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dir: /fqa4.ms/
.\" This troff source is processed to create all forms of the .\" 9FRONT DASH 1 book and the http://fqa.9front.org website. .\" NOTE: Purely experimental. Methods employed may change. .\" troff -ms -mpictures fqa4.ms | page .\" htmlroff -u -ms -mhtml fqa4.ms >fqa4.html .de FG \" .FG <basename> .ie h .html - <img src="\\$1.\\$2" /> .el .BP \\$1.ps .br .. .po 1i \" page offset (from left) .fp 1 R LucidaSans .fp 2 I LucidaSansI .fp 3 B LucidaSansB .fp 4 BI LucidaSansI .fp 5 CW LucidaCW .paragraph 0 .margin 0 .HTML "FQA 4 - 9front Installation Guide .html - <style type="text/css">body{font-size:10pt}; a{font-size:10pt}</style> .html - <a href="fqa.html">FQA INDEX</a> | .html - <a href="fqa3.html">FQA 3 - Hardware</a> | .html - <a href="fqa5.html">FQA 5 - Building The System From Source</a> .html - <hr /> .SH .LG .ihtml h1 <h1> FQA 4 - 9front Installation Guide .ihtml h1 .NL .R .html - <a href="fqa4.html">html</a> | .html - <a href="fqa4.pdf">pdf</a> | .html - <a href="fqa4.ms">troff</a> .FG install gif .bp .FG bar gif .B ACHTUNG! This document (and the 9front installer) pertains only to the 386 install target. For other architectures, read: .ihtml a <a href="fqa8.html#8.9"> 8.9 - Bootstrapping architectures not included on the ISO .ihtml a .FG bar gif .bp .html - <a name="4.1" /> .ihtml h2 <h2> .SH 4.1 - Pre-installation Checklist .R .ihtml h2 Before you start your install, you should have some idea what you want to end up with. You will want to know the following items, at least: .ihtml ul <ul> .IP .B Machine name, .R hereafter referred to as .CW sysname . .B Hardware installed and available. .R Read: .ihtml a <a href="fqa3.html#3.3"> .I FQA 3.3 - Selecting Hardware. .R .ihtml a Check .ihtml a <a href="fqa3.html#3.2"> .I FQA 3.2 - Known Working Hardware .R .ihtml a as well as the .ihtml a <a href="https://9p.io/wiki/plan9/Supported_PC_hardware"> various .ihtml a .ihtml a <a href="https://9p.io/wiki/plan9/other_hardware"> supported .ihtml a .ihtml a <a href="https://9p.io/wiki/plan9/virtual_machines"> hardware .ihtml a pages on the Bell Labs Plan 9 wiki to help determine if your hardware or VM is supported. .B Network settings, if not using DHCP: .R Gather the requisite information for your network (IP, netmask, default gateway, etc.). If you plan to install in a VM, see .ihtml a <a href="fqa3.html#3.3"> .I FQA 3.3 - Virtual Machines. .R .ihtml a .LP .ihtml ul In case of trouble, see: .ihtml a <a href="fqa9.html"> .I FQA 9 - Troubleshooting, .ihtml a .ihtml a <a href="fqa2.html#2.2.1"> .I FQA 2.2.1 - Mailing List Archives .R .ihtml a .html - <a name="4.2" /> .ihtml h2 <h2> .SH 4.2 - Creating bootable 9front install media .R .ihtml h2 .html - <a name="4.2.1" /> .ihtml h3 <h3> .SH 4.2.1 - ISO image .R .ihtml h3 Obtain the .ihtml a <a href="fqa1.html#1.11.1"> .CW 9front.iso. .ihtml a Read: .ihtml a <a href="fqa1.html#1.11.1"> .I 1.11.1 - Mirrors .R .ihtml a .html - <a name="4.2.2" /> .ihtml h3 <h3> .SH 4.2.2 - USB drive .R .ihtml h3 Booting from USB disk is handled the same way as booting from internal hard drive. There are two ways to create a bootable 9front USB: 1.) Write the ISO image directly to the USB device. Example: .P1 cat 9front.iso >/dev/sdUxxxxx/data .P2 2.) Alternately, the boot process is able to use an ISO image stored on a FAT file system as its root file system, so all that is needed is to install the .ihtml a <a href="http://man.9front.org/8/9boot"> .CW 9boot(8) .ihtml a bootloader, a kernel and the .CW 9front.iso on the USB disk. The following sections describe this process on Plan 9 and Linux. .html - <a name="4.2.2.1" /> .ihtml h4 <h4> .SH 4.2.2.1 - Creating on Plan 9 .R .ihtml h4 The path to your USB device will look something like this: .CW /dev/sdUxxxxx .R where .CW xxxxx .R is the unique name of your usb device. Build and install the mbr and boot loader: .P1 cd /sys/src/boot/pc mk 9bootfat mbr pbs disk/mbr -m mbr /dev/sdUxxxxx/data .P2 If it doesn't already exist, create and format a FAT partition. Don't forget to set the FAT partition active in the .CW fdisk .R menu: .P1 disk/fdisk -b /dev/sdUxxxxx/data disk/format -b pbs -d -r 2 /dev/sdUxxxxx/dos .P2 Mount the USB device: .P1 dossrv -f /dev/sdUxxxxx/dos sdos mount -c /srv/sdos /n/dos .P2 Create a suitable .CW /n/dos/plan9.ini : .P1 bootfile=9pc mouseport=ask monitor=ask vgasize=ask .P2 .B Note: .R By convention, Plan 9 usually expects text files to end with a newline. If the last line of plan9.ini is not a newline, it could fail to be parsed correctly at boot time. Copy files to the USB device: .P1 cp /386/9bootfat /n/dos chmod +al /n/dos/9bootfat # defrag magic cp /386/9pc /n/dos cp /path/to/9front.iso /n/dos .P2 Optional for EFI systems: .P1 cd /sys/src/boot/efi; mk install mkdir -p /n/dos/efi/boot cp /386/boot*.efi /n/dos/efi/boot .P2 Unmount the USB device: .P1 unmount /n/dos rm -f /srv/sdos .P2 Boot the device. Read: .ihtml a <a href="http://man.9front.org/8/prep"> .CW prep(8) .ihtml a .html - <a name="4.2.2.2" /> .ihtml h4 <h4> .SH 4.2.2.2 - Creating on Linux .R .ihtml h4 .B Note: There are numerous methods for creating bootable USB devices on Linux. This is one. Obtain .CW mbr , .CW pbs, .CW 9bootfat and .CW 9pc binaries. Either copy them from the distributed ISO image (the files are located under .CW /386/ ) or build up to date binaries on a 9front system. Read: .ihtml a <a href="fqa5.html#5.2.2"> .I FQA 5.2.2 - Building from source .R .ihtml a On the Linux system, create a .CW $dir with that contains the following files: .ihtml ul <ul> .IP .CW 9front.iso .br .CW 9pc .br .CW plan9.ini (as described above) .br .CW 9bootfat .br .CW mbr .br .CW pbs .LP .ihtml ul Optional for EFI systems, create the directory .CW boot in .CW $dir and copy the files .CW bootia32.efi and .CW bootx64.efi into it. Use the .ihtml a <a href="http://freshmeat.net/projects/makebootfat/"> makebootfat .ihtml a tool to create bootable device (ie. .CW /dev/sdc ): .P1 $ makebootfat -m $dir/mbr -b $dir/pbs -o /dev/sdc $dir .P2 Boot the device. .html - <a name="4.2.2.3" /> .ihtml h4 <h4> .SH 4.2.2.3 - Bootargs .R .ihtml h4 At the bootargs prompt you'll need to enter the path to the ISO on the USB device. It will look something like this: .P1 bootargs=local!/shr/sdUxxxxx/9front.iso .P2 If a USB device is not listed, escape to a shell with .CW !rc , and .CW ls /shr .R to find it. Read: .ihtml a <a href="fqa9.html#9.5.1"> 9.5.1 - Devices not recognized or not working .ihtml a .html - <a name="4.3" /> .ihtml h2 <h2> .SH 4.3 - Performing a simple install .R .ihtml h2 There is nothing magical about installing Plan 9. It is simply a matter of populating a Plan 9 file system ( .CW cwfs or .CW hjfs ) and arranging a bootstrap to eventually load a Plan 9 kernel that can then use that file system as its root. In most cases, the file server is the only machine that needs to have a disk. Once the initial file server is running, setting up an auth server, and enabling .CW bootp and .CW tftp for PXE booting, will allow Plan 9 terminals and cpu servers to load kernels from the file server and share its file system over the network. .B Note: .R This guide describes the default installation of a terminal with disk, which is an amalgamation of a normal Plan 9 network, but is sufficient for exploring the basics of using Plan 9. Configuration of additional services (such as a file server with networking listeners, a cpu server, etc.) is outlined in .ihtml a <a href="fqa7.html"> .I FQA 7 - System Management. .R .ihtml a To install 9front, boot the .CW 9front.iso image and follow the steps below. .html - <a name="4.3.1" /> .ihtml h3 <h3> .SH 4.3.1 - boot .R .ihtml h3 Successfully booting the system will result in basic information about the state of the system being printed on screen: .P1 Plan 9 126 holes free 00018000 0009f000 552960 00485000 0cf2c000 212496384 213049344 bytes free cpu0: 3395MHz GenuineIntel P6 ELCR: 0E20 #l0: AMD79C970: 10Mbps port 0x2000 irq 10: 000c291d0baf mylex ctlr @ port 0x10c0: 32-bit wide SCSI host adapter 512M memory: 207M kernel data, 304M user, 929M swap nusb/usbd: /dev/usb: no hubs .P2 .html - <a name="4.3.2" /> .ihtml h3 <h3> .SH 4.3.2 - bootargs .R .ihtml h3 A list of attached storage devices is printed, followed by a prompt asking for a Plan 9 partition to boot from: .P1 /dev/sdC0: VMware Virtual IDE Hard Drive /dev/sdC0/data /dev/sdD0: VMware Virtual IDE CDROM Drive /dev/sdD0/data 9660 bootargs is (tcp, il, local!device) [local!/dev/sdD0/data] .P2 In most cases, the suggested default will correspond to the device used to boot the ISO image. .html - <a name="4.3.3" /> .ihtml h3 <h3> .SH 4.3.3 - user .R .ihtml h3 Next, a prompt asks for a username: .P1 user[glenda]: .P2 Glenda is the default .CW hostowner name. Don't change this until you know what you are doing. Hit .CW enter to accept the default. .B Note: .R The .CW hostowner differs from the concept of .CW root on a UNIX system, where a single user .CW root may take control of all processes .I and files on the system. By contrast, even the .CW hostowner of a Plan 9 file server cannot violate file permissions on the file system, except when permissions checking is disabled on the console or when entering special commands at the console of the file server. The .CW hostowner controls only the .I processes running on the local machine (in the case of the filserver, the file server process itself is obviously owned by the system's \f(CW hostowner\fR). This fundamental separation between control of processes and file permissions is exploited throughout the system, but can be confusing for users coming from a UNIX background. .html - <a name="4.3.4" /> .ihtml h3 <h3> .SH 4.3.4 - vgasize, monitor, mouseport .R .ihtml h3 The next set of prompts deal with graphics display and the mouse: .P1 vgasize is (text, 640x480x8, 1024x768x16, ...) [1024x768x16] monitor is (vesa, xga, lcd, ...) [vesa] mouseport is (ps2, ps2intellimouse, 0, 1, 2) [ps2] .P2 The boot process prompts for the environment variables .CW $vgasize , .CW $monitor and .CW $mouseport , and the installer will later write those values to the system's .CW plan9.ini , from which they are loaded on subsequent system bootup. Setting .CW $monitor to anything besides .CW vesa will bypass the emulated VESA BIOS and attempt to use a native VGA driver for the video card in question. Read: .ihtml a <a href="http://code.9front.org/hg/plan9front/file/9d875116b400/lib/vgadb"> .CW /lib/vgadb .ihtml a for a list of monitors and video cards that are already known by the system; and the man pages .ihtml a <a href="http://man.9front.org/3/vga"> .CW vga(3) , .ihtml a .ihtml a <a href="http://man.9front.org/8/vga"> .CW vga(8) .ihtml a and .ihtml a <a href="http://man.9front.org/6/vgadb"> .CW vgadb(6) .ihtml a for more information about how graphical displays are configured. The default .CW $mouseport of .CW ps2 is sufficient in most cases. Set it to .CW ps2intellimouse on laptops or for mice that have a scrollwheel. .B Note: Some laptops require the trackpad to be disabled in the BIOS in order for mouse button 2 (the center button) to function in Plan 9. In a pinch, mouse button 2 may be simulated by holding down the .CW shift key while clicking mouse button 3 (the right button). After the install, changes intended to persist across reboots should be added to .CW plan9.ini . Examples: Values as they appear in .CW plan9.ini: .P1 monitor=vesa vgasize=1024x768x16 mouseport=ps2intellimouse .P2 Read: .ihtml a <a href="http://man.9front.org/8/mouse"> .CW mouse(8) , .ihtml a .ihtml a <a href="http://man.9front.org/3/vga"> .CW vga(3) , .ihtml a .ihtml a <a href="http://man.9front.org/6/vgadb"> .CW vgadb(6) , .ihtml a .ihtml a <a href="http://man.9front.org/8/plan9.ini"> .CW plan9.ini(8) , .ihtml a .ihtml a <a href="http://man.9front.org/8/realemu"> .CW realemu(8) , .ihtml a .ihtml a <a href="http://man.9front.org/8/vga"> .CW vga(8) , .ihtml a .ihtml a <a href="fqa7.html#7.2.2.html"> .I FQA 7.2.2 - How do I modify plan9.ini? .R .ihtml a After the .CW mouseport prompt is answered, the boot process will attempt to start the Plan 9 graphical environment, .ihtml a <a href="http://man.9front.org/1/rio"> .CW rio(1), .ihtml a opening a .ihtml a <a href="http://man.9front.org/8/stats"> .CW stats(8) .ihtml a window and a .CW rio window on top of a gray desktop background. .FG livecdrio jpg .html - <a name="4.3.4.1" /> .ihtml h4 <h4> .SH 4.3.4.1 - Changing screen resolution .R .ihtml h4 At this point it may be desireable to change the screen resolution. To change video mode from the command line: vesa: .B Note: Only valid modes listed in the VESA BIOS may be used. .P1 # obtain a list of vesa bios modes @{rfork n; aux/realemu; aux/vga -p} # configure one of the valid modes @{rfork n; aux/realemu; aux/vga -m vesa -l 1024x768x16} .P2 vga: .P1 aux/vga -m dellst2210 -l 1920x1080x32 .P2 .html - <a name="4.3.5" /> .ihtml h3 <h3> .SH 4.3.5 - inst/start .R .ihtml h3 Installation is performed by the rc scripts in .CW /rc/bin/inst . To begin the installation, type .CW inst/start in the terminal window. Follow the prompts to complete the installation, selecting the defaults where appropriate. .B Note: Any task may be repeated by manually entering its name at the next .CW Task to do .R prompt. .P1 term% inst/start Tue Jul 17 12:38:50 CET 2012 Installation process started .P2 The following .CW Task to do .R steps are handled one at a time: .html - <a name="4.3.6" /> .ihtml h3 <h3> .SH 4.3.6 - configfs .R .ihtml h3 .P1 You can install the following types of systems: cwfs64x the cached-worm file server hjfs the new 9front file server (experimental!) File system (cwfs64x, hjfs)[cwfs64x]: .P2 .B Note: The .CW cwfs64x file server uses 16KB blocks, with its cache and permanent storage locate on separate partitions. The .CW hjfs file server uses 4KB blocks, with its cache and permanent storage located on the same partition. If you are installing to a disk of less than 12GB, you should choose .CW hjfs . In this example we will press .CW enter to accept .CW cwfs64x as the default. .html - <a name="4.3.7" /> .ihtml h3 <h3> .SH 4.3.7 - partdisk .R .ihtml h3 .P1 The following disk devices were found. sdC0 - VMware Virtual IDE Hard Drive empty 0 3916 (3916 cylinders, 29.99 GB) sdD0 - VMware Virtual IDE CDROM Drive Disk to partition (sdC0, sdD0)[no default]: .P2 Enter the media you wish to install to. .P1 Disk to partition (sdC0, sdD0)[no default]: sdC0 The disk you selected HAS NO master boot record on its first sector. (Perhaps it is a completely blank disk.) Shall we create a blank EFI partition table (GPT) or install traditional DOS partition table (MBR)? .P2 Assuming a blank disk image, install a fresh mbr: .P1 Install mbr or gpt (mbr, gpt)[no default]: mbr This is disk/fdisk; use it to create a Plan 9 partition. If there is enough room, a Plan 9 partition will be suggested; you can probably just type 'w' and then 'q'. cylinder = 8225280 bytes '* p1 0 3916 (3916 cylinders, 29.99 GB) PLAN9 >>> .P2 For this example we will use the entire disk. Accept the defaults. .P1 >>> w >>> q .P2 .html - <a name="4.3.8" /> .ihtml h3 <h3> .SH 4.3.8 - prepdisk .R .ihtml h3 .P1 The following Plan 9 disk partitions were found. /dev/sdC0/plan9 empty 0 62910477 (62910477 sectors, 29.99 GB) Plan 9 partition to subdivide (/dev/sdC0/plan9)[/dev/sdC0/plan9]: .P2 Use the Plan 9 partition created in the previous step. Hit `enter` to select the default. .P1 This is disk/prep; use it to subdivide the Plan 9 partition. If it is not yet subdivided, a sensible layout will be suggested; you can probably just type 'w' and then 'q'. no plan9 partition table found 9fat 204800 nvram 1 other 8957953 fscache 8957953 fsworm 44789770 ' 9fat 0 204800 (204800 sectors, 100.00 MB) ' nvram 204800 204801 (1 sectors, 512 B ) ' other 204801 9162754 (8957953 sectors, 4.27 GB) ' fscache 9162754 18120707 (8957953 sectors, 4.27 GB) ' fsworm 18120707 62910477 (44789770 sectors, 21.35 GB) >>> .P2 Again, accept the defaults. .P1 >>> w >>> q .P2 .html - <a name="4.3.9" /> .ihtml h3 <h3> .SH 4.3.9 - mountfs .R .ihtml h3 .P1 The please choose your cwfs64x partitions .P2 Hit .CW enter to select each partition at the prompt. .P1 --rw-r----- S 0 glenda glenda 4586471936 Jul 4 13:28 /dev/sdC0/fscache Cwfs cache partition (/dev/sdC0/fscache)[/dev/sdC0/fscache]: --rw-r----- S 0 glenda glenda 22932362240 Jul 4 13:28 /dev/sdC0/fsworm Cwfs worm partition (/dev/sdC0/fsworm)[/dev/sdC0/fsworm]: --rw-r----- S 0 glenda glenda 4586471936 Jul 4 13:28 /dev/sdC0/other Cwfs other partition (/dev/sdC0/other)[/dev/sdC0/other]: .P2 Since this is a fresh install, we choose .CW yes to ream (format) the file system: .P1 Ream the file system? (yes, no)[no]: yes Starting cwfs64x file server for /dev/sdC0/fscache Reaming file system bad nvram key bad authentication id bad authentication domain nvrcheck: can't read nvram config: config: config: auth is now disabled config: config: config: config: config: config: current fs is "main" cmd_users: cannot access /adm/users 63-bit cwfs as of Wed Jul 4 00:59:30 2012 last boot Tue Jul 17 13:34:57 2012 Configuering cwfs64x file server for /dev/sdC0/fscache Mounting cwfs64x file server for /dev/sdC0/fscache % mount -c /srv/cwfs /n/newfs Mounting cwfs64x file server for /dev/sdC0/other % mount -c /srv/cwfs /n/other other .P2 .html - <a name="4.3.10" /> .ihtml h3 <h3> .SH 4.3.10 - configdist .R .ihtml h3 .P1 Are you going to download the distribution from the internet or do you have it on local media? Distribution is from (local, net)[local]: .P2 We are installing from local media, so, .CW local . Hit `enter` to accept the default. .B Note: The .CW net option attempts to download the ISO from the Internet and install it directly to disk. Since the installer is most likely already running from an ISO image, this option may prove to be of limited utility. The option is somewhat experimental, and may work. Attempt it at your own risk. .html - <a name="4.3.11" /> .ihtml h3 <h3> .SH 4.3.11 - confignet .R .ihtml h3 .P1 You can connect to the internet via a local ethernet or a dial-up PPP connection. Interface to use (ether, ppp)[ether]: Please choose a method for configuring your ethernet connection. manual - specify IP address, network mask, gateway IP address dhcp - use DHCP to automatically configure Configuration method (manual, dhcp)[dhcp]: .P2 .html - <a name="4.3.11.1" /> .ihtml h4 <h4> .SH 4.3.11.1 - dhcp .R .ihtml h4 Hit .CW enter to move on to the next task. .html - <a name="4.3.11.2" /> .ihtml h4 <h4> .SH 4.3.11.2 - manual .R .ihtml h4 If you chose .CW manual , enter values that are appropriate for your network. .P1 Configuration method (manual, dhcp)[dhcp]: manual ip address [no default]: 10.0.2.15 network mask [no default]: 255.255.255.0 gateway address [no default]: 10.0.2.2 .P2 .html - <a name="4.3.12" /> .ihtml h3 <h3> .SH 4.3.12 - mountdist .R .ihtml h3 .P1 Please wait... Scanning storage devices... /dev/sdC0/9fat /dev/sdC0/data /dev/sdC0/fscache /dev/sdC0/fsworm /dev/sdC0/other /dev/sdD0/data The following storage media were detected. Choose the one containing the distribution. /dev/sdD0/data (iso9660 cdrom) Distribution disk (/dev/sdD0/data, /dev/sdC0/fscache, /)[/]: .P2 The CD-ROM is already mounted at .CW / , so we hit .CW enter to choose the default. .P1 % mount /srv/boot /n/distmedia Which directory contains the distribution? Any of the following will suffice (in order of preference): - the root directory of the cd image - the directory containing 9front.iso - the directory containing 9front.iso.bz2 Location of archives [/]: .P2 And again, the root directory of the CD-ROM is already mounted at .CW / , so hit .CW enter to choose the default. .P1 % mount /srv/boot /n/distmedia Which directory contains the distribution? Any of the following will suffice (in order of preference): - the root directory of the cd image - the directory containing 9front.iso - the directory containing 9front.iso.bz2 Location of archives [/]: .P2 Hit .CW enter . .ihtml h3 <h3> .SH 4.3.13 - copydist .R .ihtml h3 Hit .CW enter at the .CW copydist prompt to begin the process of copying the distribution files from the install media to the hard disk. .P1 processing /sys/lib/sysconfig/proto/allproto .P2 .FG bar gif .B ACHTUNG! Currently, there is no progress meter. For systems without DMA, the .CW copydist task may exceed one hour in duration. Disk activity may be verified by inspecting the .ihtml a <a href="http://man.9front.org/8/stats"> .CW stats(8) .ihtml a window. .FG bar gif Eventually, you should see the following: .P1 file system made .P2 This indicates that the system files have completed copying to the install target. .html - <a name="4.3.14" /> .ihtml h3 <h3> .SH 4.3.14 - sysname .R .ihtml h3 .P1 Setup network configuration sysname [cirno]: .P2 Use a system name of your choice, or just hit .CW enter to select the default. .html - <a name="4.3.15" /> .ihtml h3 <h3> .SH 4.3.15 - tzsetup .R .ihtml h3 .P1 Setup Time Zone Time Zone (Argentina, Australia_ACT, Australia_Broken-Hill, Australia_LHI, Australia_NSW, Australia_North, Australia_Queensland, Australia_South, Australia_Sturt, Australia_Tasmania, Australia_Victoria, Australia_West, Australia_Yancowinna, Brazil_Acre, Brazil_DeNoronha, Brazil_East, Brazil_West, CET, Canada_Atlantic, Canada_Central, Canada_East-Saskatchewan, Canada_Eastern, Canada_Mountain, Canada_Newfoundland, Canada_Pacific, Canada_Yukon, Chile_Continental, Chile_EasterIsland, Cuba, EET, Egypt, GB-Eire, GMT, HST, Hongkong, Iceland, Iran, Israel, Jamaica, Japan, Libya, Mexico_BajaNorte, Mexico_BajaSur, Mexico_General, NZ, NZ_CHAT, Navajo, PRC, Poland, ROC, ROK, Singapore, Turkey, US_Alaska, US_Arizona, US_Central, US_East-Indiana, US_Eastern, US_Hawaii, US_Michigan, US_Mountain, US_Pacific, US_Yukon, W-SU, WET)[US_Eastern]: .P2 Daylight saving time (DST) is handled automatically. Type your chosen time zone and hit .CW enter . .html - <a name="4.3.16" /> .ihtml h3 <h3> .SH 4.3.16 - bootsetup .R .ihtml h3 .P1 Setup Plan 9 FAT boot partition (9fat) Plan 9 FAT partition (/dev/sdC0/9fat)[/dev/sdC0/9fat]: .P2 Hit .CW enter to accept the default. Any environment variables entered at the .CW > prompt during boot, as well as settings configured during install will now be written to .CW /n/9fat/plan9.ini and the kernel will be copied to the .CW 9fat partition. .P1 dossrv: serving #s/dos Initializing Plan 9 FAT partition. % disk/format -r 2 -d -b /386/pbs /dev/sdC0/9fat Initializing FAT file system type hard, 12 tracks, 255 heads, 63 sectors/track, 512 bytes/sec used 4096 bytes % mount -c /srv/dos /n/9fat /dev/sdC0/9fat % rm -f /n/9fat/9bootfat /n/9fat/plan9.ini /n/9fat/9pc % cp /n/newfs/386/9bootfat /n/9fat/9bootfat % chmod +al /n/9fat/9bootfat % cp /tmp/plan9.ini /n/9fat/plan9.ini % cp /n/newfs/386/9pc /n/9fat/9pc If you use the Windows NT/2000/XP master boot record or a master boot record from a Unix clone (e.g., LILO or FreeBSD bootmgr), it is probably safe to continue using that boot record rather than install the Plan 9 boot record. .P2 Since we are not installing on a disk with a pre-existing Windows installation, we choose to install the Plan 9 master boot record and mark the partition active: .P1 Install the Plan 9 master boot record (y, n)[no default]: y Mark the Plan 9 partition active (y, n)[no default]: y The Plan 9 partition is now marked as active. .P2 .html - <a name="4.3.17" /> .ihtml h3 <h3> .SH 4.3.17 - finish .R .ihtml h3 The final task is to remove (or disable) the CD-ROM and finish by hitting .CW enter to reboot the machine. Congratulations, you've just installed a 9front system! .bp Now your cat goes to sleep on the keyboard. .FG cinapcatdrawing png .bp .html - <a name="4.4" /> .ihtml h2 <h2> .SH 4.4 - Encrypted Partitions .R .ihtml h2 .html - <br /> .FG cryptsetup jpg 9front supports booting from encrypted .CW fsworm , .CW fscache and .CW other partitions. The following assumes a hard drive .CW /dev/sdC0: .ihtml ul <ul> .IP • Begin the installation process as normal by booting .CW .ihtml a <a href="fqa1.html#1.11.1"> 9front.iso. .ihtml a .R • During .CW partdisk and .CW prepdisk , create the .CW fsworm , .CW fscache and .CW other partitions as normal. • At the .CW mountfs prompt, enter .CW !rc to drop to a shell prompt. • Format and activate the encrypted partitions (generates new encryption key): .P1 disk/cryptsetup -f /dev/sdC0/fsworm /dev/sdC0/fscache /dev/sdC0/other disk/cryptsetup -i /dev/sdC0/fsworm /dev/sdC0/fscache /dev/sdC0/other .P2 .IP • Type .CW exit to resume the installation. • During .CW mountfs , select the partitions under .CW /dev/fs instead of the ones under .CW /dev/sdC0 . • During the rest of the installation, select the defaults, where appropriate. • During post-installation boot, at the .CW bootargs prompt, type .CW !rc to drop to a shell prompt. • Activate the encrypted partitions (prompts for password): .P1 disk/cryptsetup -i /dev/sdC0/fsworm /dev/sdC0/fscache /dev/sdC0/other .P2 .IP • Type .CW exit to resume booting. • At the .CW bootargs prompt, enter .CW local!/dev/fs/fscache to continue booting from the encrypted partition. .LP .ihtml ul .B Note: Encrypted partitians are largely untested. Data integrity is not guaranteed. Use at your own risk. Encrypted partitions have not been tested with .CW hjfs . Read: .ihtml a <a href="http://man.9front.org/8/cryptsetup"> .CW cryptsetup(8) .ihtml a .html - <hr /> .html - <a href="fqa.html">FQA INDEX</a> | .html - <a href="fqa3.html">FQA 3 - Hardware</a> | .html - <a href="fqa5.html">FQA 5 - Building The System From Source</a>