#!/bin/sh -ex # returns data pool for a given image get_image_data_pool () { image=$1 data_pool=$(rbd info $image | grep "data_pool: " | awk -F':' '{ print $NF }') if [ -z $data_pool ]; then data_pool='rbd' fi echo $data_pool } # return list of object numbers populated in image objects () { image=$1 prefix=$(rbd info $image | grep block_name_prefix | awk '{print $NF;}') # strip off prefix and leading zeros from objects; sort, although # it doesn't necessarily make sense as they're hex, at least it makes # the list repeatable and comparable objects=$(rados ls -p $(get_image_data_pool $image) | grep $prefix | \ sed -e 's/'$prefix'\.//' -e 's/^0*\([0-9a-f]\)/\1/' | sort -u) echo $objects } # return false if either files don't compare or their ondisk # sizes don't compare compare_files_and_ondisk_sizes () { cmp -l $1 $2 || return 1 origsize=$(stat $1 --format %b) exportsize=$(stat $2 --format %b) difference=$(($exportsize - $origsize)) difference=${difference#-} # absolute value test $difference -ge 0 -a $difference -lt 4096 } TMPDIR=/tmp/rbd_import_export_$$ rm -rf $TMPDIR mkdir $TMPDIR trap "rm -rf $TMPDIR" INT TERM EXIT # cannot import a dir mkdir foo.$$ rbd import foo.$$ foo.dir && exit 1 || true # should fail rmdir foo.$$ # create a sparse file dd if=/bin/sh of=${TMPDIR}/img bs=1k count=1 seek=10 dd if=/bin/dd of=${TMPDIR}/img bs=1k count=10 seek=100 dd if=/bin/rm of=${TMPDIR}/img bs=1k count=100 seek=1000 dd if=/bin/ls of=${TMPDIR}/img bs=1k seek=10000 dd if=/bin/ln of=${TMPDIR}/img bs=1k seek=100000 dd if=/bin/grep of=${TMPDIR}/img bs=1k seek=1000000 rbd rm testimg || true rbd import $RBD_CREATE_ARGS ${TMPDIR}/img testimg rbd export testimg ${TMPDIR}/img2 rbd export testimg - > ${TMPDIR}/img3 rbd rm testimg cmp ${TMPDIR}/img ${TMPDIR}/img2 cmp ${TMPDIR}/img ${TMPDIR}/img3 rm ${TMPDIR}/img2 ${TMPDIR}/img3 # try again, importing from stdin rbd import $RBD_CREATE_ARGS - testimg < ${TMPDIR}/img rbd export testimg ${TMPDIR}/img2 rbd export testimg - > ${TMPDIR}/img3 rbd rm testimg cmp ${TMPDIR}/img ${TMPDIR}/img2 cmp ${TMPDIR}/img ${TMPDIR}/img3 rm ${TMPDIR}/img ${TMPDIR}/img2 ${TMPDIR}/img3 if rbd help export | grep -q export-format; then # try with --export-format for snapshots dd if=/bin/dd of=${TMPDIR}/img bs=1k count=10 seek=100 rbd import $RBD_CREATE_ARGS ${TMPDIR}/img testimg rbd snap create testimg@snap rbd image-meta set testimg key1 value1 IMAGEMETA_BEFORE=`rbd image-meta list testimg` rbd export --export-format 2 testimg ${TMPDIR}/img_v2 rbd import --export-format 2 ${TMPDIR}/img_v2 testimg_import rbd info testimg_import rbd info testimg_import@snap IMAGEMETA_AFTER=`rbd image-meta list testimg_import` [ "$IMAGEMETA_BEFORE" = "$IMAGEMETA_AFTER" ] # compare the contents between testimg and testimg_import rbd export testimg_import ${TMPDIR}/img_import compare_files_and_ondisk_sizes ${TMPDIR}/img ${TMPDIR}/img_import rbd export testimg@snap ${TMPDIR}/img_snap rbd export testimg_import@snap ${TMPDIR}/img_snap_import compare_files_and_ondisk_sizes ${TMPDIR}/img_snap ${TMPDIR}/img_snap_import rm ${TMPDIR}/img_v2 rm ${TMPDIR}/img_import rm ${TMPDIR}/img_snap rm ${TMPDIR}/img_snap_import rbd snap rm testimg_import@snap rbd remove testimg_import rbd snap rm testimg@snap rbd rm testimg # order rbd import --order 20 ${TMPDIR}/img testimg rbd export --export-format 2 testimg ${TMPDIR}/img_v2 rbd import --export-format 2 ${TMPDIR}/img_v2 testimg_import rbd info testimg_import|grep order|awk '{print $2}'|grep 20 rm ${TMPDIR}/img_v2 rbd remove testimg_import rbd remove testimg # features rbd import --image-feature layering ${TMPDIR}/img testimg FEATURES_BEFORE=`rbd info testimg|grep features` rbd export --export-format 2 testimg ${TMPDIR}/img_v2 rbd import --export-format 2 ${TMPDIR}/img_v2 testimg_import FEATURES_AFTER=`rbd info testimg_import|grep features` if [ "$FEATURES_BEFORE" != "$FEATURES_AFTER" ]; then false fi rm ${TMPDIR}/img_v2 rbd remove testimg_import rbd remove testimg # stripe rbd import --stripe-count 1000 --stripe-unit 4096 ${TMPDIR}/img testimg rbd export --export-format 2 testimg ${TMPDIR}/img_v2 rbd import --export-format 2 ${TMPDIR}/img_v2 testimg_import rbd info testimg_import|grep "stripe unit"|awk '{print $3}'|grep 4096 rbd info testimg_import|grep "stripe count"|awk '{print $3}'|grep 1000 rm ${TMPDIR}/img_v2 rbd remove testimg_import rbd remove testimg fi tiered=0 if ceph osd dump | grep ^pool | grep "'rbd'" | grep tier; then tiered=1 fi # create specifically sparse files # 1 1M block of sparse, 1 1M block of random dd if=/dev/urandom bs=1M seek=1 count=1 of=${TMPDIR}/sparse1 # 1 1M block of random, 1 1M block of sparse dd if=/dev/urandom bs=1M count=1 of=${TMPDIR}/sparse2; truncate ${TMPDIR}/sparse2 -s 2M # 1M-block images; validate resulting blocks # 1M sparse, 1M data rbd rm sparse1 || true rbd import $RBD_CREATE_ARGS --order 20 ${TMPDIR}/sparse1 rbd ls -l | grep sparse1 | grep -Ei '(2M|2048k)' [ $tiered -eq 1 -o "$(objects sparse1)" = '1' ] # export, compare contents and on-disk size rbd export sparse1 ${TMPDIR}/sparse1.out compare_files_and_ondisk_sizes ${TMPDIR}/sparse1 ${TMPDIR}/sparse1.out rm ${TMPDIR}/sparse1.out rbd rm sparse1 # 1M data, 1M sparse rbd rm sparse2 || true rbd import $RBD_CREATE_ARGS --order 20 ${TMPDIR}/sparse2 rbd ls -l | grep sparse2 | grep -Ei '(2M|2048k)' [ $tiered -eq 1 -o "$(objects sparse2)" = '0' ] rbd export sparse2 ${TMPDIR}/sparse2.out compare_files_and_ondisk_sizes ${TMPDIR}/sparse2 ${TMPDIR}/sparse2.out rm ${TMPDIR}/sparse2.out rbd rm sparse2 # extend sparse1 to 10 1M blocks, sparse at the end truncate ${TMPDIR}/sparse1 -s 10M # import from stdin just for fun, verify still sparse rbd import $RBD_CREATE_ARGS --order 20 - sparse1 < ${TMPDIR}/sparse1 rbd ls -l | grep sparse1 | grep -Ei '(10M|10240k)' [ $tiered -eq 1 -o "$(objects sparse1)" = '1' ] rbd export sparse1 ${TMPDIR}/sparse1.out compare_files_and_ondisk_sizes ${TMPDIR}/sparse1 ${TMPDIR}/sparse1.out rm ${TMPDIR}/sparse1.out rbd rm sparse1 # extend sparse2 to 4M total with two more nonsparse megs dd if=/dev/urandom bs=2M count=1 of=${TMPDIR}/sparse2 oflag=append conv=notrunc # again from stding rbd import $RBD_CREATE_ARGS --order 20 - sparse2 < ${TMPDIR}/sparse2 rbd ls -l | grep sparse2 | grep -Ei '(4M|4096k)' [ $tiered -eq 1 -o "$(objects sparse2)" = '0 2 3' ] rbd export sparse2 ${TMPDIR}/sparse2.out compare_files_and_ondisk_sizes ${TMPDIR}/sparse2 ${TMPDIR}/sparse2.out rm ${TMPDIR}/sparse2.out rbd rm sparse2 # zeros import to a sparse image. Note: all zeros currently # doesn't work right now due to the way we handle 'empty' fiemaps; # the image ends up zero-filled. echo "partially-sparse file imports to partially-sparse image" rbd import $RBD_CREATE_ARGS --order 20 ${TMPDIR}/sparse1 sparse [ $tiered -eq 1 -o "$(objects sparse)" = '1' ] rbd rm sparse echo "zeros import through stdin to sparse image" # stdin dd if=/dev/zero bs=1M count=4 | rbd import $RBD_CREATE_ARGS - sparse [ $tiered -eq 1 -o "$(objects sparse)" = '' ] rbd rm sparse echo "zeros export to sparse file" # Must be tricky to make image "by hand" ; import won't create a zero image rbd create $RBD_CREATE_ARGS sparse --size 4 prefix=$(rbd info sparse | grep block_name_prefix | awk '{print $NF;}') # drop in 0 object directly dd if=/dev/zero bs=4M count=1 | rados -p $(get_image_data_pool sparse) \ put ${prefix}.000000000000 - [ $tiered -eq 1 -o "$(objects sparse)" = '0' ] # 1 object full of zeros; export should still create 0-disk-usage file rm ${TMPDIR}/sparse || true rbd export sparse ${TMPDIR}/sparse [ $(stat ${TMPDIR}/sparse --format=%b) = '0' ] rbd rm sparse rm ${TMPDIR}/sparse ${TMPDIR}/sparse1 ${TMPDIR}/sparse2 ${TMPDIR}/sparse3 || true echo OK