From 558f8a6e9377e8e5046593ca83ebc05883389745 Mon Sep 17 00:00:00 2001 From: Ildiko Vancsa Date: Wed, 16 Dec 2015 17:47:18 +0100 Subject: Add description about the Integrated approach JIRA: POMISE-58 Change-Id: I4ba518da301281142c06f9cf567dd932e6d93b23 Signed-off-by: Ildiko Vancsa --- docs/requirements/impl_architecture.rst | 63 +++++++++++++++++++++++++++++++++ 1 file changed, 63 insertions(+) diff --git a/docs/requirements/impl_architecture.rst b/docs/requirements/impl_architecture.rst index 46cbba1..61dabdf 100644 --- a/docs/requirements/impl_architecture.rst +++ b/docs/requirements/impl_architecture.rst @@ -93,6 +93,69 @@ Integrated architecture ----------------------- The *integrated architecture* aims at full integration with OpenStack. +This means that it is planned to use the already existing OpenStack APIs +extended with the reservation capabilities. + +The advantage of this approach is that we don't need to re-model the +complex resource structure we have for the virtual machines and the +corresponding infrastructure. + +The atomic item is the virtual machine with the minimum set of resources +it requires to be able to start it up. It is important to state that +resource reservation is handled on VM instance level as opposed to standalone +resources like CPU, memory and so forth. As the placement is an important +aspect in order to be able to use the reserved resources it provides the +constraint to handle resources in groups. + +The placement constraint also makes it impossible to use a quota management +system to solve the base use case described earlier in this document. + +OpenStack had a project called Blazar, which was created in order to provide +resource reservation functionality in cloud environments. It uses the Shelve +API of Nova, which provides a sub-optimal solution. Due to the fact that this +feature blocks the reserved resources this solution cannot be considered to +be final. Further work is needed to reach a more optimal stage, where the +Nova scheduler is intended to be used to schedule the resources for future +use to make the reservations. + +Phases of the work +^^^^^^^^^^^^^^^^^^ + +The work has two main stages to reach the final solution. The following main work items +are on the roadmap for this approach: + +#. Sub-optimal solution by using the shelve API of Nova through the Blazar project: + + * Fix the code base of the Blazar project: + + Due to integration difficulties the Blazar project got suspended. Since the last + activities in that repository the OpenStack code base and environment changed + significantly, which means that the project's code base needs to be updated to the + latest standards and has to be able to interact with the latest version of the + other OpenStack services. + + * Update the Blazar API: + + The REST API needs to be extended to contain the attributes for the reservation + defined in this document. This activity shall include testing towards the new API. + +#. Use Nova scheduler to avoid blocking the reserved resources: + + * Analyze the Nova scheduler: + + The status and the possible interface between the resource reservation system and + the Nova scheduler needs to be identified. It is crucial to achieve a much more + optimal solution than what the current version of Blazar can provide. The goal is + to be able to use the reserved resources before the reservation starts. In order to + be able to achieve this we need the scheduler to do scheduling for the future + considering the reservation intervals that are specified in the request. + + * Define a new design based on the analysis and start the work on it: + + The design for the more optimal solution can be defined only after analyzing the + structure and capabilities of the Nova scheduler. + + * This phase can be started in parallel with the previous one. Detailed Message Flows ^^^^^^^^^^^^^^^^^^^^^^ -- cgit 1.2.3-korg