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|
#! /bin/bash
# this provides environment and functions needed by install scripts.
# must be sourced by the scripts.
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}
: ${vyatta_sysconfdir:=${vyatta_prefix}/etc}
# trap signals so we can kill runaway progress indicators
trap 'progress_indicator stop; exit 1' 1
trap 'progress_indicator stop; exit 1' 2
# mount point for the install root.
# for union install, this is a r/w union mount.
# for non-union install, this is the root partition mount.
INST_ROOT=/mnt/inst_root
# mount point for the writable root, i.e., the root partition.
# this is only used for union install.
WRITE_ROOT=/mnt/wroot
# mount point for the readonly squashfs mount.
# this is only used for union install.
READ_ROOT=/mnt/squashfs
# mount point for the ISO image.
# this is only used when installing with an ISO image file
# (instead of from a live CD boot).
CD_ROOT=/mnt/cdrom
# mount point for the squashfs image in the ISO image.
# this is only used when installing with an ISO image file
# (instead of from a live CD boot).
CD_SQUASH_ROOT=/mnt/cdsquash
# the vyatta config dir
VYATTA_CFG_DIR=${vyatta_sysconfdir}/config
VYATTA_NEW_CFG_DIR=/config
# the floppy config dir
FD_CFG_DIR=/media/floppy/config
# PROGRESS_PID can be exported by top-level script
progress_indicator () {
local spid=$PROGRESS_PID
if [ -z "$spid" ]; then
spid=$$
fi
case "$1" in
start)
$vyatta_bindir/progress-indicator $spid &
;;
*)
if ! rm /tmp/pi.$spid 2>/dev/null; then
sleep 1
rm /tmp/pi.$spid 2>/dev/null
fi
sleep 1
echo -n -e "\b"
;;
esac
}
# echo to log. uses INSTALL_LOG if set.
lecho ()
{
local log=$INSTALL_LOG
if [ -z "$log" ]; then
log=/tmp/install-$$.log
fi
echo -e "$*" >>$log
}
# echo to both.
becho ()
{
lecho "$*"
echo -e "$*"
}
tolower () {
echo "$*" | tr '[:upper:]' '[:lower:]'
}
# 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 $2. If options are defined return must be a member
# of the enum.
get_response () {
local ldefault=$(tolower "$1")
local loptions=$(tolower "$2")
if [ "$VYATTA_PROCESS_CLIENT" == "gui2_rest" ]; then
myresponse=$ldefault
else
# get the response from the user
read myresponse
myresponse=$(tolower "$myresponse")
fi
# Check to see if the user accepts the default
if [ -z "$myresponse" ]; then
echo -n $ldefault
elif [ -n "$loptions" ]; then
# make sure response is a valid option
for token in $loptions
do
if [ "$token" == "$myresponse" ]; then
echo -n "$myresponse"
return 0
fi
done
return 1
else
echo -n "$myresponse"
fi
return 0
}
# turn off any mounted swap partitions
turnoffswap () {
if [ -f "/proc/swaps" ]; then
myresponse=$(cat /proc/swaps)
if [ -n "$myresponse" ]; then
lecho "turning off swaps..."
swapoff -a
fi
fi
}
# Return the size of the drive in MB
get_drive_size () {
local ldrive=$1
# Get size of disk in 1k blocks
local blocks=$(sfdisk -s /dev/$ldrive)
# Translate to Megabytes (SI units)
local bytes=$(($blocks * 1024))
local lsize=$(($bytes / 1000000))
echo $lsize
}
# Probe hardrives not shown in /proc/partitions by default
probe_drives () {
# Find drives that may not be in /proc/partitions since not mounted
drive=$(ls /sys/block | grep '[hsv]d.')
# now exclude all drives that are read-only
for drive in $drive; do
if [ $(cat /sys/block/$drive/ro) -ne 0 ]; then
output=$(mount | grep $drive)
if [ -z "$output" ]; then
output=$(parted -s /dev/$drive p)
fi
fi
done
}
# Display text $1 before choice.
# Sets the variable named by $2.
# Note that select_drive should be wrapped
# in the verification loop, not the included get_response.
select_drive () {
local msg=$1
local outvar=$2
local drv=''
# list the drives in /proc/partitions. Remove partitions and empty lines.
# the first grep pattern looks for devices named c0d0, hda, and sda.
drives=$(cat /proc/partitions | \
awk '{ if ($4!="name") { print $4 } }' | \
egrep "c[0-9]d[0-9]$|[hsv]d[a-z]$" | \
egrep -v "^$")
# take the first drive as the default
drv=$(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
while true; do
# Display the drives and ask the user which one to install to
echo -e "$display"
echo
echo -n "$1 [$drv]:"
response=$(get_response "$drv" "$drives") && break
done
eval "$outvar=$response"
echo
}
# Add a console entry to the config file.
# $1: Console device name (e.g. ttyS0)
# $2: Path to config file
#
add_console_entry () {
console_dev=$1
config_file=$2
sed -i -e "/console {/a \ \
device $console_dev {\n\
speed 9600\n\
}" $config_file
}
# $1: user name
# $2: encrypted password
# $3: config file
set_encrypted_password () {
sed -i -e \
"/ user $1 {/,/}/s/encrypted-password.*\$/encrypted-password \"$2\"/" $3
}
# interactively prompt user to change password for the specified account in
# the specified config file
# $1: account name
# $2: config file
change_password() {
local user=$1
local config=$2
local pwd1="1"
local pwd2="2"
until [[ "$pwd1" == "$pwd2" ]]; do
read -p "Enter password for user '$user':" -r -s pwd1 <>/dev/tty 2>&0
echo
if [[ "$pwd1" == "" ]]; then
echo "'' is not a valid password"
continue
fi
read -p "Retype password for user '$user':" -r -s pwd2 <>/dev/tty 2>&0
echo
if [ "$pwd1" != "$pwd2" ]; then
echo "Passwords do not match"
fi
done
# escape any slashes in resulting password
local epwd=$(mkpasswd --method=sha-512 "$pwd1" | sed 's:/:\\/:g')
set_encrypted_password "$user" "$epwd" "$config"
}
# returns true if it's a disk-based boot
is_disk_based_boot()
{
islive=`grep boot=live /proc/cmdline`
if [ -z "$islive" ]; then
# Return value 0 is "true" is shell
return 0
else
return 1
fi
}
# returns true if it's a live cd boot
is_live_cd_boot ()
{
# Poor check, but whatever. The point is that on installed system
# the image file normally is named after the current version,
# while on livecd it's just "filesystem.squashfs"
if grep -q -e '^overlay.*/filesystem.squashfs' /proc/mounts; then
return 0
else
return 1
fi
}
# returns true if it's a union-install boot
is_union_install ()
{
if is_live_cd_boot; then
return 1
fi
if grep -q 'upperdir=/live/overlay//rw' /proc/mounts \
&& egrep -q 'overlay / overlay ' /proc/mounts; then
return 0
else
return 1
fi
}
# outputs the version string of the current running version.
get_cur_version ()
{
ver=`cat /opt/vyatta/etc/version | awk '{print $2}'`
if [ -z "$ver" ]; then
echo "UNKNOWN"
else
echo $ver
fi
}
# outputs the version string of the new version, i.e., the version that is
# being installed. this can be from live CD boot or from a ISO image file.
get_new_version ()
{
ver_path=/var/lib/dpkg/status
ver_file=${CD_SQUASH_ROOT}${ver_path}
if [ -f "$ver_file" ]; then
# CD_SQUASH_ROOT is set up => we are installing with a specified ISO
# image file. use the version string from there.
dpkg -l --root=${CD_SQUASH_ROOT} | \
grep "^.. vyatta-version " | awk '{print $3}'
return
fi
ver_file=${ver_path}
if is_live_cd_boot && [ -f "$ver_file" ]; then
# we are installing from a live CD boot
ver=`cat /opt/vyatta/etc/version | awk '{print $2}'`
echo $ver
return
fi
# couldn't find it
}
# Generate mount options based on the type of union mount
gen_mopts ()
{
local mnttype=$1
local upper=$2
local lower=$3
local mntpoint=$4
case "$1" in
overlayfs)
echo "-t $mnttype -o noatime,upperdir=$upper,lowerdir=$lower $mnttype $mntpoint"
;;
*)
echo "-t $mnttype -o noatime,dirs=$upper=rw:$lower=ro $mnttype $mntpoint"
;;
esac
}
# try to mount. log any errors and return the appropriate status.
# $1: arguments for mount
try_mount ()
{
args="$*"
output=$(eval "mount $args 2>&1")
status=$?
if [ $status == 0 ]; then
return 0
fi
# error
cat <<EOF
Error trying to mount a partition/directory.
Please see $INSTALL_LOG for details.
EOF
lecho 'Error trying to mount a partition/directory.'
lecho "mount $args\n$output"
return 1
}
|