#!/bin/bash # # Common routines for all tests # # assert that argument is not empty and is an existing path (file or directory) _assert_path() { local path path="$1" if [ -z "$path" ]; then echo "ASSERTION FAIL: $path is not valid" exit 1 fi if [ -f "$path" -o -d "$path" -o -b "$path" ]; then return 0 fi echo "ASSERTION FAIL: $path is not valid" exit 1 } # $1: this string gets matched to files, absolute or relative path, or a # systemwide command available via $PATH _is_file_or_command() { local msg msg="$1" if [ -z "$msg" ]; then return 1 fi if [ -f "$msg" -o -d "$msg" -o -b "$msg" ]; then return 0 fi msg=$(type -p -- "$msg") if [ -f "$msg" ]; then return 0 fi return 1 } _fail() { echo "$*" | tee -a "$RESULTS" exit 1 } # log a message to the results file _log() { echo "$*" | tee -a "$RESULTS" } # copy stdout to log and pass to stdout, eg. another stdout consumer, commands # should redirect stderr to stdout if this is consmed by further commands _log_stdout() { tee -a "$RESULTS" } _not_run() { echo " [NOTRUN] $*" exit 0 } # debugging helper _dump_args() { local i i=1 echo "DUMP args for ${FUNCNAME[1]}:" while [ $# -gt 0 ]; do echo "ARG[$i]: $1" i=$(($i+1)) shift done } # read arguments, look if we're calling btrfs and if there's a known # subcommand, return argument index to insert, taking root helper into # consideration, returns 2 for unknown subcommand _get_spec_ins() { if [ "$1" = 'root_helper' ]; then if [[ $2 =~ /btrfs$ ]]; then echo -n 4 return fi else if [[ $1 =~ /btrfs$ ]]; then echo -n 3 return fi fi echo -n 2 } # return command-specific arguments if enabled _cmd_spec() { if [ "$TEST_ENABLE_OVERRIDE" = 'true' ]; then # if defined via common.local, use it, otherwise pass make # arguments if [ "$(type -t _skip_spec)" = 'function' ]; then if _skip_spec "$@"; then return fi fi case "$1" in check) echo -n "$TEST_ARGS_CHECK" ;; esac fi } # Argument passing magic: # the command passed to run_* helpers is inspected, if there's 'btrfs command' # found and there are defined additional arguments, they're inserted just after # the command name, ie. any arguments in the test could override them. # # The root helper is recognized. Unrecognized subcommands or external tools # are not affected. run_check() { local spec local ins local cmd ins=$(_get_spec_ins "$@") spec=$(($ins-1)) cmd=$(eval echo "\${$spec}") spec=$(_cmd_spec "${@:$spec}") set -- "${@:1:$(($ins-1))}" $spec "${@: $ins}" echo "====== RUN CHECK $@" >> "$RESULTS" 2>&1 if [[ $TEST_LOG =~ tty ]]; then echo "CMD: $@" > /dev/tty; fi if [ "$1" = 'root_helper' ]; then "$@" >> "$RESULTS" 2>&1 || _fail "failed: $@" else $INSTRUMENT "$@" >> "$RESULTS" 2>&1 || _fail "failed: $@" fi } # same as run_check but the stderr+stdout output is duplicated on stdout and # can be processed further run_check_stdout() { local spec local ins local cmd ins=$(_get_spec_ins "$@") spec=$(($ins-1)) cmd=$(eval echo "\${$spec}") spec=$(_cmd_spec "${@:$spec}") set -- "${@:1:$(($ins-1))}" $spec "${@: $ins}" echo "====== RUN CHECK $@" >> "$RESULTS" 2>&1 if [[ $TEST_LOG =~ tty ]]; then echo "CMD(stdout): $@" > /dev/tty; fi if [ "$1" = 'root_helper' ]; then "$@" 2>&1 | tee -a "$RESULTS" else $INSTRUMENT "$@" 2>&1 | tee -a "$RESULTS" fi if [ ${PIPESTATUS[0]} -ne 0 ]; then _fail "failed: $@" fi } # same as run_check but does not fail the test if it's handled gracefully by # the tool, unexpected failure like segfault or abor will exit forcibly # output is logged run_mayfail() { local spec local ins local cmd local ret ins=$(_get_spec_ins "$@") spec=$(($ins-1)) cmd=$(eval echo "\${$spec}") spec=$(_cmd_spec "${@:$spec}") set -- "${@:1:$(($ins-1))}" $spec "${@: $ins}" echo "====== RUN MAYFAIL $@" >> "$RESULTS" 2>&1 if [[ $TEST_LOG =~ tty ]]; then echo "CMD(mayfail): $@" > /dev/tty; fi if [ "$1" = 'root_helper' ]; then "$@" >> "$RESULTS" 2>&1 else $INSTRUMENT "$@" >> "$RESULTS" 2>&1 fi ret=$? if [ $ret != 0 ]; then echo "failed (ignored, ret=$ret): $@" >> "$RESULTS" if [ $ret == 139 ]; then _fail "mayfail: returned code 139 (SEGFAULT), not ignored" elif [ $ret == 134 ]; then _fail "mayfail: returned code 134 (SIGABRT), not ignored" fi return $ret fi } # first argument is error message to print if it fails, otherwise # same as run_check but expects the command to fail, output is logged run_mustfail() { local spec local ins local cmd local msg msg="$1" shift if _is_file_or_command "$msg"; then echo "ASSERTION FAIL: 1st argument of run_mustfail must be a message" exit 1 fi ins=$(_get_spec_ins "$@") spec=$(($ins-1)) cmd=$(eval echo "\${$spec}") spec=$(_cmd_spec "${@:$spec}") set -- "${@:1:$(($ins-1))}" $spec "${@: $ins}" echo "====== RUN MUSTFAIL $@" >> "$RESULTS" 2>&1 if [[ $TEST_LOG =~ tty ]]; then echo "CMD(mustfail): $@" > /dev/tty; fi if [ "$1" = 'root_helper' ]; then "$@" >> "$RESULTS" 2>&1 else $INSTRUMENT "$@" >> "$RESULTS" 2>&1 fi if [ $? != 0 ]; then echo "failed (expected): $@" >> "$RESULTS" return 0 else echo "succeeded (unexpected!): $@" >> "$RESULTS" _fail "unexpected success: $msg" return 1 fi } # The first parameter is error message to print if it fails, just like # run_must_fail(). # NOTE: we don't use pipefail to avoid disturbing other script, so here we # use a temporary output file. # So it doesn't support pipeline in the @cmd run_mustfail_stdout() { local spec local ins local cmd local msg local ret local tmp_output tmp_output=$(mktemp --tmpdir btrfs-progs-test--mustfail-stdtout.XXXXXX) msg="$1" shift if _is_file_or_command "$msg"; then echo "ASSERTION FAIL: 1st argument of run_mustfail_stdout must be a message" exit 1 fi ins=$(_get_spec_ins "$@") spec=$(($ins-1)) cmd=$(eval echo "\${$spec}") spec=$(_cmd_spec "${@:$spec}") set -- "${@:1:$(($ins-1))}" $spec "${@: $ins}" echo "====== RUN MUSTFAIL $@" >> "$RESULTS" 2>&1 if [[ $TEST_LOG =~ tty ]]; then echo "CMD(mustfail): $@" > /dev/tty; fi if [ "$1" = 'root_helper' ]; then "$@" 2>&1 > "$tmp_output" else $INSTRUMENT "$@" 2>&1 > "$tmp_output" fi ret=$? cat "$tmp_output" >> "$RESULTS" cat "$tmp_output" rm "$tmp_output" if [ "$ret" != 0 ]; then echo "failed (expected): $@" >> "$RESULTS" return 0 else echo "succeeded (unexpected!): $@" >> "$RESULTS" _fail "unexpected success: $msg" return 1 fi } check_prereq() { if [ "$1" = "btrfs-corrupt-block" -o "$1" = "fssum" ]; then if ! [ -f "$INTERNAL_BIN/$1" ]; then _fail "Failed prerequisites: $INTERNAL_BIN/$1"; fi elif ! [ -f "$TOP/$1" ]; then _fail "Failed prerequisites: $TOP/$1"; fi } check_global_prereq() { which $1 &> /dev/null if [ $? -ne 0 ]; then _fail "Failed system wide prerequisities: $1"; fi } check_image() { local image image=$1 echo "testing image $(basename $image)" >> "$RESULTS" "$TOP/btrfs" check "$image" >> "$RESULTS" 2>&1 [ $? -eq 0 ] && _fail "btrfs check should have detected corruption" run_check "$TOP/btrfs" check --repair "$image" run_check "$TOP/btrfs" check "$image" } # Extract a usable image from packed formats # - raw btrfs filesystem images, suffix .raw # - dtto compressed by XZ, suffix .raw.xz # - meta-dump images with suffix .img # - dtto compressed by XZ, suffix .img.xz # - compressed send stream, .stream.xz extract_image() { local image local cleanme image="$1" case "$image" in *.img) rm -f "$image.restored" ;; *.img.xz) xz --decompress --keep "$image" || \ _fail "failed to decompress image $image" >&2 image=${image%%.xz} rm -f "$image.restored" cleanme=$image ;; *.raw) cp --sparse=auto "$image" "$image.restored" ;; *.raw.xz) xz --decompress --keep "$image" || \ _fail "failed to decompress image $image" >&2 image=${image%%.xz} mv "$image" "$image.restored" ;; *.stream.xz) xz --decompress --keep "$image" || \ _fail "failed to decompress file $image" >&2 image=${image%%.xz} mv "$image" "$image.restored" ;; esac if ! [ -f "$image.restored" ]; then echo "restoring image $(basename $image)" >> "$RESULTS" "$TOP/btrfs-image" -r "$image" "$image.restored" \ &>> "$RESULTS" \ || _fail "failed to restore image $image" >&2 fi [ -f "$cleanme" ] && rm -f "$cleanme" echo "$image.restored" } # Process all image dumps in a given directory check_all_images() { local dir local extracted dir="$1" if [ -z "$dir" ]; then dir=. fi _assert_path "$dir" for image in $(find "$dir" \( -iname '*.img' -o \ -iname '*.img.xz' -o \ -iname '*.raw' -o \ -iname '*.raw.xz' \) | sort) do extracted=$(extract_image "$image") check_image "$extracted" rm -f "$extracted" done } # some tests need to mount the recovered image and do verifications call # 'setup_root_helper' and then check for have_root_helper == 1 if the test # needs to fail otherwise; using sudo by default for now SUDO_HELPER= NEED_SUDO_VALIDATE=unknown export SUDO_HELPER export NEED_SUDO_VALIDATE root_helper() { if [ $UID -eq 0 ]; then "$@" else if [ "$NEED_SUDO_VALIDATE" = 'yes' ]; then sudo -v -n &>/dev/null || \ _not_run "Need to validate sudo credentials" sudo -n "$@" elif [ "$NEED_SUDO_VALIDATE" = 'no' ]; then sudo -n /bin/true &> /dev/null || \ _not_run "Need to validate sudo user settings" sudo -n "$@" else # should not happen _not_run "Need to validate root privileges" fi fi } setup_root_helper() { if [ $UID -eq 0 -o -n "$SUDO_HELPER" ]; then return fi # Test for old sudo or special settings, which make sudo -v fail even # if user setting is NOPASSWD sudo -n /bin/true &>/dev/null && NEED_SUDO_VALIDATE=no # Newer sudo or default sudo setting sudo -v -n &>/dev/null && NEED_SUDO_VALIDATE=yes if [ "$NEED_SUDO_VALIDATE" = 'unknown' ]; then _not_run "Need to validate root privileges" fi SUDO_HELPER=root_helper } prepare_test_dev() { # num[K/M/G/T...] local size="$1" [[ "$size" ]] || size='2G' # Still truncate it to new size if [ -n "$TEST_DEV" ]; then truncate -s 0 "$TEST_DEV" truncate -s "$size" "$TEST_DEV" return; fi echo "\$TEST_DEV not given, using $TEST_TOP/test.img as fallback" >> \ "$RESULTS" TEST_DEV="$TEST_TOP/test.img" truncate -s 0 "$TEST_DEV" truncate -s "$size" "$TEST_DEV" || _not_run "create file for loop device failed" } run_check_mount_test_dev() { setup_root_helper local loop_opt if [[ -b "$TEST_DEV" ]]; then loop_opt="" elif [[ -f "$TEST_DEV" ]]; then loop_opt="-o loop" else _fail "Invalid \$TEST_DEV: $TEST_DEV" fi [[ -d "$TEST_MNT" ]] || { _fail "Invalid \$TEST_MNT: $TEST_MNT" } run_check $SUDO_HELPER mount -t btrfs $loop_opt "$@" "$TEST_DEV" "$TEST_MNT" } # $1-$n: optional paths to unmount, otherwise fallback to TEST_DEV run_check_umount_test_dev() { setup_root_helper if [ "$#" = 0 ]; then set -- "$TEST_DEV" fi run_check $SUDO_HELPER umount "$@" } check_kernel_support() { if ! grep -iq 'btrfs' /proc/filesystems; then run_check $SUDO_HELPER modprobe btrfs if ! grep -iq 'btrfs' /proc/filesystems; then echo \ "WARNING: btrfs filesystem not found in /proc/filesystems, some tests might fail" return 1 fi fi return 0 } # how many files to create. DATASET_SIZE=50 generate_dataset() { dataset_type="$1" dirpath=$TEST_MNT/$dataset_type run_check $SUDO_HELPER mkdir -p "$dirpath" case "$dataset_type" in small) for num in $(seq 1 "$DATASET_SIZE"); do run_check $SUDO_HELPER dd if=/dev/urandom of="$dirpath/$dataset_type.$num" bs=10K \ count=1 >/dev/null 2>&1 done ;; hardlink) for num in $(seq 1 "$DATASET_SIZE"); do run_check $SUDO_HELPER touch "$dirpath/$dataset_type.$num" run_check $SUDO_HELPER ln "$dirpath/$dataset_type.$num" "$dirpath/hlink.$num" done ;; fast_symlink) for num in $(seq 1 "$DATASET_SIZE"); do run_check $SUDO_HELPER touch "$dirpath/$dataset_type.$num" run_check cd "$dirpath" && \ $SUDO_HELPER ln -s "$dataset_type.$num" "$dirpath/slink.$num" && \ cd / done ;; brokenlink) for num in $(seq 1 "$DATASET_SIZE"); do run_check $SUDO_HELPER ln -s "$dirpath/$dataset_type.$num" "$dirpath/blink.$num" done ;; perm) for modes in 777 775 755 750 700 666 664 644 640 600 444 440 400 000 \ 1777 1775 1755 1750 1700 1666 1664 1644 1640 1600 1444 1440 1400 1000 \ 2777 2775 2755 2750 2700 2666 2664 2644 2640 2600 2444 2440 2400 2000 \ 4777 4775 4755 4750 4700 4666 4664 4644 4640 4600 4444 4440 4400 4000; do run_check $SUDO_HELPER touch "$dirpath/$dataset_type.$modes" run_check $SUDO_HELPER chmod "$modes" "$dirpath/$dataset_type.$modes" done ;; sparse) for num in $(seq 1 "$DATASET_SIZE"); do run_check $SUDO_HELPER dd if=/dev/urandom of="$dirpath/$dataset_type.$num" bs=10K \ count=1 >/dev/null 2>&1 run_check $SUDO_HELPER truncate -s 500K "$dirpath/$dataset_type.$num" run_check $SUDO_HELPER dd if=/dev/urandom of="$dirpath/$dataset_type.$num" bs=10K \ oflag=append conv=notrunc count=1 >/dev/null 2>&1 run_check $SUDO_HELPER truncate -s 800K "$dirpath/$dataset_type.$num" done ;; acls) for num in $(seq 1 "$DATASET_SIZE"); do run_check $SUDO_HELPER touch "$dirpath/$dataset_type.$num" run_check $SUDO_HELPER setfacl -m "u:root:x" "$dirpath/$dataset_type.$num" run_check $SUDO_HELPER setfattr -n user.foo -v "bar$num" "$dirpath/$dataset_type.$num" done ;; fifo) for num in $(seq 1 "$DATASET_SIZE"); do run_check $SUDO_HELPER mkfifo "$dirpath/$dataset_type.$num" done ;; slow_symlink) long_filename=`date +%s | sha256sum | cut -f1 -d ' '` run_check $SUDO_HELPER touch "$dirpath/$long_filename" for num in $(seq 1 "$DATASET_SIZE"); do run_check $SUDO_HELPER ln -s "$dirpath/$long_filename" "$dirpath/slow_slink.$num" done ;; large) run_check $SUDO_HELPER dd if=/dev/urandom bs=32M count=1 \ of="$dirpath/$dataset_type" >/dev/null 2>&1 ;; esac } # prepare environment for loop devices, set up the following variables # - nloopdevs -- number of desired devices # - loopdevs -- array containing paths to all devices (after prepare is called) # - loopdev_prefix -- file backed images starting with this string, 'img' by default # # $1: number of loop devices to be set up setup_loopdevs() { if [ -z "$1" ]; then _fail "setup_loopdevs needs a number" fi nloopdevs="$1" loopdev_prefix=img declare -a loopdevs } # create all loop devices from a given loopdev environment prepare_loopdevs() { for i in `seq $nloopdevs`; do touch $loopdev_prefix$i chmod a+rw $loopdev_prefix$i truncate -s0 $loopdev_prefix$i truncate -s2g $loopdev_prefix$i loopdevs[$i]=`run_check_stdout $SUDO_HELPER losetup --find --show $loopdev_prefix$i` done } # detach loop devices and reset their size to 0, delete the files afterwards cleanup_loopdevs() { for dev in ${loopdevs[@]}; do run_check $SUDO_HELPER losetup -d $dev done for i in `seq $nloopdevs`; do truncate -s0 $loopdev_prefix$i rm -- "$loopdev_prefix$i" done run_check $SUDO_HELPER losetup --all } init_env() { TEST_MNT="${TEST_MNT:-$TEST_TOP/mnt}" export TEST_MNT mkdir -p "$TEST_MNT" || { echo "Failed mkdir -p $TEST_MNT"; exit 1; } source $TEST_TOP/common.local if [ "$TEST_ENABLE_OVERRIDE" = 'true' -a -n "$RESULTS" ]; then echo "INCLUDE common.local" >> "$RESULTS" echo " check: $TEST_ARGS_CHECK" >> "$RESULTS" fi } init_env