diff options
author | Alexandru Avadanii <Alexandru.Avadanii@enea.com> | 2017-11-26 05:43:39 +0100 |
---|---|---|
committer | Alexandru Avadanii <Alexandru.Avadanii@enea.com> | 2017-11-26 22:26:00 +0100 |
commit | 37083673d6cdddbb9b710f4dd5efe832753e5856 (patch) | |
tree | a0ef84e1ab70b5f1aca9254c3664847c056ab474 /docs/release | |
parent | d8dd9847b7a534b3c78af1b3eb772f07a3543d0c (diff) |
u/fuel: Bump & rebase for image pre-install
1. Bump to latest Fuel@OPNFV to include:
- Bring in newer glusterfs for mtime unsplit brain
* Requires adding arch "arm64" to PPA definition in reclass:
- (reclass-system) linux.system.repo.glusterfs: Add arm64 arch
- Switch nofeature-ha compute nodes to UCA repo
* Requires an alternative way of adding linux.enea.com repos;
* linux.enea.com repos will now be pre-install into VM images;
* Requires refresh on repo arch list handled by Armband patch:
- (fuel) baremetal, virtual: Extend arch list for UCA repo
2. Staging proposed patches from upstream Fuel@OPNFV:
- Add pre-{install,purge} support for base image
* Reference implementation adds pre-installed Armband specifics:
- Enea public GPG to APT keys (for below repos);
- repos (linux.enea.com/{apt-mk,mcp-repos}/*);
- linux-{image,headers}-generic-hwe-16.04-edge;
- cloud-init: datasource from NoCloud only;
* Allows us to drop kernel installation from state files,
installing the kernel only once during image prep, instead of
two stages of parallel installs (5 baremetal, 14 VCP);
* Ensures Armband repos are pre-configured for infrastructure
VMs, allowing us to drop more reclass repo definitions;
* Rework armband patch to install kernel only on kvm, cmp:
- (fuel) baremetal: linux-image-generic-hwe-16.04-edge
3. Sync reclass repo definitions with upstream change, drop duplicates
- [linux][repos] Remove unused repositories [1]
* Upstream dropped all "ocata-{security,hotfix,...} repo comps,
which are also empty for Armband, so drop them too;
* Rework following armband patches:
- (reclass-system) linux/system/repo/mcp: Add Armband repos
* Move Armband repos to new dedicated reclass classes:
- linux.system.repo.mcp.armband.extra (currently empty);
- linux.system.repo.mcp.armband.openstack;
* Use HTTPS for fetching Enea Armband GPG key;
- (fuel) baremetal: Add Armband Openstack repos to kvm, cmp
* Consume defs introduced above only on baremetal nodes;
4. Sync documentation with Fuel@OPNFV (cp)
5. Add vim swap files to .gitignore
[1] https://github.com/Mirantis/reclass-system-salt-model/commit/1dd1b31
Change-Id: Ibab56279de86f08ad7cd9bc6761f4c525532f811
Signed-off-by: Alexandru Avadanii <Alexandru.Avadanii@enea.com>
Diffstat (limited to 'docs/release')
-rw-r--r-- | docs/release/installation/img/README.rst | 12 | ||||
-rw-r--r-- | docs/release/installation/img/arm_pod5.png | bin | 0 -> 168862 bytes | |||
-rw-r--r-- | docs/release/installation/img/fuel_baremetal.png | bin | 0 -> 245916 bytes | |||
-rw-r--r-- | docs/release/installation/img/fuel_virtual.png | bin | 0 -> 216442 bytes | |||
-rw-r--r-- | docs/release/installation/img/lf_pod2.png | bin | 0 -> 167832 bytes | |||
-rw-r--r-- | docs/release/installation/installation.instruction.rst | 215 | ||||
-rw-r--r-- | docs/release/userguide/img/horizon_login.png | bin | 0 -> 32205 bytes | |||
-rw-r--r-- | docs/release/userguide/img/salt_services_ip.png | bin | 0 -> 149270 bytes | |||
-rw-r--r-- | docs/release/userguide/img/saltstack.png | bin | 0 -> 14373 bytes | |||
-rw-r--r-- | docs/release/userguide/index.rst | 18 | ||||
-rw-r--r-- | docs/release/userguide/userguide.rst | 267 |
11 files changed, 481 insertions, 31 deletions
diff --git a/docs/release/installation/img/README.rst b/docs/release/installation/img/README.rst new file mode 100644 index 00000000..bc8d9bed --- /dev/null +++ b/docs/release/installation/img/README.rst @@ -0,0 +1,12 @@ +.. This work is licensed under a Creative Commons Attribution 4.0 International License. +.. SPDX-License-Identifier: CC-BY-4.0 +.. (c) 2017 Ericsson AB, Mirantis Inc., Enea AB and others. + +Image Editor +============ +All files in this directory have been created using `draw.io <http://draw.io>`_. + +Image Sources +============= +Image sources are embedded in each `png` file. +To edit an image, import the `png` file using `draw.io <http://draw.io>`_. diff --git a/docs/release/installation/img/arm_pod5.png b/docs/release/installation/img/arm_pod5.png Binary files differnew file mode 100644 index 00000000..b35b661a --- /dev/null +++ b/docs/release/installation/img/arm_pod5.png diff --git a/docs/release/installation/img/fuel_baremetal.png b/docs/release/installation/img/fuel_baremetal.png Binary files differnew file mode 100644 index 00000000..aee42ac3 --- /dev/null +++ b/docs/release/installation/img/fuel_baremetal.png diff --git a/docs/release/installation/img/fuel_virtual.png b/docs/release/installation/img/fuel_virtual.png Binary files differnew file mode 100644 index 00000000..d7664865 --- /dev/null +++ b/docs/release/installation/img/fuel_virtual.png diff --git a/docs/release/installation/img/lf_pod2.png b/docs/release/installation/img/lf_pod2.png Binary files differnew file mode 100644 index 00000000..b6c9b8e3 --- /dev/null +++ b/docs/release/installation/img/lf_pod2.png diff --git a/docs/release/installation/installation.instruction.rst b/docs/release/installation/installation.instruction.rst index 1b624d26..502c7509 100644 --- a/docs/release/installation/installation.instruction.rst +++ b/docs/release/installation/installation.instruction.rst @@ -21,7 +21,7 @@ This document provides guidelines on how to install and configure the Euphrates release of OPNFV when using Fuel as a deployment tool, including required software and hardware configurations. -Although the available installation options provide a high de.g.ee of +Although the available installation options provide a high degree of freedom in how the system is set up, including architecture, services and features, etc., said permutations may not provide an OPNFV compliant reference architecture. This document provides a @@ -40,7 +40,7 @@ OPNFV, using Fuel as a deployment tool, some planning must be done. Preparations -================== +============ Prior to installation, a number of deployment specific parameters must be collected, those are: @@ -65,7 +65,7 @@ This information will be needed for the configuration procedures provided in this document. ========================================= -Hardware requirements for virtual deploys +Hardware Requirements for Virtual Deploys ========================================= The following minimum hardware requirements must be met for the virtual @@ -76,7 +76,7 @@ installation of Euphrates using Fuel: | | | +============================+========================================================+ | **1 Jumpserver** | A physical node (also called Foundation Node) that | -| | hosts a Salt Master VM and each of the VM nodes in | +| | will host a Salt Master VM and each of the VM nodes in | | | the virtual deploy | +----------------------------+--------------------------------------------------------+ | **CPU** | Minimum 1 socket with Virtualization support | @@ -88,7 +88,7 @@ installation of Euphrates using Fuel: =========================================== -Hardware requirements for baremetal deploys +Hardware Requirements for Baremetal Deploys =========================================== The following minimum hardware requirements must be met for the baremetal @@ -153,7 +153,7 @@ environment, you should think about: - Networking -- Depends on the Choose Network Topology, the network bandwidth per virtual machine, and network storage. ================================================ -Top of the rack (TOR) Configuration requirements +Top of the Rack (TOR) Configuration Requirements ================================================ The switching infrastructure provides connectivity for the OPNFV @@ -177,8 +177,27 @@ Manual configuration of the Euphrates hardware platform should be carried out according to the `OPNFV Pharos Specification <https://wiki.opnfv.org/display/pharos/Pharos+Specification>`_. +============================ +OPNFV Software Prerequisites +============================ + +The Jumpserver node should be pre-provisioned with an operating system, +according to the Pharos specification. Relevant network bridges should +also be pre-configured (e.g. admin, management, public). + +Fuel@OPNFV has been validated by CI using the following distributions +installed on the Jumpserver: + + - CentOS 7 (recommended by Pharos specification); + - Ubuntu Xenial; + +**NOTE:** The install script expects 'libvirt' to be installed and running +on the Jumpserver. In case the packages are missing, the script will install +them; but depending on the OS distribution, the user might have to start the +'libvirtd' service manually. + ========================================== -OPNFV Software installation and deployment +OPNFV Software Installation and Deployment ========================================== This section describes the process of installing all the components needed to @@ -205,6 +224,33 @@ For virtual deploys all the targets are VMs on the Jumpserver. The deploy script - Install Openstack on the targets - Leverage Salt to install & configure Openstack services +.. figure:: img/fuel_virtual.png + :align: center + :alt: Fuel@OPNFV Virtual POD Network Layout Examples + + Fuel@OPNFV Virtual POD Network Layout Examples + + +-----------------------+------------------------------------------------------------------------+ + | cfg01 | Salt Master VM | + +-----------------------+------------------------------------------------------------------------+ + | ctl01 | Controller VM | + +-----------------------+------------------------------------------------------------------------+ + | cmp01/cmp02 | Compute VMs | + +-----------------------+------------------------------------------------------------------------+ + | gtw01 | Gateway VM with neutron services (dhcp agent, L3 agent, metadata, etc) | + +-----------------------+------------------------------------------------------------------------+ + | odl01 | VM on which ODL runs (for scenarios deployed with ODL) | + +-----------------------+------------------------------------------------------------------------+ + + +In this figure there are examples of two virtual deploys: + - Jumphost 1 has only virsh bridges, created by the deploy script + - Jumphost 2 has a mix of linux and virsh briges; when linux bridge exist for a specified network, + the deploy script will skip creating a virsh bridge for it + +**Note**: A virtual network "mcpcontrol" is always created. For virtual deploys, "mcpcontrol" is also used +for Admin, leaving the PXE/Admin bridge unused. + Automatic Installation of a Baremetal POD ========================================= @@ -223,8 +269,42 @@ The installation is done automatically with the deploy script, which will: - Leverage Salt to configure the operatign system on the baremetal nodes - Leverage Salt to install & configure Openstack services - -Steps to start the automatic deploy +.. figure:: img/fuel_baremetal.png + :align: center + :alt: Fuel@OPNFV Baremetal POD Network Layout Example + + Fuel@OPNFV Baremetal POD Network Layout Example + + +-----------------------+---------------------------------------------------------+ + | cfg01 | Salt Master VM | + +-----------------------+---------------------------------------------------------+ + | mas01 | MaaS Node VM | + +-----------------------+---------------------------------------------------------+ + | kvm01..03 | Baremetals which hold the VMs with controller functions | + +-----------------------+---------------------------------------------------------+ + | cmp001/cmp002 | Baremetal compute nodes | + +-----------------------+---------------------------------------------------------+ + | prx01/prx02 | Proxy VMs for Nginx | + +-----------------------+---------------------------------------------------------+ + | msg01..03 | RabbitMQ Service VMs | + +-----------------------+---------------------------------------------------------+ + | dbs01..03 | MySQL service VMs | + +-----------------------+---------------------------------------------------------+ + | mdb01..03 | Telemetry VMs | + +-----------------------+---------------------------------------------------------+ + | odl01 | VM on which ODL runs (for scenarios deployed with ODL) | + +-----------------------+---------------------------------------------------------+ + | Tenant VM | VM running in the cloud | + +-----------------------+---------------------------------------------------------+ + +In the baremetal deploy all bridges but "mcpcontrol" are linux bridges. For the Jumpserver, if they are already created +they will be used; otherwise they will be created. For the targets, the bridges are created by the deploy script. + +**Note**: A virtual network "mcpcontrol" is always created. For baremetal deploys, PXE bridge is used for +baremetal node provisioning, while "mcpcontrol" is used to provision the infrastructure VMs only. + + +Steps to Start the Automatic Deploy =================================== These steps are common both for virtual and baremetal deploys. @@ -249,7 +329,7 @@ These steps are common both for virtual and baremetal deploys. .. code-block:: bash - $ git checkout 5.0.2 + $ git checkout opnfv-5.0.2 #. Start the deploy script @@ -257,42 +337,115 @@ These steps are common both for virtual and baremetal deploys. $ ci/deploy.sh -l <lab_name> \ -p <pod_name> \ - -b <URI to the PDF file> \ + -b <URI to configuration repo containing the PDF file> \ -s <scenario> \ - -B <list of admin, public and management bridges> + -B <list of admin, management, private and public bridges> Examples -------- #. Virtual deploy - .. code-block:: bash + To start a virtual deployment, it is required to have the `virtual` keyword + while specifying the pod name to the installer script. + + It will create the required bridges and networks, configure Salt Master and + install OpenStack. - $ ci/deploy.sh -b file:///home/jenkins/tmpdir/securedlab \ - -l ericsson \ - -p virtual_kvm \ - -s os-nosdn-nofeature-noha + .. code-block:: bash + + $ ci/deploy.sh -b file:///home/jenkins/tmpdir/securedlab \ + -l ericsson \ + -p virtual_kvm \ + -s os-nosdn-nofeature-noha + + Once the deployment is complete, the OpenStack Dashboard, Horizon is + available at http://<controller VIP>:8078, e.g. http://10.16.0.101:8078. + The administrator credentials are **admin** / **opnfv_secret**. #. Baremetal deploy -A x86 deploy on pod1 from Ericsson lab + A x86 deploy on pod2 from Linux Foundation lab - .. code-block:: bash + .. code-block:: bash - $ ci/deploy.sh -b file:///home/jenkins/tmpdir/securedlab \ - -l ericsson \ - -p pod1 \ - -s os-nosdn-nofeature-ha \ - -B pxebr + $ ci/deploy.sh -b file:///home/jenkins/tmpdir/securedlab \ + -l lf \ + -p pod2 \ + -s os-nosdn-nofeature-ha \ + -B pxebr,br-ctl -An aarch64 deploy on pod5 from Arm lab + .. figure:: img/lf_pod2.png + :align: center + :alt: Fuel@OPNFV LF POD2 Network Layout + + Fuel@OPNFV LF POD2 Network Layout + + Once the deployment is complete, the SaltStack Deployment Documentation is + available at http://<Proxy VIP>:8090, e.g. http://172.30.10.103:8090. + + An aarch64 deploy on pod5 from Arm lab + + .. code-block:: bash + + $ ci/deploy.sh -b file:///home/jenkins/tmpdir/securedlab \ + -l arm \ + -p pod5 \ + -s os-nosdn-nofeature-ha \ + -B admin7_br0,mgmt7_br0,,public7_br0 + + .. figure:: img/arm_pod5.png + :align: center + :alt: Fuel@OPNFV ARM POD5 Network Layout + + Fuel@OPNFV ARM POD5 Network Layout + + Once the deployment is complete, the SaltStack Deployment Documentation is + available at http://<Proxy VIP>:8090, e.g. http://10.0.8.103:8090. + + +Pod Descriptor Files +==================== + +Descriptor files provide the installer with an abstraction of the target pod +with all its hardware characteristics and required parameters. This information +is split into two different files: +Pod Descriptor File (PDF) and Installer Descriptor File (IDF). + + +The Pod Descriptor File is a hardware and network description of the pod +infrastructure. The information is modeled under a yaml structure. +A reference file with the expected yaml structure is available at +*mcp/config/labs/local/pod1.yaml* + +A common network section describes all the internal and provider networks +assigned to the pod. Each network is expected to have a vlan tag, IP subnet and +attached interface on the boards. Untagged vlans shall be defined as "native". + +The hardware description is arranged into a main "jumphost" node and a "nodes" +set for all target boards. For each node the following characteristics +are defined: + +- Node parameters including CPU features and total memory. +- A list of available disks. +- Remote management parameters. +- Network interfaces list including mac address, speed and advanced features. +- IP list of fixed IPs for the node + +**Note**: the fixed IPs are ignored by the MCP installer script and it will instead +assign based on the network ranges defined under the pod network configuration. + + +The Installer Descriptor File extends the PDF with pod related parameters +required by the installer. This information may differ per each installer type +and it is not considered part of the pod infrastructure. Fuel installer relies +on the IDF model to map the networks to the bridges on the foundation node and +to setup all node NICs by defining the expected OS device name and bus address. - .. code-block:: bash - $ ci/deploy.sh -b file:///home/jenkins/tmpdir/securedlab \ - -l arm \ - -p pod5 \ - -s os-nosdn-nofeature-ha \ - -B pxebr +The file follows a yaml structure and a "fuel" section is expected. Contents and +references must be aligned with the PDF file. The IDF file must be named after +the PDF with the prefix "idf-". A reference file with the expected structure +is available at *mcp/config/labs/local/idf-pod1.yaml* ============= diff --git a/docs/release/userguide/img/horizon_login.png b/docs/release/userguide/img/horizon_login.png Binary files differnew file mode 100644 index 00000000..641ca6c6 --- /dev/null +++ b/docs/release/userguide/img/horizon_login.png diff --git a/docs/release/userguide/img/salt_services_ip.png b/docs/release/userguide/img/salt_services_ip.png Binary files differnew file mode 100644 index 00000000..504beb3e --- /dev/null +++ b/docs/release/userguide/img/salt_services_ip.png diff --git a/docs/release/userguide/img/saltstack.png b/docs/release/userguide/img/saltstack.png Binary files differnew file mode 100644 index 00000000..d57452c6 --- /dev/null +++ b/docs/release/userguide/img/saltstack.png diff --git a/docs/release/userguide/index.rst b/docs/release/userguide/index.rst new file mode 100644 index 00000000..d4330d08 --- /dev/null +++ b/docs/release/userguide/index.rst @@ -0,0 +1,18 @@ +.. _fuel-userguide: + +.. This work is licensed under a Creative Commons Attribution 4.0 International License. +.. http://creativecommons.org/licenses/by/4.0 +.. (c) Open Platform for NFV Project, Inc. and its contributors + +.. _fuel-release-userguide-label: + +************************** +User guide for Fuel\@OPNFV +************************** + +.. toctree:: + :numbered: + :maxdepth: 2 + + userguide.rst + diff --git a/docs/release/userguide/userguide.rst b/docs/release/userguide/userguide.rst new file mode 100644 index 00000000..f00e6635 --- /dev/null +++ b/docs/release/userguide/userguide.rst @@ -0,0 +1,267 @@ +.. This work is licensed under a Creative Commons Attribution 4.0 International License. +.. http://creativecommons.org/licenses/by/4.0 +.. (c) Open Platform for NFV Project, Inc. and its contributors + +======== +Abstract +======== + +This document contains details about how to use OPNFV Fuel - Euphrates +release - after it was deployed. For details on how to deploy check the +installation instructions in the :ref:`references` section. + +This is an unified documentation for both x86_64 and aarch64 +architectures. All information is common for both architectures +except when explicitly stated. + + + +================ +Network Overview +================ + +Fuel uses several networks to deploy and administer the cloud: + ++------------------+-------------------+---------------------------------------------------------+ +| Network name | Deploy Type | Description | +| | | | ++==================+===================+=========================================================+ +| **PXE/ADMIN** | baremetal only | Used for booting the nodes via PXE | ++------------------+-------------------+---------------------------------------------------------+ +| **MCPCONTROL** | baremetal & | Used to provision the infrastructure VMs (Salt & MaaS). | +| | virtual | On virtual deploys, it is used for Admin too (on target | +| | | VMs) leaving the PXE/Admin bridge unused | ++------------------+-------------------+---------------------------------------------------------+ +| **Mgmt** | baremetal & | Used for internal communication between | +| | virtual | OpenStack components | ++------------------+-------------------+---------------------------------------------------------+ +| **Internal** | baremetal & | Used for VM data communication within the | +| | virtual | cloud deployment | ++------------------+-------------------+---------------------------------------------------------+ +| **Public** | baremetal & | Used to provide Virtual IPs for public endpoints | +| | virtual | that are used to connect to OpenStack services APIs. | +| | | Used by Virtual machines to access the Internet | ++------------------+-------------------+---------------------------------------------------------+ + + +These networks - except mcpcontrol - can be linux bridges configured before the deploy on the +Jumpserver. If they don't exists at deploy time, they will be created by the scripts as virsh +networks. + +Mcpcontrol exists only on the Jumpserver and needs to be virtual because a DHCP server runs +on this network and associates static host entry IPs for Salt and Maas VMs. + + + +=================== +Accessing the Cloud +=================== + +Access to any component of the deployed cloud is done from Jumpserver to user *ubuntu* with +ssh key */var/lib/opnfv/mcp.rsa*. The example below is a connection to Salt master. + + .. code-block:: bash + + $ ssh -o StrictHostKeyChecking=no -i /var/lib/opnfv/mcp.rsa -l ubuntu 10.20.0.2 + +**Note**: The Salt master IP is not hard set, it is configurable via INSTALLER_IP during deployment + + +The Fuel baremetal deploy has a Virtualized Control Plane (VCP) which means that the controller +services are installed in VMs on the baremetal targets (kvm servers). These VMs can also be +accessed with virsh console: user *opnfv*, password *opnfv_secret*. This method does not apply +to infrastructure VMs (Salt master and MaaS). + +The example below is a connection to a controller VM. The connection is made from the baremetal +server kvm01. + + .. code-block:: bash + + $ ssh -o StrictHostKeyChecking=no -i /var/lib/opnfv/mcp.rsa -l ubuntu x.y.z.141 + ubuntu@kvm01:~$ virsh console ctl01 + +User *ubuntu* has sudo rights. User *opnfv* has sudo rights only on aarch64 deploys. + + +============================= +Exploring the Cloud with Salt +============================= + +To gather information about the cloud, the salt commands can be used. It is based +around a master-minion idea where the salt-master pushes config to the minions to +execute actions. + +For example tell salt to execute a ping to 8.8.8.8 on all the nodes. + +.. figure:: img/saltstack.png + +Complex filters can be done to the target like compound queries or node roles. +For more information about Salt see the :ref:`references` section. + +Some examples are listed below. Note that these commands are issued from Salt master +with *root* user. + + +#. View the IPs of all the components + + .. code-block:: bash + + root@cfg01:~$ salt "*" network.ip_addrs + cfg01.baremetal-mcp-ocata-odl-ha.local: + - 10.20.0.2 + - 172.16.10.100 + mas01.baremetal-mcp-ocata-odl-ha.local: + - 10.20.0.3 + - 172.16.10.3 + - 192.168.11.3 + ......................... + + +#. View the interfaces of all the components and put the output in a file with yaml format + + .. code-block:: bash + + root@cfg01:~$ salt "*" network.interfaces --out yaml --output-file interfaces.yaml + root@cfg01:~# cat interfaces.yaml + cfg01.baremetal-mcp-ocata-odl-ha.local: + enp1s0: + hwaddr: 52:54:00:72:77:12 + inet: + - address: 10.20.0.2 + broadcast: 10.20.0.255 + label: enp1s0 + netmask: 255.255.255.0 + inet6: + - address: fe80::5054:ff:fe72:7712 + prefixlen: '64' + scope: link + up: true + ......................... + + +#. View installed packages in MaaS node + + .. code-block:: bash + + root@cfg01:~# salt "mas*" pkg.list_pkgs + mas01.baremetal-mcp-ocata-odl-ha.local: + ---------- + accountsservice: + 0.6.40-2ubuntu11.3 + acl: + 2.2.52-3 + acpid: + 1:2.0.26-1ubuntu2 + adduser: + 3.113+nmu3ubuntu4 + anerd: + 1 + ......................... + + +#. Execute any linux command on all nodes (list the content of */var/log* in this example) + + .. code-block:: bash + + root@cfg01:~# salt "*" cmd.run 'ls /var/log' + cfg01.baremetal-mcp-ocata-odl-ha.local: + alternatives.log + apt + auth.log + boot.log + btmp + cloud-init-output.log + cloud-init.log + ......................... + + +#. Execute any linux command on nodes using compound queries filter + + .. code-block:: bash + + root@cfg01:~# salt -C '* and cfg01*' cmd.run 'ls /var/log' + cfg01.baremetal-mcp-ocata-odl-ha.local: + alternatives.log + apt + auth.log + boot.log + btmp + cloud-init-output.log + cloud-init.log + ......................... + + +#. Execute any linux command on nodes using role filter + + .. code-block:: bash + + root@cfg01:~# salt -I 'nova:compute' cmd.run 'ls /var/log' + cmp001.baremetal-mcp-ocata-odl-ha.local: + alternatives.log + apache2 + apt + auth.log + btmp + ceilometer + cinder + cloud-init-output.log + cloud-init.log + ......................... + + + +=================== +Accessing Openstack +=================== + +Once the deployment is complete, Openstack CLI is accessible from controller VMs (ctl01..03). +Openstack credentials are at */root/keystonercv3*. + + .. code-block:: bash + + root@ctl01:~# source keystonercv3 + root@ctl01:~# openstack image list + +--------------------------------------+-----------------------------------------------+--------+ + | ID | Name | Status | + +======================================+===============================================+========+ + | 152930bf-5fd5-49c2-b3a1-cae14973f35f | CirrosImage | active | + | 7b99a779-78e4-45f3-9905-64ae453e3dcb | Ubuntu16.04 | active | + +--------------------------------------+-----------------------------------------------+--------+ + + +The OpenStack Dashboard, Horizon is available at http://<controller VIP>:8078, e.g. http://10.16.0.101:8078. +The administrator credentials are *admin*/*opnfv_secret*. + +.. figure:: img/horizon_login.png + + +A full list of IPs/services is available at <proxy public VIP>:8090 for baremetal deploys. + +.. figure:: img/salt_services_ip.png + +For Virtual deploys, the most commonly used IPs are in the table below. + ++-----------+--------------+---------------+ +| Component | IP | Default value | ++===========+==============+===============+ +| gtw01 | x.y.z.110 | 172.16.10.110 | ++-----------+--------------+---------------+ +| ctl01 | x.y.z.100 | 172.16.10.100 | ++-----------+--------------+---------------+ +| cmp001 | x.y.z.105 | 172.16.10.105 | ++-----------+--------------+---------------+ +| cmp002 | x.y.z.106 | 172.16.10.106 | ++-----------+--------------+---------------+ + + +.. _references: + +========== +References +========== + +1) `Installation instructions <http://docs.opnfv.org/en/stable-euphrates/submodules/fuel/docs/release/installation/installation.instruction.html>`_ +2) `Saltstack Documentation <https://docs.saltstack.com/en/latest/topics>`_ +3) `Saltstack Formulas <http://salt-formulas.readthedocs.io/en/latest/develop/overview-reclass.html>`_ + + |