-CSIT Release Notes\r
-==================\r
-\r
-Changes in CSIT |release|\r
--------------------------\r
-\r
-#. **VPP performance tests**\r
-\r
- - *MRR tests* - New Maximum Receive Rate tests measure the packet\r
- forwarding rate under the maximum load offered by traffic\r
- generator over a set trial duration, regardless of packet loss.\r
- MRR tests are used for continuous performance trending and for\r
- comparison between releases.\r
-\r
- - *Service Chaining with SRv6* - New SRv6 (Segment Routing IPv6) proxy\r
- tests measure performance of SRv6 Endpoint fronting SR-unaware\r
- appliance via masquerading (End.AM), dynamic proxy (End.AD) or\r
- static proxy (End.AS) SR functions.\r
-\r
-#. **Presentation and Analytics Layer**\r
-\r
- - *Performance trending* - Added continuous performance trending and\r
- analysis. New Performance Trending and Performance Analysis jobs\r
- executed regular throughput tests, with results being subsequently\r
- analysed and trend and anomalies summarized and presented in VPP\r
- Performance Dashboard and trendline graphs.\r
-\r
-#. **Test Framework Optimizations**\r
-\r
- - *Performance tests efficiency* - Qemu build/install optimizations,\r
- warmup phase handling, vpp restart handling. Resulted in improved\r
- stability and reduced total execution time by 30% for single pkt\r
- size e.g. 64B/78B.\r
-\r
- - *General code housekeeping* - ongoing RF keywords optimizations,\r
- removal of redundant RF keywords.\r
-\r
-Performance Changes\r
--------------------\r
-\r
-Relative performance changes in measured packet throughput in CSIT\r
-|release| are calculated against the results from CSIT |release-1|\r
-report. Listed mean and standard deviation values are computed based on\r
-a series of the same tests executed against respective VPP releases to\r
-verify test results repeatibility, with percentage change calculated for\r
-mean values. Note that the standard deviation is quite high for a small\r
-number of packet throughput tests, what indicates poor test results\r
-repeatability and makes the relative change of mean throughput value not\r
-fully representative for these tests. The root causes behind poor\r
-results repeatibility vary between the test cases.\r
-\r
-NDR Changes\r
-~~~~~~~~~~~\r
-\r
-NDR small packet throughput changes between releases are available in a\r
-CSV and pretty ASCII formats:\r
-\r
- - `csv format for 1t1c <../_static/vpp/performance-changes-ndr-1t1c-full.csv>`_,\r
- - `csv format for 2t2c <../_static/vpp/performance-changes-ndr-2t2c-full.csv>`_,\r
- - `pretty ASCII format for 1t1c <../_static/vpp/performance-changes-ndr-1t1c-full.txt>`_,\r
- - `pretty ASCII format for 2t2c <../_static/vpp/performance-changes-ndr-2t2c-full.txt>`_.\r
-\r
-.. note::\r
-\r
- Test results have been generated by\r
- `FD.io test executor vpp performance jobs`_ with Robot Framework result\r
- files csit-vpp-perf-|srelease|-\*.zip `archived here <../_static/archive/>`_.\r
-\r
-PDR Changes\r
-~~~~~~~~~~~\r
-\r
-NDR small packet throughput changes between releases are available in a\r
-CSV and pretty ASCII formats:\r
-\r
- - `csv format for 1t1c <../_static/vpp/performance-changes-pdr-1t1c-full.csv>`_,\r
- - `csv format for 2t2c <../_static/vpp/performance-changes-pdr-2t2c-full.csv>`_,\r
- - `pretty ASCII format for 1t1c <../_static/vpp/performance-changes-pdr-1t1c-full.txt>`_,\r
- - `pretty ASCII format for 2t2c <../_static/vpp/performance-changes-pdr-2t2c-full.txt>`_.\r
-\r
-.. note::\r
-\r
- Test results have been generated by\r
- `FD.io test executor vpp performance jobs`_ with Robot Framework result\r
- files csit-vpp-perf-|srelease|-\*.zip `archived here <../_static/archive/>`_.\r
-\r
-MRR Changes\r
-~~~~~~~~~~~\r
-\r
-MRR small packet throughput changes between releases are available in a\r
-CSV and pretty ASCII formats:\r
-\r
- - `csv format for 1t1c <../_static/vpp/performance-changes-mrr-1t1c-full.csv>`_,\r
- - `csv format for 2t2c <../_static/vpp/performance-changes-mrr-2t2c-full.csv>`_,\r
- - `csv format for 4t4c <../_static/vpp/performance-changes-mrr-4t4c-full.csv>`_,\r
- - `pretty ASCII format for 1t1c <../_static/vpp/performance-changes-mrr-1t1c-full.txt>`_,\r
- - `pretty ASCII format for 2t2c <../_static/vpp/performance-changes-mrr-2t2c-full.txt>`_,\r
- - `pretty ASCII format for 4t4c <../_static/vpp/performance-changes-mrr-4t4c-full.txt>`_.\r
-\r
-.. note::\r
-\r
- Test results have been generated by\r
- `FD.io test executor vpp mrr jobs <https://jenkins.fd.io/view/csit/job/csit-vpp-perf-mrr-daily-master/>`_\r
- with Robot Framework result files csit-vpp-perf-mrr-daily-master__*__output.xml.gz\r
- `archived here <https://docs.fd.io/csit/master/trending/_static/archive/>`_.\r
-\r
-Throughput Trending\r
--------------------\r
-\r
-In addition to reporting throughput changes between VPP releases, CSIT\r
-provides continuous performance trending for VPP master branch:\r
-\r
-#. `VPP Performance Dashboard <https://docs.fd.io/csit/master/trending/introduction/index.html>`_\r
- - per VPP test case throughput trend, trend compliance and summary of\r
- detected anomalies.\r
-\r
-#. `Trending Methodology <https://docs.fd.io/csit/master/trending/methodology/index.html>`_\r
- - throughput test metrics, trend calculations and anomaly\r
- classification (progression, regression, outlier).\r
-\r
-#. `Trendline Graphs <https://docs.fd.io/csit/master/trending/trending/index.html>`_\r
- - per VPP build MRR throughput measurements against the trendline\r
- with anomaly highlights, with associated CSIT test jobs.\r
-\r
-Known Issues\r
-------------\r
-\r
-List of known issues in CSIT |release| for VPP performance tests:\r
-\r
-+---+-------------------------------------------------+------------+-----------------------------------------------------------------+\r
-| # | Issue | Jira ID | Description |\r
-+===+=================================================+============+=================================================================+\r
-| 1 | Sporadic (1 in 200) NDR discovery test failures | CSIT-570 | DPDK reporting rx-errors, indicating L1 issue. Suspected issue |\r
-| | on x520. | | with HW combination of X710-X520 in LF testbeds. Not observed |\r
-| | | | outside of LF testbeds. |\r
-+---+-------------------------------------------------+------------+-----------------------------------------------------------------+\r
-| 2 | Lower than expected NDR throughput of DPDK | CSIT-571 | Suspected NIC firmware or DPDK driver issue affecting NDR and |\r
-| | testpmd and VPP L2 path NDR throughput with | | PDR throughput on XL710 and X710 NICs. |\r
-| | xl710 and x710 NICs, compared to x520 NICs. | | |\r
-+---+-------------------------------------------------+------------+-----------------------------------------------------------------+\r
-| 3 | Tagged Ethernet dot1q and dot1ad L2 path | CSIT-1066 | Tagged Ethernet dot1q and dot1ad L2 path throughput regression: |\r
-| | throughput regression. | | NDR -2%..-5%, PDR -2%..-6%, MRR. Affects l2xc and l2bd |\r
-| | | | performance tests. |\r
-+---+-------------------------------------------------+------------+-----------------------------------------------------------------+\r
-| 4 | IPSec (software, no QAT HW) throughput | CSIT-1064 | IPSec throughput regression: NDR -3%..-8%, PDR -2%..-8%, MRR |\r
-| | regression. | | -3%..-7%. Affects IPSec SW tests, QAT HW tests not affected. |\r
-+---+-------------------------------------------------+------------+-----------------------------------------------------------------+\r
-| 5 | High failure rate of creating working container | CSIT-1065 | About 20% of orchestrated container topology tests failing data |\r
-| | topologies with K8s/Ligato orchestration. | | plane verification indicating configuration issue. Suspected |\r
-| | | | issue with Ligato vpp-agent. |\r
-+---+-------------------------------------------------+------------+-----------------------------------------------------------------+\r
+Release Notes
+=============
+
+Changes in |csit-release|
+-------------------------
+
+#. VPP PERFORMANCE TESTS
+
+ - **Intel Xeon 2n-skx, 3n-skx testbeds**: VPP performance test data
+ is now included in this report version. Due to substantial impact
+ of test environment changes (applied during the CSIT-2001
+ development cycle) on the performance of VPP software, a new
+ approach to performance comparison and progression/regression
+ root cause analysis (RCA) has been applied.
+
+ - CSIT test environment is now versioned, with ver. 1 associated
+ with CSIT rls1908 git branch as of 2019-08-21, and ver. 2
+ associated with CSIT rls2001 git branch as of 2020-03-27.
+
+ - To identify performance changes due to CSIT test environment
+ changes from ver. 1 to ver. 2, VPP v19.08.1 has been re-tested in
+ ver. 2 and compared against the past results obtained with
+ testing in ver. 1. Separate RCA1 analysis has been applied to
+ this part. See :ref:`vpp_compare_current_vs_previous_release` and
+ :ref:`vpp_known_issues`.
+
+ - To identify performance changes due to VPP code changes from
+ v19.08.1 to v20.01.0, both have been tested in CSIT environment
+ ver. 2 and compared against each other. Separate RCA2 analysis
+ has been applied to this part. See
+ :ref:`vpp_compare_current_vs_previous_release` and
+ :ref:`vpp_known_issues`.
+
+ - **Intel Xeon 2n-clx testbeds**: VPP performance test data is now
+ included in this report. See :ref:`vpp_known_issues`.
+
+ - **Service density 2n-skx tests**: Added new NF density tests with
+ IPsec encryption between DUTs.
+
+ - **AVF tests**: Full test coveraged based on code changes in CSIT
+ core layer (driver/interface awareness) and generated by suite
+ generator (Intel Fortville NICs only).
+
+ - **Hoststack tests**: Major refactor of VPP Hoststack TCP/IP
+ performance tests using WRK generator talking to the VPP HTTP
+ static server plugin measuring connections per second and
+ requests per second. Added new iperf3 with LDPreload tests,
+ iperf3/LDPreload tests with packet loss induced via the VPP NSIM
+ (Network Simulator) plugin, and QUIC/UDP/IP transport tests.
+ All of the new tests measure goodput through the VPP Hoststack
+ from client to server.
+
+ - **Latency HDRHistogram**: Added High Dynamic Range Histogram
+ latency measurements based on the new capability in TRex traffic
+ generator. HDRH latency data presented in latency packet
+ percentile graphs and in detailed results tables.
+
+ - **Mellanox CX556A-EDAT tests**: Added tests with Mellanox
+ ConnectX5-2p100GE NICs in 2n-clx testbeds using VPP native rdma
+ driver.
+
+ - **IPsec reconfiguration tests**: Added tests measuring the impact
+ of IPsec tunnels creations and removals.
+
+ - **Load Balancer tests**: Added VPP performance tests for Maglev,
+ L3DSR (Direct Server Return), Layer 4 Load Balancing NAT Mode.
+
+#. TEST FRAMEWORK
+
+ - **CSIT Python3 support**: Full migration of CSIT from Python2.7 to
+ Python3.6. This change includes library migration, PIP dependency
+ upgrade, CSIT container images, infrastructure packages
+ ugrade/installation.
+
+ - **CSIT PAPI support**: Finished conversion of CSIT VAT L1 keywords
+ to PAPI L1 KWs in CSIT using VPP Python bindings (VPP PAPI).
+ Redesign of key components of PAPI Socket Executor and PAPI
+ history. Due to issues with PAPI performance, VAT is still used
+ in CSIT for all VPP scale tests. See known issues below.
+
+ - **Test Suite Generator**: Added capability to generate suites for
+ different drivers per NIC model including DPDK, AVF, RDMA.
+ Extended coverage for all tests.
+
+ - **General Code Housekeeping**: Ongoing RF keywords optimizations,
+ removal of redundant RF keywords and aligning of suite/test
+ setup/teardowns.
+
+#. TEST ENVIRONMENT
+
+ - **TRex Fortville NIC Performance**: Received FVL fix from Intel
+ resolving TRex low throughput issue. TRex per FVL NIC throughput
+ increased from ~27 Mpps to the nominal ~37 Mpps. For detail see
+ `CSIT-1503 <https://jira.fd.io/browse/CSIT-1503>`_ and `TRex-519
+ <https://trex-tgn.cisco.com/youtrack/issue/trex-519>`_].
+
+ - **New Intel Xeon Cascadelake Testbeds**: Added performance tests
+ for 2-Node-Cascadelake (2n-clx) testbeds with x710, xxv710 and
+ cx556a-edat NIC cards.
+
+#. PRESENTATION AND ANALYTICS LAYER
+
+ - **Graphs layout improvements**: Improved performance graphs layout
+ for better readibility and maintenance: test grouping, axis
+ labels, descriptions, other informative decoration.
+
+ - **Latency graphs**: Min/Avg/Max group bar latency graphs are
+ replaced with packet latency percentile distributon at different
+ background packet loads based on TRex latency hdrhistogram
+ measurements.
+
+.. raw:: latex
+
+ \clearpage
+
+.. _vpp_known_issues:
+
+Known Issues
+------------
+
+List of known issues in |csit-release| for VPP performance tests:
+
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| # | JiraID | Issue Description |
++====+=========================================+===========================================================================================================+
+| 1 | `CSIT-570 | Sporadic (1 in 200) NDR discovery test failures on x520. DPDK reporting rx-errors, indicating L1 issue. |
+| | <https://jira.fd.io/browse/CSIT-570>`_ | Suspected issue with HW combination of X710-X520 in LF testbeds. Not observed outside of LF testbeds. |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 2 | `VPP-662 | 9000B packets not supported by NICs VIC1227 and VIC1387. |
+| | <https://jira.fd.io/browse/VPP-662>`_ | |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 3 | `CSIT-1498 | Memif tests are sporadically failing on initialization of memif connection. |
+| | <https://jira.fd.io/browse/CSIT-1498>`_ | |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 4 | `VPP-1677 | 9000B ip4 nat44: VPP crash + coredump. |
+| | <https://jira.fd.io/browse/VPP-1677>`_ | VPP crashes very often in case that NAT44 is configured and it has to process IP4 jumbo frames (9000B). |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 5 | `CSIT-1591 | All CSIT scale tests can not use PAPI due to much slower performance compared to VAT/CLI (it takes much |
+| | <https://jira.fd.io/browse/CSIT-1499>`_ | longer to program VPP). This needs to be addressed on the PAPI side. |
+| +-----------------------------------------+ |
+| | `VPP-1763 | |
+| | <https://jira.fd.io/browse/VPP-1763>`_ | |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 6 | `VPP-1675 | IPv4 IPSEC 9000B packet tests are failing as no packet is forwarded. |
+| | <https://jira.fd.io/browse/VPP-1675>`_ | Reason: chained buffers are not supported. |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 7 | `CSIT-1593 | IPv4 AVF 9000B packet tests are failing on 3n-skx while passing on 2n-skx. |
+| | <https://jira.fd.io/browse/CSIT-1593>`_ | |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 8 | `CSIT-1675 | Intel Xeon 2n-skx, 3n-skx and 2n-clx testbeds behaviour and performance became inconsistent following |
+| | <https://jira.fd.io/browse/CSIT-1675>`_ | the upgrade to the latest Ubuntu 18.04 LTS kernel version (4.15.0-72-generic) and associated microcode |
+| | | packages (skx ucode 0x2000064, clx ucode 0x500002c). VPP as well as DPDK L3fwd tests are affected. |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 9 | `CSIT-1679 | All 2n-clx VPP ip4 tests with xxv710 and avf driver are failing. |
+| | <https://jira.fd.io/browse/CSIT-1679>`_ | |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 10 | `CSIT-1680 | Some 2n-clx cx556a rdma tests are failing. |
+| | <https://jira.fd.io/browse/CSIT-1680>`_ | |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 11 | `CSIT-1699 | Root Cause Analysis for CSIT-2001. Investigate high stdev of tests with VPP inside VM. |
+| | <https://jira.fd.io/browse/CSIT-1699>`_ | |
+| +-----------------------------------------+ |
+| | `CSIT-1704 | |
+| | <https://jira.fd.io/browse/CSIT-1704>`_ | |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 12 | `CSIT-1699 | Root Cause Analysis for CSIT-2001. Identify cause of dot1q-l2xcbase progression. |
+| | <https://jira.fd.io/browse/CSIT-1699>`_ | |
+| +-----------------------------------------+ |
+| | `CSIT-1705 | |
+| | <https://jira.fd.io/browse/CSIT-1705>`_ | |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 13 | `CSIT-1699 | Root Cause Analysis for CSIT-2001. Identify cause of avf-ip4scale regression. |
+| | <https://jira.fd.io/browse/CSIT-1699>`_ | |
+| +-----------------------------------------+ |
+| | `CSIT-1706 | |
+| | <https://jira.fd.io/browse/CSIT-1706>`_ | |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 14 | `CSIT-1699 | Root Cause Analysis for CSIT-2001. Identify cause of progression in vhost-user tests with testpmd in VM. |
+| | <https://jira.fd.io/browse/CSIT-1699>`_ | |
+| +-----------------------------------------+ |
+| | `CSIT-1707 | |
+| | <https://jira.fd.io/browse/CSIT-1707>`_ | |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+
+| 15 | `CSIT-1699 | Root Cause Analysis for CSIT-2001. Identify cause for avf-ip4base regression. |
+| | <https://jira.fd.io/browse/CSIT-1699>`_ | |
+| +-----------------------------------------+ |
+| | `CSIT-1708 | |
+| | <https://jira.fd.io/browse/CSIT-1708>`_ | |
++----+-----------------------------------------+-----------------------------------------------------------------------------------------------------------+