From f1b54b7c135fc108e60e0fc04fcb9a94a61c3274 Mon Sep 17 00:00:00 2001 From: fuqiao Date: Fri, 23 Mar 2018 17:01:25 +0800 Subject: Release doc for F: HA scheme analysis for OPNFV document for Fraser release, including HA schema analysis for OPNFV. currently mostly focusing on VIM. will extend the content to include other components JIRA: HA-34 Change-Id: I50c308357db16eedd501542b2439d5d5311eaa5e Signed-off-by: fuqiao@chinamobile.com --- docs/development/overview/HA_Analysis.rst | 407 ++++++++++++++++++++- .../overview/images/Active_Active_Redundancy.png | Bin 0 -> 47984 bytes .../overview/images/Active_Passive_Redundancy.png | Bin 0 -> 40769 bytes docs/development/overview/images/KAOS_Sample.png | Bin 0 -> 61999 bytes docs/development/overview/images/Message_Queue.png | Bin 0 -> 37164 bytes .../overview/images/Total_Framework.png | Bin 0 -> 108646 bytes docs/development/overview/images/VIM_Analysis.png | Bin 0 -> 55324 bytes 7 files changed, 405 insertions(+), 2 deletions(-) create mode 100644 docs/development/overview/images/Active_Active_Redundancy.png create mode 100644 docs/development/overview/images/Active_Passive_Redundancy.png create mode 100644 docs/development/overview/images/KAOS_Sample.png create mode 100644 docs/development/overview/images/Message_Queue.png create mode 100644 docs/development/overview/images/Total_Framework.png create mode 100644 docs/development/overview/images/VIM_Analysis.png diff --git a/docs/development/overview/HA_Analysis.rst b/docs/development/overview/HA_Analysis.rst index 4c17664..06c0487 100644 --- a/docs/development/overview/HA_Analysis.rst +++ b/docs/development/overview/HA_Analysis.rst @@ -1,3 +1,406 @@ -Overview -===================================================================== +.. image:: opnfv-logo.png + :height: 40 + :width: 200 + :alt: OPNFV + :align: left +============ +High Availability Requirement Analysis in OPNFV +============ + +****************** +1 Introduction +****************** +This High Availability Requirement Analysis Document is used for eliciting High Availability +Requirements of OPNFV. The document will refine high-level High Availability goals, into +detailed HA mechanism design. And HA mechanisms are related with potential failures on +different layers in OPNFV. Moreover, this document can be used as reference for HA Testing +scenarios design. +A requirement engineering model KAOS is used in this document. + +****************** +2 Terminologies and Symbols +****************** +The following concepts in KAOS will be used in the diagrams of this document. + +- **Goal**: The objective to be met by the target system. + +- **Obstacle**: Condition whose satisfaction may prevent some goals from being achieved. + +- **Agent**: Active Object performing operations to achieve goals. + +- **Requirement**: Goal assigned to an agent of the software being studied. + +- **Domain Property**: Descriptive assertion about objects in the environment of the software. + +- **Refinement**: Relationship linking a goal to other goals that are called its subgoals. + Each subgoal contributes to the satisfaction of the goal it refines. There are two types of + refinements: AND refinement and OR refinement, which means whether the goal can be archived by + satisfying all of its sub goals or any one of its sub goals. + +- **Conflict**: Relationship linking an obstacle to a goal if the obstacle obstructs the goal + from being satisfied. + +- **Resolution**: Relationship linking a goal to an obstacle if the goal can resolve the + obstacle. + +- **Responsibility**: Relationship between an agent and a requirement. Holds when an agent is + assigned the responsibility of achieving the linked requirement. + +Figure 1 shows how these concepts are displayed in a KAOS diagram. + +.. figure:: images/KAOS_Sample.png + :alt: KAOS Sample + :figclass: align-center + + Fig 1. A KAOS Sample Diagram + +****************** +3 High Availability Goals of OPNFV +****************** + +3.1 Overall Goals +>>>>>>>>>>>>>>>>>> + +The Final Goal of OPNFV High Availability is to provide high available VNF services. And the +following objectives are required to meet: + +- There should be no single point of failure in the NFV framework. + +- All resiliency mechanisms shall be designed for a multi-vendor environment, where for example + the NFVI, NFV-MANO, and VNFs may be supplied by different vendors. + +- Resiliency related information shall always be explicitly specified and communicated using + the reference interfaces (including policies/templates) of the NFV framework. + + + +3.2 Service Level Agreements of OPNFV HA +>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> + +Service Level Agreements of OPNFV HA are mainly focused on time constraints of service outage, +failure detection, failure recovery. The following table outlines the SLA metrics of different +service availability levels described in ETSI GS NFV-REL 001 V1.1.1 (2015-01). Table 1 shows +time constraints of different Service Availability Levels. In this document, SAL1 is the +default benchmark value required to meet. + +*Table 1. Time Constraints for Different Service Availability Levels* + ++--------------------------------+----------------------------+------------------------+ +| Service Availability Level | Failure Detection Time | Failure Recovery Time | ++================================+============================+========================+ +| SAL1 | <1s | 5-6s | ++--------------------------------+----------------------------+------------------------+ +| SAL2 | <5s | 10-15s | ++--------------------------------+----------------------------+------------------------+ +| SAL3 | <10s | 20-25s | ++--------------------------------+----------------------------+------------------------+ + + +****************** +4 Overall Analysis +****************** +Figure 2 shows the overall decomposition of high availability goals. The high availability of +VNF Services can be refined to high availability of VNFs, MANO, and the NFVI where VNFs are +deployed; the high availability of NFVI Service can be refined to high availability of Virtual +Compute Instances, Virtual Storage and Virtual Network Services; the high availability of +virtual instance is either the high availability of containers or the high availability of VMs, +and these high availability goals can be further decomposed by how the NFV environment is +deployed. + +.. figure:: images/Total_Framework.png + :alt: Overall HA Analysis of OPNFV + :figclass: align-center + + Fig 2. Overall HA Analysis of OPNFV + +Thus the high availability requirement of VNF services can be classified into high availability +requirements on different layers in OPNFV. The following layers are mainly discussed in this +document: + +- VNF HA + +- MANO HA + +- Virtual Infrastructure HA (container HA or VM HA) + +- VIM HA + +- SDN HA + +- Hypervisor HA + +- Host OS HA + +- Hardware HA + +The next section will illustrate detailed analysis of HA requirements on these layers. + +****************** +5 Detailed Analysis +****************** + +5.1 VNF HA +>>>>>>>>>>>>>>>>>> + +.. TBD + +5.2 MANO HA +>>>>>>>>>>>>>>>>>> + +.. TBD + +5.3 Virtual Infrastructure HA +>>>>>>>>>>>>>>>>>> + +.. TBD + +5.4 VIM HA +>>>>>>>>>>>>>>>>>> + +The VIM in the NFV reference architecture contains different components of Openstack, SDN +controllers and other virtual resource controllers. VIM components can be classified into three +types: + +- **Entry Point Components**: Components that give VIM service interfaces to users, like nova- + api, neutron-server. + +- **Middlewares**: Components that provide load balancer services, messaging queues, cluster + management services, etc. + +- **Subcomponents**: Components that implement VIM functions, which are called by Entry Point + Components but not by users directly. + +Table 2 shows the potential faults that may happen on VIM layer. Currently the main focus of +VIM HA is the service crash of VIM components, which may occur on all types of VIM components. +To prevent VIM services from being unavailable, Active/Active Redundancy, Active/Passive +Redundancy and Message Queue are used for different types of VIM components, as is shown in +figure 3. + +*Table 2. Potential Faults in VIM level* + ++------------+------------------+-------------------------------------------------+----------------+ +| Service | Fault | Description | Severity | ++============+==================+=================================================+================+ +| General | Service Crash | The processes of a service crashed unnormally. | Critical | ++------------+------------------+-------------------------------------------------+----------------+ + +.. figure:: images/VIM_Analysis.png + :alt: VIM HA Analysis + :figclass: align-center + + Fig 3. VIM HA Analysis + + +Active/Active Redundancy +:::::::::::::::::::::::::::: +Active/Active Redundancy manages both the main and redundant systems concurrently. If there is +a failure happens on a component, the backups are already online and users are unlikely to +notice that the failed VIM component is under fixing. A typical Active/Active Redundancy will +have redundant instances, and these instances are load balanced via a virtual IP address and a +load balancer such as HAProxy. + +When one of the redundant VIM component fails, the load balancer should be aware of the +instance failure, and then isolate the failed instance from being called until it is recovered. +The requirement decomposition of Active/Active Redundancy is shown in Figure 4. + +.. figure:: images/Active_Active_Redundancy.png + :alt: Active/Active Redundancy Requirement Decomposition + :figclass: align-center + + Fig 4. Active/Active Redundancy Requirement Decomposition + +The following requirements are elicited for VIM Active/Active Redundancy: + +**[Req 5.4.1]** Redundant VIM components should be load balanced by a load balancer. + +**[Req 5.4.2]** The load balancer should check the health status of VIM component instances. + +**[Req 5.4.3]** The load balancer should isolate the failed VIM component instance until it is +recovered. + +**[Req 5.4.4]** The alarm information of VIM component failure should be reported. + +**[Req 5.4.5]** Failed VIM component instances should be recovered by a cluster manager. + +Table 3 shows the current VIM components using Active/Active Redundancy and the corresponding +HA test cases to verify them. + +*Table 3. VIM Components using Active/Active Redundancy* + ++-------------------+-------------------------------------------------------+----------------------+ +| Component | Description | Related HA Test Case | ++===================+=======================================================+======================+ +| nova-api | endpoint component of Openstack Compute Service Nova | yardstick_tc019 | ++-------------------+-------------------------------------------------------+----------------------+ +| nova-novncproxy | server daemon that serves the Nova noVNC Websocket | | +| | Proxy service, which provides a websocket proxy that | | +| | is compatible with OpenStack Nova noVNC consoles. | | ++-------------------+-------------------------------------------------------+----------------------+ +| neeutron-server | endpoint component of Openstack Networking Service | yardstick_tc045 | +| | Neutron | | ++-------------------+-------------------------------------------------------+----------------------+ +| keystone | component of Openstack Identity Service Service | yardstick_tc046 | +| | Keystone | | ++-------------------+-------------------------------------------------------+----------------------+ +| glance-api | endpoint component of Openstack Image Service Glance | yardstick_tc047 | ++-------------------+-------------------------------------------------------+----------------------+ +| glance-registry | server daemon that serves image metadata through a | | +| | REST-like API. | | ++-------------------+-------------------------------------------------------+----------------------+ +| cinder-api | endpoint component of Openstack Block Storage Service | yardstick_tc048 | +| | Service Cinder | | ++-------------------+-------------------------------------------------------+----------------------+ +| swift-proxy | endpoint component of Openstack Object Storage | yardstick_tc049 | +| | Swift | | ++-------------------+-------------------------------------------------------+----------------------+ +| horizon | component of Openstack Dashboard Service Horizon | | ++-------------------+-------------------------------------------------------+----------------------+ +| heat-api | endpoint component of Openstack Stack Service Heat | | ++-------------------+-------------------------------------------------------+----------------------+ +| mysqld | database service of VIM components | | ++-------------------+-------------------------------------------------------+----------------------+ + +Active/Passive Redundancy +:::::::::::::::::::::::::::: + +Active/Passive Redundancy maintains a redundant instance that can be brought online when the +active service fails. A typical Active/Passive Redundancy maintains replacement resources that +can be brought online when required. Requests are handled using a virtual IP address (VIP) that +facilitates returning to service with minimal reconfiguration. A cluster manager (such as +Pacemaker or Corosync) monitors these components, bringing the backup online as necessary. + +When the main instance of a VIM component is failed, the cluster manager should be aware of the +failure and switch the backup instance online. And the failed instance should also be recovered +to another backup instance. The requirement decomposition of Active/Passive Redundancy is shown +in Figure 5. + +.. figure:: images/Active_Passive_Redundancy.png + :alt: Active/Passive Redundancy Requirement Decomposition + :figclass: align-center + + Fig 5. Active/Passive Redundancy Requirement Decomposition + +The following requirements are elicited for VIM Active/Passive Redundancy: + +**[Req 5.4.6]** The cluster manager should replace the failed main VIM component instance with +a backup instance. + +**[Req 5.4.7]** The cluster manager should check the health status of VIM component instances. + +**[Req 5.4.8]** Failed VIM component instances should be recovered by the cluster manager. + +**[Req 5.4.9]** The alarm information of VIM component failure should be reported. + + +Table 4 shows the current VIM components using Active/Passive Redundancy and the corresponding +HA test cases to verify them. + +*Table 4. VIM Components using Active/Passive Redundancy* + ++-------------------+-------------------------------------------------------+----------------------+ +| Component | Description | Related HA Test Case | ++===================+=======================================================+======================+ +| haproxy | load balancer component of VIM components | yardstick_tc053 | ++-------------------+-------------------------------------------------------+----------------------+ +| rabbitmq-server | messaging queue service of VIM components | yardstick_tc056 | ++-------------------+-------------------------------------------------------+----------------------+ +| corosync | cluster management component of VIM components | yardstick_tc057 | ++-------------------+-------------------------------------------------------+----------------------+ + +Message Queue +:::::::::::::::::::::::::::: +Message Queue provides an asynchronous communication protocol. In Openstack, some projects ( +like Nova, Cinder) use Message Queue to call their sub components. Although Message Queue +itself is not an HA mechanism, how it works ensures the high availability when redundant +components subscribe to the Message Queue. When a VIM sub component fails, since there are +other redundant components are subscribing to the Message Queue, requests still can be processed. +And fault isolation can also be archived since failed components won't fetch requests actively. +Also, the recovery of failed components is required. Figure 6 shows the requirement +decomposition of Message Queue. + +.. figure:: images/Message_Queue.png + :alt: Message Queue Requirement Decomposition + :figclass: align-center + + Fig 6. Message Queue Redundancy Requirement Decomposition + +The following requirements are elicited for Message Queue: + +**[Req 5.4.10]** Redundant component instances should subscribe to the Message Queue, which is +implemented by the installer. + +**[Req 5.4.11]** Failed VIM component instances should be recovered by the cluster manager. + +**[Req 5.4.12]** The alarm information of VIM component failure should be reported. + +Table 5 shows the current VIM components using Message Queue and the corresponding HA test cases +to verify them. + +*Table 5. VIM Components using Messaging Queue* + ++-------------------+-------------------------------------------------------+----------------------+ +| Component | Description | Related HA Test Case | ++===================+=======================================================+======================+ +| nova-scheduler | Openstack compute component determines how to | | +| | dispatch compute requests | | ++-------------------+-------------------------------------------------------+----------------------+ +| nova-cert | Openstack compute component that serves the Nova Cert | | +| | service for X509 certificates. Used to generate | | +| | certificates for euca-bundle-image. | | ++-------------------+-------------------------------------------------------+----------------------+ +| nova-conductor | server daemon that serves the Nova Conductor service, | | +| | which provides coordination and database query | | +| | support for Nova. | | ++-------------------+-------------------------------------------------------+----------------------+ +| nova-compute | Handles all processes relating to instances (guest | | +| | vms). nova-compute is responsible for building a disk | | +| | image, launching it via the underlying virtualization | | +| | driver, responding to calls to check its state, | | +| | attaching persistent storage, and terminating it. | | ++-------------------+-------------------------------------------------------+----------------------+ +| nova-consoleauth | Openstack compute component for Authentication of | | +| | nova consoles. | | ++-------------------+-------------------------------------------------------+----------------------+ +| cinder-scheduler | Openstack volume storage component decides on | | +| | placement for newly created volumes and forwards the | | +| | request to cinder-volume. | | ++-------------------+-------------------------------------------------------+----------------------+ +| cinder-volume | Openstack volume storage component receives volume | | +| | management requests from cinder-api and | | +| | cinder-scheduler, and routes them to storage backends | | +| | using vendor-supplied drivers. | | ++-------------------+-------------------------------------------------------+----------------------+ +| heat-engine | Openstack Heat project server with an internal RPC | | +| | api called by the heat-api server. | | ++-------------------+-------------------------------------------------------+----------------------+ + + +5.5 Hypervisor HA +>>>>>>>>>>>>>>>>>> + +.. TBD + +5.6 Host OS HA +>>>>>>>>>>>>>>>>>> + +.. TBD + +5.7 Hardware HA +>>>>>>>>>>>>>>>>>> + +.. TBD + + +****************** +6 References +****************** + +- A KAOS Tutorial: http://www.objectiver.com/fileadmin/download/documents/KaosTutorial.pdf + +- ETSI GS NFV-REL 001 V1.1.1(2015-01): + http://www.etsi.org/deliver/etsi_gs/NFV-REL/001_099/001/01.01.01_60/gs_NFV-REL001v010101p.pdf + +- Openstack High Availability Guide: https://docs.openstack.org/ha-guide/ + +- Highly Available (Mirrored) Queues: https://www.rabbitmq.com/ha.html \ No newline at end of file diff --git a/docs/development/overview/images/Active_Active_Redundancy.png b/docs/development/overview/images/Active_Active_Redundancy.png new file mode 100644 index 0000000..1863de1 Binary files /dev/null and b/docs/development/overview/images/Active_Active_Redundancy.png differ diff --git a/docs/development/overview/images/Active_Passive_Redundancy.png b/docs/development/overview/images/Active_Passive_Redundancy.png new file mode 100644 index 0000000..e94c82f Binary files /dev/null and b/docs/development/overview/images/Active_Passive_Redundancy.png differ diff --git a/docs/development/overview/images/KAOS_Sample.png b/docs/development/overview/images/KAOS_Sample.png new file mode 100644 index 0000000..0d35cd7 Binary files /dev/null and b/docs/development/overview/images/KAOS_Sample.png differ diff --git a/docs/development/overview/images/Message_Queue.png b/docs/development/overview/images/Message_Queue.png new file mode 100644 index 0000000..3ebedbe Binary files /dev/null and b/docs/development/overview/images/Message_Queue.png differ diff --git a/docs/development/overview/images/Total_Framework.png b/docs/development/overview/images/Total_Framework.png new file mode 100644 index 0000000..c900908 Binary files /dev/null and b/docs/development/overview/images/Total_Framework.png differ diff --git a/docs/development/overview/images/VIM_Analysis.png b/docs/development/overview/images/VIM_Analysis.png new file mode 100644 index 0000000..5b0f579 Binary files /dev/null and b/docs/development/overview/images/VIM_Analysis.png differ -- cgit 1.2.3-korg