End of Sale Notice:
Commercial support for NGINX Service Mesh is available to customers who currently have active NGINX Microservices Bundle subscriptions. F5 NGINX announced the End of Sale (EoS) for the NGINX Microservices Bundles as of July 1, 2023.
See our End of Sale announcement for more details.
Release Notes 1.7.0
Release information for F5 NGINX Service Mesh, a configurable, low‑latency infrastructure layer designed to handle a high volume of network‑based interprocess communication among application infrastructure services using application programming interfaces (APIs). Lists of new features and known issues are provided.
NGINX Service Mesh Version 1.7.0
14 February 2023
These release notes provide general information and describe known issues for NGINX Service Mesh version 1.7.0, in the following categories:
Updates
NGINX Service Mesh 1.7.0 includes the following updates:
nginx-meshctl
command-line tool can now be downloaded from Github.- NGINX Service Mesh can now integrate with the open source version of NGINX Ingress Controller.
- For easier integration with NGINX Ingress Controller, users can now simply add a label to their Ingress Controller PodSpec, and NGINX Service Mesh will automatically update the controller to integrate.
- Sidecar and init containers now support ARM processors. Full ARM support is coming.
- OpenShift CSI Driver volume plugin has been renamed from
wlapi-mounter.spire.nginx.com
tocsi.spiffe.io
. - For OpenShift deployments, NGINX Service Mesh now uses the open source SPIFFE CSI Driver.
Important:
OpenShift users see the upgrade guide for instructions on how to upgrade to this release version.
Deprecation
- NGINX Ingress Controller annotations
nsm.nginx.com/enable-ingress
andnsm.nginx.com/enable-egress
have been deprecated in favor of using labels.
Known Issues
The following issues are known to be present in this release. Look for updates to these issues in future NGINX Service Mesh release notes.
Lingering invalid RateLimits can cause restart inconsistencies with the NGINX Service Mesh control plane. (658):
The NGINX Service Mesh control plane has a validating webhook that will reject the majority of RateLimits that conflict with an existing RateLimit. However, there are some cases where the validating webhook is unable to determine a conflict. In these cases, the NGINX Service Mesh control plane process will catch the conflict and prevent configuration of the offending RateLimit, but the RateLimit will still be stored in Kubernetes. These RateLimit resources are invalid and can be found by looking for a Warning
event on the RateLimit object. If invalid RateLimits exist and the NGINX Service Mesh control plane restarts, the invalid RateLimits may be configured over the previous valid RateLimits.
Workaround:
When you create a RateLimit resource in Kubernetes, run kubectl describe ratelimit <ratelimit-name>
and check for any Warning
events. If a Warning
event exists, either fix the conflict described in the Warning
event message, or delete the RateLimit by running: kubectl delete ratelimit <ratelimit-name>
.
Pods fail to deploy if invalid Jaeger tracing address is set (540):
If --tracing-address
is set to an invalid Jaeger address when deploying NGINX Service Mesh, all pods will fail to start.
Workaround:
If you use your own Zipkin or Jaeger instance with NGINX Service Mesh, make sure to correctly set --tracing-address
when deploying the mesh.
Duplicate targetPorts in a Service are disregarded (532):
NGINX Service Mesh supports a variety of Service .spec.ports\[]
configurations and honors each port list item with one exception.
If the Service lists multiple port configurations that duplicate .spec.ports\[].targetPort
, the duplicates are disregarded. Only one port configuration is honored for traffic forwarding, authentication, and encryption.
Example invalid configuration:
apiVersion: v1
kind: Service
spec:
ports:
- port: 8080
protocol: TCP
targetPort: 55555
- port: 9090
protocol: TCP
targetPort: 55555
Workaround:
No workaround exists outside of reconfiguring the Service and application. The Service must use unique .spec.ports[].targetPort
values (open up multiple ports on the application workload) or route all traffic to the application workload through the same Service port.
NGINX Service Mesh DNS Suffix support (519):
NGINX Service Mesh only supports the cluster.local
DNS suffix. Services such as Grafana and Prometheus will not work in clusters with a custom DNS suffix.
Workaround:
Ensure your cluster is setup with the default cluster.local
DNS suffix.
Pods can’t be created if nginx-mesh-api is unreachable (384):
If the nginx-mesh-api Pod cannot be reached by the sidecar-injector-webhook-cfg.internal.builtin.nsm.nginx
MutatingWebhookConfiguration, then all Pod creations will fail.
Workaround:
If attempting to create Pods that are not going to be injected by NGINX Service Mesh, then the simplest solution is to remove NGINX Service Mesh.
Otherwise, if the nginx-mesh-api Pod is crashing, then the user should verify that their configuration when deploying NGINX Service Mesh is valid. Reinstalling the mesh may also fix connectivity issues.