#!/bin/bash # # Module: install-system # # **** License **** # Version: VPL 1.0 # # The contents of this file are subject to the Vyatta Public License # Version 1.0 ("License"); you may not use this file except in # compliance with the License. You may obtain a copy of the License at # http://www.vyatta.com/vpl # # Software distributed under the License is distributed on an "AS IS" # basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See # the License for the specific language governing rights and limitations # under the License. # # This code was originally developed by Vyatta, Inc. # Portions created by Vyatta are Copyright (C) 2006, 2007 Vyatta, Inc. # All Rights Reserved. # # Author: Robert Bays # Date: 2006 # Description: # # **** End License **** # # Vyatta system installer script. # # # If you set VYATTA_AUTO_INSTALL I will try to do an automated install for you if [ -e /etc/default/vyatta ] ; then . /etc/default/vyatta fi : ${vyatta_prefix:=/opt/vyatta} : ${vyatta_exec_prefix:=$vyatta_prefix} : ${vyatta_bindir:=${vyatta_exec_prefix}/bin} : ${vyatta_sbindir:=${vyatta_exec_prefix}/sbin} : ${vyatta_sysconfdir:=${vyatta_prefix}/etc} ofrconfdir=${vyatta_sysconfdir}/config fdconfdir=/media/floppy/config rootfsdir=/mnt/rootfs # install log file name INSTALL_LOG="install.log" # root partition minimum size in MB ROOT_MIN="450" # the base install drive e.g. sda if [ -n "$INSTALL_DRIVE" ]; then INSTALL_DRIVE="" fi # the install partition e.g. sda1 if [ -n "$ROOT_PARTITION" ]; then ROOT_PARTITION="" fi # the config partition e.g. sda2 if [ -n "$CONFIG_PARTITION" ]; then CONFIG_PARTITION="" fi # the size of the root partition if [ -n "$ROOT_PARTITION_SIZE" ]; then ROOT_PARTITION_SIZE="" fi # global holding variable used in the select_partition sub PARTITION='' # Process ID of this script for the lame marketing spinner SPID=$$ # Path to standalone root password reset script PWRESET=/opt/vyatta/sbin/standalone_root_pw_reset # trap signals so we can kill runaway progress indicators trap 'progress_indicator "stop"; exit 1' 1 trap 'progress_indicator "stop"; exit 1' 2 # turn off any mounted swap partitions turnoffswap () { if [ -f "/proc/swaps" ]; then myresponse=$(cat /proc/swaps) if [ -n "$myresponse" ]; then echo "turning off swaps..." >> $INSTALL_LOG swapoff -a fi fi } # Validates a user response. Returns the response if valid. # Returns the default is the user just hits enter. # Returns nothing if not valid. Default parameter is $1. # Options are in $2. If options are defined return must be a member # of the enum. get_response () { ldefault=$(echo "$1" | tr [:upper:] [:lower:]) loptions=$(echo "$2" | tr [:upper:] [:lower:]) # get the response from the user read myresponse myresponse=$(echo "$myresponse" | awk '{ printf (tolower($0)) }') # Check to see if the user accepts the default if [ -z "$myresponse" ]; then echo -n $ldefault # if we are passing in options to check, make sure response is a valid option elif [ -n "$loptions" ]; then for token in $loptions do if [ "$token" == "$myresponse" ]; then echo -n "$myresponse" return 0 fi done return 1 else echo -n "$myresponse" fi return 0 } # Return the size of the drive in MB get_drive_size () { ldrive=$1 # Make sure you can print disk info using parted parted /dev/$ldrive p >/dev/null 2>&1 # If unable to read disk, it's likely it needs a disklabel if [ "$?" != "0" ]; then echo "Creating a new disklabel on $ldrive" >> $INSTALL_LOG echo "parted /dev/$ldrive mklabel msdos" >> $INSTALL_LOG output=$(parted /dev/$ldrive mklabel msdos) # Get the drive size from parted lsize=$(parted /dev/$ldrive p | grep "^Disk" | awk '{ print $3 }') if [ $(echo $lsize | grep error) ]; then echo "Unable to read disk label. Exiting." exit 1 fi fi # Get the drive size from parted lsize=$(parted /dev/$ldrive p | grep "^Disk" | awk '{ print $3 }') # Get the reported units (mB, GB, kB) lmodifier=$(echo $lsize | sed 's/[0-9\.]//g') # remove the modifier lsize=$(echo $lsize | sed 's/[a-z,A-Z]//g') # Remove any fractions lsize=$(echo $lsize | cut -f1 -d'.') # Translate our size into mB if not there already if [ $lmodifier = "GB" ]; then lsize=$(($lsize * 1000)) elif [ $lmodifier = "kB" ]; then lsize=$(($lsize / 1000)) fi echo $lsize } # Probe hardrives not shown in /proc/partitions by default probe_drives () { # find IDE drives. Not all drives show up in /proc/partitions for # some reason. # TODO: not sure we have to do this for anything but compact flash # when we test on other platforms, we will find out and modify this section # as appropriate drive=$(find /proc/ide/ide* -name "hd*" 2>/dev/null | /usr/bin/awk -F"/" '{ print $5 }') # now exclude all drives but disks for drive in $drive do media=$(cat /proc/ide/$drive/media) if [ "$media" = "disk" ]; then output=$(mount | grep $drive) if [ -z "$output" ]; then output=$(parted /dev/$DRIVE p) fi fi done } # Takes an argument to display text before choice # Sets INSTALL_DRIVE. Note that select_drive should be wrapped # in the verification loop, not the included get_response. select_drive () { # list the drives in /proc/partitions. Remove partitions and empty lines. drives=$(cat /proc/partitions | awk '{ if ($4!="name") { print $4 } }' | egrep -v "[0-9]$" | egrep -v "^$") # take the first drive as the default INSTALL_DRIVE=$(echo $drives | /usr/bin/awk '{ print $1 }') # Add the drive sizes to the display to help the user decide display='' for drive in $drives do size=$(get_drive_size $drive) display="$display $drive\t$size"MB"\n" done # Display the drives and ask the user which one to install to echo -e "$display" echo echo -n "$1 [$INSTALL_DRIVE]:" INSTALL_DRIVE=$(get_response "$INSTALL_DRIVE" "$drives") echo # Assume no dma if the disk is smaller than 10G (such as a CF drive) size=$(get_drive_size $INSTALL_DRIVE) if [ $size -lt 11000 ] then ISCF="ide=nodma" fi } # Allow the user to select a partition to work with # sets the global PARTITION # $1 is the text to display before prompt select_partition () { minsize=$1 text=$2 echo -n "Looking for appropriate partitions: " progress_indicator "start" # initialize out global var. using globals in this way is bad form. I know. PARTITION='' # list only the partitions in /proc/partitions. parts=$(cat /proc/partitions | awk '{ if ($4!="name") { print $4 " "} }' | egrep "[0-9]" | egrep -v "loop" | tr -d '\n') # Get the partition sizes for display # only show partitions that have sizes, i.e. remove loops display='' for part in $parts do lsize=$(get_drive_size $part) if [ "$lsize" -a $lsize -ge $minsize ]; then display="$display $part\t\t$lsize"MB"\n" fi done progress_indicator "stop" echo "OK" if [ -n "$parts" ]; then lpartition='' while [ -z "$lpartition" ] do # take the first partition as the default lpartition=$(echo $parts | /usr/bin/awk '{ print $1 }') echo "I found the following partitions suitable for the Vyatta image:" echo -e "Partition\tSize" echo -e "$display" echo echo -n "$text [$lpartition]: " lpartition=$(get_response "$lpartition" "$parts") echo done else echo "No suitable partition sizes found. Exiting..." | tee $INSTALL_LOG exit 1 fi PARTITION=$lpartition } # Delete all existing partitions for an automated install # $1 is the drive to delete partitions from delete_partitions () { ldrive=$1 # get the partitions on the drive partitions=$(cat /proc/partitions | grep $ldrive[0-9] | awk '{ print $4 }' | sed 's/[a-z]//g') # now for each part, blow it away for part in $partitions do # Look to see if this is a config partition mkdir -p /mnt/tmp output=$(mount /dev/$ldrive$part /mnt/tmp 2>&1) if [ $? != 0 ]; then echo -e "Cannot mount /dev/$ldrive$part"."\nPlease see $INSTALL_LOG for more details.\nExiting.." echo -e "Cannot mount /dev/$ldrive$part"."\nmount /dev/$ldrive$part /mnt/tmp\nExiting..." >> $INSTALL_LOG echo "$output" >> $INSTALL_LOG exit 1 fi # Look to see if there is a config parition there if [ -f /mnt/tmp/opt/vyatta/etc/config/.vyatta_config ] || [ -f .vyatta_config ]; then response='' while [ -z "$response" ] do echo "/dev/$ldrive$part has an old configuration directory!" echo -ne "Would you like me to save the data on it\nbefore I delete it? (Yes/No) [Yes]: " response=$(get_response "Yes" "Yes No Y N") if [ "$response" == "yes" ] || [ "$response" == "y" ]; then mkdir -p /mnt/config if [ -d /mnt/tmp/opt/vyatta/etc/config ]; then output=$(cp -pR /mnt/tmp/opt/vyatta/etc/config/* /mnt/config) else output=$(cp -pR /mnt/tmp/* /mnt/config) fi if [ -n "$output" ]; then echo -e "Warning: error in copying the old config partition.\nSee $INSTALL_LOG for more details." echo -e "Warning: error in copying the old config partition.\ncp -pR /mnt/tmp/* /mnt/config\n$output\n" >> $INSTALL_LOG fi fi done fi umount /mnt/tmp echo "Removing partition $part on /dev/$ldrive" >> $INSTALL_LOG output=$(parted /dev/$ldrive rm $part) status=$? if [ "$status" != 0 ]; then echo -e "Warning: cannot delete partition $part on $ldrive.\nPlease see $INSTALL_LOG for more details." echo -e "Warning: cannot delete partition $part on $ldrive.\nparted /dev/$ldrive rm $part\n$output" >> $INSTALL_LOG fi # We add a bogus sleep here because the loop needs to wait for udev sleep 5 done } # make a filesystem on the drive # $1 is the drive to format make_filesystem () { ldrive=$1 echo -n "Creating filesystem on /dev/$ldrive: " echo "Creating filesystem on /dev/$ldrive..." >> $INSTALL_LOG progress_indicator "start" output=$(mke2fs -j /dev/$ldrive 2>&1) status=$? if [ "$status" != 0 ]; then echo -e "Error: couldn't create the root filesystem.\nSee $INSTALL_LOG for further details.\nExiting..." echo -e "Error: couldn't create the root filesystem.\n/sbin/mke2fs -j /dev/$lDRIVE\n$output" exit 1 fi progress_indicator "stop" echo "OK" } # create the root partition # $1 is the install drive e.g. sda # $2 is the partition size e.g. 512 # This will set the global ROOT_PARTITION create_partitions() { ldrive=$1 root_part_size=$2 # Make sure there is enough space on drive size=$(get_drive_size "$ldrive") if [ "$root_part_size" -gt "$size" ]; then echo "Error: $ldrive is only $size"MB" large." exit 1 fi echo "Creating root partition on /dev/$ldrive" >> $INSTALL_LOG # make the root partition output=$(parted /dev/$ldrive mkpart primary 0 $root_part_size) status=$? if [ "$status" != 0 ]; then echo -e "Error creating primary partition on $ldrive.\nPlease see $INSTALL_LOG for more details.\nExiting..." echo -e "Error creating primary partition on $ldrive.\nparted /dev/$ldrive mkpart primary 0 $root_part_size\n$output" >> $INSTALL_LOG exit 1 fi ROOT_PARTITION=$ldrive"1" # udev takes time to re-add the device file, so wait for it while [ ! -b "/dev/$ROOT_PARTITION" ] do sleep 1 done # make the root and config ext3 file systems. make_filesystem "$ROOT_PARTITION" } # Install the root filesystem # $1 is the partition to install on install_root_filesystem () { ldrive=$1 dpkg="/usr/bin/dpkg --force-all --root=$rootfsdir" echo "Mounting /dev/$ldrive " echo "Mounting /dev/$ldrive..." >> $INSTALL_LOG # make the mount point output=$(/bin/mkdir -p $rootfsdir) # mount the partition output=$(mount -t ext3 /dev/$ldrive $rootfsdir) status=$? if [ "$status" != 0 ]; then echo -e "Error trying to mount the new root partition.\nPlease see $INSTALL_LOG for details.\nExiting..." echo -e "Error trying to mount the new root partition.\nmount -t ext3 /dev/$ldrive $rootfsdir\n$output" >> $INSTALL_LOG exit 1 fi echo -n "Copying system image files to /dev/$ROOT_PARTITION: " progress_indicator "start" # Mount the squashfs for copying output=$(mkdir -p /mnt/squashfs) output=$(mount /live/image/live/filesystem.squashfs /mnt/squashfs -t squashfs -o loop) status=$? if [ "$status" != 0 ]; then echo -e "Error trying to mount the squashfs.\nPlease see install log for more details.\nExiting..." echo -e "Error trying to mount the squashfs.\nmount /live/image/live/filesystem.squashfs /mnt/squashfs -t squashfs -o loop\n$output" >> $INSTALL_LOG exit 1 fi output=$(cp -pR /mnt/squashfs/* $rootfsdir/) status=$? if [ "$status" != 0 ]; then echo -e "Error trying to copy the rootfs.\nPlease see install log for more details.\nExiting. .." echo -e "Error trying to copy the rootfs.\ncp -pR /mnt/squashfs/* $rootfsdir/\n$output" >> $INSTALL_LOG exit 1 fi # unmount the squashfs. No big deal if it fails. output=$(umount /mnt/squashfs) # make the dir for the boot files and copy em' over mkdir -p $rootfsdir/boot output=$(cp -pR /boot/* $rootfsdir/boot/) status=$? output+=$(cp /live/image/live/initrd1.img $rootfsdir/boot/initrd.img) status=$status$? if [ "$status" -ne 0 ]; then echo -e "Error trying to copy the bootfiles.\nPlease see install log for more details.\nExiting..." echo -e "Error trying to copy the bootfiles.\ncp /boot/initrd.img $rootfsdir/boot/\n$output" >> $INSTALL_LOG exit 1 fi # create the fstab echo -e "/dev/$ROOT_PARTITION\t/\text3\tdefaults\t0 1" >> $rootfsdir/etc/fstab #setup the hostname file cp /etc/hostname $rootfsdir/etc/ cp /etc/hosts $rootfsdir/etc/ progress_indicator "stop" echo "OK" } # copy the configuration to the config partition # $1 is the config partition device copy_config () { config_partition=$1 lerror='' config_default=$vyatta_sysconfdir/config.boot.default tmp_config_default=/tmp/${vyatta_sysconfdir//\//__} # create the config directory on the union file system mkdir -p $rootfsdir$ofrconfdir # create the proper perms on the new config partition chgrp vyattacfg $rootfsdir$ofrconfdir chmod 775 $rootfsdir$ofrconfdir # create our config partition marker touch $rootfsdir$ofrconfdir/.vyatta_config if [ -d /mnt/config ]; then echo "Copying old configurations to config partition." cp -pR /mnt/config/* $rootfsdir$ofrconfdir else # Find the config files and give the user the option to copy config files # TODO: this needs cleaned up if [ -f $ofrconfdir/config.boot ]; then config=$ofrconfdir/config.boot fi if [ -f $fdconfdir/config.boot ]; then if [ -z "$config" ]; then config="$fdconfdir/config.boot" else config="$config\n$fdconfdir/config.boot" fi fi if [ -n "$config" ]; then echo "I found the following configuration files" echo -e "$config" default=$(echo -e $config| head -1) resp='' while [ -z "$configfile" ] do echo -n "Which one should I copy to $INSTALL_DRIVE? [$default]: " configfile=$(get_response "$default" "$config") done echo output=$(cp $configfile $rootfsdir$ofrconfdir) if [ -n "$output" ]; then echo "Error copying file $configfile to config directory. Exiting..." >> $INSTALL_LOG exit 1 fi fi fi # set the permissions on the new config file if [ -f $rootfsdir$ofrconfdir/config.boot ]; then chgrp vyattacfg $rootfsdir$ofrconfdir/config.boot chmod 775 $rootfsdir$ofrconfdir/config.boot fi } # setup grub on the boot sector of a user queried drive install_grub () { orig_install_drive="$INSTALL_DRIVE" # we now use INSTALL_DRIVE to reference the grub boot drive. # that way I can re-use select_drive. I'm lazy that way. INSTALL_DRIVE='' mkdir -p $rootfsdir/boot/grub # Let the user choose the boot sector while [ -z "$INSTALL_DRIVE" ] do echo "I need to install the GRUB bootloader." echo "I found the following drives on your system:" select_drive "Which drive should GRUB modify the boot partition on?" done echo -n "Setting up grub: " echo "Setting up grub..." >> $INSTALL_LOG # Install grub in the boot sector of the primary drive progress_indicator "start" grub-install --no-floppy --root-directory=$rootfsdir /dev/$INSTALL_DRIVE >>$INSTALL_LOG 2>&1 progress_indicator "stop" # TODO: This needs to be changed to map to the correct drive part=$(echo $ROOT_PARTITION | sed 's/[^0-9]//g') part=$(($part - 1)) if [ "$(cat /sys/block/$orig_install_drive/removable)" == 0 ]; then root=$(grep $orig_install_drive $rootfsdir/boot/grub/device.map | /usr/bin/awk -F')' '{ print $1 }') root="$root,$part)" else echo "This looks like a removable device. Setting root grub device to (0,0)." echo "This looks like a removable device. Setting root grub device to (0,0)." >> $INSTALL_LOG root="(hd0,$part)" fi # Figure out whether we are running on the serial or KVM console: if [ "`tty`" == "/dev/ttyS0" ]; then # Since user is running on serial console, make that the default. DEFAULT_CONSOLE="1" else # Since user is running on KVM console, make that the default DEFAULT_CONSOLE="0" fi # create the menu.lst file for grub # The "default=" line selects which boot option will be used by default. # Numbering starts at 0 for the first option. grub_file="$rootfsdir/boot/grub/menu.lst" echo -e "default=$DEFAULT_CONSOLE\ntimeout=5\n#splashimage=(hd0,0)/grub/splash.xpm.gz\nhiddenmenu" > $grub_file # set serial console options echo -e "serial --unit=0 --speed=9600\nterminal --timeout=5 console serial\n\n" >> $grub_file # Set first system boot option. Make KVM the default console in this one. echo -e "title Vyatta OFR (KVM console)\n\troot $root" >> $grub_file echo -en "\tkernel /boot/vmlinuz root=/dev/$ROOT_PARTITION $ISCF console=ttyS0,9600 console=tty0 \n" >> $grub_file echo -e "\tinitrd /boot/initrd.img" >> $grub_file # Set the second system boot option. Make the serial port be the default # console in this one. echo >> $grub_file echo -e "title Vyatta OFR (Serial console)\n\troot $root" >> $grub_file echo -en "\tkernel /boot/vmlinuz root=/dev/$ROOT_PARTITION $ISCF console=tty0 console=ttyS0,9600 \n" >> $grub_file echo -e "\tinitrd /boot/initrd.img" >> $grub_file # Set third and fourth boot options for root password reset. Offer # options for both serial and KVM console. echo >> $grub_file echo -e "title Root password reset to factory (KVM console)" >> $grub_file echo -e "\troot $root" >> $grub_file echo -e "\tkernel /boot/vmlinuz root=/dev/$ROOT_PARTITION $ISCF console=ttyS0,9600 console=tty0 init=$PWRESET" >> $grub_file echo -e "\tinitrd /boot/initrd.img" >> $grub_file echo >> $grub_file echo -e "title Root password reset to factory (Serial console)" >> $grub_file echo -e "\troot $root" >> $grub_file echo -e "\tkernel /boot/vmlinuz root=/dev/$ROOT_PARTITION $ISCF console=tty0 console=ttyS0,9600 init=$PWRESET" >> $grub_file echo -e "\tinitrd /boot/initrd.img" >> $grub_file echo "OK" } # ask for user input on the parted and skip setup methods # $1 is whether or not to run parted # sets globals INSTALL_DRIVE, ROOT_PARTITION, CONFIG_PARTITION setup_method_manual() { parted=$1 echo "The Vyatta install needs a minimum ${ROOT_MIN}MB root" echo "with partiton type 83 (Linux)." echo -e "\n\n" # if this is parted, let the user create the partitions if [ "$method" == "parted" ] || [ "$method" == "p" ]; then while [ -z "$INSTALL_DRIVE" ] do # TODO: right now we only run parted on a single drive echo -e "\nI found the following drives on your system:" select_drive "Which drive would you like to run parted on?" done # Unmount the install drive if it is mounted unmount "$INSTALL_DRIVE" # Run parted and let the user configure parted /dev/$INSTALL_DRIVE fi # Ask for the root partition and make sure it's valid while [ -z "$ROOT_PARTITION" ] do select_partition 500 "Which partition should I install the root on?" # Note that PARTITION is defined in select partition ROOT_PARTITION=$PARTITION unmount "$ROOT_PARTITION" vd=$(grep $ROOT_PARTITION /proc/partitions | awk '{ print $4 }') if [ -z "$vd" ]; then echo echo "$ROOT_PARTITION is an invalid partition. Please try again." ROOT_PARTITION="" fi done # create the ext3 fs on the part make_filesystem "$ROOT_PARTITION" # We need to set the INSTALL_DRIVE if it wasn't set when the user ran parted # We assume that we will use the boot sector of the same drive that the partition is on # TODO: Allow different drives to function as the boot device if [ -z "INSTALL_DRIVE" ]; then INSTALL_DRIVE=$(echo $ROOT_PARTITION | sed 's/[0-9]//g') fi } # Walk the user through the auto setup method # sets globals INSTALL_DRIVE, ROOT_PARTITION, CONFIG_PARTITION setup_method_auto() { while [ -z "$INSTALL_DRIVE" ] do echo "I found the following drives on your system:" select_drive "Install the image on?" # check to make sure the drive is large enough to hold the image if [ -n "$INSTALL_DRIVE" ]; then lsize=$(get_drive_size "$INSTALL_DRIVE") total=$ROOT_MIN if [ "$total" -gt "$lsize" ]; then echo "Unfortunately, the OFR requires a total of at least $total"MB" to properly install." echo "$INSTALL_DRIVE is below the minimum required capacity and therefore, cannot be used to" echo -e "complete the installation.\n" echo "If other drives are present" echo -e "Please select another drive...\n" INSTALL_DRIVE='' fi fi done # Give the user a requisite warning that we are about to nuke their drive response='' while [ -z $response ] do echo "This will destroy all data on /dev/$INSTALL_DRIVE." echo -n "Continue? (Yes/No) [No]: " response=$(get_response "No" "Yes No Y N") if [ "$response" == "no" ] || [ "$response" == "n" ]; then echo "Ok then. Exiting..." exit 1 fi done echo # make sure we aren't working on a mounted part unmount "$INSTALL_DRIVE" # remove any existing partitions on that drive delete_partitions "$INSTALL_DRIVE" # Enforce minimum partion size requirement. ROOT_PARTITION_SIZE=0 while [ $ROOT_MIN -gt $ROOT_PARTITION_SIZE ]; do # Get the size of the drive size=$(get_drive_size $INSTALL_DRIVE) echo -n "How big of a root partition should I create? ($ROOT_MIN"MB" - $size"MB") [$size]MB: " response=$(get_response "$size") # TODO: need to have better error checking on this value ROOT_PARTITION_SIZE=$(echo "$response" | sed 's/[^0-9]//g') if [ $ROOT_PARTITION_SIZE -lt $ROOT_MIN ] || [ $ROOT_PARTITION_SIZE -gt $size ]; then echo "Root partion must be between $ROOT_MIN"MB" and $size"MB"" echo ROOT_PARTITION_SIZE=0 fi done echo # now take the data and create the partitions create_partitions "$INSTALL_DRIVE" "$ROOT_PARTITION_SIZE" } unmount () { # grab the list of mounted drives # make sure to reverse sort so as to unmount up the tree mounted=$(mount | grep "$1" | cut -f3 -d' ' | sort -r) if [ -n "$mounted" ]; then echo "I need to unmount: " echo "$mounted" response='' while [ -z $response ] do echo -n "Continue (Yes/No) [No]: " response=$(get_response "No" "Yes No Y N") if [ "$response" == "no" ] || [ "$response" == "n" ]; then echo -e "Ok then. Need to unmount to continue.\nExiting..." exit 1 fi done for parts in "$mounted" do echo "umount $parts" >> $INSTALL_LOG output=$(umount $parts) status=$? if [ "$status" != 0 ]; then echo -e "Exiting: error unmounting $parts.\nPlease see $INSTALL_LOG for more details." echo -e "Exiting: error unmounting $parts.\numount $parts\n$output" >> $INSTALL_LOG exit 1 fi done fi } progress_indicator () { case "$1" in "start") $vyatta_bindir/progress-indicator $SPID & ;; "stop") rm -f /tmp/pi.$SPID sleep 1 echo -n -e "\b" ;; esac } ##### Main ## # clean up existing log files if [ -f $INSTALL_LOG.old ]; then rm -f $INSTALL_LOG.old fi if [ -f $INSTALL_LOG ]; then mv $INSTALL_LOG $INSTALL_LOG.old rm -f $INSTALL_LOG fi # turn off any mounted swap files turnoffswap # Print welcome and instructions. echo "Welcome to the Vyatta install program. This script" echo "will walk you through the process of installing the" echo "Vyatta image to a local hard drive." echo response='' while [ -z $response ] do echo -n "Would you like to continue? (Yes/No) [Yes]: " response=$(get_response "Yes" "Yes No Y N") if [ "$response" == "no" ] || [ "$response" == "n" ]; then echo "Ok then. Exiting..." exit 1 fi done # some drives don't show up in /proc/partitions so we need to bootstrap them echo -n "Probing drives: " progress_indicator "start" probe_drives progress_indicator "stop" echo "OK" echo "The Vyatta image will require a minimum ${ROOT_MIN}MB root." echo "Would you like me to try to partition a drive automatically" echo "or would you rather partition it manually with parted? If" echo "you have already setup your partitions, you may skip this step." echo method='' while [ -z $method ] do echo -n "Partition (Auto/Parted/Skip) [Auto]: " method=$(get_response "Auto" "Auto Parted Skip A P S") done echo # TODO: Note installs assume an LBA BIOS. So no boot partition currently. # also note that we are not creating a swap partition right now. if [ "$method" == "parted" ] || [ "$method" == "p" ]; then setup_method_manual "parted" elif [ "$method" == "skip" ] || [ "$method" == "s" ]; then setup_method_manual "skip" elif [ "$method" == "auto" ] || [ "$method" == "a" ]; then setup_method_auto elif [ "$method" == "vyatta" ]; then echo "Automated install..." echo "unmounting $INSTALL_DRIVE" unmount "$INSTALL_DRIVE" echo "deleting partitions on $INSTALL_DRIVE" delete_partitions "$INSTALL_DRIVE" echo "creating config partition" create_partitions "$INSTALL_DRIVE" "$ROOT_PARTITION_SIZE" fi # Install the root filesystem install_root_filesystem "$ROOT_PARTITION" # Copy the config files copy_config "$CONFIG_PARTITION" # Install grub install_grub cp $INSTALL_LOG $rootfsdir/install.log umount $rootfsdir echo "Done!" echo "Done!" >> $INSTALL_LOG exit 0