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|
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved.
* Copyright (c) 2011, 2016 by Delphix. All rights reserved.
* Copyright (c) 2017 Datto Inc.
*/
#include <sys/bpobj.h>
#include <sys/zfs_context.h>
#include <sys/refcount.h>
#include <sys/dsl_pool.h>
#include <sys/zfeature.h>
#include <sys/zap.h>
/*
* Return an empty bpobj, preferably the empty dummy one (dp_empty_bpobj).
*/
uint64_t
bpobj_alloc_empty(objset_t *os, int blocksize, dmu_tx_t *tx)
{
spa_t *spa = dmu_objset_spa(os);
dsl_pool_t *dp = dmu_objset_pool(os);
if (spa_feature_is_enabled(spa, SPA_FEATURE_EMPTY_BPOBJ)) {
if (!spa_feature_is_active(spa, SPA_FEATURE_EMPTY_BPOBJ)) {
ASSERT0(dp->dp_empty_bpobj);
dp->dp_empty_bpobj =
bpobj_alloc(os, SPA_OLD_MAXBLOCKSIZE, tx);
VERIFY(zap_add(os,
DMU_POOL_DIRECTORY_OBJECT,
DMU_POOL_EMPTY_BPOBJ, sizeof (uint64_t), 1,
&dp->dp_empty_bpobj, tx) == 0);
}
spa_feature_incr(spa, SPA_FEATURE_EMPTY_BPOBJ, tx);
ASSERT(dp->dp_empty_bpobj != 0);
return (dp->dp_empty_bpobj);
} else {
return (bpobj_alloc(os, blocksize, tx));
}
}
void
bpobj_decr_empty(objset_t *os, dmu_tx_t *tx)
{
dsl_pool_t *dp = dmu_objset_pool(os);
spa_feature_decr(dmu_objset_spa(os), SPA_FEATURE_EMPTY_BPOBJ, tx);
if (!spa_feature_is_active(dmu_objset_spa(os),
SPA_FEATURE_EMPTY_BPOBJ)) {
VERIFY3U(0, ==, zap_remove(dp->dp_meta_objset,
DMU_POOL_DIRECTORY_OBJECT,
DMU_POOL_EMPTY_BPOBJ, tx));
VERIFY3U(0, ==, dmu_object_free(os, dp->dp_empty_bpobj, tx));
dp->dp_empty_bpobj = 0;
}
}
uint64_t
bpobj_alloc(objset_t *os, int blocksize, dmu_tx_t *tx)
{
int size;
if (spa_version(dmu_objset_spa(os)) < SPA_VERSION_BPOBJ_ACCOUNT)
size = BPOBJ_SIZE_V0;
else if (spa_version(dmu_objset_spa(os)) < SPA_VERSION_DEADLISTS)
size = BPOBJ_SIZE_V1;
else
size = sizeof (bpobj_phys_t);
return (dmu_object_alloc(os, DMU_OT_BPOBJ, blocksize,
DMU_OT_BPOBJ_HDR, size, tx));
}
void
bpobj_free(objset_t *os, uint64_t obj, dmu_tx_t *tx)
{
int64_t i;
bpobj_t bpo;
dmu_object_info_t doi;
int epb;
dmu_buf_t *dbuf = NULL;
ASSERT(obj != dmu_objset_pool(os)->dp_empty_bpobj);
VERIFY3U(0, ==, bpobj_open(&bpo, os, obj));
mutex_enter(&bpo.bpo_lock);
if (!bpo.bpo_havesubobj || bpo.bpo_phys->bpo_subobjs == 0)
goto out;
VERIFY3U(0, ==, dmu_object_info(os, bpo.bpo_phys->bpo_subobjs, &doi));
epb = doi.doi_data_block_size / sizeof (uint64_t);
for (i = bpo.bpo_phys->bpo_num_subobjs - 1; i >= 0; i--) {
uint64_t *objarray;
uint64_t offset, blkoff;
offset = i * sizeof (uint64_t);
blkoff = P2PHASE(i, epb);
if (dbuf == NULL || dbuf->db_offset > offset) {
if (dbuf)
dmu_buf_rele(dbuf, FTAG);
VERIFY3U(0, ==, dmu_buf_hold(os,
bpo.bpo_phys->bpo_subobjs, offset, FTAG, &dbuf, 0));
}
ASSERT3U(offset, >=, dbuf->db_offset);
ASSERT3U(offset, <, dbuf->db_offset + dbuf->db_size);
objarray = dbuf->db_data;
bpobj_free(os, objarray[blkoff], tx);
}
if (dbuf) {
dmu_buf_rele(dbuf, FTAG);
dbuf = NULL;
}
VERIFY3U(0, ==, dmu_object_free(os, bpo.bpo_phys->bpo_subobjs, tx));
out:
mutex_exit(&bpo.bpo_lock);
bpobj_close(&bpo);
VERIFY3U(0, ==, dmu_object_free(os, obj, tx));
}
int
bpobj_open(bpobj_t *bpo, objset_t *os, uint64_t object)
{
dmu_object_info_t doi;
int err;
err = dmu_object_info(os, object, &doi);
if (err)
return (err);
bzero(bpo, sizeof (*bpo));
mutex_init(&bpo->bpo_lock, NULL, MUTEX_DEFAULT, NULL);
ASSERT(bpo->bpo_dbuf == NULL);
ASSERT(bpo->bpo_phys == NULL);
ASSERT(object != 0);
ASSERT3U(doi.doi_type, ==, DMU_OT_BPOBJ);
ASSERT3U(doi.doi_bonus_type, ==, DMU_OT_BPOBJ_HDR);
err = dmu_bonus_hold(os, object, bpo, &bpo->bpo_dbuf);
if (err)
return (err);
bpo->bpo_os = os;
bpo->bpo_object = object;
bpo->bpo_epb = doi.doi_data_block_size >> SPA_BLKPTRSHIFT;
bpo->bpo_havecomp = (doi.doi_bonus_size > BPOBJ_SIZE_V0);
bpo->bpo_havesubobj = (doi.doi_bonus_size > BPOBJ_SIZE_V1);
bpo->bpo_phys = bpo->bpo_dbuf->db_data;
return (0);
}
boolean_t
bpobj_is_open(const bpobj_t *bpo)
{
return (bpo->bpo_object != 0);
}
void
bpobj_close(bpobj_t *bpo)
{
/* Lame workaround for closing a bpobj that was never opened. */
if (bpo->bpo_object == 0)
return;
dmu_buf_rele(bpo->bpo_dbuf, bpo);
if (bpo->bpo_cached_dbuf != NULL)
dmu_buf_rele(bpo->bpo_cached_dbuf, bpo);
bpo->bpo_dbuf = NULL;
bpo->bpo_phys = NULL;
bpo->bpo_cached_dbuf = NULL;
bpo->bpo_object = 0;
mutex_destroy(&bpo->bpo_lock);
}
boolean_t
bpobj_is_empty(bpobj_t *bpo)
{
return (bpo->bpo_phys->bpo_num_blkptrs == 0 &&
(!bpo->bpo_havesubobj || bpo->bpo_phys->bpo_num_subobjs == 0));
}
/*
* A recursive iteration of the bpobjs would be nice here but we run the risk
* of overflowing function stack space. Instead, find each subobj and add it
* to the head of our list so it can be scanned for subjobjs. Like a
* recursive implementation, the "deepest" subobjs will be freed first.
* When a subobj is found to have no additional subojs, free it.
*/
typedef struct bpobj_info {
bpobj_t *bpi_bpo;
/*
* This object is a subobj of bpi_parent,
* at bpi_index in its subobj array.
*/
struct bpobj_info *bpi_parent;
uint64_t bpi_index;
/* How many of our subobj's are left to process. */
uint64_t bpi_unprocessed_subobjs;
/* True after having visited this bpo's directly referenced BPs. */
boolean_t bpi_visited;
list_node_t bpi_node;
} bpobj_info_t;
static bpobj_info_t *
bpi_alloc(bpobj_t *bpo, bpobj_info_t *parent, uint64_t index)
{
bpobj_info_t *bpi = kmem_zalloc(sizeof (bpobj_info_t), KM_SLEEP);
bpi->bpi_bpo = bpo;
bpi->bpi_parent = parent;
bpi->bpi_index = index;
if (bpo->bpo_havesubobj && bpo->bpo_phys->bpo_subobjs != 0) {
bpi->bpi_unprocessed_subobjs = bpo->bpo_phys->bpo_num_subobjs;
}
return (bpi);
}
/*
* Update bpobj and all of its parents with new space accounting.
*/
static void
propagate_space_reduction(bpobj_info_t *bpi, uint64_t freed,
uint64_t comp_freed, uint64_t uncomp_freed, dmu_tx_t *tx)
{
for (; bpi != NULL; bpi = bpi->bpi_parent) {
bpobj_t *p = bpi->bpi_bpo;
ASSERT(dmu_buf_is_dirty(p->bpo_dbuf, tx));
p->bpo_phys->bpo_bytes -= freed;
ASSERT3S(p->bpo_phys->bpo_bytes, >=, 0);
if (p->bpo_havecomp) {
p->bpo_phys->bpo_comp -= comp_freed;
p->bpo_phys->bpo_uncomp -= uncomp_freed;
}
}
}
static int
bpobj_iterate_blkptrs(bpobj_info_t *bpi, bpobj_itor_t func, void *arg,
dmu_tx_t *tx, boolean_t free)
{
int err = 0;
uint64_t freed = 0, comp_freed = 0, uncomp_freed = 0;
dmu_buf_t *dbuf = NULL;
bpobj_t *bpo = bpi->bpi_bpo;
for (int64_t i = bpo->bpo_phys->bpo_num_blkptrs - 1; i >= 0; i--) {
uint64_t offset = i * sizeof (blkptr_t);
uint64_t blkoff = P2PHASE(i, bpo->bpo_epb);
if (dbuf == NULL || dbuf->db_offset > offset) {
if (dbuf)
dmu_buf_rele(dbuf, FTAG);
err = dmu_buf_hold(bpo->bpo_os, bpo->bpo_object, offset,
FTAG, &dbuf, 0);
if (err)
break;
}
ASSERT3U(offset, >=, dbuf->db_offset);
ASSERT3U(offset, <, dbuf->db_offset + dbuf->db_size);
blkptr_t *bparray = dbuf->db_data;
blkptr_t *bp = &bparray[blkoff];
err = func(arg, bp, tx);
if (err)
break;
if (free) {
spa_t *spa = dmu_objset_spa(bpo->bpo_os);
freed += bp_get_dsize_sync(spa, bp);
comp_freed += BP_GET_PSIZE(bp);
uncomp_freed += BP_GET_UCSIZE(bp);
ASSERT(dmu_buf_is_dirty(bpo->bpo_dbuf, tx));
bpo->bpo_phys->bpo_num_blkptrs--;
ASSERT3S(bpo->bpo_phys->bpo_num_blkptrs, >=, 0);
}
}
if (free) {
propagate_space_reduction(bpi, freed, comp_freed,
uncomp_freed, tx);
VERIFY0(dmu_free_range(bpo->bpo_os,
bpo->bpo_object,
bpo->bpo_phys->bpo_num_blkptrs * sizeof (blkptr_t),
DMU_OBJECT_END, tx));
}
if (dbuf) {
dmu_buf_rele(dbuf, FTAG);
dbuf = NULL;
}
return (err);
}
/*
* Given an initial bpo, start by freeing the BPs that are directly referenced
* by that bpo. If the bpo has subobjs, read in its last subobj and push the
* subobj to our stack. By popping items off our stack, eventually we will
* encounter a bpo that has no subobjs. We can free its bpobj_info_t, and if
* requested also free the now-empty bpo from disk and decrement
* its parent's subobj count. We continue popping each subobj from our stack,
* visiting its last subobj until they too have no more subobjs, and so on.
*/
static int
bpobj_iterate_impl(bpobj_t *initial_bpo, bpobj_itor_t func, void *arg,
dmu_tx_t *tx, boolean_t free)
{
list_t stack;
bpobj_info_t *bpi;
int err = 0;
/*
* Create a "stack" for us to work with without worrying about
* stack overflows. Initialize it with the initial_bpo.
*/
list_create(&stack, sizeof (bpobj_info_t),
offsetof(bpobj_info_t, bpi_node));
mutex_enter(&initial_bpo->bpo_lock);
list_insert_head(&stack, bpi_alloc(initial_bpo, NULL, 0));
while ((bpi = list_head(&stack)) != NULL) {
bpobj_t *bpo = bpi->bpi_bpo;
ASSERT3P(bpo, !=, NULL);
ASSERT(MUTEX_HELD(&bpo->bpo_lock));
ASSERT(bpobj_is_open(bpo));
if (free)
dmu_buf_will_dirty(bpo->bpo_dbuf, tx);
if (bpi->bpi_visited == B_FALSE) {
err = bpobj_iterate_blkptrs(bpi, func, arg, tx, free);
bpi->bpi_visited = B_TRUE;
if (err != 0)
break;
}
/*
* We've finished with this bpo's directly-referenced BP's and
* it has no more unprocessed subobjs. We can free its
* bpobj_info_t (unless it is the topmost, initial_bpo).
* If we are freeing from disk, we can also do that.
*/
if (bpi->bpi_unprocessed_subobjs == 0) {
/*
* If there are no entries, there should
* be no bytes.
*/
if (bpobj_is_empty(bpo)) {
ASSERT0(bpo->bpo_phys->bpo_bytes);
ASSERT0(bpo->bpo_phys->bpo_comp);
ASSERT0(bpo->bpo_phys->bpo_uncomp);
}
/* The initial_bpo has no parent and is not closed. */
if (bpi->bpi_parent != NULL) {
if (free) {
bpobj_t *p = bpi->bpi_parent->bpi_bpo;
ASSERT0(bpo->bpo_phys->bpo_num_blkptrs);
ASSERT3U(p->bpo_phys->bpo_num_subobjs,
>, 0);
ASSERT3U(bpi->bpi_index, ==,
p->bpo_phys->bpo_num_subobjs - 1);
ASSERT(dmu_buf_is_dirty(bpo->bpo_dbuf,
tx));
p->bpo_phys->bpo_num_subobjs--;
VERIFY0(dmu_free_range(p->bpo_os,
p->bpo_phys->bpo_subobjs,
bpi->bpi_index * sizeof (uint64_t),
sizeof (uint64_t), tx));
/* eliminate the empty subobj list */
if (bpo->bpo_havesubobj &&
bpo->bpo_phys->bpo_subobjs != 0) {
ASSERT0(bpo->bpo_phys->
bpo_num_subobjs);
err = dmu_object_free(
bpo->bpo_os,
bpo->bpo_phys->bpo_subobjs,
tx);
if (err)
break;
bpo->bpo_phys->bpo_subobjs = 0;
}
err = dmu_object_free(p->bpo_os,
bpo->bpo_object, tx);
if (err)
break;
}
mutex_exit(&bpo->bpo_lock);
bpobj_close(bpo);
kmem_free(bpo, sizeof (bpobj_t));
} else {
mutex_exit(&bpo->bpo_lock);
}
/*
* Finished processing this bpo. Unlock, and free
* our "stack" info.
*/
list_remove_head(&stack);
kmem_free(bpi, sizeof (bpobj_info_t));
} else {
/*
* We have unprocessed subobjs. Process the next one.
*/
ASSERT(bpo->bpo_havecomp);
/* Add the last subobj to stack. */
int64_t i = bpi->bpi_unprocessed_subobjs - 1;
uint64_t offset = i * sizeof (uint64_t);
uint64_t obj_from_sublist;
err = dmu_read(bpo->bpo_os, bpo->bpo_phys->bpo_subobjs,
offset, sizeof (uint64_t), &obj_from_sublist,
DMU_READ_PREFETCH);
if (err)
break;
bpobj_t *sublist = kmem_alloc(sizeof (bpobj_t),
KM_SLEEP);
err = bpobj_open(sublist, bpo->bpo_os,
obj_from_sublist);
if (err)
break;
list_insert_head(&stack, bpi_alloc(sublist, bpi, i));
mutex_enter(&sublist->bpo_lock);
bpi->bpi_unprocessed_subobjs--;
}
}
/*
* Cleanup anything left on the "stack" after we left the loop.
* Every bpo on the stack is locked so we must remember to undo
* that now (in LIFO order).
*/
while ((bpi = list_remove_head(&stack)) != NULL) {
bpobj_t *bpo = bpi->bpi_bpo;
ASSERT(err != 0);
ASSERT3P(bpo, !=, NULL);
mutex_exit(&bpo->bpo_lock);
/* do not free the initial_bpo */
if (bpi->bpi_parent != NULL) {
bpobj_close(bpi->bpi_bpo);
kmem_free(bpi->bpi_bpo, sizeof (bpobj_t));
}
kmem_free(bpi, sizeof (bpobj_info_t));
}
list_destroy(&stack);
return (err);
}
/*
* Iterate and remove the entries. If func returns nonzero, iteration
* will stop and that entry will not be removed.
*/
int
bpobj_iterate(bpobj_t *bpo, bpobj_itor_t func, void *arg, dmu_tx_t *tx)
{
return (bpobj_iterate_impl(bpo, func, arg, tx, B_TRUE));
}
/*
* Iterate the entries. If func returns nonzero, iteration will stop.
*/
int
bpobj_iterate_nofree(bpobj_t *bpo, bpobj_itor_t func, void *arg, dmu_tx_t *tx)
{
return (bpobj_iterate_impl(bpo, func, arg, tx, B_FALSE));
}
/*
* Logically add subobj's contents to the parent bpobj.
*
* In the most general case, this is accomplished in constant time by adding
* a reference to subobj. This case is used when enqueuing a large subobj:
* +--------------+ +--------------+
* | bpobj |----------------------->| subobj list |
* +----+----+----+----+----+ +-----+-----+--+--+
* | bp | bp | bp | bp | bp | | obj | obj | obj |
* +----+----+----+----+----+ +-----+-----+-----+
*
* +--------------+ +--------------+
* | sub-bpobj |----------------------> | subsubobj |
* +----+----+----+----+---------+----+ +-----+-----+--+--------+-----+
* | bp | bp | bp | bp | ... | bp | | obj | obj | ... | obj |
* +----+----+----+----+---------+----+ +-----+-----+-----------+-----+
*
* Result: sub-bpobj added to parent's subobj list.
* +--------------+ +--------------+
* | bpobj |----------------------->| subobj list |
* +----+----+----+----+----+ +-----+-----+--+--+-----+
* | bp | bp | bp | bp | bp | | obj | obj | obj | OBJ |
* +----+----+----+----+----+ +-----+-----+-----+--|--+
* |
* /-----------------------------------------------------/
* v
* +--------------+ +--------------+
* | sub-bpobj |----------------------> | subsubobj |
* +----+----+----+----+---------+----+ +-----+-----+--+--------+-----+
* | bp | bp | bp | bp | ... | bp | | obj | obj | ... | obj |
* +----+----+----+----+---------+----+ +-----+-----+-----------+-----+
*
*
* In a common case, the subobj is small: its bp's and its list of subobj's
* are each stored in a single block. In this case we copy the subobj's
* contents to the parent:
* +--------------+ +--------------+
* | bpobj |----------------------->| subobj list |
* +----+----+----+----+----+ +-----+-----+--+--+
* | bp | bp | bp | bp | bp | | obj | obj | obj |
* +----+----+----+----+----+ +-----+-----+-----+
* ^ ^
* +--------------+ | +--------------+ |
* | sub-bpobj |---------^------------> | subsubobj | ^
* +----+----+----+ | +-----+-----+--+ |
* | BP | BP |-->-->-->-->-/ | OBJ | OBJ |-->-/
* +----+----+ +-----+-----+
*
* Result: subobj destroyed, contents copied to parent:
* +--------------+ +--------------+
* | bpobj |----------------------->| subobj list |
* +----+----+----+----+----+----+----+ +-----+-----+--+--+-----+-----+
* | bp | bp | bp | bp | bp | BP | BP | | obj | obj | obj | OBJ | OBJ |
* +----+----+----+----+----+----+----+ +-----+-----+-----+-----+-----+
*
*
* If the subobj has many BP's but few subobj's, we can copy the sub-subobj's
* but retain the sub-bpobj:
* +--------------+ +--------------+
* | bpobj |----------------------->| subobj list |
* +----+----+----+----+----+ +-----+-----+--+--+
* | bp | bp | bp | bp | bp | | obj | obj | obj |
* +----+----+----+----+----+ +-----+-----+-----+
* ^
* +--------------+ +--------------+ |
* | sub-bpobj |----------------------> | subsubobj | ^
* +----+----+----+----+---------+----+ +-----+-----+--+ |
* | bp | bp | bp | bp | ... | bp | | OBJ | OBJ |-->-/
* +----+----+----+----+---------+----+ +-----+-----+
*
* Result: sub-sub-bpobjs and subobj added to parent's subobj list.
* +--------------+ +--------------+
* | bpobj |-------------------->| subobj list |
* +----+----+----+----+----+ +-----+-----+--+--+-----+-----+------+
* | bp | bp | bp | bp | bp | | obj | obj | obj | OBJ | OBJ | OBJ* |
* +----+----+----+----+----+ +-----+-----+-----+-----+-----+--|---+
* |
* /--------------------------------------------------------------/
* v
* +--------------+
* | sub-bpobj |
* +----+----+----+----+---------+----+
* | bp | bp | bp | bp | ... | bp |
* +----+----+----+----+---------+----+
*/
void
bpobj_enqueue_subobj(bpobj_t *bpo, uint64_t subobj, dmu_tx_t *tx)
{
bpobj_t subbpo;
uint64_t used, comp, uncomp, subsubobjs;
boolean_t copy_subsub = B_TRUE;
boolean_t copy_bps = B_TRUE;
ASSERT(bpobj_is_open(bpo));
ASSERT(subobj != 0);
ASSERT(bpo->bpo_havesubobj);
ASSERT(bpo->bpo_havecomp);
ASSERT(bpo->bpo_object != dmu_objset_pool(bpo->bpo_os)->dp_empty_bpobj);
if (subobj == dmu_objset_pool(bpo->bpo_os)->dp_empty_bpobj) {
bpobj_decr_empty(bpo->bpo_os, tx);
return;
}
VERIFY3U(0, ==, bpobj_open(&subbpo, bpo->bpo_os, subobj));
VERIFY3U(0, ==, bpobj_space(&subbpo, &used, &comp, &uncomp));
if (bpobj_is_empty(&subbpo)) {
/* No point in having an empty subobj. */
bpobj_close(&subbpo);
bpobj_free(bpo->bpo_os, subobj, tx);
return;
}
mutex_enter(&bpo->bpo_lock);
dmu_buf_will_dirty(bpo->bpo_dbuf, tx);
dmu_object_info_t doi;
if (bpo->bpo_phys->bpo_subobjs != 0) {
ASSERT0(dmu_object_info(bpo->bpo_os, bpo->bpo_phys->bpo_subobjs,
&doi));
ASSERT3U(doi.doi_type, ==, DMU_OT_BPOBJ_SUBOBJ);
}
/*
* If subobj has only one block of subobjs, then move subobj's
* subobjs to bpo's subobj list directly. This reduces recursion in
* bpobj_iterate due to nested subobjs.
*/
subsubobjs = subbpo.bpo_phys->bpo_subobjs;
if (subsubobjs != 0) {
VERIFY0(dmu_object_info(bpo->bpo_os, subsubobjs, &doi));
if (doi.doi_max_offset > doi.doi_data_block_size) {
copy_subsub = B_FALSE;
}
}
/*
* If, in addition to having only one block of subobj's, subobj has
* only one block of bp's, then move subobj's bp's to bpo's bp list
* directly. This reduces recursion in bpobj_iterate due to nested
* subobjs.
*/
VERIFY3U(0, ==, dmu_object_info(bpo->bpo_os, subobj, &doi));
if (doi.doi_max_offset > doi.doi_data_block_size || !copy_subsub) {
copy_bps = B_FALSE;
}
if (copy_subsub && subsubobjs != 0) {
dmu_buf_t *subdb;
uint64_t numsubsub = subbpo.bpo_phys->bpo_num_subobjs;
VERIFY0(dmu_buf_hold(bpo->bpo_os, subsubobjs,
0, FTAG, &subdb, 0));
/*
* Make sure that we are not asking dmu_write()
* to write more data than we have in our buffer.
*/
VERIFY3U(subdb->db_size, >=,
numsubsub * sizeof (subobj));
if (bpo->bpo_phys->bpo_subobjs == 0) {
bpo->bpo_phys->bpo_subobjs =
dmu_object_alloc(bpo->bpo_os,
DMU_OT_BPOBJ_SUBOBJ, SPA_OLD_MAXBLOCKSIZE,
DMU_OT_NONE, 0, tx);
}
dmu_write(bpo->bpo_os, bpo->bpo_phys->bpo_subobjs,
bpo->bpo_phys->bpo_num_subobjs * sizeof (subobj),
numsubsub * sizeof (subobj), subdb->db_data, tx);
dmu_buf_rele(subdb, FTAG);
bpo->bpo_phys->bpo_num_subobjs += numsubsub;
dmu_buf_will_dirty(subbpo.bpo_dbuf, tx);
subbpo.bpo_phys->bpo_subobjs = 0;
VERIFY0(dmu_object_free(bpo->bpo_os, subsubobjs, tx));
}
if (copy_bps) {
dmu_buf_t *bps;
uint64_t numbps = subbpo.bpo_phys->bpo_num_blkptrs;
ASSERT(copy_subsub);
VERIFY0(dmu_buf_hold(bpo->bpo_os, subobj,
0, FTAG, &bps, 0));
/*
* Make sure that we are not asking dmu_write()
* to write more data than we have in our buffer.
*/
VERIFY3U(bps->db_size, >=, numbps * sizeof (blkptr_t));
dmu_write(bpo->bpo_os, bpo->bpo_object,
bpo->bpo_phys->bpo_num_blkptrs * sizeof (blkptr_t),
numbps * sizeof (blkptr_t),
bps->db_data, tx);
dmu_buf_rele(bps, FTAG);
bpo->bpo_phys->bpo_num_blkptrs += numbps;
bpobj_close(&subbpo);
VERIFY0(dmu_object_free(bpo->bpo_os, subobj, tx));
} else {
bpobj_close(&subbpo);
if (bpo->bpo_phys->bpo_subobjs == 0) {
bpo->bpo_phys->bpo_subobjs =
dmu_object_alloc(bpo->bpo_os,
DMU_OT_BPOBJ_SUBOBJ, SPA_OLD_MAXBLOCKSIZE,
DMU_OT_NONE, 0, tx);
}
dmu_write(bpo->bpo_os, bpo->bpo_phys->bpo_subobjs,
bpo->bpo_phys->bpo_num_subobjs * sizeof (subobj),
sizeof (subobj), &subobj, tx);
bpo->bpo_phys->bpo_num_subobjs++;
}
bpo->bpo_phys->bpo_bytes += used;
bpo->bpo_phys->bpo_comp += comp;
bpo->bpo_phys->bpo_uncomp += uncomp;
mutex_exit(&bpo->bpo_lock);
}
void
bpobj_enqueue(bpobj_t *bpo, const blkptr_t *bp, dmu_tx_t *tx)
{
blkptr_t stored_bp = *bp;
uint64_t offset;
int blkoff;
blkptr_t *bparray;
ASSERT(bpobj_is_open(bpo));
ASSERT(!BP_IS_HOLE(bp));
ASSERT(bpo->bpo_object != dmu_objset_pool(bpo->bpo_os)->dp_empty_bpobj);
if (BP_IS_EMBEDDED(bp)) {
/*
* The bpobj will compress better without the payload.
*
* Note that we store EMBEDDED bp's because they have an
* uncompressed size, which must be accounted for. An
* alternative would be to add their size to bpo_uncomp
* without storing the bp, but that would create additional
* complications: bpo_uncomp would be inconsistent with the
* set of BP's stored, and bpobj_iterate() wouldn't visit
* all the space accounted for in the bpobj.
*/
bzero(&stored_bp, sizeof (stored_bp));
stored_bp.blk_prop = bp->blk_prop;
stored_bp.blk_birth = bp->blk_birth;
} else if (!BP_GET_DEDUP(bp)) {
/* The bpobj will compress better without the checksum */
bzero(&stored_bp.blk_cksum, sizeof (stored_bp.blk_cksum));
}
/* We never need the fill count. */
stored_bp.blk_fill = 0;
mutex_enter(&bpo->bpo_lock);
offset = bpo->bpo_phys->bpo_num_blkptrs * sizeof (stored_bp);
blkoff = P2PHASE(bpo->bpo_phys->bpo_num_blkptrs, bpo->bpo_epb);
if (bpo->bpo_cached_dbuf == NULL ||
offset < bpo->bpo_cached_dbuf->db_offset ||
offset >= bpo->bpo_cached_dbuf->db_offset +
bpo->bpo_cached_dbuf->db_size) {
if (bpo->bpo_cached_dbuf)
dmu_buf_rele(bpo->bpo_cached_dbuf, bpo);
VERIFY3U(0, ==, dmu_buf_hold(bpo->bpo_os, bpo->bpo_object,
offset, bpo, &bpo->bpo_cached_dbuf, 0));
}
dmu_buf_will_dirty(bpo->bpo_cached_dbuf, tx);
bparray = bpo->bpo_cached_dbuf->db_data;
bparray[blkoff] = stored_bp;
dmu_buf_will_dirty(bpo->bpo_dbuf, tx);
bpo->bpo_phys->bpo_num_blkptrs++;
bpo->bpo_phys->bpo_bytes +=
bp_get_dsize_sync(dmu_objset_spa(bpo->bpo_os), bp);
if (bpo->bpo_havecomp) {
bpo->bpo_phys->bpo_comp += BP_GET_PSIZE(bp);
bpo->bpo_phys->bpo_uncomp += BP_GET_UCSIZE(bp);
}
mutex_exit(&bpo->bpo_lock);
}
struct space_range_arg {
spa_t *spa;
uint64_t mintxg;
uint64_t maxtxg;
uint64_t used;
uint64_t comp;
uint64_t uncomp;
};
/* ARGSUSED */
static int
space_range_cb(void *arg, const blkptr_t *bp, dmu_tx_t *tx)
{
struct space_range_arg *sra = arg;
if (bp->blk_birth > sra->mintxg && bp->blk_birth <= sra->maxtxg) {
if (dsl_pool_sync_context(spa_get_dsl(sra->spa)))
sra->used += bp_get_dsize_sync(sra->spa, bp);
else
sra->used += bp_get_dsize(sra->spa, bp);
sra->comp += BP_GET_PSIZE(bp);
sra->uncomp += BP_GET_UCSIZE(bp);
}
return (0);
}
int
bpobj_space(bpobj_t *bpo, uint64_t *usedp, uint64_t *compp, uint64_t *uncompp)
{
ASSERT(bpobj_is_open(bpo));
mutex_enter(&bpo->bpo_lock);
*usedp = bpo->bpo_phys->bpo_bytes;
if (bpo->bpo_havecomp) {
*compp = bpo->bpo_phys->bpo_comp;
*uncompp = bpo->bpo_phys->bpo_uncomp;
mutex_exit(&bpo->bpo_lock);
return (0);
} else {
mutex_exit(&bpo->bpo_lock);
return (bpobj_space_range(bpo, 0, UINT64_MAX,
usedp, compp, uncompp));
}
}
/*
* Return the amount of space in the bpobj which is:
* mintxg < blk_birth <= maxtxg
*/
int
bpobj_space_range(bpobj_t *bpo, uint64_t mintxg, uint64_t maxtxg,
uint64_t *usedp, uint64_t *compp, uint64_t *uncompp)
{
struct space_range_arg sra = { 0 };
int err;
ASSERT(bpobj_is_open(bpo));
/*
* As an optimization, if they want the whole txg range, just
* get bpo_bytes rather than iterating over the bps.
*/
if (mintxg < TXG_INITIAL && maxtxg == UINT64_MAX && bpo->bpo_havecomp)
return (bpobj_space(bpo, usedp, compp, uncompp));
sra.spa = dmu_objset_spa(bpo->bpo_os);
sra.mintxg = mintxg;
sra.maxtxg = maxtxg;
err = bpobj_iterate_nofree(bpo, space_range_cb, &sra, NULL);
*usedp = sra.used;
*compp = sra.comp;
*uncompp = sra.uncomp;
return (err);
}
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