We haven't actually recommended installing anything from source for quite a while and it probably doesn't work anymore anyway. Let's get rid of this admonition and clean things up a little. Change-Id: I005bc042f4d1ff855a90710599d796a9645b71f1
21 KiB
Basic Deployment (CLI)
With these few steps you will be able to simply deploy via to your environment using our defaults in a few steps.
Prepare Your Environment
Make sure you have your environment ready and undercloud running:
../environments/environments
../installation/installing
Log into your undercloud (instack) virtual machine as non-root user:
ssh root@<undercloud-machine> su - stack
In order to use CLI commands easily you need to source needed environment variables:
source stackrc
Get Images
Note
If you already have images built, perhaps from a previous installation of , you can simply copy those image files into your regular user's home directory and skip this section.
If you do this, be aware that sometimes newer versions of do not work with older images, so if the deployment fails it may be necessary to delete the older images and restart the process from this step.
Alternatively, images are available via RDO at https://images.rdoproject.org/ which offers images from both the CentOS Build System (cbs) and RDO Trunk (called rdo_trunk or delorean). However this mirror is slow so if you experience slow download speeds you should skip to building the images instead.
The image files required are:
ironic-python-agent.initramfs
ironic-python-agent.kernel
overcloud-full.initrd
overcloud-full.qcow2
overcloud-full.vmlinuz
Images must be built prior to doing a deployment. An IPA ramdisk and openstack-full image can all be built using tripleo-common.
It's recommended to build images on the installed undercloud directly since all the dependencies are already present, but this is not a requirement.
The following steps can be used to build images. They should be run as the same non-root user that was used to install the undercloud. If the images are not created on the undercloud, one should use a non-root user.
Choose image operating system:
CentOS
The image build with no arguments will build CentOS 7. It will include the common YAML of
/usr/share/openstack-tripleo-common/image-yaml/overcloud-images.yaml
and the CentOS YAML at/usr/share/openstack-tripleo-common/image-yaml/overcloud-images-centos7.yaml
.RHEL
The common YAML is
/usr/share/openstack-tripleo-common/image-yaml/overcloud-images.yaml
. It must be specified along with the following.The default YAML for RHEL is
/usr/share/openstack-tripleo-common/image-yaml/overcloud-images-rhel7.yaml
export OS_YAML="/usr/share/openstack-tripleo-common/image-yaml/overcloud-images/rhel7.yaml"
Install the
current-tripleo
delorean repository and deps repository:Export environment variables
export DIB_YUM_REPO_CONF="/etc/yum.repos.d/delorean*"
Ceph
export DIB_YUM_REPO_CONF="$DIB_YUM_REPO_CONF /etc/yum.repos.d/CentOS-Ceph-Jewel.repo"
Stable Branch
Newton
export STABLE_RELEASE="newton"
Ceph
export DIB_YUM_REPO_CONF="$DIB_YUM_REPO_CONF /etc/yum.repos.d/CentOS-Ceph-Jewel.repo"
Ocata
export STABLE_RELEASE="ocata"
Ceph
export DIB_YUM_REPO_CONF="$DIB_YUM_REPO_CONF /etc/yum.repos.d/CentOS-Ceph-Jewel.repo"
Build the required images:
RHEL
Download the RHEL 7.3 cloud image or copy it over from a different location, for example:
https://access.redhat.com/downloads/content/69/ver=/rhel---7/7.3/x86_64/product-downloads
, and define the needed environment variables for RHEL 7.3 prior to runningtripleo-build-images
:export DIB_LOCAL_IMAGE=rhel-guest-image-7.3-35.x86_64.qcow2
RHEL Portal Registration
To register the image builds to the Red Hat Portal define the following variables:
export REG_METHOD=portal export REG_USER="[your username]" export REG_PASSWORD="[your password]" # Find this with `sudo subscription-manager list --available` export REG_POOL_ID="[pool id]" export REG_REPOS="rhel-7-server-rpms rhel-7-server-extras-rpms rhel-ha-for-rhel-7-server-rpms \ rhel-7-server-optional-rpms rhel-7-server-openstack-6.0-rpms"
Ceph
If using Ceph, additional channels need to be added to REG_REPOS. Enable the appropriate channels for the desired release, as indicated below. Do not enable any other channels not explicitly marked for that release.
rhel-7-server-rhceph-2-mon-rpms rhel-7-server-rhceph-2-osd-rpms rhel-7-server-rhceph-2-tools-rpms
RHEL Satellite Registration
To register the image builds to a Satellite define the following variables. Only using an activation key is supported when registering to Satellite, username/password is not supported for security reasons. The activation key must enable the repos shown:
export REG_METHOD=satellite # REG_SAT_URL should be in the format of: # http://<satellite-hostname> export REG_SAT_URL="[satellite url]" export REG_ORG="[satellite org]" # Activation key must enable these repos: # rhel-7-server-rpms # rhel-7-server-optional-rpms # rhel-7-server-extras-rpms # rhel-7-server-openstack-6.0-rpms # rhel-7-server-rhceph-{2,1.3}-mon-rpms # rhel-7-server-rhceph-{2,1.3}-osd-rpms # rhel-7-server-rhceph-{2,1.3}-tools-rpms export REG_ACTIVATION_KEY="[activation key]"
openstack overcloud image build
RHEL
openstack overcloud image build --config-file /usr/share/openstack-tripleo-common/image-yaml/overcloud-images.yaml --config-file $OS_YAML
See the help for
openstack overcloud image build
for further options.The YAML files are cumulative. Order on the command line is important. The packages, elements, and options sections will append. All others will overwrite previously read values.
Note
This command will build overcloud-full images (*.qcow2, *.initrd, *.vmlinuz) and ironic-python-agent images (*.initramfs, *.kernel)
In order to build specific images, one can use the
--image-name
flag toopenstack overcloud image build
. It can be specified multiple times.
Note
If you want to use whole disk images with TripleO, please see ../advanced_deployment/whole_disk_images
.
Upload Images
Load the images into the undercloud Glance:
openstack overcloud image upload
To upload a single image, see ../post_deployment/upload_single_image
.
Register Nodes
Register and configure nodes for your deployment with Ironic:
openstack overcloud node import instackenv.json
The file to be imported may be either JSON, YAML or CSV format, and
the type is detected via the file extension (json, yaml, csv). The file
format is documented in instackenv
.
The nodes status will be set to manageable
by default,
so that introspection may later be run. To also run introspection and
make the nodes available for deployment in one step, the following flags
can be used:
openstack overcloud node import --introspect --provide instackenv.json
Starting with the Newton release you can take advantage of the
enroll
provisioning state - see ../advanced_deployment/node_states
for details.
If your hardware has several hard drives, it's highly recommended
that you specify the exact device to be used during introspection and
deployment as a root device. Please see root_device
for details.
Warning
If you don't specify the root device explicitly, any device may be picked. Also the device chosen automatically is NOT guaranteed to be the same across rebuilds. Make sure to wipe the previous installation before rebuilding in this case.
Warning
It's not recommended to delete nodes and/or rerun this command after
you have proceeded to the next steps. Particularly, if you start
introspection and then re-register nodes, you won't be able to retry
introspection until the previous one times out (1 hour by default). If
you are having issues with nodes after registration, please follow node_registration_problems
.
Another approach to enrolling node is ../advanced_deployment/node_discovery
.
Introspect Nodes
Validations
Once the undercloud is installed, you can run the
pre-introspection
validations:
openstack workflow execution create tripleo.validations.v1.run_groups '{"group_names": ["pre-introspection"]}'
Then verify the results as described in running_validation_group
.
Nodes must be in the manageable
provisioning state in
order to run introspection. Introspect hardware attributes of nodes
with:
openstack overcloud node introspect --all-manageable
Nodes can also be specified individually by UUID. The
--provide
flag can be used in order to move the nodes
automatically to the available
provisioning state once the
introspection is finished, making the nodes available for deployment.
:
openstack overcloud node introspect --all-manageable --provide
Note
Introspection has to finish without errors. The
process can take up to 5 minutes for VM / 15 minutes for baremetal. If
the process takes longer, see introspection_problems
.
Note
If you need to introspect just a single node, see ../advanced_deployment/introspect_single_node
Provide Nodes
Only nodes in the available
provisioning state can be
deployed to (see ../advanced_deployment/node_states
for details). To
move nodes from manageable
to available
the
following command can be used:
openstack overcloud node provide --all-manageable
Flavor Details
The undercloud will have a number of default flavors created at
install time. In most cases these flavors do not need to be modified,
but they can be if desired. By default, all overcloud instances will be
booted with the baremetal
flavor, so all baremetal nodes
must have at least as much memory, disk, and cpu as that flavor.
In addition, there are profile-specific flavors created which can be
used with the profile-matching feature. For more details on deploying
with profiles, see ../advanced_deployment/profile_matching
.
Configure a nameserver for the Overcloud
Overcloud nodes can have a nameserver configured in order to resolve hostnames via DNS. The nameserver is defined in the undercloud's neutron subnet. If needed, define the nameserver to be used for the environment:
# List the available subnets
openstack subnet list
openstack subnet set <subnet-uuid> --dns-nameserver <nameserver-ip>
Stable Branch
For Mitaka release and older, the subnet commands are executed within the neutron command:
neutron subnet-list
neutron subnet-update <subnet-uuid> --dns-nameserver <nameserver-ip>
Note
A public DNS server, such as 8.8.8.8 or the undercloud DNS name server can be used if there is no internal DNS server.
Virtual
In virtual environments, the libvirt default network DHCP server address, typically 192.168.122.1, can be used as the overcloud nameserver.
Deploy the Overcloud
Validations
Before you start the deployment, you may want to run the
pre-deployment
validations:
openstack workflow execution create tripleo.validations.v1.run_groups '{"group_names": ["pre-deployment"]}'
Then verify the results as described in running_validation_group
.
By default 1 compute and 1 control node will be deployed, with networking configured for the virtual environment. To customize this, see the output of:
openstack help overcloud deploy
Swap
Swap files or partitions can be installed as part of an Overcloud deployment. For adding swap files there is no restriction besides having 4GB available on / (by default). When using a swap partition, the partition must exist and be tagged as swap1 (by default). To deploy a swap file or partition in each Overcloud node use one of the following arguments when deploying:
-e /usr/share/openstack-tripleo-heat-templates/environments/enable-swap-partition.yaml
-e /usr/share/openstack-tripleo-heat-templates/environments/enable-swap.yaml
Ceph
When deploying Ceph with dedicated CephStorage nodes to host the CephOSD service it is necessary to specify the number of CephStorage nodes to be deployed and to provide some additional parameters to enable usage of Ceph for Glance, Cinder, Nova or all of them. To do so, use the following arguments when deploying:
--ceph-storage-scale <number of nodes> -e /usr/share/openstack-tripleo-heat-templates/environments/storage-environment.yaml
When deploying Ceph without dedicated CephStorage nodes, opting for an HCI architecture instead, where the CephOSD service is colocated with the NovaCompute service on the Compute nodes, use the following arguments:
-e /usr/share/openstack-tripleo-heat-templates/environments/hyperconverged-ceph.yaml -e /usr/share/openstack-tripleo-heat-templates/environments/storage-environment.yaml
The hyperconverged-ceph.yaml
environment file will also enable a port on the StorageMgmt network for the Compute nodes. This
will be the Ceph private network and the Compute NIC templates have to
be configured to use that, see ../advanced_deployment/network_isolation
for more
details on how to do it.
RHEL Satellite Registration
To register the Overcloud nodes to a Satellite add the following flags to the deploy command:
--rhel-reg --reg-method satellite --reg-org <ORG ID#> --reg-sat-url <satellite URL> --reg-activation-key <KEY>
Note
Only using an activation key is supported when registering to Satellite, username/password is not supported for security reasons. The activation key must enable the following repos:
rhel-7-server-rpms
rhel-7-server-optional-rpms
rhel-7-server-extras-rpms
rhel-7-server-openstack-6.0-rpms
SSL
To deploy an overcloud with SSL, see ../advanced_deployment/ssl
.
Run the deploy command, including any additional parameters as necessary:
openstack overcloud deploy --templates [additional parameters]
To deploy an overcloud with multiple controllers and achieve HA,
follow ../advanced_deployment/high_availability
.
Virtual
When deploying the Compute node in a virtual machine without nested
guest support, add --libvirt-type qemu
or launching
instances on the deployed overcloud will fail.
Note
To deploy the overcloud with network isolation, bonds, and/or custom
network interface configurations, instead follow the workflow here to
deploy: ../advanced_deployment/network_isolation
Note
Previous versions of the client had many parameters defaulted. Some of these parameters are now pulling defaults directly from the Heat templates. In order to override these parameters, one should use an environment file to specify these overrides, via 'parameter_defaults'.
The parameters that controlled these parameters will be deprecated in the client, and eventually removed in favor of using environment files.
Post-Deployment
Validations
After the deployment finished, you can run the
post-deployment
validations:
openstack workflow execution create tripleo.validations.v1.run_groups '{"group_names": ["post-deployment"]}'
Then verify the results as described in running_validation_group
.
Access the Overcloud
openstack overcloud deploy
generates an overcloudrc file
appropriate for interacting with the deployed overcloud in the current
user's home directory. To use it, simply source the file:
source ~/overcloudrc
To return to working with the undercloud, source the
stackrc
file again:
source ~/stackrc
Setup the Overcloud network
Initial networks in Neutron in the overcloud need to be created for
tenant instances. The following are example commands to create the
initial networks. Edit the address ranges, or use the necessary
neutron
commands to match the environment appropriately.
This assumes a dedicated interface or native VLAN:
openstack network create public --external --provider-network-type flat \
--provider-physical-network datacentre
openstack subnet create --allocation-pool start=172.16.23.140,end=172.16.23.240 \
--network public --gateway 172.16.23.251 --no-dhcp --subnet-range \
172.16.23.128/25 public
The example shows naming the network "public" because that will allow
tempest tests to pass, based on the default floating pool name set in
nova.conf
. You can confirm that the network was created
with:
openstack network list
Sample output of the command:
+--------------------------------------+----------+--------------------------------------+
| ID | Name | Subnets |
+--------------------------------------+----------+--------------------------------------+
| 4db8dd5d-fab5-4ea9-83e5-bdedbf3e9ee6 | public | 7a315c5e-f8e2-495b-95e2-48af9442af01 |
+--------------------------------------+----------+--------------------------------------+
To use a VLAN, the following example should work. Customize the address ranges and VLAN id based on the environment:
openstack network create public --external --provider-network-type vlan \
--provider-physical-network datacentre --provider-segment 195 \
openstack subnet create --allocation-pool start=172.16.23.140,end=172.16.23.240 \
--network public --no-dhcp --gateway 172.16.23.251 \
--subnet-range 172.16.23.128/25 public
Validate the Overcloud
Source the overcloudrc
file:
source ~/overcloudrc
Create a directory for Tempest (eg. naming it
tempest
):
mkdir ~/tempest
cd ~/tempest
Tempest expects the tests it discovers to be in the current working directory. Set it up accordingly:
/usr/share/openstack-tempest-*/tools/configure-tempest-directory
The ~/tempest-deployer-input.conf
file was created
during deployment and contains deployment specific settings. Use that
file to configure Tempest:
tools/config_tempest.py --deployer-input ~/tempest-deployer-input.conf \
--debug --create \
identity.uri $OS_AUTH_URL \
identity.admin_password $OS_PASSWORD
Run Tempest:
tools/run-tests.sh
Note
The full Tempest test suite might take hours to run on a single CPU.
Redeploy the Overcloud
The overcloud can be redeployed when desired.
First, delete any existing Overcloud:
heat stack-delete overcloud
Confirm the Overcloud has deleted. It may take a few minutes to delete:
# This command should show no stack once the Delete has completed heat stack-list
It is recommended that you delete existing partitions from all nodes before redeploying. Starting with TripleO Ocata, you can use existing workflows -see
cleaning
for details.Deploy the Overcloud again:
openstack overcloud deploy --templates