/***************************************************************************** Copyright (c) 1997, 2009, Innobase Oy. All Rights Reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA *****************************************************************************/ /**************************************************//** @file row/row0vers.c Row versions Created 2/6/1997 Heikki Tuuri *******************************************************/ #include "row0vers.h" #ifdef UNIV_NONINL #include "row0vers.ic" #endif #include "dict0dict.h" #include "dict0boot.h" #include "btr0btr.h" #include "mach0data.h" #include "trx0rseg.h" #include "trx0trx.h" #include "trx0roll.h" #include "trx0undo.h" #include "trx0purge.h" #include "trx0rec.h" #include "que0que.h" #include "row0row.h" #include "row0upd.h" #include "rem0cmp.h" #include "read0read.h" #include "lock0lock.h" /*****************************************************************//** Finds out if an active transaction has inserted or modified a secondary index record. NOTE: the kernel mutex is temporarily released in this function! @return NULL if committed, else the active transaction */ UNIV_INTERN trx_t* row_vers_impl_x_locked_off_kernel( /*==============================*/ const rec_t* rec, /*!< in: record in a secondary index */ dict_index_t* index, /*!< in: the secondary index */ const ulint* offsets)/*!< in: rec_get_offsets(rec, index) */ { dict_index_t* clust_index; rec_t* clust_rec; ulint* clust_offsets; rec_t* version; trx_id_t trx_id; mem_heap_t* heap; mem_heap_t* heap2; dtuple_t* row; dtuple_t* entry = NULL; /* assignment to eliminate compiler warning */ trx_t* trx; ulint rec_del; ulint err; mtr_t mtr; ulint comp; ut_ad(mutex_own(&kernel_mutex)); #ifdef UNIV_SYNC_DEBUG ut_ad(!rw_lock_own(&(purge_sys->latch), RW_LOCK_SHARED)); #endif /* UNIV_SYNC_DEBUG */ mutex_exit(&kernel_mutex); mtr_start(&mtr); /* Search for the clustered index record: this is a time-consuming operation: therefore we release the kernel mutex; also, the release is required by the latching order convention. The latch on the clustered index locks the top of the stack of versions. We also reserve purge_latch to lock the bottom of the version stack. */ clust_rec = row_get_clust_rec(BTR_SEARCH_LEAF, rec, index, &clust_index, &mtr); if (!clust_rec) { /* In a rare case it is possible that no clust rec is found for a secondary index record: if in row0umod.c row_undo_mod_remove_clust_low() we have already removed the clust rec, while purge is still cleaning and removing secondary index records associated with earlier versions of the clustered index record. In that case there cannot be any implicit lock on the secondary index record, because an active transaction which has modified the secondary index record has also modified the clustered index record. And in a rollback we always undo the modifications to secondary index records before the clustered index record. */ mutex_enter(&kernel_mutex); mtr_commit(&mtr); return(NULL); } heap = mem_heap_create(1024); clust_offsets = rec_get_offsets(clust_rec, clust_index, NULL, ULINT_UNDEFINED, &heap); trx_id = row_get_rec_trx_id(clust_rec, clust_index, clust_offsets); mtr_s_lock(&(purge_sys->latch), &mtr); mutex_enter(&kernel_mutex); trx = NULL; if (!trx_is_active(trx_id)) { /* The transaction that modified or inserted clust_rec is no longer active: no implicit lock on rec */ goto exit_func; } if (!lock_check_trx_id_sanity(trx_id, clust_rec, clust_index, clust_offsets, TRUE)) { /* Corruption noticed: try to avoid a crash by returning */ goto exit_func; } comp = page_rec_is_comp(rec); ut_ad(index->table == clust_index->table); ut_ad(!!comp == dict_table_is_comp(index->table)); ut_ad(!comp == !page_rec_is_comp(clust_rec)); /* We look up if some earlier version, which was modified by the trx_id transaction, of the clustered index record would require rec to be in a different state (delete marked or unmarked, or have different field values, or not existing). If there is such a version, then rec was modified by the trx_id transaction, and it has an implicit x-lock on rec. Note that if clust_rec itself would require rec to be in a different state, then the trx_id transaction has not yet had time to modify rec, and does not necessarily have an implicit x-lock on rec. */ rec_del = rec_get_deleted_flag(rec, comp); trx = NULL; version = clust_rec; for (;;) { rec_t* prev_version; ulint vers_del; row_ext_t* ext; trx_id_t prev_trx_id; mutex_exit(&kernel_mutex); /* While we retrieve an earlier version of clust_rec, we release the kernel mutex, because it may take time to access the disk. After the release, we have to check if the trx_id transaction is still active. We keep the semaphore in mtr on the clust_rec page, so that no other transaction can update it and get an implicit x-lock on rec. */ heap2 = heap; heap = mem_heap_create(1024); err = trx_undo_prev_version_build(clust_rec, &mtr, version, clust_index, clust_offsets, heap, &prev_version); mem_heap_free(heap2); /* free version and clust_offsets */ if (prev_version == NULL) { mutex_enter(&kernel_mutex); if (!trx_is_active(trx_id)) { /* Transaction no longer active: no implicit x-lock */ break; } /* If the transaction is still active, clust_rec must be a fresh insert, because no previous version was found. */ ut_ad(err == DB_SUCCESS); /* It was a freshly inserted version: there is an implicit x-lock on rec */ trx = trx_get_on_id(trx_id); break; } clust_offsets = rec_get_offsets(prev_version, clust_index, NULL, ULINT_UNDEFINED, &heap); vers_del = rec_get_deleted_flag(prev_version, comp); prev_trx_id = row_get_rec_trx_id(prev_version, clust_index, clust_offsets); /* If the trx_id and prev_trx_id are different and if the prev_version is marked deleted then the prev_trx_id must have already committed for the trx_id to be able to modify the row. Therefore, prev_trx_id cannot hold any implicit lock. */ if (vers_del && 0 != ut_dulint_cmp(trx_id, prev_trx_id)) { mutex_enter(&kernel_mutex); break; } /* The stack of versions is locked by mtr. Thus, it is safe to fetch the prefixes for externally stored columns. */ row = row_build(ROW_COPY_POINTERS, clust_index, prev_version, clust_offsets, NULL, &ext, heap); entry = row_build_index_entry(row, ext, index, heap); /* entry may be NULL if a record was inserted in place of a deleted record, and the BLOB pointers of the new record were not initialized yet. But in that case, prev_version should be NULL. */ ut_a(entry); mutex_enter(&kernel_mutex); if (!trx_is_active(trx_id)) { /* Transaction no longer active: no implicit x-lock */ break; } /* If we get here, we know that the trx_id transaction is still active and it has modified prev_version. Let us check if prev_version would require rec to be in a different state. */ /* The previous version of clust_rec must be accessible, because the transaction is still active and clust_rec was not a fresh insert. */ ut_ad(err == DB_SUCCESS); /* We check if entry and rec are identified in the alphabetical ordering */ if (0 == cmp_dtuple_rec(entry, rec, offsets)) { /* The delete marks of rec and prev_version should be equal for rec to be in the state required by prev_version */ if (rec_del != vers_del) { trx = trx_get_on_id(trx_id); break; } /* It is possible that the row was updated so that the secondary index record remained the same in alphabetical ordering, but the field values changed still. For example, 'abc' -> 'ABC'. Check also that. */ dtuple_set_types_binary(entry, dtuple_get_n_fields(entry)); if (0 != cmp_dtuple_rec(entry, rec, offsets)) { trx = trx_get_on_id(trx_id); break; } } else if (!rec_del) { /* The delete mark should be set in rec for it to be in the state required by prev_version */ trx = trx_get_on_id(trx_id); break; } if (0 != ut_dulint_cmp(trx_id, prev_trx_id)) { /* The versions modified by the trx_id transaction end to prev_version: no implicit x-lock */ break; } version = prev_version; }/* for (;;) */ exit_func: mtr_commit(&mtr); mem_heap_free(heap); return(trx); } /*****************************************************************//** Finds out if we must preserve a delete marked earlier version of a clustered index record, because it is >= the purge view. @return TRUE if earlier version should be preserved */ UNIV_INTERN ibool row_vers_must_preserve_del_marked( /*==============================*/ trx_id_t trx_id, /*!< in: transaction id in the version */ mtr_t* mtr) /*!< in: mtr holding the latch on the clustered index record; it will also hold the latch on purge_view */ { #ifdef UNIV_SYNC_DEBUG ut_ad(!rw_lock_own(&(purge_sys->latch), RW_LOCK_SHARED)); #endif /* UNIV_SYNC_DEBUG */ mtr_s_lock(&(purge_sys->latch), mtr); if (trx_purge_update_undo_must_exist(trx_id)) { /* A purge operation is not yet allowed to remove this delete marked record */ return(TRUE); } return(FALSE); } /*****************************************************************//** Finds out if a version of the record, where the version >= the current purge view, should have ientry as its secondary index entry. We check if there is any not delete marked version of the record where the trx id >= purge view, and the secondary index entry and ientry are identified in the alphabetical ordering; exactly in this case we return TRUE. @return TRUE if earlier version should have */ UNIV_INTERN ibool row_vers_old_has_index_entry( /*=========================*/ ibool also_curr,/*!< in: TRUE if also rec is included in the versions to search; otherwise only versions prior to it are searched */ const rec_t* rec, /*!< in: record in the clustered index; the caller must have a latch on the page */ mtr_t* mtr, /*!< in: mtr holding the latch on rec; it will also hold the latch on purge_view */ dict_index_t* index, /*!< in: the secondary index */ const dtuple_t* ientry) /*!< in: the secondary index entry */ { const rec_t* version; rec_t* prev_version; dict_index_t* clust_index; ulint* clust_offsets; mem_heap_t* heap; mem_heap_t* heap2; const dtuple_t* row; const dtuple_t* entry; ulint err; ulint comp; ut_ad(mtr_memo_contains_page(mtr, rec, MTR_MEMO_PAGE_X_FIX) || mtr_memo_contains_page(mtr, rec, MTR_MEMO_PAGE_S_FIX)); #ifdef UNIV_SYNC_DEBUG ut_ad(!rw_lock_own(&(purge_sys->latch), RW_LOCK_SHARED)); #endif /* UNIV_SYNC_DEBUG */ mtr_s_lock(&(purge_sys->latch), mtr); clust_index = dict_table_get_first_index(index->table); comp = page_rec_is_comp(rec); ut_ad(!dict_table_is_comp(index->table) == !comp); heap = mem_heap_create(1024); clust_offsets = rec_get_offsets(rec, clust_index, NULL, ULINT_UNDEFINED, &heap); if (also_curr && !rec_get_deleted_flag(rec, comp)) { row_ext_t* ext; /* The stack of versions is locked by mtr. Thus, it is safe to fetch the prefixes for externally stored columns. */ row = row_build(ROW_COPY_POINTERS, clust_index, rec, clust_offsets, NULL, &ext, heap); entry = row_build_index_entry(row, ext, index, heap); /* If entry == NULL, the record contains unset BLOB pointers. This must be a freshly inserted record. If this is called from row_purge_remove_sec_if_poss_low(), the thread will hold latches on the clustered index and the secondary index. Because the insert works in three steps: (1) insert the record to clustered index (2) store the BLOBs and update BLOB pointers (3) insert records to secondary indexes the purge thread can safely ignore freshly inserted records and delete the secondary index record. The thread that inserted the new record will be inserting the secondary index records. */ /* NOTE that we cannot do the comparison as binary fields because the row is maybe being modified so that the clustered index record has already been updated to a different binary value in a char field, but the collation identifies the old and new value anyway! */ if (entry && !dtuple_coll_cmp(ientry, entry)) { mem_heap_free(heap); return(TRUE); } } version = rec; for (;;) { heap2 = heap; heap = mem_heap_create(1024); err = trx_undo_prev_version_build(rec, mtr, version, clust_index, clust_offsets, heap, &prev_version); mem_heap_free(heap2); /* free version and clust_offsets */ if (err != DB_SUCCESS || !prev_version) { /* Versions end here */ mem_heap_free(heap); return(FALSE); } clust_offsets = rec_get_offsets(prev_version, clust_index, NULL, ULINT_UNDEFINED, &heap); if (!rec_get_deleted_flag(prev_version, comp)) { row_ext_t* ext; /* The stack of versions is locked by mtr. Thus, it is safe to fetch the prefixes for externally stored columns. */ row = row_build(ROW_COPY_POINTERS, clust_index, prev_version, clust_offsets, NULL, &ext, heap); entry = row_build_index_entry(row, ext, index, heap); /* If entry == NULL, the record contains unset BLOB pointers. This must be a freshly inserted record that we can safely ignore. For the justification, see the comments after the previous row_build_index_entry() call. */ /* NOTE that we cannot do the comparison as binary fields because maybe the secondary index record has already been updated to a different binary value in a char field, but the collation identifies the old and new value anyway! */ if (entry && !dtuple_coll_cmp(ientry, entry)) { mem_heap_free(heap); return(TRUE); } } version = prev_version; } } /*****************************************************************//** Constructs the version of a clustered index record which a consistent read should see. We assume that the trx id stored in rec is such that the consistent read should not see rec in its present version. @return DB_SUCCESS or DB_MISSING_HISTORY */ UNIV_INTERN ulint row_vers_build_for_consistent_read( /*===============================*/ const rec_t* rec, /*!< in: record in a clustered index; the caller must have a latch on the page; this latch locks the top of the stack of versions of this records */ mtr_t* mtr, /*!< in: mtr holding the latch on rec */ dict_index_t* index, /*!< in: the clustered index */ ulint** offsets,/*!< in/out: offsets returned by rec_get_offsets(rec, index) */ read_view_t* view, /*!< in: the consistent read view */ mem_heap_t** offset_heap,/*!< in/out: memory heap from which the offsets are allocated */ mem_heap_t* in_heap,/*!< in: memory heap from which the memory for *old_vers is allocated; memory for possible intermediate versions is allocated and freed locally within the function */ rec_t** old_vers)/*!< out, own: old version, or NULL if the record does not exist in the view, that is, it was freshly inserted afterwards */ { const rec_t* version; rec_t* prev_version; trx_id_t trx_id; mem_heap_t* heap = NULL; byte* buf; ulint err; ut_ad(dict_index_is_clust(index)); ut_ad(mtr_memo_contains_page(mtr, rec, MTR_MEMO_PAGE_X_FIX) || mtr_memo_contains_page(mtr, rec, MTR_MEMO_PAGE_S_FIX)); #ifdef UNIV_SYNC_DEBUG ut_ad(!rw_lock_own(&(purge_sys->latch), RW_LOCK_SHARED)); #endif /* UNIV_SYNC_DEBUG */ ut_ad(rec_offs_validate(rec, index, *offsets)); trx_id = row_get_rec_trx_id(rec, index, *offsets); ut_ad(!read_view_sees_trx_id(view, trx_id)); rw_lock_s_lock(&(purge_sys->latch)); version = rec; for (;;) { mem_heap_t* heap2 = heap; trx_undo_rec_t* undo_rec; roll_ptr_t roll_ptr; undo_no_t undo_no; heap = mem_heap_create(1024); /* If we have high-granularity consistent read view and creating transaction of the view is the same as trx_id in the record we see this record only in the case when undo_no of the record is < undo_no in the view. */ if (view->type == VIEW_HIGH_GRANULARITY && ut_dulint_cmp(view->creator_trx_id, trx_id) == 0) { roll_ptr = row_get_rec_roll_ptr(version, index, *offsets); undo_rec = trx_undo_get_undo_rec_low(roll_ptr, heap); undo_no = trx_undo_rec_get_undo_no(undo_rec); mem_heap_empty(heap); if (ut_dulint_cmp(view->undo_no, undo_no) > 0) { /* The view already sees this version: we can copy it to in_heap and return */ buf = mem_heap_alloc(in_heap, rec_offs_size(*offsets)); *old_vers = rec_copy(buf, version, *offsets); rec_offs_make_valid(*old_vers, index, *offsets); err = DB_SUCCESS; break; } } err = trx_undo_prev_version_build(rec, mtr, version, index, *offsets, heap, &prev_version); if (heap2) { mem_heap_free(heap2); /* free version */ } if (err != DB_SUCCESS) { break; } if (prev_version == NULL) { /* It was a freshly inserted version */ *old_vers = NULL; err = DB_SUCCESS; break; } *offsets = rec_get_offsets(prev_version, index, *offsets, ULINT_UNDEFINED, offset_heap); trx_id = row_get_rec_trx_id(prev_version, index, *offsets); if (read_view_sees_trx_id(view, trx_id)) { /* The view already sees this version: we can copy it to in_heap and return */ buf = mem_heap_alloc(in_heap, rec_offs_size(*offsets)); *old_vers = rec_copy(buf, prev_version, *offsets); rec_offs_make_valid(*old_vers, index, *offsets); err = DB_SUCCESS; break; } version = prev_version; }/* for (;;) */ mem_heap_free(heap); rw_lock_s_unlock(&(purge_sys->latch)); return(err); } /*****************************************************************//** Constructs the last committed version of a clustered index record, which should be seen by a semi-consistent read. @return DB_SUCCESS or DB_MISSING_HISTORY */ UNIV_INTERN ulint row_vers_build_for_semi_consistent_read( /*====================================*/ const rec_t* rec, /*!< in: record in a clustered index; the caller must have a latch on the page; this latch locks the top of the stack of versions of this records */ mtr_t* mtr, /*!< in: mtr holding the latch on rec */ dict_index_t* index, /*!< in: the clustered index */ ulint** offsets,/*!< in/out: offsets returned by rec_get_offsets(rec, index) */ mem_heap_t** offset_heap,/*!< in/out: memory heap from which the offsets are allocated */ mem_heap_t* in_heap,/*!< in: memory heap from which the memory for *old_vers is allocated; memory for possible intermediate versions is allocated and freed locally within the function */ const rec_t** old_vers)/*!< out: rec, old version, or NULL if the record does not exist in the view, that is, it was freshly inserted afterwards */ { const rec_t* version; mem_heap_t* heap = NULL; byte* buf; ulint err; trx_id_t rec_trx_id = ut_dulint_zero; ut_ad(dict_index_is_clust(index)); ut_ad(mtr_memo_contains_page(mtr, rec, MTR_MEMO_PAGE_X_FIX) || mtr_memo_contains_page(mtr, rec, MTR_MEMO_PAGE_S_FIX)); #ifdef UNIV_SYNC_DEBUG ut_ad(!rw_lock_own(&(purge_sys->latch), RW_LOCK_SHARED)); #endif /* UNIV_SYNC_DEBUG */ ut_ad(rec_offs_validate(rec, index, *offsets)); rw_lock_s_lock(&(purge_sys->latch)); /* The S-latch on purge_sys prevents the purge view from changing. Thus, if we have an uncommitted transaction at this point, then purge cannot remove its undo log even if the transaction could commit now. */ version = rec; for (;;) { trx_t* version_trx; mem_heap_t* heap2; rec_t* prev_version; trx_id_t version_trx_id; version_trx_id = row_get_rec_trx_id(version, index, *offsets); if (rec == version) { rec_trx_id = version_trx_id; } mutex_enter(&kernel_mutex); version_trx = trx_get_on_id(version_trx_id); mutex_exit(&kernel_mutex); if (!version_trx || version_trx->conc_state == TRX_NOT_STARTED || version_trx->conc_state == TRX_COMMITTED_IN_MEMORY) { /* We found a version that belongs to a committed transaction: return it. */ if (rec == version) { *old_vers = rec; err = DB_SUCCESS; break; } /* We assume that a rolled-back transaction stays in TRX_ACTIVE state until all the changes have been rolled back and the transaction is removed from the global list of transactions. */ if (!ut_dulint_cmp(rec_trx_id, version_trx_id)) { /* The transaction was committed while we searched for earlier versions. Return the current version as a semi-consistent read. */ version = rec; *offsets = rec_get_offsets(version, index, *offsets, ULINT_UNDEFINED, offset_heap); } buf = mem_heap_alloc(in_heap, rec_offs_size(*offsets)); *old_vers = rec_copy(buf, version, *offsets); rec_offs_make_valid(*old_vers, index, *offsets); err = DB_SUCCESS; break; } heap2 = heap; heap = mem_heap_create(1024); err = trx_undo_prev_version_build(rec, mtr, version, index, *offsets, heap, &prev_version); if (heap2) { mem_heap_free(heap2); /* free version */ } if (UNIV_UNLIKELY(err != DB_SUCCESS)) { break; } if (prev_version == NULL) { /* It was a freshly inserted version */ *old_vers = NULL; err = DB_SUCCESS; break; } version = prev_version; *offsets = rec_get_offsets(version, index, *offsets, ULINT_UNDEFINED, offset_heap); }/* for (;;) */ if (heap) { mem_heap_free(heap); } rw_lock_s_unlock(&(purge_sys->latch)); return(err); }