ibm-information-center/dist/eclipse/plugins/i5OS.ic.rzau9_5.4.0.1/rzau9400opoverview.htm

168 lines
9.6 KiB
HTML
Raw Permalink Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE html
PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
<html lang="en-us" xml:lang="en-us">
<head>
<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
<meta name="copyright" content="(C) Copyright IBM Corporation 2005" />
<meta name="DC.rights.owner" content="(C) Copyright IBM Corporation 2005" />
<meta name="security" content="public" />
<meta name="Robots" content="index,follow" />
<meta http-equiv="PICS-Label" content='(PICS-1.1 "http://www.icra.org/ratingsv02.html" l gen true r (cz 1 lz 1 nz 1 oz 1 vz 1) "http://www.rsac.org/ratingsv01.html" l gen true r (n 0 s 0 v 0 l 0) "http://www.classify.org/safesurf/" l gen true r (SS~~000 1))' />
<meta name="DC.Type" content="concept" />
<meta name="DC.Title" content="Overview" />
<meta name="abstract" content="This topic is an overview of the i5/OS operations." />
<meta name="description" content="This topic is an overview of the i5/OS operations." />
<meta name="DC.Relation" scheme="URI" content="rzau9400op.htm" />
<meta name="DC.Format" content="XHTML" />
<meta name="DC.Identifier" content="rzau9400opoverview" />
<meta name="DC.Language" content="en-us" />
<!-- All rights reserved. Licensed Materials Property of IBM -->
<!-- US Government Users Restricted Rights -->
<!-- Use, duplication or disclosure restricted by -->
<!-- GSA ADP Schedule Contract with IBM Corp. -->
<link rel="stylesheet" type="text/css" href="./ibmdita.css" />
<link rel="stylesheet" type="text/css" href="./ic.css" />
<title>Overview</title>
</head>
<body id="rzau9400opoverview"><a name="rzau9400opoverview"><!-- --></a>
<!-- Java sync-link --><script language="Javascript" src="../rzahg/synch.js" type="text/javascript"></script>
<h1 class="topictitle1">Overview</h1>
<div><p>This topic is an overview of the <span class="keyword">i5/OS™</span> operations.</p>
<p>There are some operational tasks that must be performed from Linux<sup>®</sup>, and others
from <span class="keyword">i5/OS</span>. This information
describes how to operate an integrated Linux server
from the <span class="keyword">i5/OS</span> side.</p>
<p>You can operate the integrated Linux server from <span class="keyword">i5/OS</span> using
either iSeries™ Navigator
or by entering CL commands on the <span class="keyword">i5/OS</span> command
line.</p>
<div class="note"><span class="notetitle">Note:</span> All references to Linux apply equally to the supported Red Hat and SUSE
distributions, except where noted. The term <dfn class="term">storage space</dfn> means
a network server storage space. A storage space is a chunk of iSeries single-level
disk storage that Linux sees as a physical disk drive. The terms storage
space and Linux drive
are used synonymously. An integrated Linux server is an instance of Linux running
on an Integrated xSeries<sup>®</sup> Server, or an xSeries server attached via
an Integrated xSeries Adapter.
Each integrated Linux server has its own corresponding network server
description (NWSD). The Integrated Linux servers are also referred to as
simply <dfn class="term">Linux servers</dfn>.</div>
<p>When an integrated Linux server is installed on iSeries, the following objects are created:</p>
<dl><dt class="dlterm">Network server description (NWSD)</dt>
<dd><p>This is the main configuration object of an integrated server that <span class="keyword">i5/OS</span> uses to control the server
and describe its attributes. Each integrated Linux server instance has a corresponding
NWSD. </p>
<p>The NWSD contains the hardware resource name (LINxx) that points
the Linux server
instance to a physical Integrated xSeries Server or Integrated xSeries Adapter.
All other <span class="keyword">i5/OS</span> objects
needed to run a Linux server are linked to, and controlled by, the
NWSD. The NWSD provides independence between instances of Linux and the
Intel-compatible hardware that they run on (Integrated xSeries Server and Integrated xSeries Adapter).
This unique architecture enables some powerful functions, such as the ability
to:</p>
<ul><li>Create multiple Linux server instances that can be run on the same
integrated hardware resource, although not at the same time. This provides
a “dormant” server capability.</li>
<li>Switch Linux instances
between integrated hardware resources. This provides a “hot spare” backup
server capability that can be quickly activated in the case of failure of
an Integrated xSeries Server
or Integrated xSeries Adapter.</li>
</ul>
</dd>
</dl>
<dl><dt class="dlterm">Server instances</dt>
<dd><p>Each integrated server or network server description represents a Linux or Windows<sup>®</sup> server
instance, not an Integrated xSeries Server or Integrated xSeries Adapter. </p>
<p>Each server
instance has a corresponding network server description (NWSD) and vice versa.
You can create multiple instances of Linux or Windows on one Integrated xSeries Server
or Integrated xSeries Adapter,
although only one instance can be active at a time. In other words, iSeries integration
for Linux and Windows separates
the hardware from the Linux and Windows instances that were created
to run on that hardware. This is a unique feature of the iSeries Windows and Linux integration
architecture, and provides major benefits in terms of availability and hardware
utilization. </p>
<p>When performing operations on integrated Linux servers
using iSeries Navigator,
it is usually addressed in terms of servers. When using CL commands through
the <span class="keyword">i5/OS</span> command line
it is usually addressed in terms of network server descriptions or NWSDs.</p>
</dd>
</dl>
<dl><dt class="dlterm">Network server storage space</dt>
<dd><p><dfn class="term">Storage spaces</dfn> are chunks of iSeries disk storage that are created
in an <span class="keyword">i5/OS</span> auxiliary storage
pool (ASP) and reserved for Linux or Windows. Because storage spaces are
virtual disk drives created from <span class="keyword">i5/OS</span> single-level
storage, each storage space is scattered across all the physical disk drives
in the ASP. They can reside in the system ASP, a user ASP, or an independent
ASP (IASP), and appear as objects in the /QFPNWSSTG IFS directory. </p>
<p>From
an <span class="keyword">i5/OS</span> perspective, this
portion of iSeries disk
storage is called a <dfn class="term">network server storage space</dfn>, or storage
space for short. From the Linux (or Windows) perspective, this portion of iSeries disk
storage is seen as a physical disk drive. In fact these drives are completely
virtual, so we often refer to storage spaces and disk drives as virtual drives
or simply drives. When we are discussing integrated Linux servers
we use these terms interchangeably. Each disk drive icon or storage space
represents a Linux or Windows (virtual)
disk drive.</p>
<p>To associate a storage space with a particular NWSD we <dfn class="term">link</dfn> it.</p>
<p>The
installation process automatically creates two storage spaces, called the <dfn class="term">system
drive</dfn> and <dfn class="term">installation drive</dfn>, and links them to the NWSD.
You can create more storage spaces for your server and link them to the NWSD
after the installation has completed. Linux sees them as additional drives.</p>
<p>The
administration of a Linux servers disk storage has both an <span class="keyword">i5/OS</span> component
and a Linux component.
On the <span class="keyword">i5/OS</span> side we create
and link the storage space to the Linux server. On the Linux side we
perform disk administration tasks such as partition management and formatting.
These tasks are performed in exactly the same way on an integrated Linux server
as they are on a standalone Linux server. </p>
<p><span class="keyword">i5/OS</span> storage
management relieves Linux of the responsibility for providing physical
device support. Therefore, common disk administration issues encountered in
standalone Linux servers,
such as disk drivers, addressing, configuration, and protection, are eliminated
when you use integrated Linux servers. </p>
</dd>
</dl>
<dl><dt class="dlterm">Virtual Ethernet LAN line descriptions</dt>
<dd><p>Indented under each NWSD is a communications line description that
ends in PP. This line description, known as the <dfn class="term">Point-to-Point Virtual
Ethernet line</dfn>, is automatically configured when the integrated server
is created. This communications line provides a virtual 1 Gbps Ethernet connection
between the integrated server and its hosting <span class="keyword">i5/OS</span> partition,
and enables the server to exchange information with <span class="keyword">i5/OS</span>.
You need a separate line description for each Virtual Ethernet connection
you set up between an integrated Linux server and other integrated servers
or iSeries logical
partitions.</p>
</dd>
</dl>
<dl><dt class="dlterm">TCP/IP interface for Point-to-Point Virtual Ethernet LAN line</dt>
<dd><p>A TCP/IP interface is created specifically for the Point-to-Point Virtual
Ethernet LAN line. By default, it has an address of the form 192.168.x.y,
where x and y are automatically generated, and a subnet mask of 255.255.255.0.
You can change the TCP/IP interface of Point-to-Point Virtual Ethernet LAN
line after the server has been created. This interface should be an IP address
and subnet that are not being used in your network. The Linux server
has a corresponding TCP/IP address (192.168.x.y+1) configured on its end of
the Point-to-Point Virtual Ethernet LAN.</p>
</dd>
</dl>
</div>
<div>
<div class="familylinks">
<div class="parentlink"><strong>Parent topic:</strong> <a href="rzau9400op.htm" title="This topic introduces i5/OS operations.">i5/OS operations</a></div>
</div>
</div>
</body>
</html>