aboutsummaryrefslogtreecommitdiffstats
path: root/services
diff options
context:
space:
mode:
Diffstat (limited to 'services')
-rw-r--r--services/services-engine/src/site-docs/adoc/fragments/config-example.adoc103
-rw-r--r--services/services-engine/src/site-docs/adoc/fragments/config-general-format.adoc65
-rw-r--r--services/services-engine/src/site-docs/adoc/fragments/config-interfaces-general.adoc124
-rw-r--r--services/services-engine/src/site-docs/adoc/fragments/config-service-parameters.adoc47
4 files changed, 0 insertions, 339 deletions
diff --git a/services/services-engine/src/site-docs/adoc/fragments/config-example.adoc b/services/services-engine/src/site-docs/adoc/fragments/config-example.adoc
deleted file mode 100644
index dfbc397e9..000000000
--- a/services/services-engine/src/site-docs/adoc/fragments/config-example.adoc
+++ /dev/null
@@ -1,103 +0,0 @@
-//
-// ============LICENSE_START=======================================================
-// Copyright (C) 2016-2018 Ericsson. All rights reserved.
-// ================================================================================
-// This file is licensed under the CREATIVE COMMONS ATTRIBUTION 4.0 INTERNATIONAL LICENSE
-// Full license text at https://creativecommons.org/licenses/by/4.0/legalcode
-//
-// SPDX-License-Identifier: CC-BY-4.0
-// ============LICENSE_END=========================================================
-//
-// @author Sven van der Meer (sven.van.der.meer@ericsson.com)
-//
-
-== A configuration example
-
-The following example loads all available plug-ins.
-
-Events are consumed from a Websocket, APEX as client.
-Consumed event format is JSON.
-
-Events are produced to Kafka.
-Produced event format is XML.
-
-[source%nowrap,json]
-----
-{
- "engineServiceParameters" : {
- "name" : "MyApexEngine",
- "version" : "0.0.1",
- "id" : 45,
- "instanceCount" : 4,
- "deploymentPort" : 12345,
- "policyModelFileName" : "examples/models/some-model.json",
- "engineParameters" : {
- "executorParameters" : {
- "JAVASCRIPT" : {
- "parameterClassName" :
- "org.onap.policy.apex.plugins.executor.javascript.JavascriptExecutorParameters"
- },
- "JYTHON" : {
- "parameterClassName" :
- "org.onap.policy.apex.plugins.executor.jython.JythonExecutorParameters"
- },
- "JRUBY" : {
- "parameterClassName" :
- "org.onap.policy.apex.plugins.executor.jruby.JrubyExecutorParameters"
- },
- "JAVA" : {
- "parameterClassName" :
- "org.onap.policy.apex.plugins.executor.java.JavaExecutorParameters"
- },
- "MVEL" : {
- "parameterClassName" :
- "org.onap.policy.apex.plugins.executor.mvel.MVELExecutorParameters"
- }
- },
- "contextParameters" : {
- "parameterClassName" :
- "org.onap.policy.apex.context.parameters.ContextParameters",
- "schemaParameters" : {
- "Avro":{
- "parameterClassName" :
- "org.onap.policy.apex.plugins.context.schema.avro.AvroSchemaHelperParameters"
- }
- }
- }
- }
- },
- "producerCarrierTechnologyParameters" : {
- "carrierTechnology" : "KAFKA",
- "parameterClassName" :
- "org.onap.policy.apex.plugins.event.carrier.kafka.KAFKACarrierTechnologyParameters",
- "parameters" : {
- "bootstrapServers" : "localhost:49092",
- "acks" : "all",
- "retries" : 0,
- "batchSize" : 16384,
- "lingerTime" : 1,
- "bufferMemory" : 33554432,
- "producerTopic" : "apex-out",
- "keySerializer" : "org.apache.kafka.common.serialization.StringSerializer",
- "valueSerializer" : "org.apache.kafka.common.serialization.StringSerializer"
- }
- },
- "producerEventProtocolParameters" : {
- "eventProtocol" : "XML",
- "parameterClassName" :
- "org.onap.policy.apex.plugins.event.protocol.xml.XMLEventProtocolParameters"
- },
- "consumerCarrierTechnologyParameters" : {
- "carrierTechnology" : "WEBSOCKET",
- "parameterClassName" :
- "org.onap.policy.apex.plugins.event.carrier.websocket.WEBSOCKETCarrierTechnologyParameters",
- "parameters" : {
- "host" : "localhost",
- "port" : 88888
- }
- },
- "consumerEventProtocolParameters" : {
- "eventProtocol" : "JSON"
- }
-}
-----
diff --git a/services/services-engine/src/site-docs/adoc/fragments/config-general-format.adoc b/services/services-engine/src/site-docs/adoc/fragments/config-general-format.adoc
deleted file mode 100644
index 27e076701..000000000
--- a/services/services-engine/src/site-docs/adoc/fragments/config-general-format.adoc
+++ /dev/null
@@ -1,65 +0,0 @@
-//
-// ============LICENSE_START=======================================================
-// Copyright (C) 2016-2018 Ericsson. All rights reserved.
-// ================================================================================
-// This file is licensed under the CREATIVE COMMONS ATTRIBUTION 4.0 INTERNATIONAL LICENSE
-// Full license text at https://creativecommons.org/licenses/by/4.0/legalcode
-//
-// SPDX-License-Identifier: CC-BY-4.0
-// ============LICENSE_END=========================================================
-//
-// @author Sven van der Meer (sven.van.der.meer@ericsson.com)
-//
-
-== General Configuration Format
-
-The APEX configuration file is a JSON file containing a few main blocks for different parts of the configuration.
-Each block then holds the configuration details.
-The following code shows the main blocks:
-
-[source%nowrap,json]
-----
-{
- "engineServiceParameters":{
- ... // <1>
- "engineParameters":{ <2>
- "engineParameters":{...}, <3>
- "contextParameters":{...} <4>
- }
- },
- "eventInputParameters":{ <5>
- "input1":{ <6>
- "carrierTechnologyParameters":{...},
- "eventProtocolParameters":{...}
- },
- "input2":{...}, <7>
- "carrierTechnologyParameters":{...},
- "eventProtocolParameters":{...}
- },
- ... // <8>
- },
- "eventOutputParameters":{ <9>
- "output1":{ <10>
- "carrierTechnologyParameters":{...},
- "eventProtocolParameters":{...}
- },
- "output2":{ <11>
- "carrierTechnologyParameters":{...},
- "eventProtocolParameters":{...}
- },
- ... // <12>
- }
-}
-----
-<1> main engine configuration
-<2> engine parameters for plugin configurations (execution environments and context handling)
-<3> engine specific parameters, mainly for executor plugins
-<4> context specific parameters, e.g. for context schemas, persistence, etc.
-<5> configuration of the input interface
-<6> an example input called `input1` with carrier technology and event protocol
-<7> an example input called `input2` with carrier technology and event protocol
-<8> any further input configuration
-<9> configuration of the output interface
-<10> an example output called `output1` with carrier technology and event protocol
-<11> an example output called `output2` with carrier technology and event protocol
-<12> any further output configuration
diff --git a/services/services-engine/src/site-docs/adoc/fragments/config-interfaces-general.adoc b/services/services-engine/src/site-docs/adoc/fragments/config-interfaces-general.adoc
deleted file mode 100644
index 54ffcca1a..000000000
--- a/services/services-engine/src/site-docs/adoc/fragments/config-interfaces-general.adoc
+++ /dev/null
@@ -1,124 +0,0 @@
-//
-// ============LICENSE_START=======================================================
-// Copyright (C) 2016-2018 Ericsson. All rights reserved.
-// ================================================================================
-// This file is licensed under the CREATIVE COMMONS ATTRIBUTION 4.0 INTERNATIONAL LICENSE
-// Full license text at https://creativecommons.org/licenses/by/4.0/legalcode
-//
-// SPDX-License-Identifier: CC-BY-4.0
-// ============LICENSE_END=========================================================
-//
-// @author Sven van der Meer (sven.van.der.meer@ericsson.com)
-//
-
-== Input and Output Interfaces
-
-An APEX engine has two main interfaces:
-
-- An _input_ interface to receive events: also known as ingress interface or consumer, receiving (consuming) events commonly named triggers, and
-- An _output_ interface to publish produced events: also known as egress interface or producer, sending (publishing) events commonly named actions or action events.
-
-The input and output interface is configured in terms of inputs and outputs, respectively.
-Each input and output is a combination of a carrier technology and an event protocol.
-Carrier technologies and event protocols are provided by plugins, each with its own specific configuration.
-Most carrier technologies can be configured for input as well as output.
-Most event protocols can be used for all carrier technologies.
-One exception is the JMS object event protocol, which can only be used for the JMS carrier technology.
-Some further restrictions apply (for instance for carrier technologies using bi- or uni-directional modes).
-
-Input and output interface can be configured separately, in isolation, with any number of carrier technologies.
-The resulting general configuration options are:
-
-- Input interface with one or more inputs
- ** each input with a carrier technology and an event protocol
- ** some inputs with optional synchronous mode
- ** some event protocols with additional parameters
-- Output interface with one or more outputs
- ** each output with a carrier technology and an event encoding
- ** some outputs with optional synchronous mode
- ** some event protocols with additional parameters
-
-The configuration for input and output is contained in `eventInputParameters` and `eventOutputParameters`, respectively.
-Inside here, one can configure any number of inputs and outputs.
-Each of them needs to have a unique identifier (name), the content of the name is free form.
-The example below shows a configuration for two inputs and two outputs.
-
-[source%nowrap,json]
-----
-"eventInputParameters": { <1>
- "FirstConsumer": { <2>
- "carrierTechnologyParameters" : {...}, <3>
- "eventProtocolParameters":{...}, <4>
- ... <5>
- },
- "SecondConsumer": { <6>
- "carrierTechnologyParameters" : {...}, <7>
- "eventProtocolParameters":{...}, <8>
- ... <9>
- },
-},
-"eventOutputParameters": { <10>
- "FirstProducer": { <11>
- "carrierTechnologyParameters":{...}, <12>
- "eventProtocolParameters":{...}, <13>
- ... <14>
- },
- "SecondProducer": { <15>
- "carrierTechnologyParameters":{...}, <16>
- "eventProtocolParameters":{...}, <17>
- ... <18>
- }
-}
-----
-<1> input interface configuration, APEX input plugins
-<2> first input called `FirstConsumer`
-<3> carrier technology for plugin
-<4> event protocol for plugin
-<5> any other input configuration (e.g. event name filter, see below)
-<6> second input called `SecondConsumer`
-<7> carrier technology for plugin
-<8> event protocol for plugin
-<9> any other plugin configuration
-<10> output interface configuration, APEX output plugins
-<11> first output called `FirstProducer`
-<12> carrier technology for plugin
-<13> event protocol for plugin
-<14> any other plugin configuration
-<15> second output called `SecondProducer`
-<16> carrier technology for plugin
-<17> event protocol for plugin
-<18> any other output configuration (e.g. event name filter, see below)
-
-=== Event Filters
-
-APEX will always send an event after a policy execution is finished.
-For a successful execution, the event sent is the output event created by the policy.
-In case the policy does not create an output event, APEX will create a new event with all input event fields plus an additional field `exceptionMessage` with an exception message.
-
-There are situations in which this auto-generated error event might not be required or wanted:
-
-* when a policy failing should not result in an event send out via an output interface
-* when the auto-generated event goes back in an APEX engine (or the same APEX engine), this can create endless loops
-* the auto-generated event should go to a special output interface or channel
-
-All of these situations are supported by a filter option using a wildecard (regular expression) configuration on APEX I/O interfaces.
-The parameter is called `eventNameFilter` and the value are link:https://docs.oracle.com/javase/8/docs/api/java/util/regex/Pattern.html[Java regular expressions] (a link:http://www.vogella.com/tutorials/JavaRegularExpressions/article.html[tutorial]).
-The following code shows some examples:
-
-[source%nowrap,json]
-----
-"eventInputParameters": {
- "Input1": {
- "carrierTechnologyParameters" : {...},
- "eventProtocolParameters":{...},
- "eventNameFilter" : "^E[Vv][Ee][Nn][Tt][0-9]004$" <1>
- }
-},
-"eventOutputParameters": {
- "Output1": {
- "carrierTechnologyParameters":{...},
- "eventProtocolParameters":{...},
- "eventNameFilter" : "^E[Vv][Ee][Nn][Tt][0-9]104$" <2>
- }
-}
-----
diff --git a/services/services-engine/src/site-docs/adoc/fragments/config-service-parameters.adoc b/services/services-engine/src/site-docs/adoc/fragments/config-service-parameters.adoc
deleted file mode 100644
index d1b3fa3b9..000000000
--- a/services/services-engine/src/site-docs/adoc/fragments/config-service-parameters.adoc
+++ /dev/null
@@ -1,47 +0,0 @@
-//
-// ============LICENSE_START=======================================================
-// Copyright (C) 2016-2018 Ericsson. All rights reserved.
-// ================================================================================
-// This file is licensed under the CREATIVE COMMONS ATTRIBUTION 4.0 INTERNATIONAL LICENSE
-// Full license text at https://creativecommons.org/licenses/by/4.0/legalcode
-//
-// SPDX-License-Identifier: CC-BY-4.0
-// ============LICENSE_END=========================================================
-//
-// @author Sven van der Meer (sven.van.der.meer@ericsson.com)
-//
-
-== Engine Service Parameters
-
-The configuration provides a number of parameters to configure the engine.
-An example configuration with explanations of all options is shown below.
-
-[source%nowrap,json]
-----
-"engineServiceParameters" : {
- "name" : "AADMApexEngine", // <1>
- "version" : "0.0.1", // <2>
- "id" : 45, // <3>
- "instanceCount" : 4, // <4>
- "deploymentPort" : 12345, // <5>
- "policyModelFileName" : "examples/models/VPN/VPNPolicyModelJava.json", // <6>
- "periodicEventPeriod": 1000, <7>
- "engineParameters":{ <8>
- "engineParameters":{...}, <9>
- "contextParameters":{...} <10>
- }
-}
-----
-<1> a name for the engine. The engine name is used to create a key in a runtime engine. An name matching the following regular expression can be used here: `[A-Za-z0-9\\-_\\.]+`
-<2> a version of the engine, use semantic versioning as explained here: link:http://semver.org/[Semantic Versioning]. This version is used in a runtime engine to create a version of the engine. For that reason, the version must match the following regular expression `[A-Z0-9.]+`
-<3> a numeric identifier for the engine
-<4> the number of threads (policy instances executed in parallel) the engine should use, use `1` for single threaded engines
-<5> the port for the deployment Websocket connection to the engine
-<6> the model file to load into the engine on startup (optional)
-<7> an optional timer for periodic policies, in milliseconds (a defined periodic policy will be executed every `X` milliseconds), not used of not set or `0`
-<8> engine parameters for plugin configurations (execution environments and context handling)
-<9> engine specific parameters, mainly for executor plugins
-<10> context specific parameters, e.g. for context schemas, persistence, etc.
-
-The model file is optional, it can also be specified via command line.
-In any case, make sure all execution and other required plug-ins for the loaded model are loaded as required.