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Backfill metadnode more intelligently
Only attempt to backfill lower metadnode object numbers if at least 4096 objects have been freed since the last rescan, and at most once per transaction group. This avoids a pathology in dmu_object_alloc() that caused O(N^2) behavior for create-heavy workloads and substantially improves object creation rates. As summarized by @mahrens in #4636: "Normally, the object allocator simply checks to see if the next object is available. The slow calls happened when dmu_object_alloc() checks to see if it can backfill lower object numbers. This happens every time we move on to a new L1 indirect block (i.e. every 32 * 128 = 4096 objects). When re-checking lower object numbers, we use the on-disk fill count (blkptr_t:blk_fill) to quickly skip over indirect blocks that don’t have enough free dnodes (defined as an L2 with at least 393,216 of 524,288 dnodes free). Therefore, we may find that a block of dnodes has a low (or zero) fill count, and yet we can’t allocate any of its dnodes, because they've been allocated in memory but not yet written to disk. In this case we have to hold each of the dnodes and then notice that it has been allocated in memory. The end result is that allocating N objects in the same TXG can require CPU usage proportional to N^2." Add a tunable dmu_rescan_dnode_threshold to define the number of objects that must be freed before a rescan is performed. Don't bother to export this as a module option because testing doesn't show a compelling reason to change it. The vast majority of the performance gain comes from limit the rescan to at most once per TXG. Signed-off-by: Ned Bass <bass6@llnl.gov> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov>
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@ -106,6 +106,8 @@ struct objset {
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zil_header_t os_zil_header;
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zil_header_t os_zil_header;
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list_t os_synced_dnodes;
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list_t os_synced_dnodes;
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uint64_t os_flags;
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uint64_t os_flags;
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uint64_t os_freed_dnodes;
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boolean_t os_rescan_dnodes;
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/* Protected by os_obj_lock */
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/* Protected by os_obj_lock */
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kmutex_t os_obj_lock;
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kmutex_t os_obj_lock;
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@ -36,20 +36,22 @@ dmu_object_alloc(objset_t *os, dmu_object_type_t ot, int blocksize,
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dmu_object_type_t bonustype, int bonuslen, dmu_tx_t *tx)
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dmu_object_type_t bonustype, int bonuslen, dmu_tx_t *tx)
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{
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{
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uint64_t object;
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uint64_t object;
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uint64_t L2_dnode_count = DNODES_PER_BLOCK <<
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uint64_t L1_dnode_count = DNODES_PER_BLOCK <<
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(DMU_META_DNODE(os)->dn_indblkshift - SPA_BLKPTRSHIFT);
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(DMU_META_DNODE(os)->dn_indblkshift - SPA_BLKPTRSHIFT);
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dnode_t *dn = NULL;
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dnode_t *dn = NULL;
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int restarted = B_FALSE;
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mutex_enter(&os->os_obj_lock);
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mutex_enter(&os->os_obj_lock);
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for (;;) {
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for (;;) {
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object = os->os_obj_next;
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object = os->os_obj_next;
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/*
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/*
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* Each time we polish off an L2 bp worth of dnodes
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* Each time we polish off a L1 bp worth of dnodes (2^12
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* (2^13 objects), move to another L2 bp that's still
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* objects), move to another L1 bp that's still reasonably
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* reasonably sparse (at most 1/4 full). Look from the
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* sparse (at most 1/4 full). Look from the beginning at most
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* beginning once, but after that keep looking from here.
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* once per txg, but after that keep looking from here.
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* If we can't find one, just keep going from here.
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* os_scan_dnodes is set during txg sync if enough objects
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* have been freed since the previous rescan to justify
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* backfilling again. If we can't find a suitable block, just
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* keep going from here.
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*
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*
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* Note that dmu_traverse depends on the behavior that we use
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* Note that dmu_traverse depends on the behavior that we use
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* multiple blocks of the dnode object before going back to
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* multiple blocks of the dnode object before going back to
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@ -57,12 +59,19 @@ dmu_object_alloc(objset_t *os, dmu_object_type_t ot, int blocksize,
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* that property or find another solution to the issues
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* that property or find another solution to the issues
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* described in traverse_visitbp.
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* described in traverse_visitbp.
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*/
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*/
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if (P2PHASE(object, L2_dnode_count) == 0) {
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uint64_t offset = restarted ? object << DNODE_SHIFT : 0;
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if (P2PHASE(object, L1_dnode_count) == 0) {
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int error = dnode_next_offset(DMU_META_DNODE(os),
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uint64_t offset;
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int error;
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if (os->os_rescan_dnodes) {
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offset = 0;
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os->os_rescan_dnodes = B_FALSE;
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} else {
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offset = object << DNODE_SHIFT;
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}
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error = dnode_next_offset(DMU_META_DNODE(os),
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DNODE_FIND_HOLE,
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DNODE_FIND_HOLE,
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&offset, 2, DNODES_PER_BLOCK >> 2, 0);
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&offset, 2, DNODES_PER_BLOCK >> 2, 0);
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restarted = B_TRUE;
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if (error == 0)
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if (error == 0)
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object = offset >> DNODE_SHIFT;
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object = offset >> DNODE_SHIFT;
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}
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}
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@ -68,6 +68,13 @@ krwlock_t os_lock;
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*/
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*/
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int dmu_find_threads = 0;
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int dmu_find_threads = 0;
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/*
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* Backfill lower metadnode objects after this many have been freed.
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* Backfilling negatively impacts object creation rates, so only do it
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* if there are enough holes to fill.
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*/
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int dmu_rescan_dnode_threshold = 1 << DN_MAX_INDBLKSHIFT;
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static void dmu_objset_find_dp_cb(void *arg);
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static void dmu_objset_find_dp_cb(void *arg);
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void
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void
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@ -1152,6 +1159,13 @@ dmu_objset_sync(objset_t *os, zio_t *pio, dmu_tx_t *tx)
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if (dr->dr_zio)
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if (dr->dr_zio)
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zio_nowait(dr->dr_zio);
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zio_nowait(dr->dr_zio);
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}
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}
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/* Enable dnode backfill if enough objects have been freed. */
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if (os->os_freed_dnodes >= dmu_rescan_dnode_threshold) {
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os->os_rescan_dnodes = B_TRUE;
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os->os_freed_dnodes = 0;
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}
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/*
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/*
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* Free intent log blocks up to this tx.
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* Free intent log blocks up to this tx.
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*/
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*/
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@ -682,6 +682,7 @@ dnode_sync(dnode_t *dn, dmu_tx_t *tx)
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}
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}
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if (freeing_dnode) {
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if (freeing_dnode) {
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dn->dn_objset->os_freed_dnodes++;
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dnode_sync_free(dn, tx);
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dnode_sync_free(dn, tx);
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return;
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return;
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}
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}
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