From 365ef8903939dba44f328ca4b7e3f0461e64f4ca Mon Sep 17 00:00:00 2001 From: Maryam Tahhan Date: Wed, 2 Mar 2016 15:27:42 +0000 Subject: docs: add Scalability Tests for VMs in Series Add LTD.Scalability.VNF.RFC2544.PacketLossProfile and LTD.Scalability.VNF.RFC2544.PacketLossRatio to LTD. JIRA: VSPERF-238 Change-Id: I26e2b9e06d7bdaf4cc5ab8de7d6ecf261e0a03d4 Signed-off-by: Maryam Tahhan Signed-off-by: Al Morton Reviewed-by: Christian Trautman --- docs/requirements/vswitchperf_ltd.rst | 161 +++++++++++++++++++++++++++++++++- 1 file changed, 160 insertions(+), 1 deletion(-) (limited to 'docs/requirements/vswitchperf_ltd.rst') diff --git a/docs/requirements/vswitchperf_ltd.rst b/docs/requirements/vswitchperf_ltd.rst index e64de67d..87559766 100644 --- a/docs/requirements/vswitchperf_ltd.rst +++ b/docs/requirements/vswitchperf_ltd.rst @@ -2063,10 +2063,169 @@ Test ID: LTD.MemoryBandwidth.RFC2544.0PacketLoss.Scalability - The DUT's 0% packet loss throughput in the presence of cache sharing and memory bandwidth between processes. +.. 3.2.3.3.3 + +Test ID: LTD.Scalability.VNF.RFC2544.PacketLossRatio +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + **Title**: VNF Scalability RFC 2544 X% packet loss ratio Throughput and + Latency Test + + **Prerequisite Test**: N/A + + **Priority**: + + **Description**: + + This test determines the DUT's throughput rate with X% traffic loss for + a constant load (fixed length frames at a fixed interval time) when the + number of VNFs on the DUT increases. The default loss percentages + to be tested are: - X = 0% - X = 10^-7% . The minimum number of + VNFs to be tested are 3. + + Flow classification should be conducted with L2, L3 and L4 matching + to understand the matching and scaling capability of the vSwitch. The + matching fields which were used as part of the test should be reported + as part of the benchmark report. + + The vSwitch is responsible for forwarding frames between the VNFs + + The SUT (vSwitch and VNF daisy chain) operation should be validated + before running the test. This may be completed by running a burst or + continuous stream of traffic through the SUT to ensure proper operation + before a test. + + **Note**: The traffic rate used to validate SUT operation should be low + enough not to stress the SUT. + + **Note**: Other values can be tested if required by the user. + + **Note**: The same VNF should be used in the "daisy chain" formation. + Each addition of a VNF should be conducted in a new test setup (The DUT + is brought down, then the DUT is brought up again). An atlernative approach + would be to continue to add VNFs without bringing down the DUT. The + approach used needs to be documented as part of the test report. + + The selected frame sizes are those previously defined under `Default + Test Parameters <#DefaultParams>`__. The test can also be used to + determine the average latency of the traffic. + + Under the `RFC2544 `__ + test methodology, the test duration will + include a number of trials; each trial should run for a minimum period + of 60 seconds. A binary search methodology must be applied for each + trial to obtain the final result for Throughput. + + **Expected Result**: At the end of each trial, the presence or absence + of loss determines the modification of offered load for the next trial, + converging on a maximum rate, or + `RFC2544 `__ Throughput with X% + loss. + The Throughput load is re-used in related + `RFC2544 `__ tests and other + tests. + + If the test VNFs are rather light-weight in terms of processing, the test + provides a view of multiple passes through the vswitch on logical + interfaces. In other words, the test produces an optimistic count of + daisy-chained VNFs, but the cumulative effect of traffic on the vSwitch is + "real" (assuming that the vSwitch has some dedicated resources, and the + effects on shared resources is understood). + + + **Metrics Collected**: + The following are the metrics collected for this test: + + - The maximum Throughput in Frames Per Second (FPS) and Mbps of + the DUT for each frame size with X% packet loss. + - The average latency of the traffic flow when passing through the DUT + and VNFs (if testing for latency, note that this average is different from the + test specified in Section 26.3 of + `RFC2544 `__). + - CPU and memory utilization may also be collected as part of this + test, to determine the vSwitch's performance footprint on the system. + +.. 3.2.3.3.4 + +Test ID: LTD.Scalability.VNF.RFC2544.PacketLossProfile +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + **Title**: VNF Scalability RFC 2544 Throughput and Latency Profile + + **Prerequisite Test**: N/A + + **Priority**: + + **Description**: + + This test reveals how throughput and latency degrades as the number + of VNFs increases and offered rate varies in the region of the DUT's + maximum forwarding rate as determined by + LTD.Throughput.RFC2544.PacketLossRatio (0% Packet Loss). + For example it can be used to determine if the degradation of throughput + and latency as the number of VNFs and offered rate increases is slow + and graceful, or sudden and severe. The minimum number of VNFs to + be tested is 3. + + The selected frame sizes are those previously defined under `Default + Test Parameters <#DefaultParams>`__. + + The offered traffic rate is described as a percentage delta with respect + to the DUT's RFC 2544 Throughput as determined by + LTD.Throughput.RFC2544.PacketLoss Ratio (0% Packet Loss case). A delta + of 0% is equivalent to an offered traffic rate equal to the RFC 2544 + Throughput; A delta of +50% indicates an offered rate half-way + between the Throughput and line-rate, whereas a delta of + -50% indicates an offered rate of half the maximum rate. Therefore the + range of the delta figure is natuarlly bounded at -100% (zero offered + traffic) and +100% (traffic offered at line rate). + + The following deltas to the maximum forwarding rate should be applied: + + - -50%, -10%, 0%, +10% & +50% + + **Note**: Other values can be tested if required by the user. + + **Note**: The same VNF should be used in the "daisy chain" formation. + Each addition of a VNF should be conducted in a new test setup (The DUT + is brought down, then the DUT is brought up again). An atlernative approach + would be to continue to add VNFs without bringing down the DUT. The + approach used needs to be documented as part of the test report. + + Flow classification should be conducted with L2, L3 and L4 matching + to understand the matching and scaling capability of the vSwitch. The + matching fields which were used as part of the test should be reported + as part of the benchmark report. + + The SUT (vSwitch and VNF daisy chain) operation should be validated + before running the test. This may be completed by running a burst or + continuous stream of traffic through the SUT to ensure proper operation + before a test. + + **Note**: the traffic rate used to validate SUT operation should be low + enough not to stress the SUT + + **Expected Result**: For each packet size a profile should be produced + of how throughput and latency vary with offered rate. + + **Metrics Collected**: + + The following are the metrics collected for this test: + + - The forwarding rate in Frames Per Second (FPS) and Mbps of the DUT + for each delta to the maximum forwarding rate and for each frame + size. + - The average latency for each delta to the maximum forwarding rate and + for each frame size. + - CPU and memory utilization may also be collected as part of this + test, to determine the vSwitch's performance footprint on the system. + - Any failures experienced (for example if the vSwitch crashes, stops + processing packets, restarts or becomes unresponsive to commands) + when the offered load is above Maximum Throughput MUST be recorded + and reported with the results. + .. 3.2.3.4 Activation tests ------------------------ +---------------- The general aim of these tests is to understand the capacity of the and speed with which the vswitch can accommodate new flows. -- cgit 1.2.3-korg