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= Installing StarlingX with containers: One node configuration =
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{{Warning|header='''Warning - Deprecated'''|body='''This wiki page is out of date and now deprecated. For the current and upcoming versions, see [https://docs.starlingx.io/deploy_install_guides/index.html StarlingX Installation and Deployment guides]'''}}
  
'''WARNING:'''
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= Documentation Contribution =
'''DO NOT EDIT THIS WIKI CONTENT.'''
 
  
The information on this wiki page is in the process of transitioning to "Deploy/Install" guides that are being created as part of the StarlingX documentation.
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You might consider contributing to StarlingX documentation if you find a bug or have a suggestions for improvement.
Consequently, do not make edits to the content in this wiki page.  If you have changes that need to be made to the installation process described on this page of
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To get started:
the wiki, contact StarlingX Documentation Team.
 
  
== History ==
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* Please use "[https://docs.starlingx.io/contributor/index.html Contribute]" guides.
 +
* Launch a bug in [https://bugs.launchpad.net/starlingx/+bugs?field.tag=stx.docs StarlingX Launchpad] with the tag ''stx.docs''.
  
* '''January 18, 2019:''' Removed Nova Cell DB Workaround - no longer required on loads built January 15th or later.
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= History =
* '''January 25, 2019:''' Configure  datanetworks in sysinv, prior to referencing it in the 'system host-if-modify/host-if-add command'. Needed on loads Jan 25, 2019 or later.
 
* '''January 29, 2019:''' Removed obsolete neutron host/interface configuration and updated DNS instructions.
 
* '''February 12, 2019:''' Add network segment range instructions for Stein: ' openstack network segment range create' supercedes 'neutron providernet-range-create’.
 
* '''April 29, 2019:''' Add instructions for controller bootstrap using Ansible playbook.
 
== Introduction ==
 
  
These instructions are for an All-in-one simplex system (AIO-SX) in VirtualBox. Other configurations are in development. Installing on bare metal is also possible, however the the process would have to be adapted for the specific hardware configuration.
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Go to [https://wiki.openstack.org/w/index.php?title=StarlingX/Containers/Installation&action=history Page > History] link if you want to:
  
'''Note''': These instructions are valid for a load built on '''January 25, 2019''' or later.
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* See the old content of this page
 
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* Compare revisions
== Building the Software ==
 
 
 
Follow the standard build process in the [https://docs.starlingx.io/developer_guide/index.html StarlingX Developer Guide].
 
 
 
Alternatively a prebuilt iso can be used, all required packages are provided by the  [http://mirror.starlingx.cengn.ca/mirror/starlingx/  StarlingX CENGN mirror]
 
 
 
== Setup the VirtualBox VM ==
 
 
 
Create a virtual machine for the system with the following options:
 
      * Type: Linux
 
      * Version: Other Linux (64-bit)
 
      * Memory size: 16384 MB
 
      * Storage:
 
        * Recommend to use VDI and dynamically allocated disks
 
        * At least two disks are required
 
          * 240GB disk for a root disk
 
          * 50GB for an OSD
 
      * System->Processors:
 
        * 4 cpu
 
      * Network:
 
        * OAM network:
 
            OAM interface must have external connectivity, for now we will use a NatNetwork
 
            * Adapter 1: NAT Network; Name: NatNetwork Follow the instructions at [[#VirtualBox Nat Networking]]
 
        * Data Network
 
            * Adapter 2: Internal Network, Name: intnet-data1; Advanced: Paravirtualized Network (virtio-net), Promiscuous Mode: Allow All
 
            * Adapter 3: Internal Network, Name: intnet-data2; Advanced: Paravirtualized Network (virtio-net), Promiscuous Mode: Allow All
 
 
 
=== VirtualBox Nat Networking ===
 
 
 
First add a NAT Network in VirtualBox:
 
  * Select File -> Preferences menu
 
  * Choose Network, "Nat Networks" tab should be selected
 
    * Click on plus icon to add a network, which will add a network named NatNetwork
 
    * Edit the NatNetwork (gear or screwdriver icon)
 
      * Network CIDR: 10.10.10.0/24 (to match OAM network specified in config_controller)
 
      * Disable "Supports DHCP"
 
      * Enable "Supports IPv6"
 
      * Select "Port Forwarding" and add any rules you desire. Some examples:
 
{| class="wikitable"
 
| Name || Protocol|| Host IP|| Host Port || Guest IP || Guest Port
 
|-
 
| controller-ssh || TCP || || 22 || 10.10.10.3 || 22
 
|-
 
| controller-http-openstack || TCP || || 31000 || 10.10.10.3 || 31000
 
|-
 
| controller-https-openstack || TCP ||  || 443 || 10.10.10.3 || 443
 
|-
 
| controller-http-platform || TCP || || 8080 || 10.10.10.3 || 8080
 
|-
 
| controller-https-platform || TCP ||  || 8443 || 10.10.10.3 || 8443
 
|}
 
 
 
== Setup Controller-0 ==
 
 
 
=== Install StarlingX ===
 
 
 
Boot the VM from the ISO media. Select the following options for installation:
 
*All-in-one Controller
 
*Graphical Console
 
*Standard Security Profile
 
 
 
Once booted, log into Controller-0 as user wrsroot, with password wrsroot. The first time you log in as wrsroot, you are required to change your password. Enter the current password (wrsroot):
 
 
 
<pre>
 
Changing password for wrsroot.
 
(current) UNIX Password: wrsroot
 
</pre>
 
 
 
Enter a new password for the wrsroot account and confirm it.
 
 
 
=== Bootstrap the controller ===
 
 
 
The following instructions are intended for local bootstrap of initial controller in virtual box. For ease of use in development and controlled test environments, passwords can be provided via command line/unencrypted text file (user override file) and wrsroot password is used for ssh authentication. In production, sensitive info should be stored in Ansible vault secret file and SSH keys instead of password should be used for authentication.
 
 
 
==== Location of controller bootstrap playbook ====
 
All StarlingX playbooks are located under the directory /usr/share/ansible/stx-ansible/playbooks. Consequently, the controller bootstrap playbook is located at:
 
/usr/share/ansible/stx-ansible/playbooks/bootstrap/.
 
 
 
==== Default bootstrap playbook settings ====
 
The default inventory file, which resides in Ansible configuration directory (i.e. /etc/ansible/hosts), contains one single host - the localhost. You can override this file using a custom hosts file and the "-i option". Doing so makes the file available for remote play through the Ansible playbook.
 
 
 
The /usr/share/ansible/stx-ansible/playbooks/bootstrap/host_vars/default.yml file specifies the default configuration parameters. You can overwrite these parameters in two ways:
 
 
 
- Using either the --extra-vars or -e options at the command line.
 
 
 
- Using an override file.
 
 
 
Using the override file is the preferred option when multiple parameters exist that need to be overwritten.
 
 
 
By default Ansible looks for and imports user override files in the wrsroot home directory ($HOME). If you want to place these files in a different location, you must specify the location by using the -e option (e.g. -e "override_files_dir=<custom-override-dir>").
 
 
 
The override file must conform to the following naming convention: <inventory_hostname>.yml
 
An example filename is localhost.yml.
 
 
 
==== Password types ====
 
For local bootstrap, two types of passwords exist:
 
 
 
- *ansible_become_pass*: a Sudo password to run tasks that require escalated privileges. Most bootstrap tasks must be run as root. Since the playbook is run by the wrsroot user, this is the wrsroot password.
 
 
 
- *admin_password*: A password used in when system commands, such as a Horizon login, are executed.
 
 
 
For remote bootstrap, if an automatic SSH login that uses an SSH key has not been set up between the Ansible control node and the target controller, another password is required:
 
 
 
- *ansible_ssh_pass*: The password used to log into the target host(s).
 
 
 
For all the passwords mentioned in this section, the defaults are set to "St8rlingX*".
 
 
 
==== Running the bootstrap playbook ====
 
To run the playbook, you need to first set up external connectivity.
 
<pre>
 
ip address add 10.10.10.3/24 dev enp0s3
 
ip link set up dev enp0s3
 
route add default gw 10.10.10.1 enp0s3
 
ping 8.8.8.8
 
</pre>
 
 
 
*Run the local playbook with all defaults or with override file /home/wrsroot/localhost.yml
 
<pre>ansible-playbook /usr/share/ansible/stx-ansible/playbooks/bootstrap/bootstrap.yml</pre>
 
 
 
Sample /home/wrsroot/localhost.yml override file. Add more (or remove) parameters or change values to your custom values as needed:
 
<pre>
 
external_oam_subnet: 10.10.10.0/24
 
external_oam_gateway_address: 10.10.10.1
 
external_oam_floating_address: 10.10.10.3
 
management_subnet: 192.168.204.0/24
 
dns_servers:
 
  - 8.8.4.4
 
admin_password: St8rlingX*
 
ansible_become_pass: St8rlingX*
 
</pre>
 
 
 
*Run the local playbook with custom wrsroot and admin passwords specified in the command line
 
<pre>ansible-playbook /usr/share/ansible/stx-ansible/playbooks/bootstrap/bootstrap.yml -e "ansible_become_pass=<custom-wrsroot-password> admin_password=<custom-admin-password>" </pre>
 
 
 
Note: As Ansible does not yet support specifying playbooks search path(s). It is necessary to specify the path to the bootstrap playbook in the command line if you're not already in that directory. A command alias called bootstrap-controller will be provided in the near future.
 
 
 
=== Provisioning the platform ===
 
 
 
==== Configure the OAM interface ====
 
<pre>
 
source /etc/platform/openrc
 
OAM_IF=enp0s3
 
system host-if-modify controller-0 $OAM_IF --networks oam -c platform
 
</pre>
 
 
 
==== Set the ntp server ====
 
 
 
<pre>
 
source /etc/platform/openrc
 
system ntp-modify ntpservers=0.pool.ntp.org,1.pool.ntp.org
 
</pre>
 
 
 
==== Configure the vswitch type (optional) ====
 
 
 
* As of March 29th 2019, OVS running in a container is deployed by default.
 
To deploy OVS-DPDK (supported only on baremetal hardware), please run the following commands:
 
 
 
<pre>
 
system modify --vswitch_type ovs-dpdk
 
system host-cpu-modify -f vswitch -p0 1 controller-0
 
# To set the vswitch type back to the default (i.e. OVS running in a container), run:
 
# system modify --vswitch_type none
 
</pre>
 
* NOTE: For virtual environments, only OVS running in a container is supported.
 
* NOTE: The vswitch type cannot be modified after controller-0 is unlocked.
 
* IMPORTANT: When deploying OVS-DPDK, VMs must be configured to use a flavor with property: hw:mem_page_size=large
 
 
 
==== Configure data interfaces ====
 
 
 
<pre>
 
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
 
source /etc/platform/openrc
 
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}')
 
 
 
# configure the datanetworks in sysinv, prior to referencing it in the 'system host-if-modify command'
 
system datanetwork-add ${PHYSNET0} vlan
 
system datanetwork-add ${PHYSNET1} vlan
 
 
 
# the host-if-modify '-p' flag is deprecated in favor of  the '-d' flag for assignment of datanetworks.
 
system host-if-modify -m 1500 -n data0 -d ${PHYSNET0} -c data ${COMPUTE} ${DATA0IFUUID}
 
system host-if-modify -m 1500 -n data1 -d ${PHYSNET1} -c data ${COMPUTE} ${DATA1IFUUID}
 
</pre>
 
 
 
==== Prepare the host for running the containerized services ====
 
 
 
* On the controller node, apply all the node labels for each controller and compute functions
 
 
 
<pre>
 
source /etc/platform/openrc
 
 
 
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
 
</pre>
 
 
 
==== Setup partitions for Controller-0 ====
 
 
 
* Create partitions on the root disk  and wait for them to be ready
 
** 24G for nova-local (mandatory).
 
<pre>
 
export COMPUTE=controller-0
 
source /etc/platform/openrc
 
 
 
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=24
 
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
 
</pre>
 
 
 
==== Extend cgts-vg (config_controller method only) ====
 
* 6G for the cgts-vg (optional). This extends the existing cgts volume group. There should be sufficient space by default)
 
<pre>
 
echo ">>>> Extending cgts-vg"
 
PARTITION_SIZE=6
 
CGTS_PARTITION=$(system host-disk-partition-add -t lvm_phys_vol ${COMPUTE} ${ROOT_DISK_UUID} ${PARTITION_SIZE})
 
CGTS_PARTITION_UUID=$(echo ${CGTS_PARTITION} | grep -ow "| uuid | [a-z0-9\-]* |" | awk '{print $4}')
 
 
 
echo ">>> Wait for partition $CGTS_PARTITION_UUID to be ready"
 
while true; do system host-disk-partition-list $COMPUTE --nowrap | grep $CGTS_PARTITION_UUID | grep Ready; if [ $? -eq 0 ]; then break; fi; sleep 1; done
 
 
 
system host-pv-add ${COMPUTE} cgts-vg ${CGTS_PARTITION_UUID}
 
sleep 2
 
 
 
echo ">>> Waiting for cgts-vg to be ready"
 
while true; do system host-pv-list ${COMPUTE} | grep cgts-vg | grep adding; if [ $? -ne 0 ]; then break; fi; sleep 1; done
 
 
 
system host-pv-list ${COMPUTE}
 
</pre>
 
 
 
==== Configure Ceph for Controller-0 ====
 
 
 
<pre>
 
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
 
</pre>
 
 
 
==== Unlock the controller ====
 
 
 
<pre>
 
system host-unlock controller-0
 
</pre>
 
 
 
* After the host unlocks, test that the ceph cluster is operational
 
 
 
<pre>
 
# Set Ceph pool replication to 1. This step applies to AIO-SX only.
 
ceph osd pool ls | xargs -i ceph osd pool set {} size 1
 
 
 
# Verify that Ceph is in good health
 
ceph -s
 
    cluster 6cb8fd30-622a-4a15-a039-b9e945628133
 
    health HEALTH_OK
 
    monmap e1: 1 mons at {controller-0=127.168.204.3:6789/0}
 
            election epoch 4, quorum 0 controller-0
 
    osdmap e32: 1 osds: 1 up, 1 in
 
            flags sortbitwise,require_jewel_osds
 
      pgmap v35: 1728 pgs, 6 pools, 0 bytes data, 0 objects
 
            39180 kB used, 50112 MB / 50150 MB avail
 
                1728 active+clean
 
</pre>
 
 
 
== Using sysinv to bring up/down the containerized services ==
 
 
 
=== Generate the stx-openstack application tarball ===
 
 
 
The [http://mirror.starlingx.cengn.ca/mirror/starlingx/master/centos/latest_docker_image_build/outputs/helm-charts/ stx-openstack application tarballs] are generated with each build on the CENGN mirror.
 
 
 
Alternatively, in a development environment, run the following command to construct the application tarballs.
 
<pre>
 
$MY_REPO_ROOT_DIR/cgcs-root/build-tools/build-helm-charts.sh
 
</pre>
 
* The resulting tarballs can be found under $MY_WORKSPACE/std/build-helm/stx.
 
* By default, the latest stable starlingx docker images are used in armada manifest. You can build the application tarball with different image versions by specifying the image record files/urls which contain the images you would like to use via option --image-record (The [http://mirror.starlingx.cengn.ca/mirror/starlingx/master/centos/ starlingx image build records] can be found on the CENGN mirror)
 
* To construct a new name of stx-openstack tarball, specify a label with --label option. The name of the stx-openstack application tarball is stx-openstack-<stx-openstack-helm rpm version>(-<label>).tgz
 
* If the build-helm-charts.sh command is unable to find the charts, run  "build-pkgs" to build the chart rpms and re-run the build-helm-charts.sh command.
 
 
 
=== Stage application for deployment ===
 
Transfer the stx-openstack application tarball onto your active controller.
 
 
 
Use sysinv to upload the application tarball.
 
 
 
<pre>
 
source /etc/platform/openrc
 
system application-upload stx-openstack-1.0-11.tgz
 
system application-list
 
</pre>
 
* stx-openstack application tarball has a metadata.yaml file which contains the app name and version. The app name and version will be extracted from the metadata.yaml when uploading. For the application tarballs that do not have app name and version included in metadata.yaml, they need to be specified via --app-name and --app-version.
 
 
 
=== Bring Up Services ===
 
Use sysinv to apply the application.
 
system application-apply stx-openstack
 
 
 
You can monitor the progress  by watching system application-list
 
watch -n 5 system application-list
 
 
 
After the "retrieving images" phase, the Armada execution logs can be tailed:
 
sudo docker exec armada_service tail -f stx-openstack-apply.log
 
 
 
=== Update Ceph pool replication (AIO-SX only) ===
 
With the application applied the containerized openstack services are now running.
 
 
 
In an AIO SX environment, you must now set Ceph pool replication for the new pools created when the application was applied:
 
<pre>
 
ceph osd pool ls | xargs -i ceph osd pool set {} size 1
 
</pre>
 
 
 
== Verify the cluster endpoints ==
 
 
 
'''Note: Do this from a new shell as a root user''' (do not source /etc/platform/openrc in that shell).
 
       
 
The 'password' should be set to the admin password which configured during config_controller.
 
 
 
<pre>
 
 
 
mkdir -p /etc/openstack
 
tee /etc/openstack/clouds.yaml << EOF
 
clouds:
 
  openstack_helm:
 
    region_name: RegionOne
 
    identity_api_version: 3
 
    endpoint_type: internalURL
 
    auth:
 
      username: 'admin'
 
      password: 'Li69nux*'
 
      project_name: 'admin'
 
      project_domain_name: 'default'
 
      user_domain_name: 'default'
 
      auth_url: 'http://keystone.openstack.svc.cluster.local/v3'
 
EOF
 
 
 
export OS_CLOUD=openstack_helm
 
openstack endpoint list
 
</pre>
 
 
 
The remaining networking steps are done using this root user.
 
 
 
== Provider/tenant networking setup ==
 
 
 
* Create the network segment ranges
 
 
 
Note: The 'physical-network' name must match name of the datanetwork configured in sysinv via the 'system datanetwork-add' command above.
 
 
 
<pre>
 
ADMINID=`openstack project list | grep admin | awk '{print $2}'`
 
PHYSNET0='physnet0'
 
PHYSNET1='physnet1'
 
 
 
openstack network segment range create ${PHYSNET0}-a --network-type vlan --physical-network ${PHYSNET0}  --minimum 400 --maximum 499 --private --project ${ADMINID}
 
 
 
openstack network segment range create  ${PHYSNET0}-b --network-type vlan  --physical-network ${PHYSNET0}  --minimum 10 --maximum 10 --shared
 
 
 
openstack network segment range create ${PHYSNET1}-a --network-type vlan  --physical-network  ${PHYSNET1} --minimum 500 --maximum 599  --private --project ${ADMINID}
 
 
 
</pre>
 
 
 
=== Tenant Networking setup ===
 
 
 
* Setup tenant networking (adapt based on lab config)
 
 
 
<pre>
 
ADMINID=`openstack project list | grep admin | awk '{print $2}'`
 
PHYSNET0='physnet0'
 
PHYSNET1='physnet1'
 
PUBLICNET='public-net0'
 
PRIVATENET='private-net0'
 
INTERNALNET='internal-net0'
 
EXTERNALNET='external-net0'
 
PUBLICSUBNET='public-subnet0'
 
PRIVATESUBNET='private-subnet0'
 
INTERNALSUBNET='internal-subnet0'
 
EXTERNALSUBNET='external-subnet0'
 
PUBLICROUTER='public-router0'
 
PRIVATEROUTER='private-router0'
 
 
 
openstack network create --project ${ADMINID} --provider-network-type=vlan --provider-physical-network=${PHYSNET0} --provider-segment=10 --share --external ${EXTERNALNET}
 
openstack network create --project ${ADMINID} --provider-network-type=vlan --provider-physical-network=${PHYSNET0} --provider-segment=400 ${PUBLICNET}
 
openstack network create --project ${ADMINID} --provider-network-type=vlan --provider-physical-network=${PHYSNET1} --provider-segment=500 ${PRIVATENET}
 
openstack network create --project ${ADMINID} ${INTERNALNET}
 
PUBLICNETID=`openstack network list | grep ${PUBLICNET} | awk '{print $2}'`
 
PRIVATENETID=`openstack network list | grep ${PRIVATENET} | awk '{print $2}'`
 
INTERNALNETID=`openstack network list | grep ${INTERNALNET} | awk '{print $2}'`
 
EXTERNALNETID=`openstack network list | grep ${EXTERNALNET} | awk '{print $2}'`
 
openstack subnet create --project ${ADMINID} ${PUBLICSUBNET} --network ${PUBLICNET} --subnet-range 192.168.101.0/24
 
openstack subnet create --project ${ADMINID} ${PRIVATESUBNET} --network ${PRIVATENET} --subnet-range 192.168.201.0/24
 
openstack subnet create --project ${ADMINID} ${INTERNALSUBNET} --gateway none --network ${INTERNALNET} --subnet-range 10.1.1.0/24
 
openstack subnet create --project ${ADMINID} ${EXTERNALSUBNET} --gateway 192.168.1.1 --no-dhcp --network ${EXTERNALNET} --subnet-range 192.168.51.0/24 --ip-version 4
 
openstack router create ${PUBLICROUTER}
 
openstack router create ${PRIVATEROUTER}
 
PRIVATEROUTERID=`openstack router list | grep ${PRIVATEROUTER} | awk '{print $2}'`
 
PUBLICROUTERID=`openstack router list | grep ${PUBLICROUTER} | awk '{print $2}'`
 
openstack router set ${PUBLICROUTER} --external-gateway ${EXTERNALNETID} --disable-snat
 
openstack router set ${PRIVATEROUTER} --external-gateway ${EXTERNALNETID} --disable-snat
 
openstack router add subnet ${PUBLICROUTER} ${PUBLICSUBNET}
 
openstack router add subnet ${PRIVATEROUTER} ${PRIVATESUBNET}
 
 
 
</pre>
 
 
 
== Additional Setup Instructions ==
 
 
 
The following commands are for reference.
 
 
 
----
 
 
 
* Bring Down Services: Use sysinv to uninstall the application.
 
 
 
<pre>
 
system application-remove stx-openstack
 
system application-list
 
</pre>
 
 
 
* Delete Services: Use sysinv to delete the application definition.
 
 
 
<pre>
 
system application-delete stx-openstack
 
system application-list
 
</pre>
 
 
 
* Bring Down Services: Clean up and stragglers (volumes and pods)
 
 
 
<pre>
 
# Watch and wait for the pods to terminate
 
kubectl get pods -n openstack -o wide -w
 
 
 
# Armada Workaround: delete does not clean up the old test pods. Sooo... Delete them.
 
kubectl get pods -n openstack | awk '/osh-.*-test/{print $1}' | xargs -i kubectl delete pods -n openstack --force --grace-period=0 {}
 
 
 
# Cleanup all PVCs
 
kubectl get pvc --all-namespaces; kubectl get pv --all-namespaces
 
kubectl delete pvc --all --namespace openstack; kubectl delete pv --all --namespace openstack
 
kubectl get pvc --all-namespaces; kubectl get pv --all-namespaces
 
 
 
# Useful to cleanup the mariadb grastate data.
 
kubectl get configmaps -n openstack | awk '/osh-/{print $1}' | xargs -i kubectl delete configmaps -n openstack {}
 
 
 
# Remove all the contents of the ceph pools. I have seen orphaned contents here that take up space.
 
for p in cinder-volumes images kube-rbd; do rbd -p $p ls | xargs -i rbd -p $p snap unprotect {}@snap; done
 
for p in cinder-volumes images kube-rbd; do rbd -p $p ls | xargs -i rbd -p $p snap purge {}; done
 
for p in cinder-volumes images kube-rbd; do rbd -p $p ls | xargs -i rbd -p $p rm {}; done
 
</pre>
 
 
 
== Horizon access ==
 
 
 
<pre>
 
# After successful armada manifest apply the following should be seen
 
 
 
kubectl get services -n openstack | grep horizon
 
horizon                      ClusterIP  10.104.34.245    <none>        80/TCP,443/TCP                13h
 
horizon-int                  NodePort    10.101.103.238  <none>        80:31000/TCP                  13h
 
 
 
The platform horizon UI is available at http://<external OAM IP>
 
 
 
$ curl -L http://10.10.10.3:8080 -so - | egrep '(PlugIn|<title>)'
 
    <title>Login - StarlingX</title>
 
    global.horizonPlugInModules = ['horizon.dashboard.project', 'horizon.dashboard.container-infra', 'horizon.dashboard.dc_admin', 'horizon.dashboard.identity', 'horizon.app.murano'];
 
 
 
The containerized horizon UI is available at http://<external OAM IP>:31000
 
 
 
$ curl -L http://10.10.10.3:31000 -so - | egrep '(PlugIn|<title>)'
 
    <title>Login - StarlingX</title>
 
    global.horizonPlugInModules = ['horizon.dashboard.project', 'horizon.dashboard.identity'];
 
 
</pre>
 
 
 
== Instance Console Access ==
 
<pre>
 
Add an alias to the novncproxy default local domain in /etc/hosts file on your machine or in other words, from the Horizon Graphical interfaces is launched.
 
 
 
<your Controller IP address> novncproxy.openstack.svc.cluster.local
 
 
 
'''On your Controller'''
 
Disable firewall on port 80,31000 and 443
 
sudo iptables -A INPUT -p tcp -m multiport --dports 80 -m comment --comment "500 horizon ingress dashboard" -j ACCEPT
 
sudo iptables -A INPUT -p tcp -m multiport --dports 31000 -m comment --comment "500 horizon ingress dashboard" -j ACCEPT
 
sudo iptables -A INPUT -p tcp -m multiport --dports 443 -m comment --comment "500 horizon ingress dashboard" -j ACCEPT
 
 
 
</pre>
 
 
 
== Known Issues and Troubleshooting ==
 
 
 
None
 

Latest revision as of 17:58, 2 August 2019

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