This guide assumes that you have a cluster created with Google Distributed Cloud
running in your OpenStack environment with a setup
similar to what is explained in the Deploy a bare metal cluster on
OpenStack guide. Follow that guide first before trying
these steps.
Configure the provider
The following section assumes that you are starting from a terminal window in
your local workstation.
Source the OpenStack client configuration (openrc) file. You can download
it from the OpenStack WebUI.
sourcePATH_TO_OPENRC_FILE/openrc
Create the configuration file for the OpenStack Kubernetes Cloud Provider.
cat > cloud.conf << EOF
[Global]
auth-url=${OS_AUTH_URL}
username=${OS_USERNAME}
password=${OS_PASSWORD}
region=RegionOne
tenant-name=admin
domain-id=default
# this is for using a self-signed cert if your using a CA then comment this line
# and point to the CA certificate using the "ca-file" arg
tls-Insecure=true
[LoadBalancer]
use-octavia=true
# this is generally the public network on OpenStack
floating-network-id=PUBLIC_NETWORK_ID
# this should be private network subnet where vip is allocated for the ABM nodes
subnet-id=ABM_NETWORK_SUBNET_ID
[BlockStorage]
bs-version=v2
EOF
Replace the following:
OS_AUTH_URL, OS_USERNAME,
OS_PASSWORD: These variables should be already set
in the environment by source-ing the openrc file. Thus, they will be
automatically picked up.
PUBLIC_NETWORK_ID: This is the publicly accessible
network in your OpenStack deployment from which Floating IP addresses are
allocated. It is from this network the LoadBalancer IPs for the
Kubernetes services will be assigned. You can use a
one-line command
to fetch this IP from your OpenStack environment.
ABM_NETWORK_SUBNET_ID: This is the subnet on the
private network in your OpenStack deployment from which IPs are allocated
for the VMs running Google Distributed Cloud software-only. You can use a
command similar to
Get the ID of the public network in OpenStack
to fetch this IP from your OpenStack environment.
Fetch the public floating IP address of the abm-ws VM.
exportOPENSTACK_IPS=$(openstackfloatingiplist--tags=abm_ws_floatingip-fjson)exportFLOATING_IP=$(jq-c'.[]."Floating IP Address"' <<< $OPENSTACK_IPS|tr-d'"')
Copy the cloud.conf file into the abm-ws VM in OpenStack.
scp./cloud.confubuntu@$FLOATING_IP:~
Use SSH to connect securely to the abm-ws VM and sign in as a root user.
Copy the cloud.conf files into the $HOME directory of the root user.
cp/home/ubuntu/cloud.conf$HOME
Create a Kubernetes Secret with the configuration.
# make sure the kubectl client is pointing towards your clusterexportKUBECONFIG=~/bmctl-workspace/CLUSTER_NAME/CLUSTER_NAME-kubeconfig
# store the provider configurations as a Kubernetes secret
kubectlcreatesecret-nkube-systemgenericcloud-config--from-file=cloud.conf
Install the OpenStack Cloud Provider for Kubernetes.
# create the necessary roles for the OpenStack provider
kubectlapply-fhttps://raw.githubusercontent.com/kubernetes/cloud-provider-openstack/master/manifests/controller-manager/cloud-controller-manager-roles.yaml
# create the required role-bindings for the OpenStack provider
kubectlapply-fhttps://raw.githubusercontent.com/kubernetes/cloud-provider-openstack/master/manifests/controller-manager/cloud-controller-manager-role-bindings.yaml
# create the OpenStack controller manager
kubectlapply-fhttps://raw.githubusercontent.com/kubernetes/cloud-provider-openstack/master/manifests/controller-manager/openstack-cloud-controller-manager-ds.yaml
# wait for the external IP to be assigned
kubectlgetserviceapi-server-lb
NAMETYPECLUSTER-IPEXTERNAL-IPPORT(S)AGE
api-server-lbLoadBalancer10.203.77.215172.29.249.15980:32378/TCP4m12s
Point-Of-Sales application accessed using the EXTERNAL-IP.
You can notice a new OpenStack Load Balancer being created in OpenStack by
visiting the OpenStack WebUI.
[[["Easy to understand","easyToUnderstand","thumb-up"],["Solved my problem","solvedMyProblem","thumb-up"],["Other","otherUp","thumb-up"]],[["Hard to understand","hardToUnderstand","thumb-down"],["Incorrect information or sample code","incorrectInformationOrSampleCode","thumb-down"],["Missing the information/samples I need","missingTheInformationSamplesINeed","thumb-down"],["Other","otherDown","thumb-down"]],["Last updated 2025-09-04 UTC."],[],[],null,["This guide explains how to configure the\n[OpenStack Cloud Provider for Kubernetes](https://github.com/kubernetes/cloud-provider-openstack)\nin your bare metal cluster. The OpenStack Cloud Provider must be\nconfigured to expose Kubernetes Services using the\n[OpenStack LBaaS](https://docs.openstack.org/mitaka/networking-guide/config-lbaas.html).\n\nPrerequisites\n\nThis guide assumes that you have a cluster created with Google Distributed Cloud\nrunning in your OpenStack environment with a setup\nsimilar to what is explained in the [Deploy a bare metal cluster on\nOpenStack](/kubernetes-engine/distributed-cloud/bare-metal/docs/installing/openstack-abm-install) guide. Follow that guide first before trying\nthese steps.\n\n| **Warning:** All the commands that follow assume that the environment for Google Distributed Cloud in OpenStack was setup using this [Terraform script](https://github.com/GoogleCloudPlatform/anthos-samples/tree/master/anthos-bm-openstack-terraform#terraform-example-to-create-openstack-vms-for-anthos). Therefore, the names, such as VM name, Network name, and Root user, used in the commands are what is used by the Terraform script. Adjust the commands according to your setup if you configured the OpenStack environment manually.\n\nConfigure the provider\n\nThe following section assumes that you are starting from a terminal window in\nyour local workstation.\n\n1. Source the OpenStack client configuration (`openrc`) file. You can download\n it from the OpenStack WebUI.\n\n source \u003cvar translate=\"no\"\u003ePATH_TO_OPENRC_FILE\u003c/var\u003e/openrc\n\n2. Create the configuration file for the OpenStack Kubernetes Cloud Provider.\n\n cat \u003e cloud.conf \u003c\u003c EOF\n [Global]\n auth-url=${OS_AUTH_URL}\n username=${OS_USERNAME}\n password=${OS_PASSWORD}\n region=RegionOne\n tenant-name=admin\n domain-id=default\n # this is for using a self-signed cert if your using a CA then comment this line\n # and point to the CA certificate using the \"ca-file\" arg\n tls-Insecure=true \n\n [LoadBalancer]\n use-octavia=true\n # this is generally the public network on OpenStack\n floating-network-id=\u003cvar translate=\"no\"\u003ePUBLIC_NETWORK_ID\u003c/var\u003e\n # this should be private network subnet where vip is allocated for the ABM nodes\n subnet-id=\u003cvar translate=\"no\"\u003eABM_NETWORK_SUBNET_ID\u003c/var\u003e\n\n [BlockStorage]\n bs-version=v2\n EOF\n\n Replace the following:\n - \u003cvar translate=\"no\"\u003e\u003ccode translate=\"no\" dir=\"ltr\"\u003eOS_AUTH_URL\u003c/code\u003e\u003c/var\u003e, \u003cvar translate=\"no\"\u003e\u003ccode translate=\"no\" dir=\"ltr\"\u003eOS_USERNAME\u003c/code\u003e\u003c/var\u003e, \u003cvar translate=\"no\"\u003e\u003ccode translate=\"no\" dir=\"ltr\"\u003eOS_PASSWORD\u003c/code\u003e\u003c/var\u003e: These variables should be already set in the environment by source-ing the `openrc` file. Thus, they will be automatically picked up.\n - \u003cvar translate=\"no\"\u003e\u003ccode translate=\"no\" dir=\"ltr\"\u003ePUBLIC_NETWORK_ID\u003c/code\u003e\u003c/var\u003e: This is the publicly accessible network in your OpenStack deployment from which **Floating IP addresses** are allocated. It is from this network the `LoadBalancer IPs` for the Kubernetes services will be assigned. You can use a [one-line command](https://github.com/GoogleCloudPlatform/anthos-samples/blob/master/anthos-bm-openstack-terraform/docs/openstack_cloud_provider.md#4-get-the-id-of-the-public-network-in-openstack) to fetch this IP from your OpenStack environment.\n - \u003cvar translate=\"no\"\u003e\u003ccode translate=\"no\" dir=\"ltr\"\u003eABM_NETWORK_SUBNET_ID\u003c/code\u003e\u003c/var\u003e: This is the subnet on the private network in your OpenStack deployment from which IPs are allocated for the VMs running Google Distributed Cloud software-only. You can use a command similar to [Get the ID of the public network in OpenStack](https://github.com/GoogleCloudPlatform/anthos-samples/blob/master/anthos-bm-openstack-terraform/docs/openstack_cloud_provider.md#5-get-the-id-of-the-subnetwork-connecting-the-anthos-on-bare-metal-vms-in-openstack) to fetch this IP from your OpenStack environment.\n\n | **Note:** Edit the `cloud.conf` file to meet your needs and environment. What is shown here is only an example. For more information about all configuration parameters, see the [OpenStack Cloud Provider docs](https://github.com/kubernetes/cloud-provider-openstack/blob/master/docs/openstack-cloud-controller-manager/using-openstack-cloud-controller-manager.md#config-openstack-cloud-controller-manager).\n3. Fetch the **public floating IP address** of the `abm-ws` VM.\n\n export OPENSTACK_IPS=$(openstack floating ip list --tags=abm_ws_floatingip -f json)\n export FLOATING_IP=$(jq -c '.[].\"Floating IP Address\"' \u003c\u003c\u003c $OPENSTACK_IPS | tr -d '\"')\n\n4. Copy the `cloud.conf` file into the `abm-ws` VM in OpenStack.\n\n scp ./cloud.conf ubuntu@$FLOATING_IP:~\n\n | **Note:** If you have public key authentication configured for your VM use the `\"-o IdentitiesOnly=yes -i \u003cPATH_TO_KEY\u003e\"` flags with the SCP/SSH commands.\n5. Use SSH to connect securely to the `abm-ws` VM and sign in as a `root` user.\n\n The `root` user as configured by the\n [Terraform scripts](https://github.com/GoogleCloudPlatform/anthos-samples/tree/master/anthos-bm-openstack-terraform#terraform-example-to-create-openstack-vms-for-anthos)\n is `abm`. \n\n ssh ubuntu@$FLOATING_IP\n sudo -u abm -i\n\n6. Copy the `cloud.conf` files into the `$HOME` directory of the `root` user.\n\n cp /home/ubuntu/cloud.conf $HOME\n\n7. Create a `Kubernetes Secret` with the configuration.\n\n # make sure the kubectl client is pointing towards your cluster\n export KUBECONFIG=~/bmctl-workspace/\u003cvar translate=\"no\"\u003eCLUSTER_NAME\u003c/var\u003e/\u003cvar translate=\"no\"\u003eCLUSTER_NAME\u003c/var\u003e-kubeconfig\n\n # store the provider configurations as a Kubernetes secret\n kubectl create secret -n kube-system generic cloud-config --from-file=cloud.conf\n\n8. Install the OpenStack Cloud Provider for Kubernetes.\n\n # create the necessary roles for the OpenStack provider\n kubectl apply -f https://raw.githubusercontent.com/kubernetes/cloud-provider-openstack/master/manifests/controller-manager/cloud-controller-manager-roles.yaml\n\n # create the required role-bindings for the OpenStack provider\n kubectl apply -f https://raw.githubusercontent.com/kubernetes/cloud-provider-openstack/master/manifests/controller-manager/cloud-controller-manager-role-bindings.yaml\n\n # create the OpenStack controller manager\n kubectl apply -f https://raw.githubusercontent.com/kubernetes/cloud-provider-openstack/master/manifests/controller-manager/openstack-cloud-controller-manager-ds.yaml\n\nValidate the OpenStack integration\n\n1. Deploy the sample\n [Point-Of-Sales application](https://github.com/GoogleCloudPlatform/point-of-sale).\n\n kubectl apply -f https://raw.githubusercontent.com/GoogleCloudPlatform/anthos-samples/master/anthos-bm-openstack-terraform/resources/point-of-sales.yaml\n\n2. Verify if the application pods are running.\n\n kubectl get pods\n\n Expected output: \n\n NAME READY STATUS RESTARTS AGE\n api-server-7db4777f7f-zflk5 1/1 Running 0 74s\n inventory-58c6fb5568-dqk2x 1/1 Running 0 74s\n payments-68d5d65d5c-5mjl6 1/1 Running 0 74s\n\n3. Exposed the application through a service of type `LoadBalancer`.\n\n kubectl apply -f https://raw.githubusercontent.com/GoogleCloudPlatform/anthos-samples/master/anthos-bm-openstack-terraform/resources/point-of-sales-service.yaml\n\n4. Try accessing the service from a browser.\n\n # wait for the external IP to be assigned\n kubectl get service api-server-lb\n\n NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE\n api-server-lb LoadBalancer 10.203.77.215 172.29.249.159 80:32378/TCP 4m12s\n\n Point-Of-Sales application accessed using the `EXTERNAL-IP`.\n\n You can notice a new **OpenStack Load Balancer** being created in OpenStack by\n visiting the OpenStack WebUI."]]