Gawain MongoDB extension

Microframework focusing on data processing and aggregation in distributed environment

License

License

Categories

Categories

MongoDB Data Databases
GroupId

GroupId

me.smecsia.gawain
ArtifactId

ArtifactId

gawain-mongodb
Last Version

Last Version

0.1.9
Release Date

Release Date

Type

Type

jar
Description

Description

Gawain MongoDB extension
Microframework focusing on data processing and aggregation in distributed environment
Project URL

Project URL

https://github.com/smecsia/gawain
Source Code Management

Source Code Management

https://github.com/smecsia/gawain

Download gawain-mongodb

How to add to project

<!-- https://jarcasting.com/artifacts/me.smecsia.gawain/gawain-mongodb/ -->
<dependency>
    <groupId>me.smecsia.gawain</groupId>
    <artifactId>gawain-mongodb</artifactId>
    <version>0.1.9</version>
</dependency>
// https://jarcasting.com/artifacts/me.smecsia.gawain/gawain-mongodb/
implementation 'me.smecsia.gawain:gawain-mongodb:0.1.9'
// https://jarcasting.com/artifacts/me.smecsia.gawain/gawain-mongodb/
implementation ("me.smecsia.gawain:gawain-mongodb:0.1.9")
'me.smecsia.gawain:gawain-mongodb:jar:0.1.9'
<dependency org="me.smecsia.gawain" name="gawain-mongodb" rev="0.1.9">
  <artifact name="gawain-mongodb" type="jar" />
</dependency>
@Grapes(
@Grab(group='me.smecsia.gawain', module='gawain-mongodb', version='0.1.9')
)
libraryDependencies += "me.smecsia.gawain" % "gawain-mongodb" % "0.1.9"
[me.smecsia.gawain/gawain-mongodb "0.1.9"]

Dependencies

compile (4)

Group / Artifact Type Version
me.smecsia.gawain : gawain-core jar 0.1.9
ru.qatools : pessimistic-mongodb jar 1.9
org.slf4j : slf4j-api jar 1.7.15
org.codehaus.groovy : groovy-all jar 2.4.6

test (7)

Group / Artifact Type Version
org.slf4j : slf4j-log4j12 jar 1.7.15
junit : junit jar 4.11
org.hamcrest : hamcrest-all jar 1.3
me.smecsia.gawain : gawain-jackson jar 0.1.9
ru.yandex.qatools.embed : embedded-services jar 1.20
com.jayway.awaitility : awaitility-groovy jar 1.7.0
org.mockito : mockito-core jar 2.0.2-beta

Project Modules

There are no modules declared in this project.

Gawain


Maven Central
Microframework focusing on data processing and aggregation in distributed environment

Features

  • Distributed processing and aggregation with the usage of many threads/processes
  • Aggregation data is stored into different storages (e.g. databases)
  • Messages broadcasting within cluster
  • Distributed pessimistic locking for each aggregation key during aggregation
  • Distributed scheduler, that can perform tasks on every node or just on the master node

Setup

build.gradle

    compile 'me.smecsia.gawain:0.1.9'

Usage

Gawain is an event-driven framework which operates with the terms like queue, event, state, processor, aggregator, repository, broadcaster, timer.

  • event is a message that can affect system. It is enqueued into the queue and later is processed by processor or aggregator.
  • queue is a storage, where messages reside until they are processed by processor or aggregator.
  • Unlike the queue, broadcaster is a message broker that routes messages to every node of the cluster.
  • processor - is a stateless lambda, which can modify event and then route it to the next processor or aggregator.
  • aggregator - is a stateful processor, which holds the state consistently as a distributed map of correlation identifiers and values. Aggregation can happen on any node of the cluster and thus must be performed concurrently. Gawain uses the distributed locks for that purpose.
  • state represents the single value identified by aggregation key and can contain any accumulated data.
  • repository is a storage for states. It can be in-memory or can represent the distributed map of values.
  • timer is a scheduled job, which can perform any operations periodically with given schedule.

The example:

def gawain = Gawain.run {
    processor('male', filter { it != 'Ivanov' }, process { "Mr. ${it}" }).to('people')
    
    processor('female', process { "Mrs. ${it}" }).to('people')
    
    aggregator 'people', key { it }, 
            aggregate { state, evt -> state.name = evt }
}

// feeding up the queues with events
['Ivanov', 'Petrov', 'Sidorov'].each { gawain.to('male', it) }
['Ivanova', 'Petrova'].each { gawain.to('female', it) }

// when processing is completed the following line will print 
// "Mr. Petrov, Mr. Sidorov, Mrs. Ivanova, Mrs. Petrova"
println(gawain.repo('people').keys())

Cluster

Gawain's main purpose is to handle processing and aggregation jobs, to process the queues of messages and then to store aggregation results into database. All the operations can be performed in parallel on different nodes of the cluster. Usually all cluster nodes are euqal. There is no "Master" node for processing and aggregation. The exception is the distributed scheduler that can be performed on master node only.
Besides that, nodes may be configured differently (for example, they can have different count of queue consumers, depending on the resources (e.g. CPU/Memory)). All nodes may be (or not) connected to a single instance of message queue broker (e.g. ActiveMQ) or to a single data storage (e.g. MongoDB/Relational database).

Routing

Route can represent a graph, in which each vertex is a single processor or aggregator. It can be cyclic or acyclic. Typical route looks like a sequence of processors which ends with aggregator:

proc1 -> proc2 -> ... -> procN -> aggregator

This allows to transform the source event and then accumulate the transformed events within repository.

processor('proc1', { it * 2 }).to('proc2')
processor('proc2', { it - 1 }).to('proc3')
processor('proc3', { it / 2 }).to('aggregator')
aggregator('aggregator')

The code above allows to perform some calculations on values and then store them within the repository. For example, if we send value 2 to proc1 then repository for aggregator will contain value 1.5.

Route can be conditional or unconditional. To specify a condition, you can use to or broadcast methods directly from processor being based on message value:

processor 'router', { evt -> 
    switch (evt) {
        case String: to('strings', evt); break;
        case Integer: to('integers', evt); break;
        default: to('trash', evt); break;
    }
}
  • If event is sent from one processor to another via to method, then the next processing will occur on a single node of the cluster. If you configure the distributed message broker (e.g. ActiveMQ), the target node may be any of the cluster nodes, otherwise all queues will be in-memory (and thus processing will occur on the same node as the previous one).
  • If event is sent from one processor to another via broadcast method, and there is a configured distributed broadcasting broker (e.g. ActiveMQ or MongoDB), then all the nodes of the cluster will receive such message. And it will be processed by the next processor on every cluster node (one time for each node).
processor('launcher').broadcast('launch')
processor 'launch', { println('Launching command ${it} on every cluster node...') }

Scheduled processors

You can register the scheduled jobs, that can access or modify data, or just perform any other operations within given schedule:

doEvery(60, SECONDS, { println("Another minute of your life has just been wasted!" })

The following example shows how to access and modify data from aggregator:

def gawain = Gawain.run {
    aggregator 'input', key { it.id },
            aggregate { state, evt ->
                state.ticks = 0
                state.evt = evt
            }
    doEvery(300, MILLISECONDS, {
        repo('input').withEach { key, state ->
            state.ticks += 1
        }
    })
}

// this will create state with key 'Vasya':
gawain.to('input', [id: 'Vasya'])

// after 900ms this will print 3
println(gawain.repo('input')['Vasya'].ticks)

By default scheduled processors perform on every cluster node. To make them global (to be perfomed on "master" node only) you should pass 'global' option in definition:

doEvery(100, MILLISECONDS, { println("Hello from master node!" }, global: true)

Usage from java code

Gawain easily integrates with java code. The main difference is due to the difference in Java lambdas and Groovy closures. In Java you have to use the router reference within lambdas:

final List<User> users = new ArrayList();

final Gawain gawain = Gawain.run(r -> {
    r.processor("male",
            filter(evt -> !"Johnson".equals(evt)),
            process(evt -> "Mr. " + evt)).to("users");
    r.processor("female", process(evt -> "Mrs. " + evt)).to("users");
    r.processor("users", process(User::new)).to("output");
    r.processor("output", process(evt -> users.add((User) evt)));
});

gawain.to("female", "Ivanova");
gawain.to("male", "Johnson");
gawain.to("male", "Petrov");
// ...
// after processing is finished users will contain ["Mrs. Ivanova", "Mr. Petrov"]

Processors & Aggregators options

You can specify a number of options for processors and aggregators:

  • consumers - Limits the queue consumers count. Specifies the number of concurrently performing queue consumers. Each consumer thread is a single processor or aggregator. Default value: 1.
  • bcConsumers - Limits the number of concurrently performing consumers for broadcasted messages. Default value: 1.
  • maxLockWaitMs - Specifies maximum time in which the lock must be obtained. This option allows to prevent the deadlocks when one of the consumers is locked for a long time. Default value: 30000.
  • lockPollIntervalMs - Allows to configure the interval of polling the database to acquire the lock. Lower values lead to the higher loads of the database. Higher values may lead to the slower aggregation. Default value: 10
  • maxQueueSize - Sets the maximum queue size. With very intensive messages stream consumers sometimes cannot handle all of them. This option allows to limit the maximum messages within queue. Newer messages will be dropped if queue is full. This option may lead to inconsistency. It is disabled by default.
  • stateSerializer - Allows to set the serializer for the state
  • messageSerializer - Allows to set the serializer for the events

Setting the default options

// ... 
Gawain.run {
    // overriding the default options
    defaultOpts(stateSerializer: new JacksonStateSerializer())
    // defining your own scheduler implementation
    useScheduler(new MySchedulerImplementation())
    // defining your own queue builder
    useQueueBuilder(new MyQueueBuilder())
    // defining your own thread pool builder
    useThreadPoolBuilder(new MyThreadPoolBuilder())
    // defining the behaviour when unknown queue name appears in route
    // if false no exception is raised
    failOnMissingQueue(false)
    // ...
}

ActiveMQ as a message broker and broadcaster

build.gradle

compile 'ru.qatools:gawain-activemq:0.1.8'

Somewhere in your code:

// ... 
def factory = new ActiveMQConnectionFactory()
factory.brokerURL = 'tcp://localhost:61616'
Gawain.run {
     useQueueBuilder(
        new ActivemqQueueBuilder(
                factory.createConnection() as ActiveMQConnection
        )         
     )
     useBroadcastBuilder(
        new ActivemqBroadcastBuilder(
                factory.createConnection() as ActiveMQConnection
        )         
     )
    // Now all messages will be handled via ActiveMQ broker and its queues
    // All nodes connected to the same ActiveMQ will be listening all broadcasting events
}

MongoDB as a repository and broadcaster (and also as a distributed locks engine)

build.gradle

compile 'ru.qatools:gawain-mongodb:0.1.8'
compile 'ru.qatools:gawain-jackson:0.1.8'

Somewhere in your code:

// ... 
def dbURL = 'mongodb://user:password@localhost:27017/database?w=majority'
def dbName = 'database'
Gawain.run {
    // setting Jackson as a serializer of the states
    defaultOpts(stateSerializer: new JacksonStateSerializer())
     useRepoBuilder(
        new MongodbRepoBuilder(dbURL, dbName)
     )
     useBroadcastBuilder(
        new MongodbBroadcastBuilder(dbURL, dbName)
     )
    // Now all the data of aggregators will be stored within MongoDB
    // All nodes connected to the same MongoDB will be listening all broadcasting events
}

ElasticSearch as a repository (and distributed locks engine)

build.gradle

compile 'ru.qatools:gawain-elasticsearch:0.1.8'
compile 'ru.qatools:gawain-jackson:0.1.8'

Somewhere in your code:

// ... 
Gawain.run {
     // setting Jackson as a serializer of the states
     defaultOpts(stateSerializer: new JacksonStateSerializer())
     useRepoBuilder(
           new ElasticRepoBuilder(elasticClient, 'indexName')
     )
     // Now all the data of aggregators will be stored within ElasticSearch
}

JDBC database (MySQL, PostgreSQL, H2) as a repository (and distributed locks engine)

build.gradle

compile 'ru.qatools:gawain-jdbc:0.1.8'

For H2 database:

// ... 
Gawain.run {
     useRepoBuilder(
        new JDBCRepoBuilder(DriverManager.getConnection('jdbc:h2:mem:exercise_db;DB_CLOSE_DELAY=-1'))
     )
    // ...
}

For MySQL database:

// ... 
Gawain.run {
     useRepoBuilder(
        new JDBCRepoBuilder(
            DriverManager.getConnection('jdbc:mysql://localhost:3306/database?useSSL=false&user=user&password=password'),
            new MysqlDialect()
        )
     )
    // ...
}

For PostgreSQL database:

// ... 
Gawain.run {
     useRepoBuilder(
        new JDBCRepoBuilder(
            DriverManager.getConnection('jdbc:postgresql://localhost:5432/database?user=user&password=password'),
            new PostgresDialect()
        )
     )
    // ...
}

Versions

Version
0.1.9
0.1.8
0.1.7
0.1.6
0.1.5
0.1.4
0.1.3
0.1.2
0.1.1
0.1
0.1-alpha