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Don't emit checksum histograms in ereport.fs.zfs.checksum events
The checksum histograms were intended to be used with ATA and parallel SCSI, which are obsolete. With modern storage hardware, they will almost always look like white noise; all bits will be wrong. They only serve to bloat the event. That's a particular problem on FreeBSD, where events must fit into a 1016 byte buffer. This fixes issue #14717 for RAIDZ pools, but not for mirror pools. Reviewed-by: Brian Behlendorf <behlendorf1@llnl.gov> Reviewed-by: Rich Ercolani <rincebrain@gmail.com> Signed-off-by: Alan Somers <asomers@gmail.com> Sponsored-by: Axcient Closes #15052
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@ -112,8 +112,6 @@ extern "C" {
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#define FM_EREPORT_PAYLOAD_ZFS_BAD_RANGE_CLEARS "bad_range_clears"
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#define FM_EREPORT_PAYLOAD_ZFS_BAD_RANGE_CLEARS "bad_range_clears"
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#define FM_EREPORT_PAYLOAD_ZFS_BAD_SET_BITS "bad_set_bits"
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#define FM_EREPORT_PAYLOAD_ZFS_BAD_SET_BITS "bad_set_bits"
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#define FM_EREPORT_PAYLOAD_ZFS_BAD_CLEARED_BITS "bad_cleared_bits"
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#define FM_EREPORT_PAYLOAD_ZFS_BAD_CLEARED_BITS "bad_cleared_bits"
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#define FM_EREPORT_PAYLOAD_ZFS_BAD_SET_HISTOGRAM "bad_set_histogram"
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#define FM_EREPORT_PAYLOAD_ZFS_BAD_CLEARED_HISTOGRAM "bad_cleared_histogram"
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#define FM_EREPORT_PAYLOAD_ZFS_SNAPSHOT_NAME "snapshot_name"
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#define FM_EREPORT_PAYLOAD_ZFS_SNAPSHOT_NAME "snapshot_name"
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#define FM_EREPORT_PAYLOAD_ZFS_DEVICE_NAME "device_name"
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#define FM_EREPORT_PAYLOAD_ZFS_DEVICE_NAME "device_name"
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#define FM_EREPORT_PAYLOAD_ZFS_RAW_DEVICE_NAME "raw_name"
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#define FM_EREPORT_PAYLOAD_ZFS_RAW_DEVICE_NAME "raw_name"
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@ -26,7 +26,7 @@
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.\" Copyright 2017 Nexenta Systems, Inc.
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.\" Copyright 2017 Nexenta Systems, Inc.
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.\" Copyright (c) 2017 Open-E, Inc. All Rights Reserved.
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.\" Copyright (c) 2017 Open-E, Inc. All Rights Reserved.
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.\"
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.\"
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.Dd May 27, 2021
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.Dd July 11, 2023
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.Dt ZPOOL-EVENTS 8
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.Dt ZPOOL-EVENTS 8
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.Os
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.Os
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.
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.
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@ -362,23 +362,6 @@ Like
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but contains
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but contains
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.Pq Ar good data No & ~( Ns Ar bad data ) ;
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.Pq Ar good data No & ~( Ns Ar bad data ) ;
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that is, the bits set in the good data which are cleared in the bad data.
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that is, the bits set in the good data which are cleared in the bad data.
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.It Sy bad_set_histogram
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If this field exists, it is an array of counters.
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Each entry counts bits set in a particular bit of a big-endian uint64 type.
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The first entry counts bits
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set in the high-order bit of the first byte, the 9th byte, etc, and the last
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entry counts bits set of the low-order bit of the 8th byte, the 16th byte, etc.
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This information is useful for observing a stuck bit in a parallel data path,
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such as IDE or parallel SCSI.
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.It Sy bad_cleared_histogram
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If this field exists, it is an array of counters.
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Each entry counts bit clears in a particular bit of a big-endian uint64 type.
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The first entry counts bits
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clears of the high-order bit of the first byte, the 9th byte, etc, and the
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last entry counts clears of the low-order bit of the 8th byte, the 16th byte,
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etc.
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This information is useful for observing a stuck bit in a parallel data
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path, such as IDE or parallel SCSI.
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.El
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.El
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.
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.
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.Sh I/O STAGES
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.Sh I/O STAGES
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@ -754,10 +754,6 @@ zfs_ereport_start(nvlist_t **ereport_out, nvlist_t **detector_out,
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#define MAX_RANGES 16
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#define MAX_RANGES 16
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typedef struct zfs_ecksum_info {
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typedef struct zfs_ecksum_info {
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/* histograms of set and cleared bits by bit number in a 64-bit word */
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uint8_t zei_histogram_set[sizeof (uint64_t) * NBBY];
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uint8_t zei_histogram_cleared[sizeof (uint64_t) * NBBY];
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/* inline arrays of bits set and cleared. */
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/* inline arrays of bits set and cleared. */
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uint64_t zei_bits_set[ZFM_MAX_INLINE];
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uint64_t zei_bits_set[ZFM_MAX_INLINE];
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uint64_t zei_bits_cleared[ZFM_MAX_INLINE];
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uint64_t zei_bits_cleared[ZFM_MAX_INLINE];
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@ -781,7 +777,7 @@ typedef struct zfs_ecksum_info {
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} zfs_ecksum_info_t;
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} zfs_ecksum_info_t;
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static void
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static void
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update_histogram(uint64_t value_arg, uint8_t *hist, uint32_t *count)
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update_bad_bits(uint64_t value_arg, uint32_t *count)
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{
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{
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size_t i;
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size_t i;
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size_t bits = 0;
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size_t bits = 0;
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@ -789,11 +785,9 @@ update_histogram(uint64_t value_arg, uint8_t *hist, uint32_t *count)
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/* We store the bits in big-endian (largest-first) order */
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/* We store the bits in big-endian (largest-first) order */
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for (i = 0; i < 64; i++) {
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for (i = 0; i < 64; i++) {
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if (value & (1ull << i)) {
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if (value & (1ull << i))
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hist[63 - i] = MAX(hist[63 - i], hist[63 - i] + 1);
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++bits;
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++bits;
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}
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}
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}
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/* update the count of bits changed */
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/* update the count of bits changed */
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*count += bits;
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*count += bits;
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}
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}
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@ -1010,10 +1004,8 @@ annotate_ecksum(nvlist_t *ereport, zio_bad_cksum_t *info,
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offset++;
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offset++;
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}
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}
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update_histogram(set, eip->zei_histogram_set,
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update_bad_bits(set, &eip->zei_range_sets[range]);
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&eip->zei_range_sets[range]);
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update_bad_bits(cleared, &eip->zei_range_clears[range]);
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update_histogram(cleared, eip->zei_histogram_cleared,
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&eip->zei_range_clears[range]);
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}
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}
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/* convert to byte offsets */
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/* convert to byte offsets */
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@ -1049,15 +1041,6 @@ annotate_ecksum(nvlist_t *ereport, zio_bad_cksum_t *info,
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DATA_TYPE_UINT8_ARRAY,
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DATA_TYPE_UINT8_ARRAY,
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inline_size, (uint8_t *)eip->zei_bits_cleared,
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inline_size, (uint8_t *)eip->zei_bits_cleared,
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NULL);
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NULL);
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} else {
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fm_payload_set(ereport,
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FM_EREPORT_PAYLOAD_ZFS_BAD_SET_HISTOGRAM,
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DATA_TYPE_UINT8_ARRAY,
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NBBY * sizeof (uint64_t), eip->zei_histogram_set,
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FM_EREPORT_PAYLOAD_ZFS_BAD_CLEARED_HISTOGRAM,
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DATA_TYPE_UINT8_ARRAY,
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NBBY * sizeof (uint64_t), eip->zei_histogram_cleared,
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NULL);
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}
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}
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return (eip);
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return (eip);
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}
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}
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