#!/usr/bin/env bash set -ex function fill_image() { local spec=$1 local dev dev=$(sudo rbd map $spec) xfs_io -c "pwrite -b $OBJECT_SIZE -S 0x78 -W 0 $IMAGE_SIZE" $dev sudo rbd unmap $dev } function create_clones() { local spec=$1 rbd snap create $spec@snap rbd snap protect $spec@snap local pool=${spec%/*} # pool/image is assumed local image=${spec#*/} local child_pool for child_pool in $pool clonesonly; do rbd clone $spec@snap $child_pool/$pool-$image-clone1 rbd clone $spec@snap --data-pool repdata $child_pool/$pool-$image-clone2 rbd clone $spec@snap --data-pool ecdata $child_pool/$pool-$image-clone3 done } function trigger_copyup() { local spec=$1 local dev dev=$(sudo rbd map $spec) local i { for ((i = 0; i < $NUM_OBJECTS; i++)); do echo pwrite -b $OBJECT_SIZE -S 0x59 $((i * OBJECT_SIZE + OBJECT_SIZE / 2)) $((OBJECT_SIZE / 2)) done echo fsync echo quit } | xfs_io $dev sudo rbd unmap $dev } function compare() { local spec=$1 local object=$2 local dev dev=$(sudo rbd map $spec) local i for ((i = 0; i < $NUM_OBJECTS; i++)); do dd if=$dev bs=$OBJECT_SIZE count=1 skip=$i | cmp $object - done sudo rbd unmap $dev } function mkfs_and_mount() { local spec=$1 local dev dev=$(sudo rbd map $spec) mkfs.ext4 -q -E discard $dev sudo mount $dev /mnt sudo umount /mnt sudo rbd unmap $dev } function list_HEADs() { local pool=$1 rados -p $pool ls | while read obj; do if rados -p $pool stat $obj >/dev/null 2>&1; then echo $obj fi done } function count_data_objects() { local spec=$1 local pool pool=$(rbd info $spec | grep 'data_pool: ' | awk '{ print $NF }') if [[ -z $pool ]]; then pool=${spec%/*} # pool/image is assumed fi local prefix prefix=$(rbd info $spec | grep 'block_name_prefix: ' | awk '{ print $NF }') rados -p $pool ls | grep -c $prefix } function get_num_clones() { local pool=$1 rados -p $pool --format=json df | python -c 'import sys, json; print json.load(sys.stdin)["pools"][0]["num_object_clones"]' } ceph osd pool create repdata 24 24 rbd pool init repdata ceph osd erasure-code-profile set teuthologyprofile crush-failure-domain=osd m=1 k=2 ceph osd pool create ecdata 24 24 erasure teuthologyprofile rbd pool init ecdata ceph osd pool set ecdata allow_ec_overwrites true ceph osd pool create rbdnonzero 24 24 rbd pool init rbdnonzero ceph osd pool create clonesonly 24 24 rbd pool init clonesonly for pool in rbd rbdnonzero; do rbd create --size 200 --image-format 1 $pool/img0 rbd create --size 200 $pool/img1 rbd create --size 200 --data-pool repdata $pool/img2 rbd create --size 200 --data-pool ecdata $pool/img3 done IMAGE_SIZE=$(rbd info --format=json img1 | python -c 'import sys, json; print json.load(sys.stdin)["size"]') OBJECT_SIZE=$(rbd info --format=json img1 | python -c 'import sys, json; print json.load(sys.stdin)["object_size"]') NUM_OBJECTS=$((IMAGE_SIZE / OBJECT_SIZE)) [[ $((IMAGE_SIZE % OBJECT_SIZE)) -eq 0 ]] OBJECT_X=$(mktemp) # xxxx xfs_io -c "pwrite -b $OBJECT_SIZE -S 0x78 0 $OBJECT_SIZE" $OBJECT_X OBJECT_XY=$(mktemp) # xxYY xfs_io -c "pwrite -b $OBJECT_SIZE -S 0x78 0 $((OBJECT_SIZE / 2))" \ -c "pwrite -b $OBJECT_SIZE -S 0x59 $((OBJECT_SIZE / 2)) $((OBJECT_SIZE / 2))" \ $OBJECT_XY for pool in rbd rbdnonzero; do for i in {0..3}; do fill_image $pool/img$i if [[ $i -ne 0 ]]; then create_clones $pool/img$i for child_pool in $pool clonesonly; do for j in {1..3}; do trigger_copyup $child_pool/$pool-img$i-clone$j done done fi done done # rbd_directory, rbd_children, rbd_info + img0 header + ... NUM_META_RBDS=$((3 + 1 + 3 * (1*2 + 3*2))) # rbd_directory, rbd_children, rbd_info + ... NUM_META_CLONESONLY=$((3 + 2 * 3 * (3*2))) [[ $(rados -p rbd ls | wc -l) -eq $((NUM_META_RBDS + 5 * NUM_OBJECTS)) ]] [[ $(rados -p repdata ls | wc -l) -eq $((1 + 14 * NUM_OBJECTS)) ]] [[ $(rados -p ecdata ls | wc -l) -eq $((1 + 14 * NUM_OBJECTS)) ]] [[ $(rados -p rbdnonzero ls | wc -l) -eq $((NUM_META_RBDS + 5 * NUM_OBJECTS)) ]] [[ $(rados -p clonesonly ls | wc -l) -eq $((NUM_META_CLONESONLY + 6 * NUM_OBJECTS)) ]] for pool in rbd rbdnonzero; do for i in {0..3}; do [[ $(count_data_objects $pool/img$i) -eq $NUM_OBJECTS ]] if [[ $i -ne 0 ]]; then for child_pool in $pool clonesonly; do for j in {1..3}; do [[ $(count_data_objects $child_pool/$pool-img$i-clone$j) -eq $NUM_OBJECTS ]] done done fi done done [[ $(get_num_clones rbd) -eq 0 ]] [[ $(get_num_clones repdata) -eq 0 ]] [[ $(get_num_clones ecdata) -eq 0 ]] [[ $(get_num_clones rbdnonzero) -eq 0 ]] [[ $(get_num_clones clonesonly) -eq 0 ]] for pool in rbd rbdnonzero; do for i in {0..3}; do compare $pool/img$i $OBJECT_X mkfs_and_mount $pool/img$i if [[ $i -ne 0 ]]; then for child_pool in $pool clonesonly; do for j in {1..3}; do compare $child_pool/$pool-img$i-clone$j $OBJECT_XY done done fi done done # mkfs should discard some objects everywhere but in clonesonly [[ $(list_HEADs rbd | wc -l) -lt $((NUM_META_RBDS + 5 * NUM_OBJECTS)) ]] [[ $(list_HEADs repdata | wc -l) -lt $((1 + 14 * NUM_OBJECTS)) ]] [[ $(list_HEADs ecdata | wc -l) -lt $((1 + 14 * NUM_OBJECTS)) ]] [[ $(list_HEADs rbdnonzero | wc -l) -lt $((NUM_META_RBDS + 5 * NUM_OBJECTS)) ]] [[ $(list_HEADs clonesonly | wc -l) -eq $((NUM_META_CLONESONLY + 6 * NUM_OBJECTS)) ]] [[ $(get_num_clones rbd) -eq $NUM_OBJECTS ]] [[ $(get_num_clones repdata) -eq $((2 * NUM_OBJECTS)) ]] [[ $(get_num_clones ecdata) -eq $((2 * NUM_OBJECTS)) ]] [[ $(get_num_clones rbdnonzero) -eq $NUM_OBJECTS ]] [[ $(get_num_clones clonesonly) -eq 0 ]] echo OK