4.3BSD-Reno/src/sys/hpdev/rdreg.h
/*
* Copyright (c) 1988 University of Utah.
* Copyright (c) 1982, 1990 The Regents of the University of California.
* All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* the Systems Programming Group of the University of Utah Computer
* Science Department.
*
* Redistribution is only permitted until one year after the first shipment
* of 4.4BSD by the Regents. Otherwise, redistribution and use in source and
* binary forms are permitted provided that: (1) source distributions retain
* this entire copyright notice and comment, and (2) distributions including
* binaries display the following acknowledgement: This product includes
* software developed by the University of California, Berkeley and its
* contributors'' in the documentation or other materials provided with the
* distribution and in all advertising materials mentioning features or use
* of this software. 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 AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
*
* from: Utah $Hdr: rdreg.h 1.14 89/02/27$
*
* @(#)rdreg.h 7.1 (Berkeley) 5/8/90
*/
struct rd_iocmd {
char c_pad;
char c_unit;
char c_volume;
char c_saddr;
short c_hiaddr;
long c_addr;
char c_nop2;
char c_slen;
long c_len;
char c_cmd;
char c_pad2;
};
struct rd_rscmd {
char c_unit;
char c_sram;
char c_ram;
char c_cmd;
};
struct rd_stat {
char c_vu;
char c_pend;
short c_ref;
short c_fef;
short c_aef;
short c_ief;
union {
char cu_raw[10];
struct {
short cu_msw;
long cu_lsl;
} cu_sva;
struct {
long cu_cyhd;
short cu_sect;
} cu_tva;
} c_pf;
};
#define c_raw c_pf.cu_raw
#define c_blk c_pf.cu_sva.cu_lsl /* for now */
#define c_tva c_pf.cu_tva
struct rd_ssmcmd {
char c_unit;
char c_cmd;
short c_refm;
short c_fefm;
short c_aefm;
short c_iefm;
};
struct rd_srcmd {
char c_unit;
char c_nop;
char c_cmd;
char c_param;
};
struct rd_clearcmd {
char c_unit;
char c_cmd;
};
struct rd_describe {
u_int d_iuw:16, /* controller: installed unit word */
d_cmaxxfr:16, /* controller: max transfer rate (Kb) */
d_ctype:8, /* controller: controller type */
d_utype:8, /* unit: unit type */
d_name:24, /* unit: name (6 BCD digits) */
d_sectsize:16, /* unit: # of bytes per block (sector) */
d_blkbuf:8, /* unit: # of blocks which can be buffered */
d_burstsize:8, /* unit: recommended burst size */
d_blocktime:16, /* unit: block time (u-sec) */
d_uavexfr:16, /* unit: average transfer rate (Kb) */
d_retry:16, /* unit: optimal retry time (1/100-sec) */
d_access:16, /* unit: access time param (1/100-sec) */
d_maxint:8, /* unit: maximum interleave */
d_fvbyte:8, /* unit: fixed volume byte */
d_rvbyte:8, /* unit: removeable volume byte */
d_maxcyl:24, /* volume: maximum cylinder */
d_maxhead:8, /* volume: maximum head */
d_maxsect:16, /* volume: maximum sector on track */
d_maxvsecth:16, /* volume: maximum sector on volume (MSW) */
d_maxvsectl:32, /* volume: maximum sector on volume (LSWs) */
d_interleave:8; /* volume: current interleave */
};
/* indicies into rdinfo -- order is arbitrary */
#define RD7945A 0
#define RD9134D 1
#define RD9122S 2
#define RD7912P 3
#define RD7914P 4
#define RD7958A 5
#define RD7957A 6
#define RD7933H 7
#define RD9134L 8
#define RD7936H 9
#define RD7937H 10
#define RD7914CT 11
#define RD7946A 12
#define RD9122D 13
#define RD7957B 14
#define RD7958B 15
#define RD7959B 16
/* HW ids */
#define RD7946AID 0x220 /* also 7945A */
#define RD9134DID 0x221 /* also 9122S */
#define RD9134LID 0x222 /* also 9122D */
#define RD7912PID 0x209
#define RD7914CTID 0x20A
#define RD7914PID 0x20B
#define RD7958AID 0x22B
#define RD7957AID 0x22A
#define RD7933HID 0x212
#define RD7936HID 0x213 /* just guessing -- as of yet unknown */
#define RD7937HID 0x214
#define RD7957BID 0x22C /* another guess based on 7958B */
#define RD7958BID 0x22D
#define RD7959BID 0x22E /* another guess based on 7958B */
#define NRD7945ABPT (32 >> (DEV_BSHIFT-8))
#define NRD7945ATRK 7
#define NRD9134DBPT (32 >> (DEV_BSHIFT-8))
#define NRD9134DTRK 6
#define NRD9122SBPT (16 >> (DEV_BSHIFT-8))
#define NRD9122STRK 2
#define NRD7912PBPT (64 >> (DEV_BSHIFT-8))
#define NRD7912PTRK 7
#define NRD7914PBPT (64 >> (DEV_BSHIFT-8))
#define NRD7914PTRK 7
#define NRD7933HBPT (92 >> (DEV_BSHIFT-8))
#define NRD7933HTRK 13
#define NRD9134LBPT (32 >> (DEV_BSHIFT-8))
#define NRD9134LTRK 5
/*
* Several HP drives have an odd number of 256 byte sectors per track.
* This makes it rather difficult to break them into 512 and 1024 byte blocks.
* So...we just do like HPUX and don't bother to respect hardware track/head
* boundries -- we just mold the disk so that we use the entire capacity.
* HPUX also sometimes doen't abide by cylinder boundries, we attempt to
* whenever possible.
*
* DISK REAL (256 BPS) HPUX (1024 BPS) BSD (512 BPS)
* SPT x HD x CYL SPT x HD x CYL SPT x HD x CYL
* ----- --------------- --------------- --------------
* 7936: 123 x 7 x 1396 25 x 7 x 1716 123 x 7 x 698
* 7937: 123 x 13 x 1396 25 x 16 x 1395 123 x 13 x 698
*
* 7957A: 63 x 5 x 1013 11 x 7 x 1036 22 x 7 x 1036
* 7958A: 63 x 8 x 1013 21 x 6 x 1013 36 x 7 x 1013
*
* 7957B: 63 x 4 x 1269 9 x 7 x 1269 18 x 7 x 1269
* 7958B: 63 x 6 x 1572 21 x 9 x 786 42 x 9 x 786
* 7959B: 63 x 12 x 1572 21 x 9 x 1572 42 x 9 x 1572
*/
#if DEV_BSIZE == 512
# define NRD7936HBPT 123
# define NRD7936HTRK 7
# define NRD7937HBPT 123
# define NRD7937HTRK 13
# define NRD7957ABPT 22
# define NRD7957ATRK 7
# define NRD7958ABPT 36
# define NRD7958ATRK 7
# define NRD7957BBPT 18
# define NRD7957BTRK 7
# define NRD7958BBPT 42
# define NRD7958BTRK 9
# define NRD7959BBPT 42
# define NRD7959BTRK 9
#endif
#if DEV_BSIZE == 1024
# define NRD7957ABPT 11
# define NRD7957ATRK 7
# define NRD7958ABPT 21
# define NRD7958ATRK 6
# define NRD7957BBPT 9
# define NRD7957BTRK 7
# define NRD7958BBPT 21
# define NRD7958BTRK 9
# define NRD7959BBPT 21
# define NRD7959BTRK 9
#endif
/* controller "unit" number */
#define RDCTLR 15
/* convert 512 byte count into DEV_BSIZE count */
#define RDSZ(x) ((x) >> (DEV_BSHIFT-9))
/* convert block number into sector number and back */
#define RDBTOS(x) ((x) << (DEV_BSHIFT-8))
#define RDSTOB(x) ((x) >> (DEV_BSHIFT-8))
/* extract cyl/head/sect info from three-vector address */
#define RDCYL(tva) ((u_long)(tva).cu_cyhd >> 8)
#define RDHEAD(tva) ((tva).cu_cyhd & 0xFF)
#define RDSECT(tva) ((tva).cu_sect)
#define REF_MASK 0x0
#define FEF_MASK 0x0
#define AEF_MASK 0x0
#define IEF_MASK 0xF970
#define FEF_CU 0x4000 /* cross-unit */
#define FEF_DR 0x0080 /* diagnostic result */
#define FEF_IMR 0x0008 /* internal maintenance release */
#define FEF_PF 0x0002 /* power fail */
#define FEF_REXMT 0x0001 /* retransmit */
#define AEF_UD 0x0040 /* unrecoverable data */
#define IEF_RRMASK 0xe000 /* request release bits */
#define IEF_MD 0x0020 /* marginal data */
#define IEF_RD 0x0010 /* recoverable data */
#define C_READ 0x00
#define C_RAM 0x00 /* single vector (i.e. sector number) */
#define C_WRITE 0x02
#define C_CLEAR 0x08
#define C_STATUS 0x0d
#define C_SADDR 0x10
#define C_SLEN 0x18
#define C_SUNIT(x) (0x20 | (x))
#define C_SVOL(x) (0x40 | (x))
#define C_NOP 0x34
#define C_DESC 0x35
#define C_SREL 0x3b
#define C_SSM 0x3e
#define C_SRAM 0x48
#define C_REL 0x140
#define C_CMD 0x05
#define C_EXEC 0x0e
#define C_QSTAT 0x10
#define C_TCMD 0x12