Difference between revisions of "LPIC-306 Objectives V3.0"

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__FORCETOC__
 
__FORCETOC__
 
==Introduction==
 
==Introduction==
The description of the entire [[LPIC-3]] programme is listed [[LPIC-3|here]].
+
The description of the entire [[LPIC-3]] program is listed [[LPIC-3|here]].
 
<br /><br />
 
<br /><br />
 +
 
==Version Information==
 
==Version Information==
  
These objectives are '''A DRAFT FOR''' version 3.0.
+
These objectives are for version 3.0.
  
There is also a [[LPIC305SummaryVersion2To3|summary and detailed information]] on the changes from version 2.0 to 3.0 of the objectives.
+
This exam results from a split of version 2.0 of the exam 304.
 +
 
 +
There is also a [[LPIC306SummaryVersion2To3|summary and detailed information]] on the changes from version 2.0 of exam 304 to 3.0 of these objectives.
  
 
The version [[LPIC-304 Objectives V2|2.x objectives]] can be found [[LPIC-304 Objectives V2|here]].
 
The version [[LPIC-304 Objectives V2|2.x objectives]] can be found [[LPIC-304 Objectives V2|here]].
Line 15: Line 18:
 
==Translations of Objectives==
 
==Translations of Objectives==
 
The following translations of the objectives are available on this wiki:
 
The following translations of the objectives are available on this wiki:
* [[LPIC-305 Objectives V3.0|English]]
+
* [[LPIC-306 Objectives V3.0|English]]
* [[LPIC-305 Objectives V3.0(JA)|Japanese]]
+
* [[LPIC-306 Objectives V3.0(JA)|Japanese]]
 
<br />
 
<br />
  
 
==Objectives==
 
==Objectives==
===''Topic 351: High Availability Cluster Management''===
+
===''Topic 361: High Availability Cluster Management''===
====<span style="color:navy">351.1 High Availability Concepts and Theory (weight: 5)</span>====
+
====<span style="color:navy">361.1 High Availability Concepts and Theory (weight: 6)</span>====
 
{|
 
{|
 
| style="background:#dadada" | '''Weight'''
 
| style="background:#dadada" | '''Weight'''
| style="background:#eaeaea" | 5
+
| style="background:#eaeaea" | 6
 
|-
 
|-
 
| style="background:#dadada; padding-right:1em" | '''Description'''
 
| style="background:#dadada; padding-right:1em" | '''Description'''
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|}
 
|}
 
'''Key Knowledge Areas:'''
 
'''Key Knowledge Areas:'''
* Understand the most important cluster architectures.
+
* Understand the goals of High Availability and Site Reliability Engineering
* Understand recovery and cluster reorganization mechanisms.
+
* Understand common cluster architectures
* Design an appropriate cluster architecture for a given purpose.
+
* Understand recovery and cluster reorganization mechanisms
* Application aspects of high availability.
+
* Design an appropriate cluster architecture for a given purpose
* Operational considerations of high availability.
+
* Understand application aspects of high availability
'''The following is a partial list of the used files, terms and utilities:'''
+
* Understand operational considerations of high availability
* Active/Passive Cluster, Active/Active Cluster
+
'''Partial list of the used files, terms and utilities:'''
* Failover Cluster, Load Balanced Cluster
+
* Active/Passive Cluster
* Shared-Nothing Cluster, Shared-Disk Cluster
+
* Active/Active Cluster
 +
* Failover Cluster
 +
* Load Balanced Cluster
 +
* Shared-Nothing Cluster
 +
* Shared-Disk Cluster
 
* Cluster resources
 
* Cluster resources
 
* Cluster services
 
* Cluster services
 
* Quorum
 
* Quorum
* Fencing
+
* Fencing (Node and Resource Level Fencing)
 
* Split brain
 
* Split brain
 
* Redundancy
 
* Redundancy
Line 48: Line 55:
 
* Mean Time To Repair (MTTR)
 
* Mean Time To Repair (MTTR)
 
* Service Level Agreement (SLA)
 
* Service Level Agreement (SLA)
* Desaster Recovery
+
* Disaster Recovery
 +
* State Handling
 
* Replication
 
* Replication
 
* Session handling
 
* Session handling
 
<br />
 
<br />
  
====<span style="color:navy">351.2 Load Balanced Clusters (weight: 6)</span>====
+
====<span style="color:navy">361.2 Load Balanced Clusters (weight: 8)</span>====
 
{|
 
{|
 
| style="background:#dadada" | '''Weight'''
 
| style="background:#dadada" | '''Weight'''
| style="background:#eaeaea" | 6
+
| style="background:#eaeaea" | 8
 
|-
 
|-
 
| style="background:#dadada; padding-right:1em" | '''Description'''
 
| style="background:#dadada; padding-right:1em" | '''Description'''
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|}
 
|}
 
'''Key Knowledge Areas:'''
 
'''Key Knowledge Areas:'''
* Understanding of LVS / IPVS.
+
* Understand the concepts of LVS / IPVS
* Basic knowledge of VRRP.
+
* Understand the basics of VRRP
* Configuration of keepalived.
+
* Configure keepalived
* Configuration of ldirectord.
+
* Configure ldirectord
* Backend server network configuration.
+
* Configure backend server networking
* Understanding of HAProxy.
+
* Understand HAProxy
* Configuration of HAProxy.
+
* Configure HAProxy
'''The following is a partial list of the used files, terms and utilities:'''
+
'''Partial list of the used files, terms and utilities:'''
 
* ipvsadm
 
* ipvsadm
 
* syncd
 
* syncd
Line 82: Line 90:
 
<br />
 
<br />
  
====<span style="color:navy">351.3 Failover Clusters (weight: 6)</span>====
+
====<span style="color:navy">361.3 Failover Clusters (weight: 8)</span>====
 
{|
 
{|
 
| style="background:#dadada" | '''Weight'''
 
| style="background:#dadada" | '''Weight'''
| style="background:#eaeaea" | 6
+
| style="background:#eaeaea" | 8
 
|-
 
|-
 
| style="background:#dadada; padding-right:1em" | '''Description'''
 
| style="background:#dadada; padding-right:1em" | '''Description'''
| style="background:#eaeaea" | Candidates should have experience in the installation, configuration, maintenance and troubleshooting of a Pacemaker cluster. This includes the use of Corosync. The focus is on Pacemaker 1.1 for Corosync 2.x.
+
| style="background:#eaeaea" | Candidates should have experience in the installation, configuration, maintenance and troubleshooting of a Pacemaker cluster. This includes the use of Corosync. The focus is on Pacemaker 2.x for Corosync 2.x.
 
|}
 
|}
 
'''Key Knowledge Areas:'''
 
'''Key Knowledge Areas:'''
* Pacemaker architecture and components (CIB, CRMd, PEngine, LRMd, DC, STONITHd).
+
* Understand the architecture and components of Pacemaker (CIB, CRMd, PEngine, LRMd, DC, STONITHd)
* Pacemaker cluster configuration.
+
* Manage Pacemaker cluster configurations
* Resource classes (OCF, LSB, Systemd, Upstart, Service, STONITH, Nagios).
+
* Understand Pacemaker resource classes (OCF, LSB, Systemd, Service, STONITH, Nagios)
* Resource rules and constraints (location, order, colocation).
+
* Manage Pacemaker resources
* Advanced resource features (templates, groups, clone resources, multi-state resources).
+
* Manage resource rules and constraints (location, order, colocation).
* Pacemaker management using pcs.
+
* Manage advanced resource features (templates, groups, clone resources, multi-state resources)
* Pacemaker management using crmsh.
+
* Obtain node information and manage node health
* Configuration and Management of corosync in conjunction with Pacemaker.
+
* Manage quorum and fencing in a Pacemaker cluster
* Awareness of other cluster engines (OpenAIS, Heartbeat, CMAN).
+
* Configure the Split Brain Detector on shared storage
'''The following is a partial list of the used files, terms and utilities:'''
+
* Manage Pacemaker using pcs
 +
* Manage Pacemaker using crmsh
 +
* Configure and management of corosync in conjunction with Pacemaker
 +
* Awareness of Pacemaker ACLs
 +
* Awareness of other cluster engines (OpenAIS, Heartbeat, CMAN)
 +
'''Partial list of the used files, terms and utilities:'''
 
* pcs
 
* pcs
 
* crm
 
* crm
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* corosync-quorumtool
 
* corosync-quorumtool
 
* stonith_admin
 
* stonith_admin
 +
* stonith
 +
* ocf:pacemaker:ping
 +
* ocf:pacemaker:NodeUtilization
 +
* ocf:pacemaker:ocf:SysInfo
 +
* ocf:pacemaker:HealthCPU
 +
* ocf:pacemaker:HealthSMART
 +
* sbd
 
<br />
 
<br />
  
===''Topic 352: High Availability Cluster Storage''===
+
===''Topic 362: High Availability Cluster Storage''===
====<span style="color:navy">352.1 DRBD / cLVM (weight: 3)</span>====
+
====<span style="color:navy">362.1 DRBD (weight: 6)</span>====
 
{|
 
{|
 
| style="background:#dadada" | '''Weight'''
 
| style="background:#dadada" | '''Weight'''
| style="background:#eaeaea" | 3
+
| style="background:#eaeaea" | 6
 
|-
 
|-
 
| style="background:#dadada; padding-right:1em" | '''Description'''
 
| style="background:#dadada; padding-right:1em" | '''Description'''
| style="background:#eaeaea" | Candidates are expected to have the experience and knowledge to install, configure, maintain and troubleshoot DRBD devices. This includes integration with Pacemaker. DRBD configuration of version 8.4.x is covered. Candidates are further expected to be able to manage LVM configuration within a shared storage cluster.
+
| style="background:#eaeaea" | Candidates are expected to have the experience and knowledge to install, configure, maintain and troubleshoot DRBD devices. This includes integration with Pacemaker. DRBD configuration of version 9.0.x is covered.
 
|}
 
|}
 
'''Key Knowledge Areas:'''
 
'''Key Knowledge Areas:'''
* Understanding of DRBD resources, states and replication modes.
+
* Understand the DRBD architecture
* Configuration of DRBD resources, networking, disks and devices.
+
* Understand DRBD resources, states and replication modes
* Configuration of DRBD automatic recovery and error handling.
+
* Configure DRBD disks and devices
* Management of DRBD using drbdadm.
+
* Configure DRBD networking connections and meshes
* Basic knowledge of drbdsetup and drbdmeta.
+
* Configure DRBD automatic recovery and error handling
* Integration of DRBD with Pacemaker.
+
* Configure DRBD quorum and handlers for split brain and fencing
* cLVM
+
* Manage DRBD using drbdadm
* Integration of cLVM with Pacemaker.
+
* Understand the principles of drbdsetup and drbdmeta
'''The following is a partial list of the used files, terms and utilities:'''
+
* Restore and verify the integrity of a DRBD device after an outage
 +
* Integrate DRBD with Pacemaker
 +
* Understand the architecture and features of LINSTOR
 +
'''Partial list of the used files, terms and utilities:'''
 
* Protocol A, B and C
 
* Protocol A, B and C
 
* Primary, Secondary
 
* Primary, Secondary
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* drbd kernel module
 
* drbd kernel module
 
* drbdadm
 
* drbdadm
 +
* drbdmon
 
* drbdsetup
 
* drbdsetup
 
* drbdmeta
 
* drbdmeta
 
* /etc/drbd.conf
 
* /etc/drbd.conf
 +
* /etc/drbd.d/
 
* /proc/drbd
 
* /proc/drbd
* LVM2
 
* clvmd
 
* vgchange, vgs
 
 
<br />
 
<br />
  
====<span style="color:navy">352.2 Clustered File Systems (weight: 3)</span>====
+
====<span style="color:navy">362.2 Cluster Storage Access (weight: 3)</span>====
 
{|
 
{|
 
| style="background:#dadada" | '''Weight'''
 
| style="background:#dadada" | '''Weight'''
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|-
 
|-
 
| style="background:#dadada; padding-right:1em" | '''Description'''
 
| style="background:#dadada; padding-right:1em" | '''Description'''
| style="background:#eaeaea" | Candidates should know how to install, maintain and troubleshoot installations using GFS2 and OCFS2. This includes integration with Pacemaker as well as awareness of other clustered filesystems available in a Linux environment.
+
 
 +
| style="background:#eaeaea" | Candidates should be able to connect a Linux node to remote block storage. This includes understanding common SAN technology and architectures, including management of iSCSI, as well as configuring multipathing for high availability and using LVM on a clustered storage.
 +
|}
 +
'''Key Knowledge Areas:'''
 +
* Understand the concepts of Storage Area Networks
 +
* Understand the concepts of Fibre Channel, including Fibre Channel Topologies
 +
* Understand and manage iSCSI targets and initiators
 +
* Understand and configure Device Mapper Multipath I/O (DM-MPIO)
 +
* Understand the concept of a Distributed Lock Manager (DLM)
 +
* Understand and manage clustered LVM
 +
* Manage DLM and LVM with Pacemaker
 +
'''Partial list of the used files, terms and utilities:'''
 +
* tgtadm
 +
* targets.conf
 +
* iscsiadm
 +
* iscsid.conf
 +
* /etc/multipath.conf
 +
* multipath
 +
* kpartx
 +
* pvmove
 +
* vgchange
 +
* lvchange
 +
 
 +
<br />
 +
<br />
 +
 
 +
====<span style="color:navy">362.3 Clustered File Systems (weight: 4)</span>====
 +
{|
 +
| style="background:#dadada" | '''Weight'''
 +
| style="background:#eaeaea" | 4
 +
|-
 +
| style="background:#dadada; padding-right:1em" | '''Description'''
 +
| style="background:#eaeaea" | Candidates should be able to install, maintain and troubleshoot GFS2 and OCFS2 filesystems. This includes awareness of other clustered filesystems available on Linux.
 
|}
 
|}
 
'''Key Knowledge Areas:'''
 
'''Key Knowledge Areas:'''
* Understand the principles of cluster file systems.
+
* Understand the principles of cluster file systems and distributed file systems
* Create, maintain and troubleshoot GFS2 file systems in a cluster.
+
* Understand the Distributed Lock Manager
* Create, maintain and troubleshoot OCFS2 file systems in a cluster.
+
* Create, maintain and troubleshoot GFS2 file systems in a cluster
* Integration of GFS2 and OCFS2 with Pacemaker.
+
* Create, maintain and troubleshoot OCFS2 file systems in a cluster
* Awareness of the O2CB cluster stack.
+
* Awareness of the O2CB cluster stack
* Awareness of other commonly used clustered file systems.
+
* Awareness of other commonly used clustered file systems, such as AFS and Lustre
'''The following is a partial list of the used files, terms and utilities:'''
+
'''Partial list of the used files, terms and utilities:'''
* Distributed Lock Manager (DLM)
+
 
* mkfs.gfs2
 
* mkfs.gfs2
 
* mount.gfs2
 
* mount.gfs2
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* o2info
 
* o2info
 
* o2image
 
* o2image
* CephFS
 
* GlusterFS
 
* AFS
 
 
<br />
 
<br />
 
<br />
 
<br />
===''Topic 353: Distributed Storage''===
+
 
====<span style="color:navy">353.1 Gluster Storage Clusters (weight: 4)</span>====
+
===''Topic 363: High Availability Distributed Storage''===
 +
====<span style="color:navy">363.1 GlusterFS Storage Clusters (weight: 5)</span>====
 
{|
 
{|
 
| style="background:#dadada" | '''Weight'''
 
| style="background:#dadada" | '''Weight'''
| style="background:#eaeaea" | 4
+
| style="background:#eaeaea" | 5
 
|-
 
|-
 
| style="background:#dadada; padding-right:1em" | '''Description'''
 
| style="background:#dadada; padding-right:1em" | '''Description'''
| style="background:#eaeaea" |  
+
| style="background:#eaeaea" | Candidates should be able to manage and maintain a GlusterFS storage cluster.
 
|}
 
|}
 
'''Key Knowledge Areas:'''
 
'''Key Knowledge Areas:'''
'''The following is a partial list of the used files, terms and utilities:'''
+
* Understand the architecture and components of GlusterFS
 +
* Manage GlusterFS peers, trusted storge pools, bricks and volumes
 +
* Mount and use an existing GlusterFS
 +
* Configure high availability aspects of GlusterFS
 +
* Scale up a GlusterFS cluster
 +
* Replace failed bricks
 +
* Recover GlusterFS from a physical media failure
 +
* Restore and verify the integrity of a GlusterFS cluster after an outage
 +
* Awareness of GNFS
 +
'''Partial list of the used files, terms and utilities:'''
 +
* gluster (including relevant subcommands)
 
<br />
 
<br />
====<span style="color:navy">353.2 Ceph Storage Clusters (weight: 8)</span>====
+
 
 +
====<span style="color:navy">363.2 Ceph Storage Clusters (weight: 8)</span>====
 
{|
 
{|
 
| style="background:#dadada" | '''Weight'''
 
| style="background:#dadada" | '''Weight'''
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|-
 
|-
 
| style="background:#dadada; padding-right:1em" | '''Description'''
 
| style="background:#dadada; padding-right:1em" | '''Description'''
| style="background:#eaeaea" |  
+
| style="background:#eaeaea" | Candidates should be able to manage and maintain a Ceph Cluster. This includes the configuration of RGW, RDB devices and CephFS.
 
|}
 
|}
 
'''Key Knowledge Areas:'''
 
'''Key Knowledge Areas:'''
'''The following is a partial list of the used files, terms and utilities:'''
+
* Understand the architecture and components of Ceph
 +
* Manage OSD, MGR, MON and MDS
 +
* Understand and manage placement groups and pools
 +
* Understand storage backends (FileStore and BlueStore)
 +
* Initialize a Ceph cluster
 +
* Create and manage Rados Block Devices
 +
* Create and manage CephFS volumes, including snapshots
 +
* Mount and use an existing CephFS
 +
* Understand and adjust CRUSH maps
 +
* Configure high availability aspects of Ceph
 +
* Scale up a Ceph cluster
 +
* Restore and verify the integrity of a Ceph cluster after an outage
 +
* Understand key concepts of Ceph updates, including update order, tunables and features
 +
'''Partial list of the used files, terms and utilities:'''
 +
* ceph-deploy (including relevant subcommands)
 +
* ceph.conf
 +
* ceph (including relevant subcommands)
 +
* rados (including relevant subcommands)
 +
* rdb (including relevant subcommands)
 +
* cephfs (including relevant subcommands)
 +
* ceph-volume (including relevant subcommands)
 +
* ceph-authtool
 +
* ceph-bluestore-tool
 +
* crushtool
 
<br />
 
<br />
 
<br />
 
<br />
===''Topic 354: Node High Availability''===
+
 
====<span style="color:navy">354.1 Single Node High Availability (weight: 2)</span>====
+
===''Topic 364: Single Node High Availability''===
 +
====<span style="color:navy">364.1 Hardware and Resource High Availability (weight: 2)</span>====
 
{|
 
{|
 
| style="background:#dadada" | '''Weight'''
 
| style="background:#dadada" | '''Weight'''
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|-
 
|-
 
| style="background:#dadada; padding-right:1em" | '''Description'''
 
| style="background:#dadada; padding-right:1em" | '''Description'''
| style="background:#eaeaea" |  
+
| style="background:#eaeaea" | Candidates should be able to monitor a local node for potential hardware failures and resource shortages.
 
|}
 
|}
 
'''Key Knowledge Areas:'''
 
'''Key Knowledge Areas:'''
'''The following is a partial list of the used files, terms and utilities:'''
+
* Understand and monitor S.M.A.R.T values using smartmontools, including triggering frequent disk checks
 +
* Configure system shutdown at specific UPS events
 +
* Configure monit for alerts in case of resource exhaustion
 +
'''Partial list of the used files, terms and utilities:'''
 +
* smartctl
 +
* /etc/smartd.conf
 +
* smartd
 +
* nvme-cli
 +
* apcupsd
 +
* apctest
 +
* monit
 
<br />
 
<br />
====<span style="color:navy">354.2 Advanced RAID (weight: 2)</span>====
+
 
 +
====<span style="color:navy">364.2 Advanced RAID (weight: 2)</span>====
 
{|
 
{|
 
| style="background:#dadada" | '''Weight'''
 
| style="background:#dadada" | '''Weight'''
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|-
 
|-
 
| style="background:#dadada; padding-right:1em" | '''Description'''
 
| style="background:#dadada; padding-right:1em" | '''Description'''
| style="background:#eaeaea" |  
+
| style="background:#eaeaea" | Candidates should be able to manage software raid devices on Linux. This includes advanced features such as partitonable RAIDs and RAID containers as well as recovering RAID arrays after a failure.
 
|}
 
|}
 
'''Key Knowledge Areas:'''
 
'''Key Knowledge Areas:'''
'''The following is a partial list of the used files, terms and utilities:'''
+
* Manage RAID devices using various raid levels, including hot spare discs, partitionable RAIDs and RAID containers
 +
* Add and remove devices from an existing RAID
 +
* Change the RAID level of an existing device
 +
* Recover a RAID device after a failure
 +
* Understand various metadata formats and RAID geometries
 +
* Understand availability and performance properties of various raid levels
 +
* Configure mdadm monitoring and reporting
 +
'''Partial list of the used files, terms and utilities:'''
 +
* mdadm
 +
* /proc/mdstat
 +
* /proc/sys/dev/raid/*
 
<br />
 
<br />
====<span style="color:navy">354.3 Advanced LVM (weight: 2)</span>====
+
 
{|
+
====<span style="color:navy">364.3 Advanced LVM (weight: 3)</span>====
| style="background:#dadada" | '''Weight'''
+
| style="background:#eaeaea" | 2
+
|-
+
| style="background:#dadada; padding-right:1em" | '''Description'''
+
| style="background:#eaeaea" |
+
|}
+
'''Key Knowledge Areas:'''
+
'''The following is a partial list of the used files, terms and utilities:'''
+
<br />
+
====<span style="color:navy">354.4 Network High Availability (weight: 3)</span>====
+
 
{|
 
{|
 
| style="background:#dadada" | '''Weight'''
 
| style="background:#dadada" | '''Weight'''
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|-
 
|-
 
| style="background:#dadada; padding-right:1em" | '''Description'''
 
| style="background:#dadada; padding-right:1em" | '''Description'''
| style="background:#eaeaea" |  
+
| style="background:#eaeaea" | Candidates should be able to configure LVM volumes. This includes managing LVM snapshot, pools and RAIDs.
 
|}
 
|}
 
'''Key Knowledge Areas:'''
 
'''Key Knowledge Areas:'''
'''The following is a partial list of the used files, terms and utilities:'''
+
* Understand and manage LVM, including linear and striped volumes
 +
* Extend, grow, shrink and move LVM volumes
 +
* Understand and manage LVM snapshots
 +
* Understand and manage LVM thin and thick pools
 +
* Understand and manage LVM RAIDs
 +
'''Partial list of the used files, terms and utilities:'''
 +
* /etc/lvm/lvm.conf
 +
* pvcreate
 +
* pvdisplay
 +
* pvmove
 +
* pvremove
 +
* pvresize
 +
* vgcreate
 +
* vgdisplay
 +
* vgreduce
 +
* lvconvert
 +
* lvcreate
 +
* lvdisplay
 +
* lvextend
 +
* lvreduce
 +
* lvresize
 
<br />
 
<br />
<br />
+
 
===''Topic 355: Backup and Disaster Recovery''===
+
====<span style="color:navy">364.4 Network High Availability (weight: 5)</span>====
====<span style="color:navy">355.1 TBD: Backup (weight: TBD)</span>====
+
 
{|
 
{|
 
| style="background:#dadada" | '''Weight'''
 
| style="background:#dadada" | '''Weight'''
| style="background:#eaeaea" | TBD
+
| style="background:#eaeaea" | 5
|-
+
| style="background:#dadada; padding-right:1em" | '''Description'''
+
| style="background:#eaeaea" |
+
|}
+
'''Key Knowledge Areas:'''
+
'''The following is a partial list of the used files, terms and utilities:'''
+
<br />
+
====<span style="color:navy">355.2 Disaster Recovery (weight: TBD)</span>====
+
{|
+
| style="background:#dadada" | '''Weight'''
+
| style="background:#eaeaea" | TBD
+
 
|-
 
|-
 
| style="background:#dadada; padding-right:1em" | '''Description'''
 
| style="background:#dadada; padding-right:1em" | '''Description'''
| style="background:#eaeaea" |  
+
| style="background:#eaeaea" | Candidates should be able to configure redundant networking connections and manage VLANs. Furthermore, candidates should have a basic understanding of BGP.
 
|}
 
|}
 
'''Key Knowledge Areas:'''
 
'''Key Knowledge Areas:'''
'''The following is a partial list of the used files, terms and utilities:'''
+
* Understand and configure bonding network interface
 +
* Network bond modes and algorithms (active-backup, balance-tlb, balance-alb, 802.3ad, balance-rr, balance-xor, broadcast)
 +
* Configure switch configuration for high availability, including RSTP
 +
* Configure VLANs on regular and bonded network interfaces
 +
* Persist bonding and VLAN configuration
 +
* Understand the principle of autonomous systems and BGP to manage external redundant uplinks
 +
* Awareness of traffic shaping and control capabilities of Linux
 +
'''Partial list of the used files, terms and utilities:'''
 +
* bonding.ko (including relevant module options)
 +
* /etc/network/interfaces
 +
* /etc/sysconfig/networking-scripts/ifcfg-*
 +
* /etc/systemd/network/*.network
 +
* /etc/systemd/network/*.netdev
 +
* nmcli
 +
* /sys/class/net/bonding_masters
 +
* /sys/class/net/bond*/bonding/miimon
 +
* /sys/class/net/bond*/bonding/slaves
 +
* ifenslave
 +
* ip
 
<br />
 
<br />
 
<br />
 
<br />

Latest revision as of 11:44, 21 February 2023

Introduction

The description of the entire LPIC-3 program is listed here.

Version Information

These objectives are for version 3.0.

This exam results from a split of version 2.0 of the exam 304.

There is also a summary and detailed information on the changes from version 2.0 of exam 304 to 3.0 of these objectives.

The version 2.x objectives can be found here.


Translations of Objectives

The following translations of the objectives are available on this wiki:


Objectives

Topic 361: High Availability Cluster Management

361.1 High Availability Concepts and Theory (weight: 6)

Weight 6
Description Candidates should understand the properties and design approaches of high availability clusters.

Key Knowledge Areas:

  • Understand the goals of High Availability and Site Reliability Engineering
  • Understand common cluster architectures
  • Understand recovery and cluster reorganization mechanisms
  • Design an appropriate cluster architecture for a given purpose
  • Understand application aspects of high availability
  • Understand operational considerations of high availability

Partial list of the used files, terms and utilities:

  • Active/Passive Cluster
  • Active/Active Cluster
  • Failover Cluster
  • Load Balanced Cluster
  • Shared-Nothing Cluster
  • Shared-Disk Cluster
  • Cluster resources
  • Cluster services
  • Quorum
  • Fencing (Node and Resource Level Fencing)
  • Split brain
  • Redundancy
  • Mean Time Before Failure (MTBF)
  • Mean Time To Repair (MTTR)
  • Service Level Agreement (SLA)
  • Disaster Recovery
  • State Handling
  • Replication
  • Session handling


361.2 Load Balanced Clusters (weight: 8)

Weight 8
Description Candidates should know how to install, configure, maintain and troubleshoot LVS. This includes the configuration and use of keepalived and ldirectord. Candidates should further be able to install, configure, maintain and troubleshoot HAProxy.

Key Knowledge Areas:

  • Understand the concepts of LVS / IPVS
  • Understand the basics of VRRP
  • Configure keepalived
  • Configure ldirectord
  • Configure backend server networking
  • Understand HAProxy
  • Configure HAProxy

Partial list of the used files, terms and utilities:

  • ipvsadm
  • syncd
  • LVS Forwarding (NAT, Direct Routing, Tunneling, Local Node)
  • connection scheduling algorithms
  • keepalived configuration file
  • ldirectord configuration file
  • genhash
  • HAProxy configuration file
  • load balancing algorithms
  • ACLs


361.3 Failover Clusters (weight: 8)

Weight 8
Description Candidates should have experience in the installation, configuration, maintenance and troubleshooting of a Pacemaker cluster. This includes the use of Corosync. The focus is on Pacemaker 2.x for Corosync 2.x.

Key Knowledge Areas:

  • Understand the architecture and components of Pacemaker (CIB, CRMd, PEngine, LRMd, DC, STONITHd)
  • Manage Pacemaker cluster configurations
  • Understand Pacemaker resource classes (OCF, LSB, Systemd, Service, STONITH, Nagios)
  • Manage Pacemaker resources
  • Manage resource rules and constraints (location, order, colocation).
  • Manage advanced resource features (templates, groups, clone resources, multi-state resources)
  • Obtain node information and manage node health
  • Manage quorum and fencing in a Pacemaker cluster
  • Configure the Split Brain Detector on shared storage
  • Manage Pacemaker using pcs
  • Manage Pacemaker using crmsh
  • Configure and management of corosync in conjunction with Pacemaker
  • Awareness of Pacemaker ACLs
  • Awareness of other cluster engines (OpenAIS, Heartbeat, CMAN)

Partial list of the used files, terms and utilities:

  • pcs
  • crm
  • crm_mon
  • crm_verify
  • crm_simulate
  • crm_shadow
  • crm_resource
  • crm_attribute
  • crm_node
  • crm_standby
  • cibadmin
  • corosync.conf
  • authkey
  • corosync-cfgtool
  • corosync-cmapctl
  • corosync-quorumtool
  • stonith_admin
  • stonith
  • ocf:pacemaker:ping
  • ocf:pacemaker:NodeUtilization
  • ocf:pacemaker:ocf:SysInfo
  • ocf:pacemaker:HealthCPU
  • ocf:pacemaker:HealthSMART
  • sbd


Topic 362: High Availability Cluster Storage

362.1 DRBD (weight: 6)

Weight 6
Description Candidates are expected to have the experience and knowledge to install, configure, maintain and troubleshoot DRBD devices. This includes integration with Pacemaker. DRBD configuration of version 9.0.x is covered.

Key Knowledge Areas:

  • Understand the DRBD architecture
  • Understand DRBD resources, states and replication modes
  • Configure DRBD disks and devices
  • Configure DRBD networking connections and meshes
  • Configure DRBD automatic recovery and error handling
  • Configure DRBD quorum and handlers for split brain and fencing
  • Manage DRBD using drbdadm
  • Understand the principles of drbdsetup and drbdmeta
  • Restore and verify the integrity of a DRBD device after an outage
  • Integrate DRBD with Pacemaker
  • Understand the architecture and features of LINSTOR

Partial list of the used files, terms and utilities:

  • Protocol A, B and C
  • Primary, Secondary
  • Three-way replication
  • drbd kernel module
  • drbdadm
  • drbdmon
  • drbdsetup
  • drbdmeta
  • /etc/drbd.conf
  • /etc/drbd.d/
  • /proc/drbd


362.2 Cluster Storage Access (weight: 3)

Weight 3
Description Candidates should be able to connect a Linux node to remote block storage. This includes understanding common SAN technology and architectures, including management of iSCSI, as well as configuring multipathing for high availability and using LVM on a clustered storage.

Key Knowledge Areas:

  • Understand the concepts of Storage Area Networks
  • Understand the concepts of Fibre Channel, including Fibre Channel Topologies
  • Understand and manage iSCSI targets and initiators
  • Understand and configure Device Mapper Multipath I/O (DM-MPIO)
  • Understand the concept of a Distributed Lock Manager (DLM)
  • Understand and manage clustered LVM
  • Manage DLM and LVM with Pacemaker

Partial list of the used files, terms and utilities:

  • tgtadm
  • targets.conf
  • iscsiadm
  • iscsid.conf
  • /etc/multipath.conf
  • multipath
  • kpartx
  • pvmove
  • vgchange
  • lvchange



362.3 Clustered File Systems (weight: 4)

Weight 4
Description Candidates should be able to install, maintain and troubleshoot GFS2 and OCFS2 filesystems. This includes awareness of other clustered filesystems available on Linux.

Key Knowledge Areas:

  • Understand the principles of cluster file systems and distributed file systems
  • Understand the Distributed Lock Manager
  • Create, maintain and troubleshoot GFS2 file systems in a cluster
  • Create, maintain and troubleshoot OCFS2 file systems in a cluster
  • Awareness of the O2CB cluster stack
  • Awareness of other commonly used clustered file systems, such as AFS and Lustre

Partial list of the used files, terms and utilities:

  • mkfs.gfs2
  • mount.gfs2
  • fsck.gfs2
  • gfs2_grow
  • gfs2_edit
  • gfs2_jadd
  • mkfs.ocfs2
  • mount.ocfs2
  • fsck.ocfs2
  • tunefs.ocfs2
  • mounted.ocfs2
  • o2info
  • o2image



Topic 363: High Availability Distributed Storage

363.1 GlusterFS Storage Clusters (weight: 5)

Weight 5
Description Candidates should be able to manage and maintain a GlusterFS storage cluster.

Key Knowledge Areas:

  • Understand the architecture and components of GlusterFS
  • Manage GlusterFS peers, trusted storge pools, bricks and volumes
  • Mount and use an existing GlusterFS
  • Configure high availability aspects of GlusterFS
  • Scale up a GlusterFS cluster
  • Replace failed bricks
  • Recover GlusterFS from a physical media failure
  • Restore and verify the integrity of a GlusterFS cluster after an outage
  • Awareness of GNFS

Partial list of the used files, terms and utilities:

  • gluster (including relevant subcommands)


363.2 Ceph Storage Clusters (weight: 8)

Weight 8
Description Candidates should be able to manage and maintain a Ceph Cluster. This includes the configuration of RGW, RDB devices and CephFS.

Key Knowledge Areas:

  • Understand the architecture and components of Ceph
  • Manage OSD, MGR, MON and MDS
  • Understand and manage placement groups and pools
  • Understand storage backends (FileStore and BlueStore)
  • Initialize a Ceph cluster
  • Create and manage Rados Block Devices
  • Create and manage CephFS volumes, including snapshots
  • Mount and use an existing CephFS
  • Understand and adjust CRUSH maps
  • Configure high availability aspects of Ceph
  • Scale up a Ceph cluster
  • Restore and verify the integrity of a Ceph cluster after an outage
  • Understand key concepts of Ceph updates, including update order, tunables and features

Partial list of the used files, terms and utilities:

  • ceph-deploy (including relevant subcommands)
  • ceph.conf
  • ceph (including relevant subcommands)
  • rados (including relevant subcommands)
  • rdb (including relevant subcommands)
  • cephfs (including relevant subcommands)
  • ceph-volume (including relevant subcommands)
  • ceph-authtool
  • ceph-bluestore-tool
  • crushtool



Topic 364: Single Node High Availability

364.1 Hardware and Resource High Availability (weight: 2)

Weight 2
Description Candidates should be able to monitor a local node for potential hardware failures and resource shortages.

Key Knowledge Areas:

  • Understand and monitor S.M.A.R.T values using smartmontools, including triggering frequent disk checks
  • Configure system shutdown at specific UPS events
  • Configure monit for alerts in case of resource exhaustion

Partial list of the used files, terms and utilities:

  • smartctl
  • /etc/smartd.conf
  • smartd
  • nvme-cli
  • apcupsd
  • apctest
  • monit


364.2 Advanced RAID (weight: 2)

Weight 2
Description Candidates should be able to manage software raid devices on Linux. This includes advanced features such as partitonable RAIDs and RAID containers as well as recovering RAID arrays after a failure.

Key Knowledge Areas:

  • Manage RAID devices using various raid levels, including hot spare discs, partitionable RAIDs and RAID containers
  • Add and remove devices from an existing RAID
  • Change the RAID level of an existing device
  • Recover a RAID device after a failure
  • Understand various metadata formats and RAID geometries
  • Understand availability and performance properties of various raid levels
  • Configure mdadm monitoring and reporting

Partial list of the used files, terms and utilities:

  • mdadm
  • /proc/mdstat
  • /proc/sys/dev/raid/*


364.3 Advanced LVM (weight: 3)

Weight 3
Description Candidates should be able to configure LVM volumes. This includes managing LVM snapshot, pools and RAIDs.

Key Knowledge Areas:

  • Understand and manage LVM, including linear and striped volumes
  • Extend, grow, shrink and move LVM volumes
  • Understand and manage LVM snapshots
  • Understand and manage LVM thin and thick pools
  • Understand and manage LVM RAIDs

Partial list of the used files, terms and utilities:

  • /etc/lvm/lvm.conf
  • pvcreate
  • pvdisplay
  • pvmove
  • pvremove
  • pvresize
  • vgcreate
  • vgdisplay
  • vgreduce
  • lvconvert
  • lvcreate
  • lvdisplay
  • lvextend
  • lvreduce
  • lvresize


364.4 Network High Availability (weight: 5)

Weight 5
Description Candidates should be able to configure redundant networking connections and manage VLANs. Furthermore, candidates should have a basic understanding of BGP.

Key Knowledge Areas:

  • Understand and configure bonding network interface
  • Network bond modes and algorithms (active-backup, balance-tlb, balance-alb, 802.3ad, balance-rr, balance-xor, broadcast)
  • Configure switch configuration for high availability, including RSTP
  • Configure VLANs on regular and bonded network interfaces
  • Persist bonding and VLAN configuration
  • Understand the principle of autonomous systems and BGP to manage external redundant uplinks
  • Awareness of traffic shaping and control capabilities of Linux

Partial list of the used files, terms and utilities:

  • bonding.ko (including relevant module options)
  • /etc/network/interfaces
  • /etc/sysconfig/networking-scripts/ifcfg-*
  • /etc/systemd/network/*.network
  • /etc/systemd/network/*.netdev
  • nmcli
  • /sys/class/net/bonding_masters
  • /sys/class/net/bond*/bonding/miimon
  • /sys/class/net/bond*/bonding/slaves
  • ifenslave
  • ip