diff options
author | Tomi Juvonen <tomi.juvonen@nokia.com> | 2018-08-08 14:27:16 +0300 |
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committer | Tomi Juvonen <tomi.juvonen@nokia.com> | 2018-09-18 08:58:33 +0300 |
commit | 495965d0336d42fc36494c81fd15cee2f34c96e9 (patch) | |
tree | 68fb43c09cafb5ef529bc2793d50bd8d9f2d20cc /docs/development/overview/functest_scenario | |
parent | da25598a6a31abe0579ffed12d1719e5ff75f9a7 (diff) |
Update and add test case
Fault management test case update
Adding maintenance test csae
Change-Id: I4ba1e445aa9f801c4e539257fff538253675537d
Signed-off-by: Tomi Juvonen <tomi.juvonen@nokia.com>
Diffstat (limited to 'docs/development/overview/functest_scenario')
-rw-r--r-- | docs/development/overview/functest_scenario/doctor-scenario-in-functest.rst | 171 | ||||
-rw-r--r-- | docs/development/overview/functest_scenario/images/Fault-management-design.png | bin | 0 -> 237110 bytes | |||
-rw-r--r-- | docs/development/overview/functest_scenario/images/Maintenance-design.png | bin | 0 -> 316640 bytes | |||
-rw-r--r-- | docs/development/overview/functest_scenario/images/Maintenance-workflow.png | bin | 0 -> 81286 bytes | |||
-rwxr-xr-x | docs/development/overview/functest_scenario/images/figure-p1.png | bin | 60756 -> 0 bytes |
5 files changed, 149 insertions, 22 deletions
diff --git a/docs/development/overview/functest_scenario/doctor-scenario-in-functest.rst b/docs/development/overview/functest_scenario/doctor-scenario-in-functest.rst index b3d73d5c..9f92b5bf 100644 --- a/docs/development/overview/functest_scenario/doctor-scenario-in-functest.rst +++ b/docs/development/overview/functest_scenario/doctor-scenario-in-functest.rst @@ -6,7 +6,7 @@ Platform overview """"""""""""""""" -Doctor platform provides these features in `Danube Release <https://wiki.opnfv.org/display/SWREL/Danube>`_: +Doctor platform provides these features since `Danube Release <https://wiki.opnfv.org/display/SWREL/Danube>`_: * Immediate Notification * Consistent resource state awareness for compute host down @@ -15,6 +15,8 @@ Doctor platform provides these features in `Danube Release <https://wiki.opnfv.o These features enable high availability of Network Services on top of the virtualized infrastructure. Immediate notification allows VNF managers (VNFM) to process recovery actions promptly once a failure has occurred. +Same framework can also be utilized to have VNFM awareness about +infrastructure maintenance. Consistency of resource state is necessary to execute recovery actions properly in the VIM. @@ -26,18 +28,20 @@ fault. The Doctor platform consists of the following components: * OpenStack Compute (Nova) +* OpenStack Networking (Neutron) * OpenStack Telemetry (Ceilometer) -* OpenStack Alarming (Aodh) -* Doctor Inspector -* Doctor Monitor +* OpenStack Alarming (AODH) +* Doctor Sample Inspector, OpenStack Congress or OpenStack Vitrage +* Doctor Sample Monitor or any monitor supported by Congress or Vitrage .. note:: - Doctor Inspector and Monitor are sample implementations for reference. + Doctor Sample Monitor is used in Doctor testing. However in real + implementation like Vitrage, there are several other monitors supported. You can see an overview of the Doctor platform and how components interact in :numref:`figure-p1`. -.. figure:: ./images/figure-p1.png +.. figure:: ./images/Fault-management-design.png :name: figure-p1 :width: 100% @@ -47,8 +51,19 @@ Detailed information on the Doctor architecture can be found in the Doctor requirements documentation: http://artifacts.opnfv.org/doctor/docs/requirements/05-implementation.html -Use case -"""""""" +Running test cases +"""""""""""""""""" + +Functest will call the "doctor_tests/main.py" in Doctor to run the test job. +Doctor testing can also be triggered by tox on OPNFV installer jumphost. Tox +is normally used for functional, module and coding style testing in Python +project. + +Currently, 'Apex', 'Daisy', 'Fuel' and 'local' installer are supported. + + +Fault management use case +""""""""""""""""""""""""" * A consumer of the NFVI wants to receive immediate notifications about faults in the NFVI affecting the proper functioning of the virtual resources. @@ -67,7 +82,8 @@ configuration. Detailed workflow information is as follows: * Consumer(VNFM): (step 0) creates resources (network, server/instance) and an - event alarm on state down notification of that server/instance + event alarm on state down notification of that server/instance or Neutron + port. * Monitor: (step 1) periodically checks nodes, such as ping from/to each dplane nic to/from gw of node, (step 2) once it fails to send out event @@ -75,29 +91,26 @@ Detailed workflow information is as follows: * Inspector: when it receives an event, it will (step 3) mark the host down ("mark-host-down"), (step 4) map the PM to VM, and change the VM status to - down + down. In network failure case, also Neutron port is changed to down. -* Controller: (step 5) sends out instance update event to Ceilometer +* Controller: (step 5) sends out instance update event to Ceilometer. In network + failure case, also Neutron port is changed to down and corresponding event is + sent to Ceilometer. -* Notifier: (step 6) Ceilometer transforms and passes the event to Aodh, - (step 7) Aodh will evaluate event with the registered alarm definitions, +* Notifier: (step 6) Ceilometer transforms and passes the events to AODH, + (step 7) AODH will evaluate events with the registered alarm definitions, then (step 8) it will fire the alarm to the "consumer" who owns the instance * Consumer(VNFM): (step 9) receives the event and (step 10) recreates a new instance -Test case -""""""""" - -Functest will call the "run.sh" script in Doctor to run the test job. +Fault management test case +"""""""""""""""""""""""""" -Currently, only 'Apex' and 'local' installer are supported. The test also -can run successfully in 'fuel' installer with the modification of some -configurations of OpenStack in the script. But still need 'fuel' installer -to support these configurations. +Functest will call the 'doctor-test' command in Doctor to run the test job. -The "run.sh" script will execute the following steps. +The following steps are executed: Firstly, get the installer ip according to the installer type. Then ssh to the installer node to get the private key for accessing to the cloud. As @@ -124,3 +137,117 @@ is calculated. According to the Doctor requirements, the Doctor test is successful if the notification time is below 1 second. + +Maintenance use case +"""""""""""""""""""" + +* A consumer of the NFVI wants to interact with NFVI maintenance, upgrade, + scaling and to have graceful retirement. Receiving notifications over these + NFVI events and responding to those within given time window, consumer can + guarantee zero downtime to his service. + +The maintenance use case adds the Doctor platform an `admin tool` and an +`app manager` component. Overview of maintenance components can be seen in +:numref:`figure-p2`. + +.. figure:: ./images/Maintenance-design.png + :name: figure-p2 + :width: 100% + + Doctor platform components in maintenance use case + +In maintenance use case, `app manager` (VNFM) will subscribe to maintenance +notifications triggered by project specific alarms through AODH. This is the way +it gets to know different NFVI maintenance, upgrade and scaling operations that +effect to its instances. The `app manager` can do actions depicted in `green +color` or tell `admin tool` to do admin actions depicted in `orange color` + +Any infrastructure component like `Inspector` can subscribe to maintenance +notifications triggered by host specific alarms through AODH. Subscribing to the +notifications needs admin privileges and can tell when a host is out of use as +in maintenance and when it is taken back to production. + +Maintenance test case +""""""""""""""""""""" + +Maintenance test case is currently running in our Apex CI and executed by tox. +This is because the special limitation mentioned below and also the fact we +currently have only sample implementation as a proof of concept. Environmental +variable TEST_CASE='maintenance' needs to be used when executing +"doctor_tests/main.py". Test case workflow can be seen in :numref:`figure-p3`. + +.. figure:: ./images/Maintenance-workflow.png + :name: figure-p3 + :width: 100% + + Maintenance test case workflow + +In test case all compute capacity will be consumed with project (VNF) instances. +For redundant services on instances and an empty compute needed for maintenance, +test case will need at least 3 compute nodes in system. There will be 2 +instances on each compute, so minimum number of VCPUs is also 2. Depending on +how many compute nodes there is application will always have 2 redundant +instances (ACT-STDBY) on different compute nodes and rest of the compute +capacity will be filled with non-redundant instances. + +For each project specific maintenance message there is a time window for +`app manager` to make any needed action. This will guarantee zero +down time for his service. All replies back are done by calling `admin tool` API +given in the message. + +The following steps are executed: + +Infrastructure admin will call `admin tool` API to trigger maintenance for +compute hosts having instances belonging to a VNF. + +Project specific `MAINTENANCE` notification is triggered to tell `app manager` +that his instances are going to hit by infrastructure maintenance at a specific +point in time. `app manager` will call `admin tool` API to answer back +`ACK_MAINTENANCE`. + +When the time comes to start the actual maintenance workflow in `admin tool`, +a `DOWN_SCALE` notification is triggered as there is no empty compute node for +maintenance (or compute upgrade). Project receives corresponding alarm and scales +down instances and call `admin tool` API to answer back `ACK_DOWN_SCALE`. + +As it might happen instances are not scaled down (removed) from a single +compute node, `admin tool` might need to figure out what compute node should be +made empty first and send `PREPARE_MAINTENANCE` to project telling which instance +needs to be migrated to have the needed empty compute. `app manager` makes sure +he is ready to migrate instance and call `admin tool` API to answer back +`ACK_PREPARE_MAINTENANCE`. `admin tool` will make the migration and answer +`ADMIN_ACTION_DONE`, so `app manager` knows instance can be again used. + +:numref:`figure-p3` has next a light blue section of actions to be done for each +compute. However as we now have one empty compute, we will maintain/upgrade that +first. So on first round, we can straight put compute in maintenance and send +admin level host specific `IN_MAINTENANCE` message. This is caught by `Inspector` +to know host is down for maintenance. `Inspector` can now disable any automatic +fault management actions for the host as it can be down for a purpose. After +`admin tool` has completed maintenance/upgrade `MAINTENANCE_COMPLETE` message +is sent to tell host is back in production. + +Next rounds we always have instances on compute, so we need to have +`PLANNED_MAINTANANCE` message to tell that those instances are now going to hit +by maintenance. When `app manager` now receives this message, he knows instances +to be moved away from compute will now move to already maintained/upgraded host. +In test case no upgrade is done on application side to upgrade instances +according to new infrastructure capabilities, but this could be done here as +this information is also passed in the message. This might be just upgrading +some RPMs, but also totally re-instantiating instance with a new flavor. Now if +application runs an active side of a redundant instance on this compute, +a switch over will be done. After `app manager` is ready he will call +`admin tool` API to answer back `ACK_PLANNED_MAINTENANCE`. In test case the +answer is `migrate`, so `admin tool` will migrate instances and reply +`ADMIN_ACTION_DONE` and then `app manager` knows instances can be again used. +Then we are ready to make the actual maintenance as previously trough +`IN_MAINTENANCE` and `MAINTENANCE_COMPLETE` steps. + +After all computes are maintained, `admin tool` can send `MAINTENANCE_COMPLETE` +to tell maintenance/upgrade is now complete. For `app manager` this means he +can scale back to full capacity. + +This is the current sample implementation and test case. Real life +implementation is started in OpenStack Fenix project and there we should +eventually address requirements more deeply and update the test case with Fenix +implementation. diff --git a/docs/development/overview/functest_scenario/images/Fault-management-design.png b/docs/development/overview/functest_scenario/images/Fault-management-design.png Binary files differnew file mode 100644 index 00000000..6d98cdec --- /dev/null +++ b/docs/development/overview/functest_scenario/images/Fault-management-design.png diff --git a/docs/development/overview/functest_scenario/images/Maintenance-design.png b/docs/development/overview/functest_scenario/images/Maintenance-design.png Binary files differnew file mode 100644 index 00000000..8f21db6a --- /dev/null +++ b/docs/development/overview/functest_scenario/images/Maintenance-design.png diff --git a/docs/development/overview/functest_scenario/images/Maintenance-workflow.png b/docs/development/overview/functest_scenario/images/Maintenance-workflow.png Binary files differnew file mode 100644 index 00000000..9b65fd59 --- /dev/null +++ b/docs/development/overview/functest_scenario/images/Maintenance-workflow.png diff --git a/docs/development/overview/functest_scenario/images/figure-p1.png b/docs/development/overview/functest_scenario/images/figure-p1.png Binary files differdeleted file mode 100755 index e963d8bd..00000000 --- a/docs/development/overview/functest_scenario/images/figure-p1.png +++ /dev/null |