openstack-manuals/doc/training-guides/module001-ch003-core-projects.xml

<?xml version="1.0" encoding="utf-8"?>
<chapter xmlns="http://docbook.org/ns/docbook" xmlns:xi="http://www.w3.org/2001/XInclude" xmlns:xlink="http://www.w3.org/1999/xlink" version="5.0" xml:id="module001-ch003-core-projects">
  <title>OpenStack Projects, History, and Releases Overview</title>
  <para><guilabel>Project history and releases overview.</guilabel></para>
  <para>OpenStack is a cloud computing project that provides an
    Infrastructure-as-a-Service (IaaS). It is free open source
    software released under the terms of the Apache License. The
    project is managed by the OpenStack Foundation, a non-profit
    corporate entity established in September 2012 to promote
    OpenStack software and its community.</para>
  <para>More than 200 companies joined the project, among which are
    AMD, Brocade Communications Systems, Canonical, Cisco, Dell, EMC,
    Ericsson, Groupe Bull, HP, IBM, Inktank, Intel, NEC, Rackspace
    Hosting, Red Hat, SUSE Linux, VMware, and Yahoo!</para>
  <para>The technology consists of a series of interrelated projects
    that control pools of processing, storage, and networking
    resources throughout a data center, all managed through a
    dashboard that gives administrators control while empowering its
    users to provision resources through a web interface.</para>
  <para>The OpenStack community collaborates around a six-month,
    time-based release cycle with frequent development milestones.
    During the planning phase of each release, the community gathers
    for the OpenStack Design Summit to facilitate developer working
    sessions and assemble plans.</para>
  <para>In July 2010 Rackspace Hosting and NASA jointly launched an
    open-source cloud-software initiative known as OpenStack. The
    OpenStack project intended to help organizations which offer
    cloud-computing services running on standard hardware. The first
    official release, code-named Austin, appeared four months later,
    with plans to release regular updates of the software every few
    months. The early code came from the NASA Nebula platform and from
    the Rackspace Cloud Files platform. In July 2011, Ubuntu Linux
    developers adopted OpenStack.</para>
  <para><emphasis role="bold">OpenStack Releases</emphasis></para>
  <informaltable class="c20">
    <tbody>
      <tr>
        <td rowspan="1" colspan="1">Release Name</td>
        <td rowspan="1" colspan="1">Release Date</td>
        <td rowspan="1" colspan="1">Included Components</td>
      </tr>
      <tr>
        <td rowspan="1" colspan="1">Austin</td>
        <td rowspan="1" colspan="1">21 October 2010</td>
        <td rowspan="1" colspan="1">Nova, Swift</td>
      </tr>
      <tr>
        <td rowspan="1" colspan="1">Bexar</td>
        <td rowspan="1" colspan="1">3 February 2011</td>
        <td rowspan="1" colspan="1">Nova, Glance, Swift</td>
      </tr>
      <tr>
        <td rowspan="1" colspan="1">Cactus</td>
        <td rowspan="1" colspan="1">15 April 2011</td>
        <td rowspan="1" colspan="1">Nova, Glance, Swift</td>
      </tr>
      <tr>
        <td rowspan="1" colspan="1">Diablo</td>
        <td rowspan="1" colspan="1">22 September 2011</td>
        <td rowspan="1" colspan="1">Nova, Glance, Swift</td>
      </tr>
      <tr>
        <td rowspan="1" colspan="1">Essex</td>
        <td rowspan="1" colspan="1">5 April 2012</td>
        <td rowspan="1" colspan="1">Nova, Glance, Swift,
          Horizon, Keystone</td>
      </tr>
      <tr>
        <td rowspan="1" colspan="1">Folsom</td>
        <td rowspan="1" colspan="1">27 September 2012</td>
        <td rowspan="1" colspan="1">Nova, Glance, Swift,
          Horizon, Keystone, Quantum, Cinder</td>
      </tr>
      <tr>
        <td rowspan="1" colspan="1">Grizzly</td>
        <td rowspan="1" colspan="1">4 April 2013</td>
        <td rowspan="1" colspan="1">Nova, Glance, Swift,
          Horizon, Keystone, Quantum, Cinder</td>
      </tr>
      <tr>
        <td rowspan="1" colspan="1">Havana</td>
        <td rowspan="1" colspan="1">17 October 2013</td>
        <td rowspan="1" colspan="1">Nova, Glance, Swift,
          Horizon, Keystone, Neutron, Cinder</td>
      </tr>
      <tr>
        <td rowspan="1" colspan="1">Icehouse</td>
        <td rowspan="1" colspan="1">April 2014</td>
        <td rowspan="1" colspan="1">Nova, Glance, Swift,
          Horizon, Keystone, Neutron, Cinder, (More to be
          added)</td>
      </tr>
    </tbody>
  </informaltable>
  <para>Some OpenStack users include:</para>
  <itemizedlist>
    <listitem>
      <para>PayPal / eBay</para>
    </listitem>
    <listitem>
      <para>NASA</para>
    </listitem>
    <listitem>
      <para>CERN</para>
    </listitem>
    <listitem>
      <para>Yahoo!</para>
    </listitem>
    <listitem>
      <para>Rackspace Cloud</para>
    </listitem>
    <listitem>
      <para>HP Public Cloud</para>
    </listitem>
    <listitem>
      <para>MercadoLibre.com</para>
    </listitem>
    <listitem>
      <para>AT&amp;T</para>
    </listitem>
    <listitem>
      <para>KT (formerly Korea Telecom)</para>
    </listitem>
    <listitem>
      <para>Deutsche Telekom</para>
    </listitem>
    <listitem>
      <para>Wikimedia Labs</para>
    </listitem>
    <listitem>
      <para>Hostalia of Telef nica Group</para>
    </listitem>
    <listitem>
      <para>SUSE Cloud solution</para>
    </listitem>
    <listitem>
      <para>Red Hat OpenShift PaaS solution</para>
    </listitem>
    <listitem>
      <para>Zadara Storage</para>
    </listitem>
    <listitem>
      <para>Mint Services</para>
    </listitem>
    <listitem>
      <para>GridCentric</para>
    </listitem>
  </itemizedlist>
  <para>OpenStack is a true and innovative open standard. For more
    user stories, see <link xlink:href="http://goo.gl/aF4lsL"
      >http://goo.gl/aF4lsL</link>.</para>
  <para><guilabel>Release Cycle</guilabel></para>
  <figure>
    <title>Community Heartbeat</title>
    <mediaobject>
      <imageobject>
        <imagedata fileref="figures/image05.png"/>
      </imageobject>
    </mediaobject>
  </figure>
    <para>OpenStack is based on a coordinated 6-month release cycle
      with frequent development milestones. You can find a link to the
      current development release schedule <link xlink:href=
          "https://wiki.openstack.org/wiki/Releases">here</link>.
      The Release Cycle is made of four major stages.</para>
  <figure>
    <title>Various Projects under OpenStack</title>
    <mediaobject>
      <imageobject>
        <imagedata fileref="figures/image16.png"/>
      </imageobject>
    </mediaobject>
  </figure>
    <para>The creation of OpenStack took an estimated 249 years of
    effort (COCOMO model).</para>
  <para>In a nutshell, OpenStack has:</para>
    <itemizedlist>
      <listitem>
        <para>64,396 commits made by 1,128 contributors, with its
        first commit made in May, 2010.</para>
      </listitem>
      <listitem>
        <para>908,491 lines of code. OpenStack is written mostly in
        Python with an average number of source code comments.</para>
      </listitem>
    <listitem>
      <para>A code base with a long source history.</para>
    </listitem>
      <listitem>
      <para>Increasing Y-O-Y commits.</para>
    </listitem>
    <listitem>
      <para>A very large development team comprised of people from
        around the world.</para>
    </listitem>
    </itemizedlist>
  <figure>
    <title>Programming Languages used to design OpenStack</title>
    <mediaobject>
      <imageobject>
        <imagedata fileref="figures/image06.png"/>
      </imageobject>
    </mediaobject>
  </figure>
    <para>For an overview of OpenStack refer to
      http://www.openstack.org or http://goo.gl/4q7nVI. Common
      questions and answers are also covered here.</para>
  <para><guilabel>Core Projects Overview</guilabel></para>
  <para>Let's take a dive into some of the technical aspects of
    OpenStack. Its scalability and flexibility are a few of the
    awesome features that make it a rock-solid cloud computing
    platform. The OpenStack core projects serve the community and its
    demands.</para>
  <para>Being a cloud computing platform, OpenStack consists of many
    core and incubated projects which makes it really good
    as an IaaS cloud computing platform/Operating System. But the
    following points are the main components of OpenStack that are
    necessary to be present in the cloud to call it an OpenStack
    Cloud.</para>
  <para><guimenu>Components of OpenStack</guimenu></para>
  <para>OpenStack has a modular architecture with various code names
      for its components. OpenStack has several shared services that
      span the three pillars of compute, storage and networking,
      making it easier to implement and operate your cloud. These
      services - including identity, image management and a web
      interface - integrate the OpenStack components with each other
      as well as external systems to provide a unified experience for
      users as they interact with different cloud resources.</para>
  <para><guisubmenu>Compute (Nova)</guisubmenu></para>
      <para>The OpenStack cloud operating system enables enterprises
        and service providers to offer on-demand computing resources,
        by provisioning and managing large networks of virtual
        machines. Compute resources are accessible via APIs for
        developers building cloud applications and via web interfaces
        for administrators and users. The compute architecture is
        designed to scale horizontally on standard hardware.</para>
  <figure>
    <title>OpenStack Compute: Provision and manage large networks of
      virtual machines</title>
    <mediaobject>
      <imageobject>
        <imagedata fileref="figures/image03.png"/>
      </imageobject>
    </mediaobject>
  </figure>
      <para>OpenStack Compute (Nova) is a cloud computing fabric
        controller (the main part of an IaaS system). It is written in
        Python and uses many external libraries such as Eventlet (for
        concurrent programming), Kombu (for AMQP communication), and
        SQLAlchemy (for database access). Nova's architecture is
        designed to scale horizontally on standard hardware with no
        proprietary hardware or software requirements and provide the
        ability to integrate with legacy systems and third party
        technologies. It is designed to manage and automate pools of
        computer resources and can work with widely available
        virtualization technologies, as well as bare metal and
        high-performance computing (HPC) configurations. KVM and
        XenServer are available choices for hypervisor technology,
        together with Hyper-V and Linux container technology such as
        LXC. In addition to different hypervisors, OpenStack runs on
        ARM.</para>
  <para><emphasis role="bold">Popular Use Cases:</emphasis></para>
        <itemizedlist>
          <listitem>
            <para>Service providers offering an IaaS compute platform
              or services higher up the stack</para>
          </listitem>
          <listitem>
            <para>IT departments acting as cloud service providers for
              business units and project teams</para>
          </listitem>
          <listitem>
            <para>Processing big data with tools like Hadoop</para>
          </listitem>
          <listitem>
            <para>Scaling compute up and down to meet demand for web
              resources and applications</para>
          </listitem>
          <listitem>
            <para>High-performance computing (HPC) environments
              processing diverse and intensive workloads</para>
          </listitem>
        </itemizedlist>
  <para><guisubmenu>Object Storage(Swift)</guisubmenu></para>
      <para>In addition to traditional enterprise-class storage
        technology, many organizations now have a variety of storage
        needs with varying performance and price requirements.
        OpenStack has support for both Object Storage and Block
        Storage, with many deployment options for each depending on
        the use case.</para>
  <figure>
    <title>OpenStack Storage: Object and Block storage for use with
      servers and applications</title>
    <mediaobject>
      <imageobject>
        <imagedata fileref="figures/image17.png"/>
      </imageobject>
    </mediaobject>
  </figure>
      <para>OpenStack Object Storage (Swift) is a scalable redundant
        storage system. Objects and files are written to multiple disk
        drives spread throughout servers in the data center, with the
        OpenStack software responsible for ensuring data replication
        and integrity across the cluster. Storage clusters scale
        horizontally simply by adding new servers. Should a server or
        hard drive fail, OpenStack replicates its content from other
        active nodes to new locations in the cluster. Because
        OpenStack uses software logic to ensure data replication and
        distribution across different devices, inexpensive commodity
        hard drives and servers can be used.</para>
      <para>Object Storage is ideal for cost effective, scale-out
        storage. It provides a fully distributed, API-accessible
        storage platform that can be integrated directly into
        applications or used for backup, archiving and data retention.
        Block Storage allows block devices to be exposed and connected
        to compute instances for expanded storage, better performance
        and integration with enterprise storage platforms, such as
        NetApp, Nexenta and SolidFire.</para>
      <para>A few details on OpenStack’s Object Storage</para>
      <itemizedlist>
        <listitem>
          <para>OpenStack provides redundant, scalable object storage using
                clusters of standardized servers capable of storing
                petabytes of data</para>
        </listitem>
        <listitem>
          <para>Object Storage is not a traditional file system, but rather a
                distributed storage system for static data such as
                virtual machine images, photo storage, email storage,
                backups and archives. Having no central "brain" or
                master point of control provides greater scalability,
                redundancy and durability.</para>
        </listitem>
        <listitem>
          <para>Objects and files are written to multiple disk drives spread
                throughout servers in the data center, with the
                OpenStack software responsible for ensuring data
                replication and integrity across the cluster.</para>
        </listitem>
        <listitem>
          <para>Storage clusters scale horizontally simply by adding new servers.
                Should a server or hard drive fail, OpenStack
                replicates its content from other active nodes to new
                locations in the cluster. Because OpenStack uses
                software logic to ensure data replication and
                distribution across different devices, inexpensive
                commodity hard drives and servers can be used in lieu
                of more expensive equipment.</para>
        </listitem>
      </itemizedlist>
  <para><guisubmenu>Block Storage(Cinder)</guisubmenu></para>
      <para>OpenStack Block Storage (Cinder) provides persistent block
        level storage devices for use with OpenStack compute
        instances. The block storage system manages the creation,
        attaching and detaching of the block devices to servers. Block
        storage volumes are fully integrated into OpenStack Compute
        and the Dashboard allowing for cloud users to manage their own
        storage needs. In addition to local Linux server storage, it
        can use storage platforms including Ceph, CloudByte, Coraid,
        EMC (VMAX and VNX), GlusterFS, IBM Storage (Storwize family,
        SAN Volume Controller, and XIV Storage System), Linux LIO,
        NetApp, Nexenta, Scality, SolidFire and HP (Store Virtual and
        StoreServ 3Par families). Block storage is appropriate for
        performance sensitive scenarios such as database storage,
        expandable file systems, or providing a server with access to
        raw block level storage. Snapshot management provides powerful
        functionality for backing up data stored on block storage
        volumes. Snapshots can be restored or used to create a new
        block storage volume.</para>
      <para><emphasis role="bold">A few points on OpenStack Block
      Storage:</emphasis></para>
      <itemizedlist>
        <listitem>
          <para>OpenStack provides persistent block level storage
            devices for use with OpenStack compute instances.</para>
        </listitem>
        <listitem>
          <para>The block storage system manages the creation,
            attaching and detaching of the block devices to servers.
            Block storage volumes are fully integrated into OpenStack
            Compute and the Dashboard allowing for cloud users to
            manage their own storage needs.</para>
        </listitem>
        <listitem>
          <para>In addition to using simple Linux server storage, it
            has unified storage support for numerous storage platforms
            including Ceph, NetApp, Nexenta, SolidFire, and
            Zadara.</para>
        </listitem>
        <listitem>
          <para>Block storage is appropriate for performance sensitive
            scenarios such as database storage, expandable file
            systems, or providing a server with access to raw block
            level storage.</para>
        </listitem>
        <listitem>
          <para>Snapshot management provides powerful functionality
            for backing up data stored on block storage volumes.
            Snapshots can be restored or used to create a new block
            storage volume.</para>
        </listitem>
      </itemizedlist>
  <para><guisubmenu>Networking(Neutron)</guisubmenu></para>
      <para>Today's data center networks contain more devices than
    ever before. From servers, network equipment, storage systems and
    security appliances, many of which are further divided into
    virtual machines and virtual networks. The number of IP addresses,
    routing configurations and security rules can quickly grow into
    the millions. Traditional network management techniques fall short
    of providing a truly scalable, automated approach to managing
    these next-generation networks. At the same time, users expect
    more control and flexibility with quicker provisioning.</para>
      <para>OpenStack Networking is a pluggable, scalable and
    API-driven system for managing networks and IP addresses. Like
    other aspects of the cloud operating system, it can be used by
    administrators and users to increase the value of existing data
    center assets. OpenStack Networking ensures the network will not
    be the bottleneck or limiting factor in a cloud deployment and
    gives users real self-service, even over their network
    configurations.</para>
  <figure>
    <title>OpenStack Networking: Pluggable, scalable, API-driven
      network and IP management</title>
    <mediaobject>
      <imageobject>
        <imagedata fileref="figures/image26.png"/>
      </imageobject>
    </mediaobject>
  </figure>
      <para>OpenStack Networking (Neutron, formerly Quantum) is a
        system for managing networks and IP addresses. Like other
        aspects of the cloud operating system, it can be used by
        administrators and users to increase the value of existing
        data center assets. OpenStack Networking ensures the network
        will not be the bottleneck or limiting factor in a cloud
        deployment and gives users real self-service, even over their
        network configurations.</para>
      <para>OpenStack Neutron provides networking models for different
        applications or user groups. Standard models include flat
        networks or VLANs for separation of servers and traffic.
        OpenStack Networking manages IP addresses, allowing for
        dedicated static IPs or DHCP. Floating IPs allow traffic to be
        dynamically re routed to any of your compute resources, which
        allows you to redirect traffic during maintenance or in the
        case of failure. Users can create their own networks, control
        traffic and connect servers and devices to one or more
        networks. Administrators can take advantage of
        software-defined networking (SDN) technology like OpenFlow to
        allow for high levels of multi-tenancy and massive scale.
        OpenStack Networking has an extension framework allowing
        additional network services, such as intrusion detection
        systems (IDS), load balancing, firewalls and virtual private
        networks (VPN) to be deployed and managed.</para>
  <para>Networking Capabilities</para>
        <itemizedlist>
          <listitem>
            <para>OpenStack provides flexible networking models to
              suit the needs of different applications or user groups.
              Standard models include flat networks or VLANs for
              separation of servers and traffic.</para>
          </listitem>
          <listitem>
            <para>OpenStack Networking manages IP addresses, allowing
              for dedicated static IPs or DHCP. Floating IPs allow
              traffic to be dynamically re-routed to any of your
              compute resources, which allows you to redirect traffic
              during maintenance or in the case of failure.</para>
          </listitem>
          <listitem>
            <para>Users can create their own networks, control traffic
              and connect servers and devices to one or more
              networks.</para>
          </listitem>
          <listitem>
            <para>The pluggable backend architecture lets users take
              advantage of commodity gear or advanced networking
              services from supported vendors.</para>
          </listitem>
          <listitem>
            <para>Administrators can take advantage of
              software-defined networking (SDN) technology like
              OpenFlow to allow for high levels of multi-tenancy and
              massive scale.</para>
          </listitem>
          <listitem>
            <para>OpenStack Networking has an extension framework
              allowing additional network services, such as intrusion
              detection systems (IDS), load balancing, firewalls and
              virtual private networks (VPN) to be deployed and
              managed.</para>
          </listitem>
        </itemizedlist>
  <para><guisubmenu>Dashboard(Horizon)</guisubmenu></para>
      <para>OpenStack Dashboard (Horizon) provides administrators and
    users a graphical interface to access, provision and automate
    cloud-based resources. The design allows for third party products
    and services, such as billing, monitoring and additional
    management tools. Service providers and other commercial vendors
    can customize the dashboard with their own brand.</para>
      <para>The dashboard is just one way to interact with OpenStack
        resources. Developers can automate access or build tools to
        manage their resources using the native OpenStack API or the
        EC2 compatibility API.</para>
  <para><guisubmenu>Identity Service(Keystone)</guisubmenu></para>
      <para>OpenStack Identity (Keystone) provides a central directory
    of users mapped to the OpenStack services they can access. It acts
    as a common authentication system across the cloud operating
    system and can integrate with existing backend directory services
    like LDAP. It supports multiple forms of authentication including
    standard username and password credentials, token-based systems,
    and Amazon Web Services log in credentials such as those used
    for EC2.</para>
      <para>Additionally, the catalog provides a query-able list of all
        of the services deployed in an OpenStack cloud in a single
        registry. Users and third-party tools can programmatically
        determine which resources they can access.</para>
      <para>The OpenStack Identity Service enables administrators
    to:</para>
      <itemizedlist>
        <listitem>
          <para>Configure centralized policies across users and
            systems</para>
        </listitem>
        <listitem>
          <para>Create users and tenants and define permissions for
        compute, storage, and networking resources by using role-based
        access control (RBAC) features</para>
        </listitem>
        <listitem>
          <para>Integrate with an existing directory, like LDAP, to
        provide a single source of authentication across the
        enterprise</para>
        </listitem>
      </itemizedlist>
      <para>The OpenStack Identity Service enables users to:</para>
      <itemizedlist>
        <listitem>
          <para>List the services to which they have access</para>
        </listitem>
        <listitem>
          <para>Make API requests</para>
        </listitem>
        <listitem>
          <para>Log into the web dashboard to create resources owned
        by their account</para>
        </listitem>
      </itemizedlist>
  <para><guisubmenu>Image Service(Glance)</guisubmenu></para>
      <para>OpenStack Image Service (Glance) provides discovery,
        registration and delivery services for disk and server images.
        Stored images can be used as a template. They can also be used
        to store and catalog an unlimited number of backups. The Image
        Service can store disk and server images in a variety of
        back-ends, including OpenStack Object Storage. The Image
        Service API provides a standard REST interface for querying
        information about disk images and lets clients stream the
        images to new servers.</para>
      <para>Capabilities of the Image Service include:</para>
      <itemizedlist>
        <listitem>
          <para>Administrators can create base templates from which
            their users can start new compute instances</para>
        </listitem>
        <listitem>
          <para>Users can choose from available images, or create
            their own from existing servers</para>
        </listitem>
        <listitem>
          <para>Snapshots can also be stored in the Image Service so
            that virtual machines can be backed up quickly</para>
        </listitem>
      </itemizedlist>
      <para>A multi-format image registry, the image service allows
        uploads of private and public images in a variety of formats,
        including:</para>
      <itemizedlist>
        <listitem>
          <para>Raw</para>
        </listitem>
        <listitem>
          <para>Machine (kernel/ramdisk outside of image, also known
        as AMI)</para>
        </listitem>
        <listitem>
          <para>VHD (Hyper-V)</para>
        </listitem>
        <listitem>
          <para>VDI (VirtualBox)</para>
        </listitem>
        <listitem>
          <para>qcow2 (Qemu/KVM)</para>
        </listitem>
        <listitem>
          <para>VMDK (VMWare)</para>
        </listitem>
        <listitem>
          <para>OVF (VMWare, others)</para>
        </listitem>
      </itemizedlist>
      <para>To checkout the complete list of Core and Incubated
        projects under OpenStack check out OpenStack’s Launchpad
        Project Page here : http://goo.gl/ka4SrV</para>
  <para><guisubmenu>Amazon Web Services compatibility</guisubmenu></para>
      <para>OpenStack APIs are compatible with Amazon EC2 and Amazon
        S3 and thus client applications written for Amazon Web
        Services can be used with OpenStack with minimal porting
        effort.</para>
  <para><guilabel>Governance</guilabel></para>
      <para>OpenStack is governed by a non-profit foundation and its
        board of directors, a technical committee and a user
        committee.</para>
      <para>The foundation's stated mission is by providing shared
        resources to help achieve the OpenStack Mission by Protecting,
        Empowering, and Promoting OpenStack software and the community
        around it, including users, developers and the entire
        ecosystem. Though, it has little to do with the development of
        the software, which is managed by the technical committee - an
        elected group that represents the contributors to the project,
        and has oversight on all technical matters.</para>
</chapter>