4.1. Overview

4.1.1. Tested Physical Topologies

CSIT VPP performance tests are executed on physical baremetal servers hosted by LF FD.io project. Testbed physical topology is shown in the figure below.:

+------------------------+           +------------------------+
|                        |           |                        |
|  +------------------+  |           |  +------------------+  |
|  |                  |  |           |  |                  |  |
|  |                  <----------------->                  |  |
|  |       DUT1       |  |           |  |       DUT2       |  |
|  +--^---------------+  |           |  +---------------^--+  |
|     |                  |           |                  |     |
|     |            SUT1  |           |  SUT2            |     |
+------------------------+           +------------------^-----+
      |                                                 |
      |                                                 |
      |                  +-----------+                  |
      |                  |           |                  |
      +------------------>    TG     <------------------+
                         |           |
                         +-----------+

SUT1 runs VPP SW application in Linux user-mode as a Device Under Test (DUT), and a python script to generate traffic. SUT2 and TG are unused. sical connectivity between SUTs and to TG is provided using different NIC model. Currently installed NIC models include:

Performance tests involve sending Netconf requests over localhost to the Honeycomb listener port, and measuring response time.

Note that reported performance results are specific to the SUTs tested. Current LF FD.io SUTs are based on Intel XEON E5-2699v3 2.3GHz CPUs. SUTs with other CPUs are likely to yield different results.

For detailed LF FD.io test bed specification and physical topology please refer to LF FDio CSIT testbed wiki page.

4.1.2. Performance Tests Coverage

As of right now, there is only a single Honeycomb performance test. Measuring response time for a simple read operation, performed synchronously and using single (not batch) requests.

Currently the tests do not trigger automatically, but can be run on-demand from the hc2vpp project.

4.1.3. Performance Tests Naming

CSIT rls1801 follows a common structured naming convention for all performance and system functional tests, introduced in CSIT rls1710.

The naming should be intuitive for majority of the tests. Complete description of CSIT test naming convention is provided on CSIT test naming wiki.

Here few illustrative examples of the new naming usage for performance test suites:

  1. Physical port to physical port - a.k.a. NIC-to-NIC, Phy-to-Phy, P2P
    • PortNICConfig-WireEncapsulation-PacketForwardingFunction- PacketProcessingFunction1-…-PacketProcessingFunctionN-TestType
    • 10ge2p1x520-dot1q-l2bdbasemaclrn-ndrdisc.robot => 2 ports of 10GE on Intel x520 NIC, dot1q tagged Ethernet, L2 bridge-domain baseline switching with MAC learning, NDR throughput discovery.
    • 10ge2p1x520-ethip4vxlan-l2bdbasemaclrn-ndrchk.robot => 2 ports of 10GE on Intel x520 NIC, IPv4 VXLAN Ethernet, L2 bridge-domain baseline switching with MAC learning, NDR throughput discovery.
    • 10ge2p1x520-ethip4-ip4base-ndrdisc.robot => 2 ports of 10GE on Intel x520 NIC, IPv4 baseline routed forwarding, NDR throughput discovery.
    • 10ge2p1x520-ethip6-ip6scale200k-ndrdisc.robot => 2 ports of 10GE on Intel x520 NIC, IPv6 scaled up routed forwarding, NDR throughput discovery.
  2. Physical port to VM (or VM chain) to physical port - a.k.a. NIC2VM2NIC, P2V2P, NIC2VMchain2NIC, P2V2V2P
    • PortNICConfig-WireEncapsulation-PacketForwardingFunction- PacketProcessingFunction1-…-PacketProcessingFunctionN-VirtEncapsulation- VirtPortConfig-VMconfig-TestType
    • 10ge2p1x520-dot1q-l2bdbasemaclrn-eth-2vhost-1vm-ndrdisc.robot => 2 ports of 10GE on Intel x520 NIC, dot1q tagged Ethernet, L2 bridge-domain switching to/from two vhost interfaces and one VM, NDR throughput discovery.
    • 10ge2p1x520-ethip4vxlan-l2bdbasemaclrn-eth-2vhost-1vm-ndrdisc.robot => 2 ports of 10GE on Intel x520 NIC, IPv4 VXLAN Ethernet, L2 bridge-domain switching to/from two vhost interfaces and one VM, NDR throughput discovery.
    • 10ge2p1x520-ethip4vxlan-l2bdbasemaclrn-eth-4vhost-2vm-ndrdisc.robot => 2 ports of 10GE on Intel x520 NIC, IPv4 VXLAN Ethernet, L2 bridge-domain switching to/from four vhost interfaces and two VMs, NDR throughput discovery.

4.1.4. Methodology: Multi-Core

Multi-core Test - CSIT rls1801 multi-core tests are executed in the following thread and core configurations:

  1. 1t - 1 Honeycomb Netconf thread on 1 CPU physical core.
  2. 8t - 8 Honeycomb Netconf thread on 8 CPU physical core.
  3. 16t - 16 Honeycomb Netconf thread on 16 CPU physical core.

Traffic generator also uses multiple threads/cores, to simulate multiple Netconf clients accessing the Honeycomb server.

4.1.5. Methodology: Performance measurement

The following values are measured and reported in tests:

  • Average request rate. Averaged over the entire test duration, over all client threads. Negative replies (if any) are not counted and are reported separately.