Running Networking Performance Tests against K8s
Tool | Test | Status | Pass/Fail Context |
---|---|---|---|
netperf | TCP_STREAM | Working | Yes |
netperf | UDP_STREAM | Working | No |
netperf | TCP_RR | Working | No |
netperf | UDP_RR | Working | No |
netperf | TCP_CRR | Working | No |
uperf | TCP_STREAM | Working | Yes |
uperf | UDP_STREAM | Working | No |
uperf | TCP_RR | Working | No |
uperf | UDP_RR | Working | No |
iperf3 | TCP_STREAM | Working | Yes |
iperf3 | UDP_STREAM | Working | No |
$ git clone http://github.com/cloud-bulldozer/k8s-netperf
$ cd k8s-netperf
$ make build
$ git clone http://github.com/cloud-bulldozer/k8s-netperf
$ cd k8s-netperf
$ make container-build
Ensure your kubeconfig
is properly set to the cluster you would like to run k8s-netperf
against.
also be sure to create a netperf
namespace. (Not over-writable yet)
$ kubectl create ns netperf
$ kubectl create sa -n netperf netperf
If you run with --all
, you will need to allow hostNetwork
for the netperf sa.
Example
$ oc adm policy add-scc-to-user hostnetwork -z netperf
$ kubectl create ns netperf
$ kubectl create sa netperf -n netperf
$ ./bin/amd64/k8s-netperf --help
A tool to run network performance tests in Kubernetes cluster
Usage:
k8s-netperf [flags]
Flags:
--config string K8s netperf Configuration File (default "netperf.yml")
--netperf Use netperf as load driver (default true)
--iperf Use iperf3 as load driver
--uperf Use uperf as load driver
--clean Clean-up resources created by k8s-netperf (default true)
--json Instead of human-readable output, return JSON to stdout
--local Run network performance tests with Server-Pods/Client-Pods on the same Node
--vm Launch Virtual Machines instead of pods for client/servers
--across Place the client and server across availability zones
--all Run all tests scenarios - hostNet and podNetwork (if possible)
--debug Enable debug log
--udn Create and use a UDN called 'udn-l2-primary' as a primary network.
--prom string Prometheus URL
--uuid string User provided UUID
--search string OpenSearch URL, if you have auth, pass in the format of https://user:pass@url:port
--index string OpenSearch Index to save the results to, defaults to k8s-netperf
--metrics Show all system metrics retrieved from prom
--tcp-tolerance float Allowed %diff from hostNetwork to podNetwork, anything above tolerance will result in k8s-netperf exiting 1. (default 10)
--version k8s-netperf version
--csv Archive results, cluster and benchmark metrics in CSV files (default true)
-h, --help help for k8s-netperf
--across
will force the client to be across availability zones from the server--json
will reduce all output to just the JSON result, allowing users to feed the result tojq
or other tools. Only output to the screen will be the result JSON or errors.--clean=true
will delete all the resources the project creates (deployments and services)--prom
accepts a string (URL). Example http://localhost:9090- When using
--prom
with a non-openshift cluster, it will be necessary to pass the prometheus URL.
- When using
--metrics
will enable displaying prometheus captured metrics to stdout. By default they will be written to a csv file.--iperf
will enable the iperf3 load driver for any stream test (TCP_STREAM, UDP_STREAM). iperf3 doesn't have a RR or CRR test-type.--uperf
will enable the uperf load driver for any stream test (TCP_STREAM, UDP_STREAM). uperf doesn't have CRR test-type.
Note: With OpenShift, we attempt to discover the OpenShift route. If that route is not reachable, it might be required to
port-forward
the service and pass that via the--prom
option.
Running k8s-netperf against Virtual Machines (OpenShift CNV) requires
- OpenShift CNV must be deployed and users should be able to define VMIs
- SSH keys to be present in the home directory
(~/.ssh/id_rsa.pub)
- OpenShift Routes - k8s-netperf uses this to reach the VMs (k8s-netperf will create the route for the user, but we need Routes)
If the two above are in place, users can orhestrate k8s-netperf to launch VMs by running
k8s-netperf --vm
The v2 config file will be executed in the order the tests are presented in the config file.
tests :
- TCPStream: # Place-holder of a test name
parallelism: 1 # Number of concurrent netperf processes to run.
profile: "TCP_STREAM" # Netperf profile to execute. This can be [TCP,UDP]_STREAM, [TCP,UDP]_RR, TCP_CRR
duration: 3 # How long to run the test
samples: 1 # Iterations to run specified test
messagesize: 1024 # Size of the data-gram
burst: 1 # Number of transactions inflight at one time. By default, netperf does one transaction at a time. This is netperf's TCP_RR specific option.
service: false # If we should test with the server pod behind a service
The v1 config file will be executed in random order. If you need the list of tests to be ran in a specific order, use the v2 config file format.
netperf.yml
contains a default set of tests.
Description of each field in the YAML.
TCPStream: # Place-holder of a test name
parallelism: 1 # Number of concurrent netperf processes to run.
profile: "TCP_STREAM" # Netperf profile to execute. This can be [TCP,UDP]_STREAM, [TCP,UDP]_RR, TCP_CRR
duration: 3 # How long to run the test
samples: 1 # Iterations to run specified test
messagesize: 1024 # Size of the data-gram
burst: 1 # Number of transactions inflight at one time. By default, netperf does one transaction at a time. This is netperf's TCP_RR specific option.
service: false # If we should test with the server pod behind a service
In most cases setting parallelism greater than 1 is OK, when using service: true
, multiple threads (or processes in netperf) connect to the same service.
k8s-netperf
has a cli option for --tcp-tolerance
which defaults to 10%.
In order to have k8s-netperf
determine pass/fail the user must pass the --all
flag. k8s-netperf
must be able to run with hostNetwork and podNetwork across nodes.
$ ./k8s-netperf --tcp-tolerance 1
+-------------------+---------+------------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+--------------------+
| RESULT TYPE | DRIVER | SCENARIO | PARALLELISM | HOST NETWORK | SERVICE | MESSAGE SIZE | BURST | SAME NODE | DURATION | SAMPLES | AVG VALUE |
+-------------------+---------+------------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+--------------------+
| π Stream Results | netperf | TCP_STREAM | 1 | true | false | 1024 | 0 | false | 10 | 3 | 2661.006667 (Mb/s) |
| π Stream Results | iperf3 | TCP_STREAM | 1 | true | false | 1024 | 0 | false | 10 | 3 | 2483.078229 (Mb/s) |
| π Stream Results | uperf | TCP_STREAM | 1 | true | false | 1024 | 0 | false | 10 | 3 | 2581.705097 (Mb/s) |
| π Stream Results | netperf | TCP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 2702.230000 (Mb/s) |
| π Stream Results | iperf3 | TCP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 2523.434069 (Mb/s) |
| π Stream Results | uperf | TCP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 2567.665412 (Mb/s) |
| π Stream Results | netperf | TCP_STREAM | 1 | true | false | 8192 | 0 | false | 10 | 3 | 2697.276667 (Mb/s) |
| π Stream Results | iperf3 | TCP_STREAM | 1 | true | false | 8192 | 0 | false | 10 | 3 | 2542.793728 (Mb/s) |
| π Stream Results | uperf | TCP_STREAM | 1 | true | false | 8192 | 0 | false | 10 | 3 | 2571.881579 (Mb/s) |
| π Stream Results | netperf | TCP_STREAM | 1 | false | false | 8192 | 0 | false | 10 | 3 | 2707.076667 (Mb/s) |
| π Stream Results | iperf3 | TCP_STREAM | 1 | false | false | 8192 | 0 | false | 10 | 3 | 2604.067072 (Mb/s) |
| π Stream Results | uperf | TCP_STREAM | 1 | false | false | 8192 | 0 | false | 10 | 3 | 2687.276667 (Mb/s) |
| π Stream Results | netperf | UDP_STREAM | 1 | true | false | 1024 | 0 | false | 10 | 3 | 1143.926667 (Mb/s) |
| π Stream Results | iperf3 | UDP_STREAM | 1 | true | false | 1024 | 0 | false | 10 | 3 | 1202.428288 (Mb/s) |
| π Stream Results | uperf | UDP_STREAM | 1 | true | false | 1024 | 0 | false | 10 | 3 | 1242.059988 (Mb/s) |
| π Stream Results | netperf | UDP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 1145.066667 (Mb/s) |
| π Stream Results | iperf3 | UDP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 1239.580672 (Mb/s) |
| π Stream Results | uperf | UDP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 1261.840000 (Mb/s) |
+-------------------+---------+------------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+--------------------+
+---------------+---------+----------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+---------------------+
| RESULT TYPE | DRIVER | SCENARIO | PARALLELISM | HOST NETWORK | SERVICE | MESSAGE SIZE | BURST | SAME NODE | DURATION | SAMPLES | AVG VALUE |
+---------------+---------+----------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+---------------------+
| π Rr Results | netperf | TCP_CRR | 1 | true | true | 1024 | 0 | false | 10 | 3 | 2370.196667 (OP/s) |
| π Rr Results | netperf | TCP_CRR | 1 | false | true | 1024 | 0 | false | 10 | 3 | 3046.126667 (OP/s) |
| π Rr Results | netperf | TCP_RR | 1 | true | false | 1024 | 2 | false | 10 | 3 | 16849.056667 (OP/s) |
| π Rr Results | netperf | TCP_RR | 1 | false | false | 1024 | 2 | false | 10 | 3 | 17101.856667 (OP/s) |
| π Rr Results | netperf | TCP_CRR | 1 | true | false | 1024 | 0 | false | 10 | 3 | 3166.136667 (OP/s) |
| π Rr Results | netperf | TCP_CRR | 1 | false | false | 1024 | 0 | false | 10 | 3 | 1787.530000 (OP/s) |
+---------------+---------+----------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+---------------------+
+---------------------------+---------+------------+-------------+--------------+---------+--------------+-------+-----------+----------+-----------------------------+
| RESULT TYPE | DRIVER | SCENARIO | PARALLELISM | HOST NETWORK | SERVICE | MESSAGE SIZE | BURST | SAME NODE | DURATION | SAMPLES | 99%TILE VALUE |
+---------------------------+---------+------------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+-------------------+
| π Stream Latency Results | netperf | TCP_STREAM | 1 | true | false | 1024 | 0 | false | 10 | 3 | 71.333333 (usec) |
| π Stream Latency Results | netperf | TCP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 2.333333 (usec) |
| π Stream Latency Results | netperf | TCP_STREAM | 1 | true | false | 8192 | 0 | false | 10 | 3 | 276.000000 (usec) |
| π Stream Latency Results | netperf | TCP_STREAM | 1 | false | false | 8192 | 0 | false | 10 | 3 | 124.333333 (usec) |
| π Stream Latency Results | netperf | UDP_STREAM | 1 | true | false | 1024 | 0 | false | 10 | 3 | 14.666667 (usec) |
| π Stream Latency Results | netperf | UDP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 14.666667 (usec) |
+---------------------------+---------+------------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+-------------------+
+-----------------------+---------+----------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+-------------------+
| RESULT TYPE | DRIVER | SCENARIO | PARALLELISM | HOST NETWORK | SERVICE | MESSAGE SIZE | BURST | SAME NODE | DURATION | SAMPLES | 99%TILE VALUE |
+-----------------------+---------+----------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+-------------------+
| π Rr Latency Results | netperf | TCP_CRR | 1 | true | true | 1024 | 0 | false | 10 | 3 | 817.333333 (usec) |
| π Rr Latency Results | netperf | TCP_CRR | 1 | false | true | 1024 | 0 | false | 10 | 3 | 647.666667 (usec) |
| π Rr Latency Results | netperf | TCP_RR | 1 | true | false | 1024 | 2 | false | 10 | 3 | 125.333333 (usec) |
| π Rr Latency Results | netperf | TCP_RR | 1 | false | false | 1024 | 2 | false | 10 | 3 | 119.666667 (usec) |
| π Rr Latency Results | netperf | TCP_CRR | 1 | true | false | 1024 | 0 | false | 10 | 3 | 621.000000 (usec) |
| π Rr Latency Results | netperf | TCP_CRR | 1 | false | false | 1024 | 0 | false | 10 | 3 | 539.666667 (usec) |
+-----------------------+---------+----------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+-------------------+
π₯ TCP Stream percent difference when comparing hostNetwork to podNetwork is greater than 1.0 percent (2.7 percent)
$ echo $?
1
Tool | Test | pass/fail |
---|---|---|
netperf | TCP_STREAM | working (default:10%) |
k8s-netperf
can store results in OpenSearch, if the user provides the OpenSearch URL.
rhino in ~ $ ./k8s-netperf --config test.yml --search https://admin:pass@my-es:443
... <trimmed output>
INFO[2023-03-02 16:38:48] Connected to : [https://admin:pass@my-es:443]
INFO[2023-03-02 16:38:48] Attempting to index 2 documents
Document format can be seen in pkg/archive/archive.go
k8s-netperf
will provide updates to stdout of the operations it is running, such as creating the server/client deployments and the execution of the workload in the container.
Same node refers to how the pods were deployed. If the cluster has > 2 nodes with nodes which have worker=
there will be a cross-node throughput test.
+-------------------+---------+------------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+--------------------+
| RESULT TYPE | DRIVER | SCENARIO | PARALLELISM | HOST NETWORK | SERVICE | MESSAGE SIZE | BURST | SAME NODE | DURATION | SAMPLES | AVG VALUE |
+-------------------+---------+------------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+--------------------+
| π Stream Results | netperf | TCP_STREAM | 1 | true | false | 1024 | 0 | false | 10 | 3 | 2661.006667 (Mb/s) |
| π Stream Results | iperf3 | TCP_STREAM | 1 | true | false | 1024 | 0 | false | 10 | 3 | 2483.078229 (Mb/s) |
| π Stream Results | netperf | TCP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 2702.230000 (Mb/s) |
| π Stream Results | iperf3 | TCP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 2523.434069 (Mb/s) |
| π Stream Results | netperf | TCP_STREAM | 1 | true | false | 8192 | 0 | false | 10 | 3 | 2697.276667 (Mb/s) |
| π Stream Results | iperf3 | TCP_STREAM | 1 | true | false | 8192 | 0 | false | 10 | 3 | 2542.793728 (Mb/s) |
| π Stream Results | netperf | TCP_STREAM | 1 | false | false | 8192 | 0 | false | 10 | 3 | 2707.076667 (Mb/s) |
| π Stream Results | iperf3 | TCP_STREAM | 1 | false | false | 8192 | 0 | false | 10 | 3 | 2604.067072 (Mb/s) |
| π Stream Results | netperf | UDP_STREAM | 1 | true | false | 1024 | 0 | false | 10 | 3 | 1143.926667 (Mb/s) |
| π Stream Results | iperf3 | UDP_STREAM | 1 | true | false | 1024 | 0 | false | 10 | 3 | 1202.428288 (Mb/s) |
| π Stream Results | netperf | UDP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 1145.066667 (Mb/s) |
| π Stream Results | iperf3 | UDP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 1239.580672 (Mb/s) |
+-------------------+---------+------------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+--------------------+
k8s-netperf will report TCP Retransmissions and UDP Loss for both workload drivers (netperf and iperf).
+---------------------+---------+------------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+-----------+
| TYPE | DRIVER | SCENARIO | PARALLELISM | HOST NETWORK | SERVICE | MESSAGE SIZE | BURST | SAME NODE | DURATION | SAMPLES | AVG VALUE |
+---------------------+---------+------------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+-----------+
| TCP Retransmissions | netperf | TCP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 54.666667 |
| TCP Retransmissions | netperf | TCP_STREAM | 1 | false | false | 8192 | 0 | false | 10 | 3 | 15.000000 |
| UDP Loss Percent | netperf | UDP_STREAM | 1 | false | false | 1024 | 0 | false | 10 | 3 | 0.067031 |
+---------------------+---------+------------+-------------+--------------+---------+--------------+-------+-----------+----------+---------+-----------+
k8s-netperf
will write a csv file, after it has completed the desired performance tests.
Example output
Driver,Profile,Same node,Host Network,Service,Duration,Parallelism,# of Samples,Message Size,Confidence metric - low,Confidence metric - high,Avg Throughput,Throughput Metric,99%tile Observed Latency,Latency Metric
netperf,TCP_STREAM,false,false,false,10,1,3,1024,861.9391413991156,885.2741919342178,873.606667,Mb/s,3.3333333333333335,usec
netperf,TCP_STREAM,false,false,false,10,1,3,8192,178.12442996547009,1310.3422367011967,744.233333,Mb/s,2394.6666666666665,usec
netperf,UDP_STREAM,false,false,false,10,1,3,1024,584.3478157889886,993.4588508776783,788.903333,Mb/s,23,usec
netperf,TCP_CRR,false,false,false,10,1,3,1024,1889.3183973002176,2558.074936033115,2223.696667,OP/s,4682.666666666667,usec
netperf,TCP_CRR,false,false,true,10,1,3,1024,1169.206855676418,2954.3464776569153,2061.776667,OP/s,4679.333333333333,usec
netperf,TCP_RR,false,false,false,10,1,3,1024,6582.5359452538705,12085.437388079461,9333.986667,OP/s,451.3333333333333,usec