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|
.. This work is licensed under a Creative Commons Attribution 4.0 International License.
.. http://creativecommons.org/licenses/by/4.0
#################
APEX Policy Guide
#################
.. contents::
:depth: 5
******************
APEX Policy Matrix
******************
.. 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 supports translation of 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 1. 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)
*****************
APEX Policy Model
*****************
.. container:: paragraph
The APEX policy model is shown in UML notation in the figure below. A policy model can be stored in JSON or XML
format in a file or can be held in a database. The APEX editor creates and modifies APEX policy models. APEX
deployment deploys policy models, and a policy model is loaded into APEX engines so that the engines can run the
policies in the policy model.
.. container:: paragraph
The figure shows four different views of the policy model:
.. container:: ulist
- The general model view shows the main parts of a policy: state, state output, event, and task. A task can also
have parameters. Data types can be defined on a per-model basis using either standard atomic types (such as
character, string, numbers) or complex types from a policy domain.
- The logic model view emphasizes how decision-making logic is injected into a policy. There are essentially
three different types of logic: task logic (for decision making in a task), task selection logic (to select a task
if more than one is defined in a state), and state finalizer logic (to compute the final output event of a state
and select an appropriate next state from the policy model).
- The context model view shows how context is injected into a policy. States collect all context from their
tasks. A task can define what context it requires for the decision making, i.e. what context the task logic will
process. Context itself is a collection of items (individual context information) with data types. Context can be
templated.
- The event and field model view shows the events in the policy model. Tasks define what information they
consume (input) and produce (output). This information is modeled as fields, essentially a key/type tuple in the
model and a key/type/value triple at execution. Events then are collection of fields.
.. container:: imageblock
.. container:: content
|APEX Policy Model for Execution|
.. container:: title
Figure 2. APEX Policy Model for Execution
Concepts and Keys
=================
.. container:: paragraph
Each element of the policy model is called a *concept*. Each *concept* is a subclass of the abstract *Concept*
class, as shown in the next figure. Every concept implements the following abstract methods:
.. container:: imageblock
.. container:: content
|Concepts and Keys|
.. container:: title
Figure 3. Concepts and Keys
.. container:: ulist
- ``getKey()`` - gets the unique key for this concept instance in the system
- ``validate()`` - validates the structure of this concept, its sub-concepts and its relationships
- ``clean()`` - carries out housekeeping on the concept such as trimming strings, remove any hanging references
- ``clone()`` - creates a deep copy of an instance of this concept
- ``equals()`` - checks if two instances of this concept are equal
- ``toString()`` - returns a string representation of the concept
- ``hashCode()`` - returns a hash code for the concept
- ``copyTo()`` - carries out a deep copy of one instance of the concept to another instance, overwriting the
target fields.
.. container:: paragraph
All concepts must have a *key*, which uniquely identifies a concept instance. The *key* of a subclass of an *Concept*
must either be an ``ArtifactKey`` or an ``ReferenceKey``. Concepts that have a stand-alone independent existence such
as *Policy*, *Task*, and *Event* must have an ``ArtifctKey`` key. Concepts that are contained in other concepts, that
do not exist as stand-alone concepts must have an ``ReferenceKey`` key. Examples of such concepts are *State* and
*EventParameter*.
.. container:: paragraph
An ``ArticactKey`` has two fields; the *Name* of the concept it is the key for and the concept’s *Version*. A
concept’s name must be unique in a given PolicyModel. A concept version is represented using the well known
*major.minor.path* scheme as used in semantic versioning.
.. container:: paragraph
A ``ReferenceKey`` has three fields. The *UserKeyName* and *UserKeyVersion* fields identify the ``ArtifactKey`` of
the concept in which the concept keyed by the ``ReferenceKey`` is contained. The *LocalName* field identifies the
contained concept instance. The *LocalName* must be unique in the concepts of a given type contained by a parent.
.. container:: paragraph
For example, a policy called ``SalesPolicy`` with a Version of ``1.12.4`` has a state called ``Decide``. The
``Decide`` state is linked to the ``SalesPolicy`` with a ``ReferenceKey`` with fields *UserKeyName* of
``SalesPolicy``, *UserKeyVersion* of ``1.12.4``, and *LocalName* of ``Decide``. There must not be another state
called ``Decide`` in the policy ``SalesPolicy``. However, there may well be a state called ``Decide`` in some other
policy called ``PurchasingPolicy``.
.. container:: paragraph
Each concept in the model is also a JPA
(`Java Persistence API <https://en.wikipedia.org/wiki/Java_Persistence_API>`__) Entity. This means that every concept
can be individually persisted or the entire model can be persisted en-bloc to any persistence mechanism using an JPA
framework such as `Hibernate <http://hibernate.org/>`__ or `EclipseLink <http://www.eclipse.org/eclipselink/>`__.
Concept: PolicyModel
====================
.. container:: paragraph
The *PolicyModel* concept is a container that holds the definition of a set of policies and their associated events,
context maps, and tasks. A *PolicyModel* is implemented as four maps for policies, events, context maps, and tasks.
Each map is indexed by the key of the policy, event, context map, or task. Any non-empty policy model must have at
least one entry in its policy, event, and task map because all policies must have at least one input and output event
and must execute at least one task.
.. container:: paragraph
A *PolicyModel* concept is keyed with an ``ArtifactKey key``. Because a *PolicyModel* is an ``AxConcept``, calling
the ``validate()`` method on a policy model validates the concepts, structure, and relationships of the entire policy
model.
Concept: DataType
=================
.. container:: paragraph
Data types are tightly controlled in APEX in order to provide a very high degree of consistency in policies and to
facilitate tracking of changes to context as policies execute. All context is modeled as a *DataType* concept. Each
DataType concept instance is keyed with an ``ArtifactKey`` key. The DataType field identifies the Java class of
objects that is used to represent concept instances that use this data type. All context has a *DataType*; incoming
and outgoing context is represented by *EventField* concepts and all other context is represented by *ContextItem*
concepts.
Concept: Event
==============
.. container:: paragraph
An *Event* defines the structure of a message that passes into or out of an APEX engine or that passes between two
states in an APEX engine. APEX supports message reception and sending in many formats and all messages are translated
into an *Event* prior to processing by an APEX engine. Event concepts are keyed with an ``ArtifactKey`` key. The
parameters of an event are held as a map of *EventField* concept instances with each parameter indexed by the
*LocalName* of its ``ReferenceKey``. An *Event* has three fields:
.. container:: ulist
- The *NameSpace* identifies the domain of application of the event
- The *Source* of the event identifies the system that emitted the event
- The *Target* of the event identifies the system that the event was sent to
.. container:: paragraph
A *PolicyModel* contains a map of all the events known to a given policy model. Although an empty model may have no
events in its event map, any sane policy model must have at least one *Event* defined.
Concept: EventField
===================
.. container:: paragraph
The incoming context and outgoing context of an event are the fields of the event. Each field representing a single
piece of incoming or outgoing context. Each field of an *Event* is represented by an instance of the *EventField*
concept. Each *EventField* concept instance in an event is keyed with a ``ReferenceKey`` key, which references the
event. The *LocalName* field of the ``ReferenceKey`` holds the name of the field A reference to a *DataType* concept
defines the data type that values of this parameter have at run time.
Concept: ContextMap
===================
.. container:: paragraph
The set of context that is available for use by the policies of a *PolicyModel* is defined as *ContextMap* concept
instances. The *PolicyModel* holds a map of all the *ContextMap* definitions. A *ContextMap* is itself a container
for a group of related context items, each of which is represented by a *ContextItem* concept instance. *ContextMap*
concepts are keyed with an ``ArtifactKey`` key. A developer can use the APEX Policy Editor to create context maps for
their application domain.
.. container:: paragraph
A *ContextMap* uses a map to hold the context items. The ContextItem concept instances in the map are indexed by the
*LocalName* of their ``ReferenceKey``.
.. container:: paragraph
The *ContextMapType* field of a *ContextMap* defines the type of a context map. The type can have either of two
values:
.. container:: ulist
- A *BAG* context map is a context map with fixed content. Each possible context item in the context map is
defined at design time and is held in the *ContextMap* context instance as *ContextItem* concept definitions and
only the values of the context items in the context map can be changed at run time. The context items in a *BAG*
context map have mixed types and distinct *ContextItem* concept instances of the same type can be defined. A *BAG*
context map is convenient for defining a group of context items that are diverse but are related by domain, such as
the characteristics of a device. A fully defined *BAG* context map has a fully populated *ContextItem* map but its
*ContextItemTemplate* reference is not defined.
- A *SAMETYPE* context map is used to represent a group of *ContextItem* instances of the same type. Unlike a
*BAG* context map, the *ContextItem* concept instances of a *SAMETYPE* context map can be added, modified, and
deleted at runtime. All *ContextItem* concept instances in a *SAMETYPE* context map must be of the same type, and
that context item is defined as a single *ContextItemTemplate* concept instances at design time. At run time, the
*ContextItemTemplate* definition is used to create new *ContextItem* concept instances for the context map on
demand. A fully defined *SAMETYPE context map has an empty ContextItem map and its ContextItemTemplate\_*
reference is defined.
.. container:: paragraph
The *Scope* of a *ContextMap* defines the range of applicability of a context map in APEX. The following scopes of
applicability are defined:
.. container:: ulist
- *EPHEMERAL* scope means that the context map is owned, used, and modified by a single application but the
context map only exists while that application is running
- *APPLICATION* scope specifies that the context map is owned, used, and modified by a single application, the
context map is persistent
- *GLOBAL* scope specifies that the context map is globally owned and is used and modified by any application,
the context map is persistent
- *EXTERNAL* scope specifies that the context map is owned by an external system and may be used in a read-only
manner by any application, the context map is persistent
.. container:: paragraph
A much more sophisticated scoping mechanism for context maps is envisaged for Apex in future work. In such a
mechanism, the scope of a context map would work somewhat like the way roles work in security authentication systems.
Concept: ContextItem
====================
.. container:: paragraph
Each piece of context in a *ContextMap* is represented by an instance of the *ContextItem* concept. Each
*ContextItem* concept instance in a context map keyed with a ``ReferenceKey`` key, which references the context map
of the context item. The *LocalName* field of the ``ReferenceKey`` holds the name of the context item in the context
map A reference to a *DataType* concept defines the data type that values of this context item have at run time. The
*WritableFlag* indicates if the context item is read only or read-write at run time.
Concept: ContextItemTemplate
============================
.. container:: paragraph
In a *SAMETYPE* *ContextMap*, the *ContextItemTemplate* definition provides a template for the *ContextItem*
instances that will be created on the context map at run time. Each *ContextItem* concept instance in the context map
is created using the *ContextItemTemplate* template. It is keyed with a ``ReferenceKey`` key, which references the
context map of the context item. The *LocalName* field of the ``ReferenceKey``, supplied by the creator of the
context item at run time, holds the name of the context item in the context map. A reference to a *DataType* concept
defines the data type that values of this context item have at run time. The *WritableFlag* indicates if the context
item is read only or read-write at run time.
Concept: Task
=============
.. container:: paragraph
The smallest unit of logic in a policy is a *Task*. A task encapsulates a single atomic unit of logic, and is
designed to be a single indivisible unit of execution. A task may be invoked by a single policy or by many policies.
A task has a single trigger event, which is sent to the task when it is invoked. Tasks emit one or more outgoing
events, which carry the result of the task execution. Tasks may use or modify context as they execute.
.. container:: paragraph
The Task concept definition captures the definition of an APEX task. Task concepts are keyed with an ``ArtifactKey``
key. The Trigger of the task is a reference to the *Event* concept that triggers the task. The *OutgoingEvents* of a
task are a set of references to *Event* concepts that may be emitted by the task.
.. container:: paragraph
All tasks have logic, some code that is programmed to execute the work of the task. The *Logic* concept of the task
holds the definition of that logic.
.. container:: paragraph
The *Task* definition holds a set of *ContextItem* and *ContextItemTemplate* context items that the task is allow to
access, as defined by the task developer at design time. The type of access (read-only or read write) that a task has
is determined by the *WritableFlag* flag on the individual context item definitions. At run time, a task may only
access the context items specified in its context item set, the APEX engine makes only the context items in the task
context item set is available to the task.
.. container:: paragraph
A task can be configured with startup parameters. The set of parameters that can be configured on a task are defined
as a set of *TaskParameter* concept definitions.
Concept: TaskParameter
======================
.. container:: paragraph
Each configuration parameter of a task are represented as a *Taskparameter* concept keyed with a ``ReferenceKey``
key, which references the task. The *LocalName* field of the ``ReferenceKey`` holds the name of the parameter. The
*DefaultValue* field defines the default value that the task parameter is set to. The value of *TaskParameter*
instances can be overridden at deployment time by specifying their values in the configuration information passed to
APEX engines.
.. container:: paragraph
The *taskParameters* field is specified under *engineParameters* in the ApexConfig. It can contain one or more task
parameters, where each item can contain the parameter key, value as well as the taskId to which it is associated. If
the taskId is not specified, then the parameters are added to all tasks.
Concept: Logic
==============
.. container:: paragraph
The *Logic* concept instance holds the actual programmed task logic for a task defined in a *Task* concept or the
programmed task selection logic for a state defined in a *State* concept. It is keyed with a ``ReferenceKey`` key,
which references the task or state that owns the logic. The *LocalName* field of the Logic concept is the name of the
logic.
.. container:: paragraph
The *LogicCode* field of a Logic concept definition is a string that holds the program code that is to be executed
at run time. The *LogicType* field defines the language of the code. The standard values are the logic languages
supported by APEX: `JAVASCRIPT <https://en.wikipedia.org/wiki/JavaScript>`__, `JAVA <https://java.com/en/>`__,
`JYTHON <http://www.jython.org/>`__, `JRUBY <http://jruby.org/>`__, or
`MVEL <https://en.wikibooks.org/wiki/Transwiki:MVEL_Language_Guide>`__.
.. container:: paragraph
The APEX engine uses the *LogicType* field value to decide which language interpreter to use for a task and then
sends the logic defined in the *LogicCode* field to that interpreter.
Concept: Policy
===============
.. container:: paragraph
The *Policy* concept defines a policy in APEX. The definition is rather straightforward. A policy is made up of a
set of states with the flavor of the policy determining the structure of the policy states and the first state
defining what state in the policy executes first. *Policy* concepts are keyed with an ``ArtifactKey`` key.
.. container:: paragraph
The *PolicyFlavour* of a *Policy* concept specifies the structure that will be used for the states in the policy. A
number of commonly used policy patterns are supported as APEX policy flavors. The standard policy flavors are:
.. container:: ulist
- The *MEDA* flavor supports policies written to the
`MEDA policy pattern <https://www.researchgate.net/publication/282576518_Dynamically_Adaptive_Policies_for_Dynamically_Adaptive_Telecommunications_Networks>`__
and require a sequence of four states: namely *Match*, *Establish*, *Decide* and *Act*.
- The *OODA* flavor supports policies written to the
`OODA loop pattern <https://en.wikipedia.org/wiki/OODA_loop>`__ and require a sequence of four states: namely
*Observe*, *Orient*, *Decide* and *Act*.
- The *ECA* flavor supports policies written to the
`ECA active rule pattern <https://en.wikipedia.org/wiki/Event_condition_action>`__ and require a sequence of three
states: namely *Event*, *Condition* and *Action*
- The *XACML* flavor supports policies written in `XACML <https://en.wikipedia.org/wiki/XACML>`__ and require a
single state: namely *XACML*
- The *FREEFORM* flavor supports policies written in an arbitrary style. A user can define a *FREEFORM* policy
as an arbitrarily long chain of states.
.. container:: paragraph
The *FirstState* field of a *Policy* definition is the starting point for execution of a policy. Therefore, the
trigger event of the state referenced in the *FirstState* field is also the trigger event for the entire policy.
Concept: State
==============
.. container:: paragraph
The *State* concept represents a phase or a stage in a policy, with a policy being composed of a series of states.
Each state has at least one but may have many tasks and, on each run of execution, a state executes one and only one
of its tasks. If a state has more than one task, then its task selection logic is used to select which task to
execute. Task selection logic is programmable logic provided by the state designer. That logic can use incoming,
policy, global, and external context to select which task best accomplishes the purpose of the state in a give
situation if more than one task has been specified on a state. A state calls one and only one task when it is
executed.
.. container:: paragraph
Each state is triggered by an event, which means that all tasks of a state must also be triggered by that same
event. The set of output events for a state is the union of all output events from all tasks for that task. In
practice at the moment, because a state can only have a single input event, a state that is not the final state of a
policy may only output a single event and all tasks of that state may also only output that single event. In future
work, the concept of having a less restrictive trigger pattern will be examined.
.. container:: paragraph
A state that is the final state of a policy may output multiple events, and the task associated with the final state
outputs those events.
.. container:: paragraph
A *State* concept is keyed with a ``ReferenceKey`` key, which references the *Policy* concept that owns the state.
The *LocalName* field of the ``ReferenceKey`` holds the name of the state. As a state is part of a chain of states,
the *NextState* field of a state holds the ``ReferenceKey`` key of the state in the policy to execute after this
state.
.. container:: paragraph
The *Trigger* field of a state holds the ``ArtifactKey`` of the event that triggers this state. The *OutgoingEvents*
field holds the ``ArtifactKey`` references of all possible events that may be output from the state. This is a set
that is the union of all output events of all tasks of the state.
.. container:: paragraph
The *Task* concepts that hold the definitions of the task for the state are held as a set of ``ArtifactKey``
references in the state. The *DefaultTask* field holds a reference to the default task for the state, a task that is
executed if no task selection logic is specified. If the state has only one task, that task is the default task.
.. container:: paragraph
The *Logic* concept referenced by a state holds the task selection logic for a state. The task selection logic uses
the incoming context (parameters of the incoming event) and other context to determine the best task to use to
execute its goals. The state holds a set of references to *ContextItem* and *ContextItemTemplate* definitions for the
context used by its task selection logic.
*************
Writing Logic
*************
Writing APEX Task Logic
=======================
.. container:: paragraph
Task logic specifies the behavior of an Apex Task. This logic can be specified in a number of ways, exploiting
Apex’s plug-in architecture to support a range of logic executors. In Apex scripted Task Logic can be written in any
of these languages:
.. container:: ulist
- ```MVEL`` <https://en.wikipedia.org/wiki/MVEL>`__,
- ```JavaScript`` <https://en.wikipedia.org/wiki/JavaScript>`__,
- ```JRuby`` <https://en.wikipedia.org/wiki/JRuby>`__ or
- ```Jython`` <https://en.wikipedia.org/wiki/Jython>`__.
.. container:: paragraph
These languages were chosen because the scripts can be compiled into Java bytecode at runtime and then efficiently
executed natively in the JVM. Task Logic an also be written directly in Java but needs to be compiled, with the
resulting classes added to the classpath. There are also a number of other Task Logic types (e.g. Fuzzy Logic), but
these are not supported as yet. This guide will focus on the scripted Task Logic approaches, with MVEL and JavaScript
being our favorite languages. In particular this guide will focus on the Apex aspects of the scripts. However, this
guide does not attempt to teach you about the scripting languages themselves … that is up to you!
.. tip::
JVM-based scripting languages For more more information on scripting for the Java platform see:
https://docs.oracle.com/javase/8/docs/technotes/guides/scripting/prog_guide/index.html
.. note::
What do Tasks do? The function of an Apex Task is to provide the logic that can be executed for an Apex State as one
of the steps in an Apex Policy. Each task receives some *incoming fields*, executes some logic (e.g: make a decision
based on *shared state* or *context*, *incoming fields*, *external context*, etc.), perhaps set some *shared state*
or *context* and then emits *outgoing fields* (in case of a single outgoing event), or a set of *outgoing fields*
(in case of multiple outgoing events). The state that uses the task is responsible for extracting the
*incoming fields* from the state input event. The state also has an *output mapper* associated with the task, and
this *output mapper* is responsible for mapping the *outgoing fields* from the task into an appropriate output event
for the state.
.. container:: paragraph
First lets start with a sample task, drawn from the "My First Apex Policy" example: The task "MorningBoozeCheck"
from the "My First Apex Policy" example is available in both MVEL and JavaScript:
.. container:: listingblock
.. container:: title
Javascript code for the ``MorningBoozeCheck`` task
.. container:: content
.. code:: javascript
:number-lines:
/*
* ============LICENSE_START=======================================================
* Copyright (C) 2016-2018 Ericsson. All rights reserved.
* Modifications Copyright (C) 2020 Nordix Foundation.
* ================================================================================
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* SPDX-License-Identifier: Apache-2.0
* ============LICENSE_END=========================================================
*/
executor.logger.info("Task Execution: '"+executor.subject.id+"'. Input Fields: '"+executor.inFields+"'");
executor.outFields.put("amount" , executor.inFields.get("amount"));
executor.outFields.put("assistant_ID", executor.inFields.get("assistant_ID"));
executor.outFields.put("notes" , executor.inFields.get("notes"));
executor.outFields.put("quantity" , executor.inFields.get("quantity"));
executor.outFields.put("branch_ID" , executor.inFields.get("branch_ID"));
executor.outFields.put("item_ID" , executor.inFields.get("item_ID"));
executor.outFields.put("time" , executor.inFields.get("time"));
executor.outFields.put("sale_ID" , executor.inFields.get("sale_ID"));
item_id = executor.inFields.get("item_ID");
//All times in this script are in GMT/UTC since the policy and events assume time is in GMT.
var timenow_gmt = new Date(Number(executor.inFields.get("time")));
var midnight_gmt = new Date(Number(executor.inFields.get("time")));
midnight_gmt.setUTCHours(0,0,0,0);
var eleven30_gmt = new Date(Number(executor.inFields.get("time")));
eleven30_gmt.setUTCHours(11,30,0,0);
var timeformatter = new java.text.SimpleDateFormat("HH:mm:ss z");
var itemisalcohol = false;
if(item_id != null && item_id >=1000 && item_id < 2000)
itemisalcohol = true;
if( itemisalcohol
&& timenow_gmt.getTime() >= midnight_gmt.getTime()
&& timenow_gmt.getTime() < eleven30_gmt.getTime()) {
executor.outFields.put("authorised", false);
executor.outFields.put("message", "Sale not authorised by policy task " +
executor.subject.taskName+ " for time " + timeformatter.format(timenow_gmt.getTime()) +
". Alcohol can not be sold between " + timeformatter.format(midnight_gmt.getTime()) +
" and " + timeformatter.format(eleven30_gmt.getTime()));
}
else{
executor.outFields.put("authorised", true);
executor.outFields.put("message", "Sale authorised by policy task " +
executor.subject.taskName + " for time "+timeformatter.format(timenow_gmt.getTime()));
}
/*
This task checks if a sale request is for an item that is an alcoholic drink.
If the local time is between 00:00:00 GMT and 11:30:00 GMT then the sale is not
authorised. Otherwise the sale is authorised.
In this implementation we assume that items with item_ID value between 1000 and
2000 are all alcoholic drinks :-)
*/
true;
.. container:: listingblock
.. container:: title
MVEL code for the ``MorningBoozeCheck`` task
.. container:: content
.. code:: javascript
:number-lines:
/*
* ============LICENSE_START=======================================================
* Copyright (C) 2016-2018 Ericsson. All rights reserved.
* Modifications Copyright (C) 2020 Nordix Foundation.
* ================================================================================
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* SPDX-License-Identifier: Apache-2.0
* ============LICENSE_END=========================================================
*/
import java.util.Date;
import java.util.Calendar;
import java.util.TimeZone;
import java.text.SimpleDateFormat;
logger.info("Task Execution: '"+subject.id+"'. Input Fields: '"+inFields+"'");
outFields.put("amount" , inFields.get("amount"));
outFields.put("assistant_ID", inFields.get("assistant_ID"));
outFields.put("notes" , inFields.get("notes"));
outFields.put("quantity" , inFields.get("quantity"));
outFields.put("branch_ID" , inFields.get("branch_ID"));
outFields.put("item_ID" , inFields.get("item_ID"));
outFields.put("time" , inFields.get("time"));
outFields.put("sale_ID" , inFields.get("sale_ID"));
item_id = inFields.get("item_ID");
//The events used later to test this task use GMT timezone!
gmt = TimeZone.getTimeZone("GMT");
timenow = Calendar.getInstance(gmt);
df = new SimpleDateFormat("HH:mm:ss z");
df.setTimeZone(gmt);
timenow.setTimeInMillis(inFields.get("time"));
midnight = timenow.clone();
midnight.set(
timenow.get(Calendar.YEAR),timenow.get(Calendar.MONTH),
timenow.get(Calendar.DATE),0,0,0);
eleven30 = timenow.clone();
eleven30.set(
timenow.get(Calendar.YEAR),timenow.get(Calendar.MONTH),
timenow.get(Calendar.DATE),11,30,0);
itemisalcohol = false;
if(item_id != null && item_id >=1000 && item_id < 2000)
itemisalcohol = true;
if( itemisalcohol
&& timenow.after(midnight) && timenow.before(eleven30)){
outFields.put("authorised", false);
outFields.put("message", "Sale not authorised by policy task "+subject.taskName+
" for time "+df.format(timenow.getTime())+
". Alcohol can not be sold between "+df.format(midnight.getTime())+
" and "+df.format(eleven30.getTime()));
return true;
}
else{
outFields.put("authorised", true);
outFields.put("message", "Sale authorised by policy task "+subject.taskName+
" for time "+df.format(timenow.getTime()));
return true;
}
/*
This task checks if a sale request is for an item that is an alcoholic drink.
If the local time is between 00:00:00 GMT and 11:30:00 GMT then the sale is not
authorised. Otherwise the sale is authorised.
In this implementation we assume that items with item_ID value between 1000 and
2000 are all alcoholic drinks :-)
*/
.. container:: paragraph
The role of the task in this simple example is to copy the values in the incoming fields into the outgoing
fields, then examine the values in some incoming fields (``item_id`` and ``time``), then set the values in some
other outgoing fields (``authorised`` and ``message``).
.. container:: paragraph
Both MVEL and JavaScript like most JVM-based scripting languages can use standard Java libraries to perform
complex tasks. Towards the top of the scripts you will see how to import Java classes and packages to be used
directly in the logic. Another thing to notice is that Task Logic should return a ``java.lang.Boolean`` value
``true`` if the logic executed correctly. If the logic fails for some reason then ``false`` can be returned, but
this will cause the policy invoking this task will fail and exit.
.. note::
How to return a value from task logic
Some languages explicitly support returning values from the script (e.g. MVEL and JRuby) using an explicit
return statement (e.g. ``return true``), other languages do not (e.g. Jython). For
languages that do not support the ``return`` statement, a special field called ``returnValue`` must be
created to hold the result of the task logic operation (i.e. assign a ``java.lang.Boolean``
value to the ``returnValue`` field before completing the task).
Also, in MVEL if there is no explicit return statement then the return value of the last executed statement will
return (e.g. the statement a=(1+2) will return the value 3).
For Javascript, the last statement of a script must be a statement that evaluates to *true* or *false*, indicating
whether the script executed correctly or not. In the case where the script always executes to compeletion
sucessfully, simply add a last line with the statement *true'*. In cases where success or failure is assessed in the
script, create a boolean
local variable with a name such as ``returnvalue``. In the execution of the script, set ``returnValue`` to be ``true``
or ``false`` as appropriate. The last line of the scritp tehn should simply be ``returnValue;``, which returns the
value of ``returnValue``.
.. container:: paragraph
Besides these imported classes and normal language features Apex provides some natively available parameters
and functions that can be used directly. At run-time these parameters are populated by the Apex execution
environment and made natively available to logic scripts each time the logic script is invoked. (These can be
accessed using the ``executor`` keyword for most languages, or can be accessed directly without the
``executor`` keyword in MVEL):
Table 1. The ``executor`` Fields / Methods
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| Name | Type | Java type | Description |
+=====================================================+==========================================================================+===============================+==================================================================================+
| inFields | Fields | java.util.Map <String,Object> |The incoming task fields, implemented as a standard Java (unmodifiable) Map |
| | | | |
| | | |**Example:** |
| | | | |
| | | |.. code:: javascript |
| | | | |
| | | | executor.logger.debug("Incoming fields: " +executor.inFields.entrySet()); |
| | | | var item_id = executor.incomingFields["item_ID"]; |
| | | | if (item_id >=1000) { ... } |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| outFields | Fields | java.util.Map <String,Object> |The outgoing task fields. This is implemented as a standard initially empty Java |
| | | |(modifiable) Map. To create a new schema-compliant instance of a field object |
| | | |see the utility method subject.getOutFieldSchemaHelper() below that takes the |
| | | |fieldName as an argument. |
| | | | |
| | | |**Example:** |
| | | | |
| | | |.. code:: javascript |
| | | | |
| | | | executor.outFields["authorised"] = false; |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| outFieldsList | Fields | java.util.Collection |The collection of outgoing task fields when there are multiple outputs from the |
| | | <Map<String, Object>> |final state. To create a new schema-compliant instance of a field, see the |
| | | |utility method subject.getOutFieldSchemaHelper() below that takes eventName and |
| | | |fieldName as arguments. |
| | | |To add the set of output fields to the outFieldsList, the utility method |
| | | |executor.addFieldsToOutput can be used as shown below. |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| void addFieldsToOutput(Map<String, Object> fields) |A utility method to add fields to outgoing fields. | | |
| |When there are multiple output events emitted from the task associated | | |
| |with a final state, this utility method can be used to add the | | |
| |corresponding fields to the outFieldsList. | | |
| | | | |
| |**Example:** | | |
| | | | |
| |.. code:: javascript | | |
| | | | |
| | var cdsRequestEventFields = java.util.HashMap(); | | |
| | var actionIdentifiers = executor.subject.getOutFieldSchemaHelper | | |
| | ("CDSRequestEvent","actionIdentifiers").createNewInstance(); | | |
| | cdsRequestEventFields.put("actionIdentifiers", actionIdentifiers); | | |
| | executor.addFieldsToOutput(cdsRequestEventFields); | | |
| | | | |
| | var logEventFields = java.util.HashMap(); | | |
| | logEventFields.put("status", "FINAL_SUCCESS"); | | |
| | executor.addFieldsToOutput(logEventFields); | | |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| logger | Logger | org.slf4j.ext.XLogger |A helpful logger |
| | | | |
| | | |**Example:** |
| | | | |
| | | |.. code:: javascript |
| | | | |
| | | | executor.logger.info("Executing task: " +executor.subject.id); |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| TRUE/FALSE | boolean | java.lang.Boolean |2 helpful constants. These are useful to retrieve correct return values for the |
| | | |task logic |
| | | | |
| | | |**Example:** |
| | | | |
| | | |.. code:: javascript |
| | | | |
| | | | var returnValue = executor.isTrue; |
| | | | var returnValueType = Java.type("java.lang.Boolean"); |
| | | | var returnValue = new returnValueType(true); |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| subject | Task | TaskFacade |This provides some useful information about the task that contains this task |
| | | |logic. This object has some useful fields and methods : |
| | | | |
| | | |.. container:: ulist |
| | | | |
| | | | - **AxTask task** to get access to the full task definition of the host task |
| | | | |
| | | | - **String getTaskName()** to get the name of the host task |
| | | | |
| | | | - **String getId()** to get the ID of the host task |
| | | | |
| | | | - **SchemaHelper getInFieldSchemaHelper( String fieldName )** to |
| | | | get a ``SchemaHelper`` helper object to manipulate incoming |
| | | | task fields in a schema-aware manner |
| | | | |
| | | | - **SchemaHelper getOutFieldSchemaHelper( String fieldName )** to |
| | | | get a ``SchemaHelper`` helper object to manipulate outgoing |
| | | | task fields in a schema-aware manner, e.g. to instantiate new |
| | | | schema-compliant field objects to populate the |
| | | | ``executor.outFields`` outgoing fields map. This can be used only when there |
| | | | is a single outgoing event from a task. |
| | | | |
| | | | - **SchemaHelper getOutFieldSchemaHelper( String eventname, String fieldName )**|
| | | | to get a ``SchemaHelper`` helper object to manipulate outgoing |
| | | | task fields in a schema-aware manner, e.g. to instantiate new |
| | | | schema-compliant field objects to populate the |
| | | | ``executor.outFieldsList`` collection of outgoing fields map. This must be |
| | | | used in case of multiple outgoing events from a task, as the intention is to |
| | | | fetch the schema of a field associated to one of the expected events. |
| | | | This method works fine in case of single outgoing event too, but the previous |
| | | | method is enough as the field anyway belongs to the single event. |
| | | | |
| | | |**Example:** |
| | | | |
| | | |.. code:: javascript |
| | | | |
| | | | executor.logger.info("Task name: " + executor.subject.getTaskName()); |
| | | | executor.logger.info("Task id: " + executor.subject.getId()); |
| | | | executor.outFields["authorised"] = executor.subject |
| | | | .getOutFieldSchemaHelper("authorised").createNewInstance("false"); |
| | | | |
| | | | var actionIdentifiers = executor.subject.getOutFieldSchemaHelper |
| | | | ("CDSRequestEvent","actionIdentifiers").createNewInstance(); |
| | | | actionIdentifiers.put("blueprintName", "sample-bp"); |
| | | | var cdsRequestEventFields = java.util.HashMap(); |
| | | | cdsRequestEventFields.put("actionIdentifiers", actionIdentifiers); |
| | | | executor.addFieldsToOutput(cdsRequestEventFields); |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| ContextAlbum getContextAlbum(String ctxtAlbumName ) |A utility method to retrieve a ``ContextAlbum`` for use in the task. | | |
| |This is how you access the context used by the task. The returned | | |
| |``ContextAlbum`` implements the ``java.util.Map <String,Object>`` | | |
| |interface to get and set context as appropriate. The returned | | |
| |``ContextAlbum`` also has methods to lock context albums, get | | |
| |information about the schema of the items to be stored in a context | | |
| |album, and get a ``SchemaHelper`` to manipulate context album items. How | | |
| |to define and use context in a task is described in the Apex | | |
| |Programmer’s Guide and in the My First Apex Policy guide. | | |
| | | | |
| |**Example:** | | |
| | | | |
| |.. code:: javascript | | |
| | | | |
| | var bkey = executor.inFields.get("branch_ID"); | | |
| | var cnts = executor.getContextMap("BranchCounts"); | | |
| | cnts.lockForWriting(bkey); | | |
| | cnts.put(bkey, cnts.get(bkey) + 1); | | |
| | cnts.unlockForWriting(bkey); | | |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
Writing APEX Task Selection Logic
=================================
.. container:: paragraph
The function of Task Selection Logic is to choose which task should be executed for an Apex State as one of
the steps in an Apex Policy. Since each state must define a default task there is no need for Task Selection
Logic unless the state uses more than one task. This logic can be specified in a number of ways, exploiting
Apex’s plug-in architecture to support a range of logic executors. In Apex scripted Task Selection Logic can be
written in any of these languages:
.. container:: ulist
- ```MVEL`` <https://en.wikipedia.org/wiki/MVEL>`__,
- ```JavaScript`` <https://en.wikipedia.org/wiki/JavaScript>`__,
- ```JRuby`` <https://en.wikipedia.org/wiki/JRuby>`__ or
- ```Jython`` <https://en.wikipedia.org/wiki/Jython>`__.
.. container:: paragraph
These languages were chosen because the scripts can be compiled into Java bytecode at runtime and then
efficiently executed natively in the JVM. Task Selection Logic an also be written directly in Java but needs to
be compiled, with the resulting classes added to the classpath. There are also a number of other Task Selection
Logic types but these are not supported as yet. This guide will focus on the scripted Task Selection Logic
approaches, with MVEL and JavaScript being our favorite languages. In particular this guide will focus on the
Apex aspects of the scripts. However, this guide does not attempt to teach you about the scripting languages
themselves … that is up to you!
.. tip::
JVM-based scripting languages
For more more information on Scripting for the Java platform see:
https://docs.oracle.com/javase/8/docs/technotes/guides/scripting/prog_guide/index.html
.. note::
What does Task Selection Logic do?
When an Apex state references multiple tasks, there must be a way to dynamically decide
which task should be chosen and executed. This can depend on the many factors, e.g. the
*incoming event for the state*, *shared state* or *context*, *external context*,
etc.. This is the function of a state’s Task Selection Logic. Obviously, if there is
only one task then Task only one task then Task Selection Logic is not needed.
Each state must also select one of the tasks a the *default state*. If the Task
Selection Logic is unable to select an appropriate task, then it should select the
*default task*. Once the task has been selected the Apex Engine will then execute that task.
.. container:: paragraph
First lets start with some simple Task Selection Logic, drawn from the "My First Apex Policy" example: The Task
Selection Logic from the "My First Apex Policy" example is specified in JavaScript here:
.. container:: listingblock
.. container:: title
Javascript code for the "My First Policy" Task Selection Logic
.. container:: content
.. code:: javascript
/*
* ============LICENSE_START=======================================================
* Copyright (C) 2016-2018 Ericsson. All rights reserved.
* Modifications Copyright (C) 2020 Nordix Foundation.
* ================================================================================
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* SPDX-License-Identifier: Apache-2.0
* ============LICENSE_END=========================================================
*/
executor.logger.info("Task Selection Execution: '"+executor.subject.id+
"'. Input Event: '"+executor.inFields+"'");
branchid = executor.inFields.get("branch_ID");
taskorig = executor.subject.getTaskKey("MorningBoozeCheck");
taskalt = executor.subject.getTaskKey("MorningBoozeCheckAlt1");
taskdef = executor.subject.getDefaultTaskKey();
if(branchid >=0 && branchid <1000){
taskorig.copyTo(executor.selectedTask);
}
else if (branchid >=1000 && branchid <2000){
taskalt.copyTo(executor.selectedTask);
}
else{
taskdef.copyTo(executor.selectedTask);
}
/*
This task selection logic selects task "MorningBoozeCheck" for branches with
0<=branch_ID<1000 and selects task "MorningBoozeCheckAlt1" for branches with
1000<=branch_ID<2000. Otherwise the default task is selected.
In this case the default task is also "MorningBoozeCheck"
*/
true;
.. container:: paragraph
The role of the Task Selection Logic in this simple example is to examine the value in one incoming field
(``branchid``), then depending on that field’s value set the value for the selected task to the appropriate task
(``MorningBoozeCheck``, ``MorningBoozeCheckAlt1``, or the default task).
.. container:: paragraph
Another thing to notice is that Task Selection Logic should return a ``java.lang.Boolean`` value ``true`` if
the logic executed correctly. If the logic fails for some reason then ``false`` can be returned, but this will
cause the policy invoking this task will fail and exit.
.. note::
How to return a value from Task Selection Logic
Some languages explicitly support returning values from the script (e.g. MVEL and
JRuby) using an explicit return statement (e.g. ``return true``), other languages do not (e.g.
JavaScript and Jython). For languages that do not support the ``return`` statement, a special field called
``returnValue`` must be created to hold the result of the task logic operation (i.e. assign a ``java.lang.Boolean``
value to the ``returnValue`` field before completing the task).
Also, in MVEL if there is not explicit return statement then the return value of the last executed statement will
return (e.g. the statement a=(1+2) will return the value 3).
.. container:: paragraph
Each of the scripting languages used in Apex can import and use standard Java libraries to perform complex tasks.
Besides imported classes and normal language features Apex provides some natively available parameters and functions
that can be used directly. At run-time these parameters are populated by the Apex execution environment and made
natively available to logic scripts each time the logic script is invoked. (These can be accessed using the
``executor`` keyword for most languages, or can be accessed directly without the ``executor`` keyword in MVEL):
Table 2. The ``executor`` Fields / Methods
+-----------------------------------+------------------------------------+
| Unix, Cygwin | Windows |
+===================================+====================================+
|.. container:: content |.. container:: content |
| | |
| .. code:: bash | .. code:: bash |
| :number-lines: | :number-lines: |
| | |
| >c: | # cd /usr/local/src/apex-pdp |
| >cd \dev\apex | # mvn clean install -DskipTests |
| >mvn clean install -DskipTests | |
+-----------------------------------+------------------------------------+
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| Name | Type | Java type | Description |
+=====================================================+==========================================================================+===============================+==================================================================================+
| inFields | Fields | java.util.Map <String,Object> | All fields in the state’s incoming event. This is implemented as a standard Java |
| | | | Java (unmodifiable) Map |
| | | | |
| | | | **Example:** |
| | | | |
| | | | .. code:: javascript |
| | | | |
| | | | executor.logger.debug("Incoming fields: " + executor.inFields.entrySet()); |
| | | | var item_id = executor.incomingFields["item_ID"]; |
| | | | if (item_id >=1000) { ... } |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| outFields | Fields | java.util.Map <String,Object> | The outgoing task fields. This is implemented as a standard initially empty Java |
| | | | (modifiable) Map. To create a new schema-compliant instance of a field object |
| | | | see the utility method subject.getOutFieldSchemaHelper() below |
| | | | |
| | | | **Example:** |
| | | | |
| | | | .. code:: javascript |
| | | | |
| | | | executor.outFields["authorised"] = false; |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| logger | Logger | org.slf4j.ext.XLogger | A helpful logger |
| | | | |
| | | | **Example:** |
| | | | |
| | | | .. code:: javascript |
| | | | |
| | | | executor.logger.info("Executing task: " |
| | | | +executor.subject.id); |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| TRUE/FALSE | boolean | java.lang.Boolean | 2 helpful constants. These are useful to retrieve correct return values for the |
| | | | task logic |
| | | | |
| | | | **Example:** |
| | | | |
| | | | .. code:: javascript |
| | | | |
| | | | var returnValue = executor.isTrue; |
| | | | var returnValueType = Java.type("java.lang.Boolean"); |
| | | | var returnValue = new returnValueType(true); |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| subject | Task | TaskFacade | This provides some useful information about the task that contains this task |
| | | | logic. This object has some useful fields and methods : |
| | | | |
| | | | .. container:: ulist |
| | | | |
| | | | - **AxTask task** to get access to the full task definition of the host task |
| | | | |
| | | | - **String getTaskName()** to get the name of the host task |
| | | | |
| | | | - **String getId()** to get the ID of the host task |
| | | | |
| | | | - **SchemaHelper getInFieldSchemaHelper( String fieldName )** to |
| | | | get a ``SchemaHelper`` helper object to manipulate incoming |
| | | | task fields in a schema-aware manner |
| | | | |
| | | | - **SchemaHelper getOutFieldSchemaHelper( String fieldName )** to |
| | | | get a ``SchemaHelper`` helper object to manipulate outgoing |
| | | | task fields in a schema-aware manner, e.g. to instantiate new |
| | | | schema-compliant field objects to populate the |
| | | | ``executor.outFields`` outgoing fields map |
| | | | |
| | | | **Example:** |
| | | | |
| | | | .. code:: javascript |
| | | | |
| | | | executor.logger.info("Task name: " + executor.subject.getTaskName()); |
| | | | executor.logger.info("Task id: " + executor.subject.getId()); |
| | | | executor.outFields["authorised"] = executor.subject |
| | | | .getOutFieldSchemaHelper("authorised") |
| | | | .createNewInstance("false"); |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| parameters | Fields | java.util.Map <String,String> | All parameters in the current task. This is implemented as a standard Java Map. |
| | | | |
| | | | **Example:** |
| | | | |
| | | | .. code:: javascript |
| | | | |
| | | | executor.parameters.get("ParameterKey1")) |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
| ContextAlbum getContextAlbum(String ctxtAlbumName ) | A utility method to retrieve a ``ContextAlbum`` for use in the task. | | |
| | This is how you access the context used by the task. The returned | | |
| | ``ContextAlbum`` implements the ``java.util.Map <String,Object>`` | | |
| | interface to get and set context as appropriate. The returned | | |
| | ``ContextAlbum`` also has methods to lock context albums, get | | |
| | information about the schema of the items to be stored in a context | | |
| | album, and get a ``SchemaHelper`` to manipulate context album items. How | | |
| | to define and use context in a task is described in the Apex | | |
| | Programmer’s Guide and in the My First Apex Policy guide. | | |
| | | | |
| | **Example:** | | |
| | | | |
| | .. code:: javascript | | |
| | | | |
| | var bkey = executor.inFields.get("branch_ID"); | | |
| | var cnts = executor.getContextMap("BranchCounts"); | | |
| | cnts.lockForWriting(bkey); | | |
| | cnts.put(bkey, cnts.get(bkey) + 1); | | |
| | cnts.unlockForWriting(bkey); | | |
+-----------------------------------------------------+--------------------------------------------------------------------------+-------------------------------+----------------------------------------------------------------------------------+
Logic Cheat Sheet
=================
.. container:: paragraph
Examples given here use Javascript (if not stated otherwise), other execution environments will be similar.
Finish Logic with Success or Error
----------------------------------
.. container:: paragraph
To finish logic, i.e. return to APEX, with success use the following line close to the end of the logic.
.. container:: listingblock
.. container:: title
JS Success
.. container:: content
.. code:: javascript
true;
.. container:: paragraph
To notify a problem, finish with an error.
.. container:: listingblock
.. container:: title
JS Fail
.. container:: content
.. code:: javascript
false;
Logic Logging
-------------
.. container:: paragraph
Logging can be made easy using a local variable for the logger. Line 1 below does that. Then we start
with a trace log with the task (or task logic) identifier followed by the infields.
.. container:: listingblock
.. container:: title
JS Logging
.. container:: content
.. code:: javascript
var logger = executor.logger;
logger.trace("start: " + executor.subject.id);
logger.trace("-- infields: " + executor.inFields);
.. container:: paragraph
For larger logging blocks you can use the standard logging API to detect log levels, for instance:
.. container:: listingblock
.. container:: title
JS Logging Blocks
.. container:: content
.. code:: javascript
if(logger.isTraceEnabled()){
// trace logging block here
}
.. container:: paragraph
Note: the shown logger here logs to ``org.onap.policy.apex.executionlogging``. The behavior of the actual logging can
be specified in the ``$APEX_HOME/etc/logback.xml``.
.. container:: paragraph
If you want to log into the APEX root logger (which is sometimes necessary to report serious logic errors to the top),
then import the required class and use this logger.
.. container:: listingblock
.. container:: title
JS Root Logger
.. container:: content
.. code:: javascript
var rootLogger = LoggerFactory.getLogger(logger.ROOT_LOGGER_NAME);
rootLogger.error("Serious error in logic detected: " + executor.subject.id);
Accessing TaskParameters
------------------------
.. container:: paragraph
TaskParameters available in a Task can be accessed in the logic. The parameters in each task are made
available at the executor level. This example assumes a parameter with key ``ParameterKey1``.
.. container:: listingblock
.. container:: title
JS TaskParameter value
.. container:: content
.. code:: javascript
executor.parameters.get("ParameterKey1"))
.. container:: paragraph
Alternatively, the task parameters can also be accessed from the task object.
.. container:: listingblock
.. container:: title
JS TaskParameter value using task object
.. container:: content
.. code:: javascript
executor.subject.task.getTaskParameters.get("ParameterKey1").getTaskParameterValue()
Local Variable for Infields
---------------------------
.. container:: paragraph
It is a good idea to use local variables for ``infields``. This avoids long code lines and policy
evolution. The following example assumes infields named ``nodeName`` and ``nodeAlias``.
.. container:: listingblock
.. container:: title
JS Infields Local Var
.. container:: content
.. code:: javascript
var ifNodeName = executor.inFields["nodeName"];
var ifNodeAlias = executor.inFields["nodeAlias"];
Local Variable for Context Albums
---------------------------------
.. container:: paragraph
Similar to the ``infields`` it is good practice to use local variables for context albums as well. The
following example assumes that a task can access a context album ``albumTopoNodes``. The second line gets a
particular node from this context album.
.. container:: listingblock
.. container:: title
JS Infields Local Var
.. container:: content
.. code:: javascript
var albumTopoNodes = executor.getContextAlbum("albumTopoNodes");
var ctxtNode = albumTopoNodes.get(ifNodeName);
Set Outfields in Logic
----------------------
.. container:: paragraph
The task logic needs to set outfields with content generated. The exception are outfields that are a
direct copy from an infield of the same name, APEX does that autmatically.
.. container:: listingblock
.. container:: title
JS Set Outfields
.. container:: content
.. code:: javascript
executor.outFields["report"] = "node ctxt :: added node " + ifNodeName;
Create a instance of an Outfield using Schemas
----------------------------------------------
.. container:: paragraph
If an outfield is not an atomic type (string, integer, etc.) but uses a complex schema (with a Java or
Avro backend), APEX can help to create new instances. The ``executor`` provides a field called ``subject``,
which provides a schem helper with an API for this. The complete API of the schema helper is documented here:
`API Doc: SchemaHelper <https://ericsson.github.io/apex-docs/javadocs/index.html>`__.
.. container:: paragraph
If the backend is Java, then the Java class implementing the schema needs to be imported.
*Single outgoing event*
.. container:: paragraph
When there is a single outgoing event associated with a task, the fieldName alone is enough to fetch its schema.
The following example assumes an outfield ``situation``. The ``subject`` method ``getOutFieldSchemaHelper()`` is used
to create a new instance.
.. container:: listingblock
.. container:: title
JS Outfield Instance with Schema
.. container:: content
.. code:: javascript
var situation = executor.subject.getOutFieldSchemaHelper("situation").createNewInstance();
.. container:: paragraph
If the schema backend is Java, the new instance will be as implemented in the Java class. If the schema backend is
Avro, the new instance will have all fields from the Avro schema specification, but set to ``null``. So any entry here
needs to be done separately. For instance, the ``situation`` schema has a field ``problemID`` which we set.
.. container:: listingblock
.. container:: title
JS Outfield Instance with Schema, set
.. container:: content
.. code:: javascript
situation.put("problemID", "my-problem");
*Multiple outgoing events*
.. container:: paragraph
When there are multiple outgoing events associated with a task, the fieldName along with the eventName it belongs to
are needed to fetch its schema.
The following example assumes an outfield ``actionIdentifiers`` which belongs to ``CDSRequestEvent``.
The ``subject`` method ``getOutFieldSchemaHelper()`` is used to create a new instance.
.. container:: listingblock
.. container:: content
.. code:: javascript
var actionIdentifiers = executor.subject.getOutFieldSchemaHelper("CDSRequestEvent", "actionIdentifiers").createNewInstance();
Create a instance of an Context Album entry using Schemas
---------------------------------------------------------
.. container:: paragraph
Context album instances can be created using very similar to the outfields. Here, the schema helper
comes from the context album directly. The API of the schema helper is the same as for outfields, see
`API Doc: SchemaHelper <https://ericsson.github.io/apex-docs/javadocs/index.html>`__.
.. container:: paragraph
If the backend is Java, then the Java class implementing the schema needs to be imported.
.. container:: paragraph
The following example creates a new instance of a context album instance named ``albumProblemMap``.
.. container:: listingblock
.. container:: title
JS Outfield Instance with Schema
.. container:: content
.. code:: javascript
var albumProblemMap = executor.getContextAlbum("albumProblemMap");
var linkProblem = albumProblemMap.getSchemaHelper().createNewInstance();
.. container:: paragraph
This can of course be also done in a single call without the local variable for the context album.
.. container:: listingblock
.. container:: title
JS Outfield Instance with Schema, one line
.. container:: content
.. code:: javascript
var linkProblem = executor.getContextAlbum("albumProblemMap").getSchemaHelper().createNewInstance();
.. container:: paragraph
If the schema backend is Java, the new instance will be as implemented in the Java class. If the schema backend is
Avro, the new instance will have all fields from the Avro schema specification, but set to ``null``. So any entry here
needs to be done separately (see above in outfields for an example).
Enumerates
----------
.. container:: paragraph
When dealing with enumerates (Avro or Java defined), it is sometimes and in some execution
environments necessary to convert them to a string. For example, assume an Avro enumerate schema as:
.. container:: listingblock
.. container:: title
Avro Enumerate Schema
.. container:: content
.. code:: javascript
{
"type": "enum", "name": "Status", "symbols" : [
"UP", "DOWN"
]
}
.. container:: paragraph
Using a switch over a field initialized with this enumerate in Javascript will fail. Instead, use the ``toString`` method, for example:
.. container:: listingblock
.. container:: title
JS Outfield Instance with Schema, one line
.. container:: content
.. code:: javascript
var switchTest = executor.inFields["status"]; switch(switchTest.toString()){
case "UP": ...; break; case "DOWN": ...; break; default: ...;
}
MVEL Initialize Outfields First!
--------------------------------
.. container:: paragraph
In MVEL, we observed a problem when accessing (setting) outfields without a prior access to them. So
in any MVEL task logic, before setting any outfield, simply do a get (with any string), to load the outfields
into the MVEL cache.
.. container:: listingblock
.. container:: title
MVEL Outfield Initialization
.. container:: content
.. code:: javascript
outFields.get("initialize outfields");
Using Java in Scripting Logic
-----------------------------
.. container:: paragraph
Since APEX executes the logic inside a JVM, most scripting languages provide access to all standard
Java classes. Simply add an import for the required class and then use it as in actual Java.
.. container:: paragraph
The following example imports ``java.util.arraylist`` into a Javascript logic, and then creates a new
list.
.. container:: listingblock
.. container:: title
JS Import ArrayList
.. container:: content
.. code:: javascript
var myList = new ArrayList();
Converting Javascript scripts from Nashorn to Rhino dialects
------------------------------------------------------------
The Nashorn Javascript engine was removed from Java in the Java 11 release. Java 11 was introduced into
the Policy Framework in the Frankfurt release, so from Frankfurt on, APEX Javascript scripts use the Rhino
Javascript engine and scripts must be in the Rhino dialect.
There are some minor but important differences between the dialects that users should be aware of so
that they can convert their scripts into the Rhino dialect.
Return Values
^^^^^^^^^^^^^
APEX scripts must always return a value of ``true`` indicating that the script executed correctly or ``false``
indicating that there was an error in script execution.
*Pre Frankfurt*
In Nashorn dialect scripts, the user had to create a special variable called ``returnValue`` and set the value of
that variable to be the return value for the script.
*Frankfurt and Later*
In Rhino dialect scripts, the return value of the script is the logical result of the last statement. Therefore the
last line of the script must evaluate to either ``true`` or ``false``.
.. container:: listingblock
.. container:: title
JS Rhino script last executed line examples
.. container:: content
.. code:: javascript
true;
returnValue; // Where returnValue is assigned earlier in the script
someValue == 1; // Where the value of someValue is assigned earlier in the script
return statement
^^^^^^^^^^^^^^^^
The ``return`` statement is not supported from the main script called in the Rhino interpreter.
*Pre Frankfurt*
In Nashorn dialect scripts, the user could return a value of ``true`` or ``false`` at any point in their script.
.. container:: listingblock
.. container:: title
JS Nashorn main script returning ``true`` and ``false``
.. container:: content
.. code:: javascript
var n;
// some code assigns n a value
if (n < 2) {
return false;
} else {
return true;
}
*Frankfurt and Later*
In Rhino dialect scripts, the ``return`` statement cannot be used in the main method, but it can still be used in
functions. If you want to have a ``return`` statement in your code prior to the last statement, encapsulate your code
in a function.
.. container:: listingblock
.. container:: title
JS Rhino script with ``return`` statements in a function
.. container:: content
.. code:: javascript
someFunction();
function someFunction() {
var n;
// some code assigns n a value
if (n < 2) {
return false;
} else {
return true;
}
}
Compatibility Script
^^^^^^^^^^^^^^^^^^^^
For Nashorn, the user had to call a compatibility script at the beginning of their Javascript script. This is not
required in Rhino.
*Pre Frankfurt*
In Nashorn dialect scripts, the compatibility script must be loaded.
.. container:: listingblock
.. container:: title
Nashorn compatability script loading
.. container:: content
.. code:: javascript
load("nashorn:mozilla_compat.js");
*Frankfurt and Later*
Not required.
Import of Java classes
^^^^^^^^^^^^^^^^^^^^^^
For Nashorn, the user had explicitly import all the Java packages and classes they wished to use in their Javascript
script. In Rhino, all Java classes on the classpath are available for use.
*Pre Frankfurt*
In Nashorn dialect scripts, Java classes must be imported.
.. container:: listingblock
.. container:: title
Importation of Java packages and classes
.. container:: content
.. code:: javascript
importPackage(java.text);
importClass(java.text.SimpleDateFormat);
*Frankfurt and Later*
Not required.
Using Java Classes and Objects as Variables
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Setting a Javascript variable to hold a Java class or a Java object is more straightforward in Rhino than it is in
Nashorn. The examples below show how to instantiate a Javascript variable as a Java class and how to use that variable
to create an instance of the Java class in another Javascript variable in both dialects.
*Pre Frankfurt*
.. container:: listingblock
.. container:: title
Create Javascript variables to hold a Java class and instance
.. container:: content
.. code:: javascript
var webClientClass = Java.type("org.onap.policy.apex.examples.bbs.WebClient");
var webClientObject = new webClientClass();
*Frankfurt and Later*
.. container:: listingblock
.. container:: title
Create Javascript variables to hold a Java class and instance
.. container:: content
.. code:: javascript
var webClientClass = org.onap.policy.apex.examples.bbs.WebClient;
var webClientObject = new webClientClass();
Equal Value and Equal Type operator ``===``
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
The *Equal Value and Equal Type* operator ``===`` is not supported in Rhino. Developers must use the Equal To
operator ``==`` instead. To check types, they may need to explicitly find and check the type of the variables
they are using.
*************************************************
Writing Multiple Output Events from a Final State
*************************************************
.. container:: paragraph
APEX-PDP now supports sending multiple events from a final state in a Policy. The task assocaiated with the final
state can populate the fields of multiple events, and then they can be passed over as the output events from the final
state of a policy.
.. note::
inputfields and outputfields are not needed as part of the task definition anymore. Fields of an event are already
defined as part of the event definition. Input event (single trigger event) and output event/events can be populated
to a task as part of the policy/state definition because the event tagging is done there anyway.
.. container:: paragraph
Consider a simple example where a policy *CDSActionPolicy* has a state *MakeCDSRequestState* which is also a final
state. The state is triggered by an event *AAIEvent*. A task called *HandleCDSActionTask* is associated with
*MakeCDSRequestState*.There are two output events expected from *MakeCDSRequestState* which are *CDSRequestEvent*
(request event sent to CDS) and *LogEvent* (log event sent to DMaaP).
Writing an APEX policy with this example will involve the below changes.
*Command File:*
.. container:: listingblock
.. container:: title
Define all the concepts in the Policy. Only relevant parts for the multiple output support are shown.
.. container:: content
.. code::
## Define Events
event create name=AAIEvent version=0.0.1 nameSpace=org.onap.policy.apex.test source=AAI target=APEX
..
event create name=CDSRequestEvent version=0.0.1 nameSpace=org.onap.policy.apex.test source=APEX target=CDS
event parameter create name=CDSRequestEvent parName=actionIdentifiers schemaName=CDSActionIdentifiersType
..
event create name=LogEvent version=0.0.1 nameSpace=org.onap.policy.apex.test source=APEX target=DMaaP
event parameter create name=LogEvent parName=status schemaName=SimpleStringType
..
## Define Tasks
task create name=HandleCDSActionTask
task contextref create name=HandleCDSActionTask albumName=EventDetailsAlbum
task logic create name=HandleCDSActionTask logicFlavour=JAVASCRIPT logic=LS
#MACROFILE:"src/main/resources/logic/HandleCDSActionTask.js"
LE
..
## Define Policies and States
policy create name=CDSActionPolicy template=Freestyle firstState=MakeCDSRequestState
policy state create name=CDSActionPolicy stateName=MakeCDSRequestState triggerName=AAIEvent defaultTaskName=HandleCDSActionTask
# Specify CDSRequestEvent as output
policy state output create name=CDSActionPolicy stateName=MakeCDSRequestState outputName=CDSActionStateOutput eventName=CDSRequestEvent
# Specify LogEvent as output
policy state output create name=CDSActionPolicy stateName=MakeCDSRequestState outputName=CDSActionStateOutput eventName=LogEvent
policy state taskref create name=CDSActionPolicy stateName=MakeCDSRequestState taskName=HandleCDSActionTask outputType=DIRECT outputName=CDSActionStateOutput
*Task Logic File:*
.. container:: listingblock
.. container:: title
Create outfields' instance if required, populate and add them the output events
.. container:: content
.. code:: javascript
..
var cdsRequestEventFields = java.util.HashMap();
var actionIdentifiers = executor.subject.getOutFieldSchemaHelper("CDSRequestEvent","actionIdentifiers").createNewInstance();
actionIdentifiers.put("blueprintName", "sample-bp");
cdsRequestEventFields.put("actionIdentifiers", actionIdentifiers);
executor.addFieldsToOutput(cdsRequestEventFields);
var logEventFields = java.util.HashMap();
logEventFields.put("status", "FINAL_SUCCESS");
executor.addFieldsToOutput(logEventFields);
.. container:: paragraph
With the above changes, the task populates the fields for both the expected events, and the corresponding state which
is *MakeCDSRequestState* outputs both *CDSRequestEvent* and *LogEvent*
.. |APEX Policy Matrix| image:: images/apex-intro/ApexPolicyMatrix.png
.. |APEX Policy Model for Execution| image:: images/apex-policy-model/UmlPolicyModels.png
.. |Concepts and Keys| image:: images/apex-policy-model/ConceptsKeys.png
|