289 lines
10 KiB
Bash
Executable File
289 lines
10 KiB
Bash
Executable File
#!/bin/sh
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# .. vim: foldmarker=[[[,]]]:foldmethod=marker
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# NOTE: Must be run as root, so you probably need to setup sudo for this.
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# This script is mostly intend to be used with Xymon and rather for devices unknown to the smartmontools base.
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# Based on xymon.com's script : https://www.xymon.com/xymon-cgi/viewconf.sh?smart
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# The script will scan all devices compatible with SMART and for each disk, it will : [[[
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# * try to guess the expected TYPE (even megaraid,…).
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# * display health status.
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# * set a "clear" state for incompatible device.
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# * display last selftests.
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# * set a "error" state if no selftest is recorded.
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# * display basic informations.
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# * recommend a more advanced SMART script if the disk is known of smartmontools's database (drivedb.h) or redirect to smartmontools's FAQ if not.
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# ]]]
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# Things the script CAN'T do : [[[
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# * ensure a recent selftest was run.
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# * compare current value with vendor's one (for failure prediction or error).
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# * give detail about errors.
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# * Take a look to this more advance script for such features : https://github.com/skazi0/xymon-plugins/blob/master/client/ext/smart
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# ]]]
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# Vars [[[
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debug="1"
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## Colors [[[
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c_redb='\033[1;31m'
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c_magentab='\033[1;35m'
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c_reset='\033[0m'
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## ]]]
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plugin_name=$(basename "${0}")
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plugin_result="${XYMONTMP}/${MACHINEDOTS}.smartoverall.plugin_result"
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plugin_state="${XYMONTMP}/${MACHINEDOTS}.smartoverall.plugin_state"
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device_list="${XYMONTMP}/${MACHINEDOTS}.smartoverall.dscan"
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## List of devices known from the smartmontools base and compatible with test logging
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## This file might be used by a more advanced script such as skazi0's one
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drivedb_list="${XYMONTMP}/${MACHINEDOTS}.smart.drivedb.list"
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# By default, don't empty files newer than 10hours (600 minutes)
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default_mtime_minutes="600"
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# ]]]
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# Functions
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## Create or empty a file if it's too old [[[
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## First argument (required): Absolut path to the file
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## Second argument (optionnal): Maximum number of minutes since last modification
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regenerate_if_too_old() {
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## Set variables according to the number of passed arguments [[[
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case $# in
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0 )
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[ "${debug}" -eq "0" ] && printf "${c_magentab}%-6b${c_reset}\n" "DEBUG : regenerate_if_too_old func − Need at least 1 argument."
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exit 1
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;;
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1 )
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_file="${1}"
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[ "${debug}" -eq "0" ] && printf "${c_magentab}%-6b${c_reset}\n" "DEBUG : regenerate_if_too_old func − Use default_mtime_minutes value: ${default_mtime_minutes}."
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_max_mtime_minutes="${default_mtime_minutes}"
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;;
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2 )
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_file="${1}"
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_max_mtime_minutes="${2}"
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;;
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esac
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## ]]]
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_current_timestamp=$(date "+%s")
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_file_mtime_timestamp=$(stat --format="%Y" -- "${_file}")
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## Substract last modification timestamp of the file to current timestamp
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: $(( _file_mtime_seconds=_current_timestamp-_file_mtime_timestamp ))
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## Get maximum allowed mtime in seconds
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: $(( _max_mtime_seconds=_max_mtime_minutes*60 ))
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## Compare last modification mtime with the maximum allowed
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if [ "${_file_mtime_seconds}" -gt "${_max_mtime_seconds}" ]; then
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[ "${debug}" -eq "0" ] && printf "${c_magentab}%-6b${c_reset}\n" "DEBUG : regenerate_if_too_old func − Need to empty or create ${_file} last modification happened ${_file_mtime_seconds} seconds ago (maximum is ${_max_mtime_seconds})."
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true > "${_file}"
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else
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[ "${debug}" -eq "0" ] && printf "${c_magentab}%-6b${c_reset}\n" "DEBUG : regenerate_if_too_old func − Don't need to empty ${_file} last modification happened ${_file_mtime_seconds} seconds ago (maximum is ${_max_mtime_seconds})."
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fi
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}
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## ]]]
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## Test if a disk really support SMART [[[
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## Smartctl can give an health status even without a full support
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## of SMART for some type (eg. scsi or megaraid).
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## Exemple : SMART support is: Unavailable - device lacks SMART capability.
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is_disk_support_smart() {
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_disk="${1}"
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_type="${2}"
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_smarctl_support_result="${XYMONTMP}/${MACHINEDOTS}.smartoverall.support.$(basename "${_disk}")"
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smart_support_msg=""
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[ "${debug}" -eq "0" ] && printf "${c_magentab}%-6b${c_reset}\n" "DEBUG : is_disk_support_smart func − check if SMART is supported on : ${_disk}."
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## Create or empty previous file
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true > "${_smarctl_support_result}"
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## Grep only "support" lines from disk's informations
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smartctl -d "${_type}" -i -- "${_disk}" | grep -E "^SMART support is:" -- >> "${_smarctl_support_result}"
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## If the file is not empty
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if test -s "${_smarctl_support_result}"; then
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## Parse all "support" lines
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while IFS= read -r _LINE; do
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if ! printf -- '%s' "${_LINE}" | grep -q -E -- "(Enabled|Available)"
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then
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smart_support_msg="${_LINE}"
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fi
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done < "${_smarctl_support_result}"
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else
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smart_support_msg="smartctl was not able to open ${_disk} DEVICE with ${_type} TYPE."
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fi
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if [ -z "${smart_support_msg}" ]; then
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[ "${debug}" -eq "0" ] && printf "${c_magentab}%-6b${c_reset}\n" "DEBUG : is_disk_support_smart func − SMART seems fully supported on : ${_disk} with ${_type} type."
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else
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[ "${debug}" -eq "0" ] && printf "${c_magentab}%-6b${c_reset}\n" "DEBUG : is_disk_support_smart func − SMART is not fully supported on : ${_disk} with ${_type} type. See smartctl informations :\n${smart_support_msg}"
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fi
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## Clean temp files
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### As the Xymon's tmpdir is used to store log files, no need to delete them at
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### the end of the script. They will be emptied at the beginning of the next run.
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}
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## ]]]
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## Test the type of disk with smartctl [[[
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## Cause the scanned one might not be the one to use
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choose_correct_type() {
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_disk="${1}"
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_scanned_type="${2}"
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_default_type="auto"
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TYPE=""
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SMART_SUPPORT_MSG=""
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for test_type in "${_default_type}" "${_scanned_type}"; do
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is_disk_support_smart "${_disk}" "${test_type}"
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## If no message, the type is correct
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if [ -z "${smart_support_msg}" ]; then
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TYPE="${test_type}"
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SMART_SUPPORT_MSG=""
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return
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else
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SMART_SUPPORT_MSG="${smart_support_msg}"
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fi
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done
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}
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## ]]]
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# Create or empty previous files
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true > "${plugin_result}"
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true > "${plugin_state}"
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regenerate_if_too_old "${device_list}" 1440
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true > "${drivedb_list}"
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# Get the list of all available devices if the previous list was emptied
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if test ! -s "${device_list}"; then
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smartctl --scan >> "${device_list}"
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fi
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# If the file is not empty
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if test -s "${device_list}"; then
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while IFS= read -r LINE; do
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## Get device path
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DISK=$(echo "${LINE}" | cut -d" " -f1)
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## Try to determine the best type
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SCANNED_TYPE=$(echo "${LINE}" | cut -d" " -f3)
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choose_correct_type "${DISK}" "${SCANNED_TYPE}"
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## If no correct type was found for this device
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if [ -z "${TYPE}" ]; then
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[ "${debug}" -eq "0" ] && printf "${c_magentab}%-6b${c_reset}\n" "DEBUG : SMART is not fully supported."
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DRES=$(printf '%s' "SMART Health Status can't be determine because of:\n${SMART_SUPPORT_MSG}")
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DCODE="2"
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TYPE="unsupported"
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### Still try to display informations about unsupported device (eg. RAID controller,…)
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DID="unsupported-${DISK}"
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DINFO=$(smartctl -i -d "${SCANNED_TYPE}" "${DISK}" | grep -v -E "^smartctl|^Copyright|^$" || printf '%s' "Can't get informations due to no SMART support.")
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DDRIVEDB_MSG=""
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DSELFTEST=""
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else
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[ "${debug}" -eq "0" ] && printf "${c_magentab}%-6b${c_reset}\n" "DEBUG : SMART seems fully supported, proceed normally."
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### Get SMART Health Status and return code
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DRES=$(/usr/sbin/smartctl -H -d "${TYPE}" -n standby "${DISK}")
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DCODE=$?
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### Get disk's serial number and informations
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DID=$(smartctl -i -d "${TYPE}" "${DISK}" | awk '/.erial .umber:/ { print $NF }')
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DINFO=$(smartctl -i -d "${TYPE}" "${DISK}" | grep -v -E "^smartctl|^Copyright|^$")
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## If the model of the disk is known from smartmontools database
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if smartctl -d "${TYPE}" -P show "${DISK}" | grep -qi -- "drive found in"; then
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DDRIVEDB_MSG="&green Device is known in smartmontools database. You might consider using a more advanced plugin such as:
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https://github.com/skazi0/xymon-plugins/blob/master/client/ext/smart"
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else
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DDRIVEDB_MSG="&clear Device is unknown or not complete in smartmontools database. Please take a look to the FAQ:
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https://www.smartmontools.org/wiki/FAQ#SmartmontoolsDatabase"
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fi
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DSELFTEST=$(smartctl -d "${TYPE}" -l selftest "${DISK}" | grep -v -E -- "^smartctl|^Copyright|^$")
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## If no selftest have been recorded
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if smartctl -d "${TYPE}" -l selftest "${DISK}" | grep -qi -- "No self-tests"; then
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DSELFTEST_MSG="&red No self-tests recorded:"
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DCODE="8"
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## If the device doesn't support test logging
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elif smartctl -d "${TYPE}" -l selftest "${DISK}" | grep -qEi -- "does not support.*logging"; then
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DSELFTEST_MSG="&clear Test logging are not supported:"
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else
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DSELFTEST_MSG=""
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### If the device is also known from smartmontools database
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if printf -- '%s' "${DDRIVEDB_MSG}" | grep -q -E -- "green"
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then
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echo "${DISK}" >> "${drivedb_list}"
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fi
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fi
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fi
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## Test health status
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DSTBY=$(( DCODE & 2 ))
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DFAIL=$(( DCODE & 8 ))
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DWARN=$(( DCODE & 32 ))
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## According to health, give a weight to each color to easily get the page status
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if test $DSTBY -ne 0
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then
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COLOR="4&clear"
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elif test $DFAIL -ne 0
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then
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COLOR="1&red"
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elif test $DWARN -ne 0
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then
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COLOR="2&yellow"
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else
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COLOR="3&green"
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fi
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## Avoid duplicate device
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if ! grep -q "${DID}" "${plugin_result}"; then
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## For summary
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echo "${COLOR} $DISK ${TYPE}"
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## For detailed informations
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{
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echo "${COLOR} $DISK ${TYPE}" | cut -c2-
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echo ""
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echo "$DRES" | grep -v -E "^smartctl|^Copyright|^$|^==="
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echo "${DDRIVEDB_MSG}"
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echo "${DINFO}"
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echo "${DSELFTEST_MSG}"
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echo "${DSELFTEST}" | head -n6
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echo "------------------------------------------------------------"
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echo ""
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echo ""
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} >> "${plugin_result}"
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fi
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done < "${device_list}" >> "${plugin_state}"
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# If the file is empty
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else
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echo "1&red Error while scanning devices with smartctl" >> "${plugin_state}"
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fi
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# Set the global color according to the highest alert
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COLOR=$(< "${plugin_state}" awk '{print $1}' | sort | uniq | head -1 | cut -c3-)
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# Send informations to Xymon server
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$XYMON "${XYMSRV}" "status ${MACHINE}.${plugin_name} ${COLOR} SMART health check
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$(< "${plugin_state}" cut -c2-)
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==================== Detailed status ====================
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$(cat "${plugin_result}")
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"
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# Clean temp files
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## As the Xymon's tmpdir is used to store log files, no need to delete them at
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## the end of the script. They will be emptied at the beginning of the next run.
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exit 0
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