Architecture

Sentilo platform architecture

Sentilo is a data publication & subscription Java system based in Redis, which offers the following features:

  • Restful API
  • Web Application management.
  • Agent for storing historical data in a relational database.
  • Agent for notifying alerts.

Key Concepts

This section describes the main concepts of Sentilo. Many of these concepts are discussed later deeply.

PubSub Platform

Sentilo allows customers to publish and retrieve information and to subscribe to system events. This module is a stand-alone Java process that uses Redis as a publish/subscribe mechanism.

The different types of information considered are:

  • observations
  • alarms
  • orders

RealTime storage

Primary repository where the platform stores all the information received. It is configured to do periodic backups in the file system. It is also the Publish/Subscrive engine.

REST API

The client's communication with publish/subscription mechanism is made using the REST API provided by the platform.

Services offered by the API can be classified into five main groups:

  • data: provides operations to publish, retrieve, delete data.
  • order: provides operations to publish, retrieve, delete orders.
  • alarm: provides operations to publish, retrieve, delete alarms.
  • subscribe: provides operations to subscribe, retrieve and cancel subscriptions.
  • catalog: provides operations to insert, update, query and delete catalog resources (sensors, components and alerts).

By default, the information is transmitted using JSON format. 

Agent

Agents are Java processes that expand the core functionality of the platform through a Plug & Play system using the Redis publish and subscribe mechanism.

Sentilo currently provides two agents:

  • Relational database agent: used to export historical data to a relational database.
  • Alert agent: used for processing each data received by the platform and validate it with the business rules configured in the catalog.
  • Activity Monitor Agent: used for upload the events to Elasticsearch.
  • Historian Agent: used for upload the events to OpenTSDB.

Authentication Token

The invocation of different REST API services is secured using an authentication token.
This token must be sent in every request as a header parameter of the HTTP request named IDENTITY_KEY.
This token is unique for each provider or client application, and is managed by the catalog application.

Permission

Permissions allow Sentilo to identify the requester and to ensure that who makes a request is authorized to do it.
Permissions are managed by the catalog web app and allow to configure read or write permissions to client application on third party resources (provider or client applications).
By default, every platform entity has read and write permissions on its own resources.

Notification mechanism

Sentilo provides two mechanisms for nofitying events:

  • If the client is capable of having an opened socket, the platform will send a notification to this socket every time an event is triggered (push).
  • If the client cannot have an opened socket, then it must be doing periodic requests (polling) to the platform to retrieve last events.

Catalog

The Web Application Platform console allows to manage the following resources: providers, applications, components, sensors, sensors types, component types, alerts and users.

It also provides a public console for displaying components and sensors registered in the platform as well as the data that has been received.

Alert

Sentilo allows to manage sensor-level alerts, aimed to control the validity of the data received.
The set of conditional operators available are: >, >=, <, <=, =, any change, variation, frozen.

When the value received from a sensor doesn't met any of the conditions defined, the alert agent publishes an event (alarm) notifying it.

Platform architecture

The following diagram describes the Sentilo platform:

sentilo architecture

PubSub Server

PubSub Server is a stand-alone java application whose design is divided into two layers:

arquitecturaImg2.jpg

Transport Layer

Tthe transport layer is designed following the Thread Pool pattern and is implemented with Apache HttpCore library.

The following diagram shows the main flow for a request within this layer:

arquitecturaImg3.jpg

  • The client sends a Http request to the REST platform
  • The server accepts and queues it on the list of pending requests
  • When a Worker is available, a pending task is assigned to it for processing(removing it from the queue)
    • delegates the request to an element of the service layer
    • and constructs the HTTP response from the information received
  • Send the response to client's request

The values ​​of the job queue and the workers' pool are fully configurable via properties file, for easily adjust to the load requirements of each environment:

<bean id="ThreadPool" class="org.sentilo.platform.server.pool.ThreadPool"
      p:initialCapacity="${thread.pool.capacity.initial}"
      p:maxCapacity="${thread.pool.capacity.max}"
      p:shutdownSecondsTimeout="${thread.pool.shutdown.timeout.seconds}"
      p:QUEUESIZE="${thread.pool.queue.size}"
      p:groupId="${thread.pool.group.id}"
      p:groupName="${thread.pool.group.name}" />
thread.pool.queue.size=100
thread.pool.capacity.initial=4
thread.pool.capacity.max=10

Service Layer

The design of this layer has the main premise of minimizing the request processing time, so all the main job is held in memory(Redis). Redis stores data in a memory database but also has the posibility of disk storage to ensure the durability of the data.

The following diagram shows the main flow for a request within this layer:

arquitecturaImg4.jpg
NOTE: star Executed asynchronously to the main process.

  1. The Worker delegates the request to the associated handler depending on the type of request (data, order, alarm, ...)
  2. The following validations are performed on each request:
    • (2a) Integrity of credential: checks the received token sent in the header using the internal database in memory containing all active credentials in the system.
    • (2b) Authorization to carry out the request: validate that the requested action can be done according to the permission database.
    • the validity of the request parameters: mainly, structure and typology.
  3. After that:
    • stores the data in Redis (in memory)
    • and depending on the type of data
      • (3a) publish the data through publish mechanism
      • (3b) or register of the subscription in the ListenerMessageContainer
  4. Redis is responsible for sending the published information to ListenerMessageContainer event, who is responsible for managing the subscription in Redis as a client for any type of event. star
  5. The container notifies the event to each subscription associated with it sending a request, via HttpCallback star

The platform registers a task that runs periodically who is responsible for credentials & permissions synchronization, stored in memory in server (A). These data is retrieved from the catalog application. This will maintain anytime an exact copy of these values ​​in memory and allows to check credentials and permissions instantly.

Finally, access to Redis is done through a connection pool fully configurable through properties file, which allows you to adjust to the specifics of each environment.

<bean id="jedisPoolConfig" class="redis.clients.jedis.JedisPoolConfig"
 p:maxActive="${jedis.config.maxactive}"  
 p:maxIdle="${jedis.config.maxidle}" p:maxWait="${jedis.config.maxwait}"  
 p:testOnBorrow="true"
   p:whenExhaustedAction="1"/>
jedis.config.maxactive=50
jedis.config.maxidle=50
jedis.config.maxwait=50

Comments

  • This design allows system scalability both vertically and horizontally:
    • vertically: increasing the boundaries of work queue & workers.
    • horizontally: distributing the load across multiple instances or server nodes.
  • It also reduce response time because the process is carried out in memory.

Catalog application

The catalog application platform is a web application built with Spring on the server side (Spring MVC, Spring Security, ..) using jQuery and bootstrap as presentation layer and MongoDB as data storage database.

This webapp consists of:

  • a public console for displaying public data of components and sensors and their data
  • a secured part for resources management: providers, client apps, sensors, components, alerts, permissions, ...

It is fully integrated with the Publish/Subscribe platform for data synchronization:

  • permission and authentication data
  • register statistical data and the latest data received for showing it in different graphs of the Web application.
Last modified by Administrator on 2016/11/18 03:17