minix/tests/sbin/resize_ffs/common.sh

# Common settings and functions for the various resize_ffs tests.
# 

# called from atf_init_test_cases
setupvars()
{
	IMG=fsimage
	TDBASE64=$(atf_get_srcdir)/testdata.tar.gz.base64
	GOODMD5=$(atf_get_srcdir)/testdata.md5
	# set BYTESWAP to opposite-endian.
	if [ $(sysctl -n hw.byteorder) = "1234" ]; then
		BYTESWAP=be
	else
		BYTESWAP=le
	fi
}

# test_case() taken from the tests/ipf/h_common.sh
# Used to declare the atf goop for a test.
test_case()
{
	local name="${1}"; shift
	local check_function="${1}"; shift

	atf_test_case "${name}" cleanup
	eval "${name}_head() { \
		atf_set "require.user" "root" ; \
		atf_set "require.progs" "rump_ffs" ; \
	}"
	eval "${name}_body() { \
		${check_function} " "${@}" "; \
	}"
	eval "${name}_cleanup() { \
		umount -f mnt  ; \
		: reset error ; \
	}"
}

# Used to declare the atf goop for a test expected to fail.
test_case_xfail()
{
	local name="${1}"; shift
	local reason="${1}"; shift
	local check_function="${1}"; shift

	atf_test_case "${name}" cleanup
	eval "${name}_head() { \
		atf_set "require.user" "root" ; \
	}"
	eval "${name}_body() { \
		atf_expect_fail "${reason}" ; \
		${check_function} " "${@}" "; \
	}"
	eval "${name}_cleanup() { \
		umount -f mnt  ; \
		: reset error ; \
	}"
}

# copy_data requires the mount already done;  makes one copy of the test data
copy_data ()
{
	uudecode -p ${TDBASE64} | (cd mnt; tar xzf - -s/testdata/TD$1/)
}

copy_multiple ()
{
	local i
	for i in $(seq $1); do
		copy_data $i
	done
}

# remove_data removes one directory worth of test data; the purpose
# is to ensure data exists near the end of the fs under test.
remove_data ()
{
	rm -rf mnt/TD$1
}

remove_multiple ()
{
	local i
	for i in $(seq $1); do
		remove_data $i
	done
}

# verify that the data in a particular directory is still OK
# generated md5 file doesn't need explicit cleanup thanks to ATF
check_data ()
{
	(cd mnt/TD$1 && md5 *) > TD$1.md5
	atf_check diff -u ${GOODMD5} TD$1.md5
}

# supply begin and end arguments
check_data_range ()
{
	local i
	for i in $(seq $1 $2); do
		check_data $i
	done
}


resize_ffs()
{
	echo "in resize_ffs:" ${@}
	local bs=$1
	local fragsz=$2
	local osize=$3
	local nsize=$4
	local fslevel=$5
	local numdata=$6
	local swap=$7
	mkdir -p mnt
	echo "bs is ${bs} numdata is ${numdata}"
	echo "****resizing fs with blocksize ${bs}"

	# we want no more than 16K/inode to allow test files to copy.
	local fpi=$((fragsz * 4))
	local i
	if [ $fpi -gt 16384 ]; then
		i="-i 16384"
	fi
	if [ x$swap != x ]; then
		newfs -B ${BYTESWAP} -O${fslevel} -b ${bs} -f ${fragsz} \
			-s ${osize} ${i} -F ${IMG}
	else
		newfs -O${fslevel} -b ${bs} -f ${fragsz} -s ${osize} ${i} \
			-F ${IMG}
	fi

	# we're specifying relative paths, so rump_ffs warns - ignore.
	atf_check -s exit:0 -e ignore rump_ffs ${IMG} mnt
	copy_multiple ${numdata}

	if [ ${nsize} -lt ${osize} ]; then
	    # how much data to remove so fs can be shrunk
	    local remove=$((numdata-numdata*nsize/osize))
	    local dataleft=$((numdata-remove))
	    echo remove is $remove dataleft is $dataleft
	    remove_multiple ${remove}
	fi

	umount mnt
	atf_check -s exit:0 -o ignore resize_ffs -y -s ${nsize} ${IMG}
	atf_check -s exit:0 -o ignore fsck_ffs -f -n -F ${IMG}
	atf_check -s exit:0 -e ignore rump_ffs ${IMG} mnt
	if [ ${nsize} -lt ${osize} ]; then
	    check_data_range $((remove + 1)) ${numdata}
	else
	    # checking everything because we don't delete on grow
	    check_data_range 1 ${numdata}
	fi
	umount mnt
}