.. http://creativecommons.org/licenses/by/4.0
**********************************************************
-Tutorial: Testing the VOLTE Use Case in a standalone PDP-D
+Tutorial: Testing the VOLTE Use Case in a standalone PDP-D
**********************************************************
.. contents::
:depth: 3
-In this tutorial we will go over how to access and start up the PDP-D, setup the prerequisites for the VOLTE flow, enable/disable the VFC Simulator that will be used in the VOLTE flow, and inject messages to trigger the VOLTE flow.
+In this tutorial we will test the vDNS flow in a standalone PDP-D docker container.
-Accessing and starting the PDP-D
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+Initial Setup
+^^^^^^^^^^^^^
-The first step is to access the docker container of name *drools*.
+It is assumed that the set up steps from section
+*Using the Control Loop PDP-D docker image for standalone testing* has been followed for
+this tutorial.
- .. code-block:: bash
-
- docker exec -it -u 0 drools su - policy
-
-The PDP-D software is installed under the *policy* account, the policy root directory is under *${POLICY_HOME}* environment variable and it may be changed on a per installation basis. It is typically set up under the */opt/app/policy* directory but can be changed during installation. All PDP-D software runs with non-root privileges as *policy* is a regular user account.
-
-Once within the drools container, the running status can be observed by using the *policy* command:
+Running the Flow
+^^^^^^^^^^^^^^^^
- .. code-block:: bash
-
- policy [--debug] status|start|stop
-
-The running status of the PDP-D can be observed with *policy status*
+**Step 1:** Deploy the vDNS Operational Policy.
.. code-block:: bash
-
- policy@drools:~$ policy status [drools-pdp-controllers] L []: Policy Management (pid 1500) is running 1 cron jobs installed.
-
-
-Prerequisites for the VOLTE flow
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-In order to trigger the VOLTE flow we will need to inject an ONSET message via curl command. We're going to create a temporary *util* directory to store a file that contains the VOLTE ONSET message.
-Navigate to */tmp* and create directory *util*. *util* is just a temporary folder we've created to use as our 'workspace'.
+ cat pdp-update-volte.json
+ {
+ "policies": [
+ {
+ "type": "onap.policies.controlloop.Operational",
+ "type_version": "1.0.0",
+ "properties": {
+ "content": "controlLoop%3A%0A%20%20version%3A%202.0.0%0A%20%20controlLoopName%3A%20ControlLoop-VOLTE-2179b738-fd36-4843-a71a-a8c24c70c55b%0A%20%20trigger_policy%3A%20unique-policy-id-1-restart%0A%20%20timeout%3A%203600%0A%20%20abatement%3A%20false%0A%0Apolicies%3A%0A%20%20-%20id%3A%20unique-policy-id-1-restart%0A%20%20%20%20name%3A%20Restart%20the%20VM%0A%20%20%20%20description%3A%0A%20%20%20%20actor%3A%20VFC%0A%20%20%20%20recipe%3A%20Restart%0A%20%20%20%20target%3A%0A%20%20%20%20%20%20type%3A%20VM%0A%20%20%20%20retry%3A%203%0A%20%20%20%20timeout%3A%201200%0A%20%20%20%20success%3A%20final_success%0A%20%20%20%20failure%3A%20final_failure%0A%20%20%20%20failure_timeout%3A%20final_failure_timeout%0A%20%20%20%20failure_retries%3A%20final_failure_retries%0A%20%20%20%20failure_exception%3A%20final_failure_exception%0A%20%20%20%20failure_guard%3A%20final_failure_guard%0A"
+ },
+ "name": "operational.volte",
+ "version": "1.0.0"
+ }
+ ],
+ "messageName": "PDP_UPDATE",
+ "requestId": "a7a32d3b-37b4-4fb7-9322-b90c6a6fe365",
+ "timestampMs": 1556125347251,
+ "name": "PDPDcl",
+ "pdpGroup": "controlloop",
+ "pdpSubgroup": "drools"
+ }
- .. code-block:: bash
-
- cd /tmp
- mkdir util
+ http --verify=no -a "${TELEMETRY_USER}:${TELEMETRY_PASSWORD}" PUT https://localhost:9696/policy/pdp/engine/topics/sources/noop/POLICY-PDP-PAP/events @pdp-update-volte.json Content-Type:'text/plain'
+ telemetry
+ > get controllers/usecases/drools/facts/usecases/controlloops
+ > get controllers/usecases/drools/facts/usecases/controlloops/ControlLoop-VOLTE-2179b738-fd36-4843-a71a-a8c24c70c55b
-Next, we're going to create a file named *dcae.volte.onset.json* and edit it to paste the VOLTE ONSET message contents.
+**Step 2:** Inject a simulated *ONSET* message.
.. code-block:: bash
-
- touch dcae.volte.onset.json
- vi dcae.volte.onset.json
-
-Here are the contents of the VOLTE ONSET message. Copy/paste this into dcae.volte.onset.json:
-
- .. code-block:: json
+ cat dcae.volte.onset.json
{
"closedLoopControlName": "ControlLoop-VOLTE-2179b738-fd36-4843-a71a-a8c24c70c55b",
"closedLoopAlarmStart": 1484677482204798,
"from": "DCAE",
"version": "1.0.2"
}
-
-
-Enabling the VFC Simulator
-^^^^^^^^^^^^^^^^^^^^^^^^^^
-Enabling the *controlloop-utils* feature will enable the simulators. To do this, simply stop the drools pdp, enable the feature, and restart the drools pdp like so:
-
- .. code-block:: bash
-
- policy stop
- features enable controlloop-utils
- policy start
-
-Now, in */opt/app/policy/config/* directory, you should see a new properties file named *simulators.properties.environment*. In here you will find the credentials for the VFC simulator.
-
-Injecting an ONSET to trigger the VOLTE Flow
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-We are now ready to inject an ONSET message to trigger the VOLTE flow. Simply navigate back to the directory *dcae.volte.onset.json* file is saved (i.e. cd /tmp/util) and run this curl command:
-
- .. code-block:: bash
-
- http --verify=no --default-scheme=https -a @1b3rt:31nst31n PUT :9696/policy/pdp/engine/topics/sources/ueb/unauthenticated.DCAE_CL_OUTPUT/events @dcae.volte.onset.json Content-Type:"text/plain"
-
-You should see some output similar to this:
-
-.. image:: tutorial_VOLTE_1.png
-
-You can view the logs to see the network activity or find any errors that may have occurred. Logs are located in */opt/app/policy/logs*.
-
-Reading the logs
-^^^^^^^^^^^^^^^^
-
-Once you've injected the onset message, this should appear in the network.log:
-
-.. image:: tutorial_VOLTE_2.png
+ http --verify=no -a "${TELEMETRY_USER}:${TELEMETRY_PASSWORD}" PUT https://localhost:9696/policy/pdp/engine/topics/sources/noop/POLICY-PDP-PAP/events @dcae.volte.onset.json Content-Type:'text/plain'
+The network log can be used to monitor the PDP-D network input/output operations.
+This log is located at *$POLICY_LOGS/network.log*.
+The log file will show interactions with the AAI and SO simulator to fulfill the flow.
+Once the transaction has completed, a final success notification will be recorded in this file.
End of Document
-
-.. SSNote: Wiki page ref. https://wiki.onap.org/display/DW/Tutorial%3A+Testing+the+VOLTE+Use+Case+in+a+standalone+PDP-D
cd $POLICY_HOME/config
sed -i "s/^guard.disabled=*$/guard.disabled=true/g" $POLICY_HOME/config/controlloop.properties.environment
-
+ sed -i "s/^aai.customQuery=*$/aai.customQuery=false/g" $POLICY_HOME/config/controlloop.properties.environment
+
**Step 5:** Start the CL PDP-D.
.. code-block:: bash
• vFW - `Tutorial: Testing the vFW flow in a standalone PDP-D <tutorial_vFW.html>`_
• VoLTE - `Tutorial: Testing the VOLTE Use Case in a standalone PDP-D <tutorial_VOLTE.html>`_
-
.. seealso:: To deploy a control loop in Eclipse from the control loop archetype template, refer to `Modifying the Release Template <modAmsterTemplate.html>`_.
.. contents::
:depth: 3
-In this tutorial we will go over how to access and start up the PDP-D, setup the prerequisites for the vDNS flow, enable/disable the AAI and SO Simulators that will be used in the vDNS flow, and inject messages to trigger the vDNS flow.
+In this tutorial we will test the vDNS flow in a standalone PDP-D docker container.
-Accessing and starting the PDP-D
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+Initial Setup
+^^^^^^^^^^^^^
-The first step is to access the docker container of name *drools*.
+It is assumed that the set up steps from section
+*Using the Control Loop PDP-D docker image for standalone testing* has been followed for
+this tutorial.
- .. code-block:: bash
-
- docker exec -it -u 0 drools su - policy
-
-The PDP-D software is installed under the *policy* account, the policy root directory is under *${POLICY_HOME}* environment variable and it may be changed on a per installation basis. It is typically set up under the */opt/app/policy* directory but can be changed during installation. All PDP-D software runs with non-root privileges as *policy* is a regular user account.
+Running the Flow
+^^^^^^^^^^^^^^^^
-Once within the drools container, the running status can be observed by using the *policy* command:
+**Step 1:** Deploy the vDNS Operational Policy.
.. code-block:: bash
-
- policy [--debug] status|start|stop
-
-The running status of the PDP-D can be observed with *policy status*
- .. code-block:: bash
-
- policy@drools:~$ policy status [drools-pdp-controllers] L []: Policy Management (pid 1500) is running 1 cron jobs installed.
-
-
-Prerequisites for the vDNS flow
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-In order to trigger the vDNS flow we will need to inject an ONSET message via curl command. We're going to create a temporary *util* directory to store a file that contains the vDNS ONSET message.
-
-Navigate to */tmp* and create directory *util*. *util* is just a temporary folder we've created to use as our 'workspace'.
+ cat pdp-update-vdns.json
+ {
+ "policies": [
+ {
+ "type": "onap.policies.controlloop.Operational",
+ "type_version": "1.0.0",
+ "properties": {
+ "content": "controlLoop%3A%0A%20%20version%3A%202.0.0%0A%20%20controlLoopName%3A%20ControlLoop-vDNS-6f37f56d-a87d-4b85-b6a9-cc953cf779b3%0A%20%20services%3A%0A%20%20%20%20-%20serviceName%3A%20d4738992-6497-4dca-9db9%0A%20%20%20%20%20%20serviceInvariantUUID%3A%20dc112d6e-7e73-4777-9c6f-1a7fb5fd1b6f%0A%20%20%20%20%20%20serviceUUID%3A%202eea06c6-e1d3-4c3a-b9c4-478c506eeedf%0A%20%20trigger_policy%3A%20unique-policy-id-1-scale-up%0A%20%20timeout%3A%2060%0A%20%0Apolicies%3A%0A%20%20-%20id%3A%20unique-policy-id-1-scale-up%0A%20%20%20%20name%3A%20Create%20a%20new%20VF%20Module%0A%20%20%20%20description%3A%0A%20%20%20%20actor%3A%20SO%0A%20%20%20%20recipe%3A%20VF%20Module%20Create%0A%20%20%20%20target%3A%0A%20%20%20%20%20%20type%3A%20VFMODULE%0A%20%20%20%20%20%20modelInvariantId%3A%2090b793b5-b8ae-4c36-b10b-4b6372859d3a%0A%20%20%20%20%20%20modelVersionId%3A%202210154d-e61a-4d7f-8fb9-0face1aee3f8%0A%20%20%20%20%20%20modelName%3A%20SproutScalingVf..scaling_sprout..module-1%0A%20%20%20%20%20%20modelVersion%3A%201%0A%20%20%20%20%20%20modelCustomizationId%3A%203e2d67ad-3495-4732-82f6-b0b872791fff%0A%20%20%20%20payload%3A%0A%20%20%20%20%20%20requestParameters%3A%20%27%7B%22usePreload%22%3Atrue%2C%22userParams%22%3A%5B%5D%7D%27%0A%20%20%20%20%20%20configurationParameters%3A%20%27%5B%7B%22ip-addr%22%3A%22%24.vf-module-topology.vf-module-parameters.param%5B9%5D%22%2C%22oam-ip-addr%22%3A%22%24.vf-module-topology.vf-module-parameters.param%5B16%5D%22%2C%22enabled%22%3A%22%24.vf-module-topology.vf-module-parameters.param%5B23%5D%22%7D%5D%27%0A%20%20%20%20retry%3A%200%0A%20%20%20%20timeout%3A%2030%0A%20%20%20%20success%3A%20final_success%0A%20%20%20%20failure%3A%20final_failure%0A%20%20%20%20failure_timeout%3A%20final_failure_timeout%0A%20%20%20%20failure_retries%3A%20final_failure_retries%0A%20%20%20%20failure_exception%3A%20final_failure_exception%0A%20%20%20%20failure_guard%3A%20final_failure_guard%0A"
+ },
+ "name": "operational.scaleout",
+ "version": "1.0.0"
+ }
+ ],
+ "messageName": "PDP_UPDATE",
+ "requestId": "a7a32d3b-37b4-4fb7-9322-b90c6a6fe365",
+ "timestampMs": 1556125347251,
+ "name": "PDPDcl",
+ "pdpGroup": "controlloop",
+ "pdpSubgroup": "drools"
+ }
- .. code-block:: bash
-
- cd /tmp
- mkdir util
+ http --verify=no -a "${TELEMETRY_USER}:${TELEMETRY_PASSWORD}" PUT https://localhost:9696/policy/pdp/engine/topics/sources/noop/POLICY-PDP-PAP/events @pdp-update-vdns.json Content-Type:'text/plain'
+ telemetry
+ > get controllers/usecases/drools/facts/usecases/controlloops
+ > get controllers/usecases/drools/facts/usecases/controlloops/ControlLoop-vDNS-6f37f56d-a87d-4b85-b6a9-cc953cf779b3
-Next, we're going to create a file named *dcae.vdns.onset.json* and edit it to paste the vDNS ONSET message contents.
+**Step 2:** Inject a simulated *ONSET* message.
.. code-block:: bash
-
- touch dcae.vdns.onset.json
- vi dcae.vdns.onset.json
-
-Here are the contents of the vDNS ONSET message. Copy/paste this into dcae.vdns.onset.json:
- .. code-block:: json
-
+ cat dcae.vdns.onset.json
{
"closedLoopControlName": "ControlLoop-vDNS-6f37f56d-a87d-4b85-b6a9-cc953cf779b3",
"closedLoopAlarmStart": 1484677482204798,
"from": "DCAE",
"version": "1.0.2"
}
-
+ http --verify=no -a "${TELEMETRY_USER}:${TELEMETRY_PASSWORD}" PUT https://localhost:9696/policy/pdp/engine/topics/sources/noop/DCAE_TOPIC/switches/activation # activate noop source
-Enabling the AAI and SO Simulators
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+ http --verify=no -a "${TELEMETRY_USER}:${TELEMETRY_PASSWORD}" PUT https://localhost:9696/policy/pdp/engine/topics/sources/noop/DCAE_TOPIC/events @dcae.vdns.onset.json Content-Type:'text/plain' # send onset
-Enabling the *controlloop-utils* feature will enable the simulators. To do this, simply stop the drools pdp, enable the feature, and restart the drools pdp like so:
+The network log can be used to monitor the PDP-D network input/output operations. This log is located at *$POLICY_LOGS/network.log*. The log file will show interactions with the AAI and SO simulator to fulfill the flow. Once the transaction has completed, a final success notification will be recorded in this file.
.. code-block:: bash
-
- policy stop
- features enable controlloop-utils
- policy start
-
-Now, in */opt/app/policy/config/* directory, you should see a new properties file named *simulators.properties.environment*. In here you will find the credentials for the AAI and SO simulators.
-
-Injecting an ONSET to trigger the vDNS Flow
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-We are now ready to inject an ONSET message to trigger the vDNS flow. Simply navigate back to the directory *dcae.vdns.onset.json* file is saved (i.e. cd /tmp/util) and run this curl command:
-
- .. code-block:: bash
-
- http --verify=no --default-scheme=https -a @1b3rt:31nst31n PUT :9696/policy/pdp/engine/topics/sources/ueb/unauthenticated.DCAE_CL_OUTPUT/events @dcae.vdns.onset.json Content-Type:"text/plain"
-
-You should see some output similar to this:
-
- .. image:: tutorial_vDNS_1.png
-
-You can view the logs to see the network activity or find any errors that may have occurred. Logs are located in */opt/app/policy/logs*.
-
-Reading the logs
-^^^^^^^^^^^^^^^^
-
-Once you've injected the onset message, this should appear in the network.log:
-
- .. image:: tutorial_vDNS_2.png
+ {
+ "AAI": {
+ "vserver.prov-status": "ACTIVE",
+ "vserver.is-closed-loop-disabled": "false",
+ "vserver.vserver-name": "dfw1lb01lb01"
+ },
+ "closedLoopAlarmStart": 1484677482204798,
+ "closedLoopControlName": "ControlLoop-vDNS-6f37f56d-a87d-4b85-b6a9-cc953cf779b3",
+ "version": "1.0.2",
+ "requestId": "e4f95e0c-a013-4530-8e59-c5c5f9e539b6",
+ "closedLoopEventClient": "DCAE_INSTANCE_ID.dcae-tca",
+ "targetType": "VNF",
+ "target": "vserver.vserver-name",
+ "from": "policy:usecases",
+ "policyScope": "onap.policies.controlloop.Operational:1.0.0",
+ "policyName": "operational.scaleout.EVENT.MANAGER",
+ "policyVersion": "1.0.0",
+ "notification": "FINAL: SUCCESS",
+ "notificationTime": "2019-06-24 20:52:16.370000+00:00",
+ "history": [
+ {
+ "actor": "SO",
+ "operation": "VF Module Create",
+ "target": "Target [type=VFMODULE, resourceId=null]",
+ "start": 1561409536125,
+ "end": 1561409536368,
+ "subRequestId": "1",
+ "outcome": "Success",
+ "message": "200 Success"
+ }
+ ]
+ }
End of Document
-
-.. SSNote: Wiki page ref. https://wiki.onap.org/display/DW/Tutorial%3A+Testing+the+vDNS+Use+Case+in+a+standalone+PDP-D
.. http://creativecommons.org/licenses/by/4.0
****************************************************
-Tutorial: Testing the vFW flow in a standalone PDP-D
+Tutorial: Testing the vFW flow in a standalone PDP-D
****************************************************
.. contents::
High Level Architecture
-^^^^^^^^^^^^^^^^^^^^^^^
+^^^^^^^^^^^^^^^^^^^^^^^
The vFW flow begins with an onset message that is sent from DCAE notifying the PDP-D that an action needs to be taken on a VNF. Once the PDP-D has inserted the onset into drools memory, rules begin to fire to start processing the onset for the vFW policy that exists in drools memory. If the onset is not enriched with A&AI data, Policy will query A&AI for the VNF data otherwise the PDP-D will get the A&AI data needed directly from the onset. Then an A&AI named query is executed on the source VNF entity from the onset to find the target VNF entity that the PDP-D will take action on. Once the target entity is retrieved from A&AI, a Guard query is executed to determine if the action to be taken is allowed. If Guard returns a permit, the PDP-D will then send an APPC ModifyConfig recipe request to modify pg-streams as specified in the request payload. If APPC is successful then the PDP-D will send a final success notification on the POLICY-CL-MGT topic and gracefully end processing the event.
Initial Setup
-^^^^^^^^^^^^^
+^^^^^^^^^^^^^
-For this tutorial, a feature for simulating components involved in the flow outside of Policy will be turned on. Run "*features enable controlloop-utils*".
-
- .. image:: Tut_vFW_simulators_enabled.JPG
-
-Now start the PDP-D using the command "policy start"
-
- .. image:: Tut_vFW_policy_start.JPG
+For this tutorial, it is assumed that the set up steps from section
+*Using the Control Loop PDP-D docker image for standalone testing* has been followed.
Running the Flow
-^^^^^^^^^^^^^^^^
-
-The telemetry API is used to see what is in memory. There should only be 1 fact, the Params object which is created at initialization time and contains the vFW policy that was created.
+^^^^^^^^^^^^^^^^
+
+**Step 1:** Deploy the vFW Operational Policy.
+
+ .. code-block:: bash
+
+ cat pdp-update-vfw.json
+ {
+ "policies": [
+ {
+ "type": "onap.policies.controlloop.Operational",
+ "type_version": "1.0.0",
+ "properties": {
+ "content": "controlLoop%3A%0A++++version%3A+2.0.0%0A++++controlLoopName%3A+ControlLoop-vFirewall-135835e3-eed7-497a-83ab-8c315f37fa4a%0A++++trigger_policy%3A+unique-policy-id-1-modifyConfig%0A++++timeout%3A+1200%0A++++abatement%3A+false%0Apolicies%3A%0A++++-+id%3A+unique-policy-id-1-modifyConfig%0A++++++name%3A+modify_packet_gen_config%0A++++++description%3A%0A++++++actor%3A+APPC%0A++++++recipe%3A+ModifyConfig%0A++++++target%3A%0A++++++++++resourceID%3A+Eace933104d443b496b8.nodes.heat.vpg%0A++++++++++type%3A+VNF%0A++++++payload%3A%0A++++++++++streams%3A+%27%7B%22active-streams%22%3A5%7D%27%0A++++++retry%3A+0%0A++++++timeout%3A+300%0A++++++success%3A+final_success%0A++++++failure%3A+final_failure%0A++++++failure_timeout%3A+final_failure_timeout%0A++++++failure_retries%3A+final_failure_retries%0A++++++failure_exception%3A+final_failure_exception%0A++++++failure_guard%3A+final_failure_guard%0A"
+ },
+ "name": "operational.modifyconfig",
+ "version": "1.0.0"
+ }
+ ],
+ "messageName": "PDP_UPDATE",
+ "requestId": "a7a32d3b-37b4-4fb7-9322-b90c6a6fe365",
+ "timestampMs": 1556125347251,
+ "name": "PDPDcl",
+ "pdpGroup": "controlloop",
+ "pdpSubgroup": "drools"
+ }
+
+ http --verify=no -a "${TELEMETRY_USER}:${TELEMETRY_PASSWORD}" PUT https://localhost:9696/policy/pdp/engine/topics/sources/noop/POLICY-PDP-PAP/events @pdp-update-vfw.json Content-Type:'text/plain'
+
+ telemetry
+ > get controllers/usecases/drools/facts/usecases/controlloops
+ > get controllers/usecases/drools/facts/usecases/controlloops/ControlLoop-vFirewall-135835e3-eed7-497a-83ab-8c315f37fa4a
+
+**Step 2:** Inject a simulated *ONSET* message.
.. code-block:: bash
- curl -k --silent --user @1b3rt:31nst31n -X GET https://localhost:9696/policy/pdp/engine/controllers/amsterdam/drools/facts/amsterdam | python -m json.tool
+ cat dcae.vfw.onset.json
+ {
+ "closedLoopControlName": "ControlLoop-vFirewall-135835e3-eed7-497a-83ab-8c315f37fa4a",
+ "closedLoopAlarmStart": 1463679805324,
+ "closedLoopEventClient": "microservice.stringmatcher",
+ "closedLoopEventStatus": "ONSET",
+ "requestID": "c7c6a4aa-bb61-4a15-b831-ba1472dd4a65",
+ "target_type": "VNF",
+ "target": "generic-vnf.vnf-id",
+ "AAI": {
+ "generic-vnf.is-closed-loop-disabled": "false",
+ "generic-vnf.prov-status": "ACTIVE",
+ "generic-vnf.vnf-id": "fw0002vm002fw002"
+ },
+ "from": "DCAE",
+ "version": "1.0.2"
+ }
- .. image:: Tut_vFW_get_facts.JPG
+ # activate NOOP sources
-Using the telemetry API, a simulated onset can be injected by the user. For demo purposes, this is the simulated onset that will be used:
+ http --verify=no -a "${TELEMETRY_USER}:${TELEMETRY_PASSWORD}" PUT https://localhost:9696/policy/pdp/engine/topics/sources/noop/DCAE_TOPIC/switches/activation
- .. image:: Tut_vFW_simulated_onset.JPG
+ http --verify=no -a "${TELEMETRY_USER}:${TELEMETRY_PASSWORD}" PUT https://localhost:9696/policy/pdp/engine/topics/sources/noop/APPC-CL/switches/activation
-**NOTE:** The onset that gets injected has to have a closedLoopControlName that matches the pushed policy's closedLoopControlName.
+ http --verify=no -a "${TELEMETRY_USER}:${TELEMETRY_PASSWORD}" PUT https://localhost:9696/policy/pdp/engine/topics/sources/noop/DCAE_TOPIC/events @dcae.vfw.onset.json Content-Type:'text/plain' # send onset
-Inject the onset using the Telemetry API.
+Using the telemetry API, a simulated onset can be injected by the user.
+For demo purposes, this is the simulated onset that will be used:
- .. code-block:: bash
-
- curl -k --silent --user @1b3rt:31nst31n --header "Content-Type: text/plain" --data @dcae.vfw.onset.json -X PUT https://localhost:9696/policy/pdp/engine/topics/sources/ueb/unauthenticated.DCAE_EVENT_OUTPUT/events | python -m json.tool
+ .. image:: Tut_vFW_simulated_onset.JPG
- .. image:: Tut_vFW_onset_injected.JPG
+**NOTE:** The onset that gets injected has to have a closedLoopControlName that matches
+the pushed policy's closedLoopControlName.
-Now check the facts in memory, there should be 7 objects present. Two timers exist to put a time limit on the operation and on the overall control loop (in the case of retries or policy chaining). The event and it's associated manager and operation manager are also present in memory. A lock on the target entity is inserted to ensure no other events try to take action on the VNF that is currently processing.
+There should be 8 objects present. Two timers exist to put a time limit on the operation and on
+the overall control loop (in the case of retries or policy chaining).
+The event and it's associated manager and operation manager are also present in memory.
+A lock on the target entity is inserted to ensure no other events try to take action on
+the VNF that is currently processing.
- .. image:: Tut_vFW_get_facts_2.JPG
+The network log will be used to monitor the activity coming in and out of the PDP-D.
+This log is located at *$POLICY_HOME/logs/network.log*.
+This will show the notifications that the PDP-D sends out at different stages of processing.
+The order of successful processing begins with an ACTIVE notification to show that the onset
+was acknowledged and the operation is beginning transit.
-The network log will be used to monitor the activity coming in and out of the PDP-D. This log is located at *$POLICY_HOME/logs/network.log*. This will show the notifications that the PDP-D sends out at different stages of processing. The order of successful processing begins with an ACTIVE notification to show that the onset was acknowledged and the operation is beginning transit.
-
.. image:: Tut_vFW_policy_active.JPG
Next a query will be sent to A&AI to get information on the VNF specified from the onset. The picture below shows the query going OUT of the PDP-D and the response coming IN.
.. image:: Tut_vFW_policy_operation_start.JPG
-Once the operation starts an APPC request is sent out.
-
- .. image:: Tut_vFW_appc_request.JPG
-
-A simulated APPC response will be injected to the APPC-CL topic, this is the example response used:
-
- .. image:: Tut_vFW_simulated_appc_response.JPG
+**Step 3:** Inject an APPC response in the APPC-CL topic
-Inject the response using the Telemetry API.
+A simulated APPC response will be injected to the APPC-CL topic.
.. code-block:: bash
- curl -k --silent --user @1b3rt:31nst31n --header "Content-Type: text/plain" --data @appc.legacy.success.json -X PUT https://localhost:9696/policy/pdp/engine/topics/sources/ueb/APPC-CL/events | python -m json.tool
-
- .. image:: Tut_vFW_insert_appc_response.JPG
+ cat appc.legacy.success.json
+ {
+ "CommonHeader": {
+ "TimeStamp": 1506051879001,
+ "APIver": "1.01",
+ "RequestID": "c7c6a4aa-bb61-4a15-b831-ba1472dd4a65",
+ "SubRequestID": "1",
+ "RequestTrack": [],
+ "Flags": []
+ },
+ "Status": {
+ "Code": 400,
+ "Value": "SUCCESS"
+ },
+ "Payload": {
+ "streams": {
+ "active-streams": 5.0
+ },
+ "generic-vnf.vnf-id": "7da01f3d-1e1f-374f-b049-f6385fe8d067"
+ }
+ }
+
+ http --verify=no -a "${TELEMETRY_USER}:${TELEMETRY_PASSWORD}" PUT https://localhost:9696/policy/pdp/engine/topics/sources/noop/APPC-CL/switches/activation # activate noop source
+
+ http --verify=no -a "${TELEMETRY_USER}:${TELEMETRY_PASSWORD}" PUT https://localhost:9696/policy/pdp/engine/topics/sources/noop/APPC-CL/events @appc.legacy.success.json Content-Type:'text/plain'
The network log will show the PDP-D sent an operation success notification.
.. image:: Tut_vFW_policy_final_success.JPG
-After processing there should only be 1 fact left in memory.
-
- .. image:: Tut_vFW_final_memory.JPG
-
-
-
+After processing there should only be 2 facts left in memory.
End of Document
-
-
-
-
-.. SSNote: Wiki page ref. https://wiki.onap.org/display/DW/Tutorial%3A+Testing+the+vFW+flow+in+a+standalone+PDP-D
-
Code Review / policy / parent.git / commitdiff
