Exam Title: Oracle Solaris 11 Installation and Configuration Essentials
Exam Number: 1Z0-580
Exam Price: $245.00 More on exam pricing
Format: Multiple Choice
Duration: 120 minutes
Number of Questions: 74
Passing Score: 67%
Validated Against: This exam has been validated against Oracle Solaris 11.

Solaris 11 Overview
Identify the Solaris 11 Product
Describe Oracle Solaris 11 and where Solaris fits into Oracle’s strategy
Describe the benefits for providing solutions on an integrated stack
Describe the key customer value propositions for the Solaris solutions
Describe the configuration and usage options that are available to customers for Oracle Solaris 11

Solaris 11 Installation
Identify the key items needed for planning a system’s initial configuration
Explain S11 OS installation and upgrade options for x86 and SPARC systems, including installation media, custom, network, and automated installations
Perform an OS installation from CD / DVD for Solaris 11 on SPARC, x64 and x86 based systems
Describe basic installation troubleshooting steps

Perform System Boot and Shutdown procedures for T-Series, M-Series, x86
Describe the boot and shutdown processes on x64 and SPARC Oracle systems, including BIOS/OBP, GRUB, and Solaris Service Management Facility (SMF)
Perform a boot, shutdown, and reboot on an x64 and SPARC Oracle system
Perform a network boot on an x64 and SPARC Oracle system
Control the default boot behaviors of x64 and SPARC Oracle systems, including changing BIOS/GRUB/OBP to manipulate the default boot device, Solaris boot flags/levels, and driver configurations
Create and manage ZFS boot environments
Troubleshoot a system boot and shutdown

Solaris 11 Software Management
Describe key differences between managing software in S10 vs S11
Explain key components of S11 Image Packaging System (IPS) subsystem
Manage S11 Boot Environments
Manage IPS repositories from command-line and GUI tools
Inventory installed packages, using both command-line and GUI tools
Perform package administration including package installation, removal, updates, and re-configuring to use a non-default package repository, using both the CLI and GUI interfaces
Set up a local IPS repository
Perform a full upgrade for an x86 or SPARC platform, for the latest or targeted software releases

Solaris 11 Networking
Understand the key network administration differences between S10 and S11
Describe the key items needed for planning a system’s network configuration, like hostname, subnets, name, and name services
Explain Solaris 11 automatic and static network configuration options, including NWAM, NCPs
Implement a system’s network configuration, including hostname, data links, static and DHCP Ipv4/IPv6 addresses, link aggregations, IPMP links, VLANs, and VNICs
Implement advanced network configurations, like bridges, routers, flow controls, tunnels, and Integrated Load-Balancers
Show, set, and unset link properties including (1) duplex, (2) link protection (anti- spoofing), and control network bandwidth

Solaris 11 Technical Overview
Define the features of Oracle Solaris 11 and the value of the feature in technical terms
Describe the key design elements that differentiate this product from other operating systems
Map product features, capabilities, and benefits to customer business needs and requirements
Identify the key differences between Solaris 10 and Solaris 11
Explain how to move a workload from Solaris 10 to Solaris 11

Solaris 11 Advanced Installation Procedures
Explain the Automated Installer (AI) including boot, identification, configuration, installation services, local repositories, and zones, including AI manifests
Configure an AI server setup including implementing an AI server and a local package repository
Perform a Live Upgrade Update
Describe the network boot process of an x86 or SPARC system
Create a custom first-boot script
Troubleshoot AI installation issues
Perform an automated installation for a physical system and a non-global zone, for both X64 and SPARC Oracle systems
Validate an installation and ensure that it is working correctly using existing Solaris 11 tools like vmstat, top, prstat, etc.
Explain and demonstrate how to add, remove, and modify user accounts/roles and assign authorizations, rights or privileges to those accounts/roles.
Explain and demonstrate the Solaris 11 OS out of the box network security posture (Secure by Default) and how to set/change the default setting (e.g., netservices, svcadm, etc.)

Manage File Systems and Storage
Explain disk architecture including the ZFS file system capabilities and naming conventions for devices for SPARC, x64 and x86 based systems
Use the prtconf and format commands to list devices, explain critical issues of the /etc/path_to_inst file and reconfigure devices by performing a reconfiguration boot or using the devfsadm command for SPARC, x64 and x86 based systems
Given a scenario, configure a set of disks for use as a ZFS zpool on x86 and SPARC systems, including management of SMI and EFI labels
Explain how to create a file system in an existing zpool as well as how to set specific parameters on the file system like delegated administration, quotas, compression, de-duplication, ACLs, and encryption
Describe snapshots, clones, replication, and their usage with the ZFS filesystem
Create shares and LUNS from a ZFS file system
Given a scenario, configure boot disks for use as a ZFS pool

Solaris 11 Virtualization
Explain consolidation issues, features of Solaris zones, and distinguish between the different zone concepts including zone types, daemons, networking, command scope
Given a scenario, create a Solaris zone
Given a zone configuration scenario, identify zone components, including network components, privileges, resource requirements, and integrity policy
Use the zonecfg, dladm and ipadm commands to view and configure the zone, including privileges, delegated administration, optional file systems and virtual network devices
Given a scenario, use the zoneadm command to view, install, boot, halt, reboot, and delete a zone

QUESTION 1
What information would the “beadm list -ds” command output?

A. a list of all Bes
B. a list of the datasets and snapshot information for the active BE
C. a list of the datasets and snapshot information for all Bes
D. a list of the default sets
E. a list of BEs in machine readable format

Answer: C

Explanation: You can display information about snapshots, boot environments, and datasets that
were created by the beadm command by using the beadm list subcommand. The beadm list
command output also displays boot environments that are created by the pkg command.
The beadm list command syntax is:
Syntax: beadm list [-a | [-ds] [-H] [BeName]
The command lists information about the existing boot environment. To view information for a
specific boot environment, replace BeName with a boot environment name. If a specific boot
environment is not specified, the command lists information about all boot environments. The
default is to list boot environments without additional information.
-a – Lists all available information about the boot environment. This information includes subordinate datasets and snapshots.
-d – Lists information about all subordinate datasets that belong to the boot environment.
-s – Lists information about the snapshots of the boot environment.
-H – Prevents listing header information. Each field in the output is separated by a semicolon.
Reference:Oracle Solaris 11 Information Library,Listing Existing Boot Environments and Snapshots

QUESTION 2
What two entries could complete the following command from the directory listing below?

A. inetboot.SUN4U.Solaris_10-1
B. inetboot.SUN4V.Solaris_l0-1
C. nbp.
D. pxegrub.I86PC.Solaris_10-1
E. sllgrub.i86pc

Answer: D,E
Explanation: As per exhibit these are the two files in the netboot directory.
Note:
*Missing argument is:
file=wanbootCGI-URL
Specifies the URL of the wanboot-cgi program on the web server
*During the installation, WAN boot refers to the contents of the /etc/netboot hierarchy on the web
server for instructions about how to perform the installation. This directory contains the
configuration information, private key, digital certificate, and certificate authority required for a
WAN boot installation. During the installation, the wanboot-cgi program converts this information
into the WAN boot file system. The wanboot-cgi program then transmits the WAN boot file system to the client.

QUESTION 3

A developer wants to use DTrace in a zone to examine the kernel. What are his options?
A. Modify the zone so thathe can use DTrace to examine kennel datastructures.
B. All that’s required istoassume the “root” role.
C. By using dtrace_procand dtrace_user privileges he can examine his own code, but not the kernel.
D. By addingipc_dac_read and ipc_dac_write privileges to the zone.
E. Changethe zone’s file-mac-profile fromstrict tonone to enable the use of DTrace within thezone.

Answer: C

Explanation: How to Use DTracein a Non-global Zone
global# zonecfg -z my-zone
zonecfg:my-zone> set limitpriv=”default,dtrace_proc,dtrace_user”
zonecfg:my-zone> exit
Note –
Depending on your requirements, you can add either privilege, or both privileges.
Log in to the zone.
global# zlogin my-zone
my-zone# dtrace -l
Note:
*Oracle Solaris DTrace is a comprehensive, advanced tracing tool for troubleshooting systemic
problems in real time.
*DTrace helps you understand a software system by enabling you to dynamically modify the
operating system kernel and user processes to record additional data that you specify at locations
of interest, called probes.
Reference:System Administration Guide: Oracle Solaris Containers-Resource Management and
Oracle Solaris Zones,Using DTrace in a Non-Global Zone

QUESTION 4
Your system has two disk devices, c2t0d0 and c2t1d0, and two flash devices, c2t5d0 and c2t8d0.
Which command would you to create a storage pool named “tank,” which mirrors the disks and adds the two flash devices as “cache”?

A. zpool create tank mirror c2t0d0 c2t1d0 mirror c2t5d0 c2t8d0
B. zpoolcreate tank mirror c2t0d0 c2t1d0 log mirrorc2t5d0 c2t8d0
C. zpool c2t0d0 c2t1d0 cachec2t5d0 c2t8d0mirror
D. zpool create tank mirror c2t0d0 c2t1d0 cachec2t5d0 c2t8d0
E. zpool create tankraidz2c2t0d0 c2t1d0 c2t5d0 c2t8d0

Answer: D

Explanation: Creating a ZFS Storage Pool with Cache Devices
You can create a storage pool with cache devices to cache storage pool data. For example:
# zpool create tank mirror c2t0d0 c2t1d0 c2t3d0 cache c2t5d0 c2t8d0

Note:
*Creating a Basic Storage Pool
The following command creates a new pool named tank that consists of the disks c1t0d0 and
c1t1d0:
#zpool status tank
pool: tank
state: ONLINE
scrub: none requested
config:
NAME STATE READ WRITE CKSUM
tank ONLINE 0 0 0
mirror-0 ONLINE 0 0 0
c2t0d0 ONLINE 0 0 0
c2t1d0 ONLINE 0 0 0
c2t3d0 ONLINE 0 0 0
cache
c2t5d0 ONLINE 0 0 0
c2t8d0 ONLINE 0 0 0
errors: No known data errors
# zpool create tank c1t0d0 c1t1d0
These whole disks are found in the /dev/dsk directory and are labelled appropriately by ZFS to
contain a single, large slice. Data is dynamically striped across both disks.
*Creating a Mirrored Storage Pool
To create a mirrored pool, use the mirror keyword, followed by any number of storage devices that
will comprise the mirror. Multiple mirrors can be specified by repeating the mirror keyword on the
command line. The following command creates a pool with two, two-way mirrors:
# zpool create tank mirror c1d0 c2d0 mirror c3d0 c4d0
Reference:Solaris ZFS Administration Guide,Creating a ZFS Storage Pool with Cache Devices

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