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FIWARE.ArchitectureDescription.Cloud.PolicyManager - FIWARE Forge Wiki

FIWARE.ArchitectureDescription.Cloud.PolicyManager

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Contents


Copyright

Copyright © 2012-2015 by Telefónica I+D. All Rights Reserved.

Legal Notice

Please check the following FIWARE Open Specification Legal Notice (implicit patents license) to understand the rights to use these specifications.

Overview

This specification describes the Policy Manager GE, which is a key enabler to scalability and to manage the cloud resources based on defined policies or rules.

The Policy Manager GE provides the basic management of cloud resources based on rules, as well as management of the corresponding resources within the FIWARE Cloud Instance like actions based on physical monitoring or infrastructure, security monitoring of resources and services or whatever that could be defined by a facts, actions and rules.

The baseline for the Policy Manager GE is PyCLIPS, which is a module to interface CLIPS expert system and python language. The reason to take PyCLIPS is to extend the OpenStack ecosystem with a expert system written in the same language that the rest of the OpenStack services. Hence, Policy Manager offers the decision-making ability, independently of the type of resource (physical/virtual resources, network, service or whatever), able to solve complex problems within the Cloud field by reasoning about the knowledge base, represented by facts and rules.

The main functionality that the Policy Manager GE provides is:

  • Management of scalability rules. It is possible to manage rules whose target is not to scale and this is also included in the main functionality of component.
  • Management of different facts related to virtual machines and other facts in order to launch actions from the rules whose conditions are met.

The Policy Manager needs interaction with the user who provides the specification of the rules and actions that compound the knowledge system following a CLIPS language format. The facts are received from any producer of information that monitors the different resources of the cloud system. Context Broker GE, like publish/subscribe/notify system, interacts with the Policy Manager GE to suscribe to the information (facts) of Virtual Machines or whatever in order to get updated usage status of resources (ej. cpu, memory, or disk) or resources that we want to monitor. These facts are used by the inference engine to deduce new facts based on the rules or infer new actions to take by third parties.

Policy Manager Enabler Architecture Overview


Policy Manager architecture specification


Target Usage

The Policy Manager GE is an expert system that provides independent server in the OpenStack ecosystem which evaluates the current state of the knowledge-base, applied the pertinent rules and infers new knowledge into the knowledge-base. Currently, the actions are designed to scale up and down Virtual Machines according to facts received from them (memory, cpu, disk or whatever). There are more kind of usage for these rules and is the user who defines conditions and actions he wants for. It is the user when specify the rule and actions who specify which is the use that we want to give to this GE.

Basic concepts

Following the above FMC diagram of the Policy Manager, in this section we introduce the main concepts related to this GE through the definition of their interfaces and components and finally an example of their use. The Policy Manager manages a set of rules which throws actions when certain conditions are activated when some facts are received. These rules can be associated with a specific virtual machine or be a general rule that affects the entire system. The key concepts, components and interfaces associated to the Policy Manager GE and visible to the cloud user, are described in the following subsections.

Entities

The main entities managed by the Policy Manager are as follows:

  • Rules. They represent the policy that will be used to infer new facts or actions based on the facts received from the Context Broker GE. Usually, rules are some type of statement of the form: if <x> then <y>. The if part is the rule premise or antecedent, and the then part is the consequent. The rule fires when the if part is determined to be true or false. They are compound of 2 types of rules:
    • General Rules. They represent a global policy to be considered regardless specific virtual machines. Each rule is compound of a name to identify it and the condition and action which is fired. GeneralRules entities are represented as RuleModel.
    • Specific Rules. They represent a policy associated to a specific virtual machine. SpecificRules entities are represented as SpecificRuleModel.
  • Information. It represent the information about the Policy Manager API and tenant information. Tenant information contains the window size, a modificable value for manage the minimal number of measures to consider a real fact for Rules Engine.
  • Facts. They represent the measurement of the cloud resources and will be used to infer new facts or actions. an average of measures from a virtual machine trough the Context Broker GE. The are the base of the reasoning process.
  • Actions, They are the output of the knowledge system related to a sense input and the are the implementation of the response rule or consequent.

Interfaces

The Policy Manager GE is currently composed of two main interfaces:

  • The Policy Manager interface (PMI) is the exposed REST interface that implements all features of the Policy Manager exposed to the users. The PMI allows to define new rules an actions together with the activation of a specific rule asociated to a resource. Besides, this interface allow to get the information about this GE (url documentation, windows size, owner and time of the last server start). Besides, the PMI implements the NGSI-10 interface in order to receive the facts provided by Context Broker (notification of the context data) related to a virtual server.
  • Context Broker Manager Interface (NGSI) is invoked in order to subscribe the Policy Manager to a specific monitoring resource. See Orion Context Broker Open RESTful Api Specification for more details.

Components

The Policy Manager includes a data repository which keeps the rules stored and information about the server, tenants.

  • API-Agent (PMI) is responsible of offering a RESTful interface to the Policy Manager GE users. It triggers the appropriate manager to handle the request.
    • InfoManager, is responsible for the management of general information about the server running and specific tenant information like the window size.
    • RuleManager, is responsible for the management of all related with general rules and rules for specified virtual machines.
  • Rules Engine. Is responsible for handling when a condition is satisfied based on the facts received and launch the associated actions.
    • RuleEngineManager, provides management for access the rule engine based on CLIPS, adding the new facts to the Rule Engine and check rule conditions.
    • DbManager, provides connection to the Data Base.
  • Fact-Gen, provides the mechanisms to insert facts into the rule Engine from context data received.
    • FactGenManager, is responsible for the management of all related with data context build facts from this data.
  • Condition & Actions Queue, which contains all the rules and actions that can be managed by Policy Manager, including the window size for each tenant.
  • Facts Queue, which represents the actual instantiation of resources for a specific resource. For each element in the inventory (called *-Instance), there is an equivalent in the catalogue. This queue is implemented with a list on a data structure server in order to obtain a rapid response of the system.

Example Scenario

The Policy Manager GE is involved in three different phases:

  • Management of the rules provided by users.
  • Populate rule engine with facts collected from the data context.
  • Management of rules status at runtime.

Rules Management

The management of rules involves several operations to prepare the scalability system working. First of all, the rules have to be defined. The definition of a rule includes the specification of the actions to be launched, the conditions that must be inferred and a descriptive name so user can easily recognize the rule. This rule can also be specified for a single virtual machine.

Secondly, to get facts, it must subscribe the virtual machine to Context Broker GE in order to receive notifications of the resources status. Context Broker GE updates the context of each virtual machined to which we are subscribed and the Policy Manager stores this information in a Queue system in order to get a stable monitored value without temporal oscillation of the signal.

Finally, the rules can be deleted or redefined. When a rule is deleted, Policy Manager unsubscribe the virtual machine from Context Broker if rule is a Specific Rule.

Collecting data

The Context Broker has subscribed a number of virtual machines. Each virtual machine publishes the status of its resources in the Context Broker GE and Policy Manager receives this notifications. After that, Policy Manager is in charge of build facts and insert them into de Rule Engine. When we receive a number of Facts equal to the window size, the Policy Manager calculates the arithmetic mean of the data and insert its value into the Rule Engine. Finally, Policy Manager discards the oldest value in the queue.

Runtime Management

During the runtime of an application, the Policy Manager can detect if a rule condition is inferred and is in charge of launch actions associated with, this action will be communicated to the users that was subscribed to this specific rule.

Main Interactions

The following pictures depicts some interactions between the Policy Manager, the Cloud Portal as main user in a typical scenario. For more details about the Open REST API of this GE, please refer to the Open Spec API specification.

First of all, every interaction need Authentication sequence before starting. Authentication sequence follows like this:

Authentication sequence
  1. The Policy Manager requests a new administration Token from IdM in order to validate the future token received from the Cloud Portal through generate_adminToken() interface.
  2. The IdM returns a valid administration token that will be used to check the Token received from the Cloud Portal requested message through the checkToken(Token) interface.
  3. The IdM could return 2 options:
    1. If the Token is valid, the IdM returns the information related to this token.
    2. If the Token is invalid, the IdM returns the message of unauthorized token.



The next interactions gets information about the Policy Manager server:

Get Information sequence
  1. The User through Cloud Portal or CLI sends a GET operation to request information about the Policy Manager through getInformation().
  2. The InfoManager returns the information related to the Policy Manager GE associated to this tenant.
    1. Owner of the GEi.
    2. Time and date of the last wake up of the Policy Manager GE.
    3. URL of the open specification specification.
    4. Window size of the facts stabilization queue.



Following, you can see request to update the window size.

Update Window Size sequence
  1. The User through Cloud Portal or CLI sends a PUT message to the Policy Manager GE to update the window size of the tenantId through the updateWindowSize() message.
  2. The Policy Manager returns a message with the information associated to this tenantId in order to confirm that the change was made.



Next, you can see the interactions to create general or specific rule sequence

Create general or specific rule sequence
  1. The User through Cloud Portal or CLI requests a POST operation to create a new general/specific rule to the Policy Manager.
    1. In case of general one, the create_general_rule() interface is used, with params tenantId, the OpenStack identification of the tenant, and the rule description.
    2. In case of specific one, the create_specific_rule() interface is used, with params tenantId, the OpenStack identification of the tenant, the serverId, the OpenStack identification of the server, and the rule description.
  2. The Rule Manager returns the new ruleModel associated to the new requested rule and the Policy Manager returns the respense to the user.
    1. If something was wrong, due to incorrect representation of the rule, a HttpResponseServerError is returned in order to inform to the user that something was wrong.



Afterward, you could see the interactions to get information about already created general rules:

Get all general rules sequence
  1. The User through Cloud Portal or CLI requests a GET operation to the Policy Manager in order to receive all the general rules associated to a tenant through get_all_rules() interface with parameter tenantId
  2. The Rule Manager component of the Policy Manager responses with the list of general rules.
  3. If the tenant identify is wrong or whatever the Rule Manager responses a HttpResponseServerError.



Following, the interactions to get detailed information about getting general or specific rule sequence.

Get general or specific rule sequence
  1. The User through Cloud Portal or CLI requests a GET operation to recover the rules.
    1. If we decide to recover a general rule, the get_rule() interface should be used with ruleId parameter
    2. Otherwise, if you decir to recover a specific rule, the get_specific_rule() interface should be used with the ruleId parameter.
  2. The Rule Manager of the Policy Manager will return the ruleModel that it is stored in the Rule & Action Queue. If something was wrong, Policy Manager will return HttpResponseServerError to the user.



Next off, the interactions to delete general or specific rule.

Delete a general or specific rule sequence
  1. The User through Cloud Portal or CLI requests the deletion of a general or specific rule to the Policy Manager with the identity of the tenant and rule.
    1. The view sends the request to the RuleManager by calling the delete_rule() interface with identity of the rule as parameter of this interface to delete it.
    2. Otherwise, if the rule is specific for a server, the views sends the request to the RuleManager by calling the delete_specific_rule() interface, with identity of the rule as parameter of this interface to delete it.
  2. If the operation was ok, the RuleManager responses a HttpResponse with the ok message, by contrast, if something was wrong, it returns a HttpResponseServerError with the details of the problem.


Finally, the interactions to update a specific or general rule

Update a general or specific rule sequence
  1. The User through Cloud Portal or CLI requests the update of a general or specific rule to the Policy Manager with the identity of the tenant and rule.
    1. The view sends the request to the RuleManager by calling the update_general_rule() interface with identity of the tenant and rule as parameters of this interface to delete it.
    2. Otherwise, if the rule is specific for a server, the views sends the request to the RuleManager by calling the update_specific_rule() interface, with identity of the tenant and rule as parameters of this interface to delete it.
  2. If the operation was ok, the RuleManager responses with a new ruleModel class created and the API returns a HttpResponse with the ok message, by contrast, if something was wrong, it returns a HttpResponseServerError with the details of the problem.

Basic Design Principles

Design Principles

The Policy Manager GE has to support the following technical requirements:

  • The condition to fire the rule could be formulated on several facts.
  • The condition to fire the rule could be formulated on several interrelated facts (the values ​​of certain variables in those facts match).
  • User could add facts "in runtime" via API (without stop server).
  • User could add rules "in runtime" via API (without stop server).
  • That part of the implementation of the rule would:
    • Update facts.
    • Delete facts.
    • Create new facts.
  • Actions can use variables used in the condition.
  • Actions implementation can invoke REST APIs.
  • Actions can send an email.
  • The Policy Manager should be integrated into the OpenStack without any problem.
  • The Policy Manager should interact with the IdM GE in order to offer authentication functionality to this GE.
  • The Policy Manager should interact with the Context Broker GE in order to receive monitoring information from resources.

Resolution of Technical Issues

When applied to Policy Manager GE, the general design principles outlined at Cloud Hosting Architecture can be translated into the following key design goals:

  • Rapid Elasticity, capabilities can be quickly elastically provisioned and released, in some cases automatically, to scale rapidly outward and inward commensurate with demand. To the consumer, the capabilities available for provisioning often appear to be unlimited and can be appropriated in any quantity at any time.
  • Availability, Policy Manager should be running all the time without interruption of the service due to the nature of itself.
  • Reliability, Policy Manager should assure that the activations of rule was produce by correct inference based on facts received from a Context Broker GE.
  • Safety, is the Policy Manager has any problem, it should continue working without any catastrophic consequences on the user(s) and the environment.
  • Integrity, Policy Manager does not allow the alteration of the facts queue and/or rules and actions queue.
  • Confidentiality, Policy Manager does not allow the access to facts, rules and actions associated to a specitic tenant.

Regarding the general design principles not covered at Cloud Hosting Architecture, they can be translated into the following key design goals:

  • REST based interfaces, for rules and facts.
  • The Policy Manager GE keeps stored all rules provisioned for each user.
  • The Policy Manager GE manage all facts and checks when actions should be fired.
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