f5ad8e206f
Address TODOs in user_concepts section Change-Id: Ibb604a0421f13066b88c75295abe91eb4a5a5d2e
289 lines
11 KiB
ReStructuredText
289 lines
11 KiB
ReStructuredText
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Key Compute API Concepts
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========================
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The OpenStack Compute API is defined as a RESTful HTTP service. The API
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takes advantage of all aspects of the HTTP protocol (methods, URIs,
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media types, response codes, etc.) and providers are free to use
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existing features of the protocol such as caching, persistent
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connections, and content compression among others.
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Providers can return information identifying requests in HTTP response
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headers, for example, to facilitate communication between the provider
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and client applications.
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OpenStack Compute is a compute service that provides server capacity in
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the cloud. Compute Servers come in different flavors of memory, cores,
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disk space, and CPU, and can be provisioned in minutes. Interactions
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with Compute Servers can happen programmatically with the OpenStack
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Compute API.
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User Concepts
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=============
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To use the OpenStack Compute API effectively, you should understand
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several key concepts:
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- **Server**
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A virtual machine (VM) instance, physical machine or a container in the
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compute system. Flavor and image are requisite elements when creating a
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server. A name for the server is also required.
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For more details, such as server actions and server metadata,
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please see: :doc:`server_concepts`
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- **Flavor**
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Virtual hardware configuration for the requested server. Each flavor has a
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unique combination of disk space, memory capacity and priority for
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CPU time.
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- **Flavor Extra Specs**
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Key and value pairs that can be used to describe the specification of
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the server which more than just about CPU, disk and RAM. For example,
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it can be used to indicate that the server created by this flavor has
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PCI devices, etc.
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For more details, please see: :doc:`extra_specs_and_properties`
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- **Image**
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A collection of files used to create or rebuild a server. Operators
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provide a number of pre-built OS images by default. You may also
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create custom images from cloud servers you have launched. These
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custom images are useful for backup purposes or for producing “gold”
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server images if you plan to deploy a particular server configuration
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frequently.
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- **Image Properties**
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Key and value pairs that can help end users to determine the requirements
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of the guest os in the image.
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For more details, please see: :doc:`extra_specs_and_properties`
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- **Key Pair**
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An ssh or x509 keypair that can be injected into a server at it's boot time.
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This allows you to connect to your server once it has been created without
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having to use a password. If you don't specify a key pair, Nova will create
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a root password for you, and return it in plain text in the server create
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response.
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- **Volume**
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A block storage device that Nova can use as permanent storage. When a server
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is created it has some disk storage available, but that is considered
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ephemeral, as it is destroyed when the server is destroyed. A volume can be
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attached to a server, then later detached and used by another server.
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Volumes are created and managed by the Cinder service, though the Nova API
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can proxy some of these calls.
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- **Quotas**
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An upper limit on the amount of resources any individual tenant may consume.
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Quotas can be used to limit the number of servers a tenant creates, or the
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amount of disk space consumed, so that no one tenant can overwhelm the
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system and prevent normal operation for others. Changing quotas is an
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administrator-level action.
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- **Rate Limiting**
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Please see :doc:`limits`
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- **Availability zone**
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A grouping of host machines that can be used to control where a new server
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is created. There is some confusion about this, as the name "availability
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zone" is used in other clouds, such as Amazon Web Services, to denote a
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physical separation of server locations that can be used to distribute cloud
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resources for fault tolerance in case one zone is unavailable for any
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reason. Such a separation is possible in Nova if an administrator carefully
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sets up availability zones for that, but it is not the default.
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Networking Concepts
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-------------------
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In this section we focus on this related to networking.
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- **Port**
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TODO
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- **Floating IPs, Pools and DNS**
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TODO
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- **Security Groups**
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TODO
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- **Extended Networks**
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TODO
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Administrator Concepts
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======================
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Some APIs are largely focused on administration of Nova, and generally focus
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on compute hosts rather than servers.
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- **Services**
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Services are provided by Nova components. Normally, the Nova component runs
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as a process on the controller/compute node to provide the service. These
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services may be end-user facing, such as the OpenStack Compute REST API
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service, but most just work with other Nova services. The status of each
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service is monitored by Nova, and if it is not responding normally, Nova
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will update its status so that requests are not sent to that service
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anymore. The service can also be controlled by an Administrator in order to
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run maintenance or upgrades, or in response to changing workloads.
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- **nova-osapi_compute**
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This service provides the OpenStack Compute REST API to end users and
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application clients.
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- **nova-metadata**
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This service provides the OpenStack Metadata API to servers. The metadata
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is used to configure the running servers.
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- **nova-scheduler**
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This service provides compute request scheduling by tracking available
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resources, and finding the host that can best fulfill the request.
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- **nova-conductor**
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This service provides database access for Nova and the other OpenStack
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services, and handles internal version compatibility when different
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services are running different versions of code. The conductor service
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also handles long-running requests.
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- **nova-compute**
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This service runs on every compute node, and communicates with a
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hypervisor for managing compute resources on that node.
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- **nova-network (deprecated)**
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This service handles networking of virtual servers. It is no longer under
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active development, and is being replaced by Neutron.
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- **nova-ec2 (deprecated)**
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This service provides AWS EC2 API compatibility.
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- **nova-consoleauth**
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This service provides authorization for compute instances consoles.
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- **Services Actions**
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- **enable, disable, disable-log-reason**
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The service can be disabled to indicate the service is not available anymore.
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This is used by administrator to stop service for maintenance.
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For example, when Administrator wants to maintain a specific compute node,
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Administrator can disable nova-compute service on that compute node. Then
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nova won't dispatch any new compute request to that compute node anymore.
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Administrator also can add note for disable reason.
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- **forced-down**
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This action allows you set the state of service down immediately. Actually
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Nova only provides the health monitor of service status, there isn't any
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guarantee about health status of other parts of infrastructure, like the
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health status of data network, storage network and other components. The
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more complete health monitor of infrastructure is provided by external
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system normally. An external health monitor system can mark the service
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down for notifying the fault.
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`(This action is enabled in Microversion 2.11)`
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- **Hosts**
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Hosts are the *physical machines* that provide the resources for the virtual
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servers created in Nova. They run a ``hypervisor`` (see definition below)
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that handles the actual creation and management of the virtual servers.
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Hosts also run the ``Nova compute service``, which receives requests from
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Nova to interact with the virtual servers on that machine. When compute
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service receives a request, it calls the appropriate methods of the driver
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for that hypervisor in order to carry out the request. The driver acts as
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the translator from generic Nova requests to hypervisor-specific calls.
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Hosts report their current state back to Nova, where it is tracked by the
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scheduler service, so that the scheduler can place requests for new virtual
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servers on the hosts that can best fit them.
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- **Host Actions**
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A *host action* is one that affects the physical host machine, as opposed to
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actions that only affect the virtual servers running on that machine. There
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are three 'power' actions that are supported: *startup*, *shutdown*, and
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*reboot*. There are also two 'state' actions: enabling/disabling the host,
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and setting the host into or out of maintenance mode. Of course, carrying
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out these actions can affect running virtual servers on that host, so their
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state will need to be considered before carrying out the host action. For
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example, if you want to call the 'shutdown' action to turn off a host
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machine, you might want to migrate any virtual servers on that host before
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shutting down the host machine so that the virtual servers continue to be
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available without interruption.
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- **Hypervisors**
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A hypervisor, or virtual machine monitor (VMM), is a piece of computer
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software, firmware or hardware that creates and runs virtual machines.
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In nova, each Host (see `Hosts`) runs a hypervisor. Administrators are able
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to query the hypervisor for information, such as all the virtual servers
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currently running, as well as detailed info about the hypervisor, such as
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CPU, memory, or disk related configuration.
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Currently nova-compute also supports Ironic and LXC, but they don't have
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a hypervisor running.
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- **Aggregates**
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See `Aggregates developer information
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<https://docs.openstack.org/nova/latest/user/aggregates.html>`_.
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- **Migrations**
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Migrations are the process where a virtual server is moved from one host to
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another. Please see :doc:`server_concepts` for details about
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moving servers.
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Administrators are able to query the records in database for information
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about migrations. For example, they can determine the source and
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destination hosts, type of migration, or changes in the server's flavor.
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Relationship with Volume API
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============================
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Here we discuss about Cinder's API and how Nova users volume UUIDs.
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TODO - add more details.
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Relationship with Image API
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===========================
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Here we discuss about Glance's API and how Nova uses image UUIDs.
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We also discuss how Nova proxies setting image metadata.
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TODO - add more details.
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Interactions with neutron and nova-network (deprecated)
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=======================================================
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We talk about how networking can be provided be either neutron or
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nova-network (deprecated).
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Here we discuss about Neutron's API and how Nova users port UUIDs.
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We also discuss Nova automatically creating ports, proxying security groups,
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and proxying floating IPs. Also talk about the APIs we do not proxy.
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TODO - add more details.
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