========== Deployment ========== This section describes usage of Kayobe to install an OpenStack cloud onto a set of bare metal servers. We assume access is available to a node which will act as the hypervisor hosting the seed node in a VM. We also assume that this seed hypervisor has access to the bare metal nodes that will form the OpenStack control plane. Finally, we assume that the control plane nodes have access to the bare metal nodes that will form the workload node pool. .. seealso:: Information on the configuration of a Kayobe environment is available :ref:`here `. Ansible Control Host ==================== Before starting deployment we must bootstrap the Ansible control host. Tasks performed here include: - Install required Ansible roles from Ansible Galaxy. - Generate an SSH key if necessary and add it to the current user's authorised keys. - Install Kolla Ansible locally at the configured version. To bootstrap the Ansible control host:: (kayobe) $ kayobe control host bootstrap .. _physical-network: Physical Network ================ The physical network can be managed by Kayobe, which uses Ansible's network modules. Currently Dell Network OS 6 and Dell Network OS 9 switches are supported but this could easily be extended. To provision the physical network:: (kayobe) $ kayobe physical network configure --group [--enable-discovery] The ``--group`` argument is used to specify an Ansible group containing the switches to be configured. The ``--enable-discovery`` argument enables a one-time configuration of ports attached to baremetal compute nodes to support hardware discovery via ironic inspector. It is possible to limit the switch interfaces that will be configured, either by interface name or interface description:: (kayobe) $ kayobe physical network configure --group --interface-limit (kayobe) $ kayobe physical network configure --group --interface-description-limit The names or descriptions should be separated by commas. This may be useful when adding compute nodes to an existing deployment, in order to avoid changing the configuration interfaces in use by active nodes. The ``--display`` argument will display the candidate switch configuration, without actually applying it. .. seealso:: Information on configuration of physical network devices is available :ref:`here `. Seed Hypervisor =============== .. note:: It is not necessary to run the seed services in a VM. To use an existing bare metal host or a VM provisioned outside of Kayobe, this section may be skipped. Host Configuration ------------------ To configure the seed hypervisor's host OS, and the Libvirt/KVM virtualisation support:: (kayobe) $ kayobe seed hypervisor host configure .. seealso:: Information on configuration of hosts is available :ref:`here `. Seed ==== VM Provisioning --------------- .. note:: It is not necessary to run the seed services in a VM. To use an existing bare metal host or a VM provisioned outside of Kayobe, this step may be skipped. Ensure that the Ansible inventory contains a host for the seed. The seed hypervisor should have CentOS and ``libvirt`` installed. It should have ``libvirt`` networks configured for all networks that the seed VM needs access to and a ``libvirt`` storage pool available for the seed VM's volumes. To provision the seed VM:: (kayobe) $ kayobe seed vm provision When this command has completed the seed VM should be active and accessible via SSH. Kayobe will update the Ansible inventory with the IP address of the VM. Host Configuration ------------------ To configure the seed host OS:: (kayobe) $ kayobe seed host configure .. note:: If the seed host uses disks that have been in use in a previous installation, it may be necessary to wipe partition and LVM data from those disks. To wipe all disks that are not mounted during host configuration:: (kayobe) $ kayobe seed host configure --wipe-disks .. seealso:: Information on configuration of hosts is available :ref:`here `. Building Container Images ------------------------- .. note:: It is possible to use prebuilt container images from an image registry such as Dockerhub. In this case, this step can be skipped. It is possible to use prebuilt container images from an image registry such as Dockerhub. In some cases it may be necessary to build images locally either to apply local image customisation or to use a downstream version of kolla. Images are built by hosts in the ``container-image-builders`` group, which by default includes the ``seed``. To build container images:: (kayobe) $ kayobe seed container image build It is possible to build a specific set of images by supplying one or more image name regular expressions:: (kayobe) $ kayobe seed container image build bifrost-deploy In order to push images to a registry after they are built, add the ``--push`` argument. .. seealso:: Information on configuration of Kolla for building container images is available :ref:`here `. Deploying Containerised Services -------------------------------- At this point the seed services need to be deployed on the seed VM. These services are deployed in the ``bifrost_deploy`` container. This command will also build the Operating System image that will be used to deploy the overcloud nodes using Disk Image Builder (DIB). To deploy the seed services in containers:: (kayobe) $ kayobe seed service deploy After this command has completed the seed services will be active. .. seealso:: Information on configuration of Kolla Ansible is available :ref:`here `. See :ref:`here ` for information about configuring Bifrost. :ref:`configuration-bifrost-overcloud-root-image` provides information on configuring the root disk image build process. See :ref:`here ` for information about deploying additional, custom containers on seed node. Building Deployment Images -------------------------- .. note:: It is possible to use prebuilt deployment images. In this case, this step can be skipped. It is possible to use prebuilt deployment images from the `OpenStack hosted tarballs `_ or another source. In some cases it may be necessary to build images locally either to apply local image customisation or to use a downstream version of Ironic Python Agent (IPA). In order to build IPA images, the ``ipa_build_images`` variable should be set to ``True``. To build images locally:: (kayobe) $ kayobe seed deployment image build If images have been built previously, they will not be rebuilt. To force rebuilding images, use the ``--force-rebuild`` argument. .. seealso:: See :ref:`here ` for information on how to configure the IPA image build process. Accessing the Seed via SSH (Optional) ------------------------------------- For SSH access to the seed, first determine the seed's IP address. We can use the ``kayobe configuration dump`` command to inspect the seed's IP address:: (kayobe) $ kayobe configuration dump --host seed --var-name ansible_host The ``kayobe_ansible_user`` variable determines which user account will be used by Kayobe when accessing the machine via SSH. By default this is ``stack``. Use this user to access the seed:: $ ssh @ To see the active Docker containers:: $ docker ps Leave the seed VM and return to the shell on the Ansible control host:: $ exit Overcloud ========= .. _deployment-discovery: Discovery --------- .. note:: If discovery of the overcloud is not possible, a static inventory of servers using the bifrost ``servers.yml`` file format may be configured using the ``kolla_bifrost_servers`` variable in ``${KAYOBE_CONFIG_PATH}/bifrost.yml``. Discovery of the overcloud is supported by the ironic inspector service running in the ``bifrost_deploy`` container on the seed. The service is configured to PXE boot unrecognised MAC addresses with an IPA ramdisk for introspection. If an introspected node does not exist in the ironic inventory, ironic inspector will create a new entry for it. Discovery of the overcloud is triggered by causing the nodes to PXE boot using a NIC attached to the overcloud provisioning network. For many servers this will be the factory default and can be performed by powering them on. On completion of the discovery process, the overcloud nodes should be registered with the ironic service running in the seed host's ``bifrost_deploy`` container. The node inventory can be viewed by executing the following on the seed:: $ docker exec -it bifrost_deploy bash (bifrost_deploy) $ export OS_CLOUD=bifrost (bifrost_deploy) $ baremetal node list In order to interact with these nodes using Kayobe, run the following command to add them to the Kayobe and Kolla-Ansible inventories:: (kayobe) $ kayobe overcloud inventory discover .. seealso:: This `blog post `__ provides a case study of the discovery process, including automatically naming Ironic nodes via switch port descriptions, Ironic Inspector and LLDP. Saving Hardware Introspection Data ---------------------------------- If ironic inspector is in use on the seed host, introspection data will be stored in the local nginx service. This data may be saved to the control host:: (kayobe) $ kayobe overcloud introspection data save ``--output-dir`` may be used to specify the directory in which introspection data files will be saved. ``--output-format`` may be used to set the format of the files. BIOS and RAID Configuration --------------------------- .. note:: BIOS and RAID configuration may require one or more power cycles of the hardware to complete the operation. These will be performed automatically. .. note:: Currently, BIOS and RAID configuration of overcloud hosts is supported for Dell servers only. Configuration of BIOS settings and RAID volumes is currently performed out of band as a separate task from hardware provisioning. To configure the BIOS and RAID:: (kayobe) $ kayobe overcloud bios raid configure After configuring the nodes' RAID volumes it may be necessary to perform hardware inspection of the nodes to reconfigure the ironic nodes' scheduling properties and root device hints. To perform manual hardware inspection:: (kayobe) $ kayobe overcloud hardware inspect There are currently a few limitations to configuring BIOS and RAID: * The Ansible control host must be able to access the BMCs of the servers being configured. * The Ansible control host must have the ``python-dracclient`` Python module available to the Python interpreter used by Ansible. The path to the Python interpreter is configured via ``ansible_python_interpreter``. Provisioning ------------ .. note:: There is a `cloud-init issue `__ which prevents Ironic nodes without names from being accessed via SSH after provisioning. To avoid this issue, ensure that all Ironic nodes in the Bifrost inventory are named. This may be achieved via :ref:`autodiscovery `, or manually, e.g. from the seed:: $ docker exec -it bifrost_deploy bash (bifrost_deploy) $ export OS_CLOUD=bifrost (bifrost_deploy) $ baremetal node set ee77b4ca-8860-4003-a18f-b00d01295bda --name controller0 Provisioning of the overcloud is performed by the ironic service running in the bifrost container on the seed. To provision the overcloud nodes:: (kayobe) $ kayobe overcloud provision After this command has completed the overcloud nodes should have been provisioned with an OS image. The command will wait for the nodes to become ``active`` in ironic and accessible via SSH. Host Configuration ------------------ To configure the overcloud hosts' OS:: (kayobe) $ kayobe overcloud host configure .. note:: If the controller hosts use disks that have been in use in a previous installation, it may be necessary to wipe partition and LVM data from those disks. To wipe all disks that are not mounted during host configuration:: (kayobe) $ kayobe overcloud host configure --wipe-disks .. seealso:: Information on configuration of hosts is available :ref:`here `. Building Container Images ------------------------- .. note:: It is possible to use prebuilt container images from an image registry such as Dockerhub. In this case, this step can be skipped. In some cases it may be necessary to build images locally either to apply local image customisation or to use a downstream version of kolla. Images are built by hosts in the ``container-image-builders`` group, which by default includes the ``seed``. If no seed host is in use, for example in an all-in-one controller development environment, this group may be modified to cause containers to be built on the controllers. To build container images:: (kayobe) $ kayobe overcloud container image build It is possible to build a specific set of images by supplying one or more image name regular expressions:: (kayobe) $ kayobe overcloud container image build ironic- nova-api In order to push images to a registry after they are built, add the ``--push`` argument. .. seealso:: Information on configuration of Kolla for building container images is available :ref:`here `. Pulling Container Images ------------------------ .. note:: It is possible to build container images locally avoiding the need for an image registry such as Dockerhub. In this case, this step can be skipped. In most cases suitable prebuilt kolla images will be available on Dockerhub. The `kolla account `_ provides image repositories suitable for use with kayobe and will be used by default. To pull images from the configured image registry:: (kayobe) $ kayobe overcloud container image pull Building Deployment Images -------------------------- .. note:: It is possible to use prebuilt deployment images. In this case, this step can be skipped. .. note:: Deployment images are only required for the overcloud when Ironic is in use. Otherwise, this step can be skipped. It is possible to use prebuilt deployment images from the `OpenStack hosted tarballs `_ or another source. In some cases it may be necessary to build images locally either to apply local image customisation or to use a downstream version of Ironic Python Agent (IPA). In order to build IPA images, the ``ipa_build_images`` variable should be set to ``True``. To build images locally:: (kayobe) $ kayobe overcloud deployment image build If images have been built previously, they will not be rebuilt. To force rebuilding images, use the ``--force-rebuild`` argument. .. seealso:: See :ref:`here ` for information on how to configure the IPA image build process. Building Swift Rings -------------------- .. note:: This section can be skipped if Swift is not in use. Swift uses ring files to control placement of data across a cluster. These files can be generated automatically using the following command:: (kayobe) $ kayobe overcloud swift rings generate Deploying Containerised Services -------------------------------- To deploy the overcloud services in containers:: (kayobe) $ kayobe overcloud service deploy Once this command has completed the overcloud nodes should have OpenStack services running in Docker containers. .. seealso:: Information on configuration of Kolla Ansible is available :ref:`here `. Interacting with the Control Plane ---------------------------------- Kolla-ansible writes out an environment file that can be used to access the OpenStack admin endpoints as the admin user:: $ source ${KOLLA_CONFIG_PATH:-/etc/kolla}/admin-openrc.sh Kayobe also generates an environment file that can be used to access the OpenStack public endpoints as the admin user which may be required if the admin endpoints are not available from the Ansible control host:: $ source ${KOLLA_CONFIG_PATH:-/etc/kolla}/public-openrc.sh Performing Post-deployment Configuration ---------------------------------------- To perform post deployment configuration of the overcloud services:: (kayobe) $ source ${KOLLA_CONFIG_PATH:-/etc/kolla}/admin-openrc.sh (kayobe) $ kayobe overcloud post configure This will perform the following tasks: - Register Ironic Python Agent (IPA) images with glance - Register introspection rules with ironic inspector - Register a provisioning network and subnet with neutron - Configure Grafana organisations, dashboards and datasources