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− | __NOTOC__
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− | * '''Launchpad Entry''': [[NovaSpec]]:general-bare-metal-provisioning-framework
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− | * '''Created''': [https://launchpad.net/~mkkang Mikyung Kang]
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− | * '''Maintained''':[https://launchpad.net/~mkkang Mikyung Kang] [https://launchpad.net/~dkang David Kang] [https://launchpad.net/~50barca Ken Igarashi] [https://launchpad.net/~arata776 Arata Notsu] [https://launchpad.net/~devananda Devananda van der Veen]
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− | * '''Contributors''':
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− | ** [ [https://launchpad.net/~USC-ISI USC/ISI] ] Mikyung Kang <mkkang@isi.edu>, David Kang <dkang@isi.edu>
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− | ** [NTT DOCOMO] Ken Igarashi <igarashik@nttdocomo.co.jp>
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− | ** [[VirtualTech|Japan Inc.]] Arata Notsu <notsu@virtualtech.jp>
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− | ** [HP] Devananda van der Veen <devananda.vdv@gmail.com>
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− | * '''Mailing List''':
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− | ** Discussion is on the openstack-dev email list.
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− | ** Following convention, we use both [nova] and [baremetal] tags in the Subject line
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− | ** http://lists.openstack.org/cgi-bin/mailman/listinfo/openstack-dev
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− | * '''Bug listing'''
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− | ** Use the "baremetal" tag when filing bugs in Launchpad
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− | ** https://bugs.launchpad.net/nova/+bugs?field.tag=baremetal
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| | | |
− | <<[[TableOfContents]]()>> | + | <big> |
| | | |
− | == Summary ==
| + | The Nova "baremetal" driver was deprecated in the Juno release, and has been deleted from Nova. |
| | | |
− | This blueprint proposes to support general bare-metal provisioning framework in [[OpenStack]].
| + | Please see [[Ironic]] for all current work on the Bare Metal Provisioning program within OpenStack. |
| | | |
− | The target release for this is Folsom. USC/ISI and NTT docomo are working on integration of bare-metal provisioning implementation to support following stuff:
| + | </big> |
− | | |
− | * Support PXE and non-PXE bare-metal machines (Review#1)
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− | * Support several architecture types such as x86_64, tilepro64, and arm (Review#1)
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− | * Support fault-tolerance of bare-metal nova-compute node (Review#2)
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− | | |
− | The USC/ISI team has a branch here (general bare-metal provisioning framework and non-PXE support):
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− | * https://github.com/usc-isi/hpc-trunk-essex (stable/essex)
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− | * https://github.com/usc-isi/nova (folsom)
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− | * [[HeterogeneousTileraSupport]]
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− | | |
− | An etherpad for discussion of this blueprint is available at
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− | * http://etherpad.openstack.org/GrizzlyBareMetalCloud
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− | * http://etherpad.openstack.org/FolsomBareMetalCloud
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− | | |
− | Based on that, NTT docomo team and USC/ISI team have collaborated for new general bare-metal provisioning framework.
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− | * PXE support
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− | * Additional bare-metal features
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− | * Working branch: https://github.com/NTTdocomo-openstack/nova (master branch)
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− | | |
− | == Code Added ==
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− | | |
− | <pre><nowiki>#!wiki red/solid
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− | * [[https://github.com/NTTdocomo-openstack/nova/tree/master/nova/virt/baremetal | nova/nova/virt/baremetal/*]]
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− | * [[https://github.com/NTTdocomo-openstack/nova/tree/master/nova/tests/baremetal | nova/nova/tests/baremetal/*]]
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− | * [[https://github.com/NTTdocomo-openstack/nova/blob/master/bin/bm_deploy_server | nova/bin/bm_deploy_server]]
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− | * [[https://github.com/NTTdocomo-openstack/nova/blob/master/bin/nova-bm-manage | nova/bin/nova-bm-manage]]
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− | * [[https://github.com/NTTdocomo-openstack/nova/blob/master/nova/scheduler/baremetal_host_manager.py | nova/nova/scheduler/baremetal_host_manager.py]]
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− | </nowiki></pre>
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− | | |
− | | |
− | == Code Changed ==
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− | | |
− | <pre><nowiki>#!wiki red/solid
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− | * [[https://github.com/NTTdocomo-openstack/nova/blob/master/nova/compute/manager.py | nova/compute/manager.py]]
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− | * [[https://github.com/NTTdocomo-openstack/nova/blob/master/nova/compute/resource_tracker.py | nova/compute/resource_tracker.py]]
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− | * [[https://github.com/NTTdocomo-openstack/nova/blob/master/nova/manager.py | nova/manager.py]]
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− | * [[https://github.com/NTTdocomo-openstack/nova/blob/master/nova/scheduler/driver.py | nova/scheduler/driver.py]]
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− | * [[https://github.com/NTTdocomo-openstack/nova/blob/master/nova/scheduler/filter_scheduler.py | nova/scheduler/filter_scheduler.py]]
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− | * [[https://github.com/NTTdocomo-openstack/nova/blob/master/nova/scheduler/host_manager.py | nova/scheduler/host_manager.py]]
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− | * [[https://github.com/NTTdocomo-openstack/nova/blob/master/nova/tests/compute/test_compute.py | nova/tests/compute/test_compute.py]]
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− | * [[https://github.com/NTTdocomo-openstack/nova/blob/master/nova/virt/driver.py | nova/virt/driver.py]]
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− | * [[https://github.com/NTTdocomo-openstack/nova/blob/master/nova/tests/test_virt_drivers.py | nova/tests/test_virt_drivers.py]]
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− | </nowiki></pre>
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− | | |
− | | |
− | (1) (Merged) Updated scheduler and compute for multiple bare-metal capabilities: : https://review.openstack.org/13920
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− | * nova/compute/manager.py
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− | * nova/compute/resource_tracker.py
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− | * nova/manager.py
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− | * nova/scheduler/driver.py
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− | * nova/scheduler/filter_scheduler.py
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− | * nova/scheduler/host_manager.py
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− | * nova/tests/compute/test_compute.py
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− | * nova/tests/test_virt_drivers.py
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− | * nova/virt/driver.py
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− | * This patch includes updates on scheduler and compute codes for multiple bare-metal capabilities. In bare-metal provisioning, a bare-metal nova-compute manages multiple bare-metal nodes where instances are provisioned. Nova DB's ''compute_nodes'' entry needs to be created for each bare-metal node, and a scheduler can choose an appropriate bare-metal node to provision an instance. With this patch, one service entry with multiple bare-metal compute_node entries is registered at the start of bare-metal nova-compute. Distinct 'node name' is given for each bare-metal node. For this purpose, we extended ''[[FilterScheduler]]'' to put <nodename> to Nova DB's ''instance_system_metadata'', and bare-metal nova-compute use <host> and <hypervisor_hostname> instead of <host> to identify the bare-metal node to provision the instance. Also, 'capability’ is extended from a dictionary to a list of dictionaries to describe the multiple capabilities of the multiple bare-metal nodes.
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− | | |
− | (2) (Merged) Added separate bare-metal MySQL DB: https://review.openstack.org/10726
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− | * nova/virt/baremetal/bmdb/*
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− | * nova/tests/baremetal/bmdb/*
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− | * Previously, bare-metal provisioning used text files to store information of bare-metal machines. In this patch, a MySQL is used to store the information. The DB is designed to support PXE/non-PXE booting methods, heterogeneous hypervisor types, and architectures. Using a MySQL makes maintenance and upgrades easier than using text files. The DB for bare-metal nodes is implemented as a separate DB from the main Nova DB. The DB can be on any machines/places. The location of the DB and its server needs to be specified as a flag in the nova.conf file (as in the case of glance). There are a couple of reasons for this approach. First, the information needed for bare-metal nodes is different from that for non-bare-metal nodes. With a separate database for bare-metal nodes, the database can be customized without affecting the main Nova DB. Second, fault tolerance can be embedded in bare-metal nova-compute. Since one bare-metal nova-compute manages multiple bare-metal nodes, fault tolerance of a bare-metal nova-compute node is very important. With a separate DB for bare-metal nodes, fault-tolerance can be achieved independently from the main Nova DB. Replication of the bare-metal DB and implementation of fault-tolerance are not part of this patch. The implementation models nova and its DB as much as possible. The bare-metal driver must be upgraded to use this DB.
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− | | |
− | (3) A script for bare-metal node management: https://review.openstack.org/#/c/11366/
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− | * bin/nova-baremetal-manage
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− | * doc/source/man/nova-baremetal-manage.rst
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− | * nova/tests/baremetal/test_nova_baremetal_manage.py
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− | * This script allows the system administrator to manage bare-metal nodes. Bare-metal node creation/deletion, PXE ip address creation/listing, bare-metal interface creation/deletion/list, and other routines are implemented. The script manipulate bare-metal DB accordingly.
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− | | |
− | (4) Updated bare-metal provisioning framework: https://review.openstack.org/11354
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− | * etc/nova/rootwrap.d/baremetal_compute.filters
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− | * nova/tests/baremetal/test_driver.py
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− | * nova/tests/baremetal/test_volume_driver.py
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− | * nova/virt/baremetal/baremetal_states.py
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− | * nova/virt/baremetal/driver.py
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− | * nova/virt/baremetal/fake.py
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− | * nova/virt/baremetal/interfaces.template
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− | * nova/virt/baremetal/utils.py
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− | * nova/virt/baremetal/vif_driver.py
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− | * nova/virt/baremetal/volume_driver.py
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− | * New Baremetal driver is implemented in this patch. This patch does not include Tilera or PXE back-ends, which will be
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− | provided by subsequent patches. With this driver, nova compute registers multiple entries of baremetal nodes. It periodically updates the capabilities of the multiple bare-metal nodes and reports it as a list of capabilities.
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− | | |
− | (5) Added pxe back-end bare-metal.: https://review.openstack.org/11088
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− | * nova/tests/baremetal/test_ipmi.py
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− | * nova/tests/baremetal/test_pxe.py
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− | * nova/virt/baremetal/ipmi.py
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− | * nova/virt/baremetal/pxe.py
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− | * nova/virt/baremetal/vlan.py
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− | * nova/virt/baremetal/doc/pxe-bm-installation.rst
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− | * nova/virt/baremetal/doc/pxe-bm-instance-creation.rst
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− | * This patch includes only PXE back-end with IPMI. The documents describe how to install and configure bare-metal nova-compute to support PXE back-end nodes. It includes the packages needed for installation, how to create a bare-metal instance type, how to register bare-metal nodes and NIC, and how to run an instance. Nova flags for the configuration of bare-metal nova-compute are described.
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− | | |
− | (6) (Merged) Added bare-metal host manager: https://review.openstack.org/11357
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− | * nova/scheduler/baremetal_host_manager.py
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− | * The bare-metal host manager is used when multiple bare-metal instances are created by one request. The bare-metal host manager detects if a nova-compute is for VM or bare-metal. For VM instance provisioning, it simply calls the original ''host_manager''. For bare-metal instance provisioning, ''[[BaremetalNodeState]]'' is used to manage bare-metal node's resources when an instance is provisioned to a bare-metal node.
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− | | |
− | (7) Add Tilera back-end for baremetal: https://review.openstack.org/#/c/16608/
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− | * etc/nova/rootwrap.d/baremetal_compute.filters
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− | * nova/tests/baremetal/test_tilera.py
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− | * nova/tests/baremetal/test_tilera_pdu.py
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− | * nova/virt/baremetal/tilera.py
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− | * nova/virt/baremetal/tilera_pdu.py
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− | * nova/virt/baremetal/doc/tilera-bm-installation.rst
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− | * nova/virt/baremetal/doc/tilera-bm-instance-creation.rst
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− | * This patchset was split out from (4) at the request of Nova core members.
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− | | |
− | (8) PXE bare-metal provisioning helper server: https://review.openstack.org/#/c/15830/
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− | * bin/nova-baremetal-deploy-helper
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− | * etc/nova/rootwrap.d/baremetal-deploy-helper.filters
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− | * nova/tests/baremetal/test_nova_baremetal_deploy_helper.py
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− | * doc/source/man/nova-baremetal-deploy-helper.rst
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− | | |
− | == Overview ==
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− | | |
− | [[Image:GeneralBareMetalProvisioningFramework$bm1.png]]
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− | | |
− | 1) A user requests a baremetal instance.
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− | | |
− | * Non-PXE (Tilera):
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− |
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− | <pre><nowiki>
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− | euca-run-instances -t tp64.8x8 -k my.key ami-CCC
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− | </nowiki></pre>
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− | | |
− | * PXE
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− |
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− | <pre><nowiki>
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− | euca-run-instances -t baremetal.small --kernel aki-AAA --ramdisk ari-BBB ami-CCC
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− | </nowiki></pre>
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− | | |
− | | |
− | 2) nova-scheduler selects a baremetal nova-compute with the following configuration.
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− | | |
− | [[Image:GeneralBareMetalProvisioningFramework$bm2.png]]
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− | | |
− | * Here we assume that:
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− |
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− | <pre><nowiki>
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− | $IP
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− | MySQL for baremetal DB runs at the machine whose IP address is $IP(127.0.0.1). It must be changed if a different IP address is used.
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− | | |
− | $ID
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− | $ID should be replaced by MySQL user id
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− | | |
− | $Password
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− | $Password should be replaced by MySQL password
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− | </nowiki></pre>
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− | | |
− | | |
− | * Non-PXE (Tilera) [nova.conf]:
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− |
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− | <pre><nowiki>
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− | baremetal_sql_connection=mysql://$ID:$Password@$IP/nova_bm
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− | compute_driver=nova.virt.baremetal.driver.BareMetalDriver
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− | baremetal_driver=nova.virt.baremetal.tilera.TILERA
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− | power_manager=nova.virt.baremetal.tilera_pdu.Pdu
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− | instance_type_extra_specs=cpu_arch:tilepro64
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− | baremetal_tftp_root = /tftpboot
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− | scheduler_host_manager=nova.scheduler.baremetal_host_manager.BaremetalHostManager
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− | </nowiki></pre>
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− | | |
− | | |
− | * PXE [nova.conf]:
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− |
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− | <pre><nowiki>
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− | baremetal_sql_connection=mysql://$ID:$Password@$IP/nova_bm
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− | compute_driver=nova.virt.baremetal.driver.BareMetalDriver
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− | baremetal_driver=nova.virt.baremetal.pxe.PXE
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− | power_manager=nova.virt.baremetal.ipmi.Ipmi
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− | instance_type_extra_specs=cpu_arch:x86_64
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− | baremetal_tftp_root = /tftpboot
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− | scheduler_host_manager=nova.scheduler.baremetal_host_manager.BaremetalHostManager
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− | baremetal_deploy_kernel = xxxxxxxxxx
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− | baremetal_deploy_ramdisk = yyyyyyyy
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− | </nowiki></pre>
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− | | |
− | | |
− | * [[Image:GeneralBareMetalProvisioningFramework$bm3.png]]
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− | | |
− | 3) The bare-metal nova-compute selects a bare-metal node from its pool based on hardware resources and the instance type (# of cpus, memory, HDDs).
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− | | |
− | 4) Deployment images and configuration are prepared.
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− | | |
− | * Non-PXE (Tilera):
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− | ** The key injected file system is prepared and then NFS directory is configured for the bare-metal nodes. The kernel is already put to CF(Compact Flash Memory) of each tilera board and the ramdisk is not used for the tilera bare-metal nodes. For NFS mounting, /tftpboot/fs_x (x=node_id) should be set before launching instances.
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− | * PXE:
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− | ** kernel and ramdisk for the deployment, and the user specified kernel and ramdisk are put to TFTP server. PXE are configured for the baremetal host.
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− | | |
− | 5) The baremetal nova-compute powers on the baremetal node thorough
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− | | |
− | * Non-PXE (Tilera): PDU(Power Distribution Unit)
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− | * PXE: IPMI
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− | | |
− | 6) The image is deployed to bare-metal node.
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− | | |
− | * Non-PXE (Tilera): The images are deployed to bare-metal nodes. nova-compute mounts AMI into NFS directory based on the id of the selected tilera bare-metal node.
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− | * PXE: The host uses the deployment kernel and ramdisk, and the baremetal nova-copute writes AMI to the host's local disk via iSCSI.
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− | | |
− | 7) Bare-metal node is booted.
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− | | |
− | * Non-PXE (Tilera):
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− | ** The bare-metal node is configured for network, ssh, and iptables rule.
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− | ** Done.
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− | ** [[Image:GeneralBareMetalProvisioningFramework$bm4.png]]
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− | * PXE:
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− | ** The host is rebooted.
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− | ** Next, the host is booted up by the user specified kernel, ramdisk and its local disk.
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− | ** Done.
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− | ** [[Image:GeneralBareMetalProvisioningFramework$bm5.png]]
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− | | |
− | == Packages A: Non-PXE (Tilera) ==
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− | | |
− | * This procedure is for RHEL. Reading 'tilera-bm-instance-creation.txt' may make this document easy to understand.
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− | * TFTP, NFS, EXPECT, and Telnet installation:
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− |
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− | <pre><nowiki>
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− | $ yum install nfs-utils.x86_64 expect.x86_64 tftp-server.x86_64 telnet
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− | </nowiki></pre>
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− | | |
− | | |
− | * TFTP configuration:
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− |
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− | <pre><nowiki>
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− | $ cat /etc/xinetd.d/tftp
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− | # default: off
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− | # description: The tftp server serves files using the trivial file transfer \
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− | # protocol. The tftp protocol is often used to boot diskless \
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− | # workstations, download configuration files to network-aware printers,
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− | # \
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− | # and to start the installation process for some operating systems.
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− | service tftp
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− | {
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− | socket_type = dgram
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− | protocol = udp
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− | wait = yes
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− | user = root
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− | server = /usr/sbin/in.tftpd
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− | server_args = -s /tftpboot
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− | disable = no
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− | per_source = 11
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− | cps = 100 2
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− | flags = IPv4
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− | }
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− | $ /etc/init.d/xinetd restart
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− | </nowiki></pre>
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− | | |
− | | |
− | * NFS configuration:
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− |
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− | <pre><nowiki>
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− | $ mkdir /tftpboot
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− | $ mkdir /tftpboot/fs_x (x: the id of tilera board)
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− | $ cat /etc/exports
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− | /tftpboot/fs_0 tilera0-eth0(sync,rw,no_root_squash,no_all_squash,no_subtree_check)
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− | /tftpboot/fs_1 tilera1-eth0(sync,rw,no_root_squash,no_all_squash,no_subtree_check)
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− | /tftpboot/fs_2 tilera2-eth0(sync,rw,no_root_squash,no_all_squash,no_subtree_check)
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− | /tftpboot/fs_3 tilera3-eth0(sync,rw,no_root_squash,no_all_squash,no_subtree_check)
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− | /tftpboot/fs_4 tilera4-eth0(sync,rw,no_root_squash,no_all_squash,no_subtree_check)
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− | /tftpboot/fs_5 tilera5-eth0(sync,rw,no_root_squash,no_all_squash,no_subtree_check)
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− | /tftpboot/fs_6 tilera6-eth0(sync,rw,no_root_squash,no_all_squash,no_subtree_check)
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− | /tftpboot/fs_7 tilera7-eth0(sync,rw,no_root_squash,no_all_squash,no_subtree_check)
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− | /tftpboot/fs_8 tilera8-eth0(sync,rw,no_root_squash,no_all_squash,no_subtree_check)
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− | /tftpboot/fs_9 tilera9-eth0(sync,rw,no_root_squash,no_all_squash,no_subtree_check)
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− | $ sudo /etc/init.d/nfs restart
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− | $ sudo /usr/sbin/exportfs
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− | </nowiki></pre>
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− | | |
− | | |
− | * TileraMDE install: TileraMDE-3.0.1.125620:
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− |
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− | <pre><nowiki>
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− | $ cd /usr/local/
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− | $ tar -xvf tileramde-3.0.1.125620_tilepro.tar
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− | $ tar -xjvf tileramde-3.0.1.125620_tilepro_apps.tar.bz2
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− | $ tar -xjvf tileramde-3.0.1.125620_tilepro_src.tar.bz2
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− | $ mkdir /usr/local/TileraMDE-3.0.1.125620/tilepro/tile
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− | $ cd /usr/local/TileraMDE-3.0.1.125620/tilepro/tile/
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− | $ tar -xjvf tileramde-3.0.1.125620_tilepro_tile.tar.bz2
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− | $ ln -s /usr/local/TileraMDE-3.0.1.125620/tilepro/ /usr/local/TileraMDE
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− | </nowiki></pre>
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− | | |
− | | |
− | * Installation for 32-bit libraries to execute TileraMDE:
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− |
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− | <pre><nowiki>
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− | $ yum install glibc.i686 glibc-devel.i686
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− | </nowiki></pre>
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− | | |
− | | |
− | == Packages B: PXE ==
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− | | |
− | * This procedure is for Ubuntu 12.04 x86_64. Reading 'baremetal-instance-creation.txt' may make this document easy to understand.
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− | * dnsmasq (PXE server for baremetal hosts)
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− | * syslinux (bootloader for PXE)
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− | * ipmitool (operate IPMI)
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− | * qemu-kvm (only for qemu-img)
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− | * open-iscsi (connect to iSCSI target at berametal hosts)
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− | * busybox (used in deployment ramdisk)
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− | * tgt (used in deployment ramdisk)
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− | * Example:
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− |
| |
− | <pre><nowiki>
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− | $ sudo apt-get install dnsmasq syslinux ipmitool qemu-kvm open-iscsi
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− | $ sudo apt-get install busybox tgt
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− | </nowiki></pre>
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− | | |
− | | |
− | * Ramdisk for Deployment
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− | * To create a deployment ramdisk, use 'baremetal-mkinitrd.sh' in [baremetal-initrd-builder](https://github.com/NTTdocomo-openstack/baremetal-initrd-builder):
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− |
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− | <pre><nowiki>
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− | $ cd baremetal-initrd-builder
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− | $ ./baremetal-mkinitrd.sh <ramdisk output path> <kernel version>
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− | </nowiki></pre>
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− | | |
− |
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− | <pre><nowiki>
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− | $ ./baremetal-mkinitrd.sh /tmp/deploy-ramdisk.img 3.2.0-26-generic
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− | working in /tmp/baremetal-mkinitrd.9AciX98N
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− | 368017 blocks
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− | Register the kernel and the ramdisk to Glance.
| |
− | </nowiki></pre>
| |
− | | |
− |
| |
− | <pre><nowiki>
| |
− | $ glance add name="baremetal deployment ramdisk" is_public=true container_format=ari disk_format=ari < /tmp/deploy-ramdisk.img
| |
− | Uploading image 'baremetal deployment ramdisk'
| |
− | ===========================================[100%] 114.951697M/s, ETA 0h 0m 0s
| |
− | Added new image with ID: e99775cb-f78d-401e-9d14-acd86e2f36e3
| |
− |
| |
− | $ glance add name="baremetal deployment kernel" is_public=true container_format=aki disk_format=aki < /boot/vmlinuz-3.2.0-26-generic
| |
− | Uploading image 'baremetal deployment kernel'
| |
− | ===========================================[100%] 46.9M/s, ETA 0h 0m 0s
| |
− | Added new image with ID: d76012fc-4055-485c-a978-f748679b89a9
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | * ShellInABox
| |
− | * Baremetal nova-compute uses [ShellInABox](http://code.google.com/p/shellinabox/) so that users can access baremetal host's console through web browsers.
| |
− | * Build from source and install:
| |
− |
| |
− | <pre><nowiki>
| |
− | $ sudo apt-get install gcc make
| |
− | $ tar xzf shellinabox-2.14.tar.gz
| |
− | $ cd shellinabox-2.14
| |
− | $ ./configure
| |
− | $ sudo make install
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | * PXE Boot Server
| |
− | * Prepare TFTP root directory:
| |
− |
| |
− | <pre><nowiki>
| |
− | $ sudo mkdir /tftpboot
| |
− | $ sudo cp /usr/lib/syslinux/pxelinux.0 /tftpboot/
| |
− | $ sudo mkdir /tftpboot/pxelinux.cfg
| |
− | </nowiki></pre>
| |
− | | |
− | * Start dnsmasq. Example: start dnsmasq on eth1 with PXE and TFTP enabled:
| |
− |
| |
− | <pre><nowiki>
| |
− | $ sudo dnsmasq --conf-file= --port=0 --enable-tftp --tftp-root=/tftpboot --dhcp-boot=pxelinux.0 --bind-interfaces --pid-file=/dnsmasq.pid --interface=eth1 --dhcp-range=192.168.175.100,192.168.175.254
| |
− |
| |
− | (You may need to stop and disable dnsmasq)
| |
− | $ sudo /etc/init.d/dnsmasq stop
| |
− | $ sudo sudo update-rc.d dnsmasq disable
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | * How to create an image:
| |
− | * Example: create a partition image from ubuntu cloud images' Precise tarball:
| |
− |
| |
− | <pre><nowiki>
| |
− | $ wget http://cloud-images.ubuntu.com/precise/current/precise-server-cloudimg-amd64-root.tar.gz
| |
− | $ dd if=/dev/zero of=precise.img bs=1M count=0 seek=1024
| |
− | $ mkfs -F -t ext4 precise.img
| |
− | $ sudo mount -o loop precise.img /mnt/
| |
− | $ sudo tar -C /mnt -xzf ~/precise-server-cloudimg-amd64-root.tar.gz
| |
− | $ sudo mv /mnt/etc/resolv.conf /mnt/etc/resolv.conf_orig
| |
− | $ sudo cp /etc/resolv.conf /mnt/etc/resolv.conf
| |
− | $ sudo chroot /mnt apt-get install linux-image-3.2.0-26-generic vlan open-iscsi
| |
− | $ sudo mv /mnt/etc/resolv.conf_orig /mnt/etc/resolv.conf
| |
− | $ sudo umount /mnt
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | == Nova Directories ==
| |
− | | |
− | <pre><nowiki>
| |
− | $ sudo mkdir /var/lib/nova/baremetal
| |
− | $ sudo mkdir /var/lib/nova/baremetal/console
| |
− | $ sudo mkdir /var/lib/nova/baremetal/dnsmasq
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | == Baremetal Database ==
| |
− | | |
− | * Create the baremetal database. Grant all provileges to the user specified by the 'baremetal_sql_connection' flag. Example:
| |
− |
| |
− | <pre><nowiki>
| |
− | $ mysql -p
| |
− | mysql> create database nova_bm;
| |
− | mysql> grant all privileges on nova_bm.* to '$ID'@'%' identified by '$Password';
| |
− | mysql> exit
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | * Create tables:
| |
− |
| |
− | <pre><nowiki>
| |
− | $ bm_db_sync
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | == Create Baremetal Instance Type ==
| |
− | | |
− | * First, create an instance type in the normal way.
| |
− |
| |
− | <pre><nowiki>
| |
− | $ nova-manage instance_type create --name=tp64.8x8 --cpu=64 --memory=16218 --root_gb=917 --ephemeral_gb=0 --flavor=6 --swap=1024 --rxtx_factor=1
| |
− | $ nova-manage instance_type create --name=bm.small --cpu=2 --memory=4096 --root_gb=10 --ephemeral_gb=20 --flavor=7 --swap=1024 --rxtx_factor=1
| |
− | (about --flavor, see 'How to choose the value for flavor' section below)
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | * Next, set baremetal extra_spec to the instance type:
| |
− |
| |
− | <pre><nowiki>
| |
− | $ nova-manage instance_type set_key --name=tp64.8x8 --key cpu_arch --value 'tilepro64'
| |
− | $ nova-manage instance_type set_key --name=bm.small --key cpu_arch --value 'x86_64'
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | == How to choose the value for flavor ==
| |
− | | |
− | * Run nova-manage instance_type list, find the maximum FlavorID in output. Use the maximum FlavorID+1 for new instance_type.
| |
− |
| |
− | <pre><nowiki>
| |
− | $ nova-manage instance_type list
| |
− | m1.medium: Memory: 4096MB, VCPUS: 2, Root: 40GB, Ephemeral: 0Gb, FlavorID: 3, Swap: 0MB, RXTX Factor: 1.0, ExtraSpecs {}
| |
− | m1.small: Memory: 2048MB, VCPUS: 1, Root: 20GB, Ephemeral: 0Gb, FlavorID: 2, Swap: 0MB, RXTX Factor: 1.0, ExtraSpecs {}
| |
− | m1.large: Memory: 8192MB, VCPUS: 4, Root: 80GB, Ephemeral: 0Gb, FlavorID: 4, Swap: 0MB, RXTX Factor: 1.0, ExtraSpecs {}
| |
− | m1.tiny: Memory: 512MB, VCPUS: 1, Root: 0GB, Ephemeral: 0Gb, FlavorID: 1, Swap: 0MB, RXTX Factor: 1.0, ExtraSpecs {}
| |
− | m1.xlarge: Memory: 16384MB, VCPUS: 8, Root: 160GB, Ephemeral: 0Gb, FlavorID: 5, Swap: 0MB, RXTX Factor: 1.0, ExtraSpecs {}
| |
− | </nowiki></pre>
| |
− | | |
− | * In the example above, the maximum Flavor ID is 5, so use 6 and 7.
| |
− | | |
− | == Start Processes ==
| |
− | | |
− | <pre><nowiki>
| |
− | (Currently, you might have trouble if run processes as a user other than the superuser...)
| |
− | $ sudo bm_deploy_server &
| |
− | $ sudo nova-scheduler &
| |
− | $ sudo nova-compute &
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | == Register Baremetal Node and NIC ==
| |
− | | |
− | * First, register a baremetal node.
| |
− | * non-PXE (Tilera): Next, register the baremetal node's NICs.
| |
− | * PXE: First, register a baremetal node. In this step, one of the NICs must be specified as a PXE NIC. Ensure the NIC is PXE-enabled and the NIC is selected as a primary boot device in BIOS. Next, register all the NICs except the PXE NIC specified in the first step.
| |
− | * To register a baremetal node, use 'nova-bm-manage node create'. It takes the parameters listed below.
| |
− |
| |
− | <pre><nowiki>
| |
− | --host: baremetal nova-compute's hostname
| |
− | --cpus=: number of CPU cores
| |
− | --memory_mb: memory size in MegaBytes
| |
− | --local_gb: local disk size in GigaBytes
| |
− | --pm_address: tilera node's IP address / IPMI address
| |
− | --pm_user: IPMI username
| |
− | --pm_password: IPMI password
| |
− | --prov_mac_address: tilera node's MAC address / PXE NIC's MAC address
| |
− | --terminal_port: TCP port for ShellInABox. Each node must use unique TCP port. If you do not need console access, use 0.
| |
− | </nowiki></pre>
| |
− | | |
− |
| |
− | <pre><nowiki>
| |
− | # Tilera example
| |
− | $ nova-bm-manage node create --host=bm1 --cpus=64 --memory_mb=16218 --local_gb=917 --pm_address=10.0.2.1 --pm_user=test --pm_password=password --prov_mac_address=98:4b:e1:67:9a:4c --terminal_port=0
| |
− | # PXE/IPMI example
| |
− | $ nova-bm-manage node create --host=bm1 --cpus=4 --memory_mb=6144 --local_gb=64 --pm_address=172.27.2.116 --pm_user=test --pm_password=password --prov_mac_address=98:4b:e1:11:22:33 --terminal_port=8000
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | * To verify the node registration, run 'nova-bm-manage node list':
| |
− |
| |
− | <pre><nowiki>
| |
− | $ nova-bm-manage node list
| |
− | ID SERVICE_HOST INSTANCE_ID CPUS Memory Disk PM_Address PM_User TERMINAL_PORT PROV_MAC PROV_VLAN
| |
− | 1 bm1 None 64 16218 917 10.0.2.1 test 0 98:4b:e1:67:9a:4c None
| |
− | 2 bm1 None 4 6144 64 172.27.2.116 test 8000 98:4b:e1:11:22:33 None
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | * To register NIC, use 'nova-bm-manage interface create'. It takes the parameters listed below.
| |
− |
| |
− | <pre><nowiki>
| |
− | --node_id: ID of the baremetal node owns this NIC (the first column of 'bm_node_list')
| |
− | --mac_address: this NIC's MAC address in the form of xx:xx:xx:xx:xx:xx
| |
− | --datapath_id: datapath ID of OpenFlow switch this NIC is connected to
| |
− | --port_no: OpenFlow port number this NIC is connected to
| |
− | (--datapath_id and --port_no are used for network isolation. It is OK to put 0, if you do not have OpenFlow switch.)
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− |
| |
− | <pre><nowiki>
| |
− | # example: node 1, without OpenFlow
| |
− | $ nova-bm-manage interface create --node_id=1 --mac_address=98:4b:e1:67:9a:4e --datapath_id=0 --port_no=0
| |
− | # example: node 2, with OpenFlow
| |
− | $ nova-bm-manage interface create --node_id=2 --mac_address=98:4b:e1:11:22:34 --datapath_id=0x123abc --port_no=24
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | * To verify the NIC registration, run 'bm_interface_list':
| |
− |
| |
− | <pre><nowiki>
| |
− | $ bm_interface_list
| |
− | ID BM_NODE_ID MAC_ADDRESS DATAPATH_ID PORT_NO
| |
− | 1 1 98:4b:e1:67:9a:4e 0x0 0
| |
− | 2 2 98:4b:e1:11:22:34 0x123abc 24
| |
− | </nowiki></pre>
| |
− | | |
− | | |
− | == Run Instance ==
| |
− | | |
− | * Run instance using the baremetal instance type. Make sure to use kernel and image that support baremetal hardware (i.e contain drivers for baremetal hardware ).
| |
− |
| |
− | <pre><nowiki>
| |
− | euca-run-instances -t tp64.8x8 -k my.key ami-CCC
| |
− | euca-run-instances -t bm.small --kernel aki-AAA --ramdisk ari-BBB ami-CCC
| |
− | </nowiki></pre>
| |
The Nova "baremetal" driver was deprecated in the Juno release, and has been deleted from Nova.