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author | Vratko Polak <vrpolak@cisco.com> | 2020-11-19 15:03:59 +0100 |
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committer | Vratko Polak <vrpolak@cisco.com> | 2020-11-19 15:22:34 +0000 |
commit | 9408b1ff148e8480b6e3308d7b8e0e5b2938b70f (patch) | |
tree | 59c4610306c6ef31464cc81401b635dbcc0e6685 /docs/report/introduction | |
parent | 209c8d3fa2c6a1e0e8b8fe1b93076bb081cf4c74 (diff) |
Methodology: DUT state considerations
Change-Id: I4bdb61cf665579c6b49d79c6fb281b4c0fb5ec89
Signed-off-by: Vratko Polak <vrpolak@cisco.com>
Diffstat (limited to 'docs/report/introduction')
-rw-r--r-- | docs/report/introduction/methodology_dut_state.rst | 150 |
1 files changed, 150 insertions, 0 deletions
diff --git a/docs/report/introduction/methodology_dut_state.rst b/docs/report/introduction/methodology_dut_state.rst new file mode 100644 index 0000000000..c66fe58277 --- /dev/null +++ b/docs/report/introduction/methodology_dut_state.rst @@ -0,0 +1,150 @@ +DUT state considerations +------------------------ + +This page discusses considerations for Device Under Test (DUT) state. +DUTs such as VPP require configuration, to be provided before the aplication +starts (via config files) or just after it starts (via API or CLI access). + +During operation DUTs gather various telemetry data, depending on configuration. +This internal state handling is part of normal operation, +so any performance impact is included in the test results. +Accessing telemetry data is additional load on DUT, +so we are not doing that in main trial measurements that affect results, +but we include separate trials specifically for gathering runtime telemetry. + +But there is one kind of state that needs specific handling. +This kind of DUT state is dynamically created based on incoming traffic, +it affects how DUT handles the traffic, and (unlike telemetry counters) +it has uneven impact on CPU load. +Typical example is NAT where opening sessions takes more CPU than +forwarding packet on existing sessions. +We call DUT configurations with this kind of state "stateful", +and configurations without them "stateless". +(Even though stateless configurations contain state described in previous +paragraphs, and some configuration items may have "stateful" in their name, +such as stateful ACLs.) + +Stateful DUT configurations +~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +Typically, the level of CPU impact of traffic depends on DUT state. +The first packets causing DUT state to change have higher impact, +subsequent packets matching that state have lower impact. + +From performance point of view, this is similar to traffic phases +for stateful protocols, see +`NGFW draft <https://tools.ietf.org/html/draft-ietf-bmwg-ngfw-performance-05#section-4.3.4>`. +In CSIT we borrow the terminology (even if it does not fit perfectly, +see discussion below). Ramp-up traffic causes the state change, +sustain traffic does not change the state. + +As the performance is different, each test has to choose which traffic +it wants to test, and manipulate the DUT state to achieve the intended impact. + +Ramp-up trial +_____________ + +Tests aiming at sustain performance need to make sure DUT state is created. +We achieve this via a ramp-up trial, specific purpose of which +is to create the state. Subsequent trials need no specific handling, +as state remains the same. + +For the state to be set completely, it is important DUT (nor TG) loses +no packets, we achieve this by setting the profile multiplier (TPS from now on) +to low enough value. + +It is also important each state-affecting packet is sent. +For size-limited traffic profile it is guaranteed by the size limit. +For continuous traffic, we set a long enough duration (based on TPS). + +At the end of the ramp-up trial, we check telemetry to confirm +the state has been created as expected. +Test fails if the state is not complete. + +State Reset +___________ + +Tests aiming at ramp-up performance do not use ramp-up trial, +and they need to reset the DUT state before each trial measurement. +The way of resetting the state depends on test, +usually an API call is used to partially de-configure +the part that holds the state, and then re-configure it back. + +In CSIT we control the DUT state behavior via a test variable "resetter". +If it is not set, DUT state is not reset. +If it is set, each search algorithm (including MRR) will invoke it +before all trial measurements (both main and telemetry ones). +Any configuration keyword enabling a feature with DUT state +will check whether a test variable for ramp-up (duration) is present. +If it is present, resetter is not set. +If it is not present, the keyword sets the apropriate resetter value. +This logic makes sure either ramp-up or state reset are used. + +.. + TODO: Classify trials into main and telemetry, in a separate place. + +Notes: If both ramp-up and state reset were used, the DUT behavior +would be identical to just reset, while test would take longer to execute. +If neither were used, DUT will show different performance in subsequent trials, +violating assumptions of search algorithms. + +DUT versus protocol ramp-up +___________________________ + +There are at least three different causes for bandwidth possibly increasing +within a single measurement trial. + +The first is DUT switching from state modification phase to constant phase, +it is the primary focus of this document. +Using ramp-up traffic before main trials eliminates this cause +for tests wishing to measure the performance of the next phase. +Using size-limited profiles eliminates the next phase +for tests wishing to measure performance of this phase. + +The second is protocol such as TCP ramping up their throughput to utilize +the bandwidth available. This is the original meaning of "ramp up" +in the NGFW draft (see above). +In existing tests we are not distinguishing such phases, +trial measurment reports the telemetry from the whole trial +(e.g. throughput is time averaged value). + +The third is TCP increasing throughput due to retransmissions triggered by +packet loss. In CSIT we currently try to avoid this behavior +by using small enough data to transfer, so overlap of multiple transactions +(primary cause of packet loss) is unlikely. +But in MRR tests packet loss is still probable. +Once again, we rely on using telemetry from the whole trial, +resulting in time averaged throughput values. + +Stateless DUT configuratons +~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +These are simply configurations, which do not set any resetter value +(even if ramp-up duration is not configured). +Majority of existing tests are of this type, using continuous traffic profiles. + +In order to identify limits of Trex performance, +we have added suites with stateless DUT configuration (VPP ip4base) +subjected to size-limited ASTF traffic. +The discovered throughputs serve as a basis of comparison +for evaluating the results for stateful DUT configurations (VPP NAT44ed) +subjected to the same traffic profiles. + +DUT versus TG state +~~~~~~~~~~~~~~~~~~~ + +Traffic Generator profiles can be stateful (ASTF) or stateless (STL). +DUT configuration can be stateful or stateless (with respect to packet traffic). + +In CSIT we currently use all four possible configurations: + +- Regular stateless VPP tests use stateless traffic profiles. + +- Stateless VPP configuration with stateful profile is used as a base for + comparison. + +- Some stateful DUT configurations (NAT44DET, NAT44ED unidirectional) + are tested using stateless traffic profiles. + +- The rest of stateful DUT configurations (NAT44ED bidirectional) + are tested using stateful traffic profiles. |