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/* Copyright (C) 2000-2008 MySQL AB, 2008-2009 Sun Microsystems, Inc.
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   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
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   the Free Software Foundation; version 2 of the License.
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   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.
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   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 */


/*****************************************************************************
**
** This file implements classes defined in sql_class.h
** Especially the classes to handle a result from a select
**
*****************************************************************************/

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#ifdef USE_PRAGMA_IMPLEMENTATION
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#pragma implementation				// gcc: Class implementation
#endif

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#include "my_global.h"                          /* NO_EMBEDDED_ACCESS_CHECKS */
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#include "sql_priv.h"
#include "unireg.h"                    // REQUIRED: for other includes
#include "sql_class.h"
#include "lock.h"      // unlock_global_read_lock, mysql_unlock_tables
#include "sql_cache.h"                          // query_cache_abort
#include "sql_base.h"                           // close_thread_tables
#include "sql_time.h"                         // date_time_format_copy
#include "sql_acl.h"                          // NO_ACCESS,
                                              // acl_getroot_no_password
#include "sql_base.h"                         // close_temporary_tables
#include "sql_handler.h"                      // mysql_ha_cleanup
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#include "rpl_rli.h"
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#include "rpl_filter.h"
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#include "rpl_record.h"
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#include "slave.h"
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#include <my_bitmap.h>
#include "log_event.h"
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#include "sql_audit.h"
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#include <m_ctype.h>
#include <sys/stat.h>
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#include <thr_alarm.h>
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#ifdef	__WIN__
#include <io.h>
#endif
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#include <mysys_err.h>
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#include <limits.h>
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#include "sp_rcontext.h"
#include "sp_cache.h"
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#include "transaction.h"
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#include "debug_sync.h"
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#include "sql_parse.h"                          // is_update_query
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/*
  The following is used to initialise Table_ident with a internal
  table name
*/
char internal_table_name[2]= "*";
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char empty_c_string[1]= {0};    /* used for not defined db */
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const char * const THD::DEFAULT_WHERE= "field list";

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/*****************************************************************************
** Instansiate templates
*****************************************************************************/

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#ifdef HAVE_EXPLICIT_TEMPLATE_INSTANTIATION
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/* Used templates */
template class List<Key>;
template class List_iterator<Key>;
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template class List<Key_part_spec>;
template class List_iterator<Key_part_spec>;
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template class List<Alter_drop>;
template class List_iterator<Alter_drop>;
template class List<Alter_column>;
template class List_iterator<Alter_column>;
#endif

/****************************************************************************
** User variables
****************************************************************************/

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extern "C" uchar *get_var_key(user_var_entry *entry, size_t *length,
                              my_bool not_used __attribute__((unused)))
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{
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  *length= entry->name.length;
  return (uchar*) entry->name.str;
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}

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extern "C" void free_user_var(user_var_entry *entry)
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{
  char *pos= (char*) entry+ALIGN_SIZE(sizeof(*entry));
  if (entry->value && entry->value != pos)
    my_free(entry->value, MYF(0));
  my_free((char*) entry,MYF(0));
}

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bool Key_part_spec::operator==(const Key_part_spec& other) const
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{
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  return length == other.length &&
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         !my_strcasecmp(system_charset_info, field_name.str,
                        other.field_name.str);
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}

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/**
  Construct an (almost) deep copy of this key. Only those
  elements that are known to never change are not copied.
  If out of memory, a partial copy is returned and an error is set
  in THD.
*/

Key::Key(const Key &rhs, MEM_ROOT *mem_root)
  :type(rhs.type),
  key_create_info(rhs.key_create_info),
  columns(rhs.columns, mem_root),
  name(rhs.name),
  generated(rhs.generated)
{
  list_copy_and_replace_each_value(columns, mem_root);
}

/**
  Construct an (almost) deep copy of this foreign key. Only those
  elements that are known to never change are not copied.
  If out of memory, a partial copy is returned and an error is set
  in THD.
*/

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Foreign_key::Foreign_key(const Foreign_key &rhs, MEM_ROOT *mem_root)
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  :Key(rhs),
  ref_table(rhs.ref_table),
  ref_columns(rhs.ref_columns),
  delete_opt(rhs.delete_opt),
  update_opt(rhs.update_opt),
  match_opt(rhs.match_opt)
{
  list_copy_and_replace_each_value(ref_columns, mem_root);
}
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/*
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  Test if a foreign key (= generated key) is a prefix of the given key
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  (ignoring key name, key type and order of columns)

  NOTES:
    This is only used to test if an index for a FOREIGN KEY exists

  IMPLEMENTATION
    We only compare field names

  RETURN
    0	Generated key is a prefix of other key
    1	Not equal
*/

bool foreign_key_prefix(Key *a, Key *b)
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{
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  /* Ensure that 'a' is the generated key */
  if (a->generated)
  {
    if (b->generated && a->columns.elements > b->columns.elements)
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      swap_variables(Key*, a, b);               // Put shorter key in 'a'
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  }
  else
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  {
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    if (!b->generated)
      return TRUE;                              // No foreign key
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    swap_variables(Key*, a, b);                 // Put generated key in 'a'
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  }

  /* Test if 'a' is a prefix of 'b' */
  if (a->columns.elements > b->columns.elements)
    return TRUE;                                // Can't be prefix

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  List_iterator<Key_part_spec> col_it1(a->columns);
  List_iterator<Key_part_spec> col_it2(b->columns);
  const Key_part_spec *col1, *col2;
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#ifdef ENABLE_WHEN_INNODB_CAN_HANDLE_SWAPED_FOREIGN_KEY_COLUMNS
  while ((col1= col_it1++))
  {
    bool found= 0;
    col_it2.rewind();
    while ((col2= col_it2++))
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    {
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      if (*col1 == *col2)
      {
        found= TRUE;
	break;
      }
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    }
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    if (!found)
      return TRUE;                              // Error
  }
  return FALSE;                                 // Is prefix
#else
  while ((col1= col_it1++))
  {
    col2= col_it2++;
    if (!(*col1 == *col2))
      return TRUE;
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  }
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  return FALSE;                                 // Is prefix
#endif
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}


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/****************************************************************************
** Thread specific functions
****************************************************************************/
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/*
  The following functions form part of the C plugin API
*/

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extern "C" int mysql_tmpfile(const char *prefix)
{
  char filename[FN_REFLEN];
  File fd = create_temp_file(filename, mysql_tmpdir, prefix,
#ifdef __WIN__
                             O_BINARY | O_TRUNC | O_SEQUENTIAL |
                             O_SHORT_LIVED |
#endif /* __WIN__ */
                             O_CREAT | O_EXCL | O_RDWR | O_TEMPORARY,
                             MYF(MY_WME));
  if (fd >= 0) {
#ifndef __WIN__
    /*
      This can be removed once the following bug is fixed:
      Bug #28903  create_temp_file() doesn't honor O_TEMPORARY option
                  (file not removed) (Unix)
    */
    unlink(filename);
#endif /* !__WIN__ */
  }

  return fd;
}


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extern "C"
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int thd_in_lock_tables(const THD *thd)
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{
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  return test(thd->in_lock_tables);
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}


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extern "C"
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int thd_tablespace_op(const THD *thd)
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{
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  return test(thd->tablespace_op);
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}


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extern "C"
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const char *set_thd_proc_info(THD *thd, const char *info,
                              const char *calling_function,
                              const char *calling_file,
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                              const unsigned int calling_line)
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{
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  if (!thd)
    thd= current_thd;

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  const char *old_info= thd->proc_info;
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  DBUG_PRINT("proc_info", ("%s:%d  %s", calling_file, calling_line,
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                           (info != NULL) ? info : "(null)"));
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#if defined(ENABLED_PROFILING)
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  thd->profiling.status_change(info, calling_function, calling_file, calling_line);
#endif
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  thd->proc_info= info;
  return old_info;
}

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extern "C"
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const char* thd_enter_cond(MYSQL_THD thd, mysql_cond_t *cond,
                           mysql_mutex_t *mutex, const char *msg)
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{
  if (!thd)
    thd= current_thd;

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  return thd->enter_cond(cond, mutex, msg);
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}

extern "C"
void thd_exit_cond(MYSQL_THD thd, const char *old_msg)
{
  if (!thd)
    thd= current_thd;

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  thd->exit_cond(old_msg);
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  return;
}

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extern "C"
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void **thd_ha_data(const THD *thd, const struct handlerton *hton)
{
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  return (void **) &thd->ha_data[hton->slot].ha_ptr;
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}

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/**
  Provide a handler data getter to simplify coding
*/
extern "C"
void *thd_get_ha_data(const THD *thd, const struct handlerton *hton)
{
  return *thd_ha_data(thd, hton);
}


/**
  Provide a handler data setter to simplify coding
  @see thd_set_ha_data() definition in plugin.h
*/
extern "C"
void thd_set_ha_data(THD *thd, const struct handlerton *hton,
                     const void *ha_data)
{
  plugin_ref *lock= &thd->ha_data[hton->slot].lock;
  if (ha_data && !*lock)
    *lock= ha_lock_engine(NULL, (handlerton*) hton);
  else if (!ha_data && *lock)
  {
    plugin_unlock(NULL, *lock);
    *lock= NULL;
  }
  *thd_ha_data(thd, hton)= (void*) ha_data;
}


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extern "C"
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long long thd_test_options(const THD *thd, long long test_options)
{
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  return thd->variables.option_bits & test_options;
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}

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extern "C"
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int thd_sql_command(const THD *thd)
{
  return (int) thd->lex->sql_command;
}

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extern "C"
int thd_tx_isolation(const THD *thd)
{
  return (int) thd->variables.tx_isolation;
}

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extern "C"
void thd_inc_row_count(THD *thd)
{
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  thd->warning_info->inc_current_row_for_warning();
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}
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/**
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  Dumps a text description of a thread, its security context
  (user, host) and the current query.
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  @param thd thread context
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  @param buffer pointer to preferred result buffer
  @param length length of buffer
  @param max_query_len how many chars of query to copy (0 for all)

  @req LOCK_thread_count
  
  @note LOCK_thread_count mutex is not necessary when the function is invoked on
   the currently running thread (current_thd) or if the caller in some other
   way guarantees that access to thd->query is serialized.
 
  @return Pointer to string
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*/
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extern "C"
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char *thd_security_context(THD *thd, char *buffer, unsigned int length,
                           unsigned int max_query_len)
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{
  String str(buffer, length, &my_charset_latin1);
  const Security_context *sctx= &thd->main_security_ctx;
  char header[64];
  int len;
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  /*
    The pointers thd->query and thd->proc_info might change since they are
    being modified concurrently. This is acceptable for proc_info since its
    values doesn't have to very accurate and the memory it points to is static,
    but we need to attempt a snapshot on the pointer values to avoid using NULL
    values. The pointer to thd->query however, doesn't point to static memory
    and has to be protected by LOCK_thread_count or risk pointing to
    uninitialized memory.
  */
  const char *proc_info= thd->proc_info;
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  len= my_snprintf(header, sizeof(header),
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                   "MySQL thread id %lu, query id %lu",
                   thd->thread_id, (ulong) thd->query_id);
  str.length(0);
  str.append(header, len);
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  if (sctx->host)
  {
    str.append(' ');
    str.append(sctx->host);
  }

  if (sctx->ip)
  {
    str.append(' ');
    str.append(sctx->ip);
  }

  if (sctx->user)
  {
    str.append(' ');
    str.append(sctx->user);
  }

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  if (proc_info)
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  {
    str.append(' ');
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    str.append(proc_info);
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  }

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  mysql_mutex_lock(&thd->LOCK_thd_data);
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  if (thd->query())
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  {
    if (max_query_len < 1)
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      len= thd->query_length();
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    else
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      len= min(thd->query_length(), max_query_len);
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    str.append('\n');
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    str.append(thd->query(), len);
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  }
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  mysql_mutex_unlock(&thd->LOCK_thd_data);
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  if (str.c_ptr_safe() == buffer)
    return buffer;
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  /*
    We have to copy the new string to the destination buffer because the string
    was reallocated to a larger buffer to be able to fit.
  */
  DBUG_ASSERT(buffer != NULL);
  length= min(str.length(), length-1);
  memcpy(buffer, str.c_ptr_quick(), length);
  /* Make sure that the new string is null terminated */
  buffer[length]= '\0';
  return buffer;
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}
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/**
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  Implementation of Drop_table_error_handler::handle_condition().
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  The reason in having this implementation is to silence technical low-level
  warnings during DROP TABLE operation. Currently we don't want to expose
  the following warnings during DROP TABLE:
    - Some of table files are missed or invalid (the table is going to be
      deleted anyway, so why bother that something was missed);
    - A trigger associated with the table does not have DEFINER (One of the
      MySQL specifics now is that triggers are loaded for the table being
      dropped. So, we may have a warning that trigger does not have DEFINER
      attribute during DROP TABLE operation).

  @return TRUE if the condition is handled.
*/
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bool Drop_table_error_handler::handle_condition(THD *thd,
                                                uint sql_errno,
                                                const char* sqlstate,
                                                MYSQL_ERROR::enum_warning_level level,
                                                const char* msg,
                                                MYSQL_ERROR ** cond_hdl)
{
  *cond_hdl= NULL;
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  return ((sql_errno == EE_DELETE && my_errno == ENOENT) ||
          sql_errno == ER_TRG_NO_DEFINER);
}


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THD::THD()
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   :Statement(&main_lex, &main_mem_root, CONVENTIONAL_EXECUTION,
              /* statement id */ 0),
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   rli_fake(0),
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   lock_id(&main_lock_id),
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   user_time(0), in_sub_stmt(0),
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   binlog_unsafe_warning_flags(0), binlog_table_maps(0),
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   table_map_for_update(0),
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   arg_of_last_insert_id_function(FALSE),
   first_successful_insert_id_in_prev_stmt(0),
   first_successful_insert_id_in_prev_stmt_for_binlog(0),
   first_successful_insert_id_in_cur_stmt(0),
   stmt_depends_on_first_successful_insert_id_in_prev_stmt(FALSE),
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   examined_row_count(0),
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   warning_info(&main_warning_info),
   stmt_da(&main_da),
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   is_fatal_error(0),
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   transaction_rollback_request(0),
   is_fatal_sub_stmt_error(0),
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   rand_used(0),
   time_zone_used(0),
   in_lock_tables(0),
   bootstrap(0),
   derived_tables_processing(FALSE),
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   spcont(NULL),
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   m_parser_state(NULL),
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#if defined(ENABLED_DEBUG_SYNC)
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   debug_sync_control(0),
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#endif /* defined(ENABLED_DEBUG_SYNC) */
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   main_warning_info(0)
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{
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  ulong tmp;

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  mdl_context.init(this);
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  /*
    Pass nominal parameters to init_alloc_root only to ensure that
    the destructor works OK in case of an error. The main_mem_root
    will be re-initialized in init_for_queries().
  */
  init_sql_alloc(&main_mem_root, ALLOC_ROOT_MIN_BLOCK_SIZE, 0);
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  stmt_arena= this;
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  thread_stack= 0;
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  catalog= (char*)"std"; // the only catalog we have for now
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  main_security_ctx.init();
  security_ctx= &main_security_ctx;
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  no_errors=password= 0;
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  query_start_used= 0;
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  count_cuted_fields= CHECK_FIELD_IGNORE;
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  killed= NOT_KILLED;
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  col_access=0;
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  is_slave_error= thread_specific_used= thread_temporary_used= FALSE;
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  my_hash_clear(&handler_tables_hash);
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  tmp_table=0;
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  used_tables=0;
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  cuted_fields= 0L;
  sent_row_count= 0L;
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  limit_found_rows= 0;
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  m_row_count_func= -1;
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  statement_id_counter= 0UL;
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  // Must be reset to handle error with THD's created for init of mysqld
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  lex->current_select= 0;
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  start_time=(time_t) 0;
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  start_utime= prior_thr_create_utime= 0L;
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  utime_after_lock= 0L;
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  current_linfo =  0;
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  slave_thread = 0;
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  bzero(&variables, sizeof(variables));
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  thread_id= 0;
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  one_shot_set= 0;
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  file_id = 0;
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  query_id= 0;
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  query_name_consts= 0;
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  db_charset= global_system_variables.collation_database;
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  bzero(ha_data, sizeof(ha_data));
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  mysys_var=0;
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  binlog_evt_union.do_union= FALSE;
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  enable_slow_log= 0;
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#ifndef DBUG_OFF
  dbug_sentry=THD_SENTRY_MAGIC;
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#endif
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#ifndef EMBEDDED_LIBRARY
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  mysql_audit_init_thd(this);
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  net.vio=0;
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#endif
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  client_capabilities= 0;                       // minimalistic client
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  ull=0;
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  system_thread= NON_SYSTEM_THREAD;
  cleanup_done= abort_on_warning= no_warnings_for_error= 0;
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  peer_port= 0;					// For SHOW PROCESSLIST
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  transaction.m_pending_rows_event= 0;
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  transaction.on= 1;
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#ifdef SIGNAL_WITH_VIO_CLOSE
  active_vio = 0;
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#endif
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  mysql_mutex_init(key_LOCK_thd_data, &LOCK_thd_data, MY_MUTEX_INIT_FAST);
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  /* Variables with default values */
  proc_info="login";
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  where= THD::DEFAULT_WHERE;
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  server_id = ::server_id;
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  slave_net = 0;
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  command=COM_CONNECT;
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  *scramble= '\0';
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  /* Call to init() below requires fully initialized Open_tables_state. */
  init_open_tables_state(this, refresh_version);

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  init();
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#if defined(ENABLED_PROFILING)
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  profiling.set_thd(this);
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#endif
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  user_connect=(USER_CONN *)0;
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  my_hash_init(&user_vars, system_charset_info, USER_VARS_HASH_SIZE, 0, 0,
               (my_hash_get_key) get_var_key,
               (my_hash_free_key) free_user_var, 0);
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  sp_proc_cache= NULL;
  sp_func_cache= NULL;
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  /* For user vars replication*/
  if (opt_bin_log)
    my_init_dynamic_array(&user_var_events,
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			  sizeof(BINLOG_USER_VAR_EVENT *), 16, 16);
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  else
    bzero((char*) &user_var_events, sizeof(user_var_events));

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  /* Protocol */
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  protocol= &protocol_text;			// Default protocol
  protocol_text.init(this);
  protocol_binary.init(this);
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  tablespace_op=FALSE;
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  tmp= sql_rnd_with_mutex();
  randominit(&rand, tmp + (ulong) &rand, tmp + (ulong) ::global_query_id);
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  substitute_null_with_insert_id = FALSE;
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  thr_lock_info_init(&lock_info); /* safety: will be reset after start */
  thr_lock_owner_init(&main_lock_id, &lock_info);
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  m_internal_handler= NULL;
}


void THD::push_internal_handler(Internal_error_handler *handler)
{
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  if (m_internal_handler)
  {
    handler->m_prev_internal_handler= m_internal_handler;
    m_internal_handler= handler;
  }
  else
  {
    m_internal_handler= handler;
  }
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}

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bool THD::handle_condition(uint sql_errno,
                           const char* sqlstate,
                           MYSQL_ERROR::enum_warning_level level,
                           const char* msg,
                           MYSQL_ERROR ** cond_hdl)
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{
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  if (!m_internal_handler)
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  {
    *cond_hdl= NULL;
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    return FALSE;
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  }
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  for (Internal_error_handler *error_handler= m_internal_handler;
       error_handler;
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       error_handler= error_handler->m_prev_internal_handler)
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  {
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    if (error_handler->handle_condition(this, sql_errno, sqlstate, level, msg,
					cond_hdl))
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    {
      return TRUE;
    }
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  }

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  return FALSE;
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}


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Internal_error_handler *THD::pop_internal_handler()
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{
  DBUG_ASSERT(m_internal_handler != NULL);
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  Internal_error_handler *popped_handler= m_internal_handler;
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  m_internal_handler= m_internal_handler->m_prev_internal_handler;
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  return popped_handler;
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}

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void THD::raise_error(uint sql_errno)
{
  const char* msg= ER(sql_errno);
  (void) raise_condition(sql_errno,
                         NULL,
                         MYSQL_ERROR::WARN_LEVEL_ERROR,
                         msg);
}

void THD::raise_error_printf(uint sql_errno, ...)
{
  va_list args;
  char ebuff[MYSQL_ERRMSG_SIZE];
  DBUG_ENTER("THD::raise_error_printf");
  DBUG_PRINT("my", ("nr: %d  errno: %d", sql_errno, errno));
  const char* format= ER(sql_errno);
  va_start(args, sql_errno);
  my_vsnprintf(ebuff, sizeof(ebuff), format, args);
  va_end(args);
  (void) raise_condition(sql_errno,
                         NULL,
                         MYSQL_ERROR::WARN_LEVEL_ERROR,
                         ebuff);
  DBUG_VOID_RETURN;
}

void THD::raise_warning(uint sql_errno)
{
  const char* msg= ER(sql_errno);
  (void) raise_condition(sql_errno,
                         NULL,
                         MYSQL_ERROR::WARN_LEVEL_WARN,
                         msg);
}

void THD::raise_warning_printf(uint sql_errno, ...)
{
  va_list args;
  char    ebuff[MYSQL_ERRMSG_SIZE];
  DBUG_ENTER("THD::raise_warning_printf");
  DBUG_PRINT("enter", ("warning: %u", sql_errno));
  const char* format= ER(sql_errno);
  va_start(args, sql_errno);
  my_vsnprintf(ebuff, sizeof(ebuff), format, args);
  va_end(args);
  (void) raise_condition(sql_errno,
                         NULL,
                         MYSQL_ERROR::WARN_LEVEL_WARN,
                         ebuff);
  DBUG_VOID_RETURN;
}

void THD::raise_note(uint sql_errno)
{
  DBUG_ENTER("THD::raise_note");
  DBUG_PRINT("enter", ("code: %d", sql_errno));
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  if (!(variables.option_bits & OPTION_SQL_NOTES))
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    DBUG_VOID_RETURN;
  const char* msg= ER(sql_errno);
  (void) raise_condition(sql_errno,
                         NULL,
                         MYSQL_ERROR::WARN_LEVEL_NOTE,
                         msg);
  DBUG_VOID_RETURN;
}

void THD::raise_note_printf(uint sql_errno, ...)
{
  va_list args;
  char    ebuff[MYSQL_ERRMSG_SIZE];
  DBUG_ENTER("THD::raise_note_printf");
  DBUG_PRINT("enter",("code: %u", sql_errno));
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  if (!(variables.option_bits & OPTION_SQL_NOTES))
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    DBUG_VOID_RETURN;
  const char* format= ER(sql_errno);
  va_start(args, sql_errno);
  my_vsnprintf(ebuff, sizeof(ebuff), format, args);
  va_end(args);
  (void) raise_condition(sql_errno,
                         NULL,
                         MYSQL_ERROR::WARN_LEVEL_NOTE,
                         ebuff);
  DBUG_VOID_RETURN;
}

MYSQL_ERROR* THD::raise_condition(uint sql_errno,
                                  const char* sqlstate,
                                  MYSQL_ERROR::enum_warning_level level,
                                  const char* msg)
{
  MYSQL_ERROR *cond= NULL;
  DBUG_ENTER("THD::raise_condition");

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  if (!(variables.option_bits & OPTION_SQL_NOTES) &&
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      (level == MYSQL_ERROR::WARN_LEVEL_NOTE))
    DBUG_RETURN(NULL);

  warning_info->opt_clear_warning_info(query_id);

  /*
    TODO: replace by DBUG_ASSERT(sql_errno != 0) once all bugs similar to
    Bug#36768 are fixed: a SQL condition must have a real (!=0) error number
    so that it can be caught by handlers.
  */
  if (sql_errno == 0)
    sql_errno= ER_UNKNOWN_ERROR;
  if (msg == NULL)
    msg= ER(sql_errno);
  if (sqlstate == NULL)
   sqlstate= mysql_errno_to_sqlstate(sql_errno);

  if ((level == MYSQL_ERROR::WARN_LEVEL_WARN) &&
      really_abort_on_warning())
  {
    /*
      FIXME:
      push_warning and strict SQL_MODE case.
    */
    level= MYSQL_ERROR::WARN_LEVEL_ERROR;
    killed= THD::KILL_BAD_DATA;
  }

  switch (level)
  {
  case MYSQL_ERROR::WARN_LEVEL_NOTE:
  case MYSQL_ERROR::WARN_LEVEL_WARN:
    got_warning= 1;
    break;
  case MYSQL_ERROR::WARN_LEVEL_ERROR:
    break;
  default:
    DBUG_ASSERT(FALSE);
  }

  if (handle_condition(sql_errno, sqlstate, level, msg, &cond))
    DBUG_RETURN(cond);

  if (level == MYSQL_ERROR::WARN_LEVEL_ERROR)
  {
    is_slave_error=  1; // needed to catch query errors during replication

    /*
      thd->lex->current_select == 0 if lex structure is not inited
      (not query command (COM_QUERY))
    */
    if (lex->current_select &&
        lex->current_select->no_error && !is_fatal_error)
    {
      DBUG_PRINT("error",
                 ("Error converted to warning: current_select: no_error %d  "
                  "fatal_error: %d",
                  (lex->current_select ?
                   lex->current_select->no_error : 0),
                  (int) is_fatal_error));
    }
    else
    {
      if (! stmt_da->is_error())
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      {
        set_row_count_func(-1);
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        stmt_da->set_error_status(this, sql_errno, msg, sqlstate);
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      }
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    }
  }

  /*
    If a continue handler is found, the error message will be cleared
    by the stored procedures code.
  */
  if (!is_fatal_error && spcont &&
      spcont->handle_condition(this, sql_errno, sqlstate, level, msg, &cond))
  {
    /*
      Do not push any warnings, a handled error must be completely
      silenced.
    */
    DBUG_RETURN(cond);
  }

  /* Un-handled conditions */

  cond= raise_condition_no_handler(sql_errno, sqlstate, level, msg);
  DBUG_RETURN(cond);
}

MYSQL_ERROR*
THD::raise_condition_no_handler(uint sql_errno,
                                const char* sqlstate,
                                MYSQL_ERROR::enum_warning_level level,
                                const char* msg)
{
  MYSQL_ERROR *cond= NULL;
  DBUG_ENTER("THD::raise_condition_no_handler");

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  query_cache_abort(&query_cache_tls);
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  /* FIXME: broken special case */
  if (no_warnings_for_error && (level == MYSQL_ERROR::WARN_LEVEL_ERROR))
    DBUG_RETURN(NULL);

  cond= warning_info->push_warning(this, sql_errno, sqlstate, level, msg);
  DBUG_RETURN(cond);
}
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extern "C"
void *thd_alloc(MYSQL_THD thd, unsigned int size)
{
  return thd->alloc(size);
}

extern "C"
void *thd_calloc(MYSQL_THD thd, unsigned int size)
{
  return thd->calloc(size);
}

extern "C"
char *thd_strdup(MYSQL_THD thd, const char *str)
{
  return thd->strdup(str);
}

extern "C"
char *thd_strmake(MYSQL_THD thd, const char *str, unsigned int size)
{
  return thd->strmake(str, size);
}

extern "C"
LEX_STRING *thd_make_lex_string(THD *thd, LEX_STRING *lex_str,
                                const char *str, unsigned int size,
                                int allocate_lex_string)
{
  return thd->make_lex_string(lex_str, str, size,
                              (bool) allocate_lex_string);
}

extern "C"
void *thd_memdup(MYSQL_THD thd, const void* str, unsigned int size)
{
  return thd->memdup(str, size);
}

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void thd_get_xid(const MYSQL_THD thd, MYSQL_XID *xid)
{
  *xid = *(MYSQL_XID *) &thd->transaction.xid_state.xid;
}
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#ifdef _WIN32
extern "C"   THD *_current_thd_noinline(void)
{
  return my_pthread_getspecific_ptr(THD*,THR_THD);
}
#endif
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/*
  Init common variables that has to be reset on start and on change_user
*/

void THD::init(void)
{
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  mysql_mutex_lock(&LOCK_global_system_variables);
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  plugin_thdvar_init(this);
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  /*
    variables= global_system_variables above has reset
    variables.pseudo_thread_id to 0. We need to correct it here to
    avoid temporary tables replication failure.
  */
  variables.pseudo_thread_id= thread_id;
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  mysql_mutex_unlock(&LOCK_global_system_variables);
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  server_status= SERVER_STATUS_AUTOCOMMIT;
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  if (variables.sql_mode & MODE_NO_BACKSLASH_ESCAPES)
    server_status|= SERVER_STATUS_NO_BACKSLASH_ESCAPES;
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  transaction.all.modified_non_trans_table=
    transaction.stmt.modified_non_trans_table= FALSE;
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  open_options=ha_open_options;
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  update_lock_default= (variables.low_priority_updates ?
			TL_WRITE_LOW_PRIORITY :
			TL_WRITE);
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  session_tx_isolation= (enum_tx_isolation) variables.tx_isolation;
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  update_charset();
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  reset_current_stmt_binlog_format_row();
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  bzero((char *) &status_var, sizeof(status_var));
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  if (variables.sql_log_bin)
    variables.option_bits|= OPTION_BIN_LOG;
  else
    variables.option_bits&= ~OPTION_BIN_LOG;
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#if defined(ENABLED_DEBUG_SYNC)
  /* Initialize the Debug Sync Facility. See debug_sync.cc. */
  debug_sync_init_thread(this);
#endif /* defined(ENABLED_DEBUG_SYNC) */
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}

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/*
  Init THD for query processing.
  This has to be called once before we call mysql_parse.
  See also comments in sql_class.h.
*/

void THD::init_for_queries()
{
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  set_time(); 
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  ha_enable_transaction(this,TRUE);
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  reset_root_defaults(mem_root, variables.query_alloc_block_size,
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                      variables.query_prealloc_size);
  reset_root_defaults(&transaction.mem_root,
                      variables.trans_alloc_block_size,
                      variables.trans_prealloc_size);
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  transaction.xid_state.xid.null();
  transaction.xid_state.in_thd=1;
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}


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/*
  Do what's needed when one invokes change user

  SYNOPSIS
    change_user()

  IMPLEMENTATION
    Reset all resources that are connection specific
*/


void THD::change_user(void)
{
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  mysql_mutex_lock(&LOCK_status);
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  add_to_status(&global_status_var, &status_var);
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  mysql_mutex_unlock(&LOCK_status);
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  cleanup();
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  killed= NOT_KILLED;
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  cleanup_done= 0;
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  init();
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  stmt_map.reset();
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  my_hash_init(&user_vars, system_charset_info, USER_VARS_HASH_SIZE, 0, 0,
               (my_hash_get_key) get_var_key,
               (my_hash_free_key) free_user_var, 0);
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  sp_cache_clear(&sp_proc_cache);
  sp_cache_clear(&sp_func_cache);
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}


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/* Do operations that may take a long time */

void THD::cleanup(void)
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{
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  DBUG_ENTER("THD::cleanup");
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  DBUG_ASSERT(cleanup_done == 0);

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  killed= KILL_CONNECTION;
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#ifdef ENABLE_WHEN_BINLOG_WILL_BE_ABLE_TO_PREPARE
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  if (transaction.xid_state.xa_state == XA_PREPARED)
  {
#error xid_state in the cache should be replaced by the allocated value
  }
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#endif
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  {
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    transaction.xid_state.xa_state= XA_NOTR;
    trans_rollback(this);
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    xid_cache_delete(&transaction.xid_state);
  }
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  locked_tables_list.unlock_locked_tables(this);
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  mysql_ha_cleanup(this);
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  DBUG_ASSERT(open_tables == NULL);
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  /*
    If the thread was in the middle of an ongoing transaction (rolled
    back a few lines above) or under LOCK TABLES (unlocked the tables
    and left the mode a few lines above), there will be outstanding
    metadata locks. Release them.
  */
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  mdl_context.release_transactional_locks();
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  /* Release the global read lock, if acquired. */
  if (global_read_lock.is_acquired())
    global_read_lock.unlock_global_read_lock(this);

  /* All metadata locks must have been released by now. */
  DBUG_ASSERT(!mdl_context.has_locks());

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#if defined(ENABLED_DEBUG_SYNC)
  /* End the Debug Sync Facility. See debug_sync.cc. */
  debug_sync_end_thread(this);
#endif /* defined(ENABLED_DEBUG_SYNC) */

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  delete_dynamic(&user_var_events);
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  my_hash_free(&user_vars);
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  close_temporary_tables(this);
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  sp_cache_clear(&sp_proc_cache);
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  sp_cache_clear(&sp_func_cache);

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  if (ull)
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  {
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    mysql_mutex_lock(&LOCK_user_locks);
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    item_user_lock_release(ull);
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    mysql_mutex_unlock(&LOCK_user_locks);
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    ull= NULL;
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  }
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  cleanup_done=1;
  DBUG_VOID_RETURN;
}

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THD::~THD()
{
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  THD_CHECK_SENTRY(this);
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  DBUG_ENTER("~THD()");
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  /* Ensure that no one is using THD */
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  mysql_mutex_lock(&LOCK_thd_data);
  mysql_mutex_unlock(&LOCK_thd_data);
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  add_to_status(&global_status_var, &status_var);
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  /* Close connection */
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#ifndef EMBEDDED_LIBRARY
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  if (net.vio)
  {
    vio_delete(net.vio);
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    net_end(&net);
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  }
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#endif
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  stmt_map.reset();                     /* close all prepared statements */
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  DBUG_ASSERT(lock_info.n_cursors == 0);
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  if (!cleanup_done)
    cleanup();
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  mdl_context.destroy();
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  ha_close_connection(this);
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  mysql_audit_release(this);
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  plugin_thdvar_cleanup(this);
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  DBUG_PRINT("info", ("freeing security context"));
  main_security_ctx.destroy();
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  safeFree(db);
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  free_root(&transaction.mem_root,MYF(0));
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  mysys_var=0;					// Safety (shouldn't be needed)
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  mysql_mutex_destroy(&LOCK_thd_data);
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#ifndef DBUG_OFF
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  dbug_sentry= THD_SENTRY_GONE;
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#endif  
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#ifndef EMBEDDED_LIBRARY
  if (rli_fake)
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  {
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    delete rli_fake;
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    rli_fake= NULL;
  }
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  mysql_audit_free_thd(this);
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#endif

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  free_root(&main_mem_root, MYF(0));
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  DBUG_VOID_RETURN;
}

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/*
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  Add all status variables to another status variable array

  SYNOPSIS
   add_to_status()
   to_var       add to this array
   from_var     from this array
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  NOTES
    This function assumes that all variables are long/ulong.
    If this assumption will change, then we have to explictely add
    the other variables after the while loop
*/

void add_to_status(STATUS_VAR *to_var, STATUS_VAR *from_var)
{
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  ulong *end= (ulong*) ((uchar*) to_var +
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                        offsetof(STATUS_VAR, last_system_status_var) +
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			sizeof(ulong));
  ulong *to= (ulong*) to_var, *from= (ulong*) from_var;

  while (to != end)
    *(to++)+= *(from++);
}

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/*
  Add the difference between two status variable arrays to another one.

  SYNOPSIS
    add_diff_to_status
    to_var       add to this array
    from_var     from this array
    dec_var      minus this array
  
  NOTE
    This function assumes that all variables are long/ulong.
*/

void add_diff_to_status(STATUS_VAR *to_var, STATUS_VAR *from_var,
                        STATUS_VAR *dec_var)
{
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						  last_system_status_var) +
			sizeof(ulong));
  ulong *to= (ulong*) to_var, *from= (ulong*) from_var, *dec= (ulong*) dec_var;

  while (to != end)
    *(to++)+= *(from++) - *(dec++);
}

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void THD::awake(THD::killed_state state_to_set)
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{
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  DBUG_ENTER("THD::awake");
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  DBUG_PRINT("enter", ("this: 0x%lx", (long) this));
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  THD_CHECK_SENTRY(this);
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  mysql_mutex_assert_owner(&LOCK_thd_data);
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  killed= state_to_set;
  if (state_to_set != THD::KILL_QUERY)
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  {
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    thr_alarm_kill(thread_id);
    if (!slave_thread)
      thread_scheduler.post_kill_notification(this);
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#ifdef SIGNAL_WITH_VIO_CLOSE
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    if (this != current_thd)
    {
      /*
        In addition to a signal, let's close the socket of the thread that
        is being killed. This is to make sure it does not block if the
        signal is lost. This needs to be done only on platforms where
        signals are not a reliable interruption mechanism.

        If we're killing ourselves, we know that we're not blocked, so this
        hack is not used.
      */

      close_active_vio();
    }
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#endif    
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  }
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  if (mysys_var)
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  {
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    mysql_mutex_lock(&mysys_var->mutex);
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    if (!system_thread)		// Don't abort locks
      mysys_var->abort=1;
    /*
      This broadcast could be up in the air if the victim thread
      exits the cond in the time between read and broadcast, but that is
      ok since all we want to do is to make the victim thread get out
      of waiting on current_cond.
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      If we see a non-zero current_cond: it cannot be an old value (because
      then exit_cond() should have run and it can't because we have mutex); so
      it is the true value but maybe current_mutex is not yet non-zero (we're
      in the middle of enter_cond() and there is a "memory order
      inversion"). So we test the mutex too to not lock 0.
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      Note that there is a small chance we fail to kill. If victim has locked
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      current_mutex, but hasn't yet entered enter_cond() (which means that
      current_cond and current_mutex are 0), then the victim will not get
      a signal and it may wait "forever" on the cond (until
      we issue a second KILL or the status it's waiting for happens).
      It's true that we have set its thd->killed but it may not
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      see it immediately and so may have time to reach the cond_wait().
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    */
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    if (mysys_var->current_cond && mysys_var->current_mutex)
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    {
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      mysql_mutex_lock(mysys_var->current_mutex);
      mysql_cond_broadcast(mysys_var->current_cond);
      mysql_mutex_unlock(mysys_var->current_mutex);
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    }
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    mysql_mutex_unlock(&mysys_var->mutex);
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  }
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  DBUG_VOID_RETURN;
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}

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/*
  Remember the location of thread info, the structure needed for
  sql_alloc() and the structure for the net buffer
*/
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bool THD::store_globals()
{
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  /*
    Assert that thread_stack is initialized: it's necessary to be able
    to track stack overrun.
  */
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  DBUG_ASSERT(thread_stack);
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  if (my_pthread_setspecific_ptr(THR_THD,  this) ||
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      my_pthread_setspecific_ptr(THR_MALLOC, &mem_root))
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    return 1;
  mysys_var=my_thread_var;
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  /*
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    Let mysqld define the thread id (not mysys)
    This allows us to move THD to different threads if needed.
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  */
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  mysys_var->id= thread_id;
  real_id= pthread_self();                      // For debugging

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  /*
    We have to call thr_lock_info_init() again here as THD may have been
    created in another thread
  */
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  thr_lock_info_init(&lock_info);
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  return 0;
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}

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/*
  Cleanup after query.

  SYNOPSIS
    THD::cleanup_after_query()
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  DESCRIPTION
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    This function is used to reset thread data to its default state.
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  NOTE
    This function is not suitable for setting thread data to some
    non-default values, as there is only one replication thread, so
    different master threads may overwrite data of each other on
    slave.
*/
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void THD::cleanup_after_query()
{
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  /*
    Reset rand_used so that detection of calls to rand() will save random 
    seeds if needed by the slave.

    Do not reset rand_used if inside a stored function or trigger because 
    only the call to these operations is logged. Thus only the calling 
    statement needs to detect rand() calls made by its substatements. These
    substatements must not set rand_used to 0 because it would remove the
    detection of rand() by the calling statement. 
  */
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  if (!in_sub_stmt) /* stored functions and triggers are a special case */
  {
    /* Forget those values, for next binlogger: */
    stmt_depends_on_first_successful_insert_id_in_prev_stmt= 0;
    auto_inc_intervals_in_cur_stmt_for_binlog.empty();
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    rand_used= 0;
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  }
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  if (first_successful_insert_id_in_cur_stmt > 0)
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  {
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    /* set what LAST_INSERT_ID() will return */
    first_successful_insert_id_in_prev_stmt= 
      first_successful_insert_id_in_cur_stmt;
    first_successful_insert_id_in_cur_stmt= 0;
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    substitute_null_with_insert_id= TRUE;
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  }
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  arg_of_last_insert_id_function= 0;
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  /* Free Items that were created during this execution */
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  free_items();
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  /* Reset where. */
  where= THD::DEFAULT_WHERE;
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  /* reset table map for multi-table update */
  table_map_for_update= 0;
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}

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/**
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  Create a LEX_STRING in this connection.
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  @param lex_str  pointer to LEX_STRING object to be initialized
  @param str      initializer to be copied into lex_str
  @param length   length of str, in bytes
  @param allocate_lex_string  if TRUE, allocate new LEX_STRING object,
                              instead of using lex_str value
  @return  NULL on failure, or pointer to the LEX_STRING object
*/
LEX_STRING *THD::make_lex_string(LEX_STRING *lex_str,
                                 const char* str, uint length,
                                 bool allocate_lex_string)
{
  if (allocate_lex_string)
    if (!(lex_str= (LEX_STRING *)alloc(sizeof(LEX_STRING))))
      return 0;
  if (!(lex_str->str= strmake_root(mem_root, str, length)))
    return 0;
  lex_str->length= length;
  return lex_str;
}


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/*
  Convert a string to another character set

  SYNOPSIS
    convert_string()
    to				Store new allocated string here
    to_cs			New character set for allocated string
    from			String to convert
    from_length			Length of string to convert
    from_cs			Original character set

  NOTES
    to will be 0-terminated to make it easy to pass to system funcs

  RETURN
    0	ok
    1	End of memory.
        In this case to->str will point to 0 and to->length will be 0.
*/

bool THD::convert_string(LEX_STRING *to, CHARSET_INFO *to_cs,
			 const char *from, uint from_length,
			 CHARSET_INFO *from_cs)
{
  DBUG_ENTER("convert_string");
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  size_t new_length= to_cs->mbmaxlen * from_length;
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  uint dummy_errors;
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  if (!(to->str= (char*) alloc(new_length+1)))
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  {
    to->length= 0;				// Safety fix
    DBUG_RETURN(1);				// EOM
  }
  to->length= copy_and_convert((char*) to->str, new_length, to_cs,
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			       from, from_length, from_cs, &dummy_errors);
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  to->str[to->length]=0;			// Safety
  DBUG_RETURN(0);
}


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/*
  Convert string from source character set to target character set inplace.

  SYNOPSIS
    THD::convert_string

  DESCRIPTION
    Convert string using convert_buffer - buffer for character set 
    conversion shared between all protocols.

  RETURN
    0   ok
   !0   out of memory
*/

bool THD::convert_string(String *s, CHARSET_INFO *from_cs, CHARSET_INFO *to_cs)
{
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  uint dummy_errors;
  if (convert_buffer.copy(s->ptr(), s->length(), from_cs, to_cs, &dummy_errors))
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    return TRUE;
  /* If convert_buffer >> s copying is more efficient long term */
  if (convert_buffer.alloced_length() >= convert_buffer.length() * 2 ||
      !s->is_alloced())
  {
    return s->copy(convert_buffer);
  }
  s->swap(convert_buffer);
  return FALSE;
}

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/*
  Update some cache variables when character set changes
*/

void THD::update_charset()
{
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  uint32 not_used;
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  charset_is_system_charset=
    !String::needs_conversion(0,
                              variables.character_set_client,
                              system_charset_info,
                              &not_used);
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  charset_is_collation_connection= 
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    !String::needs_conversion(0,
                              variables.character_set_client,
                              variables.collation_connection,
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                              &not_used);
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  charset_is_character_set_filesystem= 
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    !String::needs_conversion(0,
                              variables.character_set_client,
                              variables.character_set_filesystem,
                              &not_used);
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}


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/* routings to adding tables to list of changed in transaction tables */

inline static void list_include(CHANGED_TABLE_LIST** prev,
				CHANGED_TABLE_LIST* curr,
				CHANGED_TABLE_LIST* new_table)
{
  if (new_table)
  {
    *prev = new_table;
    (*prev)->next = curr;
  }
}

/* add table to list of changed in transaction tables */
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void THD::add_changed_table(TABLE *table)
{
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  DBUG_ENTER("THD::add_changed_table(table)");
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  DBUG_ASSERT(in_multi_stmt_transaction_mode() && table->file->has_transactions());
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  add_changed_table(table->s->table_cache_key.str,
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                    (long) table->s->table_cache_key.length);
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  DBUG_VOID_RETURN;
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}
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void THD::add_changed_table(const char *key, long key_length)
{
  DBUG_ENTER("THD::add_changed_table(key)");
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  CHANGED_TABLE_LIST **prev_changed = &transaction.changed_tables;
  CHANGED_TABLE_LIST *curr = transaction.changed_tables;
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  for (; curr; prev_changed = &(curr->next), curr = curr->next)
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  {
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    int cmp =  (long)curr->key_length - (long)key_length;
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    if (cmp < 0)
    {
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      list_include(prev_changed, curr, changed_table_dup(key, key_length));
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      DBUG_PRINT("info", 
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		 ("key_length: %ld  %u", key_length,
                  (*prev_changed)->key_length));
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      DBUG_VOID_RETURN;
    }
    else if (cmp == 0)
    {
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      cmp = memcmp(curr->key, key, curr->key_length);
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      if (cmp < 0)
      {
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	list_include(prev_changed, curr, changed_table_dup(key, key_length));
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	DBUG_PRINT("info", 
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		   ("key_length:  %ld  %u", key_length,
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		    (*prev_changed)->key_length));
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	DBUG_VOID_RETURN;
      }
      else if (cmp == 0)
      {
	DBUG_PRINT("info", ("already in list"));
	DBUG_VOID_RETURN;
      }
    }
  }
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  *prev_changed = changed_table_dup(key, key_length);
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  DBUG_PRINT("info", ("key_length: %ld  %u", key_length,
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		      (*prev_changed)->key_length));
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  DBUG_VOID_RETURN;
}

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CHANGED_TABLE_LIST* THD::changed_table_dup(const char *key, long key_length)
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{
  CHANGED_TABLE_LIST* new_table = 
    (CHANGED_TABLE_LIST*) trans_alloc(ALIGN_SIZE(sizeof(CHANGED_TABLE_LIST))+
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				      key_length + 1);
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  if (!new_table)
  {
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    my_error(EE_OUTOFMEMORY, MYF(ME_BELL),
             ALIGN_SIZE(sizeof(TABLE_LIST)) + key_length + 1);
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    killed= KILL_CONNECTION;
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    return 0;
  }

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  new_table->key= ((char*)new_table)+ ALIGN_SIZE(sizeof(CHANGED_TABLE_LIST));
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  new_table->next = 0;
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  new_table->key_length = key_length;
  ::memcpy(new_table->key, key, key_length);
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  return new_table;
}

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int THD::send_explain_fields(select_result *result)
{
  List<Item> field_list;
  Item *item;
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  CHARSET_INFO *cs= system_charset_info;
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  field_list.push_back(new Item_return_int("id",3, MYSQL_TYPE_LONGLONG));
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  field_list.push_back(new Item_empty_string("select_type", 19, cs));
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  field_list.push_back(item= new Item_empty_string("table", NAME_CHAR_LEN, cs));
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  item->maybe_null= 1;
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  if (lex->describe & DESCRIBE_PARTITIONS)
  {
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    /* Maximum length of string that make_used_partitions_str() can produce */
    item= new Item_empty_string("partitions", MAX_PARTITIONS * (1 + FN_LEN),
                                cs);
    field_list.push_back(item);
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    item->maybe_null= 1;
  }
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  field_list.push_back(item= new Item_empty_string("type", 10, cs));
  item->maybe_null= 1;
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  field_list.push_back(item=new Item_empty_string("possible_keys",
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						  NAME_CHAR_LEN*MAX_KEY, cs));
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  item->maybe_null=1;
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  field_list.push_back(item=new Item_empty_string("key", NAME_CHAR_LEN, cs));
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  item->maybe_null=1;
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  field_list.push_back(item=new Item_empty_string("key_len",
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						  NAME_CHAR_LEN*MAX_KEY));
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  item->maybe_null=1;
  field_list.push_back(item=new Item_empty_string("ref",
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                                                  NAME_CHAR_LEN*MAX_REF_PARTS,
                                                  cs));
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  item->maybe_null=1;
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  field_list.push_back(item= new Item_return_int("rows", 10,
                                                 MYSQL_TYPE_LONGLONG));
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  if (lex->describe & DESCRIBE_EXTENDED)
  {
    field_list.push_back(item= new Item_float("filtered", 0.1234, 2, 4));
    item->maybe_null=1;
  }
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  item->maybe_null= 1;
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  field_list.push_back(new Item_empty_string("Extra", 255, cs));
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  return (result->send_result_set_metadata(field_list,
                                           Protocol::SEND_NUM_ROWS | Protocol::SEND_EOF));
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}
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#ifdef SIGNAL_WITH_VIO_CLOSE
void THD::close_active_vio()
{
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  DBUG_ENTER("close_active_vio");
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  mysql_mutex_assert_owner(&LOCK_thd_data);
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#ifndef EMBEDDED_LIBRARY
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  if (active_vio)
  {
    vio_close(active_vio);
    active_vio = 0;
  }
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#endif
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  DBUG_VOID_RETURN;
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}
#endif

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struct Item_change_record: public ilink
{
  Item **place;
  Item *old_value;
  /* Placement new was hidden by `new' in ilink (TODO: check): */
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  static void *operator new(size_t size, void *mem) { return mem; }
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  static void operator delete(void *ptr, size_t size) {}
  static void operator delete(void *ptr, void *mem) { /* never called */ }
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};


/*
  Register an item tree tree transformation, performed by the query
  optimizer. We need a pointer to runtime_memroot because it may be !=
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  thd->mem_root (due to possible set_n_backup_active_arena called for thd).
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*/

void THD::nocheck_register_item_tree_change(Item **place, Item *old_value,
                                            MEM_ROOT *runtime_memroot)
{
  Item_change_record *change;
  /*
    Now we use one node per change, which adds some memory overhead,
    but still is rather fast as we use alloc_root for allocations.
    A list of item tree changes of an average query should be short.
  */
  void *change_mem= alloc_root(runtime_memroot, sizeof(*change));
  if (change_mem == 0)
  {
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    /*
      OOM, thd->fatal_error() is called by the error handler of the
      memroot. Just return.
    */
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    return;
  }
  change= new (change_mem) Item_change_record;
  change->place= place;
  change->old_value= old_value;
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  change_list.append(change);
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}


void THD::rollback_item_tree_changes()
{
  I_List_iterator<Item_change_record> it(change_list);
  Item_change_record *change;
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  DBUG_ENTER("rollback_item_tree_changes");

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  while ((change= it++))
    *change->place= change->old_value;
  /* We can forget about changes memory: it's allocated in runtime memroot */
  change_list.empty();
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  DBUG_VOID_RETURN;
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}


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/*****************************************************************************
** Functions to provide a interface to select results
*****************************************************************************/

select_result::select_result()
{
  thd=current_thd;
}

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void select_result::send_error(uint errcode,const char *err)
{
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  my_message(errcode, err, MYF(0));
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}

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void select_result::cleanup()
{
  /* do nothing */
}

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bool select_result::check_simple_select() const
{
  my_error(ER_SP_BAD_CURSOR_QUERY, MYF(0));
  return TRUE;
}


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static String default_line_term("\n",default_charset_info);
static String default_escaped("\\",default_charset_info);
static String default_field_term("\t",default_charset_info);
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static String default_xml_row_term("<row>", default_charset_info);
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sql_exchange::sql_exchange(char *name, bool flag,
                           enum enum_filetype filetype_arg)
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  :file_name(name), opt_enclosed(0), dumpfile(flag), skip_lines(0)
{
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  filetype= filetype_arg;
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  field_term= &default_field_term;
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  enclosed=   line_start= &my_empty_string;
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  line_term=  filetype == FILETYPE_CSV ?
              &default_line_term : &default_xml_row_term;
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  escaped=    &default_escaped;
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  cs= NULL;
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}

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bool sql_exchange::escaped_given(void)
{
  return escaped != &default_escaped;
}


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bool select_send::send_result_set_metadata(List<Item> &list, uint flags)
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{
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  bool res;
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  if (!(res= thd->protocol->send_result_set_metadata(&list, flags)))
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    is_result_set_started= 1;
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  return res;
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}

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void select_send::abort()
{
  DBUG_ENTER("select_send::abort");
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  if (is_result_set_started && thd->spcont)
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  {
    /*
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      We're executing a stored procedure, have an open result
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      set and an SQL exception condition. In this situation we
      must abort the current statement, silence the error and
      start executing the continue/exit handler if one is found.
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      Before aborting the statement, let's end the open result set, as
      otherwise the client will hang due to the violation of the
      client/server protocol.
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    */
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    thd->spcont->end_partial_result_set= TRUE;
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  }
  DBUG_VOID_RETURN;
}


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/** 
  Cleanup an instance of this class for re-use
  at next execution of a prepared statement/
  stored procedure statement.
*/

void select_send::cleanup()
{
  is_result_set_started= FALSE;
}

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/* Send data to client. Returns 0 if ok */

bool select_send::send_data(List<Item> &items)
{
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  Protocol *protocol= thd->protocol;
  DBUG_ENTER("select_send::send_data");

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  if (unit->offset_limit_cnt)
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  {						// using limit offset,count
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    unit->offset_limit_cnt--;
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    DBUG_RETURN(FALSE);
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  }
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  /*
    We may be passing the control from mysqld to the client: release the
    InnoDB adaptive hash S-latch to avoid thread deadlocks if it was reserved
    by thd
  */
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  ha_release_temporary_latches(thd);
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  protocol->prepare_for_resend();
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  if (protocol->send_result_set_row(&items))
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  {
    protocol->remove_last_row();
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    DBUG_RETURN(TRUE);
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  }
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  thd->sent_row_count++;

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  if (thd->vio_ok())
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    DBUG_RETURN(protocol->write());
1789

1790
  DBUG_RETURN(0);
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}

bool select_send::send_eof()
{
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  /* 
    We may be passing the control from mysqld to the client: release the
    InnoDB adaptive hash S-latch to avoid thread deadlocks if it was reserved
    by thd 
  */
  ha_release_temporary_latches(thd);
1801

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  /* Unlock tables before sending packet to gain some speed */
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  if (thd->lock && ! thd->locked_tables_mode)
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  {
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    mysql_unlock_tables(thd, thd->lock);
    thd->lock=0;
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  }
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  /* 
    Don't send EOF if we're in error condition (which implies we've already
    sent or are sending an error)
  */
  if (thd->is_error())
    return TRUE;
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  ::my_eof(thd);
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  is_result_set_started= 0;
  return FALSE;
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}


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/************************************************************************
  Handling writing to file
************************************************************************/
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void select_to_file::send_error(uint errcode,const char *err)
{
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  my_message(errcode, err, MYF(0));
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  if (file > 0)
  {
    (void) end_io_cache(&cache);
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    mysql_file_close(file, MYF(0));
    /* Delete file on error */
    mysql_file_delete(key_select_to_file, path, MYF(0));
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    file= -1;
  }
}
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bool select_to_file::send_eof()
{
  int error= test(end_io_cache(&cache));
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  if (mysql_file_close(file, MYF(MY_WME)))
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    error= 1;
  if (!error)
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  {
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    ::my_ok(thd,row_count);
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  }
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  file= -1;
  return error;
}


void select_to_file::cleanup()
{
  /* In case of error send_eof() may be not called: close the file here. */
  if (file >= 0)
  {
    (void) end_io_cache(&cache);
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    mysql_file_close(file, MYF(0));
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    file= -1;
  }
  path[0]= '\0';
  row_count= 0;
}


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select_to_file::~select_to_file()
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{
  if (file >= 0)
  {					// This only happens in case of error
    (void) end_io_cache(&cache);
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    mysql_file_close(file, MYF(0));
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    file= -1;
  }
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}

/***************************************************************************
** Export of select to textfile
***************************************************************************/

select_export::~select_export()
{
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  thd->sent_row_count=row_count;
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}

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/*
  Create file with IO cache

  SYNOPSIS
    create_file()
    thd			Thread handle
    path		File name
    exchange		Excange class
    cache		IO cache

  RETURN
    >= 0 	File handle
   -1		Error
*/


static File create_file(THD *thd, char *path, sql_exchange *exchange,
			IO_CACHE *cache)
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{
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  File file;
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  uint option= MY_UNPACK_FILENAME | MY_RELATIVE_PATH;
1907

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#ifdef DONT_ALLOW_FULL_LOAD_DATA_PATHS
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  option|= MY_REPLACE_DIR;			// Force use of db directory
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#endif
1911

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  if (!dirname_length(exchange->file_name))
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  {
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    strxnmov(path, FN_REFLEN-1, mysql_real_data_home, thd->db ? thd->db : "",
             NullS);
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    (void) fn_format(path, exchange->file_name, path, "", option);
  }
  else
    (void) fn_format(path, exchange->file_name, mysql_real_data_home, "", option);
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  if (!is_secure_file_path(path))
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  {
    /* Write only allowed to dir or subdir specified by secure_file_priv */
    my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--secure-file-priv");
    return -1;
  }

1928
  if (!access(path, F_OK))
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  {
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    my_error(ER_FILE_EXISTS_ERROR, MYF(0), exchange->file_name);
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    return -1;
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  }
  /* Create the file world readable */
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  if ((file= mysql_file_create(key_select_to_file,
                               path, 0666, O_WRONLY|O_EXCL, MYF(MY_WME))) < 0)
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    return file;
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#ifdef HAVE_FCHMOD
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  (void) fchmod(file, 0666);			// Because of umask()
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#else
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  (void) chmod(path, 0666);
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#endif
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  if (init_io_cache(cache, file, 0L, WRITE_CACHE, 0L, 1, MYF(MY_WME)))
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  {
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    mysql_file_close(file, MYF(0));
    /* Delete file on error, it was just created */
    mysql_file_delete(key_select_to_file, path, MYF(0));
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    return -1;
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  }
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  return file;
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}


int
select_export::prepare(List<Item> &list, SELECT_LEX_UNIT *u)
{
  bool blob_flag=0;
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  bool string_results= FALSE, non_string_results= FALSE;
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  unit= u;
  if ((uint) strlen(exchange->file_name) + NAME_LEN >= FN_REFLEN)
    strmake(path,exchange->file_name,FN_REFLEN-1);

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  write_cs= exchange->cs ? exchange->cs : &my_charset_bin;

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  if ((file= create_file(thd, path, exchange, &cache)) < 0)
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    return 1;
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  /* Check if there is any blobs in data */
  {
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    List_iterator_fast<Item> li(list);
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    Item *item;
    while ((item=li++))
    {
      if (item->max_length >= MAX_BLOB_WIDTH)
      {
	blob_flag=1;
	break;
      }
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      if (item->result_type() == STRING_RESULT)
        string_results= TRUE;
      else
        non_string_results= TRUE;
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    }
  }
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  if (exchange->escaped->numchars() > 1 || exchange->enclosed->numchars() > 1)
  {
    my_error(ER_WRONG_FIELD_TERMINATORS, MYF(0));
    return TRUE;
  }
  if (exchange->escaped->length() > 1 || exchange->enclosed->length() > 1 ||
      !my_isascii(exchange->escaped->ptr()[0]) ||
      !my_isascii(exchange->enclosed->ptr()[0]) ||
      !exchange->field_term->is_ascii() || !exchange->line_term->is_ascii() ||
      !exchange->line_start->is_ascii())
  {
    /*
      Current LOAD DATA INFILE recognizes field/line separators "as is" without
      converting from client charset to data file charset. So, it is supposed,
      that input file of LOAD DATA INFILE consists of data in one charset and
      separators in other charset. For the compatibility with that [buggy]
      behaviour SELECT INTO OUTFILE implementation has been saved "as is" too,
      but the new warning message has been added:

        Non-ASCII separator arguments are not fully supported
    */
    push_warning(thd, MYSQL_ERROR::WARN_LEVEL_WARN,
                 WARN_NON_ASCII_SEPARATOR_NOT_IMPLEMENTED,
                 ER(WARN_NON_ASCII_SEPARATOR_NOT_IMPLEMENTED));
  }
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  field_term_length=exchange->field_term->length();
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  field_term_char= field_term_length ?
                   (int) (uchar) (*exchange->field_term)[0] : INT_MAX;
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  if (!exchange->line_term->length())
    exchange->line_term=exchange->field_term;	// Use this if it exists
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  field_sep_char= (exchange->enclosed->length() ?
                  (int) (uchar) (*exchange->enclosed)[0] : field_term_char);
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  if (exchange->escaped->length() && (exchange->escaped_given() ||
      !(thd->variables.sql_mode & MODE_NO_BACKSLASH_ESCAPES)))
    escape_char= (int) (uchar) (*exchange->escaped)[0];
  else
    escape_char= -1;
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  is_ambiguous_field_sep= test(strchr(ESCAPE_CHARS, field_sep_char));
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  is_unsafe_field_sep= test(strchr(NUMERIC_CHARS, field_sep_char));
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  line_sep_char= (exchange->line_term->length() ?
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                 (int) (uchar) (*exchange->line_term)[0] : INT_MAX);
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  if (!field_term_length)
    exchange->opt_enclosed=0;
  if (!exchange->enclosed->length())
    exchange->opt_enclosed=1;			// A little quicker loop
  fixed_row_size= (!field_term_length && !exchange->enclosed->length() &&
		   !blob_flag);
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  if ((is_ambiguous_field_sep && exchange->enclosed->is_empty() &&
       (string_results || is_unsafe_field_sep)) ||
      (exchange->opt_enclosed && non_string_results &&
       field_term_length && strchr(NUMERIC_CHARS, field_term_char)))
  {
    push_warning(thd, MYSQL_ERROR::WARN_LEVEL_WARN,
                 ER_AMBIGUOUS_FIELD_TERM, ER(ER_AMBIGUOUS_FIELD_TERM));
    is_ambiguous_field_term= TRUE;
  }
  else
    is_ambiguous_field_term= FALSE;

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  return 0;
}


2046
#define NEED_ESCAPING(x) ((int) (uchar) (x) == escape_char    || \
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                          (enclosed ? (int) (uchar) (x) == field_sep_char      \
                                    : (int) (uchar) (x) == field_term_char) || \
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                          (int) (uchar) (x) == line_sep_char  || \
                          !(x))

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bool select_export::send_data(List<Item> &items)
{

2055
  DBUG_ENTER("select_export::send_data");
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  char buff[MAX_FIELD_WIDTH],null_buff[2],space[MAX_FIELD_WIDTH];
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  char cvt_buff[MAX_FIELD_WIDTH];
  String cvt_str(cvt_buff, sizeof(cvt_buff), write_cs);
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  bool space_inited=0;
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  String tmp(buff,sizeof(buff),&my_charset_bin),*res;
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  tmp.length(0);

2063
  if (unit->offset_limit_cnt)
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  {						// using limit offset,count
2065
    unit->offset_limit_cnt--;
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    DBUG_RETURN(0);
  }
  row_count++;
  Item *item;
  uint used_length=0,items_left=items.elements;
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  List_iterator_fast<Item> li(items);
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2073
  if (my_b_write(&cache,(uchar*) exchange->line_start->ptr(),
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		 exchange->line_start->length()))
    goto err;
  while ((item=li++))
  {
    Item_result result_type=item->result_type();
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    bool enclosed = (exchange->enclosed->length() &&
                     (!exchange->opt_enclosed || result_type == STRING_RESULT));
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    res=item->str_result(&tmp);
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    if (res && !my_charset_same(write_cs, res->charset()) &&
        !my_charset_same(write_cs, &my_charset_bin))
    {
      const char *well_formed_error_pos;
      const char *cannot_convert_error_pos;
      const char *from_end_pos;
      const char *error_pos;
      uint32 bytes;
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      uint64 estimated_bytes=
        ((uint64) res->length() / res->charset()->mbminlen + 1) *
        write_cs->mbmaxlen + 1;
      set_if_smaller(estimated_bytes, UINT_MAX32);
      if (cvt_str.realloc((uint32) estimated_bytes))
      {
        my_error(ER_OUTOFMEMORY, MYF(0), (uint32) estimated_bytes);
        goto err;
      }

      bytes= well_formed_copy_nchars(write_cs, (char *) cvt_str.ptr(),
                                     cvt_str.alloced_length(),
2102
                                     res->charset(), res->ptr(), res->length(),
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                                     UINT_MAX32, // copy all input chars,
                                                 // i.e. ignore nchars parameter
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                                     &well_formed_error_pos,
                                     &cannot_convert_error_pos,
                                     &from_end_pos);
      error_pos= well_formed_error_pos ? well_formed_error_pos
                                       : cannot_convert_error_pos;
      if (error_pos)
      {
        char printable_buff[32];
        convert_to_printable(printable_buff, sizeof(printable_buff),
                             error_pos, res->ptr() + res->length() - error_pos,
                             res->charset(), 6);
        push_warning_printf(thd, MYSQL_ERROR::WARN_LEVEL_WARN,
                            ER_TRUNCATED_WRONG_VALUE_FOR_FIELD,
                            ER(ER_TRUNCATED_WRONG_VALUE_FOR_FIELD),
                            "string", printable_buff,
                            item->name, row_count);
      }
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      else if (from_end_pos < res->ptr() + res->length())
      { 
        /*
          result is longer than UINT_MAX32 and doesn't fit into String
        */
        push_warning_printf(thd, MYSQL_ERROR::WARN_LEVEL_WARN,
                            WARN_DATA_TRUNCATED, ER(WARN_DATA_TRUNCATED),
                            item->full_name(), row_count);
      }
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      cvt_str.length(bytes);
      res= &cvt_str;
    }
2134
    if (res && enclosed)
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    {
2136
      if (my_b_write(&cache,(uchar*) exchange->enclosed->ptr(),
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		     exchange->enclosed->length()))
	goto err;
    }
    if (!res)
    {						// NULL
      if (!fixed_row_size)
      {
	if (escape_char != -1)			// Use \N syntax
	{
	  null_buff[0]=escape_char;
	  null_buff[1]='N';
2148
	  if (my_b_write(&cache,(uchar*) null_buff,2))
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	    goto err;
	}
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	else if (my_b_write(&cache,(uchar*) "NULL",4))
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	  goto err;
      }
      else
      {
	used_length=0;				// Fill with space
      }
    }
    else
    {
      if (fixed_row_size)
	used_length=min(res->length(),item->max_length);
      else
	used_length=res->length();
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      if ((result_type == STRING_RESULT || is_unsafe_field_sep) &&
           escape_char != -1)
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      {
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        char *pos, *start, *end;
        CHARSET_INFO *res_charset= res->charset();
        CHARSET_INFO *character_set_client= thd->variables.
                                            character_set_client;
        bool check_second_byte= (res_charset == &my_charset_bin) &&
                                 character_set_client->
                                 escape_with_backslash_is_dangerous;
        DBUG_ASSERT(character_set_client->mbmaxlen == 2 ||
                    !character_set_client->escape_with_backslash_is_dangerous);
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	for (start=pos=(char*) res->ptr(),end=pos+used_length ;
	     pos != end ;
	     pos++)
	{
#ifdef USE_MB
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	  if (use_mb(res_charset))
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	  {
	    int l;
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	    if ((l=my_ismbchar(res_charset, pos, end)))
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	    {
	      pos += l-1;
	      continue;
	    }
	  }
#endif
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          /*
            Special case when dumping BINARY/VARBINARY/BLOB values
            for the clients with character sets big5, cp932, gbk and sjis,
            which can have the escape character (0x5C "\" by default)
            as the second byte of a multi-byte sequence.
            
            If
            - pos[0] is a valid multi-byte head (e.g 0xEE) and
            - pos[1] is 0x00, which will be escaped as "\0",
            
            then we'll get "0xEE + 0x5C + 0x30" in the output file.
            
            If this file is later loaded using this sequence of commands:
            
            mysql> create table t1 (a varchar(128)) character set big5;
            mysql> LOAD DATA INFILE 'dump.txt' INTO TABLE t1;
            
            then 0x5C will be misinterpreted as the second byte
            of a multi-byte character "0xEE + 0x5C", instead of
            escape character for 0x00.
            
            To avoid this confusion, we'll escape the multi-byte
            head character too, so the sequence "0xEE + 0x00" will be
            dumped as "0x5C + 0xEE + 0x5C + 0x30".
            
            Note, in the condition below we only check if
            mbcharlen is equal to 2, because there are no
            character sets with mbmaxlen longer than 2
            and with escape_with_backslash_is_dangerous set.
            DBUG_ASSERT before the loop makes that sure.
          */

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          if ((NEED_ESCAPING(*pos) ||
               (check_second_byte &&
                my_mbcharlen(character_set_client, (uchar) *pos) == 2 &&
                pos + 1 < end &&
                NEED_ESCAPING(pos[1]))) &&
              /*
               Don't escape field_term_char by doubling - doubling is only
               valid for ENCLOSED BY characters:
              */
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              (enclosed || !is_ambiguous_field_term ||
               (int) (uchar) *pos != field_term_char))
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          {
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	    char tmp_buff[2];
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            tmp_buff[0]= ((int) (uchar) *pos == field_sep_char &&
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                          is_ambiguous_field_sep) ?
                          field_sep_char : escape_char;
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	    tmp_buff[1]= *pos ? *pos : '0';
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	    if (my_b_write(&cache,(uchar*) start,(uint) (pos-start)) ||
		my_b_write(&cache,(uchar*) tmp_buff,2))
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	      goto err;
	    start=pos+1;
	  }
	}
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	if (my_b_write(&cache,(uchar*) start,(uint) (pos-start)))
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	  goto err;
      }
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      else if (my_b_write(&cache,(uchar*) res->ptr(),used_length))
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	goto err;
    }
    if (fixed_row_size)
    {						// Fill with space
      if (item->max_length > used_length)
      {
	/* QQ:  Fix by adding a my_b_fill() function */
	if (!space_inited)
	{
	  space_inited=1;
	  bfill(space,sizeof(space),' ');
	}
	uint length=item->max_length-used_length;
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	for (; length > sizeof(space) ; length-=sizeof(space))
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	{
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	  if (my_b_write(&cache,(uchar*) space,sizeof(space)))
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	    goto err;
	}
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	if (my_b_write(&cache,(uchar*) space,length))
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	  goto err;
      }
    }
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    if (res && enclosed)
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    {
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      if (my_b_write(&cache, (uchar*) exchange->enclosed->ptr(),
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                     exchange->enclosed->length()))
        goto err;
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    }
    if (--items_left)
    {
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      if (my_b_write(&cache, (uchar*) exchange->field_term->ptr(),
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                     field_term_length))
        goto err;
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    }
  }
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  if (my_b_write(&cache,(uchar*) exchange->line_term->ptr(),
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		 exchange->line_term->length()))
    goto err;
  DBUG_RETURN(0);
err:
  DBUG_RETURN(1);
}


/***************************************************************************
** Dump  of select to a binary file
***************************************************************************/


int
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select_dump::prepare(List<Item> &list __attribute__((unused)),
		     SELECT_LEX_UNIT *u)
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{
2305
  unit= u;
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  return (int) ((file= create_file(thd, path, exchange, &cache)) < 0);
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}


bool select_dump::send_data(List<Item> &items)
{
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  List_iterator_fast<Item> li(items);
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  char buff[MAX_FIELD_WIDTH];
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  String tmp(buff,sizeof(buff),&my_charset_bin),*res;
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  tmp.length(0);
  Item *item;
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  DBUG_ENTER("select_dump::send_data");
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2319
  if (unit->offset_limit_cnt)
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  {						// using limit offset,count
2321
    unit->offset_limit_cnt--;
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    DBUG_RETURN(0);
  }
  if (row_count++ > 1) 
  {
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    my_message(ER_TOO_MANY_ROWS, ER(ER_TOO_MANY_ROWS), MYF(0));
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    goto err;
  }
  while ((item=li++))
  {
    res=item->str_result(&tmp);
2332
    if (!res)					// If NULL
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    {
2334
      if (my_b_write(&cache,(uchar*) "",1))
2335
	goto err;
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    }
2337
    else if (my_b_write(&cache,(uchar*) res->ptr(),res->length()))
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    {
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      my_error(ER_ERROR_ON_WRITE, MYF(0), path, my_errno);
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      goto err;
    }
  }
  DBUG_RETURN(0);
err:
  DBUG_RETURN(1);
}


2349
select_subselect::select_subselect(Item_subselect *item_arg)
2350
{
2351
  item= item_arg;
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}

2354

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bool select_singlerow_subselect::send_data(List<Item> &items)
2356
{
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  DBUG_ENTER("select_singlerow_subselect::send_data");
  Item_singlerow_subselect *it= (Item_singlerow_subselect *)item;
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  if (it->assigned())
  {
2361
    my_message(ER_SUBQUERY_NO_1_ROW, ER(ER_SUBQUERY_NO_1_ROW), MYF(0));
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    DBUG_RETURN(1);
  }
  if (unit->offset_limit_cnt)
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  {				          // Using limit offset,count
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    unit->offset_limit_cnt--;
    DBUG_RETURN(0);
2368
  }
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  List_iterator_fast<Item> li(items);
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  Item *val_item;
  for (uint i= 0; (val_item= li++); i++)
    it->store(i, val_item);
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  it->assigned(1);
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  DBUG_RETURN(0);
2375
}
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2377

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void select_max_min_finder_subselect::cleanup()
{
  DBUG_ENTER("select_max_min_finder_subselect::cleanup");
  cache= 0;
  DBUG_VOID_RETURN;
}


2386 2387 2388
bool select_max_min_finder_subselect::send_data(List<Item> &items)
{
  DBUG_ENTER("select_max_min_finder_subselect::send_data");
2389
  Item_maxmin_subselect *it= (Item_maxmin_subselect *)item;
2390 2391
  List_iterator_fast<Item> li(items);
  Item *val_item= li++;
2392
  it->register_value();
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  if (it->assigned())
  {
    cache->store(val_item);
    if ((this->*op)())
      it->store(0, cache);
  }
  else
  {
    if (!cache)
    {
2403
      cache= Item_cache::get_cache(val_item);
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      switch (val_item->result_type())
      {
      case REAL_RESULT:
	op= &select_max_min_finder_subselect::cmp_real;
	break;
      case INT_RESULT:
	op= &select_max_min_finder_subselect::cmp_int;
	break;
      case STRING_RESULT:
	op= &select_max_min_finder_subselect::cmp_str;
	break;
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      case DECIMAL_RESULT:
        op= &select_max_min_finder_subselect::cmp_decimal;
        break;
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      case ROW_RESULT:
        // This case should never be choosen
	DBUG_ASSERT(0);
	op= 0;
      }
    }
    cache->store(val_item);
    it->store(0, cache);
  }
  it->assigned(1);
  DBUG_RETURN(0);
}

bool select_max_min_finder_subselect::cmp_real()
{
2433
  Item *maxmin= ((Item_singlerow_subselect *)item)->element_index(0);
2434
  double val1= cache->val_real(), val2= maxmin->val_real();
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  if (fmax)
    return (cache->null_value && !maxmin->null_value) ||
      (!cache->null_value && !maxmin->null_value &&
       val1 > val2);
2439 2440 2441
  return (maxmin->null_value && !cache->null_value) ||
    (!cache->null_value && !maxmin->null_value &&
     val1 < val2);
2442 2443 2444 2445
}

bool select_max_min_finder_subselect::cmp_int()
{
2446
  Item *maxmin= ((Item_singlerow_subselect *)item)->element_index(0);
2447 2448 2449 2450 2451
  longlong val1= cache->val_int(), val2= maxmin->val_int();
  if (fmax)
    return (cache->null_value && !maxmin->null_value) ||
      (!cache->null_value && !maxmin->null_value &&
       val1 > val2);
2452 2453 2454
  return (maxmin->null_value && !cache->null_value) ||
    (!cache->null_value && !maxmin->null_value &&
     val1 < val2);
2455 2456
}

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bool select_max_min_finder_subselect::cmp_decimal()
{
2459
  Item *maxmin= ((Item_singlerow_subselect *)item)->element_index(0);
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  my_decimal cval, *cvalue= cache->val_decimal(&cval);
  my_decimal mval, *mvalue= maxmin->val_decimal(&mval);
  if (fmax)
    return (cache->null_value && !maxmin->null_value) ||
      (!cache->null_value && !maxmin->null_value &&
       my_decimal_cmp(cvalue, mvalue) > 0) ;
2466 2467 2468
  return (maxmin->null_value && !cache->null_value) ||
    (!cache->null_value && !maxmin->null_value &&
     my_decimal_cmp(cvalue,mvalue) < 0);
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}

2471 2472 2473
bool select_max_min_finder_subselect::cmp_str()
{
  String *val1, *val2, buf1, buf2;
2474
  Item *maxmin= ((Item_singlerow_subselect *)item)->element_index(0);
2475 2476 2477 2478 2479 2480 2481 2482 2483 2484
  /*
    as far as both operand is Item_cache buf1 & buf2 will not be used,
    but added for safety
  */
  val1= cache->val_str(&buf1);
  val2= maxmin->val_str(&buf1);
  if (fmax)
    return (cache->null_value && !maxmin->null_value) ||
      (!cache->null_value && !maxmin->null_value &&
       sortcmp(val1, val2, cache->collation.collation) > 0) ;
2485 2486 2487
  return (maxmin->null_value && !cache->null_value) ||
    (!cache->null_value && !maxmin->null_value &&
     sortcmp(val1, val2, cache->collation.collation) < 0);
2488 2489
}

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bool select_exists_subselect::send_data(List<Item> &items)
{
  DBUG_ENTER("select_exists_subselect::send_data");
  Item_exists_subselect *it= (Item_exists_subselect *)item;
  if (unit->offset_limit_cnt)
  {				          // Using limit offset,count
    unit->offset_limit_cnt--;
    DBUG_RETURN(0);
  }
  it->value= 1;
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  it->assigned(1);
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  DBUG_RETURN(0);
}

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/***************************************************************************
2506
  Dump of select to variables
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***************************************************************************/
2508

2509
int select_dumpvar::prepare(List<Item> &list, SELECT_LEX_UNIT *u)
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{
2511
  unit= u;
2512
  
2513
  if (var_list.elements != list.elements)
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  {
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    my_message(ER_WRONG_NUMBER_OF_COLUMNS_IN_SELECT,
               ER(ER_WRONG_NUMBER_OF_COLUMNS_IN_SELECT), MYF(0));
2517
    return 1;
2518
  }               
2519 2520
  return 0;
}
2521

2522

2523 2524 2525 2526 2527 2528 2529
bool select_dumpvar::check_simple_select() const
{
  my_error(ER_SP_BAD_CURSOR_SELECT, MYF(0));
  return TRUE;
}


2530 2531
void select_dumpvar::cleanup()
{
2532
  row_count= 0;
2533 2534 2535
}


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Query_arena::Type Query_arena::type() const
2537
{
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2538
  DBUG_ASSERT(0); /* Should never be called */
2539
  return STATEMENT;
2540 2541 2542
}


2543 2544 2545 2546 2547 2548 2549 2550 2551 2552 2553 2554 2555 2556 2557
void Query_arena::free_items()
{
  Item *next;
  DBUG_ENTER("Query_arena::free_items");
  /* This works because items are allocated with sql_alloc() */
  for (; free_list; free_list= next)
  {
    next= free_list->next;
    free_list->delete_self();
  }
  /* Postcondition: free_list is 0 */
  DBUG_VOID_RETURN;
}


2558 2559 2560 2561 2562 2563 2564 2565 2566 2567
void Query_arena::set_query_arena(Query_arena *set)
{
  mem_root=  set->mem_root;
  free_list= set->free_list;
  state= set->state;
}


void Query_arena::cleanup_stmt()
{
2568
  DBUG_ASSERT(! "Query_arena::cleanup_stmt() not implemented");
2569 2570
}

2571
/*
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2572
  Statement functions
2573 2574
*/

2575 2576 2577
Statement::Statement(LEX *lex_arg, MEM_ROOT *mem_root_arg,
                     enum enum_state state_arg, ulong id_arg)
  :Query_arena(mem_root_arg, state_arg),
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  id(id_arg),
2579
  mark_used_columns(MARK_COLUMNS_READ),
2580
  lex(lex_arg),
2581 2582 2583
  cursor(0),
  db(NULL),
  db_length(0)
2584
{
2585 2586
  query_string.length= 0;
  query_string.str= NULL;
2587
  name.str= NULL;
2588 2589 2590
}


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Query_arena::Type Statement::type() const
2592 2593 2594 2595 2596 2597 2598 2599
{
  return STATEMENT;
}


void Statement::set_statement(Statement *stmt)
{
  id=             stmt->id;
2600
  mark_used_columns=   stmt->mark_used_columns;
2601
  lex=            stmt->lex;
2602
  query_string=   stmt->query_string;
2603
  cursor=         stmt->cursor;
2604 2605 2606
}


2607 2608 2609
void
Statement::set_n_backup_statement(Statement *stmt, Statement *backup)
{
2610
  DBUG_ENTER("Statement::set_n_backup_statement");
2611 2612
  backup->set_statement(this);
  set_statement(stmt);
2613
  DBUG_VOID_RETURN;
2614 2615 2616 2617 2618
}


void Statement::restore_backup_statement(Statement *stmt, Statement *backup)
{
2619
  DBUG_ENTER("Statement::restore_backup_statement");
2620 2621
  stmt->set_statement(this);
  set_statement(backup);
2622
  DBUG_VOID_RETURN;
2623 2624 2625
}


2626 2627 2628 2629 2630 2631 2632 2633 2634
/** Assign a new value to thd->query.  */

void Statement::set_query_inner(char *query_arg, uint32 query_length_arg)
{
  query_string.str= query_arg;
  query_string.length= query_length_arg;
}


2635
void THD::end_statement()
2636
{
2637
  /* Cleanup SQL processing state to reuse this statement in next query. */
2638 2639 2640
  lex_end(lex);
  delete lex->result;
  lex->result= 0;
2641 2642
  /* Note that free_list is freed in cleanup_after_query() */

2643 2644 2645 2646 2647 2648 2649
  /*
    Don't free mem_root, as mem_root is freed in the end of dispatch_command
    (once for any command).
  */
}


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2650
void THD::set_n_backup_active_arena(Query_arena *set, Query_arena *backup)
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2651
{
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2652
  DBUG_ENTER("THD::set_n_backup_active_arena");
2653
  DBUG_ASSERT(backup->is_backup_arena == FALSE);
2654

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2655 2656
  backup->set_query_arena(this);
  set_query_arena(set);
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2657
#ifndef DBUG_OFF
2658
  backup->is_backup_arena= TRUE;
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2659
#endif
2660
  DBUG_VOID_RETURN;
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}


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void THD::restore_active_arena(Query_arena *set, Query_arena *backup)
2665
{
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2666
  DBUG_ENTER("THD::restore_active_arena");
2667
  DBUG_ASSERT(backup->is_backup_arena);
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  set->set_query_arena(this);
  set_query_arena(backup);
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#ifndef DBUG_OFF
2671
  backup->is_backup_arena= FALSE;
2672
#endif
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  DBUG_VOID_RETURN;
2674 2675
}

2676 2677 2678 2679 2680 2681
Statement::~Statement()
{
}

C_MODE_START

2682 2683
static uchar *
get_statement_id_as_hash_key(const uchar *record, size_t *key_length,
2684 2685 2686 2687
                             my_bool not_used __attribute__((unused)))
{
  const Statement *statement= (const Statement *) record; 
  *key_length= sizeof(statement->id);
2688
  return (uchar *) &((const Statement *) statement)->id;
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}

static void delete_statement_as_hash_key(void *key)
{
  delete (Statement *) key;
}

2696
static uchar *get_stmt_name_hash_key(Statement *entry, size_t *length,
2697
                                    my_bool not_used __attribute__((unused)))
2698
{
2699 2700
  *length= entry->name.length;
  return (uchar*) entry->name.str;
2701 2702
}

2703 2704 2705 2706 2707
C_MODE_END

Statement_map::Statement_map() :
  last_found_statement(0)
{
2708 2709 2710 2711 2712
  enum
  {
    START_STMT_HASH_SIZE = 16,
    START_NAME_HASH_SIZE = 16
  };
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  my_hash_init(&st_hash, &my_charset_bin, START_STMT_HASH_SIZE, 0, 0,
               get_statement_id_as_hash_key,
               delete_statement_as_hash_key, MYF(0));
  my_hash_init(&names_hash, system_charset_info, START_NAME_HASH_SIZE, 0, 0,
               (my_hash_get_key) get_stmt_name_hash_key,
               NULL,MYF(0));
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}

2721

2722 2723 2724 2725 2726 2727 2728 2729 2730 2731 2732 2733 2734 2735 2736 2737 2738 2739 2740 2741 2742 2743
/*
  Insert a new statement to the thread-local statement map.

  DESCRIPTION
    If there was an old statement with the same name, replace it with the
    new one. Otherwise, check if max_prepared_stmt_count is not reached yet,
    increase prepared_stmt_count, and insert the new statement. It's okay
    to delete an old statement and fail to insert the new one.

  POSTCONDITIONS
    All named prepared statements are also present in names_hash.
    Statement names in names_hash are unique.
    The statement is added only if prepared_stmt_count < max_prepard_stmt_count
    last_found_statement always points to a valid statement or is 0

  RETURN VALUE
    0  success
    1  error: out of resources or max_prepared_stmt_count limit has been
       reached. An error is sent to the client, the statement is deleted.
*/

int Statement_map::insert(THD *thd, Statement *statement)
2744
{
2745
  if (my_hash_insert(&st_hash, (uchar*) statement))
2746
  {
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    /*
      Delete is needed only in case of an insert failure. In all other
      cases hash_delete will also delete the statement.
    */
    delete statement;
    my_error(ER_OUT_OF_RESOURCES, MYF(0));
    goto err_st_hash;
  }
2755
  if (statement->name.str && my_hash_insert(&names_hash, (uchar*) statement))
2756
  {
2757 2758
    my_error(ER_OUT_OF_RESOURCES, MYF(0));
    goto err_names_hash;
2759
  }
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2760
  mysql_mutex_lock(&LOCK_prepared_stmt_count);
2761 2762 2763 2764 2765 2766 2767 2768 2769
  /*
    We don't check that prepared_stmt_count is <= max_prepared_stmt_count
    because we would like to allow to lower the total limit
    of prepared statements below the current count. In that case
    no new statements can be added until prepared_stmt_count drops below
    the limit.
  */
  if (prepared_stmt_count >= max_prepared_stmt_count)
  {
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2770
    mysql_mutex_unlock(&LOCK_prepared_stmt_count);
2771 2772
    my_error(ER_MAX_PREPARED_STMT_COUNT_REACHED, MYF(0),
             max_prepared_stmt_count);
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    goto err_max;
  }
  prepared_stmt_count++;
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2776
  mysql_mutex_unlock(&LOCK_prepared_stmt_count);
2777

2778
  last_found_statement= statement;
2779 2780 2781 2782
  return 0;

err_max:
  if (statement->name.str)
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2783
    my_hash_delete(&names_hash, (uchar*) statement);
2784
err_names_hash:
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2785
  my_hash_delete(&st_hash, (uchar*) statement);
2786 2787
err_st_hash:
  return 1;
2788 2789
}

2790

2791 2792
void Statement_map::close_transient_cursors()
{
2793
#ifdef TO_BE_IMPLEMENTED
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  Statement *stmt;
  while ((stmt= transient_cursor_list.head()))
    stmt->close_cursor();                 /* deletes itself from the list */
2797
#endif
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}


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void Statement_map::erase(Statement *statement)
{
  if (statement == last_found_statement)
    last_found_statement= 0;
  if (statement->name.str)
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    my_hash_delete(&names_hash, (uchar *) statement);
2807

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  my_hash_delete(&st_hash, (uchar *) statement);
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  mysql_mutex_lock(&LOCK_prepared_stmt_count);
2810 2811
  DBUG_ASSERT(prepared_stmt_count > 0);
  prepared_stmt_count--;
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  mysql_mutex_unlock(&LOCK_prepared_stmt_count);
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}


void Statement_map::reset()
{
  /* Must be first, hash_free will reset st_hash.records */
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2819
  mysql_mutex_lock(&LOCK_prepared_stmt_count);
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  DBUG_ASSERT(prepared_stmt_count >= st_hash.records);
  prepared_stmt_count-= st_hash.records;
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2822
  mysql_mutex_unlock(&LOCK_prepared_stmt_count);
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  my_hash_reset(&names_hash);
  my_hash_reset(&st_hash);
  last_found_statement= 0;
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}

2829

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Statement_map::~Statement_map()
{
  /* Must go first, hash_free will reset st_hash.records */
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2833
  mysql_mutex_lock(&LOCK_prepared_stmt_count);
2834 2835
  DBUG_ASSERT(prepared_stmt_count >= st_hash.records);
  prepared_stmt_count-= st_hash.records;
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2836
  mysql_mutex_unlock(&LOCK_prepared_stmt_count);
2837

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  my_hash_free(&names_hash);
  my_hash_free(&st_hash);
2840 2841
}

2842 2843
bool select_dumpvar::send_data(List<Item> &items)
{
2844
  List_iterator_fast<my_var> var_li(var_list);
2845
  List_iterator<Item> it(items);
2846
  Item *item;
2847
  my_var *mv;
2848
  DBUG_ENTER("select_dumpvar::send_data");
2849

2850
  if (unit->offset_limit_cnt)
2851
  {						// using limit offset,count
2852 2853 2854
    unit->offset_limit_cnt--;
    DBUG_RETURN(0);
  }
2855 2856
  if (row_count++) 
  {
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    my_message(ER_TOO_MANY_ROWS, ER(ER_TOO_MANY_ROWS), MYF(0));
2858 2859
    DBUG_RETURN(1);
  }
2860
  while ((mv= var_li++) && (item= it++))
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  {
2862
    if (mv->local)
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    {
2864 2865
      if (thd->spcont->set_variable(thd, mv->offset, &item))
	    DBUG_RETURN(1);
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    }
    else
    {
2869
      Item_func_set_user_var *suv= new Item_func_set_user_var(mv->s, item);
2870 2871
      if (suv->fix_fields(thd, 0))
        DBUG_RETURN (1);
2872
      suv->save_item_result(item);
2873 2874
      if (suv->update())
        DBUG_RETURN (1);
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    }
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  }
2877
  DBUG_RETURN(thd->is_error());
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}

bool select_dumpvar::send_eof()
{
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  if (! row_count)
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    push_warning(thd, MYSQL_ERROR::WARN_LEVEL_WARN,
                 ER_SP_FETCH_NO_DATA, ER(ER_SP_FETCH_NO_DATA));
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  ::my_ok(thd,row_count);
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  return 0;
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}
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/****************************************************************************
  TMP_TABLE_PARAM
****************************************************************************/

void TMP_TABLE_PARAM::init()
{
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  DBUG_ENTER("TMP_TABLE_PARAM::init");
  DBUG_PRINT("enter", ("this: 0x%lx", (ulong)this));
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  field_count= sum_func_count= func_count= hidden_field_count= 0;
  group_parts= group_length= group_null_parts= 0;
  quick_group= 1;
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  table_charset= 0;
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  precomputed_group_by= 0;
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  DBUG_VOID_RETURN;
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}
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void thd_increment_bytes_sent(ulong length)
{
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  THD *thd=current_thd;
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  if (likely(thd != 0))
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  { /* current_thd==0 when close_connection() calls net_send_error() */
    thd->status_var.bytes_sent+= length;
  }
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}


void thd_increment_bytes_received(ulong length)
{
  current_thd->status_var.bytes_received+= length;
}


void thd_increment_net_big_packet_count(ulong length)
{
  current_thd->status_var.net_big_packet_count+= length;
}


void THD::set_status_var_init()
{
  bzero((char*) &status_var, sizeof(status_var));
}
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void Security_context::init()
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{
  host= user= priv_user= ip= 0;
  host_or_ip= "connecting host";
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  priv_host[0]= '\0';
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  master_access= 0;
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#ifndef NO_EMBEDDED_ACCESS_CHECKS
  db_access= NO_ACCESS;
#endif
}


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void Security_context::destroy()
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{
  // If not pointer to constant
  if (host != my_localhost)
    safeFree(host);
  if (user != delayed_user)
    safeFree(user);
  safeFree(ip);
}


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void Security_context::skip_grants()
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{
  /* privileges for the user are unknown everything is allowed */
  host_or_ip= (char *)"";
  master_access= ~NO_ACCESS;
  priv_user= (char *)"";
  *priv_host= '\0';
}


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bool Security_context::set_user(char *user_arg)
{
  safeFree(user);
  user= my_strdup(user_arg, MYF(0));
  return user == 0;
}

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#ifndef NO_EMBEDDED_ACCESS_CHECKS
/**
  Initialize this security context from the passed in credentials
  and activate it in the current thread.

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  @param       thd
  @param       definer_user
  @param       definer_host
  @param       db
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  @param[out]  backup  Save a pointer to the current security context
                       in the thread. In case of success it points to the
                       saved old context, otherwise it points to NULL.


  During execution of a statement, multiple security contexts may
  be needed:
  - the security context of the authenticated user, used as the
    default security context for all top-level statements
  - in case of a view or a stored program, possibly the security
    context of the definer of the routine, if the object is
    defined with SQL SECURITY DEFINER option.

  The currently "active" security context is parameterized in THD
  member security_ctx. By default, after a connection is
  established, this member points at the "main" security context
  - the credentials of the authenticated user.

  Later, if we would like to execute some sub-statement or a part
  of a statement under credentials of a different user, e.g.
  definer of a procedure, we authenticate this user in a local
  instance of Security_context by means of this method (and
  ultimately by means of acl_getroot_no_password), and make the
  local instance active in the thread by re-setting
  thd->security_ctx pointer.

  Note, that the life cycle and memory management of the "main" and
  temporary security contexts are different.
  For the main security context, the memory for user/host/ip is
  allocated on system heap, and the THD class frees this memory in
  its destructor. The only case when contents of the main security
  context may change during its life time is when someone issued
  CHANGE USER command.
  Memory management of a "temporary" security context is
  responsibility of the module that creates it.

  @retval TRUE  there is no user with the given credentials. The erro
                is reported in the thread.
  @retval FALSE success
*/

bool
Security_context::
change_security_context(THD *thd,
                        LEX_STRING *definer_user,
                        LEX_STRING *definer_host,
                        LEX_STRING *db,
                        Security_context **backup)
{
  bool needs_change;

  DBUG_ENTER("Security_context::change_security_context");

  DBUG_ASSERT(definer_user->str && definer_host->str);

  *backup= NULL;
  /*
    The current security context may have NULL members
    if we have just started the thread and not authenticated
    any user. This use case is currently in events worker thread.
  */
  needs_change= (thd->security_ctx->priv_user == NULL ||
                 strcmp(definer_user->str, thd->security_ctx->priv_user) ||
                 thd->security_ctx->priv_host == NULL ||
                 my_strcasecmp(system_charset_info, definer_host->str,
                               thd->security_ctx->priv_host));
  if (needs_change)
  {
    if (acl_getroot_no_password(this, definer_user->str, definer_host->str,
                                definer_host->str, db->str))
    {
      my_error(ER_NO_SUCH_USER, MYF(0), definer_user->str,
               definer_host->str);
      DBUG_RETURN(TRUE);
    }
    *backup= thd->security_ctx;
    thd->security_ctx= this;
  }

  DBUG_RETURN(FALSE);
}


void
Security_context::restore_security_context(THD *thd,
                                           Security_context *backup)
{
  if (backup)
    thd->security_ctx= backup;
}
#endif
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bool Security_context::user_matches(Security_context *them)
{
  return ((user != NULL) && (them->user != NULL) &&
          !strcmp(user, them->user));
}


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/****************************************************************************
  Handling of open and locked tables states.

  This is used when we want to open/lock (and then close) some tables when
  we already have a set of tables open and locked. We use these methods for
  access to mysql.proc table to find definitions of stored routines.
****************************************************************************/

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void THD::reset_n_backup_open_tables_state(Open_tables_backup *backup)
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{
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  DBUG_ENTER("reset_n_backup_open_tables_state");
  backup->set_open_tables_state(this);
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  backup->mdl_system_tables_svp= mdl_context.mdl_savepoint();
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  reset_open_tables_state(this);
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  state_flags|= Open_tables_state::BACKUPS_AVAIL;
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  DBUG_VOID_RETURN;
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}


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void THD::restore_backup_open_tables_state(Open_tables_backup *backup)
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{
  DBUG_ENTER("restore_backup_open_tables_state");
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  mdl_context.rollback_to_savepoint(backup->mdl_system_tables_svp);
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  /*
    Before we will throw away current open tables state we want
    to be sure that it was properly cleaned up.
  */
  DBUG_ASSERT(open_tables == 0 && temporary_tables == 0 &&
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              derived_tables == 0 &&
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              lock == 0 &&
              locked_tables_mode == LTM_NONE &&
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              m_reprepare_observer == NULL);
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  set_open_tables_state(backup);
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  DBUG_VOID_RETURN;
}
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/**
  Check the killed state of a user thread
  @param thd  user thread
  @retval 0 the user thread is active
  @retval 1 the user thread has been killed
*/
extern "C" int thd_killed(const MYSQL_THD thd)
{
  return(thd->killed);
}
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/**
  Return the thread id of a user thread
  @param thd user thread
  @return thread id
*/
extern "C" unsigned long thd_get_thread_id(const MYSQL_THD thd)
{
  return((unsigned long)thd->thread_id);
}


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#ifdef INNODB_COMPATIBILITY_HOOKS
extern "C" struct charset_info_st *thd_charset(MYSQL_THD thd)
{
  return(thd->charset());
}

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/**
  OBSOLETE : there's no way to ensure the string is null terminated.
  Use thd_query_string instead()
*/
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extern "C" char **thd_query(MYSQL_THD thd)
{
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  return(&thd->query_string.str);
}

/**
  Get the current query string for the thread.

  @param The MySQL internal thread pointer
  @return query string and length. May be non-null-terminated.
*/
extern "C" LEX_STRING * thd_query_string (MYSQL_THD thd)
{
  return(&thd->query_string);
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}

extern "C" int thd_slave_thread(const MYSQL_THD thd)
{
  return(thd->slave_thread);
}
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extern "C" int thd_non_transactional_update(const MYSQL_THD thd)
{
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  return(thd->transaction.all.modified_non_trans_table);
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}

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extern "C" int thd_binlog_format(const MYSQL_THD thd)
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{
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  if (mysql_bin_log.is_open() && (thd->variables.option_bits & OPTION_BIN_LOG))
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    return (int) thd->variables.binlog_format;
  else
    return BINLOG_FORMAT_UNSPEC;
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}
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extern "C" void thd_mark_transaction_to_rollback(MYSQL_THD thd, bool all)
{
  mark_transaction_to_rollback(thd, all);
}
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extern "C" bool thd_binlog_filter_ok(const MYSQL_THD thd)
{
  return binlog_filter->db_ok(thd->db);
}
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#endif // INNODB_COMPATIBILITY_HOOKS */
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/****************************************************************************
  Handling of statement states in functions and triggers.

  This is used to ensure that the function/trigger gets a clean state
  to work with and does not cause any side effects of the calling statement.

  It also allows most stored functions and triggers to replicate even
  if they are used items that would normally be stored in the binary
  replication (like last_insert_id() etc...)

  The following things is done
  - Disable binary logging for the duration of the statement
  - Disable multi-result-sets for the duration of the statement
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  - Value of last_insert_id() is saved and restored
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  - Value set by 'SET INSERT_ID=#' is reset and restored
  - Value for found_rows() is reset and restored
  - examined_row_count is added to the total
  - cuted_fields is added to the total
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  - new savepoint level is created and destroyed
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  NOTES:
    Seed for random() is saved for the first! usage of RAND()
    We reset examined_row_count and cuted_fields and add these to the
    result to ensure that if we have a bug that would reset these within
    a function, we are not loosing any rows from the main statement.
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    We do not reset value of last_insert_id().
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****************************************************************************/

void THD::reset_sub_statement_state(Sub_statement_state *backup,
                                    uint new_state)
{
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#ifndef EMBEDDED_LIBRARY
  /* BUG#33029, if we are replicating from a buggy master, reset
     auto_inc_intervals_forced to prevent substatement
     (triggers/functions) from using erroneous INSERT_ID value
   */
  if (rpl_master_erroneous_autoinc(this))
  {
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    DBUG_ASSERT(backup->auto_inc_intervals_forced.nb_elements() == 0);
    auto_inc_intervals_forced.swap(&backup->auto_inc_intervals_forced);
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  }
#endif
  
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  backup->option_bits=     variables.option_bits;
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  backup->count_cuted_fields= count_cuted_fields;
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  backup->in_sub_stmt=     in_sub_stmt;
  backup->enable_slow_log= enable_slow_log;
  backup->limit_found_rows= limit_found_rows;
  backup->examined_row_count= examined_row_count;
  backup->sent_row_count=   sent_row_count;
  backup->cuted_fields=     cuted_fields;
  backup->client_capabilities= client_capabilities;
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  backup->savepoints= transaction.savepoints;
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  backup->first_successful_insert_id_in_prev_stmt= 
    first_successful_insert_id_in_prev_stmt;
  backup->first_successful_insert_id_in_cur_stmt= 
    first_successful_insert_id_in_cur_stmt;
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3256
  if ((!lex->requires_prelocking() || is_update_query(lex->sql_command)) &&
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      !is_current_stmt_binlog_format_row())
3258
  {
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    variables.option_bits&= ~OPTION_BIN_LOG;
3260
  }
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  if ((backup->option_bits & OPTION_BIN_LOG) &&
       is_update_query(lex->sql_command) &&
       !is_current_stmt_binlog_format_row())
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    mysql_bin_log.start_union_events(this, this->query_id);

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  /* Disable result sets */
  client_capabilities &= ~CLIENT_MULTI_RESULTS;
  in_sub_stmt|= new_state;
  examined_row_count= 0;
  sent_row_count= 0;
  cuted_fields= 0;
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  transaction.savepoints= 0;
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  first_successful_insert_id_in_cur_stmt= 0;
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}


void THD::restore_sub_statement_state(Sub_statement_state *backup)
{
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  DBUG_ENTER("THD::restore_sub_statement_state");
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#ifndef EMBEDDED_LIBRARY
  /* BUG#33029, if we are replicating from a buggy master, restore
     auto_inc_intervals_forced so that the top statement can use the
     INSERT_ID value set before this statement.
   */
  if (rpl_master_erroneous_autoinc(this))
  {
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    backup->auto_inc_intervals_forced.swap(&auto_inc_intervals_forced);
    DBUG_ASSERT(backup->auto_inc_intervals_forced.nb_elements() == 0);
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  }
#endif

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  /*
    To save resources we want to release savepoints which were created
    during execution of function or trigger before leaving their savepoint
    level. It is enough to release first savepoint set on this level since
    all later savepoints will be released automatically.
  */
  if (transaction.savepoints)
  {
    SAVEPOINT *sv;
    for (sv= transaction.savepoints; sv->prev; sv= sv->prev)
    {}
    /* ha_release_savepoint() never returns error. */
    (void)ha_release_savepoint(this, sv);
  }
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  count_cuted_fields= backup->count_cuted_fields;
3308
  transaction.savepoints= backup->savepoints;
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  variables.option_bits= backup->option_bits;
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  in_sub_stmt=      backup->in_sub_stmt;
  enable_slow_log=  backup->enable_slow_log;
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  first_successful_insert_id_in_prev_stmt= 
    backup->first_successful_insert_id_in_prev_stmt;
  first_successful_insert_id_in_cur_stmt= 
    backup->first_successful_insert_id_in_cur_stmt;
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  limit_found_rows= backup->limit_found_rows;
  sent_row_count=   backup->sent_row_count;
  client_capabilities= backup->client_capabilities;
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  /*
    If we've left sub-statement mode, reset the fatal error flag.
    Otherwise keep the current value, to propagate it up the sub-statement
    stack.
  */
  if (!in_sub_stmt)
    is_fatal_sub_stmt_error= FALSE;
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3327
  if ((variables.option_bits & OPTION_BIN_LOG) && is_update_query(lex->sql_command) &&
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       !is_current_stmt_binlog_format_row())
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    mysql_bin_log.stop_union_events(this);
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  /*
    The following is added to the old values as we are interested in the
    total complexity of the query
  */
  examined_row_count+= backup->examined_row_count;
  cuted_fields+=       backup->cuted_fields;
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  DBUG_VOID_RETURN;
3338
}
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3341 3342
void THD::set_statement(Statement *stmt)
{
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  mysql_mutex_lock(&LOCK_thd_data);
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  Statement::set_statement(stmt);
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  mysql_mutex_unlock(&LOCK_thd_data);
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}


/** Assign a new value to thd->query.  */

void THD::set_query(char *query_arg, uint32 query_length_arg)
{
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  mysql_mutex_lock(&LOCK_thd_data);
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  set_query_inner(query_arg, query_length_arg);
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  mysql_mutex_unlock(&LOCK_thd_data);
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}

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/** Assign a new value to thd->query and thd->query_id.  */

void THD::set_query_and_id(char *query_arg, uint32 query_length_arg,
                           query_id_t new_query_id)
{
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  mysql_mutex_lock(&LOCK_thd_data);
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  set_query_inner(query_arg, query_length_arg);
  query_id= new_query_id;
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  mysql_mutex_unlock(&LOCK_thd_data);
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}

/** Assign a new value to thd->query_id.  */

void THD::set_query_id(query_id_t new_query_id)
{
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  mysql_mutex_lock(&LOCK_thd_data);
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  query_id= new_query_id;
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  mysql_mutex_unlock(&LOCK_thd_data);
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}

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/**
  Leave explicit LOCK TABLES or prelocked mode and restore value of
  transaction sentinel in MDL subsystem.
*/

void THD::leave_locked_tables_mode()
{
  locked_tables_mode= LTM_NONE;
  /* Make sure we don't release the global read lock when leaving LTM. */
  mdl_context.reset_trans_sentinel(global_read_lock.global_shared_lock());
  /* Also ensure that we don't release metadata locks for open HANDLERs. */
  if (handler_tables_hash.records)
    mysql_ha_move_tickets_after_trans_sentinel(this);
}


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/**
  Mark transaction to rollback and mark error as fatal to a sub-statement.

  @param  thd   Thread handle
  @param  all   TRUE <=> rollback main transaction.
*/

void mark_transaction_to_rollback(THD *thd, bool all)
{
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  if (thd)
  {
    thd->is_fatal_sub_stmt_error= TRUE;
    thd->transaction_rollback_request= all;
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    /*
      Aborted transactions can not be IGNOREd.
      Switch off the IGNORE flag for the current
      SELECT_LEX. This should allow my_error()
      to report the error and abort the execution
      flow, even in presence
      of IGNORE clause.
    */
    if (thd->lex->current_select)
      thd->lex->current_select->no_error= FALSE;
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  }
3419
}
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/***************************************************************************
  Handling of XA id cacheing
***************************************************************************/

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mysql_mutex_t LOCK_xid_cache;
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HASH xid_cache;

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extern "C" uchar *xid_get_hash_key(const uchar *, size_t *, my_bool);
extern "C" void xid_free_hash(void *);

uchar *xid_get_hash_key(const uchar *ptr, size_t *length,
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                                  my_bool not_used __attribute__((unused)))
{
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  *length=((XID_STATE*)ptr)->xid.key_length();
  return ((XID_STATE*)ptr)->xid.key();
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}

3437
void xid_free_hash(void *ptr)
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{
  if (!((XID_STATE*)ptr)->in_thd)
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    my_free((uchar*)ptr, MYF(0));
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}

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#ifdef HAVE_PSI_INTERFACE
static PSI_mutex_key key_LOCK_xid_cache;

static PSI_mutex_info all_xid_mutexes[]=
{
  { &key_LOCK_xid_cache, "LOCK_xid_cache", PSI_FLAG_GLOBAL}
};

static void init_xid_psi_keys(void)
{
  const char* category= "sql";
  int count;

  if (PSI_server == NULL)
    return;

  count= array_elements(all_xid_mutexes);
  PSI_server->register_mutex(category, all_xid_mutexes, count);
}
#endif /* HAVE_PSI_INTERFACE */

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bool xid_cache_init()
{
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#ifdef HAVE_PSI_INTERFACE
  init_xid_psi_keys();
#endif

  mysql_mutex_init(key_LOCK_xid_cache, &LOCK_xid_cache, MY_MUTEX_INIT_FAST);
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  return my_hash_init(&xid_cache, &my_charset_bin, 100, 0, 0,
                      xid_get_hash_key, xid_free_hash, 0) != 0;
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}

void xid_cache_free()
{
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  if (my_hash_inited(&xid_cache))
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  {
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    my_hash_free(&xid_cache);
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    mysql_mutex_destroy(&LOCK_xid_cache);
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  }
}

XID_STATE *xid_cache_search(XID *xid)
{
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  mysql_mutex_lock(&LOCK_xid_cache);
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  XID_STATE *res=(XID_STATE *)my_hash_search(&xid_cache, xid->key(),
                                             xid->key_length());
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  mysql_mutex_unlock(&LOCK_xid_cache);
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  return res;
}

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bool xid_cache_insert(XID *xid, enum xa_states xa_state)
{
  XID_STATE *xs;
  my_bool res;
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  mysql_mutex_lock(&LOCK_xid_cache);
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  if (my_hash_search(&xid_cache, xid->key(), xid->key_length()))
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    res=0;
  else if (!(xs=(XID_STATE *)my_malloc(sizeof(*xs), MYF(MY_WME))))
    res=1;
  else
  {
    xs->xa_state=xa_state;
    xs->xid.set(xid);
    xs->in_thd=0;
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    res=my_hash_insert(&xid_cache, (uchar*)xs);
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  }
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  mysql_mutex_unlock(&LOCK_xid_cache);
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  return res;
}

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bool xid_cache_insert(XID_STATE *xid_state)
{
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  mysql_mutex_lock(&LOCK_xid_cache);
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  DBUG_ASSERT(my_hash_search(&xid_cache, xid_state->xid.key(),
                             xid_state->xid.key_length())==0);
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  my_bool res=my_hash_insert(&xid_cache, (uchar*)xid_state);
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  mysql_mutex_unlock(&LOCK_xid_cache);
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  return res;
}

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void xid_cache_delete(XID_STATE *xid_state)
{
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  mysql_mutex_lock(&LOCK_xid_cache);
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  my_hash_delete(&xid_cache, (uchar *)xid_state);
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  mysql_mutex_unlock(&LOCK_xid_cache);
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}

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/**
  Decide on logging format to use for the statement and issue errors
  or warnings as needed.  The decision depends on the following
  parameters:

  - The logging mode, i.e., the value of binlog_format.  Can be
    statement, mixed, or row.

  - The type of statement.  There are three types of statements:
    "normal" safe statements; unsafe statements; and row injections.
    An unsafe statement is one that, if logged in statement format,
    might produce different results when replayed on the slave (e.g.,
    INSERT DELAYED).  A row injection is either a BINLOG statement, or
    a row event executed by the slave's SQL thread.

  - The capabilities of tables modified by the statement.  The
    *capabilities vector* for a table is a set of flags associated
    with the table.  Currently, it only includes two flags: *row
    capability flag* and *statement capability flag*.

    The row capability flag is set if and only if the engine can
    handle row-based logging. The statement capability flag is set if
    and only if the table can handle statement-based logging.

  Decision table for logging format
  ---------------------------------

  The following table summarizes how the format and generated
  warning/error depends on the tables' capabilities, the statement
  type, and the current binlog_format.

     Row capable        N NNNNNNNNN YYYYYYYYY YYYYYYYYY
     Statement capable  N YYYYYYYYY NNNNNNNNN YYYYYYYYY

     Statement type     * SSSUUUIII SSSUUUIII SSSUUUIII

     binlog_format      * SMRSMRSMR SMRSMRSMR SMRSMRSMR

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     Logged format      - SS-S----- -RR-RR-RR SRRSRR-RR
     Warning/Error      1 --2732444 5--5--6-- ---7--6--
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  Legend
  ------

  Row capable:    N - Some table not row-capable, Y - All tables row-capable
  Stmt capable:   N - Some table not stmt-capable, Y - All tables stmt-capable
  Statement type: (S)afe, (U)nsafe, or Row (I)njection
  binlog_format:  (S)TATEMENT, (M)IXED, or (R)OW
  Logged format:  (S)tatement or (R)ow
  Warning/Error:  Warnings and error messages are as follows:

  1. Error: Cannot execute statement: binlogging impossible since both
     row-incapable engines and statement-incapable engines are
     involved.

  2. Error: Cannot execute statement: binlogging impossible since
     BINLOG_FORMAT = ROW and at least one table uses a storage engine
     limited to statement-logging.

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  3. Error: Cannot execute statement: binlogging of unsafe statement
     is impossible when storage engine is limited to statement-logging
     and BINLOG_FORMAT = MIXED.
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  4. Error: Cannot execute row injection: binlogging impossible since
     at least one table uses a storage engine limited to
     statement-logging.

  5. Error: Cannot execute statement: binlogging impossible since
     BINLOG_FORMAT = STATEMENT and at least one table uses a storage
     engine limited to row-logging.

  6. Error: Cannot execute row injection: binlogging impossible since
     BINLOG_FORMAT = STATEMENT.

  7. Warning: Unsafe statement binlogged in statement format since
     BINLOG_FORMAT = STATEMENT.

  In addition, we can produce the following error (not depending on
  the variables of the decision diagram):

  8. Error: Cannot execute statement: binlogging impossible since more
     than one engine is involved and at least one engine is
     self-logging.

  For each error case above, the statement is prevented from being
  logged, we report an error, and roll back the statement.  For
  warnings, we set the thd->binlog_flags variable: the warning will be
  printed only if the statement is successfully logged.

  @see THD::binlog_query

  @param[in] thd    Client thread
  @param[in] tables Tables involved in the query

  @retval 0 No error; statement can be logged.
  @retval -1 One of the error conditions above applies (1, 2, 4, 5, or 6).
*/

int THD::decide_logging_format(TABLE_LIST *tables)
{
  DBUG_ENTER("THD::decide_logging_format");
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  DBUG_PRINT("info", ("query: %s", query()));
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  DBUG_PRINT("info", ("variables.binlog_format: %u",
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                      variables.binlog_format));
  DBUG_PRINT("info", ("lex->get_stmt_unsafe_flags(): 0x%x",
                      lex->get_stmt_unsafe_flags()));
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  /*
    We should not decide logging format if the binlog is closed or
    binlogging is off, or if the statement is filtered out from the
    binlog by filtering rules.
  */
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  if (mysql_bin_log.is_open() && (variables.option_bits & OPTION_BIN_LOG) &&
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      !(variables.binlog_format == BINLOG_FORMAT_STMT &&
        !binlog_filter->db_ok(db)))
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  {
    /*
      Compute one bit field with the union of all the engine
      capabilities, and one with the intersection of all the engine
      capabilities.
    */
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    handler::Table_flags flags_write_some_set= 0;
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    handler::Table_flags flags_some_set= 0;
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    handler::Table_flags flags_write_all_set=
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      HA_BINLOG_ROW_CAPABLE | HA_BINLOG_STMT_CAPABLE;

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    /* 
       If different types of engines are about to be updated.
       For example: Innodb and Falcon; Innodb and MyIsam.
    */
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    my_bool multi_write_engine= FALSE;
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    /*
       If different types of engines are about to be accessed 
       and any of them is about to be updated. For example:
       Innodb and Falcon; Innodb and MyIsam.
    */
    my_bool multi_access_engine= FALSE;
    /*
       If non-transactional and transactional engines are about
       to be accessed and any of them is about to be updated.
       For example: Innodb and MyIsam.
    */
    my_bool trans_non_trans_access_engines= FALSE;
    /*
       If all engines that are about to be updated are
       transactional.
    */
    my_bool all_trans_write_engines= TRUE;
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    TABLE* prev_write_table= NULL;
    TABLE* prev_access_table= NULL;
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#ifndef DBUG_OFF
    {
      static const char *prelocked_mode_name[] = {
        "NON_PRELOCKED",
        "PRELOCKED",
        "PRELOCKED_UNDER_LOCK_TABLES",
      };
      DBUG_PRINT("debug", ("prelocked_mode: %s",
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                           prelocked_mode_name[locked_tables_mode]));
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    }
#endif

    /*
      Get the capabilities vector for all involved storage engines and
      mask out the flags for the binary log.
    */
    for (TABLE_LIST *table= tables; table; table= table->next_global)
    {
      if (table->placeholder())
        continue;
      if (table->table->s->table_category == TABLE_CATEGORY_PERFORMANCE)
        lex->set_stmt_unsafe(LEX::BINLOG_STMT_UNSAFE_SYSTEM_TABLE);
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      handler::Table_flags const flags= table->table->file->ha_table_flags();
      DBUG_PRINT("info", ("table: %s; ha_table_flags: 0x%llx",
                          table->table_name, flags));
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      if (table->lock_type >= TL_WRITE_ALLOW_WRITE)
      {
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        if (prev_write_table && prev_write_table->file->ht !=
            table->table->file->ht)
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          multi_write_engine= TRUE;
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        /*
          Every temporary table must be always written to the binary
          log in transaction boundaries and as such we artificially
          classify them as transactional.

          Indirectly, this avoids classifying a temporary table created
          on a non-transactional engine as unsafe when it is modified
          after any transactional table:

          BEGIN;
            INSERT INTO innodb_t VALUES (1);
            INSERT INTO myisam_t_temp VALUES (1);
          COMMIT;

          BINARY LOG:

          BEGIN;
            INSERT INTO innodb_t VALUES (1);
            INSERT INTO myisam_t_temp VALUES (1);
          COMMIT;
        */
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        all_trans_write_engines= all_trans_write_engines &&
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                                 (table->table->file->has_transactions() ||
                                  table->table->s->tmp_table);
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        prev_write_table= table->table;
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        flags_write_all_set &= flags;
        flags_write_some_set |= flags;
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      }
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      flags_some_set |= flags;
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      /*
        The mixture of non-transactional and transactional tables must
        identified and classified as unsafe. However, a temporary table
        must be always handled as a transactional table. Based on that,
        we have the following statements classified as mixed and by
        consequence as unsafe:

        1: INSERT INTO myisam_t SELECT * FROM innodb_t;

        2: INSERT INTO innodb_t SELECT * FROM myisam_t;

        3: INSERT INTO myisam_t SELECT * FROM myisam_t_temp;

        4: INSERT INTO myisam_t_temp SELECT * FROM myisam_t;

        5: CREATE TEMPORARY TABLE myisam_t_temp SELECT * FROM mysiam_t;

        The following statements are not considered mixed and as such
        are safe:

        1: INSERT INTO innodb_t SELECT * FROM myisam_t_temp;

        2: INSERT INTO myisam_t_temp SELECT * FROM innodb_t_temp;
      */
      if (!trans_non_trans_access_engines && prev_access_table &&
          (lex->sql_command != SQLCOM_CREATE_TABLE ||
          (lex->sql_command == SQLCOM_CREATE_TABLE &&
          (lex->create_info.options & HA_LEX_CREATE_TMP_TABLE))))
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      {
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        my_bool prev_trans;
        my_bool act_trans;
        if (prev_access_table->s->tmp_table || table->table->s->tmp_table)
        {
          prev_trans= prev_access_table->s->tmp_table ? TRUE :
                     prev_access_table->file->has_transactions();
          act_trans= table->table->s->tmp_table ? TRUE :
                    table->table->file->has_transactions();
        }
        else
        {
          prev_trans= prev_access_table->file->has_transactions();
          act_trans= table->table->file->has_transactions();
        }
        trans_non_trans_access_engines= (prev_trans != act_trans);
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        multi_access_engine= TRUE;
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      }
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      thread_temporary_used |= table->table->s->tmp_table;
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      prev_access_table= table->table;
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    }

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    DBUG_PRINT("info", ("flags_write_all_set: 0x%llx", flags_write_all_set));
    DBUG_PRINT("info", ("flags_write_some_set: 0x%llx", flags_write_some_set));
    DBUG_PRINT("info", ("flags_some_set: 0x%llx", flags_some_set));
    DBUG_PRINT("info", ("multi_write_engine: %d", multi_write_engine));
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    DBUG_PRINT("info", ("multi_access_engine: %d", multi_access_engine));
    DBUG_PRINT("info", ("trans_non_trans_access_engines: %d",
                        trans_non_trans_access_engines));
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    int error= 0;
    int unsafe_flags;

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    /*
      Set the statement as unsafe if:

      . it is a mixed statement, i.e. access transactional and non-transactional
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      tables, and update any of them;

      or:

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      . an early statement updated a transactional table;
      . and, the current statement updates a non-transactional table.

      Any mixed statement is classified as unsafe to ensure that mixed mode is
      completely safe. Consider the following example to understand why we
      decided to do this:

      Note that mixed statements such as

      1: INSERT INTO myisam_t SELECT * FROM innodb_t;

      2: INSERT INTO innodb_t SELECT * FROM myisam_t;

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      3: INSERT INTO myisam_t SELECT * FROM myisam_t_temp;

      4: INSERT INTO myisam_t_temp SELECT * FROM myisam_t;

      5: CREATE TEMPORARY TABLE myisam_t_temp SELECT * FROM mysiam_t;

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      are classified as unsafe to ensure that in mixed mode the execution is
      completely safe and equivalent to the row mode. Consider the following
      statements and sessions (connections) to understand the reason:

      con1: INSERT INTO innodb_t VALUES (1);
      con1: INSERT INTO innodb_t VALUES (100);

      con1: BEGIN
      con2: INSERT INTO myisam_t SELECT * FROM innodb_t;
      con1: INSERT INTO innodb_t VALUES (200);
      con1: COMMIT;

      The point is that the concurrent statements may be written into the binary log
      in a way different from the execution. For example,

      BINARY LOG:

      con2: BEGIN;
      con2: INSERT INTO myisam_t SELECT * FROM innodb_t;
      con2: COMMIT;
      con1: BEGIN
      con1: INSERT INTO innodb_t VALUES (200);
      con1: COMMIT;

      ....

      or

      BINARY LOG:

      con1: BEGIN
      con1: INSERT INTO innodb_t VALUES (200);
      con1: COMMIT;
      con2: BEGIN;
      con2: INSERT INTO myisam_t SELECT * FROM innodb_t;
      con2: COMMIT;

      Clearly, this may become a problem in STMT mode and setting the statement
      as unsafe will make rows to be written into the binary log in MIXED mode
      and as such the problem will not stand.

      In STMT mode, although such statement is classified as unsafe, i.e.

      INSERT INTO myisam_t SELECT * FROM innodb_t;

      there is no enough information to avoid writing it outside the boundaries
      of a transaction. This is not a problem if we are considering snapshot
      isolation level but if we have pure repeatable read or serializable the
      lock history on the slave will be different from the master.
    */
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    if (trans_non_trans_access_engines)
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      lex->set_stmt_unsafe(LEX::BINLOG_STMT_UNSAFE_MIXED_STATEMENT);
    else if (trans_has_updated_trans_table(this) && !all_trans_write_engines)
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      lex->set_stmt_unsafe(LEX::BINLOG_STMT_UNSAFE_NONTRANS_AFTER_TRANS);

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    /*
      If more than one engine is involved in the statement and at
      least one is doing it's own logging (is *self-logging*), the
      statement cannot be logged atomically, so we generate an error
      rather than allowing the binlog to become corrupt.
    */
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    if (multi_write_engine &&
        (flags_write_some_set & HA_HAS_OWN_BINLOGGING))
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      my_error((error= ER_BINLOG_MULTIPLE_ENGINES_AND_SELF_LOGGING_ENGINE),
               MYF(0));
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    else if (multi_access_engine && flags_some_set & HA_HAS_OWN_BINLOGGING)
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      lex->set_stmt_unsafe(LEX::BINLOG_STMT_UNSAFE_MULTIPLE_ENGINES_AND_SELF_LOGGING_ENGINE);
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    /* both statement-only and row-only engines involved */
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    if ((flags_write_all_set & (HA_BINLOG_STMT_CAPABLE | HA_BINLOG_ROW_CAPABLE)) == 0)
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    {
      /*
        1. Error: Binary logging impossible since both row-incapable
           engines and statement-incapable engines are involved
      */
      my_error((error= ER_BINLOG_ROW_ENGINE_AND_STMT_ENGINE), MYF(0));
    }
    /* statement-only engines involved */
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    else if ((flags_write_all_set & HA_BINLOG_ROW_CAPABLE) == 0)
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    {
      if (lex->is_stmt_row_injection())
      {
        /*
          4. Error: Cannot execute row injection since table uses
             storage engine limited to statement-logging
        */
        my_error((error= ER_BINLOG_ROW_INJECTION_AND_STMT_ENGINE), MYF(0));
      }
      else if (variables.binlog_format == BINLOG_FORMAT_ROW)
      {
        /*
          2. Error: Cannot modify table that uses a storage engine
             limited to statement-logging when BINLOG_FORMAT = ROW
        */
        my_error((error= ER_BINLOG_ROW_MODE_AND_STMT_ENGINE), MYF(0));
      }
      else if ((unsafe_flags= lex->get_stmt_unsafe_flags()) != 0)
      {
        /*
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          3. Error: Cannot execute statement: binlogging of unsafe
             statement is impossible when storage engine is limited to
             statement-logging and BINLOG_FORMAT = MIXED.
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        */
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        for (int unsafe_type= 0;
             unsafe_type < LEX::BINLOG_STMT_UNSAFE_COUNT;
             unsafe_type++)
          if (unsafe_flags & (1 << unsafe_type))
            my_error((error= ER_BINLOG_UNSAFE_AND_STMT_ENGINE), MYF(0),
                     ER(LEX::binlog_stmt_unsafe_errcode[unsafe_type]));
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      }
      /* log in statement format! */
    }
    /* no statement-only engines */
    else
    {
      /* binlog_format = STATEMENT */
      if (variables.binlog_format == BINLOG_FORMAT_STMT)
      {
        if (lex->is_stmt_row_injection())
        {
          /*
            6. Error: Cannot execute row injection since
               BINLOG_FORMAT = STATEMENT
          */
          my_error((error= ER_BINLOG_ROW_INJECTION_AND_STMT_MODE), MYF(0));
        }
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        else if ((flags_write_all_set & HA_BINLOG_STMT_CAPABLE) == 0)
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        {
          /*
            5. Error: Cannot modify table that uses a storage engine
               limited to row-logging when binlog_format = STATEMENT
          */
          my_error((error= ER_BINLOG_STMT_MODE_AND_ROW_ENGINE), MYF(0), "");
        }
        else if ((unsafe_flags= lex->get_stmt_unsafe_flags()) != 0)
        {
          /*
            7. Warning: Unsafe statement logged as statement due to
               binlog_format = STATEMENT
          */
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          binlog_unsafe_warning_flags|= unsafe_flags;
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          DBUG_PRINT("info", ("Scheduling warning to be issued by "
                              "binlog_query: '%s'",
                              ER(ER_BINLOG_UNSAFE_STATEMENT)));
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          DBUG_PRINT("info", ("binlog_unsafe_warning_flags: 0x%x",
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                              binlog_unsafe_warning_flags));
        }
        /* log in statement format! */
      }
      /* No statement-only engines and binlog_format != STATEMENT.
         I.e., nothing prevents us from row logging if needed. */
      else
      {
        if (lex->is_stmt_unsafe() || lex->is_stmt_row_injection()
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            || (flags_write_all_set & HA_BINLOG_STMT_CAPABLE) == 0)
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        {
          /* log in row format! */
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          set_current_stmt_binlog_format_row_if_mixed();
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        }
      }
    }

    if (error) {
      DBUG_PRINT("info", ("decision: no logging since an error was generated"));
      DBUG_RETURN(-1);
    }
    DBUG_PRINT("info", ("decision: logging in %s format",
                        is_current_stmt_binlog_format_row() ?
                        "ROW" : "STATEMENT"));
  }
#ifndef DBUG_OFF
  else
    DBUG_PRINT("info", ("decision: no logging since "
                        "mysql_bin_log.is_open() = %d "
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                        "and (options & OPTION_BIN_LOG) = 0x%llx "
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                        "and binlog_format = %u "
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                        "and binlog_filter->db_ok(db) = %d",
                        mysql_bin_log.is_open(),
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                        (variables.option_bits & OPTION_BIN_LOG),
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                        variables.binlog_format,
                        binlog_filter->db_ok(db)));
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#endif

  DBUG_RETURN(0);
}


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/*
  Implementation of interface to write rows to the binary log through the
  thread.  The thread is responsible for writing the rows it has
  inserted/updated/deleted.
*/

#ifndef MYSQL_CLIENT

/*
  Template member function for ensuring that there is an rows log
  event of the apropriate type before proceeding.

  PRE CONDITION:
    - Events of type 'RowEventT' have the type code 'type_code'.
    
  POST CONDITION:
    If a non-NULL pointer is returned, the pending event for thread 'thd' will
    be an event of type 'RowEventT' (which have the type code 'type_code')
    will either empty or have enough space to hold 'needed' bytes.  In
    addition, the columns bitmap will be correct for the row, meaning that
    the pending event will be flushed if the columns in the event differ from
    the columns suppled to the function.

  RETURNS
    If no error, a non-NULL pending event (either one which already existed or
    the newly created one).
    If error, NULL.
 */

template <class RowsEventT> Rows_log_event* 
THD::binlog_prepare_pending_rows_event(TABLE* table, uint32 serv_id,
                                       MY_BITMAP const* cols,
4051 4052
                                       size_t colcnt,
                                       size_t needed,
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4053 4054
                                       bool is_transactional,
				       RowsEventT *hint __attribute__((unused)))
4055
{
4056
  DBUG_ENTER("binlog_prepare_pending_rows_event");
4057
  /* Pre-conditions */
4058
  DBUG_ASSERT(table->s->table_map_id != ~0UL);
4059 4060 4061 4062 4063 4064 4065 4066 4067

  /* Fetch the type code for the RowsEventT template parameter */
  int const type_code= RowsEventT::TYPE_CODE;

  /*
    There is no good place to set up the transactional data, so we
    have to do it here.
  */
  if (binlog_setup_trx_data())
4068
    DBUG_RETURN(NULL);
4069

4070
  Rows_log_event* pending= binlog_get_pending_rows_event(is_transactional);
4071 4072

  if (unlikely(pending && !pending->is_valid()))
4073
    DBUG_RETURN(NULL);
4074 4075 4076 4077 4078 4079 4080 4081 4082 4083 4084 4085 4086 4087 4088 4089 4090 4091 4092 4093 4094 4095 4096 4097

  /*
    Check if the current event is non-NULL and a write-rows
    event. Also check if the table provided is mapped: if it is not,
    then we have switched to writing to a new table.
    If there is no pending event, we need to create one. If there is a pending
    event, but it's not about the same table id, or not of the same type
    (between Write, Update and Delete), or not the same affected columns, or
    going to be too big, flush this event to disk and create a new pending
    event.
  */
  if (!pending ||
      pending->server_id != serv_id || 
      pending->get_table_id() != table->s->table_map_id ||
      pending->get_type_code() != type_code || 
      pending->get_data_size() + needed > opt_binlog_rows_event_max_size || 
      pending->get_width() != colcnt ||
      !bitmap_cmp(pending->get_cols(), cols)) 
  {
    /* Create a new RowsEventT... */
    Rows_log_event* const
	ev= new RowsEventT(this, table, table->s->table_map_id, cols,
                           is_transactional);
    if (unlikely(!ev))
4098
      DBUG_RETURN(NULL);
4099 4100 4101 4102 4103
    ev->server_id= serv_id; // I don't like this, it's too easy to forget.
    /*
      flush the pending event and replace it with the newly created
      event...
    */
4104 4105 4106
    if (unlikely(
        mysql_bin_log.flush_and_set_pending_rows_event(this, ev,
                                                       is_transactional)))
4107 4108
    {
      delete ev;
4109
      DBUG_RETURN(NULL);
4110 4111
    }

4112
    DBUG_RETURN(ev);               /* This is the new pending event */
4113
  }
4114
  DBUG_RETURN(pending);        /* This is the current pending event */
4115 4116
}

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4117
#ifdef HAVE_EXPLICIT_TEMPLATE_INSTANTIATION
4118
/*
4119
  Instantiate the versions we need, we have -fno-implicit-template as
4120 4121 4122
  compiling option.
*/
template Rows_log_event*
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THD::binlog_prepare_pending_rows_event(TABLE*, uint32, MY_BITMAP const*,
4124
				       size_t, size_t, bool,
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				       Write_rows_log_event*);
4126 4127

template Rows_log_event*
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THD::binlog_prepare_pending_rows_event(TABLE*, uint32, MY_BITMAP const*,
4129
				       size_t colcnt, size_t, bool,
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				       Delete_rows_log_event *);
4131 4132

template Rows_log_event* 
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THD::binlog_prepare_pending_rows_event(TABLE*, uint32, MY_BITMAP const*,
4134
				       size_t colcnt, size_t, bool,
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				       Update_rows_log_event *);
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#endif
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#ifdef NOT_USED
4139 4140 4141
static char const* 
field_type_name(enum_field_types type) 
{
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  switch (type) {
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  case MYSQL_TYPE_DECIMAL:
    return "MYSQL_TYPE_DECIMAL";
  case MYSQL_TYPE_TINY:
    return "MYSQL_TYPE_TINY";
  case MYSQL_TYPE_SHORT:
    return "MYSQL_TYPE_SHORT";
  case MYSQL_TYPE_LONG:
    return "MYSQL_TYPE_LONG";
  case MYSQL_TYPE_FLOAT:
    return "MYSQL_TYPE_FLOAT";
  case MYSQL_TYPE_DOUBLE:
    return "MYSQL_TYPE_DOUBLE";
  case MYSQL_TYPE_NULL:
    return "MYSQL_TYPE_NULL";
  case MYSQL_TYPE_TIMESTAMP:
    return "MYSQL_TYPE_TIMESTAMP";
  case MYSQL_TYPE_LONGLONG:
    return "MYSQL_TYPE_LONGLONG";
  case MYSQL_TYPE_INT24:
    return "MYSQL_TYPE_INT24";
  case MYSQL_TYPE_DATE:
    return "MYSQL_TYPE_DATE";
  case MYSQL_TYPE_TIME:
    return "MYSQL_TYPE_TIME";
  case MYSQL_TYPE_DATETIME:
    return "MYSQL_TYPE_DATETIME";
  case MYSQL_TYPE_YEAR:
    return "MYSQL_TYPE_YEAR";
  case MYSQL_TYPE_NEWDATE:
    return "MYSQL_TYPE_NEWDATE";
  case MYSQL_TYPE_VARCHAR:
    return "MYSQL_TYPE_VARCHAR";
  case MYSQL_TYPE_BIT:
    return "MYSQL_TYPE_BIT";
  case MYSQL_TYPE_NEWDECIMAL:
    return "MYSQL_TYPE_NEWDECIMAL";
  case MYSQL_TYPE_ENUM:
    return "MYSQL_TYPE_ENUM";
  case MYSQL_TYPE_SET:
    return "MYSQL_TYPE_SET";
  case MYSQL_TYPE_TINY_BLOB:
    return "MYSQL_TYPE_TINY_BLOB";
  case MYSQL_TYPE_MEDIUM_BLOB:
    return "MYSQL_TYPE_MEDIUM_BLOB";
  case MYSQL_TYPE_LONG_BLOB:
    return "MYSQL_TYPE_LONG_BLOB";
  case MYSQL_TYPE_BLOB:
    return "MYSQL_TYPE_BLOB";
  case MYSQL_TYPE_VAR_STRING:
    return "MYSQL_TYPE_VAR_STRING";
  case MYSQL_TYPE_STRING:
    return "MYSQL_TYPE_STRING";
  case MYSQL_TYPE_GEOMETRY:
    return "MYSQL_TYPE_GEOMETRY";
  }
  return "Unknown";
}
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4200
#endif
4201

4202

4203 4204 4205 4206 4207 4208 4209 4210 4211 4212 4213 4214 4215 4216 4217 4218 4219 4220 4221 4222 4223 4224 4225 4226 4227 4228 4229 4230
namespace {
  /**
     Class to handle temporary allocation of memory for row data.

     The responsibilities of the class is to provide memory for
     packing one or two rows of packed data (depending on what
     constructor is called).

     In order to make the allocation more efficient for "simple" rows,
     i.e., rows that do not contain any blobs, a pointer to the
     allocated memory is of memory is stored in the table structure
     for simple rows.  If memory for a table containing a blob field
     is requested, only memory for that is allocated, and subsequently
     released when the object is destroyed.

   */
  class Row_data_memory {
  public:
    /**
      Build an object to keep track of a block-local piece of memory
      for storing a row of data.

      @param table
      Table where the pre-allocated memory is stored.

      @param length
      Length of data that is needed, if the record contain blobs.
     */
4231
    Row_data_memory(TABLE *table, size_t const len1)
4232 4233 4234
      : m_memory(0)
    {
#ifndef DBUG_OFF
4235
      m_alloc_checked= FALSE;
4236 4237 4238 4239 4240 4241
#endif
      allocate_memory(table, len1);
      m_ptr[0]= has_memory() ? m_memory : 0;
      m_ptr[1]= 0;
    }

4242
    Row_data_memory(TABLE *table, size_t const len1, size_t const len2)
4243 4244 4245
      : m_memory(0)
    {
#ifndef DBUG_OFF
4246
      m_alloc_checked= FALSE;
4247 4248 4249 4250 4251 4252 4253 4254 4255
#endif
      allocate_memory(table, len1 + len2);
      m_ptr[0]= has_memory() ? m_memory        : 0;
      m_ptr[1]= has_memory() ? m_memory + len1 : 0;
    }

    ~Row_data_memory()
    {
      if (m_memory != 0 && m_release_memory_on_destruction)
4256
        my_free((uchar*) m_memory, MYF(MY_WME));
4257 4258 4259 4260 4261 4262 4263 4264 4265 4266
    }

    /**
       Is there memory allocated?

       @retval true There is memory allocated
       @retval false Memory allocation failed
     */
    bool has_memory() const {
#ifndef DBUG_OFF
4267
      m_alloc_checked= TRUE;
4268 4269 4270 4271
#endif
      return m_memory != 0;
    }

4272
    uchar *slot(uint s)
4273
    {
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4274
      DBUG_ASSERT(s < sizeof(m_ptr)/sizeof(*m_ptr));
4275
      DBUG_ASSERT(m_ptr[s] != 0);
4276
      DBUG_ASSERT(m_alloc_checked == TRUE);
4277 4278 4279 4280
      return m_ptr[s];
    }

  private:
4281
    void allocate_memory(TABLE *const table, size_t const total_length)
4282 4283 4284 4285 4286 4287 4288 4289 4290 4291 4292 4293 4294
    {
      if (table->s->blob_fields == 0)
      {
        /*
          The maximum length of a packed record is less than this
          length. We use this value instead of the supplied length
          when allocating memory for records, since we don't know how
          the memory will be used in future allocations.

          Since table->s->reclength is for unpacked records, we have
          to add two bytes for each field, which can potentially be
          added to hold the length of a packed field.
        */
4295
        size_t const maxlen= table->s->reclength + 2 * table->s->fields;
4296 4297 4298 4299 4300 4301 4302 4303

        /*
          Allocate memory for two records if memory hasn't been
          allocated. We allocate memory for two records so that it can
          be used when processing update rows as well.
        */
        if (table->write_row_record == 0)
          table->write_row_record=
4304
            (uchar *) alloc_root(&table->mem_root, 2 * maxlen);
4305
        m_memory= table->write_row_record;
4306
        m_release_memory_on_destruction= FALSE;
4307 4308 4309
      }
      else
      {
4310
        m_memory= (uchar *) my_malloc(total_length, MYF(MY_WME));
4311
        m_release_memory_on_destruction= TRUE;
4312 4313 4314 4315 4316 4317 4318
      }
    }

#ifndef DBUG_OFF
    mutable bool m_alloc_checked;
#endif
    bool m_release_memory_on_destruction;
4319 4320
    uchar *m_memory;
    uchar *m_ptr[2];
4321 4322 4323 4324
  };
}


4325
int THD::binlog_write_row(TABLE* table, bool is_trans, 
4326 4327
                          MY_BITMAP const* cols, size_t colcnt, 
                          uchar const *record) 
4328
{ 
4329
  DBUG_ASSERT(is_current_stmt_binlog_format_row() && mysql_bin_log.is_open());
4330

4331 4332 4333
  /*
    Pack records into format for transfer. We are allocating more
    memory than needed, but that doesn't matter.
4334
  */
4335 4336 4337
  Row_data_memory memory(table, max_row_length(table, record));
  if (!memory.has_memory())
    return HA_ERR_OUT_OF_MEM;
4338

4339
  uchar *row_data= memory.slot(0);
4340

4341
  size_t const len= pack_row(table, cols, row_data, record);
4342

4343 4344 4345 4346 4347 4348 4349 4350 4351
  Rows_log_event* const ev=
    binlog_prepare_pending_rows_event(table, server_id, cols, colcnt,
                                      len, is_trans,
                                      static_cast<Write_rows_log_event*>(0));

  if (unlikely(ev == 0))
    return HA_ERR_OUT_OF_MEM;

  return ev->add_row_data(row_data, len);
4352 4353 4354
}

int THD::binlog_update_row(TABLE* table, bool is_trans,
4355 4356 4357
                           MY_BITMAP const* cols, size_t colcnt,
                           const uchar *before_record,
                           const uchar *after_record)
4358
{ 
4359
  DBUG_ASSERT(is_current_stmt_binlog_format_row() && mysql_bin_log.is_open());
4360

4361 4362
  size_t const before_maxlen = max_row_length(table, before_record);
  size_t const after_maxlen  = max_row_length(table, after_record);
4363

4364 4365 4366 4367
  Row_data_memory row_data(table, before_maxlen, after_maxlen);
  if (!row_data.has_memory())
    return HA_ERR_OUT_OF_MEM;

4368 4369
  uchar *before_row= row_data.slot(0);
  uchar *after_row= row_data.slot(1);
4370

4371
  size_t const before_size= pack_row(table, cols, before_row,
4372
                                        before_record);
4373
  size_t const after_size= pack_row(table, cols, after_row,
4374
                                       after_record);
4375 4376 4377 4378 4379 4380

  /*
    Don't print debug messages when running valgrind since they can
    trigger false warnings.
   */
#ifndef HAVE_purify
4381 4382 4383 4384
  DBUG_DUMP("before_record", before_record, table->s->reclength);
  DBUG_DUMP("after_record",  after_record, table->s->reclength);
  DBUG_DUMP("before_row",    before_row, before_size);
  DBUG_DUMP("after_row",     after_row, after_size);
4385
#endif
4386

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4387 4388 4389 4390
  Rows_log_event* const ev=
    binlog_prepare_pending_rows_event(table, server_id, cols, colcnt,
				      before_size + after_size, is_trans,
				      static_cast<Update_rows_log_event*>(0));
4391

4392 4393 4394 4395
  if (unlikely(ev == 0))
    return HA_ERR_OUT_OF_MEM;

  return
4396
    ev->add_row_data(before_row, before_size) ||
4397 4398 4399 4400
    ev->add_row_data(after_row, after_size);
}

int THD::binlog_delete_row(TABLE* table, bool is_trans, 
4401 4402
                           MY_BITMAP const* cols, size_t colcnt,
                           uchar const *record)
4403
{ 
4404
  DBUG_ASSERT(is_current_stmt_binlog_format_row() && mysql_bin_log.is_open());
4405 4406 4407 4408 4409

  /* 
     Pack records into format for transfer. We are allocating more
     memory than needed, but that doesn't matter.
  */
4410 4411
  Row_data_memory memory(table, max_row_length(table, record));
  if (unlikely(!memory.has_memory()))
4412
    return HA_ERR_OUT_OF_MEM;
4413

4414
  uchar *row_data= memory.slot(0);
4415

4416
  size_t const len= pack_row(table, cols, row_data, record);
4417

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4418 4419 4420 4421
  Rows_log_event* const ev=
    binlog_prepare_pending_rows_event(table, server_id, cols, colcnt,
				      len, is_trans,
				      static_cast<Delete_rows_log_event*>(0));
4422

4423 4424
  if (unlikely(ev == 0))
    return HA_ERR_OUT_OF_MEM;
4425

4426
  return ev->add_row_data(row_data, len);
4427 4428 4429
}


4430 4431
int THD::binlog_remove_pending_rows_event(bool clear_maps,
                                          bool is_transactional)
4432
{
4433
  DBUG_ENTER("THD::binlog_remove_pending_rows_event");
4434 4435 4436 4437

  if (!mysql_bin_log.is_open())
    DBUG_RETURN(0);

4438
  mysql_bin_log.remove_pending_rows_event(this, is_transactional);
4439 4440 4441 4442 4443 4444 4445

  if (clear_maps)
    binlog_table_maps= 0;

  DBUG_RETURN(0);
}

4446
int THD::binlog_flush_pending_rows_event(bool stmt_end, bool is_transactional)
4447 4448
{
  DBUG_ENTER("THD::binlog_flush_pending_rows_event");
4449 4450 4451 4452 4453 4454
  /*
    We shall flush the pending event even if we are not in row-based
    mode: it might be the case that we left row-based mode before
    flushing anything (e.g., if we have explicitly locked tables).
   */
  if (!mysql_bin_log.is_open())
4455 4456 4457 4458 4459 4460 4461
    DBUG_RETURN(0);

  /*
    Mark the event as the last event of a statement if the stmt_end
    flag is set.
  */
  int error= 0;
4462
  if (Rows_log_event *pending= binlog_get_pending_rows_event(is_transactional))
4463 4464 4465 4466
  {
    if (stmt_end)
    {
      pending->set_flags(Rows_log_event::STMT_END_F);
4467
      binlog_table_maps= 0;
4468 4469
    }

4470 4471
    error= mysql_bin_log.flush_and_set_pending_rows_event(this, 0,
                                                          is_transactional);
4472
  }
4473 4474 4475 4476 4477

  DBUG_RETURN(error);
}


4478
#if !defined(DBUG_OFF) && !defined(_lint)
4479 4480 4481 4482 4483 4484 4485 4486
static const char *
show_query_type(THD::enum_binlog_query_type qtype)
{
  switch (qtype) {
  case THD::ROW_QUERY_TYPE:
    return "ROW";
  case THD::STMT_QUERY_TYPE:
    return "STMT";
4487
  case THD::QUERY_TYPE_COUNT:
4488
  default:
4489
    DBUG_ASSERT(0 <= qtype && qtype < THD::QUERY_TYPE_COUNT);
4490
  }
4491 4492 4493
  static char buf[64];
  sprintf(buf, "UNKNOWN#%d", qtype);
  return buf;
4494
}
4495
#endif
4496 4497


4498 4499
/**
  Auxiliary method used by @c binlog_query() to raise warnings.
4500

4501 4502
  The type of warning and the type of unsafeness is stored in
  THD::binlog_unsafe_warning_flags.
4503 4504 4505 4506 4507 4508 4509 4510
*/
void THD::issue_unsafe_warnings()
{
  DBUG_ENTER("issue_unsafe_warnings");
  /*
    Ensure that binlog_unsafe_warning_flags is big enough to hold all
    bits.  This is actually a constant expression.
  */
4511
  DBUG_ASSERT(2 * LEX::BINLOG_STMT_UNSAFE_COUNT <=
4512
              sizeof(binlog_unsafe_warning_flags) * CHAR_BIT);
4513

4514
  uint32 unsafe_type_flags= binlog_unsafe_warning_flags;
4515

4516
  /*
4517
    Clear: (1) bits above BINLOG_STMT_UNSAFE_COUNT; (2) bits for
4518 4519 4520 4521 4522 4523 4524
    warnings that have been printed already.
  */
  unsafe_type_flags &= (LEX::BINLOG_STMT_UNSAFE_ALL_FLAGS ^
                        (unsafe_type_flags >> LEX::BINLOG_STMT_UNSAFE_COUNT));
  /* If all warnings have been printed already, return. */
  if (unsafe_type_flags == 0)
    DBUG_VOID_RETURN;
4525

4526
  DBUG_PRINT("info", ("unsafe_type_flags: 0x%x", unsafe_type_flags));
4527

4528 4529 4530 4531 4532 4533 4534 4535 4536 4537
  /*
    For each unsafe_type, check if the statement is unsafe in this way
    and issue a warning.
  */
  for (int unsafe_type=0;
       unsafe_type < LEX::BINLOG_STMT_UNSAFE_COUNT;
       unsafe_type++)
  {
    if ((unsafe_type_flags & (1 << unsafe_type)) != 0)
    {
4538 4539 4540 4541
      push_warning_printf(this, MYSQL_ERROR::WARN_LEVEL_NOTE,
                          ER_BINLOG_UNSAFE_STATEMENT,
                          ER(ER_BINLOG_UNSAFE_STATEMENT),
                          ER(LEX::binlog_stmt_unsafe_errcode[unsafe_type]));
4542
      if (global_system_variables.log_warnings)
4543 4544 4545 4546
      {
        char buf[MYSQL_ERRMSG_SIZE * 2];
        sprintf(buf, ER(ER_BINLOG_UNSAFE_STATEMENT),
                ER(LEX::binlog_stmt_unsafe_errcode[unsafe_type]));
4547
        sql_print_warning(ER(ER_MESSAGE_AND_STATEMENT), buf, query());
4548
      }
4549 4550 4551 4552 4553 4554
    }
  }
  /*
    Mark these unsafe types as already printed, to avoid printing
    warnings for them again.
  */
4555 4556
  binlog_unsafe_warning_flags|=
    unsafe_type_flags << LEX::BINLOG_STMT_UNSAFE_COUNT;
4557 4558 4559 4560
  DBUG_VOID_RETURN;
}


4561 4562
/**
  Log the current query.
4563

4564
  The query will be logged in either row format or statement format
4565
  depending on the value of @c current_stmt_binlog_format_row field and
4566
  the value of the @c qtype parameter.
4567

4568
  This function must be called:
4569

4570
  - After the all calls to ha_*_row() functions have been issued.
4571

4572 4573 4574 4575 4576 4577 4578 4579 4580 4581 4582 4583 4584
  - After any writes to system tables. Rationale: if system tables
    were written after a call to this function, and the master crashes
    after the call to this function and before writing the system
    tables, then the master and slave get out of sync.

  - Before tables are unlocked and closed.

  @see decide_logging_format

  @retval 0 Success

  @retval nonzero If there is a failure when writing the query (e.g.,
  write failure), then the error code is returned.
4585
*/
4586
int THD::binlog_query(THD::enum_binlog_query_type qtype, char const *query_arg,
4587 4588
                      ulong query_len, bool is_trans, bool direct, 
                      bool suppress_use, int errcode)
4589 4590
{
  DBUG_ENTER("THD::binlog_query");
4591 4592
  DBUG_PRINT("enter", ("qtype: %s  query: '%s'",
                       show_query_type(qtype), query_arg));
4593
  DBUG_ASSERT(query_arg && mysql_bin_log.is_open());
4594

4595 4596 4597 4598 4599 4600 4601 4602 4603
  /*
    If we are not in prelocked mode, mysql_unlock_tables() will be
    called after this binlog_query(), so we have to flush the pending
    rows event with the STMT_END_F set to unlock all tables at the
    slave side as well.

    If we are in prelocked mode, the flushing will be done inside the
    top-most close_thread_tables().
  */
Konstantin Osipov's avatar
Konstantin Osipov committed
4604
  if (this->locked_tables_mode <= LTM_LOCK_TABLES)
4605
    if (int error= binlog_flush_pending_rows_event(TRUE, is_trans))
4606 4607
      DBUG_RETURN(error);

4608
  /*
4609 4610 4611 4612 4613
    Warnings for unsafe statements logged in statement format are
    printed here instead of in decide_logging_format().  This is
    because the warnings should be printed only if the statement is
    actually logged. When executing decide_logging_format(), we cannot
    know for sure if the statement will be logged.
4614 4615 4616 4617 4618

    Besides, we should not try to print these warnings if it is not
    possible to write statements to the binary log as it happens when
    the execution is inside a function, or generaly speaking, when
    the variables.option_bits & OPTION_BIN_LOG is false.
4619
  */
4620
  if (variables.option_bits & OPTION_BIN_LOG)
4621
    issue_unsafe_warnings();
4622

4623
  switch (qtype) {
4624 4625 4626
    /*
      ROW_QUERY_TYPE means that the statement may be logged either in
      row format or in statement format.  If
4627
      current_stmt_binlog_format is row, it means that the
4628 4629 4630
      statement has already been logged in row format and hence shall
      not be logged again.
    */
4631
  case THD::ROW_QUERY_TYPE:
4632
    DBUG_PRINT("debug",
4633
               ("is_current_stmt_binlog_format_row: %d",
4634 4635
                is_current_stmt_binlog_format_row()));
    if (is_current_stmt_binlog_format_row())
4636
      DBUG_RETURN(0);
4637
    /* Fall through */
4638

4639 4640 4641 4642
    /*
      STMT_QUERY_TYPE means that the query must be logged in statement
      format; it cannot be logged in row format.  This is typically
      used by DDL statements.  It is an error to use this query type
4643
      if current_stmt_binlog_format_row is row.
4644 4645

      @todo Currently there are places that call this method with
4646
      STMT_QUERY_TYPE and current_stmt_binlog_format is row.  Fix those
4647
      places and add assert to ensure correct behavior. /Sven
4648 4649 4650
    */
  case THD::STMT_QUERY_TYPE:
    /*
4651 4652
      The MYSQL_LOG::write() function will set the STMT_END_F flag and
      flush the pending rows event if necessary.
4653
    */
4654
    {
4655 4656
      Query_log_event qinfo(this, query_arg, query_len, is_trans, direct,
                            suppress_use, errcode);
4657 4658 4659 4660 4661 4662 4663 4664 4665
      /*
        Binlog table maps will be irrelevant after a Query_log_event
        (they are just removed on the slave side) so after the query
        log event is written to the binary log, we pretend that no
        table maps were written.
       */
      int error= mysql_bin_log.write(&qinfo);
      binlog_table_maps= 0;
      DBUG_RETURN(error);
4666 4667 4668 4669 4670 4671 4672 4673 4674 4675
    }
    break;

  case THD::QUERY_TYPE_COUNT:
  default:
    DBUG_ASSERT(0 <= qtype && qtype < QUERY_TYPE_COUNT);
  }
  DBUG_RETURN(0);
}

4676 4677 4678 4679 4680 4681 4682 4683 4684
bool Discrete_intervals_list::append(ulonglong start, ulonglong val,
                                 ulonglong incr)
{
  DBUG_ENTER("Discrete_intervals_list::append");
  /* first, see if this can be merged with previous */
  if ((head == NULL) || tail->merge_if_contiguous(start, val, incr))
  {
    /* it cannot, so need to add a new interval */
    Discrete_interval *new_interval= new Discrete_interval(start, val, incr);
4685
    DBUG_RETURN(append(new_interval));
4686 4687 4688 4689
  }
  DBUG_RETURN(0);
}

4690 4691 4692 4693 4694 4695 4696 4697 4698 4699 4700 4701 4702 4703 4704
bool Discrete_intervals_list::append(Discrete_interval *new_interval)
{
  DBUG_ENTER("Discrete_intervals_list::append");
  if (unlikely(new_interval == NULL))
    DBUG_RETURN(1);
  DBUG_PRINT("info",("adding new auto_increment interval"));
  if (head == NULL)
    head= current= new_interval;
  else
    tail->next= new_interval;
  tail= new_interval;
  elements++;
  DBUG_RETURN(0);
}

4705
#endif /* !defined(MYSQL_CLIENT) */