mirror of
https://git.proxmox.com/git/mirror_zfs.git
synced 2024-11-17 10:01:01 +03:00
10715a0187
When your kernel is built with kernel stack tracing enabled and you have the debugfs filesystem mounted. Then the zfs.sh script will clear the worst observed kernel stack depth on module load and check the worst case usage on module removal. If the stack depth ever exceeds 7000 bytes the full stack will be printed for debugging. This is dangerously close to overrunning the default 8k stack. This additional advisory debugging is particularly valuable when running the regression tests on a kernel built with 16k stacks. In this case, almost no matter how bad the stack overrun is you will see be able to get a clean stack trace for debugging. Since the worst case stack usage can be highly variable it's helpful to always check the worst case usage.
664 lines
14 KiB
Bash
664 lines
14 KiB
Bash
#!/bin/bash
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#
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# Common support functions for testing scripts. If a script-config
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# files is available it will be sourced so in-tree kernel modules and
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# utilities will be used. If no script-config can be found then the
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# installed kernel modules and utilities will be used.
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basedir="$(dirname $0)"
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SCRIPT_CONFIG=zfs-script-config.sh
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if [ -f "${basedir}/../${SCRIPT_CONFIG}" ]; then
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. "${basedir}/../${SCRIPT_CONFIG}"
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else
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KERNEL_MODULES=(zlib_deflate zlib_inflate)
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MODULES=(spl splat zavl znvpair zunicode zcommon zfs)
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fi
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PROG="<define PROG>"
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CLEANUP=
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VERBOSE=
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VERBOSE_FLAG=
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FORCE=
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FORCE_FLAG=
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DUMP_LOG=
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ERROR=
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RAID0S=()
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RAID10S=()
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RAIDZS=()
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RAIDZ2S=()
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TESTS_RUN=${TESTS_RUN:-'*'}
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TESTS_SKIP=${TESTS_SKIP:-}
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prefix=@prefix@
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exec_prefix=@exec_prefix@
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libexecdir=@libexecdir@
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pkglibexecdir=${libexecdir}/@PACKAGE@
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bindir=@bindir@
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sbindir=@sbindir@
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ETCDIR=${ETCDIR:-/etc}
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DEVDIR=${DEVDIR:-/dev/disk/zpool}
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ZPOOLDIR=${ZPOOLDIR:-${pkglibexecdir}/zpool-config}
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ZPIOSDIR=${ZPIOSDIR:-${pkglibexecdir}/zpios-test}
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ZPIOSPROFILEDIR=${ZPIOSPROFILEDIR:-${pkglibexecdir}/zpios-profile}
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ZDB=${ZDB:-${sbindir}/zdb}
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ZFS=${ZFS:-${sbindir}/zfs}
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ZINJECT=${ZINJECT:-${sbindir}/zinject}
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ZPOOL=${ZPOOL:-${sbindir}/zpool}
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ZPOOL_ID=${ZPOOL_ID:-${bindir}/zpool_id}
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ZTEST=${ZTEST:-${sbindir}/ztest}
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ZPIOS=${ZPIOS:-${sbindir}/zpios}
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COMMON_SH=${COMMON_SH:-${pkglibexecdir}/common.sh}
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ZFS_SH=${ZFS_SH:-${pkglibexecdir}/zfs.sh}
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ZPOOL_CREATE_SH=${ZPOOL_CREATE_SH:-${pkglibexecdir}/zpool-create.sh}
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ZPIOS_SH=${ZPIOS_SH:-${pkglibexecdir}/zpios.sh}
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ZPIOS_SURVEY_SH=${ZPIOS_SURVEY_SH:-${pkglibexecdir}/zpios-survey.sh}
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LDMOD=${LDMOD:-/sbin/modprobe}
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LSMOD=${LSMOD:-/sbin/lsmod}
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RMMOD=${RMMOD:-/sbin/rmmod}
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INFOMOD=${INFOMOD:-/sbin/modinfo}
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LOSETUP=${LOSETUP:-/sbin/losetup}
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MDADM=${MDADM:-/sbin/mdadm}
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PARTED=${PARTED:-/sbin/parted}
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BLOCKDEV=${BLOCKDEV:-/sbin/blockdev}
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LSSCSI=${LSSCSI:-/usr/bin/lsscsi}
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SCSIRESCAN=${SCSIRESCAN:-/usr/bin/scsi-rescan}
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SYSCTL=${SYSCTL:-/sbin/sysctl}
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UDEVADM=${UDEVADM:-/sbin/udevadm}
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AWK=${AWK:-/usr/bin/awk}
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COLOR_BLACK="\033[0;30m"
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COLOR_DK_GRAY="\033[1;30m"
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COLOR_BLUE="\033[0;34m"
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COLOR_LT_BLUE="\033[1;34m"
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COLOR_GREEN="\033[0;32m"
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COLOR_LT_GREEN="\033[1;32m"
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COLOR_CYAN="\033[0;36m"
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COLOR_LT_CYAN="\033[1;36m"
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COLOR_RED="\033[0;31m"
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COLOR_LT_RED="\033[1;31m"
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COLOR_PURPLE="\033[0;35m"
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COLOR_LT_PURPLE="\033[1;35m"
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COLOR_BROWN="\033[0;33m"
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COLOR_YELLOW="\033[1;33m"
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COLOR_LT_GRAY="\033[0;37m"
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COLOR_WHITE="\033[1;37m"
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COLOR_RESET="\033[0m"
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die() {
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echo -e "${PROG}: $1" >&2
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exit 1
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}
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msg() {
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if [ ${VERBOSE} ]; then
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echo "$@"
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fi
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}
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pass() {
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echo -e "${COLOR_GREEN}Pass${COLOR_RESET}"
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}
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fail() {
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echo -e "${COLOR_RED}Fail${COLOR_RESET} ($1)"
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exit $1
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}
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skip() {
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echo -e "${COLOR_BROWN}Skip${COLOR_RESET}"
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}
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spl_dump_log() {
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${SYSCTL} -w kernel.spl.debug.dump=1 &>/dev/null
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local NAME=`dmesg | tail -n 1 | cut -f5 -d' '`
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${SPLBUILD}/cmd/spl ${NAME} >${NAME}.log
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echo
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echo "Dumped debug log: ${NAME}.log"
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tail -n1 ${NAME}.log
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echo
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return 0
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}
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check_modules() {
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local LOADED_MODULES=()
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local MISSING_MODULES=()
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for MOD in ${MODULES[*]}; do
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local NAME=`basename $MOD .ko`
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if ${LSMOD} | egrep -q "^${NAME}"; then
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LOADED_MODULES=(${NAME} ${LOADED_MODULES[*]})
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fi
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if [ ${INFOMOD} ${MOD} 2>/dev/null ]; then
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MISSING_MODULES=("\t${MOD}\n" ${MISSING_MODULES[*]})
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fi
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done
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if [ ${#LOADED_MODULES[*]} -gt 0 ]; then
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ERROR="Unload these modules with '${PROG} -u':\n"
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ERROR="${ERROR}${LOADED_MODULES[*]}"
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return 1
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fi
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if [ ${#MISSING_MODULES[*]} -gt 0 ]; then
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ERROR="The following modules can not be found,"
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ERROR="${ERROR} ensure your source trees are built:\n"
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ERROR="${ERROR}${MISSING_MODULES[*]}"
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return 1
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fi
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return 0
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}
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load_module() {
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local NAME=`basename $1 .ko`
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if [ ${VERBOSE} ]; then
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echo "Loading ${NAME} ($@)"
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fi
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${LDMOD} $* &>/dev/null || ERROR="Failed to load $1" return 1
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return 0
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}
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load_modules() {
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mkdir -p /etc/zfs
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for MOD in ${KERNEL_MODULES[*]}; do
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load_module ${MOD}
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done
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for MOD in ${MODULES[*]}; do
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local NAME=`basename ${MOD} .ko`
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local VALUE=
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for OPT in "$@"; do
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OPT_NAME=`echo ${OPT} | cut -f1 -d'='`
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if [ ${NAME} = "${OPT_NAME}" ]; then
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VALUE=`echo ${OPT} | cut -f2- -d'='`
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fi
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done
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load_module ${MOD} ${VALUE} || return 1
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done
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if [ ${VERBOSE} ]; then
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echo "Successfully loaded ZFS module stack"
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fi
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return 0
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}
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unload_module() {
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local NAME=`basename $1 .ko`
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if [ ${VERBOSE} ]; then
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echo "Unloading ${NAME} ($@)"
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fi
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${RMMOD} ${NAME} || ERROR="Failed to unload ${NAME}" return 1
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return 0
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}
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unload_modules() {
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local MODULES_REVERSE=( $(echo ${MODULES[@]} |
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${AWK} '{for (i=NF;i>=1;i--) printf $i" "} END{print ""}') )
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for MOD in ${MODULES_REVERSE[*]}; do
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local NAME=`basename ${MOD} .ko`
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local USE_COUNT=`${LSMOD} |
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egrep "^${NAME} "| ${AWK} '{print $3}'`
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if [ "${USE_COUNT}" = 0 ] ; then
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if [ "${DUMP_LOG}" -a ${NAME} = "spl" ]; then
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spl_dump_log
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fi
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unload_module ${MOD} || return 1
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fi
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done
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if [ ${VERBOSE} ]; then
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echo "Successfully unloaded ZFS module stack"
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fi
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return 0
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}
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#
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# Check that the mdadm utilities are installed.
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#
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check_loop_utils() {
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test -f ${LOSETUP} || die "${LOSETUP} utility must be installed"
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}
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#
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# Find and return an unused loopback device.
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#
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unused_loop_device() {
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for DEVICE in `ls -1 /dev/loop* 2>/dev/null`; do
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${LOSETUP} ${DEVICE} &>/dev/null
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if [ $? -ne 0 ]; then
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echo ${DEVICE}
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return
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fi
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done
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die "Error: Unable to find unused loopback device"
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}
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#
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# This can be slightly dangerous because the loop devices we are
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# cleaning up may not be ours. However, if the devices are currently
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# in use we will not be able to remove them, and we only remove
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# devices which include 'zpool' in the name. So any damage we might
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# do should be limited to other zfs related testing.
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#
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cleanup_loop_devices() {
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local TMP_FILE=`mktemp`
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${LOSETUP} -a | tr -d '()' >${TMP_FILE}
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${AWK} -F":" -v losetup="$LOSETUP" \
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'/zpool/ { system("losetup -d "$1) }' ${TMP_FILE}
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${AWK} -F" " '/zpool/ { system("rm -f "$3) }' ${TMP_FILE}
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rm -f ${TMP_FILE}
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}
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#
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# Destroy the passed loopback devices, this is used when you know
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# the names of the loopback devices.
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#
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destroy_loop_devices() {
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local LODEVICES="$1"
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msg "Destroying ${LODEVICES}"
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${LOSETUP} -d ${LODEVICES} || \
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die "Error $? destroying ${FILE} -> ${DEVICE} loopback"
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rm -f ${FILES}
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return 0
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}
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#
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# Check that the mdadm utilities are installed.
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#
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check_md_utils() {
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test -f ${MDADM} || die "${MDADM} utility must be installed"
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test -f ${PARTED} || die "${PARTED} utility must be installed"
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}
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check_md_partitionable() {
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local LOFILE=`mktemp -p /tmp zpool-lo.XXXXXXXX`
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local LODEVICE=`unused_loop_device`
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local MDDEVICE=`unused_md_device`
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local RESULT=1
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check_md_utils
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rm -f ${LOFILE}
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dd if=/dev/zero of=${LOFILE} bs=1M count=0 seek=16 \
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&>/dev/null || return ${RESULT}
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msg "Creating ${LODEVICE} using ${LOFILE}"
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${LOSETUP} ${LODEVICE} ${LOFILE}
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if [ $? -ne 0 ]; then
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rm -f ${LOFILE}
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return ${RESULT}
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fi
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msg "Creating ${MDDEVICE} using ${LODEVICE}"
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${MDADM} --build ${MDDEVICE} --level=faulty \
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--raid-devices=1 ${LODEVICE} &>/dev/null
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if [ $? -ne 0 ]; then
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destroy_loop_devices ${LODEVICE}
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rm -f ${LOFILE}
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return ${RESULT}
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fi
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wait_udev ${MDDEVICE} 30
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${BLOCKDEV} --rereadpt ${MDDEVICE} 2>/dev/null
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RESULT=$?
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destroy_md_devices ${MDDEVICE}
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destroy_loop_devices ${LODEVICE}
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rm -f ${LOFILE}
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return ${RESULT}
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}
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#
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# Find and return an unused md device.
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#
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unused_md_device() {
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for (( i=0; i<32; i++ )); do
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MDDEVICE=md${i}
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# Skip active devicesudo in /proc/mdstat.
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grep -q "${MDDEVICE} " /proc/mdstat && continue
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# Device doesn't exist, use it.
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if [ ! -e $/dev/{MDDEVICE} ]; then
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echo /dev/${MDDEVICE}
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return
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fi
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# Device exists but may not be in use.
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if [ -b /dev/${MDDEVICE} ]; then
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${MDADM} --detail /dev/${MDDEVICE} &>/dev/null
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if [ $? -eq 1 ]; then
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echo /dev/${MDDEVICE}
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return
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fi
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fi
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done
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die "Error: Unable to find unused md device"
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}
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#
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# This can be slightly dangerous because it is possible the md devices
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# we are cleaning up may not be ours. However, if the devices are
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# currently in use we will not be able to remove them, and even if
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# we remove devices which were not out we do not zero the super block
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# so you should be able to reconstruct them.
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#
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cleanup_md_devices() {
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destroy_md_devices "`ls /dev/md* 2>/dev/null | grep -v p`"
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udev_trigger
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}
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#
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# Destroy the passed md devices, this is used when you know
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# the names of the md devices.
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#
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destroy_md_devices() {
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local MDDEVICES="$1"
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msg "Destroying ${MDDEVICES}"
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for MDDEVICE in ${MDDEVICES}; do
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${MDADM} --stop ${MDDEVICE} &>/dev/null
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${MDADM} --remove ${MDDEVICE} &>/dev/null
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${MDADM} --detail ${MDDEVICE} &>/dev/null
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done
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return 0
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}
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#
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# Check that the scsi utilities are installed.
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#
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check_sd_utils() {
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${INFOMOD} scsi_debug &>/dev/null || die "scsi_debug module required"
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test -f ${LSSCSI} || die "${LSSCSI} utility must be installed"
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}
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#
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# Rescan the scsi bus for scsi_debug devices. It is preferable to use the
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# scsi-rescan tool if it is installed, but if it's not we can fall back to
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# removing and readding the device manually. This rescan will only effect
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# the first scsi_debug device if scsi-rescan is missing.
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#
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scsi_rescan() {
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local AWK_SCRIPT="/scsi_debug/ { print \$1; exit }"
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if [ -f ${SCSIRESCAN} ]; then
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${SCSIRESCAN} --forcerescan --remove &>/dev/null
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else
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local SCSIID=`${LSSCSI} | ${AWK} "${AWK_SCRIPT}" | tr -d '[]'`
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local SCSIHOST=`echo ${SCSIID} | cut -f1 -d':'`
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echo 1 >"/sys/class/scsi_device/${SCSIID}/device/delete"
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udev_trigger
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echo "- - -" >/sys/class/scsi_host/host${SCSIHOST}/scan
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udev_trigger
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fi
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}
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#
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# Trigger udev and wait for it to settle.
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#
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udev_trigger() {
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if [ -f ${UDEVADM} ]; then
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${UDEVADM} trigger --action=change --subsystem-match=block
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${UDEVADM} settle
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else
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/sbin/udevtrigger
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/sbin/udevsettle
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fi
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}
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#
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# The following udev helper functions assume that the provided
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# udev rules file will create a /dev/disk/zpool/<CHANNEL><RANK>
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# disk mapping. In this mapping each CHANNEL is represented by
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# the letters a-z, and the RANK is represented by the numbers
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# 1-n. A CHANNEL should identify a group of RANKS which are all
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# attached to a single controller, each RANK represents a disk.
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# This provides a simply mechanism to locate a specific drive
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# given a known hardware configuration.
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#
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udev_setup() {
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local SRC_PATH=$1
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# When running in tree manually contruct symlinks in tree to
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# the proper devices. Symlinks are installed for all entires
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# in the config file regardless of if that device actually
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# exists. When installed as a package udev can be relied on for
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# this and it will only create links for devices which exist.
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if [ ${INTREE} ]; then
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PWD=`pwd`
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mkdir -p ${DEVDIR}/
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cd ${DEVDIR}/
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${AWK} '!/^#/ && /./ { system( \
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"ln -f -s /dev/disk/by-path/"$2" "$1";" \
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"ln -f -s /dev/disk/by-path/"$2"-part1 "$1"p1;" \
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"ln -f -s /dev/disk/by-path/"$2"-part9 "$1"p9;" \
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) }' $SRC_PATH
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cd ${PWD}
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else
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DST_FILE=`basename ${SRC_PATH} | cut -f1-2 -d'.'`
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DST_PATH=/etc/zfs/${DST_FILE}
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if [ -e ${DST_PATH} ]; then
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die "Error: Config ${DST_PATH} already exists"
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fi
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cp ${SRC_PATH} ${DST_PATH}
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udev_trigger
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fi
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return 0
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}
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udev_cleanup() {
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local SRC_PATH=$1
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if [ ${INTREE} ]; then
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PWD=`pwd`
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cd ${DEVDIR}/
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${AWK} '!/^#/ && /./ { system( \
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"rm -f "$1" "$1"p1 "$1"p9") }' $SRC_PATH
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cd ${PWD}
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fi
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return 0
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}
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udev_cr2d() {
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local CHANNEL=`echo "obase=16; $1+96" | bc`
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local RANK=$2
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printf "\x${CHANNEL}${RANK}"
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}
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udev_raid0_setup() {
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local RANKS=$1
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local CHANNELS=$2
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local IDX=0
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RAID0S=()
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for RANK in `seq 1 ${RANKS}`; do
|
|
for CHANNEL in `seq 1 ${CHANNELS}`; do
|
|
DISK=`udev_cr2d ${CHANNEL} ${RANK}`
|
|
RAID0S[${IDX}]="${DEVDIR}/${DISK}"
|
|
let IDX=IDX+1
|
|
done
|
|
done
|
|
|
|
return 0
|
|
}
|
|
|
|
udev_raid10_setup() {
|
|
local RANKS=$1
|
|
local CHANNELS=$2
|
|
local IDX=0
|
|
|
|
RAID10S=()
|
|
for RANK in `seq 1 ${RANKS}`; do
|
|
for CHANNEL1 in `seq 1 2 ${CHANNELS}`; do
|
|
let CHANNEL2=CHANNEL1+1
|
|
DISK1=`udev_cr2d ${CHANNEL1} ${RANK}`
|
|
DISK2=`udev_cr2d ${CHANNEL2} ${RANK}`
|
|
GROUP="${DEVDIR}/${DISK1} ${DEVDIR}/${DISK2}"
|
|
RAID10S[${IDX}]="mirror ${GROUP}"
|
|
let IDX=IDX+1
|
|
done
|
|
done
|
|
|
|
return 0
|
|
}
|
|
|
|
udev_raidz_setup() {
|
|
local RANKS=$1
|
|
local CHANNELS=$2
|
|
|
|
RAIDZS=()
|
|
for RANK in `seq 1 ${RANKS}`; do
|
|
RAIDZ=("raidz")
|
|
|
|
for CHANNEL in `seq 1 ${CHANNELS}`; do
|
|
DISK=`udev_cr2d ${CHANNEL} ${RANK}`
|
|
RAIDZ[${CHANNEL}]="${DEVDIR}/${DISK}"
|
|
done
|
|
|
|
RAIDZS[${RANK}]="${RAIDZ[*]}"
|
|
done
|
|
|
|
return 0
|
|
}
|
|
|
|
udev_raidz2_setup() {
|
|
local RANKS=$1
|
|
local CHANNELS=$2
|
|
|
|
RAIDZ2S=()
|
|
for RANK in `seq 1 ${RANKS}`; do
|
|
RAIDZ2=("raidz2")
|
|
|
|
for CHANNEL in `seq 1 ${CHANNELS}`; do
|
|
DISK=`udev_cr2d ${CHANNEL} ${RANK}`
|
|
RAIDZ2[${CHANNEL}]="${DEVDIR}/${DISK}"
|
|
done
|
|
|
|
RAIDZ2S[${RANK}]="${RAIDZ2[*]}"
|
|
done
|
|
|
|
return 0
|
|
}
|
|
|
|
run_one_test() {
|
|
local TEST_NUM=$1
|
|
local TEST_NAME=$2
|
|
|
|
printf "%-4d %-34s " ${TEST_NUM} "${TEST_NAME}"
|
|
test_${TEST_NUM}
|
|
}
|
|
|
|
skip_one_test() {
|
|
local TEST_NUM=$1
|
|
local TEST_NAME=$2
|
|
|
|
printf "%-4d %-34s " ${TEST_NUM} "${TEST_NAME}"
|
|
skip
|
|
}
|
|
|
|
run_test() {
|
|
local TEST_NUM=$1
|
|
local TEST_NAME=$2
|
|
|
|
for i in ${TESTS_SKIP[@]}; do
|
|
if [[ $i == ${TEST_NUM} ]] ; then
|
|
skip_one_test ${TEST_NUM} "${TEST_NAME}"
|
|
return 0
|
|
fi
|
|
done
|
|
|
|
if [ "${TESTS_RUN[0]}" = "*" ]; then
|
|
run_one_test ${TEST_NUM} "${TEST_NAME}"
|
|
else
|
|
for i in ${TESTS_RUN[@]}; do
|
|
if [[ $i == ${TEST_NUM} ]] ; then
|
|
run_one_test ${TEST_NUM} "${TEST_NAME}"
|
|
return 0
|
|
fi
|
|
done
|
|
|
|
skip_one_test ${TEST_NUM} "${TEST_NAME}"
|
|
fi
|
|
}
|
|
|
|
wait_udev() {
|
|
local DEVICE=$1
|
|
local DELAY=$2
|
|
local COUNT=0
|
|
|
|
udev_trigger
|
|
while [ ! -e ${DEVICE} ]; do
|
|
if [ ${COUNT} -gt ${DELAY} ]; then
|
|
return 1
|
|
fi
|
|
|
|
let COUNT=${COUNT}+1
|
|
sleep 1
|
|
done
|
|
|
|
return 0
|
|
}
|
|
|
|
stack_clear() {
|
|
local STACK_MAX_SIZE=/sys/kernel/debug/tracing/stack_max_size
|
|
local STACK_TRACER_ENABLED=/proc/sys/kernel/stack_tracer_enabled
|
|
|
|
if [ -e $STACK_MAX_SIZE ]; then
|
|
echo 1 >$STACK_TRACER_ENABLED
|
|
echo 0 >$STACK_MAX_SIZE
|
|
fi
|
|
}
|
|
|
|
stack_check() {
|
|
local STACK_MAX_SIZE=/sys/kernel/debug/tracing/stack_max_size
|
|
local STACK_TRACE=/sys/kernel/debug/tracing/stack_trace
|
|
local STACK_LIMIT=7000
|
|
|
|
if [ -e $STACK_MAX_SIZE ]; then
|
|
STACK_SIZE=`cat $STACK_MAX_SIZE`
|
|
|
|
if [ $STACK_SIZE -ge $STACK_LIMIT ]; then
|
|
echo
|
|
echo "Warning: max stack size $STACK_SIZE bytes"
|
|
cat $STACK_TRACE
|
|
fi
|
|
fi
|
|
}
|