openstack-helm/doc/source/install/developer/all-in-one.rst
Pete Birley 7421dcb36f Kubernetes: bump version to K8s v1.6.7
This PS moves the K8s Version to 1.6.7.

Change-Id: I5a2b871119429ac90a5a284ecc79ebca00dea1ff
2017-07-09 17:11:29 -05:00

6.3 KiB

All-in-One

Overview

Below are some instructions and suggestions to help you get started with a Kubeadm All-in-One environment on Ubuntu 16.04. Also tested on Centos and Fedora.

Requirements

System Requirements

The minimum requirements for using the Kubeadm-AIO environment depend on the desired backend for persistent volume claims.

For NFS, the minimum system requirements are:

  • 8GB of RAM
  • 4 Cores
  • 48GB HDD

For Ceph, the minimum system requirements are:

  • 16GB of RAM
  • 8 Cores
  • 48GB HDD

This guide covers the minimum number of requirements to get started. For most users, the main prerequisites are to install the most recent versions of Kubectl and Helm.

Setup etc/hosts

HOST_IFACE=$(ip route | grep "^default" | head -1 | awk '{ print $5 }')
LOCAL_IP=$(ip addr | awk "/inet/ && /${HOST_IFACE}/{sub(/\/.*$/,\"\",\$2); print \$2}")
cat << EOF | sudo tee -a /etc/hosts
${LOCAL_IP} $(hostname)
EOF

Packages

Install the latest versions of Docker, Network File System, Git, Make & Curl if necessary

sudo apt-get update -y
sudo apt-get install -y --no-install-recommends -qq \
        curl \
        docker.io \
        nfs-common \
        git \
        make

Kubectl

Download and install kubectl, the command line interface for running commands against your Kubernetes cluster.

export KUBE_VERSION=v1.6.7
export HELM_VERSION=v2.5.0
export TMP_DIR=$(mktemp -d)

curl -sSL https://storage.googleapis.com/kubernetes-release/release/${KUBE_VERSION}/bin/linux/amd64/kubectl -o ${TMP_DIR}/kubectl
chmod +x ${TMP_DIR}/kubectl
sudo mv ${TMP_DIR}/kubectl /usr/local/bin/kubectl

Helm

Download and install Helm, the package manager for Kubernetes

curl -sSL https://storage.googleapis.com/kubernetes-helm/helm-${HELM_VERSION}-linux-amd64.tar.gz | tar -zxv --strip-components=1 -C ${TMP_DIR}
sudo mv ${TMP_DIR}/helm /usr/local/bin/helm
rm -rf ${TMP_DIR}

OpenStack-Helm

Using git, clone the repository that holds all of the OpenStack service charts.

git clone https://github.com/openstack/openstack-helm.git
cd openstack-helm

Setup Helm client

Initialize the helm client and start listening on localhost:8879. Once the helm client is available, add the local repository to the helm client. Use helm [command] --help for more information about the Helm commands.

helm init --client-only
helm serve &
helm repo add local http://localhost:8879/charts
helm repo remove stable

Make

The provided Makefile in OpenStack-Helm will perform the following:

  • Lint: Validate that your helm charts have no basic syntax errors
  • Package: Each chart will be compiled into a helm package that will contain all of the resource definitions necessary to run an application,tool, or service inside of a Kubernetes cluster.
  • Push: Push the Helm packages to your local Helm repository

Run make from the root of the openstack-helm repository:

make

Kubeadm-AIO Container

Build

Using the Dockerfile defined in tools/kubeadm-aio directory, build the 'openstackhelm/kubeadm-aio:v1.6.7' image.

export KUBEADM_IMAGE=openstackhelm/kubeadm-aio:v1.6.7
sudo docker build --pull -t ${KUBEADM_IMAGE} tools/kubeadm-aio

Deploy

After the image is built, execute the kubeadm-aio-launcher script which creates a single node Kubernetes environment by default with Helm, Calico, an NFS PVC provisioner with appropriate RBAC rules and node labels to start developing. The following deploys the Kubeadm-AIO environment. It should be noted these commands may take a few minutes to execute. The output of these commands is displayed during execution.

export KUBE_VERSION=v1.6.7
./tools/kubeadm-aio/kubeadm-aio-launcher.sh
export KUBECONFIG=${HOME}/.kubeadm-aio/admin.conf
mkdir -p  ${HOME}/.kube
cat ${KUBECONFIG} > ${HOME}/.kube/config

Helm Chart Installation

Using the Helm packages previously pushed to the local Helm repository, run the following commands to instruct tiller to create an instance of the given chart. During installation, the helm client will print useful information about resources created, the state of the Helm releases, and whether any additional configuration steps are necessary.

Helm Install Examples

The below snippet will install the given chart name from the local repository using the default values. These services must be installed first, as the OpenStack services depend upon them.

helm install --name=mariadb local/mariadb --namespace=openstack
helm install --name=memcached local/memcached --namespace=openstack
helm install --name=etcd-rabbitmq local/etcd --namespace=openstack
helm install --name=rabbitmq local/rabbitmq --namespace=openstack
helm install --name=ingress local/ingress --namespace=openstack

Once the OpenStack infrastructure components are installed and running, the OpenStack services can be installed. In the below examples the default values that would be used in a production-like environment have been overridden with more sensible values for the All-in-One environment using the --values and --set options.

helm install --name=keystone local/keystone --namespace=openstack
helm install --name=glance local/glance --namespace=openstack \
  --values=./tools/overrides/mvp/glance.yaml
helm install --name=nova local/nova --namespace=openstack \
  --values=./tools/overrides/mvp/nova.yaml \
  --set=conf.nova.libvirt.nova.conf.virt_type=qemu
helm install --name=neutron local/neutron \
  --namespace=openstack --values=./tools/overrides/mvp/neutron.yaml
helm install --name=horizon local/horizon --namespace=openstack \
  --set=network.enable_node_port=true

Once the install commands have been issued, executing the following will provide insight into the services' deployment status.

watch kubectl get pods --namespace=openstack

Once the pods all register as Ready, the OpenStack services should be ready to receive requests.