1 DRAGONFLY CDROM README FILE 2 3 This CDROM boots DragonFly BSD. Basically what you get is a full base 4 system on CD with certain critical directories, such as /tmp, remounted 5 read-write using MFS. Your existing hard drive is not affected by 6 booting this CDROM. 7 8 NOTE!!! DRAGONFLY IS UNDERGOING DEVELOPMENT AND IS CONSIDERED 9 EXPERIMENTAL! BSD RELATED EXPERIENCE IS RECOMMENDED WHEN USING 10 THIS CDROM. 11 12 If you just want to play with DragonFly and not mess with your hard disk, 13 this CDROM boots into a fully operational console-based system, though 14 without swap it should be noted that you are limited by available memory. 15 It is a good idea to test your hardware for compatibility from a CD boot 16 before spending time installing the dist on your hard disk. 17 18 19 AUTOMATIC INSTALLATION 20 21 There are currently two installation tools available - the installer, and 22 rconfig. 23 24 The installer can be run with a text-based (curses) user interface 25 from the serial console or a VTY, and provides a straightforward method 26 for installing DragonFly on your HD. To start it, just login with the 27 username 'installer'. 28 29 The installer can also be run with a web-based (CGI) user interface. 30 To set this up manually is a bit of work, but much of it can be automated 31 by writing a couple of lines into a configuration file on a floppy disk 32 or USB pendrive, and inserting or attaching that to the computer before 33 booting the CDROM. See the file /etc/defaults/pfi.conf for more info. 34 35 rconfig is a client/server protocol which requires a server (typically on 36 the same network). An example server setup can be found in 37 /usr/share/examples/rconfig. If you have multiple machines you can setup 38 an installation script and run rconfig on a server and then install the 39 clients from CD boot with network connectivity (e.g. dhclient <blah>) 40 and then, typically, 'rconfig -a'. 41 42 You can also just boot from the CD, login as 'root' to get a shell 43 prompt, copy the sample script to /tmp, edit, and run it directly 44 (assuming that blowing away your existing disk is ok). 45 46 47 CONSOLE OPERATION 48 49 The second stage boot (boot2) and third stage boot (loader) default 50 to dual serial & video console I/O. The system will also throw a login 51 prompt up on ttyd0 by default. You can direct the boot output 52 to just the serial port by creating the file /boot.config with the 53 line '-h', or to just the screen using '-V'. If you wish to leave 54 boot2 in dual I/O mode but want the third stage to use just one or the 55 other, you can set the 'console' environment variable in /boot/loader.conf 56 to either 'console=vidconsole' or 'console=comconsole'. 57 58 The dual serial port operation might have to be disabled if you use 59 the serial port for things like UPSs. Also note that by default 60 the CD will run a login prompt on the serial port after booting is 61 complete. This can be disabled by editing the 'ttyd0' line in /etc/ttys 62 after installation is complete. 63 64 Note that the kernel itself currently only supports one console or the 65 other. If both are enabled, the kernel will use the video console or 66 the last one for which input was received. 67 68 69 MANUAL INSTALLATION 70 71 Manual installation of DragonFly onto an HD involves the following sequence 72 of commands. You must be familiar with BSD style UNIX systems to do 73 installations manually. The primary IDE hard drive is typically 'ad0' 74 and DragonFly is typically installed onto the first free slice 75 (ad0s1 if disk is empty, ad0s2 if your first slice contains 76 another OS, etc). Be careful to substitute the correct partition name 77 in the steps below. 78 79 # OPTIONAL STEP: If your disk is already partitioned and you 80 # have a spare primary partition on which you want to install 81 # Dragonfly, skip this step. However, sometimes old boot 82 # blocks or cruft in the boot area can interfere with the 83 # initialization process. A cure is to zero out the start of 84 # the disk before running fdisk. 85 # 86 # WARNING: This COMPLETELY WIPES and repartitions your hard drive. 87 # 88 dd if=/dev/zero of=/dev/ad0 bs=32k count=16 89 fdisk -I ad0 90 fdisk -B ad0 91 92 # If you didn't zero the disk as above, but have a spare slice 93 # whose partition type you want to change to UFS, use fdisk(8). 94 95 # This installs boot blocks onto the HD and verifies their 96 # installation. See note just above the 'reboot' below for 97 # things to try if it does not boot from your HD. If you 98 # already have a multi-OS bootloader installed you can skip 99 # this step. 100 # 101 boot0cfg -B ad0 102 boot0cfg -v ad0 103 104 # This creates an initial label on the chosen slice of the HD. If 105 # you have problems booting you could try wiping the first 32 blocks 106 # of the slice with dd and then reinstalling the label. Replace 107 # 'ad0s1' with the chosen slice. 108 # 109 # dd if=/dev/zero of=/dev/ad0s1 bs=32k count=16 110 disklabel -B -r -w ad0s1 auto 111 112 # Edit the label. Create various standard partitions. The typical 113 # configuration is: 114 # 115 # ad0s1a 256m This will be your / 116 # ad0s1b 1024m This will be your swap 117 # ad0s1c (leave alone) 118 # ad0s1d 256m This will be your /var 119 # ad0s1e 256m This will be your /tmp 120 # ad0s1f 8192m This will be your /usr (min 4096m) 121 # ad0s1g * All remaining space to your /home 122 # 123 # An example disklabel can be found in /etc/disklabel.ad0s1. 124 # 125 disklabel -e ad0s1 126 127 # If you are not using ad0s1 as in the previous commands, you will 128 # need to create the device nodes for that slice. Change the 129 # slice number (ad0s2a) to match the disk slice you are using. 130 # 131 # The device nodes are automatically created for ad0s1, so you can 132 # safely skip this step if you are using that disk slice. 133 # 134 cd /dev && MAKEDEV ad0s2a 135 136 # Newfs (format) the various filesystems. Softupdates is not 137 # normally enabled on the root filesystem because large kernel or 138 # world installs/upgrades can run it out of space due to softupdate's 139 # delayed bitmap freeing code. 140 # 141 newfs /dev/ad0s1a 142 newfs -U /dev/ad0s1d 143 newfs -U /dev/ad0s1e 144 newfs -U /dev/ad0s1f 145 newfs -U /dev/ad0s1g 146 147 # Mount the filesystems. 148 # 149 mount /dev/ad0s1a /mnt 150 mkdir /mnt/var 151 mkdir /mnt/tmp 152 mkdir /mnt/usr 153 mkdir /mnt/home 154 mount /dev/ad0s1d /mnt/var 155 mount /dev/ad0s1e /mnt/tmp 156 mount /dev/ad0s1f /mnt/usr 157 mount /dev/ad0s1g /mnt/home 158 159 # Copy the CDRom onto the target. cpdup won't cross mount boundaries 160 # on the source (e.g. the MFS remounts) so it takes a few commands. 161 # 162 # Note that /etc contains the config files used for booting from the 163 # CDROM itself, and /etc.hdd contains those for booting off a 164 # hard disk. So it's the latter that you want to copy to /mnt/etc. 165 # 166 cpdup / /mnt 167 cpdup /var /mnt/var 168 cpdup /etc.hdd /mnt/etc 169 cpdup /dev /mnt/dev 170 cpdup /usr /mnt/usr 171 172 # Cleanup. Also, with /tmp a partition it is usually reasonable 173 # to make /var/tmp a softlink to /tmp. 174 # 175 chmod 1777 /mnt/tmp 176 rm -rf /mnt/var/tmp 177 ln -s /tmp /mnt/var/tmp 178 179 # Edit /mnt/etc/fstab to reflect the new mounts. An example fstab 180 # file based on the above parameters exists as /mnt/etc/fstab.example 181 # which you can rename to /mnt/etc/fstab. 182 # 183 mv /mnt/etc/fstab.example /mnt/etc/fstab 184 vi /mnt/etc/fstab 185 186 # Save out your disklabel just in case. It's a good idea to save 187 # it to /etc so you can get at it from your backups. You do intend 188 # to backup your system, yah? :-) (This isn't critical but it's a 189 # good idea). 190 # 191 disklabel ad0s1 > /mnt/etc/disklabel.ad0s1 192 193 194 MISC CLEANUPS BEFORE REBOOTING 195 196 Once you've duplicated the CD onto your HD you have to make some edits 197 so the system boots properly from your HD. Primarily you must remove 198 or edit /mnt/boot/loader.conf, which exists on the CD to tell the kernel 199 to mount the CD's root partition. 200 201 # Remove or edit /mnt/boot/loader.conf so the kernel does not try 202 # to obtain the root filesystem from the CD, and remove the other 203 # cruft that was sitting on the CD that you don't need on the HD. 204 # 205 rm /mnt/boot/loader.conf 206 rm /mnt/README* /mnt/autorun* /mnt/index.html /mnt/dflybsd.ico 207 rm /mnt/boot.catalog 208 rm -r /mnt/rr_moved 209 210 At this point it should be possible to reboot. The CD may be locked 211 since it is currently mounted. To remove the CD, type 'halt' instead 212 of 'reboot', wait for the machine to halt, then the CD door should be 213 unlocked. Remove the CD and hit any key to reboot. 214 215 Be careful of the CD drawer closing on you if you try to remove the CD 216 while the machine is undergoing a reboot or reset. 217 218 WARNING: Do not just hit reset; the kernel may not have written out 219 all the pending data to your HD. Either unmount the HD partitions 220 or type halt or reboot. 221 222 # halt 223 (let the machine halt) 224 (remove CD when convenient, be careful of the CD drawer closing on you) 225 (hit any key to reboot) 226 227 228 THE ACPI ISSUE 229 230 You will notice in the boot menu that you can choose to boot with or 231 without ACPI. ACPI is an infrastructure designed to allow an operating 232 system to configure hardware devices associated with the system. 233 Unfortunately, as usual, PC BIOS makers have royally screwed up the 234 standard and ACPI is as likely to hurt as it is to help. Worse, some 235 PCs cannot be booted without it, so there is no good 'default' choice. 236 237 The system will use ACPI by default. You can disable it in the default 238 boot by adding the line 'hint.acpi.0.disabled=1' in /boot/loader.conf. 239 If you boot without hitting any menu options the system will boot without 240 ACPI. To boot without ACPI no matter what, place 'unset acpi_load' in 241 our /boot/loader.conf instead. This is not recommended. 242 243 244 IF YOU HAVE PROBLEMS BOOTING FROM HD 245 246 There are a couple of things to try. Try booting from the CD again and 247 use boot0cfg to turn off packet mode (boot0cfg -o nopacket ad0). If you 248 can select CHS or LBA mode in your BIOS, try changing the mode to LBA. 249 Also try booting with and without ACPI (option 1 or 2 in the boot menu). 250 251 Once you have a working HD based system you can clean up /etc/rc.conf 252 to enable things like cron, sendmail, setup your networking, and so 253 forth. If 'ifconfig' does not show your networking device you could 254 try to kldload it from /modules. With a recognized network device 255 you can ifconfig its IP address or, if you have a DHCP server on your 256 network, use 'dhclient <interfacename>' to obtain an IP address from 257 the network. 258 259 260 USING GIT TO OBTAIN A SOURCE TREE AND DOING BUILDWORLDS 261 262 Instructions on how to obtain and maintain DragonFly source code using 263 git are in the development(7) manual page. 264 265 To upgrade a DragonFly system from sources you run the following 266 sequence: 267 268 cd /usr/src 269 make buildworld 270 make buildkernel KERNCONF=<KERNELNAME> 271 make installkernel KERNCONF=<KERNELNAME> 272 make installworld 273 274 You will also want to run the 'upgrade' target to upgrade your /etc 275 and the rest of your system. The upgrade target is aware of stale 276 files created by older DragonFly installations and should delete them 277 automatically. 278 279 make upgrade 280 281 See the build(7) manual page for further information. 282 283 Once you've done a full build of the world and kernel you can do 284 incremental upgrades of either by using the 'quickworld' and 285 'quickkernel' targets instead of 'buildworld' and 'buildkernel'. If 286 you have any problems with the quick targets, try updating your repo 287 first, and then a full buildworld and buildkernel as shown above, before 288 asking for help. 289 290 291 OBTAINING A PKGSRC TREE TO BUILD/INSTALL PACKAGES 292 293 In order to obtain a reasonably current snapshot of the pkgsrc tree, use 294 the tarball from NetBSD: 295 296 fetch -o /tmp/pkgsrc.tar.gz ftp://ftp.NetBSD.org/pub/NetBSD/packages/pkgsrc.tar.gz 297 cd /usr; tar -xzf /tmp/pkgsrc.tar.gz; chown -R root:wheel pkgsrc 298 299 This tree can then be kept up to date with cvs update: 300 301 cd /usr/pkgsrc; cvs up 302 303 304 EMERGENCY RECOVERY FROM THE CD 305 306 Lets say you blew up your kernel or something else in / and you need to 307 boot the CD to fix it. Remember that you have a fully operational 308 system when booting the CD, but that you have to fsck and mount your 309 hard drive (typically onto /mnt) to get at the contents of your HD. 310 311 Your HD is typically an IDE hard drive, so the device is typically 312 /dev/ad0. DragonFly is typically on the first slice, which is 313 /dev/ad0s1, and the root partition is always in partition 'a', 314 which is /dev/ad0s1a. 315 316 # fsck root before trying to mount it. 317 fsck /dev/ad0s1a 318 # mount root read-write onto /mnt 319 mount /dev/ad0s1a /mnt 320 # copy files from the CD as appropriate to make it possible to boot 321 # from your HD again. Note that /mnt/kernel may be flags-protected. 322 chflags noschg /mnt/kernel 323 cp /kernel /mnt/kernel 324 cp /modules/* /mnt/modules/ 325 326 If you want to mount other partitions from your HD but have forgotten 327 what they are, simply cat /mnt/etc/fstab after mounting the root 328 partition. 329 330$DragonFly: src/nrelease/root/README,v 1.22 2006/10/24 17:09:45 swildner Exp $ 331 332