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a1406a9262
Without HEAD^, the following happens when you attempt a large write request to a qcow2 file such that the number of bytes covered by all clusters involved in a single allocation will exceed INT_MAX: (A) handle_alloc_space() decides to fill the whole area with zeroes and fails because bdrv_co_pwrite_zeroes() fails (the request is too large). (B) If handle_alloc_space() does not do anything, but merge_cow() decides that the requests can be merged, it will create a too long IOV that later cannot be written. (C) Otherwise, all parts will be written separately, so those requests will work. In either B or C, though, qcow2_alloc_cluster_link_l2() will have an overflow: We use an int (i) to iterate over nb_clusters, and then calculate the L2 entry based on "i << s->cluster_bits" -- which will overflow if the range covers more than INT_MAX bytes. This then leads to image corruption because the L2 entry will be wrong (it will be recognized as a compressed cluster). Even if that were not the case, the .cow_end area would be empty (because handle_alloc() will cap avail_bytes and nb_bytes at INT_MAX, so their difference (which is the .cow_end size) will be 0). So this test checks that on such large requests, the image will not be corrupted. Unfortunately, we cannot check whether COW will be handled correctly, because that data is discarded when it is written to null-co (but we have to use null-co, because writing 2 GB of data in a test is not quite reasonable). Signed-off-by: Max Reitz <mreitz@redhat.com> Reviewed-by: Eric Blake <eblake@redhat.com> Signed-off-by: Kevin Wolf <kwolf@redhat.com>
84 lines
2.7 KiB
Bash
Executable File
84 lines
2.7 KiB
Bash
Executable File
#!/usr/bin/env bash
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#
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# Test large write to a qcow2 image
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#
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# Copyright (C) 2019 Red Hat, Inc.
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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#
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seq=$(basename "$0")
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echo "QA output created by $seq"
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status=1 # failure is the default!
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_cleanup()
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{
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_cleanup_test_img
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}
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trap "_cleanup; exit \$status" 0 1 2 3 15
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# get standard environment, filters and checks
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. ./common.rc
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. ./common.filter
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# This is a qcow2 regression test
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_supported_fmt qcow2
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_supported_proto file
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_supported_os Linux
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# We use our own external data file and our own cluster size, and we
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# require v3 images
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_unsupported_imgopts data_file cluster_size 'compat=0.10'
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# We need a backing file so that handle_alloc_space() will not do
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# anything. (If it were to do anything, it would simply fail its
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# write-zeroes request because the request range is too large.)
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TEST_IMG="$TEST_IMG.base" _make_test_img 4G
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$QEMU_IO -c 'write 0 512' "$TEST_IMG.base" | _filter_qemu_io
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# (Use .orig because _cleanup_test_img will remove that file)
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# We need a large cluster size, see below for why (above the $QEMU_IO
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# invocation)
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_make_test_img -o cluster_size=2M,data_file="$TEST_IMG.orig" \
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-b "$TEST_IMG.base" 4G
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# We want a null-co as the data file, because it allows us to quickly
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# "write" 2G of data without using any space.
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# (qemu-img create does not like it, though, because null-co does not
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# support image creation.)
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$QEMU_IMG amend -o data_file="json:{'driver':'null-co',,'size':'4294967296'}" \
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"$TEST_IMG"
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# This gives us a range of:
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# 2^31 - 512 + 768 - 1 = 2^31 + 255 > 2^31
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# until the beginning of the end COW block. (The total allocation
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# size depends on the cluster size, but all that is important is that
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# it exceeds INT_MAX.)
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#
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# 2^31 - 512 is the maximum request size. We want this to result in a
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# single allocation, and because the qcow2 driver splits allocations
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# on L2 boundaries, we need large L2 tables; hence the cluster size of
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# 2 MB. (Anything from 256 kB should work, though, because then one L2
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# table covers 8 GB.)
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$QEMU_IO -c "write 768 $((2 ** 31 - 512))" "$TEST_IMG" | _filter_qemu_io
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_check_test_img
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# success, all done
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echo "*** done"
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rm -f $seq.full
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status=0
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