In this tutorial, we will be integrating Flowable's BPM engine into our Spring Boot application.
The MIT License (MIT)
Copyright (c) 2020, canchito-dev
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the “Software”), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
If you would like to become an active contributor to this project please follow these simple steps:
- Fork it
- Create your feature branch
- Commit your changes
- Push to the branch
- Create new Pull Request
- About 40 minutes
- A favorite IDE. In this post, we use Intellij Community
- JDK 7 or later. It can be made to work with JDK6, but it will need configuration tweaks. Please check the Spring Boot documentation
Flowable supports both Spring Boot 2.0 and 1.5 with the same starters. The base support is for Spring Boot 2.0, which means that the actuator endpoints are only supported on 2.0. The Flowable starters are also puling spring boot starter transitively, which means that users will have to define the 1.5 version of the spring boot starters in their own build files.
For all Spring applications, it is always a good idea to start with the Spring Initializr. The Initializr is an excellent option for pulling in all the dependencies you need for an application and does a lot of the setup for you. This example needs only the Spring Web, and H2 Database dependency. The following image shows the Initializr set up for this sample project:
The following listing shows the pom.xml
file that is created when you choose Maven:
<?xml version="1.0" encoding="UTF-8"?>
<project xmlns="http://maven.apache.org/POM/4.0.0" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://maven.apache.org/POM/4.0.0 https://maven.apache.org/xsd/maven-4.0.0.xsd">
<modelVersion>4.0.0</modelVersion>
<parent> <groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-parent</artifactId>
<version>2.2.7.RELEASE</version>
<relativePath/> <!-- lookup parent from repository -->
</parent>
<groupId>com.canchitodev.example</groupId>
<artifactId>spring-flowable-integration</artifactId>
<version>0.0.1-SNAPSHOT</version>
<packaging>war</packaging>
<name>spring-flowable-integration</name>
<description>Demo project for Spring Boot using Flowable BPM</description>
<organization> <name>Canchito Development</name>
<url>http://www.canchito-dev.com</url>
</organization>
<issueManagement> <system>Canchito Development</system>
<url>https://github.com/canchito-dev/spring-flowable-integration/issues</url>
</issueManagement>
<url>https://github.com/canchito-dev/spring-flowable-integration</url>
<properties>
<project.build.sourceEncoding>UTF-8</project.build.sourceEncoding>
<project.reporting.outputEncoding>UTF-8</project.reporting.outputEncoding>
<java.version>1.8</java.version>
<flowable.version>6.5.0</flowable.version>
</properties>
<dependencies>
<!-- Starter for building web, including RESTful, applications using Spring MVC. Uses Tomcat as the default embedded container -->
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-web</artifactId>
</dependency>
<!-- Starter for building web, including RESTful, applications using Spring MVC. Uses Tomcat as the default embedded container -->
<!-- H2 Database Engine -->
<dependency>
<groupId>com.h2database</groupId>
<artifactId>h2</artifactId>
<scope>runtime</scope>
</dependency>
<!-- H2 Database Engine -->
<!-- Starter for using Tomcat as the embedded servlet container. Default servlet container starter used by spring-boot-starter-web -->
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-tomcat</artifactId>
</dependency>
<!-- Starter for using Tomcat as the embedded servlet container. Default servlet container starter used by spring-boot-starter-web -->
<!-- Starter for testing Spring Boot applications with libraries including JUnit, Hamcrest and Mockito -->
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-test</artifactId>
<scope>test</scope>
<exclusions>
<exclusion>
<groupId>org.junit.vintage</groupId>
<artifactId>junit-vintage-engine</artifactId>
</exclusion>
</exclusions>
</dependency>
<!-- Starter for testing Spring Boot applications with libraries including JUnit, Hamcrest and Mockito -->
</dependencies>
<build>
<plugins>
<plugin>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-maven-plugin</artifactId>
</plugin>
</plugins>
</build>
</project>
Now, simply add flowable-spring-boot-starter dependency. This will add all the engines.
<!-- Flowable Spring Boot Starter Basic -->
<dependency>
<groupId>org.flowable</groupId>
<artifactId>flowable-spring-boot-starter-basic</artifactId>
<version>${flowable.version}</version>
</dependency>
<!-- Flowable Spring Boot Starter Basic -->
That’s all that’s needed. This dependency will transitively add the correct Flowable dependencies to the classpath. You can now run your Spring Boot application. But before you do, create the following folders under src/main/resources:
src
|- main
|- resources
|- **processes**
|- **cases**
|- **dmn**
|- **forms**
And inside the folder src/main/resources/processes, create a file named one-task-process.bpmn20.xml. This is a dummy process definition. The content of the file is below:
<?xml version="1.0" encoding="UTF-8"?>
<definitions xmlns="http://www.omg.org/spec/BPMN/20100524/MODEL" xmlns:flowable="http://flowable.org/bpmn" targetNamespace="Examples">
<process id="oneTaskProcess" name="The One Task Process">
<startEvent id="theStart" />
<sequenceFlow id="flow1" sourceRef="theStart" targetRef="theTask" />
<userTask id="theTask" name="my task" flowable:assignee="kermit" />
<sequenceFlow id="flow2" sourceRef="theTask" targetRef="theEnd" />
<endEvent id="theEnd" />
</process>
</definitions>
Ok, now you can run you application:
@SpringBootApplication
public class SpringFlowableIntegrationApplication {
public static void main(String[] args) {
SpringApplication.run(SpringFlowableIntegrationApplication.class, args);
}
}
You will see an output like this:
. ____ _ __ _ _
/\\ / ___'_ __ _ _(_)_ __ __ _ \ \ \ \
( ( )\___ | '_ | '_| | '_ \/ _` | \ \ \ \
\\/ ___)| |_)| | | | | || (_| | ) ) ) )
' |____| .__|_| |_|_| |_\__, | / / / /
=========|_|==============|___/=/_/_/_/
:: Spring Boot :: (v2.2.7.RELEASE)
2020-05-08 13:37:02.325 INFO 9935 --- [ main] e.s.SpringFlowableIntegrationApplication : Starting SpringFlowableIntegrationApplication on MacBook-Pro.local with PID 9935 (/Users/canchitodev/development/spring-flowable-integration/target/classes started by jose.carlos.mendoza.prego in /Users/jose.carlos.mendoza.prego/Downloads/spring-flowable-integration)
2020-05-08 13:37:02.327 INFO 9935 --- [ main] e.s.SpringFlowableIntegrationApplication : No active profile set, falling back to default profiles: default
2020-05-08 13:37:02.993 INFO 9935 --- [ main] o.s.b.w.embedded.tomcat.TomcatWebServer : Tomcat initialized with port(s): 8080 (http)
2020-05-08 13:37:02.999 INFO 9935 --- [ main] o.apache.catalina.core.StandardService : Starting service [Tomcat]
2020-05-08 13:37:03.000 INFO 9935 --- [ main] org.apache.catalina.core.StandardEngine : Starting Servlet engine: [Apache Tomcat/9.0.34]
2020-05-08 13:37:03.133 INFO 9935 --- [ main] o.a.c.c.C.[Tomcat].[localhost].[/] : Initializing Spring embedded WebApplicationContext
2020-05-08 13:37:03.133 INFO 9935 --- [ main] o.s.web.context.ContextLoader : Root WebApplicationContext: initialization completed in 778 ms
2020-05-08 13:37:03.264 INFO 9935 --- [ main] o.s.s.concurrent.ThreadPoolTaskExecutor : Initializing ExecutorService 'applicationTaskExecutor'
2020-05-08 13:37:03.479 INFO 9935 --- [ main] o.f.s.b.e.EventRegistryAutoConfiguration : No deployment resources were found for autodeployment
2020-05-08 13:37:03.500 INFO 9935 --- [ main] o.f.s.SpringProcessEngineConfiguration : Found 2 Engine Configurators in total:
2020-05-08 13:37:03.501 INFO 9935 --- [ main] o.f.s.SpringProcessEngineConfiguration : class org.flowable.eventregistry.spring.configurator.SpringEventRegistryConfigurator (priority:100000)
2020-05-08 13:37:03.501 INFO 9935 --- [ main] o.f.s.SpringProcessEngineConfiguration : class org.flowable.idm.engine.configurator.IdmEngineConfigurator (priority:150000)
2020-05-08 13:37:03.501 INFO 9935 --- [ main] o.f.s.SpringProcessEngineConfiguration : Executing beforeInit() of class org.flowable.eventregistry.spring.configurator.SpringEventRegistryConfigurator (priority:100000)
2020-05-08 13:37:03.529 INFO 9935 --- [ main] o.f.s.SpringProcessEngineConfiguration : Executing beforeInit() of class org.flowable.idm.engine.configurator.IdmEngineConfigurator (priority:150000)
2020-05-08 13:37:03.555 INFO 9935 --- [ main] com.zaxxer.hikari.HikariDataSource : HikariPool-1 - Starting...
2020-05-08 13:37:03.646 INFO 9935 --- [ main] com.zaxxer.hikari.HikariDataSource : HikariPool-1 - Start completed.
2020-05-08 13:37:04.353 INFO 9935 --- [ main] o.f.s.SpringProcessEngineConfiguration : Executing configure() of class org.flowable.eventregistry.spring.configurator.SpringEventRegistryConfigurator (priority:100000)
2020-05-08 13:37:04.384 INFO 9935 --- [ main] o.f.c.e.impl.db.CommonDbSchemaManager : performing create on common with resource org/flowable/common/db/create/flowable.h2.create.common.sql
2020-05-08 13:37:04.917 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : SELECT COUNT(*) FROM PUBLIC.FLW_EV_DATABASECHANGELOGLOCK
2020-05-08 13:37:04.924 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : CREATE TABLE PUBLIC.FLW_EV_DATABASECHANGELOGLOCK (ID INT NOT NULL, LOCKED BOOLEAN NOT NULL, LOCKGRANTED TIMESTAMP, LOCKEDBY VARCHAR(255), CONSTRAINT PK_FLW_EV_DATABASECHANGELOGLOCK PRIMARY KEY (ID))
2020-05-08 13:37:04.925 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : SELECT COUNT(*) FROM PUBLIC.FLW_EV_DATABASECHANGELOGLOCK
2020-05-08 13:37:04.928 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : DELETE FROM PUBLIC.FLW_EV_DATABASECHANGELOGLOCK
2020-05-08 13:37:04.929 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : INSERT INTO PUBLIC.FLW_EV_DATABASECHANGELOGLOCK (ID, LOCKED) VALUES (1, FALSE)
2020-05-08 13:37:04.930 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : SELECT LOCKED FROM PUBLIC.FLW_EV_DATABASECHANGELOGLOCK WHERE ID=1
2020-05-08 13:37:04.936 INFO 9935 --- [ main] l.lockservice.StandardLockService : Successfully acquired change log lock
2020-05-08 13:37:06.280 INFO 9935 --- [ main] l.c.StandardChangeLogHistoryService : Creating database history table with name: PUBLIC.FLW_EV_DATABASECHANGELOG
2020-05-08 13:37:06.281 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : CREATE TABLE PUBLIC.FLW_EV_DATABASECHANGELOG (ID VARCHAR(255) NOT NULL, AUTHOR VARCHAR(255) NOT NULL, FILENAME VARCHAR(255) NOT NULL, DATEEXECUTED TIMESTAMP NOT NULL, ORDEREXECUTED INT NOT NULL, EXECTYPE VARCHAR(10) NOT NULL, MD5SUM VARCHAR(35), DESCRIPTION VARCHAR(255), COMMENTS VARCHAR(255), TAG VARCHAR(255), LIQUIBASE VARCHAR(20), CONTEXTS VARCHAR(255), LABELS VARCHAR(255), DEPLOYMENT_ID VARCHAR(10))
2020-05-08 13:37:06.281 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : SELECT COUNT(*) FROM PUBLIC.FLW_EV_DATABASECHANGELOG
2020-05-08 13:37:06.282 INFO 9935 --- [ main] l.c.StandardChangeLogHistoryService : Reading from PUBLIC.FLW_EV_DATABASECHANGELOG
2020-05-08 13:37:06.282 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : SELECT * FROM PUBLIC.FLW_EV_DATABASECHANGELOG ORDER BY DATEEXECUTED ASC, ORDEREXECUTED ASC
2020-05-08 13:37:06.283 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : SELECT COUNT(*) FROM PUBLIC.FLW_EV_DATABASECHANGELOGLOCK
2020-05-08 13:37:06.305 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : CREATE TABLE PUBLIC.FLW_EVENT_DEPLOYMENT (ID_ VARCHAR(255) NOT NULL, NAME_ VARCHAR(255), CATEGORY_ VARCHAR(255), DEPLOY_TIME_ TIMESTAMP, TENANT_ID_ VARCHAR(255), PARENT_DEPLOYMENT_ID_ VARCHAR(255), CONSTRAINT PK_FLW_EVENT_DEPLOYMENT PRIMARY KEY (ID_))
2020-05-08 13:37:06.306 INFO 9935 --- [ main] liquibase.changelog.ChangeSet : Table FLW_EVENT_DEPLOYMENT created
2020-05-08 13:37:06.306 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : CREATE TABLE PUBLIC.FLW_EVENT_RESOURCE (ID_ VARCHAR(255) NOT NULL, NAME_ VARCHAR(255), DEPLOYMENT_ID_ VARCHAR(255), RESOURCE_BYTES_ BLOB, CONSTRAINT PK_FLW_EVENT_RESOURCE PRIMARY KEY (ID_))
2020-05-08 13:37:06.307 INFO 9935 --- [ main] liquibase.changelog.ChangeSet : Table FLW_EVENT_RESOURCE created
2020-05-08 13:37:06.307 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : CREATE TABLE PUBLIC.FLW_EVENT_DEFINITION (ID_ VARCHAR(255) NOT NULL, NAME_ VARCHAR(255), VERSION_ INT, KEY_ VARCHAR(255), CATEGORY_ VARCHAR(255), DEPLOYMENT_ID_ VARCHAR(255), TENANT_ID_ VARCHAR(255), RESOURCE_NAME_ VARCHAR(255), DESCRIPTION_ VARCHAR(255), CONSTRAINT PK_FLW_EVENT_DEFINITION PRIMARY KEY (ID_))
2020-05-08 13:37:06.308 INFO 9935 --- [ main] liquibase.changelog.ChangeSet : Table FLW_EVENT_DEFINITION created
2020-05-08 13:37:06.308 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : CREATE UNIQUE INDEX PUBLIC.ACT_IDX_EVENT_DEF_UNIQ ON PUBLIC.FLW_EVENT_DEFINITION(KEY_, VERSION_, TENANT_ID_)
2020-05-08 13:37:06.309 INFO 9935 --- [ main] liquibase.changelog.ChangeSet : Index ACT_IDX_EVENT_DEF_UNIQ created
2020-05-08 13:37:06.310 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : CREATE TABLE PUBLIC.FLW_CHANNEL_DEFINITION (ID_ VARCHAR(255) NOT NULL, NAME_ VARCHAR(255), VERSION_ INT, KEY_ VARCHAR(255), CATEGORY_ VARCHAR(255), DEPLOYMENT_ID_ VARCHAR(255), CREATE_TIME_ TIMESTAMP, TENANT_ID_ VARCHAR(255), RESOURCE_NAME_ VARCHAR(255), DESCRIPTION_ VARCHAR(255), CONSTRAINT PK_FLW_CHANNEL_DEFINITION PRIMARY KEY (ID_))
2020-05-08 13:37:06.310 INFO 9935 --- [ main] liquibase.changelog.ChangeSet : Table FLW_CHANNEL_DEFINITION created
2020-05-08 13:37:06.310 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : CREATE UNIQUE INDEX PUBLIC.ACT_IDX_CHANNEL_DEF_UNIQ ON PUBLIC.FLW_CHANNEL_DEFINITION(KEY_, VERSION_, TENANT_ID_)
2020-05-08 13:37:06.311 INFO 9935 --- [ main] liquibase.changelog.ChangeSet : Index ACT_IDX_CHANNEL_DEF_UNIQ created
2020-05-08 13:37:06.311 INFO 9935 --- [ main] liquibase.changelog.ChangeSet : ChangeSet org/flowable/eventregistry/db/liquibase/flowable-eventregistry-db-changelog.xml::1::flowable ran successfully in 7ms
2020-05-08 13:37:06.312 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : SELECT MAX(ORDEREXECUTED) FROM PUBLIC.FLW_EV_DATABASECHANGELOG
2020-05-08 13:37:06.315 INFO 9935 --- [ main] liquibase.executor.jvm.JdbcExecutor : INSERT INTO PUBLIC.FLW_EV_DATABASECHANGELOG (ID, AUTHOR, FILENAME, DATEEXECUTED, ORDEREXECUTED, MD5SUM, DESCRIPTION, COMMENTS, EXECTYPE, CONTEXTS, LABELS, LIQUIBASE, DEPLOYMENT_ID) VALUES ('1', 'flowable', 'org/flowable/eventregistry/db/liquibase/flowable-eventregistry-db-changelog.xml', NOW(), 1, '8:1b0c48c9cf7945be799d868a2626d687', 'createTable tableName=FLW_EVENT_DEPLOYMENT; createTable tableName=FLW_EVENT_RESOURCE; createTable tableName=FLW_EVENT_DEFINITION; createIndex indexName=ACT_IDX_EVENT_DEF_UNIQ, tableName=FLW_EVENT_DEFINITION; createTable tableName=FLW_CHANNEL_DEFIN...', '', 'EXECUTED', NULL, NULL, '3.8.9', '8937826283')
2020-05-08 13:37:06.325 INFO 9935 --- [ main] l.lockservice.StandardLockService : Successfully released change log lock
2020-05-08 13:37:06.325 INFO 9935 --- [ main] o.f.e.impl.EventRegistryEngineImpl : EventRegistryEngine default created
2020-05-08 13:37:06.326 INFO 9935 --- [ main] o.f.s.SpringProcessEngineConfiguration : Executing configure() of class org.flowable.idm.engine.configurator.IdmEngineConfigurator (priority:150000)
2020-05-08 13:37:06.340 INFO 9935 --- [ main] o.f.i.engine.impl.db.IdmDbSchemaManager : performing create on identity with resource org/flowable/idm/db/create/flowable.h2.create.identity.sql
2020-05-08 13:37:06.353 INFO 9935 --- [ main] o.f.idm.engine.impl.IdmEngineImpl : IdmEngine default created
2020-05-08 13:37:06.362 INFO 9935 --- [ main] o.f.i.s.i.d.IdentityLinkDbSchemaManager : performing create on identitylink with resource org/flowable/identitylink/service/db/create/flowable.h2.create.identitylink.sql
2020-05-08 13:37:06.365 INFO 9935 --- [ main] o.f.i.s.i.d.IdentityLinkDbSchemaManager : performing create on identitylink.history with resource org/flowable/identitylink/service/db/create/flowable.h2.create.identitylink.history.sql
2020-05-08 13:37:06.368 INFO 9935 --- [ main] o.f.e.s.i.db.EntityLinkDbSchemaManager : performing create on entitylink with resource org/flowable/entitylink/service/db/create/flowable.h2.create.entitylink.sql
2020-05-08 13:37:06.370 INFO 9935 --- [ main] o.f.e.s.i.db.EntityLinkDbSchemaManager : performing create on entitylink.history with resource org/flowable/entitylink/service/db/create/flowable.h2.create.entitylink.history.sql
2020-05-08 13:37:06.372 INFO 9935 --- [ main] e.s.i.d.EventSubscriptionDbSchemaManager : performing create on eventsubscription with resource org/flowable/eventsubscription/service/db/create/flowable.h2.create.eventsubscription.sql
2020-05-08 13:37:06.374 INFO 9935 --- [ main] o.f.t.s.impl.db.TaskDbSchemaManager : performing create on task with resource org/flowable/task/service/db/create/flowable.h2.create.task.sql
2020-05-08 13:37:06.376 INFO 9935 --- [ main] o.f.t.s.impl.db.TaskDbSchemaManager : performing create on task.history with resource org/flowable/task/service/db/create/flowable.h2.create.task.history.sql
2020-05-08 13:37:06.383 INFO 9935 --- [ main] o.f.v.s.impl.db.VariableDbSchemaManager : performing create on variable with resource org/flowable/variable/service/db/create/flowable.h2.create.variable.sql
2020-05-08 13:37:06.386 INFO 9935 --- [ main] o.f.v.s.impl.db.VariableDbSchemaManager : performing create on variable.history with resource org/flowable/variable/service/db/create/flowable.h2.create.variable.history.sql
2020-05-08 13:37:06.388 INFO 9935 --- [ main] o.f.j.s.impl.db.JobDbSchemaManager : performing create on job with resource org/flowable/job/service/db/create/flowable.h2.create.job.sql
2020-05-08 13:37:06.408 INFO 9935 --- [ main] o.f.b.s.impl.db.BatchDbSchemaManager : performing create on batch with resource org/flowable/batch/service/db/create/flowable.h2.create.batch.sql
2020-05-08 13:37:06.410 INFO 9935 --- [ main] o.f.e.impl.db.ProcessDbSchemaManager : performing create on engine with resource org/flowable/db/create/flowable.h2.create.engine.sql
2020-05-08 13:37:06.440 INFO 9935 --- [ main] o.f.e.impl.db.ProcessDbSchemaManager : performing create on history with resource org/flowable/db/create/flowable.h2.create.history.sql
2020-05-08 13:37:06.467 INFO 9935 --- [ main] o.f.engine.impl.ProcessEngineImpl : ProcessEngine default created
2020-05-08 13:37:06.493 INFO 9935 --- [ main] o.f.e.impl.cmd.ValidateV5EntitiesCmd : Total of v5 deployments found: 0
2020-05-08 13:37:06.606 INFO 9935 --- [ main] o.s.s.c.ThreadPoolTaskScheduler : Initializing ExecutorService
2020-05-08 13:37:06.608 INFO 9935 --- [ main] o.f.j.s.i.a.AbstractAsyncExecutor : Starting up the async job executor [org.flowable.spring.job.service.SpringAsyncExecutor].
2020-05-08 13:37:06.608 INFO 9935 --- [ Thread-1] o.f.j.s.i.a.AcquireAsyncJobsDueRunnable : starting to acquire async jobs due
2020-05-08 13:37:06.609 INFO 9935 --- [ Thread-2] o.f.j.s.i.a.AcquireTimerJobsRunnable : starting to acquire async jobs due
2020-05-08 13:37:06.609 INFO 9935 --- [ Thread-3] o.f.j.s.i.a.ResetExpiredJobsRunnable : starting to reset expired jobs for engine bpmn
2020-05-08 13:37:06.730 INFO 9935 --- [ main] o.s.b.w.embedded.tomcat.TomcatWebServer : Tomcat started on port(s): 8080 (http) with context path ''
2020-05-08 13:37:06.735 INFO 9935 --- [ main] e.s.SpringFlowableIntegrationApplication : Started SpringFlowableIntegrationApplication in 4.674 seconds (JVM running for 10.405)
With just a few changes, a lot has happened:
- Because we hare using H2 driver, an in-memory database was automatically created and passed to the Flowable process engine configuration
- A Flowable ProcessEngine, CmmnEngine, DmnEngine, FormEngine, ContentEngine and IdmEngine beans have been created and exposed
- All the Flowable services are exposed as Spring beans
- The Spring Job Executor is created
In addition, any BPMN 2.0 process definition, CMMN 1.1 case definitions, DMN 1.1 dmn definitions, and Form definitions found under the previously created resource folders, will be automatically deployed. In our case, the previously created BPMN 2.0 process definition one-task-process.bpmn20.xml was deployed.
In order to make sure that everything is correct, and that the deployment actually worked, add the following lines of code:
@SpringBootApplication
public class SpringFlowableIntegrationApplication {
public static void main(String[] args) {
SpringApplication.run(SpringFlowableIntegrationApplication.class, args);
}
@Bean
public CommandLineRunner init(final RepositoryService repositoryService,
final RuntimeService runtimeService,
final TaskService taskService) {
return new CommandLineRunner() {
@Override
public void run(String... strings) throws Exception {
System.out.println("Number of process definitions : "
+ repositoryService.createProcessDefinitionQuery().count());
System.out.println("Number of tasks : " + taskService.createTaskQuery().count());
runtimeService.startProcessInstanceByKey("oneTaskProcess");
System.out.println("Number of tasks after process start: "
+ taskService.createTaskQuery().count());
}
};
}
}
If everything went well, you should see the following:
Number of process definitions : 1
Number of tasks : 0
Number of tasks after process start: 1
It is very common to use a REST API on top of the embedded Flowable engine, because it allows your application to interact with other micro services. Spring Boot makes this really easy. Add following dependency to the classpath:
<!-- Flowable Spring Boot Starter Rest Api -->
<dependency>
<groupId>org.flowable</groupId>
<artifactId>flowable-spring-boot-starter-rest</artifactId>
<version>${flowable.version}</version>
</dependency>
<!-- Flowable Spring Boot Starter Rest Api -->
Now, let's create two custom endpoints. One for starting process instances of our previously created BPMN 2.0 process definition, and one for getting the active user tasks.
Create a new class, a Spring service called MyService and create two methods which wrap Flowable calls, but in real-life scenarios this will be more complex.
@Service
public class MyService {
@Autowired
private RuntimeService runtimeService;
@Autowired
private TaskService taskService;
@Transactional
public void startProcess() {
runtimeService.startProcessInstanceByKey("oneTaskProcess");
}
@Transactional
public List<Task> getTasks(String assignee) {
return taskService.createTaskQuery().taskAssignee(assignee).list();
}
}
We can now create a REST endpoint by annotating a class with @RestController. Here, we simply delegate to the service defined above.
@RestController
public class MyRestController {
@Autowired
private MyService myService;
@PostMapping(value="/process")
public void startProcessInstance() {
myService.startProcess();
}
@RequestMapping(value="/tasks", method= RequestMethod.GET, produces= MediaType.APPLICATION_JSON_VALUE)
public List<TaskRepresentation> getTasks(@RequestParam String assignee) {
List<Task> tasks = myService.getTasks(assignee);
List<TaskRepresentation> dtos = new ArrayList<TaskRepresentation>();
for (Task task : tasks)
dtos.add(new TaskRepresentation(task.getId(), task.getName()));
return dtos;
}
static class TaskRepresentation {
private String id;
private String name;
public TaskRepresentation(String id, String name) {
this.id = id;
this.name = name;
}
public String getId() { return id; }
public void setId(String id) { this.id = id; }
public String getName() { return name; }
public void setName(String name) { this.name = name; }
}
}
Both the @Service and the @RestController will be found by the automatic component scan for a Spring Boot application. Run the application class again. We can now interact with the REST API, for example, by using cURL or Postman. First we start a process instance:
And now, we list the active user tasks for the user kermit. Note that if you did not comment the CommandLineRunner bean, you will have two instances of the process running, and thus, two active user tasks:
Flowable provides a Spring Boot Actuator Endpoint that exposes information for the Processes that are running. By default, all of Actuator's endpoints are mapped to /actuator
, and Flowable's endpoint is not the exception, as it is mapped to /actuator/flowable
. Spring Boot by default only exposes the info
and health
endpoints. In order to enable the flowable
endpoint you need to add management.endpoint.flowable.enabled=true
to your application.properties
.
If you would like to know a bit more about Spring Boot production ready features, have a look at our post Spring Boot Actuator – Production-ready features.
In order to make enable Actuator endpoints you need to add a dependency on Actuator. We will take this chance, and also add Spring Boot Actuator's dependency:
<!-- Flowable Spring Boot Starter Actuator -->
<dependency>
<groupId>org.flowable</groupId>
<artifactId>flowable-spring-boot-starter-actuator</artifactId>
<version>${flowable.version}</version>
</dependency>
<!-- Flowable Spring Boot Starter Actuator -->
<!-- Starter for using Spring Boot's Actuator which provides production ready features to help you monitor and manage your application -->
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-actuator</artifactId>
</dependency>
<!-- Starter for using Spring Boot's Actuator which provides production ready features to help you monitor and manage your application -->
Now, open your application.properties
, and add the following lines:
management.endpoint.flowable.enabled=true
management.endpoints.enabled-by-default=true
management.endpoints.web.exposure.include=health,shutdown,env,info,flowable,mappings
management.endpoint.health.show-details=always
This will do the following:
- Enable Flowable's actuator endpoint.
- Enable Spring Boot's production ready endpoints.
- Expose some specific endpoints.
- By default, the
/health
endpoint, only tells you that the app is up, but we want to it to show a bit more of information.
Let's test the endpoint using Postman. First the actuator
endpoint, which lists all the available endpoints.
Now, let's test Flowable's endpoint actuator/flowable
And finally, the actuator/health
endpoint:
Until this moment, we have been using an in-memory H2 database. Lucky us, it has a web console that we can easily access. As you, by design, the in-memory database is volatile and data will be lost when we restart the application.
In order to enable H2 Console, add the following properties into your application.properties
file:
spring.h2.console.enabled=true
spring.h2.console.path=/h2-console
spring.h2.console.settings.trace=true
By default, Spring Boot configures the application to connect to an in-memory store with the username sa and an empty password. However, we can change those parameters by adding the following properties to the application.properties
file:
spring.datasource.username=flowable
spring.datasource.password=flowable
spring.datasource.url=jdbc:h2:~/flowable-db/db
spring.datasource.driver-class-name=org.h2.Driver
Now restart your application and go to http://localhost:8080/h2-console. You should see some the log in page.
Once you log in, you will be able to explore the database and execute queries.
To change the datasource, simply add the database driver dependencies and provide the URL to the database. For example, to switch to a MySQL database:
spring.datasource.username=flowable
spring.datasource.password=flowable
spring.datasource.driver-class-name=com.mysql.cj.jdbc.Driver
spring.datasource.url=jdbc:mysql://mysql-db:3306/flowable?characterEncoding=UTF-8
Remove H2 from the Maven dependencies and add the MySQL driver to the classpath:
<!-- Databases MySQL JDBC Type 4 drive -->
<dependency>
<groupId>mysql</groupId>
<artifactId>mysql-connector-java</artifactId>
<scope>runtime</scope>
</dependency>
<!-- Databases MySQL JDBC Type 4 drive -->
In this post, we have shown how to integrate Flowable into your Spring Boot application. We hope that, even though this was a very basic introduction, you understood how to use and configure them. We will try to go deeper into Flowable in upcoming posts.
Please feel free to contact us. We will gladly response to any doubt or question you might have.
Source code can be found in our GitHub repository.