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/* Copyright (C) 2000-2005 MySQL AB & Innobase Oy

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 2 of the License, or
   (at your option) any later version.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA */

/* This file defines the InnoDB handler: the interface between MySQL and InnoDB
NOTE: You can only use noninlined InnoDB functions in this file, because we
have disables the InnoDB inlining in this file. */

/* TODO list for the InnoDB handler in 5.0:
  - Remove the flag trx->active_trans and look at the InnoDB
    trx struct state field
  - fix savepoint functions to use savepoint storage area
  - Find out what kind of problems the OS X case-insensitivity causes to
    table and database names; should we 'normalize' the names like we do
    in Windows?
*/

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

#include "mysql_priv.h"
#include "slave.h"

#include <m_ctype.h>
#include <hash.h>
#include <myisampack.h>
#include <mysys_err.h>
#include <my_sys.h>

#define MAX_ULONG_BIT ((ulong) 1 << (sizeof(ulong)*8-1))

#include "ha_innodb.h"

pthread_mutex_t innobase_share_mutex, /* to protect innobase_open_files */
                prepare_commit_mutex; /* to force correct commit order in
				      binlog */
ulong commit_threads= 0;
pthread_mutex_t commit_threads_m;
pthread_cond_t commit_cond;
pthread_mutex_t commit_cond_m;
bool innodb_inited= 0;

/*-----------------------------------------------------------------*/
/* These variables are used to implement (semi-)synchronous MySQL binlog
replication for InnoDB tables. */

pthread_cond_t  innobase_repl_cond;             /* Posix cond variable;
                                                this variable is signaled
                                                when enough binlog has been
                                                sent to slave, so that a
                                                waiting trx can return the
                                                'ok' message to the client
                                                for a commit */
pthread_mutex_t innobase_repl_cond_mutex;       /* Posix cond variable mutex
                                                that also protects the next
                                                innobase_repl_... variables */
uint            innobase_repl_state;            /* 1 if synchronous replication
                                                is switched on and is working
                                                ok; else 0 */
uint            innobase_repl_file_name_inited  = 0; /* This is set to 1 when
                                                innobase_repl_file_name
                                                contains meaningful data */
char*           innobase_repl_file_name;        /* The binlog name up to which
                                                we have sent some binlog to
                                                the slave */
my_off_t        innobase_repl_pos;              /* The position in that file
                                                up to which we have sent the
                                                binlog to the slave */
uint            innobase_repl_n_wait_threads    = 0; /* This tells how many
                                                transactions currently are
                                                waiting for the binlog to be
                                                sent to the client */
uint            innobase_repl_wait_file_name_inited = 0; /* This is set to 1
                                                when we know the 'smallest'
                                                wait position */
char*           innobase_repl_wait_file_name;   /* NULL, or the 'smallest'
                                                innobase_repl_file_name that
                                                a transaction is waiting for */
my_off_t        innobase_repl_wait_pos;         /* The smallest position in
                                                that file that a trx is
                                                waiting for: the trx can
                                                proceed and send an 'ok' to
                                                the client when MySQL has sent
                                                the binlog up to this position
                                                to the slave */
/*-----------------------------------------------------------------*/



/* Store MySQL definition of 'byte': in Linux it is char while InnoDB
uses unsigned char; the header univ.i which we include next defines
'byte' as a macro which expands to 'unsigned char' */

typedef byte	mysql_byte;

#define INSIDE_HA_INNOBASE_CC

/* Include necessary InnoDB headers */
extern "C" {
#include "../storage/innobase/include/univ.i"
#include "../storage/innobase/include/os0file.h"
#include "../storage/innobase/include/os0thread.h"
#include "../storage/innobase/include/srv0start.h"
#include "../storage/innobase/include/srv0srv.h"
#include "../storage/innobase/include/trx0roll.h"
#include "../storage/innobase/include/trx0trx.h"
#include "../storage/innobase/include/trx0sys.h"
#include "../storage/innobase/include/mtr0mtr.h"
#include "../storage/innobase/include/row0ins.h"
#include "../storage/innobase/include/row0mysql.h"
#include "../storage/innobase/include/row0sel.h"
#include "../storage/innobase/include/row0upd.h"
#include "../storage/innobase/include/log0log.h"
#include "../storage/innobase/include/lock0lock.h"
#include "../storage/innobase/include/dict0crea.h"
#include "../storage/innobase/include/btr0cur.h"
#include "../storage/innobase/include/btr0btr.h"
#include "../storage/innobase/include/fsp0fsp.h"
#include "../storage/innobase/include/sync0sync.h"
#include "../storage/innobase/include/fil0fil.h"
#include "../storage/innobase/include/trx0xa.h"
}

#define HA_INNOBASE_ROWS_IN_TABLE 10000 /* to get optimization right */
#define HA_INNOBASE_RANGE_COUNT	  100

uint 	innobase_init_flags 	= 0;
ulong 	innobase_cache_size 	= 0;
ulong 	innobase_large_page_size = 0;

/* The default values for the following, type long or longlong, start-up
parameters are declared in mysqld.cc: */

long innobase_mirrored_log_groups, innobase_log_files_in_group,
     innobase_log_buffer_size, innobase_buffer_pool_awe_mem_mb,
     innobase_additional_mem_pool_size, innobase_file_io_threads,
     innobase_lock_wait_timeout, innobase_force_recovery,
     innobase_open_files;

longlong innobase_buffer_pool_size, innobase_log_file_size;

/* The default values for the following char* start-up parameters
are determined in innobase_init below: */
  
char*	innobase_data_home_dir			= NULL;
char*	innobase_data_file_path 		= NULL;
char*	innobase_log_group_home_dir		= NULL;
char*	innobase_log_arch_dir			= NULL;/* unused */
/* The following has a misleading name: starting from 4.0.5, this also
affects Windows: */
char*	innobase_unix_file_flush_method		= NULL;

/* Below we have boolean-valued start-up parameters, and their default
values */

uint	innobase_flush_log_at_trx_commit	= 1;
ulong	innobase_fast_shutdown			= 1;
my_bool innobase_log_archive			= FALSE;/* unused */
my_bool innobase_use_doublewrite    = TRUE;
my_bool innobase_use_checksums      = TRUE;
my_bool innobase_use_large_pages    = FALSE;
my_bool	innobase_use_native_aio			= FALSE;
my_bool	innobase_file_per_table			= FALSE;
my_bool innobase_locks_unsafe_for_binlog        = FALSE;
my_bool innobase_create_status_file		= FALSE;

static char *internal_innobase_data_file_path	= NULL;

/* The following counter is used to convey information to InnoDB
about server activity: in selects it is not sensible to call
srv_active_wake_master_thread after each fetch or search, we only do
it every INNOBASE_WAKE_INTERVAL'th step. */

#define INNOBASE_WAKE_INTERVAL	32
ulong	innobase_active_counter	= 0;

char*	innobase_home 	= NULL;

static HASH 	innobase_open_tables;

#ifdef __NETWARE__  	/* some special cleanup for NetWare */
bool nw_panic = FALSE;
#endif

static mysql_byte* innobase_get_key(INNOBASE_SHARE *share,uint *length,
			      my_bool not_used __attribute__((unused)));
static INNOBASE_SHARE *get_share(const char *table_name);
static void free_share(INNOBASE_SHARE *share);
static int innobase_close_connection(THD* thd);
static int innobase_commit(THD* thd, bool all);
static int innobase_rollback(THD* thd, bool all);
static int innobase_rollback_to_savepoint(THD* thd, void *savepoint);
static int innobase_savepoint(THD* thd, void *savepoint);
static int innobase_release_savepoint(THD* thd, void *savepoint);
static handler *innobase_create_handler(TABLE_SHARE *table);

handlerton innobase_hton = {
  MYSQL_HANDLERTON_INTERFACE_VERSION,
  "InnoDB",
  SHOW_OPTION_YES,
  "Supports transactions, row-level locking, and foreign keys", 
  DB_TYPE_INNODB,
  innobase_init,
  0,				/* slot */
  sizeof(trx_named_savept_t),	/* savepoint size. TODO: use it */
  innobase_close_connection,
  innobase_savepoint,
  innobase_rollback_to_savepoint,
  innobase_release_savepoint,
  innobase_commit,		/* commit */
  innobase_rollback,		/* rollback */
  innobase_xa_prepare,		/* prepare */
  innobase_xa_recover,		/* recover */
  innobase_commit_by_xid,	/* commit_by_xid */
  innobase_rollback_by_xid,     /* rollback_by_xid */
  innobase_create_cursor_view,
  innobase_set_cursor_view,
  innobase_close_cursor_view,
  innobase_create_handler,	/* Create a new handler */
  innobase_drop_database,	/* Drop a database */
  innobase_end,			/* Panic call */
  innobase_start_trx_and_assign_read_view,    /* Start Consistent Snapshot */
  innobase_flush_logs,		/* Flush logs */
  innobase_show_status,		/* Show status */
  HTON_NO_FLAGS
};


static handler *innobase_create_handler(TABLE_SHARE *table)
{
  return new ha_innobase(table);
}


/*********************************************************************
Commits a transaction in an InnoDB database. */

void
innobase_commit_low(
/*================*/
	trx_t*	trx);	/* in: transaction handle */

struct show_var_st innodb_status_variables[]= {
  {"buffer_pool_pages_data",
  (char*) &export_vars.innodb_buffer_pool_pages_data,     SHOW_LONG},
  {"buffer_pool_pages_dirty",
  (char*) &export_vars.innodb_buffer_pool_pages_dirty,    SHOW_LONG},
  {"buffer_pool_pages_flushed",
  (char*) &export_vars.innodb_buffer_pool_pages_flushed,  SHOW_LONG},
  {"buffer_pool_pages_free",
  (char*) &export_vars.innodb_buffer_pool_pages_free,     SHOW_LONG},
  {"buffer_pool_pages_latched",
  (char*) &export_vars.innodb_buffer_pool_pages_latched,  SHOW_LONG},
  {"buffer_pool_pages_misc",
  (char*) &export_vars.innodb_buffer_pool_pages_misc,     SHOW_LONG},
  {"buffer_pool_pages_total",
  (char*) &export_vars.innodb_buffer_pool_pages_total,    SHOW_LONG},
  {"buffer_pool_read_ahead_rnd",
  (char*) &export_vars.innodb_buffer_pool_read_ahead_rnd, SHOW_LONG},
  {"buffer_pool_read_ahead_seq",
  (char*) &export_vars.innodb_buffer_pool_read_ahead_seq, SHOW_LONG},
  {"buffer_pool_read_requests",
  (char*) &export_vars.innodb_buffer_pool_read_requests,  SHOW_LONG},
  {"buffer_pool_reads",
  (char*) &export_vars.innodb_buffer_pool_reads,          SHOW_LONG},
  {"buffer_pool_wait_free",
  (char*) &export_vars.innodb_buffer_pool_wait_free,      SHOW_LONG},
  {"buffer_pool_write_requests",
  (char*) &export_vars.innodb_buffer_pool_write_requests, SHOW_LONG},
  {"data_fsyncs",
  (char*) &export_vars.innodb_data_fsyncs,                SHOW_LONG},
  {"data_pending_fsyncs",
  (char*) &export_vars.innodb_data_pending_fsyncs,        SHOW_LONG},
  {"data_pending_reads",
  (char*) &export_vars.innodb_data_pending_reads,         SHOW_LONG},
  {"data_pending_writes",
  (char*) &export_vars.innodb_data_pending_writes,        SHOW_LONG},
  {"data_read",
  (char*) &export_vars.innodb_data_read,                  SHOW_LONG},
  {"data_reads",
  (char*) &export_vars.innodb_data_reads,                 SHOW_LONG},
  {"data_writes",
  (char*) &export_vars.innodb_data_writes,                SHOW_LONG},
  {"data_written",
  (char*) &export_vars.innodb_data_written,               SHOW_LONG},
  {"dblwr_pages_written",
  (char*) &export_vars.innodb_dblwr_pages_written,        SHOW_LONG},
  {"dblwr_writes",
  (char*) &export_vars.innodb_dblwr_writes,               SHOW_LONG},
  {"log_waits",
  (char*) &export_vars.innodb_log_waits,                  SHOW_LONG},
  {"log_write_requests",
  (char*) &export_vars.innodb_log_write_requests,         SHOW_LONG},
  {"log_writes",
  (char*) &export_vars.innodb_log_writes,                 SHOW_LONG},
  {"os_log_fsyncs",
  (char*) &export_vars.innodb_os_log_fsyncs,              SHOW_LONG},
  {"os_log_pending_fsyncs",
  (char*) &export_vars.innodb_os_log_pending_fsyncs,      SHOW_LONG},
  {"os_log_pending_writes",
  (char*) &export_vars.innodb_os_log_pending_writes,      SHOW_LONG},
  {"os_log_written",
  (char*) &export_vars.innodb_os_log_written,             SHOW_LONG},
  {"page_size",
  (char*) &export_vars.innodb_page_size,                  SHOW_LONG},
  {"pages_created",
  (char*) &export_vars.innodb_pages_created,              SHOW_LONG},
  {"pages_read",
  (char*) &export_vars.innodb_pages_read,                 SHOW_LONG},
  {"pages_written",
  (char*) &export_vars.innodb_pages_written,              SHOW_LONG},
  {"row_lock_current_waits",
  (char*) &export_vars.innodb_row_lock_current_waits,     SHOW_LONG},
  {"row_lock_time",
  (char*) &export_vars.innodb_row_lock_time,              SHOW_LONGLONG},
  {"row_lock_time_avg",
  (char*) &export_vars.innodb_row_lock_time_avg,          SHOW_LONG},
  {"row_lock_time_max",
  (char*) &export_vars.innodb_row_lock_time_max,          SHOW_LONG},
  {"row_lock_waits",
  (char*) &export_vars.innodb_row_lock_waits,             SHOW_LONG},
  {"rows_deleted",
  (char*) &export_vars.innodb_rows_deleted,               SHOW_LONG},
  {"rows_inserted",
  (char*) &export_vars.innodb_rows_inserted,              SHOW_LONG},
  {"rows_read",
  (char*) &export_vars.innodb_rows_read,                  SHOW_LONG},
  {"rows_updated",
  (char*) &export_vars.innodb_rows_updated,               SHOW_LONG},
  {NullS, NullS, SHOW_LONG}};

/* General functions */

/**********************************************************************
Save some CPU by testing the value of srv_thread_concurrency in inline
functions. */
inline
void
innodb_srv_conc_enter_innodb(
/*=========================*/
	trx_t*	trx)	/* in: transaction handle */
{
	if (UNIV_LIKELY(srv_thread_concurrency >= SRV_CONCURRENCY_THRESHOLD)) {

		return;
	}

	srv_conc_enter_innodb(trx);
}

/**********************************************************************
Save some CPU by testing the value of srv_thread_concurrency in inline
functions. */
inline
void
innodb_srv_conc_exit_innodb(
/*========================*/
	trx_t*	trx)	/* in: transaction handle */
{
	if (UNIV_LIKELY(srv_thread_concurrency >= SRV_CONCURRENCY_THRESHOLD)) {

		return;
	}

	srv_conc_exit_innodb(trx);
}

/**********************************************************************
Releases possible search latch and InnoDB thread FIFO ticket. These should
be released at each SQL statement end, and also when mysqld passes the
control to the client. It does no harm to release these also in the middle
of an SQL statement. */
inline
void
innobase_release_stat_resources(
/*============================*/
	trx_t*	trx)	/* in: transaction object */
{
	if (trx->has_search_latch) {
		trx_search_latch_release_if_reserved(trx);
	}

	if (trx->declared_to_be_inside_innodb) {
		/* Release our possible ticket in the FIFO */

		srv_conc_force_exit_innodb(trx);
	}
}

/************************************************************************
Call this function when mysqld passes control to the client. That is to
avoid deadlocks on the adaptive hash S-latch possibly held by thd. For more
documentation, see handler.cc. */

int
innobase_release_temporary_latches(
/*===============================*/
        THD *thd)
{
	trx_t*	trx;

	if (!innodb_inited) {
		
		return 0;
	}

	trx = (trx_t*) thd->ha_data[innobase_hton.slot];

	if (trx) {
        	innobase_release_stat_resources(trx);
	}
	return 0;
}

/************************************************************************
Increments innobase_active_counter and every INNOBASE_WAKE_INTERVALth
time calls srv_active_wake_master_thread. This function should be used
when a single database operation may introduce a small need for
server utility activity, like checkpointing. */
inline
void
innobase_active_small(void)
/*=======================*/
{
	innobase_active_counter++;

	if ((innobase_active_counter % INNOBASE_WAKE_INTERVAL) == 0) {
		srv_active_wake_master_thread();
	}
}

/************************************************************************
Converts an InnoDB error code to a MySQL error code and also tells to MySQL
about a possible transaction rollback inside InnoDB caused by a lock wait
timeout or a deadlock. */
static
int
convert_error_code_to_mysql(
/*========================*/
			/* out: MySQL error code */
	int	error,	/* in: InnoDB error code */
	THD*	thd)	/* in: user thread handle or NULL */
{
	if (error == DB_SUCCESS) {

		return(0);

  	} else if (error == (int) DB_DUPLICATE_KEY) {

    		return(HA_ERR_FOUND_DUPP_KEY);

 	} else if (error == (int) DB_RECORD_NOT_FOUND) {

    		return(HA_ERR_NO_ACTIVE_RECORD);

 	} else if (error == (int) DB_ERROR) {

    		return(-1); /* unspecified error */

 	} else if (error == (int) DB_DEADLOCK) {
 		/* Since we rolled back the whole transaction, we must
 		tell it also to MySQL so that MySQL knows to empty the
 		cached binlog for this transaction */

 		if (thd) {
 			ha_rollback(thd);
 		}

    		return(HA_ERR_LOCK_DEADLOCK);

 	} else if (error == (int) DB_LOCK_WAIT_TIMEOUT) {

		/* Starting from 5.0.13, we let MySQL just roll back the
		latest SQL statement in a lock wait timeout. Previously, we
		rolled back the whole transaction. */

   		return(HA_ERR_LOCK_WAIT_TIMEOUT);

 	} else if (error == (int) DB_NO_REFERENCED_ROW) {

    		return(HA_ERR_NO_REFERENCED_ROW);

 	} else if (error == (int) DB_ROW_IS_REFERENCED) {

    		return(HA_ERR_ROW_IS_REFERENCED);

        } else if (error == (int) DB_CANNOT_ADD_CONSTRAINT) {

    		return(HA_ERR_CANNOT_ADD_FOREIGN);

        } else if (error == (int) DB_CANNOT_DROP_CONSTRAINT) {

    		return(HA_ERR_ROW_IS_REFERENCED); /* TODO: This is a bit
						misleading, a new MySQL error
						code should be introduced */
        } else if (error == (int) DB_COL_APPEARS_TWICE_IN_INDEX) {

    		return(HA_ERR_CRASHED);

 	} else if (error == (int) DB_OUT_OF_FILE_SPACE) {

    		return(HA_ERR_RECORD_FILE_FULL);

 	} else if (error == (int) DB_TABLE_IS_BEING_USED) {

    		return(HA_ERR_WRONG_COMMAND);

 	} else if (error == (int) DB_TABLE_NOT_FOUND) {

    		return(HA_ERR_KEY_NOT_FOUND);

  	} else if (error == (int) DB_TOO_BIG_RECORD) {

    		return(HA_ERR_TO_BIG_ROW);

  	} else if (error == (int) DB_CORRUPTION) {

    		return(HA_ERR_CRASHED);
  	} else if (error == (int) DB_NO_SAVEPOINT) {

    		return(HA_ERR_NO_SAVEPOINT);
  	} else if (error == (int) DB_LOCK_TABLE_FULL) {

    		return(HA_ERR_LOCK_TABLE_FULL);
    	} else {
    		return(-1);			// Unknown error
    	}
}

/*****************************************************************
If you want to print a thd that is not associated with the current thread,
you must call this function before reserving the InnoDB kernel_mutex, to
protect MySQL from setting thd->query NULL. If you print a thd of the current
thread, we know that MySQL cannot modify thd->query, and it is not necessary
to call this. Call innobase_mysql_end_print_arbitrary_thd() after you release
the kernel_mutex.
NOTE that /mysql/innobase/lock/lock0lock.c must contain the prototype for this
function! */
extern "C"
void
innobase_mysql_prepare_print_arbitrary_thd(void)
/*============================================*/
{
	VOID(pthread_mutex_lock(&LOCK_thread_count));
}

/*****************************************************************
Releases the mutex reserved by innobase_mysql_prepare_print_arbitrary_thd().
NOTE that /mysql/innobase/lock/lock0lock.c must contain the prototype for this
function! */
extern "C"
void
innobase_mysql_end_print_arbitrary_thd(void)
/*========================================*/
{
	VOID(pthread_mutex_unlock(&LOCK_thread_count));
}

/*****************************************************************
Prints info of a THD object (== user session thread) to the given file.
NOTE that /mysql/innobase/trx/trx0trx.c must contain the prototype for
this function! */
extern "C"
void
innobase_mysql_print_thd(
/*=====================*/
	FILE*   f,		/* in: output stream */
	void*   input_thd,	/* in: pointer to a MySQL THD object */
	uint	max_query_len)	/* in: max query length to print, or 0 to
				   use the default max length */
{
	const THD*	thd;
        const Security_context *sctx;
	const char*	s;

        thd = (const THD*) input_thd;
        /* We probably want to have original user as part of debug output. */
        sctx = &thd->main_security_ctx;


  	fprintf(f, "MySQL thread id %lu, query id %lu",
		thd->thread_id, (ulong) thd->query_id);
	if (sctx->host) {
		putc(' ', f);
		fputs(sctx->host, f);
	}

	if (sctx->ip) {
		putc(' ', f);
		fputs(sctx->ip, f);
	}

        if (sctx->user) {
		putc(' ', f);
		fputs(sctx->user, f);
  	}

	if ((s = thd->proc_info)) {
		putc(' ', f);
		fputs(s, f);
	}

	if ((s = thd->query)) {
		/* 3100 is chosen because currently 3000 is the maximum
		   max_query_len we ever give this. */
		char	buf[3100];
		uint	len;

		/* If buf is too small, we dynamically allocate storage
		   in this. */
		char*	dyn_str = NULL;

		/* Points to buf or dyn_str. */
		char*	str = buf;
		
		if (max_query_len == 0)
		{
			/* ADDITIONAL SAFETY: the default is to print at
			   most 300 chars to reduce the probability of a
			   seg fault if there is a race in
			   thd->query_length in MySQL; after May 14, 2004
			   probably no race any more, but better be
			   safe */
			max_query_len = 300;
		}
		
		len = min(thd->query_length, max_query_len);

		if (len > (sizeof(buf) - 1))
		{
			dyn_str = my_malloc(len + 1, MYF(0));
			str = dyn_str;
		}

                /* Use strmake to reduce the timeframe for a race,
                   compared to fwrite() */
		len = (uint) (strmake(str, s, len) - str);
		putc('\n', f);
		fwrite(str, 1, len, f);

		if (dyn_str)
		{
			my_free(dyn_str, MYF(0));
		}
	}

	putc('\n', f);
}

/**********************************************************************
Get the variable length bounds of the given character set.

NOTE that the exact prototype of this function has to be in
/innobase/data/data0type.ic! */
extern "C"
void
innobase_get_cset_width(
/*====================*/
	ulint	cset,		/* in: MySQL charset-collation code */
	ulint*	mbminlen,	/* out: minimum length of a char (in bytes) */
	ulint*	mbmaxlen)	/* out: maximum length of a char (in bytes) */
{
	CHARSET_INFO*	cs;
	ut_ad(cset < 256);
	ut_ad(mbminlen);
	ut_ad(mbmaxlen);

	cs = all_charsets[cset];
	if (cs) {
		*mbminlen = cs->mbminlen;
		*mbmaxlen = cs->mbmaxlen;
	} else {
		ut_a(cset == 0);
		*mbminlen = *mbmaxlen = 0;
	}
}

/**********************************************************************
Compares NUL-terminated UTF-8 strings case insensitively.

NOTE that the exact prototype of this function has to be in
/innobase/dict/dict0dict.c! */
extern "C"
int
innobase_strcasecmp(
/*================*/
				/* out: 0 if a=b, <0 if a<b, >1 if a>b */
	const char*	a,	/* in: first string to compare */
	const char*	b)	/* in: second string to compare */
{
	return(my_strcasecmp(system_charset_info, a, b));
}

/**********************************************************************
Makes all characters in a NUL-terminated UTF-8 string lower case.

NOTE that the exact prototype of this function has to be in
/innobase/dict/dict0dict.c! */
extern "C"
void
innobase_casedn_str(
/*================*/
	char*	a)	/* in/out: string to put in lower case */
{
	my_casedn_str(system_charset_info, a);
}

/*************************************************************************
Creates a temporary file. */
extern "C"
int
innobase_mysql_tmpfile(void)
/*========================*/
			/* out: temporary file descriptor, or < 0 on error */
{
	char	filename[FN_REFLEN];
	int	fd2 = -1;
	File	fd = create_temp_file(filename, mysql_tmpdir, "ib",
#ifdef __WIN__
				O_BINARY | O_TRUNC | O_SEQUENTIAL |
				O_TEMPORARY | O_SHORT_LIVED |
#endif /* __WIN__ */
				O_CREAT | O_EXCL | O_RDWR,
				MYF(MY_WME));
	if (fd >= 0) {
#ifndef __WIN__
		/* On Windows, open files cannot be removed, but files can be
		created with the O_TEMPORARY flag to the same effect
		("delete on close"). */
		unlink(filename);
#endif /* !__WIN__ */
		/* Copy the file descriptor, so that the additional resources
		allocated by create_temp_file() can be freed by invoking
		my_close().

		Because the file descriptor returned by this function
		will be passed to fdopen(), it will be closed by invoking
		fclose(), which in turn will invoke close() instead of
		my_close(). */
		fd2 = dup(fd);
		if (fd2 < 0) {
			DBUG_PRINT("error",("Got error %d on dup",fd2));
			my_errno=errno;
                        my_error(EE_OUT_OF_FILERESOURCES,
                                 MYF(ME_BELL+ME_WAITTANG),
                                 filename, my_errno);
                }
		my_close(fd, MYF(MY_WME));
	}
	return(fd2);
}

/*************************************************************************
Gets the InnoDB transaction handle for a MySQL handler object, creates
an InnoDB transaction struct if the corresponding MySQL thread struct still
lacks one. */
static
trx_t*
check_trx_exists(
/*=============*/
			/* out: InnoDB transaction handle */
	THD*	thd)	/* in: user thread handle */
{
	trx_t*	trx;

	ut_ad(thd == current_thd);

        trx = (trx_t*) thd->ha_data[innobase_hton.slot];

	if (trx == NULL) {
	        DBUG_ASSERT(thd != NULL);
		trx = trx_allocate_for_mysql();

		trx->mysql_thd = thd;
		trx->mysql_query_str = &(thd->query);
                trx->active_trans = 0;

		/* Update the info whether we should skip XA steps that eat
		CPU time */
		trx->support_xa = (ibool)(thd->variables.innodb_support_xa);

                thd->ha_data[innobase_hton.slot] = trx;
	} else {
		if (trx->magic_n != TRX_MAGIC_N) {
			mem_analyze_corruption((byte*)trx);

			ut_a(0);
		}
	}

	if (thd->options & OPTION_NO_FOREIGN_KEY_CHECKS) {
		trx->check_foreigns = FALSE;
	} else {
		trx->check_foreigns = TRUE;
	}

	if (thd->options & OPTION_RELAXED_UNIQUE_CHECKS) {
		trx->check_unique_secondary = FALSE;
	} else {
		trx->check_unique_secondary = TRUE;
	}

	return(trx);
}


/*************************************************************************
Construct ha_innobase handler. */

ha_innobase::ha_innobase(TABLE_SHARE *table_arg)
  :handler(&innobase_hton, table_arg),
  int_table_flags(HA_REC_NOT_IN_SEQ |
                  HA_NULL_IN_KEY |
                  HA_CAN_INDEX_BLOBS |
                  HA_CAN_SQL_HANDLER |
                  HA_NOT_EXACT_COUNT |
                  HA_PRIMARY_KEY_ALLOW_RANDOM_ACCESS |
                  HA_PRIMARY_KEY_IN_READ_INDEX |
                  HA_CAN_GEOMETRY |
                  HA_TABLE_SCAN_ON_INDEX),
  last_dup_key((uint) -1),
  start_of_scan(0),
  num_write_row(0)
{}

/*************************************************************************
Updates the user_thd field in a handle and also allocates a new InnoDB
transaction handle if needed, and updates the transaction fields in the
prebuilt struct. */
inline
int
ha_innobase::update_thd(
/*====================*/
			/* out: 0 or error code */
	THD*	thd)	/* in: thd to use the handle */
{
	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;
	trx_t*		trx;

	trx = check_trx_exists(thd);

	if (prebuilt->trx != trx) {

		row_update_prebuilt_trx(prebuilt, trx);
	}

	user_thd = thd;

	return(0);
}

/*************************************************************************
Registers that InnoDB takes part in an SQL statement, so that MySQL knows to
roll back the statement if the statement results in an error. This MUST be
called for every SQL statement that may be rolled back by MySQL. Calling this
several times to register the same statement is allowed, too. */
inline
void
innobase_register_stmt(
/*===================*/
	THD*	thd)	/* in: MySQL thd (connection) object */
{
        /* Register the statement */
        trans_register_ha(thd, FALSE, &innobase_hton);
}

/*************************************************************************
Registers an InnoDB transaction in MySQL, so that the MySQL XA code knows
to call the InnoDB prepare and commit, or rollback for the transaction. This
MUST be called for every transaction for which the user may call commit or
rollback. Calling this several times to register the same transaction is
allowed, too.
This function also registers the current SQL statement. */
inline
void
innobase_register_trx_and_stmt(
/*===========================*/
	THD*	thd)	/* in: MySQL thd (connection) object */
{
	/* NOTE that actually innobase_register_stmt() registers also
	the transaction in the AUTOCOMMIT=1 mode. */

	innobase_register_stmt(thd);

        if (thd->options & (OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN)) {

              /* No autocommit mode, register for a transaction */
              trans_register_ha(thd, TRUE, &innobase_hton);
        }
}

/*   BACKGROUND INFO: HOW THE MYSQL QUERY CACHE WORKS WITH INNODB
     ------------------------------------------------------------

1) The use of the query cache for TBL is disabled when there is an
uncommitted change to TBL.

2) When a change to TBL commits, InnoDB stores the current value of
its global trx id counter, let us denote it by INV_TRX_ID, to the table object
in the InnoDB data dictionary, and does only allow such transactions whose
id <= INV_TRX_ID to use the query cache.

3) When InnoDB does an INSERT/DELETE/UPDATE to a table TBL, or an implicit
modification because an ON DELETE CASCADE, we invalidate the MySQL query cache
of TBL immediately.

How this is implemented inside InnoDB:

1) Since every modification always sets an IX type table lock on the InnoDB
table, it is easy to check if there can be uncommitted modifications for a
table: just check if there are locks in the lock list of the table.

2) When a transaction inside InnoDB commits, it reads the global trx id
counter and stores the value INV_TRX_ID to the tables on which it had a lock.

3) If there is an implicit table change from ON DELETE CASCADE or SET NULL,
InnoDB calls an invalidate method for the MySQL query cache for that table.

How this is implemented inside sql_cache.cc:

1) The query cache for an InnoDB table TBL is invalidated immediately at an
INSERT/UPDATE/DELETE, just like in the case of MyISAM. No need to delay
invalidation to the transaction commit.

2) To store or retrieve a value from the query cache of an InnoDB table TBL,
any query must first ask InnoDB's permission. We must pass the thd as a
parameter because InnoDB will look at the trx id, if any, associated with
that thd.

3) Use of the query cache for InnoDB tables is now allowed also when
AUTOCOMMIT==0 or we are inside BEGIN ... COMMIT. Thus transactions no longer
put restrictions on the use of the query cache.
*/

/**********************************************************************
The MySQL query cache uses this to check from InnoDB if the query cache at
the moment is allowed to operate on an InnoDB table. The SQL query must
be a non-locking SELECT.

The query cache is allowed to operate on certain query only if this function
returns TRUE for all tables in the query.

If thd is not in the autocommit state, this function also starts a new
transaction for thd if there is no active trx yet, and assigns a consistent
read view to it if there is no read view yet.

Why a deadlock of threads is not possible: the query cache calls this function
at the start of a SELECT processing. Then the calling thread cannot be
holding any InnoDB semaphores. The calling thread is holding the
query cache mutex, and this function will reserver the InnoDB kernel mutex.
Thus, the 'rank' in sync0sync.h of the MySQL query cache mutex is above
the InnoDB kernel mutex. */

my_bool
innobase_query_caching_of_table_permitted(
/*======================================*/
				/* out: TRUE if permitted, FALSE if not;
				note that the value FALSE does not mean
				we should invalidate the query cache:
				invalidation is called explicitly */
	THD*	thd,		/* in: thd of the user who is trying to
				store a result to the query cache or
				retrieve it */
	char*	full_name,	/* in: concatenation of database name,
				the null character '\0', and the table
				name */
	uint	full_name_len,	/* in: length of the full name, i.e.
				len(dbname) + len(tablename) + 1 */
        ulonglong *unused)      /* unused for this engine */
{
	ibool	is_autocommit;
	trx_t*	trx;
	char	norm_name[1000];

	ut_a(full_name_len < 999);

	if (thd->variables.tx_isolation == ISO_SERIALIZABLE) {
		/* In the SERIALIZABLE mode we add LOCK IN SHARE MODE to every
		plain SELECT if AUTOCOMMIT is not on. */
	
		return((my_bool)FALSE);
	}

        trx = check_trx_exists(thd);
	if (trx->has_search_latch) {
		ut_print_timestamp(stderr);
		sql_print_error("The calling thread is holding the adaptive "
				"search, latch though calling "
				"innobase_query_caching_of_table_permitted.");
	}

	innobase_release_stat_resources(trx);

	if (!(thd->options & (OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN))) {

		is_autocommit = TRUE;
	} else {
		is_autocommit = FALSE;

	}

	if (is_autocommit && trx->n_mysql_tables_in_use == 0) {
		/* We are going to retrieve the query result from the query
		cache. This cannot be a store operation to the query cache
		because then MySQL would have locks on tables already.

		TODO: if the user has used LOCK TABLES to lock the table,
		then we open a transaction in the call of row_.. below.
		That trx can stay open until UNLOCK TABLES. The same problem
		exists even if we do not use the query cache. MySQL should be
		modified so that it ALWAYS calls some cleanup function when
		the processing of a query ends!

		We can imagine we instantaneously serialize this consistent
		read trx to the current trx id counter. If trx2 would have
		changed the tables of a query result stored in the cache, and
		trx2 would have already committed, making the result obsolete,
		then trx2 would have already invalidated the cache. Thus we
		can trust the result in the cache is ok for this query. */

		return((my_bool)TRUE);
	}
	
	/* Normalize the table name to InnoDB format */

	memcpy(norm_name, full_name, full_name_len);

	norm_name[strlen(norm_name)] = '/'; /* InnoDB uses '/' as the
					    separator between db and table */
	norm_name[full_name_len] = '\0';
#ifdef __WIN__
	innobase_casedn_str(norm_name);
#endif
	/* The call of row_search_.. will start a new transaction if it is
	not yet started */

        if (trx->active_trans == 0) {

                innobase_register_trx_and_stmt(thd);
                trx->active_trans = 1;
        }

	if (row_search_check_if_query_cache_permitted(trx, norm_name)) {

		/* printf("Query cache for %s permitted\n", norm_name); */

		return((my_bool)TRUE);
	}

	/* printf("Query cache for %s NOT permitted\n", norm_name); */

	return((my_bool)FALSE);
}

/*********************************************************************
Invalidates the MySQL query cache for the table.
NOTE that the exact prototype of this function has to be in
/innobase/row/row0ins.c! */
extern "C"
void
innobase_invalidate_query_cache(
/*============================*/
	trx_t*	trx,		/* in: transaction which modifies the table */
	char*	full_name,	/* in: concatenation of database name, null
				char '\0', table name, null char'\0';
				NOTE that in Windows this is always
				in LOWER CASE! */
	ulint	full_name_len)	/* in: full name length where also the null
				chars count */
{
	/* Note that the sync0sync.h rank of the query cache mutex is just
	above the InnoDB kernel mutex. The caller of this function must not
	have latches of a lower rank. */

	/* Argument TRUE below means we are using transactions */
#ifdef HAVE_QUERY_CACHE
	query_cache.invalidate((THD*)(trx->mysql_thd),
					(const char*)full_name,
					(uint32)full_name_len,
					TRUE);
#endif
}

/*********************************************************************
Get the quote character to be used in SQL identifiers.
This definition must match the one in innobase/ut/ut0ut.c! */
extern "C"
int
mysql_get_identifier_quote_char(
/*============================*/
				/* out: quote character to be
				used in SQL identifiers; EOF if none */
	trx_t*		trx,	/* in: transaction */
	const char*	name,	/* in: name to print */
	ulint		namelen)/* in: length of name */
{
	if (!trx || !trx->mysql_thd) {
		return(EOF);
	}
	return(get_quote_char_for_identifier((THD*) trx->mysql_thd,
						name, (int) namelen));
}

/**************************************************************************
Determines if the currently running transaction has been interrupted. */
extern "C"
ibool
trx_is_interrupted(
/*===============*/
			/* out: TRUE if interrupted */
	trx_t*	trx)	/* in: transaction */
{
	return(trx && trx->mysql_thd && ((THD*) trx->mysql_thd)->killed);
}

/**************************************************************************
Obtain a pointer to the MySQL THD object, as in current_thd().  This
definition must match the one in sql/ha_innodb.cc! */
extern "C"
void*
innobase_current_thd(void)
/*======================*/
			/* out: MySQL THD object */
{
	return(current_thd);
}

/*********************************************************************
Call this when you have opened a new table handle in HANDLER, before you
call index_read_idx() etc. Actually, we can let the cursor stay open even
over a transaction commit! Then you should call this before every operation,
fetch next etc. This function inits the necessary things even after a
transaction commit. */

void
ha_innobase::init_table_handle_for_HANDLER(void)
/*============================================*/
{
        row_prebuilt_t* prebuilt;

        /* If current thd does not yet have a trx struct, create one.
        If the current handle does not yet have a prebuilt struct, create
        one. Update the trx pointers in the prebuilt struct. Normally
        this operation is done in external_lock. */

        update_thd(current_thd);

        /* Initialize the prebuilt struct much like it would be inited in
        external_lock */

        prebuilt = (row_prebuilt_t*)innobase_prebuilt;

	innobase_release_stat_resources(prebuilt->trx);

        /* If the transaction is not started yet, start it */

        trx_start_if_not_started_noninline(prebuilt->trx);

        /* Assign a read view if the transaction does not have it yet */

        trx_assign_read_view(prebuilt->trx);

	/* Set the MySQL flag to mark that there is an active transaction */

        if (prebuilt->trx->active_trans == 0) {

                innobase_register_trx_and_stmt(current_thd);

                prebuilt->trx->active_trans = 1;
        }

        /* We did the necessary inits in this function, no need to repeat them
        in row_search_for_mysql */

        prebuilt->sql_stat_start = FALSE;

        /* We let HANDLER always to do the reads as consistent reads, even
        if the trx isolation level would have been specified as SERIALIZABLE */

        prebuilt->select_lock_type = LOCK_NONE;
        prebuilt->stored_select_lock_type = LOCK_NONE;

        /* Always fetch all columns in the index record */

        prebuilt->hint_need_to_fetch_extra_cols = ROW_RETRIEVE_ALL_COLS;

        /* We want always to fetch all columns in the whole row? Or do
	we???? */

        prebuilt->read_just_key = FALSE;

	prebuilt->used_in_HANDLER = TRUE;

	prebuilt->keep_other_fields_on_keyread = FALSE;
}

/*************************************************************************
Opens an InnoDB database. */

bool
innobase_init(void)
/*===============*/
			/* out: &innobase_hton, or NULL on error */
{
	static char	current_dir[3];		/* Set if using current lib */
	int		err;
	bool		ret;
	char 	        *default_path;

  	DBUG_ENTER("innobase_init");

         if (have_innodb != SHOW_OPTION_YES)
           goto error;

	ut_a(DATA_MYSQL_TRUE_VARCHAR == (ulint)MYSQL_TYPE_VARCHAR);

	/* Check that values don't overflow on 32-bit systems. */
	if (sizeof(ulint) == 4) {
		if (innobase_buffer_pool_size > UINT_MAX32) {
			sql_print_error(
				"innobase_buffer_pool_size can't be over 4GB"
				" on 32-bit systems");

			DBUG_RETURN(0);
		}

		if (innobase_log_file_size > UINT_MAX32) {
			sql_print_error(
				"innobase_log_file_size can't be over 4GB"
				" on 32-bit systems");

			DBUG_RETURN(0);
		}
	}

  	os_innodb_umask = (ulint)my_umask;

	/* First calculate the default path for innodb_data_home_dir etc.,
	in case the user has not given any value.

	Note that when using the embedded server, the datadirectory is not
	necessarily the current directory of this program. */

	if (mysqld_embedded) {
		default_path = mysql_real_data_home;
		fil_path_to_mysql_datadir = mysql_real_data_home;
	} else {
	  	/* It's better to use current lib, to keep paths short */
	  	current_dir[0] = FN_CURLIB;
	  	current_dir[1] = FN_LIBCHAR;
	  	current_dir[2] = 0;
	  	default_path = current_dir;
	}

	ut_a(default_path);

	if (specialflag & SPECIAL_NO_PRIOR) {
	        srv_set_thread_priorities = FALSE;
	} else {
	        srv_set_thread_priorities = TRUE;
	        srv_query_thread_priority = QUERY_PRIOR;
	}

	/* Set InnoDB initialization parameters according to the values
	read from MySQL .cnf file */

	/*--------------- Data files -------------------------*/

	/* The default dir for data files is the datadir of MySQL */

	srv_data_home = (innobase_data_home_dir ? innobase_data_home_dir :
			 default_path);

	/* Set default InnoDB data file size to 10 MB and let it be
  	auto-extending. Thus users can use InnoDB in >= 4.0 without having
	to specify any startup options. */

	if (!innobase_data_file_path) {
  		innobase_data_file_path = (char*) "ibdata1:10M:autoextend";
	}

	/* Since InnoDB edits the argument in the next call, we make another
	copy of it: */

	internal_innobase_data_file_path = my_strdup(innobase_data_file_path,
						   MYF(MY_FAE));

	ret = (bool) srv_parse_data_file_paths_and_sizes(
				internal_innobase_data_file_path,
				&srv_data_file_names,
				&srv_data_file_sizes,
				&srv_data_file_is_raw_partition,
				&srv_n_data_files,
				&srv_auto_extend_last_data_file,
				&srv_last_file_size_max);
	if (ret == FALSE) {
	  	sql_print_error(
			"InnoDB: syntax error in innodb_data_file_path");
	  	my_free(internal_innobase_data_file_path,
						MYF(MY_ALLOW_ZERO_PTR));
                goto error;
	}

	/* -------------- Log files ---------------------------*/

	/* The default dir for log files is the datadir of MySQL */
	
	if (!innobase_log_group_home_dir) {
	  	innobase_log_group_home_dir = default_path;
	}

#ifdef UNIV_LOG_ARCHIVE	  	
	/* Since innodb_log_arch_dir has no relevance under MySQL,
	starting from 4.0.6 we always set it the same as
	innodb_log_group_home_dir: */

	innobase_log_arch_dir = innobase_log_group_home_dir;

	srv_arch_dir = innobase_log_arch_dir;
#endif /* UNIG_LOG_ARCHIVE */

	ret = (bool)
		srv_parse_log_group_home_dirs(innobase_log_group_home_dir,
						&srv_log_group_home_dirs);

	if (ret == FALSE || innobase_mirrored_log_groups != 1) {
	  sql_print_error("syntax error in innodb_log_group_home_dir, or a "
			  "wrong number of mirrored log groups");

	  	my_free(internal_innobase_data_file_path,
						MYF(MY_ALLOW_ZERO_PTR));
                goto error;
	}

	/* --------------------------------------------------*/

	srv_file_flush_method_str = innobase_unix_file_flush_method;

	srv_n_log_groups = (ulint) innobase_mirrored_log_groups;
	srv_n_log_files = (ulint) innobase_log_files_in_group;
	srv_log_file_size = (ulint) innobase_log_file_size;

#ifdef UNIV_LOG_ARCHIVE
	srv_log_archive_on = (ulint) innobase_log_archive;
#endif /* UNIV_LOG_ARCHIVE */
	srv_log_buffer_size = (ulint) innobase_log_buffer_size;
	srv_flush_log_at_trx_commit = (ulint) innobase_flush_log_at_trx_commit;

        /* We set srv_pool_size here in units of 1 kB. InnoDB internally
        changes the value so that it becomes the number of database pages. */

        if (innobase_buffer_pool_awe_mem_mb == 0) {
                /* Careful here: we first convert the signed long int to ulint
                and only after that divide */
 
                srv_pool_size = ((ulint) innobase_buffer_pool_size) / 1024;
        } else {
                srv_use_awe = TRUE;
                srv_pool_size = (ulint)
                                (1024 * innobase_buffer_pool_awe_mem_mb);
                srv_awe_window_size = (ulint) innobase_buffer_pool_size;
 
                /* Note that what the user specified as
                innodb_buffer_pool_size is actually the AWE memory window
                size in this case, and the real buffer pool size is
                determined by .._awe_mem_mb. */
        }

	srv_mem_pool_size = (ulint) innobase_additional_mem_pool_size;

	srv_n_file_io_threads = (ulint) innobase_file_io_threads;

	srv_lock_wait_timeout = (ulint) innobase_lock_wait_timeout;
	srv_force_recovery = (ulint) innobase_force_recovery;

	srv_use_doublewrite_buf = (ibool) innobase_use_doublewrite;
	srv_use_checksums = (ibool) innobase_use_checksums;

	os_use_large_pages = (ibool) innobase_use_large_pages;
	os_large_page_size = (ulint) innobase_large_page_size;
  
	srv_file_per_table = (ibool) innobase_file_per_table;
        srv_locks_unsafe_for_binlog = (ibool) innobase_locks_unsafe_for_binlog;

	srv_max_n_open_files = (ulint) innobase_open_files;
	srv_innodb_status = (ibool) innobase_create_status_file;

	srv_print_verbose_log = mysqld_embedded ? 0 : 1;

	/* Store the default charset-collation number of this MySQL
	installation */

	data_mysql_default_charset_coll = (ulint)default_charset_info->number;

	ut_a(DATA_MYSQL_LATIN1_SWEDISH_CHARSET_COLL ==
					my_charset_latin1.number);

	/* Store the latin1_swedish_ci character ordering table to InnoDB. For
	non-latin1_swedish_ci charsets we use the MySQL comparison functions,
	and consequently we do not need to know the ordering internally in
	InnoDB. */

	ut_a(0 == strcmp((char*)my_charset_latin1.name,
						(char*)"latin1_swedish_ci"));
	memcpy(srv_latin1_ordering, my_charset_latin1.sort_order, 256);

	/* Since we in this module access directly the fields of a trx
        struct, and due to different headers and flags it might happen that
	mutex_t has a different size in this module and in InnoDB
	modules, we check at run time that the size is the same in
	these compilation modules. */

	srv_sizeof_trx_t_in_ha_innodb_cc = sizeof(trx_t);

	err = innobase_start_or_create_for_mysql();

	if (err != DB_SUCCESS) {
	  	my_free(internal_innobase_data_file_path,
						MYF(MY_ALLOW_ZERO_PTR));
                goto error;
	}

	(void) hash_init(&innobase_open_tables,system_charset_info, 32, 0, 0,
			 		(hash_get_key) innobase_get_key, 0, 0);
        pthread_mutex_init(&innobase_share_mutex, MY_MUTEX_INIT_FAST);
        pthread_mutex_init(&prepare_commit_mutex, MY_MUTEX_INIT_FAST);
        pthread_mutex_init(&commit_threads_m, MY_MUTEX_INIT_FAST);
        pthread_mutex_init(&commit_cond_m, MY_MUTEX_INIT_FAST);
        pthread_cond_init(&commit_cond, NULL);
	innodb_inited= 1;

	/* If this is a replication slave and we needed to do a crash recovery,
	set the master binlog position to what InnoDB internally knew about
	how far we got transactions durable inside InnoDB. There is a
	problem here: if the user used also MyISAM tables, InnoDB might not
	know the right position for them.

	THIS DOES NOT WORK CURRENTLY because replication seems to initialize
	glob_mi also after innobase_init. */
	
/*	if (trx_sys_mysql_master_log_pos != -1) {
		ut_memcpy(glob_mi.log_file_name, trx_sys_mysql_master_log_name,
				1 + ut_strlen(trx_sys_mysql_master_log_name));
		glob_mi.pos = trx_sys_mysql_master_log_pos;
	}
*/
	DBUG_RETURN(FALSE);
error:
        have_innodb= SHOW_OPTION_DISABLED;	// If we couldn't use handler
        DBUG_RETURN(TRUE);
}

/***********************************************************************
Closes an InnoDB database. */

int
innobase_end(ha_panic_function type)
/*==============*/
				/* out: TRUE if error */
{
	int	err= 0;

	DBUG_ENTER("innobase_end");

#ifdef __NETWARE__ 	/* some special cleanup for NetWare */
	if (nw_panic) {
		set_panic_flag_for_netware();
	}
#endif
	if (innodb_inited) {

	        srv_fast_shutdown = (ulint) innobase_fast_shutdown;
	  	innodb_inited = 0;
	  	if (innobase_shutdown_for_mysql() != DB_SUCCESS) {
	    		err = 1;
		}
	  	hash_free(&innobase_open_tables);
	  	my_free(internal_innobase_data_file_path,
						MYF(MY_ALLOW_ZERO_PTR));
                pthread_mutex_destroy(&innobase_share_mutex);
                pthread_mutex_destroy(&prepare_commit_mutex);
                pthread_mutex_destroy(&commit_threads_m);
                pthread_mutex_destroy(&commit_cond_m);
                pthread_cond_destroy(&commit_cond);
	}

  	DBUG_RETURN(err);
}

/********************************************************************
Flushes InnoDB logs to disk and makes a checkpoint. Really, a commit flushes
the logs, and the name of this function should be innobase_checkpoint. */

bool
innobase_flush_logs(void)
/*=====================*/
				/* out: TRUE if error */
{
  	bool 	result = 0;

  	DBUG_ENTER("innobase_flush_logs");

	log_buffer_flush_to_disk();

  	DBUG_RETURN(result);
}

/*********************************************************************
Commits a transaction in an InnoDB database. */

void
innobase_commit_low(
/*================*/
	trx_t*	trx)	/* in: transaction handle */
{
        if (trx->conc_state == TRX_NOT_STARTED) {

                return;
        }

#ifdef HAVE_REPLICATION
        THD *thd=current_thd;

        if (thd && thd->slave_thread) {
                /* Update the replication position info inside InnoDB */

                trx->mysql_master_log_file_name
                                        = active_mi->rli.group_master_log_name;
                trx->mysql_master_log_pos = ((ib_longlong)
                                active_mi->rli.future_group_master_log_pos);
        }
#endif /* HAVE_REPLICATION */

	trx_commit_for_mysql(trx);
}

/*********************************************************************
Creates an InnoDB transaction struct for the thd if it does not yet have one.
Starts a new InnoDB transaction if a transaction is not yet started. And
assigns a new snapshot for a consistent read if the transaction does not yet
have one. */

int
innobase_start_trx_and_assign_read_view(
/*====================================*/
			/* out: 0 */
	THD*	thd)	/* in: MySQL thread handle of the user for whom
			the transaction should be committed */
{
	trx_t*	trx;

  	DBUG_ENTER("innobase_start_trx_and_assign_read_view");

	/* Create a new trx struct for thd, if it does not yet have one */

	trx = check_trx_exists(thd);

	/* This is just to play safe: release a possible FIFO ticket and
	search latch. Since we will reserve the kernel mutex, we have to
	release the search system latch first to obey the latching order. */

	innobase_release_stat_resources(trx);

	/* If the transaction is not started yet, start it */

	trx_start_if_not_started_noninline(trx);

	/* Assign a read view if the transaction does not have it yet */

	trx_assign_read_view(trx);

	/* Set the MySQL flag to mark that there is an active transaction */

        if (trx->active_trans == 0) {

                innobase_register_trx_and_stmt(current_thd);

                trx->active_trans = 1;
        }

	DBUG_RETURN(0);
}

/*********************************************************************
Commits a transaction in an InnoDB database or marks an SQL statement
ended. */
static
int
innobase_commit(
/*============*/
			/* out: 0 */
	THD*	thd,	/* in: MySQL thread handle of the user for whom
			the transaction should be committed */
        bool    all)    /* in: TRUE - commit transaction
                               FALSE - the current SQL statement ended */
{
	trx_t*		trx;

  	DBUG_ENTER("innobase_commit");
  	DBUG_PRINT("trans", ("ending transaction"));

	trx = check_trx_exists(thd);

	/* Update the info whether we should skip XA steps that eat CPU time */
	trx->support_xa = (ibool)(thd->variables.innodb_support_xa);

	/* Release a possible FIFO ticket and search latch. Since we will
	reserve the kernel mutex, we have to release the search system latch
	first to obey the latching order. */

        if (trx->has_search_latch) {
                          trx_search_latch_release_if_reserved(trx);
        }
        
        /* The flag trx->active_trans is set to 1 in

	1. ::external_lock(),
	2. ::start_stmt(),
	3. innobase_query_caching_of_table_permitted(),
	4. innobase_savepoint(),
	5. ::init_table_handle_for_HANDLER(),
	6. innobase_start_trx_and_assign_read_view(),
	7. ::transactional_table_lock()

	and it is only set to 0 in a commit or a rollback. If it is 0 we know
	there cannot be resources to be freed and we could return immediately.
	For the time being, we play safe and do the cleanup though there should
	be nothing to clean up. */

        if (trx->active_trans == 0
	    && trx->conc_state != TRX_NOT_STARTED) {
	    
	  sql_print_error("trx->active_trans == 0, but trx->conc_state != "
			  "TRX_NOT_STARTED");
	}
        if (all
	    || (!(thd->options & (OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN)))) {
	        
 		/* We were instructed to commit the whole transaction, or
		this is an SQL statement end and autocommit is on */

                /* We need current binlog position for ibbackup to work.
                Note, the position is current because of prepare_commit_mutex */
retry:
                if (srv_commit_concurrency > 0)
                {
                  pthread_mutex_lock(&commit_cond_m);
                  commit_threads++;
                  if (commit_threads > srv_commit_concurrency)
                  {
                    commit_threads--;
                    pthread_cond_wait(&commit_cond, &commit_cond_m);
                    pthread_mutex_unlock(&commit_cond_m);
                    goto retry;
                  }
                  else
                    pthread_mutex_unlock(&commit_cond_m);
                }
                
                trx->mysql_log_file_name = mysql_bin_log.get_log_fname();
                trx->mysql_log_offset =
                        (ib_longlong)mysql_bin_log.get_log_file()->pos_in_file;

		innobase_commit_low(trx);

                if (srv_commit_concurrency > 0)
                {
                  pthread_mutex_lock(&commit_cond_m);
                  commit_threads--;
                  pthread_cond_signal(&commit_cond);
                  pthread_mutex_unlock(&commit_cond_m);
                }
                
                if (trx->active_trans == 2) {

                        pthread_mutex_unlock(&prepare_commit_mutex);
                }
               
                trx->active_trans = 0;
               
	} else {
	        /* We just mark the SQL statement ended and do not do a
		transaction commit */

		if (trx->auto_inc_lock) {
			/* If we had reserved the auto-inc lock for some
			table in this SQL statement we release it now */
		  	
			row_unlock_table_autoinc_for_mysql(trx);
		}
		/* Store the current undo_no of the transaction so that we
		know where to roll back if we have to roll back the next
		SQL statement */

		trx_mark_sql_stat_end(trx);
	}

	/* Tell the InnoDB server that there might be work for utility
	threads: */
        if (trx->declared_to_be_inside_innodb) {
                          /* Release our possible ticket in the FIFO */

                          srv_conc_force_exit_innodb(trx);
        }
	srv_active_wake_master_thread();

	DBUG_RETURN(0);
}

/* TODO: put the
MySQL-4.1 functionality back to 5.0. This is needed to get InnoDB Hot Backup
to work. */

/*********************************************************************
This is called when MySQL writes the binlog entry for the current
transaction. Writes to the InnoDB tablespace info which tells where the
MySQL binlog entry for the current transaction ended. Also commits the
transaction inside InnoDB but does NOT flush InnoDB log files to disk.
To flush you have to call innobase_commit_complete(). We have separated
flushing to eliminate the bottleneck of LOCK_log in log.cc which disabled
InnoDB's group commit capability. */

int
innobase_report_binlog_offset_and_commit(
/*=====================================*/
                                /* out: 0 */
        THD*    thd,            /* in: user thread */
        void*   trx_handle,     /* in: InnoDB trx handle */
        char*   log_file_name,  /* in: latest binlog file name */
        my_off_t end_offset)    /* in: the offset in the binlog file
                                   up to which we wrote */
{
	trx_t*	trx;

	trx = (trx_t*)trx_handle;

	ut_a(trx != NULL);

	trx->mysql_log_file_name = log_file_name;
	trx->mysql_log_offset = (ib_longlong)end_offset;

#ifdef HAVE_REPLICATION
        if (thd->variables.sync_replication) {
                /* Let us store the binlog file name and the position, so that
                we know how long to wait for the binlog to the replicated to
                the slave in synchronous replication. */

                if (trx->repl_wait_binlog_name == NULL) {

                        trx->repl_wait_binlog_name =
                                  (char*)mem_alloc_noninline(FN_REFLEN + 100);
                }

                ut_a(strlen(log_file_name) < FN_REFLEN + 100);

                strcpy(trx->repl_wait_binlog_name, log_file_name);

                trx->repl_wait_binlog_pos = (ib_longlong)end_offset;
        }
#endif /* HAVE_REPLICATION */
	trx->flush_log_later = TRUE;

	innobase_commit(thd, TRUE);

	trx->flush_log_later = FALSE;

	return(0);
}

#if 0
/***********************************************************************
This function stores the binlog offset and flushes logs. */

void
innobase_store_binlog_offset_and_flush_log(
/*=======================================*/
    char *binlog_name,          /* in: binlog name */
    longlong	offset)		/* in: binlog offset */
{
	mtr_t mtr;

	assert(binlog_name != NULL);

	/* Start a mini-transaction */
        mtr_start_noninline(&mtr);

	/* Update the latest MySQL binlog name and offset info
        in trx sys header */

        trx_sys_update_mysql_binlog_offset(
            binlog_name,
            offset,
            TRX_SYS_MYSQL_LOG_INFO, &mtr);

        /* Commits the mini-transaction */
        mtr_commit(&mtr);

	/* Synchronous flush of the log buffer to disk */
	log_buffer_flush_to_disk();
}
#endif

/*********************************************************************
This is called after MySQL has written the binlog entry for the current
transaction. Flushes the InnoDB log files to disk if required. */

int
innobase_commit_complete(
/*=====================*/
                                /* out: 0 */
        THD*    thd)            /* in: user thread */
{
	trx_t*	trx;

        trx = (trx_t*) thd->ha_data[innobase_hton.slot];

        if (trx && trx->active_trans) {

                trx->active_trans = 0;

                if (srv_flush_log_at_trx_commit == 0) {

                        return(0);
                }

                trx_commit_complete_for_mysql(trx);
        }

#ifdef HAVE_REPLICATION
        if (thd->variables.sync_replication
            && trx->repl_wait_binlog_name
            && innobase_repl_state != 0) {

		struct timespec abstime;
		int	cmp;
		int	ret;

                /* In synchronous replication, let us wait until the MySQL
                replication has sent the relevant binlog segment to the
                replication slave. */

                pthread_mutex_lock(&innobase_repl_cond_mutex);
try_again:
                if (innobase_repl_state == 0) {

                        pthread_mutex_unlock(&innobase_repl_cond_mutex);

                        return(0);
                }

                cmp = strcmp(innobase_repl_file_name,
                                        trx->repl_wait_binlog_name);
                if (cmp > 0
                    || (cmp == 0 && innobase_repl_pos
                                    >= (my_off_t)trx->repl_wait_binlog_pos)) {
                        /* We have already sent the relevant binlog to the
                        slave: no need to wait here */

                        pthread_mutex_unlock(&innobase_repl_cond_mutex);

/*                      printf("Binlog now sent\n"); */

                        return(0);
                }

                /* Let us update the info about the minimum binlog position
                of waiting threads in the innobase_repl_... variables */

                if (innobase_repl_wait_file_name_inited != 0) {
                        cmp = strcmp(trx->repl_wait_binlog_name,
                                        innobase_repl_wait_file_name);
                        if (cmp < 0
                            || (cmp == 0 && (my_off_t)trx->repl_wait_binlog_pos
                                         <= innobase_repl_wait_pos)) {
                                /* This thd has an even lower position, let
                                us update the minimum info */

                                strcpy(innobase_repl_wait_file_name,
                                        trx->repl_wait_binlog_name);

                                innobase_repl_wait_pos =
                                        trx->repl_wait_binlog_pos;
                        }
                } else {
                        strcpy(innobase_repl_wait_file_name,
                                                trx->repl_wait_binlog_name);

                        innobase_repl_wait_pos = trx->repl_wait_binlog_pos;

                        innobase_repl_wait_file_name_inited = 1;
                }
                set_timespec(abstime, thd->variables.sync_replication_timeout);

                /* Let us suspend this thread to wait on the condition;
                when replication has progressed far enough, we will release
                these waiting threads. The following call
                pthread_cond_timedwait also atomically unlocks
                innobase_repl_cond_mutex. */

                innobase_repl_n_wait_threads++;

/*              printf("Waiting for binlog to be sent\n"); */

                ret = pthread_cond_timedwait(&innobase_repl_cond,
                                        &innobase_repl_cond_mutex, &abstime);
                innobase_repl_n_wait_threads--;

                if (ret != 0) {
                        ut_print_timestamp(stderr);

			sql_print_error("MySQL synchronous replication was "
					"not able to send the binlog to the "
					"slave within the timeout %lu. We "
					"assume that the slave has become "
					"inaccessible, and switch off "
					"synchronous replication until the "
					"communication to the slave works "
					"again. MySQL synchronous replication "
					"has sent binlog to the slave up to "
					"file %s, position %lu. This "
					"transaction needs it to be sent up "
					"to file %s, position %lu.",
					thd->variables.sync_replication_timeout,
					innobase_repl_file_name,
					(ulong) innobase_repl_pos,
					trx->repl_wait_binlog_name,
					(ulong) trx->repl_wait_binlog_pos);

                        innobase_repl_state = 0;

                        pthread_mutex_unlock(&innobase_repl_cond_mutex);

                        return(0);
                }

                goto try_again;
        }
#endif // HAVE_REPLICATION
	return(0);
}

#ifdef HAVE_REPLICATION
/*********************************************************************
In synchronous replication, reports to InnoDB up to which binlog position
we have sent the binlog to the slave. Note that replication is synchronous
for one slave only. For other slaves, we do nothing in this function. This
function is used in a replication master. */

int
innobase_repl_report_sent_binlog(
/*=============================*/
                                /* out: 0 */
        THD*    thd,            /* in: thread doing the binlog communication to
                                the slave */
        char*   log_file_name,  /* in: binlog file name */
        my_off_t end_offset)    /* in: the offset in the binlog file up to
                                which we sent the contents to the slave */
{
        int     cmp;
        ibool   can_release_threads     = 0;

	if (!innodb_inited) {
		
		return 0;
	}

        /* If synchronous replication is not switched on, or this thd is
        sending binlog to a slave where we do not need synchronous replication,
        then return immediately */

        if (thd->server_id != thd->variables.sync_replication_slave_id) {

                /* Do nothing */

                return(0);
        }

        pthread_mutex_lock(&innobase_repl_cond_mutex);

        if (innobase_repl_state == 0) {

                ut_print_timestamp(stderr);
		sql_print_warning("Switching MySQL synchronous replication on "
				  "again at binlog file %s, position %lu",
				  log_file_name, (ulong) end_offset);

                innobase_repl_state = 1;
        }

        /* The position should increase monotonically, since just one thread
        is sending the binlog to the slave for which we want synchronous
        replication. Let us check this, and print an error to the .err log
        if that is not the case. */

        if (innobase_repl_file_name_inited) {
                cmp = strcmp(log_file_name, innobase_repl_file_name);

                if (cmp < 0
                    || (cmp == 0 && end_offset < innobase_repl_pos)) {

                        ut_print_timestamp(stderr);
			sql_print_error("MySQL synchronous replication has "
					"sent binlog to the slave up to file "
					"%s, position %lu, but now MySQL "
					"reports that it sent the binlog only "
					"up to file %s, position %lu",
					innobase_repl_file_name,
					(ulong) innobase_repl_pos,
					log_file_name, (ulong) end_offset);
                }
        }

        strcpy(innobase_repl_file_name, log_file_name);
        innobase_repl_pos = end_offset;
        innobase_repl_file_name_inited = 1;

        if (innobase_repl_n_wait_threads > 0) {
                /* Let us check if some of the waiting threads doing a trx
                commit can now proceed */

                cmp = strcmp(innobase_repl_file_name,
                                        innobase_repl_wait_file_name);
                if (cmp > 0
                    || (cmp == 0 && innobase_repl_pos
                                    >= innobase_repl_wait_pos)) {

                        /* Yes, at least one waiting thread can now proceed:
                        let us release all waiting threads with a broadcast */

                        can_release_threads = 1;

                        innobase_repl_wait_file_name_inited = 0;
                }
        }

        pthread_mutex_unlock(&innobase_repl_cond_mutex);

        if (can_release_threads) {

                pthread_cond_broadcast(&innobase_repl_cond);
        }

	return(0);
}
#endif /* HAVE_REPLICATION */

/*********************************************************************
Rolls back a transaction or the latest SQL statement. */

static int
innobase_rollback(
/*==============*/
			/* out: 0 or error number */
	THD*	thd,	/* in: handle to the MySQL thread of the user
			whose transaction should be rolled back */
        bool    all)    /* in: TRUE - commit transaction
                               FALSE - the current SQL statement ended */
{
	int	error = 0;
	trx_t*	trx;

	DBUG_ENTER("innobase_rollback");
	DBUG_PRINT("trans", ("aborting transaction"));

	trx = check_trx_exists(thd);

	/* Update the info whether we should skip XA steps that eat CPU time */
	trx->support_xa = (ibool)(thd->variables.innodb_support_xa);

	/* Release a possible FIFO ticket and search latch. Since we will
	reserve the kernel mutex, we have to release the search system latch
	first to obey the latching order. */

	innobase_release_stat_resources(trx);

        if (trx->auto_inc_lock) {
		/* If we had reserved the auto-inc lock for some table (if
		we come here to roll back the latest SQL statement) we
		release it now before a possibly lengthy rollback */
		
		row_unlock_table_autoinc_for_mysql(trx);
	}

        if (all
	    || (!(thd->options & (OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN)))) {

		error = trx_rollback_for_mysql(trx);
                trx->active_trans = 0;
	} else {
		error = trx_rollback_last_sql_stat_for_mysql(trx);
	}

	DBUG_RETURN(convert_error_code_to_mysql(error, NULL));
}

/*********************************************************************
Rolls back a transaction */

int
innobase_rollback_trx(
/*==================*/
			/* out: 0 or error number */
	trx_t*	trx)	/*  in: transaction */
{
	int	error = 0;

	DBUG_ENTER("innobase_rollback_trx");
	DBUG_PRINT("trans", ("aborting transaction"));

	/* Release a possible FIFO ticket and search latch. Since we will
	reserve the kernel mutex, we have to release the search system latch
	first to obey the latching order. */

	innobase_release_stat_resources(trx);

        if (trx->auto_inc_lock) {
		/* If we had reserved the auto-inc lock for some table (if
		we come here to roll back the latest SQL statement) we
		release it now before a possibly lengthy rollback */
		
		row_unlock_table_autoinc_for_mysql(trx);
	}

	error = trx_rollback_for_mysql(trx);

	DBUG_RETURN(convert_error_code_to_mysql(error, NULL));
}

/*********************************************************************
Rolls back a transaction to a savepoint. */

static int
innobase_rollback_to_savepoint(
/*===========================*/
				/* out: 0 if success, HA_ERR_NO_SAVEPOINT if
				no savepoint with the given name */
	THD*	thd,		/* in: handle to the MySQL thread of the user
				whose transaction should be rolled back */
        void *savepoint)        /* in: savepoint data */
{
	ib_longlong mysql_binlog_cache_pos;
	int	    error = 0;
	trx_t*	    trx;
        char 	    name[64];

	DBUG_ENTER("innobase_rollback_to_savepoint");

	trx = check_trx_exists(thd);

	/* Release a possible FIFO ticket and search latch. Since we will
	reserve the kernel mutex, we have to release the search system latch
	first to obey the latching order. */

	innobase_release_stat_resources(trx);

        /* TODO: use provided savepoint data area to store savepoint data */

        longlong2str((ulint)savepoint, name, 36);

        error = (int) trx_rollback_to_savepoint_for_mysql(trx, name,
						&mysql_binlog_cache_pos);
	DBUG_RETURN(convert_error_code_to_mysql(error, NULL));
}

/*********************************************************************
Release transaction savepoint name. */
static
int
innobase_release_savepoint(
/*=======================*/
				/* out: 0 if success, HA_ERR_NO_SAVEPOINT if
				no savepoint with the given name */
	THD*	thd,		/* in: handle to the MySQL thread of the user
				whose transaction should be rolled back */
        void*	savepoint)      /* in: savepoint data */
{
	int	    error = 0;
	trx_t*	    trx;
        char 	    name[64];

	DBUG_ENTER("innobase_release_savepoint");

	trx = check_trx_exists(thd);

        /* TODO: use provided savepoint data area to store savepoint data */

        longlong2str((ulint)savepoint, name, 36);

	error = (int) trx_release_savepoint_for_mysql(trx, name);

	DBUG_RETURN(convert_error_code_to_mysql(error, NULL));
}

/*********************************************************************
Sets a transaction savepoint. */
static
int
innobase_savepoint(
/*===============*/
				/* out: always 0, that is, always succeeds */
	THD*	thd,		/* in: handle to the MySQL thread */
        void*	savepoint)      /* in: savepoint data */
{
	int	error = 0;
	trx_t*	trx;

	DBUG_ENTER("innobase_savepoint");

        /*
          In the autocommit mode there is no sense to set a savepoint
          (unless we are in sub-statement), so SQL layer ensures that
          this method is never called in such situation.
        */
        DBUG_ASSERT(thd->options & (OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN) ||
                    thd->in_sub_stmt);

	trx = check_trx_exists(thd);

	/* Release a possible FIFO ticket and search latch. Since we will
	reserve the kernel mutex, we have to release the search system latch
	first to obey the latching order. */

	innobase_release_stat_resources(trx);

        /* cannot happen outside of transaction */
        DBUG_ASSERT(trx->active_trans);

        /* TODO: use provided savepoint data area to store savepoint data */
        char name[64];
        longlong2str((ulint)savepoint,name,36);

        error = (int) trx_savepoint_for_mysql(trx, name, (ib_longlong)0);

	DBUG_RETURN(convert_error_code_to_mysql(error, NULL));
}

/*********************************************************************
Frees a possible InnoDB trx object associated with the current THD. */
static
int
innobase_close_connection(
/*======================*/
			/* out: 0 or error number */
	THD*	thd)	/* in: handle to the MySQL thread of the user
			whose resources should be free'd */
{
	trx_t*	trx;

	trx = (trx_t*)thd->ha_data[innobase_hton.slot];

	ut_a(trx);

        if (trx->active_trans == 0
	    && trx->conc_state != TRX_NOT_STARTED) {
	    
	  sql_print_error("trx->active_trans == 0, but trx->conc_state != "
			  "TRX_NOT_STARTED");
	}


	if (trx->conc_state != TRX_NOT_STARTED &&
            global_system_variables.log_warnings)
          sql_print_warning("MySQL is closing a connection that has an active "
                            "InnoDB transaction.  %lu row modifications will "
                            "roll back.",
                            (ulong)trx->undo_no.low);

	innobase_rollback_trx(trx);

        trx_free_for_mysql(trx);

	return(0);
}


/*****************************************************************************
** InnoDB database tables
*****************************************************************************/

/********************************************************************
Get the record format from the data dictionary. */
enum row_type
ha_innobase::get_row_type() const
/*=============================*/
			/* out: ROW_TYPE_REDUNDANT or ROW_TYPE_COMPACT */
{
	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;

	if (prebuilt && prebuilt->table) {
		if (prebuilt->table->comp) {
			return(ROW_TYPE_COMPACT);
		} else {
			return(ROW_TYPE_REDUNDANT);
		}
	}
	ut_ad(0);
	return(ROW_TYPE_NOT_USED);
}

/********************************************************************
Gives the file extension of an InnoDB single-table tablespace. */
static const char* ha_innobase_exts[] = {
  ".ibd",
  NullS
};

const char**
ha_innobase::bas_ext() const
/*========================*/
				/* out: file extension string */
{
  return ha_innobase_exts;
}


/*********************************************************************
Normalizes a table name string. A normalized name consists of the
database name catenated to '/' and table name. An example:
test/mytable. On Windows normalization puts both the database name and the
table name always to lower case. */
static
void
normalize_table_name(
/*=================*/
	char*		norm_name,	/* out: normalized name as a
					null-terminated string */
	const char*	name)		/* in: table name string */
{
	char*	name_ptr;
	char*	db_ptr;
	char*	ptr;

	/* Scan name from the end */

	ptr = strend(name)-1;

	while (ptr >= name && *ptr != '\\' && *ptr != '/') {
		ptr--;
	}

	name_ptr = ptr + 1;

	DBUG_ASSERT(ptr > name);

	ptr--;

	while (ptr >= name && *ptr != '\\' && *ptr != '/') {
		ptr--;
	}

	db_ptr = ptr + 1;

	memcpy(norm_name, db_ptr, strlen(name) + 1 - (db_ptr - name));

	norm_name[name_ptr - db_ptr - 1] = '/';

#ifdef __WIN__
	innobase_casedn_str(norm_name);
#endif
}

/*********************************************************************
Creates and opens a handle to a table which already exists in an InnoDB
database. */

int
ha_innobase::open(
/*==============*/
					/* out: 1 if error, 0 if success */
	const char*	name,		/* in: table name */
	int 		mode,		/* in: not used */
	uint 		test_if_locked)	/* in: not used */
{
	dict_table_t*	ib_table;
  	char		norm_name[1000];
	THD*		thd;

	DBUG_ENTER("ha_innobase::open");

	UT_NOT_USED(mode);
	UT_NOT_USED(test_if_locked);

	thd = current_thd;
	normalize_table_name(norm_name, name);

	user_thd = NULL;

	last_query_id = (ulong)-1;

	if (!(share=get_share(name))) {

		DBUG_RETURN(1);
	}

	/* Create buffers for packing the fields of a record. Why
	table->reclength did not work here? Obviously, because char
	fields when packed actually became 1 byte longer, when we also
	stored the string length as the first byte. */

	upd_and_key_val_buff_len =
				table->s->reclength + table->s->max_key_length
							+ MAX_REF_PARTS * 3;
	if (!(mysql_byte*) my_multi_malloc(MYF(MY_WME),
				     &upd_buff, upd_and_key_val_buff_len,
				     &key_val_buff, upd_and_key_val_buff_len,
				     NullS)) {
	  	free_share(share);

	  	DBUG_RETURN(1);
  	}

	/* Get pointer to a table object in InnoDB dictionary cache */

	ib_table = dict_table_get_and_increment_handle_count(
				      		     norm_name, NULL);
 	if (NULL == ib_table) {
	        ut_print_timestamp(stderr);
		sql_print_error("Cannot find table %s from the internal data "
				"dictionary\nof InnoDB though the .frm file "
				"for the table exists. Maybe you\nhave "
				"deleted and recreated InnoDB data files but "
				"have forgotten\nto delete the corresponding "
				".frm files of InnoDB tables, or you\n"
				"have moved .frm files to another database?\n"
				"Look from section 15.1 of "
				"http://www.innodb.com/ibman.html\n"
				"how you can resolve the problem.\n",
				norm_name);
	        free_share(share);
    		my_free((gptr) upd_buff, MYF(0));
    		my_errno = ENOENT;

    		DBUG_RETURN(HA_ERR_NO_SUCH_TABLE);
  	}

 	if (ib_table->ibd_file_missing && !thd->tablespace_op) {
	        ut_print_timestamp(stderr);
		sql_print_error("MySQL is trying to open a table handle but "
				"the .ibd file for\ntable %s does not exist.\n"
				"Have you deleted the .ibd file from the "
				"database directory under\nthe MySQL datadir, "
				"or have you used DISCARD TABLESPACE?\n"
				"Look from section 15.1 of "
				"http://www.innodb.com/ibman.html\n"
				"how you can resolve the problem.\n",
				norm_name);
	        free_share(share);
    		my_free((gptr) upd_buff, MYF(0));
    		my_errno = ENOENT;

		dict_table_decrement_handle_count(ib_table);
    		DBUG_RETURN(HA_ERR_NO_SUCH_TABLE);
  	}

	innobase_prebuilt = row_create_prebuilt(ib_table);

	((row_prebuilt_t*)innobase_prebuilt)->mysql_row_len =
							table->s->reclength;

	/* Looks like MySQL-3.23 sometimes has primary key number != 0 */

 	primary_key = table->s->primary_key;
	key_used_on_scan = primary_key;

	/* Allocate a buffer for a 'row reference'. A row reference is
	a string of bytes of length ref_length which uniquely specifies
        a row in our table. Note that MySQL may also compare two row
        references for equality by doing a simple memcmp on the strings
        of length ref_length! */

  	if (!row_table_got_default_clust_index(ib_table)) {
	        if (primary_key >= MAX_KEY) {
		  sql_print_error("Table %s has a primary key in InnoDB data "
				  "dictionary, but not in MySQL!", name);
		}

		((row_prebuilt_t*)innobase_prebuilt)
				->clust_index_was_generated = FALSE;
 		/* MySQL allocates the buffer for ref. key_info->key_length
		includes space for all key columns + one byte for each column
		that may be NULL. ref_length must be as exact as possible to
		save space, because all row reference buffers are allocated
		based on ref_length. */
 
  		ref_length = table->key_info[primary_key].key_length;
	} else {
	        if (primary_key != MAX_KEY) {
		  sql_print_error("Table %s has no primary key in InnoDB data "
				  "dictionary, but has one in MySQL! If you "
				  "created the table with a MySQL version < "
				  "3.23.54 and did not define a primary key, "
				  "but defined a unique key with all non-NULL "
				  "columns, then MySQL internally treats that "
				  "key as the primary key. You can fix this "
				  "error by dump + DROP + CREATE + reimport "
				  "of the table.", name);
		}

		((row_prebuilt_t*)innobase_prebuilt)
				->clust_index_was_generated = TRUE;

  		ref_length = DATA_ROW_ID_LEN;

		/* If we automatically created the clustered index, then
		MySQL does not know about it, and MySQL must NOT be aware
		of the index used on scan, to make it avoid checking if we
		update the column of the index. That is why we assert below
		that key_used_on_scan is the undefined value MAX_KEY.
		The column is the row id in the automatical generation case,
		and it will never be updated anyway. */
	       
		if (key_used_on_scan != MAX_KEY) {
		  sql_print_warning("Table %s key_used_on_scan is %lu even "
				    "though there is no primary key inside "
				    "InnoDB.", name, (ulong) key_used_on_scan);
		}
	}

	block_size = 16 * 1024;	/* Index block size in InnoDB: used by MySQL
				in query optimization */

	/* Init table lock structure */
	thr_lock_data_init(&share->lock,&lock,(void*) 0);

  	info(HA_STATUS_NO_LOCK | HA_STATUS_VARIABLE | HA_STATUS_CONST);

  	DBUG_RETURN(0);
}

uint
ha_innobase::max_supported_key_part_length() const
{
	return(DICT_MAX_INDEX_COL_LEN - 1);
}

/**********************************************************************
Closes a handle to an InnoDB table. */

int
ha_innobase::close(void)
/*====================*/
				/* out: 0 */
{
  	DBUG_ENTER("ha_innobase::close");

	row_prebuilt_free((row_prebuilt_t*) innobase_prebuilt);

    	my_free((gptr) upd_buff, MYF(0));
        free_share(share);

	/* Tell InnoDB server that there might be work for
	utility threads: */

	srv_active_wake_master_thread();

  	DBUG_RETURN(0);
}

/* The following accessor functions should really be inside MySQL code! */

/******************************************************************
Gets field offset for a field in a table. */
inline
uint
get_field_offset(
/*=============*/
			/* out: offset */
	TABLE*	table,	/* in: MySQL table object */
	Field*	field)	/* in: MySQL field object */
{
	return((uint) (field->ptr - (char*) table->record[0]));
}

/******************************************************************
Checks if a field in a record is SQL NULL. Uses the record format
information in table to track the null bit in record. */
inline
uint
field_in_record_is_null(
/*====================*/
			/* out: 1 if NULL, 0 otherwise */
	TABLE*	table,	/* in: MySQL table object */
	Field*	field,	/* in: MySQL field object */
	char*	record)	/* in: a row in MySQL format */
{
	int	null_offset;

	if (!field->null_ptr) {

		return(0);
	}

	null_offset = (uint) ((char*) field->null_ptr
					- (char*) table->record[0]);

	if (record[null_offset] & field->null_bit) {

		return(1);
	}

	return(0);
}

/******************************************************************
Sets a field in a record to SQL NULL. Uses the record format
information in table to track the null bit in record. */
inline
void
set_field_in_record_to_null(
/*========================*/
	TABLE*	table,	/* in: MySQL table object */
	Field*	field,	/* in: MySQL field object */
	char*	record)	/* in: a row in MySQL format */
{
	int	null_offset;

	null_offset = (uint) ((char*) field->null_ptr
					- (char*) table->record[0]);

	record[null_offset] = record[null_offset] | field->null_bit;
}

extern "C" {
/*****************************************************************
InnoDB uses this function to compare two data fields for which the data type
is such that we must use MySQL code to compare them. NOTE that the prototype
of this function is in rem0cmp.c in InnoDB source code! If you change this
function, remember to update the prototype there! */

int
innobase_mysql_cmp(
/*===============*/
					/* out: 1, 0, -1, if a is greater,
					equal, less than b, respectively */
	int		mysql_type,	/* in: MySQL type */
	uint		charset_number,	/* in: number of the charset */
	unsigned char*	a,		/* in: data field */
	unsigned int	a_length,	/* in: data field length,
					not UNIV_SQL_NULL */
	unsigned char*	b,		/* in: data field */
	unsigned int	b_length)	/* in: data field length,
					not UNIV_SQL_NULL */
{
	CHARSET_INFO*		charset;
	enum_field_types	mysql_tp;
	int                     ret;

	DBUG_ASSERT(a_length != UNIV_SQL_NULL);
	DBUG_ASSERT(b_length != UNIV_SQL_NULL);

	mysql_tp = (enum_field_types) mysql_type;

	switch (mysql_tp) {

        case MYSQL_TYPE_BIT:
	case MYSQL_TYPE_STRING:
	case MYSQL_TYPE_VAR_STRING:
	case FIELD_TYPE_TINY_BLOB:
	case FIELD_TYPE_MEDIUM_BLOB:
	case FIELD_TYPE_BLOB:
	case FIELD_TYPE_LONG_BLOB:
        case MYSQL_TYPE_VARCHAR:
		/* Use the charset number to pick the right charset struct for
		the comparison. Since the MySQL function get_charset may be
		slow before Bar removes the mutex operation there, we first
		look at 2 common charsets directly. */

		if (charset_number == default_charset_info->number) {
			charset = default_charset_info;
		} else if (charset_number == my_charset_latin1.number) {
			charset = &my_charset_latin1;
		} else {
			charset = get_charset(charset_number, MYF(MY_WME));

			if (charset == NULL) {
			  sql_print_error("InnoDB needs charset %lu for doing "
					  "a comparison, but MySQL cannot "
					  "find that charset.",
					  (ulong) charset_number);
				ut_a(0);
			}
		}

                /* Starting from 4.1.3, we use strnncollsp() in comparisons of
                non-latin1_swedish_ci strings. NOTE that the collation order
                changes then: 'b\0\0...' is ordered BEFORE 'b  ...'. Users
                having indexes on such data need to rebuild their tables! */

                ret = charset->coll->strnncollsp(charset,
                                  a, a_length,
                                                 b, b_length, 0);
		if (ret < 0) {
		        return(-1);
		} else if (ret > 0) {
		        return(1);
		} else {
		        return(0);
	        }
	default:
		assert(0);
	}

	return(0);
}
}

/******************************************************************
Converts a MySQL type to an InnoDB type. Note that this function returns
the 'mtype' of InnoDB. InnoDB differentiates between MySQL's old <= 4.1
VARCHAR and the new true VARCHAR in >= 5.0.3 by the 'prtype'. */
inline
ulint
get_innobase_type_from_mysql_type(
/*==============================*/
				/* out: DATA_BINARY, DATA_VARCHAR, ... */
	ulint*	unsigned_flag,	/* out: DATA_UNSIGNED if an 'unsigned type';
				at least ENUM and SET, and unsigned integer
				types are 'unsigned types' */
	Field*	field)		/* in: MySQL field */
{
	/* The following asserts try to check that the MySQL type code fits in
	8 bits: this is used in ibuf and also when DATA_NOT_NULL is ORed to
	the type */

	DBUG_ASSERT((ulint)FIELD_TYPE_STRING < 256);
	DBUG_ASSERT((ulint)FIELD_TYPE_VAR_STRING < 256);
	DBUG_ASSERT((ulint)FIELD_TYPE_DOUBLE < 256);
	DBUG_ASSERT((ulint)FIELD_TYPE_FLOAT < 256);
	DBUG_ASSERT((ulint)FIELD_TYPE_DECIMAL < 256);

	if (field->flags & UNSIGNED_FLAG) {

		*unsigned_flag = DATA_UNSIGNED;
	} else {
		*unsigned_flag = 0;
	}

	if (field->real_type() == FIELD_TYPE_ENUM
	    || field->real_type() == FIELD_TYPE_SET) {

		/* MySQL has field->type() a string type for these, but the
		data is actually internally stored as an unsigned integer
		code! */

		*unsigned_flag = DATA_UNSIGNED; /* MySQL has its own unsigned
						flag set to zero, even though
						internally this is an unsigned
						integer type */
		return(DATA_INT);
	}

	switch (field->type()) {
	        /* NOTE that we only allow string types in DATA_MYSQL
		and DATA_VARMYSQL */
                case MYSQL_TYPE_VAR_STRING: /* old <= 4.1 VARCHAR */
                case MYSQL_TYPE_VARCHAR:    /* new >= 5.0.3 true VARCHAR */
					if (field->binary()) {
						return(DATA_BINARY);
					} else if (strcmp(
						  field->charset()->name,
						 "latin1_swedish_ci") == 0) {
						return(DATA_VARCHAR);
					} else {
						return(DATA_VARMYSQL);
					}
                case MYSQL_TYPE_BIT:
		case MYSQL_TYPE_STRING: if (field->binary()) {

						return(DATA_FIXBINARY);
					} else if (strcmp(
						   field->charset()->name,
						   "latin1_swedish_ci") == 0) {
						return(DATA_CHAR);
					} else {
						return(DATA_MYSQL);
					}
                case FIELD_TYPE_NEWDECIMAL:
                                        return(DATA_FIXBINARY);
		case FIELD_TYPE_LONG:
		case FIELD_TYPE_LONGLONG:
		case FIELD_TYPE_TINY:
		case FIELD_TYPE_SHORT:
		case FIELD_TYPE_INT24:
		case FIELD_TYPE_DATE:
		case FIELD_TYPE_DATETIME:
		case FIELD_TYPE_YEAR:
		case FIELD_TYPE_NEWDATE:
		case FIELD_TYPE_TIME:
		case FIELD_TYPE_TIMESTAMP:
					return(DATA_INT);
		case FIELD_TYPE_FLOAT:
					return(DATA_FLOAT);
		case FIELD_TYPE_DOUBLE:
					return(DATA_DOUBLE);
		case FIELD_TYPE_DECIMAL:
					return(DATA_DECIMAL);
		case FIELD_TYPE_GEOMETRY:
		case FIELD_TYPE_TINY_BLOB:
		case FIELD_TYPE_MEDIUM_BLOB:
		case FIELD_TYPE_BLOB:
		case FIELD_TYPE_LONG_BLOB:
					return(DATA_BLOB);
		default:
					assert(0);
	}

	return(0);
}

/***********************************************************************
Writes an unsigned integer value < 64k to 2 bytes, in the little-endian
storage format. */
inline
void
innobase_write_to_2_little_endian(
/*==============================*/
	byte*	buf,	/* in: where to store */
	ulint	val)	/* in: value to write, must be < 64k */
{
	ut_a(val < 256 * 256);

	buf[0] = (byte)(val & 0xFF);
	buf[1] = (byte)(val / 256);
}

/***********************************************************************
Reads an unsigned integer value < 64k from 2 bytes, in the little-endian
storage format. */
inline
uint
innobase_read_from_2_little_endian(
/*===============================*/
			/* out: value */
	const mysql_byte*	buf)	/* in: from where to read */
{
	return (uint) ((ulint)(buf[0]) + 256 * ((ulint)(buf[1])));
}

/***********************************************************************
Stores a key value for a row to a buffer. */

uint
ha_innobase::store_key_val_for_row(
/*===============================*/
				/* out: key value length as stored in buff */
	uint 		keynr,	/* in: key number */
	char*		buff,	/* in/out: buffer for the key value (in MySQL
				format) */
	uint		buff_len,/* in: buffer length */
	const mysql_byte* record)/* in: row in MySQL format */
{
	KEY*		key_info 	= table->key_info + keynr;
  	KEY_PART_INFO*	key_part	= key_info->key_part;
  	KEY_PART_INFO*	end		= key_part + key_info->key_parts;
	char*		buff_start	= buff;
	enum_field_types mysql_type;
	Field*		field;
	ulint		blob_len;
	byte*		blob_data;
	ibool		is_null;

  	DBUG_ENTER("store_key_val_for_row");

	/* The format for storing a key field in MySQL is the following:

	1. If the column can be NULL, then in the first byte we put 1 if the
	field value is NULL, 0 otherwise.

	2. If the column is of a BLOB type (it must be a column prefix field
	in this case), then we put the length of the data in the field to the
	next 2 bytes, in the little-endian format. If the field is SQL NULL,
	then these 2 bytes are set to 0. Note that the length of data in the
	field is <= column prefix length.

	3. In a column prefix field, prefix_len next bytes are reserved for
	data. In a normal field the max field length next bytes are reserved
	for data. For a VARCHAR(n) the max field length is n. If the stored
	value is the SQL NULL then these data bytes are set to 0.

	4. We always use a 2 byte length for a true >= 5.0.3 VARCHAR. Note that
	in the MySQL row format, the length is stored in 1 or 2 bytes,
	depending on the maximum allowed length. But in the MySQL key value
	format, the length always takes 2 bytes.

	We have to zero-fill the buffer so that MySQL is able to use a
	simple memcmp to compare two key values to determine if they are
	equal. MySQL does this to compare contents of two 'ref' values. */

	bzero(buff, buff_len);

  	for (; key_part != end; key_part++) {
	        is_null = FALSE;

    		if (key_part->null_bit) {
      			if (record[key_part->null_offset]
						& key_part->null_bit) {
				*buff = 1;
				is_null = TRUE;
      			} else {
				*buff = 0;
			}
			buff++;
    		}

		field = key_part->field;
		mysql_type = field->type();

		if (mysql_type == MYSQL_TYPE_VARCHAR) {
						/* >= 5.0.3 true VARCHAR */
			ulint	lenlen;
			ulint	len;
			byte*	data;
			ulint	key_len;
			CHARSET_INFO*	cs;
			int	error=0;

			if (is_null) {
				buff += key_part->length + 2;
				
				continue;
			}

			lenlen = (ulint)
				(((Field_varstring*)field)->length_bytes);

			data = row_mysql_read_true_varchar(&len, 
				(byte*) (record
				+ (ulint)get_field_offset(table, field)),
				lenlen);

			/* In a column prefix index, we may need to truncate
			the stored value: */
		
			cs = key_part->field->charset();

			if (cs->mbmaxlen > 1 && key_part->length > 0) {
				key_len = (ulint) cs->cset->well_formed_len(cs, 
					(const char *) data,
					(const char *) data + key_part->length,
					key_part->length / cs->mbmaxlen, 
					&error);
			} else {
				key_len = key_part->length;
			}

			if (len > key_len) {
				len = key_len;
			}

			/* The length in a key value is always stored in 2
			bytes */

			row_mysql_store_true_var_len((byte*)buff, len, 2);
			buff += 2;

			memcpy(buff, data, len);

			/* Note that we always reserve the maximum possible
			length of the true VARCHAR in the key value, though
			only len first bytes after the 2 length bytes contain
			actual data. The rest of the space was reset to zero
			in the bzero() call above. */

			buff += key_part->length;

		} else if (mysql_type == FIELD_TYPE_TINY_BLOB
		    || mysql_type == FIELD_TYPE_MEDIUM_BLOB
		    || mysql_type == FIELD_TYPE_BLOB
		    || mysql_type == FIELD_TYPE_LONG_BLOB) {

			CHARSET_INFO*	cs;
			ulint		key_len;
			ulint		len;
			int		error=0;

			ut_a(key_part->key_part_flag & HA_PART_KEY_SEG);

		        if (is_null) {
				buff += key_part->length + 2;
				 
				continue;
			}
		    
		        blob_data = row_mysql_read_blob_ref(&blob_len,
				(byte*) (record
				+ (ulint)get_field_offset(table, field)),
					(ulint) field->pack_length());

			ut_a(get_field_offset(table, field)
						     == key_part->offset);

			/* All indexes on BLOB and TEXT are column prefix
			indexes, and we may need to truncate the data to be
			stored in the key value: */

			cs = key_part->field->charset();
			
			if (cs->mbmaxlen > 1 && key_part->length > 0) {
				key_len = (ulint) cs->cset->well_formed_len(cs, 
					(const char *) blob_data,
					(const char *) blob_data 
						+ key_part->length,
					key_part->length / cs->mbmaxlen,
					&error);
			} else {
				key_len = key_part->length;
			}

			if (blob_len > key_len) {
				blob_len = key_len;
			}

			/* MySQL reserves 2 bytes for the length and the
			storage of the number is little-endian */

			innobase_write_to_2_little_endian(
					(byte*)buff, (ulint)blob_len);
			buff += 2;

			memcpy(buff, blob_data, blob_len);

			/* Note that we always reserve the maximum possible
			length of the BLOB prefix in the key value. */

			buff += key_part->length;
		} else {
			/* Here we handle all other data types except the
			true VARCHAR, BLOB and TEXT. Note that the column
			value we store may be also in a column prefix
			index. */

			CHARSET_INFO*		cs;
			ulint			len;
			const mysql_byte*	src_start;
			int			error=0;

		        if (is_null) {
				 buff += key_part->length;
				 
				 continue;
			}

			/* In a column prefix index, we may need to truncate
			the stored value: */

			cs = key_part->field->charset();
			src_start = record + key_part->offset;

			if (key_part->length > 0 && cs->mbmaxlen > 1) {
				len = (ulint) cs->cset->well_formed_len(cs, 
					(const char *) src_start,
					(const char *) src_start + key_part->length,
					key_part->length / cs->mbmaxlen, 
					&error);
			} else {
				len = key_part->length;
			}

			memcpy(buff, src_start, len);
			buff+=len;

			/* Pad the unused space with spaces. Note that no 
			padding is ever needed for UCS-2 because in MySQL, 
			all UCS2 characters are 2 bytes, as MySQL does not 
			support surrogate pairs, which are needed to represent
			characters in the range U+10000 to U+10FFFF. */

			if (len < key_part->length) {
				len = key_part->length - len;
				memset(buff, ' ', len);
				buff+=len;
			}
		}
  	}

	ut_a(buff <= buff_start + buff_len);

	DBUG_RETURN((uint)(buff - buff_start));
}

/******************************************************************
Builds a 'template' to the prebuilt struct. The template is used in fast
retrieval of just those column values MySQL needs in its processing. */
static
void
build_template(
/*===========*/
	row_prebuilt_t*	prebuilt,	/* in: prebuilt struct */
	THD*		thd,		/* in: current user thread, used
					only if templ_type is
					ROW_MYSQL_REC_FIELDS */
	TABLE*		table,		/* in: MySQL table */
	ulint		templ_type)	/* in: ROW_MYSQL_WHOLE_ROW or
					ROW_MYSQL_REC_FIELDS */
{
	dict_index_t*	index;
	dict_index_t*	clust_index;
	mysql_row_templ_t* templ;
	Field*		field;
	ulint		n_fields;
	ulint		n_requested_fields	= 0;
	ibool		fetch_all_in_key	= FALSE;
	ibool		fetch_primary_key_cols	= FALSE;
	ulint		i;
	/* byte offset of the end of last requested column */
	ulint		mysql_prefix_len	= 0;

	if (prebuilt->select_lock_type == LOCK_X) {
		/* We always retrieve the whole clustered index record if we
		use exclusive row level locks, for example, if the read is
		done in an UPDATE statement. */

	        templ_type = ROW_MYSQL_WHOLE_ROW;
	}

	if (templ_type == ROW_MYSQL_REC_FIELDS) {
	     if (prebuilt->hint_need_to_fetch_extra_cols
						== ROW_RETRIEVE_ALL_COLS) {

		/* We know we must at least fetch all columns in the key, or
		all columns in the table */

		if (prebuilt->read_just_key) {
			/* MySQL has instructed us that it is enough to
			fetch the columns in the key; looks like MySQL
			can set this flag also when there is only a
			prefix of the column in the key: in that case we
			retrieve the whole column from the clustered
			index */

			fetch_all_in_key = TRUE;
		} else {
			templ_type = ROW_MYSQL_WHOLE_ROW;
		}
	    } else if (prebuilt->hint_need_to_fetch_extra_cols
						== ROW_RETRIEVE_PRIMARY_KEY) {
		/* We must at least fetch all primary key cols. Note that if
		the clustered index was internally generated by InnoDB on the
		row id (no primary key was defined), then
		row_search_for_mysql() will always retrieve the row id to a
		special buffer in the prebuilt struct. */

		fetch_primary_key_cols = TRUE;
	    }
	}

	clust_index = dict_table_get_first_index_noninline(prebuilt->table);

	if (templ_type == ROW_MYSQL_REC_FIELDS) {
		index = prebuilt->index;
	} else {
		index = clust_index;
	}

	if (index == clust_index) {
		prebuilt->need_to_access_clustered = TRUE;
	} else {
		prebuilt->need_to_access_clustered = FALSE;
		/* Below we check column by column if we need to access
		the clustered index */
	}

	n_fields = (ulint)table->s->fields; /* number of columns */

	if (!prebuilt->mysql_template) {
		prebuilt->mysql_template = (mysql_row_templ_t*)
						mem_alloc_noninline(
					n_fields * sizeof(mysql_row_templ_t));
	}

	prebuilt->template_type = templ_type;
	prebuilt->null_bitmap_len = table->s->null_bytes;

	prebuilt->templ_contains_blob = FALSE;

	/* Note that in InnoDB, i is the column number. MySQL calls columns
	'fields'. */
	for (i = 0; i < n_fields; i++) {
		templ = prebuilt->mysql_template + n_requested_fields;
		field = table->field[i];

		if (UNIV_LIKELY(templ_type == ROW_MYSQL_REC_FIELDS)) {
			/* Decide which columns we should fetch
			and which we can skip. */
			register const ibool	index_contains_field =
				dict_index_contains_col_or_prefix(index, i);

			if (!index_contains_field && prebuilt->read_just_key) {
				/* If this is a 'key read', we do not need
				columns that are not in the key */

				goto skip_field;
			}

			if (index_contains_field && fetch_all_in_key) {
				/* This field is needed in the query */

				goto include_field;
			}

			if (table->file->ha_get_bit_in_read_set(i+1) ||
			    table->file->ha_get_bit_in_write_set(i+1)) {
				/* This field is needed in the query */

				goto include_field;
			}

			if (fetch_primary_key_cols
			    && dict_table_col_in_clustered_key(index->table,
									i)) {
				/* This field is needed in the query */

				goto include_field;
			}

			/* This field is not needed in the query, skip it */

			goto skip_field;
		}
include_field:
		n_requested_fields++;

		templ->col_no = i;

		if (index == clust_index) {
			templ->rec_field_no = (index->table->cols + i)
								->clust_pos;
		} else {
			templ->rec_field_no = dict_index_get_nth_col_pos(
								index, i);
		}

		if (templ->rec_field_no == ULINT_UNDEFINED) {
			prebuilt->need_to_access_clustered = TRUE;
		}

		if (field->null_ptr) {
			templ->mysql_null_byte_offset =
				(ulint) ((char*) field->null_ptr
					- (char*) table->record[0]);

			templ->mysql_null_bit_mask = (ulint) field->null_bit;
		} else {
			templ->mysql_null_bit_mask = 0;
		}

		templ->mysql_col_offset = (ulint)
					get_field_offset(table, field);

		templ->mysql_col_len = (ulint) field->pack_length();
		if (mysql_prefix_len < templ->mysql_col_offset
				+ templ->mysql_col_len) {
			mysql_prefix_len = templ->mysql_col_offset
				+ templ->mysql_col_len;
		}
		templ->type = index->table->cols[i].type.mtype;
		templ->mysql_type = (ulint)field->type();

		if (templ->mysql_type == DATA_MYSQL_TRUE_VARCHAR) {
			templ->mysql_length_bytes = (ulint)
				    (((Field_varstring*)field)->length_bytes);
		}
	
		templ->charset = dtype_get_charset_coll_noninline(
				index->table->cols[i].type.prtype);
		templ->mbminlen = index->table->cols[i].type.mbminlen;
		templ->mbmaxlen = index->table->cols[i].type.mbmaxlen;
		templ->is_unsigned = index->table->cols[i].type.prtype
							& DATA_UNSIGNED;
		if (templ->type == DATA_BLOB) {
			prebuilt->templ_contains_blob = TRUE;
		}
skip_field:
		;
	}

	prebuilt->n_template = n_requested_fields;
	prebuilt->mysql_prefix_len = mysql_prefix_len;

	if (index != clust_index && prebuilt->need_to_access_clustered) {
		/* Change rec_field_no's to correspond to the clustered index
		record */
		for (i = 0; i < n_requested_fields; i++) {
			templ = prebuilt->mysql_template + i;

			templ->rec_field_no =
			    (index->table->cols + templ->col_no)->clust_pos;
		}
	}
}

/************************************************************************
Stores a row in an InnoDB database, to the table specified in this
handle. */

int
ha_innobase::write_row(
/*===================*/
				/* out: error code */
	mysql_byte* 	record)	/* in: a row in MySQL format */
{
	row_prebuilt_t* prebuilt = (row_prebuilt_t*)innobase_prebuilt;
  	int 		error;
	longlong	auto_inc;
	longlong	dummy;
	ibool           auto_inc_used= FALSE;

  	DBUG_ENTER("ha_innobase::write_row");

	if (prebuilt->trx !=
                        (trx_t*) current_thd->ha_data[innobase_hton.slot]) {
	  sql_print_error("The transaction object for the table handle is at "
			  "%p, but for the current thread it is at %p",
			  prebuilt->trx,
			  (trx_t*) current_thd->ha_data[innobase_hton.slot]);

		fputs("InnoDB: Dump of 200 bytes around prebuilt: ", stderr);
		ut_print_buf(stderr, ((const byte*)prebuilt) - 100, 200);
		fputs("\n"
			"InnoDB: Dump of 200 bytes around transaction.all: ",
			stderr);
		ut_print_buf(stderr,
           	 ((byte*)(&(current_thd->ha_data[innobase_hton.slot]))) - 100,
								200);
		putc('\n', stderr);
		ut_error;
	}

  	statistic_increment(current_thd->status_var.ha_write_count,
			    &LOCK_status);

        if (table->timestamp_field_type & TIMESTAMP_AUTO_SET_ON_INSERT)
                table->timestamp_field->set_time();

	if ((user_thd->lex->sql_command == SQLCOM_ALTER_TABLE
	    || user_thd->lex->sql_command == SQLCOM_OPTIMIZE
	    || user_thd->lex->sql_command == SQLCOM_CREATE_INDEX
	    || user_thd->lex->sql_command == SQLCOM_DROP_INDEX)
	    && num_write_row >= 10000) {
		/* ALTER TABLE is COMMITted at every 10000 copied rows.
		The IX table lock for the original table has to be re-issued.
		As this method will be called on a temporary table where the
		contents of the original table is being copied to, it is
		a bit tricky to determine the source table.  The cursor
		position in the source table need not be adjusted after the
		intermediate COMMIT, since writes by other transactions are
		being blocked by a MySQL table lock TL_WRITE_ALLOW_READ. */

		dict_table_t*	src_table;
		ulint		mode;

		num_write_row = 0;

		/* Commit the transaction.  This will release the table
		locks, so they have to be acquired again. */

		/* Altering an InnoDB table */
		/* Get the source table. */
		src_table = lock_get_src_table(
				prebuilt->trx, prebuilt->table, &mode);
		if (!src_table) {
no_commit:
			/* Unknown situation: do not commit */
			/*
			ut_print_timestamp(stderr);
			fprintf(stderr,
				"  InnoDB error: ALTER TABLE is holding lock"
				" on %lu tables!\n",
				prebuilt->trx->mysql_n_tables_locked);
			*/
			;
		} else if (src_table == prebuilt->table) {
			/* Source table is not in InnoDB format:
			no need to re-acquire locks on it. */

			/* Altering to InnoDB format */
                        innobase_commit(user_thd, 1);
			/* Note that this transaction is still active. */
			prebuilt->trx->active_trans = 1;
			/* We will need an IX lock on the destination table. */
		        prebuilt->sql_stat_start = TRUE;
		} else {
			/* Ensure that there are no other table locks than
			LOCK_IX and LOCK_AUTO_INC on the destination table. */

			if (!lock_is_table_exclusive(prebuilt->table,
							prebuilt->trx)) {
				goto no_commit;
			}

			/* Commit the transaction.  This will release the table
			locks, so they have to be acquired again. */
                        innobase_commit(user_thd, 1);
			/* Note that this transaction is still active. */
			prebuilt->trx->active_trans = 1;
			/* Re-acquire the table lock on the source table. */
			row_lock_table_for_mysql(prebuilt, src_table, mode);
			/* We will need an IX lock on the destination table. */
		        prebuilt->sql_stat_start = TRUE;
		}
	}

	num_write_row++;

	if (last_query_id != user_thd->query_id) {
	        prebuilt->sql_stat_start = TRUE;
                last_query_id = user_thd->query_id;

		innobase_release_stat_resources(prebuilt->trx);
	}

  	if (table->next_number_field && record == table->record[0]) {
		/* This is the case where the table has an
		auto-increment column */

		/* Initialize the auto-inc counter if it has not been
		initialized yet */

		if (0 == dict_table_autoinc_peek(prebuilt->table)) {

			/* This call initializes the counter */
		        error = innobase_read_and_init_auto_inc(&dummy);

			if (error) {
				/* Deadlock or lock wait timeout */

				goto func_exit;
			}

			/* We have to set sql_stat_start to TRUE because
			the above call probably has called a select, and
			has reset that flag; row_insert_for_mysql has to
			know to set the IX intention lock on the table,
			something it only does at the start of each
			statement */

			prebuilt->sql_stat_start = TRUE;
		}

		/* We have to use the transactional lock mechanism on the
		auto-inc counter of the table to ensure that replication and
		roll-forward of the binlog exactly imitates also the given
		auto-inc values. The lock is released at each SQL statement's
		end. This lock also prevents a race where two threads would
		call ::get_auto_increment() simultaneously. */

		error = row_lock_table_autoinc_for_mysql(prebuilt);

		if (error != DB_SUCCESS) {
			/* Deadlock or lock wait timeout */

			error = convert_error_code_to_mysql(error, user_thd);

			goto func_exit;
		}

		/* We must use the handler code to update the auto-increment
                value to be sure that we increment it correctly. */

    		update_auto_increment();
                auto_inc_used = 1;

	}

	if (prebuilt->mysql_template == NULL
			|| prebuilt->template_type != ROW_MYSQL_WHOLE_ROW) {
		/* Build the template used in converting quickly between
		the two database formats */

		build_template(prebuilt, NULL, table, ROW_MYSQL_WHOLE_ROW);
	}

	innodb_srv_conc_enter_innodb(prebuilt->trx);

	error = row_insert_for_mysql((byte*) record, prebuilt);

	if (error == DB_SUCCESS && auto_inc_used) {

        	/* Fetch the value that was set in the autoincrement field */

          	auto_inc = table->next_number_field->val_int();

          	if (auto_inc != 0) {
			/* This call will update the counter according to the
			value that was inserted in the table */

            		dict_table_autoinc_update(prebuilt->table, auto_inc);
          	}
        }

        /* A REPLACE command and LOAD DATA INFILE REPLACE handle a duplicate
        key error themselves, and we must update the autoinc counter if we are
        performing those statements. */

        if (error == DB_DUPLICATE_KEY && auto_inc_used
            && (user_thd->lex->sql_command == SQLCOM_REPLACE
                || user_thd->lex->sql_command == SQLCOM_REPLACE_SELECT
                || (user_thd->lex->sql_command == SQLCOM_LOAD
                    && user_thd->lex->duplicates == DUP_REPLACE))) {

                auto_inc = table->next_number_field->val_int();

                if (auto_inc != 0) {
                        dict_table_autoinc_update(prebuilt->table, auto_inc);
                }
        }

	innodb_srv_conc_exit_innodb(prebuilt->trx);

	error = convert_error_code_to_mysql(error, user_thd);

	/* Tell InnoDB server that there might be work for
	utility threads: */
func_exit:
	innobase_active_small();

  	DBUG_RETURN(error);
}

/**************************************************************************
Checks which fields have changed in a row and stores information
of them to an update vector. */
static
int
calc_row_difference(
/*================*/
					/* out: error number or 0 */
	upd_t*		uvect,		/* in/out: update vector */
	mysql_byte* 	old_row,	/* in: old row in MySQL format */
	mysql_byte* 	new_row,	/* in: new row in MySQL format */
	struct st_table* table,		/* in: table in MySQL data
					dictionary */
	mysql_byte*	upd_buff,	/* in: buffer to use */
	ulint		buff_len,	/* in: buffer length */
	row_prebuilt_t*	prebuilt,	/* in: InnoDB prebuilt struct */
	THD*		thd)		/* in: user thread */
{
	mysql_byte*	original_upd_buff = upd_buff;
	Field*		field;
	enum_field_types field_mysql_type;
	uint		n_fields;
	ulint		o_len;
	ulint		n_len;
	ulint		col_pack_len;
	byte*		new_mysql_row_col;
	byte*	        o_ptr;
        byte*	        n_ptr;
        byte*	        buf;
	upd_field_t*	ufield;
	ulint		col_type;
	ulint		n_changed = 0;
	dfield_t	dfield;
	uint		i;

	n_fields = table->s->fields;

	/* We use upd_buff to convert changed fields */
	buf = (byte*) upd_buff;

	for (i = 0; i < n_fields; i++) {
		field = table->field[i];

		/* if (thd->query_id != field->query_id) { */
			/* TODO: check that these fields cannot have
			changed! */

		/*	goto skip_field;
		}*/

		o_ptr = (byte*) old_row + get_field_offset(table, field);
		n_ptr = (byte*) new_row + get_field_offset(table, field);
		
		/* Use new_mysql_row_col and col_pack_len save the values */

		new_mysql_row_col = n_ptr;
		col_pack_len = field->pack_length();

		o_len = col_pack_len;
		n_len = col_pack_len;

		/* We use o_ptr and n_ptr to dig up the actual data for
		comparison. */ 

		field_mysql_type = field->type();
	
		col_type = prebuilt->table->cols[i].type.mtype;

		switch (col_type) {

		case DATA_BLOB:
			o_ptr = row_mysql_read_blob_ref(&o_len, o_ptr, o_len);
			n_ptr = row_mysql_read_blob_ref(&n_len, n_ptr, n_len);

			break;

		case DATA_VARCHAR:
		case DATA_BINARY:
		case DATA_VARMYSQL:
			if (field_mysql_type == MYSQL_TYPE_VARCHAR) {
				/* This is a >= 5.0.3 type true VARCHAR where
				the real payload data length is stored in
				1 or 2 bytes */
			
				o_ptr = row_mysql_read_true_varchar(
						&o_len, o_ptr,
				    (ulint)
				    (((Field_varstring*)field)->length_bytes));
								
				n_ptr = row_mysql_read_true_varchar(
						&n_len, n_ptr,
				    (ulint)
				    (((Field_varstring*)field)->length_bytes));
			}

			break;
		default:
			;
		}

		if (field->null_ptr) {
			if (field_in_record_is_null(table, field,
							(char*) old_row)) {
				o_len = UNIV_SQL_NULL;
			}

			if (field_in_record_is_null(table, field,
							(char*) new_row)) {
				n_len = UNIV_SQL_NULL;
			}
		}

		if (o_len != n_len || (o_len != UNIV_SQL_NULL &&
					0 != memcmp(o_ptr, n_ptr, o_len))) {
			/* The field has changed */

			ufield = uvect->fields + n_changed;
	
			/* Let us use a dummy dfield to make the conversion
			from the MySQL column format to the InnoDB format */

			dfield.type = (prebuilt->table->cols + i)->type;

			if (n_len != UNIV_SQL_NULL) {
				buf = row_mysql_store_col_in_innobase_format(
						&dfield,
						(byte*)buf,
						TRUE,
						new_mysql_row_col,
						col_pack_len,
						prebuilt->table->comp);
				ufield->new_val.data = dfield.data;
				ufield->new_val.len = dfield.len;
			} else {
				ufield->new_val.data = NULL;
				ufield->new_val.len = UNIV_SQL_NULL;
			}

			ufield->exp = NULL;
			ufield->field_no = prebuilt->table->cols[i].clust_pos;
			n_changed++;
		}
	}

	uvect->n_fields = n_changed;
	uvect->info_bits = 0;

	ut_a(buf <= (byte*)original_upd_buff + buff_len);

	return(0);
}

/**************************************************************************
Updates a row given as a parameter to a new value. Note that we are given
whole rows, not just the fields which are updated: this incurs some
overhead for CPU when we check which fields are actually updated.
TODO: currently InnoDB does not prevent the 'Halloween problem':
in a searched update a single row can get updated several times
if its index columns are updated! */

int
ha_innobase::update_row(
/*====================*/
					/* out: error number or 0 */
	const mysql_byte* 	old_row,/* in: old row in MySQL format */
	mysql_byte* 		new_row)/* in: new row in MySQL format */
{
	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;
	upd_t*		uvect;
	int		error = 0;

	DBUG_ENTER("ha_innobase::update_row");

	ut_ad(prebuilt->trx ==
                (trx_t*) current_thd->ha_data[innobase_hton.slot]);

        if (table->timestamp_field_type & TIMESTAMP_AUTO_SET_ON_UPDATE)
                table->timestamp_field->set_time();

	if (last_query_id != user_thd->query_id) {
	        prebuilt->sql_stat_start = TRUE;
                last_query_id = user_thd->query_id;

		innobase_release_stat_resources(prebuilt->trx);
	}

	if (prebuilt->upd_node) {
		uvect = prebuilt->upd_node->update;
	} else {
		uvect = row_get_prebuilt_update_vector(prebuilt);
	}

	/* Build an update vector from the modified fields in the rows
	(uses upd_buff of the handle) */

	calc_row_difference(uvect, (mysql_byte*) old_row, new_row, table,
			upd_buff, (ulint)upd_and_key_val_buff_len,
			prebuilt, user_thd);

	/* This is not a delete */
	prebuilt->upd_node->is_delete = FALSE;

	assert(prebuilt->template_type == ROW_MYSQL_WHOLE_ROW);

	innodb_srv_conc_enter_innodb(prebuilt->trx);

	error = row_update_for_mysql((byte*) old_row, prebuilt);

	innodb_srv_conc_exit_innodb(prebuilt->trx);

	error = convert_error_code_to_mysql(error, user_thd);

	/* Tell InnoDB server that there might be work for
	utility threads: */

	innobase_active_small();

	DBUG_RETURN(error);
}

/**************************************************************************
Deletes a row given as the parameter. */

int
ha_innobase::delete_row(
/*====================*/
					/* out: error number or 0 */
	const mysql_byte* record)	/* in: a row in MySQL format */
{
	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;
	int		error = 0;

	DBUG_ENTER("ha_innobase::delete_row");

	ut_ad(prebuilt->trx ==
                (trx_t*) current_thd->ha_data[innobase_hton.slot]);

	if (last_query_id != user_thd->query_id) {
	        prebuilt->sql_stat_start = TRUE;
                last_query_id = user_thd->query_id;

		innobase_release_stat_resources(prebuilt->trx);
	}

	if (!prebuilt->upd_node) {
		row_get_prebuilt_update_vector(prebuilt);
	}

	/* This is a delete */

	prebuilt->upd_node->is_delete = TRUE;

	innodb_srv_conc_enter_innodb(prebuilt->trx);

	error = row_update_for_mysql((byte*) record, prebuilt);

	innodb_srv_conc_exit_innodb(prebuilt->trx);

	error = convert_error_code_to_mysql(error, user_thd);

	/* Tell the InnoDB server that there might be work for
	utility threads: */

	innobase_active_small();

	DBUG_RETURN(error);
}

/**************************************************************************
Removes a new lock set on a row, if it was not read optimistically. This can 
be called after a row has been read in the processing of an UPDATE or a DELETE
query, if the option innodb_locks_unsafe_for_binlog is set. */

void
ha_innobase::unlock_row(void)
/*=========================*/
{
	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;

	DBUG_ENTER("ha_innobase::unlock_row");

	if (UNIV_UNLIKELY(last_query_id != user_thd->query_id)) {
		ut_print_timestamp(stderr);
		sql_print_error("last_query_id is %lu != user_thd_query_id is "
				"%lu", (ulong) last_query_id,
				(ulong) user_thd->query_id);
		mem_analyze_corruption((byte *) prebuilt->trx);
		ut_error;
	}

	switch (prebuilt->row_read_type) {
	case ROW_READ_WITH_LOCKS:
		if (!srv_locks_unsafe_for_binlog) {
			break;
		}
		/* fall through */
	case ROW_READ_TRY_SEMI_CONSISTENT:
		row_unlock_for_mysql(prebuilt, FALSE);
		break;
	case ROW_READ_DID_SEMI_CONSISTENT:
		prebuilt->row_read_type = ROW_READ_TRY_SEMI_CONSISTENT;
		break;
	}

	DBUG_VOID_RETURN;
}

/* See handler.h and row0mysql.h for docs on this function. */
bool
ha_innobase::was_semi_consistent_read(void)
/*=======================================*/
{
	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;

	return(prebuilt->row_read_type == ROW_READ_DID_SEMI_CONSISTENT);
}

/* See handler.h and row0mysql.h for docs on this function. */
void
ha_innobase::try_semi_consistent_read(bool yes)
/*===========================================*/
{
	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;

	if (yes && srv_locks_unsafe_for_binlog) {
		prebuilt->row_read_type = ROW_READ_TRY_SEMI_CONSISTENT;
	} else {
		prebuilt->row_read_type = ROW_READ_WITH_LOCKS;
	}
}

/**********************************************************************
Initializes a handle to use an index. */

int
ha_innobase::index_init(
/*====================*/
			/* out: 0 or error number */
        uint 	keynr,	/* in: key (index) number */
        bool sorted)	/* in: 1 if result MUST be sorted according to index */
{
	int 	error	= 0;
  	DBUG_ENTER("index_init");

	error = change_active_index(keynr);

  	DBUG_RETURN(error);
}

/**********************************************************************
Currently does nothing. */

int
ha_innobase::index_end(void)
/*========================*/
{
	int 	error	= 0;
  	DBUG_ENTER("index_end");
        active_index=MAX_KEY;
  	DBUG_RETURN(error);
}

/*************************************************************************
Converts a search mode flag understood by MySQL to a flag understood
by InnoDB. */
inline
ulint
convert_search_mode_to_innobase(
/*============================*/
	enum ha_rkey_function	find_flag)
{
	switch (find_flag) {
  		case HA_READ_KEY_EXACT:		return(PAGE_CUR_GE);
  			/* the above does not require the index to be UNIQUE */
  		case HA_READ_KEY_OR_NEXT:	return(PAGE_CUR_GE);
		case HA_READ_KEY_OR_PREV:	return(PAGE_CUR_LE);
		case HA_READ_AFTER_KEY:		return(PAGE_CUR_G);
		case HA_READ_BEFORE_KEY:	return(PAGE_CUR_L);
		case HA_READ_PREFIX:		return(PAGE_CUR_GE);
	        case HA_READ_PREFIX_LAST:       return(PAGE_CUR_LE);
                case HA_READ_PREFIX_LAST_OR_PREV:return(PAGE_CUR_LE);
		  /* In MySQL-4.0 HA_READ_PREFIX and HA_READ_PREFIX_LAST always
		  pass a complete-field prefix of a key value as the search
		  tuple. I.e., it is not allowed that the last field would
		  just contain n first bytes of the full field value.
		  MySQL uses a 'padding' trick to convert LIKE 'abc%'
		  type queries so that it can use as a search tuple
		  a complete-field-prefix of a key value. Thus, the InnoDB
		  search mode PAGE_CUR_LE_OR_EXTENDS is never used.
		  TODO: when/if MySQL starts to use also partial-field
		  prefixes, we have to deal with stripping of spaces
		  and comparison of non-latin1 char type fields in
		  innobase_mysql_cmp() to get PAGE_CUR_LE_OR_EXTENDS to
		  work correctly. */

		default:			assert(0);
	}

	return(0);
}

/*
   BACKGROUND INFO: HOW A SELECT SQL QUERY IS EXECUTED
   ---------------------------------------------------
The following does not cover all the details, but explains how we determine
the start of a new SQL statement, and what is associated with it.

For each table in the database the MySQL interpreter may have several
table handle instances in use, also in a single SQL query. For each table
handle instance there is an InnoDB  'prebuilt' struct which contains most
of the InnoDB data associated with this table handle instance.

  A) if the user has not explicitly set any MySQL table level locks:

  1) MySQL calls ::external_lock to set an 'intention' table level lock on
the table of the handle instance. There we set
prebuilt->sql_stat_start = TRUE. The flag sql_stat_start should be set
true if we are taking this table handle instance to use in a new SQL
statement issued by the user. We also increment trx->n_mysql_tables_in_use.

  2) If prebuilt->sql_stat_start == TRUE we 'pre-compile' the MySQL search
instructions to prebuilt->template of the table handle instance in
::index_read. The template is used to save CPU time in large joins.

  3) In row_search_for_mysql, if prebuilt->sql_stat_start is true, we
allocate a new consistent read view for the trx if it does not yet have one,
or in the case of a locking read, set an InnoDB 'intention' table level
lock on the table.

  4) We do the SELECT. MySQL may repeatedly call ::index_read for the
same table handle instance, if it is a join.

  5) When the SELECT ends, MySQL removes its intention table level locks
in ::external_lock. When trx->n_mysql_tables_in_use drops to zero,
 (a) we execute a COMMIT there if the autocommit is on,
 (b) we also release possible 'SQL statement level resources' InnoDB may
have for this SQL statement. The MySQL interpreter does NOT execute
autocommit for pure read transactions, though it should. That is why the
table handler in that case has to execute the COMMIT in ::external_lock.

  B) If the user has explicitly set MySQL table level locks, then MySQL
does NOT call ::external_lock at the start of the statement. To determine
when we are at the start of a new SQL statement we at the start of
::index_read also compare the query id to the latest query id where the
table handle instance was used. If it has changed, we know we are at the
start of a new SQL statement. Since the query id can theoretically
overwrap, we use this test only as a secondary way of determining the
start of a new SQL statement. */


/**************************************************************************
Positions an index cursor to the index specified in the handle. Fetches the
row if any. */

int
ha_innobase::index_read(
/*====================*/
					/* out: 0, HA_ERR_KEY_NOT_FOUND,
					or error number */
	mysql_byte*		buf,	/* in/out: buffer for the returned
					row */
	const mysql_byte* 	key_ptr,/* in: key value; if this is NULL
					we position the cursor at the
					start or end of index; this can
					also contain an InnoDB row id, in
					which case key_len is the InnoDB
					row id length; the key value can
					also be a prefix of a full key value,
					and the last column can be a prefix
					of a full column */
	uint			key_len,/* in: key value length */
	enum ha_rkey_function find_flag)/* in: search flags from my_base.h */
{
	row_prebuilt_t* prebuilt	= (row_prebuilt_t*) innobase_prebuilt;
	ulint		mode;
	dict_index_t*	index;
	ulint		match_mode 	= 0;
	int 		error;
	ulint		ret;

  	DBUG_ENTER("index_read");

	ut_ad(prebuilt->trx ==
                (trx_t*) current_thd->ha_data[innobase_hton.slot]);

  	statistic_increment(current_thd->status_var.ha_read_key_count,
			    &LOCK_status);

	if (last_query_id != user_thd->query_id) {
	        prebuilt->sql_stat_start = TRUE;
                last_query_id = user_thd->query_id;

		innobase_release_stat_resources(prebuilt->trx);
	}

	index = prebuilt->index;

	/* Note that if the index for which the search template is built is not
        necessarily prebuilt->index, but can also be the clustered index */

	if (prebuilt->sql_stat_start) {
		build_template(prebuilt, user_thd, table,
							ROW_MYSQL_REC_FIELDS);
	}

	if (key_ptr) {
	        /* Convert the search key value to InnoDB format into
		prebuilt->search_tuple */

		row_sel_convert_mysql_key_to_innobase(prebuilt->search_tuple,
					(byte*) key_val_buff,
					(ulint)upd_and_key_val_buff_len,
					index,
					(byte*) key_ptr,
					(ulint) key_len, prebuilt->trx);
	} else {
		/* We position the cursor to the last or the first entry
		in the index */

 		dtuple_set_n_fields(prebuilt->search_tuple, 0);
	}

	mode = convert_search_mode_to_innobase(find_flag);

	match_mode = 0;

	if (find_flag == HA_READ_KEY_EXACT) {
		match_mode = ROW_SEL_EXACT;

	} else if (find_flag == HA_READ_PREFIX
				|| find_flag == HA_READ_PREFIX_LAST) {
		match_mode = ROW_SEL_EXACT_PREFIX;
	}

	last_match_mode = (uint) match_mode;

	innodb_srv_conc_enter_innodb(prebuilt->trx);

	ret = row_search_for_mysql((byte*) buf, mode, prebuilt, match_mode, 0);

	innodb_srv_conc_exit_innodb(prebuilt->trx);

	if (ret == DB_SUCCESS) {
		error = 0;
		table->status = 0;

	} else if (ret == DB_RECORD_NOT_FOUND) {
		error = HA_ERR_KEY_NOT_FOUND;
		table->status = STATUS_NOT_FOUND;

	} else if (ret == DB_END_OF_INDEX) {
		error = HA_ERR_KEY_NOT_FOUND;
		table->status = STATUS_NOT_FOUND;
	} else {
		error = convert_error_code_to_mysql((int) ret, user_thd);
		table->status = STATUS_NOT_FOUND;
	}

	DBUG_RETURN(error);
}

/***********************************************************************
The following functions works like index_read, but it find the last
row with the current key value or prefix. */

int
ha_innobase::index_read_last(
/*=========================*/
			           /* out: 0, HA_ERR_KEY_NOT_FOUND, or an
				   error code */
        mysql_byte*       buf,     /* out: fetched row */
        const mysql_byte* key_ptr, /* in: key value, or a prefix of a full
				   key value */
	uint              key_len) /* in: length of the key val or prefix
				   in bytes */
{
        return(index_read(buf, key_ptr, key_len, HA_READ_PREFIX_LAST));
}

/************************************************************************
Changes the active index of a handle. */

int
ha_innobase::change_active_index(
/*=============================*/
			/* out: 0 or error code */
	uint 	keynr)	/* in: use this index; MAX_KEY means always clustered
			index, even if it was internally generated by
			InnoDB */
{
	row_prebuilt_t* prebuilt	= (row_prebuilt_t*) innobase_prebuilt;
	KEY*		key=0;
	statistic_increment(current_thd->status_var.ha_read_key_count,
			    &LOCK_status);
	DBUG_ENTER("change_active_index");

	ut_ad(user_thd == current_thd);
	ut_ad(prebuilt->trx ==
             (trx_t*) current_thd->ha_data[innobase_hton.slot]);

	active_index = keynr;

	if (keynr != MAX_KEY && table->s->keys > 0) {
		key = table->key_info + active_index;

		prebuilt->index = dict_table_get_index_noninline(
						     prebuilt->table,
						     key->name);
        } else {
		prebuilt->index = dict_table_get_first_index_noninline(
							   prebuilt->table);
	}

	if (!prebuilt->index) {
	       sql_print_error("Innodb could not find key n:o %u with name %s "
			       "from dict cache for table %s",
			       keynr, key ? key->name : "NULL",
			       prebuilt->table->name);
	      DBUG_RETURN(1);
	}

	assert(prebuilt->search_tuple != 0);

	dtuple_set_n_fields(prebuilt->search_tuple, prebuilt->index->n_fields);

	dict_index_copy_types(prebuilt->search_tuple, prebuilt->index,
			prebuilt->index->n_fields);

	/* MySQL changes the active index for a handle also during some
	queries, for example SELECT MAX(a), SUM(a) first retrieves the MAX()
	and then calculates the sum. Previously we played safe and used
	the flag ROW_MYSQL_WHOLE_ROW below, but that caused unnecessary
	copying. Starting from MySQL-4.1 we use a more efficient flag here. */

	build_template(prebuilt, user_thd, table, ROW_MYSQL_REC_FIELDS);

	DBUG_RETURN(0);
}

/**************************************************************************
Positions an index cursor to the index specified in keynr. Fetches the
row if any. */
/* ??? This is only used to read whole keys ??? */

int
ha_innobase::index_read_idx(
/*========================*/
					/* out: error number or 0 */
	mysql_byte*	buf,		/* in/out: buffer for the returned
					row */
	uint 		keynr,		/* in: use this index */
	const mysql_byte* key,		/* in: key value; if this is NULL
					we position the cursor at the
					start or end of index */
	uint		key_len,	/* in: key value length */
	enum ha_rkey_function find_flag)/* in: search flags from my_base.h */
{
	if (change_active_index(keynr)) {

		return(1);
	}

	return(index_read(buf, key, key_len, find_flag));
}

/***************************************************************************
Reads the next or previous row from a cursor, which must have previously been
positioned using index_read. */

int
ha_innobase::general_fetch(
/*=======================*/
				/* out: 0, HA_ERR_END_OF_FILE, or error
				number */
	mysql_byte* 	buf,	/* in/out: buffer for next row in MySQL
				format */
	uint 	direction,	/* in: ROW_SEL_NEXT or ROW_SEL_PREV */
	uint	match_mode)	/* in: 0, ROW_SEL_EXACT, or
				ROW_SEL_EXACT_PREFIX */
{
	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;
	ulint		ret;
	int		error	= 0;

	DBUG_ENTER("general_fetch");

	ut_ad(prebuilt->trx ==
             (trx_t*) current_thd->ha_data[innobase_hton.slot]);

	innodb_srv_conc_enter_innodb(prebuilt->trx);

	ret = row_search_for_mysql((byte*)buf, 0, prebuilt, match_mode,
								direction);
	innodb_srv_conc_exit_innodb(prebuilt->trx);

	if (ret == DB_SUCCESS) {
		error = 0;
		table->status = 0;

	} else if (ret == DB_RECORD_NOT_FOUND) {
		error = HA_ERR_END_OF_FILE;
		table->status = STATUS_NOT_FOUND;

	} else if (ret == DB_END_OF_INDEX) {
		error = HA_ERR_END_OF_FILE;
		table->status = STATUS_NOT_FOUND;
	} else {
		error = convert_error_code_to_mysql((int) ret, user_thd);
		table->status = STATUS_NOT_FOUND;
	}

	DBUG_RETURN(error);
}

/***************************************************************************
Reads the next row from a cursor, which must have previously been
positioned using index_read. */

int
ha_innobase::index_next(
/*====================*/
				/* out: 0, HA_ERR_END_OF_FILE, or error
				number */
	mysql_byte* 	buf)	/* in/out: buffer for next row in MySQL
				format */
{
  	statistic_increment(current_thd->status_var.ha_read_next_count,
			    &LOCK_status);

	return(general_fetch(buf, ROW_SEL_NEXT, 0));
}

/***********************************************************************
Reads the next row matching to the key value given as the parameter. */

int
ha_innobase::index_next_same(
/*=========================*/
				/* out: 0, HA_ERR_END_OF_FILE, or error
				number */
	mysql_byte* 	buf,	/* in/out: buffer for the row */
	const mysql_byte* key,	/* in: key value */
	uint 		keylen)	/* in: key value length */
{
  	statistic_increment(current_thd->status_var.ha_read_next_count,
			    &LOCK_status);

	return(general_fetch(buf, ROW_SEL_NEXT, last_match_mode));
}

/***************************************************************************
Reads the previous row from a cursor, which must have previously been
positioned using index_read. */

int
ha_innobase::index_prev(
/*====================*/
				/* out: 0, HA_ERR_END_OF_FILE, or error
				number */
	mysql_byte* 	buf)	/* in/out: buffer for previous row in MySQL
				format */
{
	return(general_fetch(buf, ROW_SEL_PREV, 0));
}

/************************************************************************
Positions a cursor on the first record in an index and reads the
corresponding row to buf. */

int
ha_innobase::index_first(
/*=====================*/
				/* out: 0, HA_ERR_END_OF_FILE,
				or error code */
	mysql_byte*	buf)	/* in/out: buffer for the row */
{
	int	error;

  	DBUG_ENTER("index_first");
  	statistic_increment(current_thd->status_var.ha_read_first_count,
			    &LOCK_status);

  	error = index_read(buf, NULL, 0, HA_READ_AFTER_KEY);

        /* MySQL does not seem to allow this to return HA_ERR_KEY_NOT_FOUND */

  	if (error == HA_ERR_KEY_NOT_FOUND) {
  		error = HA_ERR_END_OF_FILE;
  	}

  	DBUG_RETURN(error);
}

/************************************************************************
Positions a cursor on the last record in an index and reads the
corresponding row to buf. */

int
ha_innobase::index_last(
/*====================*/
				/* out: 0, HA_ERR_END_OF_FILE, or error code */
	mysql_byte*	buf)	/* in/out: buffer for the row */
{
	int	error;

  	DBUG_ENTER("index_last");
  	statistic_increment(current_thd->status_var.ha_read_last_count,
			    &LOCK_status);

  	error = index_read(buf, NULL, 0, HA_READ_BEFORE_KEY);

        /* MySQL does not seem to allow this to return HA_ERR_KEY_NOT_FOUND */

  	if (error == HA_ERR_KEY_NOT_FOUND) {
  		error = HA_ERR_END_OF_FILE;
  	}

  	DBUG_RETURN(error);
}

/********************************************************************
Initialize a table scan. */

int
ha_innobase::rnd_init(
/*==================*/
			/* out: 0 or error number */
	bool	scan)	/* in: ???????? */
{
	int	err;

	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;

	/* Store the active index value so that we can restore the original
	value after a scan */

	if (prebuilt->clust_index_was_generated) {
		err = change_active_index(MAX_KEY);
	} else {
		err = change_active_index(primary_key);
	}

	/* Don't use semi-consistent read in random row reads (by position).
	This means we must disable semi_consistent_read if scan is false */

	if (!scan) {
		try_semi_consistent_read(0);
	}

  	start_of_scan = 1;

 	return(err);
}

/*********************************************************************
Ends a table scan. */

int
ha_innobase::rnd_end(void)
/*======================*/
				/* out: 0 or error number */
{
	return(index_end());
}

/*********************************************************************
Reads the next row in a table scan (also used to read the FIRST row
in a table scan). */

int
ha_innobase::rnd_next(
/*==================*/
			/* out: 0, HA_ERR_END_OF_FILE, or error number */
	mysql_byte* buf)/* in/out: returns the row in this buffer,
			in MySQL format */
{
	int	error;

  	DBUG_ENTER("rnd_next");
  	statistic_increment(current_thd->status_var.ha_read_rnd_next_count,
			    &LOCK_status);

  	if (start_of_scan) {
		error = index_first(buf);
		if (error == HA_ERR_KEY_NOT_FOUND) {
			error = HA_ERR_END_OF_FILE;
		}
		start_of_scan = 0;
	} else {
		error = general_fetch(buf, ROW_SEL_NEXT, 0);
	}

  	DBUG_RETURN(error);
}

/**************************************************************************
Fetches a row from the table based on a row reference. */

int
ha_innobase::rnd_pos(
/*=================*/
				/* out: 0, HA_ERR_KEY_NOT_FOUND,
				or error code */
	mysql_byte* 	buf,	/* in/out: buffer for the row */
	mysql_byte*	pos)	/* in: primary key value of the row in the
				MySQL format, or the row id if the clustered
				index was internally generated by InnoDB;
				the length of data in pos has to be
				ref_length */
{
	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;
	int		error;
	uint		keynr	= active_index;
	DBUG_ENTER("rnd_pos");
	DBUG_DUMP("key", (char*) pos, ref_length);

	statistic_increment(current_thd->status_var.ha_read_rnd_count,
			    &LOCK_status);

	ut_ad(prebuilt->trx ==
                (trx_t*) current_thd->ha_data[innobase_hton.slot]);

	if (prebuilt->clust_index_was_generated) {
		/* No primary key was defined for the table and we
		generated the clustered index from the row id: the
		row reference is the row id, not any key value
		that MySQL knows of */

		error = change_active_index(MAX_KEY);
	} else {
		error = change_active_index(primary_key);
	}

	if (error) {
	        DBUG_PRINT("error", ("Got error: %ld", error));
		DBUG_RETURN(error);
	}

	/* Note that we assume the length of the row reference is fixed
        for the table, and it is == ref_length */

	error = index_read(buf, pos, ref_length, HA_READ_KEY_EXACT);

	if (error) {
		DBUG_PRINT("error", ("Got error: %ld", error));
	}

	change_active_index(keynr);

  	DBUG_RETURN(error);
}

/*************************************************************************
Stores a reference to the current row to 'ref' field of the handle. Note
that in the case where we have generated the clustered index for the
table, the function parameter is illogical: we MUST ASSUME that 'record'
is the current 'position' of the handle, because if row ref is actually
the row id internally generated in InnoDB, then 'record' does not contain
it. We just guess that the row id must be for the record where the handle
was positioned the last time. */

void
ha_innobase::position(
/*==================*/
	const mysql_byte*	record)	/* in: row in MySQL format */
{
	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;
	uint		len;

	ut_ad(prebuilt->trx ==
                (trx_t*) current_thd->ha_data[innobase_hton.slot]);

	if (prebuilt->clust_index_was_generated) {
		/* No primary key was defined for the table and we
		generated the clustered index from row id: the
		row reference will be the row id, not any key value
		that MySQL knows of */

		len = DATA_ROW_ID_LEN;

		memcpy(ref, prebuilt->row_id, len);
	} else {
		len = store_key_val_for_row(primary_key, (char*)ref,
							 ref_length, record);
	}

	/* We assume that the 'ref' value len is always fixed for the same
	table. */
  
	if (len != ref_length) {
	  sql_print_error("Stored ref len is %lu, but table ref len is %lu",
			  (ulong) len, (ulong) ref_length);  
	}
}

/*********************************************************************
Creates a table definition to an InnoDB database. */
static
int
create_table_def(
/*=============*/
	trx_t*		trx,		/* in: InnoDB transaction handle */
	TABLE*		form,		/* in: information on table
					columns and indexes */
	const char*	table_name,	/* in: table name */
	const char*	path_of_temp_table,/* in: if this is a table explicitly
					created by the user with the
					TEMPORARY keyword, then this
					parameter is the dir path where the
					table should be placed if we create
					an .ibd file for it (no .ibd extension
					in the path, though); otherwise this
					is NULL */
	ibool		comp)		/* in: TRUE=compact record format */
{
	Field*		field;
	dict_table_t*	table;
	ulint		n_cols;
  	int 		error;
  	ulint		col_type;
	ulint		col_len;
  	ulint		nulls_allowed;
	ulint		unsigned_type;
	ulint		binary_type;
	ulint		long_true_varchar;
	ulint		charset_no;
  	ulint		i;

  	DBUG_ENTER("create_table_def");
  	DBUG_PRINT("enter", ("table_name: %s", table_name));

	n_cols = form->s->fields;

	/* We pass 0 as the space id, and determine at a lower level the space
	id where to store the table */

	table = dict_mem_table_create(table_name, 0, n_cols, comp);

	if (path_of_temp_table) {
		table->dir_path_of_temp_table =
			mem_heap_strdup(table->heap, path_of_temp_table);
	}

	for (i = 0; i < n_cols; i++) {
		field = form->field[i];

		col_type = get_innobase_type_from_mysql_type(&unsigned_type,
									field);
		if (field->null_ptr) {
			nulls_allowed = 0;
		} else {
			nulls_allowed = DATA_NOT_NULL;
		}

		if (field->binary()) {
			binary_type = DATA_BINARY_TYPE;
		} else {
			binary_type = 0;
		}

		charset_no = 0;	

		if (dtype_is_string_type(col_type)) {

			charset_no = (ulint)field->charset()->number;

			ut_a(charset_no < 256); /* in data0type.h we assume
						that the number fits in one
						byte */
		}

		ut_a(field->type() < 256); /* we assume in dtype_form_prtype()
					   that this fits in one byte */
		col_len = field->pack_length();

		/* The MySQL pack length contains 1 or 2 bytes length field
		for a true VARCHAR. Let us subtract that, so that the InnoDB
		column length in the InnoDB data dictionary is the real
		maximum byte length of the actual data. */
	
		long_true_varchar = 0;

		if (field->type() == MYSQL_TYPE_VARCHAR) {
			col_len -= ((Field_varstring*)field)->length_bytes;

			if (((Field_varstring*)field)->length_bytes == 2) {
				long_true_varchar = DATA_LONG_TRUE_VARCHAR;
			}
		}

		dict_mem_table_add_col(table,
					(char*) field->field_name,
					col_type,
					dtype_form_prtype( 
					    (ulint)field->type()
					     | nulls_allowed | unsigned_type
					     | binary_type | long_true_varchar,
					    charset_no),
					col_len,
					0);
	}

	error = row_create_table_for_mysql(table, trx);

	error = convert_error_code_to_mysql(error, NULL);

	DBUG_RETURN(error);
}

/*********************************************************************
Creates an index in an InnoDB database. */
static
int
create_index(
/*=========*/
	trx_t*		trx,		/* in: InnoDB transaction handle */
	TABLE*		form,		/* in: information on table
					columns and indexes */
	const char*	table_name,	/* in: table name */
	uint		key_num)	/* in: index number */
{
	Field*		field;
	dict_index_t*	index;
  	int 		error;
	ulint		n_fields;
	KEY*		key;
	KEY_PART_INFO*	key_part;
	ulint		ind_type;
	ulint		col_type;
	ulint		prefix_len;
	ulint		is_unsigned;
  	ulint		i;
  	ulint		j;
	ulint*		field_lengths;
	
  	DBUG_ENTER("create_index");

	key = form->key_info + key_num;

    	n_fields = key->key_parts;

    	ind_type = 0;

    	if (key_num == form->s->primary_key) {
		ind_type = ind_type | DICT_CLUSTERED;
	}

	if (key->flags & HA_NOSAME ) {
		ind_type = ind_type | DICT_UNIQUE;
	}

	/* We pass 0 as the space id, and determine at a lower level the space
	id where to store the table */

	index = dict_mem_index_create((char*) table_name, key->name, 0,
						ind_type, n_fields);

	field_lengths = (ulint*) my_malloc(sizeof(ulint) * n_fields,
		MYF(MY_FAE));
	
	for (i = 0; i < n_fields; i++) {
		key_part = key->key_part + i;

		/* (The flag HA_PART_KEY_SEG denotes in MySQL a column prefix
		field in an index: we only store a specified number of first
		bytes of the column to the index field.) The flag does not
		seem to be properly set by MySQL. Let us fall back on testing
		the length of the key part versus the column. */
		
		field = NULL;
		for (j = 0; j < form->s->fields; j++) {

			field = form->field[j];

			if (0 == innobase_strcasecmp(
					field->field_name,
					key_part->field->field_name)) {
				/* Found the corresponding column */

				break;
			}
		}

		ut_a(j < form->s->fields);

		col_type = get_innobase_type_from_mysql_type(
					&is_unsigned, key_part->field);

		if (DATA_BLOB == col_type
		    || (key_part->length < field->pack_length()
			&& field->type() != MYSQL_TYPE_VARCHAR)
		    || (field->type() == MYSQL_TYPE_VARCHAR
			&& key_part->length < field->pack_length()
			          - ((Field_varstring*)field)->length_bytes)) {

		        prefix_len = key_part->length;

			if (col_type == DATA_INT
			    || col_type == DATA_FLOAT
			    || col_type == DATA_DOUBLE
			    || col_type == DATA_DECIMAL) {
			  sql_print_error("MySQL is trying to create a column "
					  "prefix index field, on an "
					  "inappropriate data type. Table "
					  "name %s, column name %s.",
					  table_name,
					  key_part->field->field_name);
        
			        prefix_len = 0;
			}
		} else {
		        prefix_len = 0;
		}

		field_lengths[i] = key_part->length;

		/* We assume all fields should be sorted in ascending
		order, hence the '0': */

		dict_mem_index_add_field(index,
				(char*) key_part->field->field_name,
				0, prefix_len);
	}

	/* Even though we've defined max_supported_key_part_length, we
	still do our own checking using field_lengths to be absolutely
	sure we don't create too long indexes. */
	error = row_create_index_for_mysql(index, trx, field_lengths);

	error = convert_error_code_to_mysql(error, NULL);

	my_free((gptr) field_lengths, MYF(0));
	
	DBUG_RETURN(error);
}

/*********************************************************************
Creates an index to an InnoDB table when the user has defined no
primary index. */
static
int
create_clustered_index_when_no_primary(
/*===================================*/
	trx_t*		trx,		/* in: InnoDB transaction handle */
	const char*	table_name)	/* in: table name */
{
	dict_index_t*	index;
  	int 		error;

	/* We pass 0 as the space id, and determine at a lower level the space
	id where to store the table */

	index = dict_mem_index_create((char*) table_name,
				      (char*) "GEN_CLUST_INDEX",
				      0, DICT_CLUSTERED, 0);
	error = row_create_index_for_mysql(index, trx, NULL);

	error = convert_error_code_to_mysql(error, NULL);

	return(error);
}

/*********************************************************************
Creates a new table to an InnoDB database. */

int
ha_innobase::create(
/*================*/
					/* out: error number */
	const char*	name,		/* in: table name */
	TABLE*		form,		/* in: information on table
					columns and indexes */
	HA_CREATE_INFO*	create_info)	/* in: more information of the
					created table, contains also the
					create statement string */
{
	int		error;
	dict_table_t*	innobase_table;
	trx_t*		parent_trx;
	trx_t*		trx;
	int		primary_key_no;
	uint		i;
	char		name2[FN_REFLEN];
	char		norm_name[FN_REFLEN];
	THD		*thd= current_thd;
	ib_longlong     auto_inc_value;

  	DBUG_ENTER("ha_innobase::create");

	DBUG_ASSERT(thd != NULL);

	if (form->s->fields > 1000) {
		/* The limit probably should be REC_MAX_N_FIELDS - 3 = 1020,
		but we play safe here */

	        DBUG_RETURN(HA_ERR_TO_BIG_ROW);
	} 

	/* Get the transaction associated with the current thd, or create one
	if not yet created */
	
	parent_trx = check_trx_exists(current_thd);

	/* In case MySQL calls this in the middle of a SELECT query, release
	possible adaptive hash latch to avoid deadlocks of threads */

	trx_search_latch_release_if_reserved(parent_trx);	
	
	trx = trx_allocate_for_mysql();
		
	trx->mysql_thd = thd;
	trx->mysql_query_str = &((*thd).query);

	if (thd->options & OPTION_NO_FOREIGN_KEY_CHECKS) {
		trx->check_foreigns = FALSE;
	}

	if (thd->options & OPTION_RELAXED_UNIQUE_CHECKS) {
		trx->check_unique_secondary = FALSE;
	}

	if (lower_case_table_names) {
		srv_lower_case_table_names = TRUE;
	} else {
		srv_lower_case_table_names = FALSE;
	}

	fn_format(name2, name, "", "", 2);	// Remove the .frm extension

	normalize_table_name(norm_name, name2);

	/* Latch the InnoDB data dictionary exclusively so that no deadlocks
	or lock waits can happen in it during a table create operation.
	Drop table etc. do this latching in row0mysql.c. */

	row_mysql_lock_data_dictionary(trx);

	/* Create the table definition in InnoDB */

	error = create_table_def(trx, form, norm_name,
		create_info->options & HA_LEX_CREATE_TMP_TABLE ? name2 : NULL,
		form->s->row_type != ROW_TYPE_REDUNDANT);

  	if (error) {
		goto cleanup;
 	}

	/* Look for a primary key */

	primary_key_no= (form->s->primary_key != MAX_KEY ?
			 (int) form->s->primary_key : 
			 -1);

	/* Our function row_get_mysql_key_number_for_index assumes
	the primary key is always number 0, if it exists */

	DBUG_ASSERT(primary_key_no == -1 || primary_key_no == 0);

	/* Create the keys */

	if (form->s->keys == 0 || primary_key_no == -1) {
		/* Create an index which is used as the clustered index;
		order the rows by their row id which is internally generated
		by InnoDB */

		error = create_clustered_index_when_no_primary(trx,
							norm_name);
  		if (error) {
			goto cleanup;
      		}
	}

	if (primary_key_no != -1) {
		/* In InnoDB the clustered index must always be created
		first */
	    	if ((error = create_index(trx, form, norm_name,
					  (uint) primary_key_no))) {
			goto cleanup;
      		}
      	}

	for (i = 0; i < form->s->keys; i++) {

		if (i != (uint) primary_key_no) {

    			if ((error = create_index(trx, form, norm_name, i))) {
				goto cleanup;
      			}
      		}
  	}

	if (current_thd->query != NULL) {
		LEX_STRING q;

		if (thd->convert_string(&q, system_charset_info,
					current_thd->query,
					current_thd->query_length,
					current_thd->charset())) {
			error = HA_ERR_OUT_OF_MEM;
			
			goto cleanup;
		}

		error = row_table_add_foreign_constraints(trx,
			q.str, norm_name,
			create_info->options & HA_LEX_CREATE_TMP_TABLE);

		error = convert_error_code_to_mysql(error, NULL);

		if (error) {
			goto cleanup;
		}
	}

  	innobase_commit_low(trx);

	row_mysql_unlock_data_dictionary(trx);

	/* Flush the log to reduce probability that the .frm files and
	the InnoDB data dictionary get out-of-sync if the user runs
	with innodb_flush_log_at_trx_commit = 0 */

	log_buffer_flush_to_disk();

	innobase_table = dict_table_get(norm_name, NULL);

	DBUG_ASSERT(innobase_table != 0);

	if ((create_info->used_fields & HA_CREATE_USED_AUTO) &&
	   (create_info->auto_increment_value != 0)) {

		/* Query was ALTER TABLE...AUTO_INCREMENT = x; or 
		CREATE TABLE ...AUTO_INCREMENT = x; Find out a table
		definition from the dictionary and get the current value
		of the auto increment field. Set a new value to the
		auto increment field if the value is greater than the
		maximum value in the column. */

		auto_inc_value = create_info->auto_increment_value;
		dict_table_autoinc_initialize(innobase_table, auto_inc_value);
	}

	/* Tell the InnoDB server that there might be work for
	utility threads: */

	srv_active_wake_master_thread();

  	trx_free_for_mysql(trx);

	DBUG_RETURN(0);

cleanup:
	innobase_commit_low(trx);
	
	row_mysql_unlock_data_dictionary(trx);
	
	trx_free_for_mysql(trx);

	DBUG_RETURN(error);
}

/*********************************************************************
Discards or imports an InnoDB tablespace. */

int
ha_innobase::discard_or_import_tablespace(
/*======================================*/
				/* out: 0 == success, -1 == error */
	my_bool discard)	/* in: TRUE if discard, else import */
{
	row_prebuilt_t* prebuilt	= (row_prebuilt_t*) innobase_prebuilt;
	dict_table_t*	dict_table;
	trx_t*		trx;
	int		err;

 	DBUG_ENTER("ha_innobase::discard_or_import_tablespace");

	ut_a(prebuilt->trx && prebuilt->trx->magic_n == TRX_MAGIC_N);
	ut_a(prebuilt->trx ==
                (trx_t*) current_thd->ha_data[innobase_hton.slot]);

	dict_table = prebuilt->table;
	trx = prebuilt->trx;

	if (discard) {
		err = row_discard_tablespace_for_mysql(dict_table->name, trx);
	} else {
		err = row_import_tablespace_for_mysql(dict_table->name, trx);
	}

	err = convert_error_code_to_mysql(err, NULL);

	DBUG_RETURN(err);
}

/*********************************************************************
Deletes all rows of an InnoDB table. */

int
ha_innobase::delete_all_rows(void)
/*==============================*/
				/* out: error number */
{
	row_prebuilt_t*	prebuilt	= (row_prebuilt_t*)innobase_prebuilt;
	int		error;
	trx_t*		trx;
	THD*		thd		= current_thd;

	DBUG_ENTER("ha_innobase::delete_all_rows");

	if (thd->lex->sql_command != SQLCOM_TRUNCATE) {
	fallback:
		/* We only handle TRUNCATE TABLE t as a special case.
		DELETE FROM t will have to use ha_innobase::delete_row(). */
		DBUG_RETURN(my_errno=HA_ERR_WRONG_COMMAND);
	}

	/* Get the transaction associated with the current thd, or create one
	if not yet created */

	trx = check_trx_exists(thd);

	/* Truncate the table in InnoDB */

	error = row_truncate_table_for_mysql(prebuilt->table, trx);
	if (error == DB_ERROR) {
		/* Cannot truncate; resort to ha_innobase::delete_row() */
		goto fallback;
	}

	error = convert_error_code_to_mysql(error, NULL);

	DBUG_RETURN(error);
}

/*********************************************************************
Drops a table from an InnoDB database. Before calling this function,
MySQL calls innobase_commit to commit the transaction of the current user.
Then the current user cannot have locks set on the table. Drop table
operation inside InnoDB will remove all locks any user has on the table
inside InnoDB. */

int
ha_innobase::delete_table(
/*======================*/
				/* out: error number */
	const char*	name)	/* in: table name */
{
	ulint	name_len;
	int	error;
	trx_t*	parent_trx;
	trx_t*	trx;
	THD     *thd= current_thd;
	char	norm_name[1000];

 	DBUG_ENTER("ha_innobase::delete_table");

	/* Get the transaction associated with the current thd, or create one
	if not yet created */
	
	parent_trx = check_trx_exists(current_thd);

	/* In case MySQL calls this in the middle of a SELECT query, release
	possible adaptive hash latch to avoid deadlocks of threads */

	trx_search_latch_release_if_reserved(parent_trx);	

	if (lower_case_table_names) {
		srv_lower_case_table_names = TRUE;
	} else {
		srv_lower_case_table_names = FALSE;
	}

	trx = trx_allocate_for_mysql();

	trx->mysql_thd = current_thd;
	trx->mysql_query_str = &((*current_thd).query);

	if (thd->options & OPTION_NO_FOREIGN_KEY_CHECKS) {
		trx->check_foreigns = FALSE;
	}

	if (thd->options & OPTION_RELAXED_UNIQUE_CHECKS) {
		trx->check_unique_secondary = FALSE;
	}

	name_len = strlen(name);

	assert(name_len < 1000);

	/* Strangely, MySQL passes the table name without the '.frm'
	extension, in contrast to ::create */

	normalize_table_name(norm_name, name);

  	/* Drop the table in InnoDB */

	error = row_drop_table_for_mysql(norm_name, trx,
		thd->lex->sql_command == SQLCOM_DROP_DB);

	/* Flush the log to reduce probability that the .frm files and
	the InnoDB data dictionary get out-of-sync if the user runs
	with innodb_flush_log_at_trx_commit = 0 */

	log_buffer_flush_to_disk();

	/* Tell the InnoDB server that there might be work for
	utility threads: */

	srv_active_wake_master_thread();

  	innobase_commit_low(trx);

  	trx_free_for_mysql(trx);

	error = convert_error_code_to_mysql(error, NULL);

	DBUG_RETURN(error);
}

/*********************************************************************
Removes all tables in the named database inside InnoDB. */

void
innobase_drop_database(
/*===================*/
			/* out: error number */
	char*	path)	/* in: database path; inside InnoDB the name
			of the last directory in the path is used as
			the database name: for example, in 'mysql/data/test'
			the database name is 'test' */
{
	ulint	len		= 0;
	trx_t*	parent_trx;
	trx_t*	trx;
	char*	ptr;
	int	error;
	char*	namebuf;

	/* Get the transaction associated with the current thd, or create one
	if not yet created */
	
	parent_trx = check_trx_exists(current_thd);

	/* In case MySQL calls this in the middle of a SELECT query, release
	possible adaptive hash latch to avoid deadlocks of threads */

	trx_search_latch_release_if_reserved(parent_trx);	

	ptr = strend(path) - 2;

	while (ptr >= path && *ptr != '\\' && *ptr != '/') {
		ptr--;
		len++;
	}

	ptr++;
	namebuf = my_malloc((uint) len + 2, MYF(0));

	memcpy(namebuf, ptr, len);
	namebuf[len] = '/';
	namebuf[len + 1] = '\0';
#ifdef  __WIN__
	innobase_casedn_str(namebuf);
#endif
	trx = trx_allocate_for_mysql();
	trx->mysql_thd = current_thd;
	trx->mysql_query_str = &((*current_thd).query);

	if (current_thd->options & OPTION_NO_FOREIGN_KEY_CHECKS) {
		trx->check_foreigns = FALSE;
	}

  	error = row_drop_database_for_mysql(namebuf, trx);
	my_free(namebuf, MYF(0));

	/* Flush the log to reduce probability that the .frm files and
	the InnoDB data dictionary get out-of-sync if the user runs
	with innodb_flush_log_at_trx_commit = 0 */

	log_buffer_flush_to_disk();

	/* Tell the InnoDB server that there might be work for
	utility threads: */

	srv_active_wake_master_thread();

  	innobase_commit_low(trx);
  	trx_free_for_mysql(trx);
#ifdef NO_LONGER_INTERESTED_IN_DROP_DB_ERROR 
	error = convert_error_code_to_mysql(error, NULL);

	return(error);
#else
	return;
#endif
}

/*************************************************************************
Renames an InnoDB table. */

int
ha_innobase::rename_table(
/*======================*/
				/* out: 0 or error code */
	const char*	from,	/* in: old name of the table */
	const char*	to)	/* in: new name of the table */
{
	ulint	name_len1;
	ulint	name_len2;
	int	error;
	trx_t*	parent_trx;
	trx_t*	trx;
	char	norm_from[1000];
	char	norm_to[1000];

  	DBUG_ENTER("ha_innobase::rename_table");

	/* Get the transaction associated with the current thd, or create one
	if not yet created */
	
	parent_trx = check_trx_exists(current_thd);

	/* In case MySQL calls this in the middle of a SELECT query, release
	possible adaptive hash latch to avoid deadlocks of threads */

	trx_search_latch_release_if_reserved(parent_trx);	

	if (lower_case_table_names) {
		srv_lower_case_table_names = TRUE;
	} else {
		srv_lower_case_table_names = FALSE;
	}

	trx = trx_allocate_for_mysql();
	trx->mysql_thd = current_thd;
	trx->mysql_query_str = &((*current_thd).query);

	if (current_thd->options & OPTION_NO_FOREIGN_KEY_CHECKS) {
		trx->check_foreigns = FALSE;
	}

	name_len1 = strlen(from);
	name_len2 = strlen(to);

	assert(name_len1 < 1000);
	assert(name_len2 < 1000);

	normalize_table_name(norm_from, from);
	normalize_table_name(norm_to, to);

  	/* Rename the table in InnoDB */

  	error = row_rename_table_for_mysql(norm_from, norm_to, trx);

	/* Flush the log to reduce probability that the .frm files and
	the InnoDB data dictionary get out-of-sync if the user runs
	with innodb_flush_log_at_trx_commit = 0 */

	log_buffer_flush_to_disk();

	/* Tell the InnoDB server that there might be work for
	utility threads: */

	srv_active_wake_master_thread();

  	innobase_commit_low(trx);
  	trx_free_for_mysql(trx);

	error = convert_error_code_to_mysql(error, NULL);

	DBUG_RETURN(error);
}

/*************************************************************************
Estimates the number of index records in a range. */

ha_rows
ha_innobase::records_in_range(
/*==========================*/
						/* out: estimated number of
						rows */
	uint 			keynr,		/* in: index number */
        key_range		*min_key,	/* in: start key value of the
                                                   range, may also be 0 */
	key_range		*max_key)	/* in: range end key val, may
                                                   also be 0 */
{
	row_prebuilt_t* prebuilt	= (row_prebuilt_t*) innobase_prebuilt;
	KEY*		key;
	dict_index_t*	index;
	mysql_byte*	key_val_buff2 	= (mysql_byte*) my_malloc(
						  table->s->reclength
      					+ table->s->max_key_length + 100,
								MYF(MY_FAE));
	ulint		buff2_len = table->s->reclength
      					+ table->s->max_key_length + 100;
	dtuple_t*	range_start;
	dtuple_t*	range_end;
	ib_longlong	n_rows;
	ulint		mode1;
	ulint		mode2;
	void*           heap1;
	void*           heap2;

   	DBUG_ENTER("records_in_range");

	prebuilt->trx->op_info = (char*)"estimating records in index range";

	/* In case MySQL calls this in the middle of a SELECT query, release
	possible adaptive hash latch to avoid deadlocks of threads */

	trx_search_latch_release_if_reserved(prebuilt->trx);

	active_index = keynr;

	key = table->key_info + active_index;

	index = dict_table_get_index_noninline(prebuilt->table, key->name);

	range_start = dtuple_create_for_mysql(&heap1, key->key_parts);
 	dict_index_copy_types(range_start, index, key->key_parts);

	range_end = dtuple_create_for_mysql(&heap2, key->key_parts);
 	dict_index_copy_types(range_end, index, key->key_parts);

	row_sel_convert_mysql_key_to_innobase(
				range_start, (byte*) key_val_buff,
				(ulint)upd_and_key_val_buff_len,
				index,
				(byte*) (min_key ? min_key->key :
                                         (const mysql_byte*) 0),
				(ulint) (min_key ? min_key->length : 0),
				prebuilt->trx);

	row_sel_convert_mysql_key_to_innobase(
				range_end, (byte*) key_val_buff2,
				buff2_len, index,
				(byte*) (max_key ? max_key->key :
                                         (const mysql_byte*) 0),
				(ulint) (max_key ? max_key->length : 0),
				prebuilt->trx);

	mode1 = convert_search_mode_to_innobase(min_key ? min_key->flag :
                                                HA_READ_KEY_EXACT);
	mode2 = convert_search_mode_to_innobase(max_key ? max_key->flag :
                                                HA_READ_KEY_EXACT);

	n_rows = btr_estimate_n_rows_in_range(index, range_start,
						mode1, range_end, mode2);
	dtuple_free_for_mysql(heap1);
	dtuple_free_for_mysql(heap2);

    	my_free((gptr) key_val_buff2, MYF(0));

	prebuilt->trx->op_info = (char*)"";

	/* The MySQL optimizer seems to believe an estimate of 0 rows is
	always accurate and may return the result 'Empty set' based on that.
	The accuracy is not guaranteed, and even if it were, for a locking
	read we should anyway perform the search to set the next-key lock.
	Add 1 to the value to make sure MySQL does not make the assumption! */

	if (n_rows == 0) {
	        n_rows = 1;
	}

	DBUG_RETURN((ha_rows) n_rows);
}

/*************************************************************************
Gives an UPPER BOUND to the number of rows in a table. This is used in
filesort.cc. */

ha_rows
ha_innobase::estimate_rows_upper_bound(void)
/*======================================*/
			/* out: upper bound of rows */
{
	row_prebuilt_t* prebuilt	= (row_prebuilt_t*) innobase_prebuilt;
	dict_index_t*	index;
	ulonglong	estimate;
	ulonglong	local_data_file_length;

 	DBUG_ENTER("estimate_rows_upper_bound");

	/* We do not know if MySQL can call this function before calling
	external_lock(). To be safe, update the thd of the current table
	handle. */

	update_thd(current_thd);

	prebuilt->trx->op_info = (char*)
	                         "calculating upper bound for table rows";

	/* In case MySQL calls this in the middle of a SELECT query, release
	possible adaptive hash latch to avoid deadlocks of threads */

	trx_search_latch_release_if_reserved(prebuilt->trx);

	index = dict_table_get_first_index_noninline(prebuilt->table);

	local_data_file_length = ((ulonglong) index->stat_n_leaf_pages)
    							* UNIV_PAGE_SIZE;

	/* Calculate a minimum length for a clustered index record and from
	that an upper bound for the number of rows. Since we only calculate
	new statistics in row0mysql.c when a table has grown by a threshold
	factor, we must add a safety factor 2 in front of the formula below. */

	estimate = 2 * local_data_file_length /
					 dict_index_calc_min_rec_len(index);

	prebuilt->trx->op_info = (char*)"";

	DBUG_RETURN((ha_rows) estimate);
}

/*************************************************************************
How many seeks it will take to read through the table. This is to be
comparable to the number returned by records_in_range so that we can
decide if we should scan the table or use keys. */

double
ha_innobase::scan_time()
/*====================*/
			/* out: estimated time measured in disk seeks */
{
	row_prebuilt_t* prebuilt	= (row_prebuilt_t*) innobase_prebuilt;

	/* Since MySQL seems to favor table scans too much over index
	searches, we pretend that a sequential read takes the same time
	as a random disk read, that is, we do not divide the following
	by 10, which would be physically realistic. */
	
	return((double) (prebuilt->table->stat_clustered_index_size));
}

/**********************************************************************
Calculate the time it takes to read a set of ranges through an index
This enables us to optimise reads for clustered indexes. */

double
ha_innobase::read_time(
/*===================*/
			/* out: estimated time measured in disk seeks */
	uint    index,	/* in: key number */
	uint	ranges,	/* in: how many ranges */
	ha_rows rows)	/* in: estimated number of rows in the ranges */
{
	ha_rows total_rows;
	double  time_for_scan;
  
	if (index != table->s->primary_key) {
		/* Not clustered */		
	  	return(handler::read_time(index, ranges, rows));
	}

	if (rows <= 2) {

		return((double) rows);
	}

	/* Assume that the read time is proportional to the scan time for all
	rows + at most one seek per range. */

	time_for_scan = scan_time();

	if ((total_rows = estimate_rows_upper_bound()) < rows) {

	  	return(time_for_scan);
	}

	return(ranges + (double) rows / (double) total_rows * time_for_scan);
}

/*************************************************************************
Returns statistics information of the table to the MySQL interpreter,
in various fields of the handle object. */

void
ha_innobase::info(
/*==============*/
	uint flag)	/* in: what information MySQL requests */
{
	row_prebuilt_t* prebuilt	= (row_prebuilt_t*) innobase_prebuilt;
	dict_table_t*	ib_table;
	dict_index_t*	index;
	ha_rows		rec_per_key;
	ib_longlong	n_rows;
	ulong		j;
	ulong		i;
	char		path[FN_REFLEN];
	os_file_stat_t  stat_info;

 	DBUG_ENTER("info");

        /* If we are forcing recovery at a high level, we will suppress
	statistics calculation on tables, because that may crash the
	server if an index is badly corrupted. */

        if (srv_force_recovery >= SRV_FORCE_NO_IBUF_MERGE) {

                DBUG_VOID_RETURN;
        }

	/* We do not know if MySQL can call this function before calling
	external_lock(). To be safe, update the thd of the current table
	handle. */

	update_thd(current_thd);

	/* In case MySQL calls this in the middle of a SELECT query, release
	possible adaptive hash latch to avoid deadlocks of threads */

	prebuilt->trx->op_info = (char*)"returning various info to MySQL";

	trx_search_latch_release_if_reserved(prebuilt->trx);

 	ib_table = prebuilt->table;

 	if (flag & HA_STATUS_TIME) {
 		/* In sql_show we call with this flag: update then statistics
 		so that they are up-to-date */

	        prebuilt->trx->op_info = (char*)"updating table statistics";

 		dict_update_statistics(ib_table);

		prebuilt->trx->op_info = (char*)
		                          "returning various info to MySQL";

		if (ib_table->space != 0) {
			my_snprintf(path, sizeof(path), "%s/%s%s",
				    mysql_data_home, ib_table->name,
				    ".ibd");
			unpack_filename(path,path);
		} else {
			my_snprintf(path, sizeof(path), "%s/%s%s", 
				    mysql_data_home, ib_table->name,
				    reg_ext);
		
			unpack_filename(path,path);
		}

		/* Note that we do not know the access time of the table, 
		nor the CHECK TABLE time, nor the UPDATE or INSERT time. */

		if (os_file_get_status(path,&stat_info)) {
			create_time = stat_info.ctime;
		}
 	}

	if (flag & HA_STATUS_VARIABLE) {
		n_rows = ib_table->stat_n_rows;

		/* Because we do not protect stat_n_rows by any mutex in a
		delete, it is theoretically possible that the value can be
		smaller than zero! TODO: fix this race.

		The MySQL optimizer seems to assume in a left join that n_rows
		is an accurate estimate if it is zero. Of course, it is not,
		since we do not have any locks on the rows yet at this phase.
		Since SHOW TABLE STATUS seems to call this function with the
		HA_STATUS_TIME flag set, while the left join optimizer does not
		set that flag, we add one to a zero value if the flag is not
		set. That way SHOW TABLE STATUS will show the best estimate,
		while the optimizer never sees the table empty. */

		if (n_rows < 0) {
			n_rows = 0;
		}

		if (n_rows == 0 && !(flag & HA_STATUS_TIME)) {
			n_rows++;
		}

    		records = (ha_rows)n_rows;
    		deleted = 0;
    		data_file_length = ((ulonglong)
				ib_table->stat_clustered_index_size)
    					* UNIV_PAGE_SIZE;
    		index_file_length = ((ulonglong)
				ib_table->stat_sum_of_other_index_sizes)
    					* UNIV_PAGE_SIZE;
    		delete_length = 0;
    		check_time = 0;

    		if (records == 0) {
    			mean_rec_length = 0;
    		} else {
    			mean_rec_length = (ulong) (data_file_length / records);
    		}
    	}

	if (flag & HA_STATUS_CONST) {
		index = dict_table_get_first_index_noninline(ib_table);

		if (prebuilt->clust_index_was_generated) {
			index = dict_table_get_next_index_noninline(index);
		}

		for (i = 0; i < table->s->keys; i++) {
			if (index == NULL) {
				ut_print_timestamp(stderr);
				sql_print_error("Table %s contains less "
						"indexes inside InnoDB than "
						"are defined in the MySQL "
						".frm file. Have you mixed up "
						".frm files from different "
						"installations? See section "
						"15.1 at http://www.innodb.com/ibman.html",
						ib_table->name);
				break;
			}

			for (j = 0; j < table->key_info[i].key_parts; j++) {

				if (j + 1 > index->n_uniq) {
				        ut_print_timestamp(stderr);
					sql_print_error("Index %s of %s has "
							"%lu columns unique "
							"inside InnoDB, but "
							"MySQL is asking "
							"statistics for %lu "
							"columns. Have you "
							"mixed up .frm files "
							"from different "
							"installations? See "
							"section 15.1 at "
							"http://www.innodb.com/ibman.html",
							index->name,
							ib_table->name,
							(unsigned long)
							index->n_uniq, j + 1);
				        break;
				}

				if (index->stat_n_diff_key_vals[j + 1] == 0) {

					rec_per_key = records;
				} else {
					rec_per_key = (ha_rows)(records /
   				         index->stat_n_diff_key_vals[j + 1]);
				}

				/* Since MySQL seems to favor table scans
				too much over index searches, we pretend
				index selectivity is 2 times better than
				our estimate: */

				rec_per_key = rec_per_key / 2;

				if (rec_per_key == 0) {
					rec_per_key = 1;
				}

 				table->key_info[i].rec_per_key[j]=
				  rec_per_key >= ~(ulong) 0 ? ~(ulong) 0 :
				  rec_per_key;
			}

			index = dict_table_get_next_index_noninline(index);
		}
	}

  	if (flag & HA_STATUS_ERRKEY) {
		ut_a(prebuilt->trx && prebuilt->trx->magic_n == TRX_MAGIC_N);

		errkey = (unsigned int) row_get_mysql_key_number_for_index(
				       (dict_index_t*)
				       trx_get_error_info(prebuilt->trx));
  	}

	if (flag & HA_STATUS_AUTO && table->found_next_number_field) {
		longlong	auto_inc;
		int		ret;

		/* The following function call can the first time fail in
		a lock wait timeout error because it reserves the auto-inc
		lock on the table. If it fails, then someone is already initing
		the auto-inc counter, and the second call is guaranteed to
		succeed. */

		ret = innobase_read_and_init_auto_inc(&auto_inc); 

		if (ret != 0) {
			ret = innobase_read_and_init_auto_inc(&auto_inc);

			if (ret != 0) {
				ut_print_timestamp(stderr);
				sql_print_error("Cannot get table %s auto-inc"
						"counter value in ::info\n",
						ib_table->name);
				auto_inc = 0;
			}
		}
		
		auto_increment_value = auto_inc;
	}

	prebuilt->trx->op_info = (char*)"";

  	DBUG_VOID_RETURN;
}

/**************************************************************************
Updates index cardinalities of the table, based on 8 random dives into
each index tree. This does NOT calculate exact statistics on the table. */

int
ha_innobase::analyze(
/*=================*/			 
					/* out: returns always 0 (success) */
	THD*		thd,		/* in: connection thread handle */
	HA_CHECK_OPT*	check_opt)	/* in: currently ignored */
{
	/* Simply call ::info() with all the flags */
	info(HA_STATUS_TIME | HA_STATUS_CONST | HA_STATUS_VARIABLE);

	return(0);
}

/**************************************************************************
This is mapped to "ALTER TABLE tablename TYPE=InnoDB", which rebuilds
the table in MySQL. */

int
ha_innobase::optimize(
/*==================*/
	THD*		thd,		/* in: connection thread handle */
	HA_CHECK_OPT*	check_opt)	/* in: currently ignored */
{
        return(HA_ADMIN_TRY_ALTER);
}

/***********************************************************************
Tries to check that an InnoDB table is not corrupted. If corruption is
noticed, prints to stderr information about it. In case of corruption
may also assert a failure and crash the server. */

int
ha_innobase::check(
/*===============*/
					/* out: HA_ADMIN_CORRUPT or
					HA_ADMIN_OK */
	THD* 		thd,		/* in: user thread handle */
	HA_CHECK_OPT* 	check_opt)	/* in: check options, currently
					ignored */
{
	row_prebuilt_t* prebuilt	= (row_prebuilt_t*) innobase_prebuilt;
	ulint		ret;

	ut_a(prebuilt->trx && prebuilt->trx->magic_n == TRX_MAGIC_N);
	ut_a(prebuilt->trx ==
                (trx_t*) current_thd->ha_data[innobase_hton.slot]);

	if (prebuilt->mysql_template == NULL) {
		/* Build the template; we will use a dummy template
		in index scans done in checking */

		build_template(prebuilt, NULL, table, ROW_MYSQL_WHOLE_ROW);
	}

	ret = row_check_table_for_mysql(prebuilt);

	if (ret == DB_SUCCESS) {
		return(HA_ADMIN_OK);
	}

  	return(HA_ADMIN_CORRUPT); 
}

/*****************************************************************
Adds information about free space in the InnoDB tablespace to a table comment
which is printed out when a user calls SHOW TABLE STATUS. Adds also info on
foreign keys. */

char*
ha_innobase::update_table_comment(
/*==============================*/
				/* out: table comment + InnoDB free space +
				info on foreign keys */
        const char*	comment)/* in: table comment defined by user */
{
	uint	length			= (uint) strlen(comment);
	char*				str;
	row_prebuilt_t*	prebuilt	= (row_prebuilt_t*)innobase_prebuilt;

	/* We do not know if MySQL can call this function before calling
	external_lock(). To be safe, update the thd of the current table
	handle. */

	if (length > 64000 - 3) {
		return((char*)comment); /* string too long */
	}

	update_thd(current_thd);

	prebuilt->trx->op_info = (char*)"returning table comment";

	/* In case MySQL calls this in the middle of a SELECT query, release
	possible adaptive hash latch to avoid deadlocks of threads */

	trx_search_latch_release_if_reserved(prebuilt->trx);
	str = NULL;

	if (FILE* file = os_file_create_tmpfile()) {
		long	flen;

		/* output the data to a temporary file */
		fprintf(file, "InnoDB free: %lu kB",
      		   (ulong) fsp_get_available_space_in_free_extents(
      					prebuilt->table->space));

		dict_print_info_on_foreign_keys(FALSE, file,
				prebuilt->trx, prebuilt->table);
		flen = ftell(file);
		if (flen < 0) {
			flen = 0;
		} else if (length + flen + 3 > 64000) {
			flen = 64000 - 3 - length;
		}

		/* allocate buffer for the full string, and
		read the contents of the temporary file */

		str = my_malloc(length + flen + 3, MYF(0));

		if (str) {
			char* pos	= str + length;
			if (length) {
				memcpy(str, comment, length);
				*pos++ = ';';
				*pos++ = ' ';
			}
			rewind(file);
			flen = (uint) fread(pos, 1, flen, file);
			pos[flen] = 0;
		}

		fclose(file);
	}

        prebuilt->trx->op_info = (char*)"";

  	return(str ? str : (char*) comment);
}

/***********************************************************************
Gets the foreign key create info for a table stored in InnoDB. */

char*
ha_innobase::get_foreign_key_create_info(void)
/*==========================================*/
			/* out, own: character string in the form which
			can be inserted to the CREATE TABLE statement,
			MUST be freed with ::free_foreign_key_create_info */
{
	row_prebuilt_t* prebuilt = (row_prebuilt_t*)innobase_prebuilt;
	char*	str	= 0;

	ut_a(prebuilt != NULL);

	/* We do not know if MySQL can call this function before calling
	external_lock(). To be safe, update the thd of the current table
	handle. */

	update_thd(current_thd);

	if (FILE* file = os_file_create_tmpfile()) {
		long	flen;

		prebuilt->trx->op_info = (char*)"getting info on foreign keys";

		/* In case MySQL calls this in the middle of a SELECT query,
		release possible adaptive hash latch to avoid
		deadlocks of threads */

		trx_search_latch_release_if_reserved(prebuilt->trx);

		/* output the data to a temporary file */
		dict_print_info_on_foreign_keys(TRUE, file,
				prebuilt->trx, prebuilt->table);
		prebuilt->trx->op_info = (char*)"";

		flen = ftell(file);
		if (flen < 0) {
			flen = 0;
		} else if (flen > 64000 - 1) {
			flen = 64000 - 1;
		}

		/* allocate buffer for the string, and
		read the contents of the temporary file */

		str = my_malloc(flen + 1, MYF(0));

		if (str) {
			rewind(file);
			flen = (uint) fread(str, 1, flen, file);
			str[flen] = 0;
		}

		fclose(file);
	} else {
		/* unable to create temporary file */
          	str = my_strdup(
"/* Error: cannot display foreign key constraints */", MYF(0));
	}

  	return(str);
}


int 
ha_innobase::get_foreign_key_list(THD *thd, List<FOREIGN_KEY_INFO> *f_key_list)
{
  dict_foreign_t* foreign;

  DBUG_ENTER("get_foreign_key_list");
  row_prebuilt_t* prebuilt = (row_prebuilt_t*)innobase_prebuilt;
  ut_a(prebuilt != NULL);
  update_thd(current_thd);
  prebuilt->trx->op_info = (char*)"getting list of foreign keys";
  trx_search_latch_release_if_reserved(prebuilt->trx);
  mutex_enter_noninline(&(dict_sys->mutex));
  foreign = UT_LIST_GET_FIRST(prebuilt->table->foreign_list);

  while (foreign != NULL) 
  {
    uint i;
    FOREIGN_KEY_INFO f_key_info;
    LEX_STRING *name= 0;
    const char *tmp_buff;

    tmp_buff= foreign->id;
    i= 0;
    while (tmp_buff[i] != '/')
      i++;
    tmp_buff+= i + 1;
    f_key_info.forein_id= make_lex_string(thd, 0, tmp_buff,
                                          (uint) strlen(tmp_buff), 1);
    tmp_buff= foreign->referenced_table_name;
    i= 0;
    while (tmp_buff[i] != '/')
      i++;
    f_key_info.referenced_db= make_lex_string(thd, 0,
                                              tmp_buff, i, 1);
    tmp_buff+= i + 1;
    f_key_info.referenced_table= make_lex_string(thd, 0, tmp_buff, 
                                               (uint) strlen(tmp_buff), 1);

    for (i= 0;;)
    {
      tmp_buff= foreign->foreign_col_names[i];
      name= make_lex_string(thd, name, tmp_buff, (uint) strlen(tmp_buff), 1);
      f_key_info.foreign_fields.push_back(name);
      tmp_buff= foreign->referenced_col_names[i];
      name= make_lex_string(thd, name, tmp_buff, (uint) strlen(tmp_buff), 1);
      f_key_info.referenced_fields.push_back(name);
      if (++i >= foreign->n_fields)
        break;
    }

    ulong length= 0;
    if (foreign->type == DICT_FOREIGN_ON_DELETE_CASCADE)
    {
      length=17;
      tmp_buff= "ON DELETE CASCADE";
    }	
    else if (foreign->type == DICT_FOREIGN_ON_DELETE_SET_NULL)
    {
      length=18;
      tmp_buff= "ON DELETE SET NULL";
    }
    else if (foreign->type == DICT_FOREIGN_ON_DELETE_NO_ACTION)
    {
      length=19;
      tmp_buff= "ON DELETE NO ACTION";
    }
    else if (foreign->type == DICT_FOREIGN_ON_UPDATE_CASCADE)
    {
      length=17;
      tmp_buff= "ON UPDATE CASCADE";
    }
    else if (foreign->type == DICT_FOREIGN_ON_UPDATE_SET_NULL)
    {
      length=18;
      tmp_buff= "ON UPDATE SET NULL";
    }
    else if (foreign->type == DICT_FOREIGN_ON_UPDATE_NO_ACTION)
    {
      length=19;
      tmp_buff= "ON UPDATE NO ACTION";
    }
    f_key_info.constraint_method= make_lex_string(thd,
                                                  f_key_info.constraint_method,
                                                  tmp_buff, length, 1);

    FOREIGN_KEY_INFO *pf_key_info= ((FOREIGN_KEY_INFO *) 
                                    thd->memdup((gptr) &f_key_info,
                                                sizeof(FOREIGN_KEY_INFO)));
    f_key_list->push_back(pf_key_info);
    foreign = UT_LIST_GET_NEXT(foreign_list, foreign);
  }
  mutex_exit_noninline(&(dict_sys->mutex));
  prebuilt->trx->op_info = (char*)"";
  DBUG_RETURN(0);
}

/*********************************************************************
Checks if ALTER TABLE may change the storage engine of the table.
Changing storage engines is not allowed for tables for which there
are foreign key constraints (parent or child tables). */

bool
ha_innobase::can_switch_engines(void)
/*=================================*/
{
	row_prebuilt_t* prebuilt	= (row_prebuilt_t*) innobase_prebuilt;
	bool	can_switch;

 	DBUG_ENTER("ha_innobase::can_switch_engines");
	prebuilt->trx->op_info =
			"determining if there are foreign key constraints";
	row_mysql_lock_data_dictionary(prebuilt->trx);

	can_switch = !UT_LIST_GET_FIRST(prebuilt->table->referenced_list)
			&& !UT_LIST_GET_FIRST(prebuilt->table->foreign_list);

	row_mysql_unlock_data_dictionary(prebuilt->trx);
	prebuilt->trx->op_info = "";

	DBUG_RETURN(can_switch);
}

/***********************************************************************
Checks if a table is referenced by a foreign key. The MySQL manual states that
a REPLACE is either equivalent to an INSERT, or DELETE(s) + INSERT. Only a
delete is then allowed internally to resolve a duplicate key conflict in
REPLACE, not an update. */

uint
ha_innobase::referenced_by_foreign_key(void)
/*========================================*/
			/* out: > 0 if referenced by a FOREIGN KEY */
{
	row_prebuilt_t* prebuilt = (row_prebuilt_t*)innobase_prebuilt;

	if (dict_table_referenced_by_foreign_key(prebuilt->table)) {

		return(1);
	}

	return(0);
}

/***********************************************************************
Frees the foreign key create info for a table stored in InnoDB, if it is
non-NULL. */

void
ha_innobase::free_foreign_key_create_info(
/*======================================*/
	char*	str)	/* in, own: create info string to free  */
{
	if (str) {
		my_free(str, MYF(0));
	}
}

/***********************************************************************
Tells something additional to the handler about how to do things. */

int
ha_innobase::extra(
/*===============*/
			   /* out: 0 or error number */
	enum ha_extra_function operation)
                           /* in: HA_EXTRA_RETRIEVE_ALL_COLS or some
			   other flag */
{
	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;

	/* Warning: since it is not sure that MySQL calls external_lock
	before calling this function, the trx field in prebuilt can be
	obsolete! */

	switch (operation) {
                case HA_EXTRA_FLUSH:
                        if (prebuilt->blob_heap) {
                                row_mysql_prebuilt_free_blob_heap(prebuilt);
                        }
                        break;
                case HA_EXTRA_RESET:
                        if (prebuilt->blob_heap) {
                                row_mysql_prebuilt_free_blob_heap(prebuilt);
                        }
                        prebuilt->keep_other_fields_on_keyread = 0;
                        prebuilt->read_just_key = 0;
                        break;
  		case HA_EXTRA_RESET_STATE:
	        	prebuilt->keep_other_fields_on_keyread = 0;
	        	prebuilt->read_just_key = 0;
    	        	break;
		case HA_EXTRA_NO_KEYREAD:
    			prebuilt->read_just_key = 0;
    			break;
	        case HA_EXTRA_RETRIEVE_ALL_COLS:
			prebuilt->hint_need_to_fetch_extra_cols
					= ROW_RETRIEVE_ALL_COLS;
			break;
	        case HA_EXTRA_RETRIEVE_PRIMARY_KEY:
			if (prebuilt->hint_need_to_fetch_extra_cols == 0) {
				prebuilt->hint_need_to_fetch_extra_cols
					= ROW_RETRIEVE_PRIMARY_KEY;
			}
			break;
	        case HA_EXTRA_KEYREAD:
	        	prebuilt->read_just_key = 1;
	        	break;
		case HA_EXTRA_KEYREAD_PRESERVE_FIELDS:
			prebuilt->keep_other_fields_on_keyread = 1;
			break;
		default:/* Do nothing */
			;
	}

	return(0);
}

/**********************************************************************
MySQL calls this function at the start of each SQL statement inside LOCK
TABLES. Inside LOCK TABLES the ::external_lock method does not work to
mark SQL statement borders. Note also a special case: if a temporary table
is created inside LOCK TABLES, MySQL has not called external_lock() at all
on that table.
MySQL-5.0 also calls this before each statement in an execution of a stored
procedure. To make the execution more deterministic for binlogging, MySQL-5.0
locks all tables involved in a stored procedure with full explicit table
locks (thd->in_lock_tables is true in ::store_lock()) before executing the
procedure. */

int
ha_innobase::start_stmt(
/*====================*/
	              /* out: 0 or error code */
	THD*    thd,  /* in: handle to the user thread */
        thr_lock_type lock_type)
{
	row_prebuilt_t* prebuilt = (row_prebuilt_t*) innobase_prebuilt;
	trx_t*		trx;

	update_thd(thd);

	trx = prebuilt->trx;

	/* Here we release the search latch and the InnoDB thread FIFO ticket
	if they were reserved. They should have been released already at the
	end of the previous statement, but because inside LOCK TABLES the
	lock count method does not work to mark the end of a SELECT statement,
	that may not be the case. We MUST release the search latch before an
	INSERT, for example. */

	innobase_release_stat_resources(trx);

	if (trx->isolation_level <= TRX_ISO_READ_COMMITTED
	    					&& trx->global_read_view) {
	    	/* At low transaction isolation levels we let
		each consistent read set its own snapshot */

	    	read_view_close_for_mysql(trx);
	}

	prebuilt->sql_stat_start = TRUE;
	prebuilt->hint_need_to_fetch_extra_cols = 0;
	prebuilt->read_just_key = 0;
        prebuilt->keep_other_fields_on_keyread = FALSE;

	if (!prebuilt->mysql_has_locked) {
	        /* This handle is for a temporary table created inside
	        this same LOCK TABLES; since MySQL does NOT call external_lock
	        in this case, we must use x-row locks inside InnoDB to be
	        prepared for an update of a row */
	  
	        prebuilt->select_lock_type = LOCK_X;
	} else {
		if (trx->isolation_level != TRX_ISO_SERIALIZABLE
		    && thd->lex->sql_command == SQLCOM_SELECT
		    && lock_type == TL_READ) {
	
			/* For other than temporary tables, we obtain
			no lock for consistent read (plain SELECT). */

			prebuilt->select_lock_type = LOCK_NONE;
		} else {
			/* Not a consistent read: restore the
			select_lock_type value. The value of
			stored_select_lock_type was decided in:
			1) ::store_lock(),
			2) ::external_lock(), 
			3) ::init_table_handle_for_HANDLER(), and 
			4) :.transactional_table_lock(). */

			prebuilt->select_lock_type =
				prebuilt->stored_select_lock_type;
		}

		if (prebuilt->stored_select_lock_type != LOCK_S
		    && prebuilt->stored_select_lock_type != LOCK_X) {
		  sql_print_error("stored_select_lock_type is %lu inside "
				  "::start_stmt()!",
				  prebuilt->stored_select_lock_type);

			/* Set the value to LOCK_X: this is just fault
			tolerance, we do not know what the correct value
			should be! */

			prebuilt->select_lock_type = LOCK_X;
		}
	}

	trx->detailed_error[0] = '\0';

	/* Set the MySQL flag to mark that there is an active transaction */
        if (trx->active_trans == 0) {

                innobase_register_trx_and_stmt(thd);
                trx->active_trans = 1;
        } else {
		innobase_register_stmt(thd);
	}

	return(0);
}

/**********************************************************************
Maps a MySQL trx isolation level code to the InnoDB isolation level code */
inline
ulint
innobase_map_isolation_level(
/*=========================*/
					/* out: InnoDB isolation level */
	enum_tx_isolation	iso)	/* in: MySQL isolation level code */
{
	switch(iso) {
		case ISO_REPEATABLE_READ: return(TRX_ISO_REPEATABLE_READ);
		case ISO_READ_COMMITTED: return(TRX_ISO_READ_COMMITTED);
		case ISO_SERIALIZABLE: return(TRX_ISO_SERIALIZABLE);
		case ISO_READ_UNCOMMITTED: return(TRX_ISO_READ_UNCOMMITTED);
		default: ut_a(0); return(0);
	}	
}
	
/**********************************************************************
As MySQL will execute an external lock for every new table it uses when it
starts to process an SQL statement (an exception is when MySQL calls
start_stmt for the handle) we can use this function to store the pointer to
the THD in the handle. We will also use this function to communicate
to InnoDB that a new SQL statement has started and that we must store a
savepoint to our transaction handle, so that we are able to roll back
the SQL statement in case of an error. */

int
ha_innobase::external_lock(
/*=======================*/
			        /* out: 0 */
	THD*	thd,		/* in: handle to the user thread */
	int 	lock_type)	/* in: lock type */
{
	row_prebuilt_t* prebuilt = (row_prebuilt_t*) innobase_prebuilt;
	trx_t*		trx;

  	DBUG_ENTER("ha_innobase::external_lock");
	DBUG_PRINT("enter",("lock_type: %d", lock_type));

	update_thd(thd);

	trx = prebuilt->trx;

	prebuilt->sql_stat_start = TRUE;
	prebuilt->hint_need_to_fetch_extra_cols = 0;

	prebuilt->read_just_key = 0;
	prebuilt->keep_other_fields_on_keyread = FALSE;

	if (lock_type == F_WRLCK) {

		/* If this is a SELECT, then it is in UPDATE TABLE ...
		or SELECT ... FOR UPDATE */
		prebuilt->select_lock_type = LOCK_X;
		prebuilt->stored_select_lock_type = LOCK_X;
	}

	if (lock_type != F_UNLCK) {
		/* MySQL is setting a new table lock */

		trx->detailed_error[0] = '\0';
		
		/* Set the MySQL flag to mark that there is an active
		transaction */
                if (trx->active_trans == 0) {

                        innobase_register_trx_and_stmt(thd);
                        trx->active_trans = 1;
                } else if (trx->n_mysql_tables_in_use == 0) {
			innobase_register_stmt(thd);
		}

		trx->n_mysql_tables_in_use++;
		prebuilt->mysql_has_locked = TRUE;

		if (trx->n_mysql_tables_in_use == 1) {
		        trx->isolation_level = innobase_map_isolation_level(
						(enum_tx_isolation)
						thd->variables.tx_isolation);
		}

		if (trx->isolation_level == TRX_ISO_SERIALIZABLE
		    && prebuilt->select_lock_type == LOCK_NONE
		    && (thd->options
				& (OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN))) {

			/* To get serializable execution, we let InnoDB
			conceptually add 'LOCK IN SHARE MODE' to all SELECTs
			which otherwise would have been consistent reads. An
			exception is consistent reads in the AUTOCOMMIT=1 mode:
			we know that they are read-only transactions, and they
			can be serialized also if performed as consistent
			reads. */

			prebuilt->select_lock_type = LOCK_S;
			prebuilt->stored_select_lock_type = LOCK_S;
		}

		/* Starting from 4.1.9, no InnoDB table lock is taken in LOCK
		TABLES if AUTOCOMMIT=1. It does not make much sense to acquire
		an InnoDB table lock if it is released immediately at the end
		of LOCK TABLES, and InnoDB's table locks in that case cause
		VERY easily deadlocks. We do not set InnoDB table locks when
		MySQL sets them at the start of a stored procedure call
		(MySQL does have thd->in_lock_tables TRUE there). */

		if (prebuilt->select_lock_type != LOCK_NONE) {

			if (thd->in_lock_tables &&
			    thd->lex->sql_command != SQLCOM_CALL &&
			    thd->variables.innodb_table_locks &&
			    (thd->options & OPTION_NOT_AUTOCOMMIT)) {

				ulint	error;
				error = row_lock_table_for_mysql(prebuilt,
							NULL, 0);

				if (error != DB_SUCCESS) {
					error = convert_error_code_to_mysql(
						(int) error, user_thd);
					DBUG_RETURN((int) error);
				}
			}

		  	trx->mysql_n_tables_locked++;
		}

		DBUG_RETURN(0);
	}

	/* MySQL is releasing a table lock */

	trx->n_mysql_tables_in_use--;
	prebuilt->mysql_has_locked = FALSE;

	/* If the MySQL lock count drops to zero we know that the current SQL
	statement has ended */

	if (trx->n_mysql_tables_in_use == 0) {

	        trx->mysql_n_tables_locked = 0;
		prebuilt->used_in_HANDLER = FALSE;
			
		/* Release a possible FIFO ticket and search latch. Since we
		may reserve the kernel mutex, we have to release the search
		system latch first to obey the latching order. */

		innobase_release_stat_resources(trx);

		if (!(thd->options & (OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN))) {
                        if (trx->active_trans != 0) {
                                innobase_commit(thd, TRUE);
			}
		} else {
			if (trx->isolation_level <= TRX_ISO_READ_COMMITTED
	    					&& trx->global_read_view) {

				/* At low transaction isolation levels we let
				each consistent read set its own snapshot */

				read_view_close_for_mysql(trx);
			}
		}
	}

	DBUG_RETURN(0);
}

/**********************************************************************
With this function MySQL request a transactional lock to a table when
user issued query LOCK TABLES..WHERE ENGINE = InnoDB. */

int
ha_innobase::transactional_table_lock(
/*==================================*/
			        /* out: error code */
	THD*	thd,		/* in: handle to the user thread */
	int 	lock_type)	/* in: lock type */
{
	row_prebuilt_t* prebuilt = (row_prebuilt_t*) innobase_prebuilt;
	trx_t*		trx;

  	DBUG_ENTER("ha_innobase::transactional_table_lock");
	DBUG_PRINT("enter",("lock_type: %d", lock_type));

	/* We do not know if MySQL can call this function before calling
	external_lock(). To be safe, update the thd of the current table
	handle. */

	update_thd(thd);

 	if (prebuilt->table->ibd_file_missing && !current_thd->tablespace_op) {
	        ut_print_timestamp(stderr);
	        fprintf(stderr, "  InnoDB error:\n"
"MySQL is trying to use a table handle but the .ibd file for\n"
"table %s does not exist.\n"
"Have you deleted the .ibd file from the database directory under\n"
"the MySQL datadir?"
"Look from section 15.1 of http://www.innodb.com/ibman.html\n"
"how you can resolve the problem.\n",
				prebuilt->table->name);
		DBUG_RETURN(HA_ERR_CRASHED);
	}

	trx = prebuilt->trx;

	prebuilt->sql_stat_start = TRUE;
	prebuilt->hint_need_to_fetch_extra_cols = 0;

	prebuilt->read_just_key = 0;
	prebuilt->keep_other_fields_on_keyread = FALSE;

	if (lock_type == F_WRLCK) {
		prebuilt->select_lock_type = LOCK_X;
		prebuilt->stored_select_lock_type = LOCK_X;
	} else if (lock_type == F_RDLCK) {
		prebuilt->select_lock_type = LOCK_S;
		prebuilt->stored_select_lock_type = LOCK_S;
	} else {
	        ut_print_timestamp(stderr);
	        fprintf(stderr, "  InnoDB error:\n"
"MySQL is trying to set transactional table lock with corrupted lock type\n"
"to table %s, lock type %d does not exist.\n",
				prebuilt->table->name, lock_type);
		DBUG_RETURN(HA_ERR_CRASHED);
	}

	/* MySQL is setting a new transactional table lock */

	/* Set the MySQL flag to mark that there is an active transaction */
        if (trx->active_trans == 0) {

                innobase_register_trx_and_stmt(thd);
                trx->active_trans = 1;
        }

	if (thd->in_lock_tables && thd->variables.innodb_table_locks) {
		ulint	error = DB_SUCCESS;

		error = row_lock_table_for_mysql(prebuilt, NULL, 0);

		if (error != DB_SUCCESS) {
			error = convert_error_code_to_mysql((int) error, user_thd);
			DBUG_RETURN((int) error);
		}

		if (thd->options & (OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN)) {

			/* Store the current undo_no of the transaction 
			so that we know where to roll back if we have 
			to roll back the next SQL statement */

			trx_mark_sql_stat_end(trx);
		}
	}

	DBUG_RETURN(0);
}

/****************************************************************************
Here we export InnoDB status variables to MySQL.  */

int
innodb_export_status()
/*======================*/
{
  if (innodb_inited)
    srv_export_innodb_status();
  return 0;
}

/****************************************************************************
Implements the SHOW INNODB STATUS command. Sends the output of the InnoDB
Monitor to the client. */

bool
innodb_show_status(
/*===============*/
	THD*	thd,	/* in: the MySQL query thread of the caller */
	stat_print_fn *stat_print)
{
	trx_t*			trx;
	static const char	truncated_msg[] = "... truncated...\n";
	const long		MAX_STATUS_SIZE = 64000;
	ulint			trx_list_start = ULINT_UNDEFINED;
	ulint			trx_list_end = ULINT_UNDEFINED;

        DBUG_ENTER("innodb_show_status");

        if (have_innodb != SHOW_OPTION_YES) {
                DBUG_RETURN(FALSE);
        }

	trx = check_trx_exists(thd);

	innobase_release_stat_resources(trx);

	/* We let the InnoDB Monitor to output at most MAX_STATUS_SIZE
	bytes of text. */

	long	flen, usable_len;
	char*	str;

	mutex_enter_noninline(&srv_monitor_file_mutex);
	rewind(srv_monitor_file);
	srv_printf_innodb_monitor(srv_monitor_file,
				&trx_list_start, &trx_list_end);
	flen = ftell(srv_monitor_file);
	os_file_set_eof(srv_monitor_file);

	if (flen < 0) {
		flen = 0;
	}

	if (flen > MAX_STATUS_SIZE) {
		usable_len = MAX_STATUS_SIZE;
	} else {
		usable_len = flen;
	}

	/* allocate buffer for the string, and
	read the contents of the temporary file */

	if (!(str = my_malloc(usable_len + 1, MYF(0))))
        {
          mutex_exit_noninline(&srv_monitor_file_mutex);
          DBUG_RETURN(TRUE);
        }

	rewind(srv_monitor_file);
	if (flen < MAX_STATUS_SIZE) {
		/* Display the entire output. */
		flen = (long) fread(str, 1, flen, srv_monitor_file);
	} else if (trx_list_end < (ulint) flen
			&& trx_list_start < trx_list_end
			&& trx_list_start + (flen - trx_list_end)
			< MAX_STATUS_SIZE - sizeof truncated_msg - 1) {
		/* Omit the beginning of the list of active transactions. */
		long len = (long) fread(str, 1, trx_list_start, srv_monitor_file);
		memcpy(str + len, truncated_msg, sizeof truncated_msg - 1);
		len += sizeof truncated_msg - 1;
		usable_len = (MAX_STATUS_SIZE - 1) - len;
		fseek(srv_monitor_file, flen - usable_len, SEEK_SET);
		len += (long) fread(str + len, 1, usable_len, srv_monitor_file);
		flen = len;
	} else {
		/* Omit the end of the output. */
		flen = (long) fread(str, 1, MAX_STATUS_SIZE - 1, srv_monitor_file);
	}

	mutex_exit_noninline(&srv_monitor_file_mutex);

	bool result = FALSE;

	if (stat_print(thd, innobase_hton.name, strlen(innobase_hton.name), 
                       STRING_WITH_LEN(""), str, flen)) {
		result= TRUE;
	}
	my_free(str, MYF(0));

	DBUG_RETURN(FALSE);
}

/****************************************************************************
Implements the SHOW MUTEX STATUS command. . */

bool
innodb_mutex_show_status(
/*===============*/
  THD*  thd,  /* in: the MySQL query thread of the caller */
  stat_print_fn *stat_print)
{
  char buf1[IO_SIZE], buf2[IO_SIZE];
  mutex_t*  mutex;
  ulint   rw_lock_count= 0;
  ulint   rw_lock_count_spin_loop= 0;
  ulint   rw_lock_count_spin_rounds= 0;
  ulint   rw_lock_count_os_wait= 0;
  ulint   rw_lock_count_os_yield= 0;
  ulonglong rw_lock_wait_time= 0;
  uint    hton_name_len= strlen(innobase_hton.name), buf1len, buf2len;
  DBUG_ENTER("innodb_mutex_show_status");

#ifdef MUTEX_PROTECT_TO_BE_ADDED_LATER
    mutex_enter(&mutex_list_mutex);
#endif

  mutex = UT_LIST_GET_FIRST(mutex_list);

  while ( mutex != NULL )
  {
    if (mutex->mutex_type != 1)
    {
      if (mutex->count_using > 0)
      {
	buf1len= my_snprintf(buf1, sizeof(buf1), "%s:%s",
		             mutex->cmutex_name, mutex->cfile_name);
	buf2len= my_snprintf(buf2, sizeof(buf2),
		             "count=%lu, spin_waits=%lu, spin_rounds=%lu, "
		             "os_waits=%lu, os_yields=%lu, os_wait_times=%lu",
		             mutex->count_using, mutex->count_spin_loop,
		             mutex->count_spin_rounds,
		             mutex->count_os_wait, mutex->count_os_yield,
		             mutex->lspent_time/1000);
	if (stat_print(thd, innobase_hton.name, hton_name_len, 
                       buf1, buf1len, buf2, buf2len))
        {
#ifdef MUTEX_PROTECT_TO_BE_ADDED_LATER
          mutex_exit(&mutex_list_mutex);
#endif
          DBUG_RETURN(1);
        }
      }
    }
    else
    {
      rw_lock_count += mutex->count_using;
      rw_lock_count_spin_loop += mutex->count_spin_loop;
      rw_lock_count_spin_rounds += mutex->count_spin_rounds;
      rw_lock_count_os_wait += mutex->count_os_wait;
      rw_lock_count_os_yield += mutex->count_os_yield;
      rw_lock_wait_time += mutex->lspent_time;
    }

    mutex = UT_LIST_GET_NEXT(list, mutex);
  }

  buf2len= my_snprintf(buf2, sizeof(buf2),
	               "count=%lu, spin_waits=%lu, spin_rounds=%lu, "
	               "os_waits=%lu, os_yields=%lu, os_wait_times=%lu",
	               rw_lock_count, rw_lock_count_spin_loop,
	               rw_lock_count_spin_rounds,
	               rw_lock_count_os_wait, rw_lock_count_os_yield,
	               rw_lock_wait_time/1000);

  if (stat_print(thd, innobase_hton.name, hton_name_len, 
                 STRING_WITH_LEN("rw_lock_mutexes"), buf2, buf2len))
  {
    DBUG_RETURN(1);
  }

#ifdef MUTEX_PROTECT_TO_BE_ADDED_LATER
      mutex_exit(&mutex_list_mutex);
#endif
  DBUG_RETURN(FALSE);
}

bool innobase_show_status(THD* thd, stat_print_fn* stat_print,
			  enum ha_stat_type stat_type)
{
  switch (stat_type) {
  case HA_ENGINE_STATUS:
    return innodb_show_status(thd, stat_print);
  case HA_ENGINE_MUTEX:
    return innodb_mutex_show_status(thd, stat_print);
  default:
    return FALSE;
  }
}


/****************************************************************************
 Handling the shared INNOBASE_SHARE structure that is needed to provide table
 locking.
****************************************************************************/

static mysql_byte* innobase_get_key(INNOBASE_SHARE *share,uint *length,
			      my_bool not_used __attribute__((unused)))
{
  *length=share->table_name_length;
  return (mysql_byte*) share->table_name;
}

static INNOBASE_SHARE *get_share(const char *table_name)
{
  INNOBASE_SHARE *share;
  pthread_mutex_lock(&innobase_share_mutex);
  uint length=(uint) strlen(table_name);
  if (!(share=(INNOBASE_SHARE*) hash_search(&innobase_open_tables,
					(mysql_byte*) table_name,
					    length)))
  {
    if ((share=(INNOBASE_SHARE *) my_malloc(sizeof(*share)+length+1,
				       MYF(MY_WME | MY_ZEROFILL))))
    {
      share->table_name_length=length;
      share->table_name=(char*) (share+1);
      strmov(share->table_name,table_name);
      if (my_hash_insert(&innobase_open_tables, (mysql_byte*) share))
      {
        pthread_mutex_unlock(&innobase_share_mutex);
	my_free((gptr) share,0);
	return 0;
      }
      thr_lock_init(&share->lock);
      pthread_mutex_init(&share->mutex,MY_MUTEX_INIT_FAST);
    }
  }
  share->use_count++;
  pthread_mutex_unlock(&innobase_share_mutex);
  return share;
}

static void free_share(INNOBASE_SHARE *share)
{
  pthread_mutex_lock(&innobase_share_mutex);
  if (!--share->use_count)
  {
    hash_delete(&innobase_open_tables, (mysql_byte*) share);
    thr_lock_delete(&share->lock);
    pthread_mutex_destroy(&share->mutex);
    my_free((gptr) share, MYF(0));
  }
  pthread_mutex_unlock(&innobase_share_mutex);
}

/*********************************************************************
Converts a MySQL table lock stored in the 'lock' field of the handle to
a proper type before storing pointer to the lock into an array of pointers.
MySQL also calls this if it wants to reset some table locks to a not-locked
state during the processing of an SQL query. An example is that during a
SELECT the read lock is released early on the 'const' tables where we only
fetch one row. MySQL does not call this when it releases all locks at the
end of an SQL statement. */

THR_LOCK_DATA**
ha_innobase::store_lock(
/*====================*/
						/* out: pointer to the next
						element in the 'to' array */
	THD*			thd,		/* in: user thread handle */
	THR_LOCK_DATA**		to,		/* in: pointer to an array
						of pointers to lock structs;
						pointer to the 'lock' field
						of current handle is stored
						next to this array */
	enum thr_lock_type 	lock_type)	/* in: lock type to store in
						'lock'; this may also be
						TL_IGNORE */
{
	row_prebuilt_t* prebuilt	= (row_prebuilt_t*) innobase_prebuilt;

	/* NOTE: MySQL  can call this function with lock 'type' TL_IGNORE!
	Be careful to ignore TL_IGNORE if we are going to do something with
	only 'real' locks! */

	if ((lock_type == TL_READ && thd->in_lock_tables) ||           
	    (lock_type == TL_READ_HIGH_PRIORITY && thd->in_lock_tables) ||
	    lock_type == TL_READ_WITH_SHARED_LOCKS ||
	    lock_type == TL_READ_NO_INSERT ||
	    (thd->lex->sql_command != SQLCOM_SELECT
	     && lock_type != TL_IGNORE)) {

		/* The OR cases above are in this order:
		1) MySQL is doing LOCK TABLES ... READ LOCAL, or
		2) (we do not know when TL_READ_HIGH_PRIORITY is used), or
		3) this is a SELECT ... IN SHARE MODE, or
		4) we are doing a complex SQL statement like
		INSERT INTO ... SELECT ... and the logical logging (MySQL
		binlog) requires the use of a locking read, or
		MySQL is doing LOCK TABLES ... READ.
		5) we let InnoDB do locking reads for all SQL statements that
		are not simple SELECTs; note that select_lock_type in this
		case may get strengthened in ::external_lock() to LOCK_X.
		Note that we MUST use a locking read in all data modifying
		SQL statements, because otherwise the execution would not be
		serializable, and also the results from the update could be
		unexpected if an obsolete consistent read view would be
		used. */

		if (srv_locks_unsafe_for_binlog &&
		    prebuilt->trx->isolation_level != TRX_ISO_SERIALIZABLE &&
		    (lock_type == TL_READ || lock_type == TL_READ_NO_INSERT) &&
		    (thd->lex->sql_command == SQLCOM_INSERT_SELECT ||
		     thd->lex->sql_command == SQLCOM_UPDATE)) {

			/* In case we have innobase_locks_unsafe_for_binlog
			option set and isolation level of the transaction
			is not set to serializable and MySQL is doing
			INSERT INTO...SELECT or UPDATE ... = (SELECT ...)
			without FOR UPDATE or IN SHARE MODE in select, then
			we use consistent read for select. */

			prebuilt->select_lock_type = LOCK_NONE;
			prebuilt->stored_select_lock_type = LOCK_NONE;
		} else if (thd->lex->sql_command == SQLCOM_CHECKSUM) {
			/* Use consistent read for checksum table */

			prebuilt->select_lock_type = LOCK_NONE;
			prebuilt->stored_select_lock_type = LOCK_NONE;
		} else {
			prebuilt->select_lock_type = LOCK_S;
			prebuilt->stored_select_lock_type = LOCK_S;
		}

	} else if (lock_type != TL_IGNORE) {

	        /* We set possible LOCK_X value in external_lock, not yet
		here even if this would be SELECT ... FOR UPDATE */

		prebuilt->select_lock_type = LOCK_NONE;
		prebuilt->stored_select_lock_type = LOCK_NONE;
	}

	if (lock_type != TL_IGNORE && lock.type == TL_UNLOCK) {

                /* Starting from 5.0.7, we weaken also the table locks
		set at the start of a MySQL stored procedure call, just like
		we weaken the locks set at the start of an SQL statement.
		MySQL does set thd->in_lock_tables TRUE there, but in reality
		we do not need table locks to make the execution of a
		single transaction stored procedure call deterministic
		(if it does not use a consistent read). */

		if (lock_type == TL_READ && thd->in_lock_tables) {
			/* We come here if MySQL is processing LOCK TABLES
			... READ LOCAL. MyISAM under that table lock type
			reads the table as it was at the time the lock was
			granted (new inserts are allowed, but not seen by the
			reader). To get a similar effect on an InnoDB table,
			we must use LOCK TABLES ... READ. We convert the lock
			type here, so that for InnoDB, READ LOCAL is
			equivalent to READ. This will change the InnoDB
			behavior in mysqldump, so that dumps of InnoDB tables
			are consistent with dumps of MyISAM tables. */

			lock_type = TL_READ_NO_INSERT;
		}

    		/* If we are not doing a LOCK TABLE or DISCARD/IMPORT
		TABLESPACE or TRUNCATE TABLE, then allow multiple writers */

    		if ((lock_type >= TL_WRITE_CONCURRENT_INSERT &&
	 	    lock_type <= TL_WRITE)
		    && (!thd->in_lock_tables
		        || thd->lex->sql_command == SQLCOM_CALL)
		    && !thd->tablespace_op
		    && thd->lex->sql_command != SQLCOM_TRUNCATE
                    && thd->lex->sql_command != SQLCOM_OPTIMIZE
                    && thd->lex->sql_command != SQLCOM_CREATE_TABLE) {

      			lock_type = TL_WRITE_ALLOW_WRITE;
      		}

		/* In queries of type INSERT INTO t1 SELECT ... FROM t2 ...
		MySQL would use the lock TL_READ_NO_INSERT on t2, and that
		would conflict with TL_WRITE_ALLOW_WRITE, blocking all inserts
		to t2. Convert the lock to a normal read lock to allow
		concurrent inserts to t2. */
      		
		if (lock_type == TL_READ_NO_INSERT
		    && (!thd->in_lock_tables
			|| thd->lex->sql_command == SQLCOM_CALL)) {

			lock_type = TL_READ;
		}
		
 		lock.type = lock_type;
  	}

  	*to++= &lock;

	return(to);
}

/***********************************************************************
This function initializes the auto-inc counter if it has not been
initialized yet. This function does not change the value of the auto-inc
counter if it already has been initialized. In parameter ret returns
the value of the auto-inc counter. */

int
ha_innobase::innobase_read_and_init_auto_inc(
/*=========================================*/
				/* out: 0 or error code: deadlock or lock wait
				timeout */
	longlong*	ret)	/* out: auto-inc value */
{
  	row_prebuilt_t* prebuilt	= (row_prebuilt_t*) innobase_prebuilt;
    	longlong        auto_inc;
	ulint		old_select_lock_type;
	ibool		trx_was_not_started	= FALSE;
  	int     	error;

  	ut_a(prebuilt);
	ut_a(prebuilt->trx ==
                (trx_t*) current_thd->ha_data[innobase_hton.slot]);
	ut_a(prebuilt->table);
	
	if (prebuilt->trx->conc_state == TRX_NOT_STARTED) {
		trx_was_not_started = TRUE;
	}

	/* In case MySQL calls this in the middle of a SELECT query, release
	possible adaptive hash latch to avoid deadlocks of threads */

	trx_search_latch_release_if_reserved(prebuilt->trx);

	auto_inc = dict_table_autoinc_read(prebuilt->table);

	if (auto_inc != 0) {
		/* Already initialized */
		*ret = auto_inc;
	
		error = 0;

		goto func_exit_early;
	}

	error = row_lock_table_autoinc_for_mysql(prebuilt);

	if (error != DB_SUCCESS) {
		error = convert_error_code_to_mysql(error, user_thd);

		goto func_exit_early;
	}	

	/* Check again if someone has initialized the counter meanwhile */
	auto_inc = dict_table_autoinc_read(prebuilt->table);

	if (auto_inc != 0) {
		*ret = auto_inc;
	
		error = 0;

		goto func_exit_early;
	}

  	(void) extra(HA_EXTRA_KEYREAD);
  	index_init(table->s->next_number_index, 1);

	/* Starting from 5.0.9, we use a consistent read to read the auto-inc
	column maximum value. This eliminates the spurious deadlocks caused
	by the row X-lock that we previously used. Note the following flaw
	in our algorithm: if some other user meanwhile UPDATEs the auto-inc
	column, our consistent read will not return the largest value. We
	accept this flaw, since the deadlocks were a bigger trouble. */

  	/* Fetch all the columns in the key */
  	
	prebuilt->hint_need_to_fetch_extra_cols = ROW_RETRIEVE_ALL_COLS;

	old_select_lock_type = prebuilt->select_lock_type;
  	prebuilt->select_lock_type = LOCK_NONE;

	/* Eliminate an InnoDB error print that happens when we try to SELECT
	from a table when no table has been locked in ::external_lock(). */
	prebuilt->trx->n_mysql_tables_in_use++;

	error = index_last(table->record[1]);

	prebuilt->trx->n_mysql_tables_in_use--;
  	prebuilt->select_lock_type = old_select_lock_type;

  	if (error) {
		if (error == HA_ERR_END_OF_FILE) {
			/* The table was empty, initialize to 1 */
			auto_inc = 1;

			error = 0;
		} else {
			/* This should not happen in a consistent read */
		  sql_print_error("Consistent read of auto-inc column "
				  "returned %lu", (ulong) error);
  			auto_inc = -1;

  			goto func_exit;
  		}
  	} else {
		/* Initialize to max(col) + 1; we use
		'found_next_number_field' below because MySQL in SHOW TABLE
		STATUS does not seem to set 'next_number_field'. The comment
		in table.h says that 'next_number_field' is set when it is
		'active'. */

    		auto_inc = (longlong) table->found_next_number_field->
                        	val_int_offset(table->s->rec_buff_length) + 1;
  	}

	dict_table_autoinc_initialize(prebuilt->table, auto_inc);

func_exit:
  	(void) extra(HA_EXTRA_NO_KEYREAD);

	index_end();

	*ret = auto_inc;

func_exit_early:
	/* Since MySQL does not seem to call autocommit after SHOW TABLE
	STATUS (even if we would register the trx here), we commit our
	transaction here if it was started here. This is to eliminate a
	dangling transaction. If the user had AUTOCOMMIT=0, then SHOW
	TABLE STATUS does leave a dangling transaction if the user does not
	himself call COMMIT. */

	if (trx_was_not_started) {

		innobase_commit_low(prebuilt->trx);
	}

 	return(error);
}

/***********************************************************************
This function initializes the auto-inc counter if it has not been
initialized yet. This function does not change the value of the auto-inc
counter if it already has been initialized. Returns the value of the
auto-inc counter. */

ulonglong
ha_innobase::get_auto_increment()
/*=============================*/
                         /* out: auto-increment column value, -1 if error
                         (deadlock or lock wait timeout) */
{
  	longlong        nr;
  	int     	error;
	
	error = innobase_read_and_init_auto_inc(&nr);

	if (error) {
		/* This should never happen in the current (5.0.6) code, since
		we call this function only after the counter has been
		initialized. */
	
		ut_print_timestamp(stderr);
		sql_print_error("Error %lu in ::get_auto_increment()",
				(ulong) error);
          	return(~(ulonglong) 0);
	}

	return((ulonglong) nr);
}

/* See comment in handler.h */
int
ha_innobase::reset_auto_increment(ulonglong value)
{
	DBUG_ENTER("ha_innobase::reset_auto_increment");

	row_prebuilt_t* prebuilt = (row_prebuilt_t*) innobase_prebuilt;
  	int     	error;

	error = row_lock_table_autoinc_for_mysql(prebuilt);

	if (error != DB_SUCCESS) {
		error = convert_error_code_to_mysql(error, user_thd);

		DBUG_RETURN(error);
	}	

	dict_table_autoinc_initialize(prebuilt->table, value);

	DBUG_RETURN(0);
}

/* See comment in handler.cc */
bool
ha_innobase::get_error_message(int error, String *buf)
{
	trx_t*	    trx = check_trx_exists(current_thd);

	buf->copy(trx->detailed_error, strlen(trx->detailed_error),
		system_charset_info);

	return FALSE;
}

/***********************************************************************
Compares two 'refs'. A 'ref' is the (internal) primary key value of the row.
If there is no explicitly declared non-null unique key or a primary key, then
InnoDB internally uses the row id as the primary key. */

int
ha_innobase::cmp_ref(
/*=================*/
				/* out: < 0 if ref1 < ref2, 0 if equal, else
				> 0 */
	const mysql_byte* ref1,	/* in: an (internal) primary key value in the
				MySQL key value format */
	const mysql_byte* ref2)	/* in: an (internal) primary key value in the
				MySQL key value format */
{
	row_prebuilt_t*	prebuilt = (row_prebuilt_t*) innobase_prebuilt;
	enum_field_types mysql_type;
	Field*		field;
	KEY_PART_INFO*	key_part;
	KEY_PART_INFO*	key_part_end;
	uint		len1;
	uint		len2;
	int 		result;

	if (prebuilt->clust_index_was_generated) {
		/* The 'ref' is an InnoDB row id */

		return(memcmp(ref1, ref2, DATA_ROW_ID_LEN));
	}

	/* Do a type-aware comparison of primary key fields. PK fields
	are always NOT NULL, so no checks for NULL are performed. */

	key_part = table->key_info[table->s->primary_key].key_part;

	key_part_end = key_part
			+ table->key_info[table->s->primary_key].key_parts;

	for (; key_part != key_part_end; ++key_part) {
		field = key_part->field;
		mysql_type = field->type();

		if (mysql_type == FIELD_TYPE_TINY_BLOB
		    || mysql_type == FIELD_TYPE_MEDIUM_BLOB
		    || mysql_type == FIELD_TYPE_BLOB
		    || mysql_type == FIELD_TYPE_LONG_BLOB) {
		    
			/* In the MySQL key value format, a column prefix of
			a BLOB is preceded by a 2-byte length field */

			len1 = innobase_read_from_2_little_endian(ref1);
			len2 = innobase_read_from_2_little_endian(ref2);

			ref1 += 2;
			ref2 += 2;
			result = ((Field_blob*)field)->cmp(
						    (const char*)ref1, len1,
			                            (const char*)ref2, len2);
		} else {
			result = field->key_cmp(ref1, ref2);
		}

		if (result) {

			return(result);
		}

		ref1 += key_part->store_length;
		ref2 += key_part->store_length;
	}

	return(0);
}

char*
ha_innobase::get_mysql_bin_log_name()
{
	return(trx_sys_mysql_bin_log_name);
}

ulonglong
ha_innobase::get_mysql_bin_log_pos()
{
  	/* trx... is ib_longlong, which is a typedef for a 64-bit integer
	(__int64 or longlong) so it's ok to cast it to ulonglong. */

  	return(trx_sys_mysql_bin_log_pos);
}

extern "C" {
/**********************************************************************
This function is used to find the storage length in bytes of the first n
characters for prefix indexes using a multibyte character set. The function
finds charset information and returns length of prefix_len characters in the
index field in bytes.

NOTE: the prototype of this function is copied to data0type.c! If you change
this function, you MUST change also data0type.c! */

ulint
innobase_get_at_most_n_mbchars(
/*===========================*/
				/* out: number of bytes occupied by the first
				n characters */
	ulint charset_id,	/* in: character set id */
	ulint prefix_len,	/* in: prefix length in bytes of the index
				(this has to be divided by mbmaxlen to get the
				number of CHARACTERS n in the prefix) */
	ulint data_len,         /* in: length of the string in bytes */
	const char* str)	/* in: character string */
{
	ulint char_length;	/* character length in bytes */
	ulint n_chars;		/* number of characters in prefix */
	CHARSET_INFO* charset;	/* charset used in the field */

	charset = get_charset((uint) charset_id, MYF(MY_WME));

	ut_ad(charset);
	ut_ad(charset->mbmaxlen);

	/* Calculate how many characters at most the prefix index contains */

	n_chars = prefix_len / charset->mbmaxlen;

	/* If the charset is multi-byte, then we must find the length of the
	first at most n chars in the string. If the string contains less
	characters than n, then we return the length to the end of the last
	character. */

	if (charset->mbmaxlen > 1) {
		/* my_charpos() returns the byte length of the first n_chars
		characters, or a value bigger than the length of str, if
		there were not enough full characters in str.

		Why does the code below work:
		Suppose that we are looking for n UTF-8 characters.

		1) If the string is long enough, then the prefix contains at
		least n complete UTF-8 characters + maybe some extra
		characters + an incomplete UTF-8 character. No problem in
		this case. The function returns the pointer to the
		end of the nth character.

		2) If the string is not long enough, then the string contains
		the complete value of a column, that is, only complete UTF-8
		characters, and we can store in the column prefix index the
		whole string. */

		char_length = my_charpos(charset, str,
						str + data_len, (int) n_chars);
		if (char_length > data_len) {
			char_length = data_len;
		}		
	} else {
		if (data_len < prefix_len) {
			char_length = data_len;
		} else {
			char_length = prefix_len;
		}
	}

	return(char_length);
}
}

extern "C" {
/**********************************************************************
This function returns true if 

1) SQL-query in the current thread
is either REPLACE or LOAD DATA INFILE REPLACE. 

2) SQL-query in the current thread
is INSERT ON DUPLICATE KEY UPDATE.

NOTE that /mysql/innobase/row/row0ins.c must contain the 
prototype for this function ! */

ibool
innobase_query_is_update(void)
/*==========================*/
{
	THD*	thd;
	
	thd = (THD *)innobase_current_thd();
	
	if (thd->lex->sql_command == SQLCOM_REPLACE ||
	    thd->lex->sql_command == SQLCOM_REPLACE_SELECT ||
	    (thd->lex->sql_command == SQLCOM_LOAD &&
	     thd->lex->duplicates == DUP_REPLACE)) {

		return(1);
	}

	if (thd->lex->sql_command == SQLCOM_INSERT &&
	    thd->lex->duplicates  == DUP_UPDATE) {

		return(1);
	}

	return(0);
}
}

/***********************************************************************
This function is used to prepare X/Open XA distributed transaction   */

int 
innobase_xa_prepare(
/*================*/
			/* out: 0 or error number */
	THD*	thd,	/* in: handle to the MySQL thread of the user
			whose XA transaction should be prepared */
	bool	all)	/* in: TRUE - commit transaction
			FALSE - the current SQL statement ended */
{
	int error = 0;
        trx_t* trx = check_trx_exists(thd);

        if (thd->lex->sql_command != SQLCOM_XA_PREPARE) {

                /* For ibbackup to work the order of transactions in binlog
                and InnoDB must be the same. Consider the situation

                  thread1> prepare; write to binlog; ...
                          <context switch>
                  thread2> prepare; write to binlog; commit
                  thread1>                           ... commit

                To ensure this will not happen we're taking the mutex on
                prepare, and releasing it on commit.

                Note: only do it for normal commits, done via ha_commit_trans.
                If 2pc protocol is executed by external transaction
                coordinator, it will be just a regular MySQL client
                executing XA PREPARE and XA COMMIT commands.
                In this case we cannot know how many minutes or hours
                will be between XA PREPARE and XA COMMIT, and we don't want
                to block for undefined period of time.
                */
                pthread_mutex_lock(&prepare_commit_mutex);
                trx->active_trans = 2;
        }

	if (!thd->variables.innodb_support_xa) {

		return(0);
	}

        trx->xid=thd->transaction.xid_state.xid;

	/* Release a possible FIFO ticket and search latch. Since we will
	reserve the kernel mutex, we have to release the search system latch
	first to obey the latching order. */

	innobase_release_stat_resources(trx);

	if (trx->active_trans == 0 && trx->conc_state != TRX_NOT_STARTED) {

	  sql_print_error("trx->active_trans == 0, but trx->conc_state != "
			  "TRX_NOT_STARTED");
	}

	if (all
	    || (!(thd->options & (OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN)))) {

                /* We were instructed to prepare the whole transaction, or
                this is an SQL statement end and autocommit is on */

                ut_ad(trx->active_trans);

		error = (int) trx_prepare_for_mysql(trx);
	} else {
	        /* We just mark the SQL statement ended and do not do a
		transaction prepare */

		if (trx->auto_inc_lock) {
			/* If we had reserved the auto-inc lock for some
			table in this SQL statement we release it now */

			row_unlock_table_autoinc_for_mysql(trx);
		}
		/* Store the current undo_no of the transaction so that we
		know where to roll back if we have to roll back the next
		SQL statement */

		trx_mark_sql_stat_end(trx);
	}

	/* Tell the InnoDB server that there might be work for utility
	threads: */

	srv_active_wake_master_thread();

        return error;
}

/***********************************************************************
This function is used to recover X/Open XA distributed transactions   */

int 
innobase_xa_recover(
/*================*/
				/* out: number of prepared transactions 
				stored in xid_list */
	XID*    xid_list, 	/* in/out: prepared transactions */
	uint	len)		/* in: number of slots in xid_list */
{
	if (len == 0 || xid_list == NULL) {

		return(0);
	}

	return(trx_recover_for_mysql(xid_list, len));
}

/***********************************************************************
This function is used to commit one X/Open XA distributed transaction
which is in the prepared state */

int 
innobase_commit_by_xid(
/*===================*/
			/* out: 0 or error number */
	XID*	xid)	/* in: X/Open XA transaction identification */
{
	trx_t*	trx;

	trx = trx_get_trx_by_xid(xid);

	if (trx) {
		innobase_commit_low(trx);
		
		return(XA_OK);
	} else {
		return(XAER_NOTA);
	}
}

/***********************************************************************
This function is used to rollback one X/Open XA distributed transaction
which is in the prepared state */

int 
innobase_rollback_by_xid(
/*=====================*/
			/* out: 0 or error number */
	XID	*xid)	/* in: X/Open XA transaction identification */
{
	trx_t*	trx;

	trx = trx_get_trx_by_xid(xid);

	if (trx) {
		return(innobase_rollback_trx(trx));
	} else {
		return(XAER_NOTA);
	}
}

/***********************************************************************
Create a consistent view for a cursor based on current transaction
which is created if the corresponding MySQL thread still lacks one.
This consistent view is then used inside of MySQL when accessing records 
using a cursor. */

void*
innobase_create_cursor_view(void)
/*=============================*/
			/* out: Pointer to cursor view or NULL */
{
	return(read_cursor_view_create_for_mysql(
					check_trx_exists(current_thd)));
}

/***********************************************************************
Close the given consistent cursor view of a transaction and restore
global read view to a transaction read view. Transaction is created if the 
corresponding MySQL thread still lacks one. */

void
innobase_close_cursor_view(
/*=======================*/
	void*	curview)/* in: Consistent read view to be closed */
{
	read_cursor_view_close_for_mysql(check_trx_exists(current_thd),
						(cursor_view_t*) curview);
}

/***********************************************************************
Set the given consistent cursor view to a transaction which is created 
if the corresponding MySQL thread still lacks one. If the given 
consistent cursor view is NULL global read view of a transaction is
restored to a transaction read view. */

void
innobase_set_cursor_view(
/*=====================*/
	void*	curview)/* in: Consistent cursor view to be set */
{
	read_cursor_set_for_mysql(check_trx_exists(current_thd), 
						(cursor_view_t*) curview);
}


bool ha_innobase::check_if_incompatible_data(HA_CREATE_INFO *info,
					     uint table_changes)
{
  if (table_changes != IS_EQUAL_YES)
    return COMPATIBLE_DATA_NO;
  
  /* Check that auto_increment value was not changed */
  if ((info->used_fields & HA_CREATE_USED_AUTO) &&
      info->auto_increment_value != 0)
    return COMPATIBLE_DATA_NO;
  
  /* Check that row format didn't change */
  if ((info->used_fields & HA_CREATE_USED_AUTO) &&
      get_row_type() != info->row_type)
    return COMPATIBLE_DATA_NO;

  return COMPATIBLE_DATA_YES;
}