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Performing latency tests for platform verification | Scalability and performance | OKD 4.10
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You can use the Cloud-native Network Functions (CNF) tests image to run latency tests on a CNF-enabled OKD cluster, where all the components required for running CNF workloads are installed. Run the latency tests to validate node tuning for your workload.

The cnf-tests container image is available at registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10.

The cnf-tests image also includes several tests that are not supported by Red Hat at this time. Only the latency tests are supported by Red Hat.

Prerequisites for running latency tests

Your cluster must meet the following requirements before you can run the latency tests:

  1. You have configured a performance profile with the Performance Addon Operator.

  2. You have applied all the required CNF configurations in the cluster.

  3. You have a pre-existing MachineConfigPool CR applied in the cluster. The default worker pool is worker-cnf.

Additional resources

About discovery mode for latency tests

Use discovery mode to validate the functionality of a cluster without altering its configuration. Existing environment configurations are used for the tests. The tests can find the configuration items needed and use those items to execute the tests. If resources needed to run a specific test are not found, the test is skipped, providing an appropriate message to the user. After the tests are finished, no cleanup of the pre-configured configuration items is done, and the test environment can be immediately used for another test run.

When running the latency tests, always run the tests with -e DISCOVERY_MODE=true and -ginkgo.focus set to the appropriate latency test. If you do not run the latency tests in discovery mode, your existing live cluster performance profile configuration will be modified by the test run.

Limiting the nodes used during tests

The nodes on which the tests are executed can be limited by specifying a NODES_SELECTOR environment variable, for example, -e NODES_SELECTOR=node-role.kubernetes.io/worker-cnf. Any resources created by the test are limited to nodes with matching labels.

If you want to override the default worker pool, pass the -e ROLE_WORKER_CNF=<custom_worker_pool> variable to the command specifying an appropriate label.

Measuring latency

The cnf-tests image uses three tools to measure the latency of the system:

  • hwlatdetect

  • cyclictest

  • oslat

Each tool has a specific use. Use the tools in sequence to achieve reliable test results.

hwlatdetect

Measures the baseline that the bare-metal hardware can achieve. Before proceeding with the next latency test, ensure that the latency reported by hwlatdetect meets the required threshold because you cannot fix hardware latency spikes by operating system tuning.

cyclictest

Verifies the real-time kernel scheduler latency after hwlatdetect passes validation. The cyclictest tool schedules a repeated timer and measures the difference between the desired and the actual trigger times. The difference can uncover basic issues with the tuning caused by interrupts or process priorities. The tool must run on a real-time kernel.

oslat

Behaves similarly to a CPU-intensive DPDK application and measures all the interruptions and disruptions to the busy loop that simulates CPU heavy data processing.

The tests introduce the following environment variables:

Table 1. Latency test environment variables
Environment variables Description

LATENCY_TEST_DELAY

Specifies the amount of time in seconds after which the test starts running. You can use the variable to allow the CPU manager reconcile loop to update the default CPU pool. The default value is 0.

LATENCY_TEST_CPUS

Specifies the number of CPUs that the pod running the latency tests uses. If you do not set the variable, the default configuration includes all isolated CPUs.

LATENCY_TEST_RUNTIME

Specifies the amount of time in seconds that the latency test must run. The default value is 300 seconds.

HWLATDETECT_MAXIMUM_LATENCY

Specifies the maximum acceptable hardware latency in microseconds for the workload and operating system. If you do not set the value of HWLATDETECT_MAXIMUM_LATENCY or MAXIMUM_LATENCY, the tool compares the default expected threshold (20μs) and the actual maximum latency in the tool itself. Then, the test fails or succeeds accordingly.

CYCLICTEST_MAXIMUM_LATENCY

Specifies the maximum latency in microseconds that all threads expect before waking up during the cyclictest run. If you do not set the value of CYCLICTEST_MAXIMUM_LATENCY or MAXIMUM_LATENCY, the tool skips the comparison of the expected and the actual maximum latency.

OSLAT_MAXIMUM_LATENCY

Specifies the maximum acceptable latency in microseconds for the oslat test results. If you do not set the value of OSLAT_MAXIMUM_LATENCY or MAXIMUM_LATENCY, the tool skips the comparison of the expected and the actual maximum latency.

MAXIMUM_LATENCY

Unified variable that specifies the maximum acceptable latency in microseconds. Applicable for all available latency tools.

LATENCY_TEST_RUN

Boolean parameter that indicates whether the tests should run. LATENCY_TEST_RUN is set to false by default. To run the latency tests, set this value to true.

Variables that are specific to a latency tool take precedence over unified variables. For example, if OSLAT_MAXIMUM_LATENCY is set to 30 microseconds and MAXIMUM_LATENCY is set to 10 microseconds, the oslat test will run with maximum acceptable latency of 30 microseconds.

Running the latency tests

Run the cluster latency tests to validate node tuning for your Cloud-native Network Functions (CNF) workload.

Always run the latency tests with DISCOVERY_MODE=true set. If you don’t, the test suite will make changes to the running cluster configuration.

When executing podman commands as a non-root or non-privileged user, mounting paths can fail with permission denied errors. To make the podman command work, append :Z to the volumes creation; for example, -v $(pwd)/:/kubeconfig:Z. This allows podman to do the proper SELinux relabeling.

Procedure
  1. Open a shell prompt in the directory containing the kubeconfig file.

    You provide the test image with a kubeconfig file in current directory and its related $KUBECONFIG environment variable, mounted through a volume. This allows the running container to use the kubeconfig file from inside the container.

  2. Run the latency tests by entering the following command:

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    -e LATENCY_TEST_RUN=true -e DISCOVERY_MODE=true registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10 \
    /usr/bin/test-run.sh -ginkgo.focus="\[performance\]\ Latency\ Test"
  3. Optional: Append -ginkgo.dryRun to run the latency tests in dry-run mode. This is useful for checking what the tests run.

  4. Optional: Append -ginkgo.v to run the tests with increased verbosity.

  5. Optional: To run the latency tests against a specific performance profile, run the following command, substituting appropriate values:

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    -e LATENCY_TEST_RUN=true -e LATENCY_TEST_RUNTIME=600 -e MAXIMUM_LATENCY=20 \
    -e PERF_TEST_PROFILE=<performance_profile> registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10 \
    /usr/bin/test-run.sh -ginkgo.focus="[performance]\ Latency\ Test"

    where:

    <performance_profile>

    Is the name of the performance profile you want to run the latency tests against.

    For valid latency tests results, run the tests for at least 12 hours.

Running hwlatdetect

The hwlatdetect tool is available in the rt-kernel package with a regular subscription of Fedora 35.

Always run the latency tests with DISCOVERY_MODE=true set. If you don’t, the test suite will make changes to the running cluster configuration.

When executing podman commands as a non-root or non-privileged user, mounting paths can fail with permission denied errors. To make the podman command work, append :Z to the volumes creation; for example, -v $(pwd)/:/kubeconfig:Z. This allows podman to do the proper SELinux relabeling.

Prerequisites
  • You have installed the real-time kernel in the cluster.

  • You have logged in to registry.redhat.io with your Customer Portal credentials.

Procedure
  • To run the hwlatdetect tests, run the following command, substituting variable values as appropriate:

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    -e LATENCY_TEST_RUN=true -e DISCOVERY_MODE=true -e ROLE_WORKER_CNF=worker-cnf \
    -e LATENCY_TEST_RUNTIME=600 -e MAXIMUM_LATENCY=20 \
    registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10 \
    /usr/bin/test-run.sh -ginkgo.v -ginkgo.focus="hwlatdetect"

    The hwlatdetect test runs for 10 minutes (600 seconds). The test runs successfully when the maximum observed latency is lower than MAXIMUM_LATENCY (20 μs).

    If the results exceed the latency threshold, the test fails.

    For valid results, the test should run for at least 12 hours.

    Example failure output
    running /usr/bin/validationsuite -ginkgo.v -ginkgo.focus=hwlatdetect
    I0210 17:08:38.607699       7 request.go:668] Waited for 1.047200253s due to client-side throttling, not priority and fairness, request: GET:https://api.ocp.demo.lab:6443/apis/apps.openshift.io/v1?timeout=32s
    Running Suite: CNF Features e2e validation
    ==========================================
    Random Seed: 1644512917
    Will run 0 of 48 specs
    
    SSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSS
    Ran 0 of 48 Specs in 0.001 seconds
    SUCCESS! -- 0 Passed | 0 Failed | 0 Pending | 48 Skipped
    
    PASS
    Discovery mode enabled, skipping setup
    running /usr/bin/cnftests -ginkgo.v -ginkgo.focus=hwlatdetect
    I0210 17:08:41.179269      40 request.go:668] Waited for 1.046001096s due to client-side throttling, not priority and fairness, request: GET:https://api.ocp.demo.lab:6443/apis/storage.k8s.io/v1beta1?timeout=32s
    Running Suite: CNF Features e2e integration tests
    =================================================
    Random Seed: 1644512920
    Will run 1 of 151 specs
    
    SSSSSSS
    ------------------------------
    [performance] Latency Test with the hwlatdetect image
      should succeed
      /remote-source/app/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:221
    STEP: Waiting two minutes to download the latencyTest image
    STEP: Waiting another two minutes to give enough time for the cluster to move the pod to Succeeded phase
    Feb 10 17:10:56.045: [INFO]: found mcd machine-config-daemon-dzpw7 for node ocp-worker-0.demo.lab
    Feb 10 17:10:56.259: [INFO]: found mcd machine-config-daemon-dzpw7 for node ocp-worker-0.demo.lab
    Feb 10 17:11:56.825: [ERROR]: timed out waiting for the condition
    
    • Failure [193.903 seconds]
    [performance] Latency Test
    /remote-source/app/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:60
      with the hwlatdetect image
      /remote-source/app/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:213
        should succeed [It]
        /remote-source/app/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:221
    
        Log file created at: 2022/02/10 17:08:45
        Running on machine: hwlatdetect-cd8b6
        Binary: Built with gc go1.16.6 for linux/amd64
        Log line format: [IWEF]mmdd hh:mm:ss.uuuuuu threadid file:line] msg
        I0210 17:08:45.716288       1 node.go:37] Environment information: /proc/cmdline: BOOT_IMAGE=(hd0,gpt3)/ostree/rhcos-56fabc639a679b757ebae30e5f01b2ebd38e9fde9ecae91c41be41d3e89b37f8/vmlinuz-4.18.0-305.34.2.rt7.107.el8_4.x86_64 random.trust_cpu=on console=tty0 console=ttyS0,115200n8 ignition.platform.id=qemu ostree=/ostree/boot.0/rhcos/56fabc639a679b757ebae30e5f01b2ebd38e9fde9ecae91c41be41d3e89b37f8/0 root=UUID=56731f4f-f558-46a3-85d3-d1b579683385 rw rootflags=prjquota skew_tick=1 nohz=on rcu_nocbs=3-5 tuned.non_isolcpus=ffffffc7 intel_pstate=disable nosoftlockup tsc=nowatchdog intel_iommu=on iommu=pt isolcpus=managed_irq,3-5 systemd.cpu_affinity=0,1,2,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31 + +
        I0210 17:08:45.716782       1 node.go:44] Environment information: kernel version 4.18.0-305.34.2.rt7.107.el8_4.x86_64
        I0210 17:08:45.716861       1 main.go:50] running the hwlatdetect command with arguments [/usr/bin/hwlatdetect --threshold 1 --hardlimit 1 --duration 10 --window 10000000us --width 950000us]
        F0210 17:08:56.815204       1 main.go:53] failed to run hwlatdetect command; out: hwlatdetect:  test duration 10 seconds
           detector: tracer
           parameters:
                Latency threshold: 1us (1)
                Sample window:     10000000us
                Sample width:      950000us
             Non-sampling period:  9050000us
                Output File:       None
    
        Starting test
        test finished
        Max Latency: 24us (2)
        Samples recorded: 1
        Samples exceeding threshold: 1
        ts: 1644512927.163556381, inner:20, outer:24
        ; err: exit status 1
        goroutine 1 [running]:
        k8s.io/klog.stacks(0xc000010001, 0xc00012e000, 0x25b, 0x2710)
            /remote-source/app/vendor/k8s.io/klog/klog.go:875 +0xb9
        k8s.io/klog.(*loggingT).output(0x5bed00, 0xc000000003, 0xc0000121c0, 0x53ea81, 0x7, 0x35, 0x0)
            /remote-source/app/vendor/k8s.io/klog/klog.go:829 +0x1b0
        k8s.io/klog.(*loggingT).printf(0x5bed00, 0x3, 0x5082da, 0x33, 0xc000113f58, 0x2, 0x2)
            /remote-source/app/vendor/k8s.io/klog/klog.go:707 +0x153
        k8s.io/klog.Fatalf(...)
            /remote-source/app/vendor/k8s.io/klog/klog.go:1276
        main.main()
            /remote-source/app/cnf-tests/pod-utils/hwlatdetect-runner/main.go:53 +0x897
    
        goroutine 6 [chan receive]:
        k8s.io/klog.(*loggingT).flushDaemon(0x5bed00)
            /remote-source/app/vendor/k8s.io/klog/klog.go:1010 +0x8b
        created by k8s.io/klog.init.0
            /remote-source/app/vendor/k8s.io/klog/klog.go:411 +0xd8
    
        goroutine 7 [chan receive]:
        k8s.io/klog/v2.(*loggingT).flushDaemon(0x5bede0)
            /remote-source/app/vendor/k8s.io/klog/v2/klog.go:1169 +0x8b
        created by k8s.io/klog/v2.init.0
            /remote-source/app/vendor/k8s.io/klog/v2/klog.go:420 +0xdf
        Unexpected error:
            <*errors.errorString | 0xc000418ed0>: {
                s: "timed out waiting for the condition",
            }
            timed out waiting for the condition
        occurred
    
        /remote-source/app/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:433
    ------------------------------
    SSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSS
    JUnit report was created: /junit.xml/cnftests-junit.xml
    
    
    Summarizing 1 Failure:
    
    [Fail] [performance] Latency Test with the hwlatdetect image [It] should succeed
    /remote-source/app/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:433
    
    Ran 1 of 151 Specs in 222.254 seconds
    FAIL! -- 0 Passed | 1 Failed | 0 Pending | 150 Skipped
    
    --- FAIL: TestTest (222.45s)
    FAIL
    1 You can configure the latency threshold by using the MAXIMUM_LATENCY or the HWLATDETECT_MAXIMUM_LATENCY environment variables.
    2 The maximum latency value measured during the test.

Example hwlatdetect test results

You can capture the following types of results:

  • Rough results that are gathered after each run to create a history of impact on any changes made throughout the test.

  • The combined set of the rough tests with the best results and configuration settings.

Example of good results
hwlatdetect: test duration 3600 seconds
detector: tracer
parameters:
Latency threshold: 10us
Sample window: 1000000us
Sample width: 950000us
Non-sampling period: 50000us
Output File: None

Starting test
test finished
Max Latency: Below threshold
Samples recorded: 0

The hwlatdetect tool only provides output if the sample exceeds the specified threshold.

Example of bad results
hwlatdetect: test duration 3600 seconds
detector: tracer
parameters:Latency threshold: 10usSample window: 1000000us
Sample width: 950000usNon-sampling period: 50000usOutput File: None

Starting tests:1610542421.275784439, inner:78, outer:81
ts: 1610542444.330561619, inner:27, outer:28
ts: 1610542445.332549975, inner:39, outer:38
ts: 1610542541.568546097, inner:47, outer:32
ts: 1610542590.681548531, inner:13, outer:17
ts: 1610543033.818801482, inner:29, outer:30
ts: 1610543080.938801990, inner:90, outer:76
ts: 1610543129.065549639, inner:28, outer:39
ts: 1610543474.859552115, inner:28, outer:35
ts: 1610543523.973856571, inner:52, outer:49
ts: 1610543572.089799738, inner:27, outer:30
ts: 1610543573.091550771, inner:34, outer:28
ts: 1610543574.093555202, inner:116, outer:63

The output of hwlatdetect shows that multiple samples exceed the threshold. However, the same output can indicate different results based on the following factors:

  • The duration of the test

  • The number of CPU cores

  • The host firmware settings

Before proceeding with the next latency test, ensure that the latency reported by hwlatdetect meets the required threshold. Fixing latencies introduced by hardware might require you to contact the system vendor support.

Not all latency spikes are hardware related. Ensure that you tune the host firmware to meet your workload requirements. For more information, see Setting firmware parameters for system tuning.

Running cyclictest

The cyclictest tool measures the real-time kernel scheduler latency on the specified CPUs.

Always run the latency tests with DISCOVERY_MODE=true set. If you don’t, the test suite will make changes to the running cluster configuration.

When executing podman commands as a non-root or non-privileged user, mounting paths can fail with permission denied errors. To make the podman command work, append :Z to the volumes creation; for example, -v $(pwd)/:/kubeconfig:Z. This allows podman to do the proper SELinux relabeling.

Prerequisites
  • You have logged in to registry.redhat.io with your Customer Portal credentials.

  • You have installed the real-time kernel in the cluster.

  • You have applied a cluster performance profile by using Performance addon operator.

Procedure
  • To perform the cyclictest, run the following command, substituting variable values as appropriate:

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    -e LATENCY_TEST_RUN=true -e DISCOVERY_MODE=true -e ROLE_WORKER_CNF=worker-cnf \
    -e LATENCY_TEST_CPUS=10 -e LATENCY_TEST_RUNTIME=600 -e MAXIMUM_LATENCY=20 \
    registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10 \
    /usr/bin/test-run.sh -ginkgo.v -ginkgo.focus="cyclictest"

    The command runs the cyclictest tool for 10 minutes (600 seconds). The test runs successfully when the maximum observed latency is lower than MAXIMUM_LATENCY (in this example, 20 μs). Latency spikes of 20 μs and above are generally not acceptable for telco RAN workloads.

    If the results exceed the latency threshold, the test fails.

    For valid results, the test should run for at least 12 hours.

    Example failure output
    Discovery mode enabled, skipping setup
    running /usr/bin//cnftests -ginkgo.v -ginkgo.focus=cyclictest
    I0811 15:02:36.350033      20 request.go:668] Waited for 1.049965918s due to client-side throttling, not priority and fairness, request: GET:https://api.cnfdc8.t5g.lab.eng.bos.redhat.com:6443/apis/machineconfiguration.openshift.io/v1?timeout=32s
    Running Suite: CNF Features e2e integration tests
    =================================================
    Random Seed: 1628694153
    Will run 1 of 138 specs
    
    SSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSS
    ------------------------------
    [performance] Latency Test with the cyclictest image
      should succeed
      /go/src/github.com/openshift-kni/cnf-features-deploy/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:200
    STEP: Waiting two minutes to download the latencyTest image
    STEP: Waiting another two minutes to give enough time for the cluster to move the pod to Succeeded phase
    Aug 11 15:03:06.826: [INFO]: found mcd machine-config-daemon-wf4w8 for node cnfdc8.clus2.t5g.lab.eng.bos.redhat.com
    
    • Failure [22.527 seconds]
    [performance] Latency Test
    /go/src/github.com/openshift-kni/cnf-features-deploy/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:84
      with the cyclictest image
      /go/src/github.com/openshift-kni/cnf-features-deploy/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:188
        should succeed [It]
        /go/src/github.com/openshift-kni/cnf-features-deploy/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:200
    
        The current latency 27 is bigger than the expected one 20
        Expected
            <bool>: false
        to be true
    
        /go/src/github.com/openshift-kni/cnf-features-deploy/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:219
    
    Log file created at: 2021/08/11 15:02:51
    Running on machine: cyclictest-knk7d
    Binary: Built with gc go1.16.6 for linux/amd64
    Log line format: [IWEF]mmdd hh:mm:ss.uuuuuu threadid file:line] msg
    I0811 15:02:51.092254       1 node.go:37] Environment information: /proc/cmdline: BOOT_IMAGE=(hd0,gpt3)/ostree/rhcos-612d89f4519a53ad0b1a132f4add78372661bfb3994f5fe115654971aa58a543/vmlinuz-4.18.0-305.10.2.rt7.83.el8_4.x86_64 ip=dhcp random.trust_cpu=on console=tty0 console=ttyS0,115200n8 ostree=/ostree/boot.1/rhcos/612d89f4519a53ad0b1a132f4add78372661bfb3994f5fe115654971aa58a543/0 ignition.platform.id=openstack root=UUID=5a4ddf16-9372-44d9-ac4e-3ee329e16ab3 rw rootflags=prjquota skew_tick=1 nohz=on rcu_nocbs=1-3 tuned.non_isolcpus=000000ff,ffffffff,ffffffff,fffffff1 intel_pstate=disable nosoftlockup tsc=nowatchdog intel_iommu=on iommu=pt isolcpus=managed_irq,1-3 systemd.cpu_affinity=0,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,96,97,98,99,100,101,102,103 default_hugepagesz=1G hugepagesz=2M hugepages=128 nmi_watchdog=0 audit=0 mce=off processor.max_cstate=1 idle=poll intel_idle.max_cstate=0
    I0811 15:02:51.092427       1 node.go:44] Environment information: kernel version 4.18.0-305.10.2.rt7.83.el8_4.x86_64
    I0811 15:02:51.092450       1 main.go:48] running the cyclictest command with arguments \
    [-D 600 -95 1 -t 10 -a 2,4,6,8,10,54,56,58,60,62 -h 30 -i 1000 --quiet]
    I0811 15:03:06.147253       1 main.go:54] succeeded to run the cyclictest command: # /dev/cpu_dma_latency set to 0us
    # Histogram
    000000 000000   000000  000000  000000  000000  000000  000000  000000  000000  000000
    000001 000000   005561  027778  037704  011987  000000  120755  238981  081847  300186
    000002 587440   581106  564207  554323  577416  590635  474442  357940  513895  296033
    000003 011751   011441  006449  006761  008409  007904  002893  002066  003349  003089
    000004 000527   001079  000914  000712  001451  001120  000779  000283  000350  000251
    
    More histogram entries ...
    # Min Latencies: 00002 00001 00001 00001 00001 00002 00001 00001 00001 00001
    # Avg Latencies: 00002 00002 00002 00001 00002 00002 00001 00001 00001 00001
    # Max Latencies: 00018 00465 00361 00395 00208 00301 02052 00289 00327 00114
    # Histogram Overflows: 00000 00220 00159 00128 00202 00017 00069 00059 00045 00120
    # Histogram Overflow at cycle number:
    # Thread 0:
    # Thread 1: 01142 01439 05305 … # 00190 others
    # Thread 2: 20895 21351 30624 … # 00129 others
    # Thread 3: 01143 17921 18334 … # 00098 others
    # Thread 4: 30499 30622 31566 ... # 00172 others
    # Thread 5: 145221 170910 171888 ...
    # Thread 6: 01684 26291 30623 ...# 00039 others
    # Thread 7: 28983 92112 167011 … 00029 others
    # Thread 8: 45766 56169 56171 ...# 00015 others
    # Thread 9: 02974 08094 13214 ... # 00090 others

Example cyclictest results

The same output can indicate different results for different workloads. For example, spikes up to 18μs are acceptable for 4G DU workloads, but not for 5G DU workloads.

Example of good results
running cmd: cyclictest -q -D 10m -p 1 -t 16 -a 2,4,6,8,10,12,14,16,54,56,58,60,62,64,66,68 -h 30 -i 1000 -m
# Histogram
000000 000000   000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000
000001 000000   000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000
000002 579506   535967  418614  573648  532870  529897  489306  558076  582350  585188  583793  223781  532480  569130  472250  576043
More histogram entries ...
# Total: 000600000 000600000 000600000 000599999 000599999 000599999 000599998 000599998 000599998 000599997 000599997 000599996 000599996 000599995 000599995 000599995
# Min Latencies: 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002
# Avg Latencies: 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002
# Max Latencies: 00005 00005 00004 00005 00004 00004 00005 00005 00006 00005 00004 00005 00004 00004 00005 00004
# Histogram Overflows: 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000
# Histogram Overflow at cycle number:
# Thread 0:
# Thread 1:
# Thread 2:
# Thread 3:
# Thread 4:
# Thread 5:
# Thread 6:
# Thread 7:
# Thread 8:
# Thread 9:
# Thread 10:
# Thread 11:
# Thread 12:
# Thread 13:
# Thread 14:
# Thread 15:
Example of bad results
running cmd: cyclictest -q -D 10m -p 1 -t 16 -a 2,4,6,8,10,12,14,16,54,56,58,60,62,64,66,68 -h 30 -i 1000 -m
# Histogram
000000 000000   000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000
000001 000000   000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000  000000
000002 564632   579686  354911  563036  492543  521983  515884  378266  592621  463547  482764  591976  590409  588145  589556  353518
More histogram entries ...
# Total: 000599999 000599999 000599999 000599997 000599997 000599998 000599998 000599997 000599997 000599996 000599995 000599996 000599995 000599995 000599995 000599993
# Min Latencies: 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002
# Avg Latencies: 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002 00002
# Max Latencies: 00493 00387 00271 00619 00541 00513 00009 00389 00252 00215 00539 00498 00363 00204 00068 00520
# Histogram Overflows: 00001 00001 00001 00002 00002 00001 00000 00001 00001 00001 00002 00001 00001 00001 00001 00002
# Histogram Overflow at cycle number:
# Thread 0: 155922
# Thread 1: 110064
# Thread 2: 110064
# Thread 3: 110063 155921
# Thread 4: 110063 155921
# Thread 5: 155920
# Thread 6:
# Thread 7: 110062
# Thread 8: 110062
# Thread 9: 155919
# Thread 10: 110061 155919
# Thread 11: 155918
# Thread 12: 155918
# Thread 13: 110060
# Thread 14: 110060
# Thread 15: 110059 155917

Running oslat

The oslat test simulates a CPU-intensive DPDK application and measures all the interruptions and disruptions to test how the cluster handles CPU heavy data processing.

Always run the latency tests with DISCOVERY_MODE=true set. If you don’t, the test suite will make changes to the running cluster configuration.

When executing podman commands as a non-root or non-privileged user, mounting paths can fail with permission denied errors. To make the podman command work, append :Z to the volumes creation; for example, -v $(pwd)/:/kubeconfig:Z. This allows podman to do the proper SELinux relabeling.

Prerequisites
  • You have logged in to registry.redhat.io with your Customer Portal credentials.

  • You have applied a cluster performance profile by using the Performance addon operator.

Procedure
  • To perform the oslat test, run the following command, substituting variable values as appropriate:

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    -e LATENCY_TEST_RUN=true -e DISCOVERY_MODE=true -e ROLE_WORKER_CNF=worker-cnf \
    -e LATENCY_TEST_CPUS=7 -e LATENCY_TEST_RUNTIME=600 -e MAXIMUM_LATENCY=20 \
    registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10 \
    /usr/bin/test-run.sh -ginkgo.v -ginkgo.focus="oslat"

    LATENCY_TEST_CPUS specifices the list of CPUs to test with the oslat command.

    The command runs the oslat tool for 10 minutes (600 seconds). The test runs successfully when the maximum observed latency is lower than MAXIMUM_LATENCY (20 μs).

    If the results exceed the latency threshold, the test fails.

    For valid results, the test should run for at least 12 hours.

    Example failure output
    running /usr/bin//validationsuite -ginkgo.v -ginkgo.focus=oslat
    I0829 12:36:55.386776       8 request.go:668] Waited for 1.000303471s due to client-side throttling, not priority and fairness, request: GET:https://api.cnfdc8.t5g.lab.eng.bos.redhat.com:6443/apis/authentication.k8s.io/v1?timeout=32s
    Running Suite: CNF Features e2e validation
    ==========================================
    
    Discovery mode enabled, skipping setup
    running /usr/bin//cnftests -ginkgo.v -ginkgo.focus=oslat
    I0829 12:37:01.219077      20 request.go:668] Waited for 1.050010755s due to client-side throttling, not priority and fairness, request: GET:https://api.cnfdc8.t5g.lab.eng.bos.redhat.com:6443/apis/snapshot.storage.k8s.io/v1beta1?timeout=32s
    Running Suite: CNF Features e2e integration tests
    =================================================
    Random Seed: 1630240617
    Will run 1 of 142 specs
    
    SSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSS
    ------------------------------
    [performance] Latency Test with the oslat image
      should succeed
      /go/src/github.com/openshift-kni/cnf-features-deploy/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:134
    STEP: Waiting two minutes to download the latencyTest image
    STEP: Waiting another two minutes to give enough time for the cluster to move the pod to Succeeded phase
    Aug 29 12:37:59.324: [INFO]: found mcd machine-config-daemon-wf4w8 for node cnfdc8.clus2.t5g.lab.eng.bos.redhat.com
    
    • Failure [49.246 seconds]
    [performance] Latency Test
    /go/src/github.com/openshift-kni/cnf-features-deploy/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:59
      with the oslat image
      /go/src/github.com/openshift-kni/cnf-features-deploy/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:112
        should succeed [It]
        /go/src/github.com/openshift-kni/cnf-features-deploy/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:134
    
        The current latency 27 is bigger than the expected one 20 (1)
        Expected
            <bool>: false
        to be true
     /go/src/github.com/openshift-kni/cnf-features-deploy/vendor/github.com/openshift-kni/performance-addon-operators/functests/4_latency/latency.go:168
    
    Log file created at: 2021/08/29 13:25:21
    Running on machine: oslat-57c2g
    Binary: Built with gc go1.16.6 for linux/amd64
    Log line format: [IWEF]mmdd hh:mm:ss.uuuuuu threadid file:line] msg
    I0829 13:25:21.569182       1 node.go:37] Environment information: /proc/cmdline: BOOT_IMAGE=(hd0,gpt3)/ostree/rhcos-612d89f4519a53ad0b1a132f4add78372661bfb3994f5fe115654971aa58a543/vmlinuz-4.18.0-305.10.2.rt7.83.el8_4.x86_64 ip=dhcp random.trust_cpu=on console=tty0 console=ttyS0,115200n8 ostree=/ostree/boot.0/rhcos/612d89f4519a53ad0b1a132f4add78372661bfb3994f5fe115654971aa58a543/0 ignition.platform.id=openstack root=UUID=5a4ddf16-9372-44d9-ac4e-3ee329e16ab3 rw rootflags=prjquota skew_tick=1 nohz=on rcu_nocbs=1-3 tuned.non_isolcpus=000000ff,ffffffff,ffffffff,fffffff1 intel_pstate=disable nosoftlockup tsc=nowatchdog intel_iommu=on iommu=pt isolcpus=managed_irq,1-3 systemd.cpu_affinity=0,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,96,97,98,99,100,101,102,103 default_hugepagesz=1G hugepagesz=2M hugepages=128 nmi_watchdog=0 audit=0 mce=off processor.max_cstate=1 idle=poll intel_idle.max_cstate=0
    I0829 13:25:21.569345       1 node.go:44] Environment information: kernel version 4.18.0-305.10.2.rt7.83.el8_4.x86_64
    I0829 13:25:21.569367       1 main.go:53] Running the oslat command with arguments \
    [--duration 600 --rtprio 1 --cpu-list 4,6,52,54,56,58 --cpu-main-thread 2]
    I0829 13:35:22.632263       1 main.go:59] Succeeded to run the oslat command: oslat V 2.00
    Total runtime:    600 seconds
    Thread priority:  SCHED_FIFO:1
    CPU list:     4,6,52,54,56,58
    CPU for main thread:  2
    Workload:     no
    Workload mem:     0 (KiB)
    Preheat cores:    6
    
    Pre-heat for 1 seconds...
    Test starts...
    Test completed.
    
            Core:  4 6 52 54 56 58
        CPU Freq:  2096 2096 2096 2096 2096 2096 (Mhz)
        001 (us):  19390720316 19141129810 20265099129 20280959461 19391991159 19119877333
        002 (us):  5304 5249 5777 5947 6829 4971
        003 (us):  28 14 434 47 208 21
        004 (us):  1388 853 123568 152817 5576 0
        005 (us):  207850 223544 103827 91812 227236 231563
        006 (us):  60770 122038 277581 323120 122633 122357
        007 (us):  280023 223992 63016 25896 214194 218395
        008 (us):  40604 25152 24368 4264 24440 25115
        009 (us):  6858 3065 5815 810 3286 2116
        010 (us):  1947 936 1452 151 474 361
      ...
         Minimum:  1 1 1 1 1 1 (us)
         Average:  1.000 1.000 1.000 1.000 1.000 1.000 (us)
         Maximum:  37 38 49 28 28 19 (us)
         Max-Min:  36 37 48 27 27 18 (us)
        Duration:  599.667 599.667 599.667 599.667 599.667 599.667 (sec)
    1 In this example, the measured latency is outside the maximum allowed value.

Generating a latency test failure report

Use the following procedures to generate a JUnit latency test output and test failure report.

Prerequisites
  • You have installed the OpenShift CLI (oc).

  • You have logged in as a user with cluster-admin privileges.

Procedure
  • Create a test failure report with information about the cluster state and resources for troubleshooting by passing the --report parameter with the path to where the report is dumped:

    $ podman run -v $(pwd)/:/kubeconfig:Z -v $(pwd)/reportdest:<report_folder_path> \
    -e KUBECONFIG=/kubeconfig/kubeconfig  -e DISCOVERY_MODE=true \
    registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10 \
    /usr/bin/test-run.sh --report <report_folder_path> \
    -ginkgo.focus="\[performance\]\ Latency\ Test"

    where:

    <report_folder_path>

    Is the path to the folder where the report is generated.

Generating a JUnit latency test report

Use the following procedures to generate a JUnit latency test output and test failure report.

Prerequisites
  • You have installed the OpenShift CLI (oc).

  • You have logged in as a user with cluster-admin privileges.

Procedure
  • Create a JUnit-compliant XML report by passing the --junit parameter together with the path to where the report is dumped:

    $ podman run -v $(pwd)/:/kubeconfig:Z -v $(pwd)/junitdest:<junit_folder_path> \
    -e KUBECONFIG=/kubeconfig/kubeconfig  -e DISCOVERY_MODE=true \
    registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10 \
    /usr/bin/test-run.sh --junit <junit_folder_path> \
    -ginkgo.focus="\[performance\]\ Latency\ Test"

    where:

    <junit_folder_path>

    Is the path to the folder where the junit report is generated

Running latency tests on a single-node OpenShift cluster

You can run latency tests on single-node OpenShift clusters.

Always run the latency tests with DISCOVERY_MODE=true set. If you don’t, the test suite will make changes to the running cluster configuration.

When executing podman commands as a non-root or non-privileged user, mounting paths can fail with permission denied errors. To make the podman command work, append :Z to the volumes creation; for example, -v $(pwd)/:/kubeconfig:Z. This allows podman to do the proper SELinux relabeling.

Prerequisites
  • You have installed the OpenShift CLI (oc).

  • You have logged in as a user with cluster-admin privileges.

Procedure
  • To run the latency tests on a single-node OpenShift cluster, run the following command:

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    -e DISCOVERY_MODE=true -e ROLE_WORKER_CNF=master \
    registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10 \
    /usr/bin/test-run.sh -ginkgo.focus="\[performance\]\ Latency\ Test"

    ROLE_WORKER_CNF=master is required because master is the only machine pool to which the node belongs. For more information about setting the required MachineConfigPool for the latency tests, see "Prerequisites for running latency tests".

    After running the test suite, all the dangling resources are cleaned up.

Running latency tests in a disconnected cluster

The CNF tests image can run tests in a disconnected cluster that is not able to reach external registries. This requires two steps:

  1. Mirroring the cnf-tests image to the custom disconnected registry.

  2. Instructing the tests to consume the images from the custom disconnected registry.

Mirroring the images to a custom registry accessible from the cluster

A mirror executable is shipped in the image to provide the input required by oc to mirror the test image to a local registry.

  1. Run this command from an intermediate machine that has access to the cluster and registry.redhat.io:

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10 \
    /usr/bin/mirror -registry <disconnected_registry> | oc image mirror -f -

    where:

    <disconnected_registry>

    Is the disconnected mirror registry you have configured, for example, my.local.registry:5000/.

  2. When you have mirrored the cnf-tests image into the disconnected registry, you must override the original registry used to fetch the images when running the tests, for example:

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    -e DISCOVERY_MODE=true -e IMAGE_REGISTRY="<disconnected_registry>" \
    -e CNF_TESTS_IMAGE="cnf-tests-rhel8:v4.10" \
    /usr/bin/test-run.sh -ginkgo.focus="\[performance\]\ Latency\ Test"

Configuring the tests to consume images from a custom registry

You can run the latency tests using a custom test image and image registry using CNF_TESTS_IMAGE and IMAGE_REGISTRY variables.

  • To configure the latency tests to use a custom test image and image registry, run the following command:

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    -e IMAGE_REGISTRY="<custom_image_registry>" \
    -e CNF_TESTS_IMAGE="<custom_cnf-tests_image>" \
    registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10 /usr/bin/test-run.sh

    where:

    <custom_image_registry>

    is the custom image registry, for example, custom.registry:5000/.

    <custom_cnf-tests_image>

    is the custom cnf-tests image, for example, custom-cnf-tests-image:latest.

Mirroring images to the cluster OpenShift image registry

OKD provides a built-in container image registry, which runs as a standard workload on the cluster.

Procedure
  1. Gain external access to the registry by exposing it with a route:

    $ oc patch configs.imageregistry.operator.openshift.io/cluster --patch '{"spec":{"defaultRoute":true}}' --type=merge
  2. Fetch the registry endpoint by running the following command:

    $ REGISTRY=$(oc get route default-route -n openshift-image-registry --template='{{ .spec.host }}')
  3. Create a namespace for exposing the images:

    $ oc create ns cnftests
  4. Make the image stream available to all the namespaces used for tests. This is required to allow the tests namespaces to fetch the images from the cnf-tests image stream. Run the following commands:

    $ oc policy add-role-to-user system:image-puller system:serviceaccount:cnf-features-testing:default --namespace=cnftests
    $ oc policy add-role-to-user system:image-puller system:serviceaccount:performance-addon-operators-testing:default --namespace=cnftests
  5. Retrieve the docker secret name and auth token by running the following commands:

    $ SECRET=$(oc -n cnftests get secret | grep builder-docker | awk {'print $1'}
    $ TOKEN=$(oc -n cnftests get secret $SECRET -o jsonpath="{.data['\.dockercfg']}" | base64 --decode | jq '.["image-registry.openshift-image-registry.svc:5000"].auth')
  6. Create a dockerauth.json file, for example:

    $ echo "{\"auths\": { \"$REGISTRY\": { \"auth\": $TOKEN } }}" > dockerauth.json
  7. Do the image mirroring:

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    registry.redhat.io/openshift4/cnf-tests-rhel8:4.10 \
    /usr/bin/mirror -registry $REGISTRY/cnftests |  oc image mirror --insecure=true \
    -a=$(pwd)/dockerauth.json -f -
  8. Run the tests:

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    -e DISCOVERY_MODE=true -e IMAGE_REGISTRY=image-registry.openshift-image-registry.svc:5000/cnftests \
    cnf-tests-local:latest /usr/bin/test-run.sh -ginkgo.focus="\[performance\]\ Latency\ Test"

Mirroring a different set of test images

You can optionally change the default upstream images that are mirrored for the latency tests.

Procedure
  1. The mirror command tries to mirror the upstream images by default. This can be overridden by passing a file with the following format to the image:

    [
        {
            "registry": "public.registry.io:5000",
            "image": "imageforcnftests:4.10"
        }
    ]
  2. Pass the file to the mirror command, for example saving it locally as images.json. With the following command, the local path is mounted in /kubeconfig inside the container and that can be passed to the mirror command.

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10 /usr/bin/mirror \
    --registry "my.local.registry:5000/" --images "/kubeconfig/images.json" \
    |  oc image mirror -f -

Troubleshooting errors with the cnf-tests container

To run latency tests, the cluster must be accessible from within the cnf-tests container.

Prerequisites
  • You have installed the OpenShift CLI (oc).

  • You have logged in as a user with cluster-admin privileges.

Procedure
  • Verify that the cluster is accessible from inside the cnf-tests container by running the following command:

    $ podman run -v $(pwd)/:/kubeconfig:Z -e KUBECONFIG=/kubeconfig/kubeconfig \
    registry.redhat.io/openshift4/cnf-tests-rhel8:v4.10 \
    oc get nodes

    If this command does not work, an error related to spanning across DNS, MTU size, or firewall access might be occurring.