Changes

247 bytes added , 17:19, 11 October 2010

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~~=PXE Booting for SME Server=~~

==Objective==

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===Objective===

Getting a computer with good hardware to boot without using the local drives (NO cd/dvd, hdd, usb, floppy etc. required) to the SME network (PXE) and perform imaging or other tasks.

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If this do not help you to create a new PXE boot server, please open a new thread on forum and ask for help, and after get help, update here or send details what need to be changed to my gmail account: jader DOT marasca and I'll update for you.

==Ingredients==

* SME Server DHCP Server

* SME Server TFTP Server Contrib

* SME Server Thinclient Contrib

* PXELINUX

* Thinclient Setup

* Floppy image creator

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==~~=Ingredients=~~==

==Recipe==

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* Make the SME Server your DHCP Server

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* SME DHCP Server

* Download and Install the [http://wiki.contribs.org/Tftp_server SME TFTP Contrib]

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* SME TFTP ~~Server~~ Contrib

* Download and Install the [http://wiki.contribs.org/Thinclient SME Thinclient Contrib]

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* SME Thinclient Contrib

* Download and Install [http://syslinux.zytor.com/ SYSLINUX] files and configure SME PXE Server Files

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* ~~PXELINUX~~

* PXE Example Files, Puppy Linux How To

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* ~~Thinclient Setup~~

* Using PXE to Install SME and Password Protect Menu Option Example

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* ~~Floppy image creator~~

==Step by step guide==

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===~~Recipe===~~

===SME Server as DHCP server===

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* Make the SME Server ~~your~~ DHCP ~~Server~~

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* Download and Install the SME TFTP Contrib

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* Download and Install the SME Thinclient Contrib

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* Download and Install SYSLINUX Files and Configure SME PXE Server Files

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* PXE Example Files, Puppy Linux How To

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* Using PXE to Install SME and Password Protect Menu Option Example

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~~===Step by step guide===~~

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~~===SME AS DHCP SERVER~~===

Using Putty SSH into your SME Server and at the Login Prompt Enter “admin “ then your Password. You will now be in the SME Server Setup Menu. Choose Server Config and make sure your SME Server has "DHCP Enabled" and you have set a IP Range.

To have SME DHCP Lease Time Periods [http://wiki.contribs.org/Dhcpd_lease_time see here]

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{{Warning box| You should just have '''one''' DHCP server on your network (or know why/how to have more than one).

If you already have other device as DHCP server, you should disable it or ask guidance for someone else about how to avoid conflict!}}

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===~~TFTP~~ SME ~~CONTRIB~~===

===TFtp SME Server contrib===

Using Putty SSH into your SME Server and at the Login Prompt enter “root“ then your password. You will now be in the SME Server Shell.

Install the SME TFTP Server Contrib as per: [http://wiki.contribs.org/Tftp_server http://wiki.contribs.org/Tftp_server]

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===SME ~~THINCLIENT CONTRIB~~===

===SME Server ThinClient contrib===

Using Putty SSH into your SME Server and at the Login Prompt enter “root“ then your Password. You will now be in the SME Server Shell.

Install the SME Server Thinclient Contrib as per: [http://wiki.contribs.org/Thinclient http://wiki.contribs.org/Thinclient]

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Once the ThinClient contrib have been installed use your browser (Firefox or IE) and goto https://<yoursmeserverip>/server-manager~~ ~~

Once the ThinClient contrib have been installed use your browser (Firefox or IE) and goto https://<yoursmeserverip>/server-manager. Choose the ”Thin Clients“ on left side column "Menu Option"

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Choose the ”Thin Clients“ on left side column "Menu Option"~~ ~~

In the Thin Client Configuration make sure that

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In the Thin Client Configuration make sure that ~~ ~~

* “Your PXE Boot Server"is '''ENABLED'''

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“Your PXE Boot Server"is '''ENABLED'''~~ ~~

* “Your TFTP Server" is '''Self'''

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“Your TFTP Server" is '''Self'''~~ ~~

* “The default Distribution" is '''default'''

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“The default Distribution" is '''default'''~~ ~~

Click on the “APPLY” button

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Logout of the SME Server “server-manager“ Web Console

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===~~SYSLINUX INSTALLATION~~ and SME PXE ~~CONFIGURATION~~===

===Syslinux installation and SME Server PXE configuration===

There no real installing PXELINUX, only copying the right files from the SYSLINUX Archive to the right place in the SME Server:

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First, make note of where your TFTP servers root directory is. For SME Server, it’s most often ”/~~tftpboot “~~. I suggest building a directory structure like the following:

First, make note of where your TFTP servers root directory is. For SME Server, it’s most often ”/tftpboot“. I suggest building a directory structure like the following:

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tftpboot = ~~SME Server TFTP~~ Root Directory

/tftpboot = Root Directory for TFTPd

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tftpboot/com32 = Directory

/tftpboot/com32 = Directory

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tftpboot/graphics = Directory (This is where we place our Screen jpg, gif, png images)

/tftpboot/graphics = Directory (This is where we place our Screen jpg, gif, png images)

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tftpboot/images = Directory (This Directory will be used for our PXE Boot Images)

/tftpboot/images = Directory (This Directory will be used for our PXE Boot Images)

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tftpboot/pxelinux.cfg (this is an actual folder/directory, THIS IS NOT A FILE)

/tftpboot/pxelinux.cfg (this is an actual folder/directory, THIS IS NOT A FILE)

Download the latest SYSLINUX release ( http://syslinux.zytor.com/ ) and unpack it. We only need a few files from the package.

From the SYSLINUX archive:

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* Place the pxelinux.0 '''(it´s a file!)''' in your SME TFTP Folder from the SYSLINUX Archive eg: “ tftpboot/pxelinux.0 “ '''(remember pxelinux.0 IS A FILE)'''

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* Place the memdisk/memdisk file from the SYSLINUX archive in the SME TFTP images Folder eg: “tftpboot/images/“

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* Place the com32/*.c32 files from the SYSLINUX archive in the SME TFTP com32 Folder eg: “tftpboot/com32/“

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Now you need to create and configure the SME PXE menu.

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Now you need to create and configure the SME PXE menu. Create a new plaintext ~~File~~ called “ default ”at tftpboot/pxelinux.cfg/default ( default is a ~~File~~ that we have created and placed inside the tftpboot/pxelinux.cfg/ folder)

Create a new plaintext file called “ default ”at tftpboot/pxelinux.cfg/default

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~~<pre>~~

( remember: '''default''' is a file that we have created and placed inside the tftpboot/pxelinux.cfg/ folder)

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|---tftpboot

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| |-----com32

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| |

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| |-----graphics

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| |

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| |-----pxelinux.cfg (Place the default file inside here)

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| |

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| |-----images

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~~</pre>~~

Again, “pxelinux.cfg“ '''is not a file''', but a '''DIRECTORY''', and the file you want to create is called '''default ''' with no extension.

Here’s an example of something simple to use in the default file:

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====PXE ~~EXAMPLE FILES~~====

====PXE example files====

This is the “default“ example file

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~~NB:~~ Note ~~the~~ “menu background graphics/main.jpg” file is a background image file. This could be one with your company logo or [this one http://www.howtoforge.com/images/pxe_install_server_ubuntu_9.10/howtoforge_pxe.png].

{{Note box|The “menu background graphics/main.jpg” file is a background image file. This could be one with your company logo or [this one http://www.howtoforge.com/images/pxe_install_server_ubuntu_9.10/howtoforge_pxe.png].

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The file must to be 640 x 480 pixels and can be a jpg, bmp, or png file. Just make sure you use the correct extension in the menu eg: main.bmp or main.png etc.~~ ~~

The file must to be 640 x 480 pixels and can be a jpg, bmp, or png file. Just make sure you use the correct extension in the menu eg: main.bmp or main.png etc.}}

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~~<pre>~~

menu title --== SME Linux, PXE Main Menu ==--

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menu title --== SME Linux, PXE Main Menu ==--

menu background graphics/main.jpg

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menu background graphics/main.jpg

menu tabmsgrow 22

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menu tabmsgrow 22

menu cmdlinerow 22

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menu cmdlinerow 22

menu endrow 24

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menu endrow 24

menu color title 1;34;49 #eea0a0ff #cc333355 std

menu color sel 7;37;40 #ff000000 #bb9999aa all

menu color border 30;44 #ffffffff #00000000 std

menu color pwdheader 31;47 #eeff1010 #20ffffff std

menu color hotkey 35;40 #90ffff00 #00000000 std

menu color hotsel 35;40 #90000000 #bb9999aa all

menu color timeout_msg 35;40 #90ffffff #00000000 none

menu color timeout 31;47 #eeff1010 #00000000 none

prompt 0

noescape 1

allowoptions 0

timeout 300

default com32/vesamenu.c32

label toolsmenu

menu label ^System Tools Menu

kernel com32/vesamenu.c32

append pxelinux.cfg/tools

label memorymenu

menu label ^Memory Test Menu

kernel com32/vesamenu.c32

append pxelinux.cfg/memorytest

label randomutil

menu label ^Random Utilities Menu

kernel com32/vesamenu.c32

append images/random_utils

label linuxmenu

menu label ^Linux Boot Disks Menu

kernel com32/vesamenu.c32

append pxelinux.cfg/linux_boot_disks

label ntfstoolmenu

menu label ^NTFS Tools Menu

kernel com32/vesamenu.c32

append pxelinux.cfg/ntfstools

label bootmanag

menu label B^OOT Managers Menu

kernel com32/vesamenu.c32

append images/boot_managers/boot_managers

label sysinfo

menu label S^ystem Information Menu

kernel com32/vesamenu.c32

append images/system_information/system_information

label recovery

menu label R^ECOVERY Menu

kernel com32/vesamenu.c32

append images/recovery/recovery

label hddmenu

menu label ^Hard Disk Drive Menu

kernel com32/vesamenu.c32

append pxelinux.cfg/hdd

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~~menu color title 1;34;49 #eea0a0ff #cc333355 std~~

Now you need to create and configure the SME PXE sub menus.

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~~menu color sel 7;37;40 #ff000000 #bb9999aa all~~

Create new plaintext Files called “tools” , “memorytest” , “ntfstools” , “recovery” at tftpboot/pxelinux.cfg/

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~~menu color border 30;44 #ffffffff #00000000 std~~

The plaintext files are all placed inside the tftpboot/pxelinux.cfg/ folder

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~~menu color pwdheader 31;47 #eeff1010 #20ffffff std~~

ie: Your tree should look like this:

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~~menu color hotkey 35;40 #90ffff00 #00000000 std~~

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~~menu color hotsel 35;40 #90000000 #bb9999aa~~ all

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~~menu color timeout_msg 35;40 #90ffffff #00000000 none~~

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~~menu color timeout 31;47 #eeff1010 #00000000 none~~

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~~prompt 0~~

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~~noescape 1~~

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~~allowoptions 0~~

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~~timeout 300~~

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~~default com32/vesamenu.c32~~

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~~label toolsmenu~~

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~~menu label ^System Tools Menu~~

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~~kernel com32/vesamenu.c32~~

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~~append pxelinux.cfg/tools~~

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~~label memorymenu~~

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~~menu label ^Memory Test Menu~~

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~~kernel com32/vesamenu.c32~~

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~~append pxelinux.cfg/memorytest~~

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~~label randomutil~~

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~~menu label ^Random Utilities Menu~~

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~~kernel com32/vesamenu.c32~~

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~~append images/random_utils~~

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~~label linuxmenu~~

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~~menu label ^Linux Boot Disks Menu~~

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~~kernel com32/vesamenu.c32~~

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~~append pxelinux.cfg/linux_boot_disks~~

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~~label ntfstoolmenu~~

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~~menu label ^NTFS Tools Menu~~

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~~kernel com32/vesamenu.c32~~

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~~append pxelinux.cfg/ntfstools~~

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~~label bootmanag~~

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~~menu label B^OOT Managers Menu~~

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~~kernel com32/vesamenu.c32~~

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~~append images/boot_managers/boot_managers~~

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~~label sysinfo~~

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~~menu label S^ystem Information Menu~~

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~~kernel com32/vesamenu.c32~~

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~~append images/system_information/system_information~~

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~~label recovery~~

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~~menu label R^ECOVERY Menu~~

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~~kernel com32/vesamenu.c32~~

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~~append images/recovery/recovery~~

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~~label hddmenu~~

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~~menu label ^Hard Disk Drive Menu~~

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~~kernel com32/vesamenu.c32~~

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~~append pxelinux.cfg/hdd~~

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~~</pre>~~

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~~ ~~

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~~Now you need to create and configure the SME PXE sub menus. ~~

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~~Create new plaintext Files called “tools” , “memorytest” , “ntfstools” , “recovery” at tftpboot/pxelinux.cfg/ ~~

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~~The plaintext files are all placed inside the tftpboot/pxelinux.cfg/ folder ~~

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~~ie: Your tree should look like this:~~

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~~<pre>~~

|---tftpboot

| |-----com32

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| |-----pxelinux.cfg (Place the def ault, tools, memorytest, ntfstools)

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| (and recovery Files you created inside here)

| | (and recovery Files you created inside here)

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| |-----images

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| |----recovery

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~~</pre>~~

Here’s some examples of something simple to use in the Created Files:

This is the “tools“ Menu Option Example File

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~~<pre>~~

|---tftpboot

| |-----com32

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| |

| |----recovery

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~~</pre>~~

Here’s some examples of something for the Tools Menu

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~~<pre>~~

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~~menu title --== SME Linux, PXE Tools Menu ==--~~

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~~menu background graphics/main.jpg~~

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~~menu tabmsgrow 22~~

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~~menu cmdlinerow 22~~

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~~menu endrow 24~~

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menu color title 1;34;49 #eea0a0ff #cc333355 std

menu title --== SME Linux, PXE Tools Menu ==--

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menu color sel 7;37;40 #ff000000 #bb9999aa all

menu background graphics/main.jpg

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menu color border 30;44 #ffffffff #00000000 std

menu tabmsgrow 22

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menu color pwdheader 31;47 #eeff1010 #20ffffff std

menu cmdlinerow 22

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menu color hotkey 35;40 #90ffff00 #00000000 std

menu endrow 24

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menu color hotsel 35;40 #90000000 #bb9999aa all

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menu color timeout_msg 35;40 #90ffffff #00000000 none

menu color title 1;34;49 #eea0a0ff #cc333355 std

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menu color timeout 31;47 #eeff1010 #00000000 none

menu color sel 7;37;40 #ff000000 #bb9999aa all

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menu color border 30;44 #ffffffff #00000000 std

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prompt 0

menu color pwdheader 31;47 #eeff1010 #20ffffff std

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noescape 1

menu color hotkey 35;40 #90ffff00 #00000000 std

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allowoptions 0

menu color hotsel 35;40 #90000000 #bb9999aa all

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timeout 0

menu color timeout_msg 35;40 #90ffffff #00000000 none

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menu color timeout 31;47 #eeff1010 #00000000 none

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default com32/vesamenu.c32

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prompt 0

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label main

noescape 1

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menu label Back to ^Main Menu

allowoptions 0

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kernel com32/vesamenu.c32

timeout 0

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append pxelinux.cfg/default

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default com32/vesamenu.c32

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label dban

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menu label ^Darik's Boot-n-Nuke disk wiper

label main

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kernel images/memdisk

menu label Back to ^Main Menu

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append initrd=images/tools/wiping/dban.ima

kernel com32/vesamenu.c32

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append pxelinux.cfg/default

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label memtest86

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menu label ^Memtest86 - Machine RAM tester

label dban

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kernel images/memory_test/memtest86

menu label ^Darik's Boot-n-Nuke disk wiper

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kernel images/memdisk

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label memtests

append initrd=images/tools/wiping/dban.ima

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menu label ^Memory Test Menu

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kernel com32/vesamenu.c32

label memtest86

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append images/tools/memtest

menu label ^Memtest86 - Machine RAM tester

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kernel images/memory_test/memtest86

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label hdt

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menu label ^Hardware Detection Tool

label memtests

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kernel images/memdisk

menu label ^Memory Test Menu

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append initrd=images/tools/hdt.img

kernel com32/vesamenu.c32

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append images/tools/memtest

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label diags

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menu label D^IAGS Tool

label hdt

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kernel images/memdisk

menu label ^Hardware Detection Tool

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append initrd=images/tools/diags.img

kernel images/memdisk

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~~</pre>~~

append initrd=images/tools/hdt.img

label diags

menu label D^IAGS Tool

kernel images/memdisk

append initrd=images/tools/diags.img

The following applications must be copied Inside the “tools“ folder:

dban.ima, memtest86, memtest, hdt.img, diags.img

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~~ ~~

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~~<pre>~~

This is the “memorytest“ Menu Option Example File

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|---tftpboot

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| |-----com32

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| |

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| |-----graphics

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| |

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| |-----pxelinux.cfg (directory)

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| |

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| |-----images

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| |

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| |----tools

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| |

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| |----memorytest

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| |

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| |----ntfstools

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| | |--------offlinent

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| |

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| |----recovery

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~~</pre>~~

Here’s some examples of something simple for the Memory Test Menu

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~~<pre>~~

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~~menu title --== SME Linux, MEMORY Tests MENU ==--~~

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~~menu background graphics/main.jpg~~

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~~menu tabmsgrow 22~~

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~~menu cmdlinerow 22~~

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~~menu endrow 24~~

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menu color title 1;34;49 #eeffa0a0 #cc553333 std

menu title --== SME Linux, MEMORY Tests MENU ==--

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menu color sel 7;37;40 #ff000000 #bb9999aa all

menu background graphics/main.jpg

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menu color border 30;44 #ffffffff #00000000 std

menu tabmsgrow 22

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menu color pwdheader 31;47 #eeff1010 #20ffffff std

menu cmdlinerow 22

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menu color hotkey 35;40 #90ffff00 #00000000 std

menu endrow 24

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menu color hotsel 35;40 #90000000 #bb9999aa all

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menu color timeout_msg 35;40 #90ffffff #00000000 none

menu color title 1;34;49 #eeffa0a0 #cc553333 std

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menu color timeout 31;47 #eeff1010 #00000000 none

menu color sel 7;37;40 #ff000000 #bb9999aa all

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menu color border 30;44 #ffffffff #00000000 std

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prompt 0

menu color pwdheader 31;47 #eeff1010 #20ffffff std

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noescape 1

menu color hotkey 35;40 #90ffff00 #00000000 std

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allowoptions 1

menu color hotsel 35;40 #90000000 #bb9999aa all

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timeout 0

menu color timeout_msg 35;40 #90ffffff #00000000 none

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menu color timeout 31;47 #eeff1010 #00000000 none

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default com32/vesamenu.c32

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prompt 0

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label main

noescape 1

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menu label Back to ^Main Menu

allowoptions 1

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kernel com32/vesamenu.c32

timeout 0

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append pxelinux.cfg/default

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default com32/vesamenu.c32

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label docmem1

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menu label ^DocMem RAM Diagnostic v. 1.45a

label main

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kernel images/memdisk

menu label Back to ^Main Menu

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append initrd=images/memorytest/docmem1.igz

kernel com32/vesamenu.c32

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append pxelinux.cfg/default

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label docmem2

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menu label DocMem ^RAM Diagnostic v. 2.1b

label docmem1

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kernel images/memdisk

menu label ^DocMem RAM Diagnostic v. 1.45a

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append initrd=images/memorytest/docmem2.igz

kernel images/memdisk

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append initrd=images/memorytest/docmem1.igz

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label memtest86+

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menu label Memtest^86+

label docmem2

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kernel images/memorytest/memtest86+/memtest86+-1.65

menu label DocMem ^RAM Diagnostic v. 2.1b

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kernel images/memdisk

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label memtest86

append initrd=images/memorytest/docmem2.igz

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menu label Memtest8^6

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kernel images/memdisk

label memtest86+

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append ininrd=images/memorytest/memtest.igz

menu label Memtest^86+

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kernel images/memorytest/memtest86+/memtest86+-1.65

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label tm4

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menu label ^TestMem4

label memtest86

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kernel images/memdisk

menu label Memtest8^6

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append images=images/memorytest/tm4.igz

kernel images/memdisk

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append ininrd=images/memorytest/memtest.igz

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label windiag

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menu label ^Windows Memory Diagnostic

label tm4

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kernel images/memdisk

menu label ^TestMem4

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append initrd=images/memorytest/windiag.igz

kernel images/memdisk

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~~</pre>~~

append images=images/memorytest/tm4.igz

label windiag

menu label ^Windows Memory Diagnostic

kernel images/memdisk

append initrd=images/memorytest/windiag.igz

The Following Applications must be copied Inside the “memorytest“ folder:

Line 375: Line 357:

This is the “ ntfstools “ Menu Option Example File with a sub-menu

You also need to create a sub folder inside the “ ntfstools “ folder called “ offlinent “

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~~<pre>~~

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~~|---tftpboot~~

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~~| |-----com32~~

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~~| |~~

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~~| |-----graphics~~

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~~| |~~

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~~| |-----pxelinux.cfg (directory)~~

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~~| |~~

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~~| |-----images~~

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~~| |~~

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~~| |----tools~~

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~~| |~~

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~~| |----memorytest~~

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~~| |~~

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~~| |----ntfstools~~

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~~| | |--------offlinent (initrd.cgz, vmlinuz, scsi.cgz)~~

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~~| |~~

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~~| |----recovery~~

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~~</pre>~~

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~~And here you find what I used to create the menu~~

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~~<pre>~~

|---tftpboot

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~~menu title~~ --~~== SME Linux, NTFS TOOLS MENU ==~~--

| |-----com32

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~~menu background~~ graphics~~/main~~.~~jpg~~

| |

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~~menu tabmsgrow 22~~

| |-----graphics

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~~menu cmdlinerow 22~~

| |

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~~menu endrow 24~~

| |-----pxelinux.cfg (directory)

| |

| |-----images

| |

| |----tools

| |

| |----memorytest

| |

| |----ntfstools

| | |--------offlinent (initrd.cgz, vmlinuz, scsi.cgz)

| |

| |----recovery

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menu ~~color title 1;34;49 #eeffa0a0 #cc553333 std~~

And here you find what I used to create the menu

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~~menu color sel 7;37;40 #ff000000 #bb9999aa all~~

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~~menu color border 30;44 #ffffffff #00000000 std~~

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~~menu color pwdheader 31;47 #eeff1010 #20ffffff std~~

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~~menu color hotkey 35;40 #90ffff00 #00000000 std~~

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~~menu color hotsel 35;40 #90000000 #bb9999aa all~~

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~~menu color timeout_msg 35;40 #90ffffff #00000000 none~~

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~~menu color timeout 31;47 #eeff1010 #00000000 none~~

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prompt 0

menu title --== SME Linux, NTFS TOOLS MENU ==--

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noescape 1

menu background graphics/main.jpg

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allowoptions 1

menu tabmsgrow 22

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timeout 0

menu cmdlinerow 22

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menu endrow 24

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default com32/vesamenu.c32

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menu color title 1;34;49 #eeffa0a0 #cc553333 std

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label main

menu color sel 7;37;40 #ff000000 #bb9999aa all

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menu label Back to ^Main Menu

menu color border 30;44 #ffffffff #00000000 std

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kernel com32/vesamenu.c32

menu color pwdheader 31;47 #eeff1010 #20ffffff std

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append pxelinux.cfg/default

menu color hotkey 35;40 #90ffff00 #00000000 std

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menu color hotsel 35;40 #90000000 #bb9999aa all

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label ntfs4dos

menu color timeout_msg 35;40 #90ffffff #00000000 none

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menu label ^NTFS4DOS

menu color timeout 31;47 #eeff1010 #00000000 none

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kernel images/memdisk

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append initrd=images/ntfstools/ntfs4dos.img

prompt 0

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noescape 1

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label offline

allowoptions 1

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menu label ^Offline NT/2000/XP/Vista/7 Password Changer\Windows Password Reset

timeout 0

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menu passwd paint

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kernel images/ntfstools/offlinent/cd100627/vmlinuz

default com32/vesamenu.c32

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append initrd=images/ntfstools/offlinent/cd100627/initrd.cgz,images/ntfstools/offlinent/cd100627/scsi.cgz

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~~</pre>~~

label main

menu label Back to ^Main Menu

kernel com32/vesamenu.c32

append pxelinux.cfg/default

label ntfs4dos

menu label ^NTFS4DOS

kernel images/memdisk

append initrd=images/ntfstools/ntfs4dos.img

label offline

menu label ^Offline NT/2000/XP/Vista/7 Password Changer\Windows Password Reset

menu passwd paint

kernel images/ntfstools/offlinent/cd100627/vmlinuz

append initrd=images/ntfstools/offlinent/cd100627/initrd.cgz,images/ntfstools/offlinent/cd100627/scsi.cgz

The Following Applications must be copied Inside the “ntfstools“ folder:

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You also need to create two sub folders inside the “ recovery “ folder called: “ systemrescue and riplinux

−

~~<pre>~~

|---tftpboot

−

|---tftpboot

| |-----com32

−

| |-----com32

| |

−

| |

| |-----graphics

−

| |-----graphics

| |

−

| |

| |-----pxelinux.cfg (directory)

−

| |-----pxelinux.cfg (directory)

| |

−

| |

| |-----images

−

| |-----images

| |

−

| |

| |----tools

−

| |----tools

| |

−

| |

| |----memorytest

−

| |----memorytest

| |

−

| |

| |----ntfstools

−

| |----ntfstools

| | |--------offlinent

−

| | |--------offlinent

| |

−

| |

| |----recovery

−

| |----recovery

| | |--------systemrescue

−

| | |--------systemrescue

| | |

−

| | |

| | |--------riplinux

−

| | |--------riplinux

−

menu title --== SME Linux, Data Recovery Menu ==--

−

~~</pre>~~

menu background graphics/main.jpg

−

menu tabmsgrow 22

−

~~<pre>~~

menu cmdlinerow 22

−

menu title --== SME Linux, Data Recovery Menu ==--

menu endrow 24

−

menu background graphics/main.jpg

−

menu tabmsgrow 22

menu color title 1;34;49 #eeffa0a0 #cc553333 std

−

menu cmdlinerow 22

menu color sel 7;37;40 #ff000000 #bb9999aa all

−

menu endrow 24

menu color border 30;44 #ffffffff #00000000 std

−

menu color pwdheader 31;47 #eeff1010 #20ffffff std

−

menu color title 1;34;49 #eeffa0a0 #cc553333 std

menu color hotkey 35;40 #90ffff00 #00000000 std

−

menu color sel 7;37;40 #ff000000 #bb9999aa all

menu color hotsel 35;40 #90000000 #bb9999aa all

−

menu color border 30;44 #ffffffff #00000000 std

menu color timeout_msg 35;40 #90ffffff #00000000 none

−

menu color pwdheader 31;47 #eeff1010 #20ffffff std

menu color timeout 31;47 #eeff1010 #00000000 none

−

menu color hotkey 35;40 #90ffff00 #00000000 std

−

menu color hotsel 35;40 #90000000 #bb9999aa all

prompt 0

−

menu color timeout_msg 35;40 #90ffffff #00000000 none

noescape 1

−

menu color timeout 31;47 #eeff1010 #00000000 none

allowoptions 1

−

timeout 0

−

prompt 0

−

noescape 1

default com32/vesamenu.c32

−

allowoptions 1

−

timeout 0

label main

−

menu label Back to ^Main Menu

−

default com32/vesamenu.c32

kernel com32/vesamenu.c32

−

append pxelinux.cfg/default

−

label main

−

menu label Back to ^Main Menu

label systemrescue

−

kernel com32/vesamenu.c32

menu label ^System Rescue

−

append pxelinux.cfg/default

kernel images/recovery/systemrescue/rescuecd

−

initrd images/recovery/systemrescue/initram.igz

−

label systemrescue

append setkmap=us netboot=http://192.168.0.10/iso/sysrescue/sysrcd.dat

−

menu label ^System Rescue

−

kernel images/recovery/systemrescue/rescuecd

label riplinux32

−

initrd images/recovery/systemrescue/initram.igz

menu label ^Rescue Is Possible Linux (32-bit kernel)

−

append setkmap=us netboot=http://192.168.0.10/iso/sysrescue/sysrcd.dat

kernel images/recovery/riplinux/kernel32

−

append vga=normal video=640x400 nokeymap initrd=images/recovery/riplinux/rootfs.cgz root=/dev/ram0 rw

−

label riplinux32

−

menu label ^Rescue Is Possible Linux (32-bit kernel)

label riplinux64

−

kernel images/recovery/riplinux/kernel32

menu label Rescue ^Is Possible Linux (64-bit kernel)

−

append vga=normal video=640x400 nokeymap initrd=images/recovery/riplinux/rootfs.cgz root=/dev/ram0 rw

kernel images/recovery/riplinux/kernel64

−

append vga=normal video=640x400 nokeymap initrd=images/recovery/riplinux/rootfs.cgz root=/dev/ram0 rw

−

label riplinux64

−

menu label Rescue ^Is Possible Linux (64-bit kernel)

−

kernel images/recovery/riplinux/kernel64

−

append vga=normal video=640x400 nokeymap initrd=images/recovery/riplinux/rootfs.cgz root=/dev/ram0 rw

−

For the System Rescue Application do the Following:

−

~~</pre>~~

−

Use your SME Server Manager and Create iBay Called “iso“~~ ~~

Use your SME Server Manager and Create iBay Called “iso“

−

Download the latest System Rescue ISO. ~~ ~~

Download the latest System Rescue ISO.

−

Using Windows File Manager (or WinSCP or Putty) copy the System Rescue ISO to the “<yoursmeserverip>/iso/“ Folder

−

It should look something like this:

−

~~YOUR~~ SME ~~SERVER IBAYS~~ (home/e-smith/files/ibays)

Your SME Server ibays (home/e-smith/files/ibays)

−

~~<pre>~~

| |-----your ibay

−

| |-----your ibay

| |

−

| |

| |-----iso (Place your iso’s here)

−

| |-----iso (Place your iso’s here)

| |

−

| |

| |-----sysrecue.iso

−

| |-----sysrecue.iso

| |

−

| |

−

~~</pre>~~

EDIT THIS TO USE mount

−

~~ ~~

Using a ISO Tool such as UltraISO, Extract and Copy the Following Files from the systemrescue.iso File to the tftpboot/images/recovery/systemrescue/ Folder: initram.igz, rescuecd

−

~~ ~~

Now Using Putty goto the sme linux shell and issue the following command:

" mount /home/e-smith/files/ibays/iso/files/sysrescue.iso /home/e-smith/files/ibays/iso/html/sysrescue/ -o loop "

−

~~ ~~

You have now mounted the sysrescue.iso and created an html link to the folder. Test it just using your browser and type in: http://mysmeserverip/iso/

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More on the System Rescue TFTP PXE Menu

−

~~<pre>~~

−

~~label systemrescue~~

−

~~menu label ^System Rescue (This is the Menu)~~

−

~~kernel images/recovery/systemrescue/rescuecd~~

−

~~initrd images/recovery/systemrescue/initram.igz~~

−

~~append setkmap=us netboot=http://192.168.0.10/iso/sysrescue/sysrcd (This is so that the Files can be~~

−

</~~pre>~~

label systemrescue

menu label ^System Rescue (This is the Menu)

kernel images/recovery/systemrescue/rescuecd

initrd images/recovery/systemrescue/initram.igz

append setkmap=us netboot=http://192.168.0.10/iso/sysrescue/sysrcd (This is so that the Files can be

Loaded from the ISO Html Link you Created as per the above mount statement)

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EDIT TO USE MOUNT on Server.

−

Using a ISO Tool such as UltraISO, Extract and Copy the Following Files from the ISO File to the tftpboot/images/recovery/riplinux/ Folder: kernel32, kernel52, rootfs.cgz, inird.gz

Line 567: Line 537:

For the Puppy Linux Application do the Following:

Create a folder inside the “ images “ folder called: “ puppy “

−

~~<pre>~~

−

|---tftpboot

−

| |-----com32

−

| |

−

| |-----graphics

−

| |

−

| |-----pxelinux.cfg (directory)

−

| |

−

| |-----images

−

| |

−

| |----tools

−

| |

−

| |----memorytest

−

| |

−

| |----ntfstools

−

| | |--------offlinent

−

| |

−

| |----recovery

−

| | |--------systemrescue

−

| | |

−

| | |--------riplinux

−

| |

−

| |----puppy

−

~~</pre>~~

This an Example for the Puppy Menu Option.

−

~~NB:~~ Make sure you place this somewhere in your main menu or another menu

{{Note box|Make sure you place this somewhere in your main menu or another menu.}}

−

~~<pre>~~

−

label puppy

−

menu label ^Puppy Linux

−

kernel images/puppy/vmlinuz

−

initrd images/puppy/initrd.gz

−

append boot=live pfix=copy nosmp

−

~~</pre>~~

Download the Latest Puppy Linux.

Now to Prepare the Puppy File do the Following:

Found the description here: http://murga-linux.com/puppy/viewtopic.php?search_id=2090301486&t=56580

−

�1. Create a temporary directory somewhere on your SME Server eg: temp/

1. Create a temporary directory somewhere on your SME Server eg: temp/

2. Copy the initrd.gz and the lupu-501.sfs you want to embed from the puppy.iso into this temporary directory.

3. Detach this script, “ embed_sfs.sh “ gunzip, and chmod +x the script, in the same temporary directory where you have initrd.gz and lupu-501.sfs (http://murga-linux.com/puppy/viewtopic.php?mode=attach&id=29780)

4. Open terminal (using putty), and then run the script inside the temp directory

−

Code: �./embed_sfs.sh lupu-501.sfs

Code: ./embed_sfs.sh lupu-501.sfs

−

�5. Your original initrd.gz will be kept as initrd.gz.old, and the new initrd.gz will have lupu-501.sfs in it.

5. Your original initrd.gz will be kept as initrd.gz.old, and the new initrd.gz will have lupu-501.sfs in it.

6. Now copy the Files to tftpboot/images/puppy/ Folder: initrd.gz, vmlinuz, lupu-501.sfs

−

~~Using PXE to Install the SME Server Linux CD and Menu Password Protection:~~

−

~~For the SME Server Installation Application do the Following:~~

−

~~Create a folder inside the “ images “ folder called: “ sme7 “~~

−

~~|---tftpboot~~

−

~~| |-----com32~~

−

~~| |~~

−

~~| |-----graphics~~

−

~~| |~~

−

~~| |-----pxelinux.cfg (directory)~~

−

~~| |~~

−

~~| |-----images~~

−

~~| |~~

−

~~| |----tools~~

−

~~| |~~

−

~~| |----memorytest~~

−

~~| |~~

−

~~| |----ntfstools~~

−

~~| | |--------offlinent~~

−

~~| |~~

−

~~| |----recovery~~

−

~~| | |--------systemrescue~~

−

~~| | |~~

−

~~| | |--------riplinux~~

−

~~| |~~

−

~~| |----puppy~~

−

~~| |~~

−

~~| |----sme7~~

====Using PXE to Install the SME Server and Menu Password Protection====

To create an item on menu for the SME Server Installation follow this steps:

−

This an ~~Example~~ for the SME Server Install Menu Option.

* Create a folder inside the “ images “ folder called: “ sme7 “

−

~~NB:~~ Make sure you place this somewhere in your main menu or another menu

|---tftpboot

−

label smeinstall

| |-----com32

−

menu label ^SME 7 Install

| |

−

menu passwd paint

| |-----graphics

−

kernel images/sme7/vmlinuz

| |

−

append initrd=images/sme7/initrd.img

| |-----pxelinux.cfg (directory)

| |

| |-----images

| |

| |----tools

| |

| |----memorytest

| |

| |----ntfstools

| | |--------offlinent

| |

| |----recovery

| | |--------systemrescue

| | |

| | |--------riplinux

| |

| |----puppy

| |

| |----sme7

This an example for the SME Server Install Menu Option.

{{Note box|Make sure you place this somewhere in your main menu or another menu.}}

label smeinstall

menu label ^SME 7 Install

menu passwd paint

kernel images/sme7/vmlinuz

append initrd=images/sme7/initrd.img

{{Note box|To Password Protect the menu option just place a password statement before the execution of the application you wish to use eg: menu passwd paint

When you choose the SME 7 Install menu option you will be asked for a password before you can continue.

The Password is “paint“ as show above. Be creative and enter a more secure password for your applications.}}

Copy your latest SME Server 7.51 ISO to the folder ISO on your server “\\yoursmeserverip\iso“

−

~~NB: To Password Protect the Menu Option just Place a Password Statement before the Execution of the Application you wish to use eg: menu passwd paint~~

−

When you choose the SME 7 Install Menu Option you will be asked for a Password Before you can continue. The Password is “paint “ as you have chosen. Be creative and enter a more secure password for your applications.

−

~~Copy your latest SME Server 7.51 ISO using Windows File Manager (or WinSCP or Putty) to the “ yoursmeserverip/iso/ “ Folder~~

It should look something like this:

−

~~YOUR~~ SME ~~SERVER IBAYS~~ (home/e-smith/files/ibays)

your SME Server ibays (home/e-smith/files/ibays)

−

| |-----~~your~~ ibay

| |-----any other ibay

−

| |

−

| |-----iso (Place your iso’s here)

−

| |

−

| |-----sysrecue.iso

−

| |

−

| |-----sme751.iso

EDIT THIS to use MOUNT on server

Using a ISO Tool such as UltraISO, Extract and Copy the Following Files from the sme751.iso File to the tftpboot/images/sme7/ Folder: initrd.img, init586.img, vmlinuz, vmlz586

Now Using Putty goto the sme linux shell and issue the following command:

−

" mount /home/e-smith/files/ibays/iso/files/sme751.iso /home/e-smith/files/ibays/iso/html/sme/ -o loop "

"mount /home/e-smith/files/ibays/iso/files/sme751.iso /home/e-smith/files/ibays/iso/html/sme/ -o loop"

You have now mounted the sme751.iso and created an html link to the folder. Too Test just use your browser and type in: http://mysmeserverip/iso/

−

You should see the sme link. Click on it and you should be able to see all the Files and Folders of the SME751 ISO. ( http://mysmeserverip/iso/sme/ )

You should see the sme link.

Click on it and you should be able to see all the Files and Folders of the SME751 ISO. ( http://mysmeserverip/iso/sme/ )

When you choose the SME Installation Menu Option choose HTTP install, and point to your server at the first field to /iso/sme as path. SME should now be able to be installed.

−

* Configure your PC / Notebook client bios hardware for PXE boot

===Configure your PC / Notebook client bios hardware for PXE boot===

−

If everything is setup correctly, you should be ready to PXE boot the computer. When you see the Bios Boot Screen of your client PC use the keyboard and Press the “ del ” key or “ F2 “ key or for Dells and some others, hit F12 during boot and choose the integrated NIC. Once you have Cionfigured your PC Bios to boot from the Ethernet Port from you Motherboard / Lan Controller Card (With the Cat5e/UTP Cable Connected) The PC Lan Controller Card should acquire an IP Address from your SME DHCP Server, you should see it grab the pxelinux.cfg/default File and then display the menu you built earlier. Some “ bigger” may not work in pxe and this could be due to the amount of ram required for the application to work correctly. Make sure that the minumum amount of ram onboard is 512MB. I would suggest 1Gig Ram onboard.

−

* Adding floppy images

===Adding floppy images===

−

At this point the only options you get from your menu are to boot from the local drive or see some DMI information from the machine. Interesting and boring at the same time, but the point was to get the basic infrastructure setup. The real reason to set something like this up is so you can feed your machines floppy images without the need for the actual floppies. For us this proves most useful when we’re imaging a room, but opens up a lot of other options if you’re willing to invest the time.

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Once you have the basic PXE process in place, it’s extremely easy to start creating and booting ‘virtual’ floppies. All you need to do is create an image of the floppy, similar to making an ISO from a cdrom, and then make an entry for it in your PXE menu.

−

Again, there’s the Windows way and the Linux way. On Windows, there’s a small program called WinImage (http://www.winimage.com/) that’s terribly handy for creating and modifying disk images. In Linux there are several ways, but the easiest is with the built in ‘dd’ command. Something ~~like…~~

−

# dd if=/dev/fd0 of=floppy.ima bs=2048

dd if=/dev/fd0 of=floppy.ima bs=2048

−

~~…will~~ copy the floppy to a file called floppy.ima. In WinImage, just insert the floppy and use the menu to capture and create a disk image. You’re certainly free to call the file whatever you want.

...will copy the floppy to a file called floppy.ima. In WinImage, just insert the floppy and use the menu to capture and create a disk image. You’re certainly free to call the file whatever you want.

Once captured, place the file in the /tftpboot/images folder and add something like the following to your /tftpboot/pxelinux.cfg/default or any other menu file:

−

label vgapaint

−

menu label Bored and want to paint?

−

menu passwd paint

−

kernel images/memdisk

−

append initrd=images/vp386.ima

Boot your client computer to the internal NIC again and wait for the menu. You should see an entry for your new floppy image. Select it and hit enter and your PC will be fed the floppy image through TFTP and boot off it in a virtual A: drive.

The above example, vgapaint, boots a virtual DOS floppy and starts a small DOS based paint program I mostly use for testing. Nothing fancy. You should also notice the line ‘menu passwd paint’ added. When selected, the menu will prompt you for the password contained in the config file before continuing. It helps a bit with security, but don’t rely on it too much as it’s not difficult to get at those passwords (you could just TFTP the menu file itself).

−

Conclusion:

===Conclusion===

Setting this all up may seem like a frustration, and if you’ve never setup your lab machines for network boot it certainly doesn’t seem like an immediate time saver when you’re running around setting that up. But when it’s all done it’s a terrific platform that can make things easier, save a ton of time, and open up a lot of interesting possibilities. Once fully setup, booting to your imaging software is a snap. And if you partner this with automating the imaging process you can create a zero-touch lab deployment scenario.

−

References:

===References===

−

* SYSLINUX: http://syslinux.zytor.com/

−

* SYSLINUX Wiki: http://syslinux.zytor.com/wiki/index.php/SYSLINUX

−

* WinImage: http://www.winimage.com/

−

* WinSCP: http://winscp.net/eng/index.php

−

* PuTTy: http://www.chiark.greenend.org.uk/~sgtatham/putty/download.html

−

* Irfanview: http://www.irfanview.net/

Jader

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