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Improve tests and update man page for healing recv
Fix the manpage. The "SYNOPSIS" section is incorrectly formatted for receive -c. I also took this opportunity to reword some parts and fix a run-on sentence in the manpage. Add large block testing for corrective recv. This adds a new test that makes sure blocks generated using zfs send -L/--large-block large-block send flag are able to be used for healing. Since with unloaded key and errlog feature enabled corruption is not shown in zpool status #13675 is fixed the zfs_receive_corrective.ksh test no longer sets -o feature@head_errlog=disabled on pool creation so that it can also test for regressions related to head_errlog feature. Note that the zfs_receive_compressed_corrective.ksh and zfs_receive_large_block_corrective.ksh tests are still creating pools with -o feature@head_errlog=disabled. Reviewed-by: Brian Behlendorf <behlendorf1@llnl.gov> Signed-off-by: Alek Pinchuk <apinchuk@axcient.com> Closes #14615
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@ -29,7 +29,7 @@
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.\" Copyright 2018 Nexenta Systems, Inc.
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.\" Copyright 2019 Joyent, Inc.
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.\"
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.Dd April 26, 2022
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.Dd March 12, 2023
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.Dt ZFS-RECEIVE 8
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.Os
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.
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@ -56,8 +56,7 @@
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.Cm receive
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.Fl A
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.Ar filesystem Ns | Ns Ar volume
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.
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.Nm
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.Nm zfs
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.Cm receive
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.Fl c
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.Op Fl vn
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@ -406,15 +405,15 @@ deleting its saved partially received state.
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.Op Fl vn
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.Ar filesystem Ns | Ns Ar snapshot
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.Xc
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Attempt to correct data corruption in the specified dataset,
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Attempt to repair data corruption in the specified dataset,
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by using the provided stream as the source of healthy data.
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This method of healing can only heal data blocks present in the stream.
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Metadata can not be healed by corrective receive.
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Running a scrub is recommended post-healing to ensure all corruption was
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healed.
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Running a scrub is recommended post-healing to ensure all data corruption was
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repaired.
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.Pp
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It's important to consider why corruption has happened in the first place
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since if you have slowly failing hardware periodically healing the data
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It's important to consider why corruption has happened in the first place.
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If you have slowly failing hardware - periodically repairing the data
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is not going to save you from data loss later on when the hardware fails
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completely.
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.El
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@ -242,7 +242,7 @@ tests = ['zfs_receive_001_pos', 'zfs_receive_002_pos', 'zfs_receive_003_pos',
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'zfs_receive_raw', 'zfs_receive_raw_incremental', 'zfs_receive_-e',
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'zfs_receive_raw_-d', 'zfs_receive_from_zstd', 'zfs_receive_new_props',
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'zfs_receive_-wR-encrypted-mix', 'zfs_receive_corrective',
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'zfs_receive_compressed_corrective']
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'zfs_receive_compressed_corrective', 'zfs_receive_large_block_corrective']
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tags = ['functional', 'cli_root', 'zfs_receive']
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[tests/functional/cli_root/zfs_rename]
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@ -774,6 +774,7 @@ nobase_dist_datadir_zfs_tests_tests_SCRIPTS += \
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functional/cli_root/zfs_receive/zfs_receive_-wR-encrypted-mix.ksh \
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functional/cli_root/zfs_receive/zfs_receive_corrective.ksh \
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functional/cli_root/zfs_receive/zfs_receive_compressed_corrective.ksh \
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functional/cli_root/zfs_receive/zfs_receive_large_block_corrective.ksh \
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functional/cli_root/zfs_rename/cleanup.ksh \
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functional/cli_root/zfs_rename/setup.ksh \
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functional/cli_root/zfs_rename/zfs_rename_001_pos.ksh \
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@ -85,7 +85,7 @@ typeset passphrase="password"
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typeset file="/$TESTPOOL/$TESTFS1/$TESTFILE0"
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log_must eval "poolexists $TESTPOOL && destroy_pool $TESTPOOL"
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log_must zpool create -f -o feature@head_errlog=disabled $TESTPOOL $DISK
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log_must zpool create -f $TESTPOOL $DISK
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log_must eval "echo $passphrase > /$TESTPOOL/pwd"
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@ -0,0 +1,194 @@
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#!/bin/ksh -p
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#
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# CDDL HEADER START
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#
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# This file and its contents are supplied under the terms of the
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# Common Development and Distribution License ("CDDL"), version 1.0.
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# You may only use this file in accordance with the terms of version
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# 1.0 of the CDDL.
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#
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# A full copy of the text of the CDDL should have accompanied this
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# source. A copy of the CDDL is also available via the Internet at
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# http://www.illumos.org/license/CDDL.
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#
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# CDDL HEADER END
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#
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#
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# Copyright (c) 2019 Datto, Inc. All rights reserved.
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# Copyright (c) 2022 Axcient.
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#
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. $STF_SUITE/include/libtest.shlib
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#
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# DESCRIPTION:
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# OpenZFS should be able to heal data using corrective recv when the send file
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# was generated with the --large-block flag
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#
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# STRATEGY:
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# 0. Create a file, checksum the file to be corrupted then compare it's checksum
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# with the one obtained after healing under different testing scenarios:
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# 1. Test healing (aka corrective) recv from a full send file
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# 2. Test healing recv (aka heal recv) from an incremental send file
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# 3. Test healing recv when compression on-disk is off but source was compressed
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# 4. Test heal recv when compression on-disk is on but source was uncompressed
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# 5. Test heal recv when compression doesn't match between send file and on-disk
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# 6. Test healing recv of an encrypted dataset using an unencrypted send file
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# 7. Test healing recv (on an encrypted dataset) using a raw send file
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# 8. Test healing when specifying destination filesystem only (no snapshot)
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# 9. Test incremental recv aftear healing recv
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#
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verify_runnable "both"
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DISK=${DISKS%% *}
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backup=$TEST_BASE_DIR/backup
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raw_backup=$TEST_BASE_DIR/raw_backup
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ibackup=$TEST_BASE_DIR/ibackup
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unc_backup=$TEST_BASE_DIR/unc_backup
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function cleanup
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{
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log_must rm -f $backup $raw_backup $ibackup $unc_backup
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poolexists $TESTPOOL && destroy_pool $TESTPOOL
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log_must zpool create -f $TESTPOOL $DISK
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}
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function test_corrective_recv
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{
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log_must zpool scrub -w $TESTPOOL
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log_must zpool status -v $TESTPOOL
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log_must eval "zpool status -v $TESTPOOL | \
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grep \"Permanent errors have been detected\""
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# make sure we will read the corruption from disk by flushing the ARC
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log_must zinject -a
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log_must eval "zfs recv -c $1 < $2"
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log_must zpool scrub -w $TESTPOOL
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log_must zpool status -v $TESTPOOL
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log_mustnot eval "zpool status -v $TESTPOOL | \
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grep \"Permanent errors have been detected\""
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typeset cksum=$(md5digest $file)
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[[ "$cksum" == "$checksum" ]] || \
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log_fail "Checksums differ ($cksum != $checksum)"
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}
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log_onexit cleanup
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log_assert "ZFS corrective receive should be able to heal data corruption"
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typeset passphrase="password"
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typeset file="/$TESTPOOL/$TESTFS1/$TESTFILE0"
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log_must eval "poolexists $TESTPOOL && destroy_pool $TESTPOOL"
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log_must zpool create -f -o feature@large_blocks=enabled \
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-o feature@head_errlog=disabled $TESTPOOL $DISK
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log_must eval "echo $passphrase > /$TESTPOOL/pwd"
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log_must zfs create -o recordsize=1m -o primarycache=none \
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-o atime=off -o compression=lz4 $TESTPOOL/$TESTFS1
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log_must dd if=/dev/urandom of=$file bs=1024 count=1024 oflag=sync
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log_must eval "echo 'aaaaaaaa' >> "$file
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typeset checksum=$(md5digest $file)
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log_must zfs snapshot $TESTPOOL/$TESTFS1@snap1
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# create full send file
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log_must eval "zfs send -L $TESTPOOL/$TESTFS1@snap1 > $backup"
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log_must dd if=/dev/urandom of=$file"1" bs=1024 count=1024 oflag=sync
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log_must eval "echo 'bbbbbbbb' >> "$file"1"
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log_must zfs snapshot $TESTPOOL/$TESTFS1@snap2
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# create incremental send file
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log_must eval "zfs send -Li $TESTPOOL/$TESTFS1@snap1 \
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$TESTPOOL/$TESTFS1@snap2 > $ibackup"
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corrupt_blocks_at_level $file 0
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# test healing recv from a full send file
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test_corrective_recv $TESTPOOL/$TESTFS1@snap1 $backup
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corrupt_blocks_at_level $file"1" 0
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# test healing recv from an incremental send file
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test_corrective_recv $TESTPOOL/$TESTFS1@snap2 $ibackup
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# create new uncompressed dataset using our send file
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log_must eval "zfs recv -o compression=off -o primarycache=none \
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$TESTPOOL/$TESTFS2 < $backup"
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typeset compr=$(get_prop compression $TESTPOOL/$TESTFS2)
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[[ "$compr" == "off" ]] || \
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log_fail "Unexpected compression $compr in recved dataset"
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corrupt_blocks_at_level "/$TESTPOOL/$TESTFS2/$TESTFILE0" 0
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# test healing recv when compression on-disk is off but source was compressed
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test_corrective_recv "$TESTPOOL/$TESTFS2@snap1" $backup
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# create a full sendfile from an uncompressed source
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log_must eval "zfs send -L $TESTPOOL/$TESTFS2@snap1 > $unc_backup"
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log_must eval "zfs recv -o compression=gzip -o primarycache=none \
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-o recordsize=1m $TESTPOOL/testfs3 < $unc_backup"
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typeset compr=$(get_prop compression $TESTPOOL/testfs3)
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[[ "$compr" == "gzip" ]] || \
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log_fail "Unexpected compression $compr in recved dataset"
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corrupt_blocks_at_level "/$TESTPOOL/testfs3/$TESTFILE0" 0
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# test healing recv when compression on-disk is on but source was uncompressed
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test_corrective_recv "$TESTPOOL/testfs3@snap1" $unc_backup
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# create new compressed dataset using our send file
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log_must eval "zfs recv -o compression=gzip -o primarycache=none \
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-o recordsize=1m $TESTPOOL/testfs4 < $backup"
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typeset compr=$(get_prop compression $TESTPOOL/testfs4)
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[[ "$compr" == "gzip" ]] || \
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log_fail "Unexpected compression $compr in recved dataset"
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corrupt_blocks_at_level "/$TESTPOOL/testfs4/$TESTFILE0" 0
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# test healing recv when compression doesn't match between send file and on-disk
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test_corrective_recv "$TESTPOOL/testfs4@snap1" $backup
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# create new encrypted (and compressed) dataset using our send file
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log_must eval "zfs recv -o encryption=aes-256-ccm -o keyformat=passphrase \
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-o recordsize=1m -o keylocation=file:///$TESTPOOL/pwd -o primarycache=none \
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$TESTPOOL/testfs5 < $backup"
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typeset encr=$(get_prop encryption $TESTPOOL/testfs5)
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[[ "$encr" == "aes-256-ccm" ]] || \
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log_fail "Unexpected encryption $encr in recved dataset"
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log_must eval "zfs send -L --raw $TESTPOOL/testfs5@snap1 > $raw_backup"
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log_must eval "zfs send -L $TESTPOOL/testfs5@snap1 > $backup"
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corrupt_blocks_at_level "/$TESTPOOL/testfs5/$TESTFILE0" 0
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# test healing recv of an encrypted dataset using an unencrypted send file
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test_corrective_recv "$TESTPOOL/testfs5@snap1" $backup
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corrupt_blocks_at_level "/$TESTPOOL/testfs5/$TESTFILE0" 0
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log_must zfs unmount $TESTPOOL/testfs5
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log_must zfs unload-key $TESTPOOL/testfs5
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# test healing recv (on an encrypted dataset) using a raw send file
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test_corrective_recv "$TESTPOOL/testfs5@snap1" $raw_backup
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# non raw send file healing an encrypted dataset with an unloaded key will fail
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log_mustnot eval "zfs recv -c $TESTPOOL/testfs5@snap1 < $backup"
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log_must zfs rollback -r $TESTPOOL/$TESTFS1@snap1
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corrupt_blocks_at_level $file 0
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# test healing when specifying destination filesystem only (no snapshot)
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test_corrective_recv $TESTPOOL/$TESTFS1 $backup
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# test incremental recv aftear healing recv
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log_must eval "zfs recv -o recordsize=1m $TESTPOOL/$TESTFS1 < $ibackup"
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# test that healing recv can not be combined with incompatible recv options
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log_mustnot eval "zfs recv -h -c $TESTPOOL/$TESTFS1@snap1 < $backup"
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log_mustnot eval "zfs recv -F -c $TESTPOOL/$TESTFS1@snap1 < $backup"
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log_mustnot eval "zfs recv -s -c $TESTPOOL/$TESTFS1@snap1 < $backup"
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log_mustnot eval "zfs recv -u -c $TESTPOOL/$TESTFS1@snap1 < $backup"
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log_mustnot eval "zfs recv -d -c $TESTPOOL/$TESTFS1@snap1 < $backup"
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log_mustnot eval "zfs recv -e -c $TESTPOOL/$TESTFS1@snap1 < $backup"
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# ensure healing recv doesn't work when snap GUIDS don't match
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log_mustnot eval "zfs recv -c $TESTPOOL/testfs5@snap2 < $backup"
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log_mustnot eval "zfs recv -c $TESTPOOL/testfs5 < $backup"
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# test that healing recv doesn't work on non-existing snapshots
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log_mustnot eval "zfs recv -c $TESTPOOL/$TESTFS1@missing < $backup"
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log_pass "OpenZFS corrective recv works for data healing"
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