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These features were completed when this image was assembled
Problem:
Certain Insights Advisor features differentiate between RHEL and OCP advisor
Goal:
Address top priority UI misalignments between RHEL and OCP advisor. Address UI features dropped from Insights ADvisor for OCP GA.
Scope:
Specific tasks and priority of them tracked in https://issues.redhat.com/browse/CCXDEV-7432
This contains all the Insights Advisor widget deliverables for the OCP release 4.11.
Scope
It covers only minor bug fixes and improvements:
Scenario: Check if the Insights Advisor widget in the OCP WebConsole UI shows the time of the last data analysis Given: OCP WebConsole UI and the cluster dashboard is accessible And: CCX external data pipeline is in a working state And: administrator A1 has access to his cluster's dashboard And: Insights Operator for this cluster is sending archives When: administrator A1 clicks on the Insights Advisor widget Then: the results of the last analysis are showed in the Insights Advisor widget And: the time of the last analysis is shown in the Insights Advisor widget
Acceptance criteria:
max_over_time(timestamp(changes(insightsclient_request_send_total\{status_code="202"}[1m]) > 0)[24h:1m])
Show the error message (mocked in CCXDEV-5868) if the Prometheus metrics `cluster_operator_conditions{name="insights"}` contain two true conditions: UploadDegraded and Degraded at the same time. This state occurs if there was an IO archive upload error = problems with the pipeline.
Expected for 4.11 OCP release.
Cloning the existing rule should end up with a new rule in the same namespace.
Modifications can now be done to the new rule.
(Optional) You can silence the existing rule.
Create a new PrometheusRule object inside the namespace that includes the metrics you need to form the alerting rule.
CMO should reconcile the platform Prometheus configuration with the alert-relabel-config resources.
DoD
CMO should reconcile the platform Prometheus configuration with the AlertingRule resources.
DoD
Managing PVs at scale for a fleet creates difficulties where "one size does not fit all". The ability for SRE to deploy prometheus with PVs and have retention based an on a desired size would enable easier management of these volumes across the fleet.
The prometheus-operator exposes retentionSize.
Field | Description |
---|---|
retentionSize | Maximum amount of disk space used by blocks. Supported units: B, KB, MB, GB, TB, PB, EB. Ex: 512MB. |
This is a feature request to enable this configuration option via CMO cluster-monitoring-config ConfigMap.
Today, all configuration for setting individual, for example, routing configuration is done via a single configuration file that only admins have access to. If an environment uses multiple tenants and each tenant, for example, has different systems that they are using to notify teams in case of an issue, then someone needs to file a request w/ an admin to add the required settings.
That can be bothersome for individual teams, since requests like that usually disappear in the backlog of an administrator. At the same time, administrators might get tons of requests that they have to look at and prioritize, which takes them away from more crucial work.
We would like to introduce a more self service approach whereas individual teams can create their own configuration for their needs w/o the administrators involvement.
Last but not least, since Monitoring is deployed as a Core service of OpenShift there are multiple restrictions that the SRE team has to apply to all OSD and ROSA clusters. One restriction is the ability for customers to use the central Alertmanager that is owned and managed by the SRE team. They can't give access to the central managed secret due to security concerns so that users can add their own routing information.
Provide a new API (based on the Operator CRD approach) as part of the Prometheus Operator that allows creating a subset of the Alertmanager configuration without touching the central Alertmanager configuration file.
Please note that we do not plan to support additional individual webhooks with this work. Customers will need to deploy their own version of the third party webhooks.
Team A wants to send all their important notifications to a specific Slack channel.
* CI - CI is running, tests are automated and merged.
* Release Enablement <link to Feature Enablement Presentation>
* DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
* DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
* DEV - Downstream build attached to advisory: <link to errata>
* QE - Test plans in Polarion: <link or reference to Polarion>
* QE - Automated tests merged: <link or reference to automated tests>
* DOC - Downstream documentation merged: <link to meaningful PR>
Now that upstream supports AlertmanagerConfig v1beta1 (see MON-2290 and https://github.com/prometheus-operator/prometheus-operator/pull/4709), it should be deployed by CMO.
DoD:
Copy/paste from [_https://github.com/openshift-cs/managed-openshift/issues/60_]
Which service is this feature request for?
OpenShift Dedicated and Red Hat OpenShift Service on AWS
What are you trying to do?
Allow ROSA/OSD to integrate with AWS Managed Prometheus.
Describe the solution you'd like
Remote-write of metrics is supported in OpenShift but it does not work with AWS Managed Prometheus since AWS Managed Prometheus requires AWS SigV4 auth.
Describe alternatives you've considered
There is the workaround to use the "AWS SigV4 Proxy" but I'd think this is not properly supported by RH.
https://mobb.ninja/docs/rosa/cluster-metrics-to-aws-prometheus/
Additional context
The customer wants to use an open and portable solution to centralize metrics storage and analysis. If they also deploy to other clouds, they don't want to have to re-configure. Since most clouds offer a Prometheus service (or it's easy to self-manage Prometheus), app migration should be simplified.
The cluster monitoring operator should allow OpenShift customers to configure remote write with all authentication methods supported by upstream Prometheus.
We will extend CMO's configuration API to support the following authentications with remote write:
Customers want to send metrics to AWS Managed Prometheus that require sigv4 authentication (see https://docs.aws.amazon.com/prometheus/latest/userguide/AMP-secure-metric-ingestion.html#AMP-secure-auth).
Prometheus and Prometheus operator already support sigv4 authentication for remote write. This should be possible to configure the same in the CMO configuration:
apiVersion: v1
kind: ConfigMap
metadata:
name: cluster-monitoring-config
namespace: openshift-monitoring
data:
config.yaml: |
prometheusK8s:
remoteWrite:
- url: "https://remote-write.endpoint"
sigv4:
accessKey:
name: aws-credentialss
key: access
secretKey:
name: aws-credentials
key: secret
profile: "SomeProfile"
roleArn: "SomeRoleArn"
DoD:
Prometheus and Prometheus operator already support custom Authorization for remote write. This should be possible to configure the same in the CMO configuration:
apiVersion: v1
kind: ConfigMap
metadata:
name: cluster-monitoring-config
namespace: openshift-monitoring
data:
config.yaml: |
prometheusK8s:
remoteWrite:
- url: "https://remote-write.endpoint"
Authorization:
type: Bearer
credentials:
name: credentials
key: token
DoD:
As WMCO user, I want to make sure containerd logging information has been updated in documents and scripts.
Configure audit logging to capture login, logout and login failure details
TODO(PM): update this
Customer who needs login, logout and login failure details inside the openshift container platform.
I have checked for this on my test cluster but the audit logs do not contain any user name specifying login or logout details. For successful logins or logout, on CLI and openshift console as well we can see 'Login successful' or 'Invalid credentials'.
Expected results: Login, logout and login failures should be captured in audit logging.
The apiserver pods today have ´/var/log/<kube|oauth|openshift>-apiserver` mounted from the host and create audit files there using the upstream audit event format (JSON lines following https://github.com/kubernetes/apiserver/blob/92392ef22153d75b3645b0ae339f89c12767fb52/pkg/apis/audit/v1/types.go#L72). These events are apiserver specific, but as oauth authentication flow events are also requests, we can use the apiserver event format to log logins, login failures and logouts. Hence, we propose to make oauth-server to create /var/log/oauth-server/audit.log files on the master nodes using that format.
When the login flow does not finish within a certain time (e.g. 10min), we can artificially create an event to show a login failure in the audit logs.
Let the Cluster Authentication Operator deliver the policy to OAuthServer.
In order to know if authn events should be logged, OAuthServer needs to be aware of it.
* Stanislav LázničkaCreate an observer to deliver the audit policy to the oauth server
Make the authentication-operator react to the new audit field in the oauth.config/cluster object. Write an observer watching this field, such an observer will translate the top-level configuration into oauth-server config and add it to the rest of the observed config.
Right now there's no way to generate audit logs from this.
Right now there's no way to generate audit logs from this.
OCP/Telco Definition of Done
Feature Template descriptions and documentation.
Early customer feedback is that they see SNO as a great solution covering smaller footprint deployment, but are wondering what is the evolution story OpenShift is going to provide where more capacity or high availability are needed in the future.
While migration tooling (moving workload/config to new cluster) could be a mid-term solution, customer desire is not to include extra hardware to be involved in this process.
For Telecommunications Providers, at the Far Edge they intend to start small and then grow. Many of these operators will start with a SNO-based DU deployment as an initial investment, but as DUs evolve, different segments of the radio spectrum are added, various radio hardware is provisioned and features delivered to the Far Edge, the Telecommunication Providers desire the ability for their Far Edge deployments to scale up from 1 node to 2 nodes to n nodes. On the opposite side of the spectrum from SNO is MMIMO where there is a robust cluster and workloads use HPA.
Requirement | Notes | isMvp? |
---|---|---|
CI - MUST be running successfully with test automation | This is a requirement for ALL features. | YES |
Release Technical Enablement | Provide necessary release enablement details and documents. | YES |
This Section:
This Section: What does the person writing code, testing, documenting need to know? What context can be provided to frame this feature.
Questions to be addressed:
This is a ticket meant to track all the all the OCP PRs that are involved in the implementation of the SNO + workers enhancement
OCP/Telco Definition of Done
Epic Template descriptions and documentation.
<--- Cut-n-Paste the entire contents of this description into your new Epic --->
Rebase openshift/builder to k8s 1.24
When this image was assembled, these features were not yet completed. Therefore, only the Jira Cards included here are part of this release
DoD
DoD
We drive OpenShift cross-market customer success and new customer adoption with constant improvements and feature additions to the existing capabilities of our OpenShift Core Networking (SDN and Network Edge). This feature captures that natural progression of the product.
There are definitely grey areas, but in general:
Questions to be addressed:
User Story: As a customer in a highly regulated environment, I need the ability to secure DNS traffic when forwarding requests to upstream resolvers so that I can ensure additional DNS traffic and data privacy.
Create a PR in openshift/cluster-ingress-operator to implement configurable router probe timeouts.
The PR should include the following:
tldr: three basic claims, the rest is explanation and one example
While bugs are an important metric, fixing bugs is different than investing in maintainability and debugability. Investing in fixing bugs will help alleviate immediate problems, but doesn't improve the ability to address future problems. You (may) get a code base with fewer bugs, but when you add a new feature, it will still be hard to debug problems and interactions. This pushes a code base towards stagnation where it gets harder and harder to add features.
One alternative is to ask teams to produce ideas for how they would improve future maintainability and debugability instead of focusing on immediate bugs. This would produce designs that make problem determination, bug resolution, and future feature additions faster over time.
I have a concrete example of one such outcome of focusing on bugs vs quality. We have resolved many bugs about communication failures with ingress by finding problems with point-to-point network communication. We have fixed the individual bugs, but have not improved the code for future debugging. In so doing, we chase many hard to diagnose problem across the stack. The alternative is to create a point-to-point network connectivity capability. this would immediately improve bug resolution and stability (detection) for kuryr, ovs, legacy sdn, network-edge, kube-apiserver, openshift-apiserver, authentication, and console. Bug fixing does not produce the same impact.
We need more investment in our future selves. Saying, "teams should reserve this" doesn't seem to be universally effective. Perhaps an approach that directly asks for designs and impacts and then follows up by placing the items directly in planning and prioritizing against PM feature requests would give teams the confidence to invest in these areas and give broad exposure to systemic problems.
Relevant links:
In OCP 4.8 the router was changed to use the "random" balancing algorithm for non-passthrough routes by default. It was previously "leastconn".
Bug https://bugzilla.redhat.com/show_bug.cgi?id=2007581 shows that using "random" by default incurs significant memory overhead for each backend that uses it.
PR https://github.com/openshift/cluster-ingress-operator/pull/663
reverted the change and made "leastconn" the default again (OCP 4.8 onwards).
The analysis in https://bugzilla.redhat.com/show_bug.cgi?id=2007581#c40 shows that the default haproxy behaviour is to multiply the weight (specified in the route CR) by 16 as it builds its data structures for each backend. If no weight is specified then openshift-router sets the weight to 256. If you have many, many thousands of routes then this balloons quickly and leads to a significant increase in memory usage, as highlighted by customer cases attached to BZ#2007581.
The purpose of this issue is to both explore changing the openshift-router default weight (i.e., 256) to something smaller, or indeed unset (assuming no explicit weight has been requested), and to measure the memory usage within the context of the existing perf&scale tests that we use for vetting new haproxy releases.
It may be that the low-hanging change is to not default to weight=256 for backends that only have one pod replica (i.e., if no value specified, and there is only 1 pod replica, then don't default to 256 for that single server entry).
Outcome: does changing the [default] weight value make it feasible to switch back to "random" as the default balancing algorithm for a future OCP release.
Revert router to using "random" once again in 4.11 once analysis is done on impact of weight and static memory allocation.
Per the 4.6.30 Monitoring DNS Post Mortem, we should add E2E tests to openshift/cluster-dns-operator to reduce the risk that changes to our CoreDNS configuration break DNS resolution for clients.
To begin with, we add E2E DNS testing for 2 or 3 client libraries to establish a framework for testing DNS resolvers; the work of adding additional client libraries to this framework can be left for follow-up stories. Two common libraries are Go's resolver and glibc's resolver. A somewhat common library that is known to have quirks is musl libc's resolver, which uses a shorter timeout value than glibc's resolver and reportedly has issues with the EDNS0 protocol extension. It would also make sense to test Java or other popular languages or runtimes that have their own resolvers.
Additionally, as talked about in our DNS Issue Retro & Testing Coverage meeting on Feb 28th 2024, we also decided to add a test for testing a non-EDNS0 query for a larger than 512 byte record, as once was an issue in bug OCPBUGS-27397.
The ultimate goal is that the test will inform us when a change to OpenShift's DNS or networking has an effect that may impact end-user applications.
Requirement | Notes | isMvp? |
---|
CI - MUST be running successfully with test automation | This is a requirement for ALL features. | YES |
Release Technical Enablement | Provide necessary release enablement details and documents. | YES |
This Section:
This Section: What does the person writing code, testing, documenting need to know? What context can be provided to frame this feature.
Questions to be addressed:
When viewing the Installed Operators list set to 'All projects' and then selecting an operator that is available in 'All namespaces' (globally installed,) upon clicking the operator to view its details the user is taken into the details of that operator in installed namespace (project selector will switch to the install namespace.)
This can be disorienting then to look at the lists of custom resource instances and see them all blank, since the lists are showing instances only in the currently selected project (the install namespace) and not across all namespaces the operator is available in.
It is likely that making use of the new Operator resource will improve this experience (CONSOLE-2240,) though that may still be some releases away. it should be considered if it's worth a "short term" fix in the meantime.
Note: The informational alert was not implemented. It was decided that since "All namespaces" is displayed in the radio button, the alert was not needed.
Goal
Add support for PDB (Pod Disruption Budget) to the console.
Requirements:
Designs:
During master nodes upgrade when nodes are getting drained there's currently no protection from two or more operands going down. If your component is required to be available during upgrade or other voluntary disruptions, please consider deploying PDB to protect your operands.
The effort is tracked in https://issues.redhat.com/browse/WRKLDS-293.
Example:
Acceptance Criteria:
1. Create PDB controller in console-operator for both console and downloads pods
2. Add e2e tests for PDB in single node and multi node cluster
Note: We should consider to backport this to 4.10
4.11 MVP Requirements
Out of scope use cases (that are part of the Kubeframe/factory project):
Questions to be addressed:
As a deployer, I want to be able to:
so that I can achieve
Currently the Assisted Service generates the credentials by running the ignition generation step of the oepnshift-installer. This is why the credentials are only retrievable from the REST API towards the end of the installation.
In the BILLI usage, which takes down assisted service before the installation is complete there is no obvious point at which to alert the user that they should retrieve the credentials. This means that we either need to:
This requires/does not require a design proposal.
This requires/does not require a feature gate.
The AWS-specific code added in OCPPLAN-6006 needs to become GA and with this we want to introduce a couple of Day2 improvements.
Currently the AWS tags are defined and applied at installation time only and saved in the infrastructure CRD's status field for further operator use, which in turn just add the tags during creation.
Saving in the status field means it's not included in Velero backups, which is a crucial feature for customers and Day2.
Thus the status.resourceTags field should be deprecated in favour of a newly created spec.resourceTags with the same content. The installer should only populate the spec, consumers of the infrastructure CRD must favour the spec over the status definition if both are supplied, otherwise the status should be honored and a warning shall be issued.
Being part of the spec, the behaviour should also tag existing resources that do not have the tags yet and once the tags in the infrastructure CRD are changed all the AWS resources should be updated accordingly.
On AWS this can be done without re-creating any resources (the behaviour is basically an upsert by tag key) and is possible without service interruption as it is a metadata operation.
Tag deletes continue to be out of scope, as the customer can still have custom tags applied to the resources that we do not want to delete.
Due to the ongoing intree/out of tree split on the cloud and CSI providers, this should not apply to clusters with intree providers (!= "external").
Once confident we have all components updated, we should introduce an end2end test that makes sure we never create resources that are untagged.
After that, we can remove the experimental flag and make this a GA feature.
Requirement | Notes | isMvp? |
---|---|---|
CI - MUST be running successfully with test automation | This is a requirement for ALL features. | YES |
Release Technical Enablement | Provide necessary release enablement details and documents. | YES |
List any affected packages or components.
RFE-1101 described user defined tags for AWS resources provisioned by an OCP cluster. Currently user can define tags which are added to the resources during creation. These tags cannot be updated subsequently. The propagation of the tags is controlled using experimental flag. Before this feature goes GA we should define and implement a mechanism to exclude any experimental flags. Day2 operations and deletion of tags is not in the scope.
RFE-2012 aims to make the user-defined resource tags feature GA. This means that user defined tags should be updatable.
Currently the user-defined tags during install are passed directly as parameters of the Machine and Machineset resources for the master and worker. As a result these tags cannot be updated by consulting the Infrastructure resource of the cluster where the user defined tags are written.
The MCO should be changed such that during provisioning the MCO looks up the values of the tags in the Infrastructure resource and adds the tags during creation of the EC2 resources. The MCO should also watch the infrastructure resource for changes and when the resource tags are updated it should update the tags on the EC2 instances without restarts.
Acceptance Criteria:
Customers are asking for improvements to the upgrade experience (both over-the-air and disconnected). This is a feature tracking epics required to get that work done.
OCP/Telco Definition of Done
Epic Template descriptions and documentation.
<--- Cut-n-Paste the entire contents of this description into your new Epic --->
Goal
Improve the UX on the machine config pool page to reflect the new enhancements on the cluster settings that allows users to select the ability to update the control plane only.
Background
Currently in the console, users only have the ability to complete a full cluster upgrade. For many customers, upgrades take longer than what their maintenance window allows. Users need the ability to upgrade the control plane independently of the other worker nodes.
Ex. Upgrades of huge clusters may take too long so admins may do the control plane this weekend, worker-pool-A next weekend, worker-pool-B the weekend after, etc. It is all at a pool level, they will not be able to choose specific hosts.
Requirements
Design deliverables:
Goal
Add the ability to choose between a full cluster upgrade (which exists today) or control plane upgrade (which will pause all worker pools) in the console.
Background
Currently in the console, users only have the ability to complete a full cluster upgrade. For many customers, upgrades take longer than what their maintenance window allows. Users need the ability to upgrade the control plane independently of the other worker nodes.
Ex. Upgrades of huge clusters may take too long so admins may do the control plane this weekend, worker-pool-A next weekend, worker-pool-B the weekend after, etc. It is all at a pool level, they will not be able to choose specific hosts.
Requirements
Design deliverables:
Enable sharing ConfigMap and Secret across namespaces
Requirement | Notes | isMvp? |
---|---|---|
Secrets and ConfigMaps can get shared across namespaces | YES |
NA
NA
Consumption of RHEL entitlements has been a challenge on OCP 4 since it moved to a cluster-based entitlement model compared to the node-based (RHEL subscription manager) entitlement mode. In order to provide a sufficiently similar experience to OCP 3, the entitlement certificates that are made available on the cluster (OCPBU-93) should be shared across namespaces in order to prevent the need for cluster admin to copy these entitlements in each namespace which leads to additional operational challenges for updating and refreshing them.
Questions to be addressed:
* What educational or reference material (docs) is required to support this product feature? For users/admins? Other functions (security officers, etc)?
* Does this feature have doc impact?
* New Content, Updates to existing content, Release Note, or No Doc Impact
* If unsure and no Technical Writer is available, please contact Content Strategy.
* What concepts do customers need to understand to be successful in [action]?
* How do we expect customers will use the feature? For what purpose(s)?
* What reference material might a customer want/need to complete [action]?
* Is there source material that can be used as reference for the Technical Writer in writing the content? If yes, please link if available.
* What is the doc impact (New Content, Updates to existing content, or Release Note)?
OCP/Telco Definition of Done
Epic Template descriptions and documentation.
<--- Cut-n-Paste the entire contents of this description into your new Epic --->
As an OpenShift engineer
I want the shared resource CSI Driver webhook to be installed with the cluster storage operator
So that the webhook is deployed when the CSI driver is deployed
None - no new functional capabilities will be added
None - we can verify in CI that we are deploying the webhook correctly.
None - no new functional capabilities will be added
The scope of this story is to just deploy the "hello world" webhook with the Cluster Storage Operator.
Adding the live ValidatingWebhook configuration and service will be done in a separate story.
As a developer using SharedSecrets and ConfigMaps
I want to ensure all pods set readOnly; true on admission
So that I don't have pods stuck in the "Pending" state because of a bad volume mount
QE will need to verify the new Pod Admission behavior
Docs will need to ensure that readOnly: true is required and must be set to true.
None.
QE testing/verification of the feature - require readOnly to be true
Actions:
1. Create smoke test and submit to GitHub
2. Run script to integrate smoke test with Polarion
As an OpenShift engineer,
I want to initialize a validating admission webhook for the shared resource CSI driver
So that I can eventually require readOnly: true to be set on all pods that use the Shared Resource CSI Driver
None.
None.
None.
This is a prerequisite for implementing the validating admission webhook.
We need to have ART build the container image downstream so that we can add the correct image references for the CVO.
If we reference images in the CVO manifests which do not have downstream counterparts, we break the downstream build for the payload.
CI is capable of producing multiple images for a GitHub repository. For example, github.com/openshift/oc produces 4-5 images with various capabilities.
We did similar work in BUILD-234 - some of these steps are not required.
See also:
Tasks:
OCP/Telco Definition of Done
Feature Template descriptions and documentation.
<--- Cut-n-Paste the entire contents of this description into your new Feature --->
<--- Remove the descriptive text as appropriate --->
Problem
Requirement | Notes | isMvp? |
---|---|---|
CI - MUST be running successfully with test automation | This is a requirement for ALL features. | YES |
Release Technical Enablement | Provide necessary release enablement details and documents. | YES |
This Section:
This Section: What does the person writing code, testing, documenting need to know? What context can be provided to frame this feature.
Questions to be addressed:
Running the OPCT with the latest version (v0.1.0) on OCP 4.11.0, the openshift-tests is reporting an incorrect counter for the "total" field.
In the example below, after the 1127th test, the total follows the same counter of executed. I also would assume that the total is incorrect before that point as the test continues the execution increases both counters.
openshift-tests output format: [failed/executed/total]
started: (0/1126/1127) "[sig-storage] PersistentVolumes-expansion loopback local block volume should support online expansion on node [Suite:openshift/conformance/parallel] [Suite:k8s]" passed: (38s) 2022-08-09T17:12:21 "[sig-storage] In-tree Volumes [Driver: nfs] [Testpattern: Dynamic PV (default fs)] provisioning should provision storage with mount options [Suite:openshift/conformance/parallel] [Suite:k8s]" started: (0/1127/1127) "[sig-storage] In-tree Volumes [Driver: local][LocalVolumeType: tmpfs] [Testpattern: Generic Ephemeral-volume (block volmode) (late-binding)] ephemeral should support two pods which have the same volume definition [Suite:openshift/conformance/parallel] [Suite:k8s]" passed: (6.6s) 2022-08-09T17:12:21 "[sig-storage] Downward API volume should provide container's memory request [NodeConformance] [Conformance] [Suite:openshift/conformance/parallel/minimal] [Suite:k8s]" started: (0/1128/1128) "[sig-storage] In-tree Volumes [Driver: cinder] [Testpattern: Dynamic PV (immediate binding)] topology should fail to schedule a pod which has topologies that conflict with AllowedTopologies [Suite:openshift/conformance/parallel] [Suite:k8s]" skip [k8s.io/kubernetes@v1.24.0/test/e2e/storage/framework/testsuite.go:116]: Driver local doesn't support GenericEphemeralVolume -- skipping Ginkgo exit error 3: exit with code 3 skipped: (400ms) 2022-08-09T17:12:21 "[sig-storage] In-tree Volumes [Driver: local][LocalVolumeType: tmpfs] [Testpattern: Generic Ephemeral-volume (block volmode) (late-binding)] ephemeral should support two pods which have the same volume definition [Suite:openshift/conformance/parallel] [Suite:k8s]" started: (0/1129/1129) "[sig-storage] In-tree Volumes [Driver: emptydir] [Testpattern: Dynamic PV (default fs)] capacity provides storage capacity information [Suite:openshift/conformance/parallel] [Suite:k8s]"
OPCT output format [executed/total (failed failures)]
Tue, 09 Aug 2022 14:12:13 -03> Global Status: running JOB_NAME | STATUS | RESULTS | PROGRESS | MESSAGE openshift-conformance-validated | running | | 1112/1127 (0 failures) | status=running openshift-kube-conformance | complete | | 352/352 (0 failures) | waiting for post-processor... Tue, 09 Aug 2022 14:12:23 -03> Global Status: running JOB_NAME | STATUS | RESULTS | PROGRESS | MESSAGE openshift-conformance-validated | running | | 1120/1127 (0 failures) | status=running openshift-kube-conformance | complete | | 352/352 (0 failures) | waiting for post-processor... Tue, 09 Aug 2022 14:12:33 -03> Global Status: running JOB_NAME | STATUS | RESULTS | PROGRESS | MESSAGE openshift-conformance-validated | running | | 1139/1139 (0 failures) | status=running openshift-kube-conformance | complete | | 352/352 (0 failures) | waiting for post-processor... Tue, 09 Aug 2022 14:12:43 -03> Global Status: running JOB_NAME | STATUS | RESULTS | PROGRESS | MESSAGE openshift-conformance-validated | running | | 1185/1185 (0 failures) | status=running openshift-kube-conformance | complete | | 352/352 (0 failures) | waiting for post-processor... Tue, 09 Aug 2022 14:12:53 -03> Global Status: running JOB_NAME | STATUS | RESULTS | PROGRESS | MESSAGE openshift-conformance-validated | running | | 1188/1188 (0 failures) | status=running openshift-kube-conformance | complete | | 352/352 (0 failures) | waiting for post-processor...
This section includes Jira cards that are linked to an Epic, but the Epic itself is not linked to any Feature. These epics were completed when this image was assembled
https://issues.redhat.com/browse/AUTH-2 revealed that, in prinicipal, Pod Security Admission is possible to integrate into OpenShift while retaining SCC functionality.
This epic is about the concrete steps to enable Pod Security Admission by default in OpenShift
Enhancement - https://github.com/openshift/enhancements/pull/1010
dns-operator must comply to restricted pod security level. The current audit warning is:
{ "objectRef": "openshift-dns-operator/deployments/dns-operator", "pod-security.kubernetes.io/audit-violations": "would violate PodSecurity \"restricted:latest\": allowPrivilegeEscalation != false (containers \"dns-operator\", \"kube-rbac-proxy\" must set securityContext.allowPrivilegeEscalation=false), unre stricted capabilities (containers \"dns-operator\", \"kube-rbac-proxy\" must set securityContext.capabilities.drop=[\"ALL\"]), runAsNonRoot != true (pod or containers \"dns-operator\", \"kube-rbac-proxy\" must set securityContext.runAsNonRoot=tr ue), seccompProfile (pod or containers \"dns-operator\", \"kube-rbac-proxy\" must set securityContext.seccompProfile.type to \"RuntimeDefault\" or \"Localhost\")" }ingress-operator must comply to pod security. The current audit warning is:
{ "objectRef": "openshift-ingress-operator/deployments/ingress-operator", "pod-security.kubernetes.io/audit-violations": "would violate PodSecurity \"restricted:latest\": allowPrivilegeEscalation != false (containers \"ingress-operator\", \"kube-rbac-proxy\" must set securityContext.allowPrivilegeEscalation=false), unrestricted capabilities (containers \"ingress-operator\", \"kube-rbac-proxy\" must set securityContext.capabilities.drop=[\"ALL\"]), runAsNonRoot != true (pod or containers \"ingress-operator\", \"kube-rbac-proxy\" must set securityContext.run AsNonRoot=true), seccompProfile (pod or containers \"ingress-operator\", \"kube-rbac-proxy\" must set securityContext.seccompProfile.type to \"RuntimeDefault\" or \"Localhost\")" }
HyperShift provisions OpenShift clusters with externally managed control-planes. It follows a slightly different process for provisioning clusters. For example, HyperShift uses cluster API as a backend and moves all the machine management bits to the management cluster.
showing machine management/cluster auto-scaling tabs in the console is likely to confuse users and cause unnecessary side effects.
See Design Doc: https://docs.google.com/document/d/1k76JtRRHBdCCEjHPqKcYvbNVsuaGmRhWDLESWIm0mbo/edit#
It's based on the SERVER_FLAG controlPlaneTopology being set to External is really the driving factor here; this can be done in one of two ways:
To test work related to cluster upgrade process, use a 4.10.3 cluster set on the candidate-4.10 upgrade channel using 4.11 frontend code.
If the Infrastructure.Status.ControlPlaneTopology is set to 'External', the console-operator will pass this information via the console-config.yaml co the console. Console pod will get re-deployed and will store the topology mode information as a SERVER_FLAG. Based on that value we need to remove the ability to “Add identity providers” under “Set up your Cluster”. In addition to the getting started card, we should remove the ability to update a cluster on the details card when applicable (anything that changes a cluster version should be read only).
Summary of changes to the overview page:
Check section 03 for more info: https://docs.google.com/document/d/1k76JtRRHBdCCEjHPqKcYvbNVsuaGmRhWDLESWIm0mbo/edit#
If the Infrastructure.Status.ControlPlaneTopology is set to 'External', the console-operator will pass this information via the console-config.yaml to the console. Console pod will get re-deployed and will store the topology mode information as a SERVER_FLAG. Based on that value we need to suspend these notifications:
For these we will need to check `ControlPlaneTopology`, if it's set to 'External' and also check if the user can edit cluster version(either by creating a hook or an RBAC call, eg. `canEditClusterVersion`)
Check section 05 for more info: https://docs.google.com/document/d/1k76JtRRHBdCCEjHPqKcYvbNVsuaGmRhWDLESWIm0mbo/edit#
If the Infrastructure.Status.ControlPlaneTopology is set to 'External', the console-operator will pass this information via the console-config.yaml co the console. Console pod will get re-deployed and will store the topology mode information as a SERVER_FLAG. Based on that value we need surface a message that the control plane is externally managed and add following changes:
In general, anything that changes a cluster version should be read only.
Check section 02 for more info: https://docs.google.com/document/d/1k76JtRRHBdCCEjHPqKcYvbNVsuaGmRhWDLESWIm0mbo/edit#
Based on Cesar's comment we should be removing the `Control Plane` section, if the infrastructure.status.controlplanetopology being "External".
If the Infrastructure.Status.ControlPlaneTopology is set to 'External', the console-operator will pass this information via the console-config.yaml to the console. Console pod will get re-deployed and will store the topology mode information as a SERVER_FLAG. Based on that value we need to suspend kubeadmin notifier, from the global notifications, since it contain link for updating the cluster OAuth configuration (see attachment).
PatternFly Dark Theme Handbook: https://docs.google.com/document/d/1mRYEfUoOjTsSt7hiqjbeplqhfo3_rVDO0QqMj2p67pw/edit
Admin Console -> Workloads & Pods
Dev Console -> Gotcha pages: Observe Dashboard and Metrics, Add, Pipelines: builder, list, log, and run
As a developer, I want to be able to scope the changes needed to enable dark mode for the admin console. As such, I need to investigate how much of the console will display dark mode using PF variables and also define a list of gotcha pages/components which will need special casing above and beyond PF variable settings.
Acceptance criteria:
As a developer, I want to be able to fix remaining issues from the spreadsheet of issues generated after the initial pass and spike of adding dark theme to the console.. As such, I need to make sure to either complete all remaining issues for the spreadsheet, or, create a bug or future story for any remaining issues in these two documents.
Acceptance criteria:
An epic we can duplicate for each release to ensure we have a place to catch things we ought to be doing regularly but can tend to fall by the wayside.
The Cluster Dashboard Details Card Protractor integration test was failing at high rate, and despite multiple attempts to fix, was never fully resolved, so it was disabled as a way to fix https://bugzilla.redhat.com/show_bug.cgi?id=2068594. Migrating this entire file to Cypress should give us better debugging capability, which is what was done to fix a similarly problematic project dashboard Protractor test.
Currently, you need to navigate to
Cluster Settings ->
Global configuration ->
Console (operator) config ->
Console plugins
to see and managed plugins. This takes a lot of clicks and is not discoverable. We should look at surfacing plugin details where they're easier to find – perhaps on the Cluster Settings page – or at least provide a more convenient link somewhere in the UI.
AC: Add the Dynamic Plugins section to the Status Card in the overview that will contain:
In the 4.11 release, a console.openshift.io/default-i18next-namespace annotation is being introduced. The annotation indicates whether the ConsolePlugin contains localization resources. If the annotation is set to "true", the localization resources from the i18n namespace named after the dynamic plugin (e.g. plugin__kubevirt), are loaded. If the annotation is set to any other value or is missing on the ConsolePlugin resource, localization resources are not loaded.
In case these resources are not present in the dynamic plugin, the initial console load will be slowed down. For more info check BZ#2015654
AC:
Follow up of https://issues.redhat.com/browse/CONSOLE-3159
We need to provide a base for running integration tests using the dynamic plugins. The tests should initially
Once the basic framework is in place, we can update the demo plugin and add new integration tests when we add new extension points.
https://github.com/openshift/console/tree/master/frontend/dynamic-demo-plugin
https://github.com/openshift/enhancements/blob/master/enhancements/console/dynamic-plugins.md
https://github.com/openshift/console/tree/master/frontend/packages/console-plugin-sdk
We have a Timestamp component for consistent display of dates and times that we should expose through the SDK. We might also consider a hook that formats dates and times for places were you don't want or cant use the component, eg. times on a chart.
This will become important when we add a user preference for dates so that plugins show consistent dates and times as console. If I set my user preference to UTC dates, console should show UTC dates everywhere.
AC:
Currently, enabled plugins can fail to load for a variety of reasons. For instance, plugins don't load if the plugin name in the manifest doesn't match the ConsolePlugin name or the plugin has an invalid codeRef. There is no indication in the UI that something has gone wrong. We should explore ways to report this problem in the UI to cluster admins. Depending on the nature of the issue, an admin might be able to resolve the issue or at least report a bug against the plugin.
The message about failing could appear in the notification drawer and/or console plugins tab on the operator config. We could also explore creating an alert if a plugin is failing.
AC:
Goal
Background
RFE: for 4.10, Cincinnati and the cluster-version operator are adding conditional updates (a.k.a. targeted edge blocking): https://issues.redhat.com/browse/OTA-267
High-level plans in https://github.com/openshift/enhancements/blob/master/enhancements/update/targeted-update-edge-blocking.md#update-client-support-for-the-enhanced-schema
Example of what the oc adm upgrade UX will be in https://github.com/openshift/enhancements/blob/master/enhancements/update/targeted-update-edge-blocking.md#cluster-administrator.
The oc implementation landed via https://github.com/openshift/oc/pull/961.
Design
See design doc: https://docs.google.com/document/d/1Nja4whdsI5dKmQNS_rXyN8IGtRXDJ8gXuU_eSxBLMIY/edit#
See marvel: https://marvelapp.com/prototype/h3ehaa4/screen/86077932
Update the cluster settings page to inform the user when the latest available update is supported but not recommended. Add an informational popover to the latest version in update path visualization.
The "Update Version" modal on the cluster settings page should be updated to give users information about recommended, not recommended, and blocked update versions.
Story: As an administrator I want to rely on a default configuration that spreads image registry pods across topology zones so that I don't suffer from a long recovery time (>6 mins) in case of a complete zone failure if all pods are impacted.
Background: The image registry currently uses affinity/anti-affinity rules to spread registry pods across different hosts. However this might cause situations in which all pods end up on hosts of a single zone, leading to a long recovery time of the registry if that zone is lost entirely. However due to problems in the past with the preferred setting of anti-affinity rule adherence the configuration was forced instead with required and the rules became constraints. With zones as constraints the internal registry would not have deployed anymore in environments with a single zone, e.g. internal CI environment. Pod topology constraints is a new API that is supported in OCP which can also relax constraints in case they cannot be satisfied. Details here: https://docs.openshift.com/container-platform/4.7/nodes/scheduling/nodes-scheduler-pod-topology-spread-constraints.html
Acceptance criteria:
Open Questions:
As an OpenShift administrator
I want to provide the registry operator with a custom certificate authority for S3 storage
so that I can use a third-party S3 storage provider.
Remove Jenkins from the OCP Payload.
See epic linking - need alternative non payload image available to provide relatively seamless migration
Also, the EP for this is approved and merged at https://github.com/openshift/enhancements/blob/master/enhancements/builds/remove-jenkins-payload.md
PARTIAL ANSWER ^^: confirmed with Ben Parees in https://coreos.slack.com/archives/C014MHHKUSF/p1646683621293839 that EP merging is currently sufficient OCP "technical leadership" approval.
assuming none
As maintainers of the OpenShift jenkins component, we need run Jenkins CI for PR testing against openshift/jenkins, openshift/jenkins-sync-plugin, openshift/jenkins-client-plugin, openshift/jenkins-openshift-login-plugin, using images built in the CI pipeline but not injected into CI test clusters via sample operator overriding the jenkins sample imagestream with the jenkins payload image.
As maintainers of the OpenShift Jenkins component, we need Jenkins periodics for the client and sync plugins to run against the latest non payload, CPaas image, promoted to CI's image locations on quay.io, for the current release in development.
As maintainers of the OpenShift Jenkins component, we need Jenkins related tests outside of very basic Jenkins Pipieline Strategy Build Config verification, removed from openshift-tests in OpenShift Origin, using a non-payload, CPaas image pertinent to the branch in question.
High Level, we ideally want to vet the new CPaas image via CI and periodics BEFORE we start changing the samples operator so that it does not manipulate the jenkins imagestream (our tests will override the samples operator override)
NONE ... QE should wait until JNKS-254
NONE
NONE
Dependencies identified
Blockers noted and expected delivery timelines set
Design is implementable
Acceptance criteria agreed upon
Story estimated
Possible staging
1) before CPaas is available, we can validate images generated by PRs to openshift/jenkins, openshift/jenkins-sync-plugin, openshift/jenkins-client-plugin by taking the image built by the image (where the info needed to get the right image from the CI registry is in the IMAGE_FORMAT env var) and then doing an `oc tag --source=docker <PR image ref> openshift/jenkins:2` to replace the use of the payload image in the jenkins imagestream in the openshift namespace with the PRs image
2) insert 1) in https://github.com/openshift/release/blob/master/ci-operator/step-registry/jenkins/sync-plugin/e2e/jenkins-sync-plugin-e2e-commands.sh and https://github.com/openshift/release/blob/master/ci-operator/step-registry/jenkins/client-plugin/tests/jenkins-client-plugin-tests-commands.sh where you test for IMAGE_FORMAT being set
3) or instead of 2) you update the Makefiles for the plugins to call a script that does the same sort of thing, see what is in IMAGE_FORMAT, and if it has something, do the `oc tag`
https://github.com/openshift/release/pull/26979 is a prototype of how to stick the image built from a PR and conceivably the periodics to get the image built from it and tag it into the jenkins imagestream in the openshift namespace in the test cluster
After installing or upgrading to the latest OCP version, the existing OpenShift route to the prometheus-k8s service is updated to be a path-based route to '/api/v1'.
DoD:
Following up on https://issues.redhat.com/browse/MON-1320, we added three new CLI flags to Prometheus to apply different limits on the samples' labels. These new flags are available starting from Prometheus v2.27.0, which will most likely be shipped in OpenShift 4.9.
The limits that we want to look into for OCP are the following ones:
# Per-scrape limit on number of labels that will be accepted for a sample. If # more than this number of labels are present post metric-relabeling, the # entire scrape will be treated as failed. 0 means no limit. [ label_limit: <int> | default = 0 ] # Per-scrape limit on length of labels name that will be accepted for a sample. # If a label name is longer than this number post metric-relabeling, the entire # scrape will be treated as failed. 0 means no limit. [ label_name_length_limit: <int> | default = 0 ] # Per-scrape limit on length of labels value that will be accepted for a sample. # If a label value is longer than this number post metric-relabeling, the # entire scrape will be treated as failed. 0 means no limit. [ label_value_length_limit: <int> | default = 0 ]
We could benefit from them by setting relatively high values that could only induce unbound cardinality and thus reject the targets completely if they happened to breach our constrainst.
DoD:
When users configure CMO to interact with systems outside of an OpenShift cluster, we want to provide an easy way to add the cluster ID to the data send.
Technically this can be achieved today, by adding an identifying label to the remote_write configuration for a given cluster. The operator adding the remote_write integration needs to take care that the label is unique over the managed fleet of clusters. This however adds management complexity. Any given cluster already has a pseudo-unique datum, that can be used for this purpose.
Expose a flag in the CMO configuration, that is false by default (keeps backward compatibility) and when set to true will add the _id label to a remote_write configuration. More specifically it will be added to the top of a remote_write relabel_config list via the replace action. This will add the label as expect, but additionally a user could alter this label in a later relabel config to suit any specific requirements (say rename the label or add additional information to the value).
The location of this flag is the remote_write Spec, so this can be set for individual remote_write configurations.
Add an optional boolean flag to CMOs definition of RemoteWriteSpec that if true adds an entry in the specs WriteRelabelConfigs list.
I went with adding the relabel config to all user-supplied remote_write configurations. This path has no risk for backwards compatibility (unless users use the {}tmp_openshift_cluster_id{} label, seems unlikely) and reduces overall complexity, as well as documentation complexity.
The entry should look like what is already added to the telemetry remote write config and it should be added as the first entry in the list, before any user supplied relabel configs.
We currently use a sample app to e2e test remote write in CMO.
In order to test the addition of the cluster_id relabel config, we need to confirm that the metrics send actually have the expected label.
For this test we should use Prometheus as the remote_write target. This allows us to query the metrics send via remote write and confirm they have the expected label.
The potential target ServiceMonitors are:
As a user, I want to understand which service bindings connected a service to a component successfully or not. Currently it's really difficult to understand and needs inspection into each ServiceBinding resource (yaml).
See also https://docs.google.com/document/d/1OzE74z2RGO5LPjtDoJeUgYBQXBSVmD5tCC7xfJotE00/edit
As a user, I want the topology view to be less cluttered as I doom out showing only information that I can discern and still be able to get a feel for the status of my project.
This epic is mainly focused on the 4.10 Release QE activities
1. Identify the scenarios for automation
2. Segregate the test Scenarios into smoke, Regression and other user stories
a. Update the https://docs.jboss.org/display/ODC/Automation+Status+Report
3. Align with layered operator teams for updating scripts
3. Work closely with dev team for epic automation
4. Create the automation scripts using cypress
5. Implement CI for nightly builds
6. Execute scripts on sprint basis
To the track the QE progress at one place in 4.10 Release Confluence page
Acceptance criteria:
This epic covers a number of customer requests(RFEs) as well as increases usability.
Customer satisfaction as well as improved usability.
None
As a user, I want to use a form to create Deployments
Edit deployment form ODC-5007
As a user, I should be able to switch between the form and yaml editor while creating the ProjectHelmChartRepository CR.
Form component https://github.com/openshift/console/pull/11227
Currently we are only able to get limited telemetry from the Dev Sandbox, but not from any of our managed clusters or on prem clusters.
In order to improve properly analyze usage and the user experience, we need to be able to gather as much data as possible.
// JS type
telemetry?: Record<string, string>
./bin/bridge --telemetry SEGMENT_API_KEY=a-key-123-xzy ./bin/bridge --telemetry CONSOLE_LOG=debug
Goal:
Enhance oc adm release new (and related verbs info, extract, mirror) with heterogeneous architecture support
tl;dr
oc adm release new (and related verbs info, extract, mirror) would be enhanced to optionally allow the creation of manifest list release payloads. The manifest list flow would be triggered whenever the CVO image in an imagestream was a manifest list. If the CVO image is a standard manifest, the generated release payload will also be a manifest. If the CVO image is a manifest list, the generated release payload would be a manifest list (containing a manifest for each arch possessed by the CVO manifest list).
In either case, oc adm release new would permit non-CVO component images to be manifest or manifest lists and pass them through directly to the resultant release manifest(s).
If a manifest list release payload is generated, each architecture specific release payload manifest will reference the same pullspecs provided in the input imagestream.
More details in Option 1 of https://docs.google.com/document/d/1BOlPrmPhuGboZbLZWApXszxuJ1eish92NlOeb03XEdE/edit#heading=h.eldc1ppinjjh
This section includes Jira cards that are linked to an Epic, but the Epic itself is not linked to any Feature. These epics were not completed when this image was assembled
I asked Zvonko Kaiser and he seemed open to it. I need to confirm with Shiva Merla
Rename Provider to Infrastructure Provider
Add GPU Provider
https://miro.com/app/board/uXjVOeUB2B4=/?moveToWidget=3458764514332229879&cot=14
OCP/Telco Definition of Done
Epic Template descriptions and documentation.
<--- Cut-n-Paste the entire contents of this description into your new Epic --->
As a developer building container images on OpenShift
I want to specify that my build should run without elevated privileges
So that builds do not run as root from the host's perspective with elevated privileges
No QE required for Dev Preview. OpenShift regression testing will verify that existing behavior is not impacted.
We will need to document how to enable this feature, with sufficient warnings regarding Dev Preview.
This likely warrants an OpenShift blog post, potentially?
This section includes Jira cards that are not linked to either an Epic or a Feature. These tickets were completed when this image was assembled
Description of problem:
Manual backport of * https://github.com/openshift/cluster-dns-operator/pull/336 * https://github.com/openshift/cluster-dns-operator/pull/339
Version-Release number of selected component (if applicable):
4.11
Description of problem:
In a 4.11 cluster with only openshift-samples enabled, the 4.12 introduced optional COs console and insights are installed. While upgrading to 4.12, CVO considers them to be disabled explicitly and skips reconciling them. So these COs are not upgraded to 4.12. Installed COs cannot be disabled, so CVO is supposed to implicitly enable them. $ oc get clusterversion -oyaml { "apiVersion": "config.openshift.io/v1", "kind": "ClusterVersion", "metadata": { "creationTimestamp": "2022-09-30T05:02:31Z", "generation": 3, "name": "version", "resourceVersion": "134808", "uid": "bd95473f-ffda-402d-8fe3-74f852a9d6eb" }, "spec": { "capabilities": { "additionalEnabledCapabilities": [ "openshift-samples" ], "baselineCapabilitySet": "None" }, "channel": "stable-4.11", "clusterID": "8eda5167-a730-4b39-be1d-214a80506d34", "desiredUpdate": { "force": true, "image": "registry.ci.openshift.org/ocp/release@sha256:2c8e617830f84ac1ee1bfcc3581010dec4ae5d9cad7a54271574e8d91ef5ecbc", "version": "" } }, "status": { "availableUpdates": null, "capabilities": { "enabledCapabilities": [ "openshift-samples" ], "knownCapabilities": [ "Console", "Insights", "Storage", "baremetal", "marketplace", "openshift-samples" ] }, "conditions": [ { "lastTransitionTime": "2022-09-30T05:02:33Z", "message": "Unable to retrieve available updates: currently reconciling cluster version 4.12.0-0.nightly-2022-09-28-204419 not found in the \"stable-4.11\" channel", "reason": "VersionNotFound", "status": "False", "type": "RetrievedUpdates" }, { "lastTransitionTime": "2022-09-30T05:02:33Z", "message": "Capabilities match configured spec", "reason": "AsExpected", "status": "False", "type": "ImplicitlyEnabledCapabilities" }, { "lastTransitionTime": "2022-09-30T05:02:33Z", "message": "Payload loaded version=\"4.12.0-0.nightly-2022-09-28-204419\" image=\"registry.ci.openshift.org/ocp/release@sha256:2c8e617830f84ac1ee1bfcc3581010dec4ae5d9cad7a54271574e8d91ef5ecbc\" architecture=\"amd64\"", "reason": "PayloadLoaded", "status": "True", "type": "ReleaseAccepted" }, { "lastTransitionTime": "2022-09-30T05:23:18Z", "message": "Done applying 4.12.0-0.nightly-2022-09-28-204419", "status": "True", "type": "Available" }, { "lastTransitionTime": "2022-09-30T07:05:42Z", "status": "False", "type": "Failing" }, { "lastTransitionTime": "2022-09-30T07:41:53Z", "message": "Cluster version is 4.12.0-0.nightly-2022-09-28-204419", "status": "False", "type": "Progressing" } ], "desired": { "image": "registry.ci.openshift.org/ocp/release@sha256:2c8e617830f84ac1ee1bfcc3581010dec4ae5d9cad7a54271574e8d91ef5ecbc", "version": "4.12.0-0.nightly-2022-09-28-204419" }, "history": [ { "completionTime": "2022-09-30T07:41:53Z", "image": "registry.ci.openshift.org/ocp/release@sha256:2c8e617830f84ac1ee1bfcc3581010dec4ae5d9cad7a54271574e8d91ef5ecbc", "startedTime": "2022-09-30T06:42:01Z", "state": "Completed", "verified": false, "version": "4.12.0-0.nightly-2022-09-28-204419" }, { "completionTime": "2022-09-30T05:23:18Z", "image": "registry.ci.openshift.org/ocp/release@sha256:5a6f6d1bf5c752c75d7554aa927c06b5ea0880b51909e83387ee4d3bca424631", "startedTime": "2022-09-30T05:02:33Z", "state": "Completed", "verified": false, "version": "4.11.0-0.nightly-2022-09-29-191451" } ], "observedGeneration": 3, "versionHash": "CSCJ2fxM_2o=" } } $ oc get co NAME VERSION AVAILABLE PROGRESSING DEGRADED SINCE MESSAGE authentication 4.12.0-0.nightly-2022-09-28-204419 True False False 93m cloud-controller-manager 4.12.0-0.nightly-2022-09-28-204419 True False False 3h56m cloud-credential 4.12.0-0.nightly-2022-09-28-204419 True False False 3h59m cluster-autoscaler 4.12.0-0.nightly-2022-09-28-204419 True False False 3h53m config-operator 4.12.0-0.nightly-2022-09-28-204419 True False False 3h54m console 4.11.0-0.nightly-2022-09-29-191451 True False False 3h45m control-plane-machine-set 4.12.0-0.nightly-2022-09-28-204419 True False False 117m csi-snapshot-controller 4.12.0-0.nightly-2022-09-28-204419 True False False 3h54m dns 4.12.0-0.nightly-2022-09-28-204419 True False False 3h53m etcd 4.12.0-0.nightly-2022-09-28-204419 True False False 3h52m image-registry 4.12.0-0.nightly-2022-09-28-204419 True False False 3h46m ingress 4.12.0-0.nightly-2022-09-28-204419 True False False 151m insights 4.11.0-0.nightly-2022-09-29-191451 True False False 3h48m kube-apiserver 4.12.0-0.nightly-2022-09-28-204419 True False False 3h50m kube-controller-manager 4.12.0-0.nightly-2022-09-28-204419 True False False 3h51m kube-scheduler 4.12.0-0.nightly-2022-09-28-204419 True False False 3h51m kube-storage-version-migrator 4.12.0-0.nightly-2022-09-28-204419 True False False 91m machine-api 4.12.0-0.nightly-2022-09-28-204419 True False False 3h50m machine-approver 4.12.0-0.nightly-2022-09-28-204419 True False False 3h54m machine-config 4.12.0-0.nightly-2022-09-28-204419 True False False 3h52m monitoring 4.12.0-0.nightly-2022-09-28-204419 True False False 3h44m network 4.12.0-0.nightly-2022-09-28-204419 True False False 3h55m node-tuning 4.12.0-0.nightly-2022-09-28-204419 True False False 113m openshift-apiserver 4.12.0-0.nightly-2022-09-28-204419 True False False 3h48m openshift-controller-manager 4.12.0-0.nightly-2022-09-28-204419 True False False 113m openshift-samples 4.12.0-0.nightly-2022-09-28-204419 True False False 116m operator-lifecycle-manager 4.12.0-0.nightly-2022-09-28-204419 True False False 3h54m operator-lifecycle-manager-catalog 4.12.0-0.nightly-2022-09-28-204419 True False False 3h54m operator-lifecycle-manager-packageserver 4.12.0-0.nightly-2022-09-28-204419 True False False 3h48m service-ca 4.12.0-0.nightly-2022-09-28-204419 True False False 3h54m storage 4.12.0-0.nightly-2022-09-28-204419 True False False 3h54m
Version-Release number of selected component (if applicable):
4.12.0-0.nightly-2022-09-28-204419
How reproducible:
Always
Steps to Reproduce:
1. Install a 4.11 cluster with only openshift-samples enabled 2. Upgrade to 4.12 3.
Actual results:
The 4.12 introduced optional CO console and insights are not upgraded to 4.12
Expected results:
All the installed COs get upgraded
Additional info:
The relevant code in ironic-image was not updated to support TLS, so it still uses the old port and explicit http://
Description of problem:
When running node-density (245 pods/node) on a 120 node cluster, we see that there is a huge spike (~22s) in Avg pod-latency. When the spike occurs we see all the ovnkube-master pods go through a restart.
The restart happens because of (ovnkube-master pods)
2022-08-10T04:04:44.494945179Z panic: reflect: call of reflect.Value.Len on ptr Value
Version-Release number of selected component (if applicable):
4.12.0-0.nightly-2022-08-09-114621
How reproducible:
Steps to Reproduce:
1. Run node-density on a 120 node cluster
Actual results:
Spike observed in pod-latency graph ~22s
Expected results:
Steady pod-latency graph ~4s
Additional info:
This is a clone of issue OCPBUGS-858. The following is the description of the original issue:
—
Description of problem:
In OCP 4.9, the package-server-manager was introduced to manage the packageserver CSV. However, when OCP 4.8 in upgraded to 4.9, the packageserver stays stuck in v0.17.0, which is the version in OCP 4.8, and v0.18.3 does not roll out, which is the version in OCP 4.9
Version-Release number of selected component (if applicable):
How reproducible:
Always
Steps to Reproduce:
1. Install OCP 4.8 2. Upgrade to OCP 4.9 $ oc get clusterversion NAME VERSION AVAILABLE PROGRESSING SINCE STATUS version 4.8.0-0.nightly-2022-08-31-160214 True True 50m Working towards 4.9.47: 619 of 738 done (83% complete) $ oc get clusterversion NAME VERSION AVAILABLE PROGRESSING SINCE STATUS version 4.9.47 True False 4m26s Cluster version is 4.9.47
Actual results:
Check packageserver CSV. It's in v0.17.0 $ oc get csv NAME DISPLAY VERSION REPLACES PHASE packageserver Package Server 0.17.0 Succeeded
Expected results:
packageserver CSV is at 0.18.3
Additional info:
packageserver CSV version in 4.8: https://github.com/openshift/operator-framework-olm/blob/release-4.8/manifests/0000_50_olm_15-packageserver.clusterserviceversion.yaml#L12 packageserver CSV version in 4.9: https://github.com/openshift/operator-framework-olm/blob/release-4.9/pkg/manifests/csv.yaml#L8
This is a clone of issue OCPBUGS-1237. The following is the description of the original issue:
—
job=pull-ci-openshift-origin-master-e2e-gcp-builds=all
This test has started permafailing on e2e-gcp-builds:
[sig-builds][Feature:Builds][Slow] s2i build with environment file in sources Building from a template should create a image from "test-env-build.json" template and run it in a pod [apigroup:build.openshift.io][apigroup:image.openshift.io]
The error in the test says
Sep 13 07:03:30.345: INFO: At 2022-09-13 07:00:21 +0000 UTC - event for build-test-pod: {kubelet ci-op-kg1t2x13-4e3c6-7hrm8-worker-a-66nwd} Pulling: Pulling image "image-registry.openshift-image-registry.svc:5000/e2e-test-build-sti-env-nglnt/test@sha256:262820fd1a94d68442874346f4c4024fdf556631da51cbf37ce69de094f56fe8" Sep 13 07:03:30.345: INFO: At 2022-09-13 07:00:23 +0000 UTC - event for build-test-pod: {kubelet ci-op-kg1t2x13-4e3c6-7hrm8-worker-a-66nwd} Pulled: Successfully pulled image "image-registry.openshift-image-registry.svc:5000/e2e-test-build-sti-env-nglnt/test@sha256:262820fd1a94d68442874346f4c4024fdf556631da51cbf37ce69de094f56fe8" in 1.763914719s Sep 13 07:03:30.345: INFO: At 2022-09-13 07:00:23 +0000 UTC - event for build-test-pod: {kubelet ci-op-kg1t2x13-4e3c6-7hrm8-worker-a-66nwd} Created: Created container test Sep 13 07:03:30.345: INFO: At 2022-09-13 07:00:23 +0000 UTC - event for build-test-pod: {kubelet ci-op-kg1t2x13-4e3c6-7hrm8-worker-a-66nwd} Started: Started container test Sep 13 07:03:30.345: INFO: At 2022-09-13 07:00:24 +0000 UTC - event for build-test-pod: {kubelet ci-op-kg1t2x13-4e3c6-7hrm8-worker-a-66nwd} Pulled: Container image "image-registry.openshift-image-registry.svc:5000/e2e-test-build-sti-env-nglnt/test@sha256:262820fd1a94d68442874346f4c4024fdf556631da51cbf37ce69de094f56fe8" already present on machine Sep 13 07:03:30.345: INFO: At 2022-09-13 07:00:25 +0000 UTC - event for build-test-pod: {kubelet ci-op-kg1t2x13-4e3c6-7hrm8-worker-a-66nwd} Unhealthy: Readiness probe failed: Get "http://10.129.2.63:8080/": dial tcp 10.129.2.63:8080: connect: connection refused Sep 13 07:03:30.345: INFO: At 2022-09-13 07:00:26 +0000 UTC - event for build-test-pod: {kubelet ci-op-kg1t2x13-4e3c6-7hrm8-worker-a-66nwd} BackOff: Back-off restarting failed container
This was originally reported in BZ as https://bugzilla.redhat.com/show_bug.cgi?id=2046335
—
Description of problem:
The issue reported here https://bugzilla.redhat.com/show_bug.cgi?id=1954121 still occur (tested on OCP 4.8.11, the CU also verified that the issue can happen even with OpenShift 4.7.30, 4.8.17 and 4.9.11)
How reproducible:
Attach a NIC to a master node will trigger the issue
Steps to Reproduce:
1. Deploy an OCP cluster (I've tested it IPI on AWS)
2. Attach a second NIC to a running master node (in my case "ip-10-0-178-163.eu-central-1.compute.internal")
Actual results:
~~~
$ oc get node ip-10-0-178-163.eu-central-1.compute.internal -o json | jq ".status.addresses"
[
,
,
,
{ "address": "ip-10-0-178-163.eu-central-1.compute.internal", "type": "InternalDNS" }]
$ oc get co etcd
NAME VERSION AVAILABLE PROGRESSING DEGRADED SINCE
etcd 4.8.11 True False True 31h
$ oc get co etcd -o json | jq ".status.conditions[0]"
{ "lastTransitionTime": "2022-01-26T15:47:42Z", "message": "EtcdCertSignerControllerDegraded: [x509: certificate is valid for 10.0.178.163, not 10.0.187.247, x509: certificate is valid for ::1, 10.0.178.163, 127.0.0.1, ::1, not 10.0.187.247]", "reason": "EtcdCertSignerController_Error", "status": "True", "type": "Degraded" }~~~
Expected results:
To have the certificate valid also for the second IP (the newly created one "10.0.187.247")
Additional info:
Deleting the following secrets seems to solve the issue:
~~~
$ oc get secret n openshift-etcd | grep kubernetes.io/tls | grep ^etcd
etcd-client kubernetes.io/tls 2 61s
etcd-peer-ip-10-0-132-49.eu-central-1.compute.internal kubernetes.io/tls 2 61s
etcd-peer-ip-10-0-178-163.eu-central-1.compute.internal kubernetes.io/tls 2 61s
etcd-peer-ip-10-0-202-187.eu-central-1.compute.internal kubernetes.io/tls 2 60s
etcd-serving-ip-10-0-132-49.eu-central-1.compute.internal kubernetes.io/tls 2 60s
etcd-serving-ip-10-0-178-163.eu-central-1.compute.internal kubernetes.io/tls 2 59s
etcd-serving-ip-10-0-202-187.eu-central-1.compute.internal kubernetes.io/tls 2 59s
etcd-serving-metrics-ip-10-0-132-49.eu-central-1.compute.internal kubernetes.io/tls 2 58s
etcd-serving-metrics-ip-10-0-178-163.eu-central-1.compute.internal kubernetes.io/tls 2 59s
etcd-serving-metrics-ip-10-0-202-187.eu-central-1.compute.internal kubernetes.io/tls 2 58s
$ oc get secret n openshift-etcd | grep kubernetes.io/tls | grep ^etcd | awk '
' | xargs -I {} oc delete secret {} -n openshift-etcd
secret "etcd-client" deleted
secret "etcd-peer-ip-10-0-132-49.eu-central-1.compute.internal" deleted
secret "etcd-peer-ip-10-0-178-163.eu-central-1.compute.internal" deleted
secret "etcd-peer-ip-10-0-202-187.eu-central-1.compute.internal" deleted
secret "etcd-serving-ip-10-0-132-49.eu-central-1.compute.internal" deleted
secret "etcd-serving-ip-10-0-178-163.eu-central-1.compute.internal" deleted
secret "etcd-serving-ip-10-0-202-187.eu-central-1.compute.internal" deleted
secret "etcd-serving-metrics-ip-10-0-132-49.eu-central-1.compute.internal" deleted
secret "etcd-serving-metrics-ip-10-0-178-163.eu-central-1.compute.internal" deleted
secret "etcd-serving-metrics-ip-10-0-202-187.eu-central-1.compute.internal" deleted
$ oc get co etcd -o json | jq ".status.conditions[0]"
{ "lastTransitionTime": "2022-01-26T15:52:21Z", "message": "NodeControllerDegraded: All master nodes are ready\nEtcdMembersDegraded: No unhealthy members found", "reason": "AsExpected", "status": "False", "type": "Degraded" }~~~
We have created a fix in 4.12 that fetches instance type information from Azure API instead of updating the lists. We feel that backporting that fix is too risky, but agreed to update the list in older versions.
Description of problem:
Add the following instance types to azure_instance_types list[1]:
Version-Release number of selected component (if applicable):
OCP 4.8
Steps to Reproduce:
1. Migrate worker/infra nodes to above mentioned (missing) v5 instance types
2. "Failed to set autoscaling from zero annotations, instance type unknown"
Actual results:
Expected results:
The new instance types are available in the azure_instance_types list[1] and no errors/warnings are observed after migrating:
Additional info:
The related v4 instance types are already available[1] - I suspect adding the mentioned v5 instance types is a minor update:
1) azure_instance_types.go
https://github.com/openshift/cluster-api-provider-azure/blob/release-4.8/pkg/cloud/azure/actuators/machineset/azure_instance_types.go
Description of problem:
This is a clone of https://issues.redhat.com/browse/OCPBUGS-469
Description of problem: Numerous erroreneous logs in OVN master
I0823 18:00:11.163491 1 obj_retry.go:1063] Retry object setup: *v1.Pod openshift-operator-lifecycle-manager/collect-profiles-27687900-hlp6k
I0823 18:00:11.163546 1 obj_retry.go:1096] Removing old object: *v1.Pod openshift-operator-lifecycle-manager/collect-profiles-27687900-hlp6k
I0823 18:00:11.163555 1 pods.go:124] Deleting pod: openshift-operator-lifecycle-manager/collect-profiles-27687900-hlp6k
I0823 18:00:11.163631 1 obj_retry.go:1103] Retry delete failed for *v1.Pod openshift-operator-lifecycle-manager/collect-profiles-27687900-hlp6k, will try again later: deleteLogicalPort failed for pod openshift-operator-lifecycle-manager_collect-profiles-27687900-hlp6k: unable to locate portUUID+nodeName for pod openshift-operator-lifecycle-manager/collect-profiles-27687900-hlp6k: error getting logical port <nil>: object not found
W0823 18:00:41.163633 1 obj_retry.go:1031] Dropping retry entry for *v1.Pod openshift-operator-lifecycle-manager/collect-profiles-27687900-hlp6k: exceeded number of failed attempts
Must-gather: http://shell.lab.bos.redhat.com/~anusaxen/must-gather.local.2234927131259452300/
Version-Release number of selected component (if applicable): 4.12.0-0.nightly-2022-08-23-031342
How reproducible: Always
Steps to Reproduce:
1. Bring up OVN cluster on 4.12
2.
3.
Actual results: deleteLogicalPort failed for already gone object
Expected results: deleteLogicalPort should not keep retrying post object deletion
Additional info:
See these threads https://coreos.slack.com/archives/G01F05P2PTL/p1645982017061749?thread_ts=1645970469.871559&cid=G01F05P2PTL for more information
This bug card represents work done in https://issues.redhat.com/browse/CCO-257 to set STS endpoints to regional in AWS credentials secrets and is created to facilitate backporting the change to previous releases as required by the backport process [1].
Origin tests for the bond-cni
Backport of https://github.com/openshift/origin/pull/27405
Description of problem:
The last egressIP in IP capacity cannot be applied correctly
Version-Release number of selected component (if applicable):
4.11.0-0.nightly-2022-11-27-164248
How reproducible:
Found this failure in automation case which used to pass
Steps to Reproduce:
In AWS, one worker node is with IP capacity "ipv4:14" $oc describe node ip-10-0-129-21.us-west-2.compute.internal | egrep -C 3 egress Annotations: cloud.network.openshift.io/egress-ipconfig: [{"interface":"eni-03820ba0eca427fbf","ifaddr":{"ipv4":"10.0.128.0/18"},"capacity":{"ipv4":14,"ipv6":15}}] csi.volume.kubernetes.io/nodeid: {"ebs.csi.aws.com":"i-0cb3ae15bf3cffd9f"} k8s.ovn.org/host-addresses: ["10.0.129.21"]
1. Label above node as egress node
2. Created 15 egressIP objects, each egressIP object with one egressIP.
Actual results:
13 egressIPs applied correctly , last one is in wrong status. % oc get egressip NAME EGRESSIPS ASSIGNED NODE ASSIGNED EGRESSIPS egressip-47208-0 10.0.135.200 ip-10-0-129-21.us-west-2.compute.internal 10.0.135.200 egressip-47208-1 10.0.162.178 ip-10-0-129-21.us-west-2.compute.internal 10.0.162.178 egressip-47208-10 10.0.144.46 ip-10-0-129-21.us-west-2.compute.internal 10.0.144.46 egressip-47208-11 10.0.191.91 ip-10-0-129-21.us-west-2.compute.internal 10.0.191.91 egressip-47208-12 10.0.133.215 ip-10-0-129-21.us-west-2.compute.internal 10.0.133.215 egressip-47208-13 10.0.174.207 ip-10-0-129-21.us-west-2.compute.internal 10.0.174.207 egressip-47208-14 10.0.176.224 ip-10-0-129-21.us-west-2.compute.internal 10.0.176.224 egressip-47208-2 10.0.184.114 ip-10-0-129-21.us-west-2.compute.internal 10.0.184.114 egressip-47208-3 10.0.167.224 ip-10-0-129-21.us-west-2.compute.internal 10.0.167.224 egressip-47208-4 10.0.187.148 ip-10-0-129-21.us-west-2.compute.internal 10.0.187.148 egressip-47208-5 10.0.184.109 ip-10-0-129-21.us-west-2.compute.internal 10.0.184.109 egressip-47208-6 10.0.155.208 egressip-47208-7 10.0.134.13 ip-10-0-129-21.us-west-2.compute.internal 10.0.134.13 egressip-47208-8 10.0.142.255 ip-10-0-129-21.us-west-2.compute.internal 10.0.142.255 egressip-47208-9 10.0.170.197 % oc get cloudprivateipconfig NAME AGE 10.0.133.215 113s 10.0.134.13 113s 10.0.135.200 113s 10.0.142.255 113s 10.0.144.46 113s 10.0.155.208 113s 10.0.162.178 113s 10.0.167.224 113s 10.0.174.207 113s 10.0.176.224 113s 10.0.184.109 113s 10.0.184.114 113s 10.0.187.148 113s 10.0.191.91 113s oc get cloudprivateipconfig 10.0.155.208 -o yaml apiVersion: cloud.network.openshift.io/v1 kind: CloudPrivateIPConfig metadata: annotations: k8s.ovn.org/egressip-owner-ref: egressip-47208-6 creationTimestamp: "2022-11-28T09:13:47Z" finalizers: - cloudprivateipconfig.cloud.network.openshift.io/finalizer generation: 1 name: 10.0.155.208 resourceVersion: "72869" uid: 0143a07b-0a30-4de8-bfd7-589ed0c3d7dc spec: node: ip-10-0-129-21.us-west-2.compute.internal status: conditions: - lastTransitionTime: "2022-11-28T09:16:51Z" message: 'Error processing cloud assignment request, err: <nil>' observedGeneration: 1 reason: CloudResponseError status: "False" type: Assigned node: ip-10-0-129-21.us-west-2.compute.internal
Expected results:
As IP capacity for this node is 14, so here should have 14 egress IP applied successfully. No cloudprivateipconfig IP in error status.
Additional info:
This is a clone of issue OCPBUGS-1704. The following is the description of the original issue:
—
Description of problem:
According to OCP 4.11 doc (https://docs.openshift.com/container-platform/4.11/installing/installing_gcp/installing-gcp-account.html#installation-gcp-enabling-api-services_installing-gcp-account), the Service Usage API (serviceusage.googleapis.com) is an optional API service to be enabled. But, the installation cannot succeed if this API is disabled.
Version-Release number of selected component (if applicable):
4.12.0-0.nightly-2022-09-25-071630
How reproducible:
Always, if the Service Usage API is disabled in the GCP project.
Steps to Reproduce:
1. Make sure the Service Usage API (serviceusage.googleapis.com) is disabled in the GCP project. 2. Try IPI installation in the GCP project.
Actual results:
The installation would fail finally, without any worker machines launched.
Expected results:
Installation should succeed, or the OCP doc should be updated.
Additional info:
Please see the attached must-gather logs (http://virt-openshift-05.lab.eng.nay.redhat.com/jiwei/jiwei-0926-03-cnxn5/) and the sanity check results. FYI if enabling the API, and without changing anything else, the installation could succeed.
Description of problem:
The metal3 Pod of openshift-machine-api is in CrashLoopBackOff status.
Version-Release number of selected component (if applicable):
4.10.31
How reproducible:
Always reproduce in IPv6
Steps to Reproduce:
1. Preparing to configure ipi on the provisioning node - RHEL 8 ( haproxy, named, mirror registry, rhcos_cache_server ..) 2. configuring the install-config.yaml (attached) - provisioningNetwork: disabled - machine network: only IPv6 - disconnected installation 3. deploy the cluster
Actual results:
It is not possible to add worker nodes because metal3 does not start normally.
Expected results:
metal3 starts normally in IPv6 environment
Additional info:
1. attached must-gather https://drive.google.com/file/d/1GKxj3syROIMnURx_PYzOYhJdEuXBNXVW/view?usp=sharing 2. pod status [kni@prov ~]$ oc get pod NAME READY STATUS RESTARTS AGE cluster-autoscaler-operator-6656bfd7b9-bt4j8 2/2 Running 0 35h cluster-baremetal-operator-6bbdd6758-rmxgq 2/2 Running 0 35h machine-api-controllers-55fb545b56-kl5sj 7/7 Running 0 34h machine-api-operator-845b6cf855-q7gdd 2/2 Running 0 35h metal3-574876cfdb-98fmz 6/7 CrashLoopBackOff 179 (3m17s ago) 14h metal3-image-cache-5mq2w 1/1 Running 0 14h metal3-image-cache-nftpj 1/1 Running 0 14h metal3-image-cache-t7whh 1/1 Running 0 14h metal3-image-customization-68d4d6d99b-dbqgn 1/1 Running 0 15h [kni@prov ~]$ oc logs metal3-574876cfdb-98fmz -c metal3-httpd AH00526: Syntax error on line 8 of /etc/httpd/conf.d/vmedia.conf: The port number "2001:feed:101::102" is outside the appropriate range (i.e., 1..65535).
Description of problem:
prometheus-k8s-0 ends in CrashLoopBackOff with evel=error err="opening storage failed: /prometheus/chunks_head/000002: invalid magic number 0" on SNO after hard reboot tests
Version-Release number of selected component (if applicable):
4.11.6
How reproducible:
Not always, after ~10 attempts
Steps to Reproduce:
1. Deploy SNO with Telco DU profile applied 2. Hard reboot node via out of band interface 3. oc -n openshift-monitoring get pods prometheus-k8s-0
Actual results:
NAME READY STATUS RESTARTS AGE prometheus-k8s-0 5/6 CrashLoopBackOff 125 (4m57s ago) 5h28m
Expected results:
Running
Additional info:
Attaching must-gather. The pod recovers successfully after deleting/re-creating. [kni@registry.kni-qe-0 ~]$ oc -n openshift-monitoring logs prometheus-k8s-0 ts=2022-09-26T14:54:01.919Z caller=main.go:552 level=info msg="Starting Prometheus Server" mode=server version="(version=2.36.2, branch=rhaos-4.11-rhel-8, revision=0d81ba04ce410df37ca2c0b1ec619e1bc02e19ef)" ts=2022-09-26T14:54:01.919Z caller=main.go:557 level=info build_context="(go=go1.18.4, user=root@371541f17026, date=20220916-14:15:37)" ts=2022-09-26T14:54:01.919Z caller=main.go:558 level=info host_details="(Linux 4.18.0-372.26.1.rt7.183.el8_6.x86_64 #1 SMP PREEMPT_RT Sat Aug 27 22:04:33 EDT 2022 x86_64 prometheus-k8s-0 (none))" ts=2022-09-26T14:54:01.919Z caller=main.go:559 level=info fd_limits="(soft=1048576, hard=1048576)" ts=2022-09-26T14:54:01.919Z caller=main.go:560 level=info vm_limits="(soft=unlimited, hard=unlimited)" ts=2022-09-26T14:54:01.921Z caller=web.go:553 level=info component=web msg="Start listening for connections" address=127.0.0.1:9090 ts=2022-09-26T14:54:01.922Z caller=main.go:989 level=info msg="Starting TSDB ..." ts=2022-09-26T14:54:01.924Z caller=tls_config.go:231 level=info component=web msg="TLS is disabled." http2=false ts=2022-09-26T14:54:01.926Z caller=main.go:848 level=info msg="Stopping scrape discovery manager..." ts=2022-09-26T14:54:01.926Z caller=main.go:862 level=info msg="Stopping notify discovery manager..." ts=2022-09-26T14:54:01.926Z caller=manager.go:951 level=info component="rule manager" msg="Stopping rule manager..." ts=2022-09-26T14:54:01.926Z caller=manager.go:961 level=info component="rule manager" msg="Rule manager stopped" ts=2022-09-26T14:54:01.926Z caller=main.go:899 level=info msg="Stopping scrape manager..." ts=2022-09-26T14:54:01.926Z caller=main.go:858 level=info msg="Notify discovery manager stopped" ts=2022-09-26T14:54:01.926Z caller=main.go:891 level=info msg="Scrape manager stopped" ts=2022-09-26T14:54:01.926Z caller=notifier.go:599 level=info component=notifier msg="Stopping notification manager..." ts=2022-09-26T14:54:01.926Z caller=main.go:844 level=info msg="Scrape discovery manager stopped" ts=2022-09-26T14:54:01.926Z caller=manager.go:937 level=info component="rule manager" msg="Starting rule manager..." ts=2022-09-26T14:54:01.926Z caller=main.go:1120 level=info msg="Notifier manager stopped" ts=2022-09-26T14:54:01.926Z caller=main.go:1129 level=error err="opening storage failed: /prometheus/chunks_head/000002: invalid magic number 0"
Description of problem:
TO address: 'Static Pod is managed but errored" err="managed container xxx does not have Resource.Requests'
Version-Release number of selected component (if applicable):
4.11
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
Description of problem:
This is a clone of https://bugzilla.redhat.com/show_bug.cgi?id=2074299 for backporting purposes.
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
An RW mutex was introduced to the project auth cache with https://github.com/openshift/openshift-apiserver/pull/267, taking exclusive access during cache syncs. On clusters with extremely high object counts for namespaces and RBAC, syncs appear to be extremely slow (on the order of several minutes). The project LIST handler acquires the same mutex in shared mode as part of its critical path.
OCPBUGS-1251 landed an admin-ack gate in 4.11.z to help admins prepare for Kubernetes 1.25 API removals which are coming in OpenShift 4.12. Poking around in a 4.12.0-ec.2 cluster where APIRemovedInNextReleaseInUse is firing:
$ oc --as system:admin adm must-gather -- /usr/bin/gather_audit_logs $ zgrep -h v1beta1/poddisruptionbudget must-gather.local.1378724704026451055/quay*/audit_logs/kube-apiserver/*.log.gz | jq -r '.verb + " " + (.user | .username + " " + (.extra["authentication.kubernetes.io/pod-name"] | tostr ing))' | sort | uniq -c parse error: Invalid numeric literal at line 29, column 6 28 watch system:serviceaccount:openshift-machine-api:cluster-autoscaler ["cluster-autoscaler-default-5cf997b8d6-ptgg7"]
Finding the source for that container:
$ oc --as system:admin -n openshift-machine-api get -o json pod cluster-autoscaler-default-5cf997b8d6-ptgg7 | jq -r '.status.containerStatuses[].image' quay.io/openshift-release-dev/ocp-v4.0-art-dev@sha256:f81ab7ce0c851ba5e5169bba717cb54716ce5457cbe89d159c97a5c25fd820ed $ oc image info quay.io/openshift-release-dev/ocp-v4.0-art-dev@sha256:f81ab7ce0c851ba5e5169bba717cb54716ce5457cbe89d159c97a5c25fd820ed | grep github SOURCE_GIT_URL=https://github.com/openshift/kubernetes-autoscaler io.openshift.build.commit.url=https://github.com/openshift/kubernetes-autoscaler/commit/1dac0311b9842958ec630273428b74703d51c1c9 io.openshift.build.source-location=https://github.com/openshift/kubernetes-autoscaler
Poking about in the source:
$ git clone --depth 30 --branch master https://github.com/openshift/kubernetes-autoscaler.git
$ cd kubernetes-autoscaler
$ find . -name vendor
./addon-resizer/vendor
./cluster-autoscaler/vendor
./vertical-pod-autoscaler/e2e/vendor
./vertical-pod-autoscaler/vendor
Lots of vendoring. I haven't checked to see how new the client code is in the various vendor packages. But the main issue seems to be the v1beta1 in:
$ git grep policy cluster-autoscaler/core cluster-autoscaler/utils | grep policy.*v1beta1 cluster-autoscaler/core/scaledown/actuation/actuator_test.go: policyv1beta1 "k8s.io/api/policy/v1beta1" cluster-autoscaler/core/scaledown/actuation/actuator_test.go: eviction := createAction.GetObject().(*policyv1beta1.Eviction) cluster-autoscaler/core/scaledown/actuation/drain.go: policyv1 "k8s.io/api/policy/v1beta1" cluster-autoscaler/core/scaledown/actuation/drain_test.go: policyv1 "k8s.io/api/policy/v1beta1" cluster-autoscaler/core/scaledown/legacy/legacy.go: policyv1 "k8s.io/api/policy/v1beta1" cluster-autoscaler/core/scaledown/legacy/wrapper.go: policyv1 "k8s.io/api/policy/v1beta1" cluster-autoscaler/core/scaledown/scaledown.go: policyv1 "k8s.io/api/policy/v1beta1" cluster-autoscaler/core/static_autoscaler_test.go: policyv1 "k8s.io/api/policy/v1beta1" cluster-autoscaler/utils/drain/drain.go: policyv1 "k8s.io/api/policy/v1beta1" cluster-autoscaler/utils/drain/drain_test.go: policyv1 "k8s.io/api/policy/v1beta1" cluster-autoscaler/utils/kubernetes/listers.go: policyv1 "k8s.io/api/policy/v1beta1" cluster-autoscaler/utils/kubernetes/listers.go: v1policylister "k8s.io/client-go/listers/policy/v1beta1"
The main change from v1beta1 to v1 involves spec.selector; I dunno if that's relevant to the autoscaler use-case or not.
Do we run autoscaler CI? I was poking around a bit, but did not find a 4.12 periodic excercising the autoscaler that might have turned up this alert and issue.
Our Prometheus alerts are inconsistent with both upstream and sometimes our own vendor folder. Let's do a clean update run before the next release is branched off.
Description of problem:
The test local-test is failing on openshift/thanos when upgrading golang version to 1.18 on the branch release-4.11. Please refer to this test log for details: https://prow.ci.openshift.org/view/gs/origin-ci-test/pr-logs/pull/openshift_thanos/82/pull-ci-openshift-thanos-release-4.11-test-local/1541516614497734656
Version-Release number of selected component (if applicable):
4.11
How reproducible:
See local-test job on pull request on the repository Openshift/Thanos
Steps to Reproduce:
Actual results:
local-test fails on the following error: level=error ts=2022-06-27T20:28:12.306Z caller=web.go:99 component=web msg="panic while serving request" client=127.0.0.1:37064 url=/api/v1/metadata err="runtime error: invalid memory address or nil pointer dereference" stack="goroutine 278 [running]:\ngithub.com/prometheus/prometheus/web.withStackTracer.func1.1()\n\t/go/pkg/mod/github.com/prometheus/prometheus@v1.8.2-0.20200724121523-657ba532e42f/web/web.go:98 +0x99\npanic({0x1c34760, 0x308ad40})\n\t/usr/lib/golang/src/runtime/panic.go:838 +0x207\nreflect.mapiternext(0xc000458540?)\n\t/usr/lib/golang/src/runtime/map.go:1378 +0x19\ngithub.com/modern-go/reflect2.(*UnsafeMapIterator).UnsafeNext(0x1bd62e0?)\n\t/go/pkg/mod/github.com/modern-go/reflect2@v1.0.1/unsafe_map.go:136 +0x32\ngithub.com/json-iterator/go.(*sortKeysMapEncoder).Encode(0xc000949d10, 0xc0002966b0, 0xc0006c7740)\n\t/go/pkg/mod/github.com/json-iterator/go@v1.1.9/reflect_map.go:297 +0x31a\ngithub.com/json-iterator/go.(*onePtrEncoder).Encode(0xc0008cb120, 0xc000948fc0, 0xc0001139c0?)\n\t/go/pkg/mod/github.com/json-iterator/go@v1.1.9/reflect.go:219 +0x82\ngithub.com/json-iterator/go.(*Stream).WriteVal(0xc0006c7740, {0x1c16da0, 0xc000948fc0})\n\t/go/pkg/mod/github.com/json-iterator/go@v1.1.9/reflect.go:98 +0x158\ngithub.com/json-iterator/go.(*dynamicEncoder).Encode(0xc00094cd58?, 0xfa9a07?, 0xc0006c7758?)\n\t/go/pkg/mod/github.com/json-iterator/go@v1.1.9/reflect_dynamic.go:15 +0x39\ngithub.com/json-iterator/go.(*structFieldEncoder).Encode(0xc000949620, 0x1a4aaba?, 0xc0006c7740)\n\t/go/pkg/mod/github.com/json-iterator/go@v1.1.9/reflect_struct_encoder.go:110 +0x56\ngithub.com/json-iterator/go.(*structEncoder).Encode(0xc000949740, 0x0?, 0xc0006c7740)\n\t/go/pkg/mod/github.com/json-iterator/go@v1.1.9/reflect_struct_encoder.go:158 +0x652\ngithub.com/json-iterator/go.(*OptionalEncoder).Encode(0xc0001afd60?, 0x0?, 0x0?)\n\t/go/pkg/mod/github.com/json-iterator/go@v1.1.9/reflect_optional.go:74 +0xa4\ngithub.com/json-iterator/go.(*onePtrEncoder).Encode(0xc0008cad40, 0xc0006c76e0, 0xc000949020?)\n\t/go/pkg/mod/github.com/json-iterator/go@v1.1.9/reflect.go:219 +0x82\ngithub.com/json-iterator/go.(*Stream).WriteVal(0xc0006c7740, {0x1ac56e0, 0xc0006c76e0})\n\t/go/pkg/mod/github.com/json-iterator/go@v1.1.9/reflect.go:98 +0x158\ngithub.com/json-iterator/go.(*frozenConfig).Marshal(0xc0001afd60, {0x1ac56e0, 0xc0006c76e0})\n\t/go/pkg/mod/github.com/json-iterator/go@v1.1.9/config.go:299 +0xc9\ngithub.com/prometheus/prometheus/web/api/v1.(*API).respond(0xc0002d7a40, {0x229a448, 0xc00022bd60}, {0x1c16da0?, 0xc000948fc0}, {0x0?, 0x7fe5a05a5b20?, 0x20?})\n\t/go/pkg/mod/github.com/prometheus/prometheus@v1.8.2-0.20200724121523-657ba532e42f/web/api/v1/api.go:1437 +0x162\ngithub.com/prometheus/prometheus/web/api/v1.(*API).Register.func1.1({0x229a448, 0xc00022bd60}, 0x7fe5982c5300?)\n\t/go/pkg/mod/github.com/prometheus/prometheus@v1.8.2-0.20200724121523-657ba532e42f/web/api/v1/api.go:273 +0x20b\nnet/http.HandlerFunc.ServeHTTP(0x7fe5982c5300?, {0x229a448?, 0xc00022bd60?}, 0xc00072b270?)\n\t/usr/lib/golang/src/net/http/server.go:2084 +0x2f\ngithub.com/prometheus/prometheus/util/httputil.CompressionHandler.ServeHTTP({{0x2290780?, 0xc000856288?}}, {0x7fe5982c5300?, 0xc00072b270?}, 0x228fb20?)\n\t/go/pkg/mod/github.com/prometheus/prometheus@v1.8.2-0.20200724121523-657ba532e42f/util/httputil/compression.go:90 +0x69\ngithub.com/prometheus/prometheus/web.(*Handler).testReady.func1({0x7fe5982c5300?, 0xc00072b270?}, 0x7fe5982c5300?)\n\t/go/pkg/mod/github.com/prometheus/prometheus@v1.8.2-0.20200724121523-657ba532e42f/web/web.go:499 +0x39\nnet/http.HandlerFunc.ServeHTTP(0x7fe5982c5300?, {0x7fe5982c5300?, 0xc00072b270?}, 0x50?)\n\t/usr/lib/golang/src/net/http/server.go:2084 +0x2f\ngithub.com/prometheus/client_golang/prometheus/promhttp.InstrumentHandlerResponseSize.func1({0x7fe5982c5300?, 0xc00072b220?}, 0xc000250c00)\n\t/go/pkg/mod/github.com/prometheus/client_golang@v1.6.0/prometheus/promhttp/instrument_server.go:196 +0xa5\nnet/http.HandlerFunc.ServeHTTP(0x228fb80?, {0x7fe5982c5300?, 0xc00072b220?}, 0xc000948ed0?)\n\t/usr/lib/golang/src/net/http/server.go:2084 +0x2f\ngithub.com/prometheus/client_golang/prometheus/promhttp.InstrumentHandlerDuration.func2({0x7fe5982c5300, 0xc00072b220}, 0xc000250c00)\n\t/go/pkg/mod/github.com/prometheus/client_golang@v1.6.0/prometheus/promhttp/instrument_server.go:76 +0xa2\nnet/http.HandlerFunc.ServeHTTP(0x22a4a68?, {0x7fe5982c5300?, 0xc00072b220?}, 0x0?)\n\t/usr/lib/golang/src/net/http/server.go:2084 +0x2f\ngithub.com/prometheus/client_golang/prometheus/promhttp.InstrumentHandlerCounter.func1({0x22a4a68?, 0xc00072b1d0?}, 0xc000250c00)\n\t/go/pkg/mod/github.com/prometheus/client_golang@v1.6.0/prometheus/promhttp/instrument_server.go:100 +0x94\ngithub.com/prometheus/prometheus/web.setPathWithPrefix.func1.1({0x22a4a68, 0xc00072b1d0}, 0xc000250b00)\n\t/go/pkg/mod/github.com/prometheus/prometheus@v1.8.2-0.20200724121523-657ba532e42f/web/web.go:1142 +0x290\ngithub.com/prometheus/common/route.(*Router).handle.func1({0x22a4a68, 0xc00072b1d0}, 0xc000250a00, {0x0, 0x0, 0xc00022c364?})\n\t/go/pkg/mod/github.com/prometheus/common@v0.10.0/route/route.go:83 +0x2ae\ngithub.com/julienschmidt/httprouter.(*Router).ServeHTTP(0xc0001cc780, {0x22a4a68, 0xc00072b1d0}, 0xc000250a00)\n\t/go/pkg/mod/github.com/julienschmidt/httprouter@v1.3.0/router.go:387 +0x82b\ngithub.com/prometheus/common/route.(*Router).ServeHTTP(0x8?, {0x22a4a68?, 0xc00072b1d0?}, 0x203000?)\n\t/go/pkg/mod/github.com/prometheus/common@v0.10.0/route/route.go:121 +0x26\nnet/http.StripPrefix.func1({0x22a4a68, 0xc00072b1d0}, 0xc000250900)\n\t/usr/lib/golang/src/net/http/server.go:2127 +0x330\nnet/http.HandlerFunc.ServeHTTP(0x10?, {0x22a4a68?, 0xc00072b1d0?}, 0x7fe5c8423f18?)\n\t/usr/lib/golang/src/net/http/server.go:2084 +0x2f\nnet/http.(*ServeMux).ServeHTTP(0x413d87?, {0x22a4a68, 0xc00072b1d0}, 0xc000250900)\n\t/usr/lib/golang/src/net/http/server.go:2462 +0x149\ngithub.com/opentracing-contrib/go-stdlib/nethttp.MiddlewareFunc.func5({0x22a3808?, 0xc000a282a0}, 0xc000250200)\n\t/go/pkg/mod/github.com/opentracing-contrib/go-stdlib@v0.0.0-20190519235532-cf7a6c988dc9/nethttp/server.go:140 +0x662\nnet/http.HandlerFunc.ServeHTTP(0x0?, {0x22a3808?, 0xc000a282a0?}, 0xffffffffffffffff?)\n\t/usr/lib/golang/src/net/http/server.go:2084 +0x2f\ngithub.com/prometheus/prometheus/web.withStackTracer.func1({0x22a3808?, 0xc000a282a0?}, 0xc0008ca850?)\n\t/go/pkg/mod/github.com/prometheus/prometheus@v1.8.2-0.20200724121523-657ba532e42f/web/web.go:103 +0x97\nnet/http.HandlerFunc.ServeHTTP(0x0?, {0x22a3808?, 0xc000a282a0?}, 0xc000100000?)\n\t/usr/lib/golang/src/net/http/server.go:2084 +0x2f\nnet/http.serverHandler.ServeHTTP({0xc000c55380?}, {0x22a3808, 0xc000a282a0}, 0xc000250200)\n\t/usr/lib/golang/src/net/http/server.go:2916 +0x43b\nnet/http.(*conn).serve(0xc0000d1540, {0x22a4e18, 0xc00061a0c0})\n\t/usr/lib/golang/src/net/http/server.go:1966 +0x5d7\ncreated by net/http.(*Server).Serve\n\t/usr/lib/golang/src/net/http/server.go:3071 +0x4db\n" level=error ts=2022-06-27T20:28:12.306Z caller=stdlib.go:89 component=web caller="http: panic serving 127.0.0.1:37064" msg="runtime error: invalid memory address or nil pointer dereference"
Expected results:
local-test does no fail on the error above.
Additional info:
Description of problem:
Setting disableNetworkDiagnostics: true does not persist when network-operator pod gets re-created.
Version-Release number of selected component (if applicable):
4.11.0-rc.0
How reproducible:
100%
Steps to Reproduce:
1. $ oc patch network.operator.openshift.io/cluster --patch '{"spec":{"disableNetworkDiagnostics":true}}' --type=merge
network.operator.openshift.io/cluster patched
2. $ oc -n openshift-network-operator delete pods network-operator-9b68954c6-bclx6
pod "network-operator-9b68954c6-bclx6" deleted
3. $ oc get network.operator.openshift.io cluster -o json | jq .spec.disableNetworkDiagnostics
false
Actual results:
disableNetworkDiagnostics set to false, not set to true as configured in step 1
Expected results:
disableNetworkDiagnostics set to true
Additional info:
Attaching must-gather.
This is a clone of issue OCPBUGS-451. The following is the description of the original issue:
—
Description of problem:
Git icon shown in the repository details page should be based on the git provider.
Version-Release number of selected component (if applicable):
4.11
How reproducible:
Always
Steps to Reproduce:
1. Create a Repository with gitlab repo url
2. Navigate to the detail page.
Actual results:
github icon is displayed for the gitlab url.
Expected results:
gitlab icon should be displayed for the gitlab url.
Additional info:
use `GitLabIcon` and `BitBucketIcon` from patternfly react-icons.
1. Proposed title of this feature request
--> Alert generation when the etcd container memory consumption goes beyond 90%
2. What is the nature and description of the request?
--> When the etcd database starts growing rapidly due to some high number of objects like secrets, events, or configmap generation by application/workload, the memory and CPU consumption of APIserver and etcd container (control plane component) spikes up and eventually the control plane nodes goes to hung/unresponsive or crash due to out of memory errors as some of the critical processes/services running on master nodes get killed. Hence we request an alert/alarm when the ETCD container's memory consumption goes beyond 90% so that the cluster administrator can take some action before the cluster/nodes go unresponsive.
I see we already have a etcdExcessiveDatabaseGrowth Prometheus rule which helps when the surge in etcd writes leading to a 50% increase in database size over the past four hours on etcd instance however it does not consider the memory consumption:
$ oc get prometheusrules etcd-prometheus-rules -o yaml|grep -i etcdExcessiveDatabaseGrowth -A 9
- alert: etcdExcessiveDatabaseGrowth
annotations:
description: 'etcd cluster "{{ $labels.job }}": Observed surge in etcd writes
leading to 50% increase in database size over the past four hours on etcd
instance {{ $labels.instance }}, please check as it might be disruptive.'
expr: |
increase(((etcd_mvcc_db_total_size_in_bytes/etcd_server_quota_backend_bytes)*100)[240m:1m]) > 50
for: 10m
labels:
severity: warning
3. Why does the customer need this? (List the business requirements here)
--> Once the etcd memory consumption goes beyond 90-95% of total ram as it's system critical container, the OCP cluster goes unresponsive causing revenue loss to business and impacting the productivity of users of the openshift cluster.
4. List any affected packages or components.
--> etcd
This is a clone of issue OCPBUGS-2495. The following is the description of the original issue:
—
Failures like:
$ oc login --token=... Logged into "https://api..." as "..." using the token provided. Error from server (Timeout): the server was unable to return a response in the time allotted, but may still be processing the request (get projects.project.openshift.io)
break login, which tries to gather information before saving the configuration, including a giant project list.
Ideally login would be able to save the successful login credentials, even when the informative gathering had difficulties. And possibly the informative gathering could be made conditional (--quiet or similar?) so expensive gathering could be skipped in use-cases where the context was not needed.
This is a clone of issue OCPBUGS-3117. The following is the description of the original issue:
—
This is a clone of issue OCPBUGS-3084. The following is the description of the original issue:
—
Upstream Issue: https://github.com/kubernetes/kubernetes/issues/77603
Long log lines get corrupted when using '--timestamps' by the Kubelet.
The root cause is that the buffer reads up to a new line. If the line is greater than 4096 bytes and '--timestamps' is turrned on the kubelet will write the timestamp and the partial log line. We will need to refactor the ReadLogs function to allow for a partial line read.
apiVersion: v1
kind: Pod
metadata:
name: logs
spec:
restartPolicy: Never
containers:
- name: logs
image: fedora
args:
- bash
- -c
- 'for i in `seq 1 10000000`; do echo -n $i; done'
kubectl logs logs --timestamps
Description of problem:
In a complete disconnected cluster, the dev catalog is taking too much time in loading
Version-Release number of selected component (if applicable):
How reproducible:
Always
Steps to Reproduce:
1. A complete disconnected cluster
2. In add page go to the All services page
3.
Actual results:
Taking too much time too load
Expected results:
Time taken should be reduced
Additional info:
Attached a gif for reference
Description of problem:
This repository is out of sync with the downstream product builds for this component.
One or more images differ from those being used by ART to create product builds. This
should be addressed to ensure that the component's CI testing is accurately
reflecting what customers will experience.
The information within the following ART component metadata is driving this alignment
request: ose-baremetal-installer.yml.
The vast majority of these PRs are opened because a different Golang version is being
used to build the downstream component. ART compiles most components with the version
of Golang being used by the control plane for a given OpenShift release. Exceptions
to this convention (i.e. you believe your component must be compiled with a Golang
version independent from the control plane) must be granted by the OpenShift
architecture team and communicated to the ART team.
Version-Release number of selected component (if applicable): 4.11
Additional info: This issue is needed for the bot-created PR to merge after the 4.11 GA.
Description of problem:
Whereabouts doesn't allow the use of network interface names that are not preceded by the prefix "net", see https://github.com/k8snetworkplumbingwg/whereabouts/issues/130.
Version-Release number of selected component (if applicable):
How reproducible:
Always
Steps to Reproduce:
1. Define two Pods, one with the interface name 'port1' and the other with 'net-port1':
test-ip-removal-port1: k8s.v1.cni.cncf.io/networks: [ { "name": "test-sriovnd", "interface": "port1", "namespace": "default" } ] test-ip-removal-net-port1: k8s.v1.cni.cncf.io/networks: [ { "name": "test-sriovnd", "interface": "net-port1", "namespace": "default" } ]
2. IP allocated in the IPPool:
kind: IPPool ... spec: allocations: "16": id: ... podref: test-ecoloma-1/test-ip-removal-port1 "17": id: ... podref: test-ecoloma-1/test-ip-removal-net-port1
3. When the ip-reconciler job is run, the allocation for the port with the interface name 'port1' is removed:
[13:29][]$ oc get cronjob -n openshift-multus
NAME SCHEDULE SUSPEND ACTIVE LAST SCHEDULE AGE
ip-reconciler */15 * * * * False 0 14m 11d
[13:29][]$ oc get ippools.whereabouts.cni.cncf.io -n openshift-multus 2001-1b70-820d-2610---64 -o yaml
apiVersion: whereabouts.cni.cncf.io/v1alpha1
kind: IPPool
metadata:
...
spec:
allocations:
"17":
id: ...
podref: test-ecoloma-1/test-ip-removal-net-port1
range: 2001:1b70:820d:2610::/64
[13:30][]$ oc get cronjob -n openshift-multus
NAME SCHEDULE SUSPEND ACTIVE LAST SCHEDULE AGE
ip-reconciler */15 * * * * False 0 9s 11d
Actual results:
The network interface with a name that doesn't have a 'net' prefix is removed from the ip-reconciler cronjob.
Expected results:
The network interface must not be removed, regardless of the name.
Additional info:
Upstream PR @ https://github.com/k8snetworkplumbingwg/whereabouts/pull/147 master PR @ https://github.com/openshift/whereabouts-cni/pull/94
This is a backport from https://issues.redhat.com/browse/OCPBUGS-1044
Description of problem:
https://github.com/prometheus/node_exporter/issues/2299 The node exporter pod when ran on a bare metal worker using an AMD EPYC CPU crashes and fails to start up and crashes with the following error message. State: Waiting Reason: CrashLoopBackOff Last State: Terminated Reason: Error Message: 05.145Z caller=node_exporter.go:115 level=info collector=tapestats ts=2022-09-07T20:25:05.145Z caller=node_exporter.go:115 level=info collector=textfile ts=2022-09-07T20:25:05.145Z caller=node_exporter.go:115 level=info collector=thermal_zone ts=2022-09-07T20:25:05.146Z caller=node_exporter.go:115 level=info collector=time ts=2022-09-07T20:25:05.146Z caller=node_exporter.go:115 level=info collector=timex ts=2022-09-07T20:25:05.146Z caller=node_exporter.go:115 level=info collector=udp_queues ts=2022-09-07T20:25:05.146Z caller=node_exporter.go:115 level=info collector=uname ts=2022-09-07T20:25:05.146Z caller=node_exporter.go:115 level=info collector=vmstat ts=2022-09-07T20:25:05.146Z caller=node_exporter.go:115 level=info collector=xfs ts=2022-09-07T20:25:05.146Z caller=node_exporter.go:115 level=info collector=zfs ts=2022-09-07T20:25:05.146Z caller=node_exporter.go:199 level=info msg="Listening on" address=127.0.0.1:9100 ts=2022-09-07T20:25:05.146Z caller=tls_config.go:195 level=info msg="TLS is disabled." http2=false panic: "node_rapl_package-0-die-0_joules_total" is not a valid metric name Apparently this is a known issue (See Github link) and was fixed in a later upstream.
Version-Release number of selected component (if applicable):
4.11.0
How reproducible:
Every-time
Steps to Reproduce:
1. Provision a bare metal node using an AMD EPYC CPU 2. Node-exporter pods that try to start on the nodes will crash with error message
Actual results:
Node-exporter pods cannot run on the new nodes
Expected results:
Node exporter pods should be able to start up and run like on any other node
Additional info:
As mentioned above this issue was tracked and fixed in a later upstream of node-exporter https://github.com/prometheus/node_exporter/issues/2299 Would we be able to get the fixed version pulled for 4.11?
This is a clone of issue OCPBUGS-533. The following is the description of the original issue:
—
Description of problem:
customer is using Azure AD as openid provider and groups synchronization from the provider.
The scenario is the following:
1)
2)
3)
The groups memberships are the same in step 2 and 3.
The cluster role bindings of the groups have never changed.
the only way to have user A again the admin rights is to delete the membership from the group and have user A login again.
I have not managed to reproduce this using RH SSO. Neither Azure AD.
But my configuration is not exactly the same yet.
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1.
2.
3.
Actual results:
Expected results:
Additional info:
This is a clone of issue OCPBUGS-753. The following is the description of the original issue:
—
Description of problem:
The default dns-default pod is missing the "target.workload.openshift.io/management:" annotation. As a result when the workload partitioning feature is enabled on SNO, this pod resources will not get mutated and pinned to the reserved cpuset. This is a regresion from 4.10. Pod spec from 4.10.17 Annotations: ... resources.workload.openshift.io/dns: {"cpushares": 51} resources.workload.openshift.io/kube-rbac-proxy: {"cpushares": 10} target.workload.openshift.io/management {"effect":"PreferredDuringScheduling"}
Version-Release number of selected component (if applicable):
4.11.0
How reproducible:
100%
Steps to Reproduce:
1. Install a SNO and check the annotation 2. 3.
Actual results:
Expected results:
Additional info:
Description of problem:
During ocp multinode spoke cluster creation agent provisioning is stuck on "configuring" because machineConfig service is crashing on the node.
After restarting the service still fails with
Can't read link "/var/lib/containers/storage/overlay/l/V2OP2CCVMKSOHK2XICC546DUCG" because it does not exist. A storage corruption might have occurred, attempting to recreate the missing symlinks. It might be best wipe the storage to avoid further errors due to storage corruption.
Version-Release number of selected component (if applicable):
Podman 4.0.2 +
How reproducible:
sometimes
Steps to Reproduce:
1. deploy multinode spoke (ipxe + boot order ) 2. 3.
Actual results:
4 agents in done state and 1 is in "configuring"
Expected results:
all agents are in "done" state
Additional info:
issue mentioned in https://github.com/containers/podman/issues/14003
Fix: https://github.com/containers/storage/issues/1136
Description of problem:
Each LB created for a Service type LoadBalancer results in 1 client rule and <# of public subnets> health rules being created. The rules per SG quota in AWS is quite small; 60 by default, and 200 hard max. OCP has about 40 rules OOTB. Assuming an HA cluster in 3 AZs, that is 4 rules per LB. With default AWS quota, only ~5 LBs can be create and with the hard max of 200, only ~40 LBs can be created.
Version-Release number of selected component (if applicable):
4.12
How reproducible:
Always
Steps to Reproduce:
1. Create Service type LoadBalancer and observe increase in master-sg and worker-sg rules sets 2. 3.
Actual results:
4 rules are created
Expected results:
1 rules is created when the client rule is a superset of the per-subnet health rules
Additional info:
This ~4x the number of Services of type LoadBalancer. This is required for Hypershift.
4.12 will have an option in cri-o: add_inheritable_capabilities which will allow a user to opt-out of dropping inheritable capabilities (which comes as a fix for CVE-2022-27652). We should add it by default as a drop-in in 4.11 so clusters that upgrade from it inherit the old behavior
This is a clone of issue OCPBUGS-3265. The following is the description of the original issue:
—
This is a clone of issue OCPBUGS-3172. The following is the description of the original issue:
—
Customer is trying to install the Logging operator, which appears to attempt to install a dynamic plugin. The operator installation fails in the console because permissions aren't available to "patch resource consoles".
We shouldn't block operator installation if permission issues prevent dynamic plugin installation.
This is an OSD cluster, presumably for a customer with "cluster-admin", although it may be a paired down permission set called "dedicated-admin".
See https://docs.google.com/document/d/1hYS-bm6aH7S6z7We76dn9XOFcpi9CGYcGoJys514YSY/edit for permissions investigation work on OSD
Description of problem:
Currently when installing Openshift on the Openstack cluster name length limit is allowed to 14 characters. Customer wants to know if is it possible to override this validation when installing Openshift on Openstack and create a cluster name that is greater than 14 characters. Version : OCP 4.8.5 UPI Disconnected Environment : Openstack 16 Issue: User reports that they are getting error for OCP cluster in Openstack UPI, where the name of the cluster is > 14 characters. Error events : ~~~ fatal: [localhost]: FAILED! => {"changed": true, "cmd": ["/usr/local/bin/openshift-install", "create", "manifests", "--dir=/home/gitlab-runner/builds/WK8mkokN/0/CPE/SKS/pipelines/non-prod/ocp4-openstack-build/ocpinstaller/install-upi"], "delta": "0:00:00.311397", "end": "2022-09-03 21:38:41.974608", "msg": "non-zero return code", "rc": 1, "start": "2022-09-03 21:38:41.663211", "stderr": "level=fatal msg=failed to fetch Master Machines: failed to load asset \"Install Config\": invalid \"install-config.yaml\" file: metadata.name: Invalid value: \"sks-osp-inf-cpe-1-cbr1a\": cluster name is too long, please restrict it to 14 characters", "stderr_lines": ["level=fatal msg=failed to fetch Master Machines: failed to load asset \"Install Config\": invalid \"install-config.yaml\" file: metadata.name: Invalid value: \"sks-osp-inf-cpe-1-cbr1a\": cluster name is too long, please restrict it to 14 characters"], "stdout": "", "stdout_lines": []} ~~~
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
Actual results:
Users are getting error "cluster name is too long" when clustername contains more than 14 characters for OCP on Openstack
Expected results:
The 14 characters limit should be change for the OCP clustername on Openstack
Additional info:
update ironic software to pick up latest bug fixes
update dependencies as needed
this is also related to https://bugzilla.redhat.com/show_bug.cgi?id=2115122
We are in the process of moving our bug tracking to JIRA. We should update the report bug link in the help menu to use JIRA instead of Bugzilla for new bugs. Opening as a medium severity bug since this only impacts prerelease OpenShift versions. For release versions, we have users open customer cases.
[Updated story request]
Decision is to always display Red Hat OpenShift logo for OCP instead of conditionally. And also update the OCP login, errors, providers templates. https://openshift.github.io/oauth-templates/
Related note in comments.
[Original request]
If the ACM or the ACS dynamic plugin is enabled and there is not a custom branding set, then the default "Red Hat Openshift" branding should be shown.
This was identified as an issue during the Hybrid Console Scrum on 11/15/20201
PRs associated with this change
https://github.com/openshift/console/pull/10940 [merged]
https://github.com/openshift/oauth-templates/pull/20 [merged]
https://github.com/openshift/cluster-authentication-operator/pull/540 [merged]
The two modules that are auto generated for the CLI docs need to add ":_content-type: REFERENCE" to the top of the files. Update the doc generation templates to add these.
This is a clone of issue OCPBUGS-669. The following is the description of the original issue:
—
Description of problem:
This is an OCP clone of https://bugzilla.redhat.com/show_bug.cgi?id=2099794 In summary, NetworkManager reports the network as being up before the ipv6 address of the primary interface is ready and crio fails to bind to it.
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
Description of problem:
The 4.11 version of openshift-installer does not support the mon01 zone
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
This is a clone of issue OCPBUGS-1677. The following is the description of the original issue:
—
Description of problem:
pkg/devfile/sample_test.go fails after devfile registry was updated (https://github.com/devfile/registry/pull/126)
This issue is about updating our assertion so that the CI job runs successfully again. We might want to backport this as well.
OCPBUGS-1678 is about updating the code that the test should use a mock response instead of the latest registry content OR check some specific attributes instead of comparing the full JSON response.
Version-Release number of selected component (if applicable):
4.12
How reproducible:
Always
Steps to Reproduce:
1. Clone openshift/console
2. Run ./test-backend.sh
Actual results:
Unit tests fail
Expected results:
Unit tests should pass again
Additional info:
This is a clone of issue OCPBUGS-4311. The following is the description of the original issue:
—
This is a clone of issue OCPBUGS-4305. The following is the description of the original issue:
—
Description of problem:
Please add an option to DISABLE debug in ironic-api. Presently it is enabled by default and there is no way to disable it or reduce log level
https://github.com/metal3-io/ironic-image/blob/main/ironic-config/ironic.conf.j2#L3
Version-Release number of selected component (if applicable): none
How reproducible: Every time
Steps to Reproduce:
Please check source code here: https://github.com/metal3-io/ironic-image/blob/main/ironic-config/ironic.conf.j2#L3
It is enabled by default and there is no way to disable it or reduce log level
Actual results:
Please check Case: 03371411, the log file grew to 409 GB
Expected results: Need a way to disable debug
Additional info: Case 03371411. A cluster must gather and log file can be found in the case.
Tracker bug for bootimage bump in 4.11. This bug should block bugs which need a bootimage bump to fix.
Description of problem:
This bugs purpose is to enable a feature backport of https://issues.redhat.com/browse/MON-1949.
This is a clone of issue OCPBUGS-1629. The following is the description of the original issue:
—
Description of problem:
It is a disconnected cluster on AWS. There is an issue configuring Egress IP where the cluster uses STS. While looking into cloud-network-config-controller pod it is trying to connect to the global sts service "https://sts.amazonaws.com/" rather it should connect to the regional one "https://ec2.ap-southeast-1.amazonaws.com".
Version-Release number of selected component (if applicable):
How reproducible:
Always
Steps to Reproduce:
1. Create a disconected OCP cluster on AWS.
$ oc get netnamespace | grep egress egress-ip-test 2689387 ["172.16.1.24"]
$ oc get hostsubnet NAME HOST HOST IP SUBNET EGRESS CIDRS EGRESS IPS ip-172-16-1-151.ap-southeast-1.compute.internal ip-172-16-1-151.ap-southeast-1.compute.internal 172.16.1.151 10.130.0.0/23 ip-172-16-1-53.ap-southeast-1.compute.internal ip-172-16-1-53.ap-southeast-1.compute.internal 172.16.1.53 10.131.0.0/23 ["172.16.1.24"] ip-172-16-2-15.ap-southeast-1.compute.internal ip-172-16-2-15.ap-southeast-1.compute.internal 172.16.2.15 10.128.0.0/23 ip-172-16-2-77.ap-southeast-1.compute.internal ip-172-16-2-77.ap-southeast-1.compute.internal 172.16.2.77 10.128.2.0/23 ip-172-16-3-111.ap-southeast-1.compute.internal ip-172-16-3-111.ap-southeast-1.compute.internal 172.16.3.111 10.129.0.0/23 ip-172-16-3-79.ap-southeast-1.compute.internal ip-172-16-3-79.ap-southeast-1.compute.internal 172.16.3.79 10.129.2.0/23
$ oc logs sdn-controller-6m5kb -n openshift-sdn I0922 04:09:53.348615 1 vnids.go:105] Allocated netid 2689387 for namespace "egress-ip-test" E0922 04:24:00.682018 1 egressip.go:254] Ignoring invalid HostSubnet ip-172-16-1-53.ap-southeast-1.compute.internal (host: "ip-172-16-1-53.ap-southeast-1.compute.internal", ip: "172.16.1.53", subnet: "10.131.0.0/23"): related node object "ip-172-16-1-53.ap-southeast-1.compute.internal" has an incomplete annotation "cloud.network.openshift.io/egress-ipconfig", CloudEgressIPConfig: <nil>
$ oc logs cloud-network-config-controller-5c7556db9f-x78bs -n openshift-cloud-network-config-controller E0922 04:26:59.468726 1 controller.go:165] error syncing 'ip-172-16-2-77.ap-southeast-1.compute.internal': error retrieving the private IP configuration for node: ip-172-16-2-77.ap-southeast-1.compute.internal, err: error: cannot list ec2 instance for node: ip-172-16-2-77.ap-southeast-1.compute.internal, err: WebIdentityErr: failed to retrieve credentials caused by: RequestError: send request failed caused by: Post "https://sts.amazonaws.com/": dial tcp 54.239.29.25:443: i/o timeout, requeuing in node workqueue
$ oc get Infrastructure -o yaml apiVersion: v1 items: - apiVersion: config.openshift.io/v1 kind: Infrastructure metadata: creationTimestamp: "2022-09-22T03:28:15Z" generation: 1 name: cluster resourceVersion: "598" uid: 994da301-2a96-43b7-b43b-4b7c18d4b716 spec: cloudConfig: name: "" platformSpec: aws: serviceEndpoints: - name: sts url: https://sts.ap-southeast-1.amazonaws.com - name: ec2 url: https://ec2.ap-southeast-1.amazonaws.com - name: elasticloadbalancing url: https://elasticloadbalancing.ap-southeast-1.amazonaws.com type: AWS status: apiServerInternalURI: https://api-int.openshiftyy.ocpaws.sadiqueonline.com:6443 apiServerURL: https://api.openshiftyy.ocpaws.sadiqueonline.com:6443 controlPlaneTopology: HighlyAvailable etcdDiscoveryDomain: "" infrastructureName: openshiftyy-wfrpf infrastructureTopology: HighlyAvailable platform: AWS platformStatus: aws: region: ap-southeast-1 serviceEndpoints: - name: ec2 url: https://ec2.ap-southeast-1.amazonaws.com - name: elasticloadbalancing url: https://elasticloadbalancing.ap-southeast-1.amazonaws.com - name: sts url: https://sts.ap-southeast-1.amazonaws.com type: AWS kind: List metadata: resourceVersion: ""
$ oc get secret aws-cloud-credentials -n openshift-machine-api -o json |jq -r .data.credentials |base64 -d [default] sts_regional_endpoints = regional role_arn = arn:aws:iam::015719942846:role/sputhenp-sts-yy-openshift-machine-api-aws-cloud-credentials web_identity_token_file = /var/run/secrets/openshift/serviceaccount/token [ec2-user@ip-172-17-1-229 ~]$ oc get secret cloud-credential-operator-iam-ro-creds -n openshift-cloud-credential-operator -o json |jq -r .data.credentials |base64 -d [default] sts_regional_endpoints = regional role_arn = arn:aws:iam::015719942846:role/sputhenp-sts-yy-openshift-cloud-credential-operator-cloud-creden web_identity_token_file = /var/run/secrets/openshift/serviceaccount/token [ec2-user@ip-172-17-1-229 ~]$ oc get secret installer-cloud-credentials -n openshift-image-registry -o json |jq -r .data.credentials |base64 -d [default] sts_regional_endpoints = regional role_arn = arn:aws:iam::015719942846:role/sputhenp-sts-yy-openshift-image-registry-installer-cloud-credent web_identity_token_file = /var/run/secrets/openshift/serviceaccount/token [ec2-user@ip-172-17-1-229 ~]$ oc get secret cloud-credentials -n openshift-ingress-operator -o json |jq -r .data.credentials |base64 -d [default] sts_regional_endpoints = regional role_arn = arn:aws:iam::015719942846:role/sputhenp-sts-yy-openshift-ingress-operator-cloud-credentials web_identity_token_file = /var/run/secrets/openshift/serviceaccount/token [ec2-user@ip-172-17-1-229 ~]$ oc get secret cloud-credentials -n openshift-cloud-network-config-controller -o json |jq -r .data.credentials |base64 -d [default] sts_regional_endpoints = regional role_arn = arn:aws:iam::015719942846:role/sputhenp-sts-yy-openshift-cloud-network-config-controller-cloud- web_identity_token_file = /var/run/secrets/openshift/serviceaccount/token [ec2-user@ip-172-17-1-229 ~]$ oc get secret ebs-cloud-credentials -n openshift-cluster-csi-drivers -o json |jq -r .data.credentials |base64 -d [default] sts_regional_endpoints = regional role_arn = arn:aws:iam::015719942846:role/sputhenp-sts-yy-openshift-cluster-csi-drivers-ebs-cloud-credenti web_identity_token_file = /var/run/secrets/openshift/serviceaccount/token
Actual results:
Egress IP not configured properly and cloud-network-config-controller trying to connect to global STS service.
Expected results:
Egress IP should get configured and cloud-network-config-controller should connect to regional STS service instead of global.
Additional info:
Description of problem:
Users on a fully-disconnected cluster could not see Devfiles in the developer catalog or import a Devfiles. That's fine.
But the API calls /api/devfile/samples/ and /api/devfile/ takes 30 seconds until they fail with a 504 Gateway timeout error.
If possible they should fail immediately.
Version-Release number of selected component (if applicable):
This might happen since 4.8
Tested this yet only on 4.12.0-0.nightly-2022-09-07-112008
How reproducible:
Always
Steps to Reproduce:
Actual results:
Expected results:
Additional info:
The console Pod log contains this error:
E0909 10:28:18.448680 1 devfile-handler.go:74] Failed to parse devfile: failed to populateAndParseDevfile: Get "https://registry.devfile.io/devfiles/go": context deadline exceeded (Client.Timeout exceeded while awaiting headers)
Description of problem:
Customer is facing issue similar to https://github.com/devfile/api/issues/897
Version-Release number of selected component (if applicable):
OCP 4.10.17
How reproducible:
N/A
Steps to Reproduce:
1.
2.
3.
Actual results:
Expected results:
Additional info:
Tried working around it with ALL_PROXY but it did not help. Note because the console operator reverts changes pretty quickly testing this was a bit of a PITA
This is a clone of issue OCPBUGS-78. The following is the description of the original issue:
—
Copied from an upstream issue: https://github.com/operator-framework/operator-lifecycle-manager/issues/2830
What did you do?
When attempting to reinstall an operator that uses conversion webhooks by
The resulting InstallPlan enters a failed state with message similar to
error validating existing CRs against new CRD's schema for "devworkspaces.workspace.devfile.io": error listing resources in GroupVersionResource schema.GroupVersionResource{Group:"workspace.devfile.io", Version:"v1alpha1", Resource:"devworkspaces"}: conversion webhook for workspace.devfile.io/v1alpha2, Kind=DevWorkspace failed: Post "https://devworkspace-controller-manager-service.test-namespace.svc:443/convert?timeout=30s": service "devworkspace-controller-manager-service" not found
When the original CSVs are deleted, the operator's main deployment and service are removed, but CRDs are left in-cluster. However, since the service/CA bundle/deployment that serve the conversion webhook are removed, conversion webhooks are broken at that point. Eventually this impacts garbage collection on the cluster as well.
This can be reproduced by installing the DevWorkspace Operator from the Red Hat catalog. (I can provide yamls/upstream images that reproduce as well, if that's helpful). It may be necessary to create a DevWorkspace in the cluster before deletion, e.g. by oc apply -f https://raw.githubusercontent.com/devfile/devworkspace-operator/main/samples/plain.yaml
What did you expect to see?
Operator is able to be reinstalled without removing CRDs and all instances.
What did you see instead? Under which circumstances?
It's necessary to completely remove the operator including CRDs. For our operator (DevWorkspace), this also makes uninstall especially complicated as finalizers are used (so CRDs cannot be deleted if the controller is removed, and the controller cannot be restored by reinstalling)
Environment
operator-lifecycle-manager version: 4.10.24
Kubernetes version information: Kubernetes Version: v1.23.5+012e945 (OpenShift 4.10.24)
Kubernetes cluster kind: OpenShift
Created attachment 1905034 [details]
Plugin page with error
Steps to reproduce:
1. Install a plugin with a page that has a runtime error. (Demo Plugin -> Dynamic Nav 1 currently has an error for me, but you can reproduce by editing any plugin and introducing an error.)
2. Observe the "something went wrong" error message.
3. Navigate to any other page (e.g. Workloads -> Pods)
Expected result:
The pods page is displayed.
Action result:
The error message persists. There is no way to clear except to refresh the browser.
Since 4.11 OCP comes with OperatorHub definition which declares a capability
and enables all catalog sources. For OKD we want to enable just community-operators
as users may not have Red Hat pull secret set.
This commit would ensure that OKD version of marketplace operator gets
its own OperatorHub manifest with a custom set of operator catalogs enabled
The path used by --rotated-pod-logs to gather the rotated pod logs from /var/log/pods node folder via /api/v1/nodes/${NODE}/proxy/logs/${LOG_PATH} is only valid for regular pods but not for static pods.
The main problem is that, while normal pods have their rotated logs at this /var/log/pods/${POD_NAME}_${POD_UID_IN_API}/${CONTAINER_NAME}, static pods have them at /var/log/pods/${POD_NAME}_${CONFIG_HASH}/${CONTAINER_NAME} because the UID cannot be known at the time that the static pod is born (because static pods are created by kubelet before registering them in the kube-apiserver, and UID is assigned by the kube-apiserver).
The visible results of that are:
4.10
Always if there are static pods.
1. oc adm inspect --rotated-pod-logs ns/openshift-etcd (or any other project with static pods).
error: errors occurred while gathering data: one or more errors occurred while gathering pod-specific data for namespace: openshift-etcd [one or more errors occurred while gathering container data for pod etcd-master-0.example.net: the server could not find the requested resource, one or more errors occurred while gathering container data for pod etcd-master-1.example.net: the server could not find the requested resource, one or more errors occurred while gathering container data for pod etcd-master-2.example.net: the server could not find the requested resource]
No errors like the ones above and rotated pod logs to be gathered, if present.
Despite being marked as experimental, this --rotated-pod-logs is used in must-gather, so this issue can be easily reproduced by just running a default must-gather. I focused on bare oc adm inspect reproducers for simplicity.
Description of problem:
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
Description of problem:
There is a bug affecting verify steps functionality on iDRAC hardware in OpenShift 4.11 and 4.10. Original bug report has been made against 4.10: https://issues.redhat.com/browse/OCPBUGS-1740 While I am not aware of this issue being reported against 4.11, due to the fact that the fix is only present in 4.12 codebase, 4.11 versions will also be affected by this issue. This bug is created to meet automation requirements for backporting the fixes from 4.12 version to 4.11 (and then to 4.11 in the bug quoted above).
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
Description of problem:
Switching the spec.endpointPublishingStrategy.loadBalancer.scope of the default ingresscontroller results in a degraded ingress operator. The routes using that endpoint like the console URL become inaccessible.
Degraded operators after scope change:
$ oc get co | grep -v ' True False False' NAME VERSION AVAILABLE PROGRESSING DEGRADED SINCE MESSAGE authentication 4.11.4 False False True 72m OAuthServerRouteEndpointAccessibleControllerAvailable: Get "https://oauth-openshift.apps.kartrosa.ukld.s1.devshift.org/healthz": EOF console 4.11.4 False False False 72m RouteHealthAvailable: failed to GET route (https://console-openshift-console.apps.kartrosa.ukld.s1.devshift.org): Get "https://console-openshift-console.apps.kartrosa.ukld.s1.devshift.org": EOF ingress 4.11.4 True False True 65m The "default" ingress controller reports Degraded=True: DegradedConditions: One or more other status conditions indicate a degraded state: CanaryChecksSucceeding=False (CanaryChecksRepetitiveFailures: Canary route checks for the default ingress controller are failing)
We have noticed that each time this happens the underlying AWS loadbalancer gets recreated which is as expected however the router pods probably do not get notified about the new loadbalancer. The instances in the new loadbalancer become 'outOfService'.
Restarting one of the router pods fixes the issue and brings back a couple of instances under the loadbalancer back to 'InService' which leads to the operators becoming happy again.
Version-Release number of selected component (if applicable):
ingress in 4.11.z however we suspect this issue to also apply to older versions
How reproducible:
Consistently reproducible
Steps to Reproduce:
1. Create a test OCP 4.11 cluster in AWS 2. Switch the spec.endpointPublishingStrategy.loadBalancer.scope of the default ingresscontroller in openshift-ingress-operator to Internal from External (or vice versa) 3. New Loadbalancer is created in AWS for the default router service, however the instances behind are not in service
Actual results:
ingress, authentication and console operators go into a degraded state. Console URL of the cluster is inaccessible
Expected results:
The ingresscontroller scope transition from internal->External (or vice versa) is smooth without any downtime or operators going into degraded state. The console is accessible.
When a thin provisioned COW format disk is created on OCP on RHV via CSI driver (a PVC -
https://github.com/openshift/ovirt-csi-driver/blob/master/deploy/example/storage-claim.yaml
But this is thin provisioned disk, so the initial size of the disk should be default of the engine and then grow as needed, it shouldn't be this big.
This causes all the disks created this way to be functionally preallocated (since it eats all that space), which is a real waste of space.
How reproducible: 100%
Steps to Reproduce:
1. Create a storage claim (PVC) in Openshift (
https://github.com/openshift/ovirt-csi-driver/blob/master/deploy/example/storage-claim.yaml
) using the default storage class (or any other storage class with thinProvisioning: "true") and with requested storage i.e. 100Gi
$ oc create -f storage-claim.yaml
2. In the RHV web console navigate to Storage -> Disks and check Virtual size and Actual size of the created disk (PVC)
Actual results:
Disk from our example with requested storage 100GB reports virtual size 100GB and actual size 110 GB.
Expected results:
Thin provisioned disks should start with small initial size and then grow as needed, so its actual size should be considerably smaller (the default initial size set by the engine should be 2.5 GB if I'm not mistaken).
Note: The extra 10GB in the actual size are caused by overhead for the qcow2 disk format, which is 10%, and this was tracked here as a separate issue:
https://bugzilla.redhat.com/show_bug.cgi?id=2097139
This is a clone of issue OCPBUGS-2181. The following is the description of the original issue:
—
Description of problem:
E2E test Installs Red Hat Integration - 3scale operator test is failing due to change of Operator name
This is a clone of issue OCPBUGS-2508. The following is the description of the original issue:
—
Description of problem:
Installer fails due to Neutron policy error when creating Openstack servers for OCP master nodes. $ oc get machines -A NAMESPACE NAME PHASE TYPE REGION ZONE AGE openshift-machine-api ostest-kwtf8-master-0 Running 23h openshift-machine-api ostest-kwtf8-master-1 Running 23h openshift-machine-api ostest-kwtf8-master-2 Running 23h openshift-machine-api ostest-kwtf8-worker-0-g7nrw Provisioning 23h openshift-machine-api ostest-kwtf8-worker-0-lrkvb Provisioning 23h openshift-machine-api ostest-kwtf8-worker-0-vwrsk Provisioning 23h $ oc -n openshift-machine-api logs machine-api-controllers-7454f5d65b-8fqx2 -c machine-controller [...] E1018 10:51:49.355143 1 controller.go:317] controller/machine_controller "msg"="Reconciler error" "error"="error creating Openstack instance: Failed to create port err: Request forbidden: [POST https://overcloud.redhat.local:13696/v2.0/ports], error message: {\"NeutronError\": {\"type\": \"PolicyNotAuthorized\", \"message\": \"(rule:create_port and (rule:create_port:allowed_address_pairs and (rule:create_port:allowed_address_pairs:ip_address and rule:create_port:allowed_address_pairs:ip_address))) is disallowed by policy\", \"detail\": \"\"}}" "name"="ostest-kwtf8-worker-0-lrkvb" "namespace"="openshift-machine-api"
Version-Release number of selected component (if applicable):
4.10.0-0.nightly-2022-10-14-023020
How reproducible:
Always
Steps to Reproduce:
1. Install 4.10 within provider networks (in primary or secondary interface)
Actual results:
Installation failure: 4.10.0-0.nightly-2022-10-14-023020: some cluster operators have not yet rolled out
Expected results:
Successful installation
Additional info:
Please find must-gather for installation on primary interface link here and for installation on secondary interface link here.
This is a clone of issue OCPBUGS-268. The following is the description of the original issue:
—
The linux kernel was updated:
https://lkml.org/lkml/2020/3/20/1030
to include steal
accounting
This would greatly assist in troubleshooting vSphere performance issues
caused by over-provisioned ESXi hosts.
This is a clone of issue OCPBUGS-3022. The following is the description of the original issue:
—
Description of problem:
** europe-west8 ** europe-west9 ** europe-southwest1 ** southamerica-west1 ** us-east5 ** us-south1 are not listed in the survey
Steps to Reproduce:
1. run survey (openshift-install create install-config without an install config file) 2. go through prompts until regions 3.
Actual results:
listed regions are missing
Expected results:
regions above are listed (and install succeeds in the region)
Description of problem:
If you set a services cluster IP to an IP with a leading zero (e.g. 192.168.0.011), ovn-k should normalise this and remove the leading zero before sending it to ovn.
This was seen by me on a CI run executing the k8 test here: test/e2e/network/funny_ips.go +75
you can reproduce using that above test.
Have a read of the text there:
43 // What are funny IPs: 44 // The adjective is because of the curl blog that explains the history and the problem of liberal 45 // parsing of IP addresses and the consequences and security risks caused the lack of normalization, 46 // mainly due to the use of different notations to abuse parsers misalignment to bypass filters. 47 // xref: https://daniel.haxx.se/blog/2021/04/19/curl-those-funny-ipv4-addresses/ 48 // 49 // Since golang 1.17, IPv4 addresses with leading zeros are rejected by the standard library. 50 // xref: https://github.com/golang/go/issues/30999 51 // 52 // Because this change on the parsers can cause that previous valid data become invalid, Kubernetes 53 // forked the old parsers allowing leading zeros on IPv4 address to not break the compatibility. 54 // 55 // Kubernetes interprets leading zeros on IPv4 addresses as decimal, users must not rely on parser 56 // alignment to not being impacted by the associated security advisory: CVE-2021-29923 golang 57 // standard library "net" - Improper Input Validation of octal literals in golang 1.16.2 and below 58 // standard library "net" results in indeterminate SSRF & RFI vulnerabilities. xref: 59 // https://nvd.nist.gov/vuln/detail/CVE-2021-29923
northd is logging an error about this also:
|socket_util|ERR|172.30.0.011:7180: bad IP address "172.30.0.011" ... 2022-08-23T14:14:21.968Z|01839|ovn_util|WARN|bad ip address or port for load balancer key 172.30.0.011:7180
Also, I see the error:
E0823 14:14:34.135115 3284 gateway_shared_intf.go:600] Failed to delete conntrack entry for service e2e-funny-ips-8626/funny-ip: failed to delete conntrack entry for service e2e-funny-ips-8626/funny-ip with svcVIP 172.30.0.011, svcPort 7180, protocol TCP: value "<nil>" passed to DeleteConntrack is not an IP address
We should normalise the IPs before sending to OVN-k. I see also theres conntrack error when trying to set this bad IP.
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. See above k8 test
Actual results:
Leading zero IP sent to OVN
Expected results:
No leading zero IP sent to OVN
Additional info:
This is a clone of issue OCPBUGS-1226. The following is the description of the original issue:
—
We added server groups for control plane and computes as part of OSASINFRA-2570, except for UPI that only creates server group for the control plane.
We need to update the UPI scripts to create server group for computes to be consistent with IPI and have the instruction at https://docs.openshift.com/container-platform/4.11/machine_management/creating_machinesets/creating-machineset-osp.html work out of the box in case customers want to create MachineSets on their UPI clusters.
Related to OCPCLOUD-1135.
This bug represents a backport of CCO-222 to release-4.11.
Description of problem:
Disconnected IPI OCP 4.10.22 cluster install on baremetal fails when hostname of master nodes does not include "master"
Version-Release number of selected component (if applicable): 4.10.22
How reproducible: Perform disconnected IPI install of OCP 4.10.22 on bare metal with master nodes that do not contain the text "master"
Steps to Reproduce:
Perform disconnected IPI install of OCP 4.10.22 on bare metal with master nodes that do not contain the text "master"
Actual results: master nodes do come up.
Expected results: master nodes should come up despite that the text "master" is not in their hostname.
Additional info:
Disconnected IPI OCP 4.10.22 cluster install on baremetal fails when hostname of master nodes does not include "master"
The code for the cluster-baremetal-operator at the following link:
The following condition is concerning:
if strings.Contains(bmh.Name, "master") && len(bmh.Spec.BootMACAddress) > 0
The packages reveal that bmh.Name references the name inside the metadata of the BMH object.
Should a customer have masters with names that do not include the text "master", the above condition can never become true, and so, the following slice is never created :
macs = append(macs, bmh.Spec.BootMACAddress)
This is a clone of issue OCPBUGS-884. The following is the description of the original issue:
—
Description of problem:
Since the decomissioning of the psi cluster, and subsequent move of the rhcos release browser, product builds machine-os-images builds have been failing. See e.g. https://brewweb.engineering.redhat.com/brew/taskinfo?taskID=47565717
Version-Release number of selected component (if applicable):
4.12, 4.11, 4.10.
How reproducible:
Have ART build the image
Steps to Reproduce:
1. Have ART build the image
Actual results:
Build failure
Expected results:
Build succesful
Additional info:
This is a copy of Bugzilla bug 2117524 for backport to 4.11.z
Original Text:
Description of problem:
On routers configured with mTLS and CRL defined in the CA with a CDP ; new CRL is downloaded only when restarting the ingress-operator.
2022-07-20T23:36:26.943Z INFO operator.clientca_configmap_controller controller/controller.go:298 reconciling {"request": "openshift-ingress-operator/service-bdrc"} 2022-07-20T23:36:26.943Z INFO operator.crl crl/crl_configmap.go:69 certificate revocation list has expired {"subject key identifier": "6aa909992e9890457b2a8de5659a44cab8e867a8"} 2022-07-20T23:36:26.943Z INFO operator.crl crl/crl_configmap.go:69 retrieving certificate revocation list {"subject key identifier": "6aa909992e9890457b2a8de5659a44cab8e867a8"} 2022-07-20T23:36:26.943Z INFO operator.crl crl/crl_configmap.go:169 retrieving CRL distribution point {"distribution point": "http://crl.domain.com/der/CN=XXXX,OU=XXX,O=XXX,C=XXX"}
Version-Release number of selected component (if applicable):
4.9.33
How reproducible:
Enable mTLS with a CRL
Actual results:
CRL is not download when expired
Clients get "SSL client certificate not trusted" errors while accessing resources
Expected results:
ingress-operator triggers CRL download when approaching expiration date so that the configmap is updated without manual action
This bug was initially created as a copy of
Bug #2096605
I am copying this bug because: the parent bug solved the validation aspect of diskType but now the description of diskType in
https://github.com/openshift/installer/blob/master/data/data/install.openshift.io_installconfigs.yaml#L2914-L2923
needs to be updated.
Version: 4.11.0-0.nightly-2022-06-06-201913
Platform: vSphere IPI
What happened?
1. If user inputs an invalid value for platform.vsphere.diskType in install-config.yaml file, there is no validation checking for diskType and doesn't exit with error, but continues the installation, which is not the same behavior as in 4.10.
After all vms are provisioned, I checked that the disk provision type is thick.
2. If user doesn't set platform.vsphere.diskType in install-config.yaml file, the default disk provision type is thick, but not the vSphere default storage policy. On VMC, the default policy is thin, so maybe the description of diskType should also need to be updated.
$ ./openshift-install explain installconfig.platform.vsphere.diskType
KIND: InstallConfig
VERSION: v1
RESOURCE: <string>
Valid Values: "","thin","thick","eagerZeroedThick"
DiskType is the name of the disk provisioning type, valid values are thin, thick, and eagerZeroedThick. When not specified, it will be set according to the default storage policy of vsphere.
What did you expect to happen?
validation for diskType
How to reproduce it (as minimally and precisely as possible)?
set diskType to invalid value in install-config.yaml and install the cluster
This is a clone of issue OCPBUGS-3889. The following is the description of the original issue:
—
This is a clone of issue OCPBUGS-3744. The following is the description of the original issue:
—
Description of problem:
Egress router POD creation on Openshift 4.11 is failing with below error. ~~~ Nov 15 21:51:29 pltocpwn03 hyperkube[3237]: E1115 21:51:29.467436 3237 pod_workers.go:951] "Error syncing pod, skipping" err="failed to \"CreatePodSandbox\" for \"stage-wfe-proxy-ext-qrhjw_stage-wfe-proxy(c965a287-28aa-47b6-9e79-0cc0e209fcf2)\" with CreatePodSandboxError: \"Failed to create sandbox for pod \\\"stage-wfe-proxy-ext-qrhjw_stage-wfe-proxy(c965a287-28aa-47b6-9e79-0cc0e209fcf2)\\\": rpc error: code = Unknown desc = failed to create pod network sandbox k8s_stage-wfe-proxy-ext-qrhjw_stage-wfe-proxy_c965a287-28aa-47b6-9e79-0cc0e209fcf2_0(72bcf9e52b199061d6e651e84b0892efc142601b2442c2d00b92a1ba23208344): error adding pod stage-wfe-proxy_stage-wfe-proxy-ext-qrhjw to CNI network \\\"multus-cni-network\\\": plugin type=\\\"multus\\\" name=\\\"multus-cni-network\\\" failed (add): [stage-wfe-proxy/stage-wfe-proxy-ext-qrhjw/c965a287-28aa-47b6-9e79-0cc0e209fcf2:openshift-sdn]: error adding container to network \\\"openshift-sdn\\\": CNI request failed with status 400: 'could not open netns \\\"/var/run/netns/8c5ca402-3381-4935-baed-ea454161d669\\\": unknown FS magic on \\\"/var/run/netns/8c5ca402-3381-4935-baed-ea454161d669\\\": 1021994\\n'\"" pod="stage-wfe-proxy/stage-wfe-proxy-ext-qrhjw" podUID=c965a287-28aa-47b6-9e79-0cc0e209fcf2 ~~~ I have checked SDN POD log from node where egress router POD is failing and I could see below error message. ~~~ 2022-11-15T21:51:29.283002590Z W1115 21:51:29.282954 181720 pod.go:296] CNI_ADD stage-wfe-proxy/stage-wfe-proxy-ext-qrhjw failed: could not open netns "/var/run/netns/8c5ca402-3381-4935-baed-ea454161d669": unknown FS magic on "/var/run/netns/8c5ca402-3381-4935-baed-ea454161d669": 1021994 ~~~ Crio is logging below event and looking at the log it seems the namespace has been created on node. ~~~ Nov 15 21:51:29 pltocpwn03 crio[3150]: time="2022-11-15 21:51:29.307184956Z" level=info msg="Got pod network &{Name:stage-wfe-proxy-ext-qrhjw Namespace:stage-wfe-proxy ID:72bcf9e52b199061d6e651e84b0892efc142601b2442c2d00b92a1ba23208344 UID:c965a287-28aa-47b6-9e79-0cc0e209fcf2 NetNS:/var/run/netns/8c5ca402-3381-4935-baed-ea454161d669 Networks:[] RuntimeConfig:map[multus-cni-network:{IP: MAC: PortMappings:[] Bandwidth:<nil> IpRanges:[]}] Aliases:map[]}" ~~~
Version-Release number of selected component (if applicable):
4.11.12
How reproducible:
Not Sure
Steps to Reproduce:
1. 2. 3.
Actual results:
Egress router POD is failing to create. Sample application could be created without any issue.
Expected results:
Egress router POD should get created
Additional info:
Egress router POD is created following below document and it does contain pod.network.openshift.io/assign-macvlan: "true" annotation. https://docs.openshift.com/container-platform/4.11/networking/openshift_sdn/deploying-egress-router-layer3-redirection.html#nw-egress-router-pod_deploying-egress-router-layer3-redirection
The kube-state-metric pod inside the openshift-monitoring namespace is not running as expected.
On checking the logs I am able to see that there is a memory panic
~~~
2022-11-22T09:57:17.901790234Z I1122 09:57:17.901768 1 main.go:199] Starting kube-state-metrics self metrics server: 127.0.0.1:8082
2022-11-22T09:57:17.901975837Z I1122 09:57:17.901951 1 main.go:66] levelinfomsgTLS is disabled.http2false
2022-11-22T09:57:17.902389844Z I1122 09:57:17.902291 1 main.go:210] Starting metrics server: 127.0.0.1:8081
2022-11-22T09:57:17.903191857Z I1122 09:57:17.903133 1 main.go:66] levelinfomsgTLS is disabled.http2false
2022-11-22T09:57:17.906272505Z I1122 09:57:17.906224 1 builder.go:191] Active resources: certificatesigningrequests,configmaps,cronjobs,daemonsets,deployments,endpoints,horizontalpodautoscalers,ingresses,jobs,leases,limitranges,mutatingwebhookconfigurations,namespaces,networkpolicies,nodes,persistentvolumeclaims,persistentvolumes,poddisruptionbudgets,pods,replicasets,replicationcontrollers,resourcequotas,secrets,services,statefulsets,storageclasses,validatingwebhookconfigurations,volumeattachments
2022-11-22T09:57:17.917758187Z E1122 09:57:17.917560 1 runtime.go:78] Observed a panic: "invalid memory address or nil pointer dereference" (runtime error: invalid memory address or nil pointer dereference)
2022-11-22T09:57:17.917758187Z goroutine 24 [running]:
2022-11-22T09:57:17.917758187Z k8s.io/apimachinery/pkg/util/runtime.logPanic(
)
2022-11-22T09:57:17.917758187Z /usr/lib/golang/src/runtime/panic.go:1038 +0x215
2022-11-22T09:57:17.917758187Z k8s.io/kube-state-metrics/v2/internal/store.ingressMetricFamilies.func6(0x40)
2022-11-22T09:57:17.917758187Z /go/src/k8s.io/kube-state-metrics/internal/store/ingress.go:136 +0x189
2022-11-22T09:57:17.917758187Z k8s.io/kube-state-metrics/v2/internal/store.wrapIngressFunc.func1(
)
2022-11-22T09:57:17.917758187Z /go/src/k8s.io/kube-state-metrics/pkg/metric_generator/generator.go:107 +0xd8
~~~
Logs are attached to the support case
We will want to establish some basic metrics we can report back to Telemetry.
Let's consider:
Below is some background info from MTC when we added Telemetry support that may help
See: https://github.com/konveyor/metrics-queries/blob/master/README.md
Design/Development info:
OpenShift Monitoring Integration Guide
Monitoring integration with OLM operators
https://www.openshift.com/blog/observability-superpower-correlation
Source Code:
https://github.com/konveyor/mig-controller/blob/master/pkg/controller/migmigration/metrics.go
Description of problem:
Provisioning interface on master node not getting ipv4 dhcp ip address from bootstrap dhcp server on OCP 4.10.16 IPI BareMetal install.
Customer is performing an OCP 4.10.16 IPI BareMetal install and bootstrap node provisions just fine, but when master nodes are booted for provisioning, they are not getting an ipv4 address via dhcp. As such, the install is not moving forward at this point.
Version-Release number of selected component (if applicable):
OCP 4.10.16
How reproducible:
Perform OCP 4.10.16 IPI BareMetal install.
Actual results:
provisioning interface comes up (as evidenced by ipv6 address) but is not getting an ipv4 address via dhcp. OCP install / provisioning fails at this point.
Expected results:
provisioning interface successfully received an ipv4 ip address and successfully provisioned master nodes (and subsequently worker nodes as well.)
Additional info:
As a troubleshooting measure, manually adding an ipv4 ip address did allow the coreos image on the bootstrap node to be reached via curl.
Further, the kernel boot line for the first master node was updated for a static ip addresss assignment for further confirmation that the master node would successfully image this way which further confirming that the issue is the provisioning interface not receiving an ipv4 ip address from the dhcp server.
Description of problem:
The alibabacloud client "aliyun" would be used when pre-configuring some resources (e.g. VPC, bastion host, etc.) before launching an OCP cluster with customization.
Version-Release number of selected component (if applicable):
4.11
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
Description of problem:
Setting a telemeter proxy in the cluster-monitoring-config config map does not work as expected
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
the following KCS details steps to add a proxy.
The steps have been verified at 4.7 but do not work at 4.8, 4.9 or 4.10
https://access.redhat.com/solutions/6172402
When testing at 4.8, 4.9 and 4.10 the proxy setting where also nested under `telemeterClient`
which triggered a telemeter restart but the proxy setting do not get set in the deployment as they do in 4.7
Actual results:
4.8, 4.9 and 4.10 without the nested `telemeterClient`
does not trigger a restart of the telemeter pod
Expected results:
I think the proxy setting should be nested under telemeterClient
but should set the environment variables in the deployment
Additional info:
This is a backport of https://bugzilla.redhat.com/show_bug.cgi?id=2116382 from 4.12 to 4.11.z. Creating manually because as seen in https://github.com/openshift/cluster-monitoring-operator/pull/1743 `/cherry-pick` doesn't work for bugs originally created in bugzilla
This is a clone of issue OCPBUGS-212. The following is the description of the original issue:
—
Description of problem:
oc --context build02 get clusterversion NAME VERSION AVAILABLE PROGRESSING SINCE STATUS version 4.12.0-ec.1 True False 45h Error while reconciling 4.12.0-ec.1: the cluster operator kube-controller-manager is degraded oc --context build02 get co kube-controller-manager NAME VERSION AVAILABLE PROGRESSING DEGRADED SINCE MESSAGE kube-controller-manager 4.12.0-ec.1 True False True 2y87d GarbageCollectorDegraded: error fetching rules: Get "https://thanos-querier.openshift-monitoring.svc:9091/api/v1/rules": dial tcp 172.30.153.28:9091: connect: cannot assign requested address
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1.
2.
3.
Actual results:
Expected results:
Additional info:
build02 is a build farm cluster in CI production.
I can provide credentials to access the cluster if needed.
Changelog between 3.5.5 and 3.5.4:
https://github.com/etcd-io/etcd/blob/main/CHANGELOG/CHANGELOG-3.5.md#v355-tbd
Changelog between 3.5.3 and 3.5.4:
https://github.com/etcd-io/etcd/blob/main/CHANGELOG/CHANGELOG-3.5.md#v354-2022-04-24
Description of problem:
Users search a resource (for example, Pod) with Name filter applied and input a text to the filter field then the search results filtered accordingly.
Once the results are shown, when the user clear the value in one-shot (i.e. select whole filter text from the field and clear it using delete or backspace key) from the field,
then the search result doesn't clear accordingly and the previous result stays on the page.
Version-Release number of selected components (if applicable):
4.11.0-0.nightly-2022-08-16-194731 & works fine with OCP 4.12 latest version.
How reproducible:
Always
Steps to Reproduce:
Actual results:
Search result doesn't clear when user clears name filter in one-shot for any resources.
Expected results:
Search results should clear when the user clears name filters in one-shot for any resources.
Additional info:
Reproduced in both chrome[103.0.5060.114 (Official Build) (64-bit)] and firefox[91.11.0esr (64-bit)] browsers.
Attached screen share for the same issue. SearchIssues.mp4
As discussed previously by email, customer support case 03211616 requests a means to use the latest patch version of a given X.Y golang via imagestreams, with the blocking issue being the lack of X.Y tags for the go-toolset containers on RHCC.
The latter has now been fixed with the latest version also getting a :1.17 tag, and the imagestream source has been modified accordingly, which will get picked up in 4.12. We can now fix this in 4.11.z by backporting this to the imagestream files bundled in cluster-samples-operator.
/cc Ian Watson Feny Mehta
Backport clone of https://issues.redhat.com/browse/OCPBUGSM-24281
openshift-4 tracking bug for telemeter-container: see the bugs linked in the "Blocks" field of this bug for full details of the security issue(s).
This bug is never intended to be made public, please put any public notes in the blocked bugs.
Impact: Moderate
Public Date: 11-Jan-2021
PM Fix/Wontfix Decision By: 04-May-2021
Resolve Bug By: 11-Jan-2022
In case the dates above are already past, please evaluate this bug in your next prioritization review and make a decision then. Remember to explicitly set CLOSED:WONTFIX if you decide not to fix this bug.
Please see the Security Errata Policy for further details: https://docs.engineering.redhat.com/x/9RBqB
This is a clone of issue OCPBUGS-1678. The following is the description of the original issue:
—
Description of problem:
pkg/devfile/sample_test.go fails after devfile registry was updated (https://github.com/devfile/registry/pull/126)
OCPBUGS-1677 is about updating our assertion so that the CI job runs successfully again. We might want to backport this as well.
This is about updating the code that the test should use a mock response instead of the latest registry content OR check some specific attributes instead of comparing the full JSON response.
Version-Release number of selected component (if applicable):
4.12
How reproducible:
Always
Steps to Reproduce:
1. Clone openshift/console
2. Run ./test-backend.sh
Actual results:
Unit tests fail
Expected results:
Unit tests should pass again
Additional info:
Description of problem: defined in https://bugzilla.redhat.com/show_bug.cgi?id=2051533
When adding remote worker node using ZTP the agent finishes the installation and is marked as done. oc get agent -o wide NAME CLUSTER APPROVED ROLE STAGE HOSTNAME REQUESTED HOSTNAME 0277804e-2a7c-4d95-9d0f-e22a190d582a spoke-0 true worker Done spoke-worker-0-0.spoke-0.qe.lab.redhat.com spoke-worker-0-0 12efa520-5b99-4474-805d-931e46ad43f7 spoke-0 true master Done spoke-master-0-2.spoke-0.qe.lab.redhat.com spoke-master-0-2 3b8eec89-f26f-4896-8f71-8a810894c560 spoke-0 true master Done spoke-master-0-0.spoke-0.qe.lab.redhat.com spoke-master-0-0 3fb3749e-c132-4258-ad1a-08a0445c9022 spoke-0 true worker Done spoke-worker-0-1.spoke-0.qe.lab.redhat.com spoke-worker-0-1 728559e9-5543-41d9-adb0-e58196f765af spoke-0 true master Done spoke-master-0-1.spoke-0.qe.lab.redhat.com spoke-master-0-1 982e1ff6-6e83-4800-b061-8cdfd0b844fb spoke-0 true worker Done spoke-rwn-0-1.spoke-rwn-0.qe.lab.redhat.com spoke-rwn-0-1 a76eaa6a-b351-429f-bfa1-e53a70503573 spoke-0 true worker Done spoke-rwn-0-0.spoke-rwn-0.qe.lab.redhat.com spoke-rwn-0-0 Logging into the spoke cluster the bmh and machine resources are created and the node resource is not: oc get bmh -n openshift-machine-api NAME STATE CONSUMER ONLINE ERROR AGE spoke-master-0-0 unmanaged spoke-0-pxbfh-master-0 true 3h32m spoke-master-0-1 unmanaged spoke-0-pxbfh-master-1 true 3h32m spoke-master-0-2 unmanaged spoke-0-pxbfh-master-2 true 3h32m spoke-rwn-0-0-bmh externally provisioned spoke-0-spoke-rwn-0-0-bmh true provisioned registration error 168m spoke-rwn-0-1-bmh externally provisioned spoke-0-spoke-rwn-0-1-bmh true provisioned registration error 168m spoke-worker-0-0 unmanaged spoke-0-pxbfh-worker-0-65mrb true 3h32m spoke-worker-0-1 unmanaged spoke-0-pxbfh-worker-0-nnmcq true 3h32m oc get machine -n openshift-machine-api NAME PHASE TYPE REGION ZONE AGE spoke-0-pxbfh-master-0 Running 3h33m spoke-0-pxbfh-master-1 Running 3h33m spoke-0-pxbfh-master-2 Running 3h33m spoke-0-pxbfh-worker-0-65mrb Running 3h19m spoke-0-pxbfh-worker-0-nnmcq Running 3h20m spoke-0-spoke-rwn-0-0-bmh Provisioned 169m spoke-0-spoke-rwn-0-1-bmh Provisioned 169m Note: bmh is in error state: Normal ProvisionedRegistrationError 30m metal3-baremetal-controller Host adoption failed: Error while attempting to adopt node 529b3e75-5d04-4486-9296-269081d0ec02: Error validating Redfish virtual media. Some parameters were missing in node's driver_info. Missing are: ['deploy_kernel', 'deploy_ramdisk']. oc get nodes NAME STATUS ROLES AGE VERSION spoke-master-0-0.spoke-0.qe.lab.redhat.com Ready master 72m v1.22.3+2cb6068 spoke-master-0-1.spoke-0.qe.lab.redhat.com Ready master 50m v1.22.3+2cb6068 spoke-master-0-2.spoke-0.qe.lab.redhat.com Ready master 72m v1.22.3+2cb6068 spoke-worker-0-0.spoke-0.qe.lab.redhat.com Ready worker 51m v1.22.3+2cb6068 spoke-worker-0-1.spoke-0.qe.lab.redhat.com Ready worker 51m v1.22.3+2cb6068 node-bootstrapper CSR is created but not auto-approved; periodically another node-strapper csr is created until it is manually approved: oc get csr | grep Pending csr-5ll2g 9m9s kubernetes.io/kube-apiserver-client-kubelet system:serviceaccount:openshift-machine-config-operator:node-bootstrapper <none> Pending csr-f8vbl 8m24s kubernetes.io/kube-apiserver-client-kubelet system:serviceaccount:openshift-machine-config-operator:node-bootstrapper <none> Pending
Version-Release number of selected component (if applicable):
assisted-service master at revision af0bafb3f7f629932f8c3dc31ccddedfe6984926 ocp version: 4.10.0-rc.1
How reproducible:
1. Install remote worker node using ztp 2. Wait for node resource to be created
Steps to Reproduce:
1. Install remote worker node using ztp 2. Wait for node resource to be created
Actual results:
node-bootstrapper and node CSR are not auto-approved and node resource is not created. The bmh resource remains in registration error
Expected results:
node-bootstrapper and node CSR should be auto-approved and node resource created. The bmh resource should not be in registration error
Additional info:
This is a clone of issue OCPBUGS-1130. The following is the description of the original issue:
—
The test results in sippy look really bad on our less common platforms, but still pretty unacceptable even on core clouds. It's reasonably often the only test that fails. We need to decide what to do here, and we're going to need input from the etcd team.
As of Sep 13th:
Even on some major variant combos, a 4-8% failure rate is too high.
On Sep 13 arch call (no etcd present), Damien mentioned this might be an upstream alert that just isn't well suited for OpenShift's use cases, is this the case and it needs tuning?
Has the problem been getting worse?
I believe this link https://datastudio.google.com/s/urkKwmmzvgo indicates that this may be the case for 4.12, AWS and Azure are both getting worse in ways that I don't see if we change the release to 4.11 where it looks consistent. gcp seems fine on 4.12. We do not have data for vsphere for some reason.
This link shows the grpc_methods most commonly involved: https://search.ci.openshift.org/?search=etcdGRPCRequestsSlow+was+at+or+above&maxAge=48h&context=7&type=junit&name=&excludeName=&maxMatches=5&maxBytes=20971520&groupBy=job
At a glance: LeaseGrant, MemberList, Txn, Status, Range.
Broken out of TRT-401
For linking with sippy:
[bz-etcd][invariant] alert/etcdGRPCRequestsSlow should not be at or above info
[sig-arch][bz-etcd][Late] Alerts alert/etcdGRPCRequestsSlow should not be at or above info [Suite:openshift/conformance/parallel]
This is a clone of issue OCPBUGS-675. The following is the description of the original issue:
—
Description of problem:
A cluster hit a panic in etcd operator in bootstrap:
I0829 14:46:02.736582 1 controller_manager.go:54] StaticPodStateController controller terminated
panic: runtime error: invalid memory address or nil pointer dereference
[signal SIGSEGV: segmentation violation code=0x1 addr=0x0 pc=0x1e940ab]
goroutine 2701 [running]:
github.com/openshift/cluster-etcd-operator/pkg/etcdcli.checkSingleMemberHealth({0x29374c0, 0xc00217d920}, 0xc0021fb110)
github.com/openshift/cluster-etcd-operator/pkg/etcdcli/health.go:135 +0x34b
github.com/openshift/cluster-etcd-operator/pkg/etcdcli.getMemberHealth.func1()
github.com/openshift/cluster-etcd-operator/pkg/etcdcli/health.go:58 +0x7f
created by github.com/openshift/cluster-etcd-operator/pkg/etcdcli.getMemberHealth
github.com/openshift/cluster-etcd-operator/pkg/etcdcli/health.go:54 +0x2ac
Version-Release number of selected component (if applicable):
How reproducible:
Pulled up a 4.12 cluster and hit panic during bootstrap
Steps to Reproduce:
1. 2. 3.
Actual results:
panic as above
Expected results:
no panic
Additional info:
During initial backporting, due to a number of other colliding commits in upstream, the cobra commands facilitating caching did not get downstreamed.
This is to downstream those two lines.
This is a clone of issue OCPBUGS-1549. The following is the description of the original issue:
—
Description of problem:
The cluster-dns-operator does not reconcile the openshift-dns namespace, which has been exposed as an issue in 4.12 due to the requirement for the namespace to have pod-security labels. If a cluster has been incrementally updated from a version less than or equal to 4.9, the openshift-dns namespace will most likely not contain the required pod-security labels since the namespace was statically created when the cluster was installed with old namespace configuration.
Version-Release number of selected component (if applicable):
4.12
How reproducible:
Always if cluster originally installed with v4.9 or less
Steps to Reproduce:
1. Install v4.9 2. Upgrade to v4.12 (incrementally if required for upgrade path) 3. openshift-dns namespace will be missing pod-security labels
Actual results:
"oc get ns openshift-dns -o yaml" will show missing pod-security labels: apiVersion: v1 kind: Namespace metadata: annotations: openshift.io/node-selector: "" openshift.io/sa.scc.mcs: s0:c15,c0 openshift.io/sa.scc.supplemental-groups: 1000210000/10000 openshift.io/sa.scc.uid-range: 1000210000/10000 creationTimestamp: "2020-05-21T19:36:15Z" labels: kubernetes.io/metadata.name: openshift-dns olm.operatorgroup.uid/3d42c0c1-01cd-4c55-bf88-864f041c7e7a: "" openshift.io/cluster-monitoring: "true" openshift.io/run-level: "0" name: openshift-dns resourceVersion: "3127555382" uid: 0fb4571e-952f-4bea-bc45-461beec54369 spec: finalizers: - kubernetes
Expected results:
pod-security labels should exist: labels: kubernetes.io/metadata.name: openshift-dns olm.operatorgroup.uid/3d42c0c1-01cd-4c55-bf88-864f041c7e7a: "" openshift.io/cluster-monitoring: "true" openshift.io/run-level: "0" pod-security.kubernetes.io/audit: privileged pod-security.kubernetes.io/enforce: privileged pod-security.kubernetes.io/warn: privileged
Additional info:
Issue found in CI during upgrade
https://coreos.slack.com/archives/C03G7REB4JV/p1663676443155839
Description of problem:
When queried dns hostname from certain pod on the certain node, responded from random coredns pod, not prefer local one. Is it expected result ? # In OCP v4.8.13 case // Ran dig command on the certain node which is running the following test-7cc4488d48-tqc4m pod. sh-4.4# while : ; do echo -n "$(date '+%H:%M:%S') :"; dig google.com +short; sleep 1; done : 07:16:33 :172.217.175.238 07:16:34 :172.217.175.238 <--- Refreshed the upstream result 07:16:36 :142.250.207.46 07:16:37 :142.250.207.46 // The dig results is matched with the running node one as you can see the above one. $ oc rsh test-7cc4488d48-tqc4m bash -c 'while : ; do echo -n "$(date '+%H:%M:%S') :"; dig google.com +short; sleep 1; done' : 07:16:35 :172.217.175.238 07:16:36 :172.217.175.238 <--- At the same time, the pod dig result is also refreshed. 07:16:37 :142.250.207.46 07:16:38 :142.250.207.46 But in v4.10 case, in contrast, the dns query result is various and responded randomly regardless local dns results on the node as follows. # In OCP v4.10.23 case, pod's response from DNS services are not consistent. $ oc rsh test-848fcf8ddb-zrcbx bash -c 'while : ; do echo -n "$(date '+%H:%M:%S') :"; dig google.com +short; sleep 1; done' 07:23:00 :142.250.199.110 07:23:01 :142.250.207.46 07:23:02 :142.250.207.46 07:23:03 :142.250.199.110 07:23:04 :142.250.199.110 07:23:05 :172.217.161.78 # Even though the node which is running the pod keep responding the same IP... sh-4.4# while : ; do echo -n "$(date '+%H:%M:%S') :"; dig google.com +short; sleep 1; done 07:23:00 :172.217.161.78 07:23:01 :172.217.161.78 07:23:02 :172.217.161.78 07:23:03 :172.217.161.78 07:23:04 :172.217.161.78 07:23:05 :172.217.161.78
Version-Release number of selected component (if applicable):
v4.10.23 (ROSA) SDN: OpenShiftSDN
How reproducible:
You can always reproduce this issue using "dig google.com" from both any pod and the node the pod running according to the above "Description" details.
Steps to Reproduce:
1. Run any usual pod, and check which node the pod is running on. 2. Run dig google.com on the pod and the node. 3. Check the IP is consistent with the running node each other.
Actual results:
The response IPs are not consistent and random IP is responded.
Expected results:
The response IP is kind of consistent, and aware of prefer local dns.
Additional info:
This issue affects EgressNetworkPolicy dnsName feature.
Description of problem:
Created two egressIP object, egressIPs in one egressIP object cannot be applied successfully
Version-Release number of selected component (if applicable):
4.11.0-0.nightly-2022-11-27-164248
How reproducible:
Frequently happen in auto case
Steps to Reproduce:
1. Label two nodes as egress nodes oc get nodes -o wide NAME STATUS ROLES AGE VERSION INTERNAL-IP EXTERNAL-IP OS-IMAGE KERNEL-VERSION CONTAINER-RUNTIME huirwang-1128a-s6j6t-master-0 Ready master 154m v1.24.6+5658434 10.0.0.8 <none> Red Hat Enterprise Linux CoreOS 411.86.202211232221-0 (Ootpa) 4.18.0-372.32.1.el8_6.x86_64 cri-o://1.24.3-6.rhaos4.11.gitc4567c0.el8 huirwang-1128a-s6j6t-master-1 Ready master 154m v1.24.6+5658434 10.0.0.7 <none> Red Hat Enterprise Linux CoreOS 411.86.202211232221-0 (Ootpa) 4.18.0-372.32.1.el8_6.x86_64 cri-o://1.24.3-6.rhaos4.11.gitc4567c0.el8 huirwang-1128a-s6j6t-master-2 Ready master 153m v1.24.6+5658434 10.0.0.6 <none> Red Hat Enterprise Linux CoreOS 411.86.202211232221-0 (Ootpa) 4.18.0-372.32.1.el8_6.x86_64 cri-o://1.24.3-6.rhaos4.11.gitc4567c0.el8 huirwang-1128a-s6j6t-worker-westus-1 Ready worker 135m v1.24.6+5658434 10.0.1.5 <none> Red Hat Enterprise Linux CoreOS 411.86.202211232221-0 (Ootpa) 4.18.0-372.32.1.el8_6.x86_64 cri-o://1.24.3-6.rhaos4.11.gitc4567c0.el8 huirwang-1128a-s6j6t-worker-westus-2 Ready worker 136m v1.24.6+5658434 10.0.1.4 <none> Red Hat Enterprise Linux CoreOS 411.86.202211232221-0 (Ootpa) 4.18.0-372.32.1.el8_6.x86_64 cri-o://1.24.3-6.rhaos4.11.gitc4567c0.el8 % oc get node huirwang-1128a-s6j6t-worker-westus-1 --show-labels NAME STATUS ROLES AGE VERSION LABELS huirwang-1128a-s6j6t-worker-westus-1 Ready worker 136m v1.24.6+5658434 beta.kubernetes.io/arch=amd64,beta.kubernetes.io/instance-type=Standard_D4s_v3,beta.kubernetes.io/os=linux,failure-domain.beta.kubernetes.io/region=westus,failure-domain.beta.kubernetes.io/zone=0,k8s.ovn.org/egress-assignable=true,kubernetes.io/arch=amd64,kubernetes.io/hostname=huirwang-1128a-s6j6t-worker-westus-1,kubernetes.io/os=linux,node-role.kubernetes.io/worker=,node.kubernetes.io/instance-type=Standard_D4s_v3,node.openshift.io/os_id=rhcos,topology.disk.csi.azure.com/zone=,topology.kubernetes.io/region=westus,topology.kubernetes.io/zone=0 % oc get node huirwang-1128a-s6j6t-worker-westus-2 --show-labels NAME STATUS ROLES AGE VERSION LABELS huirwang-1128a-s6j6t-worker-westus-2 Ready worker 136m v1.24.6+5658434 beta.kubernetes.io/arch=amd64,beta.kubernetes.io/instance-type=Standard_D4s_v3,beta.kubernetes.io/os=linux,failure-domain.beta.kubernetes.io/region=westus,failure-domain.beta.kubernetes.io/zone=0,k8s.ovn.org/egress-assignable=true,kubernetes.io/arch=amd64,kubernetes.io/hostname=huirwang-1128a-s6j6t-worker-westus-2,kubernetes.io/os=linux,node-role.kubernetes.io/worker=,node.kubernetes.io/instance-type=Standard_D4s_v3,node.openshift.io/os_id=rhcos,topology.disk.csi.azure.com/zone=,topology.kubernetes.io/region=westus,topology.kubernetes.io/zone=0 2. Created two egressIP objects 3.
Actual results:
egressip-47032 was not applied to any egress node % oc get egressip NAME EGRESSIPS ASSIGNED NODE ASSIGNED EGRESSIPS egressip-47032 10.0.1.166 egressip-47034 10.0.1.181 huirwang-1128a-s6j6t-worker-westus-1 10.0.1.181 % oc get cloudprivateipconfig NAME AGE 10.0.1.130 6m25s 10.0.1.138 6m34s 10.0.1.166 6m34s 10.0.1.181 6m25s % oc get cloudprivateipconfig 10.0.1.166 -o yaml apiVersion: cloud.network.openshift.io/v1 kind: CloudPrivateIPConfig metadata: annotations: k8s.ovn.org/egressip-owner-ref: egressip-47032 creationTimestamp: "2022-11-28T10:27:37Z" finalizers: - cloudprivateipconfig.cloud.network.openshift.io/finalizer generation: 1 name: 10.0.1.166 resourceVersion: "87528" uid: 5221075a-35d0-4670-a6a7-ddfc6cbc700b spec: node: huirwang-1128a-s6j6t-worker-westus-1 status: conditions: - lastTransitionTime: "2022-11-28T10:33:29Z" message: 'Error processing cloud assignment request, err: <nil>' observedGeneration: 1 reason: CloudResponseError status: "False" type: Assigned node: huirwang-1128a-s6j6t-worker-westus-1 % oc get cloudprivateipconfig 10.0.1.138 -o yaml apiVersion: cloud.network.openshift.io/v1 kind: CloudPrivateIPConfig metadata: annotations: k8s.ovn.org/egressip-owner-ref: egressip-47032 creationTimestamp: "2022-11-28T10:27:37Z" finalizers: - cloudprivateipconfig.cloud.network.openshift.io/finalizer generation: 1 name: 10.0.1.138 resourceVersion: "87523" uid: e4604e76-64d8-4735-87a2-eb50d28854cc spec: node: huirwang-1128a-s6j6t-worker-westus-2 status: conditions: - lastTransitionTime: "2022-11-28T10:33:29Z" message: 'Error processing cloud assignment request, err: <nil>' observedGeneration: 1 reason: CloudResponseError status: "False" type: Assigned node: huirwang-1128a-s6j6t-worker-westus-2 oc logs cloud-network-config-controller-6f7b994ddc-vhtbp -n openshift-cloud-network-config-controller ....... E1128 10:30:43.590807 1 controller.go:165] error syncing '10.0.1.138': error assigning CloudPrivateIPConfig: "10.0.1.138" to node: "huirwang-1128a-s6j6t-worker-westus-2", err: network.InterfacesClient#CreateOrUpdate: Failure sending request: StatusCode=0 -- Original Error: Code="InvalidRequestFormat" Message="Cannot parse the request." Details=[{"code":"DuplicateResourceName","message":"Resource /subscriptions//resourceGroups//providers/Microsoft.Network/networkInterfaces/ has two child resources with the same name (huirwang-1128a-s6j6t-worker-westus-2_10.0.1.138)."}], requeuing in cloud-private-ip-config workqueue I1128 10:30:44.051422 1 cloudprivateipconfig_controller.go:271] CloudPrivateIPConfig: "10.0.1.166" will be added to node: "huirwang-1128a-s6j6t-worker-westus-1" E1128 10:30:44.301259 1 controller.go:165] error syncing '10.0.1.166': error assigning CloudPrivateIPConfig: "10.0.1.166" to node: "huirwang-1128a-s6j6t-worker-westus-1", err: network.InterfacesClient#CreateOrUpdate: Failure sending request: StatusCode=0 -- Original Error: Code="InvalidRequestFormat" Message="Cannot parse the request." Details=[{"code":"DuplicateResourceName","message":"Resource /subscriptions//resourceGroups//providers/Microsoft.Network/networkInterfaces/ has two child resources with the same name (huirwang-1128a-s6j6t-worker-westus-1_10.0.1.166)."}], requeuing in cloud-private-ip-config workqueue ..........
Expected results:
EgressIP can be applied successfully.
Additional info:
Description of problem:
AWS tagging - when applying user defined tags you cannot add more than 10
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
This is a clone of issue OCPBUGS-2895. The following is the description of the original issue:
—
Description of problem:
Current validation will not accept Resource Groups or DiskEncryptionSets which have upper-case letters.
Version-Release number of selected component (if applicable):
4.11
How reproducible:
Attempt to create a cluster/machineset using a DiskEncryptionSet with an RG or Name with upper-case letters
Steps to Reproduce:
1. Create cluster with DiskEncryptionSet with upper-case letters in DES name or in Resource Group name
Actual results:
See error message: encountered error: [controlPlane.platform.azure.defaultMachinePlatform.osDisk.diskEncryptionSet.resourceGroup: Invalid value: \"v4-e2e-V62447568-eastus\": invalid resource group format, compute[0].platform.azure.defaultMachinePlatform.osDisk.diskEncryptionSet.resourceGroup: Invalid value: \"v4-e2e-V62447568-eastus\": invalid resource group format]
Expected results:
Create a cluster/machineset using the existing and valid DiskEncryptionSet
Additional info:
I have submitted a PR for this already, but it needs to be reviewed and backported to 4.11: https://github.com/openshift/installer/pull/6513
This is a clone of issue OCPBUGS-2079. The following is the description of the original issue:
—
Description of problem:
The setting of systemReserved: ephemeral-storage in KubeletConfig is not working as expected.
Version-Release number of selected component (if applicable):
4.10.z, may exist on other OCP versions as well.
How reproducible:
always
Steps to Reproduce:
1. Create a KubeletConfig on the node: apiVersion: machineconfiguration.openshift.io/v1 kind: KubeletConfig metadata: name: system-reserved-config spec: machineConfigPoolSelector: matchLabels: pools.operator.machineconfiguration.openshift.io/master: "" kubeletConfig: systemReserved: cpu: 500m memory: 500Mi ephemeral-storage: 10Gi 2. Check node allocatable storage with command: oc describe node |grep -C 5 ephemeral-storage
Actual results:
The Allocatable:ephemeral-storage on the node is not capacity.ephemeral-storage - systemReserved.ephemeral-storage - eviction-thresholds (10% of the capacity.ephemeral-storage by default)
Expected results:
The Allocatable:ephemeral-storage on the node should be capacity.ephemeral-storage - systemReserved.ephemeral-storage - eviction-thresholds (10% of the capacity.ephemeral-storage by default)
Additional info:
The root cause might be: process argument '--system-reserved=cpu=500m,memory=500Mi' overwrote the setting in /etc/kubernetes/kubelet.conf, one example: root 6824 1 27 Sep30 ? 1-09:00:24 kubelet --config=/etc/kubernetes/kubelet.conf --bootstrap-kubeconfig=/etc/kubernetes/kubeconfig --kubeconfig=/var/lib/kubelet/kubeconfig --container-runtime=remote --container-runtime-endpoint=/var/run/crio/crio.sock --runtime-cgroups=/system.slice/crio.service --node-labels=node-role.kubernetes.io/master,node.openshift.io/os_id=rhcos --node-ip=192.168.58.47 --minimum-container-ttl-duration=6m0s --cloud-provider= --volume-plugin-dir=/etc/kubernetes/kubelet-plugins/volume/exec --hostname-override= --register-with-taints=node-role.kubernetes.io/master=:NoSchedule --pod-infra-container-image=quay.io/openshift-release-dev/ocp-v4.0-art-dev@sha256:4a7b6408460148cb73c59677dbc2c261076bc07226c43b0c9192cc70aef5ba62 --system-reserved=cpu=500m,memory=500Mi --v=2 --housekeeping-interval=30s
This is a clone of issue OCPBUGS-2083. The following is the description of the original issue:
—
Description of problem:
Currently we are running VMWare CSI Operator in OpenShift 4.10.33. After running vulnerability scans, the operator was discovered to be running a known weak cipher 3DES. We are attempting to upgrade or modify the operator to customize the ciphers available. We were looking at performing a manual upgrade via Quay.io but can't seem to pull the image and was trying to steer away from performing a custom install from scratch. Looking for any suggestions into mitigated the weak cipher in the kube-rbac-proxy under VMware CSI Operator.
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
Description of problem:
When creating a ProjectHelmChartRepository (with or without the form) and setting a display name (as `spec.name`), this value is not used in the developer catalog / Helm Charts catalog filter sidebar.
It shows (and watches) the display names of `HelmChartRepository` resources.
Version-Release number of selected component (if applicable):
4.11
How reproducible:
Always
Steps to Reproduce:
1. Switch to Developer Perspective 2. Navigate to Add > "Helm Chart repositories" 3. Enter "ibm-charts" as "Chart repository name" 4. Enter URL https://raw.githubusercontent.com/IBM/charts/master/repo/community/index.yaml as URL) 5. Press on create 6. Open the YAML editor and change the `spec.name` attribute to "IBM Charts" 7. Save the change 8. Navigate to Add > "Helm Chart"
Actual results:
The filter navigation on the left side shows "Chart Repositories" "Ibm Chart". A camel case version of the resource name.
Expected results:
It should show the "spec.name" "IBM Charts" if defined and fallback to the current implementation if the optional spec.name is not defined.
Additional info:
There is a bug discussing that the display name could not be entered directly, https://bugzilla.redhat.com/show_bug.cgi?id=2106366. This bug here is only about the catalog output.
This is a clone of issue OCPBUGS-1329. The following is the description of the original issue:
—
Description of problem:
etcd and kube-apiserver pods get restarted due to failed liveness probes while deleting/re-creating pods on SNO
Version-Release number of selected component (if applicable):
4.10.32
How reproducible:
Not always, after ~10 attempts
Steps to Reproduce:
1. Deploy SNO with Telco DU profile applied 2. Create multiple pods with local storage volumes attached(attaching yaml manifest) 3. Force delete and re-create pods 10 times
Actual results:
etcd and kube-apiserver pods get restarted, making to cluster unavailable for a period of time
Expected results:
etcd and kube-apiserver do not get restarted
Additional info:
Attaching must-gather. Please let me know if any additional info is required. Thank you!
This is a clone of issue OCPBUGS-1417. The following is the description of the original issue:
—
Description of problem:
Egress IP is not being assigned to primary interface of node as per hostsubnet definition. The issue being observed at an Openshift cluster hosted on Disconnected AWS environment. Following steps were performed at AWS end: - Disconnected VPC was created and installation of Openshift was done as per documentation. - Elastic IP could not be used as it is a disconnected environment. Customer identified a free IP from same subnet as the node and modified interface of the node to add a secondary IP. It seems cloud.network.openshift.io/egress-ipconfig annotation is need on the node to attach IP to primary interface but its missing. From SDN POD log on the same node I could see its complaining about 'an incomplete annotation "cloud.network.openshift.io/egress-ipconfig"'. Will share more details over comments.
Version-Release number of selected component (if applicable):
Openshift 4.10.28
How reproducible:
Always
Steps to Reproduce:
1. Create a disconnected environment on AWS 2. find a free IP from subnet where a worker node is hosted and add that as secondary IP to NIC of that node. 3. Configure hostsubnet and netnamespace on Openshift cluster
Actual results:
- Eress IP is not being attached to primary interface of node for which hostsubnet has been configured
Expected results:
- Egress IP should get configured without any issue.
Additional info:
Description of problem:
Sometimes we see VMs fail to power on when the land on a host that does not have enough resources. The current power on does not retry or leverage DRS to power on the node on a suitable host.
https://github.com/vmware/govmomi/issues/1026
Our code is still making calls to PowerOnVM_Task which, according to the vsphere docs, is deprecated and we should use PowerOnMultiVM_Task instead.
PowerOnVM_Task does not return a DRS ClusterRecommendation, no vmotion nor host power operations will be done as part of a DRS-facilitated power on. To have DRS consider such operations use PowerOnMultiVM_Task.
https://vdc-download.vmware.com/vmwb-repository/dcr-public/b50dcbbf-051d-4204-a3e7-e1b618c1e384/538cf2ec-b34f-4bae-a332-3820ef9e7773/vim.VirtualMachine.html#powerOn:
As of vSphere API 5.1, use of this method with vCenter Server is deprecated; use PowerOnMultiVM_Task instead.
Version-Release number of selected component (if applicable):
4.8.x
How reproducible:
Always
Steps to Reproduce:
1.
2.
3.
Actual results:
Sometimes powers on fails requiring manual intervention.
Expected results:
PowerOn should use DRS to ensure it's always successful.
Additional info:
#Description of problem:
Developer Console > +ADD > Develoeper Catalog > Service > select Types Templates > Initiate Template
Input values in Instantiate Template are disappeared randomly.
#Version-Release number of selected component (if applicable):
#How reproducible:
I reproduced this issue in ocp410ovn shared cluster in the quicklab
Select Apache HTTP Server > Input name "test" in Application Hostname box
After several seconds, the value has disappeared in the web console.
#Steps to Reproduce:
0. Developer Console > +ADD > Develoeper Catalog > Service > select Types Templates > Initiate Template
1. Input values in the box of template menu.
2. The values are disappeared after several seconds later. (20s~ or randomly)
3. Many users have experienced this issue.
==> the browser version doesn't matter.
#Actual results:
Input values in "Instantiate Template" are disappeared randomly.
Users can't use the Initiate Template feature in the Dev console.
#Expected results:
Input values remain in the web console and users creat the object by the "Instantiate Template"
#Additional info:
See "Application Name" has disappeared in the video I attached.
Description of problem:
This issue exists to drive the backport process of https://github.com/openshift/api/pull/1313
According to the Kubernetes documentation, starting from Kubernetes 1.22, the service-account-issuer flag can be specified multiple times. The first value is then used to generate new tokens and other values are accepted. Using this field can prevent cluster disruptions and allows for smoother reconfiguration of this field.
The status field will allow us to keep track of "used" service account issuers and also expire/prune them.
this is a replacement for: #1309
xref: https://issues.redhat.com/browse/AUTH-309
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
Description of problem:
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
Description of problem:
We need to have admin-ack in 4.11 so that admins can check the deprecated APIs and approve when they move to 4.12.Refer https://access.redhat.com/articles/6955381 for more information. As planned we want to add the admin-ack around 4.12 feature freeze.
Version-Release number of selected component (if applicable):
4.11
How reproducible:
Always
Steps to Reproduce:
1. Install a cluster in 4.11. 2. Run an application which uses the deprecated API. See https://access.redhat.com/articles/6955381 for more information. 3. Upgrade to 4.12
Actual results:
The upgrade happens without asking the admin to confirm that the worksloads do not use the deprecated APIs.
Expected results:
Upgrade should wait for the admin-ack.
Additional info:
We had admin-acks in the past too e.g. https://docs.openshift.com/container-platform/4.9/updating/updating-cluster-prepare.html#update-preparing-migrate_updating-cluster-prepare
Clone of https://bugzilla.redhat.com/show_bug.cgi?id=2106803 to backport the e2e fix to 4.11 and 4.10.
Description of problem: E2E: intermittent failure is seen on tests for devfile due to network call to devfile registry
Deploy git workload with devfile from topology page: A-04-TC01
Version-Release number of selected component (if applicable):
How reproducible: Intermittent
Steps to Reproduce:
1. Run test for add-flow-ci.feature to test Deploy git workload with devfile from topology page: A-04-TC01
Actual results:
Expected results: Show always pass
Additional info:
This is a clone of issue OCPBUGS-416. The following is the description of the original issue:
—
Description of problem:
The pod fails to mount the PVC using IBM Cloud VPC block storage.
Version-Release number of selected component (if applicable):
How reproducible:
The steps can be followed here: from this link
https://cloud.ibm.com/docs/openshift?topic=openshift-vpc-block
.
The error occurs when the application pod tried to mount the VPC.
Steps to Reproduce:
Describe above.
Actual results:
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal Scheduled 26m default-scheduler Successfully assigned default/test to a100-huge-m25p7-worker-3-with-secondary-xdwvl
Normal SuccessfulAttachVolume 26m attachdetach-controller AttachVolume.Attach succeeded for volume "pvc-8721c341-739d-4607-bbcb-9dcf66ef6dba"
Warning FailedMount 26m (x2 over 26m) kubelet MountVolume.MountDevice failed for volume "pvc-8721c341-739d-4607-bbcb-9dcf66ef6dba" : rpc error: code = Internal desc = {RequestID: ffbb97b4-e4d0-4016-87a9-dc46f80c5478 , Code: FormatAndMountFailed, Description: Failed to format '/dev/disk/by-id/virtio-0777-6872e22d-5c00-4' and mount it at '/var/lib/kubelet/plugins/kubernetes.io/csi/pv/pvc-8721c341-739d-4607-bbcb-9dcf66ef6dba/globalmount', BackendError: format of disk "/dev/disk/by-id/virtio-0777-6872e22d-5c00-4" failed: type"ext4") target"/var/lib/kubelet/plugins/kubernetes.io/csi/pv/pvc-8721c341-739d-4607-bbcb-9dcf66ef6dba/globalmount") options"defaults") errcode:(exit status 1) output:(mke2fs 1.45.6 (20-Mar-2020)
The file /dev/disk/by-id/virtio-0777-6872e22d-5c00-4 does not exist and no size was specified.
) , Action: Please check if there is any error in POD describe related with volume attach}
Warning FailedMount 22m kubelet Unable to attach or mount volumes: unmounted volumes=[bs-pvc], unattached volumes=[kube-api-access-6bgvj bs-pvc]: timed out waiting for the condition
Warning FailedMount 4m11s (x9 over 24m) kubelet Unable to attach or mount volumes: unmounted volumes=[bs-pvc], unattached volumes=[bs-pvc kube-api-access-6bgvj]: timed out waiting for the condition
Warning FailedMount 3m51s (x17 over 26m) kubelet MountVolume.MountDevice failed for volume "pvc-8721c341-739d-4607-bbcb-9dcf66ef6dba" : rpc error: code = Internal desc = {RequestID: 1a12a7c5-3bd0-41cf-b8a9-90dd3224c2fb , Code: FormatAndMountFailed, Description: Failed to format '/dev/disk/by-id/virtio-0777-6872e22d-5c00-4' and mount it at '/var/lib/kubelet/plugins/kubernetes.io/csi/pv/pvc-8721c341-739d-4607-bbcb-9dcf66ef6dba/globalmount', BackendError: format of disk "/dev/disk/by-id/virtio-0777-6872e22d-5c00-4" failed: type"ext4") target"/var/lib/kubelet/plugins/kubernetes.io/csi/pv/pvc-8721c341-739d-4607-bbcb-9dcf66ef6dba/globalmount") options"defaults") errcode:(exit status 1) output:(mke2fs 1.45.6 (20-Mar-2020)
Expected results:
The pod should successfully mount the PVC
Additional info:
Had a debugging session with Sameer Shaikh and Arashad Ahamad from the IBM VPC block storage team. The conclusion is that the udevadm utility is missing in the IPI image used by the IBM Cloud VPC block storage CSI.
Description of problem:
Pipeline list page fetches all the pipelineruns to find the last pipeline run and which results in more load time. This performance issue needs to be addressed in all the pieplines list pages wherever applicable.
Version-Release number of selected component (if applicable):
4.9
How reproducible:
Always
Steps to Reproduce:
1. Create 10+ pipelines in a namespace
2. Create more number of pipelineruns under each pipeline
3. navigate to piplines list page.
Actual results:
Pipelines list will take a long time to load the list.
Expected results:
Pipeline list should not take more time to load the list.
Additional info:
Reduce the amount to data fetched to find the last pipelinerun, maybe use PartialMetadata to find the latest pipeline run and to improve the performance.
This bug is a backport clone of [Bugzilla Bug 2034883](https://bugzilla.redhat.com/show_bug.cgi?id=2034883). The following is the description of the original bug:
—
Description of problem:
Situation (starting point):
Problem:
Version-Release number of MCO (Machine Config Operator) (if applicable):
4.7.21
Platform (AWS, VSphere, Metal, etc.): (not relevant)
Are you certain that the root cause of the issue being reported is the MCO (Machine Config Operator)?
(Y/N/Not sure): Y
How reproducible:
Always if the said conditions are met.
Steps to Reproduce:
1. Have some nodes not ready
2. Force a change that requires machine-config-daemon daemonset rollout (I think that changing proxy settings would work for this)
3. Wait until a new kube-apiserver-to-kubelet-client-ca is rolled out by kube-apiserver-operator
Actual results:
New kube-apiserver-to-kubelet-client-ca not forwarded to controllerconfig, kube-apiserver-to-kubelet-client-ca not deployed on nodes
Expected results:
kube-apiserver-to-kubelet-client-ca forwarded to controllerconfig, kube-apiserver-to-kubelet-client-ca deployed to nodes.
Additional info:
In comments
Description of problem: Backport owners for 4.11 (only)
Description of problem:
Dummy bug that is needed to track backport of https://github.com/ovn-org/ovn-kubernetes/pull/2975/commits/816e30a1fbb5beb8b20fe3e96906285762dd8eb6 which is already merged in 4.12
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
Description of problem:
See https://bugzilla.redhat.com/show_bug.cgi?id=2104275
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
This is a clone of issue OCPBUGS-1765. The following is the description of the original issue:
—
Description of problem:
If a customer creates a machine with a networks section like this networks: - filter: {} noAllowedAddressPairs: false subnets: - filter: {} uuid: primary-subnet-uuid - filter: {} noAllowedAddressPairs: true subnets: - filter: {} uuid: other-subnet-uuid primarySubnet: primary-subnet-uuid Then all the ports are created without the allowed address pairs. Doing some research in the source code, I have found that: - For each entry on the networks: section, networks are filtered as per its filter: section[1] - Then, if the subnets: section of the network entry is not empty, for each of the network IDs found above[2], 2 things are done that are relevant for this situatoin: - The net ID is saved on a netsWithoutAllowedAddressPairs[3]. That map is later checked while creating any port[4]. - For each subnet entry that matches the network ID, a port is created[5]. So, the problematic behavior happens due to the following: - Both entries in the networks array have empty filters. This means that both entries selected all the neutron networks. - This configuration results in one port per subnet as expected because, in the later traversal of the subnets array of each entry[5], it is filtering by subnet and creating a single port as expected. - However, the entry with "noAllowedAddressPairs: true" is selecting all the neutron networks, so it adds all of them to the netsWithoutAllowedAddressPairs map[3], regardless of the subnets filtering. - As all the networks are in noAllowedAddressPairs: true array, all the ports created for the VM have their allowed address pairs removed[4]. Why do we consider this behavior undesired? I understand that, if we create a port for a network that has no allowed pairs, we create all the other ports in the same networks without the pairs. However, it is surprising that a port in a network is removed the allowed address pairs due to a setting in an entry that yielded no port on that network. In other words, one would expect that the same subnet filtering that happens on each network entry in what regards yielding ports for the VM would also work for the noAllowedPairs parameter.
Version-Release number of selected component (if applicable):
4.10.30
How reproducible:
Always
Steps to Reproduce:
1. Create a machineset like in the description 2. 3.
Actual results:
All ports have no address pairs
Expected results:
Only the port on the secondary subnet has no address pairs.
Additional info:
A simple workaround would be to just fill the filter so that a single network is selected for each network entry. References: [1] - https://github.com/openshift/cluster-api-provider-openstack/blob/f6b51710d4f395ded401347589447f5f41dd5c4c/pkg/cloud/openstack/clients/machineservice.go#L576 [2] - https://github.com/openshift/cluster-api-provider-openstack/blob/f6b51710d4f395ded401347589447f5f41dd5c4c/pkg/cloud/openstack/clients/machineservice.go#L580 [3] - https://github.com/openshift/cluster-api-provider-openstack/blob/f6b51710d4f395ded401347589447f5f41dd5c4c/pkg/cloud/openstack/clients/machineservice.go#L581-L583 [4] - https://github.com/openshift/cluster-api-provider-openstack/blob/f6b51710d4f395ded401347589447f5f41dd5c4c/pkg/cloud/openstack/clients/machineservice.go#L658-L660 [5] - https://github.com/openshift/cluster-api-provider-openstack/blob/f6b51710d4f395ded401347589447f5f41dd5c4c/pkg/cloud/openstack/clients/machineservice.go#L610-L625
This is a clone of issue OCPBUGS-3824. The following is the description of the original issue:
—
This is a clone of issue OCPBUGS-2598. The following is the description of the original issue:
—
Description of problem:
Liveness probe of ipsec pods fail with large clusters. Currently the command that is executed in the ipsec container is ovs-appctl -t ovs-monitor-ipsec ipsec/status && ipsec status The problem is with command "ipsec/status". In clusters with high node count this command will return a list with all the node daemons of the cluster. This means that as the node count raises the completion time of the command raises too.
This makes the main command
ovs-appctl -t ovs-monitor-ipsec
To hang until the subcommand is finished.
As the liveness and readiness probe values are hardcoded in the manifest of the ipsec container herehttps//github.com/openshift/cluster-network-operator/blob/9c1181e34316d34db49d573698d2779b008bcc20/bindata/network/ovn-kubernetes/common/ipsec.yaml] the liveness timeout of the container probe of 60 seconds start to be insufficient as the node count list is growing. This resulted in a cluster with 170 + nodes to have 15+ ipsec pods in a crashloopbackoff state.
Version-Release number of selected component (if applicable):
Openshift Container Platform 4.10 but i think the same will be visible to other versions too.
How reproducible:
I was not able to reproduce due to an extreamely high amount of resources are needed and i think that there is no point as we have spotted the issue.
Steps to Reproduce:
1. Install an Openshift cluster with IPSEC enabled 2. Scale to 170+ nodes or more 3. Notice that the ipsec pods will start getting in a Crashloopbackoff state with failed Liveness/Readiness probes.
Actual results:
Ip Sec pods are stuck in a Crashloopbackoff state
Expected results:
Ip Sec pods to work normally
Additional info:
We have provided a workaround where CVO and CNO operators are scaled to 0 replicas in order for us to be able to increase the liveness probe limit to a value of 600 that recovered the cluster. As a next step the customer will try to reduce the node count and restore the default liveness timeout value along with bringing the operators back to see if the cluster will stabilize.
Description of problem:
Intended to backport the corresponding https://bugzilla.redhat.com/show_bug.cgi?id=2095852 which has been fixed already for this version.
Version-Release number of selected component (if applicable):
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
In order to delete the correct GCP cloud resources, the "--credentials-requests-dir" parameter must be passed to "ccoctl gcp delete". This was fixed for 4.12 as part of https://github.com/openshift/cloud-credential-operator/pull/489 but must be backported for previous releases. See https://github.com/openshift/cloud-credential-operator/pull/489#issuecomment-1248733205 for discussion regarding this bug.
To reproduce, create GCP infrastructure with a name parameter that is a subset of another set of GCP infrastructure's name parameter. I will "ccoctl gcp create all" with "name=abutcher-gcp" and "name=abutcher-gcp1".
$ ./ccoctl gcp create-all \ --name=abutcher-gcp \ --region=us-central1 \ --project=openshift-hive-dev \ --credentials-requests-dir=./credrequests $ ./ccoctl gcp create-all \ --name=abutcher-gcp1 \ --region=us-central1 \ --project=openshift-hive-dev \ --credentials-requests-dir=./credrequests
Running "ccoctl gcp delete --name=abutcher-gcp" will result in GCP infrastructure for both "abutcher-gcp" and "abutcher-gcp1" being deleted.
$ ./ccoctl gcp delete --name abutcher-gcp --project openshift-hive-dev 2022/10/24 11:30:06 Credentials loaded from file "/home/abutcher/.gcp/osServiceAccount.json" 2022/10/24 11:30:06 Deleted object .well-known/openid-configuration from bucket abutcher-gcp-oidc 2022/10/24 11:30:07 Deleted object keys.json from bucket abutcher-gcp-oidc 2022/10/24 11:30:07 OIDC bucket abutcher-gcp-oidc deleted 2022/10/24 11:30:09 IAM Service account abutcher-gcp-openshift-image-registry-gcs deleted 2022/10/24 11:30:10 IAM Service account abutcher-gcp-openshift-gcp-ccm deleted 2022/10/24 11:30:11 IAM Service account abutcher-gcp1-openshift-cloud-network-config-controller-gcp deleted 2022/10/24 11:30:12 IAM Service account abutcher-gcp-openshift-machine-api-gcp deleted 2022/10/24 11:30:13 IAM Service account abutcher-gcp-openshift-ingress-gcp deleted 2022/10/24 11:30:15 IAM Service account abutcher-gcp-openshift-gcp-pd-csi-driver-operator deleted 2022/10/24 11:30:16 IAM Service account abutcher-gcp1-openshift-ingress-gcp deleted 2022/10/24 11:30:17 IAM Service account abutcher-gcp1-openshift-image-registry-gcs deleted 2022/10/24 11:30:19 IAM Service account abutcher-gcp-cloud-credential-operator-gcp-ro-creds deleted 2022/10/24 11:30:20 IAM Service account abutcher-gcp1-openshift-gcp-pd-csi-driver-operator deleted 2022/10/24 11:30:21 IAM Service account abutcher-gcp1-openshift-gcp-ccm deleted 2022/10/24 11:30:22 IAM Service account abutcher-gcp1-cloud-credential-operator-gcp-ro-creds deleted 2022/10/24 11:30:24 IAM Service account abutcher-gcp1-openshift-machine-api-gcp deleted 2022/10/24 11:30:25 IAM Service account abutcher-gcp-openshift-cloud-network-config-controller-gcp deleted 2022/10/24 11:30:25 Workload identity pool abutcher-gcp deleted
Users can't configure the retention period for Thanos Ruler currently and the default value is 24h (from the prometheus operator).
Description of problem:
We observed that a dual stack cluster deployed with AI gui only fails. This cluster is dhcp for ipv4, RA/RS autoconfiguration for ipv6. It fails with error in the onvkube container ``` I0906 07:45:43.044090 87450 gateway_init.go:261] Initializing Gateway Functionality I0906 07:45:43.046398 87450 gateway_localnet.go:152] Node local addresses initialized to: map[10.131.31.214:{10.131.31.208 fffffff0} 10.255.0.2:{10.255.0.0 fffffe00} 127.0.0.1:{127.0.0.0 ff000000} 2001:1b74:480:613a:f6e9:d4ff:fef1:6f26:{2001:1b74:480:613a:: ffffffffffffffff0000000000000000} ::1:{::1 ffffffffffffffffffffffffffffffff} fd01:0:0:1::2:{fd01:0:0:1:: ffffffffffffffff0000000000000000} fe80::8ce9:b4ff:fe1a:1208:{fe80:: ffffffffffffffff0000000000000000} fe80::c8ef:ecff:fee3:64c7:{fe80:: ffffffffffffffff0000000000000000} fe80::f6e9:d4ff:fef1:6f26:{fe80:: ffffffffffffffff0000000000000000}] I0906 07:45:43.047759 87450 helper_linux.go:71] Provided gateway interface "br-ex", found as index: 7 I0906 07:45:43.048045 87450 helper_linux.go:97] Found default gateway interface br-ex 10.131.31.209 I0906 07:45:43.048152 87450 helper_linux.go:71] Provided gateway interface "br-ex", found as index: 7 F0906 07:45:43.048318 87450 ovnkube.go:133] failed to get default gateway interface ``` on the node we observed that there is multi-path entry during ``` default proto ra metric 48 pref medium nexthop via fe80::e2f6:2d01:ab14:ec71 dev br-ex weight 1 nexthop via fe80::e2f6:2d01:ab11:c271 dev br-ex weight 1 ``` I manually remove one of the entries (`ip route delete`) and then delete the ovnkube-node pod. Then the installation continues, container works. Every time there is multiple entry, if the onvkube-node starts, it fails.
Version-Release number of selected component (if applicable):
4.10.30
How reproducible:
Steps to Reproduce:
1. 2. 3.
Actual results:
Expected results:
Additional info:
There might a side issue: the interface of the node upon boot takes time to get the ipv6 autoconfiguration, no RS packets seemed to be sent out (observed zero on all routers).
This is a clone of issue OCPBUGS-262. The following is the description of the original issue:
—
github rate limit failures for upi image downloading govc.
Description of problem:
When the user installs a helm chart, the dropdown to select a specific version is always disabled. Also for helm charts that can upgraded or downgraded after installation. For example the nodejs helm chart.
Version-Release number of selected component (if applicable):
At least 4.11, maybe all versions, but a backport to 4.11 is fine
How reproducible:
Always
Steps to Reproduce:
1. Switch to developer perspective 2. Navigate to Add > Helm chart 3. Select the Nodejs helm chart 4. Try to select another version .. When the user installs the not selectable version and edit the helm chart there is another version to selec
Actual results:
The version is not selectable.
Expected results:
The version should be selectable.
Additional info:
We're seeing a slight uptick in how long upgrades are taking[1][2]. We are not 100% sure of the cause, but it looks like it started with 4.11 rc.7. There's no obvious culprits in the diff[3].
Looking at some of the jobs, we are seeing the gaps between kube-scheduler being updated and then machine-api appear to take longer. Example job run[4] showing 10+ minutes waiting for it.
TRT had a debugging session, and we have two suggestions:
[1] https://search.ci.openshift.org/graph/metrics?metric=job%3Aduration%3Atotal%3Aseconds&job=periodic-ci-openshift-release-master-ci-4.12-upgrade-from-stable-4.11-e2e-aws-ovn-upgrade&job=periodic-ci-openshift-release-master-ci-4.12-upgrade-from-stable-4.11-e2e-aws-sdn-upgrade&job=periodic-ci-openshift-release-master-ci-4.12-upgrade-from-stable-4.11-e2e-azure-upgrade&job=periodic-ci-openshift-release-master-ci-4.12-upgrade-from-stable-4.11-e2e-gcp-ovn-upgrade&job=periodic-ci-openshift-release-master-ci-4.12-upgrade-from-stable-4.11-e2e-gcp-sdn-upgrade
[2] https://sippy.dptools.openshift.org/sippy-ng/tests/4.12/analysis?test=Cluster%20upgrade.%5Bsig-cluster-lifecycle%5D%20cluster%20upgrade%20should%20complete%20in%2075.00%20minutes
[3]