From patchwork Mon May 25 18:08:57 2020 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Alberto Garcia X-Patchwork-Id: 281921 Return-Path: X-Spam-Checker-Version: SpamAssassin 3.4.0 (2014-02-07) on aws-us-west-2-korg-lkml-1.web.codeaurora.org X-Spam-Level: X-Spam-Status: No, score=-9.6 required=3.0 tests=DKIM_INVALID,DKIM_SIGNED, HEADER_FROM_DIFFERENT_DOMAINS, INCLUDES_PATCH, MAILING_LIST_MULTI, SIGNED_OFF_BY, SPF_HELO_NONE, SPF_PASS, USER_AGENT_GIT autolearn=ham autolearn_force=no version=3.4.0 Received: from mail.kernel.org (mail.kernel.org [198.145.29.99]) by smtp.lore.kernel.org (Postfix) with ESMTP id 6035BC433DF for ; Mon, 25 May 2020 18:30:36 +0000 (UTC) Received: from lists.gnu.org (lists.gnu.org [209.51.188.17]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by mail.kernel.org (Postfix) with ESMTPS id 0610B20671 for ; Mon, 25 May 2020 18:30:36 +0000 (UTC) Authentication-Results: mail.kernel.org; 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envelope-from=berto@igalia.com; helo=fanzine.igalia.com X-detected-operating-system: by eggs.gnu.org: First seen = 2020/05/25 14:09:23 X-ACL-Warn: Detected OS = Linux 2.2.x-3.x (no timestamps) [generic] [fuzzy] X-Spam_score_int: -20 X-Spam_score: -2.1 X-Spam_bar: -- X-Spam_report: (-2.1 / 5.0 requ) BAYES_00=-1.9, DKIM_SIGNED=0.1, DKIM_VALID=-0.1, DKIM_VALID_AU=-0.1, DKIM_VALID_EF=-0.1, SPF_PASS=-0.001, URIBL_BLOCKED=0.001 autolearn=_AUTOLEARN X-Spam_action: no action X-BeenThere: qemu-devel@nongnu.org X-Mailman-Version: 2.1.23 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Cc: Kevin Wolf , Vladimir Sementsov-Ogievskiy , Alberto Garcia , qemu-block@nongnu.org, Derek Su , Max Reitz Errors-To: qemu-devel-bounces+qemu-devel=archiver.kernel.org@nongnu.org Sender: "Qemu-devel" Signed-off-by: Alberto Garcia --- tests/qemu-iotests/271 | 705 +++++++++++++++++++++++++++++++++++++ tests/qemu-iotests/271.out | 603 +++++++++++++++++++++++++++++++ tests/qemu-iotests/group | 1 + 3 files changed, 1309 insertions(+) create mode 100755 tests/qemu-iotests/271 create mode 100644 tests/qemu-iotests/271.out diff --git a/tests/qemu-iotests/271 b/tests/qemu-iotests/271 new file mode 100755 index 0000000000..4dd11772cf --- /dev/null +++ b/tests/qemu-iotests/271 @@ -0,0 +1,705 @@ +#!/bin/bash +# +# Test qcow2 images with extended L2 entries +# +# Copyright (C) 2019-2020 Igalia, S.L. +# Author: Alberto Garcia +# +# This program is free software; you can redistribute it and/or modify +# it under the terms of the GNU General Public License as published by +# the Free Software Foundation; either version 2 of the License, or +# (at your option) any later version. +# +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. +# +# You should have received a copy of the GNU General Public License +# along with this program. If not, see . +# + +# creator +owner=berto@igalia.com + +seq="$(basename $0)" +echo "QA output created by $seq" + +here="$PWD" +status=1 # failure is the default! + +_cleanup() +{ + _cleanup_test_img + rm -f "$TEST_IMG.raw" +} +trap "_cleanup; exit \$status" 0 1 2 3 15 + +# get standard environment, filters and checks +. ./common.rc +. ./common.filter + +_supported_fmt qcow2 +_supported_proto file nfs +_supported_os Linux +_unsupported_imgopts extended_l2 compat=0.10 cluster_size data_file + +l2_offset=262144 # 0x40000 + +_verify_img() +{ + $QEMU_IMG compare "$TEST_IMG" "$TEST_IMG.raw" | grep -v 'Images are identical' + $QEMU_IMG check "$TEST_IMG" | _filter_qemu_img_check | \ + grep -v 'No errors were found on the image' +} + +# Compare the bitmap of an extended L2 entry against an expected value +_verify_l2_bitmap() +{ + entry_no="$1" # L2 entry number, starting from 0 + expected_alloc="$alloc" # Space-separated list of allocated subcluster indexes + expected_zero="$zero" # Space-separated list of zero subcluster indexes + + offset=$(($l2_offset + $entry_no * 16)) + entry=`peek_file_be "$TEST_IMG" $offset 8` + offset=$(($offset + 8)) + bitmap=`peek_file_be "$TEST_IMG" $offset 8` + + expected_bitmap=0 + for bit in $expected_alloc; do + expected_bitmap=$(($expected_bitmap | (1 << $bit))) + done + for bit in $expected_zero; do + expected_bitmap=$(($expected_bitmap | (1 << (32 + $bit)))) + done + expected_bitmap=`printf "%llu" $expected_bitmap` + + printf "L2 entry #%d: 0x%016lx %016lx\n" "$entry_no" "$entry" "$bitmap" + if [ "$bitmap" != "$expected_bitmap" ]; then + printf "ERROR: expecting bitmap 0x%016lx\n" "$expected_bitmap" + fi +} + +_test_write() +{ + cmd="$1" + l2_entry_idx="$2" + [ -n "$l2_entry_idx" ] || l2_entry_idx=0 + raw_cmd=`echo $cmd | sed s/-c//` # Raw images don't support -c + echo "$cmd" + $QEMU_IO -c "$cmd" "$TEST_IMG" | _filter_qemu_io + $QEMU_IO -c "$raw_cmd" -f raw "$TEST_IMG.raw" | _filter_qemu_io + _verify_img + _verify_l2_bitmap "$l2_entry_idx" +} + +_reset_img() +{ + size="$1" + $QEMU_IMG create -f raw "$TEST_IMG.raw" "$size" | _filter_img_create + if [ "$use_backing_file" = "yes" ]; then + $QEMU_IMG create -f raw "$TEST_IMG.base" "$size" | _filter_img_create + $QEMU_IO -c "write -q -P 0xFF 0 $size" -f raw "$TEST_IMG.base" | _filter_qemu_io + $QEMU_IO -c "write -q -P 0xFF 0 $size" -f raw "$TEST_IMG.raw" | _filter_qemu_io + _make_test_img -o extended_l2=on -b "$TEST_IMG.base" "$size" + else + _make_test_img -o extended_l2=on "$size" + fi +} + +# Test that writing to an image with subclusters produces the expected +# results, in images with and without backing files +for use_backing_file in yes no; do + echo + echo "### Standard write tests (backing file: $use_backing_file) ###" + echo + _reset_img 1M + ### Write subcluster #0 (beginning of subcluster) ### + alloc="0"; zero="" + _test_write 'write -q -P 1 0 1k' + + ### Write subcluster #1 (middle of subcluster) ### + alloc="0 1"; zero="" + _test_write 'write -q -P 2 3k 512' + + ### Write subcluster #2 (end of subcluster) ### + alloc="0 1 2"; zero="" + _test_write 'write -q -P 3 5k 1k' + + ### Write subcluster #3 (full subcluster) ### + alloc="0 1 2 3"; zero="" + _test_write 'write -q -P 4 6k 2k' + + ### Write subclusters #4-6 (full subclusters) ### + alloc="`seq 0 6`"; zero="" + _test_write 'write -q -P 5 8k 6k' + + ### Write subclusters #7-9 (partial subclusters) ### + alloc="`seq 0 9`"; zero="" + _test_write 'write -q -P 6 15k 4k' + + ### Write subcluster #16 (partial subcluster) ### + alloc="`seq 0 9` 16"; zero="" + _test_write 'write -q -P 7 32k 1k' + + ### Write subcluster #31-#33 (cluster overlap) ### + alloc="`seq 0 9` 16 31"; zero="" + _test_write 'write -q -P 8 63k 4k' + alloc="0 1" ; zero="" + _verify_l2_bitmap 1 + + ### Zero subcluster #1 + alloc="0 `seq 2 9` 16 31"; zero="1" + _test_write 'write -q -z 2k 2k' + + ### Zero cluster #0 + alloc=""; zero="`seq 0 31`" + _test_write 'write -q -z 0 64k' + + ### Fill cluster #0 with data + alloc="`seq 0 31`"; zero="" + _test_write 'write -q -P 9 0 64k' + + ### Zero and unmap half of cluster #0 (this won't unmap it) + alloc="`seq 16 31`"; zero="`seq 0 15`" + _test_write 'write -q -z -u 0 32k' + + ### Zero and unmap cluster #0 + alloc=""; zero="`seq 0 31`" + _test_write 'write -q -z -u 0 64k' + + ### Write subcluster #1 (middle of subcluster) + alloc="1"; zero="0 `seq 2 31`" + _test_write 'write -q -P 10 3k 512' + + ### Fill cluster #0 with data + alloc="`seq 0 31`"; zero="" + _test_write 'write -q -P 11 0 64k' + + ### Discard cluster #0 + alloc=""; zero="`seq 0 31`" + _test_write 'discard -q 0 64k' + + ### Write compressed data to cluster #0 + alloc=""; zero="" + _test_write 'write -q -c -P 12 0 64k' + + ### Write subcluster #2 (middle of subcluster) + alloc="`seq 0 31`"; zero="" + _test_write 'write -q -P 13 3k 512' +done + +# calculate_l2_meta() checks if none of the clusters affected by a +# write operation need COW or changes to their L2 metadata and simply +# returns when they don't. This is a test for that optimization. +# Here clusters #0-#3 are overwritten but only #1 and #2 need changes. +echo +echo '### Overwriting several clusters without COW ###' +echo +use_backing_file="no" _reset_img 1M +# Write cluster #0, subclusters #12-#31 +alloc="`seq 12 31`"; zero="" +_test_write 'write -q 24k 40k' 0 + +# Write cluster #1, subcluster #13 +alloc="13"; zero="" +_test_write 'write -q 90k 2k' 1 + +# Zeroize cluster #2, subcluster #14 +alloc="14"; zero="" +_test_write 'write -q 156k 2k' 2 +alloc=""; zero="14" +_test_write 'write -q -z 156k 2k' 2 + +# Write cluster #3, subclusters #15-#31 +alloc="`seq 0 16`"; zero="" +_test_write 'write -q 192k 34k' 3 + +# Write from cluster #0, subcluster #12 to cluster #3, subcluster #11 +alloc="`seq 12 31`"; zero="" +_test_write 'write -q 24k 192k' 0 + +alloc="`seq 0 31`"; zero="" +_verify_l2_bitmap 1 +_verify_l2_bitmap 2 + +alloc="`seq 0 16`"; zero="" +_verify_l2_bitmap 3 + +# Test different patterns of writing zeroes +for use_backing_file in yes no; do + echo + echo "### Writing zeroes 1: unallocated clusters (backing file: $use_backing_file) ###" + echo + # Note that the image size is not a multiple of the cluster size + _reset_img 2083k + + # Cluster-aligned request from clusters #0 to #2 + alloc=""; zero="`seq 0 31`" + _test_write 'write -q -z 0 192k' 0 + _verify_l2_bitmap 1 + _verify_l2_bitmap 2 + + # Subcluster-aligned request from clusters #3 to #5 + alloc=""; zero="`seq 16 31`" + _test_write 'write -q -z 224k 128k' 3 + alloc=""; zero="`seq 0 31`" + _verify_l2_bitmap 4 + alloc=""; zero="`seq 0 15`" + _verify_l2_bitmap 5 + + # Unaligned request from clusters #6 to #8 + if [ "$use_backing_file" = "yes" ]; then + alloc="15"; zero="`seq 16 31`" # copy-on-write happening here + else + alloc=""; zero="`seq 15 31`" + fi + _test_write 'write -q -z 415k 128k' 6 + alloc=""; zero="`seq 0 31`" + _verify_l2_bitmap 7 + if [ "$use_backing_file" = "yes" ]; then + alloc="15"; zero="`seq 0 14`" # copy-on-write happening here + else + alloc=""; zero="`seq 0 15`" + fi + _verify_l2_bitmap 8 + + echo + echo "### Writing zeroes 2: allocated clusters (backing file: $use_backing_file) ###" + echo + alloc="`seq 0 31`"; zero="" + _test_write 'write -q -P 1 576k 576k' 9 + _verify_l2_bitmap 10 + _verify_l2_bitmap 11 + _verify_l2_bitmap 12 + _verify_l2_bitmap 13 + _verify_l2_bitmap 14 + _verify_l2_bitmap 15 + _verify_l2_bitmap 16 + _verify_l2_bitmap 17 + + # Cluster-aligned request from clusters #9 to #11 + alloc=""; zero="`seq 0 31`" + _test_write 'write -q -z 576k 192k' 9 + _verify_l2_bitmap 10 + _verify_l2_bitmap 11 + + # Subcluster-aligned request from clusters #12 to #14 + alloc="`seq 0 15`"; zero="`seq 16 31`" + _test_write 'write -q -z 800k 128k' 12 + alloc=""; zero="`seq 0 31`" + _verify_l2_bitmap 13 + alloc="`seq 16 31`"; zero="`seq 0 15`" + _verify_l2_bitmap 14 + + # Unaligned request from clusters #15 to #17 + alloc="`seq 0 15`"; zero="`seq 16 31`" + _test_write 'write -q -z 991k 128k' 15 + alloc=""; zero="`seq 0 31`" + _verify_l2_bitmap 16 + alloc="`seq 15 31`"; zero="`seq 0 14`" + _verify_l2_bitmap 17 + + echo + echo "### Writing zeroes 3: compressed clusters (backing file: $use_backing_file) ###" + echo + alloc=""; zero="" + for c in `seq 18 28`; do + _test_write "write -q -c -P 2 $(($c*64))k 64k" $c + done + + # Cluster-aligned request from clusters #18 to #20 + alloc=""; zero="`seq 0 31`" + _test_write 'write -q -z 1152k 192k' 18 + _verify_l2_bitmap 19 + _verify_l2_bitmap 20 + + # Subcluster-aligned request from clusters #21 to #23. + # We cannot partially zero a compressed cluster so the code + # returns -ENOTSUP, which means copy-on-write of the compressed + # data and fill the rest with actual zeroes on disk. + # TODO: cluster #22 should use the 'all zeroes' bits. + alloc="`seq 0 31`"; zero="" + _test_write 'write -q -z 1376k 128k' 21 + _verify_l2_bitmap 22 + _verify_l2_bitmap 23 + + # Unaligned request from clusters #24 to #26 + # In this case QEMU internally sends a 1k request followed by a + # subcluster-aligned 128k request. The first request decompresses + # cluster #24, but that's not enough to perform efficiently the + # second request because it partially writes to cluster #26 (which + # is compressed) so we hit the same problem as before. + alloc="`seq 0 31`"; zero="" + _test_write 'write -q -z 1567k 129k' 24 + _verify_l2_bitmap 25 + _verify_l2_bitmap 26 + + # Unaligned request from clusters #27 to #29 + # Similar to the previous case, but this time the tail of the + # request does not correspond to a compressed cluster, so it can + # be zeroed efficiently. + # Note that the very last subcluster is partially written, so if + # there's a backing file we need to perform cow. + alloc="`seq 0 15`"; zero="`seq 16 31`" + _test_write 'write -q -z 1759k 128k' 27 + alloc=""; zero="`seq 0 31`" + _verify_l2_bitmap 28 + if [ "$use_backing_file" = "yes" ]; then + alloc="15"; zero="`seq 0 14`" # copy-on-write happening here + else + alloc=""; zero="`seq 0 15`" + fi + _verify_l2_bitmap 29 + + echo + echo "### Writing zeroes 4: other tests (backing file: $use_backing_file) ###" + echo + # Unaligned request in the middle of cluster #30. + # If there's a backing file we need to allocate and do + # copy-on-write on the partially zeroed subclusters. + # If not we can set the 'all zeroes' bit on them. + if [ "$use_backing_file" = "yes" ]; then + alloc="15 19"; zero="`seq 16 18`" # copy-on-write happening here + else + alloc=""; zero="`seq 15 19`" + fi + _test_write 'write -q -z 1951k 8k' 30 + + # Fill the last cluster with zeroes, up to the end of the image + # (the image size is not a multiple of the cluster or subcluster size). + alloc=""; zero="`seq 0 17`" + _test_write 'write -q -z 2048k 35k' 32 +done + +# Zero + unmap +for use_backing_file in yes no; do + echo + echo "### Zero + unmap 1: allocated clusters (backing file: $use_backing_file) ###" + echo + # Note that the image size is not a multiple of the cluster size + _reset_img 2083k + alloc="`seq 0 31`"; zero="" + _test_write 'write -q -P 1 576k 576k' 9 + _verify_l2_bitmap 10 + _verify_l2_bitmap 11 + _verify_l2_bitmap 12 + _verify_l2_bitmap 13 + _verify_l2_bitmap 14 + _verify_l2_bitmap 15 + _verify_l2_bitmap 16 + _verify_l2_bitmap 17 + + # Cluster-aligned request from clusters #9 to #11 + alloc=""; zero="`seq 0 31`" + _test_write 'write -q -z -u 576k 192k' 9 + _verify_l2_bitmap 10 + _verify_l2_bitmap 11 + + # Subcluster-aligned request from clusters #12 to #14 + alloc="`seq 0 15`"; zero="`seq 16 31`" + _test_write 'write -q -z -u 800k 128k' 12 + alloc=""; zero="`seq 0 31`" + _verify_l2_bitmap 13 + alloc="`seq 16 31`"; zero="`seq 0 15`" + _verify_l2_bitmap 14 + + # Unaligned request from clusters #15 to #17 + alloc="`seq 0 15`"; zero="`seq 16 31`" + _test_write 'write -q -z -u 991k 128k' 15 + alloc=""; zero="`seq 0 31`" + _verify_l2_bitmap 16 + alloc="`seq 15 31`"; zero="`seq 0 14`" + _verify_l2_bitmap 17 + + echo + echo "### Zero + unmap 2: compressed clusters (backing file: $use_backing_file) ###" + echo + alloc=""; zero="" + for c in `seq 18 28`; do + _test_write "write -q -c -P 2 $(($c*64))k 64k" $c + done + + # Cluster-aligned request from clusters #18 to #20 + alloc=""; zero="`seq 0 31`" + _test_write 'write -q -z -u 1152k 192k' 18 + _verify_l2_bitmap 19 + _verify_l2_bitmap 20 + + # Subcluster-aligned request from clusters #21 to #23. + # We cannot partially zero a compressed cluster so the code + # returns -ENOTSUP, which means copy-on-write of the compressed + # data and fill the rest with actual zeroes on disk. + # TODO: cluster #22 should use the 'all zeroes' bits. + alloc="`seq 0 31`"; zero="" + _test_write 'write -q -z -u 1376k 128k' 21 + _verify_l2_bitmap 22 + _verify_l2_bitmap 23 + + # Unaligned request from clusters #24 to #26 + # In this case QEMU internally sends a 1k request followed by a + # subcluster-aligned 128k request. The first request decompresses + # cluster #24, but that's not enough to perform efficiently the + # second request because it partially writes to cluster #26 (which + # is compressed) so we hit the same problem as before. + alloc="`seq 0 31`"; zero="" + _test_write 'write -q -z -u 1567k 129k' 24 + _verify_l2_bitmap 25 + _verify_l2_bitmap 26 + + # Unaligned request from clusters #27 to #29 + # Similar to the previous case, but this time the tail of the + # request does not correspond to a compressed cluster, so it can + # be zeroed efficiently. + # Note that the very last subcluster is partially written, so if + # there's a backing file we need to perform cow. + alloc="`seq 0 15`"; zero="`seq 16 31`" + _test_write 'write -q -z -u 1759k 128k' 27 + alloc=""; zero="`seq 0 31`" + _verify_l2_bitmap 28 + if [ "$use_backing_file" = "yes" ]; then + alloc="15"; zero="`seq 0 14`" # copy-on-write happening here + else + alloc=""; zero="`seq 0 15`" + fi + _verify_l2_bitmap 29 +done + +# Test qcow2_cluster_discard() with full and normal discards +for use_backing_file in yes no; do + echo + echo "### Discarding clusters with non-zero bitmaps (backing file: $use_backing_file) ###" + echo + if [ "$use_backing_file" = "yes" ]; then + _make_test_img -o extended_l2=on -b "$TEST_IMG.base" 1M + else + _make_test_img -o extended_l2=on 1M + fi + # Write clusters #0-#2 and then discard them + $QEMU_IO -c 'write -q 0 128k' "$TEST_IMG" + $QEMU_IO -c 'discard -q 0 128k' "$TEST_IMG" + # 'qemu-io discard' doesn't do a full discard, it zeroizes the + # cluster, so both clusters have all zero bits set now + alloc=""; zero="`seq 0 31`" + _verify_l2_bitmap 0 + _verify_l2_bitmap 1 + # Now mark the 2nd half of the subclusters from cluster #0 as unallocated + poke_file "$TEST_IMG" $(($l2_offset+8)) "\x00\x00" + # Discard cluster #0 again to see how the zero bits have changed + $QEMU_IO -c 'discard -q 0 64k' "$TEST_IMG" + # And do a full discard of cluster #1 by shrinking and growing the image + $QEMU_IMG resize --shrink "$TEST_IMG" 64k + $QEMU_IMG resize "$TEST_IMG" 1M + # A normal discard sets all 'zero' bits only if the image has a + # backing file, otherwise it won't touch them. + if [ "$use_backing_file" = "yes" ]; then + alloc=""; zero="`seq 0 31`" + else + alloc=""; zero="`seq 0 15`" + fi + _verify_l2_bitmap 0 + # A full discard should clear the L2 entry completely. However + # when growing an image with a backing file the new clusters are + # zeroized to hide the stale data from the backing file + if [ "$use_backing_file" = "yes" ]; then + alloc=""; zero="`seq 0 31`" + else + alloc=""; zero="" + fi + _verify_l2_bitmap 1 +done + +# Test that corrupted L2 entries are detected in both read and write +# operations +for corruption_test_cmd in read write; do + echo + echo "### Corrupted L2 entries - $corruption_test_cmd test (allocated) ###" + echo + echo "# 'cluster is zero' bit set on the standard cluster descriptor" + echo + # We actually don't consider this a corrupted image. + # The 'cluster is zero' bit is unused is unused in extended L2 entries + # so QEMU ignores it. + # TODO: maybe treat the image as corrupted and make qemu-img check fix it? + _make_test_img -o extended_l2=on 1M + $QEMU_IO -c 'write -q -P 0x11 0 2k' "$TEST_IMG" + poke_file "$TEST_IMG" $(($l2_offset+7)) "\x01" + alloc="0"; zero="" + _verify_l2_bitmap 0 + $QEMU_IO -c "$corruption_test_cmd -q -P 0x11 0 1k" "$TEST_IMG" + if [ "$corruption_test_cmd" = "write" ]; then + alloc="0"; zero="" + fi + _verify_l2_bitmap 0 + + echo + echo "# Both 'subcluster is zero' and 'subcluster is allocated' bits set" + echo + _make_test_img -o extended_l2=on 1M + # Write from the middle of cluster #0 to the middle of cluster #2 + $QEMU_IO -c 'write -q 32k 128k' "$TEST_IMG" + # Corrupt the L2 entry from cluster #1 + poke_file "$TEST_IMG" $(($l2_offset+24)) "\x00\x00\x00\x01" + alloc="`seq 0 31`"; zero="0" + _verify_l2_bitmap 1 + $QEMU_IO -c "$corruption_test_cmd 0 192k" "$TEST_IMG" + + echo + echo "### Corrupted L2 entries - $corruption_test_cmd test (unallocated) ###" + echo + echo "# 'cluster is zero' bit set on the standard cluster descriptor" + echo + # We actually don't consider this a corrupted image. + # The 'cluster is zero' bit is unused is unused in extended L2 entries + # so QEMU ignores it. + # TODO: maybe treat the image as corrupted and make qemu-img check fix it? + _make_test_img -o extended_l2=on 1M + # We want to modify the (empty) L2 entry from cluster #0, + # but we write to #4 in order to initialize the L2 table first + $QEMU_IO -c 'write -q 256k 1k' "$TEST_IMG" + poke_file "$TEST_IMG" $(($l2_offset+7)) "\x01" + alloc=""; zero="" + _verify_l2_bitmap 0 + $QEMU_IO -c "$corruption_test_cmd -q 0 1k" "$TEST_IMG" + if [ "$corruption_test_cmd" = "write" ]; then + alloc="0"; zero="" + fi + _verify_l2_bitmap 0 + + echo + echo "# 'subcluster is allocated' bit set" + echo + _make_test_img -o extended_l2=on 1M + # We want to corrupt the (empty) L2 entry from cluster #0, + # but we write to #4 in order to initialize the L2 table first + $QEMU_IO -c 'write -q 256k 1k' "$TEST_IMG" + poke_file "$TEST_IMG" $(($l2_offset+15)) "\x01" + alloc="0"; zero="" + _verify_l2_bitmap 0 + $QEMU_IO -c "$corruption_test_cmd 0 1k" "$TEST_IMG" + + echo + echo "# Both 'subcluster is zero' and 'subcluster is allocated' bits set" + echo + _make_test_img -o extended_l2=on 1M + # We want to corrupt the (empty) L2 entry from cluster #1, + # but we write to #4 in order to initialize the L2 table first + $QEMU_IO -c 'write -q 256k 1k' "$TEST_IMG" + # Corrupt the L2 entry from cluster #1 + poke_file "$TEST_IMG" $(($l2_offset+24)) "\x00\x00\x00\x01\x00\x00\x00\x01" + alloc="0"; zero="0" + _verify_l2_bitmap 1 + $QEMU_IO -c "$corruption_test_cmd 0 192k" "$TEST_IMG" + + echo + echo "### Compressed cluster with subcluster bitmap != 0 - $corruption_test_cmd test ###" + echo + # We actually don't consider this a corrupted image. + # The bitmap in compressed clusters is unused so QEMU should just ignore it. + _make_test_img -o extended_l2=on 1M + $QEMU_IO -c 'write -q -P 11 -c 0 64k' "$TEST_IMG" + # Change the L2 bitmap to allocate subcluster #31 and zeroize subcluster #0 + poke_file "$TEST_IMG" $(($l2_offset+11)) "\x01\x80" + alloc="31"; zero="0" + _verify_l2_bitmap 0 + $QEMU_IO -c "$corruption_test_cmd -P 11 0 64k" "$TEST_IMG" | _filter_qemu_io + # Writing allocates a new uncompressed cluster so we get a new bitmap + if [ "$corruption_test_cmd" = "write" ]; then + alloc="`seq 0 31`"; zero="" + fi + _verify_l2_bitmap 0 +done + +echo +echo "### Image creation options ###" +echo +echo "# cluster_size < 16k" +_make_test_img -o extended_l2=on,cluster_size=8k 1M + +# TODO: allow preallocation with backing files when subclusters are used +echo "# backing file and preallocation=metadata" +_make_test_img -o extended_l2=on,preallocation=metadata -b "$TEST_IMG.base" 1M + +echo "# backing file and preallocation=falloc" +_make_test_img -o extended_l2=on,preallocation=falloc -b "$TEST_IMG.base" 1M + +echo "# backing file and preallocation=full" +_make_test_img -o extended_l2=on,preallocation=full -b "$TEST_IMG.base" 1M + +echo +echo "### qemu-img measure ###" +echo +echo "# 512MB, extended_l2=off" # This needs one L2 table +$QEMU_IMG measure --size 512M -O qcow2 -o extended_l2=off +echo "# 512MB, extended_l2=on" # This needs two L2 tables +$QEMU_IMG measure --size 512M -O qcow2 -o extended_l2=on + +echo "# 16K clusters, 64GB, extended_l2=off" # This needs one full L1 table cluster +$QEMU_IMG measure --size 64G -O qcow2 -o cluster_size=16k,extended_l2=off +echo "# 16K clusters, 64GB, extended_l2=on" # This needs two full L2 table clusters +$QEMU_IMG measure --size 64G -O qcow2 -o cluster_size=16k,extended_l2=on + +echo "# 8k clusters" # This should fail +$QEMU_IMG measure --size 1M -O qcow2 -o cluster_size=8k,extended_l2=on + +echo "# 1024 TB" # Maximum allowed size with extended_l2=on and 64K clusters +$QEMU_IMG measure --size 1024T -O qcow2 -o extended_l2=on +echo "# 1025 TB" # This should fail +$QEMU_IMG measure --size 1025T -O qcow2 -o extended_l2=on + +echo +echo "### qemu-img amend ###" +echo +_make_test_img -o extended_l2=on 1M +$QEMU_IMG amend -o extended_l2=off "$TEST_IMG" + +_make_test_img -o extended_l2=off 1M +$QEMU_IMG amend -o extended_l2=on "$TEST_IMG" + +echo +echo "### Test copy-on-write on an image with snapshots ###" +echo +_make_test_img -o extended_l2=on 1M + +# For each cluster from #0 to #9 this loop zeroes subcluster #7 +# and allocates subclusters #13 and #18. +alloc="13 18"; zero="7" +for c in `seq 0 9`; do + $QEMU_IO -c "write -q -z $((64*$c+14))k 2k" \ + -c "write -q -P $((0xd0+$c)) $((64*$c+26))k 2k" \ + -c "write -q -P $((0xe0+$c)) $((64*$c+36))k 2k" "$TEST_IMG" + _verify_l2_bitmap "$c" +done + +# Create a snapshot and set l2_offset to the new L2 table +$QEMU_IMG snapshot -c snap1 "$TEST_IMG" +l2_offset=1114112 # 0x110000 + +# Write different patterns to each one of the clusters +# in order to see how copy-on-write behaves in each case. +$QEMU_IO -c "write -q -P 0xf0 $((64*0+30))k 1k" \ + -c "write -q -P 0xf1 $((64*1+20))k 1k" \ + -c "write -q -P 0xf2 $((64*2+40))k 1k" \ + -c "write -q -P 0xf3 $((64*3+26))k 1k" \ + -c "write -q -P 0xf4 $((64*4+14))k 1k" \ + -c "write -q -P 0xf5 $((64*5+1))k 1k" \ + -c "write -q -z $((64*6+30))k 3k" \ + -c "write -q -z $((64*7+26))k 2k" \ + -c "write -q -z $((64*8+26))k 1k" \ + -c "write -q -z $((64*9+12))k 1k" \ + "$TEST_IMG" +alloc="`seq 13 18`"; zero="7" _verify_l2_bitmap 0 +alloc="`seq 10 18`"; zero="7" _verify_l2_bitmap 1 +alloc="`seq 13 20`"; zero="7" _verify_l2_bitmap 2 +alloc="`seq 13 18`"; zero="7" _verify_l2_bitmap 3 +alloc="`seq 7 18`"; zero="" _verify_l2_bitmap 4 +alloc="`seq 0 18`"; zero="" _verify_l2_bitmap 5 +alloc="13 18"; zero="7 15 16" _verify_l2_bitmap 6 +alloc="18"; zero="7 13" _verify_l2_bitmap 7 +alloc="`seq 13 18`"; zero="7" _verify_l2_bitmap 8 +alloc="13 18"; zero="6 7" _verify_l2_bitmap 9 + +# success, all done +echo "*** done" +rm -f $seq.full +status=0 diff --git a/tests/qemu-iotests/271.out b/tests/qemu-iotests/271.out new file mode 100644 index 0000000000..6ac53d5e10 --- /dev/null +++ b/tests/qemu-iotests/271.out @@ -0,0 +1,603 @@ +QA output created by 271 + +### Standard write tests (backing file: yes) ### + +Formatting 'TEST_DIR/t.IMGFMT.raw', fmt=raw size=1048576 +Formatting 'TEST_DIR/t.IMGFMT.base', fmt=raw size=1048576 +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 backing_file=TEST_DIR/t.IMGFMT.base +write -q -P 1 0 1k +L2 entry #0: 0x8000000000050000 0000000000000001 +write -q -P 2 3k 512 +L2 entry #0: 0x8000000000050000 0000000000000003 +write -q -P 3 5k 1k +L2 entry #0: 0x8000000000050000 0000000000000007 +write -q -P 4 6k 2k +L2 entry #0: 0x8000000000050000 000000000000000f +write -q -P 5 8k 6k +L2 entry #0: 0x8000000000050000 000000000000007f +write -q -P 6 15k 4k +L2 entry #0: 0x8000000000050000 00000000000003ff +write -q -P 7 32k 1k +L2 entry #0: 0x8000000000050000 00000000000103ff +write -q -P 8 63k 4k +L2 entry #0: 0x8000000000050000 00000000800103ff +L2 entry #1: 0x8000000000060000 0000000000000003 +write -q -z 2k 2k +L2 entry #0: 0x8000000000050000 00000002800103fd +write -q -z 0 64k +L2 entry #0: 0x8000000000050000 ffffffff00000000 +write -q -P 9 0 64k +L2 entry #0: 0x8000000000050000 00000000ffffffff +write -q -z -u 0 32k +L2 entry #0: 0x8000000000050000 0000ffffffff0000 +write -q -z -u 0 64k +L2 entry #0: 0x0000000000000000 ffffffff00000000 +write -q -P 10 3k 512 +L2 entry #0: 0x8000000000050000 fffffffd00000002 +write -q -P 11 0 64k +L2 entry #0: 0x8000000000050000 00000000ffffffff +discard -q 0 64k +L2 entry #0: 0x0000000000000000 ffffffff00000000 +write -q -c -P 12 0 64k +L2 entry #0: 0x4000000000050000 0000000000000000 +write -q -P 13 3k 512 +L2 entry #0: 0x8000000000070000 00000000ffffffff + +### Standard write tests (backing file: no) ### + +Formatting 'TEST_DIR/t.IMGFMT.raw', fmt=raw size=1048576 +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +write -q -P 1 0 1k +L2 entry #0: 0x8000000000050000 0000000000000001 +write -q -P 2 3k 512 +L2 entry #0: 0x8000000000050000 0000000000000003 +write -q -P 3 5k 1k +L2 entry #0: 0x8000000000050000 0000000000000007 +write -q -P 4 6k 2k +L2 entry #0: 0x8000000000050000 000000000000000f +write -q -P 5 8k 6k +L2 entry #0: 0x8000000000050000 000000000000007f +write -q -P 6 15k 4k +L2 entry #0: 0x8000000000050000 00000000000003ff +write -q -P 7 32k 1k +L2 entry #0: 0x8000000000050000 00000000000103ff +write -q -P 8 63k 4k +L2 entry #0: 0x8000000000050000 00000000800103ff +L2 entry #1: 0x8000000000060000 0000000000000003 +write -q -z 2k 2k +L2 entry #0: 0x8000000000050000 00000002800103fd +write -q -z 0 64k +L2 entry #0: 0x8000000000050000 ffffffff00000000 +write -q -P 9 0 64k +L2 entry #0: 0x8000000000050000 00000000ffffffff +write -q -z -u 0 32k +L2 entry #0: 0x8000000000050000 0000ffffffff0000 +write -q -z -u 0 64k +L2 entry #0: 0x0000000000000000 ffffffff00000000 +write -q -P 10 3k 512 +L2 entry #0: 0x8000000000050000 fffffffd00000002 +write -q -P 11 0 64k +L2 entry #0: 0x8000000000050000 00000000ffffffff +discard -q 0 64k +L2 entry #0: 0x0000000000000000 ffffffff00000000 +write -q -c -P 12 0 64k +L2 entry #0: 0x4000000000050000 0000000000000000 +write -q -P 13 3k 512 +L2 entry #0: 0x8000000000070000 00000000ffffffff + +### Overwriting several clusters without COW ### + +Formatting 'TEST_DIR/t.IMGFMT.raw', fmt=raw size=1048576 +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +write -q 24k 40k +L2 entry #0: 0x8000000000050000 00000000fffff000 +write -q 90k 2k +L2 entry #1: 0x8000000000060000 0000000000002000 +write -q 156k 2k +L2 entry #2: 0x8000000000070000 0000000000004000 +write -q -z 156k 2k +L2 entry #2: 0x8000000000070000 0000400000000000 +write -q 192k 34k +L2 entry #3: 0x8000000000080000 000000000001ffff +write -q 24k 192k +L2 entry #0: 0x8000000000050000 00000000fffff000 +L2 entry #1: 0x8000000000060000 00000000ffffffff +L2 entry #2: 0x8000000000070000 00000000ffffffff +L2 entry #3: 0x8000000000080000 000000000001ffff + +### Writing zeroes 1: unallocated clusters (backing file: yes) ### + +Formatting 'TEST_DIR/t.IMGFMT.raw', fmt=raw size=2132992 +Formatting 'TEST_DIR/t.IMGFMT.base', fmt=raw size=2132992 +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=2132992 backing_file=TEST_DIR/t.IMGFMT.base +write -q -z 0 192k +L2 entry #0: 0x0000000000000000 ffffffff00000000 +L2 entry #1: 0x0000000000000000 ffffffff00000000 +L2 entry #2: 0x0000000000000000 ffffffff00000000 +write -q -z 224k 128k +L2 entry #3: 0x0000000000000000 ffff000000000000 +L2 entry #4: 0x0000000000000000 ffffffff00000000 +L2 entry #5: 0x0000000000000000 0000ffff00000000 +write -q -z 415k 128k +L2 entry #6: 0x8000000000050000 ffff000000008000 +L2 entry #7: 0x0000000000000000 ffffffff00000000 +L2 entry #8: 0x8000000000060000 00007fff00008000 + +### Writing zeroes 2: allocated clusters (backing file: yes) ### + +write -q -P 1 576k 576k +L2 entry #9: 0x8000000000070000 00000000ffffffff +L2 entry #10: 0x8000000000080000 00000000ffffffff +L2 entry #11: 0x8000000000090000 00000000ffffffff +L2 entry #12: 0x80000000000a0000 00000000ffffffff +L2 entry #13: 0x80000000000b0000 00000000ffffffff +L2 entry #14: 0x80000000000c0000 00000000ffffffff +L2 entry #15: 0x80000000000d0000 00000000ffffffff +L2 entry #16: 0x80000000000e0000 00000000ffffffff +L2 entry #17: 0x80000000000f0000 00000000ffffffff +write -q -z 576k 192k +L2 entry #9: 0x8000000000070000 ffffffff00000000 +L2 entry #10: 0x8000000000080000 ffffffff00000000 +L2 entry #11: 0x8000000000090000 ffffffff00000000 +write -q -z 800k 128k +L2 entry #12: 0x80000000000a0000 ffff00000000ffff +L2 entry #13: 0x80000000000b0000 ffffffff00000000 +L2 entry #14: 0x80000000000c0000 0000ffffffff0000 +write -q -z 991k 128k +L2 entry #15: 0x80000000000d0000 ffff00000000ffff +L2 entry #16: 0x80000000000e0000 ffffffff00000000 +L2 entry #17: 0x80000000000f0000 00007fffffff8000 + +### Writing zeroes 3: compressed clusters (backing file: yes) ### + +write -q -c -P 2 1152k 64k +L2 entry #18: 0x4000000000100000 0000000000000000 +write -q -c -P 2 1216k 64k +L2 entry #19: 0x4000000000110000 0000000000000000 +write -q -c -P 2 1280k 64k +L2 entry #20: 0x4000000000120000 0000000000000000 +write -q -c -P 2 1344k 64k +L2 entry #21: 0x4000000000130000 0000000000000000 +write -q -c -P 2 1408k 64k +L2 entry #22: 0x4000000000140000 0000000000000000 +write -q -c -P 2 1472k 64k +L2 entry #23: 0x4000000000150000 0000000000000000 +write -q -c -P 2 1536k 64k +L2 entry #24: 0x4000000000160000 0000000000000000 +write -q -c -P 2 1600k 64k +L2 entry #25: 0x4000000000170000 0000000000000000 +write -q -c -P 2 1664k 64k +L2 entry #26: 0x4000000000180000 0000000000000000 +write -q -c -P 2 1728k 64k +L2 entry #27: 0x4000000000190000 0000000000000000 +write -q -c -P 2 1792k 64k +L2 entry #28: 0x40000000001a0000 0000000000000000 +write -q -z 1152k 192k +L2 entry #18: 0x0000000000000000 ffffffff00000000 +L2 entry #19: 0x0000000000000000 ffffffff00000000 +L2 entry #20: 0x0000000000000000 ffffffff00000000 +write -q -z 1376k 128k +L2 entry #21: 0x8000000000100000 00000000ffffffff +L2 entry #22: 0x8000000000110000 00000000ffffffff +L2 entry #23: 0x8000000000120000 00000000ffffffff +write -q -z 1567k 129k +L2 entry #24: 0x8000000000130000 00000000ffffffff +L2 entry #25: 0x8000000000140000 00000000ffffffff +L2 entry #26: 0x8000000000150000 00000000ffffffff +write -q -z 1759k 128k +L2 entry #27: 0x8000000000160000 ffff00000000ffff +L2 entry #28: 0x0000000000000000 ffffffff00000000 +L2 entry #29: 0x8000000000170000 00007fff00008000 + +### Writing zeroes 4: other tests (backing file: yes) ### + +write -q -z 1951k 8k +L2 entry #30: 0x8000000000180000 0007000000088000 +write -q -z 2048k 35k +L2 entry #32: 0x0000000000000000 0003ffff00000000 + +### Writing zeroes 1: unallocated clusters (backing file: no) ### + +Formatting 'TEST_DIR/t.IMGFMT.raw', fmt=raw size=2132992 +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=2132992 +write -q -z 0 192k +L2 entry #0: 0x0000000000000000 ffffffff00000000 +L2 entry #1: 0x0000000000000000 ffffffff00000000 +L2 entry #2: 0x0000000000000000 ffffffff00000000 +write -q -z 224k 128k +L2 entry #3: 0x0000000000000000 ffff000000000000 +L2 entry #4: 0x0000000000000000 ffffffff00000000 +L2 entry #5: 0x0000000000000000 0000ffff00000000 +write -q -z 415k 128k +L2 entry #6: 0x0000000000000000 ffff800000000000 +L2 entry #7: 0x0000000000000000 ffffffff00000000 +L2 entry #8: 0x0000000000000000 0000ffff00000000 + +### Writing zeroes 2: allocated clusters (backing file: no) ### + +write -q -P 1 576k 576k +L2 entry #9: 0x8000000000050000 00000000ffffffff +L2 entry #10: 0x8000000000060000 00000000ffffffff +L2 entry #11: 0x8000000000070000 00000000ffffffff +L2 entry #12: 0x8000000000080000 00000000ffffffff +L2 entry #13: 0x8000000000090000 00000000ffffffff +L2 entry #14: 0x80000000000a0000 00000000ffffffff +L2 entry #15: 0x80000000000b0000 00000000ffffffff +L2 entry #16: 0x80000000000c0000 00000000ffffffff +L2 entry #17: 0x80000000000d0000 00000000ffffffff +write -q -z 576k 192k +L2 entry #9: 0x8000000000050000 ffffffff00000000 +L2 entry #10: 0x8000000000060000 ffffffff00000000 +L2 entry #11: 0x8000000000070000 ffffffff00000000 +write -q -z 800k 128k +L2 entry #12: 0x8000000000080000 ffff00000000ffff +L2 entry #13: 0x8000000000090000 ffffffff00000000 +L2 entry #14: 0x80000000000a0000 0000ffffffff0000 +write -q -z 991k 128k +L2 entry #15: 0x80000000000b0000 ffff00000000ffff +L2 entry #16: 0x80000000000c0000 ffffffff00000000 +L2 entry #17: 0x80000000000d0000 00007fffffff8000 + +### Writing zeroes 3: compressed clusters (backing file: no) ### + +write -q -c -P 2 1152k 64k +L2 entry #18: 0x40000000000e0000 0000000000000000 +write -q -c -P 2 1216k 64k +L2 entry #19: 0x40000000000f0000 0000000000000000 +write -q -c -P 2 1280k 64k +L2 entry #20: 0x4000000000100000 0000000000000000 +write -q -c -P 2 1344k 64k +L2 entry #21: 0x4000000000110000 0000000000000000 +write -q -c -P 2 1408k 64k +L2 entry #22: 0x4000000000120000 0000000000000000 +write -q -c -P 2 1472k 64k +L2 entry #23: 0x4000000000130000 0000000000000000 +write -q -c -P 2 1536k 64k +L2 entry #24: 0x4000000000140000 0000000000000000 +write -q -c -P 2 1600k 64k +L2 entry #25: 0x4000000000150000 0000000000000000 +write -q -c -P 2 1664k 64k +L2 entry #26: 0x4000000000160000 0000000000000000 +write -q -c -P 2 1728k 64k +L2 entry #27: 0x4000000000170000 0000000000000000 +write -q -c -P 2 1792k 64k +L2 entry #28: 0x4000000000180000 0000000000000000 +write -q -z 1152k 192k +L2 entry #18: 0x0000000000000000 ffffffff00000000 +L2 entry #19: 0x0000000000000000 ffffffff00000000 +L2 entry #20: 0x0000000000000000 ffffffff00000000 +write -q -z 1376k 128k +L2 entry #21: 0x80000000000e0000 00000000ffffffff +L2 entry #22: 0x80000000000f0000 00000000ffffffff +L2 entry #23: 0x8000000000100000 00000000ffffffff +write -q -z 1567k 129k +L2 entry #24: 0x8000000000110000 00000000ffffffff +L2 entry #25: 0x8000000000120000 00000000ffffffff +L2 entry #26: 0x8000000000130000 00000000ffffffff +write -q -z 1759k 128k +L2 entry #27: 0x8000000000140000 ffff00000000ffff +L2 entry #28: 0x0000000000000000 ffffffff00000000 +L2 entry #29: 0x0000000000000000 0000ffff00000000 + +### Writing zeroes 4: other tests (backing file: no) ### + +write -q -z 1951k 8k +L2 entry #30: 0x0000000000000000 000f800000000000 +write -q -z 2048k 35k +L2 entry #32: 0x0000000000000000 0003ffff00000000 + +### Zero + unmap 1: allocated clusters (backing file: yes) ### + +Formatting 'TEST_DIR/t.IMGFMT.raw', fmt=raw size=2132992 +Formatting 'TEST_DIR/t.IMGFMT.base', fmt=raw size=2132992 +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=2132992 backing_file=TEST_DIR/t.IMGFMT.base +write -q -P 1 576k 576k +L2 entry #9: 0x8000000000050000 00000000ffffffff +L2 entry #10: 0x8000000000060000 00000000ffffffff +L2 entry #11: 0x8000000000070000 00000000ffffffff +L2 entry #12: 0x8000000000080000 00000000ffffffff +L2 entry #13: 0x8000000000090000 00000000ffffffff +L2 entry #14: 0x80000000000a0000 00000000ffffffff +L2 entry #15: 0x80000000000b0000 00000000ffffffff +L2 entry #16: 0x80000000000c0000 00000000ffffffff +L2 entry #17: 0x80000000000d0000 00000000ffffffff +write -q -z -u 576k 192k +L2 entry #9: 0x0000000000000000 ffffffff00000000 +L2 entry #10: 0x0000000000000000 ffffffff00000000 +L2 entry #11: 0x0000000000000000 ffffffff00000000 +write -q -z -u 800k 128k +L2 entry #12: 0x8000000000080000 ffff00000000ffff +L2 entry #13: 0x0000000000000000 ffffffff00000000 +L2 entry #14: 0x80000000000a0000 0000ffffffff0000 +write -q -z -u 991k 128k +L2 entry #15: 0x80000000000b0000 ffff00000000ffff +L2 entry #16: 0x0000000000000000 ffffffff00000000 +L2 entry #17: 0x80000000000d0000 00007fffffff8000 + +### Zero + unmap 2: compressed clusters (backing file: yes) ### + +write -q -c -P 2 1152k 64k +L2 entry #18: 0x4000000000050000 0000000000000000 +write -q -c -P 2 1216k 64k +L2 entry #19: 0x4000000000060000 0000000000000000 +write -q -c -P 2 1280k 64k +L2 entry #20: 0x4000000000070000 0000000000000000 +write -q -c -P 2 1344k 64k +L2 entry #21: 0x4000000000090000 0000000000000000 +write -q -c -P 2 1408k 64k +L2 entry #22: 0x40000000000c0000 0000000000000000 +write -q -c -P 2 1472k 64k +L2 entry #23: 0x40000000000e0000 0000000000000000 +write -q -c -P 2 1536k 64k +L2 entry #24: 0x40000000000f0000 0000000000000000 +write -q -c -P 2 1600k 64k +L2 entry #25: 0x4000000000100000 0000000000000000 +write -q -c -P 2 1664k 64k +L2 entry #26: 0x4000000000110000 0000000000000000 +write -q -c -P 2 1728k 64k +L2 entry #27: 0x4000000000120000 0000000000000000 +write -q -c -P 2 1792k 64k +L2 entry #28: 0x4000000000130000 0000000000000000 +write -q -z -u 1152k 192k +L2 entry #18: 0x0000000000000000 ffffffff00000000 +L2 entry #19: 0x0000000000000000 ffffffff00000000 +L2 entry #20: 0x0000000000000000 ffffffff00000000 +write -q -z -u 1376k 128k +L2 entry #21: 0x8000000000050000 00000000ffffffff +L2 entry #22: 0x8000000000060000 00000000ffffffff +L2 entry #23: 0x8000000000070000 00000000ffffffff +write -q -z -u 1567k 129k +L2 entry #24: 0x8000000000090000 00000000ffffffff +L2 entry #25: 0x80000000000e0000 00000000ffffffff +L2 entry #26: 0x80000000000f0000 00000000ffffffff +write -q -z -u 1759k 128k +L2 entry #27: 0x80000000000c0000 ffff00000000ffff +L2 entry #28: 0x0000000000000000 ffffffff00000000 +L2 entry #29: 0x8000000000100000 00007fff00008000 + +### Zero + unmap 1: allocated clusters (backing file: no) ### + +Formatting 'TEST_DIR/t.IMGFMT.raw', fmt=raw size=2132992 +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=2132992 +write -q -P 1 576k 576k +L2 entry #9: 0x8000000000050000 00000000ffffffff +L2 entry #10: 0x8000000000060000 00000000ffffffff +L2 entry #11: 0x8000000000070000 00000000ffffffff +L2 entry #12: 0x8000000000080000 00000000ffffffff +L2 entry #13: 0x8000000000090000 00000000ffffffff +L2 entry #14: 0x80000000000a0000 00000000ffffffff +L2 entry #15: 0x80000000000b0000 00000000ffffffff +L2 entry #16: 0x80000000000c0000 00000000ffffffff +L2 entry #17: 0x80000000000d0000 00000000ffffffff +write -q -z -u 576k 192k +L2 entry #9: 0x0000000000000000 ffffffff00000000 +L2 entry #10: 0x0000000000000000 ffffffff00000000 +L2 entry #11: 0x0000000000000000 ffffffff00000000 +write -q -z -u 800k 128k +L2 entry #12: 0x8000000000080000 ffff00000000ffff +L2 entry #13: 0x0000000000000000 ffffffff00000000 +L2 entry #14: 0x80000000000a0000 0000ffffffff0000 +write -q -z -u 991k 128k +L2 entry #15: 0x80000000000b0000 ffff00000000ffff +L2 entry #16: 0x0000000000000000 ffffffff00000000 +L2 entry #17: 0x80000000000d0000 00007fffffff8000 + +### Zero + unmap 2: compressed clusters (backing file: no) ### + +write -q -c -P 2 1152k 64k +L2 entry #18: 0x4000000000050000 0000000000000000 +write -q -c -P 2 1216k 64k +L2 entry #19: 0x4000000000060000 0000000000000000 +write -q -c -P 2 1280k 64k +L2 entry #20: 0x4000000000070000 0000000000000000 +write -q -c -P 2 1344k 64k +L2 entry #21: 0x4000000000090000 0000000000000000 +write -q -c -P 2 1408k 64k +L2 entry #22: 0x40000000000c0000 0000000000000000 +write -q -c -P 2 1472k 64k +L2 entry #23: 0x40000000000e0000 0000000000000000 +write -q -c -P 2 1536k 64k +L2 entry #24: 0x40000000000f0000 0000000000000000 +write -q -c -P 2 1600k 64k +L2 entry #25: 0x4000000000100000 0000000000000000 +write -q -c -P 2 1664k 64k +L2 entry #26: 0x4000000000110000 0000000000000000 +write -q -c -P 2 1728k 64k +L2 entry #27: 0x4000000000120000 0000000000000000 +write -q -c -P 2 1792k 64k +L2 entry #28: 0x4000000000130000 0000000000000000 +write -q -z -u 1152k 192k +L2 entry #18: 0x0000000000000000 ffffffff00000000 +L2 entry #19: 0x0000000000000000 ffffffff00000000 +L2 entry #20: 0x0000000000000000 ffffffff00000000 +write -q -z -u 1376k 128k +L2 entry #21: 0x8000000000050000 00000000ffffffff +L2 entry #22: 0x8000000000060000 00000000ffffffff +L2 entry #23: 0x8000000000070000 00000000ffffffff +write -q -z -u 1567k 129k +L2 entry #24: 0x8000000000090000 00000000ffffffff +L2 entry #25: 0x80000000000e0000 00000000ffffffff +L2 entry #26: 0x80000000000f0000 00000000ffffffff +write -q -z -u 1759k 128k +L2 entry #27: 0x80000000000c0000 ffff00000000ffff +L2 entry #28: 0x0000000000000000 ffffffff00000000 +L2 entry #29: 0x0000000000000000 0000ffff00000000 + +### Discarding clusters with non-zero bitmaps (backing file: yes) ### + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 backing_file=TEST_DIR/t.IMGFMT.base +L2 entry #0: 0x0000000000000000 ffffffff00000000 +L2 entry #1: 0x0000000000000000 ffffffff00000000 +Image resized. +Image resized. +L2 entry #0: 0x0000000000000000 ffffffff00000000 +L2 entry #1: 0x0000000000000000 ffffffff00000000 + +### Discarding clusters with non-zero bitmaps (backing file: no) ### + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #0: 0x0000000000000000 ffffffff00000000 +L2 entry #1: 0x0000000000000000 ffffffff00000000 +Image resized. +Image resized. +L2 entry #0: 0x0000000000000000 0000ffff00000000 +L2 entry #1: 0x0000000000000000 0000000000000000 + +### Corrupted L2 entries - read test (allocated) ### + +# 'cluster is zero' bit set on the standard cluster descriptor + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #0: 0x8000000000050001 0000000000000001 +L2 entry #0: 0x8000000000050001 0000000000000001 + +# Both 'subcluster is zero' and 'subcluster is allocated' bits set + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #1: 0x8000000000060000 00000001ffffffff +qcow2: Marking image as corrupt: Invalid cluster entry found (L2 offset: 0x40000, L2 index: 0x1); further corruption events will be suppressed +read failed: Input/output error + +### Corrupted L2 entries - read test (unallocated) ### + +# 'cluster is zero' bit set on the standard cluster descriptor + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #0: 0x0000000000000001 0000000000000000 +L2 entry #0: 0x0000000000000001 0000000000000000 + +# 'subcluster is allocated' bit set + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #0: 0x0000000000000000 0000000000000001 +qcow2: Marking image as corrupt: Invalid cluster entry found (L2 offset: 0x40000, L2 index: 0); further corruption events will be suppressed +read failed: Input/output error + +# Both 'subcluster is zero' and 'subcluster is allocated' bits set + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #1: 0x0000000000000000 0000000100000001 +qcow2: Marking image as corrupt: Invalid cluster entry found (L2 offset: 0x40000, L2 index: 0x1); further corruption events will be suppressed +read failed: Input/output error + +### Compressed cluster with subcluster bitmap != 0 - read test ### + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #0: 0x4000000000050000 0000000180000000 +read 65536/65536 bytes at offset 0 +64 KiB, X ops; XX:XX:XX.X (XXX YYY/sec and XXX ops/sec) +L2 entry #0: 0x4000000000050000 0000000180000000 + +### Corrupted L2 entries - write test (allocated) ### + +# 'cluster is zero' bit set on the standard cluster descriptor + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #0: 0x8000000000050001 0000000000000001 +L2 entry #0: 0x8000000000050001 0000000000000001 + +# Both 'subcluster is zero' and 'subcluster is allocated' bits set + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #1: 0x8000000000060000 00000001ffffffff +qcow2: Marking image as corrupt: Invalid cluster entry found (L2 offset: 0x40000, L2 index: 0x1); further corruption events will be suppressed +write failed: Input/output error + +### Corrupted L2 entries - write test (unallocated) ### + +# 'cluster is zero' bit set on the standard cluster descriptor + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #0: 0x0000000000000001 0000000000000000 +L2 entry #0: 0x8000000000060000 0000000000000001 + +# 'subcluster is allocated' bit set + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #0: 0x0000000000000000 0000000000000001 +qcow2: Marking image as corrupt: Invalid cluster entry found (L2 offset: 0x40000, L2 index: 0); further corruption events will be suppressed +write failed: Input/output error + +# Both 'subcluster is zero' and 'subcluster is allocated' bits set + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #1: 0x0000000000000000 0000000100000001 +qcow2: Marking image as corrupt: Invalid cluster entry found (L2 offset: 0x40000, L2 index: 0x1); further corruption events will be suppressed +write failed: Input/output error + +### Compressed cluster with subcluster bitmap != 0 - write test ### + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #0: 0x4000000000050000 0000000180000000 +wrote 65536/65536 bytes at offset 0 +64 KiB, X ops; XX:XX:XX.X (XXX YYY/sec and XXX ops/sec) +L2 entry #0: 0x8000000000060000 00000000ffffffff + +### Image creation options ### + +# cluster_size < 16k +qemu-img: TEST_DIR/t.IMGFMT: Extended L2 entries are only supported with cluster sizes of at least 16384 bytes +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +# backing file and preallocation=metadata +qemu-img: TEST_DIR/t.IMGFMT: Backing file and preallocation cannot be used at the same time +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 backing_file=TEST_DIR/t.IMGFMT.base preallocation=metadata +# backing file and preallocation=falloc +qemu-img: TEST_DIR/t.IMGFMT: Backing file and preallocation cannot be used at the same time +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 backing_file=TEST_DIR/t.IMGFMT.base preallocation=falloc +# backing file and preallocation=full +qemu-img: TEST_DIR/t.IMGFMT: Backing file and preallocation cannot be used at the same time +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 backing_file=TEST_DIR/t.IMGFMT.base preallocation=full + +### qemu-img measure ### + +# 512MB, extended_l2=off +required size: 327680 +fully allocated size: 537198592 +# 512MB, extended_l2=on +required size: 393216 +fully allocated size: 537264128 +# 16K clusters, 64GB, extended_l2=off +required size: 42008576 +fully allocated size: 68761485312 +# 16K clusters, 64GB, extended_l2=on +required size: 75579392 +fully allocated size: 68795056128 +# 8k clusters +qemu-img: Extended L2 entries are only supported with cluster sizes of at least 16384 bytes +# 1024 TB +required size: 309285027840 +fully allocated size: 1126209191870464 +# 1025 TB +qemu-img: The image size is too large (try using a larger cluster size) + +### qemu-img amend ### + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +qemu-img: Toggling extended L2 entries is not supported +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +qemu-img: Toggling extended L2 entries is not supported + +### Test copy-on-write on an image with snapshots ### + +Formatting 'TEST_DIR/t.IMGFMT', fmt=IMGFMT size=1048576 +L2 entry #0: 0x8000000000050000 0000008000042000 +L2 entry #1: 0x8000000000060000 0000008000042000 +L2 entry #2: 0x8000000000070000 0000008000042000 +L2 entry #3: 0x8000000000080000 0000008000042000 +L2 entry #4: 0x8000000000090000 0000008000042000 +L2 entry #5: 0x80000000000a0000 0000008000042000 +L2 entry #6: 0x80000000000b0000 0000008000042000 +L2 entry #7: 0x80000000000c0000 0000008000042000 +L2 entry #8: 0x80000000000d0000 0000008000042000 +L2 entry #9: 0x80000000000e0000 0000008000042000 +L2 entry #0: 0x8000000000120000 000000800007e000 +L2 entry #1: 0x8000000000130000 000000800007fc00 +L2 entry #2: 0x8000000000140000 00000080001fe000 +L2 entry #3: 0x8000000000150000 000000800007e000 +L2 entry #4: 0x8000000000160000 000000000007ff80 +L2 entry #5: 0x8000000000170000 000000000007ffff +L2 entry #6: 0x00000000000b0000 0001808000042000 +L2 entry #7: 0x00000000000c0000 0000208000040000 +L2 entry #8: 0x8000000000180000 000000800007e000 +L2 entry #9: 0x00000000000e0000 000000c000042000 +*** done diff --git a/tests/qemu-iotests/group b/tests/qemu-iotests/group index 445c26f8d2..50c9bbc750 100644 --- a/tests/qemu-iotests/group +++ b/tests/qemu-iotests/group @@ -284,6 +284,7 @@ 267 rw auto quick snapshot 268 rw auto quick 270 rw backing quick +271 rw auto 272 rw 273 backing quick 274 rw backing