Install StarlingX Kubernetes on Virtual AIO-DX

This section describes the steps to install the StarlingX Kubernetes platform on a StarlingX R4.0 virtual All-in-one Duplex deployment configuration.

Install software on controller-0

In the last step of Prepare Host and Environment, the controller-0 virtual server ‘duplex-controller-0’ was started by the setup_configuration.sh command.

On the host, attach to the console of virtual controller-0 and select the appropriate installer menu options to start the non-interactive install of StarlingX software on controller-0.

Note

When entering the console, it is very easy to miss the first installer menu selection. Use ESC to navigate to previous menus, to ensure you are at the first installer menu.

virsh console duplex-controller-0

Make the following menu selections in the installer:

  1. First menu: Select ‘All-in-one Controller Configuration’

  2. Second menu: Select ‘Serial Console’

Wait for the non-interactive install of software to complete and for the server to reboot. This can take 5-10 minutes, depending on the performance of the host machine.

Bootstrap system on controller-0

On virtual controller-0:

  1. Log in using the username / password of “sysadmin” / “sysadmin”. When logging in for the first time, you will be forced to change the password.

    Login: sysadmin
    Password:
    Changing password for sysadmin.
    (current) UNIX Password: sysadmin
    New Password:
    (repeat) New Password:
    
  2. External connectivity is required to run the Ansible bootstrap playbook.

    export CONTROLLER0_OAM_CIDR=10.10.10.3/24
    export DEFAULT_OAM_GATEWAY=10.10.10.1
    sudo ip address add $CONTROLLER0_OAM_CIDR dev enp7s1
    sudo ip link set up dev enp7s1
    sudo ip route add default via $DEFAULT_OAM_GATEWAY dev enp7s1
    
  3. Specify user configuration overrides for the Ansible bootstrap playbook.

    Ansible is used to bootstrap StarlingX on controller-0. Key files for Ansible configuration are:

    /etc/ansible/hosts

    The default Ansible inventory file. Contains a single host: localhost.

    /usr/share/ansible/stx-ansible/playbooks/bootstrap.yml

    The Ansible bootstrap playbook.

    /usr/share/ansible/stx-ansible/playbooks/host_vars/bootstrap/default.yml

    The default configuration values for the bootstrap playbook.

    sysadmin home directory ($HOME)

    The default location where Ansible looks for and imports user configuration override files for hosts. For example: $HOME/<hostname>.yml.

    Important

    Some Ansible bootstrap parameters cannot be changed or are very difficult to change after installation is complete.

    Review the set of install-time-only parameters before installation and confirm that your values for these parameters are correct for the desired installation.

    Refer to Ansible install-time-only parameters for details.

    Specify the user configuration override file for the Ansible bootstrap playbook using one of the following methods:

    • Copy the default.yml file listed above to $HOME/localhost.yml and edit the configurable values as desired (use the commented instructions in the file).

    or

    • Create the minimal user configuration override file as shown in the example below:

      cd ~
      cat <<EOF > localhost.yml
      system_mode: duplex
      
      dns_servers:
        - 8.8.8.8
        - 8.8.4.4
      
      external_oam_subnet: 10.10.10.0/24
      external_oam_gateway_address: 10.10.10.1
      external_oam_floating_address: 10.10.10.2
      external_oam_node_0_address: 10.10.10.3
      external_oam_node_1_address: 10.10.10.4
      
      admin_username: admin
      admin_password: <admin-password>
      ansible_become_pass: <sysadmin-password>
      
      # Add these lines to configure Docker to use a proxy server
      # docker_http_proxy: http://my.proxy.com:1080
      # docker_https_proxy: https://my.proxy.com:1443
      # docker_no_proxy:
      #   - 1.2.3.4
      
      EOF
      

    Refer to Ansible Bootstrap Configurations for information on additional Ansible bootstrap configurations for advanced Ansible bootstrap scenarios, such as Docker proxies when deploying behind a firewall, etc. Refer to Docker Proxy Configuration for details about Docker proxy settings.

  4. Run the Ansible bootstrap playbook:

    ansible-playbook /usr/share/ansible/stx-ansible/playbooks/bootstrap.yml
    

    Wait for Ansible bootstrap playbook to complete. This can take 5-10 minutes, depending on the performance of the host machine.

Configure controller-0

On virtual controller-0:

  1. Acquire admin credentials:

    source /etc/platform/openrc
    
  2. Configure the OAM and MGMT interfaces of controller-0 and specify the attached networks:

    OAM_IF=enp7s1
    MGMT_IF=enp7s2
    system host-if-modify controller-0 lo -c none
    IFNET_UUIDS=$(system interface-network-list controller-0 | awk '{if ($6=="lo") print $4;}')
    for UUID in $IFNET_UUIDS; do
        system interface-network-remove ${UUID}
    done
    system host-if-modify controller-0 $OAM_IF -c platform
    system interface-network-assign controller-0 $OAM_IF oam
    system host-if-modify controller-0 $MGMT_IF -c platform
    system interface-network-assign controller-0 $MGMT_IF mgmt
    system interface-network-assign controller-0 $MGMT_IF cluster-host
    
  3. Configure NTP servers for network time synchronization:

    Note

    In a virtual environment, this can sometimes cause Ceph clock skew alarms. Also, the virtual instances clock is synchronized with the host clock, so it is not absolutely required to configure NTP in this step.

    system ntp-modify ntpservers=0.pool.ntp.org,1.pool.ntp.org
    
  4. Configure Ceph storage backend

    Important

    This step required only if your application requires persistent storage.

    If you want to install the StarlingX Openstack application (stx-openstack) this step is mandatory.

    system storage-backend-add ceph --confirmed
    
  5. Configure data interfaces for controller-0.

    Important

    This step is required only if the StarlingX OpenStack application (stx-openstack) will be installed.

    1G Huge Pages are not supported in the virtual environment and there is no virtual NIC supporting SRIOV. For that reason, data interfaces are not applicable in the virtual environment for the Kubernetes-only scenario.

    For OpenStack only:

    DATA0IF=eth1000
    DATA1IF=eth1001
    export NODE=controller-0
    PHYSNET0='physnet0'
    PHYSNET1='physnet1'
    SPL=/tmp/tmp-system-port-list
    SPIL=/tmp/tmp-system-host-if-list
    system host-port-list ${NODE} --nowrap > ${SPL}
    system host-if-list -a ${NODE} --nowrap > ${SPIL}
    DATA0PCIADDR=$(cat $SPL | grep $DATA0IF |awk '{print $8}')
    DATA1PCIADDR=$(cat $SPL | grep $DATA1IF |awk '{print $8}')
    DATA0PORTUUID=$(cat $SPL | grep ${DATA0PCIADDR} | awk '{print $2}')
    DATA1PORTUUID=$(cat $SPL | grep ${DATA1PCIADDR} | awk '{print $2}')
    DATA0PORTNAME=$(cat $SPL | grep ${DATA0PCIADDR} | awk '{print $4}')
    DATA1PORTNAME=$(cat  $SPL | grep ${DATA1PCIADDR} | awk '{print $4}')
    DATA0IFUUID=$(cat $SPIL | awk -v DATA0PORTNAME=$DATA0PORTNAME '($12 ~ DATA0PORTNAME) {print $2}')
    DATA1IFUUID=$(cat $SPIL | awk -v DATA1PORTNAME=$DATA1PORTNAME '($12 ~ DATA1PORTNAME) {print $2}')
    
    system datanetwork-add ${PHYSNET0} vlan
    system datanetwork-add ${PHYSNET1} vlan
    
    system host-if-modify -m 1500 -n data0 -c data ${NODE} ${DATA0IFUUID}
    system host-if-modify -m 1500 -n data1 -c data ${NODE} ${DATA1IFUUID}
    system interface-datanetwork-assign ${NODE} ${DATA0IFUUID} ${PHYSNET0}
    system interface-datanetwork-assign ${NODE} ${DATA1IFUUID} ${PHYSNET1}
    
  6. Add an OSD on controller-0 for Ceph:

    Important

    This step requires a configured Ceph storage backend.

    system host-disk-list controller-0
    system host-disk-list controller-0 | awk '/\/dev\/sdb/{print $2}' | xargs -i system host-stor-add controller-0 {}
    system host-stor-list controller-0
    
  7. If required, and not already done as part of bootstrap, configure Docker to use a proxy server.

    1. List Docker proxy parameters:

      system service-parameter-list platform docker
      
    2. Refer to Docker Proxy Configuration for details about Docker proxy settings.

OpenStack-specific host configuration

Important

This step is required only if the StarlingX OpenStack application (stx-openstack) will be installed.

  1. For OpenStack only: Assign OpenStack host labels to controller-0 in support of installing the stx-openstack manifest/helm-charts later.

    system host-label-assign controller-0 openstack-control-plane=enabled
    system host-label-assign controller-0 openstack-compute-node=enabled
    system host-label-assign controller-0 openvswitch=enabled
    system host-label-assign controller-0 sriov=enabled
    
  2. For OpenStack only: A vSwitch is required.

    The default vSwitch is containerized OVS that is packaged with the stx-openstack manifest/helm-charts. StarlingX provides the option to use OVS-DPDK on the host, however, in the virtual environment OVS-DPDK is NOT supported, only OVS is supported. Therefore, simply use the default OVS vSwitch here.

  3. For OpenStack Only: Set up disk partition for nova-local volume group, which is needed for stx-openstack nova ephemeral disks.

    export NODE=controller-0
    
    echo ">>> Getting root disk info"
    ROOT_DISK=$(system host-show ${NODE} | grep rootfs | awk '{print $4}')
    ROOT_DISK_UUID=$(system host-disk-list ${NODE} --nowrap | grep ${ROOT_DISK} | awk '{print $2}')
    echo "Root disk: $ROOT_DISK, UUID: $ROOT_DISK_UUID"
    
    echo ">>>> Configuring nova-local"
    NOVA_SIZE=34
    NOVA_PARTITION=$(system host-disk-partition-add -t lvm_phys_vol ${NODE} ${ROOT_DISK_UUID} ${NOVA_SIZE})
    NOVA_PARTITION_UUID=$(echo ${NOVA_PARTITION} | grep -ow "| uuid | [a-z0-9\-]* |" | awk '{print $4}')
    system host-lvg-add ${NODE} nova-local
    system host-pv-add ${NODE} nova-local ${NOVA_PARTITION_UUID}
    sleep 2
    

Unlock controller-0

Unlock virtual controller-0 to bring it into service:

system host-unlock controller-0

Controller-0 will reboot in order to apply configuration changes and come into service. This can take 5-10 minutes, depending on the performance of the host machine.

Install software on controller-1 node

  1. On the host, power on the controller-1 virtual server, ‘duplex-controller-1’. It will automatically attempt to network boot over the management network:

    virsh start duplex-controller-1
    
  2. Attach to the console of virtual controller-1:

    virsh console duplex-controller-1
    

    As controller-1 VM boots, a message appears on its console instructing you to configure the personality of the node.

  3. On the console of virtual controller-0, list hosts to see the newly discovered controller-1 host (hostname=None):

    system host-list
    +----+--------------+-------------+----------------+-------------+--------------+
    | id | hostname     | personality | administrative | operational | availability |
    +----+--------------+-------------+----------------+-------------+--------------+
    | 1  | controller-0 | controller  | unlocked       | enabled     | available    |
    | 2  | None         | None        | locked         | disabled    | offline      |
    +----+--------------+-------------+----------------+-------------+--------------+
    
  4. On virtual controller-0, using the host id, set the personality of this host to ‘controller’:

    system host-update 2 personality=controller
    
  5. Wait for the software installation on controller-1 to complete, controller-1 to reboot, and controller-1 to show as locked/disabled/online in ‘system host-list’. This can take 5-10 minutes, depending on the performance of the host machine.

    system host-list
    +----+--------------+-------------+----------------+-------------+--------------+
    | id | hostname     | personality | administrative | operational | availability |
    +----+--------------+-------------+----------------+-------------+--------------+
    | 1  | controller-0 | controller  | unlocked       | enabled     | available    |
    | 2  | controller-1 | controller  | locked         | disabled    | online       |
    +----+--------------+-------------+----------------+-------------+--------------+
    

Configure controller-1

On virtual controller-0:

  1. Configure the OAM and MGMT interfaces of controller-1 and specify the attached networks. Note that the MGMT interface is partially set up automatically by the network install procedure.

    OAM_IF=enp7s1
    system host-if-modify controller-1 $OAM_IF -c platform
    system interface-network-assign controller-1 $OAM_IF oam
    system interface-network-assign controller-1 mgmt0 cluster-host
    
  2. Configure data interfaces for controller-1.

    Important

    This step is required only if the StarlingX OpenStack application (stx-openstack) will be installed.

    1G Huge Pages are not supported in the virtual environment and there is no virtual NIC supporting SRIOV. For that reason, data interfaces are not applicable in the virtual environment for the Kubernetes-only scenario.

    For OpenStack only:

    DATA0IF=eth1000
    DATA1IF=eth1001
    export NODE=controller-1
    PHYSNET0='physnet0'
    PHYSNET1='physnet1'
    SPL=/tmp/tmp-system-port-list
    SPIL=/tmp/tmp-system-host-if-list
    system host-port-list ${NODE} --nowrap > ${SPL}
    system host-if-list -a ${NODE} --nowrap > ${SPIL}
    DATA0PCIADDR=$(cat $SPL | grep $DATA0IF |awk '{print $8}')
    DATA1PCIADDR=$(cat $SPL | grep $DATA1IF |awk '{print $8}')
    DATA0PORTUUID=$(cat $SPL | grep ${DATA0PCIADDR} | awk '{print $2}')
    DATA1PORTUUID=$(cat $SPL | grep ${DATA1PCIADDR} | awk '{print $2}')
    DATA0PORTNAME=$(cat $SPL | grep ${DATA0PCIADDR} | awk '{print $4}')
    DATA1PORTNAME=$(cat  $SPL | grep ${DATA1PCIADDR} | awk '{print $4}')
    DATA0IFUUID=$(cat $SPIL | awk -v DATA0PORTNAME=$DATA0PORTNAME '($12 ~ DATA0PORTNAME) {print $2}')
    DATA1IFUUID=$(cat $SPIL | awk -v DATA1PORTNAME=$DATA1PORTNAME '($12 ~ DATA1PORTNAME) {print $2}')
    
    system datanetwork-add ${PHYSNET0} vlan
    system datanetwork-add ${PHYSNET1} vlan
    
    system host-if-modify -m 1500 -n data0 -c data ${NODE} ${DATA0IFUUID}
    system host-if-modify -m 1500 -n data1 -c data ${NODE} ${DATA1IFUUID}
    system interface-datanetwork-assign ${NODE} ${DATA0IFUUID} ${PHYSNET0}
    system interface-datanetwork-assign ${NODE} ${DATA1IFUUID} ${PHYSNET1}
    
  3. Add an OSD on controller-1 for Ceph:

    Important

    This step requires a configured Ceph storage backend

    echo ">>> Add OSDs to primary tier"
    system host-disk-list controller-1
    system host-disk-list controller-1 | awk '/\/dev\/sdb/{print $2}' | xargs -i system host-stor-add controller-1 {}
    system host-stor-list controller-1
    

OpenStack-specific host configuration

Important

This step is required only if the StarlingX OpenStack application (stx-openstack) will be installed.

  1. For OpenStack only: Assign OpenStack host labels to controller-1 in support of installing the stx-openstack manifest/helm-charts later:

    system host-label-assign controller-1 openstack-control-plane=enabled
    system host-label-assign controller-1 openstack-compute-node=enabled
    system host-label-assign controller-1 openvswitch=enabled
    system host-label-assign controller-1 sriov=enabled
    
  2. For OpenStack only: Set up disk partition for nova-local volume group, which is needed for stx-openstack nova ephemeral disks:

    export NODE=controller-1
    
    echo ">>> Getting root disk info"
    ROOT_DISK=$(system host-show ${NODE} | grep rootfs | awk '{print $4}')
    ROOT_DISK_UUID=$(system host-disk-list ${NODE} --nowrap | grep ${ROOT_DISK} | awk '{print $2}')
    echo "Root disk: $ROOT_DISK, UUID: $ROOT_DISK_UUID"
    
    echo ">>>> Configuring nova-local"
    NOVA_SIZE=34
    NOVA_PARTITION=$(system host-disk-partition-add -t lvm_phys_vol ${NODE} ${ROOT_DISK_UUID} ${NOVA_SIZE})
    NOVA_PARTITION_UUID=$(echo ${NOVA_PARTITION} | grep -ow "| uuid | [a-z0-9\-]* |" | awk '{print $4}')
    system host-lvg-add ${NODE} nova-local
    system host-pv-add ${NODE} nova-local ${NOVA_PARTITION_UUID}
    

Unlock controller-1

Unlock virtual controller-1 in order to bring it into service:

system host-unlock controller-1

Controller-1 will reboot in order to apply configuration changes and come into service. This can take 5-10 minutes, depending on the performance of the host machine.

Next steps

Your Kubernetes cluster is now up and running.

For instructions on how to access StarlingX Kubernetes see Access StarlingX Kubernetes R4.0.

For instructions on how to install and access StarlingX OpenStack see StarlingX OpenStack.