.. This work is licensed under a Creative Commons Attribution 3.0 Unported License. http://creativecommons.org/licenses/by/3.0/legalcode ========================================== High Priority Traffic Path ========================================== https://wiki.opnfv.org/display/ovsnfv/OVSFV+Requirement+-+High+Priority+Traffic+Path Problem description =================== When designing a network, traffic may belong to different classes requiring differentiated level of service by each network element. As a concrete example, a network element managed by a service provider may be handling voice and data traffic. Voice traffic requires that the end-to-end latency and jitter is bounded to some msec accuracy in order to ensure quality-of-experience (QoE) for the participants in the voice call. Data traffic, typically, does not impose such performance requirements on the network. For example, when downloading a large file across the Internet, although the bandwidth requirements may be high there is usually no requirement that the file arrives within a bounded time interval. Depending on the scheduling algorithms running on the network element, frames belonging to the data traffic may get transmitted before frames belonging to the voice traffic introducing unwanted latency or jitter. Therefore, in order to ensure deterministic latency and jitter characteristics end-to-end, each network element through which the voice traffic traverses must ensure that voice traffic is handled deterministically. Hardware switches have typically been designed to ensure certain classes of traffic can be scheduled ahead of other classes and are also over-provisioned which further ensures deterministic behavior when handling high priority traffic. However, software switches (which includes virtual switches such as Open vSwitch) may require modification in order to achieve this deterministic behavior. Use Cases --------- 1. Program classes of service The End User specifies a number of classes of service. Each class of service will be represented by the value of a particular field in a frame. The class of service will determine the order which flows of this type will get handled with respect to other flows of differing classes of service. As such, each class of service will be associated with a priority. The End User will associate classes of service and priorities to ingress ports with the expectation that frames that arrive on these ingress ports will get scheduled following the specified priorities. 2. Forward high priority network traffic A remote network element sends traffic to Open vSwitch. The remote network element, indicates the class of service to which this flow of traffic belongs to by modifying a pre-determined but arbitrary field in the frame as specified in Use Case 1. Some examples include the Differentiated Services Code Point (DSCP) in an IP packet or the Priority Code Point (PCP) in an Ethernet frame. The order that frames get processed by Open vSwitch can be guaranteed by the values populated in these fields when the fields are different. If the fields are the same, ordering is not deterministic. For example: Packet A is sent with a DSCP value of 0 and packet B is sent with a value of 46; 0 has a lower priority than 46. Packet A arrives before packet B. If Open vSwitch has been configured as such, Packet B will be transmitted before Packet A. Proposed change =============== TBD Alternatives ------------ TBD OVSDB schema impact ------------------- TBD User interface impact --------------------- TBD Security impact --------------- TBD Other end user impact --------------------- TBD Performance Impact ------------------ TBD Other deployer impact --------------------- TBD Developer impact ---------------- TBD Implementation ============== Assignee(s) ----------- Who is leading the writing of the code? Or is this a blueprint where you're throwing it out there to see who picks it up? If more than one person is working on the implementation, please designate the primary author and contact. Primary assignee: Other contributors: Work Items ---------- TBD Dependencies ============ TBD Testing ======= TBD Documentation Impact ==================== TBD References ========== Please add any useful references here. You are not required to have any reference. Moreover, this specification should still make sense when your references are unavailable. Examples of what you could include are: * Links to mailing list or IRC discussions - http://lists.opnfv.org/pipermail/opnfv-tech-discuss/2015-December/007193.html - http://ircbot.wl.linuxfoundation.org/meetings/opnfv-ovsnfv/2016/opnfv-ovsnfv.2016-03-07-13.01.html * Links to relevant research, if appropriate - https://wiki.opnfv.org/download/attachments/5046510/qos_mechanisms.pdf?version=1&modificationDate=1459187636000&api=v2 Notes from discussion at QoS breakout at ONS March 2015 - http://people.redhat.com/therbert/OPNFVatONS_0315/QoSBreakoutSession1.jpg * Related specifications as appropriate * Anything else you feel it is worthwhile to refer to History ======= Optional section intended to be used each time the spec is updated to describe new design, API or any database schema updated. Useful to let reader understand what's happened along the time. .. list-table:: Revisions :header-rows: 1 * - Release Name - Description * - Colorado - Introduced .. Revision: 8d3af44cbf8fa2e44f579a8d2070242b77ca0529 Build date: 2016-05-24