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Enrollment
After all the services have been properly configured, you should
enroll your hardware with the Bare Metal service, and confirm that the
Compute service sees the available hardware. The nodes will be visible
to the Compute service once they are in the available
provision state.
Note
After enrolling nodes with the Bare Metal service, the Compute
service will not be immediately notified of the new resources. The
Compute service's resource tracker syncs periodically, and so any
changes made directly to the Bare Metal service's resources will become
visible in the Compute service only after the next run of that periodic
task. More information is in the troubleshooting-install section.
Note
Any bare metal node that is visible to the Compute service may have a
workload scheduled to it, if both the power and
management interfaces pass the validate check.
If you wish to exclude a node from the Compute service's scheduler, for
instance so that you can perform maintenance on it, you can set the node
to "maintenance" mode. For more information see the maintenance_mode section.
Choosing a driver
When enrolling a node, the most important information to supply is
driver. See enabling-drivers for a detailed explanation of bare
metal drivers, hardware types and interfaces. The
driver list command can be used to list all drivers enabled
on all hosts:
baremetal driver list
+---------------------+-----------------------+
| Supported driver(s) | Active host(s) |
+---------------------+-----------------------+
| ipmi | localhost.localdomain |
+---------------------+-----------------------+The specific driver to use should be picked based on actual hardware
capabilities and expected features. See /admin/drivers for more hints on that.
Each driver has a list of driver properties that need to be
specified via the node's driver_info field, in order for
the driver to operate on node. This list consists of the properties of
the hardware interfaces that the driver uses. These driver properties
are available with the driver property list command:
$ baremetal driver property list ipmi
+----------------------+-------------------------------------------------------------------------------------------------------------+
| Property | Description |
+----------------------+-------------------------------------------------------------------------------------------------------------+
| ipmi_address | IP address or hostname of the node. Required. |
| ipmi_password | password. Optional. |
| ipmi_username | username; default is NULL user. Optional. |
| ... | ... |
| deploy_kernel | UUID (from Glance) of the deployment kernel. Required. |
| deploy_ramdisk | UUID (from Glance) of the ramdisk that is mounted at boot time. Required. |
+----------------------+-------------------------------------------------------------------------------------------------------------+The properties marked as required must be supplied either during node creation or shortly after. Some properties may only be required for certain features.
Note on API versions
Starting with API version 1.11, the Bare Metal service added a new
initial provision state of enroll to its state machine.
When this or later API version is used, new nodes get this state instead
of available.
Existing automation tooling that use an API version lower than 1.11
are not affected, since the initial provision state is still
available. However, using API version 1.11 or above may
break existing automation tooling with respect to node creation.
The openstack baremetal command line tool tries to
negotiate the most recent supported version, which in virtually all
cases will be newer than 1.11.
To set the API version for all commands, you can set the environment
variable IRONIC_API_VERSION. For the OpenStackClient
baremetal plugin, set the OS_BAREMETAL_API_VERSION variable
to the same value. For example:
$ export IRONIC_API_VERSION=1.11
$ export OS_BAREMETAL_API_VERSION=1.11Enrollment process
Creating a node
This section describes the main steps to enroll a node and make it available for provisioning. Some steps are shown separately for illustration purposes, and may be combined if desired.
Create a node in the Bare Metal service with the
node createcommand. At a minimum, you must specify the driver name (for example,ipmi).This command returns the node UUID along with other information about the node. The node's provision state will be
enroll:$ baremetal node create --driver ipmi +--------------+--------------------------------------+ | Property | Value | +--------------+--------------------------------------+ | uuid | dfc6189f-ad83-4261-9bda-b27258eb1987 | | driver_info | {} | | extra | {} | | driver | ipmi | | chassis_uuid | | | properties | {} | | name | None | +--------------+--------------------------------------+ $ baremetal node show dfc6189f-ad83-4261-9bda-b27258eb1987 +------------------------+--------------------------------------+ | Property | Value | +------------------------+--------------------------------------+ | target_power_state | None | | extra | {} | | last_error | None | | maintenance_reason | None | | provision_state | enroll | | uuid | dfc6189f-ad83-4261-9bda-b27258eb1987 | | console_enabled | False | | target_provision_state | None | | provision_updated_at | None | | maintenance | False | | power_state | None | | driver | ipmi | | properties | {} | | instance_uuid | None | | name | None | | driver_info | {} | | ... | ... | +------------------------+--------------------------------------+A node may also be referred to by a logical name as well as its UUID. A name can be assigned to the node during its creation by adding the
-noption to thenode createcommand or by updating an existing node with thenode setcommand. See Logical Names for examples.Starting with API version 1.31 (and
python-ironicclient1.13), you can pick which hardware interface to use with nodes that use hardware types. Each interface is represented by a node field called<IFACE>_interfacewhere<IFACE>in the interface type, e.g.boot. Seeenabling-driversfor details on hardware interfaces.An interface can be set either separately:
$ baremetal node set $NODE_UUID --deploy-interface direct --raid-interface agentor set during node creation:
$ baremetal node create --driver ipmi \ --deploy-interface direct \ --raid-interface agentIf no value is provided for some interfaces, Defaults for hardware interfaces are used instead.
Update the node
driver_infowith the required driver properties, so that the Bare Metal service can manage the node:$ baremetal node set $NODE_UUID \ --driver-info ipmi_username=$USER \ --driver-info ipmi_password=$PASS \ --driver-info ipmi_address=$ADDRESSNote
If IPMI is running on a port other than 623 (the default). The port must be added to
driver_infoby specifying theipmi_portvalue. Example:$ baremetal node set $NODE_UUID --driver-info ipmi_port=$PORT_NUMBERYou may also specify all
driver_infoparameters during node creation by passing the --driver-info option multiple times:$ baremetal node create --driver ipmi \ --driver-info ipmi_username=$USER \ --driver-info ipmi_password=$PASS \ --driver-info ipmi_address=$ADDRESSSee Choosing a driver above for details on driver properties.
Specify a deploy kernel and ramdisk compatible with the node's driver, for example:
$ baremetal node set $NODE_UUID \ --driver-info deploy_kernel=$DEPLOY_VMLINUZ_UUID \ --driver-info deploy_ramdisk=$DEPLOY_INITRD_UUIDSee
configure-glance-imagesfor details.Optionally you can specify the provisioning and/or cleaning network UUID or name in the node's
driver_info. Theneutronnetwork interface requires bothprovisioning_networkandcleaning_network, while theflatnetwork interface requires thecleaning_networkto be set either in the configuration or on the nodes. For example:$ baremetal node set $NODE_UUID \ --driver-info cleaning_network=$CLEAN_UUID_OR_NAME \ --driver-info provisioning_network=$PROVISION_UUID_OR_NAMESee
configure-tenant-networksfor details.You must also inform the Bare Metal service of the network interface cards which are part of the node by creating a port with each NIC's MAC address. These MAC addresses are passed to the Networking service during instance provisioning and used to configure the network appropriately:
$ baremetal port create $MAC_ADDRESS --node $NODE_UUIDNote
When it is time to remove the node from the Bare Metal service, the command used to remove the port is
baremetal port delete <port uuid>. When doing so, it is important to ensure that the baremetal node is not inmaintenanceas guarding logic to prevent orphaning Neutron Virtual Interfaces (VIFs) will be overridden.
Adding scheduling information
Assign a resource class to the node. A resource class should represent a class of hardware in your data center, that corresponds to a Compute flavor.
For example, let's split hardware into these three groups:
- nodes with a lot of RAM and powerful CPU for computational tasks,
- nodes with powerful GPU for OpenCL computing,
- smaller nodes for development and testing.
We can define three resource classes to reflect these hardware groups, named
large-cpu,large-gpuandsmallrespectively. Then, for each node in each of the hardware groups, we'll set theirresource_classappropriately via:$ baremetal node set $NODE_UUID --resource-class $CLASS_NAMEThe
--resource-classargument can also be used when creating a node:$ baremetal node create --driver $DRIVER --resource-class $CLASS_NAMETo use resource classes for scheduling you need to update your flavors as described in
configure-nova-flavors.Note
This is not required for standalone deployments, only for those using the Compute service for provisioning bare metal instances.
Update the node's properties to match the actual hardware of the node. These are optional. When provided,
memory_mbcan be used for checking if the instance image fits into the node's memory:$ baremetal node set $NODE_UUID \ --property memory_mb=$RAM_MB \ --property local_gb=$DISK_GBAs above, these can also be specified at node creation by passing the --property option to
node createmultiple times:$ baremetal node create --driver ipmi \ --driver-info ipmi_username=$USER \ --driver-info ipmi_password=$PASS \ --driver-info ipmi_address=$ADDRESS \ --property memory_mb=$RAM_MB \ --property local_gb=$DISK_GBThese values can also be discovered during Hardware Inspection.
Note
The value provided for the
local_gbproperty should match the size of the root device you're going to deploy on. By default ironic-python-agent picks the smallest disk which is not smaller than 4 GiB.If you override this logic by using root device hints (see
root-device-hints), thelocal_gbvalue should match the size of picked target disk.If you wish to perform more advanced scheduling of the instances based on hardware capabilities, you may add metadata to each node that will be exposed to the Compute scheduler (see:
ComputeCapabilitiesFilter <user/filter-scheduler.html>). A full explanation of this is outside of the scope of this document. It can be done through the specialcapabilitiesmember of node properties:$ baremetal node set $NODE_UUID \ --property capabilities=key1:val1,key2:val2Some capabilities can also be discovered during Hardware Inspection.
If you wish to perform advanced scheduling of instances based on qualitative attributes of bare metal nodes, you may add traits to each bare metal node that will be exposed to the Compute scheduler (see:
scheduling-traitsfor a more in-depth discussion of traits in the Bare Metal service). For example, to add the standard traitHW_CPU_X86_VMXand a custom traitCUSTOM_TRAIT1to a node:$ baremetal node add trait $NODE_UUID \ CUSTOM_TRAIT1 HW_CPU_X86_VMX
Validating node information
To check if Bare Metal service has the minimum information necessary for a node's driver to be functional, you may
validateit:$ baremetal node validate $NODE_UUID +------------+--------+--------+ | Interface | Result | Reason | +------------+--------+--------+ | boot | True | | | console | True | | | deploy | True | | | inspect | True | | | management | True | | | network | True | | | power | True | | | raid | True | | | storage | True | | +------------+--------+--------+If the node fails validation, each driver interface will return information as to why it failed:
$ baremetal node validate $NODE_UUID +------------+--------+-------------------------------------------------------------------------------------------------------------------------------------+ | Interface | Result | Reason | +------------+--------+-------------------------------------------------------------------------------------------------------------------------------------+ | boot | True | | | console | None | not supported | | deploy | False | Cannot validate iSCSI deploy. Some parameters were missing in node's instance_info. Missing are: ['root_gb', 'image_source'] | | inspect | True | | | management | False | Missing the following IPMI credentials in node's driver_info: ['ipmi_address']. | | network | True | | | power | False | Missing the following IPMI credentials in node's driver_info: ['ipmi_address']. | | raid | None | not supported | | storage | True | | +------------+--------+-------------------------------------------------------------------------------------------------------------------------------------+When using the Compute Service with the Bare Metal service, it is safe to ignore the deploy interface's validation error due to lack of image information. You may continue the enrollment process. This information will be set by the Compute Service just before deploying, when an instance is requested:
$ baremetal node validate $NODE_UUID +------------+--------+------------------------------------------------------------------------------------------------------------------------------------------------------------------+ | Interface | Result | Reason | +------------+--------+------------------------------------------------------------------------------------------------------------------------------------------------------------------+ | boot | False | Cannot validate image information for node because one or more parameters are missing from its instance_info. Missing are: ['ramdisk', 'kernel', 'image_source'] | | console | True | | | deploy | False | Cannot validate image information for node because one or more parameters are missing from its instance_info. Missing are: ['ramdisk', 'kernel', 'image_source'] | | inspect | True | | | management | True | | | network | True | | | power | True | | | raid | None | not supported | | storage | True | | +------------+--------+------------------------------------------------------------------------------------------------------------------------------------------------------------------+
Making node available for deployment
In order for nodes to be available for deploying workloads on them,
nodes must be in the available provision state. To do this,
nodes must be moved from the enroll state to the
manageable state and then to the available
state.
Note
This section can be skipped, if API version 1.10 or earlier is used.
After creating a node and before moving it from its initial provision
state of enroll, basic power and port information needs to
be configured on the node. The Bare Metal service needs this information
because it verifies that it is capable of controlling the node when
transitioning the node from enroll to
manageable state.
To move a node from enroll to manageable
provision state:
$ baremetal node manage $NODE_UUID
$ baremetal node show $NODE_UUID
+------------------------+--------------------------------------------------------------------+
| Property | Value |
+------------------------+--------------------------------------------------------------------+
| ... | ... |
| provision_state | manageable | <- verify correct state
| uuid | 0eb013bb-1e4b-4f4c-94b5-2e7468242611 |
| ... | ... |
+------------------------+--------------------------------------------------------------------+Note
Since it is an asynchronous call, the response for
baremetal node manage will not indicate whether the
transition succeeded or not. You can check the status of the operation
via baremetal node show. If it was successful,
provision_state will be in the desired state. If it failed,
there will be information in the node's last_error.
When a node is moved from the manageable to
available provision state, the node will go through
automated cleaning if configured to do so (see configure-cleaning).
To move a node from manageable to available
provision state:
$ baremetal node provide $NODE_UUID
$ baremetal node show $NODE_UUID
+------------------------+--------------------------------------------------------------------+
| Property | Value |
+------------------------+--------------------------------------------------------------------+
| ... | ... |
| provision_state | available | < - verify correct state
| uuid | 0eb013bb-1e4b-4f4c-94b5-2e7468242611 |
| ... | ... |
+------------------------+--------------------------------------------------------------------+For more details on the Bare Metal service's state machine, see the
/user/states
documentation.
Mapping nodes to Compute cells
If the Compute service is used for scheduling, and the
discover_hosts_in_cells_interval was not set as described
in configure-compute,
then log into any controller node and run the following command to map
the new node(s) to Compute cells:
nova-manage cell_v2 discover_hostsLogical names
A node may also be referred to by a logical name as well as its UUID.
Names can be assigned either during its creation by adding the
-n option to the node create command or by
updating an existing node with the node set command.
Node names must be unique, and conform to:
The node is named 'example' in the following examples:
$ baremetal node create --driver ipmi --name exampleor
$ baremetal node set $NODE_UUID --name exampleOnce assigned a logical name, a node can then be referred to by name or UUID interchangeably:
$ baremetal node create --driver ipmi --name example
+--------------+--------------------------------------+
| Property | Value |
+--------------+--------------------------------------+
| uuid | 71e01002-8662-434d-aafd-f068f69bb85e |
| driver_info | {} |
| extra | {} |
| driver | ipmi |
| chassis_uuid | |
| properties | {} |
| name | example |
+--------------+--------------------------------------+
$ baremetal node show example
+------------------------+--------------------------------------+
| Property | Value |
+------------------------+--------------------------------------+
| target_power_state | None |
| extra | {} |
| last_error | None |
| updated_at | 2015-04-24T16:23:46+00:00 |
| ... | ... |
| instance_info | {} |
+------------------------+--------------------------------------+Defaults for hardware interfaces
For hardware types, users can request one of enabled implementations when creating or updating a node as explained in Creating a node.
When no value is provided for a certain interface when creating a node, or changing a node's hardware type, the default value is used. You can use the driver details command to list the current enabled and default interfaces for a hardware type (for your deployment):
$ baremetal driver show ipmi
+-------------------------------+----------------+
| Field | Value |
+-------------------------------+----------------+
| default_boot_interface | pxe |
| default_console_interface | no-console |
| default_deploy_interface | direct |
| default_inspect_interface | no-inspect |
| default_management_interface | ipmitool |
| default_network_interface | flat |
| default_power_interface | ipmitool |
| default_raid_interface | no-raid |
| default_vendor_interface | no-vendor |
| enabled_boot_interfaces | pxe |
| enabled_console_interfaces | no-console |
| enabled_deploy_interfaces | direct |
| enabled_inspect_interfaces | no-inspect |
| enabled_management_interfaces | ipmitool |
| enabled_network_interfaces | flat, noop |
| enabled_power_interfaces | ipmitool |
| enabled_raid_interfaces | no-raid, agent |
| enabled_vendor_interfaces | no-vendor |
| hosts | ironic-host-1 |
| name | ipmi |
| type | dynamic |
+-------------------------------+----------------+The defaults are calculated as follows:
If the
default_<IFACE>_interfaceconfiguration option (where<IFACE>is the interface name) is set, its value is used as the default.If this implementation is not compatible with the node's hardware type, an error is returned to a user. An explicit value has to be provided for the node's
<IFACE>_interfacefield in this case.Otherwise, the first supported implementation that is enabled by an operator is used as the default.
A list of supported implementations is calculated by taking the intersection between the implementations supported by the node's hardware type and implementations enabled by the
enabled_<IFACE>_interfacesoption (where<IFACE>is the interface name). The calculation preserves the order of items, as provided by the hardware type.If the list of supported implementations is not empty, the first one is used. Otherwise, an error is returned to a user. In this case, an explicit value has to be provided for the
<IFACE>_interfacefield.
See enabling-drivers
for more details on configuration.
Example
Consider the following configuration (shortened for simplicity):
[DEFAULT]
enabled_hardware_types = ipmi,redfish
enabled_console_interfaces = no-console,ipmitool-shellinabox
enabled_deploy_interfaces = direct
enabled_management_interfaces = ipmitool,redfish
enabled_power_interfaces = ipmitool,redfish
default_deploy_interface = ansibleA new node is created with the ipmi driver and no
interfaces specified:
$ export OS_BAREMETAL_API_VERSION=1.31
$ baremetal node create --driver ipmi
+--------------+--------------------------------------+
| Property | Value |
+--------------+--------------------------------------+
| uuid | dfc6189f-ad83-4261-9bda-b27258eb1987 |
| driver_info | {} |
| extra | {} |
| driver | ipmi |
| chassis_uuid | |
| properties | {} |
| name | None |
+--------------+--------------------------------------+Then the defaults for the interfaces that will be used by the node in this example are calculated as follows:
- deploy
-
An explicit value of
ansibleis provided fordefault_deploy_interface, so it is used. - power
-
No default is configured. The
ipmihardware type supports onlyipmitoolpower. The intersection between supported power interfaces and values provided in theenabled_power_interfacesoption has only one item:ipmitool. It is used. - console
-
No default is configured. The
ipmihardware type supports the following console interfaces:ipmitool-socat,ipmitool-shellinaboxandno-console(in this order). Of these three, only two are enabled:no-consoleandipmitool-shellinabox(order does not matter). The intersection containsipmitool-shellinaboxandno-console. The first item is used, and it isipmitool-shellinabox. - management
-
Following the same calculation as power, the
ipmitoolmanagement interface is used.
Hardware Inspection
The Bare Metal service supports hardware inspection that simplifies
enrolling nodes - please see /admin/inspection for details.
Tenant Networks and Port Groups
See /admin/multitenancy and /admin/portgroups.