Difference between revisions of "LPIC-305 Objectives V3.0(JA)"

Revision as of 10:01, 1 March 2020

はじめに

これは、LPIC-3 認定試験に必要な項目です。

バージョン情報

この試験範囲は、バージョン3.0です。

この試験は305試験のバージョン2.0を分割してできました。

304試験バージョン2.0から3.0への、試験範囲の変更点の詳細は、 こちらにあります。 バージョン 2.xの試験範囲はこちらにあります。

試験範囲の翻訳

このwikiに、以下の試験範囲の翻訳があります:

• 英語
• 日本語

試験範囲

課題 351: Full Virtualization

351.1 Virtualization Concepts and Theory (総重量: 6)

Key Knowledge Areas:

• Understand virtualization terminology
• Understand the pros and cons of virtualization
• Understand the various variations of Hypervisors and Virtual Machine Monitors
• Understand the major aspects of migrating physical to virtual machines
• Understand the major aspects of migrating virtual machines between host systems
• Understand the features and implications of virtualization for a virtual machine, such as snapshotting, pausing, cloning and resource limits
• Awareness of oVirt, Proxmox, systemd-machined and VirtualBox
• Awareness of Open vSwitch

The following is a partial list of the used files, terms and utilities:

• Hypervisor
• Hardware Virtual Machine (HVM)
• Paravirtualization (PV)
• Emulation and Simulation
• CPU flags
• /proc/cpuinfo
• Migration (P2V, V2V)

351.2 Xen (総重量: 3)

Key Knowledge Areas:

• Understand architecture of Xen, including networking and storage
• Basic configuration of Xen nodes and domains
• Basic management of Xen nodes and domains
• Basic troubleshooting of Xen installations
• Awareness of XAPI
• Awareness of XenStore
• Awareness of Xen Boot Parameters
• Awareness of the xm utility

The following is a partial list of the used files, terms and utilities:

• Domain0 (Dom0), DomainU (DomU)
• PV-DomU, HVM-DomU
• /etc/xen/
• xl
• xl.cfg
• xl.conf
• xentop

351.3 QEMU (総重量: 4)

Key Knowledge Areas:

• Understand the architecture of QEMU, including KVM, networking and storage
• Start QEMU instances from the command line
• Manage snapshots using the QEMU monitor
• Install the QEMU Guest Agent and VirtIO device drivers
• Troubleshoot QEMU installations, including networking and storage
• Awareness of important QEMU configuration parameters

The following is a partial list of the used files, terms and utilities:

• Kernel modules: kvm, kvm-intel and kvm-amd
• /dev/kvm
• QEMU monitor
• qemu
• qemu-system-x86_64
• ip
• brctl
• tunctl

351.4 Libvirt Virtual Machine Management (総重量: 9)

Key Knowledge Areas:

• Understand the architecture of libvirt
• Manage libvirt connections and nodes
• Create and manage QEMU and Xen domains, including snapshots
• Manage and analyze resource consumption of domains
• Create and manage storage pools and volumes
• Create and manage virtual networks
• Migrate domains between nodes
• Understand how libvirt interacts with Xen and QEMU
• Understand how libvirt interacts with network services such as dnsmasq and radvd
• Understand libvirt XML configuration files
• Awareness of virtlogd and virtlockd

The following is a partial list of the used files, terms and utilities:

• libvirtd
• /etc/libvirt/
• virsh (including relevant subcommands)

351.5 Virtual Machine Disk Image Management (総重量: 3)

Key Knowledge Areas:

• Understand features of various virtual disk image formats, such as raw images, qcow2 and VMDK
• Manage virtual machine disk images using qemu-img
• Mount partitions and access files contained in virtual machine disk images using libguestfish
• Copy physical disk content to a virtual machine disk image
• Migrate disk content between various virtual machine disk image formats
• Awareness of Open Virtualization Format (OVF)

The following is a partial list of the used files, terms and utilities:

• qemu-img
• guestfish (including relevant subcommands)
• guestmount
• guestumount
• virt-cat
• virt-copy-in
• virt-copy-out
• virt-diff
• virt-inspector
• virt-filesystems
• virt-rescue
• virt-df
• virt-resize
• virt-sparsify
• virt-p2v
• virt-p2v-make-disk
• virt-v2v
• virt-sysprep

課題 352: Container Virtualization

352.1 Container Virtualization Concepts (総重量: 7)

Key Knowledge Areas:

• Understand the concepts of system and application container
• Understand and analyze kernel namespaces
• Understand and analyze control groups
• Understand and analyze capabilities
• Understand the role of seccomp, SELinux and AppArmor for container virtualization
• Understand how LXC and Docker leverage namespaces, cgroups, capabilities, seccomp and MAC
• Understand the principle of runc
• Understand the principle of CRI-O and containerd
• Awareness of the OCI runtime and image specifications
• Awareness of the Kubernetes Container Runtime Interface (CRI)
• Awareness of podman, buildah and skopeo
• Awareness of other container virtualization approaches in Linux and other free operating systems, such as rkt, OpenVZ, systemd-nspawn or BSD Jails

The following is a partial list of the used files, terms and utilities:

• nsenter
• unshare
• ip (including relevant subcommands)
• capsh
• /sys/fs/cgroups
• /proc/[0-9]+/ns
• /proc/[0-9]+/status

352.2 LXC (総重量: 6)

Key Knowledge Areas:

• Understand the architecture of LXC and LXD
• Manage LXC containers based on existing images using LXD, including networking and storage
• Configure LXC container properties
• Limit LXC container resource usage
• Use LXD profiles
• Understand LXC images
• Awareness of traditional LXC tools

Partial list of the used files, terms and utilities:

• lxd
• lxc (including relevant subcommands)

352.3 Docker (総重量: 9)

Key Knowledge Areas:

• Understand the architecture and components of Docker
• Manage Docker containers by using images from a Docker registry
• Understand and manage images and volumes for Docker containers
• Understand and manage logging for Docker containers
• Understand and manage networking for Docker
• Use Dockerfiles to create container images
• Run a Docker registry using the registry Docker image

Partial list of the used files, terms and utilities:

• dockerd
• /etc/docker/daemon.json
• /var/lib/docker/
• docker
• Dockerfile

352.4 Container Orchestration Platforms (総重量: 3)

Key Knowledge Areas:

• Understand the relevance of container orchestration
• Understand the key concepts of Docker Compose and Docker Swarm
• Understand the key concepts of Kubernetes and Helm
• Awareness of OpenShift, Rancher and Mesosphere DC/OS

課題 353: VM Deployment and Provisioning

353.1 Cloud Management Tools (総重量: 2)

Key Knowledge Areas:

• Understand common offerings in public clouds
• Basic feature knowledge of OpenStack
• Basic feature knowledge of Terraform
• Awareness of CloudStack, Eucalyptus and OpenNebula

Partial list of the used files, terms and utilities:

• IaaS, PaaS, SaaS
• OpenStack
• Terraform

353.2 Packer (総重量: 2)

Key Knowledge Areas:

• Understand the functionality and features of Packer
• Create and maintain template files
• Build images from template files using different builders

Partial list of the used files, terms and utilities:

• packer

353.3 cloud-init (総重量: 3)

Key Knowledge Areas:

• Understanding the features and concepts of cloud-init, including user-data, initializing and configuring cloud-init
• Use cloud-init to create, resize and mount file systems, configure user accounts, including login credentials such as SSH keys and install software packages from the distribution’s repository
• Integrate cloud-init into system images
• Use config drive datasource for testing

Partial list of the used files, terms and utilities:

• cloud-init
• user-data
• /var/lib/cloud/

353.4 Vagrant (総重量: 3)

Key Knowledge Areas:

• Understand Vagrant architecture and concepts, including storage and networking
• Retrieve and use boxes from Atlas
• Create and run Vagrantfiles
• Access Vagrant virtual machines
• Share and synchronize folder between a Vagrant virtual machine and the host system
• Understand Vagrant provisioning, i.e. File and Shell provisioners
• Understand multi-machine setup

Partial list of the used files, terms and utilities:

• vagrant
• Vagrantfile