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author | Frank Brockners <fbrockne@cisco.com> | 2017-03-09 13:30:44 -0800 |
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committer | Frank Brockners <fbrockne@cisco.com> | 2017-03-10 04:29:21 -0800 |
commit | e98d863ae414a55b1d306f66f0b54aa659a2c9ae (patch) | |
tree | d13b90898d1a27e8efaef90db51349b797a888f5 /docs/scenarios/os-nosdn-fdio-ha | |
parent | 85f111a70832939d32245db5a54566e2eff7962c (diff) |
Scenario docs for os-nosdn-fdio-ha
Scenario description for os-nosdn-fdio-ha scenario.
Scenario which provides OpenStack HA along with FD.io
integration using the networking-vpp ML2 driver.
Change-Id: I4508210642b2e7a56a90bf6132f6b65d9d4ee565
Signed-off-by: Frank Brockners <fbrockne@cisco.com>
Diffstat (limited to 'docs/scenarios/os-nosdn-fdio-ha')
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-rw-r--r-- | docs/scenarios/os-nosdn-fdio-ha/index.rst | 18 | ||||
-rw-r--r-- | docs/scenarios/os-nosdn-fdio-ha/scenario.description.rst | 173 |
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diff --git a/docs/scenarios/os-nosdn-fdio-ha/FDS-nosdn-overview.png b/docs/scenarios/os-nosdn-fdio-ha/FDS-nosdn-overview.png Binary files differnew file mode 100755 index 0000000..0692374 --- /dev/null +++ b/docs/scenarios/os-nosdn-fdio-ha/FDS-nosdn-overview.png diff --git a/docs/scenarios/os-nosdn-fdio-ha/index.rst b/docs/scenarios/os-nosdn-fdio-ha/index.rst new file mode 100644 index 0000000..f944346 --- /dev/null +++ b/docs/scenarios/os-nosdn-fdio-ha/index.rst @@ -0,0 +1,18 @@ +.. OPNFV - Open Platform for Network Function Virtualization +.. This work is licensed under a Creative Commons Attribution 4.0 International License. +.. http://creativecommons.org/licenses/by/4.0 + + +********************************************************************** +Fast Data Stacks Scenario: os-nosdn-fdio-ha Overview and Description +********************************************************************** + +Scenario: "OpenStack - FD.io" (os-nosdn-fdio-ha) +is a scenario developed as part of the FastDataStacks +OPNFV project. + +.. toctree:: + :numbered: + :maxdepth: 2 + + scenario.description.rst diff --git a/docs/scenarios/os-nosdn-fdio-ha/scenario.description.rst b/docs/scenarios/os-nosdn-fdio-ha/scenario.description.rst new file mode 100644 index 0000000..86eadb2 --- /dev/null +++ b/docs/scenarios/os-nosdn-fdio-ha/scenario.description.rst @@ -0,0 +1,173 @@ +.. OPNFV - Open Platform for Network Function Virtualization +.. This work is licensed under a Creative Commons Attribution 4.0 +.. International License. +.. http://creativecommons.org/licenses/by/4.0 + +Scenario: "OpenStack - FD.io" +============================= + +Scenario: os-nosdn-fdio-ha + +"os-nosdn-fdio-ha" is a scenario developed as part of the FastDataStacks +OPNFV project. The main components of the "os-nosdn-fdio-ha" scenario +are: + + - APEX (TripleO) installer (please also see APEX installer documentation) + - Openstack (in HA configuration) + - FD.io/VPP virtual forwarder for tenant networking + - etcd, which is the VPP ML2 mechanism driver's distributed key-value store, in clustered mode + +Introduction +============ + +NFV and virtualized high performance applications, such as video processing, +require a "fast data stack" solution that provides both carrier grade +forwarding performance, scalability and open extensibility. + +A key component of any NFV solution is the virtual forwarder, which needs to be +a feature rich, high performance, highly scale virtual switch-router. It needs +to leverage hardware accelerators when available and run in user space. In +addition, it should be modular and easily extensible. The Vector Packet +Processor (VPP) supplied by the FD.io project meets these needs, in that +it offers a highly scalable, high performance and easily extensible +software forwarder that entirely runs in user space. + +The "Openstack - FD.io/VPP" scenario provides the capability to realize a set +of use-cases relevant to the deployment of NFV nodes instantiated by means of +an Openstack orchestration system on FD.io/VPP enabled compute nodes. + +A deployment of the "os-nosdn-fdio-ha" scenario consists of 6 or more +servers: + + * 1 Jumphost hosting the APEX installer - running the Undercloud + * 3 Controlhosts, which run the Overcloud and Openstack services as well as the VPP ML2 etcd cluster + * 2 or more Computehosts + +.. image:: FDS-nosdn-overview.png + +Tenant networking leverages FD.io/VPP. Open VSwitch (OVS) is used for all other +connectivity, in particular the connectivity to public networking / the +Internet (i.e. br-ext) is performed via OVS as in any standard OpenStack +deployment. A VPP management agent is used to setup and manage layer 2 +networking for the scenario. Neutron ML2 plugin is configured to use +the VPP ML2 networking mechanism driver. Tenant networking can either leverage +VLANs or plain interfaces (flat networks). Layer 3 connectivity for a tenant +network is provided centrally via qrouter on the control node. As in a +standard OpenStack deployment, the Layer3 agent configures the qrouter and +associated rulesets for security (security groups) and NAT (floating IPs). +Public IP network connectivity for a tenant network is provided by +interconnecting the VPP-based bridge domain representing the tenant network to +qrouter using a tap interface. + +The setup is depicted below: + +Features of the scenario +------------------------ + +Main features of the "os-nosdn-fdio-ha" scenario: + + * Automated installation using the APEX installer + * Fast and scalable tenant networking using FD.io/VPP as forwarder + * Layer 2 networking using VLANs, managed and controlled + through the VPP ML2 plugin + * Layer 3 connectivitiy for tenant networks supplied centrally + on the Control node through standard OpenStack mechanisms. + All layer 3 features apply, including floating IPs (i.e. NAT) + and security groups + * DHCP server for tenant instances provided using the standard + OpenStack dnsmasq server + * OpenStack high availability + * etcd (VPP ML2 mechanism driver's distributed key-value store) high availability + +Networking in this scenario using VPP +------------------------------------- + +The os-nosdn-fdio-ha scenario combines components from two key open +source projects: OpenStack and Fast Data (FD.io). In order to make Fast Data +(FD.io) networking available to this scenario, an ML2 mechanism driver and a +light-weight control plane agent for VPP forwarder has been created. For +details see also https://git.openstack.org/cgit/openstack/networking-vpp/ + +Networking-vpp provides a Neutron ML2 mechanism driver to bring the advantages +of VPP to OpenStack deployments.It uses an etcd cluster on the control node to +keep track of the compute nodes, agent state and port bindings/unbindings. + +It's been written to be as simple and readable as possible, which means it's +naive; the aim was not to write the most efficient mechanism driver ever from +right out of the gate, but to write something simple and understandable and see +how well it works and what needs to be changed. + +As a general rule, everything was implemented in the simplest way, for two +reasons: one is that one sees working results the quickes, and the other is +that it's much easier to replace a simple system with a more complex one than +it is to change a complex one. The current design will change, but the one +that's there at the moment is small and easy to read, even if it makes you pull +faces when you read it. + +Scenario Configuration +====================== + +To enable the "os-nosdn-fdio-ha" scenario check the appropriate settings +in the APEX configuration files. Those are typically found in /etc/opnfv-apex. + +Use the file "os-nosdn-fdio-ha.yaml":: + + global_params: + ha_enabled: true + + deploy_options: + sdn_controller: false + sdn_l3: false + tacker: true + congress: true + sfc: false + vpn: false + vpp: true + dataplane: fdio + performance: + Controller: + vpp: + uio-driver: uio_pci_generic + Compute: + kernel: + hugepagesz: 2M + hugepages: 2048 + intel_iommu: 'on' + iommu: pt + isolcpus: 1,2 + vpp: + uio-driver: uio_pci_generic + + +Validated deployment environments +================================= + +The "os-nosdn-fdio-ha" scenario has been deployed and tested +on the following sets of hardware: + * Linux Foundation lab (Chassis: Cisco UCS-B-5108 blade server, + NICs: 8 external / 32 internal 10GE ports, + RAM: 32G (4 x 8GB DDR4-2133-MHz RDIMM/PC4-17000/single rank/x4/1.2v), + CPU: 3.50 GHz E5-2637 v3/135W 4C/15MB Cache/DDR4 2133MHz + Disk: 1.2 TB 6G SAS 10K rpm SFF HDD) see also + https://wiki.opnfv.org/display/pharos/Lflab+Hosting + * Cisco internal development labs (UCS-B and UCS-C) + + +Limitations, Issues and Workarounds +=================================== + +For specific information on limitations and issues, please refer to the APEX +installer release notes. + +References +========== + + + * FastDataStacks OPNFV project wiki: https://wiki.opnfv.org/display/fds + * Fast Data (FD.io): https://fd.io/ + * FD.io Vector Packet Processor (VPP): https://wiki.fd.io/view/VPP + * ML2 VPP mechanisms driver: https://git.openstack.org/cgit/openstack/networking-vpp/ + * OPNFV Danube release - more information: http://www.opnfv.org/danube + * Networking-vpp launchpad (ticket tracker) https://launchpad.net/networking-vpp + * Networking-vpp Wiki: https://wiki.openstack.org/wiki/Networking-vpp/ + * APEX (TripleO based) installer: https://wiki.opnfv.org/display/apex/Apex |