freebsd-skq/sys/i386/isa/wdreg.h
1998-01-14 08:08:42 +00:00

315 lines
12 KiB
C

/*-
* Copyright (c) 1991 The Regents of the University of California.
* All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* William Jolitz.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* from: @(#)wdreg.h 7.1 (Berkeley) 5/9/91
* $Id: wdreg.h,v 1.20 1997/09/20 07:41:45 dyson Exp $
*/
/*
* modified for PC9801 by F.Ukai
* Kyoto University Microcomputer Club (KMC)
*/
/*
* Disk Controller register definitions.
*/
#ifdef PC98
#define wd_data 0x0 /* data register (R/W - 16 bits) */
#define wd_error 0x2 /* error register (R) */
#define wd_precomp wd_error /* write precompensation (W) */
#define wd_features wd_error /* features register (W) */
#define wd_seccnt 0x4 /* sector count (R/W) */
#define wd_sector 0x6 /* first sector number (R/W) */
#define wd_cyl_lo 0x8 /* cylinder address, low byte (R/W) */
#define wd_cyl_hi 0xa /* cylinder address, high byte (R/W)*/
#define wd_sdh 0xc /* sector size/drive/head (R/W)*/
#define wd_command 0xe /* command register (W) */
#define wd_status wd_command /* immediate status (R) */
#define wd_altsts_nec 0x10c /*alternate fixed disk status(via 1015) (R)*/
#define wd_ctlr_nec 0x10c /*fixed disk controller control(via 1015) (W)*/
#define wd_altsts_epson 0x3 /*alternate fixed disk status(via 1015) (R)*/
#define wd_ctlr_epson 0x3 /*fixed disk controller control(via 1015) (W)*/
#define wd_altsts wd_altsts_nec
#define WDCTL_4BIT 0x8 /* use four head bits (wd1003) */
#define WDCTL_RST 0x4 /* reset the controller */
#define WDCTL_IDS 0x2 /* disable controller interrupts */
#define wd_digin 0x10e /* disk controller input(via 1015) (R)*/
#else /* IBM-PC */
#define wd_data 0x0 /* data register (R/W - 16 bits) */
#define wd_error 0x1 /* error register (R) */
#define wd_precomp wd_error /* write precompensation (W) */
#define wd_features wd_error /* features register (W) */
#define wd_seccnt 0x2 /* sector count (R/W) */
#define wd_sector 0x3 /* first sector number (R/W) */
#define wd_cyl_lo 0x4 /* cylinder address, low byte (R/W) */
#define wd_cyl_hi 0x5 /* cylinder address, high byte (R/W)*/
#define wd_sdh 0x6 /* sector size/drive/head (R/W)*/
#define wd_command 0x7 /* command register (W) */
#define wd_status wd_command /* immediate status (R) */
#define wd_altsts 0x206 /*alternate fixed disk status(via 1015) (R)*/
#define wd_ctlr 0x206 /*fixed disk controller control(via 1015) (W)*/
#define WDCTL_4BIT 0x8 /* use four head bits (wd1003) */
#define WDCTL_RST 0x4 /* reset the controller */
#define WDCTL_IDS 0x2 /* disable controller interrupts */
#define wd_digin 0x207 /* disk controller input(via 1015) (R)*/
#endif /* PC98 */
/*
* Status Bits.
*/
#define WDCS_BUSY 0x80 /* Controller busy bit. */
#define WDCS_READY 0x40 /* Selected drive is ready */
#define WDCS_WRTFLT 0x20 /* Write fault */
#define WDCS_SEEKCMPLT 0x10 /* Seek complete */
#define WDCS_DRQ 0x08 /* Data request bit. */
#define WDCS_ECCCOR 0x04 /* ECC correction made in data */
#define WDCS_INDEX 0x02 /* Index pulse from selected drive */
#define WDCS_ERR 0x01 /* Error detect bit. */
#define WDCS_BITS "\020\010busy\007rdy\006wrtflt\005seekdone\004drq\003ecc_cor\002index\001err"
#define WDERR_ABORT 0x04
#define WDERR_BITS "\020\010badblk\007uncorr\006id_crc\005no_id\003abort\002tr000\001no_dam"
/*
* Commands for Disk Controller.
*/
#define WDCC_RESTORE 0x10 /* disk restore code -- resets cntlr */
#define WDCC_READ 0x20 /* disk read code */
#define WDCC_WRITE 0x30 /* disk write code */
#define WDCC__LONG 0x02 /* modifier -- access ecc bytes */
#define WDCC__NORETRY 0x01 /* modifier -- no retrys */
#define WDCC_FORMAT 0x50 /* disk format code */
#define WDCC_DIAGNOSE 0x90 /* controller diagnostic */
#define WDCC_IDC 0x91 /* initialize drive command */
#define WDCC_READ_MULTI 0xC4 /* read multiple */
#define WDCC_WRITE_MULTI 0xC5 /* write multiple */
#define WDCC_SET_MULTI 0xC6 /* set multiple count */
#define WDCC_READ_DMA 0xC8 /* read using DMA */
#define WDCC_WRITE_DMA 0xCA /* write using DMA */
#define WDCC_EXTDCMD 0xE0 /* send extended command */
#define WDCC_READP 0xEC /* read parameters from controller */
#define WDCC_FEATURES 0xEF /* features control */
#define WDFEA_RCACHE 0xAA /* read cache enable */
#define WDFEA_WCACHE 0x02 /* write cache enable */
#define WDFEA_SETXFER 0x03 /* set transfer mode */
#define WD_STEP 0 /* winchester- default 35us step */
#define WDSD_IBM 0xa0 /* forced to 512 byte sector, ecc */
#ifdef KERNEL
/*
* read parameters command returns this:
*/
struct wdparams {
/*
* XXX partly based on DRAFT X3T13/1153D rev 14.
* by the time you read this it will have changed.
*/
/* drive info */
short wdp_config; /* general configuration bits */
u_short wdp_cylinders; /* number of cylinders */
short wdp_reserved2;
u_short wdp_heads; /* number of heads */
short wdp_unfbytespertrk; /* number of unformatted bytes/track */
short wdp_unfbytes; /* number of unformatted bytes/sector */
u_short wdp_sectors; /* number of sectors per track */
short wdp_vendorunique[3];
/* controller info */
char wdp_serial[20]; /* serial number */
short wdp_buffertype; /* buffer type */
#define WDTYPE_SINGLEPORTSECTOR 1 /* single port, single sector buffer */
#define WDTYPE_DUALPORTMULTI 2 /* dual port, multiple sector buffer */
#define WDTYPE_DUALPORTMULTICACHE 3 /* above plus track cache */
short wdp_buffersize; /* buffer size, in 512-byte units */
short wdp_necc; /* ecc bytes appended */
char wdp_rev[8]; /* firmware revision */
char wdp_model[40]; /* model name */
char wdp_nsecperint; /* sectors per interrupt */
char wdp_vendorunique1;
short wdp_usedmovsd; /* can use double word read/write? */
char wdp_vendorunique2;
char wdp_capability; /* various capability bits */
short wdp_cap_validate; /* validation for above */
char wdp_vendorunique3;
char wdp_opiomode; /* PIO modes 0-2 */
char wdp_vendorunique4;
char wdp_odmamode; /* old DMA modes, not in ATA-3 */
short wdp_atavalid; /* validation for newer fields */
short wdp_currcyls;
short wdp_currheads;
short wdp_currsectors;
short wdp_currsize0;
short wdp_currsize1;
char wdp_currmultsect;
char wdp_multsectvalid;
int wdp_lbasize;
short wdp_dmasword; /* obsolete in ATA-3 */
short wdp_dmamword; /* multiword DMA modes */
short wdp_eidepiomodes; /* advanced PIO modes */
short wdp_eidedmamin; /* fastest possible DMA timing */
short wdp_eidedmanorm; /* recommended DMA timing */
short wdp_eidepioblind; /* fastest possible blind PIO */
short wdp_eidepioacked; /* fastest possible IORDY PIO */
short wdp_reserved69;
short wdp_reserved70;
short wdp_reserved71;
short wdp_reserved72;
short wdp_reserved73;
short wdp_reserved74;
short wdp_queuelen;
short wdp_reserved76;
short wdp_reserved77;
short wdp_reserved78;
short wdp_reserved79;
short wdp_versmaj;
short wdp_versmin;
short wdp_featsupp1;
short wdp_featsupp2;
short wdp_featsupp3;
short wdp_featenab1;
short wdp_featenab2;
short wdp_featenab3;
short wdp_udmamode; /* UltraDMA modes */
short wdp_erasetime;
short wdp_enherasetime;
short wdp_apmlevel;
short wdp_reserved92[34];
short wdp_rmvcap;
short wdp_securelevel;
};
/*
* wd driver entry points
*/
#ifdef B_FORMAT
int wdformat(struct buf *bp);
#endif
/*
* IDE DMA support.
* This is based on what is needed for the IDE DMA function of the Intel
* Triton chipset; hopefully it's general enough to be used for other
* chipsets as well.
*
* To use this:
* For each drive which you might want to do DMA on, call wdd_candma()
* to get a cookie. If it returns a null pointer, then the drive
* can't do DMA. Then call wdd_dmainit() to initialize the controller
* and drive. wdd_dmainit should leave PIO modes operational, though
* perhaps with suboptimal performance.
*
* Check the transfer by calling wdd_dmaverify(). The cookie is what
* you got before; vaddr is the virtual address of the buffer to be
* written; len is the length of the buffer; and direction is either
* B_READ or B_WRITE. This function verifies that the DMA hardware is
* capable of handling the request you've made.
*
* Setup the transfer by calling wdd_dmaprep(). This takes the same
* paramaters as wdd_dmaverify().
*
* Send a read/write DMA command to the drive.
*
* Call wdd_dmastart().
*
* Wait for an interrupt. Multi-sector transfers will only interrupt
* at the end of the transfer.
*
* Call wdd_dmadone(). It will return the status as defined by the
* WDDS_* constants below.
*/
struct wddma {
void *(*wdd_candma) /* returns a cookie if PCI */
__P((int ctlr, int drive));
int (*wdd_dmaverify) /* verify that request is DMA-able */
__P((void *cookie, char *vaddr, u_long len, int direction));
int (*wdd_dmaprep) /* prepare DMA hardware */
__P((void *cookie, char *vaddr, u_long len, int direction));
void (*wdd_dmastart) /* begin DMA transfer */
__P((void *cookie));
int (*wdd_dmadone) /* DMA transfer completed */
__P((void *cookie));
int (*wdd_dmastatus) /* return status of DMA */
__P((void *cookie));
int (*wdd_dmainit) /* initialize controller and drive */
__P((void *cookie,
struct wdparams *wp,
int(wdcmd)__P((int mode, void *wdinfo)),
void *wdinfo));
int (*wdd_iobase) /* returns iobase address */
__P((void *cookie));
int (*wdd_altiobase) /* returns altiobase address */
__P((void *cookie));
};
/* logical status bits returned by wdd_dmastatus */
#define WDDS_ACTIVE 0x0001
#define WDDS_ERROR 0x0002
#define WDDS_INTERRUPT 0x0004
#define WDDS_BITS "\20\4interrupt\2error\1active"
/* defines for ATA timing modes */
#define WDDMA_GRPMASK 0xf8
#define WDDMA_MODEMASK 0x07
/* flow-controlled PIO modes */
#define WDDMA_PIO 0x10
#define WDDMA_PIO3 0x10
#define WDDMA_PIO4 0x11
/* multi-word DMA timing modes */
#define WDDMA_MDMA 0x20
#define WDDMA_MDMA0 0x20
#define WDDMA_MDMA1 0x21
#define WDDMA_MDMA2 0x22
/* Ultra DMA timing modes */
#define WDDMA_UDMA 0x40
#define WDDMA_UDMA0 0x40
#define WDDMA_UDMA1 0x41
#define WDDMA_UDMA2 0x42
extern struct wddma wddma[];
#endif /* KERNEL */