annotation when using @RedisClientName.

4. Connect to the Redis server

The Redis extension can operate in 4 distinct modes:

  • Simple client (probably what most users need).

  • Sentinel (when working with Redis in High Availability mode).

  • Cluster (when working with Redis in Clustered mode).

  • Replication (single shard, one node writes, multiple read).

The connection url is configured with the quarkus.redis.hosts (or quarkus.redis.<name>.hosts) as follows:

quarkus.redis.hosts=redis://[:password@]host[:port][/db-number]

4.1. Use Unix Socket

When using unix-socket, you need:

quarkus.redis.hosts=unix://[:password@]/domain/docker.sock[?select=db-number]

4.2. Use the Sentinel Mode

When using Sentinel, you need to pass multiple host urls and configure the client type to sentinel:

quarkus.redis.hosts=redis://localhost:5000,redis://localhost:5001,redis://localhost:5002
quarkus.redis.client-type=sentinel

# Optional
quarkus.redis.master-name=my-sentinel # Default is mymaster
quarkus.redis.role=master # master is the default

The host URLs here must be the sentinel servers. The client will obtain the URLs of actual Redis servers (master or replicas, depending on role) from one of the sentinels, using the master-name as an identifier of the "master set".

Note that you practically never want to configure quarkus.redis.role=sentinel. This setting means that the Redis client will execute commands directly on one of the sentinel servers, instead of an actual Redis server guarded by the sentinels.

4.2.1. Automatic Failover

In the sentinel mode, it is possible to configure automatic failover of master connections:

quarkus.redis.auto-failover=true

If enabled, the sentinel client will additionally create a connection to one sentinel node and watch for failover events. When new master is elected, all connections to the old master are automatically closed and new connections to the new master are created. Automatic failover makes sense for connections executing regular commands, but not for connections used to subscribe to Redis pub/sub channels.

Note that there is a brief period of time between the old master failing and the new master being elected when the existing connections will temporarily fail all operations. After the new master is elected, the connections will automatically fail over and start working again.

4.3. Use the Cluster Mode

When using Redis in cluster mode, you need to pass multiple host urls, configure the client type to cluster and configure the replicas mode:

quarkus.redis.hosts=redis://localhost:7000,redis://localhost:7001,redis://localhost:7002
quarkus.redis.client-type=cluster

# Optional
quarkus.redis.replicas=share # defaults to "never"

The host URLs here must be some of the cluster members. Not all cluster members need to be configured, as the client will obtain a full cluster topology from one of the known servers. However, it is advisable to configure at least 2 or 3 nodes, not just 1.

By default, all commands are sent to a master node (if the command has a key, it is the master node of the shard that owns the key, otherwise it is a random master node). It is possible to configure the Redis client to send read-only commands (queries) to replica nodes. Set the quarkus.redis.replicas configuration property to:

  • never: never use replica nodes, always send queries to master nodes (this is the default)

  • always: always use replica nodes (if there’s more than one replica in the shard, it is selected randomly), never send queries to master nodes

  • share: use master and replica nodes to execute queries (the specific node for each query is selected randomly)

Note that replication in Redis is asynchronous, so replica nodes may be lagging behind their master nodes.

4.4. Use the Replication Mode

When using the replication mode, you need to pass a single host url and configure the type to be replication:

quarkus.redis.hosts=redis://localhost:7000
quarkus.redis.client-type=replication

# Optional
quarkus.redis.replicas=share # defaults to "never"

By default, all commands are sent to the master node. It is possible to configure the Redis client to send read-only commands (queries) to replica nodes. Set the quarkus.redis.replicas configuration property to:

  • never: never use replica nodes, always send queries to the master node (this is the default)

  • always: always use replica nodes (if there’s more than one replica, it is selected randomly), never send queries to the master node

  • share: use master and replica nodes to execute queries (the specific node for each query is selected randomly)

Note that replication in Redis is asynchronous, so replica nodes may be lagging behind the master node.

4.4.1. Static Topology

In the replication mode, it is possible to reconfigure the Redis client to skip automatic discovery of the topology:

quarkus.redis.topology=static

With static topology, the first node in the configuration is assumed to be a master node, while the remaining nodes are assumed to be replicas. The nodes are not verified; it is a responsibility of the application developer to ensure that the static configuration is correct.

Note that automatic discovery of the topology is usually the preferred choice. Static configuration should only be used when necessary. One such case is Amazon Elasticache for Redis (Cluster Mode Disabled), where:

  • master node should be set to the primary endpoint, and

  • one replica node should be set to the reader endpoint.

Note that the reader endpoint of Elasticache for Redis (Cluster Mode Disabled) is a domain name which resolves to a CNAME record that points to one of the replicas. The CNAME record to which the reader endpoint resolves changes over time. This form of DNS-based load balancing does not work well with DNS resolution caching and connection pooling. As a result, some replicas are likely to be underutilized.

4.5. Connect to Redis Cloud

To connect to redis cloud, you need the following properties:

quarkus.redis.hosts=<the redis cloud url such as redis://redis-12436.c14.us-east-1-3.ec2.cloud.redislabs.com:12436>
quarkus.redis.password=<the password>

4.6. Use TLS

To use TLS, you need to:

  1. Set the quarkus.redis.tls.enabled=true property or use the TLS registry (recommended)

  2. Make sure that your URL starts with rediss:// (with two s)

When using the TLS registry, you need to use a named configuration to avoid conflicts with other TLS configurations:

quarkus.tls.redis.trust-store.p12.path=client.p12
quarkus.tls.redis.trust-store.p12.password=secret

quarkus.redis.tls-configuration-name=redis # Reference the named configuration
The default hostname verifier is set to NONE, meaning it does not verify the host name. You can change this behavior by setting the quarkus.redis.tls.hostname-verification-algorithm property, to HTTPS for example.

4.7. Configure the authentication

The Redis password can be set in the redis:// URL or with the quarkus.redis.password property. We recommend the latter, and if possible, using secrets or an environment variable to configure the password.

The associated environment variable is QUARKUS_REDIS_PASSWORD, or QUARKUS_REDIS_<NAME>_PASSWORD for named clients.

4.8. Connection pooling

Connections to Redis are always pooled. By default, maximum number of connections in the pool is 6. This can be configured using quarkus.redis.max-pool-size.

When the connection pool is depleted, attempts to obtain a connection are put into a queue. By default, maximum number of attempts waiting in the queue to obtain a Redis connection is 24. This can be configured using quarkus.redis.max-pool-waiting.

Executing certain commands modifies the server-side state and the behavior of the connection. Such connections cannot be reused and when closed, they are not put back into the pool; instead, they are truly closed. The commands that cause this behavior are:

  • subscription commands (SUBSCRIBE, UNSUBSCRIBE etc.)

  • SELECT

  • AUTH

5. Use Redis data sources

Quarkus exposes a high-level API on top of Redis. This API is type-safe and structured around the notion of group, inherited from the Redis command organization. This API lets you execute Redis commands more conveniently and safely.

5.1. Inject data sources

For each configured Redis client, two Redis data sources are exposed:

  • io.quarkus.redis.datasource.RedisDataSource - an imperative (blocking) Redis data source. Each operation blocks until a response is received or a timeout is reached

  • io.quarkus.redis.datasource.ReactiveRedisDataSource - a reactive Redis data source returning Uni<X> or Multi<X>.

If you configured the default Redis client, you could inject the data sources using:

@Inject RedisDataSource defaultRedisDataSource;
@Inject ReactiveRedisDataSource defaultReactiveRedisDataSource;

If you configured a named Redis client, you need to use the io.quarkus.redis.RedisClientName qualifier to select the right client:

@RedisClientName("my-redis") RedisDataSource myRedisDataSource;
@RedisClientName("my-redis") ReactiveRedisDataSource myReactiveRedisDataSource;

When using the blocking variant, you can configure the default timeout with:

quarkus.redis.timeout=5s
quarkus.redis.my-redis.timeout=5s

The default timeout is configured to 10s.

All about delegation

The blocking data source (io.quarkus.redis.datasource.RedisDataSource) is implemented on top of the reactive one (io.quarkus.redis.datasource.ReactiveRedisDataSource). The ReactiveRedisDataSource is implemented on top of the io.vertx.mutiny.redis.Redis API.

5.1.1. Data Source groups

As mentioned above, the API is divided into groups:

  • bitmap - .bitmap()

  • key (generic) - .key()

  • geo - .geo(memberType)

  • hash - .hash(`valueType)

  • hyperloglog - .hyperloglog(memberType)

  • list - .list(memberType)

  • pubsub - pubsub()

  • set - .set(memberType)

  • sorted-set - .sortedSet(memberType)

  • string - .value(valueType)

  • stream - .stream(`valueType)

  • transactions - withTransaction

  • json - .json() (requires the RedisJSON module on the server side)

  • bloom - .bloom() (requires the RedisBloom module on the server side)

  • cuckoo - .cuckoo() (requires the rRedisBloom module on the server side, which also provides the cuckoo filter commands)

  • count-min - .countmin() (requires the RedisBloom module on the server side, which also provides the count-min filter commands)

  • top-k - .topk() (requires the RedisBloom module on the server side, which also provides the top-k filter commands)

  • graph - .graph() (requires the RedisGraph module on the server side). These commands are marked as experimental. Also the module has been declared end of life by Redis.

  • search - .search() (requires the RedisSearch module on the server side).

  • auto-suggest - .autosuggest() (requires the RedisSearch module on the server side).

  • time-series - .timeseries() (requires the Redis Time Series module on the server side).

These commands are marked as experimental, as we would need feedback before making them stable.

Each of these methods returns an object that lets you execute the commands related to the group. The following snippet demonstrates how to use the hash group:

@ApplicationScoped
public class MyRedisService {

    private static final String MY_KEY = "my-key";

    private final HashCommands<String, String, Person> commands;

    public MyRedisService(RedisDataSource ds) { (1)
        commands = ds.hash(Person.class); (2)
    }

    public void set(String field, Person value) {
        commands.hset(MY_KEY, field, value);  (3)
    }

    public Person get(String field) {
        return commands.hget(MY_KEY, field);  (4)
    }
}
1 Inject the RedisDataSource in the constructor
2 Creates the HashCommands object. This object has three type parameters: the type of the key, the type of the field, and the type of the member
3 Use the created commands to associate the field field with the value value
4 Use the created commands to retrieve the field field value.

5.2. Serializing and Deserializing data

The data source APIs handle the serialization and deserialization automatically. By default, non-standard types are serialized into JSON and deserialized from JSON. In this case, quarkus-jackson is used.

5.3. Binary

To store or retrieve binary data, use byte[].

5.4. Custom codec

You can register custom codec by providing a CDI bean implementing the io.quarkus.redis.datasource.codecs.Codec interface:

import java.lang.reflect.Type;
import java.nio.charset.StandardCharsets;

import jakarta.enterprise.context.ApplicationScoped;

import io.quarkus.redis.datasource.codecs.Codec;

@ApplicationScoped
public class PersonCodec implements Codec {
    @Override
    public boolean canHandle(Type clazz) {
        return clazz.equals(Person.class);
    }

    @Override
    public byte[] encode(Object item) {
        var p = (Person) item;
        return (p.firstName + ";" + p.lastName.toUpperCase()).getBytes(StandardCharsets.UTF_8);
    }

    @Override
    public Object decode(byte[] item) {
        var value = new String(item, StandardCharsets.UTF_8);
        var segments = value.split(";");
        return new Person(segments[0], segments[1]);
    }
}

The canHandle method is called to check if the codec can handle a specific type. The parameter received in the encode method matches that type. The object returned by the decode method must also match that type.

5.5. Use type reference

Each group can be configured with Class, or with TypeReference objects. TypeReference are useful when dealing with Java generics:

@ApplicationScoped
public class MyRedisService {

    private static final String MY_KEY = "my-key";

    private final HashCommands<String, String, List<Person>> commands;

    public MyRedisService(RedisDataSource ds) {
        commands = ds.hash(new TypeReference<List<Person>>(){});
    }

    public void set(String field, List<Person> value) {
        commands.hset(MY_KEY, field, value);
    }

    public List<Person> get(String field) {
        return commands.hget(MY_KEY, field);
    }
}
You cannot use type references when using transaction. This is a known limitation.

5.6. Manipulate cached and binary data with the value group

The value group is used to manipulate Redis Strings. Thus, this group is not limited to Java Strings but can be used for integers (like a counter) or binary content (like images).

5.6.1. Work with cached values

You can use Redis as a cache using the setex command, which stores a given value to a given key for a given duration. The following snippet shows how such a command can be used to store BusinessObject for 1 second.

@ApplicationScoped
public static class MyRedisCache {

    private final ValueCommands<String, BusinessObject> commands;

    public MyRedisCache(RedisDataSource ds) {
        commands = ds.value(BusinessObject.class);
    }

    public BusinessObject get(String key) {
        return commands.get(key);
    }

    public void set(String key, BusinessObject bo) {
        commands.setex(key, 1, bo); // Expires after 1 second
    }
}

You can use the setnx method only to set the value if no value has been stored for the given key.

The key group provides more fine-grain control on expiration and ttl of each key.

The set method can also receive a SetArgs argument that modify the behavior:

  • ex(seconds) - Set the specified expire time, in seconds.

  • px(milliseconds) - Set the specified expire time, in milliseconds.

  • exat(timestamp-seconds) - Set the specified Unix time at which the key will expire, in seconds.

  • pxat(timestamp-milliseconds) - Set the specified Unix time at which the key will expire, in milliseconds.

  • nx() - Only set the key if it does not already exist.

  • xx() - Only set the key if it already exists.

  • keepttl() - Retain the time to live associated with the key.

5.6.2. Store binary data

Redis strings can be used to store binary data, such as images. In this case, we will use byte[] as value type:

@ApplicationScoped
public static class MyBinaryRepository {

    private final ValueCommands<String, byte[]> commands;

    public MyBinaryRepository(RedisDataSource ds) {
        commands = ds.value(byte[].class);
    }

    public byte[] get(String key) {
        byte[] bytes = commands.get(key);
        if (bytes == null) {
            throw new NoSuchElementException("`" + key + "` not found");
        }
        return bytes;
    }

    public void add(String key, byte[] bytes) {
        commands.set(key, bytes);
    }

    public void addIfAbsent(String key, byte[] bytes) {
        commands.setnx(key, bytes);
    }
}

5.6.3. Store a counter

You can store counters in Redis as demonstrated below:

@ApplicationScoped
public static class MyRedisCounter {

    private final ValueCommands<String, Long> commands;

    public MyRedisCounter(RedisDataSource ds) {
        commands = ds.value(Long.class); (1)
    }

    public long get(String key) {
        Long l = commands.get(key);  (2)
        if (l == null) {
            return 0L;
        }
        return l;
    }

    public void incr(String key) {
        commands.incr(key);  (3)
    }

}
1 Retrieve the commands. This time we will manipulate Long values
2 Retrieve the counter associated with the given key. Return 0L when no counter is stored.
3 Increment the value. If there are no counter stored for the key, the incr command considers 0 as value (so incr sets the value to 1).

There are other methods that can be useful to manipulate counters, such as:

  • incrby - allows setting the increment value (positive or negative)

  • incrbyfloat - allows setting the increment value as a float/ double (the stored value will be a double)

  • set - to set an initial value if needed

  • decr and decrby - allows decrementing the stored value

5.6.4. Communicate with pub/sub

Redis allows sending messages to channels and listening for these messages. These features are available from the pubsub group.

The following snippets shows how a cache can emit a Notification after every set, and how a subscriber can receive the notification.

public static final class Notification {
    public String key;
    public BusinessObject bo;

    public Notification() {

    }

    public Notification(String key, BusinessObject bo) {
        this.key = key;
        this.bo = bo;
    }
}

@ApplicationScoped
@Startup // We want to create the bean instance on startup to subscribe to the channel.
public static class MySubscriber implements Consumer<Notification> {
    private final PubSubCommands<Notification> pub;
    private final PubSubCommands.RedisSubscriber subscriber;

    public MySubscriber(RedisDataSource ds) {
        pub = ds.pubsub(Notification.class);
        subscriber = pub.subscribe("notifications", this);
    }

    @Override
    public void accept(Notification notification) {
        // Receive the notification
    }

    @PreDestroy
    public void terminate() {
        subscriber.unsubscribe(); // Unsubscribe from all subscribed channels
    }
}

@ApplicationScoped
public static class MyCache {

    private final ValueCommands<String, BusinessObject> commands;
    private final PubSubCommands<Notification> pub;

    public MyCache(RedisDataSource ds) {
        commands = ds.value(BusinessObject.class);
        pub = ds.pubsub(Notification.class);
    }

    public BusinessObject get(String key) {
        return commands.get(key);
    }

    public void set(String key, BusinessObject bo) {
        commands.set(key, bo);
        pub.publish("notifications", new Notification(key, bo));
    }
}

5.6.5. Use Redis transactions

Redis transactions are slightly different from relational database transactions. Redis transactions are a batch of commands executed altogether.

A Redis transaction can watch a set of keys, which would discard the transaction is one of these keys are updated during the transaction execution.

Commands enqueued in a transaction are not executed before the whole transaction is executed. It means that you cannot retrieve a result during the transaction. Results are accumulated in a TransactionResult object you will access after the completion of the transaction. This object contains whether the transaction succeeded or was discarded, and in the former case the result of each command (indexed by the command order).

To start a transaction, you use the withTransaction method. This method receives a Consumer<TransactionalRedisDataSource>, which follows the same API as the regular RedisDataSource except that the commands return void (Uni<Void> for the reactive variant). When that consumer returns, the transaction is executed.

The following snippet shows how to create a transaction executing two related writes:

@Inject RedisDataSource ds;

// ...

TransactionResult result = ds.withTransaction(tx -> {
        TransactionalHashCommands<String, String, String> hash = tx.hash(String.class);
        hash.hset(KEY, "field-1", "hello");
        hash.hset(KEY, "field-2", "hello");
    });

The received tx object can also be used to discard the transaction, using: tx.discard();. The returned TransactionResult lets you retrieve the result of each command.

When using the reactive variant of the data source, the passed callback is a Function<ReactiveTransactionalRedisDataSource, Uni<Void>>:

@Inject ReactiveRedisDataSource ds;

// ...

Uni<TransactionResult> result = ds.withTransaction(tx -> {
        ReactiveTransactionalHashCommands<String, String, String> hash = tx.hash(String.class);
        return hash.hset(KEY, "field-1", "hello")
            .chain(() -> hash.hset(KEY, "field-2", "hello"));
});

Transaction execution can be conditioned by keys. When a passed key gets modified during the execution of a transaction, the transaction is discarded. The keys are passed as String as a second parameter to the withTransaction method:

TransactionResult result = ds.withTransaction(tx -> {
    TransactionalHashCommands<String, String, String> hash = tx.hash(String.class);
    hash.hset(KEY, "field-1", "hello");
    hash.hset(KEY, "field-2", "hello");
}, KEY);
You cannot use the pub/sub feature from within a transaction.

5.6.6. Implement the optimistic locking pattern

To use optimistic locking, you need to use a variant of the withTransaction method, allowing the execution of code before the transaction starts. In other words, it will be executed as follows:

WATCH key

// Pre-transaction block
// ....
// Produce a result

MULTI
  // In transaction code, receive the result produced by the pre-transaction block.
EXEC

For example, if you need to update a value in a hash only if the field exists, you will use the following API:

OptimisticLockingTransactionResult<Boolean> result = blocking.withTransaction(ds -> {
    // The pre-transaction block:
    HashCommands<String, String, String> hashCommands = ds.hash(String.class);
    return hashCommands.hexists(key, "field"); // Produce a result (boolean in this case)
},
 (exists, tx) -> { // The transactional block, receives the result and the transactional data source
        if (exists) {
            tx.hash(String.class).hset(key, "field", "new value");
        } else {
            tx.discard();
        }
 },
  key); // The watched key

If one of the watched keys is touched before or during the execution of the pre-transaction or transactional blocks, the transaction is aborted. The pre-transactional block produces a result that the transactional block can use. This construct is necessary because, within a transaction, the commands do not produce a result. Results can only be retrieved after the execution of the transaction.

The pre-transaction and transactional blocks are invoked on the same Redis connection. Consequently, the pre-transaction block must use the passed data source to execute commands. Thus, the commands are emitted from that connection. These commands must not modify the watched keys.

The transaction is aborted if the pre-transaction block throws an exception (or produces a failure when using the reactive API).

5.6.7. Execute custom commands

To execute a custom command, or a command not supported by the API, use the following approach:

@Inject ReactiveRedisDataSource ds;

// ...

Response response = ds.execute("my-command", param1, param2, param3);

The execute method sends the command to Redis and retrieves the Response. The command name is passed as first parameters. You can add an arbitrary number of String parameters to your command. The result is wrapped into a Response object.

The reactive variant returns a Uni<Response>.

You can also execute custom command in a transaction.

6. Preload data into Redis

On startup, you can configure the Redis client to preload data into the Redis database.

6.1. Configure the load scripts

Specify the load script you want to load using:

quarkus.redis.load-script=import.redis # import.redis is the default in dev mode, no-file is the default in production mode
quarkus.redis.my-redis.load-script=actors.redis, movies.redis
load-script is a build time property than cannot be overridden at runtime.

Note that each client can have a different script, even a list of scripts. In the case of a list, the data is imported in the list order (for example, first actors.redis, then movies.redis for the my-redis client).

6.2. Write load scripts

The .redis file follows a one command per line format:

# Line starting with # and -- are ignored, as well as empty lines

-- One command per line:
HSET foo field1 abc field2 123

-- Parameters with spaces must be wrapped into single or double quotes
HSET bar field1 "abc def" field2 '123 456 '

-- Parameters with double quotes must be wrapped into single quotes and the opposite
SET key1 'A value using "double-quotes"'
SET key2 "A value using 'single-quotes'"

Quarkus batches all the commands from a single file and sends all the commands. The loading process fails if there is any error, but the previous instructions may have been executed. To avoid that, you can wrap your command into a Redis transaction:

-- Run inside a transaction
MULTI
SET key value
SET space:key 'another value'
INCR counter
EXEC

6.3. Configure the pre-loading

The data is loaded when the application starts. By default, it drops the whole database before importing. You can prevent this using quarkus.redis.flush-before-load=false.

Also, the import process only runs if the database is empty (no key). You can force to import even if there is data using the quarkus.redis.load-only-if-empty=false

6.4. Distinguish dev/test vs. prod when pre-loading

As mentioned above, in dev and test modes, Quarkus tries to import data by looking for the src/main/resources/import.redis. This behavior is disabled in prod mode, and if you want to import even in production, add:

%prod.quarkus.redis.load-script=import.redis

Before importing in prod mode, make sure you configured quarkus.redis.flush-before-load accordingly.

In dev mode, to reload the content of the .redis load scripts, you need to add: %dev.quarkus.vertx.caching=false

7. Use the Vert.x redis client

In addition to the high-level API, you can use the Vertx Redis clients directly in your code. The documentation of the Vert.x Redis Client is available on the Vert.x Web Site.

8. Configure Redis hosts programmatically

The RedisHostsProvider programmatically provides redis hosts. This allows for configuration of properties like redis connection password coming from other sources.

This is useful as it removes the need to store sensitive data in application.properties.

@ApplicationScoped
@Identifier("hosts-provider") // the name of the host provider
public class ExampleRedisHostProvider implements RedisHostsProvider {
    @Override
    public Set<URI> getHosts() {
        // do stuff to get the host
        String host = "redis://localhost:6379/3";
        return Collections.singleton(URI.create(host));
    }
}

The host provider can be used to configure the redis client like shown below

quarkus.redis.hosts-provider-name=hosts-provider

9. Customize the Redis options programmatically

You can expose a bean implementing the io.quarkus.redis.client.RedisOptionsCustomizer interface to customize the Redis client options. The bean is called for each configured Redis client:

@ApplicationScoped
public static class MyExampleCustomizer implements RedisOptionsCustomizer {

    @Override
    public void customize(String clientName, RedisOptions options) {
        if (clientName.equalsIgnoreCase("my-redis")
                || clientName.equalsIgnoreCase(RedisConfig.DEFAULT_CLIENT_NAME)) {
            // modify the given options
        } else {
            throw new IllegalStateException("Unknown client name: " + clientName);
        }
    }
}

9.1. Use the Redis Dev Services

10. Configure Redis observability

10.1. Enable the health checks

If you are using the quarkus-smallrye-health extension, quarkus-redis will automatically add a readiness health check to validate the connection to the Redis server.

So when you access the /q/health/ready endpoint of your application you will have information about the connection validation status.

This behavior can be disabled by setting the quarkus.redis.health.enabled property to false in your application.properties.

10.2. Enable metrics

Redis client metrics are automatically enabled when the application also uses the quarkus-micrometer extension. Micrometer collects the metrics of all the Redis clients implemented by the application.

As an example, if you export the metrics to Prometheus, you will get:

# HELP redis_commands_duration_seconds The duration of the operations (commands of batches
# TYPE redis_commands_duration_seconds summary
redis_commands_duration_seconds_count{client_name="<default>",} 3.0
redis_commands_duration_seconds_sum{client_name="<default>",} 0.047500042
# HELP redis_commands_duration_seconds_max The duration of the operations (commands of batches
# TYPE redis_commands_duration_seconds_max gauge
redis_commands_duration_seconds_max{client_name="<default>",} 0.033273167
# HELP redis_pool_active The number of resources from the pool currently used
# TYPE redis_pool_active gauge
redis_pool_active{pool_name="<default>",pool_type="redis",} 0.0
# HELP redis_pool_ratio Pool usage ratio
# TYPE redis_pool_ratio gauge
redis_pool_ratio{pool_name="<default>",pool_type="redis",} 0.0
# HELP redis_pool_queue_size Number of pending elements in the waiting queue
# TYPE redis_pool_queue_size gauge
redis_pool_queue_size{pool_name="<default>",pool_type="redis",} 0.0
# HELP redis_commands_failure_total The number of operations (commands or batches) that have been failed
# TYPE redis_commands_failure_total counter
redis_commands_failure_total{client_name="<default>",} 0.0
# HELP redis_commands_success_total The number of operations (commands or batches) that have been executed successfully
# TYPE redis_commands_success_total counter
redis_commands_success_total{client_name="<default>",} 3.0
# HELP redis_pool_idle The number of resources from the pool currently used
# TYPE redis_pool_idle gauge
redis_pool_idle{pool_name="<default>",pool_type="redis",} 6.0
# HELP redis_pool_completed_total Number of times resources from the pool have been acquired
# TYPE redis_pool_completed_total counter
redis_pool_completed_total{pool_name="<default>",pool_type="redis",} 3.0
# HELP redis_commands_count_total The number of operations (commands or batches) executed
# TYPE redis_commands_count_total counter
redis_commands_count_total{client_name="<default>",} 3.0
# HELP redis_pool_usage_seconds Time spent using resources from the pool
# TYPE redis_pool_usage_seconds summary
redis_pool_usage_seconds_count{pool_name="<default>",pool_type="redis",} 3.0
redis_pool_usage_seconds_sum{pool_name="<default>",pool_type="redis",} 0.024381375
# HELP redis_pool_usage_seconds_max Time spent using resources from the pool
# TYPE redis_pool_usage_seconds_max gauge
redis_pool_usage_seconds_max{pool_name="<default>",pool_type="redis",} 0.010671542
# HELP redis_pool_queue_delay_seconds Time spent in the waiting queue before being processed
# TYPE redis_pool_queue_delay_seconds summary
redis_pool_queue_delay_seconds_count{pool_name="<default>",pool_type="redis",} 3.0
redis_pool_queue_delay_seconds_sum{pool_name="<default>",pool_type="redis",} 0.022341249
# HELP redis_pool_queue_delay_seconds_max Time spent in the waiting queue before being processed
# TYPE redis_pool_queue_delay_seconds_max gauge
redis_pool_queue_delay_seconds_max{pool_name="<default>",pool_type="redis",} 0.021926083

The Redis client name can be found in the tags.

The metrics contain both the Redis connection pool metrics (redis_pool_*) and the metrics about the command execution (redis_commands_*) such as the number of command, successes, failures, and durations.

10.3. Disable metrics

To disable the Redis client metrics when quarkus-micrometer is used, add the following property to the application configuration:

quarkus.micrometer.binder.redis.enabled=false

11. Referencia de configuración

Propiedad de configuración fijada en tiempo de compilación - Todas las demás propiedades de configuración son anulables en tiempo de ejecución

Configuration property

Tipo

Por defecto

A list of files allowing to pre-load data into the Redis server. The file is formatted as follows:

  • One instruction per line

  • Each instruction is a Redis command and its parameter such as HSET foo field value

  • Parameters can be wrapped into double-quotes if they include spaces

  • Parameters can be wrapped into single-quote if they include spaces

  • Parameters including double-quotes must be wrapped into single-quotes

Environment variable: QUARKUS_REDIS_LOAD_SCRIPT

Show more

list of string

import.redis in DEV, TEST ; no-file otherwise

When using redisLoadScript, indicates if the Redis database must be flushed (erased) before importing.

Environment variable: QUARKUS_REDIS_FLUSH_BEFORE_LOAD

Show more

boolean

true

When using redisLoadScript, indicates if the import should only happen if the database is empty (no keys).

Environment variable: QUARKUS_REDIS_LOAD_ONLY_IF_EMPTY

Show more

boolean

true

Whether a health check is published in case the smallrye-health extension is present.

Environment variable: QUARKUS_REDIS_HEALTH_ENABLED

Show more

boolean

true

The Redis hosts to use while connecting to the Redis server. Only the cluster and sentinel modes will consider more than 1 element.

The URI provided uses the following schema redis://[username:password@][host][:port][/database] Use quarkus.redis.hosts-provider-name to provide the hosts programmatically.

Environment variable: QUARKUS_REDIS_HOSTS

Show more

list of URI

The hosts provider bean name.

It is the &#64;Named value of the hosts provider bean. It is used to discriminate if multiple io.quarkus.redis.client.RedisHostsProvider beans are available.

Used when quarkus.redis.hosts is not set.

Environment variable: QUARKUS_REDIS_HOSTS_PROVIDER_NAME

Show more

string

The maximum delay to wait before a blocking command to Redis server times out

Environment variable: QUARKUS_REDIS_TIMEOUT

Show more

Duration 

10S

The Redis client type. Accepted values are: STANDALONE (default), CLUSTER, REPLICATION, SENTINEL.

Environment variable: QUARKUS_REDIS_CLIENT_TYPE

Show more

standalone, sentinel, cluster, replication

standalone

The master name (only considered in the Sentinel mode).

Environment variable: QUARKUS_REDIS_MASTER_NAME

Show more

string

mymaster

The role name (only considered in the Sentinel mode). Accepted values are: MASTER, REPLICA, SENTINEL.

Environment variable: QUARKUS_REDIS_ROLE

Show more

master, replica, sentinel

master

Whether to use replicas nodes (only considered in Cluster mode and Replication mode). Accepted values are: ALWAYS, NEVER, SHARE.

Environment variable: QUARKUS_REDIS_REPLICAS

Show more

never, share, always

never

The default password for Redis connections.

If not set, it will try to extract the value from the hosts.

Environment variable: QUARKUS_REDIS_PASSWORD

Show more

string

The maximum size of the connection pool.

Environment variable: QUARKUS_REDIS_MAX_POOL_SIZE

Show more

int

6

The maximum waiting requests for a connection from the pool.

Environment variable: QUARKUS_REDIS_MAX_POOL_WAITING

Show more

int

24

The duration indicating how often should the connection pool cleaner execute.

Environment variable: QUARKUS_REDIS_POOL_CLEANER_INTERVAL

Show more

Duration 

30s

The timeout for unused connection recycling.

Environment variable: QUARKUS_REDIS_POOL_RECYCLE_TIMEOUT

Show more

Duration 

3M

Sets how many handlers is the client willing to queue.

The client will always work on pipeline mode, this means that messages can start queueing. Using this configuration option, you can control how much backlog you’re willing to accept.

Environment variable: QUARKUS_REDIS_MAX_WAITING_HANDLERS

Show more

int

2048

Tune how much nested arrays are allowed on a Redis response. This affects the parser performance.

Environment variable: QUARKUS_REDIS_MAX_NESTED_ARRAYS

Show more

int

32

The number of reconnection attempts when a pooled connection cannot be established on first try.

Environment variable: QUARKUS_REDIS_RECONNECT_ATTEMPTS

Show more

int

0

The interval between reconnection attempts when a pooled connection cannot be established on first try.

Environment variable: QUARKUS_REDIS_RECONNECT_INTERVAL

Show more

Duration 

1S

Should the client perform RESP protocol negotiation during the connection handshake.

Environment variable: QUARKUS_REDIS_PROTOCOL_NEGOTIATION

Show more

boolean

true

The preferred protocol version to be used during protocol negotiation. When not set, defaults to RESP 3. When protocol negotiation is disabled, this setting has no effect.

Environment variable: QUARKUS_REDIS_PREFERRED_PROTOCOL_VERSION

Show more

resp2, resp3

resp3

The TTL of the hash slot cache. A hash slot cache is used by the clustered Redis client to prevent constantly sending CLUSTER SLOTS commands to the first statically configured cluster node.

This setting is only meaningful in case of a clustered Redis client and has no effect otherwise.

Environment variable: QUARKUS_REDIS_HASH_SLOT_CACHE_TTL

Show more

Duration 

1S

Whether automatic failover is enabled. This only makes sense for sentinel clients with role of MASTER and is ignored otherwise.

If enabled, the sentinel client will additionally create a connection to one sentinel node and watch for failover events. When new master is elected, all connections to the old master are automatically closed and new connections to the new master are created. Automatic failover makes sense for connections executing regular commands, but not for connections used to subscribe to Redis pub/sub channels.

Note that there is a brief period of time between the old master failing and the new master being elected when the existing connections will temporarily fail all operations. After the new master is elected, the connections will automatically fail over and start working again.

Environment variable: QUARKUS_REDIS_AUTO_FAILOVER

Show more

boolean

false

How the Redis topology is obtained. By default, the topology is discovered automatically. This is the only mode for the clustered and sentinel client. For replication client, topology may be set statically.

In case of a static topology for replication Redis client, the first node in the list is considered a master and the remaining nodes in the list are considered replicas.

Environment variable: QUARKUS_REDIS_TOPOLOGY

Show more

discover, static

discover

The client name used to identify the connection.

If the RedisClientConfig#configureClientName() is enabled, and this property is not set it will attempt to extract the value from the RedisClientName#value() annotation.

If the RedisClientConfig#configureClientName() is enabled, both this property and the RedisClientName#value() must adhere to the pattern '[a-zA-Z0-9\\-_.~]*'; if not, this may result in an incorrect client name after URI encoding.

Environment variable: QUARKUS_REDIS_CLIENT_NAME

Show more

string

Whether it should set the client name while connecting with Redis.

This is necessary because Redis only accepts client=my-client-name query parameter in version 6+.

This property can be used with RedisClientConfig#clientName() configuration.

Environment variable: QUARKUS_REDIS_CONFIGURE_CLIENT_NAME

Show more

boolean

false

The name of the TLS configuration to use.

If a name is configured, it uses the configuration from quarkus.tls.<name>.* If a name is configured, but no TLS configuration is found with that name then an error will be thrown.

If no TLS configuration name is set then, quarkus.redis.$client-name.tls will be used.

The default TLS configuration is not used by default.

Environment variable: QUARKUS_REDIS_TLS_CONFIGURATION_NAME

Show more

string

A list of files allowing to pre-load data into the Redis server. The file is formatted as follows:

  • One instruction per line

  • Each instruction is a Redis command and its parameter such as HSET foo field value

  • Parameters can be wrapped into double-quotes if they include spaces

  • Parameters can be wrapped into single-quote if they include spaces

  • Parameters including double-quotes must be wrapped into single-quotes

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__LOAD_SCRIPT

Show more

list of string

import.redis in DEV, TEST ; no-file otherwise

When using redisLoadScript, indicates if the Redis database must be flushed (erased) before importing.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__FLUSH_BEFORE_LOAD

Show more

boolean

true

When using redisLoadScript, indicates if the import should only happen if the database is empty (no keys).

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__LOAD_ONLY_IF_EMPTY

Show more

boolean

true

The Redis hosts to use while connecting to the Redis server. Only the cluster and sentinel modes will consider more than 1 element.

The URI provided uses the following schema redis://[username:password@][host][:port][/database] Use quarkus.redis.hosts-provider-name to provide the hosts programmatically.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__HOSTS

Show more

list of URI

The hosts provider bean name.

It is the &#64;Named value of the hosts provider bean. It is used to discriminate if multiple io.quarkus.redis.client.RedisHostsProvider beans are available.

Used when quarkus.redis.hosts is not set.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__HOSTS_PROVIDER_NAME

Show more

string

The maximum delay to wait before a blocking command to Redis server times out

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TIMEOUT

Show more

Duration 

10S

The Redis client type. Accepted values are: STANDALONE (default), CLUSTER, REPLICATION, SENTINEL.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__CLIENT_TYPE

Show more

standalone, sentinel, cluster, replication

standalone

The master name (only considered in the Sentinel mode).

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__MASTER_NAME

Show more

string

mymaster

The role name (only considered in the Sentinel mode). Accepted values are: MASTER, REPLICA, SENTINEL.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__ROLE

Show more

master, replica, sentinel

master

Whether to use replicas nodes (only considered in Cluster mode and Replication mode). Accepted values are: ALWAYS, NEVER, SHARE.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__REPLICAS

Show more

never, share, always

never

The default password for Redis connections.

If not set, it will try to extract the value from the hosts.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__PASSWORD

Show more

string

The maximum size of the connection pool.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__MAX_POOL_SIZE

Show more

int

6

The maximum waiting requests for a connection from the pool.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__MAX_POOL_WAITING

Show more

int

24

The duration indicating how often should the connection pool cleaner execute.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__POOL_CLEANER_INTERVAL

Show more

Duration 

30s

The timeout for unused connection recycling.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__POOL_RECYCLE_TIMEOUT

Show more

Duration 

3M

Sets how many handlers is the client willing to queue.

The client will always work on pipeline mode, this means that messages can start queueing. Using this configuration option, you can control how much backlog you’re willing to accept.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__MAX_WAITING_HANDLERS

Show more

int

2048

Tune how much nested arrays are allowed on a Redis response. This affects the parser performance.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__MAX_NESTED_ARRAYS

Show more

int

32

The number of reconnection attempts when a pooled connection cannot be established on first try.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__RECONNECT_ATTEMPTS

Show more

int

0

The interval between reconnection attempts when a pooled connection cannot be established on first try.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__RECONNECT_INTERVAL

Show more

Duration 

1S

Should the client perform RESP protocol negotiation during the connection handshake.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__PROTOCOL_NEGOTIATION

Show more

boolean

true

The preferred protocol version to be used during protocol negotiation. When not set, defaults to RESP 3. When protocol negotiation is disabled, this setting has no effect.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__PREFERRED_PROTOCOL_VERSION

Show more

resp2, resp3

resp3

The TTL of the hash slot cache. A hash slot cache is used by the clustered Redis client to prevent constantly sending CLUSTER SLOTS commands to the first statically configured cluster node.

This setting is only meaningful in case of a clustered Redis client and has no effect otherwise.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__HASH_SLOT_CACHE_TTL

Show more

Duration 

1S

Whether automatic failover is enabled. This only makes sense for sentinel clients with role of MASTER and is ignored otherwise.

If enabled, the sentinel client will additionally create a connection to one sentinel node and watch for failover events. When new master is elected, all connections to the old master are automatically closed and new connections to the new master are created. Automatic failover makes sense for connections executing regular commands, but not for connections used to subscribe to Redis pub/sub channels.

Note that there is a brief period of time between the old master failing and the new master being elected when the existing connections will temporarily fail all operations. After the new master is elected, the connections will automatically fail over and start working again.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__AUTO_FAILOVER

Show more

boolean

false

How the Redis topology is obtained. By default, the topology is discovered automatically. This is the only mode for the clustered and sentinel client. For replication client, topology may be set statically.

In case of a static topology for replication Redis client, the first node in the list is considered a master and the remaining nodes in the list are considered replicas.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TOPOLOGY

Show more

discover, static

discover

The client name used to identify the connection.

If the RedisClientConfig#configureClientName() is enabled, and this property is not set it will attempt to extract the value from the RedisClientName#value() annotation.

If the RedisClientConfig#configureClientName() is enabled, both this property and the RedisClientName#value() must adhere to the pattern '[a-zA-Z0-9\\-_.~]*'; if not, this may result in an incorrect client name after URI encoding.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__CLIENT_NAME

Show more

string

Whether it should set the client name while connecting with Redis.

This is necessary because Redis only accepts client=my-client-name query parameter in version 6+.

This property can be used with RedisClientConfig#clientName() configuration.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__CONFIGURE_CLIENT_NAME

Show more

boolean

false

The name of the TLS configuration to use.

If a name is configured, it uses the configuration from quarkus.tls.<name>.* If a name is configured, but no TLS configuration is found with that name then an error will be thrown.

If no TLS configuration name is set then, quarkus.redis.$client-name.tls will be used.

The default TLS configuration is not used by default.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_CONFIGURATION_NAME

Show more

string

Dev Services

Tipo

Por defecto

If DevServices has been explicitly enabled or disabled. DevServices is generally enabled by default, unless there is an existing configuration present.

When DevServices is enabled Quarkus will attempt to automatically configure and start a database when running in Dev or Test mode and when Docker is running.

Environment variable: QUARKUS_REDIS_DEVSERVICES_ENABLED

Show more

boolean

true

The container image name to use, for container based DevServices providers. If you want to use Redis Stack modules (bloom, graph, search…​), use: redis/redis-stack:latest.

Environment variable: QUARKUS_REDIS_DEVSERVICES_IMAGE_NAME

Show more

string

Optional fixed port the dev service will listen to.

If not defined, the port will be chosen randomly.

Environment variable: QUARKUS_REDIS_DEVSERVICES_PORT

Show more

int

Indicates if the Redis server managed by Quarkus Dev Services is shared. When shared, Quarkus looks for running containers using label-based service discovery. If a matching container is found, it is used, and so a second one is not started. Otherwise, Dev Services for Redis starts a new container.

The discovery uses the quarkus-dev-service-redis label. The value is configured using the service-name property.

Container sharing is only used in dev mode.

Environment variable: QUARKUS_REDIS_DEVSERVICES_SHARED

Show more

boolean

true

The value of the quarkus-dev-service-redis label attached to the started container. This property is used when shared is set to true. In this case, before starting a container, Dev Services for Redis looks for a container with the quarkus-dev-service-redis label set to the configured value. If found, it will use this container instead of starting a new one. Otherwise, it starts a new container with the quarkus-dev-service-redis label set to the specified value.

This property is used when you need multiple shared Redis servers.

Environment variable: QUARKUS_REDIS_DEVSERVICES_SERVICE_NAME

Show more

string

redis

Environment variables that are passed to the container.

Environment variable: QUARKUS_REDIS_DEVSERVICES_CONTAINER_ENV__ENVIRONMENT_VARIABLE_NAME_

Show more

Map<String,String>

Dev Services

Tipo

Por defecto

If DevServices has been explicitly enabled or disabled. DevServices is generally enabled by default, unless there is an existing configuration present.

When DevServices is enabled Quarkus will attempt to automatically configure and start a database when running in Dev or Test mode and when Docker is running.

Environment variable: QUARKUS_REDIS__ADDITIONAL_REDIS_CLIENTS__DEVSERVICES_ENABLED

Show more

boolean

true

The container image name to use, for container based DevServices providers. If you want to use Redis Stack modules (bloom, graph, search…​), use: redis/redis-stack:latest.

Environment variable: QUARKUS_REDIS__ADDITIONAL_REDIS_CLIENTS__DEVSERVICES_IMAGE_NAME

Show more

string

Optional fixed port the dev service will listen to.

If not defined, the port will be chosen randomly.

Environment variable: QUARKUS_REDIS__ADDITIONAL_REDIS_CLIENTS__DEVSERVICES_PORT

Show more

int

Indicates if the Redis server managed by Quarkus Dev Services is shared. When shared, Quarkus looks for running containers using label-based service discovery. If a matching container is found, it is used, and so a second one is not started. Otherwise, Dev Services for Redis starts a new container.

The discovery uses the quarkus-dev-service-redis label. The value is configured using the service-name property.

Container sharing is only used in dev mode.

Environment variable: QUARKUS_REDIS__ADDITIONAL_REDIS_CLIENTS__DEVSERVICES_SHARED

Show more

boolean

true

The value of the quarkus-dev-service-redis label attached to the started container. This property is used when shared is set to true. In this case, before starting a container, Dev Services for Redis looks for a container with the quarkus-dev-service-redis label set to the configured value. If found, it will use this container instead of starting a new one. Otherwise, it starts a new container with the quarkus-dev-service-redis label set to the specified value.

This property is used when you need multiple shared Redis servers.

Environment variable: QUARKUS_REDIS__ADDITIONAL_REDIS_CLIENTS__DEVSERVICES_SERVICE_NAME

Show more

string

redis

Environment variables that are passed to the container.

Environment variable: QUARKUS_REDIS__ADDITIONAL_REDIS_CLIENTS__DEVSERVICES_CONTAINER_ENV__ENVIRONMENT_VARIABLE_NAME_

Show more

Map<String,String>

TCP config

Tipo

Por defecto

Set the ALPN usage.

Environment variable: QUARKUS_REDIS_TCP_ALPN

Show more

boolean

Sets the list of application-layer protocols to provide to the server during the Application-Layer Protocol Negotiation.

Environment variable: QUARKUS_REDIS_TCP_APPLICATION_LAYER_PROTOCOLS

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list of string

Sets the list of enabled SSL/TLS protocols.

Environment variable: QUARKUS_REDIS_TCP_SECURE_TRANSPORT_PROTOCOLS

Show more

list of string

Set the idle timeout.

Environment variable: QUARKUS_REDIS_TCP_IDLE_TIMEOUT

Show more

Duration 

Set the connect timeout.

Environment variable: QUARKUS_REDIS_TCP_CONNECTION_TIMEOUT

Show more

Duration 

Set a list of remote hosts that are not proxied when the client is configured to use a proxy.

Environment variable: QUARKUS_REDIS_TCP_NON_PROXY_HOSTS

Show more

list of string

Set proxy username.

Environment variable: QUARKUS_REDIS_TCP_PROXY_OPTIONS_USERNAME

Show more

string

Set proxy password.

Environment variable: QUARKUS_REDIS_TCP_PROXY_OPTIONS_PASSWORD

Show more

string

Set proxy port. Defaults to 3128.

Environment variable: QUARKUS_REDIS_TCP_PROXY_OPTIONS_PORT

Show more

int

3128

Set proxy host.

Environment variable: QUARKUS_REDIS_TCP_PROXY_OPTIONS_HOST

Show more

string

Set proxy type. Accepted values are: HTTP (default), SOCKS4 and SOCKS5.

Environment variable: QUARKUS_REDIS_TCP_PROXY_OPTIONS_TYPE

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http, socks4, socks5

http

Set the read idle timeout.

Environment variable: QUARKUS_REDIS_TCP_READ_IDLE_TIMEOUT

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Duration 

Set the TCP receive buffer size.

Environment variable: QUARKUS_REDIS_TCP_RECEIVE_BUFFER_SIZE

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int

Set the value of reconnect attempts.

Environment variable: QUARKUS_REDIS_TCP_RECONNECT_ATTEMPTS

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int

Set the reconnect interval.

Environment variable: QUARKUS_REDIS_TCP_RECONNECT_INTERVAL

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Duration 

Whether to reuse the address.

Environment variable: QUARKUS_REDIS_TCP_REUSE_ADDRESS

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boolean

Whether to reuse the port.

Environment variable: QUARKUS_REDIS_TCP_REUSE_PORT

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boolean

Set the TCP send buffer size.

Environment variable: QUARKUS_REDIS_TCP_SEND_BUFFER_SIZE

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int

Set the SO_linger keep alive duration.

Environment variable: QUARKUS_REDIS_TCP_SO_LINGER

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Duration 

Enable the TCP_CORK option - only with linux native transport.

Environment variable: QUARKUS_REDIS_TCP_CORK

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boolean

Enable the TCP_FASTOPEN option - only with linux native transport.

Environment variable: QUARKUS_REDIS_TCP_FAST_OPEN

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boolean

Set whether keep alive is enabled

Environment variable: QUARKUS_REDIS_TCP_KEEP_ALIVE

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boolean

Set whether no delay is enabled

Environment variable: QUARKUS_REDIS_TCP_NO_DELAY

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boolean

Enable the TCP_QUICKACK option - only with linux native transport.

Environment variable: QUARKUS_REDIS_TCP_QUICK_ACK

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boolean

Set the value of traffic class.

Environment variable: QUARKUS_REDIS_TCP_TRAFFIC_CLASS

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int

Set the write idle timeout.

Environment variable: QUARKUS_REDIS_TCP_WRITE_IDLE_TIMEOUT

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Duration 

Set the local interface to bind for network connections. When the local address is null, it will pick any local address, the default local address is null.

Environment variable: QUARKUS_REDIS_TCP_LOCAL_ADDRESS

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string

SSL/TLS config

Tipo

Por defecto

Whether SSL/TLS is enabled.

Environment variable: QUARKUS_REDIS_TLS_ENABLED

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boolean

false

Enable trusting all certificates. Disabled by default.

Environment variable: QUARKUS_REDIS_TLS_TRUST_ALL

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boolean

false

PEM Trust config is disabled by default.

Environment variable: QUARKUS_REDIS_TLS_TRUST_CERTIFICATE_PEM

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boolean

false

Comma-separated list of the trust certificate files (Pem format).

Environment variable: QUARKUS_REDIS_TLS_TRUST_CERTIFICATE_PEM_CERTS

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list of string

JKS config is disabled by default.

Environment variable: QUARKUS_REDIS_TLS_TRUST_CERTIFICATE_JKS

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boolean

false

Path of the key file (JKS format).

Environment variable: QUARKUS_REDIS_TLS_TRUST_CERTIFICATE_JKS_PATH

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string

Password of the key file.

Environment variable: QUARKUS_REDIS_TLS_TRUST_CERTIFICATE_JKS_PASSWORD

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string

PFX config is disabled by default.

Environment variable: QUARKUS_REDIS_TLS_TRUST_CERTIFICATE_PFX

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boolean

false

Path to the key file (PFX format).

Environment variable: QUARKUS_REDIS_TLS_TRUST_CERTIFICATE_PFX_PATH

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string

Password of the key.

Environment variable: QUARKUS_REDIS_TLS_TRUST_CERTIFICATE_PFX_PASSWORD

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string

PEM Key/cert config is disabled by default.

Environment variable: QUARKUS_REDIS_TLS_KEY_CERTIFICATE_PEM

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boolean

false

Comma-separated list of the path to the key files (Pem format).

Environment variable: QUARKUS_REDIS_TLS_KEY_CERTIFICATE_PEM_KEYS

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list of string

Comma-separated list of the path to the certificate files (Pem format).

Environment variable: QUARKUS_REDIS_TLS_KEY_CERTIFICATE_PEM_CERTS

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list of string

JKS config is disabled by default.

Environment variable: QUARKUS_REDIS_TLS_KEY_CERTIFICATE_JKS

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boolean

false

Path of the key file (JKS format).

Environment variable: QUARKUS_REDIS_TLS_KEY_CERTIFICATE_JKS_PATH

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string

Password of the key file.

Environment variable: QUARKUS_REDIS_TLS_KEY_CERTIFICATE_JKS_PASSWORD

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string

PFX config is disabled by default.

Environment variable: QUARKUS_REDIS_TLS_KEY_CERTIFICATE_PFX

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boolean

false

Path to the key file (PFX format).

Environment variable: QUARKUS_REDIS_TLS_KEY_CERTIFICATE_PFX_PATH

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string

Password of the key.

Environment variable: QUARKUS_REDIS_TLS_KEY_CERTIFICATE_PFX_PASSWORD

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string

The hostname verification algorithm to use in case the server’s identity should be checked. Should be HTTPS, LDAPS or NONE (default).

If set to NONE, it does not verify the hostname.

Environment variable: QUARKUS_REDIS_TLS_HOSTNAME_VERIFICATION_ALGORITHM

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string

NONE

TCP config

Tipo

Por defecto

Set the ALPN usage.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_ALPN

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boolean

Sets the list of application-layer protocols to provide to the server during the Application-Layer Protocol Negotiation.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_APPLICATION_LAYER_PROTOCOLS

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list of string

Sets the list of enabled SSL/TLS protocols.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_SECURE_TRANSPORT_PROTOCOLS

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list of string

Set the idle timeout.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_IDLE_TIMEOUT

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Duration 

Set the connect timeout.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_CONNECTION_TIMEOUT

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Duration 

Set a list of remote hosts that are not proxied when the client is configured to use a proxy.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_NON_PROXY_HOSTS

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list of string

Set proxy username.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_PROXY_OPTIONS_USERNAME

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string

Set proxy password.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_PROXY_OPTIONS_PASSWORD

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string

Set proxy port. Defaults to 3128.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_PROXY_OPTIONS_PORT

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int

3128

Set proxy host.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_PROXY_OPTIONS_HOST

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string

Set proxy type. Accepted values are: HTTP (default), SOCKS4 and SOCKS5.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_PROXY_OPTIONS_TYPE

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http, socks4, socks5

http

Set the read idle timeout.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_READ_IDLE_TIMEOUT

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Duration 

Set the TCP receive buffer size.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_RECEIVE_BUFFER_SIZE

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int

Set the value of reconnect attempts.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_RECONNECT_ATTEMPTS

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int

Set the reconnect interval.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_RECONNECT_INTERVAL

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Duration 

Whether to reuse the address.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_REUSE_ADDRESS

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boolean

Whether to reuse the port.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_REUSE_PORT

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boolean

Set the TCP send buffer size.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_SEND_BUFFER_SIZE

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int

Set the SO_linger keep alive duration.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_SO_LINGER

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Duration 

Enable the TCP_CORK option - only with linux native transport.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_CORK

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boolean

Enable the TCP_FASTOPEN option - only with linux native transport.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_FAST_OPEN

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boolean

Set whether keep alive is enabled

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_KEEP_ALIVE

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boolean

Set whether no delay is enabled

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_NO_DELAY

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boolean

Enable the TCP_QUICKACK option - only with linux native transport.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_QUICK_ACK

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boolean

Set the value of traffic class.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_TRAFFIC_CLASS

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int

Set the write idle timeout.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_WRITE_IDLE_TIMEOUT

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Duration 

Set the local interface to bind for network connections. When the local address is null, it will pick any local address, the default local address is null.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TCP_LOCAL_ADDRESS

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string

SSL/TLS config

Tipo

Por defecto

Whether SSL/TLS is enabled.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_ENABLED

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boolean

false

Enable trusting all certificates. Disabled by default.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_TRUST_ALL

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boolean

false

PEM Trust config is disabled by default.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_TRUST_CERTIFICATE_PEM

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boolean

false

Comma-separated list of the trust certificate files (Pem format).

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_TRUST_CERTIFICATE_PEM_CERTS

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list of string

JKS config is disabled by default.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_TRUST_CERTIFICATE_JKS

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boolean

false

Path of the key file (JKS format).

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_TRUST_CERTIFICATE_JKS_PATH

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string

Password of the key file.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_TRUST_CERTIFICATE_JKS_PASSWORD

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string

PFX config is disabled by default.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_TRUST_CERTIFICATE_PFX

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boolean

false

Path to the key file (PFX format).

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_TRUST_CERTIFICATE_PFX_PATH

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string

Password of the key.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_TRUST_CERTIFICATE_PFX_PASSWORD

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string

PEM Key/cert config is disabled by default.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_KEY_CERTIFICATE_PEM

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boolean

false

Comma-separated list of the path to the key files (Pem format).

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_KEY_CERTIFICATE_PEM_KEYS

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list of string

Comma-separated list of the path to the certificate files (Pem format).

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_KEY_CERTIFICATE_PEM_CERTS

Show more

list of string

JKS config is disabled by default.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_KEY_CERTIFICATE_JKS

Show more

boolean

false

Path of the key file (JKS format).

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_KEY_CERTIFICATE_JKS_PATH

Show more

string

Password of the key file.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_KEY_CERTIFICATE_JKS_PASSWORD

Show more

string

PFX config is disabled by default.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_KEY_CERTIFICATE_PFX

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boolean

false

Path to the key file (PFX format).

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_KEY_CERTIFICATE_PFX_PATH

Show more

string

Password of the key.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_KEY_CERTIFICATE_PFX_PASSWORD

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string

The hostname verification algorithm to use in case the server’s identity should be checked. Should be HTTPS, LDAPS or NONE (default).

If set to NONE, it does not verify the hostname.

Environment variable: QUARKUS_REDIS__REDIS_CLIENT_NAME__TLS_HOSTNAME_VERIFICATION_ALGORITHM

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string

NONE

About the Duration format

To write duration values, use the standard java.time.Duration format. See the Duration#parse() Java API documentation for more information.

You can also use a simplified format, starting with a number:

  • If the value is only a number, it represents time in seconds.

  • If the value is a number followed by ms, it represents time in milliseconds.

In other cases, the simplified format is translated to the java.time.Duration format for parsing:

  • If the value is a number followed by h, m, or s, it is prefixed with PT.

  • If the value is a number followed by d, it is prefixed with P.

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