# include	"../ingres.h"
# include	"../access.h"
# include	"../aux.h"
# include	"../lock.h"
# include	"../unix.h"


/*
**	access method buffers and other data areas for buffer maintenance
*/

struct accbuf	Acc_buf[NACCBUFS];	/* the buffers */
struct accbuf	*Acc_head;		/* head of usage list */
struct accbuf	*Acc_tail;		/* tail of usage list */
struct lockreq	Lock;

/*
**	structs for admin file data
*/

struct admin	Admin;

/*
**	global flag indicating if access methods
**	have been initialized.
*/

int	Acc_init =	FALSE;

/* tTf flag 80	TTF	resetacc()*/

resetacc(buf)
struct accbuf	*buf;

/*
**	Flush the indicated page and reset all
**	important information including the name
*/

{
	register struct accbuf	*b;
	register int		i;

	b = buf;
	if (b == 0)
		b = Acc_head;
#	ifdef xATR3
	if (tTf(80, 0))
		printf("RESETACC: (%u=%s)\n", b, locv(b->rel_tupid));
#	endif

	i = pageflush(b);	/* write the page if necessary */
	b->rel_tupid = -1;
	b->filedesc = -1;
	b->thispage = -1;
	b->bufstatus = 0;
	return (i);
}


/*
**	initialize access method data areas
*/

/* tTf flag 81	TTF	acc_init()	*/

acc_init()
{
	register int		i;
	register struct accbuf	*last;
	register struct accbuf	*b;
	struct stat		stbuf;
	extern int		errno;

#	ifdef xATR3
	tTfp(81, 0, "ACC_INIT=%d\n", Acc_init);
#	endif

	if (Acc_init)
		return (0);	/* already initialized */
	last = 0;
	for (b = Acc_buf; b < &Acc_buf[NACCBUFS]; )
	{
		resetacc(b);
		b->modb = last;
		last = b;
		b++;
		last->modf = b;
	}
	last->modf = 0;
	Acc_head = Acc_buf;
	Acc_tail = last;

	/* get the admin file */
	readadmin();

	/*
	** Set up locking information. If the database has concurrency
	** control then Lockrel = TRUE and the concurrency device will
	** be opened for writing. If there is no concurrency for the
	** data base or if the lock device isn't installed, then Alockdes
	** = -1 and no locking will (or can) occure.
	*/
	Lockrel = (Admin.adhdr.adflags & A_DBCONCUR) != 0;
	if (Lockrel && Alockdes < 0)
		Alockdes = open("/dev/ingreslock", 1);
	errno = 0;	/* clear in case /dev/ingreslock isn't available */
	Acclock = TRUE;
	stat(".", &stbuf);
	bmove(&stbuf, Lock.dbnode, 4);

	Acc_init = TRUE;
}


/*
**	place buffer at top of LRU list
*/

top_acc(buf)
struct accbuf	*buf;
{
	register struct accbuf	*b;

	b = buf;

	if (b == Acc_head)
		return (0);
	if (b == Acc_tail)
		Acc_tail = b->modb;
	else
		b->modf->modb = b->modb;
	b->modb->modf = b->modf;
	Acc_head->modb = b;
	b->modf = Acc_head;
	Acc_head = b;
	b->modb = 0;
	return (0);
}

flush_rel(d1, resetflag)
struct descriptor	*d1;
int			resetflag;

/*
** Flush_rel -- flush all pages associated with the relation
**	described by the descriptor. If resetflag is TRUE,
**	then the buffers are reset so the pages will not be
**	found on subsequent calls to find_page().
**
**	Returns "or'ed" result from calls to pageflush.
*/

{
	register struct descriptor	*d;
	register struct accbuf		*b;
	register int			i;

	d = d1;
	i = 0;

	for (b = Acc_head; b != NULL; b = b->modf)
	{
		if (d->reltid == b->rel_tupid)
		{
			if (resetflag)
				i |= resetacc(b);
			else
				i |= pageflush(b);
		}
	}

	return (i);
}


/*
**	CHOOSE_BUF -- Try to find an empty buffer for assignment.
**		If there is no empty buffer, pick the last buffer
**		in the LRU queue and make sure it is flushed.
**
**		Choose_buf guarantees that the buffer will be reset
**		if it was used previously for a different relation.
*/

/* tTf flag 82.8	TTF	choose_buf() */

struct accbuf	*choose_buf(dx, pageid)
struct descriptor	*dx;
long			pageid;

/*
**	Choose_buf -- choose a buffer for use with the given relation on
**	the given page. The current algorithm is to allow only one buffer
**	per relation. If a relation does not have a buffer, it is given a
**	free one (if any) or else the Least Recently Used.
*/

{
	register struct accbuf		*b, *free;
	register struct descriptor	*d;
	struct accbuf			*mine;

	d = dx;
	free = mine = NULL;

	for (b = Acc_head; b != 0; b = b->modf)
	{
		if (b->rel_tupid == -1)
			free = b;
		else
			if (d->reltid == b->rel_tupid)
			{
				if (pageid == b->thispage)
				{
					if (d->relopn < 0)
						b->filedesc = d->relfp;
					return (b);
				}
				mine = b;
			}
	}

	/*
	** "Free" and "Mine" now reflect the current state of the buffers.
	** There is no buffer with the currently requested page
	*/

#	ifdef xATR3
	tTfp(82, 9, "choosebuf free %l,mine %l\n", free, mine);
#	endif

	/* no current buffer. Choose a free one or LRU */
	if (free == NULL)
		free = resetacc(Acc_tail) ? NULL : Acc_tail;	/* error if can't reset the LRU */
	if (free)
	{
		/* copy relevent material (in this order in case of rubout */
		free->filedesc = d->relfp;
		free->rel_tupid = d->reltid;
	}

#	ifdef xATR1
	if (tTf(82, 8))
		printf("choosebuf:rets %l\n", free);
#	endif
	return (free);
}

/*
**	ACC_CLOSE -- flush any buffers left around
**		and then close the files for relation & attribute.
**		The relation and attribute relation are normally left open
**		until the end of an INGRES session but must be closed
**		and re-opened in the dbu's whenever a new overlay is loaded.
*/

acc_close()
{
	register int	i;

	if (i = pageflush(0))
		syserr("acc_close: pageflush %d, i");
	close(Admin.adreld.relfp);
	close(Admin.adattd.relfp);
	Admin.adreld.relopn = Admin.adattd.relopn = 0;
	if (Alockdes >= 0)
		close(Alockdes);
	Alockdes = -1;
	Acc_init = FALSE;
	return (0);
}