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vRealize Operations – Monitoring Kubernetes with Prometheus and Telegraf

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In this post, I will cover how to deploy Prometheus and the Telegraf exporter and configure so that the data can be collected by vRealize Operations.

Overview

Delivers intelligent operations management with application-to-storage visibility across physical, virtual, and cloud infrastructures. Using policy-based automation, operations teams automate key processes and improve the IT efficiency.

Is an open-source systems monitoring and alerting toolkit. Prometheus collects and stores its metrics as time series data, i.e. metrics information is stored with the timestamp at which it was recorded, alongside optional key-value pairs called labels.

There are several libraries and servers which help in exporting existing metrics from third-party systems as Prometheus metrics. This is useful for cases where it is not feasible to instrument a given system with Prometheus metrics directly (for example, HAProxy or Linux system stats).

Telegraf is a plugin-driven server agent written by the folks over at InfluxData for collecting & reporting metrics. By using the Telegraf exporter, the following Kubernetes metrics are supported:

Why do it this way with three products?

You can actually achieve this with two products (vROPs and cAdvisor for example). Using vRealize Operations and a metric exporter that the data can be grabbed from in the Kubernetes cluster. By default, Kubernetes offers little in the way of metrics data until you install an appropriate package to do so.

Many customers have now decided upon using Prometheus for their metrics needs in their Modern Applications world due to the flexibility it offers.

Therefore, this integration provides a way for vRealize Operations to collect the data through an existing Prometheus deploy and enrich the data further by providing a context-aware relationship view between your virtualisation platform and the Kubernetes platform which runs on top of it.

vRealize Operations Management Pack for Kubernetes supports a number of Prometheus exporters in which to provide the relevant data. In this blog post we will focus on Telegraf.

You can view sample deployments here for all the supported types. This blog will show you an end-to-end setup and deployment.

Prerequisites
  • Administrative access to a vRealize Operations environment
  • Access to a Kubernetes cluster that you want to monitor
  • Install Helm if you have not already got it setup on the machine which has access to your Kubernetes cluster
  • Clone this GitHub repo to your machine to make life easier
git clone https://github.com/saintdle/vrops-prometheus-telegraf.git
vrops - git clone saintdle vrops-prometheus-telegraf.git
Information Gathering

Note down the following information:

  • Cluster API Server information
kubectl cluster-info

vROPs - kubectl cluster-info

  • Access details for the Kubernetes cluster
    • Basic Authentication – Uses HTTP basic authentication to authenticate API requests through authentication plugins.
    • Client Certification Authentication – Uses client certificates to authenticate API requests through authentication plugins.
    • Token Authentication – Uses bearer tokens to authenticate API requests through authentication plugin

In this example I will be using “Client Certification Authentication” using my current authenticated user by running:

kubectl config view --minify --raw

vROPs - kubectl config view --minify --raw

  • Get your node names and IP addresses
kubectl get nodes -o wide

vROPs - kubectl get nodes -o wide

Install the Telegraf Kubernetes Plugin

Continue reading vRealize Operations – Monitoring Kubernetes with Prometheus and Telegraf

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Upgrading the vSphere CSI Driver (Storage Container Plugin) from v2.1.0 to latest

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In this post I’m just documenting the steps on how to upgrade the vSphere CSI Driver, especially if you must make a jump in versioning to the latest version.

Upgrade from pre-v2.3.0 CSI Driver version to v2.3.0

You need to figure out what version of the vSphere CSI Driver you are running.

For me it was easy as I could look up the Tanzu Kubernetes Grid release notes. Please refer to your deployment manifests in your cluster. If you are still unsure, contact VMware Support for assistance.

Then you need to find your manifests for your associated version. You can do this by viewing the releases by tag. 

Then remove the resources created by the associated manifests. Below are the commands to remove the version 2.1.0 installation of the CSI.

kubectl delete -f https://raw.githubusercontent.com/kubernetes-sigs/vsphere-csi-driver/v2.1.0/manifests/latest/vsphere-7.0u1/vanilla/deploy/vsphere-csi-controller-deployment.yaml

kubectl delete -f https://raw.githubusercontent.com/kubernetes-sigs/vsphere-csi-driver/v2.1.0/manifests/latest/vsphere-7.0u1/vanilla/deploy/vsphere-csi-node-ds.yaml

kubectl delete -f https://raw.githubusercontent.com/kubernetes-sigs/vsphere-csi-driver/v2.1.0/manifests/latest/vsphere-7.0u1/vanilla/rbac/vsphere-csi-controller-rbac.yaml

vsphere-csi - delete manifests

Now we need to create the new namespace, “vmware-system-csi”, where all new and future vSphere CSI Driver components will run. Continue reading Upgrading the vSphere CSI Driver (Storage Container Plugin) from v2.1.0 to latest

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First Look – Setup Tanzu Build Services and rebuilding Pac-Man

Kubernetes, VMware, , ,

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This blog post will detail how to setup Tanzu Build Services in a test environment, and then create a container image from a dockerfile, fixing several vulnerabilities compared to the current container image.

What is Tanzu Build Service?
Tanzu Build Service uses the open-source Cloud Native Buildpacks project to turn application source code into container images. 

Build Service executes reproducible builds that align with modern container standards, and additionally keeps image resources up-to-date. It does so by leveraging Kubernetes infrastructure with kpack, a Cloud Native Buildpacks Platform, to orchestrate the image lifecycle. 

Build Service helps you develop and automate containerized software workflows securely and at scale.

You can read more about the Tanzu Build Services concepts here.

Pre-Reqs

Have an accessible Image Registry to both your local client and your Kubernetes cluster.

  • I used Dockerhub for my lab environment.

Install the Carvel tools.

  • kapp is a deployment tool that allows users to manage Kubernetes resources in bulk.
  • ytt is a templating tool that understands YAML structure.
  • kbld is needed to map relocated images to k8s config.
  • imgpkg is tool that relocates container images and pulls the release configuration files.
brew tap vmware-tanzu/carvel

brew install ytt kbld kapp imgpkg kwt vendir

Install the kp cli tool.

# Download from the Tanzu Network pages

chmod +x kp-linux-0.4.0 
sudo mv kp-linux-0.4.0 /usr/bin/local/kp

# Install using Brew

brew tap vmware-tanzu/kpack-cli
brew install kp

# Download from GitHub Releases Page
curl -LJO https://github.com/vmware-tanzu/kpack-cli/releases/download/v0.4.2/kp-linux-0.4.2
chmod +x kp-linux-0.4.2
sudo mv kp-linux-0.4.2 /usr/bin/local/kp
Installing Tanzu Build Services

Log in to your registry that will host the Build Services containers and be used by your Kubernetes cluster Continue reading First Look – Setup Tanzu Build Services and rebuilding Pac-Man

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Tanzu Kubernetes Grid – How to edit Node resources and Scale a Cluster Vertically With kubectl

VMware, Kubernetes, , , ,

In this blog post I am going to walk you through how to edit the Machine Resource configurations for nodes deployed by Tanzu Kubernetes Grid.

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Example Issue – Disk Pressure

In my environment, I found I needed to alter my node resources, as several Pods were getting the evicted status in my cluster.

By running a describe on the pod, I could see the failure message was due to the node condition DiskPressure.

  • If you need to clean up a high number of pods across namespaces in your environment, see this blog post.
kubectl describe pod {name}

TKG - kubectl describe pod - failed - evicted - pod the node had condition disk pressure

I then looked at the node that the pod was scheduled too. (You can see this in the above screenshot, 4th line “node”).

Below we can see that on the node, Kubelet has tainted the node to stop further pods from being scheduled to this node.

In the events we see the message “Attempting to reclaim ephemeral-storage”

TKG - kubectl describle node - disk pressure

Configuring resources for Tanzu Kubernetes Grid nodes

First you will need to log into your Tanzu Kubernetes Grid Management Cluster, that was used to deploy the Workload (Guest) cluster. As this controls cluster deployments and holds the necessary bootstrap and machine creation configuration.

Once logged in, locate the existing VsphereMachineTemplate for your chosen cluster. Each cluster will have two configurations (one for Control Plane nodes, one for Compute plane/worker nodes).

If you have deployed TKG into a public cloud, then you can use the following types instead, and continue to follow this article as the theory is the same regardless of where you have deployed to:

  • AWSMachineTemplate on Amazon EC2
  • AzureMachineTemplate on Azure
kubectl get VsphereMachineTemplate

TKG - kubectl get VsphereMachineTemplate

You can attempt to directly alter this file, however, when trying to save the edited file, you will be presented with the following error message:

kubectl edit VsphereMachineTemplate tkg-wld-01-worker

error: vspheremachinetemplates.infrastructure.cluster.x-k8s.io "tkg-wld-01-worker" could not be patched: admission webhook "validation.vspheremachinetemplate.infrastructure.x-k8s.io" denied the request: spec: Forbidden: VSphereMachineTemplateSpec is immutable

TKG - kubectl edit VsphereMachineTemplate - Forbidden- VSphereMachineTemplateSpec is immutable

Instead, you must output the configuration to a local file and edit it. Also, you will need to remove the following fields if you are using my below method. Continue reading Tanzu Kubernetes Grid – How to edit Node resources and Scale a Cluster Vertically With kubectl