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+.. This work is licensed under a Creative Commons Attribution 4.0 International License.
+.. http://creativecommons.org/licenses/by/4.0
+
+
+A short Introduction to APEX
+*****************************
+
+.. contents::
+ :depth: 3
+
+Introduction to APEX
+^^^^^^^^^^^^^^^^^^^^
+
+ .. container:: sectionbody
+
+ .. container:: paragraph
+
+ APEX stand for Adaptive Policy EXecution. It is a
+ lightweight engine for execution of policies. APEX allows
+ you to specify logic as a policy, logic that you can adapt
+ on the fly as your system executes. The APEX policies you
+ design can be really simple, with a single snippet of logic,
+ or can be very complex, with many states and tasks. APEX
+ policies can even be designed to self-adapt at execution
+ time, the choice is yours!
+
+ .. container:: imageblock
+
+ .. container:: content
+
+ |Simple APEX Overview|
+
+ .. container:: title
+
+ Figure 1. Simple APEX Overview
+
+ .. container:: paragraph
+
+ The Adaptive Policy Engine in APEX runs your policies. These
+ policies are triggered by incoming events. The logic of the
+ policies executes and produces a response event. The
+ *Incoming Context* on the incoming event and the *Outgoing
+ Context* on the outgoing event are simply the fields and
+ attributes of the event. You design the policies that APEX
+ executes and the trigger and action events that your
+ policies accept and produce. Events are fed in and sent out
+ as JSON or XML events over Kafka, a Websocket, a file or
+ named pipe, or even standard input. If you run APEX as a
+ library in your application, you can even feed and receive
+ events over a Java API.
+
+ .. container:: imageblock
+
+ .. container:: content
+
+ |APEX States and Context|
+
+ .. container:: title
+
+ Figure 2. APEX States and Context
+
+ .. container:: paragraph
+
+ You design your policy as a chain of states, with each state
+ being fed by the state before. The simplest policy can have
+ just one state. We provide specific support for the
+ four-state `MEDA (Match Establish Decide
+ Act) <https://www.researchgate.net/publication/303564082_Apex_An_Engine_for_Dynamic_Adaptive_Policy_Execution>`__
+ policy state model and the three-state `ECA (Event Condition
+ Action) <https://en.wikipedia.org/wiki/Event_condition_action>`__
+ policy state model. APEX is fully distributed. You can
+ decide how many APEX engine instances to run for your
+ application and on which real or virtual hosts to run them.
+
+ .. container:: paragraph
+
+ In APEX, you also have control of the *Context* used by your
+ policies. Context is simply the state information and data
+ used by your policies. You define what context your policies
+ use and what the scope of that context is. *Policy Context*
+ is private to a particular policy and is accessible only to
+ whatever APEX engines are running that particular policy.
+ *Global Context* is available to all policies. *External
+ Context* is read-only context such as weather or topology
+ information that is provided by other systems. APEX keeps
+ context coordinated across all the the instances running a
+ particular policy. If a policy running in an APEX engine
+ changes the value of a piece of context, that value is is
+ available to all other APEX engines that use that piece of
+ context. APEX takes care of distribution, locking, writing
+ of context to persistent storage, and monitoring of context.
+
+ .. container:: imageblock
+
+ .. container:: content
+
+ |The APEX Eco-System|
+
+ .. container:: title
+
+ Figure 3. The APEX Eco-System
+
+ .. container:: paragraph
+
+ The APEX engine (AP-EN) is available as a Java library for
+ inclusion in your application, as a microservice running in
+ a Docker container, or as a stand-alone service available
+ for integration into your system. APEX also includes a
+ policy editor (AP-AUTH) that allows you to design your
+ policies and a web-based policy management console you use
+ to deploy policies and to keep track of the state of
+ policies and context in policies. Context handling (AP-CTX)
+ is integrated into the APEX engine and policy deployment
+ (AP-DEP) is provided as a servlet running under a web
+ framework such as `Apache
+ Tomcat <http://tomcat.apache.org/>`__.
+
+APEX Configuration
+^^^^^^^^^^^^^^^^^^
+
+ .. container:: sectionbody
+
+ .. container:: paragraph
+
+ An APEX engine can be configured to use various combinations
+ of event input handlers, event output handlers, event
+ protocols, context handlers, and logic executors. The system
+ is build using a plugin architecture. Each configuration
+ option is realized by a plugin, which can be loaded and
+ configured when the engine is started. New plugins can be
+ added to the system at any time, though to benefit from a
+ new plugin an engine will need to be restarted.
+
+ .. container:: imageblock
+
+ .. container:: content
+
+ |APEX Configuration Matrix|
+
+ .. container:: title
+
+ Figure 4. APEX Configuration Matrix
+
+ .. container:: paragraph
+
+ The APEX distribution already comes with a number of
+ plugins. The figure above shows the provided plugins. Any
+ combination of input, output, event protocol, context
+ handlers, and executors is possible.
+
+APEX Policy Matrix
+^^^^^^^^^^^^^^^^^^
+
+ .. container:: sectionbody
+
+ .. container:: paragraph
+
+ APEX offers a lot of flexibility for defining, deploying,
+ and executing policies. Based on a theoretic model, it
+ supports virtually any policy model and allows to translate
+ legacy policies into the APEX execution format. However, the
+ most important aspect for using APEX is to decide what
+ policy is needed, what underlying policy concepts should be
+ used, and how the decision logic should be realized. Once
+ these aspects are decided, APEX can be used to execute the
+ policies. If the policy evolves, say from a simple decision
+ table to a fully adaptable policy, only the policy
+ definition requires change. APEX supports all of that.
+
+ .. container:: paragraph
+
+ The figure below shows a (non-exhaustive) matrix, which will
+ help to decide what policy is required to solve your
+ problem. Read the matrix from left to right choosing one
+ cell in each column.
+
+ .. container:: imageblock
+
+ .. container:: content
+
+ |APEX Policy Matrix|
+
+ .. container:: title
+
+ Figure 5. APEX Policy Matrix
+
+ .. container:: paragraph
+
+ The policy can support one of a number of stimuli with an
+ associated purpose/model of the policy, for instance:
+
+ .. container:: ulist
+
+ - Configuration, i.e. what should happen. An example is an
+ event that states an intended network configuration and
+ the policy should provide the detailed actions for it.
+ The policy can be realized for instance as an obligation
+ policy, a promise or an intent.
+
+ - Report, i.e. something did happen. An example is an event
+ about an error or fault and the policy needs to repair
+ that problem. The policy would usually be an obligation,
+ utility function, or goal policy.
+
+ - Monitoring, i.e. something does happen. An example is a
+ notification about certain network conditions, to which
+ the policy might (or might not) react. The policy will
+ mitigate the monitored events or permit (deny) related
+ actions as an obligation or authorization.
+
+ - Analysis, i.e. why did something happen. An example is an
+ analytic component sends insights of a situation
+ requiring a policy to act on it. The policy can solve the
+ problem, escalate it, or delegate it as a refrain or
+ delegation policy.
+
+ - Prediction, i.e. what will happen next. An example are
+ events that a policy uses to predict a future network
+ condition. The policy can prevent or enforce the
+ prediction as an adaptive policy, a utility function, or
+ a goal.
+
+ - Feedback, i.e. why did something happen or not happen.
+ Similar to analysis, but here the feedback will be in the
+ input event and the policy needs to something with that
+ information. Feedback can be related to history or
+ experience, for instance a previous policy execution. The
+ policy needs to be context-aware or be a meta-policy.
+
+ .. container:: paragraph
+
+ Once the purpose of the policy is decided, the next step is
+ to look into what context information the policy will
+ require to do its job. This can range from very simple to a
+ lot of different information, for instance:
+
+ .. container:: ulist
+
+ - No context, nothing but a trigger event, e.g. a string or
+ a number, is required
+
+ - Event context, the incoming event provides all
+ information (more than a string or number) for the policy
+
+ - Policy context (read only), the policy has access to
+ additional information related to its class but cannot
+ change/alter them
+
+ - Policy context (read and write), the policy has access to
+ additional information related to its class and can alter
+ this information (for instance to record historic
+ information)
+
+ - Global context (read only), the policy has access to
+ additional information of any kind but cannot
+ change/alter them
+
+ - Global context (read and write), the policy the policy
+ has access to additional information of any kind and can
+ alter this information (for instance to record historic
+ information)
+
+ .. container:: paragraph
+
+ The next step is to decide how the policy should do its job,
+ i.e. what flavor it has, how many states are needed, and how
+ many tasks. There are many possible combinations, for
+ instance:
+
+ .. container:: ulist
+
+ - Simple / God: a simple policy with 1 state and 1 task,
+ which is doing everything for the decision-making. This
+ is the ideal policy for simple situation, e.g. deciding
+ on configuration parameters or simple access control.
+
+ - Simple sequence: a simple policy with a number of states
+ each having a single task. This is a very good policy for
+ simple decision-making with different steps. For
+ instance, a classic action policy (ECA) would have 3
+ states (E, C, and A) with some logic (1 task) in each
+ state.
+
+ - Simple selective: a policy with 1 state but more than one
+ task. Here, the appropriate task (and it’s logic) will be
+ selected at execution time. This policy is very good for
+ dealing with similar (or the same) situation in different
+ contexts. For instance, the tasks can be related to
+ available external software, or to current work load on
+ the compute node, or to time of day.
+
+ - Selective: any number of states having any number of
+ tasks (usually more than 1 task). This is a combination
+ of the two policies above, for instance an ECA policy
+ with more than one task in E, C, and A.
+
+ - Classic directed: a policy with more than one state, each
+ having one task, but a non-sequential execution. This
+ means that the sequence of the states is not pre-defined
+ in the policy (as would be for all cases above) but
+ calculated at runtime. This can be good to realize
+ decision trees based on contextual information.
+
+ - Super Adaptive: using the full potential of the APEX
+ policy model, states and tasks and state execution are
+ fully flexible and calculated at runtime (per policy
+ execution). This policy is very close to a general
+ programming system (with only a few limitations), but can
+ solve very hard problems.
+
+ .. container:: paragraph
+
+ The final step is to select a response that the policy
+ creates. Possible responses have been discussed in the
+ literature for a very long time. A few examples are:
+
+ .. container:: ulist
+
+ - Obligation (deontic for what should happen)
+
+ - Authorization (e.g. for rule-based or other access
+ control or security systems)
+
+ - Intent (instead of providing detailed actions the
+ response is an intent statement and a further system
+ processes that)
+
+ - Delegation (hand the problem over to someone else,
+ possibly with some information or instructions)
+
+ - Fail / Error (the policy has encountered a problem, and
+ reports it)
+
+ - Feedback (why did the policy make a certain decision)
+
+Flexible Deployment
+^^^^^^^^^^^^^^^^^^^
+
+ .. container:: sectionbody
+
+ .. container:: paragraph
+
+ APEX can be deployed in various ways. The following figure
+ shows a few of these deployment options. Engine and (policy)
+ executors are named UPe (universal policy engine, APEX
+ engine) and UPx (universal policy executor, the APEX
+ internal state machine executor).
+
+ .. container:: imageblock
+
+ .. container:: content
+
+ |APEX Deployment Options|
+
+ .. container:: title
+
+ Figure 6. APEX Deployment Options
+
+ .. container:: olist loweralpha
+
+ a. For an interface or class
+
+ .. container:: ulist
+
+ - Either UPx or UPe as association
+
+ b. For an application
+
+ .. container:: ulist
+
+ - UPx as object for single policies
+
+ - UPe as object for multiple policies
+
+ c. For a component (as service)
+
+ .. container:: ulist
+
+ - UPe as service for requests
+
+ - UPec as service for requests
+
+ d. As a service (PolaS)
+
+ .. container:: ulist
+
+ - One or more UPe with service i/f
+
+ - One or more Upec/UPec with service i/f
+
+ - One or more Upec/UPec with service i/f
+
+ e. In a control loop
+
+ .. container:: ulist
+
+ - UPe as decision making part
+
+ - UPec as decision making part
+
+ f. On cloud compute nodes
+
+ .. container:: ulist
+
+ - Nodes with only UPe or Upec
+
+ - Nodes with any combination of UPe, UPec
+
+ g. A cloud example
+
+ .. container:: ulist
+
+ - Left: 2 UPec managing several UPe on different
+ cloud nodes
+
+ - Right: 2 large UPec with different UPe/UPec
+ deployments
+
+Flexible Clustering
+^^^^^^^^^^^^^^^^^^^
+
+ .. container:: sectionbody
+
+ .. container:: paragraph
+
+ APEX can be clustered in various ways. The following figure
+ shows a few of these clustering options. Cluster, engine and
+ (policy) executors are named UPec (universal policy
+ cluster), UPe (universal policy engine, APEX engine) and UPx
+ (universal policy executor, the APEX internal state machine
+ executor).
+
+ .. container:: imageblock
+
+ .. container:: content
+
+ |APEX Clustering Options|
+
+ .. container:: title
+
+ Figure 7. APEX Clustering Options
+
+ .. container:: olist loweralpha
+
+ a. Single source/target, single UPx
+
+ .. container:: ulist
+
+ - Simple forward
+
+ b. Multiple sources/targets, single UPx
+
+ .. container:: ulist
+
+ - Simple forward
+
+ c. Single source/target, multiple UPx
+
+ .. container:: ulist
+
+ - Multithreading (MT) in UPe
+
+ d. Multiple sources/targets, multiple UPx instances
+
+ .. container:: ulist
+
+ - Simple forward & MT in UPe
+
+ e. Multiple non-MT UPe in UPec
+
+ .. container:: ulist
+
+ - Simple event routing
+
+ f. Multiple MT UPe in UPec
+
+ .. container:: ulist
+
+ - Simple event routing
+
+ g. Mixed UPe in UPec
+
+ .. container:: ulist
+
+ - Simple event routing
+
+ h. Multiple non-MT UPec in UPec
+
+ .. container:: ulist
+
+ - Intelligent event routing
+
+ i. Multiple mixed UPec in UPec
+
+ .. container:: ulist
+
+ - Intelligent event routing
+
+ .. container:: olist loweralpha
+
+ k. Mix of UPec in multiple UPec
+
+ .. container:: ulist
+
+ - External intelligent event routing
+
+ - Optimized with UPec internal routing
+
+Resources
+^^^^^^^^^
+
+ .. container:: sectionbody
+
+ .. container:: ulist
+
+ - APEX Documentation hosted on Github:
+ https://ericsson.github.io/apex-docs
+
+ - APEX source code repository hosted by ONAP:
+ https://gerrit.onap.org/r/#/admin/projects/policy/apex-pdp
+
+ - Issue Management (source and documentation, ONAP JIRA,
+ requires a Linux Foundation ID):
+ https://jira.onap.org/projects/POLICY/issues
+
+ - List of APEX publications:
+ https://ericsson.github.io/apex-docs/apex-publications.html
+
+.. container::
+ :name: footer
+
+ .. container::
+ :name: footer-text
+
+ 2.0.0-SNAPSHOT
+ Last updated 2018-09-04 16:04:24 IST
+
+.. |Simple APEX Overview| image:: images/apex-intro/ApexSimple.png
+.. |APEX States and Context| image:: images/apex-intro/ApexStatesAndContext.png
+.. |The APEX Eco-System| image:: images/apex-intro/ApexEcosystem.png
+.. |APEX Configuration Matrix| image:: images/apex-intro/ApexEngineConfig.png
+.. |APEX Policy Matrix| image:: images/apex-intro/ApexPolicyMatrix.png
+.. |APEX Deployment Options| image:: images/apex-intro/UpeeDeploymentOptions.png
+.. |APEX Clustering Options| image:: images/apex-intro/UpeeClusterOptions.png
+