<address name="ProvisioningQueue">
<anycast>
<queue name="ProvisioningQueue"/>
</anycast>
</address>
Asynchronous Resource Configuration (Outbound)
EXPERIMENTAL
This feature is experimental.
It means that it is not intended for production use.
The feature is not finished.
It is not stable.
The implementation may contain bugs, the configuration may change at any moment without any warning and it may not work at all.
Use at your own risk.
This feature is not covered by midPoint support.
In case that you are interested in supporting development of this feature, please consider purchasing midPoint Platform subscription.
|
Since 4.3
This functionality is available since version 4.3.
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Introduction
See Asynchronous (Messaging) Outbound Resources for an introduction to the topic.
The following text will be a combination of a documentation with a simple tutorial on how to configure an asynchronous resource.
Prerequisites
Before configuring asynchronous resource, we need to have a target where it will send messages to.
The target can be a messaging queue or topic, REST endpoint, or something like that.
However, the support in midPoint is currently limited to Apache ActiveMQ Artemis queues and topics (speaking in JMS language).
Therefore, before we start, we need to have Apache ActiveMQ Artemis 2.x installed and running.
In our example we have chosen a default implementation on the local host, with enabling the security - using admin
/ secret
as the credentials.
We will use ProvisioningQueue
queue as a mechanism for communication between midPoint and (fictitious) target system.
So the queue should exist.
This can be ensured by including the following into broker.xml
configuration file:
Please see ActiveMQ Artemis documentation for more information.
JNDI preparation
Objects in JMS (connection factories, queues, topics, and so on) are typically configured via JNDI. ActiveMQ does not have a full JNDI server. Its JMS client is configured using JNDI property files. Therefore we have to prepare one.
Let’s create the following jndi.properties
file:
java.naming.factory.initial=org.apache.activemq.artemis.jndi.ActiveMQInitialContextFactory
connectionFactory.localhostConnectionFactory=tcp://localhost:61616
queue.ProvisioningQueue=ProvisioningQueue
The file has to be on the classpath.
The easiest way is to wrap it into JAR file and place that file in lib
directory in midPoint home (for standalone deployments) or into Tomcat lib directory (for explicit Tomcat deployments; but these are deprecated since midPoint 4.2).
jar cvf jndi-config.jar jndi.properties
You have to run the script from the directory where jndi.properties
file is stored:
$ jar cvf jndi-config.jar jndi.properties
added manifest
adding: jndi.properties(in = 201) (out= 136)(deflated 32%)
(Note that jar
command is part of Java Development Kit.)
Resource definition
The resource object should then look like this:
<?xml version="1.0" encoding="UTF-8"?>
<resource oid="063b83df-6bd7-4daf-9903-5010faf72f26"
xmlns="http://midpoint.evolveum.com/xml/ns/public/common/common-3"
xmlns:q="http://prism.evolveum.com/xml/ns/public/query-3"
xmlns:ri="http://midpoint.evolveum.com/xml/ns/public/resource/instance-3"
xmlns:conf="http://midpoint.evolveum.com/xml/ns/public/connector/builtin-1/bundle/com.evolveum.midpoint.provisioning.ucf.impl.builtin.async.provisioning/AsyncProvisioningConnector">
<name>Async Provisioning Resource (Artemis JMS)</name>
<connectorRef type="ConnectorType">
<filter>
<q:equal>
<q:path>connectorType</q:path>
<q:value>AsyncProvisioningConnector</q:value>
</q:equal>
</filter>
</connectorRef>
<connectorConfiguration>
<conf:targets>
<jms>
<connectionFactory>localhostConnectionFactory</connectionFactory>
<username>admin</username>
<password>secret</password>
<destination>ProvisioningQueue</destination>
</jms>
</conf:targets>
<conf:predefinedTransformation>simplifiedJson</conf:predefinedTransformation>
</connectorConfiguration>
<schema>
<definition>
<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified"
xmlns:ra="http://midpoint.evolveum.com/xml/ns/public/resource/annotation-3"
targetNamespace="http://midpoint.evolveum.com/xml/ns/public/resource/instance-3">
<xsd:import namespace="http://midpoint.evolveum.com/xml/ns/public/connector/icf-1/resource-schema-3"/>
<xsd:import namespace="http://midpoint.evolveum.com/xml/ns/public/resource/annotation-3"/>
<xsd:complexType name="AccountObjectClass">
<xsd:annotation>
<xsd:appinfo>
<ra:resourceObject/>
<ra:identifier>ri:login</ra:identifier>
<ra:displayNameAttribute>ri:login</ra:displayNameAttribute>
<ra:namingAttribute>ri:login</ra:namingAttribute>
<ra:kind>account</ra:kind>
<ra:default/>
</xsd:appinfo>
</xsd:annotation>
<xsd:sequence>
<xsd:element name="login" type="xsd:string" minOccurs="0"/>
<xsd:element name="fullName" type="xsd:string" minOccurs="0"/>
<xsd:element name="description" type="xsd:string" minOccurs="0"/>
</xsd:sequence>
</xsd:complexType>
</xsd:schema>
</definition>
</schema>
<schemaHandling>
<objectType>
<objectClass>ri:AccountObjectClass</objectClass>
<attribute>
<ref>ri:login</ref>
<outbound>
<strength>strong</strength>
<source>
<path>name</path>
</source>
</outbound>
</attribute>
<attribute>
<ref>ri:fullName</ref>
<outbound>
<strength>strong</strength>
<source>
<path>fullName</path>
</source>
</outbound>
</attribute>
<attribute>
<ref>ri:description</ref>
<outbound>
<strength>strong</strength>
<source>
<path>name</path>
</source>
<source>
<path>fullName</path>
</source>
<expression>
<script>
<code>"This is '$name' called '$fullName'"</code>
</script>
</expression>
</outbound>
</attribute>
</objectType>
</schemaHandling>
<capabilities>
<configured xmlns:cap="http://midpoint.evolveum.com/xml/ns/public/resource/capabilities-3">
<cap:read>
<cap:cachingOnly>true</cap:cachingOnly>
</cap:read>
</configured>
</capabilities>
</resource>
Let us describe individual parts of the resource definition.
Connector configuration
We have to tell the connector two things:
-
Where it should send asynchronous operation requests to.
-
How to constructs these requests.
As for the former, we use targets
element to specify one or more targets.
(Yes, it is possible to specify more than one target.
This is to ensure high availability or load balancing at the application level.
But this feature is really highly experimental, and is there mainly as a placeholder for future implementation.
Do not use it.
Specify only a single target for now.)
Target types available:
Target type | Description | Status |
---|---|---|
|
JMS 2.0 or 1.1 targets. |
Tested with JMS 2.0. |
|
Target communicating using Apache ActiveMQ Artemis Core protocol. |
Not much tested. Experimental. |
|
Custom implementation of target connection code. |
Not much tested. Experimental. |
Configuration properties for JMS target:
Property | Description | Example |
---|---|---|
|
Connection factory name. It is looked up via JNDI. |
localhostConnectionFactory |
|
User name used to authenticate to JMS broker (if needed). |
admin |
|
Password used to authenticate to JMS broker (if needed). |
secret |
|
Destination (queue or topic) to send messages to. It is looked up via JNDI. |
ProvisioningQueue |
Our sample configuration is the following:
<connectorConfiguration>
<conf:targets>
<jms>
<connectionFactory>localhostConnectionFactory</connectionFactory>
<username>admin</username>
<password>secret</password>
<destination>ProvisioningQueue</destination>
</jms>
</conf:targets>
<conf:predefinedTransformation>simplifiedJson</conf:predefinedTransformation>
</connectorConfiguration>
We give the localhostConnectionFactory
value for the name of the connection factory to use.
It is pointing to the following entry in jndi.properties
file:
connectionFactory.localhostConnectionFactory=tcp://localhost:61616
It says that midPoint will try to reach the broker using TCP protocol on the local host, at default port 61616.
When installing ActiveMQ, we chose admin
as the administrator’s user name and secret
as the password.
So we have to specify them in the configuration.
Finally, the queue we use to send messages to is ProvisioningQueue
. (The name is, of course, arbitrary.
But it should exist on the broker, and the target system should read messages from it.)
Again, ProvisioningQueue
is JNDI name.
ActiveMQ expects entry of the form queue.NAME
or topic.NAME
to exist in jndi.properties
file.
That’s why we have the following line there:
queue.ProvisioningQueue=ProvisioningQueue
Please see ActiveMQ Artemis documentation for detailed information on using JNDI properties.
Request construction
MidPoint represents operations that are to be executed on the target as internal Java objects of OperationRequested class. In order to send them to the target, they have to be transformed into text or binary form. There are a couple of predefined transformations; or we can create our own.
The predefined ones are:
Transformation | Description | Use |
---|---|---|
|
Creates JSON representation of the AsyncProvisioningOperationRequestedType object.
(It is the serializable form of |
This is the most comprehensive representation of the request, but requires rather sophisticated client to parse it.
The usual way of reading this structure is to use |
|
This is a variant of the above that omits current resource object shadow from the message (because it is usually not needed). |
The messages are shorter than in |
|
Creates simplified JSON representation of the request. The structure is described by the JsonAsyncProvisioningRequest class. The messages are serialized in JSON-native way. |
This is probably the best generic request serialization to start with.
There is one limitation, though: because namespaces are not used, it is not possible to have more attributes with the same local name, but different namespace (like |
|
Creates simplified JSON representation, but with qualified names of attributes and object class. |
It is more complex than |
In our example we will use simplifiedJson
transformation.
Schema
MidPoint usually determines schema for resource objects (accounts, groups, and so on) by querying the resource. However, in this case it is not possible to do that, because the resource is not directly reachable.
So, in a way similar to manual resources, we have to define the schema ourselves. An example:
<schema>
<definition>
<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified"
xmlns:ra="http://midpoint.evolveum.com/xml/ns/public/resource/annotation-3"
targetNamespace="http://midpoint.evolveum.com/xml/ns/public/resource/instance-3">
<xsd:import namespace="http://midpoint.evolveum.com/xml/ns/public/connector/icf-1/resource-schema-3"/>
<xsd:import namespace="http://midpoint.evolveum.com/xml/ns/public/resource/annotation-3"/>
<xsd:complexType name="AccountObjectClass">
<xsd:annotation>
<xsd:appinfo>
<ra:resourceObject/>
<ra:identifier>ri:login</ra:identifier>
<ra:displayNameAttribute>ri:login</ra:displayNameAttribute>
<ra:namingAttribute>ri:login</ra:namingAttribute>
<ra:kind>account</ra:kind>
<ra:default/>
</xsd:appinfo>
</xsd:annotation>
<xsd:sequence>
<xsd:element name="login" type="xsd:string" minOccurs="0"/>
<xsd:element name="fullName" type="xsd:string" minOccurs="0"/>
<xsd:element name="description" type="xsd:string" minOccurs="0"/>
</xsd:sequence>
</xsd:complexType>
</xsd:schema>
</definition>
</schema>
This means that accounts on the target resource have three properties:
-
login
-
fullName
-
description
Schema handling
<schemaHandling>
<objectType>
<objectClass>ri:AccountObjectClass</objectClass>
<attribute>
<ref>ri:login</ref>
<outbound>
<strength>strong</strength>
<source>
<path>name</path>
</source>
</outbound>
</attribute>
<attribute>
<ref>ri:fullName</ref>
<outbound>
<strength>strong</strength>
<source>
<path>fullName</path>
</source>
</outbound>
</attribute>
<attribute>
<ref>ri:description</ref>
<outbound>
<strength>strong</strength>
<source>
<path>name</path>
</source>
<source>
<path>fullName</path>
</source>
<expression>
<script>
<code>"This is '$name' called '$fullName'"</code>
</script>
</expression>
</outbound>
</attribute>
</objectType>
</schemaHandling>
This is a standard definition of how resource objects are created or interpreted. It is the same as for regular (connected) resources. In this particular case, it says that:
-
login
will be set to the value of user’sname
; -
fullName
will be set to the value of user’s full name; -
description
will be constructed as a string in the formThis is '$name' called '$fullName'
e.g. "This is 'jack' called 'Jack Sparrow'".
Capabilities
In order for the resource to work correctly, it must do attribute caching. It is enabled by specifying the following capabilities:
<capabilities>
<configured xmlns:cap="http://midpoint.evolveum.com/xml/ns/public/resource/capabilities-3">
<cap:read>
<cap:cachingOnly>true</cap:cachingOnly>
</cap:read>
</configured>
</capabilities>
Testing the configuration
Importing and testing the resource definition
After everything is in place (broker is running, jndi-config.jar
was created and put into lib
subdirectory in midPoint home directory, midPoint was started) we can import the resource definition.
After importing let us test it. The successful result looks like this:
And the log file should contain something like the following:
2020-12-01 17:21:47,359 [] [http-nio-8080-exec-2] INFO (com.evolveum.midpoint.provisioning.impl.ConnectorManager): Created new connector instance for ConnectorSpec(resource:063b83df-6bd7-4daf-9903-5010faf72f26(Async Provisioning Resource (Artemis JMS)), name=null, oid=38139148-e36a-4a9a-b9cc-93106d7cc598): AsyncProvisioningConnector v1.0.0
2020-12-01 17:21:47,374 [PROVISIONING] [http-nio-8080-exec-2] INFO (com.evolveum.midpoint.provisioning.ucf.impl.builtin.async.provisioning.AsyncProvisioningConnectorInstance): Setting new configuration in AsyncProvisioningConnectorInstance (Async Provisioning Resource (Artemis JMS))
2020-12-01 17:21:48,555 [] [http-nio-8080-exec-2] INFO (com.evolveum.midpoint.provisioning.impl.ResourceOperationalStateManager): Availability status changed from DOWN to UP for resource:063b83df-6bd7-4daf-9903-5010faf72f26(Async Provisioning Resource (Artemis JMS)) because testing connection using ConnectorSpec(resource:063b83df-6bd7-4daf-9903-5010faf72f26(Async Provisioning Resource (Artemis JMS)), name=null, oid=38139148-e36a-4a9a-b9cc-93106d7cc598). Connector test successful.
(Or an error description if the test is not successful.)
Creating a user and his account
Let us create a user with an account on the asynchronous resource.
If we give the user a name jack
, full name Jack Sparrow
and a resource assignment to our resource, and click on Save button, the user will be created in midPoint.
The user will have one account. The account can be displayed when opening the user.
Of course, midPoint does not know if the account was really created on the target resource. (In reality, it wasn’t.) But it assumes so; and shows the values of the attributes as they should be.
Inspecting the message queue
Using Artemis console we can have a look at ProvisioningQueue
. There should be a single message with the following content:
{
"operation" : "add",
"objectClass" : "AccountObjectClass",
"attributes" : {
"fullName" : [ "Jack Sparrow" ],
"description" : [ "This is 'jack' called 'Jack Sparrow'" ],
"login" : [ "jack" ]
}
}
This is a request to create an account with specified attributes (login, fullName, description).
Now we can play with the user, e.g. change his name or full name, unassigning the resource or even deleting the user.
Corresponding requests should be placed into ProvisioningQueue
at the broker.
For example, after changing full name to Jack SPARROW
, the following message is produced:
{
"operation" : "modify",
"objectClass" : "AccountObjectClass",
"primaryIdentifiers" : {
"login" : [ "jack" ]
},
"secondaryIdentifiers" : { },
"changes" : {
"fullName" : {
"replace" : [ "Jack SPARROW" ]
},
"description" : {
"replace" : [ "This is 'jack' called 'Jack SPARROW'" ]
}
}
}
We see that fullName
and description
attributes are affected.
The login
is unchanged, so it is not mentioned among the changes.
Advanced topics
Absolute changes
Some resources require that they receive full object state instead of relative changes.
In the example above, the resource would require getting values of all three attributes: login
, fullName
, and description
- not only changed ones.
This can be ensured by setting the following capability:
<cap:update>
<cap:attributeContentRequirement>all</cap:attributeContentRequirement>
</cap:update>
Then the changes will look like this (now changing full name back to Jack Sparrow):
{
"operation" : "modify",
"objectClass" : "AccountObjectClass",
"primaryIdentifiers" : {
"login" : [ "jack" ]
},
"secondaryIdentifiers" : { },
"changes" : {
"fullName" : {
"replace" : [ "Jack Sparrow" ]
},
"description" : {
"replace" : [ "This is 'jack' called 'Jack Sparrow'" ]
},
"login" : {
"replace" : [ "jack" ]
}
}
}
Using custom transformation
It is possible to specify custom transformation expression. An example:
<conf:transformExpression>
<script>
<code>
requestFormatter
.changeMapAsAttributes()
.format()
</code>
</script>
</conf:transformExpression>
Because the (universal) construction of the JSON change requests is quite laborious, midPoint provides a helper requestFormatter. It operates on the standard structure of "simplified JSON" (i.e. JsonAsyncProvisioningRequest
) but allows the script to configure formatting process by e.g. setting various formatting options as well as directly supplying parts of the resulting request.
In the above example we set changeMapAsAttributes
option that causes formatting REPLACE-style changes with a simple list of attribute values.
It is to be used in connection with the absolute changes mode described above.
The resulting request message looks like this:
{
"operation" : "modify",
"objectClass" : "AccountObjectClass",
"attributes" : {
"fullName" : [ "Jack SPARROW" ],
"description" : [ "This is 'jack' called 'Jack SPARROW'" ],
"login" : [ "jack" ]
},
"primaryIdentifiers" : {
"login" : [ "jack" ]
},
"secondaryIdentifiers" : { }
}
Note: For a description of individual items in this structure, please see JsonAsyncProvisioningRequest.
Custom transformation script can expect the following variables:
Variable | Type | Description |
---|---|---|
|
|
The abstract operation that is being requested by midPoint. |
|
Helper methods. Please see javadoc for the class. |
|
|
Creates requests and optionally serializes them into JSON. |
Using Apache Velocity
When creating custom text messages, Apache Velocity can help a lot. An example:
<conf:transformExpression>
<script>
<language>http://midpoint.evolveum.com/xml/ns/public/expression/language#velocity</language>
<code>#set ( $request = $requestFormatter.changeMapAsAttributes().identifiersAsAttributes().createRequest() )
#set ( $attrs = $request.attributesSimplified )
operation: $request.operation
login: $!attrs["login"]
fullName: $!attrs["fullName"]
description: $!attrs["description"]</code>
</script>
</conf:transformExpression>
This script expects single-valued attributes login
, fullName
, and description
, and creates text messages like these:
operation: add
login: jack
fullName: Jack Sparrow
description: This is 'jack' called 'Jack Sparrow'
+
operation: modify
login: jack
fullName: Jack SPARROW
description: This is 'jack' called 'Jack SPARROW'
+
operation: delete
login: jack
fullName:
description:
The template works like this:
-
$request = $requestFormatter.changeMapAsAttributes().identifiersAsAttributes().createRequest()
configures a formatter to represents both changes and identifiers as regular attributes, and then creates a request object (without serialization into JSON). So the$request
variable will contain a reference toJsonAsyncProvisioningRequest
with attributes filled-in for all three kinds of operations (add, modify, delete). -
$attrs = $request.attributesSimplified
obtains a simplified version of the attributes to the variableattrs
. The simplification means that we get a map where single-valued attributes will not be represented as collection of values (as is the case ofrequest.attributes
), but as simple values instead. -
Therefore, expressions like
$!attrs["login"]
return single values of specified attributes or null, if the given attribute has no value.
Please see Velocity User Guide for more information. (MidPoint currently uses Velocity 1.7.)