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StarlingX/Docs and Infra/InstallationGuides/virtual-AIO-Duplex


DEPRECATED - Please do not edit.

Description

The All-In-One Duplex (AIO-DX) deployment option provides all three cloud functions (controller, compute, and storage) on two servers. Use the virtual installation to install one or many virtual servers (VMs) on a single physical host machine.

TODO: any addition info bits needed in intro?

AIO-DUPLEX Diagram


Physical host requirements

ToDo - Same as AIO-SIMPLEX

Hardware requirements

ToDo - Same as AIO-SIMPLEX

Software requirements

ToDo - Same as AIO-SIMPLEX

Setting up the host

ToDo - Same as AIO-SIMPLEX



Prepare the virtual environment and servers

Prepare the virtual environment and virtual servers with the following steps:

TODO: Number steps

Setup virtual platform networks for virtual deployment:

bash setup_network.sh 


Create the XML definitions for the virtual servers required by this configuration option.
This will create the XML virtual server definition for:

  • duplex-controller-0
  • duplex-controller-1


Caution icon.svg CAUTION

The following command will also start the X-based graphical virt-manager application; if their is no X-server present then errors will occur.
Caution icon.svg NOTE

The following command will also start/virtually-powered-on the 'duplex-controller-0' virtual server.
bash setup_configuration.sh -c duplex -i ./bootimage.iso      



StarlingX Kubernetes

TODO: sentence to intro this section

Installing the StarlingX Kubernetes platform

Install software on controller-0

The controller-0 virtual server, 'duplex-controller-0', has been started/virtually-powered-on by the previous 'setup_configuration.sh' command.

Attach to the console of virtual controller-0 and select the appropriate installer menu options in order to start the non-interactive install of StarlingX software on controller-0.

Caution icon.svg WARNING

When entering the console it is very easy to miss the first installer menu selection; use ESC to go to previous menus, in order to ensure you are at the first installer menu selection.
virsh console duplex-controller-0

Installer Menu Selections:

  • First Menu
    • Select 'All-in-one Controller Configuration'
  • Second Menu
    • Select 'Graphical Console'
  • Third Menu
    • Select 'Standard Security Profile'


Wait for non-interactive install of software to complete and server to reboot.
This can take 5-10 mins depending on performance of HOST machine.

Bootstrap system on controller-0

Login with 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:


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


Ansible is used to bootstrap StarlingX on Controller-0:

  • The default Ansible inventory file, /etc/ansible/hosts, contains a single host, localhost.
  • The Ansible bootstrap playbook is at /usr/share/ansible/stx-ansible/playbooks/bootstrap/bootstrap.yml .
  • The default configuration values for the bootstrap playbook are in /usr/share/ansible/stx-ansible/playbooks/bootstrap/host_vars/default.yml .
  • By default Ansible looks for and imports user configuration override files for hosts in the sysadmin home directory ($HOME), e.g. $HOME/<hostname>.yml .


Specify the user configuration override file for the ansible bootstrap playbook, by copying the above default.yml file to $HOME/localhost.yml and edit the configurable values as desired, based on the commented instructions in the file.
or
Simply create the minimal user configuration override file as shown 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: <sysadmin-password>
ansible_become_pass: <sysadmin-password>
EOF

Run the Ansible bootstrap playbook:

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

Wait for Ansible bootstrap playbook to complete.
This can take 5-10 mins depending on performance of HOST machine.


Configure controller-0

Acquire admin credentials:

source /etc/platform/openrc


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


Configure NTP Servers for network time synchronization:

Caution icon.svg Warning

In virtual environment this can sometimes cause Ceph’s clock skew alarms. Moreover, clock of virtual instances is synchronized with the host clock so it is not absolutely required to configure NTP here..
system ntp-modify ntpservers=0.pool.ntp.org,1.pool.ntp.org


OPTIONALLY for Kubernetes, i.e. if planning on using SRIOV network attachments in application containers, or
REQUIRED for OpenStack,
configure data interfaces for controller-0:

# For Kubernetes SRIOV network attachments

# configure SRIOV device plugin
system host-label-assign controller-0 sriovdp=enabled
# If planning on running DPDK in containers on this hosts, configure number of 1G Huge pages required on both NUMA nodes
system host-memory-modify controller-0 0 -1G 100
system host-memory-modify controller-0 1 -1G 100


# For both Kubernetes and OpenStack

DATA0IF=eth1000
DATA1IF=eth1001
export COMPUTE=controller-0
PHYSNET0='physnet0'
PHYSNET1='physnet1'
SPL=/tmp/tmp-system-port-list
SPIL=/tmp/tmp-system-host-if-list
system host-port-list ${COMPUTE} --nowrap > ${SPL}
system host-if-list -a ${COMPUTE} --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 ${COMPUTE} ${DATA0IFUUID}
system host-if-modify -m 1500 -n data1 -c data ${COMPUTE} ${DATA1IFUUID}
system interface-datanetwork-assign ${COMPUTE} ${DATA0IFUUID} ${PHYSNET0}
system interface-datanetwork-assign ${COMPUTE} ${DATA1IFUUID} ${PHYSNET1}

Add an OSD on controller-0 for ceph:

echo ">>> Add OSDs to primary tier"
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


OpenStack-specific host configuration

Caution icon.svg OpenStack-ONLY

The following configuration is only required if the OpenStack application (stx-openstack) will be installed.


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


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.


For OpenStack Only, setup disk partition for nova-local volume group, needed for stx-openstack nova ephemeral disks.

export COMPUTE=controller-0

echo ">>> Getting root disk info"
ROOT_DISK=$(system host-show ${COMPUTE} | grep rootfs | awk '{print $4}')
ROOT_DISK_UUID=$(system host-disk-list ${COMPUTE} --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 ${COMPUTE} ${ROOT_DISK_UUID} ${NOVA_SIZE})
NOVA_PARTITION_UUID=$(echo ${NOVA_PARTITION} | grep -ow "| uuid | [a-z0-9\-]* |" | awk '{print $4}')
system host-lvg-add ${COMPUTE} nova-local
system host-pv-add ${COMPUTE} nova-local ${NOVA_PARTITION_UUID}
sleep 2

echo ">>> Wait for partition $NOVA_PARTITION_UUID to be ready."
while true; do system host-disk-partition-list $COMPUTE --nowrap | grep $NOVA_PARTITION_UUID | grep Ready; if [ $? -eq 0 ]; then break; fi; sleep 1; done



Unlock controller-0

Unlock controller-0 in order to bring it into service:

system host-unlock controller-0

Controller-0 will reboot in order to apply configuration change and come into service.
This can take 5-10 mins depending on performance of HOST machine.


Install software on controller-1 node

Power on the controller-1 virtual server, 'duplex-controller-1', and force it to network boot by pressing F12 and selecting 'lan' as the alternative boot option.

virsh start duplex-controller-1

Attach to the console of virtual controller-1:

virus console duplex-controller-1

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


On console of controller-0,
list hosts to see newly discovered controller-1 host, i.e. host with hostname of None:

system host-list
+----+--------------+-------------+----------------+-------------+--------------+
| id | hostname     | personality | administrative | operational | availability |
+----+--------------+-------------+----------------+-------------+--------------+
| 1  | controller-0 | controller  | unlocked       | enabled     | available    |
| 2  | None         | None        | locked         | disabled    | offline      |
+----+--------------+-------------+----------------+-------------+--------------+

Using the host id, set the personality of this host to 'controller':

system host-update 2 personality=controller

Wait for the install of software 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 mins depending on performance of 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

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

OAM_IF= enp7s1
MGMT_IF= enp7s2
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 $MGMT_IF cluster-host


OPTIONALLY for Kubernetes, i.e. if planning on using SRIOV network attachments in application containers, or
REQUIRED for OpenStack,
configure data interfaces for controller-1:

# For Kubernetes SRIOV network attachments

# configure SRIOV device plugin
system host-label-assign controller-1 sriovdp=enabled
# If planning on running DPDK in containers on this hosts, configure number of 1G Huge pages required on both NUMA nodes
system host-memory-modify controller-1 0 -1G 100
system host-memory-modify controller-1 1 -1G 100


# For both Kubernetes and OpenStack

DATA0IF=eth1000
DATA1IF=eth1001
export COMPUTE=controller-1
PHYSNET0='physnet0'
PHYSNET1='physnet1'
SPL=/tmp/tmp-system-port-list
SPIL=/tmp/tmp-system-host-if-list
system host-port-list ${COMPUTE} --nowrap > ${SPL}
system host-if-list -a ${COMPUTE} --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 ${COMPUTE} ${DATA0IFUUID}
system host-if-modify -m 1500 -n data1 -c data ${COMPUTE} ${DATA1IFUUID}
system interface-datanetwork-assign ${COMPUTE} ${DATA0IFUUID} ${PHYSNET0}
system interface-datanetwork-assign ${COMPUTE} ${DATA1IFUUID} ${PHYSNET1}

Add an OSD on controller-1 for ceph:

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

Caution icon.svg OpenStack-ONLY

The following configuration is only required if the OpenStack application (stx-openstack) will be installed.


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


For OpenStack Only, setup disk partition for nova-local volume group, needed for stx-openstack nova ephemeral disks.

export COMPUTE=controller-1

echo ">>> Getting root disk info"
ROOT_DISK=$(system host-show ${COMPUTE} | grep rootfs | awk '{print $4}')
ROOT_DISK_UUID=$(system host-disk-list ${COMPUTE} --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 ${COMPUTE} ${ROOT_DISK_UUID} ${NOVA_SIZE})
NOVA_PARTITION_UUID=$(echo ${NOVA_PARTITION} | grep -ow "| uuid | [a-z0-9\-]* |" | awk '{print $4}')
system host-lvg-add ${COMPUTE} nova-local
system host-pv-add ${COMPUTE} nova-local ${NOVA_PARTITION_UUID}
sleep 2

echo ">>> Wait for partition $NOVA_PARTITION_UUID to be ready."
while true; do system host-disk-partition-list $COMPUTE --nowrap | grep $NOVA_PARTITION_UUID | grep Ready; if [ $? -eq 0 ]; then break; fi; sleep 1; done



Unlock controller-1

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

system host-unlock controller-1

Controller-1 will reboot in order to apply configuration change and come into service.
This can take 5-10 mins depending on performance of HOST machine.

When it completes, your Kubernetes Cluster is up and running.


Accessing StarlingX Kubernetes

Use Local/Remote CLIs, GUIs and/or REST APIs to access and manage StarlingX Kubernetes and hosted containerized applications. See details on accessing the StarlingX Kubernetes Cluster here.


StarlingX OpenStack

Install StarlingX OpenStack


Other than the OpenStack-specific configurations required in the underlying StarlingX/Kubernetes infrastructure done in the above installation steps for the StarlingX Kubernetes Platform, the installation of containerized OpenStack is independent of deployment configuration and can be found here.



Access StarlingX OpenStack

Use Local/Remote CLIs, GUIs and/or REST APIs to access and manage StarlingX OpenStack and hosted virtualized applications. See details on accessing StarlingX OpenStack here.