Distributed lock ensures your method cannot be run in parallel from multiple JVMs (cluster of servers, microservices, …). It uses a common store to keep track of used locks and your method needs to acquire one or more locks to run.
By default, locks follow methods lifecycle.They are obtained at the start of the method and released at the end of the method. Manual controlling is supported and explained later in this document.
All locks acquired by lock implementations in this project will expire after 10 seconds, timeout after 1 second if unable to acquire lock and sleep for 50 ms between retries. These options are customizable per annotation.
To lock your methods you need to first enable locking as described in the previous section.
Spring BeanPostProcessor
will handle all @Locked
methods including
their aliases. The type
field describes which implementation of the lock to use.
To prevent repeating yourself if you plan on using the same implementation (as most people usually will), I’ve added alias support.
They wrap the @Locked
annotation and define the type used.
Each lock needs to define a SpEL expression used to acquire the lock. To learn more about Spring aliases visit this link.
Locks can be refreshed automatically on a regular interval. This allows methods that occasionally need to run longer than their expiration. Refreshing the lock periodically prolongs the expiration of its key(s). This means that the lock cannot be acquired by another resource as long as the resource using the lock does not end successfully. In case the resource holding the lock fails unexpectedly without releasing the lock, the lock will expire according to the last expiration that was written (that the last refresh has set).
Sometimes you might want lock to be acquired when calling a specific method and get released only when it expires (throttling).
To acquire a lock that doesn’t get released automatically set manuallyReleased
to true
on @Locked
annotation.
For more grained control (e.g., locking in the middle of the method and releasing later in the code), inject the lock in your service and acquire the lock manually.
@Component
public class Example {
@Autowired
@Qualifier("simpleRedisLock")
private Lock lock;
// other fields...
private void manuallyLocked() {
// code before locking...
final String token = lock.acquire(keys, storeId, expiration, retry, timeout);
// check if you acquired a token
if (StringUtils.isEmpty(token)) {
throw new IllegalStateException("Lock not acquired!");
}
// code after locking...
lock.release(keys, token, storeId);
// code after releasing the lock...
}
}
Locking a method with the name aliased in the document called lock in MongoDB:
@MongoLocked(expression = "'aliased'", storeId = "lock")
public void runLockedWithMongo() {
// locked code
}
Locking with multiple keys determined in runtime, use SpEL, for an example:
@RedisMultiLocked(expression = "T(com.example.MyUtils).getNamesWithId(#p0)")
public void runLockedWithRedis(final int id) {
// locked code
}
This means that the runLockedWithRedis
method will execute only if all keys evaluated by expression were acquired.
Locking with a custom lock implementation based on value of integer field count
:
@Locked(type = MyCustomLock.class, expression = "getCount", prefix = "using:")
public void runLockedWithMyCustomLock() {
// locked code
}
The project contains several configurations and annotations to help you enable locking and customize it.
To enable locking you must first include @EnableDistributedLock
.
This will import the configuration that will autoconfigure the
BeanPostProcessor
required for locking.
Project provides the following out-of-the-box lock implementations:
-
JDBC
-
Mongo
-
Redis
JDBC locks are provided in the distributed-lock-jdbc
project.
Implementation | Alias | Multiple key support |
---|---|---|
|
|
No |
Include @EnableJdbcDistributedLock
to enable JDBC locks.
This will also include @EnableDistributedLock
for you.
@Configuration
@EnableJdbcDistributedLock
public class LockConfiguration {
}
Note
|
Make sure you create the table and configure the table ID incrementer. |
Example how to create table:
CREATE TABLE lock (
id int NOT NULL AUTO_INCREMENT PRIMARY KEY,
lock_key varchar(255) UNIQUE,
token varchar(255),
expireAt TIMESTAMP,
PRIMARY KEY(`id`)
);
MongoDB locks are provided in the distributed-lock-mongo
project.
Implementation | Alias | Multiple key support |
---|---|---|
|
|
No |
Include @EnableMongoDistributedLock
to enable MongoDB locks.
This will also include @EnableDistributedLock
for you.
@Configuration
@EnableMongoDistributedLock
public class LockConfiguration {
}
Note
|
Make sure you create TTL index in your |
Redis locks are provided in the distributed-lock-redis
project.
Implementation | Alias | Multiple key support |
---|---|---|
|
|
No |
|
|
Yes |
Include @EnableRedisDistributedLock
to enable Redis locks.
This will also include @EnableDistributedLock
for you.
@Configuration
@EnableRedisDistributedLock
public class LockConfiguration {
}
Add the JitPack repository into your pom.xml
.
<repositories>
<repository>
<id>jitpack.io</id>
<url>https://jitpack.io</url>
</repository>
</repositories>
JitPack builds multi-modules by appending the repo name in the groupId
.
To add the Redis dependency for an example, add the following under your <dependencies>
:
<dependencies>
<dependency>
<groupId>com.github.alturkovic.distributed-lock</groupId>
<artifactId>distributed-lock-redis</artifactId>
<version>[insert latest version here]</version>
</dependency>
</dependencies>
This is the default key generator the advice uses. If you wish to use your own, simply write your own and define it as a @Bean
.
The default key generator has access to the currently executing context, meaning you can access your fields and methods from SpEL.
It uses the DefaultParameterNameDiscoverer
to discover parameter names, so you can access your parameters in several different ways:
-
using
p#
syntax, where#
is the position of the parameter, for an example:p0
for the first parameter -
using
a#
syntax, where#
is the position of the parameter, for an example:a2
for the third parameter -
using the parameter name, for an example,
#message
— REQUIRES-parameters
compiler flag
A special variable named executionPath
is used to define the method called.
This is the default expression
used to describe the annotated method.
All validated expressions that result in an Iterable
or an array will be converted to List<String>
and all other values will be wrapped with Collections.singletonList
.
Elements of Iterable
or array will also be converted to Strings using the
ConversionService
.
Custom converters can be registered.
More about Spring conversion can be found here.
For more examples, take a look at com.github.alturkovic.lock.key.SpelKeyGeneratorTest
.
If you want to use custom lock implementations, simply implement Lock
interface and register it in a configuration.
You can also create an alias for your lock so you don’t have to specify @Locked
type field.
Started tracking the changes since 1.2.0 so no changelogs available for earlier versions.
-
CHANGE:
KeyGenerator
will not declareConversionService
but reuse the shared instance if missing
-
CHANGE: Upgraded Spring Boot version to 2.4.3
-
CHANGE: Migrated test to JUnit 5
-
CHANGE: Migrated Redis tests to use Docker container
-
BUGFIX: Injecting the user-defined
LockTypeResolver
properly -
BUGFIX: Fixed
BeanPostProcessor
initialization warning messages -
BUGFIX: Minor javadoc fix
-
CHANGE: Updated Java from 1.8 to 11
-
CHANGE: Refactored lots of coupled code
-
CHANGE: Extracted lots of reusable components such as retriable locks for easier manual control of locks
-
BUGFIX:
LockBeanPostProcessor
will now fire after existing advisors to support transactional advisors
-
CHANGE: Removed explicit
ParameterNameDiscoverer
fromSpelKeyGenerator
which now uses the one provided by theCachedExpressionEvaluator
-
CHANGE: Used
AopUtils
once and passed the evaluated method toSpelKeyGenerator
so it doesn’t have to evaluate the same thing asLockMethodInterceptor
-
FEATURE: Lock refreshing has been added. Check the 'Lock refresh' chapter for more details
-
BUGFIX:
@RedisMultiLocked
was using#executionPath
as prefix instead of an expression -
BUGFIX:
@RedisMultiLocked
was usingexpiration
andtimeout
in milliseconds instead of seconds
-
FEATURE: Added a JavaDoc description to
com.github.alturkovic.lock.Lock.release()
method -
CHANGE: Rearranged the parameters of the
com.github.alturkovic.lock.Lock.release()
method to be more consistent -
CHANGE: Rearranged the parameters of the
com.github.alturkovic.lock.jdbc.service.JdbcLockSingleKeyService
methods to be more consistent -
CHANGE:
EvaluationConvertException
andLockNotAvailableException
now extend theDistributedLockException