1 /*
   2  * CDDL HEADER START
   3  *
   4  * The contents of this file are subject to the terms of the
   5  * Common Development and Distribution License, Version 1.0 only
   6  * (the "License").  You may not use this file except in compliance
   7  * with the License.
   8  *
   9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
  10  * or http://www.opensolaris.org/os/licensing.
  11  * See the License for the specific language governing permissions
  12  * and limitations under the License.
  13  *
  14  * When distributing Covered Code, include this CDDL HEADER in each
  15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
  16  * If applicable, add the following below this CDDL HEADER, with the
  17  * fields enclosed by brackets "[]" replaced with your own identifying
  18  * information: Portions Copyright [yyyy] [name of copyright owner]
  19  *
  20  * CDDL HEADER END
  21  */
  22 /*
  23  * Copyright (c) 1989-1998,2000 by Sun Microsystems, Inc.
  24  * All rights reserved.
  25  */
  26 
  27 #ifndef _SYS_FDREG_H
  28 #define _SYS_FDREG_H
  29 
  30 #pragma ident   "%Z%%M% %I%     %E% SMI"
  31 
  32 #ifdef  __cplusplus
  33 extern "C" {
  34 #endif
  35 
  36 
  37 /*
  38  * Floppy Controller Registers
  39  */
  40 #ifndef _ASM
  41 union fdcreg {
  42         volatile struct {
  43                 uchar_t fdc_control;
  44                 uchar_t fdc_fifo;
  45         } fdc_82072_reg;
  46 
  47         volatile struct fdc_82077_reg {
  48                 uchar_t fdc_filler1[2];
  49                 uchar_t fdc_dor;        /* Digital Output Register */
  50                 uchar_t fdc_filler2;
  51                 uchar_t fdc_control;    /* DSR on write, MSR on read */
  52 #define                 fdc_msr fdc_control
  53 #define                 fdc_dsr fdc_control
  54                 uchar_t fdc_fifo;
  55                 uchar_t fdc_filler3;
  56                 uchar_t fdc_dir;        /* Digital Input Register */
  57 #define                 fdc_ccr fdc_dir
  58         } fdc_82077_reg;
  59 };
  60 #endif  /* !_ASM */
  61 
  62 /* DSR - data rate select register */
  63 #define SWR             0x80    /* software reset */
  64 #define PD              0x40    /* power down */
  65 #define EPL             0x20    /* enable phase lock loop */
  66 #define PRECOMPMSK      0x1c    /* precomp mask */
  67 #define DRSELMSK        0x3     /* data rate select mask */
  68 
  69 /* MSR - main status register */
  70 #define RQM 0x80        /* request for master - chip needs attention */
  71 #define DIO 0x40        /* data in/out - 1 = remove bytes from fifo */
  72 #define NDM 0x20        /* non-dma mode - 1 during execution phase */
  73 #define CB  0x10        /* controller busy - command in progress */
  74 
  75 /* command types */
  76 #define GPLN 0x1b       /* gap length for read/write command */
  77 #define GPLF 0x54       /* gap length for format command */
  78 #define FDATA 0xe5      /* fill data fields during format */
  79 
  80 /* commands */
  81 
  82 /* 0x00-0x01 not defined */
  83 #define RDTRK           0x02
  84 #define SPECIFY         0x03
  85 #define SNSDSTAT        0x04
  86 #define WRTCMD          0x05
  87 #define RDCMD           0x06
  88 #define RECALIBRATE     0x07
  89 #define SNSISTAT        0x08    /* Sense Interrupt Status */
  90 #define WRTDEL          0x09    /* Write Deleted Data Sector */
  91 #define RDID            0x0A    /* Read Identifier */
  92 #define MTONOFF         0x0B    /* motor on/off */
  93 #define RDDEL           0x0C    /* Read Deleted Data Sector */
  94 #define FMTTRK          0x0D    /* Format Track */
  95 #define DUMPREG         0x0E    /* Dump Registers */
  96 #define SEEK            0x0F    /* Seek */
  97 /* 0x10-0x12 not defined */
  98 #define CONFIGURE       0x13
  99 /* 0x14-0x1F not defined */
 100 
 101 /* Modifier bits for the command byte */
 102 #define MT              0x80
 103 #define MFM             0x40
 104 #define SK              0x20
 105 #define MOT             0x80
 106 #define IPS             0x80    /* Used for South Bridge superI/O */
 107 
 108 
 109 #define SSSDTL          0xff    /* special sector size */
 110 
 111 #define NCBRW           0x09    /* number cmd bytes for read/write cmds */
 112 #define NRBRW           0x07    /* number result bytes for read/write cmds */
 113 
 114 /* results */
 115 /* status reg0 */
 116 #define IC_SR0          0xc0    /* interrupt code */
 117 #define SE_SR0          0x20    /* seek end */
 118 #define EC_SR0          0x10    /* equipment check */
 119 #define NR_SR0          0x08    /* not ready */
 120 #define H_SR0           0x04    /* head address */
 121 #define DS_SR0          0x03    /* drive select */
 122 
 123 /* status reg1 */
 124 #define EN_SR1          0x80    /* end of cylinder */
 125 #define DE_SR1          0x20    /* data error */
 126 #define OR_SR1          0x10    /* overrun/underrun */
 127 #define ND_SR1          0x04    /* no data */
 128 #define NW_SR1          0x02    /* not writable */
 129 #define MA_SR1          0x01    /* missing address mark */
 130 #define TO_SR1          0x08    /* Timeout */
 131 
 132 /* status reg3 */
 133 #define WP_SR3          0x40    /* write protected */
 134 #define T0_SR3          0x10    /* track zero */
 135 
 136 /* DOR - Digital Output register - 82077 only */
 137 #define EJECT           0x80    /* eject diskette - was in Auxio */
 138 #define EJECT_DMA       0x20    /* eject diskette - on DMA platform */
 139 #define MOTEN(unit)     (unit ? 0x30 : 0x10)    /* motor enable bit */
 140 #define DMAGATE         0x8     /* must be high to enable interrupts */
 141 #define RESET           0x4     /* reset bit */
 142 #define DRVSEL          0x1     /* drive select */
 143 
 144 /* DIR - Digital Input register - 82077 only */
 145 #define DSKCHG  0x80            /* diskette was changed - was in Auxio */
 146 
 147 #define DRV_MASK        0x03    /* drive mask for the second command byte */
 148 
 149 #ifndef _ASM
 150 #define Moton_delay     (drv_usectohz(750000))          /* motor on delay */
 151                                                         /* 0.75 seconds */
 152 #define Motoff_delay    drv_sectohz(6)          /* motor off delay */
 153                                                         /* 6 seconds */
 154 
 155 /* Macros to set and retrieve data from the controller registers */
 156 #define Msr(fdc)        ddi_get8(fdc->c_handlep_cont, \
 157                                         ((uint8_t *)fdc->c_control))
 158 #define Dsr(fdc, val)   ddi_put8(fdc->c_handlep_cont, \
 159                                         ((uint8_t *)fdc->c_control),\
 160                                         ((uint8_t)val))
 161 #define Dir(fdc)        ddi_get8(fdc->c_handlep_cont, \
 162                                         ((uint8_t *)fdc->c_dir))
 163 #define Fifo(fdc)       ddi_get8(fdc->c_handlep_cont, \
 164                                         ((uint8_t *)fdc->c_fifo))
 165 #define Set_Fifo(fdc, val) ddi_put8(fdc->c_handlep_cont, \
 166                                         ((uint8_t *)fdc->c_fifo), \
 167                                         ((uint8_t)val))
 168 #define Dor(fdc)        ddi_get8(fdc->c_handlep_cont, ((uint8_t *)fdc->c_dor))
 169 #define Set_dor(fdc, val, flag) \
 170         { if (flag) \
 171                 ddi_put8(fdc->c_handlep_cont, ((uint8_t *)fdc->c_dor), \
 172                         ((uint8_t)(Dor(fdc) | (val)))); \
 173             else \
 174                 ddi_put8(fdc->c_handlep_cont, ((uint8_t *)fdc->c_dor), \
 175                         ((uint8_t)(Dor(fdc) & ~(val)))); }
 176 #endif  /* !_ASM */
 177 
 178 /*
 179  * Auxio Registers
 180  */
 181 
 182 /*
 183  * Definitions and structures for the floppy Auxiliary Input/Output register
 184  * for the muchio, slavio, and cheerio I/O subsystem chips
 185  *
 186  * In general, muchio is found on sun4c, slavio is found on sun4m and sun4u
 187  * with Sbus.  Cheerio is found on sun4u with a PCI bus.
 188  *
 189  *
 190  *
 191  *                      07   06   05   04   03   02   01   00
 192  *      muchio          1    1    DEN  CHG  SEL  TC   EJCT LED
 193  *      slavio          1    1    DEN  0    IMUX 0    TC   LED
 194  *
 195  * The auxio register is designed poorly from a software perspective.
 196  *  a) it supports other functions as well as floppy
 197  *  b) TC is at a different bit position for muchio versus sun4m
 198  *
 199  * The cheerio auxio register is only for the floppy and it is a 32 bit
 200  * register.  It does not contain a TC because the cheerio supports
 201  * floppy DMA.  Please note that on the slavio auxio, the Digital
 202  * Output register of the floppy controller contains a Density Select bit.
 203  * On the cheerio, this bit is muxed with another
 204  * signal.  So, the cheerio auxio register contains a density select bit.
 205  *
 206  *    cheerio auxio bit name    bit#
 207  *    ------------------------------
 208  *    Floppy density sense      0
 209  *    Floppy desnity select     1
 210  *    Unused                    31:1
 211  *
 212  */
 213 
 214 /*
 215  * muchio/slavio: Bits of the auxio register
 216  *      - when writing to the auxio register, the bits represented by
 217  *        AUX_MBO and AUX_MBO4M must be one
 218  */
 219 
 220 #define AUX_MBO         0xF0            /* Must be written with ones */
 221 #define AUX_MBO4M       0xC0            /* Must be written with ones */
 222 
 223 #define AUX_TC4M        0x02    /* 4m Floppy termnal count */
 224                                 /* 1 = transfer over */
 225 #define AUX_TC          0x04    /* 4c Floppy terminal count */
 226                                 /* 1 = transfer over */
 227 #define AUX_DENSITY     0x20    /* Floppy density (input value) */
 228                                 /* 1 = high, 0 = low */
 229 
 230 
 231 /*
 232  * muchio additional floppy auxio bits
 233  * slavio uses internal dor for these bits
 234  */
 235 
 236 #define AUX_DISKCHG     0x10            /* Floppy diskette change (input) */
 237                                         /* 1 = new diskette inserted */
 238 #define AUX_DRVSELECT   0x08            /* Floppy drive select (output) */
 239                                         /* 1 = selected, 0 = deselected */
 240 #define AUX_EJECT       0x02            /* Floppy eject (output,NON inverted) */
 241                                         /* 0 = eject the diskette */
 242 /*
 243  * cheerio additional floppy auxio bits
 244  */
 245 
 246 #define AUX_MEDIUM_DENSITY      0x0     /* Use medium density */
 247 #define AUX_HIGH_DENSITY        0x2
 248 
 249 /*
 250  * macros to set the Cheerio auxio registers.
 251  */
 252 
 253 #define Set_auxio(fdc, val)     ddi_put32(fdc->c_handlep_aux, \
 254                                 ((uint32_t *)fdc->c_auxio_reg), \
 255                                     ((uint32_t)(val)))
 256 
 257 #define Get_auxio(fdc)          ddi_get32(fdc->c_handlep_aux, \
 258                                 ((uint32_t *)fdc->c_auxio_reg))
 259 
 260 /*
 261  * DMA registers (sun4u only)
 262  */
 263 #ifndef _ASM
 264 struct  cheerio_dma_reg {
 265         uint_t fdc_dcsr;                /* Data Control Status Register */
 266         uint_t fdc_dacr;                /* DMA Address Count Registers */
 267         uint_t fdc_dbcr;                /* DMA Byte Count Register */
 268 };
 269 
 270 #define ISA_REG_LEN     0x500   /* South Bridge dma regs span */
 271                                 /* complete 0x500 isa registers. */
 272 
 273 struct sb_dma_reg {
 274         uchar_t sb_dma_regs[ISA_REG_LEN];
 275 };
 276 struct fdc_dma_reg {
 277         uchar_t fdc_dma_regs[ISA_REG_LEN]; /* registers from isa config space */
 278 };
 279 
 280 
 281 #endif /* !_ASM */
 282 
 283 
 284 
 285 /*
 286  * DMA Control and Status Register(DCSR) definitions.  See Cheerio spec
 287  * for more details
 288  */
 289 #define DCSR_INT_PEND   0x00000001      /* 1= floppy interrupts */
 290 #define DCSR_ERR_PEND   0x00000002      /* 1= host bus error detected */
 291 #define DCSR_INT_EN     0x00000010      /* 1= enable floppy interrupts */
 292 #define DCSR_RESET      0x00000080      /* 1= resets the DCSR */
 293 #define DCSR_WRITE      0x00000100      /* DMA direction; 1 = memory */
 294 #define DCSR_EN_DMA     0x00000200      /* 1= enable DMA */
 295 #define DCSR_CYC_PEND   0x00000400      /* 1 = DMA pending */
 296 #define DCSR_EN_CNT     0x00002000      /* 1= enables byte counter */
 297 #define DCSR_TC         0x00004000      /* 1= Terminal Count occurred */
 298 #define DCSR_CSR_DRAIN  0x00000000      /* 1= disable draining */
 299 #define DCSR_BURST_0    0x00080000      /* Burst Size bit 0 */
 300 #define DCSR_BURST_1    0x00040000      /* Burst Size bit 1 */
 301 #define DCSR_DIAG       0x00000000      /* 1= diag enable */
 302 #define DCSR_TCI_DIS    0x00800000      /* 1= TC won't cause interrupt */
 303 #define DCSR_INIT_BITS  DCSR_INT_EN | DCSR_EN_CNT | DCSR_CSR_DRAIN  \
 304                         | fd_burstsize \
 305                         | DCSR_TCI_DIS | DCSR_EN_DMA
 306 
 307 #ifdef  __cplusplus
 308 }
 309 #endif
 310 
 311 #endif  /* !_SYS_FDREG_H */