diff options
author | Brian Atkinson <[email protected]> | 2021-11-09 12:51:33 -0700 |
---|---|---|
committer | GitHub <[email protected]> | 2021-11-09 12:51:33 -0700 |
commit | 345196be182ad6efe07ea21372117243ba6d7910 (patch) | |
tree | c6d2ea022a463ef0f0bf6019e25bd65ffc8b0b97 /module/zfs/vdev_raidz.c | |
parent | 453c63e9b74cea42d45e0bd30c0771f98a7ce60d (diff) |
Single IO issue for raidz writes with skip sector
In order to reduce contention on the vq_lock, optional skip sectors
for Raidz writes can be placed into a single IO request. This is done by
padding out the linear ABD for a parity column to contain the skip
sector and by creating gang ABD to contain the data and skip sector for
data columns.
The vdev_raidz_map_alloc() function now contains specific functions for
both reads and write to allocate the ABD's that will be issued down to
the VDEV chldren.
Reviewed-by: Brian Behlendorf <[email protected]>
Reviewed-by: Alexander Motin <[email protected]>
Reviewed-By: Mark Maybee <[email protected]>
Signed-off-by: Brian Atkinson <[email protected]>
Closes #12333
Diffstat (limited to 'module/zfs/vdev_raidz.c')
-rw-r--r-- | module/zfs/vdev_raidz.c | 172 |
1 files changed, 135 insertions, 37 deletions
diff --git a/module/zfs/vdev_raidz.c b/module/zfs/vdev_raidz.c index 1feebf708..7e7202ec1 100644 --- a/module/zfs/vdev_raidz.c +++ b/module/zfs/vdev_raidz.c @@ -174,6 +174,114 @@ const zio_vsd_ops_t vdev_raidz_vsd_ops = { .vsd_free = vdev_raidz_map_free_vsd, }; +static void +vdev_raidz_map_alloc_write(zio_t *zio, raidz_map_t *rm, uint64_t ashift) +{ + int c; + int nwrapped = 0; + uint64_t off = 0; + raidz_row_t *rr = rm->rm_row[0]; + + ASSERT3U(zio->io_type, ==, ZIO_TYPE_WRITE); + ASSERT3U(rm->rm_nrows, ==, 1); + + /* + * Pad any parity columns with additional space to account for skip + * sectors. + */ + if (rm->rm_skipstart < rr->rr_firstdatacol) { + ASSERT0(rm->rm_skipstart); + nwrapped = rm->rm_nskip; + } else if (rr->rr_scols < (rm->rm_skipstart + rm->rm_nskip)) { + nwrapped = + (rm->rm_skipstart + rm->rm_nskip) % rr->rr_scols; + } + + /* + * Optional single skip sectors (rc_size == 0) will be handled in + * vdev_raidz_io_start_write(). + */ + int skipped = rr->rr_scols - rr->rr_cols; + + /* Allocate buffers for the parity columns */ + for (c = 0; c < rr->rr_firstdatacol; c++) { + raidz_col_t *rc = &rr->rr_col[c]; + + /* + * Parity columns will pad out a linear ABD to account for + * the skip sector. A linear ABD is used here because + * parity calculations use the ABD buffer directly to calculate + * parity. This avoids doing a memcpy back to the ABD after the + * parity has been calculated. By issuing the parity column + * with the skip sector we can reduce contention on the child + * VDEV queue locks (vq_lock). + */ + if (c < nwrapped) { + rc->rc_abd = abd_alloc_linear( + rc->rc_size + (1ULL << ashift), B_FALSE); + abd_zero_off(rc->rc_abd, rc->rc_size, 1ULL << ashift); + skipped++; + } else { + rc->rc_abd = abd_alloc_linear(rc->rc_size, B_FALSE); + } + } + + for (off = 0; c < rr->rr_cols; c++) { + raidz_col_t *rc = &rr->rr_col[c]; + abd_t *abd = abd_get_offset_struct(&rc->rc_abdstruct, + zio->io_abd, off, rc->rc_size); + + /* + * Generate I/O for skip sectors to improve aggregation + * continuity. We will use gang ABD's to reduce contention + * on the child VDEV queue locks (vq_lock) by issuing + * a single I/O that contains the data and skip sector. + * + * It is important to make sure that rc_size is not updated + * even though we are adding a skip sector to the ABD. When + * calculating the parity in vdev_raidz_generate_parity_row() + * the rc_size is used to iterate through the ABD's. We can + * not have zero'd out skip sectors used for calculating + * parity for raidz, because those same sectors are not used + * during reconstruction. + */ + if (c >= rm->rm_skipstart && skipped < rm->rm_nskip) { + rc->rc_abd = abd_alloc_gang(); + abd_gang_add(rc->rc_abd, abd, B_TRUE); + abd_gang_add(rc->rc_abd, + abd_get_zeros(1ULL << ashift), B_TRUE); + skipped++; + } else { + rc->rc_abd = abd; + } + off += rc->rc_size; + } + + ASSERT3U(off, ==, zio->io_size); + ASSERT3S(skipped, ==, rm->rm_nskip); +} + +static void +vdev_raidz_map_alloc_read(zio_t *zio, raidz_map_t *rm) +{ + int c; + raidz_row_t *rr = rm->rm_row[0]; + + ASSERT3U(rm->rm_nrows, ==, 1); + + /* Allocate buffers for the parity columns */ + for (c = 0; c < rr->rr_firstdatacol; c++) + rr->rr_col[c].rc_abd = + abd_alloc_linear(rr->rr_col[c].rc_size, B_FALSE); + + for (uint64_t off = 0; c < rr->rr_cols; c++) { + raidz_col_t *rc = &rr->rr_col[c]; + rc->rc_abd = abd_get_offset_struct(&rc->rc_abdstruct, + zio->io_abd, off, rc->rc_size); + off += rc->rc_size; + } +} + /* * Divides the IO evenly across all child vdevs; usually, dcols is * the number of children in the target vdev. @@ -287,17 +395,6 @@ vdev_raidz_map_alloc(zio_t *zio, uint64_t ashift, uint64_t dcols, rm->rm_nskip = roundup(tot, nparity + 1) - tot; rm->rm_skipstart = bc; - for (c = 0; c < rr->rr_firstdatacol; c++) - rr->rr_col[c].rc_abd = - abd_alloc_linear(rr->rr_col[c].rc_size, B_FALSE); - - for (uint64_t off = 0; c < acols; c++) { - raidz_col_t *rc = &rr->rr_col[c]; - rc->rc_abd = abd_get_offset_struct(&rc->rc_abdstruct, - zio->io_abd, off, rc->rc_size); - off += rc->rc_size; - } - /* * If all data stored spans all columns, there's a danger that parity * will always be on the same device and, since parity isn't read @@ -333,6 +430,12 @@ vdev_raidz_map_alloc(zio_t *zio, uint64_t ashift, uint64_t dcols, rm->rm_skipstart = 1; } + if (zio->io_type == ZIO_TYPE_WRITE) { + vdev_raidz_map_alloc_write(zio, rm, ashift); + } else { + vdev_raidz_map_alloc_read(zio, rm); + } + /* init RAIDZ parity ops */ rm->rm_ops = vdev_raidz_math_get_ops(); @@ -1482,6 +1585,7 @@ vdev_raidz_child_done(zio_t *zio) { raidz_col_t *rc = zio->io_private; + ASSERT3P(rc->rc_abd, !=, NULL); rc->rc_error = zio->io_error; rc->rc_tried = 1; rc->rc_skipped = 0; @@ -1525,40 +1629,34 @@ vdev_raidz_io_start_write(zio_t *zio, raidz_row_t *rr, uint64_t ashift) { vdev_t *vd = zio->io_vd; raidz_map_t *rm = zio->io_vsd; - int c, i; vdev_raidz_generate_parity_row(rm, rr); - for (int c = 0; c < rr->rr_cols; c++) { + for (int c = 0; c < rr->rr_scols; c++) { raidz_col_t *rc = &rr->rr_col[c]; - if (rc->rc_size == 0) - continue; + vdev_t *cvd = vd->vdev_child[rc->rc_devidx]; /* Verify physical to logical translation */ vdev_raidz_io_verify(vd, rr, c); - zio_nowait(zio_vdev_child_io(zio, NULL, - vd->vdev_child[rc->rc_devidx], rc->rc_offset, - rc->rc_abd, rc->rc_size, zio->io_type, zio->io_priority, - 0, vdev_raidz_child_done, rc)); - } - - /* - * Generate optional I/Os for skip sectors to improve aggregation - * contiguity. - */ - for (c = rm->rm_skipstart, i = 0; i < rm->rm_nskip; c++, i++) { - ASSERT(c <= rr->rr_scols); - if (c == rr->rr_scols) - c = 0; - - raidz_col_t *rc = &rr->rr_col[c]; - vdev_t *cvd = vd->vdev_child[rc->rc_devidx]; - - zio_nowait(zio_vdev_child_io(zio, NULL, cvd, - rc->rc_offset + rc->rc_size, NULL, 1ULL << ashift, - zio->io_type, zio->io_priority, - ZIO_FLAG_NODATA | ZIO_FLAG_OPTIONAL, NULL, NULL)); + if (rc->rc_size > 0) { + ASSERT3P(rc->rc_abd, !=, NULL); + zio_nowait(zio_vdev_child_io(zio, NULL, cvd, + rc->rc_offset, rc->rc_abd, + abd_get_size(rc->rc_abd), zio->io_type, + zio->io_priority, 0, vdev_raidz_child_done, rc)); + } else { + /* + * Generate optional write for skip sector to improve + * aggregation contiguity. + */ + ASSERT3P(rc->rc_abd, ==, NULL); + zio_nowait(zio_vdev_child_io(zio, NULL, cvd, + rc->rc_offset, NULL, 1ULL << ashift, + zio->io_type, zio->io_priority, + ZIO_FLAG_NODATA | ZIO_FLAG_OPTIONAL, NULL, + NULL)); + } } } |