ShedLock makes sure that your scheduled tasks are executed at most once at the same time. If a task is being executed on one node, it acquires a lock which prevents execution of the same task from another node (or thread). Please note, that if one task is already being executed on one node, execution on other nodes does not wait, it is simply skipped.
ShedLock uses an external store like Mongo, JDBC database, Redis, Hazelcast, ZooKeeper or others for coordination.
Feedback and pull-requests welcome!
Please note that ShedLock is not and will never be full-fledged scheduler, it's just a lock. If you need a distributed scheduler, please use another project (db-scheduler, JobRunr). ShedLock is designed to be used in situations where you have scheduled tasks that are not ready to be executed in parallel, but can be safely executed repeatedly. Moreover, the locks are time-based and ShedLock assumes that clocks on the nodes are synchronized.
- Versions
- Components
- Usage
- Lock Providers
- JdbcTemplate
- R2DBC
- jOOQ
- Micronaut Data Jdbc
- Mongo
- DynamoDB 2
- ZooKeeper (using Curator)
- Redis (using Spring RedisConnectionFactory)
- Redis (using Spring ReactiveRedisConnectionFactory)
- Redis (using Jedis)
- Hazelcast
- Couchbase
- ElasticSearch
- OpenSearch
- CosmosDB
- Cassandra
- Consul
- ArangoDB
- Neo4j
- Etcd
- Apache Ignite
- In-Memory
- Memcached
- Datastore
- Multi-tenancy
- Customization
- Duration specification
- Extending the lock
- Micronaut integration
- CDI integration
- Locking without a framework
- Troubleshooting
- Modes of Spring integration
- Release notes
If you are using JDK >17 and up-to-date libraries like Spring 6, use version 5.1.0 (Release Notes). If you are on older JDK or library, use version 4.44.0 (documentation).
Shedlock consists of three parts
- Core - The locking mechanism
- Integration - integration with your application, using Spring AOP, Micronaut AOP or manual code
- Lock provider - provides the lock using an external process like SQL database, Mongo, Redis and others
To use ShedLock, you do the following
- Enable and configure Scheduled locking
- Annotate your scheduled tasks
- Configure a Lock Provider
First of all, we have to import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-spring</artifactId>
<version>6.0.2</version>
</dependency>
Now we need to integrate the library with Spring. In order to enable schedule locking use @EnableSchedulerLock
annotation
@Configuration
@EnableScheduling
@EnableSchedulerLock(defaultLockAtMostFor = "10m")
class MySpringConfiguration {
...
}
import net.javacrumbs.shedlock.spring.annotation.SchedulerLock;
...
@Scheduled(...)
@SchedulerLock(name = "scheduledTaskName")
public void scheduledTask() {
// To assert that the lock is held (prevents misconfiguration errors)
LockAssert.assertLocked();
// do something
}
The @SchedulerLock
annotation has several purposes. First of all, only annotated methods are locked, the library ignores
all other scheduled tasks. You also have to specify the name for the lock. Only one task with the same name can be executed
at the same time.
You can also set lockAtMostFor
attribute which specifies how long the lock should be kept in case the
executing node dies. This is just a fallback, under normal circumstances the lock is released as soon the tasks finishes
(unless lockAtLeastFor
is specified, see below)
You have to set lockAtMostFor
to a value which is much longer than normal execution time. If the task takes longer than
lockAtMostFor
the resulting behavior may be unpredictable (more than one process will effectively hold the lock).
If you do not specify lockAtMostFor
in @SchedulerLock
default value from @EnableSchedulerLock
will be used.
Lastly, you can set lockAtLeastFor
attribute which specifies minimum amount of time for which the lock should be kept.
Its main purpose is to prevent execution from multiple nodes in case of really short tasks and clock difference between the nodes.
All the annotations support Spring Expression Language (SpEL).
Let's say you have a task which you execute every 15 minutes and which usually takes few minutes to run. Moreover, you want to execute it at most once per 15 minutes. In that case, you can configure it like this:
import net.javacrumbs.shedlock.core.SchedulerLock;
@Scheduled(cron = "0 */15 * * * *")
@SchedulerLock(name = "scheduledTaskName", lockAtMostFor = "14m", lockAtLeastFor = "14m")
public void scheduledTask() {
// do something
}
By setting lockAtMostFor
we make sure that the lock is released even if the node dies. By setting lockAtLeastFor
we make sure it's not executed more than once in fifteen minutes.
Please note that lockAtMostFor
is just a safety net in case that the node executing the task dies, so set it to
a time that is significantly larger than maximum estimated execution time. If the task takes longer than lockAtMostFor
,
it may be executed again and the results will be unpredictable (more processes will hold the lock).
There are several implementations of LockProvider.
First, create lock table (please note that name
has to be primary key)
# MySQL, MariaDB
CREATE TABLE shedlock(name VARCHAR(64) NOT NULL, lock_until TIMESTAMP(3) NOT NULL,
locked_at TIMESTAMP(3) NOT NULL DEFAULT CURRENT_TIMESTAMP(3), locked_by VARCHAR(255) NOT NULL, PRIMARY KEY (name));
# Postgres
CREATE TABLE shedlock(name VARCHAR(64) NOT NULL, lock_until TIMESTAMP NOT NULL,
locked_at TIMESTAMP NOT NULL, locked_by VARCHAR(255) NOT NULL, PRIMARY KEY (name));
# Oracle
CREATE TABLE shedlock(name VARCHAR(64) NOT NULL, lock_until TIMESTAMP(3) NOT NULL,
locked_at TIMESTAMP(3) NOT NULL, locked_by VARCHAR(255) NOT NULL, PRIMARY KEY (name));
# MS SQL
CREATE TABLE shedlock(name VARCHAR(64) NOT NULL, lock_until datetime2 NOT NULL,
locked_at datetime2 NOT NULL, locked_by VARCHAR(255) NOT NULL, PRIMARY KEY (name));
# DB2
CREATE TABLE shedlock(name VARCHAR(64) NOT NULL PRIMARY KEY, lock_until TIMESTAMP NOT NULL,
locked_at TIMESTAMP NOT NULL, locked_by VARCHAR(255) NOT NULL);
Or use this liquibase change-set.
Add dependency
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-jdbc-template</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.jdbctemplate.JdbcTemplateLockProvider;
...
@Bean
public LockProvider lockProvider(DataSource dataSource) {
return new JdbcTemplateLockProvider(
JdbcTemplateLockProvider.Configuration.builder()
.withJdbcTemplate(new JdbcTemplate(dataSource))
.usingDbTime() // Works on Postgres, MySQL, MariaDb, MS SQL, Oracle, DB2, HSQL and H2
.build()
);
}
By specifying usingDbTime()
the lock provider will use UTC time based on the DB server clock.
If you do not specify this option, clock from the app server will be used (the clocks on app servers may not be
synchronized thus leading to various locking issues).
It's strongly recommended to use usingDbTime()
option as it uses DB engine specific SQL that prevents INSERT conflicts.
See more details here.
For more fine-grained configuration use other options of the Configuration
object
new JdbcTemplateLockProvider(builder()
.withTableName("shdlck")
.withColumnNames(new ColumnNames("n", "lck_untl", "lckd_at", "lckd_by"))
.withJdbcTemplate(new JdbcTemplate(getDatasource()))
.withLockedByValue("my-value")
.withDbUpperCase(true)
.build())
If you need to specify a schema, you can set it in the table name using the usual dot notation
new JdbcTemplateLockProvider(datasource, "my_schema.shedlock")
To use a database with case-sensitive table and column names, the .withDbUpperCase(true)
flag can be used.
Default is false
(lowercase).
Do not manually delete lock row from the DB table. ShedLock has an in-memory cache of existing lock rows so the row will NOT be automatically recreated until application restart. If you need to, you can edit the row/document, risking only that multiple locks will be held.
If you are really brave, you can try experimental R2DBC support. Please keep in mind that the capabilities of this lock provider are really limited and that the whole ecosystem around R2DBC is in flux and may easily break.
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-r2dbc</artifactId>
<version>6.0.2</version>
</dependency>
and use it.
@Override
protected LockProvider getLockProvider() {
return new R2dbcLockProvider(connectionFactory);
}
I recommend using R2DBC connection pool.
First, create lock table as described in the JdbcTemplate section above.
Add dependency
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-jooq</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.jooq;
...
@Bean
public LockProvider getLockProvider(DSLContext dslContext) {
return new JooqLockProvider(dslContext);
}
jOOQ provider has a bit different transactional behavior. While the other JDBC lock providers create new transaction (with REQUIRES_NEW), jOOQ does not support setting it. ShedLock tries to create a new transaction, but depending on your set-up, ShedLock DB operations may end-up being part of the enclosing transaction.
If you need to configure the table name, schema or column names, you can use jOOQ render mapping as described here.
If you are using Micronaut data, and you do not want to add dependency on Spring JDBC, you can use Micronaut JDBC support. Just be aware that it has just a basic functionality when compared to the JdbcTemplate provider.
First, create lock table as described in the JdbcTemplate section above.
Add dependency
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-jdbc-micronaut</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.jdbc.micronaut.MicronautJdbcLockProvider;
...
@Singleton
public LockProvider lockProvider(TransactionOperations<Connection> transactionManager) {
return new MicronautJdbcLockProvider(transactionManager);
}
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-mongo</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.mongo.MongoLockProvider;
...
@Bean
public LockProvider lockProvider(MongoClient mongo) {
return new MongoLockProvider(mongo.getDatabase(databaseName))
}
Please note that MongoDB integration requires Mongo >= 2.4 and mongo-java-driver >= 3.7.0
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-mongo-reactivestreams</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.mongo.reactivestreams.ReactiveStreamsMongoLockProvider;
...
@Bean
public LockProvider lockProvider(MongoClient mongo) {
return new ReactiveStreamsMongoLockProvider(mongo.getDatabase(databaseName))
}
Please note that MongoDB integration requires Mongo >= 4.x and mongodb-driver-reactivestreams 1.x
Depends on AWS SDK v2.
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-dynamodb2</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.dynamodb2.DynamoDBLockProvider;
...
@Bean
public LockProvider lockProvider(software.amazon.awssdk.services.dynamodb.DynamoDbClient dynamoDB) {
return new DynamoDBLockProvider(dynamoDB, "Shedlock");
}
Please note that the lock table must be created externally with
_id
as a partition key.DynamoDBUtils#createLockTable
may be used for creating it programmatically. A table definition is available fromDynamoDBLockProvider
's Javadoc.
Import
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-zookeeper-curator</artifactId>
<version>6.0.2</version>
</dependency>
and configure
import net.javacrumbs.shedlock.provider.zookeeper.curator.ZookeeperCuratorLockProvider;
...
@Bean
public LockProvider lockProvider(org.apache.curator.framework.CuratorFramework client) {
return new ZookeeperCuratorLockProvider(client);
}
By default, nodes for locks will be created under /shedlock
node.
Import
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-redis-spring</artifactId>
<version>6.0.2</version>
</dependency>
and configure
import net.javacrumbs.shedlock.provider.redis.spring.RedisLockProvider;
import org.springframework.data.redis.connection.RedisConnectionFactory;
...
@Bean
public LockProvider lockProvider(RedisConnectionFactory connectionFactory) {
return new RedisLockProvider(connectionFactory, ENV);
}
Import
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-redis-spring</artifactId>
<version>6.0.2</version>
</dependency>
and configure
import net.javacrumbs.shedlock.provider.redis.spring.ReactiveRedisLockProvider;
import org.springframework.data.redis.connection.ReactiveRedisConnectionFactory;
...
@Bean
public LockProvider lockProvider(ReactiveRedisConnectionFactory connectionFactory) {
return new ReactiveRedisLockProvider.Builder(connectionFactory)
.environment(ENV)
.build();
}
Redis lock provider uses classical lock mechanism as described here which may not be reliable in case of Redis master failure.
Import
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-redis-jedis4</artifactId>
<version>6.0.2</version>
</dependency>
and configure
import net.javacrumbs.shedlock.provider.redis.jedis.JedisLockProvider;
...
@Bean
public LockProvider lockProvider(JedisPool jedisPool) {
return new JedisLockProvider(jedisPool, ENV);
}
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-hazelcast4</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.hazelcast4.HazelcastLockProvider;
...
@Bean
public HazelcastLockProvider lockProvider(HazelcastInstance hazelcastInstance) {
return new HazelcastLockProvider(hazelcastInstance);
}
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-couchbase-javaclient3</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.couchbase.javaclient.CouchbaseLockProvider;
...
@Bean
public CouchbaseLockProvider lockProvider(Bucket bucket) {
return new CouchbaseLockProvider(bucket);
}
For Couchbase 3 use shedlock-provider-couchbase-javaclient3
module and net.javacrumbs.shedlock.provider.couchbase3
package.
I am really not sure if it's a good idea to use Elasticsearch as a lock provider. But if you have no other choice, you can. Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-elasticsearch8</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import static net.javacrumbs.shedlock.provider.elasticsearch8.ElasticsearchLockProvider;
...
@Bean
public ElasticsearchLockProvider lockProvider(ElasticsearchClient client) {
return new ElasticsearchLockProvider(client);
}
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-opensearch</artifactId>
<version>4.36.1</version>
</dependency>
Configure:
import static net.javacrumbs.shedlock.provider.opensearch.OpenSearchLockProvider;
...
@Bean
public OpenSearchLockProvider lockProvider(RestHighLevelClient highLevelClient) {
return new OpenSearchLockProvider(highLevelClient);
}
CosmosDB support is provided by a third-party module available here
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-cassandra</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.cassandra.CassandraLockProvider;
import net.javacrumbs.shedlock.provider.cassandra.CassandraLockProvider.Configuration;
...
@Bean
public CassandraLockProvider lockProvider(CqlSession cqlSession) {
return new CassandraLockProvider(Configuration.builder().withCqlSession(cqlSession).withTableName("lock").build());
}
Example for creating default keyspace and table in local Cassandra instance:
CREATE KEYSPACE shedlock with replication={'class':'SimpleStrategy', 'replication_factor':1} and durable_writes=true;
CREATE TABLE shedlock.lock (name text PRIMARY KEY, lockUntil timestamp, lockedAt timestamp, lockedBy text);
Please, note that CassandraLockProvider uses Cassandra driver v4, which is part of Spring Boot since 2.3.
ConsulLockProvider has one limitation: lockAtMostFor setting will have a minimum value of 10 seconds. It is dictated by consul's session limitations.
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-consul</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.consul.ConsulLockProvider;
...
@Bean // for micronaut please define preDestroy property @Bean(preDestroy="close")
public ConsulLockProvider lockProvider(com.ecwid.consul.v1.ConsulClient consulClient) {
return new ConsulLockProvider(consulClient);
}
Please, note that Consul lock provider uses ecwid consul-api client, which is part of spring cloud consul integration (the spring-cloud-starter-consul-discovery
package).
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-arangodb</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.arangodb.ArangoLockProvider;
...
@Bean
public ArangoLockProvider lockProvider(final ArangoOperations arangoTemplate) {
return new ArangoLockProvider(arangoTemplate.driver().db(DB_NAME));
}
Please, note that ArangoDB lock provider uses ArangoDB driver v6.7, which is part of arango-spring-data in version 3.3.0.
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-neo4j</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.core.LockConfiguration;
...
@Bean
Neo4jLockProvider lockProvider(org.neo4j.driver.Driver driver) {
return new Neo4jLockProvider(driver);
}
Please make sure that neo4j-java-driver
version used by shedlock-provider-neo4j
matches the driver version used in your
project (if you use spring-boot-starter-data-neo4j
, it is probably provided transitively).
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-etcd-jetcd</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.etcd.jetcd.EtcdLockProvider;
...
@Bean
public LockProvider lockProvider(Client client) {
return new EtcdLockProvider(client);
}
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-ignite</artifactId>
<version>6.0.2</version>
</dependency>
Configure:
import net.javacrumbs.shedlock.provider.ignite.IgniteLockProvider;
...
@Bean
public LockProvider lockProvider(Ignite ignite) {
return new IgniteLockProvider(ignite);
}
If you want to use a lock provider in tests there is an in-Memory implementation.
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-inmemory</artifactId>
<version>6.0.2</version>
<scope>test</scope>
</dependency>
import net.javacrumbs.shedlock.provider.inmemory.InMemoryLockProvider;
...
@Bean
public LockProvider lockProvider() {
return new InMemoryLockProvider();
}
Please, be aware that memcached is not a database but a cache. It means that if the cache is full, the lock may be released prematurely Use only if you know what you are doing.
Import
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-memcached-spy</artifactId>
<version>6.0.2</version>
</dependency>
and configure
import net.javacrumbs.shedlock.provider.memcached.spy.MemcachedLockProvider;
...
@Bean
public LockProvider lockProvider(net.spy.memcached.MemcachedClient client) {
return new MemcachedLockProvider(client, ENV);
}
P.S.:
Memcached Standard Protocol:
- A key (arbitrary string up to 250 bytes in length. No space or newlines for ASCII mode)
- An expiration time, in
seconds
. '0' means never expire. Can be up to 30 days. After 30 days, is treated as a unix timestamp of an exact date. (supportseconds
、minutes
、days
, and less than30
days)
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-datastore</artifactId>
<version>6.0.2</version>
</dependency>
and configure
import net.javacrumbs.shedlock.provider.datastore.DatastoreLockProvider;
...
@Bean
public LockProvider lockProvider(com.google.cloud.datastore.Datastore datastore) {
return new DatastoreLockProvider(datastore);
}
Import the project
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-provider-spanner</artifactId>
<version>6.0.2</version>
</dependency>
Configure
import net.javacrumbs.shedlock.provider.spanner.SpannerLockProvider;
...
// Basic
@Bean
public LockProvider lockProvider(DatabaseClient databaseClient) {
return new SpannerLockProvider(databaseClientSupplier);
}
// Custom host, table and column names
@Bean
public LockProvider lockProvider(DatabaseClient databaseClient) {
var config = SpannerLockProvider.Configuration.builder()
.withDatabaseClient(databaseClientSupplier)
.withTableConfiguration(SpannerLockProvider.TableConfiguration.builder()
...
// Custom table and column names
.build())
.withHostName("customHostName")
.build();
return new SpannerLockProvider(config);
}
If you have multi-tenancy use-case you can use a lock provider similar to this one (see the full example)
private static abstract class MultiTenancyLockProvider implements LockProvider {
private final ConcurrentHashMap<String, LockProvider> providers = new ConcurrentHashMap<>();
@Override
public @NonNull Optional<SimpleLock> lock(@NonNull LockConfiguration lockConfiguration) {
String tenantName = getTenantName(lockConfiguration);
return providers.computeIfAbsent(tenantName, this::createLockProvider).lock(lockConfiguration);
}
protected abstract LockProvider createLockProvider(String tenantName) ;
protected abstract String getTenantName(LockConfiguration lockConfiguration);
}
You can customize the behavior of the library by implementing LockProvider
interface. Let's say you want to implement
a special behavior after a lock is obtained. You can do it like this:
public class MyLockProvider implements LockProvider {
private final LockProvider delegate;
public MyLockProvider(LockProvider delegate) {
this.delegate = delegate;
}
@Override
public Optional<SimpleLock> lock(LockConfiguration lockConfiguration) {
Optional<SimpleLock> lock = delegate.lock(lockConfiguration);
if (lock.isPresent()) {
// do something
}
return lock;
}
}
You can see a full example in TrackingLockProviderWrapper
All the annotations where you need to specify a duration support the following formats
- duration+unit -
1s
,5ms
,5m
,1d
(Since 4.0.0) - duration in ms -
100
(only Spring integration) - ISO-8601 -
PT15M
(see Duration.parse() documentation)
There are some use-cases which require to extend currently held lock. You can use LockExtender in the following way:
LockExtender.extendActiveLock(Duration.ofMinutes(5), ZERO);
Please note that not all lock provider implementations support lock extension.
There is also KeepAliveLockProvider that is able to keep the lock alive by periodically extending it. It can be used by wrapping the original lock provider. My personal opinion is that it should be used only in special cases, it adds more complexity to the library and the flow is harder to reason about so please use moderately.
@Bean
public LockProvider lockProvider(...) {
return new KeepAliveLockProvider(new XyzProvider(...), scheduler);
}
KeepAliveLockProvider extends the lock in the middle of the lockAtMostFor interval. For example, if the lockAtMostFor is 10 minutes the lock is extended every 5 minutes for 10 minutes until the lock is released. Please note that the minimal lockAtMostFor time supported by this provider is 30s. The scheduler is used only for the lock extension, single thread should be enough.
Since version 4.0.0, it's possible to use Micronaut framework for integration
Import the project:
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<!-- Micronaut 3 -->
<artifactId>shedlock-micronaut</artifactId>
<!-- For Micronaut 4 use -->
<!-- <artifactId>shedlock-micronaut4</artifactId> -->
<version>6.0.2</version>
</dependency>
Configure default lockAtMostFor value (application.yml):
shedlock:
defaults:
lock-at-most-for: 1m
Configure lock provider:
@Singleton
public LockProvider lockProvider() {
... select and configure your lock provider
}
Configure the scheduled task:
@Scheduled(fixedDelay = "1s")
@SchedulerLock(name = "myTask")
public void myTask() {
assertLocked();
...
}
Since version 5.0.0, it's possible to use CDI for integration (tested only with Quarkus)
Import the project:
<dependency>
<groupId>net.javacrumbs.shedlock</groupId>
<artifactId>shedlock-cdi</artifactId>
<version>6.0.2</version>
</dependency>
Configure default lockAtMostFor value (application.properties):
shedlock.defaults.lock-at-most-for=PT30S
Configure lock provider:
@Produces
@Singleton
public LockProvider lockProvider() {
...
}
Configure the scheduled task:
@Scheduled(every = "1s")
@SchedulerLock(name = "myTask")
public void myTask() {
assertLocked();
...
}
The implementation only depends on jakarta.enterprise.cdi-api
and microprofile-config-api
so it should be
usable in other CDI compatible frameworks, but it has not been tested with anything else than Quarkus. It's
built on top of javax annotation as Quarkus has not moved to Jakarta EE namespace yet.
The support is minimalistic, for example there is no support for expressions in the annotation parameters yet, if you need it, feel free to send a PR.
It is possible to use ShedLock without a framework
LockingTaskExecutor executor = new DefaultLockingTaskExecutor(lockProvider);
...
Instant createdAt = Instant.now();
Duration lockAtMostFor = Duration.ofSeconds(60);
Duration lockAtLeastFor = Duration.ZERO;
executor.executeWithLock(runnable, new LockConfiguration(createdAt, "lockName", lockAtMostFor, lockAtLeastFor));
Some lock providers support extension of the lock. For the time being, it requires manual lock manipulation,
directly using LockProvider
and calling extend
method on the SimpleLock
.
Since version 6.0.0 you can use multiple lock provider implementations. Just define them in your application context
and disambiguate them using @LockProviderToUse("lockProviderBeanName")
annotation on method, class or package.
If the annotation is not found, the execution fails in the runtime, not in startup-time. If you need more dynamic resolution
of LockProviders, use a LockProvider wrapper as described in Multi-tenancy.
ShedLock supports two modes of Spring integration. One that uses an AOP proxy around scheduled method (PROXY_METHOD) and one that proxies TaskScheduler (PROXY_SCHEDULER)
Since version 4.0.0, the default mode of Spring integration is an AOP proxy around the annotated method.
The main advantage of this mode is that it plays well with other frameworks that want to somehow alter the default Spring scheduling mechanism. The disadvantage is that the lock is applied even if you call the method directly. If the method returns a value and the lock is held by another process, null or an empty Optional will be returned (primitive return types are not supported).
Final and non-public methods are not proxied so either you have to make your scheduled methods public and non-final or use TaskScheduler proxy.
This mode wraps Spring TaskScheduler
in an AOP proxy. This mode does not play well with instrumentation libraries
like opentelementry that also wrap TaskScheduler. Please only use it if you know what you are doing.
It can be switched-on like this (PROXY_SCHEDULER was the default method before 4.0.0):
@EnableSchedulerLock(interceptMode = PROXY_SCHEDULER)
If you do not specify your task scheduler, a default one is created for you. If you have special needs, just create a bean implementing TaskScheduler
interface, and it will get wrapped into the AOP proxy automatically.
@Bean
public TaskScheduler taskScheduler() {
return new MySpecialTaskScheduler();
}
Alternatively, you can define a bean of type ScheduledExecutorService
and it will automatically get used by the tasks
scheduling mechanism.
Spring XML configuration is not supported as of version 3.0.0. If you need it, please use version 2.6.0 or file an issue explaining why it is needed.
To prevent misconfiguration errors, like AOP misconfiguration, missing annotation etc., you can assert that the lock works by using LockAssert:
@Scheduled(...)
@SchedulerLock(..)
public void scheduledTask() {
// To assert that the lock is held (prevents misconfiguration errors)
LockAssert.assertLocked();
// do something
}
In unit tests you can switch-off the assertion by calling LockAssert.TestHelper.makeAllAssertsPass(true)
on given thread (as in this example).
The library is tested with Kotlin and works fine. The only issue is Spring AOP which does not work on final method. If you use @SchedulerLock
with @Component
annotation, everything should work since Kotlin Spring compiler plugin will automatically 'open' the method for you. If @Component
annotation is not present, you
have to open the method by yourself. (see this issue for more details)
Locks in ShedLock have an expiration time which leads to the following possible issues.
- If the task runs longer than
lockAtMostFor
, the task can be executed more than once - If the clock difference between two nodes is more than
lockAtLeastFor
or minimal execution time the task can be executed more than once.
Help, ShedLock does not do what it's supposed to do!
- Upgrade to the newest version
- Use LockAssert to ensure that AOP is correctly configured.
- If it does not work, please read about Spring AOP internals (for example here)
- Check the storage. If you are using JDBC, check the ShedLock table. If it's empty, ShedLock is not properly configured. If there is more than one record with the same name, you are missing a primary key.
- Use ShedLock debug log. ShedLock logs interesting information on DEBUG level with logger name
net.javacrumbs.shedlock
. It should help you to see what's going on. - For short-running tasks consider using
lockAtLeastFor
. If the tasks are short-running, they could be executed one after another,lockAtLeastFor
can prevent it.
See here