A version of xorriso-dd-target with xdt_-prefixed symbols and return instead of exit

This commit is contained in:
Thomas Schmitt 2019-12-12 20:31:14 +01:00
parent ac018842da
commit ab2af1dff2

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@ -0,0 +1,846 @@
#!/bin/sh
# Copyright (c) 2019
# Nio Wiklund alias sudodus <nio dot wiklund at gmail dot com>
# Thomas Schmitt <scdbackup@gmx.net>
# Provided under GPL version 2 or later.
# All names of variables and functions begin by "xdt_" in order to facilitate
# the re-use of this code by inclusion or forking and expansion.
# Before using most of the other functions it is necessary to run
# xdt_init ; xdt_reset_job
# The only function which may be run earlier is xdt_set_lang_c .
# The function xtd_main gets run by the code at the end of this file
# if $no_xorriso_dd_target_run is empty. It implements what xdt_print_usage
# announces.
## This obtrusive setting shall make the script safe against exotic locales.
## Supposed to stabilize grep expression interpretation and error messages.
## It is optional but highly advisable.
xdt_set_lang_c() {
export LANG=C
export LC_ALL=C
return 0
}
## This function has to be called before any real work can be done.
xdt_init() {
# Check whether we are on GNU/Linux
if uname -s | grep -v '^Linux' >/dev/null
then
echo "This program is entirely specialized on Linux kernel device names." >&2
echo "Found to be on: '$(uname -s)'" >&2
return 2
fi
# Accept sudo-executable commands only in well known directories.
# (Listed with increasing priority.)
xdt_lsblk_cmd=
xdt_dd_cmd=
xdt_umount_cmd=
if test "$(whoami)" = "root"
then
xdt_sudo_x_dir_list="/usr/bin /bin /usr/sbin /sbin"
else
xdt_sudo_x_dir_list="/usr/sbin /sbin /usr/bin /bin"
fi
for xdt_i in $xdt_sudo_x_dir_list
do
if test -x "$xdt_i"/lsblk
then
xdt_lsblk_cmd="$xdt_i"/lsblk
fi
if test -x "$xdt_i"/dd
then
xdt_dd_cmd="$xdt_i"/dd
fi
if test -x "$xdt_i"/umount
then
xdt_umount_cmd="$xdt_i"/umount
fi
done
if test -z "$xdt_lsblk_cmd"
then
echo "No executable program lsblk found in: $xdt_sudo_x_dir_list" >&2
return 5
fi
return 0
}
xdt_print_usage() {
echo "usage: $0 [options] [device_name [device_name ...]]"
echo
echo "Looks on GNU/Linux for USB and Memory Card devices and evaluates"
echo "whether the found devices are plausible targets for image copying."
echo "If no device names and no -list_all are given, then a plain list of"
echo "advisable device names is printed to stdout. One per line."
echo "Device names must not begin by '-' and must be single words. They must"
echo "not begin by '/dev/'. E.g. 'sdc' is valid, '/dev/sdc' is not valid."
echo "If device names are given, then they get listed with advice shown."
echo "If one of the given device names gets not advised, the exit value is 1."
echo
echo "The option -plug_test can determine the desired target device by"
echo "inquiring the system with unplugged device and then with plugged one."
echo
echo "Only if option -DO_WRITE is given and -list_all is not, and if exactly"
echo "one advisable device is listed, it really gets overwritten by the"
echo "file content of the given -image_file. In this case the exit value"
echo "is zero if writing succeeded, non-zero else."
echo "Option -dummy prevents this kind of real action and rather shows the"
echo "unmount and write commands on stdout."
echo
echo "Options:"
echo " -plug_test Find the target device by asking the user to press"
echo " Enter when the desired target is _not_ plugged in,"
echo " to then plug it in, and to press Enter again."
echo " This overrides device names and option -list_all."
echo " The found device is then shown with advice, vendor,"
echo " and model. Option -DO_WRITE is obeyed if given."
echo " -list_all Print list of all found devices with advice, vendor"
echo " and model. One per line. Ignore any device names."
echo " Ignore -DO_WRITE."
echo " -list_long With each line printed by -list_all or a submitted"
echo " device name, let lsblk print info which led to the"
echo " shown reasons."
echo " -with_vendor_model Print vendor and model with each submitted device"
echo " name."
echo " -max_size n[M|G|T] Set upper byte size limit for advisable devices."
echo " Plain numbers get rounded down to full millions."
echo " Suffix: M = million, G = billion, T = trillion."
echo " Be generous to avoid problems with GB < GiB."
echo " -min_size n[M|G|T] Set lower byte size limit for advisable devices."
echo " After processing like with -max_size, one million"
echo " gets added to the size limit."
echo " -look_for_iso Demand presence of an ISO 9660 filesystem. If so,"
echo " any further filesystem type is acceptable on that"
echo " device. Else only ISO 9660 and VFAT are accepted."
echo " -with_sudo Run '$xdt_lsblk_cmd -o FSTYPE' by sudo."
echo " If no filesystems are detected and the program"
echo " has no superuser power, the device is not advised."
echo " If -DO_WRITE is given, run umount and dd by sudo."
echo " -image_file PATH Set the path of the image file which shall be"
echo " written to a device. Its size will be set as"
echo " -min_size."
echo " -DO_WRITE Write the given -image_file to the one advisable"
echo " device that is found. If more than one such device"
echo " is found, then they get listed but no writing"
echo " happens. In this case, re-run with one of the"
echo " advised device names to get a real write run."
echo " -dummy Report the -DO_WRITE actions but do not perform"
echo " them."
echo " -dummy_force If a single device name is given, do a run of"
echo " -dummy -DO_WRITE even against the advice of"
echo " this program. This probably shows you ways to"
echo " shoot your own foot."
echo " -help Print this text to stdout and then end the program."
echo "Examples:"
echo " $0 -with_sudo -list_all"
echo " $0 sdc"
echo " $0 -with_sudo -image_file debian-live-10.0.0-amd64-xfce.iso -DO_WRITE -dummy"
echo " $0 -with_sudo -image_file debian-live-10.0.0-amd64-xfce.iso -DO_WRITE -plug_test"
echo
return 0
}
# Roughly convert human readable sizes and plain numbers to 1 / million
xdt_round_down_div_million() {
sed \
-e 's/^[0-9][0-9][0-9][0-9][0-9][0-9]$/0/' \
-e 's/^[0-9][0-9][0-9][0-9][0-9]$/0/' \
-e 's/^[0-9][0-9][0-9][0-9]$/0/' \
-e 's/^[0-9][0-9][0-9]$/0/' \
-e 's/^[0-9][0-9]$/0/' \
-e 's/^[0-9]$/0/' \
-e 's/\.[0-9]*//' \
-e 's/[0-9][0-9][0-9][0-9][0-9][0-9]$//' \
-e 's/[Mm]$//' \
-e 's/[Gg]$/000/' \
-e 's/[Tt]$/000000/'
return 0
}
## Check for harmless name or number in program argument
xdt_check_parameter() {
if test "$2" = "device_name"
then
if echo "$1" | grep '[^A-Za-z0-9_/-]' >/dev/null
then
echo "SORRY: Given device name contains unexpected character. Ok: [A-za-z0-9_/-]" >&2
return 12
fi
elif test "$2" = "image_file"
then
if echo "$1" | grep '[$`[*?<>|&!{\]' >/dev/null
then
echo "SORRY: Given image file name contains unexpected character. Not ok: "'[$`[*?<>|&!{\]' >&2
return 15
fi
else
if echo "$1" | grep -v '^[0-9][0-9]*[0-9MGTmgt]$' >/dev/null
then
echo "SORRY: Number for $2 too short or bad character. Ok: [0-9][0-9MGTmgt]" >&2
return 14
fi
fi
return 0
}
### Assessing arguments and setting up the job
# Settings
xdt_reset_job() {
xdt_list_all=
xdt_do_list_long=
xdt_show_reasons=
xdt_look_for_iso=
xdt_devs=
xdt_devs_named=
xdt_max_size=
xdt_with_vendor_model=
xdt_with_sudo=
xdt_image_file=
xdt_do_write=
xdt_dummy_run=
xdt_dummy_force=
xdt_do_plug_test=
# Status
xdt_sudo_cmd=
xdt_have_su_power=
return 0
}
xdt_arg_interpreter() {
xdt_next_is=
for xdt_i in "$@"
do
# The next_is option parameter readers get programmed by the -options
if test "$xdt_next_is" = "max_size"
then
xdt_check_parameter "$xdt_i" -max_size || return "$?"
xdt_max_size="$(echo "$xdt_i" | xdt_round_down_div_million)"
xdt_next_is=
elif test "$xdt_next_is" = "min_size"
then
xdt_check_parameter "$xdt_i" -min_size || return "$?"
xdt_min_size="$(echo "$xdt_i" | xdt_round_down_div_million)"
xdt_min_size="$(expr $xdt_min_size + 1)"
xdt_next_is=
elif test "$xdt_next_is" = "image_file"
then
xdt_check_parameter "$xdt_i" image_file || return "$?"
xdt_image_file="$xdt_i"
xdt_min_size="$(stat -c '%s' "$xdt_i" \
| xdt_round_down_div_million)"
if test -z "$xdt_min_size"
then
echo "FAILURE: Cannot obtain size of -image_file '$xdt_i'" >&2
return 13
else
xdt_min_size="$(expr $xdt_min_size + 1)"
fi
xdt_next_is=
elif test "$xdt_i" = "-list_all"
then
xdt_list_all=y
xdt_with_vendor_model=y
xdt_show_reasons=y
elif test "$xdt_i" = "-list_long"
then
xdt_do_list_long=y
elif test "$xdt_i" = "-plug_test"
then
xdt_do_plug_test=y
elif test "$xdt_i" = "-max_size"
then
xdt_next_is="max_size"
elif test "$xdt_i" = "-min_size"
then
xdt_next_is="min_size"
elif test "$xdt_i" = "-with_vendor_model"
then
xdt_with_vendor_model=y
elif test "$xdt_i" = "-look_for_iso"
then
xdt_look_for_iso=y
elif test "$xdt_i" = "-with_sudo"
then
xdt_with_sudo=y
elif test "$xdt_i" = "-image_file"
then
xdt_next_is="image_file"
elif test "$xdt_i" = "-dummy"
then
xdt_dummy_run=y
elif test "$xdt_i" = "-dummy_force"
then
xdt_dummy_run=y
xdt_do_write=y
xdt_dummy_force=y
elif test "$xdt_i" = "-DO_WRITE"
then
xdt_do_write=y
elif test "$xdt_i" = "-help"
then
xdt_print_usage
return 0
elif echo "$xdt_i" | grep -v '^-' >/dev/null
then
xdt_check_parameter "$xdt_i" device_name || return "$?"
xdt_devs_named=y
xdt_devs="$xdt_devs $xdt_i"
xdt_show_reasons=y
else
echo "$0 : Unknown option: '$xdt_i'" >&2
echo >&2
echo "For a help text run: $0 -help" >&2
return 16
fi
done
# Predict superuser power. Possibly enable sudo with lsblk -o FSTYPE and dd.
if test "$(whoami)" = "root"
then
xdt_have_su_power=y
elif test -n "$xdt_with_sudo"
then
echo "Testing sudo to possibly get password prompting done now:" >&2
if sudo "$xdt_lsblk_cmd" -h >/dev/null
then
echo "sudo $xdt_lsblk_cmd seems ok." >&2
echo >&2
xdt_sudo_cmd=sudo
xdt_have_su_power=y
else
echo "FAILURE: Cannot execute program $xdt_lsblk_cmd by sudo" >&2
return 11
fi
fi
return 0
}
## Obtain a blank separated list of top-level names which do not look like
## CD, floppy, RAM dev, or loop device.
xdt_collect_devices() {
"$xdt_lsblk_cmd" -d -n -o NAME \
| grep -v '^sr[0-9]' \
| grep -v '^fd[0-9]' \
| grep -v '^zram[0-9]' \
| grep -v '^loop[0-9]' \
| tr '\n\r' ' '
return 0
}
## Let lsblk print extra info for the given devices
xdt_list_long() {
if test -z "$xdt_do_list_long"
then
return 0
fi
$xdt_sudo_cmd "$xdt_lsblk_cmd" -o NAME,SIZE,FSTYPE,TRAN,LABEL \
/dev/"$1"
echo
return 0
}
## Trying to find the desired device by watching plug-in effects
xdt_plug_in_watcher() {
# How long to wait for a first device to appear, how long to wait for more
xdt_wait_span_0=10
xdt_wait_span_1=5
xdt_found_devices=
echo >&2
echo "Caused by option -plug_test: Attempt to find the desired device" >&2
echo "by watching it appear after being plugged in." >&2
echo >&2
echo "Step 1:" >&2
echo "Please make sure that the desired target device is plugged _out_ now." >&2
echo "If it is currently plugged in, make sure to unmount all its fileystems" >&2
echo "and then unplug it." >&2
echo "Press the Enter key when ready." >&2
read xdt_dummy
xdt_old_device_list=' '$(xdt_collect_devices)' '
# <<< Mock-up to save USB socket wear-off by erasing items from old_device_list
# <<< Their presence in new_device_list will let them appear as fresh plugs
# xdt_old_device_list=' '$(echo -n $xdt_old_device_list | sed -e 's/sdc//')' '
echo "Found and noted as _not_ desired: $xdt_old_device_list" >&2
echo >&2
echo "Step 2:" >&2
echo "Please plug in the desired target device and then press the Enter key." >&2
read xdt_dummy
echo -n "Waiting up to $xdt_wait_span_0 seconds for a new device to be listed ..." >&2
xdt_end_time="$(expr $(date +'%s') + "$xdt_wait_span_0")"
while test $(date +'%s') -le "$xdt_end_time"
do
xdt_new_device_list=' '$(xdt_collect_devices)' '
for xdt_i in $xdt_new_device_list
do
if echo "$xdt_old_device_list $xdt_found_devices " \
| grep -F -v ' '"$xdt_i"' ' >/dev/null
then
echo " found: $xdt_i" >&2
xdt_found_devices="$xdt_found_devices $xdt_i"
xdt_end_time=$(expr $(date +'%s') + "$xdt_wait_span_1")
echo -n "Now waiting $xdt_wait_span_1 seconds to let it settle ..." >&2
fi
done
sleep 1
echo -n '.' >&2
done
echo >&2
if test -z "$xdt_found_devices"
then
echo "SORRY: No new candidate device was found." >&2
return 8
fi
xdt_num=$(echo $xdt_found_devices | wc -w)
if test "$xdt_num" -gt 1
then
echo "SORRY: More than one new candidate device appeared: $xdt_found_devices" >&2
return 9
fi
echo "Found and noted as desired device: $xdt_found_devices" >&2
if test -n "$xdt_devs"
then
echo "(-plug_test is overriding device list given by arguments: $xdt_devs )" >&2
fi
if test -n "$xdt_list_all"
then
echo "(-plug_test is overriding -list_all)" >&2
xdt_list_all=
fi
xdt_devs_named=y
xdt_with_vendor_model=y
xdt_show_reasons=y
xdt_devs=$(echo -n $xdt_found_devices)
echo >&2
return 0
}
## Evaluation of available devices and suitability
xdt_list_devices() {
if test -n "$xdt_list_all"
then
xdt_devs=
fi
if test -z "$xdt_devs"
then
# Obtain list of top-level names which do not look like CD, floppy, RAM dev
xdt_devs=$(xdt_collect_devices)
fi
xdt_not_advised=0
for xdt_name in $xdt_devs
do
# Collect reasons
xdt_yucky=
xdt_reasons=
xdt_good_trans=
xdt_good_fs=
xdt_bad_trans=
xdt_bad_fs=
# Unwanted device name patterns
if (echo "$xdt_name" | grep '^sd[a-z][1-9]' >/dev/null) \
|| (echo "$xdt_name" | grep '^mmcblk.*p[0-9]' >/dev/null) \
|| (echo "$xdt_name" | grep '^nvme.*p[0-9]' >/dev/null)
then
xdt_yucky=y
xdt_reasons="${xdt_reasons}looks_like_disk_partition- "
elif echo "$xdt_name" | grep '^sr[0-9]' >/dev/null
then
xdt_yucky=y
xdt_reasons="${xdt_reasons}looks_like_cd_drive- "
elif echo "$xdt_name" | grep '^fd[0-9]' >/dev/null
then
xdt_yucky=y
xdt_reasons="${xdt_reasons}looks_like_floppy- "
elif echo "$xdt_name" | grep '^loop[0-9]' >/dev/null
then
xdt_yucky=y
xdt_reasons="${xdt_reasons}looks_like_loopdev- "
elif echo "$xdt_name" | grep '^zram[0-9]' >/dev/null
then
xdt_yucky=y
xdt_reasons="${xdt_reasons}looks_like_ramdev- "
fi
# >>> recognize the device from which Debian Live booted
# Connection type. Normally by lsblk TRAN, but in case of mmcblk artificial.
if echo "$xdt_name" | grep '^mmcblk[0-9]' >/dev/null
then
xdt_transports="mmcblk"
elif echo "$xdt_name" | grep -F "/" >/dev/null
then
xdt_transports=not_an_expected_name
xdt_reasons="${xdt_reasons}name_with_slash- "
else
xdt_transports=$("$xdt_lsblk_cmd" -n -o TRAN /dev/"$xdt_name")
fi
for xdt_trans in $xdt_transports
do
if test "$xdt_trans" = "usb" -o "$xdt_trans" = "mmcblk"
then
xdt_good_trans="${xdt_trans}+"
elif test -n "$xdt_trans"
then
xdt_bad_trans="$xdt_trans"
xdt_yucky=y
if test "$xdt_transports" = "not_an_expected_name"
then
xdt_dummy=dummy
else
if echo "$xdt_reasons" | grep -F -v "not_usb" >/dev/null
then
xdt_reasons="${xdt_reasons}not_usb- "
fi
fi
fi
done
if test -z "$xdt_good_trans" -a -z "$xdt_bad_trans"
then
xdt_yucky=y
xdt_reasons="${xdt_reasons}no_bus_info- "
elif test -z "$xdt_bad_trans"
then
xdt_reasons="${xdt_reasons}$xdt_good_trans "
fi
# Wanted or unwanted filesystem types
xdt_fstypes=$($xdt_sudo_cmd "$xdt_lsblk_cmd" -n -o FSTYPE \
/dev/"$xdt_name")
if test "$?" -gt 0
then
xdt_fstypes="lsblk_fstype_error"
fi
# Get overview of filesystems
xdt_has_iso=
xdt_has_vfat=
xdt_has_other=
for xdt_fstype in $xdt_fstypes
do
if test "$xdt_fstype" = "iso9660"
then
xdt_has_iso=y
if echo "$xdt_good_fs" | grep -F -v "has_$xdt_fstype" >/dev/null
then
xdt_good_fs="${xdt_good_fs}has_${xdt_fstype}+ "
fi
elif test "$xdt_fstype" = "vfat"
then
xdt_has_vfat=y
if echo "$xdt_good_fs" | grep -F -v "has_$xdt_fstype" >/dev/null
then
xdt_good_fs="${xdt_good_fs}has_${xdt_fstype}+ "
fi
elif test -n "$xdt_fstype"
then
xdt_has_other=y
if echo "$xdt_bad_fs" | grep -F -v "has_$xdt_fstype" >/dev/null
then
xdt_bad_fs="${xdt_bad_fs}has_${xdt_fstype}- "
fi
fi
done
# Decide whether the found filesystems look dispensible enough
xdt_reasons="${xdt_reasons}${xdt_good_fs}${xdt_bad_fs}"
if test "${xdt_bad_fs}${xdt_good_fs}" = "" \
-a -z "$xdt_have_su_power"
then
xdt_yucky=y
xdt_reasons="${xdt_reasons}no_fs_while_not_su- "
elif test -n "$xdt_look_for_iso"
then
if test -n "$xdt_has_iso"
then
xdt_reasons="${xdt_reasons}look_for_iso++ "
else
xdt_yucky=y
xdt_reasons="${xdt_reasons}no_iso9660- "
fi
elif test -n "$xdt_has_other"
then
xdt_yucky=y
fi
# Optional tests for size
if test -n "$xdt_max_size" -o -n "$xdt_min_size"
then
xdt_size=$("$xdt_lsblk_cmd" -n -b -o SIZE /dev/"$xdt_name" \
| head -1 | xdt_round_down_div_million)
if test -z "$xdt_size"
then
xdt_yucky=y
xdt_reasons="${xdt_reasons}lsblk_no_size- "
fi
fi
if test -n "$xdt_max_size" -a -n "$xdt_size"
then
if test "$xdt_size" -gt "$xdt_max_size"
then
xdt_yucky=y
xdt_reasons="${xdt_reasons}size_too_large- "
fi
fi
if test -n "$xdt_min_size" -a -n "$xdt_size"
then
if test "$xdt_size" -lt "$xdt_min_size"
then
xdt_yucky=y
xdt_reasons="${xdt_reasons}size_too_small- "
fi
fi
# Now decide overall and report
xdt_descr=
if test -n "$xdt_with_vendor_model"
then
xdt_descr=": "$("$xdt_lsblk_cmd" -n -o VENDOR,MODEL \
/dev/"$xdt_name" | tr '\n\r' ' ' | tr -s ' ')
fi
if test -n "$xdt_yucky"
then
if test -n "$xdt_show_reasons"
then
echo "$xdt_name : NO : $xdt_reasons$xdt_descr"
xdt_list_long "$xdt_name"
fi
xdt_not_advised=1
else
if test -n "$xdt_show_reasons"
then
echo "$xdt_name : YES : $xdt_reasons$xdt_descr"
xdt_list_long "$xdt_name"
else
echo "$xdt_name"
fi
fi
done
return 0;
}
## Puts list of mounted (sub-)devices of $1 into $mounted_devs
xdt_list_mounted_of() {
xdt_partitions=$("$xdt_lsblk_cmd" -l -n -p -o NAME /dev/"$1" \
| grep -v '^'/dev/"$1"'$' \
| tr '\n\r' ' ')
xdt_mounted_devs=
for xdt_i in /dev/"$1" $xdt_partitions
do
# Show the found mount lines and add their device paths to list
xdt_mount_line=$(mount | grep '^'"$xdt_i"' ')
if test -n "$xdt_mount_line"
then
echo " $xdt_mount_line"
xdt_mounted_devs="$xdt_mounted_devs $xdt_i"
fi
done
return 0
}
## Does the work of unmounting and dd-ing
xdt_write_image() {
if test -z "$xdt_umount_cmd"
then
echo "No executable program umount found in: $xdt_sudo_x_dir_list" >&2
return 6
fi
echo "Looking for mount points of $2:"
xdt_mounted_devs=
xdt_list_mounted_of "$2"
if test -n "$xdt_dummy_force"
then
echo "AGAINST THE ADVICE BY THIS PROGRAM, a daring user could do:"
xdt_dummy_run=y
elif test -n "$xdt_dummy_run"
then
echo "Would do if not -dummy:"
fi
if test -n "$xdt_mounted_devs"
then
for xdt_i in $xdt_mounted_devs
do
if test -n "$xdt_dummy_run"
then
echo " $xdt_sudo_cmd $xdt_umount_cmd $xdt_i"
else
if $xdt_sudo_cmd "$xdt_umount_cmd" "$xdt_i"
then
echo "Unmounted: $xdt_i"
else
echo "FAILURE: Non-zero exit value with: $xdt_sudo_cmd $xdt_umount_cmd $xdt_i" >&2
return 7
fi
fi
done
# Check again if any mount points still exist
if test -z "$xdt_dummy_run"
then
xdt_list_mounted_of "$2"
if test -n "$xdt_mounted_devs"
then
echo "FAILURE: $xdt_sudo_cmd $xdt_umount_cmd could not remove all mounts: $xdt_mounted_devs" >&2
return 7
fi
fi
fi
if test -z "$xdt_dd_cmd"
then
echo "No executable program dd found in: $xdt_sudo_x_dir_list" >&2
return 6
fi
if test -n "$xdt_dummy_run"
then
echo " $xdt_sudo_cmd $xdt_dd_cmd if='${1}' bs=1M of=/dev/'${2}' ; sync"
else
echo "Performing:"
echo " $xdt_sudo_cmd $xdt_dd_cmd if='${1}' bs=1M of=/dev/'${2}' ; sync"
$xdt_sudo_cmd "$xdt_dd_cmd" if="${1}" bs=1M of=/dev/"${2}" ; sync
fi
# >>> ??? Erase possible GPT backup table at end of device ?
if test -n "$xdt_dummy_force"
then
echo "BE SMART. BE CAUTIOUS. BEWARE."
fi
return 0
}
## Inspects the result of listing, decides whether writing is advisable,
## and starts the write run
xdt_decide_writing()
{
xdt_with_vendor_model=
xdt_show_reasons=
xdt_candidates=$(xdt_list_devices | tr '\n\r' ' ')
xdt_num_cand=$(echo $xdt_candidates | wc -w)
xdt_num_devs=$(echo $xdt_devs| wc -w)
if test -n "$xdt_dummy_force" -a "$xdt_num_devs" -ne 1
then
echo "SORRY: Refusing -dummy_force with not exactly one device given." >&2
return 10
fi
if test -n "$xdt_dummy_force" -a -n "$xdt_dummy_run" \
-a "$xdt_num_cand" -ne 1
then
# -dummy_force in a situation where the program would normally refuse
echo
echo "Overriding any advice because of -dummy_force"
xdt_candidates="$xdt_devs"
xdt_num_cand=1
elif test -n "$xdt_dummy_force"
then
# Downgrade -dummy_force to -dummy in order to avoid the ugly warning
xdt_dummy_force=
xdt_dummy_run=y
fi
if test "$xdt_num_cand" -eq 1
then
if test -n "$xdt_image_file"
then
if test -n "$xdt_do_plug_test"
then
echo >&2
echo "Step 3:" >&2
if test -n "$xdt_dummy_run"
then
echo "This would be the last chance to abort. Enter the word 'yes' to see -dummy report." >&2
else
echo "Last chance to abort. Enter the word 'yes' to start REAL WRITING." >&2
fi
read xdt_dummy
if test "$xdt_dummy" = "yes" -o "$xdt_dummy" = "'yes'" \
-o "$xdt_dummy" = '"yes"'
then
xdt_dummy=dummy
else
echo "WRITE RUN PREVENTED by user input '$xdt_dummy'." >&2
return 12
fi
fi
xdt_write_image "$xdt_image_file" $xdt_candidates
exit $?
else
xdt_candidates=$(echo $xdt_candidates)
if test -n "$xdt_dummy_run"
then
echo "Would simulate writing to /dev/$xdt_candidates if an -image_file were given."
else
echo "Would write to /dev/$xdt_candidates if an -image_file were given."
fi
return 0
fi
elif test "$xdt_num_cand" -gt 1
then
echo "WILL NOT WRITE ! More than one candidate found for target device:" >&2
xdt_show_reasons=y
xdt_with_vendor_model=y
xdt_devs="$xdt_candidates"
xdt_list_devices >&2
echo "HINT: Unplug the unwanted devices from the machine," >&2
echo " or work with option -plug_test," >&2
echo " or add the desired name out of {$(echo $xdt_candidates | sed -e 's/ /,/g')} as additional argument." >&2
return 3
else
if test -n "$xdt_devs_named"
then
echo "NO CANDIDATE FOR TARGET DEVICE AMONG THE GIVEN NAMES !" >&2
else
echo "NO CANDIDATE FOR TARGET DEVICE FOUND !" >&2
fi
echo "Overall available devices:" >&2
xdt_list_all=y
xdt_list_long=
xdt_show_reasons=y
xdt_with_vendor_model=y
xdt_list_devices >&2
return 4
fi
return 0
}
## The main function which runs the others in standalone mode
xdt_main()
{
xdt_set_lang_c
xdt_init || exit "$?"
xdt_reset_job
xdt_arg_interpreter "$@" || exit "$?"
if test -n "$xdt_do_plug_test"
then
xdt_plug_in_watcher || exit "$?"
fi
xdt_list_devices || exit "$?"
if test -z "$xdt_list_all" -a -n "$xdt_do_write"
then
xdt_decide_writing || exit "$?"
fi
if test -n "$xdt_devs"
then
exit $xdt_not_advised
fi
return 0
}
if test -z "$no_xorriso_dd_target_run"
then
xdt_main "$@"
fi