atari/dev/md_root.c

1.15.8.1       scw /*	$NetBSD: md_root.c,v 1.15.8.1 2001/11/17 23:18:08 scw Exp $	*/
     1.1       leo
     1.1       leo /*
     1.1       leo  * Copyright (c) 1996 Leo Weppelman.
     1.1       leo  * All rights reserved.
     1.1       leo  *
     1.1       leo  * Redistribution and use in source and binary forms, with or without
     1.1       leo  * modification, are permitted provided that the following conditions
     1.1       leo  * are met:
     1.1       leo  * 1. Redistributions of source code must retain the above copyright
     1.1       leo  *    notice, this list of conditions and the following disclaimer.
     1.1       leo  * 2. Redistributions in binary form must reproduce the above copyright
     1.1       leo  *    notice, this list of conditions and the following disclaimer in the
     1.1       leo  *    documentation and/or other materials provided with the distribution.
     1.1       leo  * 3. All advertising materials mentioning features or use of this software
     1.1       leo  *    must display the following acknowledgement:
     1.1       leo  *      This product includes software developed by Leo Weppelman.
     1.1       leo  * 4. The name of the author may not be used to endorse or promote products
     1.1       leo  *    derived from this software without specific prior written permission
     1.1       leo  *
     1.1       leo  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
     1.1       leo  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
     1.1       leo  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     1.1       leo  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
     1.1       leo  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
     1.1       leo  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
     1.1       leo  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
     1.1       leo  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
     1.1       leo  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
     1.1       leo  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     1.1       leo  */
     1.1       leo
     1.1       leo #include <sys/param.h>
     1.1       leo #include <sys/systm.h>
     1.1       leo #include <sys/kernel.h>
     1.1       leo #include <sys/malloc.h>
     1.1       leo #include <sys/buf.h>
1.15.8.1       scw #include <sys/lwp.h>
     1.1       leo #include <sys/proc.h>
     1.1       leo #include <sys/device.h>
     1.1       leo #include <sys/ioctl.h>
     1.1       leo #include <sys/fcntl.h>
     1.1       leo #include <sys/conf.h>
     1.1       leo #include <sys/disklabel.h>
     1.1       leo #include <sys/disk.h>
     1.1       leo #include <sys/dkbad.h>
     1.1       leo
     1.4       leo #include <dev/cons.h>
    1.11        pk #include <dev/md.h>
     1.1       leo
     1.5       leo #include <atari/atari/device.h>
     1.5       leo
     1.1       leo /*
     1.1       leo  * Misc. defines:
     1.1       leo  */
     1.1       leo #define	RAMD_CHUNK	(9 * 512)	/* Chunk-size for auto-load	*/
     1.1       leo #define	RAMD_NDEV	2		/* Number of devices configured	*/
     1.1       leo
     1.1       leo struct   ramd_info {
     1.1       leo 	u_long	ramd_size;  /* Size of disk in bytes			*/
     1.1       leo 	u_long	ramd_flag;  /* see defs below				*/
     1.1       leo 	dev_t	ramd_dev;   /* device to load from			*/
     1.1       leo };
     1.1       leo
     1.1       leo /*
     1.1       leo  * ramd_flag:
     1.1       leo  */
     1.1       leo #define	RAMD_LOAD	0x01	/* Auto load when first opened	*/
     1.1       leo #define	RAMD_LCOMP	0x02	/* Input is compressed		*/
     1.1       leo
     1.1       leo struct ramd_info rd_info[RAMD_NDEV] = {
     1.1       leo     {
     1.1       leo 	1105920,		/*	1Mb in 2160 sectors		*/
     1.1       leo 	RAMD_LOAD,		/* auto-load this device		*/
     1.8       leo 	MAKEDISKDEV(2, 0, 2),	/* XXX: This is crap! (720Kb flop)	*/
     1.1       leo     },
     1.1       leo     {
    1.13       leo 	1105920,		/*	1Mb in 2160 sectors		*/
     1.1       leo 	RAMD_LOAD,		/* auto-load this device		*/
    1.13       leo 	MAKEDISKDEV(2, 0, 3),	/* XXX: This is crap! (1.44Mb flop)	*/
     1.1       leo     }
     1.1       leo };
     1.1       leo
     1.1       leo struct read_info {
     1.1       leo     struct buf	*bp;		/* buffer for strategy function		*/
     1.1       leo     long	nbytes;		/* total number of bytes to read	*/
     1.1       leo     long	offset;		/* offset in input medium		*/
     1.1       leo     caddr_t	bufp;		/* current output buffer		*/
     1.1       leo     caddr_t	ebufp;		/* absolute maximum for bufp		*/
     1.1       leo     int		chunk;		/* chunk size on input medium		*/
     1.1       leo     int		media_sz;	/* size of input medium			*/
     1.1       leo     void	(*strat)(struct buf *);	/* strategy function for read	*/
     1.1       leo };
     1.1       leo
     1.1       leo
    1.10        pk static int  loaddisk __P((struct  md_conf *, dev_t ld_dev, struct proc *));
     1.1       leo static int  ramd_norm_read __P((struct read_info *));
     1.3       leo
     1.3       leo #ifdef support_compression
     1.1       leo static int  cpy_uncompressed __P((caddr_t, int, struct read_info *));
    1.10        pk static int  md_compressed __P((caddr_t, int, struct read_info *));
     1.3       leo #endif
     1.1       leo
     1.1       leo /*
     1.1       leo  * This is called during autoconfig.
     1.1       leo  */
     1.1       leo void
    1.10        pk md_attach_hook(unit, md)
     1.1       leo int		unit;
    1.10        pk struct md_conf	*md;
     1.1       leo {
     1.1       leo 	if (atari_realconfig && (unit < RAMD_NDEV) && rd_info[unit].ramd_flag) {
    1.12       leo 		printf ("md%d: %sauto-load on open. Size %ld bytes.\n", unit,
    1.12       leo 		    rd_info[unit].ramd_flag & RAMD_LCOMP ? "decompress/" : "",
     1.1       leo 		    rd_info[unit].ramd_size);
    1.10        pk 		md->md_type = MD_UNCONFIGURED; /* Paranoia... */
     1.1       leo 	}
     1.1       leo }
     1.1       leo
     1.1       leo void
    1.10        pk md_open_hook(unit, md)
     1.1       leo int		unit;
    1.10        pk struct md_conf	*md;
     1.1       leo {
     1.1       leo 	struct ramd_info *ri;
     1.1       leo
     1.1       leo 	if(unit >= RAMD_NDEV)
     1.1       leo 		return;
     1.1       leo
     1.1       leo 	ri = &rd_info[unit];
    1.10        pk 	if (md->md_type != MD_UNCONFIGURED)
     1.1       leo 		return;	/* Only configure once */
    1.10        pk 	md->md_addr = malloc(ri->ramd_size, M_DEVBUF, M_WAITOK);
    1.10        pk 	md->md_size = ri->ramd_size;
    1.10        pk 	if(md->md_addr == NULL)
     1.1       leo 		return;
     1.1       leo 	if(ri->ramd_flag & RAMD_LOAD) {
1.15.8.1       scw 		if (loaddisk(md, ri->ramd_dev, curproc->l_proc)) {
    1.10        pk 			free(md->md_addr, M_DEVBUF);
    1.10        pk 			md->md_addr = NULL;
     1.1       leo 			return;
     1.1       leo 		}
     1.1       leo 	}
    1.10        pk 	md->md_type = MD_KMEM_ALLOCATED;
     1.1       leo }
     1.1       leo
     1.1       leo static int
    1.10        pk loaddisk(md, ld_dev, proc)
    1.10        pk struct md_conf		*md;
     1.1       leo dev_t			ld_dev;
     1.1       leo struct proc		*proc;
     1.1       leo {
     1.1       leo 	struct buf		buf;
     1.1       leo 	int			error;
     1.1       leo 	struct bdevsw		*bdp = &bdevsw[major(ld_dev)];
     1.1       leo 	struct disklabel	dl;
     1.1       leo 	struct read_info	rs;
     1.1       leo
     1.1       leo 	/*
     1.1       leo 	 * Initialize our buffer header:
     1.1       leo 	 */
    1.14   thorpej 	memset(&buf, 0, sizeof(buf));
     1.1       leo 	buf.b_vnbufs.le_next = NOLIST;
     1.1       leo 	buf.b_flags = B_BUSY;
     1.1       leo 	buf.b_dev   = ld_dev;
     1.1       leo 	buf.b_error = 0;
     1.1       leo 	buf.b_proc  = proc;
     1.1       leo
     1.1       leo 	/*
     1.1       leo 	 * Setup read_info:
     1.1       leo 	 */
     1.1       leo 	rs.bp       = &buf;
    1.10        pk 	rs.nbytes   = md->md_size;
     1.1       leo 	rs.offset   = 0;
    1.10        pk 	rs.bufp     = md->md_addr;
    1.10        pk 	rs.ebufp    = md->md_addr + md->md_size;
     1.1       leo 	rs.chunk    = RAMD_CHUNK;
    1.10        pk 	rs.media_sz = md->md_size;
     1.1       leo 	rs.strat    = bdp->d_strategy;
     1.1       leo
     1.1       leo 	/*
     1.1       leo 	 * Open device and try to get some statistics.
     1.1       leo 	 */
     1.3       leo 	if((error = bdp->d_open(ld_dev, FREAD | FNONBLOCK, 0, proc)) != 0)
     1.1       leo 		return(error);
     1.1       leo 	if(bdp->d_ioctl(ld_dev, DIOCGDINFO, (caddr_t)&dl, FREAD, proc) == 0) {
     1.1       leo 		/* Read on a cylinder basis */
     1.1       leo 		rs.chunk    = dl.d_secsize * dl.d_secpercyl;
     1.1       leo 		rs.media_sz = dl.d_secperunit * dl.d_secsize;
     1.1       leo 	}
     1.1       leo
     1.1       leo #ifdef support_compression
     1.1       leo 	if(ri->ramd_flag & RAMD_LCOMP)
    1.10        pk 		error = decompress(cpy_uncompressed, md_compressed, &rs);
     1.1       leo 	else
     1.1       leo #endif /* support_compression */
     1.1       leo 		error = ramd_norm_read(&rs);
     1.1       leo
     1.1       leo 	bdp->d_close(ld_dev,FREAD | FNONBLOCK, 0, proc);
     1.1       leo 	return(error);
     1.1       leo }
     1.1       leo
     1.1       leo static int
     1.1       leo ramd_norm_read(rsp)
     1.1       leo struct read_info	*rsp;
     1.1       leo {
     1.1       leo 	long		bytes_left;
     1.1       leo 	int		done, error;
     1.1       leo 	struct buf	*bp;
     1.1       leo 	int		s;
     1.1       leo 	int		dotc = 0;
     1.1       leo
     1.1       leo 	bytes_left = rsp->nbytes;
     1.1       leo 	bp         = rsp->bp;
     1.1       leo 	error      = 0;
     1.1       leo
     1.1       leo 	while(bytes_left > 0) {
     1.1       leo 		s = splbio();
     1.1       leo 		bp->b_flags = B_BUSY | B_PHYS | B_READ;
     1.1       leo 		splx(s);
     1.1       leo 		bp->b_blkno  = btodb(rsp->offset);
     1.1       leo 		bp->b_bcount = rsp->chunk;
     1.1       leo 		bp->b_data   = rsp->bufp;
     1.1       leo
     1.1       leo 		/* Initiate read */
     1.1       leo 		(*rsp->strat)(bp);
     1.1       leo
     1.1       leo 		/* Wait for results	*/
     1.1       leo 		s = splbio();
     1.1       leo 		while ((bp->b_flags & B_DONE) == 0)
     1.1       leo 			tsleep((caddr_t) bp, PRIBIO + 1, "ramd_norm_read", 0);
     1.1       leo 		if (bp->b_flags & B_ERROR)
     1.1       leo 			error = (bp->b_error ? bp->b_error : EIO);
     1.1       leo 		splx(s);
     1.1       leo
     1.1       leo 		/* Dot counter */
     1.7  christos 		printf(".");
     1.1       leo 		if(!(++dotc % 40))
     1.7  christos 			printf("\n");
     1.1       leo
     1.1       leo 		done = bp->b_bcount - bp->b_resid;
     1.1       leo 		bytes_left   -= done;
     1.1       leo 		rsp->offset  += done;
     1.1       leo 		rsp->bufp    += done;
     1.1       leo
     1.1       leo 		if(error || !done)
     1.1       leo 			break;
     1.1       leo
     1.1       leo 		if((rsp->offset == rsp->media_sz) && (bytes_left != 0)) {
     1.7  christos 			printf("\nInsert next media and hit any key...");
     1.1       leo 			cngetc();
     1.7  christos 			printf("\n");
     1.1       leo 			rsp->offset = 0;
     1.1       leo 		}
     1.1       leo 	}
     1.7  christos 	printf("\n");
     1.1       leo 	return(error);
     1.1       leo }
     1.1       leo
     1.1       leo #ifdef support_compression
     1.1       leo /*
     1.1       leo  * Functions supporting uncompression:
     1.1       leo  */
     1.1       leo /*
     1.1       leo  * Copy from the uncompression buffer to the ramdisk
     1.1       leo  */
     1.1       leo static int
     1.1       leo cpy_uncompressed(buf, nbyte, rsp)
     1.1       leo caddr_t			buf;
     1.1       leo struct read_info	*rsp;
     1.1       leo int			nbyte;
     1.1       leo {
     1.1       leo 	if((rsp->bufp + nbyte) >= rsp->ebufp)
     1.1       leo 		return(0);
     1.1       leo 	bcopy(buf, rsp->bufp, nbyte);
     1.1       leo 	rsp->bufp += nbyte;
     1.1       leo 	return(0);
     1.1       leo }
     1.1       leo
     1.1       leo /*
     1.1       leo  * Read a maximum of 'nbyte' bytes into 'buf'.
     1.1       leo  */
     1.1       leo static int
    1.10        pk md_compressed(buf, nbyte, rsp)
     1.1       leo caddr_t			buf;
     1.1       leo struct read_info	*rsp;
     1.1       leo int			nbyte;
     1.1       leo {
     1.1       leo 	static int	dotc = 0;
     1.1       leo 	struct buf	*bp;
     1.1       leo 	       int	nread = 0;
     1.1       leo 	       int	s;
     1.1       leo 	       int	done, error;
     1.1       leo
     1.1       leo
     1.1       leo 	error  = 0;
     1.1       leo 	bp     = rsp->bp;
     1.1       leo 	nbyte &= ~(DEV_BSIZE - 1);
     1.1       leo
     1.1       leo 	while(nbyte > 0) {
     1.1       leo 		s = splbio();
     1.1       leo 		bp->b_flags = B_BUSY | B_PHYS | B_READ;
     1.1       leo 		splx(s);
     1.1       leo 		bp->b_blkno  = btodb(rsp->offset);
     1.1       leo 		bp->b_bcount = min(rsp->chunk, nbyte);
     1.1       leo 		bp->b_data   = buf;
     1.1       leo
     1.1       leo 		/* Initiate read */
     1.1       leo 		(*rsp->strat)(bp);
     1.1       leo
     1.1       leo 		/* Wait for results	*/
     1.1       leo 		s = splbio();
     1.1       leo 		while ((bp->b_flags & B_DONE) == 0)
     1.1       leo 			tsleep((caddr_t) bp, PRIBIO + 1, "ramd_norm_read", 0);
     1.1       leo 		if (bp->b_flags & B_ERROR)
     1.1       leo 			error = (bp->b_error ? bp->b_error : EIO);
     1.1       leo 		splx(s);
     1.1       leo
     1.1       leo 		/* Dot counter */
     1.7  christos 		printf(".");
     1.1       leo 		if(!(++dotc % 40))
     1.7  christos 			printf("\n");
     1.1       leo
     1.1       leo 		done = bp->b_bcount - bp->b_resid;
     1.1       leo 		nbyte        -= done;
     1.1       leo 		nread        += done;
     1.1       leo 		rsp->offset  += done;
     1.1       leo
     1.1       leo 		if(error || !done)
     1.1       leo 			break;
     1.1       leo
     1.1       leo 		if((rsp->offset == rsp->media_sz) && (nbyte != 0)) {
     1.1       leo 		if(rsp->offset == rsp->media_sz) {
     1.7  christos 			printf("\nInsert next media and hit any key...");
     1.1       leo 			if(cngetc() != '\n')
     1.7  christos 				printf("\n");
     1.1       leo 			rsp->offset = 0;
     1.1       leo 		}
     1.1       leo 	}
     1.1       leo 	s = splbio();
     1.1       leo 	splx(s);
     1.1       leo 	return(nread);
     1.1       leo }
     1.1       leo #endif /* support_compression */