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HAFLoop

(Highly Adaptive Feedback control Loop)

Description:

HAFLoop is a framework for developing adaptive MAPE-K feedback loops for self-adaptive systems. It makes it easy to create full or partially adaptive loops for Java-based applications, accelerating the implementation process. HAFLoop framework provides a series of components that implement the generic functionalities of an adaptive loop and an esqueleton that guides the implementation of the application-dependent components.

The primary goals of HAFLoop are:

  • Enable adaptation capabilities to MAPE-K loops
  • Support the efficient adaptation of loop elements
  • Reduce code repetition through components reusability
  • Accelerate and distribute the implementation of adaptative loops for SASs
  • Support adaptive loops with various (de)centralization levels

Main components of HAFLoop framework:

HAFLoop framework The HAFLoop framework provides the following generic modules:

  • Adaptive autonomic manager (i.e., adaptive feedback loop)
  • Adaptive MAPE-K element (Monitor, Analyze, Plan, Execute, Knowledge base)
  • Adaptive MAPE-K element component (Receiver, Logic selector, Sender, Message processor, Knowledge manager, Functional and Adaptation Logic)
  • Adaptive MAPE-K element component's message and policy managers For each element component a different implementation of a message manager is provided. An asynchronous communication module based on messages is also provided. Moreover, the mechanisms required for independently and efficiently manage loop's operation and adaptation processes is also provided. Each module consists of an Interface, and Abstract class and (in some cases) an implementation. Therefore, the framework can be use as it is, or be modified and extended by other proposals.

System requirements:

  • Java 1.8 or greater
  • Gradle 4.5 or greater

Getting started:

  1. Clone this repository
  2. Add the HAFLoop framework to your project
  3. Implement the Functional Logic Enactor Manager interface for each elements' functional logic and the corresponding specific logic(s):
    • setConfiguration. This method should implement the (re)assigment of the configuration variables used for performing the elements' main functionality, i.e., their main logics. For instance, in the case of the Monitor, an example of configuration variable could be the monitoring frequency. The setConfiguration method is automatically called at runtime when an element adaptation is requested.
    • setComponent. The implementation of this method should set the element component to which this subcomponent belongs to. It is called by parent components during the setup of the element and is useful at runtime for structural adaptation (the getComponent method would tell the manager to which component it belongs at any time).
    • processLogicData. This is the main method of this component and it should implement a dispatcher service that selects at runtime to which logic a specific message should be sent to be processed.
  4. Implement the elements Message Sender interface:
    • processMessage (inherited from Message Manager). This method should implement the logic required for sending a message from an element to another or to external systems, using the required interfaces, protocols, etc.
  5. Implement the Sensors and Effectors (method effect) when convinient, i.e, in case they are not already provided by the target system.
  6. Define the message managing and logic policies for the elements. In this implementation, the communication mechanisms will need the definition of the following variables.
    • MSSGINFL. A numeric code that identify input messages that should go the Functional logic
    • MSSGINAL. A numeric code that identify input messages that should go the Adaptation logic
    • MSSGADAPT. A numeric code that identify internal messages (sent from the Knowledge manager to the rest of component) that represent an adaptation
    • MSSGOUTFL. A numeric code that identify output messages sent by the Functional logic
    • MSSGOUTAL. A numeric code that identify output messages sent by the Adaptation logic
  7. Instantiate a new element (Monitor, Analyze, Plan, Execute, Knowledge base) or implement a new one. Assign to each element its corresponding communication Policy, Functional Logic Enactor Manager and Message Sender.
  8. Construct the element for starting its operation and send the initial logic Policy (it will be processed as any future adaptation)
  9. In case of required, implement the Autonomic Manager interface of use the Simple Autonomic Manager implementation provided by the framework. Implement the construct method and define further policies (at loop level) if required. For instance, our Simple Autonomic Manager uses a set of policies for indicating elements' Message sender to which element they should send the messages depending of its content type.

All the logic required for receiving, classifying and pre/post-processing messages is hidden by the framework, allowing self-adaptive systems' owners to focus on the logic specific to its application and the impact that adaptations have on it. This version of the HAFLoop framework has tried to optimize computational resources and reduce response time, techniques such as multi-threading, asychronous communications, reactive programming among others, have been used for this purpose. As new techniques appear, the framework can be evolved to fulfill the future applications' requirements.

Examples of usage:


This implementation of HAFLoop is part of a research project and is licensed under the Apache License, Version 2.0

Main contact: Edith Zavala ([email protected])

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