-#!/bin/sh
+#!/bin/bash
# Filename: grml-hwinfo
# Purpose: get hardware information
# Authors: grml-team (grml.org), (c) Michael Prokop <mika@grml.org>
# variables
UNAME="$(uname -r)"
PN="$(basename $0)"
-WORKING_DIR=$(pwd)
-VERSION='0.4'
+[ -n "$WORKING_DIR" -a -d "$WORKING_DIR" ] || WORKING_DIR=$(pwd)
+VERSION='***UNRELEASED***'
-if [ "$1" = "-h" ] || [ "$1" = "--help" ] ; then
- echo "$PN - collect hardware information
+# data collection should not be affected by user locale
+export LANG=C
+export LC_ALL=C
+TIMESTAMP='+%F--%H-%M-%S-%Z'
+DATE="$(date $TIMESTAMP)"
+
+echo "$PN ${VERSION} - collect hardware information"
+
+GENERATE_FILE='1'
+GENERATE_DIRECTORY=''
+
+while getopts "hdf" args; do
+ case "$args" in
+ h) echo "
This tool collects information of the hardware this tool is being executed
on. It can be executed as normal user to collect some basic information or
-with root permissions to collect as much information as possible. A file
-named info.tar.bz2 storing all collected information will be created in the
-current working directory."
+with root permissions to collect as much information as possible. By
+default, a file named grml-hwinfo-TIMESTAMP.tar.bz2 storing all collected
+information will be created in the current working directory. Alternatively,
+you can have it create a directory with all information.
- exit 0
-fi
+Options:
-TMPDIR=$(mktemp -d) || { echo "Error creating a temporary directory, can not continue. Exiting.">&2 ; exit 1; }
-INFODIR="info"
+ -h Display this help message
+ -f Create grml-hwinfo-TIMESTAMP.tar.bz2
+ -d Create grml-hwinfo-TIMESTAMP as a directory
+ -df Create both, the directory and the file
+"
-bailout() {
- [ -d "$TMPDIR" ] && rm -rf "$TMPDIR"
- [ -n "$1" ] && exit 1 || exit 0
-}
+ exit 0;;
+
+ d)
+ GENERATE_FILE=''
+ GENERATE_DIRECTORY='1'
+ ;;
-[ -n "$INFOFILE" ] || INFOFILE='info.tar.bz2'
-INFOFILE="${WORKING_DIR}/${INFOFILE}"
+ f) # generating file; default behaviour
+ GENERATE_FILE='1'
+ ;;
+
+ esac
+ done
+
+# Generate output/temporary directory name & path, and output file path
+OUTFILE=""
+OUTDIRNAME="grml-hwinfo-${DATE}"
+OUTDIR="${WORKING_DIR}/${OUTDIRNAME}"
+mkdir "${OUTDIR}" || { echo 'Directory "'${OUTDIR}'" already exists, aborting.'>&2 ; exit 1; }
+
+if [ -n "$GENERATE_FILE" ] ; then
+ OUTFILE_="${OUTDIR}.tar.bz2"
+ [ -e "${OUTFILE_}" ] && { echo 'File "'${OUTFILE_}'" already exists, aborting.'>&2 ; rm -r "${OUTDIR}"; exit 1; }
+ OUTFILE=${OUTFILE_}
+ touch "${OUTFILE}"
+fi
if [ "$(id -u)" != "0" ] ; then
NOTROOT=1
- echo "Notice: you are running $PN without root permissions. Not all information will be collected."
- echo
+ echo "W: Running without root permissions. Not all data will be collected."
fi
# check whether a binary is available and executable
echo 'Usage: exectest <binary>'>&2
return 1
else
- test -e "$(which $1)" && return 0 || return 1
+ if test -e "$(which $1)" ; then
+ return 0
+ else
+ grep -q "^$1"'$' missing_tools 2>/dev/null || echo "$1" >> missing_tools
+ return 1
+ fi
fi
}
disklist=`list_disks $device_size`
}
-echo "Running grml-hwinfo ${VERSION} - collecting hardware information."
-mkdir "${TMPDIR}/${INFODIR}"
-cd "${TMPDIR}/${INFODIR}" || bailout 1
+cd "${OUTDIR}" || exit 1
(
- cd "${TMPDIR}/${INFODIR}"
-
- echo "Generating hardware information report using file $INFOFILE."
+ [ -n "$GENERATE_FILE" ] && echo "Output file: $OUTFILE"
+ [ -n "$GENERATE_DIRECTORY" ] && echo "Output directory: $OUTDIR"
+ echo
echo "This might take a few seconds/minutes. Please be patient..."
# some sysinfo
for i in free lsmod mount lsdev ; do
exectest $i && $i > $i
done
+ swapon -s > swapon 2>swapon.error
# proc stuff
for i in cpuinfo interrupts cmdline devices dma fb iomem ioports \
# hwinfo
exectest discover && discover -v --type-summary --enable-bus all > discover 2> discover.2
exectest hwinfo && hwinfo log=hwinfo
+ exectest numactl && numactl --hardware > numactl
exectest x86info && x86info > x86info 2>x86info.2
# net stuff
if exectest dpkg ; then
dpkg --get-selections > dpkg_get_selections
COLUMNS=300 dpkg --list > dpkg_list
- COLUMNS=1000 dpkg -l linux-image-$UNAME | grep linux-image-$UNAME | tr -s ' ' > running_kernel
fi
-# powermanagement
+# power management
exectest laptop-detect && laptop-detect >/dev/null 2>/dev/null && echo "0" > laptop_detected
exectest acpi_available && acpi_available && cat /proc/acpi/info > acpi_info
exectest acpi && acpi > acpi 2> acpi.error && acpi -v > acpi.version
[ -r /boot/config-$UNAME ] && cat /boot/config-$UNAME > kernelconfig
fi
+ exectest dpkg && COLUMNS=1000 dpkg -l linux-image-$UNAME \
+ | grep linux-image-$UNAME | tr -s ' ' > running_kernel 2>running_kernel.error
+ dpkg -S /boot/vmlinuz-$(uname -r) >> running_kernel 2>>running_kernel.error
+
# X stuff
if [ -n "${DISPLAY}" ] ; then
exectest xviddetect && xviddetect > xviddetect
echo "running as root" > root
disk_info
exectest sfdisk && sfdisk -d > sfdisk 2>sfdisk.error
- exectest ddcprobe && ddcprobe > ddcprobe
exectest dmidecode && dmidecode > dmidecode
exectest dconf && dconf -o dconf
/usr/share/doc/lm-sensors/examples/eeprom/decode-dimms.pl > decode-dimms 2>decode-dimms.error
fi
+ exectest mdadm && mdadm --detail /dev/md[0-9]* >> mdadm 2>mdadm.error
+
+ # LVM
+ exectest pvs && pvs > pvs 2>pvs.error
+ exectest vgs && vgs > vgs 2>vgs.error
+ exectest lvs && lvs > lvs 2>lvs.error
+ exectest lvdisplay && lvdisplay > lvdisplay 2>lvdisplay.error
+
+ exectest dmsetup && dmsetup ls > dmsetup_ls 2>dmsetup_ls.error
+
for disk in $disklist; do
- exectest smartctl && smartctl -i /dev/$disk >> smartctl
- exectest hdparm && hdparm -iv /dev/$disk >> hdparm
- exectest fdisk && fdisk -lu /dev/$disk >> fdisk 2>>fdisk.error
- exectest parted && parted -s /dev/$disk print >> parted
- LC_ALL=C file -s /dev/$disk?* | grep -v ": empty" >> file_disk
+ exectest smartctl && echo "smartctl -a /dev/$disk :\n" >> smartctl && smartctl -a /dev/$disk >> smartctl && echo "\n\n" >> smartctl
+ exectest hdparm && echo "hdparm -iv /dev/$disk :\n" >> hdparm && hdparm -iv /dev/$disk >> hdparm && echo "\n\n" >> hdparm
+ exectest fdisk && echo "fdisk -lu /dev/$disk :\n" >> fdisk && fdisk -lu /dev/$disk >> fdisk 2>>fdisk.error && echo "\n\n" >> fdisk
+ exectest parted && echo "parted -s /dev/$disk :\n" >> parted && parted -s /dev/$disk print >> parted && echo "\n\n" >> parted
+ file -s /dev/$disk?* | grep -v ": empty" >> file_disk
done
fi
)
-# finally create the tarball
-if [ -f "${INFOFILE}" ] ; then
- DATE="$(date +%Y%m%d_%H%M%S)"
- NEW_INFOFILE="${WORKING_DIR}/info_${DATE}.tar.bz2"
- echo
- echo "Warning: $INFOFILE exists already, using $NEW_INFOFILE instead.">&2
- INFOFILE="$NEW_INFOFILE" # adjust variable for final info message
-fi
+# get rid of empty files
+for file in *; do
+ test -s $file || rm $file
+done
+
+echo
-cd "${TMPDIR}"
-tar jcf "${INFOFILE}" "${INFODIR}"
cd "${WORKING_DIR}"
-echo
-[ -r "$INFOFILE" ] && echo "$INFOFILE ($(ls -ahl $INFOFILE | awk '{print $5}')) has been generated."
-echo
+# create tarball
+if [ -n "$GENERATE_FILE" ] ; then
+ tar jcf "${OUTFILE}" "${OUTDIRNAME}"
+ [ -r "$OUTFILE" ] && echo "$OUTFILE ("$(ls -ahl "$OUTFILE" | awk '{print $5}')") has been generated."
+fi
+
+# remove (temporary) output directory if needed, else keep it, as it doubles
+# as the real output directory.
+if [ -z "$GENERATE_DIRECTORY" ] ; then
+ rm -r "${OUTDIR}"
+else
+ [ -r "${OUTDIR}" ] && echo "${OUTDIR} has been generated."
+fi
-bailout
+exit 0
## END OF FILE##################################################################