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+.. This work is licensed under a Creative Commons Attribution 4.0 International License.
+.. http://creativecommons.org/licenses/by/4.0
+
+==========================================
+High Priority Traffic Path
+==========================================
+
+https://wiki.opnfv.org/display/ovsnfv/OVSFV+Requirement+-+High+Priority+Traffic+Path
+
+Problem description
+===================
+
+A network design may need to adequately accommodate multiple classes of traffic, each
+class requiring different levels of service in critical network elements.
+
+As a concrete example, a network element managed by a service provider may be
+handling voice and elastic data traffic. Voice traffic requires that the end-to-end
+latency and jitter is bounded to some numerical limit (in msec) accuracy in order to ensure
+sufficient quality-of-service (QoS) for the participants in the voice call.
+Elastic data traffic does not impose the same demanding requirements on the network
+(there will be essentially no requirement on jitter. 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 determines the priority treatment which flows in the class will
+receive, while maintaining a relative level of priority for other classes and
+a default level of treatment for the lowest priority class 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.
+
+Note: Priority treatment of the classes of service cannot cause any one of
+the classes (even the default class) from being transferred at all. In other
+words, a strict priority treatment would likely not be successful for serving
+all classes eventually, and this is a key consideration.
+
+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 relative priority treatment 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:
+  <email address>
+
+Other contributors:
+  <email address>
+
+Work Items
+----------
+
+TBD
+
+Dependencies
+============
+
+TBD
+
+Testing
+=======
+
+In order to test how effectively the virtual switch handles high priority traffic
+types, the following scheme is suggested.::
+
+                   +---------------------------+         Ingress Traffic Parameters
+                   |                           |         +-------------------------------------------+
+                   |                           |
+                   |                           |         Packet Size: The size of the Ethernet frames
+                   |                           |
+                   |                           |         Tmax: RFC2544 Max. Throughput for traffic of
+                   |                    PHY0   <-------+ "Packet Size"
+                   |                           |
+                   |                           |         Total Offered Rate: The offered rate of both
+                   |                           |         traffic classes combined expressed as a % of
+                   |                           |         Tmax
+                   |                           |
+                   |                           |         Ingress Rates are expressed as a percentage
+                   |                           |         of Total Offered Rate.
+                   |                           |
+                   |                           |         Class A:
+                   |             OVS           |         Ethernet PCP = 0 (Background)
+                   |            (BR0)          |         Ingress Rate      : rate_ingress_a(n) Mfps
+                   |                           |
+                   |                           |         Class B:
+                   |                           |         Ethernet PCP = 7 (Highest)
+                   |                           |         Ingress Rate      : rate_ingress_b(n) Mfps
+                   |                           |
+                   |                           |         Egress Traffic Measurements
+                   |                           |         +-------------------------------------------+
+                   |                           |         Class A:
+                   |                           |         Egress Throughput : rate_egress_a(n) Mfps
+                   |                           |         Egress Latency    : max_lat_egrees_a(n) ms
+                   |                           |         Egress Jitter     : max_jit_egress_a(n) ms
+                   |                    PHY1   +------->
+                   |                           |         Class B:
+                   |                           |         Egress Throughput : rate_egress_b(n) Mfps
+                   |                           |         Egress Latency    : max_lat_egrees_b(n) ms
+                   +---------------------------+         Egress Jitter     : max_jit_egress_b(n) ms
+
+
+Open vSwitch is configured to forward traffic between two ports agnostic to the
+traffic type. For example, using the following command:
+
+ovs-ofctl add-flow br0 in_port=0,actions=output:1
+
+The test will be carried out with the functionality to enable high-priority
+traffic enabled and disabled in order to guage the change in performance for
+both cases.
+
+Two classes of traffic will be generated by a traffic generator. In the example
+above, the classes are differentiated using the Ethernet PCP field. However,
+another means for differentiating traffic could be used, depending the
+prioritization scheme that is developed.
+
+Tests should be performed for each combination of:
+
+* Packet Sizes in (64, 512)
+* Total Offered Rate in (80, 120, 150)
+* rate_ingress_b(n) / rate_ingress_a(n) in (0.1, 0.2, 0.5)
+
+For each set, the following metrics should be collected for each traffic
+class over a specified time period:
+
+Egress Throughput (Mfps)
+Maximum Egress Latency (ms)
+Maximum Egress Jitter (ms)
+
+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
+
+* 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