src/hd/holofile.c

/* Copyright (c) 1997 Silicon Graphics, Inc. */

#ifndef lint
static char SCCSid[] = "$SunId$ SGI";
#endif

/*
 * Routines for managing holodeck files
 *
 *      9/30/97 GWLarson
 */

#include "holo.h"

#ifndef CACHESIZE
#define CACHESIZE       16      /* default cache size (Mbytes, 0==inf) */
#endif
#ifndef FREEBEAMS
#define FREEBEAMS       512     /* maximum beams to free at a time */
#endif
#ifndef PCTFREE
#define PCTFREE         20      /* maximum fraction to free (%) */
#endif
#ifndef MAXFRAG
#define MAXFRAG         32767   /* maximum fragments/file to track (0==inf) */
#endif

#ifndef BSD
#define write   writebuf        /* safe i/o routines */
#define read    readbuf
#endif

#define FRAGBLK         256     /* number of fragments to allocate at a time */

unsigned        hdcachesize = CACHESIZE*1024*1024;      /* target cache size */
unsigned long   hdclock;        /* clock value */

HOLO    *hdlist[HDMAX+1];       /* holodeck pointers (NULL term.) */

static struct fraglist {
        short   nlinks;         /* number of holodeck sections using us */
        short   writerr;        /* write error encountered */
        int     nfrags;         /* number of known fragments */
        BEAMI   *fi;            /* fragments, descending file position */
        long    flen;           /* last known file length */
} *hdfragl;             /* fragment lists, indexed by file descriptor */

static int      nhdfragls;      /* size of hdfragl array */


hdattach(fd)            /* start tracking file fragments for some section */
register int    fd;
{
        if (fd >= nhdfragls) {
                if (nhdfragls)
                        hdfragl = (struct fraglist *)realloc((char *)hdfragl,
                                        (fd+1)*sizeof(struct fraglist));
                else
                        hdfragl = (struct fraglist *)malloc(
                                        (fd+1)*sizeof(struct fraglist));
                if (hdfragl == NULL)
                        error(SYSTEM, "out of memory in hdattach");
                bzero((char *)(hdfragl+nhdfragls),
                                (fd+1-nhdfragls)*sizeof(struct fraglist));
                nhdfragls = fd+1;
        }
        hdfragl[fd].nlinks++;
        hdfragl[fd].flen = lseek(fd, 0L, 2);    /* get file length */
}


/* Do we need a routine to locate file fragments given known occupants? */


hdrelease(fd)           /* stop tracking file fragments for some section */
register int    fd;
{
        if (fd < 0 | fd >= nhdfragls || !hdfragl[fd].nlinks)
                return;
        if (!--hdfragl[fd].nlinks && hdfragl[fd].nfrags) {
                free((char *)hdfragl[fd].fi);
                hdfragl[fd].fi = NULL;
                hdfragl[fd].nfrags = 0;
        }
}


markdirty(hp)                   /* mark holodeck section directory dirty */
register HOLO   *hp;
{
        static BEAMI    smudge = {0, -1};

        if (hp->dirty)          /* already marked? */
                return;
        hp->dirty = 1;
        if (lseek(hp->fd, biglob(hp)->fo+(nbeams(hp)-1)*sizeof(BEAMI), 0) < 0
                        || write(hp->fd, (char *)&smudge,
                                        sizeof(BEAMI)) != sizeof(BEAMI))
                error(SYSTEM, "seek/write error in markdirty");
}


HOLO *
hdinit(fd, hproto)      /* initialize a holodeck section in a file */
int     fd;                     /* corresponding file descriptor */
HDGRID  *hproto;                /* holodeck section grid */
{
        long    fpos;
        register HOLO   *hp;
        register int    n;
                                        /* prepare for system errors */
        errno = 0;
        if ((fpos = lseek(fd, 0L, 1)) < 0)
                error(SYSTEM, "cannot determine holodeck file position");
        if (hproto == NULL) {           /* assume we're loading it */
                HDGRID  hpr;
                                                /* load header */
                if (read(fd, (char *)&hpr, sizeof(HDGRID)) != sizeof(HDGRID))
                        error(SYSTEM, "cannot load holodeck header");
                                                /* allocate grid */
                if ((hp = hdalloc(&hpr)) == NULL)
                        goto memerr;
                                                /* load beam directory */
                n = nbeams(hp)*sizeof(BEAMI);
                if (read(fd, (char *)(hp->bi+1), n) != n)
                        error(SYSTEM, "failure loading holodeck directory");
                                                /* check that it's clean */
                if (hp->bi[nbeams(hp)].fo < 0)
                        error(USER, "dirty holodeck section");
        } else {                        /* assume we're creating it */
                if ((hp = hdalloc(hproto)) == NULL)
                        goto memerr;
                                                /* write header and skeleton */
                n = nbeams(hp)*sizeof(BEAMI);
                if (write(fd, (char *)hproto, sizeof(HDGRID)) !=
                                        sizeof(HDGRID) ||
                                write(fd, (char *)(hp->bi+1), n) != n)
                        error(SYSTEM, "cannot write header to holodeck file");
        }
        hp->fd = fd;    
        hp->dirty = 0;
        biglob(hp)->fo = fpos + sizeof(HDGRID);
                                        /* start tracking fragments */
        hdattach(fd);
                                        /* check rays on disk */
        fpos = hdfilen(fd);
        biglob(hp)->nrd = 0;
        for (n = hproto == NULL ? nbeams(hp) : 0; n > 0; n--)
                if (hp->bi[n].nrd)
                        if (hp->bi[n].fo + hp->bi[n].nrd > fpos)
                                hp->bi[n].nrd = 0;      /* off end */
                        else
                                biglob(hp)->nrd += hp->bi[n].nrd;
                                        /* add to holodeck list */
        for (n = 0; n < HDMAX; n++)
                if (hdlist[n] == NULL) {
                        hdlist[n] = hp;
                        break;
                }
                                        /* all done */
        return(hp);
memerr:
        error(SYSTEM, "cannot allocate holodeck grid");
}


int
hdsync(hp, all)                 /* update beams and directory on disk */
register HOLO   *hp;
int     all;
{
        register int    j, n;

        if (hp == NULL) {               /* do all holodecks */
                n = 0;
                for (j = 0; hdlist[j] != NULL; j++)
                        n += hdsync(hdlist[j], all);
                return(n);
        }
                                        /* sync the beams */
        for (j = (all ? nbeams(hp) : 0); j > 0; j--)
                if (hp->bl[j] != NULL)
                        hdsyncbeam(hp, j);
        if (!hp->dirty)                 /* directory clean? */
                return(0);
        errno = 0;
        if (lseek(hp->fd, biglob(hp)->fo, 0) < 0)
                error(SYSTEM, "cannot seek on holodeck file");
        n = nbeams(hp)*sizeof(BEAMI);
        if (write(hp->fd, (char *)(hp->bi+1), n) != n)
                error(SYSTEM, "cannot update holodeck section directory");
        hp->dirty = 0;
        return(1);
}


unsigned
hdmemuse(all)           /* return memory usage (in bytes) */
int     all;                    /* include overhead (painful) */
{
        long    total = 0;
        register int    i, j;

        for (j = 0; hdlist[j] != NULL; j++) {
                total += blglob(hdlist[j])->nrm * sizeof(RAYVAL);
                if (all) {
                        total += sizeof(HOLO) + sizeof(BEAM *) +
                                        nbeams(hdlist[j]) *
                                                (sizeof(BEAM *)+sizeof(BEAMI));
                        for (i = nbeams(hdlist[j]); i > 0; i--)
                                if (hdlist[j]->bl[i] != NULL)
                                        total += sizeof(BEAM);
                }
        }
        if (all)
                for (j = 0; j < nhdfragls; j++) {
                        total += sizeof(struct fraglist);
                        if (hdfragl[j].nfrags)
                                total += FRAGBLK*sizeof(BEAMI) *
                                        ((hdfragl[j].nfrags-1)/FRAGBLK + 1) ;
                }
        return(total);
}


long
hdfilen(fd)             /* return file length for fd */
int     fd;
{
        long    fpos, flen;

        if (fd < 0)
                return(-1);
        if (fd >= nhdfragls || !hdfragl[fd].nlinks) {
                if ((fpos = lseek(fd, 0L, 1)) < 0)
                        return(-1);
                flen = lseek(fd, 0L, 2);
                lseek(fd, fpos, 0);
                return(flen);
        }
        return(hdfragl[fd].flen);
}


long
hdfiluse(fd, all)       /* compute file usage (in bytes) */
int     fd;                     /* open file descriptor to check */
int     all;                    /* include overhead and unflushed data */
{
        long    total = 0;
        register int    i, j;

        for (j = 0; hdlist[j] != NULL; j++) {
                if (hdlist[j]->fd != fd)
                        continue;
                total += biglob(hdlist[j])->nrd * sizeof(RAYVAL);
                if (all) {
                        for (i = nbeams(hdlist[j]); i > 0; i--)
                                if (hdlist[j]->bl[i] != NULL)
                                        total += sizeof(RAYVAL) *
                                                (hdlist[j]->bl[i]->nrm -
                                                hdlist[j]->bi[i].nrd);
                        total += sizeof(HDGRID) +
                                        nbeams(hdlist[j])*sizeof(BEAMI);
                }
        }
        return(total);          /* does not include fragments */
}


RAYVAL *
hdnewrays(hp, i, nr)    /* allocate space for add'l rays and return pointer */
register HOLO   *hp;
register int    i;
int     nr;                     /* number of new rays desired */
{
        RAYVAL  *p;
        int     n;

        if (nr <= 0)
                return(NULL);
        if (i < 1 | i > nbeams(hp))
                error(CONSISTENCY, "bad beam index given to hdnewrays");
        if (hp->bl[i] != NULL)
                hp->bl[i]->tick = hdclock;      /* preempt swap */
        if (hdcachesize > 0 && hdmemuse(0) >= hdcachesize)
                hdfreecache(PCTFREE, NULL);     /* free some space */
        errno = 0;
        if (hp->bl[i] == NULL) {                /* allocate (and load) */
                n = hp->bi[i].nrd + nr;
                if ((hp->bl[i] = (BEAM *)malloc(hdbsiz(n))) == NULL)
                        goto memerr;
                blglob(hp)->nrm += n;
                if (n = hp->bl[i]->nrm = hp->bi[i].nrd) {
                        if (lseek(hp->fd, hp->bi[i].fo, 0) < 0)
                                error(SYSTEM, "seek error on holodeck file");
                        n *= sizeof(RAYVAL);
                        if (read(hp->fd, (char *)hdbray(hp->bl[i]), n) != n)
                                error(SYSTEM,
                                "error reading beam from holodeck file");
                }
        } else {                                /* just grow in memory */
                hp->bl[i] = (BEAM *)realloc( (char *)hp->bl[i],
                                hdbsiz(hp->bl[i]->nrm + nr) );
                if (hp->bl[i] == NULL)
                        goto memerr;
                blglob(hp)->nrm += nr;
        }
        p = hdbray(hp->bl[i]) + hp->bl[i]->nrm;
        hp->bl[i]->nrm += nr;                   /* update in-core structure */
        bzero((char *)p, nr*sizeof(RAYVAL));
        hp->bl[i]->tick = hdclock;              /* update LRU clock */
        blglob(hp)->tick = hdclock++;
        return(p);                              /* point to new rays */
memerr:
        error(SYSTEM, "out of memory in hdnewrays");
}


BEAM *
hdgetbeam(hp, i)        /* get beam (from file if necessary) */
register HOLO   *hp;
register int    i;
{
        register int    n;

        if (i < 1 | i > nbeams(hp))
                error(CONSISTENCY, "bad beam index given to hdgetbeam");
        if (hp->bl[i] == NULL) {                /* load from disk */
                if (!(n = hp->bi[i].nrd))
                        return(NULL);
                if (hdcachesize > 0 && hdmemuse(0) >= hdcachesize)
                        hdfreecache(PCTFREE, NULL);     /* get free space */
                errno = 0;
                if ((hp->bl[i] = (BEAM *)malloc(hdbsiz(n))) == NULL)
                        error(SYSTEM, "cannot allocate memory for beam");
                blglob(hp)->nrm += hp->bl[i]->nrm = n;
                if (lseek(hp->fd, hp->bi[i].fo, 0) < 0)
                        error(SYSTEM, "seek error on holodeck file");
                n *= sizeof(RAYVAL);
                if (read(hp->fd, (char *)hdbray(hp->bl[i]), n) != n)
                        error(SYSTEM, "error reading beam from holodeck file");
        }
        hp->bl[i]->tick = hdclock;      /* update LRU clock */
        blglob(hp)->tick = hdclock++;
        return(hp->bl[i]);
}


int
hdfilord(hb1, hb2)      /* order beams for quick loading */
register HDBEAMI        *hb1, *hb2;
{
        register long   c;
                                /* residents go first */
        if (hb2->h->bl[hb2->b] != NULL)
                return(hb1->h->bl[hb1->b] == NULL);
        if (hb1->h->bl[hb1->b] != NULL)
                return(-1);
                                /* otherwise sort by file descriptor */
        if ((c = hb1->h->fd - hb2->h->fd))
                return(c);
                                /* then by position in file */
        c = hb1->h->bi[hb1->b].fo - hb2->h->bi[hb2->b].fo;
        return(c > 0 ? 1 : c < 0 ? -1 : 0);
}


hdloadbeams(hb, n, bf)  /* load a list of beams in optimal order */
register HDBEAMI        *hb;    /* list gets sorted by hdfilord() */
int     n;                      /* list length */
int     (*bf)();                /* callback function (optional) */
{
        unsigned        origcachesize, memuse;
        register BEAM   *bp;
        int     bytesloaded, needbytes, bytes2free;
        register int    i;
                                        /* precheck consistency */
        for (i = n; i--; )
                if (hb[i].h == NULL || hb[i].b < 1 | hb[i].b > nbeams(hb[i].h))
                        error(CONSISTENCY, "bad beam in hdloadbeams");
                                        /* sort list for optimal access */
        qsort((char *)hb, n, sizeof(HDBEAMI), hdfilord);
        bytesloaded = 0;                /* run through loaded beams */
        for ( ; n && (bp = hb->h->bl[hb->b]) != NULL; n--, hb++) {
                bp->tick = hdclock;             /* preempt swap */
                bytesloaded += bp->nrm;
                if (bf != NULL)
                        (*bf)(bp, hb->h, hb->b);
        }
        bytesloaded *= sizeof(RAYVAL);
        if ((origcachesize = hdcachesize) > 0) {
                needbytes = 0;          /* figure out memory needs */
                for (i = n; i--; )
                        needbytes += hb[i].h->bi[hb[i].b].nrd;
                needbytes *= sizeof(RAYVAL);
                do {                            /* free enough memory */
                        memuse = hdmemuse(0);
                        bytes2free = needbytes - (int)(hdcachesize-memuse);
                        if (bytes2free > (int)(memuse - bytesloaded))
                                bytes2free = memuse - bytesloaded;
                } while (bytes2free > 0 &&
                                hdfreecache(100*bytes2free/memuse, NULL) < 0);
                hdcachesize = 0;                /* load beams w/o swap */
        }
        for (i = 0; i < n; i++)
                if ((bp = hdgetbeam(hb[i].h, hb[i].b)) != NULL && bf != NULL)
                        (*bf)(bp, hb[i].h, hb[i].b);
        hdcachesize = origcachesize;    /* resume dynamic swapping */
}


int
hdsyncbeam(hp, i)               /* sync beam in memory with beam on disk */
register HOLO   *hp;
register int    i;
{
        unsigned int    nrays;
        long    nfo;
        unsigned int    n;
                                        /* check file status */
        if (hdfragl[hp->fd].writerr)
                return(-1);
#ifdef DEBUG
        if (i < 1 | i > nbeams(hp))
                error(CONSISTENCY, "bad beam index in hdsyncbeam");
#endif
                                        /* is current fragment OK? */
        if (hp->bl[i] == NULL || (nrays = hp->bl[i]->nrm) == hp->bi[i].nrd)
                return(0);
                                        /* locate fragment */
        if (hp->fd >= nhdfragls || !hdfragl[hp->fd].nlinks) /* untracked */
                hp->bi[i].fo = lseek(hp->fd, 0L, 2);

        else if (hp->bi[i].fo + hp->bi[i].nrd*sizeof(RAYVAL) ==
                        hdfragl[hp->fd].flen)           /* EOF special case */
                hdfragl[hp->fd].flen = (nfo=hp->bi[i].fo) + nrays*sizeof(RAYVAL);

        else {                                          /* general case */
                register struct fraglist        *f = &hdfragl[hp->fd];
                register int    j, k;
                n = f->nfrags;          /* relinquish old fragment */
                if (hp->bi[i].nrd) {
                        j = f->nfrags++;
#if MAXFRAG
                        if (j >= MAXFRAG-1)
                                f->nfrags--;
#endif
                        if (j % FRAGBLK == 0) {         /* more frag. space */
                                if (f->fi == NULL)
                                        f->fi = (BEAMI *)malloc(
                                                        FRAGBLK*sizeof(BEAMI));
                                else
                                        f->fi = (BEAMI *)realloc((char *)f->fi,
                                                (j+FRAGBLK)*sizeof(BEAMI));
                                if (f->fi == NULL)
                                        error(SYSTEM,
                                                "out of memory in hdsyncbeam");
                        }
                        for ( ; ; j--) {        /* insert in descending list */
                                if (!j || hp->bi[i].fo < f->fi[j-1].fo) {
                                        f->fi[j].fo = hp->bi[i].fo;
                                        f->fi[j].nrd = hp->bi[i].nrd;
                                        break;
                                }
                                copystruct(f->fi+j, f->fi+(j-1));
                        }
                                        /* coalesce adjacent fragments */
                        if (j && f->fi[j-1].fo == f->fi[j].fo +
                                        f->fi[j].nrd*sizeof(RAYVAL)) {
                                f->fi[j].nrd += f->fi[j-1].nrd;
                                f->fi[j-1].nrd = 0;
                                n = j-1;
                        }
                        if (j+1 < f->nfrags && f->fi[j].fo == f->fi[j+1].fo +
                                        f->fi[j+1].nrd*sizeof(RAYVAL)) {
                                f->fi[j+1].nrd += f->fi[j].nrd;
                                f->fi[j].nrd = 0;
                                if (j < n) n = j;
                        }
                }
                k = -1;                 /* find closest-sized fragment */
                for (j = (nrays ? f->nfrags : 0); j-- > 0; )
                        if (f->fi[j].nrd >= nrays &&
                                        (k < 0 || f->fi[j].nrd < f->fi[k].nrd))
                                if (f->fi[k=j].nrd == nrays)
                                        break;
                if (k < 0) {            /* no fragment -- extend file */
                        nfo = f->flen;
                        f->flen += nrays*sizeof(RAYVAL);
                } else {                /* else use fragment */
                        nfo = f->fi[k].fo;
                        f->fi[k].fo += nrays*sizeof(RAYVAL);
                        if (!(f->fi[k].nrd -= nrays) && k < n)
                                n = k;
                }
                                        /* delete empty remnants */
                for (j = k = n; k < f->nfrags; j++, k++) {
                        while (f->fi[k].nrd == 0)
                                if (++k >= f->nfrags)
                                        goto endloop;
                        if (k > j)
                                copystruct(f->fi+j, f->fi+k);
                }
        endloop:
                f->nfrags = j;
        }
        if (nrays) {            /* write the new fragment */
                errno = 0;
                if (lseek(hp->fd, nfo, 0) < 0)
                        error(SYSTEM, "cannot seek on holodeck file");
                n = hp->bl[i]->nrm * sizeof(RAYVAL);
                if (write(hp->fd, (char *)hdbray(hp->bl[i]), n) != n) {
                        hdfragl[hp->fd].writerr++;
                        hdsync(hp, 0);          /* sync directory */
                        error(SYSTEM, "write error in hdsyncbeam");
                }
        }
        biglob(hp)->nrd += nrays - hp->bi[i].nrd;
        hp->bi[i].nrd = nrays;
        hp->bi[i].fo = nfo;
        markdirty(hp);          /* section directory now out of date */
        return(1);
}


int
hdfreebeam(hp, i)               /* free beam, writing if dirty */
register HOLO   *hp;
register int    i;
{
        int     nchanged;

        if (hp == NULL) {               /* clear all holodecks */
                nchanged = 0;
                for (i = 0; hdlist[i] != NULL; i++)
                        nchanged += hdfreebeam(hdlist[i], 0);
                return(nchanged);
        }
        if (hdfragl[hp->fd].writerr)    /* check for file error */
                return(0);
        if (i == 0) {                   /* clear entire holodeck */
                nchanged = 0;
                for (i = nbeams(hp); i > 0; i--)
                        if (hp->bl[i] != NULL)
                                nchanged += hdfreebeam(hp, i);
                return(nchanged);
        }
#ifdef DEBUG
        if (i < 1 | i > nbeams(hp))
                error(CONSISTENCY, "bad beam index to hdfreebeam");
#endif
        if (hp->bl[i] == NULL)
                return(0);
                                        /* check for additions */
        nchanged = hp->bl[i]->nrm - hp->bi[i].nrd;
        if (nchanged)
                hdsyncbeam(hp, i);              /* write new fragment */
        blglob(hp)->nrm -= hp->bl[i]->nrm;
        free((char *)hp->bl[i]);                /* free memory */
        hp->bl[i] = NULL;
        return(nchanged);
}


int
hdkillbeam(hp, i)               /* delete beam from holodeck */
register HOLO   *hp;
register int    i;
{
        static BEAM     emptybeam;
        int     nchanged;

        if (hp == NULL) {               /* clobber all holodecks */
                nchanged = 0;
                for (i = 0; hdlist[i] != NULL; i++)
                        nchanged += hdkillbeam(hdlist[i], 0);
                return(nchanged);
        }
        if (i == 0) {                   /* clobber entire holodeck */
                nchanged = 0;
                for (i = nbeams(hp); i > 0; i--)
                        if (hp->bi[i].nrd > 0 || hp->bl[i] != NULL)
                                nchanged += hdkillbeam(hp, i);
#ifdef DEBUG
                if (biglob(hp)->nrd != 0 | blglob(hp)->nrm != 0)
                        error(CONSISTENCY, "bad beam count in hdkillbeam");
#endif
                return(nchanged);
        }
#ifdef DEBUG
        if (i < 1 | i > nbeams(hp))
                error(CONSISTENCY, "bad beam index to hdkillbeam");
#endif
        if (hp->bl[i] != NULL) {        /* free memory */
                blglob(hp)->nrm -= nchanged = hp->bl[i]->nrm;
                free((char *)hp->bl[i]);
        } else
                nchanged = hp->bi[i].nrd;
        if (hp->bi[i].nrd) {            /* free file fragment */
                hp->bl[i] = &emptybeam;
                hdsyncbeam(hp, i);
        }
        hp->bl[i] = NULL;
        return(nchanged);
}


int
hdlrulist(hb, nents, n, hp)     /* add beams from holodeck to LRU list */
register HDBEAMI        *hb;            /* beam list */
int     nents;                          /* current list length */
int     n;                              /* maximum list length */
register HOLO   *hp;                    /* section we're adding from */
{
        register int    i, j;
                                        /* insert each beam from hp */
        for (i = nbeams(hp); i > 0; i--) {
                if (hp->bl[i] == NULL)          /* check if loaded */
                        continue;
#if 0
                if (hp->bl[i]->tick == hdclock) /* preempt swap? */
                        continue;
#endif
                if ((j = ++nents) >= n)         /* grow list if we can */
                        nents--;
                for ( ; ; ) {                   /* bubble into place */
                        if (!--j || hp->bl[i]->tick >=
                                        hb[j-1].h->bl[hb[j-1].b]->tick) {
                                hb[j].h = hp;
                                hb[j].b = i;
                                break;
                        }
                        copystruct(hb+j, hb+(j-1));
                }
        }
        return(nents);                  /* return new list length */
}


int
hdfreecache(pct, honly)         /* free up cache space, writing changes */
int     pct;                            /* maximum percentage to free */
register HOLO   *honly;                 /* NULL means check all */
{
        HDBEAMI hb[FREEBEAMS];
        int     freetarget;
        int     n;
        register int    i;
                                                /* compute free target */
        freetarget = (honly != NULL) ? blglob(honly)->nrm :
                        hdmemuse(0)/sizeof(RAYVAL) ;
        freetarget = freetarget*pct/100;
        if (freetarget <= 0)
                return(0);
                                                /* find least recently used */
        n = 0;
        if (honly != NULL)
                n = hdlrulist(hb, n, FREEBEAMS, honly);
        else
                for (i = 0; hdlist[i] != NULL; i++)
                        n = hdlrulist(hb, n, FREEBEAMS, hdlist[i]);
                                                /* free LRU beams */
        for (i = 0; i < n; i++) {
                hdfreebeam(hb[i].h, hb[i].b);
                if ((freetarget -= hb[i].h->bi[hb[i].b].nrd) <= 0)
                        break;
        }
        hdsync(honly, 0);       /* synchronize directories as necessary */
        return(-freetarget);    /* return how far past goal we went */
}


hddone(hp)              /* clean up holodeck section and free */
register HOLO   *hp;            /* NULL means clean up all */
{
        register int    i;

        if (hp == NULL) {               /* NULL means clean up everything */
                while (hdlist[0] != NULL)
                        hddone(hdlist[0]);
                return;
        }
                                        /* flush all data and free memory */
        hdflush(hp);
                                        /* release fragment resources */
        hdrelease(hp->fd);
                                        /* remove hp from active list */
        for (i = 0; hdlist[i] != NULL; i++)
                if (hdlist[i] == hp) {
                        while ((hdlist[i] = hdlist[i+1]) != NULL)
                                i++;
                        break;
                }
        free((char *)hp->bl);           /* free beam list */
        free((char *)hp);               /* free holodeck struct */
}
Revision:	3.17
Committed:	Thu Jan 1 13:00:14 1998 UTC (26 years, 3 months ago) by gregl
Content type:	text/plain
Branch:	MAIN
Changes since 3.16:	+23 -14 lines
Log Message:	increased interactive update rate with periodic display flushing
#	Content
1	/* Copyright (c) 1997 Silicon Graphics, Inc. */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ SGI";
5	#endif
6
7	/*
8	* Routines for managing holodeck files
9	*
10	* 9/30/97 GWLarson
11	*/
12
13	#include "holo.h"
14
15	#ifndef CACHESIZE
16	#define CACHESIZE 16 /* default cache size (Mbytes, 0==inf) */
17	#endif
18	#ifndef FREEBEAMS
19	#define FREEBEAMS 512 /* maximum beams to free at a time */
20	#endif
21	#ifndef PCTFREE
22	#define PCTFREE 20 /* maximum fraction to free (%) */
23	#endif
24	#ifndef MAXFRAG
25	#define MAXFRAG 32767 /* maximum fragments/file to track (0==inf) */
26	#endif
27
28	#ifndef BSD
29	#define write writebuf /* safe i/o routines */
30	#define read readbuf
31	#endif
32
33	#define FRAGBLK 256 /* number of fragments to allocate at a time */
34
35	unsigned hdcachesize = CACHESIZE10241024; /* target cache size */
36	unsigned long hdclock; /* clock value */
37
38	HOLO hdlist[HDMAX+1]; / holodeck pointers (NULL term.) */
39
40	static struct fraglist {
41	short nlinks; /* number of holodeck sections using us */
42	short writerr; /* write error encountered */
43	int nfrags; /* number of known fragments */
44	BEAMI fi; / fragments, descending file position */
45	long flen; /* last known file length */
46	} hdfragl; / fragment lists, indexed by file descriptor */
47
48	static int nhdfragls; /* size of hdfragl array */
49
50
51	hdattach(fd) /* start tracking file fragments for some section */
52	register int fd;
53	{
54	if (fd >= nhdfragls) {
55	if (nhdfragls)
56	hdfragl = (struct fraglist )realloc((char )hdfragl,
57	(fd+1)*sizeof(struct fraglist));
58	else
59	hdfragl = (struct fraglist *)malloc(
60	(fd+1)*sizeof(struct fraglist));
61	if (hdfragl == NULL)
62	error(SYSTEM, "out of memory in hdattach");
63	bzero((char *)(hdfragl+nhdfragls),
64	(fd+1-nhdfragls)*sizeof(struct fraglist));
65	nhdfragls = fd+1;
66	}
67	hdfragl[fd].nlinks++;
68	hdfragl[fd].flen = lseek(fd, 0L, 2); /* get file length */
69	}
70
71
72	/* Do we need a routine to locate file fragments given known occupants? */
73
74
75	hdrelease(fd) /* stop tracking file fragments for some section */
76	register int fd;
77	{
78	if (fd < 0 \| fd >= nhdfragls \|\| !hdfragl[fd].nlinks)
79	return;
80	if (!--hdfragl[fd].nlinks && hdfragl[fd].nfrags) {
81	free((char *)hdfragl[fd].fi);
82	hdfragl[fd].fi = NULL;
83	hdfragl[fd].nfrags = 0;
84	}
85	}
86
87
88	markdirty(hp) /* mark holodeck section directory dirty */
89	register HOLO *hp;
90	{
91	static BEAMI smudge = {0, -1};
92
93	if (hp->dirty) /* already marked? */
94	return;
95	hp->dirty = 1;
96	if (lseek(hp->fd, biglob(hp)->fo+(nbeams(hp)-1)*sizeof(BEAMI), 0) < 0
97	\|\| write(hp->fd, (char *)&smudge,
98	sizeof(BEAMI)) != sizeof(BEAMI))
99	error(SYSTEM, "seek/write error in markdirty");
100	}
101
102
103	HOLO *
104	hdinit(fd, hproto) /* initialize a holodeck section in a file */
105	int fd; /* corresponding file descriptor */
106	HDGRID hproto; / holodeck section grid */
107	{
108	long fpos;
109	register HOLO *hp;
110	register int n;
111	/* prepare for system errors */
112	errno = 0;
113	if ((fpos = lseek(fd, 0L, 1)) < 0)
114	error(SYSTEM, "cannot determine holodeck file position");
115	if (hproto == NULL) { /* assume we're loading it */
116	HDGRID hpr;
117	/* load header */
118	if (read(fd, (char *)&hpr, sizeof(HDGRID)) != sizeof(HDGRID))
119	error(SYSTEM, "cannot load holodeck header");
120	/* allocate grid */
121	if ((hp = hdalloc(&hpr)) == NULL)
122	goto memerr;
123	/* load beam directory */
124	n = nbeams(hp)*sizeof(BEAMI);
125	if (read(fd, (char *)(hp->bi+1), n) != n)
126	error(SYSTEM, "failure loading holodeck directory");
127	/* check that it's clean */
128	if (hp->bi[nbeams(hp)].fo < 0)
129	error(USER, "dirty holodeck section");
130	} else { /* assume we're creating it */
131	if ((hp = hdalloc(hproto)) == NULL)
132	goto memerr;
133	/* write header and skeleton */
134	n = nbeams(hp)*sizeof(BEAMI);
135	if (write(fd, (char *)hproto, sizeof(HDGRID)) !=
136	sizeof(HDGRID) \|\|
137	write(fd, (char *)(hp->bi+1), n) != n)
138	error(SYSTEM, "cannot write header to holodeck file");
139	}
140	hp->fd = fd;
141	hp->dirty = 0;
142	biglob(hp)->fo = fpos + sizeof(HDGRID);
143	/* start tracking fragments */
144	hdattach(fd);
145	/* check rays on disk */
146	fpos = hdfilen(fd);
147	biglob(hp)->nrd = 0;
148	for (n = hproto == NULL ? nbeams(hp) : 0; n > 0; n--)
149	if (hp->bi[n].nrd)
150	if (hp->bi[n].fo + hp->bi[n].nrd > fpos)
151	hp->bi[n].nrd = 0; /* off end */
152	else
153	biglob(hp)->nrd += hp->bi[n].nrd;
154	/* add to holodeck list */
155	for (n = 0; n < HDMAX; n++)
156	if (hdlist[n] == NULL) {
157	hdlist[n] = hp;
158	break;
159	}
160	/* all done */
161	return(hp);
162	memerr:
163	error(SYSTEM, "cannot allocate holodeck grid");
164	}
165
166
167	int
168	hdsync(hp, all) /* update beams and directory on disk */
169	register HOLO *hp;
170	int all;
171	{
172	register int j, n;
173
174	if (hp == NULL) { /* do all holodecks */
175	n = 0;
176	for (j = 0; hdlist[j] != NULL; j++)
177	n += hdsync(hdlist[j], all);
178	return(n);
179	}
180	/* sync the beams */
181	for (j = (all ? nbeams(hp) : 0); j > 0; j--)
182	if (hp->bl[j] != NULL)
183	hdsyncbeam(hp, j);
184	if (!hp->dirty) /* directory clean? */
185	return(0);
186	errno = 0;
187	if (lseek(hp->fd, biglob(hp)->fo, 0) < 0)
188	error(SYSTEM, "cannot seek on holodeck file");
189	n = nbeams(hp)*sizeof(BEAMI);
190	if (write(hp->fd, (char *)(hp->bi+1), n) != n)
191	error(SYSTEM, "cannot update holodeck section directory");
192	hp->dirty = 0;
193	return(1);
194	}
195
196
197	unsigned
198	hdmemuse(all) /* return memory usage (in bytes) */
199	int all; /* include overhead (painful) */
200	{
201	long total = 0;
202	register int i, j;
203
204	for (j = 0; hdlist[j] != NULL; j++) {
205	total += blglob(hdlist[j])->nrm * sizeof(RAYVAL);
206	if (all) {
207	total += sizeof(HOLO) + sizeof(BEAM *) +
208	nbeams(hdlist[j]) *
209	(sizeof(BEAM *)+sizeof(BEAMI));
210	for (i = nbeams(hdlist[j]); i > 0; i--)
211	if (hdlist[j]->bl[i] != NULL)
212	total += sizeof(BEAM);
213	}
214	}
215	if (all)
216	for (j = 0; j < nhdfragls; j++) {
217	total += sizeof(struct fraglist);
218	if (hdfragl[j].nfrags)
219	total += FRAGBLKsizeof(BEAMI)
220	((hdfragl[j].nfrags-1)/FRAGBLK + 1) ;
221	}
222	return(total);
223	}
224
225
226	long
227	hdfilen(fd) /* return file length for fd */
228	int fd;
229	{
230	long fpos, flen;
231
232	if (fd < 0)
233	return(-1);
234	if (fd >= nhdfragls \|\| !hdfragl[fd].nlinks) {
235	if ((fpos = lseek(fd, 0L, 1)) < 0)
236	return(-1);
237	flen = lseek(fd, 0L, 2);
238	lseek(fd, fpos, 0);
239	return(flen);
240	}
241	return(hdfragl[fd].flen);
242	}
243
244
245	long
246	hdfiluse(fd, all) /* compute file usage (in bytes) */
247	int fd; /* open file descriptor to check */
248	int all; /* include overhead and unflushed data */
249	{
250	long total = 0;
251	register int i, j;
252
253	for (j = 0; hdlist[j] != NULL; j++) {
254	if (hdlist[j]->fd != fd)
255	continue;
256	total += biglob(hdlist[j])->nrd * sizeof(RAYVAL);
257	if (all) {
258	for (i = nbeams(hdlist[j]); i > 0; i--)
259	if (hdlist[j]->bl[i] != NULL)
260	total += sizeof(RAYVAL) *
261	(hdlist[j]->bl[i]->nrm -
262	hdlist[j]->bi[i].nrd);
263	total += sizeof(HDGRID) +
264	nbeams(hdlist[j])*sizeof(BEAMI);
265	}
266	}
267	return(total); /* does not include fragments */
268	}
269
270
271	RAYVAL *
272	hdnewrays(hp, i, nr) /* allocate space for add'l rays and return pointer */
273	register HOLO *hp;
274	register int i;
275	int nr; /* number of new rays desired */
276	{
277	RAYVAL *p;
278	int n;
279
280	if (nr <= 0)
281	return(NULL);
282	if (i < 1 \| i > nbeams(hp))
283	error(CONSISTENCY, "bad beam index given to hdnewrays");
284	if (hp->bl[i] != NULL)
285	hp->bl[i]->tick = hdclock; /* preempt swap */
286	if (hdcachesize > 0 && hdmemuse(0) >= hdcachesize)
287	hdfreecache(PCTFREE, NULL); /* free some space */
288	errno = 0;
289	if (hp->bl[i] == NULL) { /* allocate (and load) */
290	n = hp->bi[i].nrd + nr;
291	if ((hp->bl[i] = (BEAM *)malloc(hdbsiz(n))) == NULL)
292	goto memerr;
293	blglob(hp)->nrm += n;
294	if (n = hp->bl[i]->nrm = hp->bi[i].nrd) {
295	if (lseek(hp->fd, hp->bi[i].fo, 0) < 0)
296	error(SYSTEM, "seek error on holodeck file");
297	n *= sizeof(RAYVAL);
298	if (read(hp->fd, (char *)hdbray(hp->bl[i]), n) != n)
299	error(SYSTEM,
300	"error reading beam from holodeck file");
301	}
302	} else { /* just grow in memory */
303	hp->bl[i] = (BEAM )realloc( (char )hp->bl[i],
304	hdbsiz(hp->bl[i]->nrm + nr) );
305	if (hp->bl[i] == NULL)
306	goto memerr;
307	blglob(hp)->nrm += nr;
308	}
309	p = hdbray(hp->bl[i]) + hp->bl[i]->nrm;
310	hp->bl[i]->nrm += nr; /* update in-core structure */
311	bzero((char )p, nrsizeof(RAYVAL));
312	hp->bl[i]->tick = hdclock; /* update LRU clock */
313	blglob(hp)->tick = hdclock++;
314	return(p); /* point to new rays */
315	memerr:
316	error(SYSTEM, "out of memory in hdnewrays");
317	}
318
319
320	BEAM *
321	hdgetbeam(hp, i) /* get beam (from file if necessary) */
322	register HOLO *hp;
323	register int i;
324	{
325	register int n;
326
327	if (i < 1 \| i > nbeams(hp))
328	error(CONSISTENCY, "bad beam index given to hdgetbeam");
329	if (hp->bl[i] == NULL) { /* load from disk */
330	if (!(n = hp->bi[i].nrd))
331	return(NULL);
332	if (hdcachesize > 0 && hdmemuse(0) >= hdcachesize)
333	hdfreecache(PCTFREE, NULL); /* get free space */
334	errno = 0;
335	if ((hp->bl[i] = (BEAM *)malloc(hdbsiz(n))) == NULL)
336	error(SYSTEM, "cannot allocate memory for beam");
337	blglob(hp)->nrm += hp->bl[i]->nrm = n;
338	if (lseek(hp->fd, hp->bi[i].fo, 0) < 0)
339	error(SYSTEM, "seek error on holodeck file");
340	n *= sizeof(RAYVAL);
341	if (read(hp->fd, (char *)hdbray(hp->bl[i]), n) != n)
342	error(SYSTEM, "error reading beam from holodeck file");
343	}
344	hp->bl[i]->tick = hdclock; /* update LRU clock */
345	blglob(hp)->tick = hdclock++;
346	return(hp->bl[i]);
347	}
348
349
350	int
351	hdfilord(hb1, hb2) /* order beams for quick loading */
352	register HDBEAMI hb1, hb2;
353	{
354	register long c;
355	/* residents go first */
356	if (hb2->h->bl[hb2->b] != NULL)
357	return(hb1->h->bl[hb1->b] == NULL);
358	if (hb1->h->bl[hb1->b] != NULL)
359	return(-1);
360	/* otherwise sort by file descriptor */
361	if ((c = hb1->h->fd - hb2->h->fd))
362	return(c);
363	/* then by position in file */
364	c = hb1->h->bi[hb1->b].fo - hb2->h->bi[hb2->b].fo;
365	return(c > 0 ? 1 : c < 0 ? -1 : 0);
366	}
367
368
369	hdloadbeams(hb, n, bf) /* load a list of beams in optimal order */
370	register HDBEAMI hb; / list gets sorted by hdfilord() */
371	int n; /* list length */
372	int (bf)(); / callback function (optional) */
373	{
374	unsigned origcachesize, memuse;
375	register BEAM *bp;
376	int bytesloaded, needbytes, bytes2free;
377	register int i;
378	/* precheck consistency */
379	for (i = n; i--; )
380	if (hb[i].h == NULL \|\| hb[i].b < 1 \| hb[i].b > nbeams(hb[i].h))
381	error(CONSISTENCY, "bad beam in hdloadbeams");
382	/* sort list for optimal access */
383	qsort((char *)hb, n, sizeof(HDBEAMI), hdfilord);
384	bytesloaded = 0; /* run through loaded beams */
385	for ( ; n && (bp = hb->h->bl[hb->b]) != NULL; n--, hb++) {
386	bp->tick = hdclock; /* preempt swap */
387	bytesloaded += bp->nrm;
388	if (bf != NULL)
389	(*bf)(bp, hb->h, hb->b);
390	}
391	bytesloaded *= sizeof(RAYVAL);
392	if ((origcachesize = hdcachesize) > 0) {
393	needbytes = 0; /* figure out memory needs */
394	for (i = n; i--; )
395	needbytes += hb[i].h->bi[hb[i].b].nrd;
396	needbytes *= sizeof(RAYVAL);
397	do { /* free enough memory */
398	memuse = hdmemuse(0);
399	bytes2free = needbytes - (int)(hdcachesize-memuse);
400	if (bytes2free > (int)(memuse - bytesloaded))
401	bytes2free = memuse - bytesloaded;
402	} while (bytes2free > 0 &&
403	hdfreecache(100*bytes2free/memuse, NULL) < 0);
404	hdcachesize = 0; /* load beams w/o swap */
405	}
406	for (i = 0; i < n; i++)
407	if ((bp = hdgetbeam(hb[i].h, hb[i].b)) != NULL && bf != NULL)
408	(*bf)(bp, hb[i].h, hb[i].b);
409	hdcachesize = origcachesize; /* resume dynamic swapping */
410	}
411
412
413	int
414	hdsyncbeam(hp, i) /* sync beam in memory with beam on disk */
415	register HOLO *hp;
416	register int i;
417	{
418	unsigned int nrays;
419	long nfo;
420	unsigned int n;
421	/* check file status */
422	if (hdfragl[hp->fd].writerr)
423	return(-1);
424	#ifdef DEBUG
425	if (i < 1 \| i > nbeams(hp))
426	error(CONSISTENCY, "bad beam index in hdsyncbeam");
427	#endif
428	/* is current fragment OK? */
429	if (hp->bl[i] == NULL \|\| (nrays = hp->bl[i]->nrm) == hp->bi[i].nrd)
430	return(0);
431	/* locate fragment */
432	if (hp->fd >= nhdfragls \|\| !hdfragl[hp->fd].nlinks) /* untracked */
433	hp->bi[i].fo = lseek(hp->fd, 0L, 2);
434
435	else if (hp->bi[i].fo + hp->bi[i].nrd*sizeof(RAYVAL) ==
436	hdfragl[hp->fd].flen) /* EOF special case */
437	hdfragl[hp->fd].flen = (nfo=hp->bi[i].fo) + nrays*sizeof(RAYVAL);
438
439	else { /* general case */
440	register struct fraglist *f = &hdfragl[hp->fd];
441	register int j, k;
442	n = f->nfrags; /* relinquish old fragment */
443	if (hp->bi[i].nrd) {
444	j = f->nfrags++;
445	#if MAXFRAG
446	if (j >= MAXFRAG-1)
447	f->nfrags--;
448	#endif
449	if (j % FRAGBLK == 0) { /* more frag. space */
450	if (f->fi == NULL)
451	f->fi = (BEAMI *)malloc(
452	FRAGBLK*sizeof(BEAMI));
453	else
454	f->fi = (BEAMI )realloc((char )f->fi,
455	(j+FRAGBLK)*sizeof(BEAMI));
456	if (f->fi == NULL)
457	error(SYSTEM,
458	"out of memory in hdsyncbeam");
459	}
460	for ( ; ; j--) { /* insert in descending list */
461	if (!j \|\| hp->bi[i].fo < f->fi[j-1].fo) {
462	f->fi[j].fo = hp->bi[i].fo;
463	f->fi[j].nrd = hp->bi[i].nrd;
464	break;
465	}
466	copystruct(f->fi+j, f->fi+(j-1));
467	}
468	/* coalesce adjacent fragments */
469	if (j && f->fi[j-1].fo == f->fi[j].fo +
470	f->fi[j].nrd*sizeof(RAYVAL)) {
471	f->fi[j].nrd += f->fi[j-1].nrd;
472	f->fi[j-1].nrd = 0;
473	n = j-1;
474	}
475	if (j+1 < f->nfrags && f->fi[j].fo == f->fi[j+1].fo +
476	f->fi[j+1].nrd*sizeof(RAYVAL)) {
477	f->fi[j+1].nrd += f->fi[j].nrd;
478	f->fi[j].nrd = 0;
479	if (j < n) n = j;
480	}
481	}
482	k = -1; /* find closest-sized fragment */
483	for (j = (nrays ? f->nfrags : 0); j-- > 0; )
484	if (f->fi[j].nrd >= nrays &&
485	(k < 0 \|\| f->fi[j].nrd < f->fi[k].nrd))
486	if (f->fi[k=j].nrd == nrays)
487	break;
488	if (k < 0) { /* no fragment -- extend file */
489	nfo = f->flen;
490	f->flen += nrays*sizeof(RAYVAL);
491	} else { /* else use fragment */
492	nfo = f->fi[k].fo;
493	f->fi[k].fo += nrays*sizeof(RAYVAL);
494	if (!(f->fi[k].nrd -= nrays) && k < n)
495	n = k;
496	}
497	/* delete empty remnants */
498	for (j = k = n; k < f->nfrags; j++, k++) {
499	while (f->fi[k].nrd == 0)
500	if (++k >= f->nfrags)
501	goto endloop;
502	if (k > j)
503	copystruct(f->fi+j, f->fi+k);
504	}
505	endloop:
506	f->nfrags = j;
507	}
508	if (nrays) { /* write the new fragment */
509	errno = 0;
510	if (lseek(hp->fd, nfo, 0) < 0)
511	error(SYSTEM, "cannot seek on holodeck file");
512	n = hp->bl[i]->nrm * sizeof(RAYVAL);
513	if (write(hp->fd, (char *)hdbray(hp->bl[i]), n) != n) {
514	hdfragl[hp->fd].writerr++;
515	hdsync(hp, 0); /* sync directory */
516	error(SYSTEM, "write error in hdsyncbeam");
517	}
518	}
519	biglob(hp)->nrd += nrays - hp->bi[i].nrd;
520	hp->bi[i].nrd = nrays;
521	hp->bi[i].fo = nfo;
522	markdirty(hp); /* section directory now out of date */
523	return(1);
524	}
525
526
527	int
528	hdfreebeam(hp, i) /* free beam, writing if dirty */
529	register HOLO *hp;
530	register int i;
531	{
532	int nchanged;
533
534	if (hp == NULL) { /* clear all holodecks */
535	nchanged = 0;
536	for (i = 0; hdlist[i] != NULL; i++)
537	nchanged += hdfreebeam(hdlist[i], 0);
538	return(nchanged);
539	}
540	if (hdfragl[hp->fd].writerr) /* check for file error */
541	return(0);
542	if (i == 0) { /* clear entire holodeck */
543	nchanged = 0;
544	for (i = nbeams(hp); i > 0; i--)
545	if (hp->bl[i] != NULL)
546	nchanged += hdfreebeam(hp, i);
547	return(nchanged);
548	}
549	#ifdef DEBUG
550	if (i < 1 \| i > nbeams(hp))
551	error(CONSISTENCY, "bad beam index to hdfreebeam");
552	#endif
553	if (hp->bl[i] == NULL)
554	return(0);
555	/* check for additions */
556	nchanged = hp->bl[i]->nrm - hp->bi[i].nrd;
557	if (nchanged)
558	hdsyncbeam(hp, i); /* write new fragment */
559	blglob(hp)->nrm -= hp->bl[i]->nrm;
560	free((char )hp->bl[i]); / free memory */
561	hp->bl[i] = NULL;
562	return(nchanged);
563	}
564
565
566	int
567	hdkillbeam(hp, i) /* delete beam from holodeck */
568	register HOLO *hp;
569	register int i;
570	{
571	static BEAM emptybeam;
572	int nchanged;
573
574	if (hp == NULL) { /* clobber all holodecks */
575	nchanged = 0;
576	for (i = 0; hdlist[i] != NULL; i++)
577	nchanged += hdkillbeam(hdlist[i], 0);
578	return(nchanged);
579	}
580	if (i == 0) { /* clobber entire holodeck */
581	nchanged = 0;
582	for (i = nbeams(hp); i > 0; i--)
583	if (hp->bi[i].nrd > 0 \|\| hp->bl[i] != NULL)
584	nchanged += hdkillbeam(hp, i);
585	#ifdef DEBUG
586	if (biglob(hp)->nrd != 0 \| blglob(hp)->nrm != 0)
587	error(CONSISTENCY, "bad beam count in hdkillbeam");
588	#endif
589	return(nchanged);
590	}
591	#ifdef DEBUG
592	if (i < 1 \| i > nbeams(hp))
593	error(CONSISTENCY, "bad beam index to hdkillbeam");
594	#endif
595	if (hp->bl[i] != NULL) { /* free memory */
596	blglob(hp)->nrm -= nchanged = hp->bl[i]->nrm;
597	free((char *)hp->bl[i]);
598	} else
599	nchanged = hp->bi[i].nrd;
600	if (hp->bi[i].nrd) { /* free file fragment */
601	hp->bl[i] = &emptybeam;
602	hdsyncbeam(hp, i);
603	}
604	hp->bl[i] = NULL;
605	return(nchanged);
606	}
607
608
609	int
610	hdlrulist(hb, nents, n, hp) /* add beams from holodeck to LRU list */
611	register HDBEAMI hb; / beam list */
612	int nents; /* current list length */
613	int n; /* maximum list length */
614	register HOLO hp; / section we're adding from */
615	{
616	register int i, j;
617	/* insert each beam from hp */
618	for (i = nbeams(hp); i > 0; i--) {
619	if (hp->bl[i] == NULL) /* check if loaded */
620	continue;
621	#if 0
622	if (hp->bl[i]->tick == hdclock) /* preempt swap? */
623	continue;
624	#endif
625	if ((j = ++nents) >= n) /* grow list if we can */
626	nents--;
627	for ( ; ; ) { /* bubble into place */
628	if (!--j \|\| hp->bl[i]->tick >=
629	hb[j-1].h->bl[hb[j-1].b]->tick) {
630	hb[j].h = hp;
631	hb[j].b = i;
632	break;
633	}
634	copystruct(hb+j, hb+(j-1));
635	}
636	}
637	return(nents); /* return new list length */
638	}
639
640
641	int
642	hdfreecache(pct, honly) /* free up cache space, writing changes */
643	int pct; /* maximum percentage to free */
644	register HOLO honly; / NULL means check all */
645	{
646	HDBEAMI hb[FREEBEAMS];
647	int freetarget;
648	int n;
649	register int i;
650	/* compute free target */
651	freetarget = (honly != NULL) ? blglob(honly)->nrm :
652	hdmemuse(0)/sizeof(RAYVAL) ;
653	freetarget = freetarget*pct/100;
654	if (freetarget <= 0)
655	return(0);
656	/* find least recently used */
657	n = 0;
658	if (honly != NULL)
659	n = hdlrulist(hb, n, FREEBEAMS, honly);
660	else
661	for (i = 0; hdlist[i] != NULL; i++)
662	n = hdlrulist(hb, n, FREEBEAMS, hdlist[i]);
663	/* free LRU beams */
664	for (i = 0; i < n; i++) {
665	hdfreebeam(hb[i].h, hb[i].b);
666	if ((freetarget -= hb[i].h->bi[hb[i].b].nrd) <= 0)
667	break;
668	}
669	hdsync(honly, 0); /* synchronize directories as necessary */
670	return(-freetarget); /* return how far past goal we went */
671	}
672
673
674	hddone(hp) /* clean up holodeck section and free */
675	register HOLO hp; / NULL means clean up all */
676	{
677	register int i;
678
679	if (hp == NULL) { /* NULL means clean up everything */
680	while (hdlist[0] != NULL)
681	hddone(hdlist[0]);
682	return;
683	}
684	/* flush all data and free memory */
685	hdflush(hp);
686	/* release fragment resources */
687	hdrelease(hp->fd);
688	/* remove hp from active list */
689	for (i = 0; hdlist[i] != NULL; i++)
690	if (hdlist[i] == hp) {
691	while ((hdlist[i] = hdlist[i+1]) != NULL)
692	i++;
693	break;
694	}
695	free((char )hp->bl); / free beam list */
696	free((char )hp); / free holodeck struct */
697	}