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Reduce stack for traverse_visitbp() recursion
During pool import stack overflows may still occur due to the potentially deep recursion of traverse_visitbp(). This is most likely to occur when additional layers are added to the block device stack such as DM multipath. To minimize the stack usage for this call path the following changes were made: 1) Added the keywork 'noinline' to the vdev_*_map_alloc() functions to prevent them from being inlined by gcc. This reduced the stack usage of vdev_raidz_io_start() from 208 to 128 bytes, and vdev_mirror_io_start() from 144 to 128 bytes. 2) The 'saved_poolname' charater array in zfsdev_ioctl() was moved from the stack to the heap. This reduced the stack usage of zfsdev_ioctl() from 368 to 112 bytes. 3) The major saving came from slimming down traverse_visitbp() from from 224 to 144 bytes. Since this function is called recursively the 80 bytes saved per invokation adds up. The following changes were made: a) The 'hard' local variable was replaced by a TD_HARD() macro. b) The 'pd' local variable was replaced by 'td->td_pfd' references. c) The zbookmark_t was moved to the heap. This does cost us an additional memory allocation per recursion by that cost should still be minimal. The cost could be further reduced by adding a dedicated zbookmark_t slab cache. d) The variable declarations in 'if (BP_GET_LEVEL()) { }' were restructured to use the minimum amount of stack. This includes removing the 'cbp' local variable. Overall for the offending use case roughly 1584 of total stack space has been saved. This is enough to avoid overflowing the stack on stock kernels with 8k stacks. See #1778 for additional details. Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Signed-off-by: Ned Bass <bass6@llnl.gov> Closes #1778
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@ -61,6 +61,8 @@ typedef struct traverse_data {
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void *td_arg;
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} traverse_data_t;
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#define TD_HARD(td) (td->td_flags & TRAVERSE_HARD)
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static int traverse_dnode(traverse_data_t *td, const dnode_phys_t *dnp,
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uint64_t objset, uint64_t object);
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static void prefetch_dnode_metadata(traverse_data_t *td, const dnode_phys_t *,
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@ -208,11 +210,8 @@ static int
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traverse_visitbp(traverse_data_t *td, const dnode_phys_t *dnp,
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const blkptr_t *bp, const zbookmark_t *zb)
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{
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zbookmark_t czb;
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int err = 0, lasterr = 0;
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arc_buf_t *buf = NULL;
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prefetch_data_t *pd = td->td_pfd;
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boolean_t hard = td->td_flags & TRAVERSE_HARD;
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boolean_t pause = B_FALSE;
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switch (resume_skip_check(td, dnp, zb)) {
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@ -234,16 +233,17 @@ traverse_visitbp(traverse_data_t *td, const dnode_phys_t *dnp,
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if (bp->blk_birth <= td->td_min_txg)
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return (0);
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if (pd && !pd->pd_exited &&
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((pd->pd_flags & TRAVERSE_PREFETCH_DATA) ||
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if (td->td_pfd && !td->td_pfd->pd_exited &&
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((td->td_pfd->pd_flags & TRAVERSE_PREFETCH_DATA) ||
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BP_GET_TYPE(bp) == DMU_OT_DNODE || BP_GET_LEVEL(bp) > 0)) {
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mutex_enter(&pd->pd_mtx);
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ASSERT(pd->pd_blks_fetched >= 0);
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while (pd->pd_blks_fetched == 0 && !pd->pd_exited)
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cv_wait(&pd->pd_cv, &pd->pd_mtx);
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pd->pd_blks_fetched--;
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cv_broadcast(&pd->pd_cv);
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mutex_exit(&pd->pd_mtx);
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mutex_enter(&td->td_pfd->pd_mtx);
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ASSERT(td->td_pfd->pd_blks_fetched >= 0);
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while (td->td_pfd->pd_blks_fetched == 0 &&
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!td->td_pfd->pd_exited)
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cv_wait(&td->td_pfd->pd_cv, &td->td_pfd->pd_mtx);
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td->td_pfd->pd_blks_fetched--;
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cv_broadcast(&td->td_pfd->pd_cv);
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mutex_exit(&td->td_pfd->pd_mtx);
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}
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if (td->td_flags & TRAVERSE_PRE) {
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@ -259,39 +259,45 @@ traverse_visitbp(traverse_data_t *td, const dnode_phys_t *dnp,
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if (BP_GET_LEVEL(bp) > 0) {
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uint32_t flags = ARC_WAIT;
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int i;
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blkptr_t *cbp;
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int epb = BP_GET_LSIZE(bp) >> SPA_BLKPTRSHIFT;
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int32_t i;
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int32_t epb = BP_GET_LSIZE(bp) >> SPA_BLKPTRSHIFT;
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zbookmark_t *czb;
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err = arc_read(NULL, td->td_spa, bp, arc_getbuf_func, &buf,
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ZIO_PRIORITY_ASYNC_READ, ZIO_FLAG_CANFAIL, &flags, zb);
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if (err != 0)
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return (err);
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cbp = buf->b_data;
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czb = kmem_alloc(sizeof (zbookmark_t), KM_PUSHPAGE);
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for (i = 0; i < epb; i++) {
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SET_BOOKMARK(&czb, zb->zb_objset, zb->zb_object,
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SET_BOOKMARK(czb, zb->zb_objset, zb->zb_object,
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zb->zb_level - 1,
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zb->zb_blkid * epb + i);
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traverse_prefetch_metadata(td, &cbp[i], &czb);
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traverse_prefetch_metadata(td,
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&((blkptr_t *)buf->b_data)[i], czb);
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}
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/* recursively visitbp() blocks below this */
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for (i = 0; i < epb; i++) {
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SET_BOOKMARK(&czb, zb->zb_objset, zb->zb_object,
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SET_BOOKMARK(czb, zb->zb_objset, zb->zb_object,
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zb->zb_level - 1,
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zb->zb_blkid * epb + i);
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err = traverse_visitbp(td, dnp, &cbp[i], &czb);
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err = traverse_visitbp(td, dnp,
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&((blkptr_t *)buf->b_data)[i], czb);
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if (err != 0) {
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if (!hard)
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if (!TD_HARD(td))
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break;
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lasterr = err;
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}
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}
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kmem_free(czb, sizeof (zbookmark_t));
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} else if (BP_GET_TYPE(bp) == DMU_OT_DNODE) {
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uint32_t flags = ARC_WAIT;
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int i;
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int epb = BP_GET_LSIZE(bp) >> DNODE_SHIFT;
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int32_t i;
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int32_t epb = BP_GET_LSIZE(bp) >> DNODE_SHIFT;
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err = arc_read(NULL, td->td_spa, bp, arc_getbuf_func, &buf,
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ZIO_PRIORITY_ASYNC_READ, ZIO_FLAG_CANFAIL, &flags, zb);
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@ -309,7 +315,7 @@ traverse_visitbp(traverse_data_t *td, const dnode_phys_t *dnp,
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err = traverse_dnode(td, &dnp[i], zb->zb_objset,
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zb->zb_blkid * epb + i);
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if (err != 0) {
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if (!hard)
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if (!TD_HARD(td))
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break;
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lasterr = err;
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}
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@ -337,7 +343,7 @@ traverse_visitbp(traverse_data_t *td, const dnode_phys_t *dnp,
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err = traverse_dnode(td, dnp, zb->zb_objset,
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DMU_META_DNODE_OBJECT);
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if (err && hard) {
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if (err && TD_HARD(td)) {
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lasterr = err;
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err = 0;
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}
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@ -346,7 +352,7 @@ traverse_visitbp(traverse_data_t *td, const dnode_phys_t *dnp,
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err = traverse_dnode(td, dnp, zb->zb_objset,
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DMU_USERUSED_OBJECT);
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}
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if (err && hard) {
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if (err && TD_HARD(td)) {
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lasterr = err;
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err = 0;
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}
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@ -369,7 +375,7 @@ post:
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if (pause && td->td_resume != NULL) {
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ASSERT3U(err, ==, ERESTART);
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ASSERT(!hard);
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ASSERT(!TD_HARD(td));
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traverse_pause(td, zb);
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}
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@ -400,13 +406,12 @@ traverse_dnode(traverse_data_t *td, const dnode_phys_t *dnp,
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{
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int j, err = 0, lasterr = 0;
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zbookmark_t czb;
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boolean_t hard = (td->td_flags & TRAVERSE_HARD);
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for (j = 0; j < dnp->dn_nblkptr; j++) {
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SET_BOOKMARK(&czb, objset, object, dnp->dn_nlevels - 1, j);
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err = traverse_visitbp(td, dnp, &dnp->dn_blkptr[j], &czb);
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if (err != 0) {
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if (!hard)
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if (!TD_HARD(td))
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break;
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lasterr = err;
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}
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@ -416,7 +421,7 @@ traverse_dnode(traverse_data_t *td, const dnode_phys_t *dnp,
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SET_BOOKMARK(&czb, objset, object, 0, DMU_SPILL_BLKID);
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err = traverse_visitbp(td, dnp, &dnp->dn_spill, &czb);
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if (err != 0) {
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if (!hard)
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if (!TD_HARD(td))
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return (err);
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lasterr = err;
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}
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@ -498,9 +503,9 @@ traverse_impl(spa_t *spa, dsl_dataset_t *ds, uint64_t objset, blkptr_t *rootbp,
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*/
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ASSERT(resume == NULL || !(flags & TRAVERSE_PREFETCH_DATA));
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td = kmem_alloc(sizeof(traverse_data_t), KM_PUSHPAGE);
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pd = kmem_zalloc(sizeof(prefetch_data_t), KM_PUSHPAGE);
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czb = kmem_alloc(sizeof(zbookmark_t), KM_PUSHPAGE);
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td = kmem_alloc(sizeof (traverse_data_t), KM_PUSHPAGE);
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pd = kmem_zalloc(sizeof (prefetch_data_t), KM_PUSHPAGE);
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czb = kmem_alloc(sizeof (zbookmark_t), KM_PUSHPAGE);
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td->td_spa = spa;
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td->td_objset = objset;
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@ -554,9 +559,9 @@ traverse_impl(spa_t *spa, dsl_dataset_t *ds, uint64_t objset, blkptr_t *rootbp,
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mutex_destroy(&pd->pd_mtx);
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cv_destroy(&pd->pd_cv);
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kmem_free(czb, sizeof(zbookmark_t));
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kmem_free(pd, sizeof(struct prefetch_data));
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kmem_free(td, sizeof(struct traverse_data));
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kmem_free(czb, sizeof (zbookmark_t));
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kmem_free(pd, sizeof (struct prefetch_data));
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kmem_free(td, sizeof (struct traverse_data));
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return (err);
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}
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@ -89,10 +89,14 @@ static const zio_vsd_ops_t vdev_mirror_vsd_ops = {
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static int
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vdev_mirror_pending(vdev_t *vd)
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{
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return avl_numnodes(&vd->vdev_queue.vq_pending_tree);
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return (avl_numnodes(&vd->vdev_queue.vq_pending_tree));
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}
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static mirror_map_t *
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/*
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* Avoid inlining the function to keep vdev_mirror_io_start(), which
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* is this functions only caller, as small as possible on the stack.
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*/
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noinline static mirror_map_t *
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vdev_mirror_map_alloc(zio_t *zio)
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{
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mirror_map_t *mm = NULL;
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@ -106,7 +110,8 @@ vdev_mirror_map_alloc(zio_t *zio)
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c = BP_GET_NDVAS(zio->io_bp);
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mm = kmem_zalloc(offsetof(mirror_map_t, mm_child[c]), KM_PUSHPAGE);
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mm = kmem_zalloc(offsetof(mirror_map_t, mm_child[c]),
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KM_PUSHPAGE);
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mm->mm_children = c;
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mm->mm_replacing = B_FALSE;
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mm->mm_preferred = spa_get_random(c);
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@ -136,7 +141,8 @@ vdev_mirror_map_alloc(zio_t *zio)
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c = vd->vdev_children;
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mm = kmem_zalloc(offsetof(mirror_map_t, mm_child[c]), KM_PUSHPAGE);
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mm = kmem_zalloc(offsetof(mirror_map_t, mm_child[c]),
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KM_PUSHPAGE);
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mm->mm_children = c;
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mm->mm_replacing = (vd->vdev_ops == &vdev_replacing_ops ||
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vd->vdev_ops == &vdev_spare_ops);
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@ -433,8 +433,11 @@ static const zio_vsd_ops_t vdev_raidz_vsd_ops = {
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/*
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* Divides the IO evenly across all child vdevs; usually, dcols is
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* the number of children in the target vdev.
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*
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* Avoid inlining the function to keep vdev_raidz_io_start(), which
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* is this functions only caller, as small as possible on the stack.
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*/
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static raidz_map_t *
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noinline static raidz_map_t *
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vdev_raidz_map_alloc(zio_t *zio, uint64_t unit_shift, uint64_t dcols,
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uint64_t nparity)
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{
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@ -5590,7 +5590,7 @@ zfsdev_ioctl(struct file *filp, unsigned cmd, unsigned long arg)
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uint_t vecnum;
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int error, rc, len, flag = 0;
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const zfs_ioc_vec_t *vec;
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char saved_poolname[MAXNAMELEN];
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char *saved_poolname;
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nvlist_t *innvl = NULL;
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vecnum = cmd - ZFS_IOC_FIRST;
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@ -5599,6 +5599,7 @@ zfsdev_ioctl(struct file *filp, unsigned cmd, unsigned long arg)
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vec = &zfs_ioc_vec[vecnum];
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zc = kmem_zalloc(sizeof (zfs_cmd_t), KM_SLEEP | KM_NODEBUG);
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saved_poolname = kmem_alloc(MAXNAMELEN, KM_SLEEP);
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error = ddi_copyin((void *)arg, zc, sizeof (zfs_cmd_t), flag);
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if (error != 0) {
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@ -5718,6 +5719,7 @@ out:
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(void) tsd_set(zfs_allow_log_key, strdup(saved_poolname));
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}
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kmem_free(saved_poolname, MAXNAMELEN);
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kmem_free(zc, sizeof (zfs_cmd_t));
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return (-error);
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}
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