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<html xmlns="http://www.w3.org/1999/xhtml"><head><meta http-equiv="Content-Type" content="text/html; charset=ISO-8859-1" /><title>Clone a node/computer using KA method</title><link rel="stylesheet" href="styleguibo.css" type="text/css" /><meta name="generator" content="DocBook XSL Stylesheets V1.75.2" /><link rel="home" href="#id2243211" title="Clone a node/computer using KA method" /><link rel="next" href="#id2506023" title="1. Clone a computer over the network" /></head><body><div xml:lang="en" class="article" title="Clone a node/computer using KA method" lang="en"><div class="titlepage"><div><div><h2 class="title"><a id="id2243211"></a>Clone a node/computer using KA method</h2></div></div><hr /></div><div class="toc"><dl><dt><span class="sect1"><a href="#id2506023">1. Clone a computer over the network</a></span></dt><dd><dl><dt><span class="sect2"><a href="#id2506044">1.1. KA method</a></span></dt><dt><span class="sect2"><a href="#id2435194">1.2. HOW it works</a></span></dt><dd><dl><dt><span class="sect3"><a href="#id2434894">1.2.1. Steps</a></span></dt><dt><span class="sect3"><a href="#id2506455">1.2.2. Needed files</a></span></dt></dl></dd><dt><span class="sect2"><a href="#id2506508">1.3. Step 1: PXE, TFTP, DHCPD services</a></span></dt><dd><dl><dt><span class="sect3"><a href="#id2506544">1.3.1. PXE parameters on server</a></span></dt><dt><span class="sect3"><a href="#id2506625">1.3.2. TFTP server</a></span></dt><dt><span class="sect3"><a href="#id2506656">1.3.3. PXE configuration</a></span></dt><dt><span class="sect3"><a href="#id2506668">1.3.4. DHCPD configuration</a></span></dt></dl></dd></dl></dd><dt><span class="sect1"><a href="#id2506821">2. Setup a node as a golden node</a></span></dt><dd><dl><dt><span class="sect2"><a href="#id2506827">2.1. The rescue.sqfs file</a></span></dt><dd><dl><dt><span class="sect3"><a href="#id2506883">2.1.1. ka-d.sh</a></span></dt><dt><span class="sect3"><a href="#id2506929">2.1.2. replication.conf</a></span></dt><dt><span class="sect3"><a href="#id2506940">2.1.3. fdisk_to_desc</a></span></dt><dt><span class="sect3"><a href="#id2506969">2.1.4. gen_modprobe_conf.pl</a></span></dt><dt><span class="sect3"><a href="#id2506992">2.1.5. ka-d-client</a></span></dt><dt><span class="sect3"><a href="#id2507027">2.1.6. ka-d-server</a></span></dt><dt><span class="sect3"><a href="#id2507076">2.1.7. ka_replication.sh</a></span></dt><dt><span class="sect3"><a href="#id2507100">2.1.8. store_log.sh</a></span></dt><dt><span class="sect3"><a href="#id2507128">2.1.9. bootable_flag.sh</a></span></dt><dt><span class="sect3"><a href="#id2507140">2.1.10. make_initrd_grub</a></span></dt><dt><span class="sect3"><a href="#id2507163">2.1.11. make_initrd_lilo</a></span></dt><dt><span class="sect3"><a href="#id2507186">2.1.12. prepare_node.sh</a></span></dt><dt><span class="sect3"><a href="#id2507211">2.1.13. send_status.pl</a></span></dt><dt><span class="sect3"><a href="#id2507234">2.1.14. status_node.pl</a></span></dt></dl></dd></dl></dd><dt><span class="sect1"><a href="#id2507254">3. The golden node, KA server</a></span></dt><dt><span class="sect1"><a href="#id2507401">4. KA client node</a></span></dt><dd><dl><dt><span class="sect2"><a href="#id2507406">4.1. PXE server (kamethod)</a></span></dt><dt><span class="sect2"><a href="#id2507443">4.2. Stage1 KA method, node waiting stage2 </a></span></dt><dt><span class="sect2"><a href="#id2507490">4.3. Stage2, the duplication process</a></span></dt><dt><span class="sect2"><a href="#id2507559">4.4. Prepare the node</a></span></dt><dt><span class="sect2"><a href="#id2507585">4.5. PXE server to local boot</a></span></dt></dl></dd><dt><span class="sect1"><a href="#id2507603">5. Step by step from scratch KA duplication</a></span></dt><dd><dl><dt><span class="sect2"><a href="#id2507638">5.1. Golden node side</a></span></dt><dt><span class="sect2"><a href="#id2507781">5.2. KA client side</a></span></dt></dl></dd></dl></div><div class="sect1" title="1. Clone a computer over the network"><div class="titlepage"><div><div><h2 class="title" style="clear: both"><a id="id2506023"></a>1. Clone a computer over the network</h2></div></div></div><p>
Goal of duplication is to easily deploy a computer over network without taking care of numbers of computer. In this documentation, we call golden node the node we want to clone.
We can duplicate SCSI or IDE hard drive, and duplication support multiple filesystem (reiserfs, ext2, ext3, ext4, xfs, jfs).
</p><p>WARNING: all data on client nodes will be ERASED ! We duplicate partitions of HDD' golden node, and the process will do an fdisk command on the client node, so ALL YOUR DATA will be erased on client nodes.</p><div class="sect2" title="1.1. KA method"><div class="titlepage"><div><div><h3 class="title"><a id="id2506044"></a>1.1. KA method</h3></div></div></div><p>
With KA method you can quickly duplicate a node using a <span class="bold"><strong>desc</strong></span>
file describing partitions. KA method only duplicate data on partitions, so if you have 80go HDD disk, and
only 10go on it, KA only duplicates 10go, and not the whole disk. KA method doesn't not support RAID software.
</p><p>
Drawbacks:
</p><p>
</p><div class="itemizedlist"><ul class="itemizedlist" type="disc"><li class="listitem"><p>KA method doesn't support RAID software</p></li><li class="listitem"><p>you can only clone Linux filesystems (if you want to duplicate another kinf of FS, it's up to you to modify the scripts)</p></li></ul></div><p>
</p></div><div class="sect2" title="1.2. HOW it works"><div class="titlepage"><div><div><h3 class="title"><a id="id2435194"></a>1.2. HOW it works</h3></div></div></div><div class="sect3" title="1.2.1. Steps"><div class="titlepage"><div><div><h4 class="title"><a id="id2434894"></a>1.2.1. Steps</h4></div></div></div><p>
The clone process works in three steps
</p><div class="itemizedlist"><ul class="itemizedlist" type="disc"><li class="listitem"><p><span class="bold"><strong>PXE boot to retrieve stage1</strong></span>: the computer boot on PXE mode, retrieve <span class="bold"><strong>vmlinuz</strong></span> and an <span class="bold"><strong>initrd</strong></span> image. The computer is in <span class="bold"><strong>stage1</strong></span> mode, and is able to get the stage2 throug KA. Network is up.</p></li><li class="listitem"><p><span class="bold"><strong>get stage2</strong></span>: the computer gets the stage2 with the KA method. The <span class="bold"><strong>stage2</strong></span> contains all necessary tools to recognize your hardware (the most important things is to detect your HDD and your network card), and all necessary tools to finalize the cloning process.</p></li><li class="listitem"><p><span class="bold"><strong>Duplication process</strong></span>: the computer auto-probes needed modules to be able to access the HDD. A basic log server is launched on the client node to be able to run command and get status of the KA duplication process. The computer reconfigure the modprobe.conf and restore the booloader (grub or lilo)</p></li></ul></div></div><div class="sect3" title="1.2.2. Needed files"><div class="titlepage"><div><div><h4 class="title"><a id="id2506455"></a>1.2.2. Needed files</h4></div></div></div><p>
All needed files are available in Mandriva Linux cooker.
</p><p>
</p><div class="itemizedlist"><ul class="itemizedlist" type="disc"><li class="listitem"><p><span class="bold"><strong>install/stage2/rescue.sqfs</strong></span>: this is the stage2 file with all needed files to detect and probe modules, and launch the third step of the duplication process. This file will be used on the golden node.</p></li><li class="listitem"><p><span class="bold"><strong>isolinux/alt0/vmlinuz</strong></span>: linux kernel, needed in the <span class="bold"><strong>/var/lib/tftpboot/X86PC/linux/images/</strong></span> directory of the PXE server</p></li><li class="listitem"><p><span class="bold"><strong>isolinux/alt0/all.rdz</strong></span>: stage1 and all needed modules and tools.</p></li></ul></div><p>
</p></div></div><div class="sect2" title="1.3. Step 1: PXE, TFTP, DHCPD services"><div class="titlepage"><div><div><h3 class="title"><a id="id2506508"></a>1.3. Step 1: PXE, TFTP, DHCPD services</h3></div></div></div><p>
To easily clone a computer node, we use PXE technology to boot a <span class="bold"><strong>kernel</strong></span>, and an <span class="bold"><strong>initrd</strong></span> image wich contains all needed modules for network and media storage. Documentation about PXE can be found here: <a class="ulink" href="http://people.mandriva.com/~aginies/doc/pxe/" target="_top">PXE doc</a>. Please, keep in mind setting such services can <span class="bold"><strong>DISTURB</strong></span> your current network architecture.
</p><div class="sect3" title="1.3.1. PXE parameters on server"><div class="titlepage"><div><div><h4 class="title"><a id="id2506544"></a>1.3.1. PXE parameters on server</h4></div></div></div><p>
Mandriva Linux installer supports various methods to install a computer. With PXE configuration file you can specify wich method you want to use to install your node, or add a specific option at boot prompt. Edit your default PXE configuration file to add your custom entry (<span class="bold"><strong>/var/lib/tftpboot/X86PC/linux/pxelinux.cfg/default</strong></span>).
</p><p>
</p><pre class="screen">
PROMPT 1
DEFAULT local
DISPLAY messages
TIMEOUT 50
F1 help.txt
label local
LOCALBOOT 0
label kamethod
KERNEL images/vmlinuz
APPEND initrd=images/all.rdz ramdisk_size=64000 vga=788 \
automatic=method:ka,interface:eth0,network:dhcp root=/dev/ram3 rw kamethod</pre><p>
</p><p>
At boot prompt no you can boot:
</p><p>
</p><div class="itemizedlist"><ul class="itemizedlist" type="disc"><li class="listitem"><p><span class="bold"><strong>DEFAULT local</strong></span>: default boot will be local one, change it with the name of a <span class="bold"><strong>LABEL</strong></span></p></li><li class="listitem"><p><span class="bold"><strong>local</strong></span>: boot local</p></li><li class="listitem"><p><span class="bold"><strong>kamethod</strong></span>: automatic mode, get stage2 through <span class="bold"><strong>KA</strong></span>. Network interface is set to eth0. Auto setup the network with DHCP, and use the KA technology to launch the replication method.</p></li></ul></div><p>
</p></div><div class="sect3" title="1.3.2. TFTP server"><div class="titlepage"><div><div><h4 class="title"><a id="id2506625"></a>1.3.2. TFTP server</h4></div></div></div><p>
TFTP server should be activated in <span class="bold"><strong>/etc/xinetd.d/tftp</strong></span> file, and the <span class="bold"><strong>xinetd</strong></span> service started.
</p><p>
</p><pre class="screen">
service tftp
{
disable= no
socket_type= dgram
protocol= udp
wait= yes
user= root
server= /usr/sbin/in.tftpd
server_args = -s /var/lib/tftpboot
per_source= 11
cps= 100 2
flags= IPv4
}</pre><p>
</p></div><div class="sect3" title="1.3.3. PXE configuration"><div class="titlepage"><div><div><h4 class="title"><a id="id2506656"></a>1.3.3. PXE configuration</h4></div></div></div><p>
</p><pre class="programlisting">
# which interface to use
interface=eth0
default_address=IPADDR_PXE
# the multicast ip address to listen on
multicast_address=224.0.1.2
# mtftp info
mtftp_address=IPADDR_TFTP
mtftp_client_port=1758
mtftp_server_port=1759
# the port to listen on
listen_port=4011
# enable multicast?
use_multicast=1
# enable broadcast?
use_broadcast=0
# user prompt
prompt=Press F8 to view menu ...
prompt_timeout=2
# what services to provide, priority in ordering
# CSA = Client System Architecture
# service=<CSA>,<min layer>,<max layer>,<basename>,<menu entry>
service=X86PC,0,2,linux,Mandriva Linux x86
service=IA64PC,0,2,linux,Mandriva Linux IA64
service=X86PC,0,0,local,Local boot
# tftpd base dir
tftpdbase=/
# domain=guibland.com
domain=
</pre><p>
</p></div><div class="sect3" title="1.3.4. DHCPD configuration"><div class="titlepage"><div><div><h4 class="title"><a id="id2506668"></a>1.3.4. DHCPD configuration</h4></div></div></div><p>
IE of an <span class="bold"><strong>/etc/dhcpd.conf</strong></span> configuration file. Change <span class="bold"><strong>IPADDR_TFTP</strong></span> with the IP address of the TFTP serrver, and the <span class="bold"><strong>NET</strong></span> value. Don't forget to adjust the <span class="bold"><strong>domain-name</strong></span> and the <span class="bold"><strong>domain-name-servers</strong></span>.
</p><p>
</p><pre class="screen">
ddns-update-style none;
allow booting;
allow bootp;
authoritative;
# Definition of PXE-specific options
# Code 1: Multicast IP address of bootfile
# Code 2: UDP port that client should monitor for MTFTP responses
# Code 3: UDP port that MTFTP servers are using to listen for MTFTP requests
# Code 4: Number of secondes a client must listen for activity before trying
# to start a new MTFTP transfer
# Code 5: Number of secondes a client must listen before trying to restart
# a MTFTP transfer
# define Option for the PXE class
option space PXE;
option PXE.mtftp-ip code 1 = ip-address;
option PXE.mtftp-cport code 2 = unsigned integer 16;
option PXE.mtftp-sport code 3 = unsigned integer 16;
option PXE.mtftp-tmout code 4 = unsigned integer 8;
option PXE.mtftp-delay code 5 = unsigned integer 8;
option PXE.discovery-control code 6 = unsigned integer 8;
option PXE.discovery-mcast-addr code 7 = ip-address;
#Define options for pxelinux
option space pxelinux;
option pxelinux.magic code 208 = string;
option pxelinux.configfile code 209 = text;
option pxelinux.pathprefix code 210 = text;
option pxelinux.reboottime code 211 = unsigned integer 32;
site-option-space "pxelinux";
option pxelinux.magic f1:00:74:7e;
option pxelinux.reboottime 30;
#Class that determine the options for Etherboot 5.x requests
class "Etherboot" {
#if The vendor-class-identifier equal Etherboot-5.0
match if substring (option vendor-class-identifier, 0, 13) = "Etherboot-5.0";
# filename define the file retrieve by the client, there nbgrub
# our tftp is chrooted so is just the path to the file
filename "/etherboot/nbgrub";
#Used by etherboot to detect a valid pxe dhcp server
option vendor-encapsulated-options 3c:09:45:74:68:65:72:62:6f:6f:74:ff;
# Set the "vendor-class-identifier" field to "PXEClient" in dhcp answer
# if this field is not set the pxe client will ignore the answer !
option vendor-class-identifier "Etherboot-5.0";
vendor-option-space PXE;
option PXE.mtftp-ip 0.0.0.0;
# IP of you TFTP server
next-server IPADDR_TFTP;
}
# create the Class PXE
class "PXE" {
# if the "vendor-class-identifier" is set to "PXEClient" in the client dhcp request
match if substring(option vendor-class-identifier, 0, 9) = "PXEClient";
filename "/X86PC/linux/linux.0";
option vendor-class-identifier "PXEClient";
vendor-option-space PXE;
option PXE.mtftp-ip 0.0.0.0;
next-server IPADDR_TFTP;
}
#host node20 {
# hardware ethernet 00:40:CA:8C:B6:E9;
# fixed-address node20;
#}
subnet NET.0 netmask 255.255.255.0 {
option subnet-mask 255.255.255.0;
option routers IPADDR_GW;
default-lease-time 288000;
max-lease-time 864000;
option domain-name "guibland.com";
option domain-name-servers IPADDR_DNS;
next-server IPADDR_TFTP;
pool {
range NET.30 NET.40;
}
}</pre><p>
</p></div></div></div><div class="sect1" title="2. Setup a node as a golden node"><div class="titlepage"><div><div><h2 class="title" style="clear: both"><a id="id2506821"></a>2. Setup a node as a golden node</h2></div></div></div><div class="sect2" title="2.1. The rescue.sqfs file"><div class="titlepage"><div><div><h3 class="title"><a id="id2506827"></a>2.1. The rescue.sqfs file</h3></div></div></div><p>
You need the rescue disk (wich contains the <span class="bold"><strong>/ka</strong></span> directory),
Just extract this file, and copy all directory in <span class="bold"><strong>/mnt/ka</strong></span>.
</p><p>
</p><pre class="screen">
[root@guibpiv ~]# mkdir /mnt/ka
[root@guibpiv ~]# cd /mnt/ka/
[root@guibpiv ka]# unsquashfs rescue.sqfs
[root@guibpiv ka]# mv squashfs-root/* .
[root@guibpiv ka]# ls
bin/ dev/ etc/ ka/ lib/ modules/ proc/ sbin/ squashfs-root/ tmp/ usr/ var/
</pre><p>
</p><p>
Go in the <span class="bold"><strong>/mnt/ka/ka</strong></span> directory, and see all new files available. All those files are needed to do a <span class="bold"><strong>KA</strong></span> duplication process. We will explain now the rule of each of them. You can modify all them, those files will be copied in the directory <span class="bold"><strong>/tmp/stage2</strong></span> of the client node of the duplication process (second step).
</p><div class="sect3" title="2.1.1. ka-d.sh"><div class="titlepage"><div><div><h4 class="title"><a id="id2506883"></a>2.1.1. ka-d.sh</h4></div></div></div><p>
This is the master script to declare a node as a golden node. This script takes a lot of arguments. This script should be run
on the host wich have the <span class="bold"><strong>/mnt/ka</strong></span> directory.
</p><pre class="screen">
-h, --help : display this message
-n num : specify the number of (destination) nodes
-x dir : exclude directory
-X sdb|sdc : exclude sdb for the replication
-m drive : copy the master boot record (for windows) of this drive (not really tested yet)
-M drive file : use 'file' as master boot record (must be 446 bytes long) for the specified drive
-D partition : also copy partition 'partition'
-p drive pdesc : use 'pdesc' file as partition scheme (see doc) for the specified drive
-d delay : delay beteween the release of 2 clients (1/10 second)
-r 'grub|lilo' : choose the bootloader (you can add mkinitrd options)
ie: ka-d.sh -n 3 -p sda /tmp/desc -X 'sdb|sdc' -r 'grub --with=ata_piix --with=piix'</pre><p>
</p></div><div class="sect3" title="2.1.2. replication.conf"><div class="titlepage"><div><div><h4 class="title"><a id="id2506929"></a>2.1.2. replication.conf</h4></div></div></div><p>
This file contains all variables needed by other scripts. It also tries to get information like IP address.
</p></div><div class="sect3" title="2.1.3. fdisk_to_desc"><div class="titlepage"><div><div><h4 class="title"><a id="id2506940"></a>2.1.3. fdisk_to_desc</h4></div></div></div><p>
This script generate the description table of the hard drive disk in the <span class="bold"><strong>/tmp/desc</strong></span> file.
This file must follow some rules: one line per partition, with two fields : type of partition and size in megabytes.
The type can be linux, swap, extended. Other types can be obtained by appending their hexadecimal number to 'type'.
For example linux is the same as type83. The size is either a number of megabytes, or the keyword fill (to take all
available space). The logical partitions must have the logical keyword. Do a <span class="bold"><strong>man ka-d</strong></span> for more help.
</p></div><div class="sect3" title="2.1.4. gen_modprobe_conf.pl"><div class="titlepage"><div><div><h4 class="title"><a id="id2506969"></a>2.1.4. gen_modprobe_conf.pl</h4></div></div></div><p>
This script creates a basic output like the content of the<span class="bold"><strong>/etc/modprobe.conf</strong></span> file. Drawbacks
this file must be updated for each new modules available in the kernel (based on the <span class="bold"><strong>kernel/list_modules.pm</strong></span> file).
</p></div><div class="sect3" title="2.1.5. ka-d-client"><div class="titlepage"><div><div><h4 class="title"><a id="id2506992"></a>2.1.5. ka-d-client</h4></div></div></div><p>
The <span class="bold"><strong>ka-d-client</strong></span> binary file is used to get stage2 with the <span class="bold"><strong>KA</strong></span> method, and after get the whole system. The important argument is the <span class="bold"><strong>-s</strong></span> session name. A <span class="bold"><strong>KA</strong></span> can only connect to a specific session (getstage2, kainstall ...). The code source is available in the ka-deploy SRPM.
</p></div><div class="sect3" title="2.1.6. ka-d-server"><div class="titlepage"><div><div><h4 class="title"><a id="id2507027"></a>2.1.6. ka-d-server</h4></div></div></div><p>
The <span class="bold"><strong>ka-d-server</strong></span> binary file is used to be a <span class="bold"><strong>KA</strong></span> golden node server. Like the <span class="bold"><strong>ka-d-client</strong></span> the session arguments is an important parameter (<span class="bold"><strong>-s session_name</strong></span>). The session name will be <span class="bold"><strong>getstage2</strong></span> to retrieve the stage2 (after the PXE boot) and will be <span class="bold"><strong>kainstall1</strong></span> at duplication process step. If you want to do more than one duplication process of nodes at the same time, you should synchronize the ka_sesion name between the server and the client. The code source is available in the ka-deploy SRPM.
</p></div><div class="sect3" title="2.1.7. ka_replication.sh"><div class="titlepage"><div><div><h4 class="title"><a id="id2507076"></a>2.1.7. ka_replication.sh</h4></div></div></div><p>
Script launched on the <span class="bold"><strong>KA</strong></span> client (after getting stage2 and probing modules), to do the full process of the <span class="bold"><strong>Ka</strong></span> duplication.
This script call other scripts to prepare the node (prepare_node.sh), configure the bootloader (make_initrd_grub or make_initrd_lilo).
</p></div><div class="sect3" title="2.1.8. store_log.sh"><div class="titlepage"><div><div><h4 class="title"><a id="id2507100"></a>2.1.8. store_log.sh</h4></div></div></div><p>
Basic script to store the log of the <span class="bold"><strong>KA</strong></span> duplication process on an FTP server. Adjust to feet your need, and uncomment the line <span class="bold"><strong>#store_log.sh</strong></span> in the <span class="bold"><strong>/mnt/ka/ka/ka_replication.sh</strong></span> file.
</p></div><div class="sect3" title="2.1.9. bootable_flag.sh"><div class="titlepage"><div><div><h4 class="title"><a id="id2507128"></a>2.1.9. bootable_flag.sh</h4></div></div></div><p>
Script to set bootable an HDD using fdisk. First arg must be the HDD device.
</p></div><div class="sect3" title="2.1.10. make_initrd_grub"><div class="titlepage"><div><div><h4 class="title"><a id="id2507140"></a>2.1.10. make_initrd_grub</h4></div></div></div><p>
Restore and reload the Grub bootloader in the <span class="bold"><strong>/mnt/disk</strong></span> directory. It's a very basic script, and perhaps use the <span class="bold"><strong>restore_bootloader</strong></span> of the Mandriva Linux Rescue should be a better idea.</p></div><div class="sect3" title="2.1.11. make_initrd_lilo"><div class="titlepage"><div><div><h4 class="title"><a id="id2507163"></a>2.1.11. make_initrd_lilo</h4></div></div></div><p>
Restore and reload the lilo bootloader in the <span class="bold"><strong>/mnt/disk</strong></span> directory. Again it's a very basic script, perhaps we should use the <span class="bold"><strong>restore_bootloader</strong></span> of the Mandriva Linux Rescue.
</p></div><div class="sect3" title="2.1.12. prepare_node.sh"><div class="titlepage"><div><div><h4 class="title"><a id="id2507186"></a>2.1.12. prepare_node.sh</h4></div></div></div><p>
This script remove in the futur system the old network's udev rules, old dhcp cache files, launch the script <span class="bold"><strong>gen_modprobe_conf.pl</strong></span> to regenerate an up to date <span class="bold"><strong>/etc/modprobe.conf</strong></span> in the new system, and launch the script to restore the bootloader. If you want to do more action on the installed, system, you can modify this script.
</p></div><div class="sect3" title="2.1.13. send_status.pl"><div class="titlepage"><div><div><h4 class="title"><a id="id2507211"></a>2.1.13. send_status.pl</h4></div></div></div><p>
Very basic perl script to open the port 12345, and paste the content of the <span class="bold"><strong>/tmp/ka*</strong></span> file. It also permit the execution of commands on node, if user send a message from the golden node with the <span class="bold"><strong>exec</strong></span> prefix.
</p></div><div class="sect3" title="2.1.14. status_node.pl"><div class="titlepage"><div><div><h4 class="title"><a id="id2507234"></a>2.1.14. status_node.pl</h4></div></div></div><p>
Script to connect to a client node, first arg must be the IP address of the node. You can run command on the node with the <span class="bold"><strong>exec</strong></span> prefix.
</p></div></div></div><div class="sect1" title="3. The golden node, KA server"><div class="titlepage"><div><div><h2 class="title" style="clear: both"><a id="id2507254"></a>3. The golden node, KA server</h2></div></div></div><p>
Now, it is time to build a description of the node partitions. You can use the script <span class="bold"><strong>/mnt/ka/ka/fdisk_to_desc</strong></span> as root user, or your favorite text editor,
you can write a file like this one:
</p><p>
</p><pre class="screen">
linux 3500
extended fill
logical swap 500
logical linux fill</pre><p>
</p><p>
This file describes your partition table and the sample above can be considered as a default one for a recommended
installation. There is a 3.5GB <span class="bold"><strong>/</strong></span> partition, a 500 MB swap
partition, and <span class="bold"><strong>/var</strong></span> fills the rest, of course you can adjust
sizes accoding to your system.
</p><p>
Type the following to start the ka replication server as root user on the golden node:
</p><p>
</p><pre class="programlisting">
<screen>
[root@node40 ka]# ./ka-d.sh -n 1 -p sda /root/desc -X sdb -r "grub --with=jfs --with=ata_piix"
takembr =
desc = sda /root/desc
+ Mount points :
/dev/sda5 / ext3
/dev/sda1 swap swap
+ Hard drives :
sda
+ Reading partition table description for sda
Added partition 1 : type 82
Added partition 5 : type 83
+ Included mount points : /
+ Bootloader is: grub --with=jfs --with=ata_piix
+++ Sending Stage2 +++
Compiled : Aug 23 2007 12:58:29
ARGS=+ka-d-server+-s+getstage2+-n+1+-e+(cd /mnt/ka; tar --create --one-file-system --sparse . )+
Server IP = 10.0.1.40
command = (cd /mnt/ka; tar --create --one-file-system --sparse . )
I want 1 clients
Socket 4 on port 30765 on node40.guibland.com ready.
Socket 5 on port 30764 on node40.guibland.com ready.
</pre><p>
</p><p>
</p><div class="itemizedlist"><ul class="itemizedlist" type="disc"><li class="listitem"><p><span class="bold"><strong>-r "grub --with=jfs --with=ata_piix"</strong></span>: use grub bootloader and <span class="bold"><strong>--with=jfs --with=piix</strong></span> mkinitrd option in the chrooted system after the <span class="bold"><strong>KA</strong></span> deploiement</p></li><li class="listitem"><p><span class="bold"><strong>-n nb_nodes</strong></span>: specify how many nodes are clients</p></li><li class="listitem"><p><span class="bold"><strong>-p sda desc</strong></span>: specify the name of the hdd</p></li><li class="listitem"><p><span class="bold"><strong>-x /tmp</strong></span>: exclude <span class="bold"><strong>/tmp</strong></span> directory</p></li><li class="listitem"><p><span class="bold"><strong>-X sdb</strong></span>: exclude <span class="bold"><strong>sdb</strong></span> hdd for the duplication</p></li></ul></div><p>
</p><p>
Now the golden node is waiting for clients nodes to start replication.
</p></div><div class="sect1" title="4. KA client node"><div class="titlepage"><div><div><h2 class="title" style="clear: both"><a id="id2507401"></a>4. KA client node</h2></div></div></div><div class="sect2" title="4.1. PXE server (kamethod)"><div class="titlepage"><div><div><h3 class="title"><a id="id2507406"></a>4.1. PXE server (kamethod)</h3></div></div></div><p>
We have to configure the PXE to boot by default on <span class="bold"><strong>kamethod</strong></span>.
To do this just edit <span class="bold"><strong>/var/lib/tftpboot/X86PC/linux/pxelinux.cfg/default</strong></span> and set
<span class="bold"><strong>DEFAULT</strong></span> to kamethod:
</p><pre class="screen">DEFAULT kamethod</pre><p>
So, next time a node boots, the PXE server will force the node to boot using the kamethod entry.
</p></div><div class="sect2" title="4.2. Stage1 KA method, node waiting stage2"><div class="titlepage"><div><div><h3 class="title"><a id="id2507443"></a>4.2. Stage1 KA method, node waiting stage2 </h3></div></div></div><p>
Now, you boot all remaining nodes. The replication process
will start once all nodes are up and waiting on the <span class="bold"><strong>KA</strong></span>
screen.
</p><p>
If the nodes can't reach the golden node, running the <span class="bold"><strong>KA</strong></span>
server the message <span class="bold"><strong>Can't reach a valid KA server</strong></span> will appear.
Each node will try five times to reach the <span class="bold"><strong>KA</strong></span> server, after that the node will reboot.
As the node boots on <span class="bold"><strong>kamethod</strong></span>, it will retry until it finds it.
</p></div><div class="sect2" title="4.3. Stage2, the duplication process"><div class="titlepage"><div><div><h3 class="title"><a id="id2507490"></a>4.3. Stage2, the duplication process</h3></div></div></div><p>
Once all the nodes have found the <span class="bold"><strong>KA</strong></span> server, the first
duplication process will start. This step duplicates the
<span class="bold"><strong>stage2</strong></span> from the <span class="bold"><strong>/mnt/ka</strong></span> directory
of the golden node, in the client's nodes memory (<span class="bold"><strong>/dev/ram3</strong></span> formated as ext2). Then, nodes chroot their memories (the <span class="bold"><strong>/tmp/stage2</strong></span> directory), and launch the <span class="bold"><strong>drvinst</strong></span> command from the stage2, to probe all needed their modules (drivers). Then, the second step of the duplication starts.
</p><p>
The duplication process will clone your drives following
the description you have made (<span class="bold"><strong>/tmp/desc</strong></span> of the golden node).
Nodes will rewrite their partition table, then format their filesystems (ReiserFs, XFS,
ext2/3/4, JFS). All new partitions will be mounted in the <span class="bold"><strong>/mnt/disk</strong></span> directory.
Then, the drive duplication process will begin. On a fast Ethernet switch you can reach speeds of 10MBytes/sec.
</p></div><div class="sect2" title="4.4. Prepare the node"><div class="titlepage"><div><div><h3 class="title"><a id="id2507559"></a>4.4. Prepare the node</h3></div></div></div><p>
At the end of the duplication process, each node will
chroot its partitions and rebuild its <span class="bold"><strong>/boot/initrd.img</strong></span>,
and <span class="bold"><strong>/etc/modprobe.conf</strong></span> files.
This step ensures that your node will reboot using its potential
SCSI drives and adjusting its network card driver. Before
rebooting, each node reinstalls lilo/grub. All your node are
now ready, and are clone of master node.
</p></div><div class="sect2" title="4.5. PXE server to local boot"><div class="titlepage"><div><div><h3 class="title"><a id="id2507585"></a>4.5. PXE server to local boot</h3></div></div></div><p>
Don't forget to change the default PXE boot to <span class="bold"><strong>local</strong></span>
so node after replication will boot localy.
</p></div></div><div class="sect1" title="5. Step by step from scratch KA duplication"><div class="titlepage"><div><div><h2 class="title" style="clear: both"><a id="id2507603"></a>5. Step by step from scratch KA duplication</h2></div></div></div><p>We will use a PIV 3gz box as golden node, with a SATA hard drive, and an Intel 82540EM Gigabit Ethernet Controller card. This golden box will be the: PXE, DHCPD, TFTP server. Client nodes are</p><p>
</p><div class="itemizedlist"><ul class="itemizedlist" type="disc"><li class="listitem"><p>basic PIV 2.8gz, with a Realtek Semiconductor 8139 network card, and a IDE hard drive disk</p></li><li class="listitem"><p>PE2650 dual XEON 2.4gz, SCSI Hard Drive disk, and NetXtreme BCM5701 Gigabit Ethernet cards</p></li></ul></div><p>
</p><p>Both nodes are configured to boot on their network card.</p><div class="sect2" title="5.1. Golden node side"><div class="titlepage"><div><div><h3 class="title"><a id="id2507638"></a>5.1. Golden node side</h3></div></div></div><p>
Prepapre the golden node, install all needed tools.
</p><p>
</p><pre class="programlisting">
[root@localhost ~]# urpmi ka-deploy-source-node
http://192.168.1.253/cooker/i586/media/main/release/ka-deploy-source-node-0.94.1-1mdv2010.1.i586.rpm
installing ka-deploy-source-node-0.94.1-1mdv2010.1.i586.rpm from /var/cache/urpmi/rpms
Preparing... ###############################################################################
1/1: ka-deploy-source-node ###############################################################################
[root@localhost ~]# rpm -ql ka-deploy-source-node
/etc/ka
/etc/ka/replication.conf
/usr/bin/bootable_flag.sh
/usr/bin/fdisk_to_desc
/usr/bin/gen_modprobe_conf.pl
/usr/bin/ka-d-client
/usr/bin/ka-d-server
/usr/bin/ka-d.sh
/usr/bin/ka_replication.sh
/usr/bin/make_initrd_grub
/usr/bin/make_initrd_lilo
/usr/bin/prepare_node.sh
/usr/bin/send_status.pl
/usr/bin/status_node.pl
/usr/bin/store_log.sh
/usr/bin/udev_creation.sh
/usr/share/ka-deploy-0.94.1
/usr/share/man/man1/ka-d-client.1.lzma
/usr/share/man/man1/ka-d-server.1.lzma
/usr/share/man/man1/ka-d.1.lzma
/usr/share/man/man1/ka-d.sh.1.lzma
/usr/share/man/man1/ka-deploy.1.lzma
</pre><p>
</p><p>Create the /mnt/ka directory, and put all stuff in it (this directory will be sent to all client nodes and use to finish
the duplication process)</p><p>
</p><pre class="programlisting">
[root@localhost ~]# mkdir /mnt/ka
lftp ftp.proxad.net:~> cd pub/Distributions_Linux/MandrivaLinux/devel/cooker/i586/install/stage2/
lftp ftp.proxad.net:/pub/Distributions_Linux/MandrivaLinux/devel/cooker/i586/install/stage2> pget rescue.sqfs
19132416 bytes transferred in 78 seconds (241.1K/s)
[root@localhost ~]# urpmi squashfs-tools
http://192.168.1.253/cooker/i586/media/main/release/squashfs-tools-4.0-3.20091221.1mdv2010.1.i586.rpm
installing squashfs-tools-4.0-3.20091221.1mdv2010.1.i586.rpm from /var/cache/urpmi/rpms
Preparing... ############################################################################
1/1: squashfs-tools ############################################################################
[root@localhost ~]# unsquashfs rescue.sqfs
Parallel unsquashfs: Using 2 processors
988 inodes (1222 blocks) to write
[============================================================================================-] 1222/1222 100%
created 550 files
created 93 directories
created 60 symlinks
created 371 devices
created 1 fifos
[root@localhost ~]# cd squashfs-root/
[root@localhost squashfs-root]# ls
bin/ dev/ etc/ ka/ lib/ modules/ proc/ sbin/ tmp/ usr/ var/
[root@localhost squashfs-root]# mv * /mnt/ka/
</pre><p>
</p><p>Install all needed packages to be able to be a PXE, DHCPD and TFTP server</p><p>
</p><pre class="programlisting">
[root@localhost ka]# ka-d.sh -h
/usr/bin/ka-d.sh : clone this machine
Usage:
-h, --help : display this message
-n num : specify the number of (destination) nodes
-x 'dir|dir2' : exclude directory
-X 'sdb|sdc' : exclude sdb for the replication
-m drive : copy the master boot record (for windows) of this drive
-M drive file : use 'file' as master boot record (must be 446 bytes long) for the specified drive
-D partition : also copy partition 'partition'
-p drive pdesc : use 'pdesc' file as partition scheme (see doc) for the specified drive
-d delay : delay beteween the release of 2 clients (1/10 second)
-r 'grub|lilo' : choose the bootloader (you can add mkinitrd options)
ie: ka-d.sh -n 3 -p sda /tmp/desc -X sdb -r 'grub --with=ata_piix --with=piix'
[root@localhost ka]# urpmi ka-deploy-server
To satisfy dependencies, the following packages are going to be installed:
Package Version Release Arch
(medium "Main")
bind-utils 9.7.0 4mdv2010.1 i586
clusterscripts-common 3.5 1mdv2010.1 noarch
clusterscripts-server-conf 3.5 1mdv2010.1 noarch
clusterscripts-server-pxe 3.5 1mdv2010.1 noarch
dhcp-server 4.1.1 5mdv2010.1 i586
ka-deploy-server 0.94.1 1mdv2010.1 i586
perl-Crypt-PasswdMD5 1.300.0 1mdv2010.1 noarch
pxe 1.4.2 19mdv2010.1 i586
pxelinux 3.83 1mdv2010.1 i586
syslinux 3.83 1mdv2010.1 i586
tftp-server 5.0 4mdv2010.1 i586
xinetd 2.3.14 11mdv2010.1 i586
12MB of additional disk space will be used.
2.5MB of packages will be retrieved.
Proceed with the installation of the 12 packages? (Y/n)
</pre><p>
</p><p>Configure all services</p><p>
</p><pre class="programlisting">
[root@localhost ~]# hostname
node42.guibland.com
[root@localhost ~]# domainname
guibland.com
[root@localhost ~]# ip addr show eth0
2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 100
link/ether 00:17:31:19:a0:78 brd ff:ff:ff:ff:ff:ff
inet 10.0.1.42/24 brd 10.0.1.255 scope global eth0
inet6 fe80::217:31ff:fe19:a078/64 scope link
valid_lft forever preferred_lft forever
[root@localhost ~]# vi /etc/pxe.conf
-----------
# which interface to use
interface=eth0
default_address=10.0.1.42
# the multicast ip address to listen on
multicast_address=224.0.1.2
# mtftp info
mtftp_address=10.0.1.42
mtftp_client_port=1758
mtftp_server_port=1759
# the port to listen on
listen_port=4011
# enable multicast?
use_multicast=1
# enable broadcast?
use_broadcast=0
# user prompt
prompt=Press F8 to view menu ...
prompt_timeout=2
# what services to provide, priority in ordering
# CSA = Client System Architecture
# service=<CSA>,<min layer>,<max layer>,<basename>,<menu entry>
service=X86PC,0,2,linux,Mandriva Linux x86
service=IA64PC,0,2,linux,Mandriva Linux IA64
service=X86PC,0,0,local,Local boot
# tftpd base dir
tftpdbase=/
# domain name
domain=guibland.com
---------------
[root@localhost ~]# vi /etc/xinetd.d/tftp
service tftp
{
disable = no
socket_type = dgram
protocol = udp
wait = yes
user = root
server = /usr/sbin/in.tftpd
server_args = -s /var/lib/tftpboot
per_source = 11
cps = 100 2
flags = IPv4
}
[root@localhost ~]# cp /etc/dhcpd.conf.pxe.single /etc/dhcpd.conf
cp: overwrite `/etc/dhcpd.conf'? y
[root@localhost ~]# cat /etc/resolv.conf
nameserver 10.0.1.253
search guibland.com
[root@localhost ~]# cat /etc/dhcpd.conf
# for explanation in french go to : http://www.delafond.org/traducmanfr/man/man5/dhcpd.conf.5.html
ddns-update-style none;
allow booting;
allow bootp;
# Your dhcp server is not master on your network !
#not authoritative;
# Your dhcpd server is master on your network !
#authoritative;
authoritative;
#Interface where dhcpd is active
#DHCPD_INTERFACE = "eth0";
# Definition of PXE-specific options
# Code 1: Multicast IP address of bootfile
# Code 2: UDP port that client should monitor for MTFTP responses
# Code 3: UDP port that MTFTP servers are using to listen for MTFTP requests
# Code 4: Number of secondes a client must listen for activity before trying
# to start a new MTFTP transfer
# Code 5: Number of secondes a client must listen before trying to restart
# a MTFTP transfer
# define Option for the PXE class
option space PXE;
option PXE.mtftp-ip code 1 = ip-address;
option PXE.mtftp-cport code 2 = unsigned integer 16;
option PXE.mtftp-sport code 3 = unsigned integer 16;
option PXE.mtftp-tmout code 4 = unsigned integer 8;
option PXE.mtftp-delay code 5 = unsigned integer 8;
option PXE.discovery-control code 6 = unsigned integer 8;
option PXE.discovery-mcast-addr code 7 = ip-address;
#Define options for pxelinux
option space pxelinux;
option pxelinux.magic code 208 = string;
option pxelinux.configfile code 209 = text;
option pxelinux.pathprefix code 210 = text;
option pxelinux.reboottime code 211 = unsigned integer 32;
site-option-space "pxelinux";
# These lines should be customized to your setup
#option pxelinux.configfile "configs/common";
#option pxelinux.pathprefix "/pxelinux/files/";
#filename "/pxelinux/pxelinux.bin";
option pxelinux.magic f1:00:74:7e;
option pxelinux.reboottime 30;
#if exists dhcp-parameter-request-list {
# Always send the PXELINUX options
# append dhcp-parameter-request-list 208, 209, 210, 211;
# append dhcp-parameter-request-list 208,211;
# }
#Class that determine the options for Etherboot 5.x requests
class "Etherboot" {
#if The vendor-class-identifier equal Etherboot-5.0
match if substring (option vendor-class-identifier, 0, 13) = "Etherboot-5.0";
# filename define the file retrieve by the client, there nbgrub
# our tftp is chrooted so is just the path to the file
filename "/etherboot/nbgrub";
#Used by etherboot to detect a valid pxe dhcp server
option vendor-encapsulated-options 3c:09:45:74:68:65:72:62:6f:6f:74:ff;
# Set the "vendor-class-identifier" field to "PXEClient" in dhcp answer
# if this field is not set the pxe client will ignore the answer !
option vendor-class-identifier "Etherboot-5.0";
vendor-option-space PXE;
option PXE.mtftp-ip 0.0.0.0;
# IP of you TFTP server
next-server 10.0.1.42;
}
# create the Class PXE
class "PXE" {
# if the "vendor-class-identifier" is set to "PXEClient" in the client dhcp request
match if substring(option vendor-class-identifier, 0, 9) = "PXEClient";
# filename define the file retrieve by the client, there pxelinux.0
# our tftp is chrooted so is just the path to the file
# If you prefer use grub, use pxegrub compiled for your ethernet card.
#filename "/PXEClient/pxegrub";
filename "/X86PC/linux/linux.0";
# Set the "vendor-class-identifier" field to "PXEClient" in dhcp answer
# if this field is not set the pxe client will ignore the answer !
option vendor-class-identifier "PXEClient";
vendor-option-space PXE;
option PXE.mtftp-ip 0.0.0.0;
# IP of you TFTP server
next-server 10.0.1.42;
}
# Tags uses by dhcpnode and setup_add_nodes_to_dhcp
# TAG: NODE_LIST_ADMIN_BEGIN
# TAG: NODE_LIST_ADMIN_END
# TAG: MY_ADMIN_BEGIN
subnet 10.0.1.0 netmask 255.255.255.0 {
option subnet-mask 255.255.255.0;
option routers 10.0.1.253;
default-lease-time 288000;
max-lease-time 864000;
option domain-name "guibland.com";
option domain-name-servers 10.0.1.253;
next-server 10.0.1.42;
pool {
range 10.0.1.110 10.0.1.120;
}
}
# TAG: MY_ADMIN_END
[root@localhost ~]# service xinetd restart
Stopping xinetd [FAILED]
Starting xinetd [ OK ]
[root@localhost ~]# service pxe restart
Stopping PXE server [FAILED]
Dhcp server is not running on this machine !
Be sure that a valid PXE Dhcp server is running on your network
Starting PXE server [ OK ]
[root@localhost ~]# service dhcpd restart
Shutting down dhcpd: [ OK ]
Starting dhcpd: [ OK ]
</pre><p>
</p><p>KA listen only listen on eth0, and need a FQDN. So if it is not the case, ka-d-server will try to open
a port on 0.0.0.0 IP address, wich cause an error. You can fix it easely setting an valid hostname in /etc/hosts file.
Don't forget to kill ka-d-server with crtl+C key, after testing it will open a port on a valid IP address.</p><p>
</p><pre class="programlisting">
[root@node42 ~]# ka-d-server
Compiled : May 4 2010 20:33:07
ARGS=+ka-d-server+
Server IP = 0.0.0.0
command = (cd /; tar --create --one-file-system --sparse /)
I want 1 clients
ka-d-server: server.c:1987: main: Assertion `socket_server >=0' failed.
Aborted
[root@node42 ~]# cat /etc/hosts
127.0.0.1 localhost.localdomain localhost
10.0.1.42 node42.guibland.com
[root@node42 ~]# ka-d-server
Compiled : May 4 2010 20:33:07
ARGS=+ka-d-server+
Server IP = 10.0.1.42
command = (cd /; tar --create --one-file-system --sparse /)
I want 1 clients
Socket 3 on port 30765 on node42.guibland.com ready.
Socket 4 on port 30764 on node42.guibland.com ready.
[root@node42 ~]# ^C
</pre><p>
</p><p>We need to describe the partition table of our golden node, to send it to client nodes.</p><p>
</p><pre class="programlisting">
[root@node42 ~]# fdisk -l
Disk /dev/sda: 80.0 GB, 80026361856 bytes
255 heads, 63 sectors/track, 9729 cylinders
Units = cylinders of 16065 * 512 = 8225280 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disk identifier: 0xd9b576f2
Device Boot Start End Blocks Id System
/dev/sda1 * 1 1019 8185086 82 Linux swap / Solaris
/dev/sda2 1020 4843 30716280 83 Linux
/dev/sda3 4844 9729 39246795 5 Extended
/dev/sda5 4844 9729 39246763+ 83 Linux
[root@node42 ~]# fdisk_to_desc
-devices: sda1 -size en Mo: 7993 -filesystem: Linux
Use of uninitialized value $e in concatenation (.) or string at /usr/bin/fdisk_to_desc line 50.
-devices: sda2 -size en Mo: 29996 -filesystem: Linux
Use of uninitialized value $e in concatenation (.) or string at /usr/bin/fdisk_to_desc line 55.
-devices: sda3 -size en Mo: 38326 -filesystem: Extended
-devices: sda5 -size en Mo: 38326 -filesystem: Linux
Desc file is /tmp/desc
[root@node42 ~]# cat /tmp/d
ddebug.log desc
[root@node42 ~]# cat /tmp/desc
swap 7993
linux 29996
extended 38326
logical linux 38326
[root@node42 ~]# cat /tmp/desc
swap 7993
linux 29996
extended fill
logical linux fill
</pre><p>
</p><p>Set default PXE boot to kamethod</p><p>
</p><pre class="programlisting">
[root@node42 ~]# cat /var/lib/tftpboot/X86PC/linux/pxelinux.cfg/default
PROMPT 1
DEFAULT kamethod
DISPLAY messages
TIMEOUT 50
label local
LOCALBOOT 0
label kamethod
KERNEL images/vmlinuz
APPEND initrd=images/all.rdz ramdisk_size=64000 vga=788 automatic=method:ka,interface:eth0,network:dhcp root=/dev/ram3 rw kamethod
[root@node42 ~]# cd /var/lib/tftpboot/X86PC/linux/
[root@node42 linux]# ls
help.txt linux.0 memdisk messages pxelinux.cfg/
[root@node42 linux]# mkdir images
lftp ftp.proxad.net:/pub/Distributions_Linux/MandrivaLinux/devel/cooker/i586/isolinux/alt0> ls
-rw-r--r-- 1 ftp ftp 15613654 Apr 23 17:26 all.rdz
-rw-r--r-- 1 ftp ftp 2279584 Apr 23 17:26 vmlinuz
lftp ftp.proxad.net:/pub/Distributions_Linux/MandrivaLinux/devel/cooker/i586/isolinux/alt0> mget *
17893238 bytes transferred in 77 seconds (227.9K/s)
Total 2 files transferred
lftp ftp.proxad.net:/pub/Distributions_Linux/MandrivaLinux/devel/cooker/i586/isolinux/alt0>
[root@node42 images]# pwd
/var/lib/tftpboot/X86PC/linux/images
[root@node42 images]# ls
all.rdz vmlinuz
</pre><p>
</p><p>Now it's time to launch the duplication process</p><p>
</p><pre class="programlisting">
[root@node42 ka]# ka-d.sh -n 2 -p sda /tmp/desc -r grub
takembr =
desc = sda /tmp/desc
`/etc/fstab' -> `/tmp/ka-d3156/pfstab.tmp'
+ Mount points :
/dev/sda2 / ext3 relatime 1 1
/dev/sda5 /home ext4 relatime 1 2
/dev/sda1 swap swap defaults 0 0
+ Hard drives :
sda
+ Reading partition table description for sda
Added partition 1 : type 82
Added partition 2 : type 83
Added partition 5 : type 83
+ Included mount points : / /home
+ Bootloader is: grub
+++ Sending Stage2 +++
Compiled : May 4 2010 20:33:07
ARGS=+ka-d-server+-s+getstage2+-n+2+-e+(cd /mnt/ka; tar --create --one-file-system --sparse . )+
Server IP = 10.0.1.42
command = (cd /mnt/ka; tar --create --one-file-system --sparse . )
I want 2 clients
Socket 4 on port 30765 on node42.guibland.com ready.
Socket 5 on port 30764 on node42.guibland.com ready.
got UDP packet from 10.0.1.111
Session name matches
Sending UDP reply to 10.0.1.111
Accepting connection from 10.0.1.111
Clients : want_data 0 / connected 0
client says hello !
Client sends options
Client accepts data
got UDP packet from 10.0.1.110
Session name matches
Sending UDP reply to 10.0.1.110
Accepting connection from 10.0.1.110
Clients : want_data 1 / connected 0
client says hello !
Client sends options
Client accepts data
Added client 10.0.1.110, daddy = 10.0.1.42
Added client 10.0.1.111, daddy = 10.0.1.110
Accepting connection from 10.0.1.110
checking connection auth10.0.1.42 reports 10.0.1.110 has opened data connection
Client 10.0.1.110 reports data position : 0
10.0.1.42 reports 10.0.1.110 has been accepted
Welcome son, you are number 1 (MAX 4)
Client got client
10.0.1.110 reports 10.0.1.111 has opened data connection
Client 10.0.1.111 reports data position : 0
sending auth for 10.0.1.111 to 10.0.1.110
Client got client
10.0.1.110 reports 10.0.1.111 has been accepted
Let's go!
Total data read = 43 Megs, BUF: 34M FREE = 0M startpos = 8MM
End of data flow
Dropping children
Dropping child 10.0.1.110
All children dropped
Client says dad disconnected
Client says he has finished
Client has finished transfer
Busy clients: 1 -- connected : 2
Client says dad disconnected
Client says he has finished
Client has finished transfer
Busy clients: 0 -- connected : 2
Peer closed connection on socket 7
close_connection(7)
Busy clients: 0 -- connected : 1
Peer closed connection on socket 6
close_connection(6)
Busy clients: 0 -- connected : 0
All clients left, I quit
Total data sent = 44 Megs, in 1543 packets
Transfer time = 0.858 seconds, throughput = 51.307 Mbytes/second
The pipeline was emptied in 3.250 seconds
- Sending partition/filesystem/mount points informations...
+++ Running ka-deploy +++
Compiled : May 4 2010 20:33:07
ARGS=+ka-d-server+-s+kainstall1+-n+2+-e+(cd /tmp/ka-d3156 && tar c *)+
Server IP = 10.0.1.42
command = (cd /tmp/ka-d3156 && tar c *)
I want 2 clients
Socket 4 on port 30765 on node42.guibland.com ready.
Socket 5 on port 30764 on node42.guibland.com ready.
got UDP packet from 10.0.1.110
Session name matches
Sending UDP reply to 10.0.1.110
Accepting connection from 10.0.1.110
Clients : want_data 0 / connected 0
client says hello !
Client sends options
Client accepts data
got UDP packet from 10.0.1.111
Session name matches
Sending UDP reply to 10.0.1.111
Accepting connection from 10.0.1.111
Clients : want_data 1 / connected 0
client says hello !
Client sends options
Client accepts data
Added client 10.0.1.110, daddy = 10.0.1.42
Added client 10.0.1.111, daddy = 10.0.1.110
Accepting connection from 10.0.1.110
checking connection auth10.0.1.42 reports 10.0.1.110 has opened data connection
Client 10.0.1.110 reports data position : 0
10.0.1.42 reports 10.0.1.110 has been accepted
Welcome son, you are number 1 (MAX 4)
Client got client
10.0.1.110 reports 10.0.1.111 has opened data connection
Client 10.0.1.111 reports data position : 0
sending auth for 10.0.1.111 to 10.0.1.110
Client got client
10.0.1.110 reports 10.0.1.111 has been accepted
Let's go!
Total data read = 0 Megs, BUF: 0M FREE = 34M startpos = 0M
End of data flow
Dropping children
Dropping child 10.0.1.110
All children dropped
Client says dad disconnected
Client says he has finished
Client has finished transfer
Busy clients: 1 -- connected : 2
Client says dad disconnected
Client says he has finished
Client has finished transfer
Busy clients: 0 -- connected : 2
Peer closed connection on socket 6
close_connection(6)
Busy clients: 0 -- connected : 1
Peer closed connection on socket 7
close_connection(7)
Busy clients: 0 -- connected : 0
All clients left, I quit
Total data sent = 0 Megs, in 1 packets
Transfer time = 0.006 seconds, throughput = 1.698 Mbytes/second
The pipeline was emptied in 0.038 seconds
WAITING node (partition/format)
- Sending Linux filesystem...
+++ Running ka-deploy +++
Compiled : May 4 2010 20:33:07
ARGS=+ka-d-server+-s+kainstall2+-n+2+-e+(cd /; tar --create --one-file-system --sparse / /home)+
Server IP = 10.0.1.42
command = (cd /; tar --create --one-file-system --sparse / /home)
I want 2 clients
Socket 4 on port 30765 on node42.guibland.com ready.
Socket 5 on port 30764 on node42.guibland.com ready.
got UDP packet from 10.0.1.110
Session name matches
Sending UDP reply to 10.0.1.110
Accepting connection from 10.0.1.110
Clients : want_data 0 / connected 0
client says hello !
Client sends options
Client accepts data
got UDP packet from 10.0.1.111
Session name matches
Sending UDP reply to 10.0.1.111
Accepting connection from 10.0.1.111
Clients : want_data 1 / connected 0
client says hello !
Client sends options
Client accepts data
Added client 10.0.1.110, daddy = 10.0.1.42
Added client 10.0.1.111, daddy = 10.0.1.110
Accepting connection from 10.0.1.110
checking connection auth10.0.1.42 reports 10.0.1.110 has opened data connection
Client got client
10.0.1.110 reports 10.0.1.111 has opened data connection
Client 10.0.1.110 reports data position : 0
10.0.1.42 reports 10.0.1.110 has been accepted
Welcome son, you are number 1 (MAX 4)
Client 10.0.1.111 reports data position : 0
sending auth for 10.0.1.111 to 10.0.1.110
Client got client
10.0.1.110 reports 10.0.1.111 has been accepted
Let's go!
Total data read = 789 Megs, BUF: 34M FREE = 0M startpos = 754M
End of data flow
Dropping children
Dropping child 10.0.1.110
All children dropped
Client says dad disconnected
Client says he has finished
Client has finished transfer
Busy clients: 1 -- connected : 2
Client says dad disconnected
Client says he has finished
Client has finished transfer
Busy clients: 0 -- connected : 2
Peer closed connection on socket 7
close_connection(7)
Busy clients: 0 -- connected : 1
Peer closed connection on socket 6
close_connection(6)
Busy clients: 0 -- connected : 0
All clients left, I quit
Total data sent = 792 Megs, in 25445 packets
Transfer time = 69.904 seconds, throughput = 11.343 Mbytes/second
The pipeline was emptied in 4.002 seconds
</pre><p>
</p></div><div class="sect2" title="5.2. KA client side"><div class="titlepage"><div><div><h3 class="title"><a id="id2507781"></a>5.2. KA client side</h3></div></div></div><p>
To get the log of the client node, launch <span class="bold"><strong>/mnt/ka/ka/status_node.pl IPADD</strong></span> on the golden node.
</p><pre class="programlisting">
[root@node42 ka]# status_node.pl 10.0.1.111
Get the status of the Ka duplication process
If you want to execute a command on node, just use the 'exec' prefix
10.0.1.111> ------| Ka |---- Install starting...
10.0.1.111> Current session is -s kainstall1
10.0.1.111> Receiving partitions information...OK
10.0.1.111> Cleaning hard drive...
10.0.1.111> ==> /tmp/kacmd <==
10.0.1.111> Starting log server..
10.0.1.111>
10.0.1.111> ==> /tmp/ka_log-10.0.1.111-20100507-10h32 <==
10.0.1.111> OK
10.0.1.111> Device contains neither a valid DOS partition table, nor Sun, SGI or OSF disklabel
10.0.1.111> Building a new DOS disklabel with disk identifier 0x59be1427.
10.0.1.111> Changes will remain in memory only, until you decide to write them.
10.0.1.111> After that, of course, the previous content won't be recoverable.
10.0.1.111>
10.0.1.111>
10.0.1.111> The number of cylinders for this disk is set to 1116.
10.0.1.111> There is nothing wrong with that, but this is larger than 1024,
10.0.1.111> and could in certain setups cause problems with:
10.0.1.111> 1) software that runs at boot time (e.g., old versions of LILO)
10.0.1.111> 2) booting and partitioning software from other OSs
10.0.1.111> (e.g., DOS FDISK, OS/2 FDISK)
10.0.1.111> Warning: invalid flag 0x0000 of partition table 4 will be corrected by w(rite)
10.0.1.111>
10.0.1.111> Command (m for help): The partition table has been altered!
10.0.1.111>
10.0.1.111> Calling ioctl() to re-read partition table.
10.0.1.111> Syncing disks.
10.0.1.111> Writing partition table for sda using fdisk...OK
10.0.1.111> Formatting /dev/sda2 as ext3...OK
10.0.1.111> Formatting /dev/sda5 as ext4...OK
10.0.1.111> Formatting /dev/sda1 as swap...OK
10.0.1.111> - Mounting /dev/sda2 as /mnt/disk/ ......OK
10.0.1.111> - Mounting /dev/sda5 as /mnt/disk/home ......OK
10.0.1.111> ++++++++++++++++++++++++++
10.0.1.111> none on /sys type sysfs (rw,relatime)
10.0.1.111> none on /proc/bus/usb type usbfs (rw,relatime)
10.0.1.111> /dev/ram3 on /tmp/stage2 type ext2 (rw,relatime,errors=continue)
10.0.1.111> /dev/sda2 on /mnt/disk type ext3 (rw,relatime,errors=continue,data=ordered)
10.0.1.111> /dev/sda5 on /mnt/disk/home type ext4 (rw,relatime,barrier=1,data=ordered)
10.0.1.111> ++++++++++++++++++++++++++
10.0.1.111> Linux copy is about to start
10.0.1.111> Server IP is 10.0.1.42
10.0.1.111> Buffers names :pipe
Total data received = 21 Megs (10.830 Mbytes/sec); BUF :0M
10.0.1.111> ==> /tmp/kacmd <==
10.0.1.111> Starting log server..
10.0.1.111>
10.0.1.111> ==> /tmp/ka_log-localhost-20100507-11h17 <==
Total data received = 788 Megs (10.796 Mbytes/sec); BUF :0M End of data flow
10.0.1.111> Flushing buffers
10.0.1.111> Total data received = 792 Megs, in 574479 packets
10.0.1.111> Elapsed time = 73.413 seconds, throughput = 10.801 Mbytes/second
10.0.1.111> Syncing disks...OK
10.0.1.111> Linux copy done.
10.0.1.111> Creating excluded directories
10.0.1.111> - bootloader is grub (user choice)
10.0.1.111> `/tmp/partfiles/pfstab' -> `/mnt/disk/etc/fstab'
10.0.1.111> - Removing duplicated dhcp cache
10.0.1.111> - Writing modprobe.conf
10.0.1.111> ********************
10.0.1.111> install scsi_hostadapter /sbin/modprobe aic7xxx; /bin/true
10.0.1.111> install scsi_hostadapter /sbin/modprobe pata_serverworks; /bin/true
10.0.1.111> alias eth0 tg3
10.0.1.111> alias eth1 tg3
10.0.1.111> ********************
10.0.1.111> - Remove persistent udev rules
10.0.1.111> removed `/mnt/disk/etc/udev/rules.d/70-persistent-net.rules'
10.0.1.111> - Fix /dev in /mnt/disk
10.0.1.111> `/ka2/udev_creation.sh' -> `/mnt/disk/sbin/udev_creation.sh'
10.0.1.111> Starting udev: [ OK ]
10.0.1.111> umount: /mnt/disk/dev: device is busy.
10.0.1.111> (In some cases useful info about processes that use
10.0.1.111> the device is found by lsof(8) or fuser(1))
10.0.1.111> - Running mkinitrd
10.0.1.111> - Looking for default grub menu
10.0.1.111> - erase old initrd.img link
10.0.1.111> removed `/mnt/disk/boot/initrd.img'
10.0.1.111> initrd will be : /boot/initrd-2.6.33.3-desktop-1mnb.img
10.0.1.111> running: chroot /mnt/disk /sbin/mkinitrd -v -f /boot/initrd-2.6.33.3-desktop-1mnb.img 2.6.33.3-desktop-1mnb
10.0.1.111> Creating initramfs
10.0.1.111> Looking for driver for /dev/sda2 in /sys/block/sda/sda2
10.0.1.111> Looking for deps of module scsi:t-0x00: crc-t10dif scsi_mod sd_mod
10.0.1.111> Looking for deps of module pci:v00009005d000000CFsv00001028sd00000121bc01sc00i00: scsi_mod scsi_transport_spi aic7xxx
10.0.1.111> Looking for deps of module pci:v00008086d00000309sv00000000sd00000000bc06sc04i00: pci_hotplug shpchp
10.0.1.111> Looking for driver for /dev/sda1 in /sys/block/sda/sda1
10.0.1.111> Using modules: usbhid ehci-hcd ohci-hcd uhci-hcd ext3 crc-t10dif scsi_mod sd_mod scsi_transport_spi aic7xxx pci_hotplug shpchp pata_serverworks
10.0.1.111> Building initrd in /tmp/initrd.uuIIkZ
10.0.1.111> /sbin/nash -> /tmp/initrd.uuIIkZ/bin/nash
10.0.1.111> /usr/lib/libnash.so.6.0.93 -> /tmp/initrd.uuIIkZ/usr/lib/libnash.so.6.0.93
10.0.1.111> /lib/libdevmapper.so.1.02 -> /tmp/initrd.uuIIkZ/lib/libdevmapper.so.1.02
10.0.1.111> /lib/libreadline.so.6 -> /tmp/initrd.uuIIkZ/lib/libreadline.so.6
10.0.1.111> /lib/libreadline.so.6.1 -> /tmp/initrd.uuIIkZ/lib/libreadline.so.6.1
10.0.1.111> /lib/libncurses.so.5 -> /tmp/initrd.uuIIkZ/lib/libncurses.so.5
10.0.1.111> /lib/libncurses.so.5.7 -> /tmp/initrd.uuIIkZ/lib/libncurses.so.5.7
10.0.1.111> /lib/libc.so.6 -> /tmp/initrd.uuIIkZ/lib/libc.so.6
10.0.1.111> /lib/libc-2.11.1.so -> /tmp/initrd.uuIIkZ/lib/libc-2.11.1.so
10.0.1.111> /lib/ld-linux.so.2 -> /tmp/initrd.uuIIkZ/lib/ld-linux.so.2
10.0.1.111> /lib/ld-2.11.1.so -> /tmp/initrd.uuIIkZ/lib/ld-2.11.1.so
10.0.1.111> /lib/libdl.so.2 -> /tmp/initrd.uuIIkZ/lib/libdl.so.2
10.0.1.111> /lib/libdl-2.11.1.so -> /tmp/initrd.uuIIkZ/lib/libdl-2.11.1.so
10.0.1.111> /lib/libudev.so.0 -> /tmp/initrd.uuIIkZ/lib/libudev.so.0
10.0.1.111> /lib/libudev.so.0.7.0 -> /tmp/initrd.uuIIkZ/lib/libudev.so.0.7.0
10.0.1.111> /usr/lib/libparted.so.0 -> /tmp/initrd.uuIIkZ/usr/lib/libparted.so.0
10.0.1.111> /usr/lib/libparted.so.0.0.1 -> /tmp/initrd.uuIIkZ/usr/lib/libparted.so.0.0.1
10.0.1.111> /lib/libuuid.so.1 -> /tmp/initrd.uuIIkZ/lib/libuuid.so.1
10.0.1.111> /lib/libuuid.so.1.3.0 -> /tmp/initrd.uuIIkZ/lib/libuuid.so.1.3.0
10.0.1.111> /lib/libblkid.so.1 -> /tmp/initrd.uuIIkZ/lib/libblkid.so.1
10.0.1.111> /lib/libblkid.so.1.1.0 -> /tmp/initrd.uuIIkZ/lib/libblkid.so.1.1.0
10.0.1.111> /lib/libpopt.so.0 -> /tmp/initrd.uuIIkZ/lib/libpopt.so.0
10.0.1.111> /lib/libpopt.so.0.0.0 -> /tmp/initrd.uuIIkZ/lib/libpopt.so.0.0.0
10.0.1.111> /lib/libresolv.so.2 -> /tmp/initrd.uuIIkZ/lib/libresolv.so.2
10.0.1.111> /lib/libresolv-2.11.1.so -> /tmp/initrd.uuIIkZ/lib/libresolv-2.11.1.so
10.0.1.111> /usr/lib/libelf.so.1 -> /tmp/initrd.uuIIkZ/usr/lib/libelf.so.1
10.0.1.111> /usr/lib/libelf-0.146.so -> /tmp/initrd.uuIIkZ/usr/lib/libelf-0.146.so
10.0.1.111> /lib/libm.so.6 -> /tmp/initrd.uuIIkZ/lib/libm.so.6
10.0.1.111> /lib/libm-2.11.1.so -> /tmp/initrd.uuIIkZ/lib/libm-2.11.1.so
10.0.1.111> /lib/libgcc_s.so.1 -> /tmp/initrd.uuIIkZ/lib/libgcc_s.so.1
10.0.1.111> /lib/libgcc_s-4.4.3.so.1 -> /tmp/initrd.uuIIkZ/lib/libgcc_s-4.4.3.so.1
10.0.1.111> /usr/lib/libbdevid.so.6.0.93 -> /tmp/initrd.uuIIkZ/usr/lib/libbdevid.so.6.0.93
10.0.1.111> /sbin/modprobe -> /tmp/initrd.uuIIkZ/bin/modprobe
10.0.1.111> /lib/libmodprobe.so.0 -> /tmp/initrd.uuIIkZ/lib/libmodprobe.so.0
10.0.1.111> /lib/libmodprobe.so.0.0.0 -> /tmp/initrd.uuIIkZ/lib/libmodprobe.so.0.0.0
10.0.1.111> /lib/libz.so.1 -> /tmp/initrd.uuIIkZ/lib/libz.so.1
10.0.1.111> /lib/libz.so.1.2.3 -> /tmp/initrd.uuIIkZ/lib/libz.so.1.2.3
10.0.1.111> /sbin/rmmod -> /tmp/initrd.uuIIkZ/bin/rmmod
10.0.1.111> /bin/ln -> /tmp/initrd.uuIIkZ/bin/ln
10.0.1.111> resolving for MODULES
10.0.1.111> and that has items of usbhid ehci-hcd ohci-hcd uhci-hcd ext3 crc-t10dif scsi_mod sd_mod scsi_transport_spi aic7xxx pci_hotplug shpchp pata_serverworks
10.0.1.111> Looking for deps of module usbhid: usbcore hid
10.0.1.111> Looking for deps of module ehci-hcd: usbcore
10.0.1.111> Looking for deps of module ohci-hcd: usbcore
10.0.1.111> Looking for deps of module uhci-hcd: usbcore
10.0.1.111> Looking for deps of module ext3: jbd
10.0.1.111> Looking for deps of module crc-t10dif
10.0.1.111> Looking for deps of module scsi_mod
10.0.1.111> Looking for deps of module sd_mod: crc-t10dif scsi_mod
10.0.1.111> Looking for deps of module scsi_transport_spi: scsi_mod
10.0.1.111> Looking for deps of module aic7xxx: scsi_mod scsi_transport_spi
10.0.1.111> Looking for deps of module pci_hotplug
10.0.1.111> Looking for deps of module shpchp: pci_hotplug
10.0.1.111> Looking for deps of module pata_serverworks: scsi_mod libata
10.0.1.111> Looking for deps of module aic7xxx: scsi_mod scsi_transport_spi
10.0.1.111> Looking for deps of module crc-t10dif
10.0.1.111> Looking for deps of module ehci-hcd: usbcore
10.0.1.111> Looking for deps of module ext3: jbd
10.0.1.111> Looking for deps of module hid
10.0.1.111> Looking for deps of module jbd
10.0.1.111> Looking for deps of module libata: scsi_mod
10.0.1.111> Looking for deps of module ohci-hcd: usbcore
10.0.1.111> Looking for deps of module pata_serverworks: scsi_mod libata
10.0.1.111> Looking for deps of module pci_hotplug
10.0.1.111> Looking for deps of module scsi_mod
10.0.1.111> Looking for deps of module scsi_transport_spi: scsi_mod
10.0.1.111> Looking for deps of module sd_mod: crc-t10dif scsi_mod
10.0.1.111> Looking for deps of module shpchp: pci_hotplug
10.0.1.111> Looking for deps of module uhci-hcd: usbcore
10.0.1.111> Looking for deps of module usbcore
10.0.1.111> Looking for deps of module usbhid: usbcore hid
10.0.1.111> resolving for availmodules
10.0.1.111> and that has items of
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/scsi/aic7xxx/aic7xxx.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/aic7xxx.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/lib/crc-t10dif.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/crc-t10dif.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/usb/host/ehci-hcd.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/ehci-hcd.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/fs/ext3/ext3.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/ext3.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/hid/hid.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/hid.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/fs/jbd/jbd.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/jbd.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/ata/libata.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/libata.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/usb/host/ohci-hcd.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/ohci-hcd.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/ata/pata_serverworks.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/pata_serverworks.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/pci/hotplug/pci_hotplug.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/pci_hotplug.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/scsi/scsi_mod.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/scsi_mod.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/scsi/scsi_transport_spi.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/scsi_transport_spi.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/scsi/sd_mod.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/sd_mod.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/pci/hotplug/shpchp.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/shpchp.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/usb/host/uhci-hcd.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/uhci-hcd.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/usb/core/usbcore.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/usbcore.ko.gz
10.0.1.111> /lib/modules/2.6.33.3-desktop-1mnb/kernel/drivers/hid/usbhid/usbhid.ko.gz -> /tmp/initrd.uuIIkZ/lib/modules/2.6.33.3-desktop-1mnb/usbhid.ko.gz
10.0.1.111> /etc/sysconfig/keyboard -> /tmp/initrd.uuIIkZ/etc/sysconfig/keyboard
10.0.1.111> /bin/loadkeys -> /tmp/initrd.uuIIkZ/bin/loadkeys
10.0.1.111> /etc/sysconfig/console/default.kmap -> /tmp/initrd.uuIIkZ/etc/sysconfig/console/default.kmap
10.0.1.111> /etc/sysconfig/i18n -> /tmp/initrd.uuIIkZ/etc/sysconfig/i18n
10.0.1.111> /bin/setfont -> /tmp/initrd.uuIIkZ/bin/setfont
10.0.1.111> /usr/lib/kbd/consolefonts/lat0-16.psfu.gz -> /tmp/initrd.uuIIkZ/usr/lib/kbd/consolefonts/lat0-16.psfu.gz
10.0.1.111> /lib/udev/console_init -> /tmp/initrd.uuIIkZ/lib/udev/console_init
10.0.1.111> probing for drm modules for pci device /sys/bus/pci/devices/0000:00:0e.0
10.0.1.111> Adding graphics device /sys/bus/pci/devices/0000:00:0e.0
10.0.1.111> Looking for deps of module pci:v00001002d00004752sv00001028sd00000121bc03sc00i00
10.0.1.111> resolving for GRAPHICSMODS
10.0.1.111> and that has items of
10.0.1.111> Adding module usbhid
10.0.1.111> Adding module ehci-hcd
10.0.1.111> Adding module ohci-hcd
10.0.1.111> Adding module uhci-hcd
10.0.1.111> Adding module ext3
10.0.1.111> Adding module crc-t10dif
10.0.1.111> Adding module scsi_mod
10.0.1.111> Adding module sd_mod
10.0.1.111> Adding module scsi_transport_spi
10.0.1.111> Adding module aic7xxx
10.0.1.111> Adding module pci_hotplug
10.0.1.111> Adding module shpchp
10.0.1.111> Adding module pata_serverworks
10.0.1.111> /usr/sbin/resume -> /tmp/initrd.uuIIkZ/bin/resume
10.0.1.111> /usr/lib/suspend/resume -> /tmp/initrd.uuIIkZ/usr/lib/suspend/resume
10.0.1.111> /usr/lib/liblzo2.so.2 -> /tmp/initrd.uuIIkZ/usr/lib/liblzo2.so.2
10.0.1.111> /usr/lib/liblzo2.so.2.0.0 -> /tmp/initrd.uuIIkZ/usr/lib/liblzo2.so.2.0.0
10.0.1.111> /lib/libpthread.so.0 -> /tmp/initrd.uuIIkZ/lib/libpthread.so.0
10.0.1.111> /lib/libpthread-2.11.1.so -> /tmp/initrd.uuIIkZ/lib/libpthread-2.11.1.so
10.0.1.111> /lib/libply.so.2 -> /tmp/initrd.uuIIkZ/lib/libply.so.2
10.0.1.111> /lib/libply.so.2.0.0 -> /tmp/initrd.uuIIkZ/lib/libply.so.2.0.0
10.0.1.111> /lib/librt.so.1 -> /tmp/initrd.uuIIkZ/lib/librt.so.1
10.0.1.111> /lib/librt-2.11.1.so -> /tmp/initrd.uuIIkZ/lib/librt-2.11.1.so
10.0.1.111> /lib/libply-splash-core.so.2 -> /tmp/initrd.uuIIkZ/lib/libply-splash-core.so.2
10.0.1.111> /lib/libply-splash-core.so.2.0.0 -> /tmp/initrd.uuIIkZ/lib/libply-splash-core.so.2.0.0
10.0.1.111> /etc/suspend.conf -> /tmp/initrd.uuIIkZ/etc/suspend.conf
10.0.1.111> This initrd uses dynamic shared objects.
10.0.1.111> Adding dynamic linker configuration files.
10.0.1.111> /etc/ld.so.conf -> /tmp/initrd.uuIIkZ/etc/ld.so.conf
10.0.1.111> Running ldconfig
10.0.1.111> Installation finished. No error reported.
10.0.1.111> This is the contents of the device map /boot/grub/device.map.
10.0.1.111> Check if this is correct or not. If any of the lines is incorrect,
10.0.1.111> fix it and re-run the script `grub-install'.
10.0.1.111>
10.0.1.111> (hd0) /dev/sda
10.0.1.111> Umounting /dev/sda5...OK
10.0.1.111> Umounting /dev/sda2...OK
10.0.1.111> ftp: connect: Connection refused
10.0.1.111> Local directory now /tmp
10.0.1.111> Not connected.
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