我的书签
添加书签
移除书签本文基于MySQL Community 8.0.23 Version
通过之前 InnoDB之UNDO LOG介绍这篇文章的介绍,我们已经基本明白了undo log的整个生命周期是怎样的,但是其中对于具体undo log是如何purge的没有进行分析更深入的介绍。
具体的,只介绍到purge undo log record时主要分为两种情况:清理TRX_UNDO_DEL_MARK_REC记录或者清理TRX_UNDO_UPD_EXIST_REC记录;但是没有介绍如何对这两种记录进行清理。今天这篇文章我们就主要介绍一下innodb是如何对这两种记录进行清理的。
清理undo log record的入口函数是row_purge_record(),在这个函数中分别对 undo log record type为TRX_UNDO_DEL_MARK_REC和TRX_UNDO_UPD_EXIST_REC 完成清理,即可完成对旧索引记录的清理。
那么下面分别介绍一下这两种undo log record是如何进行清理的。
TRX_UNDO_DEL_MARK_REC
TRX_UNDO_DEL_MARK_REC类型的undo log record的入口函数为row_purge_del_mark()将所有的聚集索引与二级索引记录都清理掉,其具体流程如下:
static MY_ATTRIBUTE((warn_unused_result)) bool row_purge_del_mark(purge_node_t *node) /*!< in/out: row purge node */{.../** 依次遍历二级索引,挨个删除其记录 */while (node->index != NULL) {/* 跳过损坏的二级索引 */dict_table_skip_corrupt_index(node->index);row_purge_skip_uncommitted_virtual_index(node->index);if (!node->index) {break;}if (node->index->type != DICT_FTS) {/** 构造二级索引的entry */dtuple_t *entry = row_build_index_entry_low(node->row, NULL, node->index,heap, ROW_BUILD_FOR_PURGE);/** 从此二级索引中删除此entry */row_purge_remove_sec_if_poss(node, node->index, entry);mem_heap_empty(heap);}node->index = node->index->next();}.../** 清理聚集索引 */return (row_purge_remove_clust_if_poss(node));}
从上面的row_purge_del_mark()具体实现不难看出,主要清理逻辑都在row_purge_remove_sec_if_poss()与row_purge_remove_clust_if_poss()中,所以依次介绍这两个函数的实现
row_purge_remove_sec_if_poss():
void row_purge_remove_sec_if_poss(purge_node_t *node, /*!< in: row purge node */dict_index_t *index, /*!< in: index */const dtuple_t *entry) /*!< in: index entry */{...if (!entry) {/* 如果在这个索引创建之前就写入了这个undo log,那么就可能由于undo log中缺少某些 field 而导致获取不到 entry。 */return;}/** 从二级索引的 leaf page 上删除此 entry */if (row_purge_remove_sec_if_poss_leaf(node, index, entry)) {return;}retry:/** 通过修改索引树来删除 entry */success = row_purge_remove_sec_if_poss_tree(node, index, entry);/* The delete operation may fail if we have littlefile space left: TODO: easiest to crash the databaseand restart with more file space */if (!success && n_tries < BTR_CUR_RETRY_DELETE_N_TIMES) {n_tries++;os_thread_sleep(BTR_CUR_RETRY_SLEEP_TIME);goto retry;}ut_a(success);}/**====================row_purge_remove_sec_if_poss_leaf========================*/static MY_ATTRIBUTE((warn_unused_result)) bool row_purge_remove_sec_if_poss_leaf(purge_node_t *node, /*!< in: row purge node */dict_index_t *index, /*!< in: index */const dtuple_t *entry) /*!< in: index entry */{.../** 从此二级索引树上查找此 entry 的位置 */search_result = row_search_index_entry(index, entry, mode, &pcur, &mtr);...switch (search_result) {case ROW_FOUND:/* 在尝试purge之前此entry满足下列条件其一就可删除:1. 从具体索引上回查主键,查不到主键。2. 没有更老的版本的数据*/if (row_purge_poss_sec(node, index, entry)) {btr_cur_t *btr_cur = btr_pcur_get_btr_cur(&pcur);...goto func_exit_no_pcur;}.../** 从此二级索引乐观删除此数据 */if (!btr_cur_optimistic_delete(btr_cur, 0, &mtr)) {/* The index entry could not be deleted. */success = false;}}/* fall through (the index entry is still needed,or the deletion succeeded) */case ROW_NOT_DELETED_REF:/* The index entry is still needed. */case ROW_BUFFERED:/* The deletion was buffered. */case ROW_NOT_FOUND:/* The index entry does not exist, nothing to do. */btr_pcur_close(&pcur);func_exit_no_pcur:mtr_commit(&mtr);return (success);}ut_error;return (false);}/**===========btr_cur_optimistic_delete=============*/ibool btr_cur_optimistic_delete_func(btr_cur_t *cursor, /*!< in: cursor on leaf page, on the record todelete; cursor stays valid: if deletionsucceeds, on function exit it points to thesuccessor of the deleted record */#ifdef UNIV_DEBUGulint flags, /*!< in: BTR_CREATE_FLAG or 0 */#endif /* UNIV_DEBUG */mtr_t *mtr) /*!< in: mtr; if this function returnsTRUE on a leaf page of a secondaryindex, the mtr must be committedbefore latching any further pages */{.../* This is intended only for leaf page deletions *//** 获取 pcursor 所在的 block */block = btr_cur_get_block(cursor);.../** 获取 record 及其 offset */rec = btr_cur_get_rec(cursor);offsets =rec_get_offsets(rec, cursor->index, offsets, ULINT_UNDEFINED, &heap);.../** 如果为 true 说明 record 都在此page中,乐观直接删除即可;如果为false,则可能涉及到索引树的变化以及 blob 等数据,需要悲观删除。*/if (no_compress_needed) {.../** 从 AHI hash 中删除此 record */btr_search_update_hash_on_delete(cursor);/** 从索引页上删除此 record */if (page_zip) {...page_cur_delete_rec(btr_cur_get_page_cur(cursor), cursor->index, offsets,mtr);...} else {...page_cur_delete_rec(btr_cur_get_page_cur(cursor), cursor->index, offsets,mtr);...}} else {/* 预取siblings block,为悲观删除做准备 */btr_cur_prefetch_siblings(block);}if (UNIV_LIKELY_NULL(heap)) {mem_heap_free(heap);}return (no_compress_needed);}/**===========row_purge_remove_sec_if_poss_tree=============*/static MY_ATTRIBUTE((warn_unused_result)) iboolrow_purge_remove_sec_if_poss_tree(purge_node_t *node, /*!< in: row purge node */dict_index_t *index, /*!< in: index */const dtuple_t *entry) /*!< in: index entry */{.../** 从此二级索引树上查找此 entry 的位置 */search_result = row_search_index_entry(index, entry, BTR_MODIFY_TREE | BTR_LATCH_FOR_DELETE, &pcur, &mtr);...btr_cur = btr_pcur_get_btr_cur(&pcur);/* 在尝试purge之前此entry满足下列条件其一就可删除:1. 从具体索引上回查主键,查不到主键。2. 没有更老的版本的数据*/if (row_purge_poss_sec(node, index, entry)) {...goto func_exit;}/** 悲观删除此 entry。 */btr_cur_pessimistic_delete(&err, FALSE, btr_cur, 0, false, 0, node->undo_no,node->rec_type, &mtr);...}}...return (success);}/**===========btr_cur_pessimistic_delete=============*/ibool btr_cur_pessimistic_delete(dberr_t *err, /*!< out: DB_SUCCESS or DB_OUT_OF_FILE_SPACE;the latter may occur because we may haveto update node pointers on upper levels,and in the case of variable length keysthese may actually grow in size */ibool has_reserved_extents, /*!< in: TRUE if thecaller has already reserved enough freeextents so that he knows that the operationwill succeed */btr_cur_t *cursor, /*!< in: cursor on the record to delete;if compression does not occur, the cursorstays valid: it points to successor ofdeleted record on function exit */ulint flags, /*!< in: BTR_CREATE_FLAG or 0 */bool rollback, /*!< in: performing rollback? */trx_id_t trx_id, /*!< in: the current transaction id. */undo_no_t undo_no,/*!< in: the undo number within thecurrent trx, used for rollback to savepointfor an LOB. */ulint rec_type,/*!< in: undo record type. */mtr_t *mtr) /*!< in: mtr */{.../** 获取此 entry 相关信息 */block = btr_cur_get_block(cursor);page = buf_block_get_frame(block);index = btr_cur_get_index(cursor);.../** 获取 将要删除的 record 及 offset 等信息 */rec = btr_cur_get_rec(cursor);...offsets = rec_get_offsets(rec, index, NULL, ULINT_UNDEFINED, &heap);/** 释放 extern 数据,包括 blob 等。 */if (rec_offs_any_extern(offsets)) {lob::BtrContext btr_ctx(mtr, NULL, index, rec, offsets, block);btr_ctx.free_externally_stored_fields(trx_id, undo_no, rollback, rec_type);...}/** 如果此 page 中只有这一条 record,并且此 page 不是 root page;那么需要将此 page 删除掉*/if (UNIV_UNLIKELY(page_get_n_recs(page) < 2) &&UNIV_UNLIKELY(dict_index_get_page(index) != block->page.id.page_no())) {/* If there is only one record, drop the whole page inbtr_discard_page, if this is not the root page */btr_discard_page(cursor, mtr);ret = TRUE;goto return_after_reservations;}.../** 获取此 page 在 B 树中的层高。 */level = btr_page_get_level(page, mtr);/** 如果层高大于0,并且此 rec 是 page 上最小的 rec需要处理下面三种情况:*/if (level > 0 &&UNIV_UNLIKELY(rec == page_rec_get_next(page_get_infimum_rec(page)))) {rec_t *next_rec = page_rec_get_next(rec);if (btr_page_get_prev(page, mtr) == FIL_NULL) {/** 此page为最左边的page,那么需要更新 B 树的最小rec *//* If we delete the leftmost node pointer on anon-leaf level, we must mark the new leftmost nodepointer as the predefined minimum record */...btr_set_min_rec_mark(next_rec, mtr);} else if (dict_index_is_spatial(index)) {/** 如果是R树,则需要更新parent page *//* For rtree, if delete the leftmost node pointer,we need to update parent page. */...rtr_page_get_father_block(NULL, heap, index, block, mtr, NULL,&father_cursor);offsets = rec_get_offsets(btr_cur_get_rec(&father_cursor), index, NULL,ULINT_UNDEFINED, &heap);father_rec = btr_cur_get_rec(&father_cursor);rtr_read_mbr(rec_get_nth_field(father_rec, offsets, 0, &len),&father_mbr);upd_ret = rtr_update_mbr_field(&father_cursor, offsets, NULL, page,&father_mbr, next_rec, mtr);...} else {/* Otherwise, if we delete the leftmost node pointeron a page, we have to change the parent node pointerso that it is equal to the new leftmost node pointeron the page */btr_node_ptr_delete(index, block, mtr);dtuple_t *node_ptr = dict_index_build_node_ptr(index, next_rec, block->page.id.page_no(), heap, level);btr_insert_on_non_leaf_level(flags, index, level + 1, node_ptr, mtr);ut_d(parent_latched = true);}}/** 从 AHI hash 中删除此 rec */btr_search_update_hash_on_delete(cursor);/** 从此 page 上删除此 rec*/page_cur_delete_rec(btr_cur_get_page_cur(cursor), index, offsets, mtr);return_after_reservations:*err = DB_SUCCESS;...DBUG_RETURN(ret);}
综上,我们就知道从二级索引上清理需要进行那些操作了。
row_purge_remove_clust_if_poss():
static MY_ATTRIBUTE((warn_unused_result)) bool row_purge_remove_clust_if_poss(purge_node_t *node) /*!< in/out: row purge node */{/** 尝试仅从叶子节点上删除此 rec */if (row_purge_remove_clust_if_poss_low(node, BTR_MODIFY_LEAF)) {return (true);}/** 从整个B树中删除此 rec */for (ulint n_tries = 0; n_tries < BTR_CUR_RETRY_DELETE_N_TIMES; n_tries++) {if (row_purge_remove_clust_if_poss_low(node, BTR_MODIFY_TREE | BTR_LATCH_FOR_DELETE)) {return (true);}os_thread_sleep(BTR_CUR_RETRY_SLEEP_TIME);}return (false);}/**===========row_purge_remove_clust_if_poss_low=============*/static MY_ATTRIBUTE((warn_unused_result)) bool row_purge_remove_clust_if_poss_low(purge_node_t *node, /*!< in/out: row purge node */ulint mode) /*!< in: BTR_MODIFY_LEAF or BTR_MODIFY_TREE */{.../** 获取聚集索引 */index = node->table->first_index();.../** 获取此 rec 在B树中的位置,如果获取不到说明此 rec 可能已被删除,直接退出 */if (!row_purge_reposition_pcur(mode, node, &mtr)) {/* The record was already removed. */goto func_exit;}/** 获取 rec 及 offsets 等信息 */rec = btr_pcur_get_rec(&node->pcur);offsets = rec_get_offsets(rec, index, offsets_, ULINT_UNDEFINED, &heap);/** 校验我们需要 purge 的 rec 中的 roll_ptr 与 B 树中 rec 的 roll_ptr 是否一致。如果不一致,说明此 record 又被更新了,故退出。*/if (node->roll_ptr != row_get_rec_roll_ptr(rec, index, offsets)) {/* Someone else has modified the record later: do not remove */goto func_exit;}.../** 先尝试只从叶子节点上删除此 rec,不行则从整个B树上删除此 rec */if (mode == BTR_MODIFY_LEAF) {success =btr_cur_optimistic_delete(btr_pcur_get_btr_cur(&node->pcur), 0, &mtr);} else {dberr_t err;ut_ad(mode == (BTR_MODIFY_TREE | BTR_LATCH_FOR_DELETE));btr_cur_pessimistic_delete(&err, FALSE, btr_pcur_get_btr_cur(&node->pcur),0, false, node->trx_id, node->undo_no,node->rec_type, &mtr);...}}func_exit:...return (success);}
因为btr_cur_optimistic_delete()与btr_cur_pessimistic_delete()在之前介绍row_purge_remove_sec_if_poss()删除二级索引是就已经介绍,所以这里就不在赘述。
至此我们已经介绍完清理一条TRX_UNDO_DEL_MARK_RECundo log需要进行那些操作。
TRX_UNDO_UPD_EXIST_REC
TRX_UNDO_UPD_EXIST_REC类型的undo log record的入口函数为row_purge_upd_exist_or_extern()将旧的二级索引记录清理掉,其具体流程如下:
static void row_purge_upd_exist_or_extern_func(#ifdef UNIV_DEBUGconst que_thr_t *thr, /*!< in: query thread */#endif /* UNIV_DEBUG */purge_node_t *node, /*!< in: row purge node */trx_undo_rec_t *undo_rec) /*!< in: record to purge */{.../** 如果 rec_type 为 TRX_UNDO_UPD_DEL_REC,那么说明此 rec 之前被删除,二级索引也被删除。如果cmpl_info 为 UPD_NODE_NO_ORD_CHANGE,那么说明二级索引没有被修改。*/if (node->rec_type == TRX_UNDO_UPD_DEL_REC ||(node->cmpl_info & UPD_NODE_NO_ORD_CHANGE)) {goto skip_secondaries;}.../** 遍历改 rec 的所有二级索引 */while (node->index != NULL) {/** 跳过可能已经损坏的二级索引 */dict_table_skip_corrupt_index(node->index);row_purge_skip_uncommitted_virtual_index(node->index);if (!node->index) {break;}/** 构造出此 rec 更新之前的 rec */if (row_upd_changes_ord_field_binary(node->index, node->update, thr, NULL,NULL)) {/* Build the older version of the index entry */dtuple_t *entry = row_build_index_entry_low(node->row, NULL, node->index,heap, ROW_BUILD_FOR_PURGE);/** 将 old rec 从二级索引上删除 */row_purge_remove_sec_if_poss(node, node->index, entry);...}node->index = node->index->next();}mem_heap_free(heap);skip_secondaries:/* Free possible externally stored fields */for (ulint i = 0; i < upd_get_n_fields(node->update); i++) {const upd_field_t *ufield = upd_get_nth_field(node->update, i);if (dfield_is_ext(&ufield->new_val)) {buf_block_t *block;.../* We use the fact that new_val points toundo_rec and get thus the offset ofdfield data inside the undo record. Then wecan calculate from node->roll_ptr the fileaddress of the new_val data */internal_offset =((const byte *)dfield_get_data(&ufield->new_val)) - undo_rec;ut_a(internal_offset < UNIV_PAGE_SIZE);trx_undo_decode_roll_ptr(node->roll_ptr, &is_insert, &rseg_id, &page_no,&offset);/* If table is temp then it can't have its undo logresiding in rollback segment with REDO log enabled. */bool is_temp = node->table->is_temporary();undo_space_id = trx_rseg_id_to_space_id(rseg_id, is_temp);mtr_start(&mtr);/* We have to acquire an SX-latch to the clusteredindex tree (exclude other tree changes) */index = node->table->first_index();mtr_sx_lock(dict_index_get_lock(index), &mtr);/* NOTE: we must also acquire an X-latch to theroot page of the tree. We will need it when wefree pages from the tree. If the tree is of height 1,the tree X-latch does NOT protect the root page,because it is also a leaf page. Since we will have alatch on an undo log page, we would break thelatching order if we would only later latch theroot page of such a tree! */btr_root_get(index, &mtr);block = buf_page_get(page_id_t(undo_space_id, page_no), univ_page_size,RW_X_LATCH, &mtr);buf_block_dbg_add_level(block, SYNC_TRX_UNDO_PAGE);data_field = buf_block_get_frame(block) + offset + internal_offset;ut_a(dfield_get_len(&ufield->new_val) >= BTR_EXTERN_FIELD_REF_SIZE);byte *field_ref = data_field + dfield_get_len(&ufield->new_val) -BTR_EXTERN_FIELD_REF_SIZE;lob::BtrContext btr_ctx(&mtr, NULL, index, NULL, NULL, block);lob::DeleteContext ctx(btr_ctx, field_ref, 0, false);lob::ref_t lobref(field_ref);/** 将 blob 数据清理掉 */lob::purge(&ctx, index, node->modifier_trx_id,trx_undo_rec_get_undo_no(undo_rec), lobref, node->rec_type,ufield);mtr_commit(&mtr);}}}
因为row_purge_remove_sec_if_poss()在之前介绍row_purge_del_mark()清理TRX_UNDO_DEL_MARK_REC类型的undo log时就已经介绍过,所以这里就不在赘述。
总结
至此,我们就已经把undo log是如何进行purge的已经全部介绍完;关于blob数据如何清理,后面有机会继续介绍。
参考内容
当前内容版权归 阿里云RDS-数据库内核组 或其关联方所有,如需对内容或内容相关联开源项目进行关注与资助,请访问 阿里云RDS-数据库内核组 .
