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/* Copyright (C) 2000-2006 MySQL AB

   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., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA */


/* locking functions for mysql */
/*
  Because of the new concurrent inserts, we must first get external locks
  before getting internal locks.  If we do it in the other order, the status
  information is not up to date when called from the lock handler.

  GENERAL DESCRIPTION OF LOCKING

  When not using LOCK TABLES:

  - For each SQL statement mysql_lock_tables() is called for all involved
    tables.
    - mysql_lock_tables() will call
      table_handler->external_lock(thd,locktype) for each table.
      This is followed by a call to thr_multi_lock() for all tables.

  - When statement is done, we call mysql_unlock_tables().
    This will call thr_multi_unlock() followed by
    table_handler->external_lock(thd, F_UNLCK) for each table.

  - Note that mysql_unlock_tables() may be called several times as
    MySQL in some cases can free some tables earlier than others.

  - The above is true both for normal and temporary tables.

  - Temporary non transactional tables are never passed to thr_multi_lock()
    and we never call external_lock(thd, F_UNLOCK) on these.

  When using LOCK TABLES:

  - LOCK TABLE will call mysql_lock_tables() for all tables.
    mysql_lock_tables() will call
    table_handler->external_lock(thd,locktype) for each table.
    This is followed by a call to thr_multi_lock() for all tables.

  - For each statement, we will call table_handler->start_stmt(THD)
    to inform the table handler that we are using the table.

    The tables used can only be tables used in LOCK TABLES or a
    temporary table.

  - When statement is done, we will call ha_commit_stmt(thd);

  - When calling UNLOCK TABLES we call mysql_unlock_tables() for all
    tables used in LOCK TABLES

TODO:
  Change to use my_malloc() ONLY when using LOCK TABLES command or when
  we are forced to use mysql_lock_merge.
*/

#include "mysql_priv.h"
#include <hash.h>
#include <assert.h>

extern HASH open_cache;

/* flags for get_lock_data */
#define GET_LOCK_UNLOCK         1
#define GET_LOCK_STORE_LOCKS    2

static MYSQL_LOCK *get_lock_data(THD *thd, TABLE **table,uint count,
				 uint flags, TABLE **write_locked);
static void reset_lock_data(MYSQL_LOCK *sql_lock);
static int lock_external(THD *thd, TABLE **table,uint count);
static int unlock_external(THD *thd, TABLE **table,uint count);
static void print_lock_error(int error, const char *);

/*
  Lock tables.

  SYNOPSIS
    mysql_lock_tables()
    thd                         The current thread.
    tables                      An array of pointers to the tables to lock.
    count                       The number of tables to lock.
    flags                       Options:
      MYSQL_LOCK_IGNORE_GLOBAL_READ_LOCK      Ignore a global read lock
      MYSQL_LOCK_IGNORE_FLUSH                 Ignore a flush tables.
      MYSQL_LOCK_NOTIFY_IF_NEED_REOPEN        Instead of reopening altered
                                              or dropped tables by itself,
                                              mysql_lock_tables() should
                                              notify upper level and rely
                                              on caller doing this.
    need_reopen                 Out parameter, TRUE if some tables were altered
                                or deleted and should be reopened by caller.

  RETURN
    A lock structure pointer on success.
    NULL on error or if some tables should be reopen.
*/

/* Map the return value of thr_lock to an error from errmsg.txt */
static int thr_lock_errno_to_mysql[]=
{ 0, 1, ER_LOCK_WAIT_TIMEOUT, ER_LOCK_DEADLOCK };

MYSQL_LOCK *mysql_lock_tables(THD *thd, TABLE **tables, uint count,
                              uint flags, bool *need_reopen)
{
  MYSQL_LOCK *sql_lock;
  TABLE *write_lock_used;
  int rc;
  DBUG_ENTER("mysql_lock_tables");

  *need_reopen= FALSE;

  for (;;)
  {
    if (! (sql_lock= get_lock_data(thd, tables, count, GET_LOCK_STORE_LOCKS,
                                   &write_lock_used)))
      break;

    if (global_read_lock && write_lock_used &&
        ! (flags & MYSQL_LOCK_IGNORE_GLOBAL_READ_LOCK))
    {
      /*
	Someone has issued LOCK ALL TABLES FOR READ and we want a write lock
	Wait until the lock is gone
      */
      if (wait_if_global_read_lock(thd, 1, 1))
      {
        /* Clear the lock type of all lock data to avoid reusage. */
        reset_lock_data(sql_lock);
	my_free((gptr) sql_lock,MYF(0));
	sql_lock=0;
	break;
      }
      if (thd->version != refresh_version)
      {
        /* Clear the lock type of all lock data to avoid reusage. */
        reset_lock_data(sql_lock);
	my_free((gptr) sql_lock,MYF(0));
	goto retry;
      }
    }

    if (   write_lock_used
        && opt_readonly
        && ! (thd->security_ctx->master_access & SUPER_ACL)
        && ! thd->slave_thread
       )
    {
      /*
	Someone has issued SET GLOBAL READ_ONLY=1 and we want a write lock.
        We do not wait for READ_ONLY=0, and fail.
      */
      reset_lock_data(sql_lock);
      my_free((gptr) sql_lock, MYF(0));
      sql_lock=0;
      my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--read-only");
      break;
    }

    thd->proc_info="System lock";
    DBUG_PRINT("info", ("thd->proc_info %s", thd->proc_info));
    if (lock_external(thd, tables, count))
    {
      /* Clear the lock type of all lock data to avoid reusage. */
      reset_lock_data(sql_lock);
      my_free((gptr) sql_lock,MYF(0));
      sql_lock=0;
      break;
    }
    thd->proc_info="Table lock";
    DBUG_PRINT("info", ("thd->proc_info %s", thd->proc_info));
    thd->locked=1;
    /* Copy the lock data array. thr_multi_lock() reorders its contens. */
    memcpy(sql_lock->locks + sql_lock->lock_count, sql_lock->locks,
           sql_lock->lock_count * sizeof(*sql_lock->locks));
    /* Lock on the copied half of the lock data array. */
    rc= thr_lock_errno_to_mysql[(int) thr_multi_lock(sql_lock->locks +
                                                     sql_lock->lock_count,
                                                     sql_lock->lock_count,
                                                     thd->lock_id)];
    if (rc > 1)                                 /* a timeout or a deadlock */
    {
      my_error(rc, MYF(0));
      my_free((gptr) sql_lock,MYF(0));
      sql_lock= 0;
      break;
    }
    else if (rc == 1)                           /* aborted */
    {
      thd->some_tables_deleted=1;		// Try again
      sql_lock->lock_count= 0;                  // Locks are already freed
    }
    else if (!thd->some_tables_deleted || (flags & MYSQL_LOCK_IGNORE_FLUSH))
    {
      thd->locked=0;
      break;
    }
    else if (!thd->open_tables)
    {
      // Only using temporary tables, no need to unlock
      thd->some_tables_deleted=0;
      thd->locked=0;
      break;
    }
    thd->proc_info=0;

    /* some table was altered or deleted. reopen tables marked deleted */
    mysql_unlock_tables(thd,sql_lock);
    thd->locked=0;
retry:
    sql_lock=0;
    if (flags & MYSQL_LOCK_NOTIFY_IF_NEED_REOPEN)
    {
      *need_reopen= TRUE;
      break;
    }
    if (wait_for_tables(thd))
      break;					// Couldn't open tables
  }
  thd->proc_info=0;
  if (thd->killed)
  {
    thd->send_kill_message();
    if (sql_lock)
    {
      mysql_unlock_tables(thd,sql_lock);
      sql_lock=0;
    }
  }

  thd->lock_time();
  DBUG_RETURN (sql_lock);
}


static int lock_external(THD *thd, TABLE **tables, uint count)
{
  reg1 uint i;
  int lock_type,error;
  DBUG_ENTER("lock_external");

  DBUG_PRINT("info", ("count %d", count));
  for (i=1 ; i <= count ; i++, tables++)
  {
    DBUG_ASSERT((*tables)->reginfo.lock_type >= TL_READ);
    lock_type=F_WRLCK;				/* Lock exclusive */
    if ((*tables)->db_stat & HA_READ_ONLY ||
	((*tables)->reginfo.lock_type >= TL_READ &&
	 (*tables)->reginfo.lock_type <= TL_READ_NO_INSERT))
      lock_type=F_RDLCK;
    if ((error=(*tables)->file->ha_external_lock(thd,lock_type)))
    {
      print_lock_error(error, (*tables)->file->table_type());
      for (; i-- ; tables--)
      {
	(*tables)->file->ha_external_lock(thd, F_UNLCK);
	(*tables)->current_lock=F_UNLCK;
      }
      DBUG_RETURN(error);
    }
    else
    {
      (*tables)->db_stat &= ~ HA_BLOCK_LOCK;
      (*tables)->current_lock= lock_type;
    }
  }
  DBUG_RETURN(0);
}


void mysql_unlock_tables(THD *thd, MYSQL_LOCK *sql_lock)
{
  DBUG_ENTER("mysql_unlock_tables");
  if (sql_lock->lock_count)
    thr_multi_unlock(sql_lock->locks,sql_lock->lock_count);
  if (sql_lock->table_count)
    VOID(unlock_external(thd,sql_lock->table,sql_lock->table_count));
  my_free((gptr) sql_lock,MYF(0));
  DBUG_VOID_RETURN;
}

/*
  Unlock some of the tables locked by mysql_lock_tables
  This will work even if get_lock_data fails (next unlock will free all)
  */

void mysql_unlock_some_tables(THD *thd, TABLE **table,uint count)
{
  MYSQL_LOCK *sql_lock;
  TABLE *write_lock_used;
  if ((sql_lock= get_lock_data(thd, table, count, GET_LOCK_UNLOCK,
                               &write_lock_used)))
    mysql_unlock_tables(thd, sql_lock);
}


/*
** unlock all tables locked for read.
*/

void mysql_unlock_read_tables(THD *thd, MYSQL_LOCK *sql_lock)
{
  uint i,found;
  DBUG_ENTER("mysql_unlock_read_tables");

  /* Move all write locks first */
  THR_LOCK_DATA **lock=sql_lock->locks;
  for (i=found=0 ; i < sql_lock->lock_count ; i++)
  {
    if (sql_lock->locks[i]->type >= TL_WRITE_ALLOW_READ)
    {
      swap_variables(THR_LOCK_DATA *, *lock, sql_lock->locks[i]);
      lock++;
      found++;
    }
  }
  /* unlock the read locked tables */
  if (i != found)
  {
    thr_multi_unlock(lock,i-found);
    sql_lock->lock_count= found;
  }

  /* Then do the same for the external locks */
  /* Move all write locked tables first */
  TABLE **table=sql_lock->table;
  for (i=found=0 ; i < sql_lock->table_count ; i++)
  {
    DBUG_ASSERT(sql_lock->table[i]->lock_position == i);
    if ((uint) sql_lock->table[i]->reginfo.lock_type >= TL_WRITE_ALLOW_READ)
    {
      swap_variables(TABLE *, *table, sql_lock->table[i]);
      table++;
      found++;
    }
  }
  /* Unlock all read locked tables */
  if (i != found)
  {
    VOID(unlock_external(thd,table,i-found));
    sql_lock->table_count=found;
  }
  /* Fix the lock positions in TABLE */
  table= sql_lock->table;
  found= 0;
  for (i= 0; i < sql_lock->table_count; i++)
  {
    TABLE *tbl= *table;
    tbl->lock_position= table - sql_lock->table;
    tbl->lock_data_start= found;
    found+= tbl->lock_count;
    table++;
  }
  DBUG_VOID_RETURN;
}



void mysql_lock_remove(THD *thd, MYSQL_LOCK *locked,TABLE *table)
{
  mysql_unlock_some_tables(thd, &table,1);
  if (locked)
  {
    reg1 uint i;
    for (i=0; i < locked->table_count; i++)
    {
      if (locked->table[i] == table)
      {
        uint  j, removed_locks, old_tables;
        TABLE *tbl;
        uint lock_data_end;

        DBUG_ASSERT(table->lock_position == i);

        /* Decrement table_count in advance, making below expressions easier */
        old_tables= --locked->table_count;

        /* The table has 'removed_locks' lock data elements in locked->locks */
        removed_locks= table->lock_count;

        /* Move down all table pointers above 'i'. */
	bmove((char*) (locked->table+i),
	      (char*) (locked->table+i+1),
	      (old_tables - i) * sizeof(TABLE*));

        lock_data_end= table->lock_data_start + table->lock_count;
        /* Move down all lock data pointers above 'table->lock_data_end-1' */
        bmove((char*) (locked->locks + table->lock_data_start),
              (char*) (locked->locks + lock_data_end),
              (locked->lock_count - lock_data_end) *
              sizeof(THR_LOCK_DATA*));

        /*
          Fix moved table elements.
          lock_position is the index in the 'locked->table' array,
          it must be fixed by one.
          table->lock_data_start is pointer to the lock data for this table
          in the 'locked->locks' array, they must be fixed by 'removed_locks',
          the lock data count of the removed table.
        */
        for (j= i ; j < old_tables; j++)
        {
          tbl= locked->table[j];
          tbl->lock_position--;
          DBUG_ASSERT(tbl->lock_position == j);
          tbl->lock_data_start-= removed_locks;
        }

        /* Finally adjust lock_count. */
        locked->lock_count-= removed_locks;
	break;
      }
    }
  }
}

/* Downgrade all locks on a table to new WRITE level from WRITE_ONLY */

void mysql_lock_downgrade_write(THD *thd, TABLE *table,
                                thr_lock_type new_lock_type)
{
  MYSQL_LOCK *locked;
  TABLE *write_lock_used;
  if ((locked = get_lock_data(thd,&table,1,1,&write_lock_used)))
  {
    for (uint i=0; i < locked->lock_count; i++)
      thr_downgrade_write_lock(locked->locks[i], new_lock_type);
    my_free((gptr) locked,MYF(0));
  }
}


/* abort all other threads waiting to get lock in table */

void mysql_lock_abort(THD *thd, TABLE *table, bool upgrade_lock)
{
  MYSQL_LOCK *locked;
  TABLE *write_lock_used;
  DBUG_ENTER("mysql_lock_abort");

  if ((locked= get_lock_data(thd, &table, 1, GET_LOCK_UNLOCK,
                             &write_lock_used)))
  {
    for (uint i=0; i < locked->lock_count; i++)
      thr_abort_locks(locked->locks[i]->lock, upgrade_lock);
    my_free((gptr) locked,MYF(0));
  }
  DBUG_VOID_RETURN;
}


/*
  Abort one thread / table combination

  SYNOPSIS
    mysql_lock_abort_for_thread()
    thd		Thread handler
    table	Table that should be removed from lock queue

  RETURN
    0  Table was not locked by another thread
    1  Table was locked by at least one other thread
*/

bool mysql_lock_abort_for_thread(THD *thd, TABLE *table)
{
  MYSQL_LOCK *locked;
  TABLE *write_lock_used;
  bool result= FALSE;
  DBUG_ENTER("mysql_lock_abort_for_thread");

  if ((locked= get_lock_data(thd, &table, 1, GET_LOCK_UNLOCK,
                             &write_lock_used)))
  {
    for (uint i=0; i < locked->lock_count; i++)
    {
      if (thr_abort_locks_for_thread(locked->locks[i]->lock,
                                     table->in_use->thread_id))
        result= TRUE;
    }
    my_free((gptr) locked,MYF(0));
  }
  DBUG_RETURN(result);
}


MYSQL_LOCK *mysql_lock_merge(MYSQL_LOCK *a,MYSQL_LOCK *b)
{
  MYSQL_LOCK *sql_lock;
  TABLE **table, **end_table;
  DBUG_ENTER("mysql_lock_merge");

  if (!(sql_lock= (MYSQL_LOCK*)
	my_malloc(sizeof(*sql_lock)+
		  sizeof(THR_LOCK_DATA*)*(a->lock_count+b->lock_count)+
		  sizeof(TABLE*)*(a->table_count+b->table_count),MYF(MY_WME))))
    DBUG_RETURN(0);				// Fatal error
  sql_lock->lock_count=a->lock_count+b->lock_count;
  sql_lock->table_count=a->table_count+b->table_count;
  sql_lock->locks=(THR_LOCK_DATA**) (sql_lock+1);
  sql_lock->table=(TABLE**) (sql_lock->locks+sql_lock->lock_count);
  memcpy(sql_lock->locks,a->locks,a->lock_count*sizeof(*a->locks));
  memcpy(sql_lock->locks+a->lock_count,b->locks,
	 b->lock_count*sizeof(*b->locks));
  memcpy(sql_lock->table,a->table,a->table_count*sizeof(*a->table));
  memcpy(sql_lock->table+a->table_count,b->table,
	 b->table_count*sizeof(*b->table));

  /*
    Now adjust lock_position and lock_data_start for all objects that was
    moved in 'b' (as there is now all objects in 'a' before these).
  */
  for (table= sql_lock->table + a->table_count,
         end_table= table + b->table_count;
       table < end_table;
       table++)
  {
    (*table)->lock_position+=   a->table_count;
    (*table)->lock_data_start+= a->lock_count;
  }

  /* Delete old, not needed locks */
  my_free((gptr) a,MYF(0));
  my_free((gptr) b,MYF(0));
  DBUG_RETURN(sql_lock);
}


/*
  Find duplicate lock in tables.

  SYNOPSIS
    mysql_lock_have_duplicate()
    thd                         The current thread.
    needle                      The table to check for duplicate lock.
    haystack                    The list of tables to search for the dup lock.

  NOTE
    This is mainly meant for MERGE tables in INSERT ... SELECT
    situations. The 'real', underlying tables can be found only after
    the MERGE tables are opened. This function assumes that the tables are
    already locked.

    Temporary tables are ignored here like they are ignored in
    get_lock_data(). If we allow two opens on temporary tables later,
    both functions should be checked.

  RETURN
    NULL        No duplicate lock found.
    ! NULL      First table from 'haystack' that matches a lock on 'needle'.
*/

TABLE_LIST *mysql_lock_have_duplicate(THD *thd, TABLE_LIST *needle,
                                      TABLE_LIST *haystack)
{
  MYSQL_LOCK            *mylock;
  TABLE                 **lock_tables;
  TABLE                 *table;
  TABLE                 *table2;
  THR_LOCK_DATA         **lock_locks;
  THR_LOCK_DATA         **table_lock_data;
  THR_LOCK_DATA         **end_data;
  THR_LOCK_DATA         **lock_data2;
  THR_LOCK_DATA         **end_data2;
  DBUG_ENTER("mysql_lock_have_duplicate");

  /*
    Table may not be defined for derived or view tables.
    Table may not be part of a lock for delayed operations.
  */
  if (! (table= needle->table) || ! table->lock_count)
    goto end;

  /* A temporary table does not have locks. */
  if (table->s->tmp_table == NON_TRANSACTIONAL_TMP_TABLE)
    goto end;

  /* Get command lock or LOCK TABLES lock. Maybe empty for INSERT DELAYED. */
  if (! (mylock= thd->lock ? thd->lock : thd->locked_tables))
    goto end;

  /* If we have less than two tables, we cannot have duplicates. */
  if (mylock->table_count < 2)
    goto end;

  lock_locks=  mylock->locks;
  lock_tables= mylock->table;

  /* Prepare table related variables that don't change in loop. */
  DBUG_ASSERT((table->lock_position < mylock->table_count) &&
              (table == lock_tables[table->lock_position]));
  table_lock_data= lock_locks + table->lock_data_start;
  end_data= table_lock_data + table->lock_count;

  for (; haystack; haystack= haystack->next_global)
  {
    if (haystack->placeholder())
      continue;
    table2= haystack->table;
    if (table2->s->tmp_table == NON_TRANSACTIONAL_TMP_TABLE)
      continue;

    /* All tables in list must be in lock. */
    DBUG_ASSERT((table2->lock_position < mylock->table_count) &&
                (table2 == lock_tables[table2->lock_position]));

    for (lock_data2=  lock_locks + table2->lock_data_start,
           end_data2= lock_data2 + table2->lock_count;
         lock_data2 < end_data2;
         lock_data2++)
    {
      THR_LOCK_DATA **lock_data;
      THR_LOCK *lock2= (*lock_data2)->lock;

      for (lock_data= table_lock_data;
           lock_data < end_data;
           lock_data++)
      {
        if ((*lock_data)->lock == lock2)
        {
          DBUG_PRINT("info", ("haystack match: '%s'", haystack->table_name));
          DBUG_RETURN(haystack);
        }
      }
    }
  }

 end:
  DBUG_PRINT("info", ("no duplicate found"));
  DBUG_RETURN(NULL);
}


	/* unlock a set of external */

static int unlock_external(THD *thd, TABLE **table,uint count)
{
  int error,error_code;
  DBUG_ENTER("unlock_external");

  error_code=0;
  do
  {
    if ((*table)->current_lock != F_UNLCK)
    {
      (*table)->current_lock = F_UNLCK;
      if ((error=(*table)->file->ha_external_lock(thd, F_UNLCK)))
      {
	error_code=error;
	print_lock_error(error_code, (*table)->file->table_type());
      }
    }
    table++;
  } while (--count);
  DBUG_RETURN(error_code);
}


/*
  Get lock structures from table structs and initialize locks

  SYNOPSIS
    get_lock_data()
    thd			Thread handler
    table_ptr		Pointer to tables that should be locks
    flags		One of:
			GET_LOCK_UNLOCK:      If we should send TL_IGNORE to
                        		      store lock
			GET_LOCK_STORE_LOCKS: Store lock info in TABLE
    write_lock_used	Store pointer to last table with WRITE_ALLOW_WRITE
*/


static MYSQL_LOCK *get_lock_data(THD *thd, TABLE **table_ptr, uint count,
				 uint flags, TABLE **write_lock_used)
{
  uint i,tables,lock_count;
  MYSQL_LOCK *sql_lock;
  THR_LOCK_DATA **locks, **locks_buf, **locks_start;
  TABLE **to, **table_buf;
  DBUG_ENTER("get_lock_data");

  DBUG_PRINT("info", ("count %d", count));
  *write_lock_used=0;
  uint system_count= 0;
  for (i=tables=lock_count=0 ; i < count ; i++)
  {
    if (table_ptr[i]->s->tmp_table != NON_TRANSACTIONAL_TMP_TABLE)
    {
      tables+=table_ptr[i]->file->lock_count();
      lock_count++;
    }
    /*
      Check if we can lock the table. For some tables we cannot do that
      beacause of handler-specific locking issues.
    */
    if (!table_ptr[i]-> file->
          check_if_locking_is_allowed(thd->lex->sql_command, thd->lex->type,
                                      table_ptr[i], count, i, &system_count,
                                      (thd == logger.get_general_log_thd()) ||
                                      (thd == logger.get_slow_log_thd()) ||
                                      (thd == logger.get_privileged_thread())))
      DBUG_RETURN(0);
  }

  /*
    Allocating twice the number of pointers for lock data for use in
    thr_mulit_lock(). This function reorders the lock data, but cannot
    update the table values. So the second part of the array is copied
    from the first part immediately before calling thr_multi_lock().
  */
  if (!(sql_lock= (MYSQL_LOCK*)
	my_malloc(sizeof(*sql_lock) +
		  sizeof(THR_LOCK_DATA*) * tables * 2 +
                  sizeof(table_ptr) * lock_count,
		  MYF(0))))
    DBUG_RETURN(0);
  locks= locks_buf= sql_lock->locks= (THR_LOCK_DATA**) (sql_lock + 1);
  to= table_buf= sql_lock->table= (TABLE**) (locks + tables * 2);
  sql_lock->table_count=lock_count;
  sql_lock->lock_count=tables;
  DBUG_PRINT("info", ("sql_lock->table_count %d sql_lock->lock_count %d",
                      sql_lock->table_count, sql_lock->lock_count));

  for (i=0 ; i < count ; i++)
  {
    TABLE *table;
    enum thr_lock_type lock_type;

    if ((table=table_ptr[i])->s->tmp_table == NON_TRANSACTIONAL_TMP_TABLE)
      continue;
    lock_type= table->reginfo.lock_type;
    if (lock_type >= TL_WRITE_ALLOW_WRITE)
    {
      *write_lock_used=table;
      if (table->db_stat & HA_READ_ONLY)
      {
	my_error(ER_OPEN_AS_READONLY,MYF(0),table->alias);
        /* Clear the lock type of the lock data that are stored already. */
        sql_lock->lock_count= locks - sql_lock->locks;
        reset_lock_data(sql_lock);
	my_free((gptr) sql_lock,MYF(0));
	DBUG_RETURN(0);
      }
    }
    THR_LOCK_DATA **org_locks = locks;
    locks_start= locks;
    locks= table->file->store_lock(thd, locks,
                                   (flags & GET_LOCK_UNLOCK) ? TL_IGNORE :
                                   lock_type);
    if (flags & GET_LOCK_STORE_LOCKS)
    {
      table->lock_position=   (uint) (to - table_buf);
      table->lock_data_start= (uint) (locks_start - locks_buf);
      table->lock_count=      (uint) (locks - locks_start);
    }
    *to++= table;
    if (locks)
      for ( ; org_locks != locks ; org_locks++)
	(*org_locks)->debug_print_param= (void *) table;
  }
  DBUG_RETURN(sql_lock);
}


/*
  Reset lock type in lock data.

  SYNOPSIS
    reset_lock_data()
      sql_lock                  The MySQL lock.

  DESCRIPTION

    After a locking error we want to quit the locking of the table(s).
    The test case in the bug report for Bug #18544 has the following
    cases: 1. Locking error in lock_external() due to InnoDB timeout.
    2. Locking error in get_lock_data() due to missing write permission.
    3. Locking error in wait_if_global_read_lock() due to lock conflict.

    In all these cases we have already set the lock type into the lock
    data of the open table(s). If the table(s) are in the open table
    cache, they could be reused with the non-zero lock type set. This
    could lead to ignoring a different lock type with the next lock.

    Clear the lock type of all lock data. This ensures that the next
    lock request will set its lock type properly.

  RETURN
    void
*/

static void reset_lock_data(MYSQL_LOCK *sql_lock)
{
  THR_LOCK_DATA **ldata;
  THR_LOCK_DATA **ldata_end;

  for (ldata= sql_lock->locks, ldata_end= ldata + sql_lock->lock_count;
       ldata < ldata_end;
       ldata++)
  {
    /* Reset lock type. */
    (*ldata)->type= TL_UNLOCK;
  }
}


/*****************************************************************************
  Lock table based on the name.
  This is used when we need total access to a closed, not open table
*****************************************************************************/

/*
  Lock and wait for the named lock.

  SYNOPSIS
    lock_and_wait_for_table_name()
    thd			Thread handler
    table_list		Lock first table in this list


  NOTES
    Works together with global read lock.

  RETURN
    0	ok
    1	error
*/

int lock_and_wait_for_table_name(THD *thd, TABLE_LIST *table_list)
{
  int lock_retcode;
  int error= -1;
  DBUG_ENTER("lock_and_wait_for_table_name");

  if (wait_if_global_read_lock(thd, 0, 1))
    DBUG_RETURN(1);
  VOID(pthread_mutex_lock(&LOCK_open));
  if ((lock_retcode = lock_table_name(thd, table_list, TRUE)) < 0)
    goto end;
  if (lock_retcode && wait_for_locked_table_names(thd, table_list))
  {
    unlock_table_name(thd, table_list);
    goto end;
  }
  error=0;

end:
  pthread_mutex_unlock(&LOCK_open);
  start_waiting_global_read_lock(thd);
  DBUG_RETURN(error);
}


/*
  Put a not open table with an old refresh version in the table cache.

  SYNPOSIS
    lock_table_name()
    thd			Thread handler
    table_list		Lock first table in this list
    check_in_use        Do we need to check if table already in use by us

  WARNING
    If you are going to update the table, you should use
    lock_and_wait_for_table_name instead of this function as this works
    together with 'FLUSH TABLES WITH READ LOCK'

  NOTES
    This will force any other threads that uses the table to release it
    as soon as possible.

  REQUIREMENTS
    One must have a lock on LOCK_open !

  RETURN:
    < 0 error
    == 0 table locked
    > 0  table locked, but someone is using it
*/

int lock_table_name(THD *thd, TABLE_LIST *table_list, bool check_in_use)
{
  TABLE *table;
  TABLE_SHARE *share;
  char *key_buff;
  char  key[MAX_DBKEY_LENGTH];
  char *db= table_list->db;
  uint  key_length;
  HASH_SEARCH_STATE state;
  DBUG_ENTER("lock_table_name");
  DBUG_PRINT("enter",("db: %s  name: %s", db, table_list->table_name));

  key_length= create_table_def_key(thd, key, table_list, 0);

  if (check_in_use)
  {
    /* Only insert the table if we haven't insert it already */
    for (table=(TABLE*) hash_first(&open_cache, (byte*)key,
                                   key_length, &state);
         table ;
         table = (TABLE*) hash_next(&open_cache,(byte*) key,
                                    key_length, &state))
    {
      if (table->in_use == thd)
      {
        DBUG_PRINT("info", ("Table is in use"));
        table->s->version= 0;                  // Ensure no one can use this
        table->locked_by_name= 1;
        DBUG_RETURN(0);
      }
    }
  }
  /*
    Create a table entry with the right key and with an old refresh version
    Note that we must use my_multi_malloc() here as this is freed by the
    table cache
  */
  if (!my_multi_malloc(MYF(MY_WME | MY_ZEROFILL),
                       &table, sizeof(*table),
                       &share, sizeof(*share),
                       &key_buff, key_length,
                       NULL))
    DBUG_RETURN(-1);
  table->s= share;
  share->set_table_cache_key(key_buff, key, key_length);
  share->tmp_table= INTERNAL_TMP_TABLE;  // for intern_close_table
  table->in_use= thd;
  table->locked_by_name=1;
  table_list->table=table;

  if (my_hash_insert(&open_cache, (byte*) table))
  {
    my_free((gptr) table,MYF(0));
    DBUG_RETURN(-1);
  }

  /* Return 1 if table is in use */
  DBUG_RETURN(test(remove_table_from_cache(thd, db, table_list->table_name,
             check_in_use ? RTFC_NO_FLAG : RTFC_WAIT_OTHER_THREAD_FLAG)));
}


void unlock_table_name(THD *thd, TABLE_LIST *table_list)
{
  if (table_list->table)
  {
    hash_delete(&open_cache, (byte*) table_list->table);
    broadcast_refresh();
  }
}


static bool locked_named_table(THD *thd, TABLE_LIST *table_list)
{
  for (; table_list ; table_list=table_list->next_local)
  {
    TABLE *table= table_list->table;
    if (table)
    {
      TABLE *save_next= table->next;
      bool result;
      table->next= 0;
      result= table_is_used(table_list->table, 0);
      table->next= save_next;
      if (result)
        return 1;
    }
  }
  return 0;					// All tables are locked
}


bool wait_for_locked_table_names(THD *thd, TABLE_LIST *table_list)
{
  bool result=0;
  DBUG_ENTER("wait_for_locked_table_names");

  safe_mutex_assert_owner(&LOCK_open);

  while (locked_named_table(thd,table_list))
  {
    if (thd->killed)
    {
      result=1;
      break;
    }
    wait_for_condition(thd, &LOCK_open, &COND_refresh);
    pthread_mutex_lock(&LOCK_open);
  }
  DBUG_RETURN(result);
}


/*
  Lock all tables in list with a name lock

  SYNOPSIS
    lock_table_names()
    thd			Thread handle
    table_list		Names of tables to lock

  NOTES
    If you are just locking one table, you should use
    lock_and_wait_for_table_name().

  REQUIREMENTS
    One must have a lock on LOCK_open when calling this

  RETURN
    0	ok
    1	Fatal error (end of memory ?)
*/

bool lock_table_names(THD *thd, TABLE_LIST *table_list)
{
  bool got_all_locks=1;
  TABLE_LIST *lock_table;

  for (lock_table= table_list; lock_table; lock_table= lock_table->next_local)
  {
    int got_lock;
    if ((got_lock=lock_table_name(thd,lock_table, TRUE)) < 0)
      goto end;					// Fatal error
    if (got_lock)
      got_all_locks=0;				// Someone is using table
  }

  /* If some table was in use, wait until we got the lock */
  if (!got_all_locks && wait_for_locked_table_names(thd, table_list))
    goto end;
  return 0;

end:
  unlock_table_names(thd, table_list, lock_table);
  return 1;
}


/*
  Unlock all tables in list with a name lock

  SYNOPSIS
    unlock_table_names()
    thd			Thread handle
    table_list		Names of tables to unlock
    last_table		Don't unlock any tables after this one.
			(default 0, which will unlock all tables)

  NOTES
    One must have a lock on LOCK_open when calling this.
    This function will broadcast refresh signals to inform other threads
    that the name locks are removed.

  RETURN
    0	ok
    1	Fatal error (end of memory ?)
*/

void unlock_table_names(THD *thd, TABLE_LIST *table_list,
			TABLE_LIST *last_table)
{
  DBUG_ENTER("unlock_table_names");
  for (TABLE_LIST *table= table_list;
       table != last_table;
       table= table->next_local)
    unlock_table_name(thd,table);
  broadcast_refresh();
  DBUG_VOID_RETURN;
}


static void print_lock_error(int error, const char *table)
{
  int textno;
  DBUG_ENTER("print_lock_error");

  switch (error) {
  case HA_ERR_LOCK_WAIT_TIMEOUT:
    textno=ER_LOCK_WAIT_TIMEOUT;
    break;
  case HA_ERR_READ_ONLY_TRANSACTION:
    textno=ER_READ_ONLY_TRANSACTION;
    break;
  case HA_ERR_LOCK_DEADLOCK:
    textno=ER_LOCK_DEADLOCK;
    break;
  case HA_ERR_WRONG_COMMAND:
    textno=ER_ILLEGAL_HA;
    break;
  default:
    textno=ER_CANT_LOCK;
    break;
  }

  if ( textno == ER_ILLEGAL_HA )
    my_error(textno, MYF(ME_BELL+ME_OLDWIN+ME_WAITTANG), table);
  else
    my_error(textno, MYF(ME_BELL+ME_OLDWIN+ME_WAITTANG), error);

  DBUG_VOID_RETURN;
}


/****************************************************************************
  Handling of global read locks

  Taking the global read lock is TWO steps (2nd step is optional; without
  it, COMMIT of existing transactions will be allowed):
  lock_global_read_lock() THEN make_global_read_lock_block_commit().

  The global locks are handled through the global variables:
  global_read_lock
    count of threads which have the global read lock (i.e. have completed at
    least the first step above)
  global_read_lock_blocks_commit
    count of threads which have the global read lock and block
    commits (i.e. are in or have completed the second step above)
  waiting_for_read_lock
    count of threads which want to take a global read lock but cannot
  protect_against_global_read_lock
    count of threads which have set protection against global read lock.

  access to them is protected with a mutex LOCK_global_read_lock

  (XXX: one should never take LOCK_open if LOCK_global_read_lock is
  taken, otherwise a deadlock may occur. Other mutexes could be a
  problem too - grep the code for global_read_lock if you want to use
  any other mutex here) Also one must not hold LOCK_open when calling
  wait_if_global_read_lock(). When the thread with the global read lock
  tries to close its tables, it needs to take LOCK_open in
  close_thread_table().

  How blocking of threads by global read lock is achieved: that's
  advisory. Any piece of code which should be blocked by global read lock must
  be designed like this:
  - call to wait_if_global_read_lock(). When this returns 0, no global read
  lock is owned; if argument abort_on_refresh was 0, none can be obtained.
  - job
  - if abort_on_refresh was 0, call to start_waiting_global_read_lock() to
  allow other threads to get the global read lock. I.e. removal of the
  protection.
  (Note: it's a bit like an implementation of rwlock).

  [ I am sorry to mention some SQL syntaxes below I know I shouldn't but found
  no better descriptive way ]

  Why does FLUSH TABLES WITH READ LOCK need to block COMMIT: because it's used
  to read a non-moving SHOW MASTER STATUS, and a COMMIT writes to the binary
  log.

  Why getting the global read lock is two steps and not one. Because FLUSH
  TABLES WITH READ LOCK needs to insert one other step between the two:
  flushing tables. So the order is
  1) lock_global_read_lock() (prevents any new table write locks, i.e. stalls
  all new updates)
  2) close_cached_tables() (the FLUSH TABLES), which will wait for tables
  currently opened and being updated to close (so it's possible that there is
  a moment where all new updates of server are stalled *and* FLUSH TABLES WITH
  READ LOCK is, too).
  3) make_global_read_lock_block_commit().
  If we have merged 1) and 3) into 1), we would have had this deadlock:
  imagine thread 1 and 2, in non-autocommit mode, thread 3, and an InnoDB
  table t.
  thd1: SELECT * FROM t FOR UPDATE;
  thd2: UPDATE t SET a=1; # blocked by row-level locks of thd1
  thd3: FLUSH TABLES WITH READ LOCK; # blocked in close_cached_tables() by the
  table instance of thd2
  thd1: COMMIT; # blocked by thd3.
  thd1 blocks thd2 which blocks thd3 which blocks thd1: deadlock.

  Note that we need to support that one thread does
  FLUSH TABLES WITH READ LOCK; and then COMMIT;
  (that's what innobackup does, for some good reason).
  So in this exceptional case the COMMIT should not be blocked by the FLUSH
  TABLES WITH READ LOCK.

****************************************************************************/

volatile uint global_read_lock=0;
volatile uint global_read_lock_blocks_commit=0;
static volatile uint protect_against_global_read_lock=0;
static volatile uint waiting_for_read_lock=0;

#define GOT_GLOBAL_READ_LOCK               1
#define MADE_GLOBAL_READ_LOCK_BLOCK_COMMIT 2

bool lock_global_read_lock(THD *thd)
{
  DBUG_ENTER("lock_global_read_lock");

  if (!thd->global_read_lock)
  {
    const char *old_message;
    (void) pthread_mutex_lock(&LOCK_global_read_lock);
    old_message=thd->enter_cond(&COND_global_read_lock, &LOCK_global_read_lock,
                                "Waiting to get readlock");
    DBUG_PRINT("info",
	       ("waiting_for: %d  protect_against: %d",
		waiting_for_read_lock, protect_against_global_read_lock));

    waiting_for_read_lock++;
    while (protect_against_global_read_lock && !thd->killed)
      pthread_cond_wait(&COND_global_read_lock, &LOCK_global_read_lock);
    waiting_for_read_lock--;
    if (thd->killed)
    {
      thd->exit_cond(old_message);
      DBUG_RETURN(1);
    }
    thd->global_read_lock= GOT_GLOBAL_READ_LOCK;
    global_read_lock++;
    thd->exit_cond(old_message); // this unlocks LOCK_global_read_lock
  }
  /*
    We DON'T set global_read_lock_blocks_commit now, it will be set after
    tables are flushed (as the present function serves for FLUSH TABLES WITH
    READ LOCK only). Doing things in this order is necessary to avoid
    deadlocks (we must allow COMMIT until all tables are closed; we should not
    forbid it before, or we can have a 3-thread deadlock if 2 do SELECT FOR
    UPDATE and one does FLUSH TABLES WITH READ LOCK).
  */
  DBUG_RETURN(0);
}


void unlock_global_read_lock(THD *thd)
{
  uint tmp;
  DBUG_ENTER("unlock_global_read_lock");
  DBUG_PRINT("info",
             ("global_read_lock: %u  global_read_lock_blocks_commit: %u",
              global_read_lock, global_read_lock_blocks_commit));

  pthread_mutex_lock(&LOCK_global_read_lock);
  tmp= --global_read_lock;
  if (thd->global_read_lock == MADE_GLOBAL_READ_LOCK_BLOCK_COMMIT)
    --global_read_lock_blocks_commit;
  pthread_mutex_unlock(&LOCK_global_read_lock);
  /* Send the signal outside the mutex to avoid a context switch */
  if (!tmp)
  {
    DBUG_PRINT("signal", ("Broadcasting COND_global_read_lock"));
    pthread_cond_broadcast(&COND_global_read_lock);
  }
  thd->global_read_lock= 0;

  DBUG_VOID_RETURN;
}

#define must_wait (global_read_lock &&                             \
                   (is_not_commit ||                               \
                    global_read_lock_blocks_commit))

bool wait_if_global_read_lock(THD *thd, bool abort_on_refresh,
                              bool is_not_commit)
{
  const char *old_message;
  bool result= 0, need_exit_cond;
  DBUG_ENTER("wait_if_global_read_lock");

  LINT_INIT(old_message);
  /*
    Assert that we do not own LOCK_open. If we would own it, other
    threads could not close their tables. This would make a pretty
    deadlock.
  */
  safe_mutex_assert_not_owner(&LOCK_open);

  (void) pthread_mutex_lock(&LOCK_global_read_lock);
  if ((need_exit_cond= must_wait))
  {
    if (thd->global_read_lock)		// This thread had the read locks
    {
      if (is_not_commit)
        my_message(ER_CANT_UPDATE_WITH_READLOCK,
                   ER(ER_CANT_UPDATE_WITH_READLOCK), MYF(0));
      (void) pthread_mutex_unlock(&LOCK_global_read_lock);
      /*
        We allow FLUSHer to COMMIT; we assume FLUSHer knows what it does.
        This allowance is needed to not break existing versions of innobackup
        which do a BEGIN; INSERT; FLUSH TABLES WITH READ LOCK; COMMIT.
      */
      DBUG_RETURN(is_not_commit);
    }
    old_message=thd->enter_cond(&COND_global_read_lock, &LOCK_global_read_lock,
				"Waiting for release of readlock");
    while (must_wait && ! thd->killed &&
	   (!abort_on_refresh || thd->version == refresh_version))
    {
      DBUG_PRINT("signal", ("Waiting for COND_global_read_lock"));
      (void) pthread_cond_wait(&COND_global_read_lock, &LOCK_global_read_lock);
      DBUG_PRINT("signal", ("Got COND_global_read_lock"));
    }
    if (thd->killed)
      result=1;
  }
  if (!abort_on_refresh && !result)
    protect_against_global_read_lock++;
  /*
    The following is only true in case of a global read locks (which is rare)
    and if old_message is set
  */
  if (unlikely(need_exit_cond))
    thd->exit_cond(old_message); // this unlocks LOCK_global_read_lock
  else
    pthread_mutex_unlock(&LOCK_global_read_lock);
  DBUG_RETURN(result);
}


void start_waiting_global_read_lock(THD *thd)
{
  bool tmp;
  DBUG_ENTER("start_waiting_global_read_lock");
  if (unlikely(thd->global_read_lock))
    DBUG_VOID_RETURN;
  (void) pthread_mutex_lock(&LOCK_global_read_lock);
  tmp= (!--protect_against_global_read_lock &&
        (waiting_for_read_lock || global_read_lock_blocks_commit));
  (void) pthread_mutex_unlock(&LOCK_global_read_lock);
  if (tmp)
    pthread_cond_broadcast(&COND_global_read_lock);
  DBUG_VOID_RETURN;
}


bool make_global_read_lock_block_commit(THD *thd)
{
  bool error;
  const char *old_message;
  DBUG_ENTER("make_global_read_lock_block_commit");
  /*
    If we didn't succeed lock_global_read_lock(), or if we already suceeded
    make_global_read_lock_block_commit(), do nothing.
  */
  if (thd->global_read_lock != GOT_GLOBAL_READ_LOCK)
    DBUG_RETURN(0);
  pthread_mutex_lock(&LOCK_global_read_lock);
  /* increment this BEFORE waiting on cond (otherwise race cond) */
  global_read_lock_blocks_commit++;
  /* For testing we set up some blocking, to see if we can be killed */
  DBUG_EXECUTE_IF("make_global_read_lock_block_commit_loop",
                  protect_against_global_read_lock++;);
  old_message= thd->enter_cond(&COND_global_read_lock, &LOCK_global_read_lock,
                               "Waiting for all running commits to finish");
  while (protect_against_global_read_lock && !thd->killed)
    pthread_cond_wait(&COND_global_read_lock, &LOCK_global_read_lock);
  DBUG_EXECUTE_IF("make_global_read_lock_block_commit_loop",
                  protect_against_global_read_lock--;);
  if ((error= test(thd->killed)))
    global_read_lock_blocks_commit--; // undo what we did
  else
    thd->global_read_lock= MADE_GLOBAL_READ_LOCK_BLOCK_COMMIT;
  thd->exit_cond(old_message); // this unlocks LOCK_global_read_lock
  DBUG_RETURN(error);
}


/*
  Broadcast COND_refresh and COND_global_read_lock.

  SYNOPSIS
    broadcast_refresh()
      void                      No parameters.

  DESCRIPTION
    Due to a bug in a threading library it could happen that a signal
    did not reach its target. A condition for this was that the same
    condition variable was used with different mutexes in
    pthread_cond_wait(). Some time ago we changed LOCK_open to
    LOCK_global_read_lock in global read lock handling. So COND_refresh
    was used with LOCK_open and LOCK_global_read_lock.

    We did now also change from COND_refresh to COND_global_read_lock
    in global read lock handling. But now it is necessary to signal
    both conditions at the same time.

  NOTE
    When signalling COND_global_read_lock within the global read lock
    handling, it is not necessary to also signal COND_refresh.

  RETURN
    void
*/

void broadcast_refresh(void)
{
  VOID(pthread_cond_broadcast(&COND_refresh));
  VOID(pthread_cond_broadcast(&COND_global_read_lock));
}