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-rw-r--r--storage/maria/trnman.c995
1 files changed, 995 insertions, 0 deletions
diff --git a/storage/maria/trnman.c b/storage/maria/trnman.c
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+++ b/storage/maria/trnman.c
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+/* Copyright (C) 2006-2008 MySQL AB, 2008-2009 Sun Microsystems, Inc.
+
+ 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 Street, Fifth Floor, Boston, MA 02110-1335 USA */
+
+
+#include <my_global.h>
+#include <my_sys.h>
+#include <m_string.h>
+#include "trnman.h"
+#include "ma_checkpoint.h"
+#include "ma_control_file.h"
+
+/*
+ status variables:
+ how many trns in the active list currently,
+ in the committed list currently, allocated since startup.
+*/
+uint trnman_active_transactions, trnman_committed_transactions,
+ trnman_allocated_transactions;
+
+#ifdef WORKAROUND_GCC_4_3_2_BUG
+volatile
+#endif
+/* list of active transactions in the trid order */
+static TRN active_list_min, active_list_max;
+/* list of committed transactions in the trid order */
+static TRN committed_list_min, committed_list_max;
+
+/* a counter, used to generate transaction ids */
+static TrID global_trid_generator;
+
+/*
+ The minimum existing transaction id for trnman_get_min_trid()
+ The default value is used when transaction manager not initialize;
+ Probably called from maria_chk
+*/
+static TrID trid_min_read_from= MAX_TRID;
+
+/* the mutex for everything above */
+static mysql_mutex_t LOCK_trn_list;
+
+/* LIFO pool of unused TRN structured for reuse */
+static TRN *pool;
+
+/* a hash for committed transactions that maps trid to a TRN structure */
+static LF_HASH trid_to_trn;
+
+/* an array that maps short_id of an active transaction to a TRN structure */
+static TRN **short_trid_to_active_trn;
+
+/* locks for short_trid_to_active_trn and pool */
+static my_bool default_trnman_end_trans_hook(TRN *, my_bool, my_bool);
+static void trnman_free_trn(TRN *);
+
+my_bool (*trnman_end_trans_hook)(TRN *, my_bool, my_bool)=
+ default_trnman_end_trans_hook;
+
+/*
+ Simple interface functions
+ QQ: if they stay so simple, should we make them inline?
+*/
+
+uint trnman_increment_locked_tables(TRN *trn)
+{
+ return trn->locked_tables++;
+}
+
+uint trnman_has_locked_tables(TRN *trn)
+{
+ return trn->locked_tables;
+}
+
+uint trnman_decrement_locked_tables(TRN *trn)
+{
+ return --trn->locked_tables;
+}
+
+void trnman_reset_locked_tables(TRN *trn, uint locked_tables)
+{
+ trn->locked_tables= locked_tables;
+}
+
+#ifdef EXTRA_DEBUG
+uint16 trnman_get_flags(TRN *trn)
+{
+ return trn->flags;
+}
+
+void trnman_set_flags(TRN *trn, uint16 flags)
+{
+ trn->flags= flags;
+}
+#endif
+
+/** Wake up threads waiting for this transaction */
+static void wt_thd_release_self(TRN *trn)
+{
+ if (trn->wt)
+ {
+ WT_RESOURCE_ID rc;
+ rc.type= &ma_rc_dup_unique;
+ rc.value= (intptr)trn;
+ wt_thd_release(trn->wt, & rc);
+ trn->wt= 0;
+ }
+}
+
+static my_bool
+default_trnman_end_trans_hook(TRN *trn __attribute__ ((unused)),
+ my_bool commit __attribute__ ((unused)),
+ my_bool active_transactions
+ __attribute__ ((unused)))
+{
+ return 0;
+}
+
+
+static uchar *trn_get_hash_key(const uchar *trn, size_t *len,
+ my_bool unused __attribute__ ((unused)))
+{
+ *len= sizeof(TrID);
+ return (uchar *) & ((*((TRN **)trn))->trid);
+}
+
+
+/**
+ @brief Initializes transaction manager.
+
+ @param initial_trid Generated TrIDs will start from initial_trid+1.
+
+ @return Operation status
+ @retval 0 OK
+ @retval !=0 Error
+*/
+
+int trnman_init(TrID initial_trid)
+{
+ DBUG_ENTER("trnman_init");
+ DBUG_PRINT("enter", ("initial_trid: %lu", (ulong) initial_trid));
+
+ short_trid_to_active_trn= (TRN **)my_malloc(PSI_INSTRUMENT_ME, SHORT_TRID_MAX*sizeof(TRN*),
+ MYF(MY_WME|MY_ZEROFILL));
+ if (unlikely(!short_trid_to_active_trn))
+ DBUG_RETURN(1);
+ short_trid_to_active_trn--; /* min short_id is 1 */
+
+ /*
+ Initialize lists.
+ active_list_max.min_read_from must be larger than any trid,
+ so that when an active list is empty we would could free
+ all committed list.
+ And committed_list_max itself can not be freed so
+ committed_list_max.commit_trid must not be smaller that
+ active_list_max.min_read_from
+ */
+
+ active_list_max.trid= active_list_min.trid= 0;
+ active_list_max.min_read_from= MAX_TRID;
+ active_list_max.next= active_list_min.prev= 0;
+ active_list_max.prev= &active_list_min;
+ active_list_min.next= &active_list_max;
+
+ committed_list_max.commit_trid= MAX_TRID;
+ committed_list_max.next= committed_list_min.prev= 0;
+ committed_list_max.prev= &committed_list_min;
+ committed_list_min.next= &committed_list_max;
+
+ trnman_active_transactions= 0;
+ trnman_committed_transactions= 0;
+ trnman_allocated_transactions= 0;
+ /* This is needed for recovery and repair */
+ dummy_transaction_object.min_read_from= ~(TrID) 0;
+ dummy_transaction_object.first_undo_lsn= TRANSACTION_LOGGED_LONG_ID;
+
+ pool= 0;
+ global_trid_generator= initial_trid;
+ trid_min_read_from= initial_trid;
+ lf_hash_init(&trid_to_trn, sizeof(TRN*), LF_HASH_UNIQUE,
+ 0, 0, trn_get_hash_key, 0);
+ DBUG_PRINT("info", ("mysql_mutex_init LOCK_trn_list"));
+ mysql_mutex_init(key_LOCK_trn_list, &LOCK_trn_list, MY_MUTEX_INIT_FAST);
+
+ DBUG_RETURN(0);
+}
+
+
+/*
+ NOTE
+ this could only be called in the "idle" state - no transaction can be
+ running. See asserts below.
+*/
+void trnman_destroy()
+{
+ DBUG_ENTER("trnman_destroy");
+
+ if (short_trid_to_active_trn == NULL) /* trnman already destroyed */
+ DBUG_VOID_RETURN;
+ DBUG_ASSERT(trid_to_trn.count == 0);
+ DBUG_ASSERT(trnman_active_transactions == 0);
+ DBUG_ASSERT(trnman_committed_transactions == 0);
+ DBUG_ASSERT(active_list_max.prev == &active_list_min);
+ DBUG_ASSERT(active_list_min.next == &active_list_max);
+ DBUG_ASSERT(committed_list_max.prev == &committed_list_min);
+ DBUG_ASSERT(committed_list_min.next == &committed_list_max);
+ while (pool)
+ {
+ TRN *trn= pool;
+ pool= pool->next;
+ DBUG_ASSERT(trn->wt == NULL);
+ mysql_mutex_destroy(&trn->state_lock);
+ my_free(trn);
+ }
+ lf_hash_destroy(&trid_to_trn);
+ DBUG_PRINT("info", ("mysql_mutex_destroy LOCK_trn_list"));
+ mysql_mutex_destroy(&LOCK_trn_list);
+ my_free(short_trid_to_active_trn+1);
+ short_trid_to_active_trn= NULL;
+
+ DBUG_VOID_RETURN;
+}
+
+
+/*
+ NOTE
+ TrID is limited to 6 bytes. Initial value of the generator
+ is set by the recovery code - being read from the last checkpoint
+ (or 1 on a first run).
+*/
+static TrID new_trid()
+{
+ DBUG_ENTER("new_trid");
+ DBUG_ASSERT(global_trid_generator < MAX_INTERNAL_TRID);
+ DBUG_PRINT("info", ("mysql_mutex_assert_owner LOCK_trn_list"));
+ mysql_mutex_assert_owner(&LOCK_trn_list);
+ DBUG_RETURN(++global_trid_generator);
+}
+
+static uint get_short_trid(TRN *trn)
+{
+ int i= (int) ((global_trid_generator + (intptr)trn) * 312089 %
+ SHORT_TRID_MAX) + 1;
+ uint res=0;
+
+ for ( ; !res ; i= 1)
+ {
+ for ( ; i <= SHORT_TRID_MAX; i++) /* the range is [1..SHORT_TRID_MAX] */
+ {
+ void *tmp= NULL;
+ if (short_trid_to_active_trn[i] == NULL &&
+ my_atomic_casptr((void **)&short_trid_to_active_trn[i], &tmp, trn))
+ {
+ res= i;
+ break;
+ }
+ }
+ }
+ return res;
+}
+
+/**
+ Allocates and initializes a new TRN object
+
+ @note the 'wt' parameter can only be 0 in a single-threaded code (or,
+ generally, where threads cannot block each other), otherwise the
+ first call to the deadlock detector will sigsegv.
+*/
+
+TRN *trnman_new_trn(WT_THD *wt)
+{
+ int res;
+ TRN *trn;
+ union { TRN *trn; void *v; } tmp;
+ DBUG_ENTER("trnman_new_trn");
+
+ /*
+ we have a mutex, to do simple things under it - allocate a TRN,
+ increment trnman_active_transactions, set trn->min_read_from.
+
+ Note that all the above is fast. generating short_id may be slow,
+ as it involves scanning a large array - so it's done outside of the
+ mutex.
+ */
+
+ DBUG_PRINT("info", ("mysql_mutex_lock LOCK_trn_list"));
+ mysql_mutex_lock(&LOCK_trn_list);
+
+ /* Allocating a new TRN structure */
+ tmp.trn= pool;
+ /*
+ Popping an unused TRN from the pool
+ (ABA isn't possible, we're behind a mutex
+ */
+ while (tmp.trn && !my_atomic_casptr((void **)(char*) &pool, &tmp.v,
+ (void *)tmp.trn->next))
+ /* no-op */;
+
+ /* Nothing in the pool ? Allocate a new one */
+ if (!(trn= tmp.trn))
+ {
+ /*
+ trn should be completely initialized at create time to allow
+ one to keep a known state on it.
+ (Like redo_lns, which is assumed to be 0 at start of row handling
+ and reset to zero before end of row handling)
+ */
+ trn= (TRN *)my_malloc(PSI_INSTRUMENT_ME, sizeof(TRN), MYF(MY_WME | MY_ZEROFILL));
+ if (unlikely(!trn))
+ {
+ DBUG_PRINT("info", ("mysql_mutex_unlock LOCK_trn_list"));
+ mysql_mutex_unlock(&LOCK_trn_list);
+ return 0;
+ }
+ trnman_allocated_transactions++;
+ mysql_mutex_init(key_TRN_state_lock, &trn->state_lock, MY_MUTEX_INIT_FAST);
+ }
+ trn->wt= wt;
+ trn->pins= lf_hash_get_pins(&trid_to_trn);
+ if (!trn->pins)
+ {
+ trnman_free_trn(trn);
+ mysql_mutex_unlock(&LOCK_trn_list);
+ return 0;
+ }
+
+ trnman_active_transactions++;
+
+ trn->min_read_from= active_list_min.next->trid;
+
+ trn->trid= new_trid();
+
+ trn->next= &active_list_max;
+ trn->prev= active_list_max.prev;
+ active_list_max.prev= trn->prev->next= trn;
+ trid_min_read_from= active_list_min.next->min_read_from;
+ DBUG_PRINT("info", ("mysql_mutex_unlock LOCK_trn_list"));
+ mysql_mutex_unlock(&LOCK_trn_list);
+
+ if (unlikely(!trn->min_read_from))
+ {
+ /*
+ We are the only transaction. Set min_read_from so that we can read
+ our own rows
+ */
+ trn->min_read_from= trn->trid + 1;
+ }
+
+ /* no other transaction can read changes done by this one */
+ trn->commit_trid= MAX_TRID;
+ trn->rec_lsn= trn->undo_lsn= trn->first_undo_lsn= 0;
+ trn->used_tables= 0;
+ trn->used_instances= 0;
+
+ trn->locked_tables= 0;
+ trn->flags= 0;
+
+ /*
+ only after the following function TRN is considered initialized,
+ so it must be done the last
+ */
+ mysql_mutex_lock(&trn->state_lock);
+ trn->short_id= get_short_trid(trn);
+ mysql_mutex_unlock(&trn->state_lock);
+
+ res= lf_hash_insert(&trid_to_trn, trn->pins, &trn);
+ DBUG_ASSERT(res <= 0);
+ if (res)
+ {
+ trnman_end_trn(trn, 0);
+ return 0;
+ }
+
+ DBUG_PRINT("exit", ("trn: %p trid: 0x%lu min_read_from: 0x%lu",
+ trn, (ulong) trn->trid, (ulong) trn->min_read_from));
+
+ DBUG_RETURN(trn);
+}
+
+
+/*
+ Initialize a temporary TRN object for logging a new transaction id (trid)
+ to it. Used by create table to associate a create trid to the table.
+
+ Out: trn->trid is updated with next available trid
+*/
+
+void trnman_init_tmp_trn_for_logging_trid(TRN *trn)
+{
+ *trn= dummy_transaction_object;
+ /* Avoid logging short_id */
+ trn->short_id= 1;
+ /* Trid gets logged in translog_write_record */
+ trn->first_undo_lsn= 0;
+ /* Get next free trid */
+ trn->trid= trnman_get_min_safe_trid();
+}
+
+
+/*
+ remove a trn from the active list.
+ if necessary - move to committed list and set commit_trid
+
+ NOTE
+ Locks are released at the end. In particular, after placing the
+ transaction in commit list, and after setting commit_trid. It's
+ important, as commit_trid affects visibility. Locks don't affect
+ anything they simply delay execution of other threads - they could be
+ released arbitrarily late. In other words, when locks are released it
+ serves as a start banner for other threads, they start to run. So
+ everything they may need must be ready at that point.
+
+ RETURN
+ 0 ok
+ 1 error
+*/
+my_bool trnman_end_trn(TRN *trn, my_bool commit)
+{
+ int res= 1;
+ uint16 cached_short_id= trn->short_id; /* we have to cache it, see below */
+ TRN *free_me= 0;
+ LF_PINS *pins= trn->pins;
+ DBUG_ENTER("trnman_end_trn");
+ DBUG_PRINT("enter", ("trn: %p commit: %d", trn, commit));
+
+ /* if a rollback, all UNDO records should have been executed */
+ DBUG_ASSERT(commit || trn->undo_lsn == 0);
+ DBUG_ASSERT(trn != &dummy_transaction_object);
+ DBUG_ASSERT(trn->locked_tables == 0 && trn->used_instances == 0);
+ DBUG_PRINT("info", ("mysql_mutex_lock LOCK_trn_list"));
+
+ mysql_mutex_lock(&LOCK_trn_list);
+
+ /* remove from active list */
+ trn->next->prev= trn->prev;
+ trn->prev->next= trn->next;
+
+ /*
+ if trn was the oldest active transaction, now that it goes away there
+ may be committed transactions in the list which no active transaction
+ needs to bother about - clean up the committed list
+ */
+ if (trn->prev == &active_list_min)
+ {
+ uint free_me_count;
+ TRN *t;
+ for (t= committed_list_min.next, free_me_count= 0;
+ t->commit_trid < active_list_min.next->min_read_from;
+ t= t->next, free_me_count++) /* no-op */;
+
+ DBUG_ASSERT((t != committed_list_min.next && free_me_count > 0) ||
+ (t == committed_list_min.next && free_me_count == 0));
+ /* found transactions committed before the oldest active one */
+ if (t != committed_list_min.next)
+ {
+ free_me= committed_list_min.next;
+ committed_list_min.next= t;
+ t->prev->next= 0;
+ t->prev= &committed_list_min;
+ trnman_committed_transactions-= free_me_count;
+ }
+ }
+
+ mysql_mutex_lock(&trn->state_lock);
+ if (commit)
+ trn->commit_trid= global_trid_generator;
+ wt_thd_release_self(trn);
+ mysql_mutex_unlock(&trn->state_lock);
+
+ /*
+ if transaction is committed and it was not the only active transaction -
+ add it to the committed list
+ */
+ if (commit && active_list_min.next != &active_list_max)
+ {
+ trn->next= &committed_list_max;
+ trn->prev= committed_list_max.prev;
+ trnman_committed_transactions++;
+ committed_list_max.prev= trn->prev->next= trn;
+ }
+ else
+ {
+ trn->next= free_me;
+ free_me= trn;
+ }
+ trid_min_read_from= active_list_min.next->min_read_from;
+
+ if ((*trnman_end_trans_hook)(trn, commit,
+ active_list_min.next != &active_list_max))
+ res= -1;
+ trnman_active_transactions--;
+
+ DBUG_PRINT("info", ("mysql_mutex_unlock LOCK_trn_list"));
+ mysql_mutex_unlock(&LOCK_trn_list);
+
+ /*
+ the rest is done outside of a critical section
+
+ note that we don't own trn anymore, it may be in a shared list now.
+ Thus, we cannot dereference it, and must use cached_short_id below.
+ */
+ my_atomic_storeptr((void **)&short_trid_to_active_trn[cached_short_id], 0);
+
+ /*
+ we, under the mutex, removed going-in-free_me transactions from the
+ active and committed lists, thus nobody else may see them when it scans
+ those lists, and thus nobody may want to free them. Now we don't
+ need a mutex to access free_me list
+ */
+ /* QQ: send them to the purge thread */
+ while (free_me)
+ {
+ TRN *t= free_me;
+ free_me= free_me->next;
+
+ /* ignore OOM. it's harmless, and we can do nothing here anyway */
+ (void)lf_hash_delete(&trid_to_trn, pins, &t->trid, sizeof(TrID));
+
+ trnman_free_trn(t);
+ }
+
+ lf_hash_put_pins(pins);
+
+ DBUG_RETURN(res < 0);
+}
+
+/*
+ free a trn (add to the pool, that is)
+ note - we can never really free() a TRN if there's at least one other
+ running transaction - see, e.g., how lock waits are implemented in
+ lockman.c
+ The same is true for other lock-free data structures too. We may need some
+ kind of FLUSH command to reset them all - ensuring that no transactions are
+ running. It may even be called automatically on checkpoints if no
+ transactions are running.
+*/
+static void trnman_free_trn(TRN *trn)
+{
+ /*
+ union is to solve strict aliasing issue.
+ without it gcc 3.4.3 doesn't notice that updating *(void **)&tmp
+ modifies the value of tmp.
+ */
+ union { TRN *trn; void *v; } tmp;
+
+ DBUG_ASSERT(trn != &dummy_transaction_object);
+
+ mysql_mutex_lock(&trn->state_lock);
+ trn->short_id= 0;
+ mysql_mutex_unlock(&trn->state_lock);
+
+ tmp.trn= pool;
+
+ do
+ {
+ /*
+ without this volatile cast gcc-3.4.4 moves the assignment
+ down after the loop at -O2
+ */
+ *(TRN * volatile *)&(trn->next)= tmp.trn;
+ } while (!my_atomic_casptr((void **)(char*)&pool, &tmp.v, trn));
+}
+
+/*
+ NOTE
+ here we access the hash in a lock-free manner.
+ It's safe, a 'found' TRN can never be freed/reused before we access it.
+ In fact, it cannot be freed before 'trn' ends, because a 'found' TRN
+ can only be removed from the hash when:
+ found->commit_trid < ALL (trn->min_read_from)
+ that is, at least
+ found->commit_trid < trn->min_read_from
+ but
+ found->trid >= trn->min_read_from
+ and
+ found->commit_trid > found->trid
+
+ RETURN
+ 1 can
+ 0 cannot
+ -1 error (OOM)
+*/
+int trnman_can_read_from(TRN *trn, TrID trid)
+{
+ TRN **found;
+ my_bool can;
+
+ if (trid < trn->min_read_from)
+ return 1; /* Row is visible by all transactions in the system */
+
+ if (trid >= trn->trid)
+ {
+ /*
+ We have now two cases
+ trid > trn->trid, in which case the row is from a new transaction
+ and not visible, in which case we should return 0.
+ trid == trn->trid in which case the row is from the current transaction
+ and we should return 1
+ */
+ return trid == trn->trid;
+ }
+
+ found= lf_hash_search(&trid_to_trn, trn->pins, &trid, sizeof(trid));
+ if (found == NULL)
+ return 0; /* not in the hash of transactions = cannot read */
+ if (found == MY_ERRPTR)
+ return -1;
+
+ can= (*found)->commit_trid < trn->trid;
+ lf_hash_search_unpin(trn->pins);
+ return can;
+}
+
+/**
+ Finds a TRN by its TrID
+
+ @param trn current trn. Needed for pinning pointers (see lf_pin)
+ @param trid trid to search for
+
+ @return found trn or 0
+
+ @note that trn is returned with its state locked!
+*/
+TRN *trnman_trid_to_trn(TRN *trn, TrID trid)
+{
+ TRN **found;
+
+ if (trid < trn->min_read_from)
+ return 0; /* it's committed eons ago */
+
+ found= lf_hash_search(&trid_to_trn, trn->pins, &trid, sizeof(trid));
+ if (found == NULL || found == MY_ERRPTR)
+ return 0; /* no luck */
+
+ /* we've found something */
+ mysql_mutex_lock(&(*found)->state_lock);
+
+ if ((*found)->short_id == 0)
+ {
+ mysql_mutex_unlock(&(*found)->state_lock);
+ lf_hash_search_unpin(trn->pins);
+ return 0; /* but it was a ghost */
+ }
+ lf_hash_search_unpin(trn->pins);
+
+ /* Gotcha! */
+ return *found;
+}
+
+/* TODO: the stubs below are waiting for savepoints to be implemented */
+
+void trnman_new_statement(TRN *trn __attribute__ ((unused)))
+{
+}
+
+void trnman_rollback_statement(TRN *trn __attribute__ ((unused)))
+{
+}
+
+
+/**
+ @brief Allocates buffers and stores in them some info about transactions
+
+ Does the allocation because the caller cannot know the size itself.
+ Memory freeing is to be done by the caller (if the "str" member of the
+ LEX_STRING is not NULL).
+ The caller has the intention of doing checkpoints.
+
+ @param[out] str_act pointer to where the allocated buffer,
+ and its size, will be put; buffer will be filled
+ with info about active transactions
+ @param[out] str_com pointer to where the allocated buffer,
+ and its size, will be put; buffer will be filled
+ with info about committed transactions
+ @param[out] min_first_undo_lsn pointer to where the minimum
+ first_undo_lsn of all transactions will be put
+
+ @return Operation status
+ @retval 0 OK
+ @retval 1 Error
+*/
+
+my_bool trnman_collect_transactions(LEX_STRING *str_act, LEX_STRING *str_com,
+ LSN *min_rec_lsn, LSN *min_first_undo_lsn)
+{
+ my_bool error;
+ TRN *trn;
+ char *ptr;
+ uint stored_transactions= 0;
+ LSN minimum_rec_lsn= LSN_MAX, minimum_first_undo_lsn= LSN_MAX;
+ DBUG_ENTER("trnman_collect_transactions");
+
+ DBUG_ASSERT((NULL == str_act->str) && (NULL == str_com->str));
+
+ /* validate the use of read_non_atomic() in general: */
+ compile_time_assert((sizeof(LSN) == 8) && (sizeof(LSN_WITH_FLAGS) == 8));
+ mysql_mutex_lock(&LOCK_trn_list);
+ str_act->length= 2 + /* number of active transactions */
+ LSN_STORE_SIZE + /* minimum of their rec_lsn */
+ TRANSID_SIZE + /* current TrID generator value */
+ (2 + /* short id */
+ 6 + /* long id */
+ LSN_STORE_SIZE + /* undo_lsn */
+#ifdef MARIA_VERSIONING /* not enabled yet */
+ LSN_STORE_SIZE + /* undo_purge_lsn */
+#endif
+ LSN_STORE_SIZE /* first_undo_lsn */
+ ) * trnman_active_transactions;
+ str_com->length= 4 + /* number of committed transactions */
+ (6 + /* long id */
+#ifdef MARIA_VERSIONING /* not enabled yet */
+ LSN_STORE_SIZE + /* undo_purge_lsn */
+#endif
+ LSN_STORE_SIZE /* first_undo_lsn */
+ ) * trnman_committed_transactions;
+ if ((NULL == (str_act->str= my_malloc(PSI_INSTRUMENT_ME, str_act->length, MYF(MY_WME)))) ||
+ (NULL == (str_com->str= my_malloc(PSI_INSTRUMENT_ME, str_com->length, MYF(MY_WME)))))
+ goto err;
+ /* First, the active transactions */
+ ptr= str_act->str + 2 + LSN_STORE_SIZE;
+ transid_store(ptr, global_trid_generator);
+ ptr+= TRANSID_SIZE;
+ for (trn= active_list_min.next; trn != &active_list_max; trn= trn->next)
+ {
+ uint sid;
+ LSN rec_lsn, undo_lsn, first_undo_lsn;
+ mysql_mutex_lock(&trn->state_lock);
+ sid= trn->short_id;
+ mysql_mutex_unlock(&trn->state_lock);
+ if (sid == 0)
+ {
+ /*
+ Not even inited, has done nothing. Or it is the
+ dummy_transaction_object, which does only non-transactional
+ immediate-sync operations (CREATE/DROP/RENAME/REPAIR TABLE), and so
+ can be forgotten for Checkpoint.
+ */
+ continue;
+ }
+ /* needed for low-water mark calculation */
+ if (((rec_lsn= lsn_read_non_atomic(trn->rec_lsn)) > 0) &&
+ (cmp_translog_addr(rec_lsn, minimum_rec_lsn) < 0))
+ minimum_rec_lsn= rec_lsn;
+ /*
+ If trn has not logged LOGREC_LONG_TRANSACTION_ID, this trn will be
+ discovered when seeing that log record which is for sure located after
+ checkpoint_start_log_horizon.
+ */
+ if ((LSN_WITH_FLAGS_TO_FLAGS(trn->first_undo_lsn) &
+ TRANSACTION_LOGGED_LONG_ID) == 0)
+ continue;
+ /*
+ On the other hand, if undo_lsn is LSN_IMPOSSIBLE, trn may later log
+ records; so we must include trn in the checkpoint now, because we cannot
+ count on LOGREC_LONG_TRANSACTION_ID (as we are already past it).
+ */
+ undo_lsn= trn->undo_lsn;
+ stored_transactions++;
+ int2store(ptr, sid);
+ ptr+= 2;
+ int6store(ptr, trn->trid);
+ ptr+= 6;
+ lsn_store(ptr, undo_lsn); /* needed for rollback */
+ ptr+= LSN_STORE_SIZE;
+ /* needed for low-water mark calculation */
+ if (((first_undo_lsn= lsn_read_non_atomic(trn->first_undo_lsn)) > 0) &&
+ (cmp_translog_addr(first_undo_lsn, minimum_first_undo_lsn) < 0))
+ minimum_first_undo_lsn= first_undo_lsn;
+ lsn_store(ptr, first_undo_lsn);
+ ptr+= LSN_STORE_SIZE;
+#ifdef MARIA_VERSIONING /* not enabled yet */
+ /* to know where purging should start (last delete of this trn) */
+ lsn_store(ptr, trn->undo_purge_lsn);
+ ptr+= LSN_STORE_SIZE;
+#endif
+ /**
+ @todo RECOVERY: add a comment explaining why we can dirtily read some
+ vars, inspired by the text of "assumption 8" in WL#3072
+ */
+ }
+ str_act->length= ptr - str_act->str; /* as we maybe over-estimated */
+ ptr= str_act->str;
+ DBUG_PRINT("info",("collected %u active transactions",
+ (uint)stored_transactions));
+ int2store(ptr, stored_transactions);
+ ptr+= 2;
+ /* this LSN influences how REDOs for any page can be ignored by Recovery */
+ lsn_store(ptr, minimum_rec_lsn);
+ /* one day there will also be a list of prepared transactions */
+ /* do the same for committed ones */
+ ptr= str_com->str;
+ int4store(ptr, trnman_committed_transactions);
+ ptr+= 4;
+ DBUG_PRINT("info",("collected %u committed transactions",
+ (uint)trnman_committed_transactions));
+ for (trn= committed_list_min.next; trn != &committed_list_max;
+ trn= trn->next)
+ {
+ LSN first_undo_lsn;
+ int6store(ptr, trn->trid);
+ ptr+= 6;
+#ifdef MARIA_VERSIONING /* not enabled yet */
+ lsn_store(ptr, trn->undo_purge_lsn);
+ ptr+= LSN_STORE_SIZE;
+#endif
+ first_undo_lsn= LSN_WITH_FLAGS_TO_LSN(trn->first_undo_lsn);
+ if (cmp_translog_addr(first_undo_lsn, minimum_first_undo_lsn) < 0)
+ minimum_first_undo_lsn= first_undo_lsn;
+ lsn_store(ptr, first_undo_lsn);
+ ptr+= LSN_STORE_SIZE;
+ }
+ /*
+ TODO: if we see there exists no transaction (active and committed) we can
+ tell the lock-free structures to do some freeing (my_free()).
+ */
+ error= 0;
+ *min_rec_lsn= minimum_rec_lsn;
+ *min_first_undo_lsn= minimum_first_undo_lsn;
+ goto end;
+err:
+ error= 1;
+end:
+ mysql_mutex_unlock(&LOCK_trn_list);
+ DBUG_RETURN(error);
+}
+
+
+TRN *trnman_recreate_trn_from_recovery(uint16 shortid, TrID longid)
+{
+ TrID old_trid_generator= global_trid_generator;
+ TRN *trn;
+ DBUG_ASSERT(maria_in_recovery && !maria_multi_threaded);
+ global_trid_generator= longid-1; /* force a correct trid in the new trn */
+ if (unlikely((trn= trnman_new_trn(NULL)) == NULL))
+ return NULL;
+ /* deallocate excessive allocations of trnman_new_trn() */
+ global_trid_generator= old_trid_generator;
+ set_if_bigger(global_trid_generator, longid);
+ short_trid_to_active_trn[trn->short_id]= 0;
+ DBUG_ASSERT(short_trid_to_active_trn[shortid] == NULL);
+ short_trid_to_active_trn[shortid]= trn;
+ trn->short_id= shortid;
+ return trn;
+}
+
+
+TRN *trnman_get_any_trn()
+{
+ TRN *trn= active_list_min.next;
+ return (trn != &active_list_max) ? trn : NULL;
+}
+
+
+/**
+ Returns the minimum existing transaction id. May return a too small
+ number in race conditions, but this is ok as the value is used to
+ remove not visible transid from index/rows.
+*/
+
+TrID trnman_get_min_trid()
+{
+ return trid_min_read_from;
+}
+
+
+/**
+ Returns the minimum possible transaction id
+
+ @notes
+ If there is no transactions running, returns number for next running
+ transaction.
+ If one has an active transaction, the returned number will be less or
+ equal to this. If one is not running in a transaction one will ge the
+ number for the next started transaction. This is used in create table
+ to get a safe minimum trid to use.
+*/
+
+TrID trnman_get_min_safe_trid()
+{
+ TrID trid;
+ mysql_mutex_lock(&LOCK_trn_list);
+ trid= MY_MIN(active_list_min.next->min_read_from,
+ global_trid_generator);
+ mysql_mutex_unlock(&LOCK_trn_list);
+ return trid;
+}
+
+
+/**
+ Returns maximum transaction id given to a transaction so far.
+*/
+
+TrID trnman_get_max_trid()
+{
+ TrID id;
+ /* Check if trnman has been initalized */
+ if (short_trid_to_active_trn == NULL)
+ return 0;
+ mysql_mutex_lock(&LOCK_trn_list);
+ id= global_trid_generator;
+ mysql_mutex_unlock(&LOCK_trn_list);
+ return id;
+}
+
+/**
+ @brief Check if there exist an active transaction between two commit_id's
+
+ @todo
+ Improve speed of this.
+ - Store transactions in tree or skip list
+ - Have function to copying all active transaction id's to b-tree
+ and use b-tree for checking states. This could be a big win
+ for checkpoint that will call this function for a lot of objects.
+
+ @return
+ 0 No transaction exists
+ 1 There is at least on active transaction in the given range
+*/
+
+my_bool trnman_exists_active_transactions(TrID min_id, TrID max_id,
+ my_bool trnman_is_locked)
+{
+ TRN *trn;
+ my_bool ret= 0;
+
+ if (!trnman_is_locked)
+ mysql_mutex_lock(&LOCK_trn_list);
+ mysql_mutex_assert_owner(&LOCK_trn_list);
+ for (trn= active_list_min.next; trn != &active_list_max; trn= trn->next)
+ {
+ /*
+ We use <= for max_id as max_id is a commit_trid and trn->trid
+ is transaction id. When calculating commit_trid we use the
+ current value of global_trid_generator. global_trid_generator is
+ incremented for each new transaction.
+
+ For example, assuming we have
+ min_id = 5
+ max_id = 10
+
+ A trid of value 5 can't see the history event between 5 & 10
+ at it vas started before min_id 5 was committed.
+ A trid of value 10 can't see the next history event (max_id = 10)
+ as it started before this was committed. In this case it must use
+ the this event.
+ */
+ if (trn->trid > min_id && trn->trid <= max_id)
+ {
+ ret= 1;
+ break;
+ }
+ }
+ if (!trnman_is_locked)
+ mysql_mutex_unlock(&LOCK_trn_list);
+ return ret;
+}
+
+
+/**
+ lock transaction list
+*/
+
+void trnman_lock()
+{
+ mysql_mutex_lock(&LOCK_trn_list);
+}
+
+
+/**
+ unlock transaction list
+*/
+
+void trnman_unlock()
+{
+ mysql_mutex_unlock(&LOCK_trn_list);
+}
+
+
+/**
+ Is trman initialized
+*/
+
+my_bool trman_is_inited()
+{
+ return (short_trid_to_active_trn != NULL);
+}