Installation High-Level Overview - Bare Metal Deployment ======================================================== The setup presumes that you have 6 or more bare metal servers already setup with network connectivity on at least 1 or more network interfaces for all servers via a TOR switch or other network implementation. The physical TOR switches are **not** automatically configured from the OPNFV reference platform. All the networks involved in the OPNFV infrastructure as well as the provider networks and the private tenant VLANs needs to be manually configured. The Jumphost can be installed using the bootable ISO or by using the (``opnfv-apex*.rpm``) RPMs and their dependencies. The Jumphost should then be configured with an IP gateway on its admin or public interface and configured with a working DNS server. The Jumphost should also have routable access to the lights out network for the overcloud nodes. ``opnfv-deploy`` is then executed in order to deploy the undercloud VM and to provision the overcloud nodes. ``opnfv-deploy`` uses three configuration files in order to know how to install and provision the OPNFV target system. The information gathered under section `Execution Requirements (Bare Metal Only)`_ is put into the YAML file ``/etc/opnfv-apex/inventory.yaml`` configuration file. Deployment options are put into the YAML file ``/etc/opnfv-apex/deploy_settings.yaml``. Alternatively there are pre-baked deploy_settings files available in ``/etc/opnfv-apex/``. These files are named with the naming convention os-sdn_controller-enabled_feature-[no]ha.yaml. These files can be used in place of the ``/etc/opnfv-apex/deploy_settings.yaml`` file if one suites your deployment needs. Networking definitions gathered under section `Network Requirements`_ are put into the YAML file ``/etc/opnfv-apex/network_settings.yaml``. ``opnfv-deploy`` will boot the undercloud VM and load the target deployment configuration into the provisioning toolchain. This information includes MAC address, IPMI, Networking Environment and OPNFV deployment options. Once configuration is loaded and the undercloud is configured it will then reboot the overcloud nodes via IPMI. The nodes should already be set to PXE boot first off the admin interface. The nodes will first PXE off of the undercloud PXE server and go through a discovery/introspection process. Introspection boots off of custom introspection PXE images. These images are designed to look at the properties of the hardware that is being booted and report the properties of it back to the undercloud node. After introspection the undercloud will execute a Heat Stack Deployment to continue node provisioning and configuration. The nodes will reboot and PXE from the undercloud PXE server again to provision each node using Glance disk images provided by the undercloud. These disk images include all the necessary packages and configuration for an OPNFV deployment to execute. Once the disk images have been written to node's disks the nodes will boot locally and execute cloud-init which will execute the final node configuration. This configuration is largly completed by executing a puppet apply on each node. Installation High-Level Overview - VM Deployment ================================================ The VM nodes deployment operates almost the same way as the bare metal deployment with a few differences mainly related to power management. ``opnfv-deploy`` still deploys an undercloud VM. In addition to the undercloud VM a collection of VMs (3 control nodes + 2 compute for an HA deployment or 1 control node and 1 or more compute nodes for a Non-HA Deployment) will be defined for the target OPNFV deployment. The part of the toolchain that executes IPMI power instructions calls into libvirt instead of the IPMI interfaces on baremetal servers to operate the power managment. These VMs are then provisioned with the same disk images and configuration that baremetal would be. To Triple-O these nodes look like they have just built and registered the same way as bare metal nodes, the main difference is the use of a libvirt driver for the power management. Installation Guide - Bare Metal Deployment ========================================== This section goes step-by-step on how to correctly install and provision the OPNFV target system to bare metal nodes. Install Bare Metal Jumphost --------------------------- 1a. If your Jumphost does not have CentOS 7 already on it, or you would like to do a fresh install, then download the Apex bootable ISO from the OPNFV artifacts site . There have been isolated reports of problems with the ISO having trouble completing installation successfully. In the unexpected event the ISO does not work please workaround this by downloading the CentOS 7 DVD and performing a "Virtualization Host" install. If you perform a "Minimal Install" or install type other than "Virtualization Host" simply run ``sudo yum groupinstall "Virtualization Host"`` ``chkconfig libvirtd on && reboot`` to install virtualzation support and enable libvirt on boot. If you use the CentOS 7 DVD proceed to step 1b once the CentOS 7 with "Virtualzation Host" support is completed. 1b. If your Jump host already has CentOS 7 with libvirt running on it then install the install the RDO Newton Release RPM and epel-release: ``sudo yum install https://repos.fedorapeople.org/repos/openstack/openstack-newton/rdo-release-newton-4.noarch.rpm`` ``sudo yum install epel-release`` The RDO Project release repository is needed to install OpenVSwitch, which is a dependency of opnfv-apex. If you do not have external connectivity to use this repository you need to download the OpenVSwitch RPM from the RDO Project repositories and install it with the opnfv-apex RPM. 2a. Boot the ISO off of a USB or other installation media and walk through installing OPNFV CentOS 7. The ISO comes prepared to be written directly to a USB drive with dd as such: ``dd if=opnfv-apex.iso of=/dev/sdX bs=4M`` Replace /dev/sdX with the device assigned to your usb drive. Then select the USB device as the boot media on your Jumphost 2b. If your Jump host already has CentOS 7 with libvirt running on it then install the opnfv-apex RPMs using the OPNFV artifacts yum repo. This yum repo is created at release. It will not exist before release day. ``sudo yum install http://artifacts.opnfv.org/apex/danube/opnfv-apex-release-danube.noarch.rpm`` Once you have installed the repo definitions for Apex, RDO and EPEL then yum install Apex: ``sudo yum install opnfv-apex`` If ONOS will be used, install the ONOS rpm instead of the opnfv-apex rpm. ``sudo yum install opnfv-apex-onos`` 2c. If you choose not to use the Apex yum repo or you choose to use pre-released RPMs you can download and install the required RPMs from the artifacts site . The following RPMs are available for installation: - opnfv-apex - OpenDaylight L2 / L3 and ODL SFC support * - opnfv-apex-onos - ONOS support * - opnfv-apex-undercloud - (reqed) Undercloud Image - opnfv-apex-common - (reqed) Supporting config files and scripts - python34-markupsafe - (reqed) Dependency of opnfv-apex-common ** - python3-jinja2 - (reqed) Dependency of opnfv-apex-common ** - python3-ipmi - (reqed) Dependency of opnfv-apex-common ** \* One or more of these RPMs is required Only one of opnfv-apex or opnfv-apex-onos is required. It is safe to leave the unneeded SDN controller's RPMs uninstalled if you do not intend to use them. ** These RPMs are not yet distributed by CentOS or EPEL. Apex has built these for distribution with Apex while CentOS and EPEL do not distribute them. Once they are carried in an upstream channel Apex will no longer carry them and they will not need special handling for installation. The EPEL and RDO yum repos are still required: ``sudo yum install epel-release`` ``sudo yum install https://repos.fedorapeople.org/repos/openstack/openstack-newton/rdo-release-newton-4.noarch.rpm`` Once the apex RPMs are downloaded install them by passing the file names directly to yum: ``sudo yum install python34-markupsafe-.rpm python3-jinja2-.rpm python3-ipmi-.rpm`` ``sudo yum install opnfv-apex-.rpm opnfv-apex-undercloud-.rpm opnfv-apex-common-.rpm`` 3. After the operating system and the opnfv-apex RPMs are installed, login to your Jumphost as root. 4. Configure IP addresses on the interfaces that you have selected as your networks. 5. Configure the IP gateway to the Internet either, preferably on the public interface. 6. Configure your ``/etc/resolv.conf`` to point to a DNS server (8.8.8.8 is provided by Google). Creating a Node Inventory File ------------------------------ IPMI configuration information gathered in section `Execution Requirements (Bare Metal Only)`_ needs to be added to the ``inventory.yaml`` file. 1. Copy ``/usr/share/doc/opnfv/inventory.yaml.example`` as your inventory file template to ``/etc/opnfv-apex/inventory.yaml``. 2. The nodes dictionary contains a definition block for each baremetal host that will be deployed. 1 or more compute nodes and 3 controller nodes are required. (The example file contains blocks for each of these already). It is optional at this point to add more compute nodes into the node list. 3. Edit the following values for each node: - ``mac_address``: MAC of the interface that will PXE boot from undercloud - ``ipmi_ip``: IPMI IP Address - ``ipmi_user``: IPMI username - ``ipmi_password``: IPMI password - ``pm_type``: Power Management driver to use for the node values: pxe_ipmitool (tested) or pxe_wol (untested) or pxe_amt (untested) - ``cpus``: (Introspected*) CPU cores available - ``memory``: (Introspected*) Memory available in Mib - ``disk``: (Introspected*) Disk space available in Gb - ``arch``: (Introspected*) System architecture - ``capabilities``: (Opt**) Node's role in deployment values: profile:control or profile:compute \* Introspection looks up the overcloud node's resources and overrides these value. You can leave default values and Apex will get the correct values when it runs introspection on the nodes. ** If capabilities profile is not specified then Apex will select node's roles in the OPNFV cluster in a non-deterministic fashion. Creating the Settings Files --------------------------- Edit the 2 settings files in /etc/opnfv-apex/. These files have comments to help you customize them. 1. deploy_settings.yaml This file includes basic configuration options deployment, and also documents all available options. Alternatively, there are pre-built deploy_settings files available in (``/etc/opnfv-apex/``). These files are named with the naming convention os-sdn_controller-enabled_feature-[no]ha.yaml. These files can be used in place of the (``/etc/opnfv-apex/deploy_settings.yaml``) file if one suites your deployment needs. If a pre-built deploy_settings file is choosen there is no need to customize (``/etc/opnfv-apex/deploy_settings.yaml``). The pre-built file can be used in place of the (``/etc/opnfv-apex/deploy_settings.yaml``) file. 2. network_settings.yaml This file provides Apex with the networking information that satisfies the prerequisite `Network Requirements`_. These are specific to your environment. Running ``opnfv-deploy`` ------------------------ You are now ready to deploy OPNFV using Apex! ``opnfv-deploy`` will use the inventory and settings files to deploy OPNFV. Follow the steps below to execute: 1. Execute opnfv-deploy ``sudo opnfv-deploy -n network_settings.yaml -i inventory.yaml -d deploy_settings.yaml`` If you need more information about the options that can be passed to opnfv-deploy use ``opnfv-deploy --help``. -n network_settings.yaml allows you to customize your networking topology. 2. Wait while deployment is executed. If something goes wrong during this part of the process, start by reviewing your network or the information in your configuration files. It's not uncommon for something small to be overlooked or mis-typed. You will also notice outputs in your shell as the deployment progresses. 3. When the deployment is complete the undercloud IP and ovecloud dashboard url will be printed. OPNFV has now been deployed using Apex. .. _`Execution Requirements (Bare Metal Only)`: index.html#execution-requirements-bare-metal-only .. _`Network Requirements`: index.html#network-requirements