grf_cv.c revision 1.25
1 1.25 thorpej /* $NetBSD: grf_cv.c,v 1.25 1998/01/12 10:39:33 thorpej Exp $ */ 2 1.4 jtc 3 1.1 chopps /* 4 1.1 chopps * Copyright (c) 1995 Michael Teske 5 1.1 chopps * All rights reserved. 6 1.1 chopps * 7 1.1 chopps * Redistribution and use in source and binary forms, with or without 8 1.1 chopps * modification, are permitted provided that the following conditions 9 1.1 chopps * are met: 10 1.1 chopps * 1. Redistributions of source code must retain the above copyright 11 1.1 chopps * notice, this list of conditions and the following disclaimer. 12 1.1 chopps * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 chopps * notice, this list of conditions and the following disclaimer in the 14 1.1 chopps * documentation and/or other materials provided with the distribution. 15 1.1 chopps * 3. All advertising materials mentioning features or use of this software 16 1.1 chopps * must display the following acknowledgement: 17 1.1 chopps * This product includes software developed by Ezra Story, by Kari 18 1.21 veego * Mettinen, Michael Teske and by Bernd Ernesti. 19 1.1 chopps * 4. The name of the author may not be used to endorse or promote products 20 1.1 chopps * derived from this software without specific prior written permission 21 1.7 veego * 22 1.1 chopps * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 23 1.1 chopps * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 24 1.1 chopps * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 25 1.1 chopps * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 26 1.1 chopps * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 27 1.1 chopps * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 28 1.1 chopps * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 29 1.1 chopps * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 30 1.1 chopps * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 31 1.1 chopps * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 32 1.7 veego */ 33 1.1 chopps #include "grfcv.h" 34 1.1 chopps #if NGRFCV > 0 35 1.1 chopps 36 1.1 chopps /* 37 1.1 chopps * Graphics routines for the CyberVision 64 board, using the S3 Trio64. 38 1.1 chopps * 39 1.1 chopps * Modified for CV64 from 40 1.1 chopps * Kari Mettinen's Cirrus driver by Michael Teske 10/95 41 1.1 chopps * 42 1.1 chopps * Thanks to Tekelec Airtronic for providing me with a S3 Trio64 documentation. 43 1.1 chopps * Thanks to Bernd 'the fabulous bug-finder' Ernesti for bringing my messy 44 1.1 chopps * source to NetBSD style :) 45 1.21 veego * Thanks to Harald Koenig for providing information about undocumented 46 1.21 veego * Trio64 Bugs. 47 1.1 chopps */ 48 1.1 chopps 49 1.1 chopps #include <sys/param.h> 50 1.1 chopps #include <sys/errno.h> 51 1.1 chopps #include <sys/ioctl.h> 52 1.1 chopps #include <sys/device.h> 53 1.1 chopps #include <sys/malloc.h> 54 1.1 chopps #include <sys/systm.h> 55 1.21 veego #include <sys/syslog.h> 56 1.1 chopps #include <machine/cpu.h> 57 1.1 chopps #include <dev/cons.h> 58 1.7 veego #include <amiga/dev/itevar.h> 59 1.1 chopps #include <amiga/amiga/device.h> 60 1.21 veego #include <amiga/amiga/isr.h> 61 1.1 chopps #include <amiga/dev/grfioctl.h> 62 1.1 chopps #include <amiga/dev/grfvar.h> 63 1.1 chopps #include <amiga/dev/grf_cvreg.h> 64 1.1 chopps #include <amiga/dev/zbusvar.h> 65 1.1 chopps 66 1.20 veego int grfcvmatch __P((struct device *, struct cfdata *, void *)); 67 1.4 jtc void grfcvattach __P((struct device *, struct device *, void *)); 68 1.16 cgd int grfcvprint __P((void *, const char *)); 69 1.4 jtc 70 1.21 veego int cvintr __P((void *)); 71 1.7 veego static int cv_has_4mb __P((volatile caddr_t)); 72 1.14 veego static unsigned short cv_compute_clock __P((unsigned long)); 73 1.4 jtc void cv_boardinit __P((struct grf_softc *)); 74 1.4 jtc int cv_getvmode __P((struct grf_softc *, struct grfvideo_mode *)); 75 1.4 jtc int cv_setvmode __P((struct grf_softc *, unsigned int)); 76 1.4 jtc int cv_blank __P((struct grf_softc *, int *)); 77 1.12 veego int cv_mode __P((register struct grf_softc *, u_long, void *, u_long, int)); 78 1.12 veego int cv_ioctl __P((register struct grf_softc *gp, u_long cmd, void *data)); 79 1.4 jtc int cv_setmonitor __P((struct grf_softc *, struct grfvideo_mode *)); 80 1.4 jtc int cv_getcmap __P((struct grf_softc *, struct grf_colormap *)); 81 1.4 jtc int cv_putcmap __P((struct grf_softc *, struct grf_colormap *)); 82 1.4 jtc int cv_toggle __P((struct grf_softc *)); 83 1.4 jtc int cv_mondefok __P((struct grfvideo_mode *)); 84 1.4 jtc int cv_load_mon __P((struct grf_softc *, struct grfcvtext_mode *)); 85 1.4 jtc void cv_inittextmode __P((struct grf_softc *)); 86 1.23 veego static __inline void cv_write_port __P((unsigned short, volatile caddr_t)); 87 1.23 veego static __inline void cvscreen __P((int, volatile caddr_t)); 88 1.23 veego static __inline void gfx_on_off __P((int, volatile caddr_t)); 89 1.3 chopps 90 1.21 veego #ifndef CV_NO_HARDWARE_CURSOR 91 1.12 veego int cv_getspritepos __P((struct grf_softc *, struct grf_position *)); 92 1.12 veego int cv_setspritepos __P((struct grf_softc *, struct grf_position *)); 93 1.12 veego int cv_getspriteinfo __P((struct grf_softc *,struct grf_spriteinfo *)); 94 1.21 veego void cv_setup_hwc __P((struct grf_softc *)); 95 1.12 veego int cv_setspriteinfo __P((struct grf_softc *,struct grf_spriteinfo *)); 96 1.12 veego int cv_getspritemax __P((struct grf_softc *,struct grf_position *)); 97 1.21 veego #endif /* !CV_NO_HARDWARE_CURSOR */ 98 1.21 veego 99 1.21 veego /* 100 1.21 veego * Extension to grf_softc for interrupt support 101 1.21 veego */ 102 1.21 veego 103 1.21 veego struct grf_cv_softc { 104 1.21 veego struct grf_softc gcs_sc; 105 1.21 veego struct isr gcs_isr; 106 1.21 veego }; 107 1.12 veego 108 1.1 chopps /* Graphics display definitions. 109 1.1 chopps * These are filled by 'grfconfig' using GRFIOCSETMON. 110 1.1 chopps */ 111 1.7 veego #define monitor_def_max 24 112 1.7 veego static struct grfvideo_mode monitor_def[24] = { 113 1.7 veego {0}, {0}, {0}, {0}, {0}, {0}, {0}, {0}, 114 1.7 veego {0}, {0}, {0}, {0}, {0}, {0}, {0}, {0}, 115 1.1 chopps {0}, {0}, {0}, {0}, {0}, {0}, {0}, {0} 116 1.1 chopps }; 117 1.1 chopps static struct grfvideo_mode *monitor_current = &monitor_def[0]; 118 1.1 chopps #define MAXPIXELCLOCK 135000000 /* safety */ 119 1.1 chopps 120 1.19 veego unsigned char cv_pass_toggle; /* passthru status tracker */ 121 1.1 chopps 122 1.1 chopps /* Console display definition. 123 1.1 chopps * Default hardcoded text mode. This grf_cv is set up to 124 1.1 chopps * use one text mode only, and this is it. You may use 125 1.1 chopps * grfconfig to change the mode after boot. 126 1.1 chopps */ 127 1.1 chopps 128 1.1 chopps /* Console font */ 129 1.7 veego #ifdef KFONT_8X11 130 1.7 veego #define S3FONT kernel_font_8x11 131 1.7 veego #define S3FONTY 11 132 1.7 veego #else 133 1.1 chopps #define S3FONT kernel_font_8x8 134 1.1 chopps #define S3FONTY 8 135 1.7 veego #endif 136 1.1 chopps extern unsigned char S3FONT[]; 137 1.1 chopps 138 1.7 veego /* 139 1.7 veego * Define default console mode 140 1.7 veego * (Internally, we still have to use hvalues/8!) 141 1.7 veego */ 142 1.1 chopps struct grfcvtext_mode cvconsole_mode = { 143 1.23 veego {255, "", 25000000, 640, 480, 4, 640/8, 680/8, 768/8, 800/8, 144 1.23 veego 481, 491, 493, 525, 0}, 145 1.7 veego 8, S3FONTY, 80, 480 / S3FONTY, S3FONT, 32, 255 146 1.1 chopps }; 147 1.1 chopps 148 1.1 chopps /* Console colors */ 149 1.12 veego unsigned char cvconscolors[16][3] = { /* background, foreground, hilite */ 150 1.12 veego /* R G B */ 151 1.12 veego {0x30, 0x30, 0x30}, 152 1.12 veego {0x00, 0x00, 0x00}, 153 1.12 veego {0x80, 0x00, 0x00}, 154 1.12 veego {0x00, 0x80, 0x00}, 155 1.12 veego {0x00, 0x00, 0x80}, 156 1.12 veego {0x80, 0x80, 0x00}, 157 1.12 veego {0x00, 0x80, 0x80}, 158 1.12 veego {0x80, 0x00, 0x80}, 159 1.12 veego {0xff, 0xff, 0xff}, 160 1.12 veego {0x40, 0x40, 0x40}, 161 1.12 veego {0xff, 0x00, 0x00}, 162 1.12 veego {0x00, 0xff, 0x00}, 163 1.12 veego {0x00, 0x00, 0xff}, 164 1.12 veego {0xff, 0xff, 0x00}, 165 1.12 veego {0x00, 0xff, 0xff}, 166 1.14 veego {0x00, 0x00, 0xff} 167 1.7 veego }; 168 1.7 veego 169 1.7 veego static unsigned char clocks[]={ 170 1.7 veego 0x13, 0x61, 0x6b, 0x6d, 0x51, 0x69, 0x54, 0x69, 171 1.7 veego 0x4f, 0x68, 0x6b, 0x6b, 0x18, 0x61, 0x7b, 0x6c, 172 1.7 veego 0x51, 0x67, 0x24, 0x62, 0x56, 0x67, 0x77, 0x6a, 173 1.7 veego 0x1d, 0x61, 0x53, 0x66, 0x6b, 0x68, 0x79, 0x69, 174 1.7 veego 0x7c, 0x69, 0x7f, 0x69, 0x22, 0x61, 0x54, 0x65, 175 1.7 veego 0x56, 0x65, 0x58, 0x65, 0x67, 0x66, 0x41, 0x63, 176 1.7 veego 0x27, 0x61, 0x13, 0x41, 0x37, 0x62, 0x6b, 0x4d, 177 1.7 veego 0x23, 0x43, 0x51, 0x49, 0x79, 0x66, 0x54, 0x49, 178 1.7 veego 0x7d, 0x66, 0x34, 0x56, 0x4f, 0x63, 0x1f, 0x42, 179 1.7 veego 0x6b, 0x4b, 0x7e, 0x4d, 0x18, 0x41, 0x2a, 0x43, 180 1.7 veego 0x7b, 0x4c, 0x74, 0x4b, 0x51, 0x47, 0x65, 0x49, 181 1.7 veego 0x24, 0x42, 0x68, 0x49, 0x56, 0x47, 0x75, 0x4a, 182 1.7 veego 0x77, 0x4a, 0x31, 0x43, 0x1d, 0x41, 0x71, 0x49, 183 1.7 veego 0x53, 0x46, 0x29, 0x42, 0x6b, 0x48, 0x1f, 0x41, 184 1.7 veego 0x79, 0x49, 0x6f, 0x48, 0x7c, 0x49, 0x38, 0x43, 185 1.7 veego 0x7f, 0x49, 0x5d, 0x46, 0x22, 0x41, 0x53, 0x45, 186 1.7 veego 0x54, 0x45, 0x55, 0x45, 0x56, 0x45, 0x57, 0x45, 187 1.7 veego 0x58, 0x45, 0x25, 0x41, 0x67, 0x46, 0x5b, 0x45, 188 1.7 veego 0x41, 0x43, 0x78, 0x47, 0x27, 0x41, 0x51, 0x44, 189 1.7 veego 0x13, 0x21, 0x7d, 0x47, 0x37, 0x42, 0x71, 0x46, 190 1.7 veego 0x6b, 0x2d, 0x14, 0x21, 0x23, 0x23, 0x7d, 0x2f, 191 1.7 veego 0x51, 0x29, 0x61, 0x2b, 0x79, 0x46, 0x1d, 0x22, 192 1.7 veego 0x54, 0x29, 0x45, 0x27, 0x7d, 0x46, 0x7f, 0x46, 193 1.7 veego 0x4f, 0x43, 0x2f, 0x41, 0x1f, 0x22, 0x6a, 0x2b, 194 1.7 veego 0x6b, 0x2b, 0x5b, 0x29, 0x7e, 0x2d, 0x65, 0x44, 195 1.7 veego 0x18, 0x21, 0x5e, 0x29, 0x2a, 0x23, 0x45, 0x26, 196 1.7 veego 0x7b, 0x2c, 0x19, 0x21, 0x74, 0x2b, 0x75, 0x2b, 197 1.7 veego 0x51, 0x27, 0x3f, 0x25, 0x65, 0x29, 0x40, 0x25, 198 1.7 veego 0x24, 0x22, 0x41, 0x25, 0x68, 0x29, 0x42, 0x25, 199 1.7 veego 0x56, 0x27, 0x7e, 0x2b, 0x75, 0x2a, 0x1c, 0x21, 200 1.7 veego 0x77, 0x2a, 0x4f, 0x26, 0x31, 0x23, 0x6f, 0x29, 201 1.7 veego 0x1d, 0x21, 0x32, 0x23, 0x71, 0x29, 0x72, 0x29, 202 1.7 veego 0x53, 0x26, 0x69, 0x28, 0x29, 0x22, 0x75, 0x29, 203 1.7 veego 0x6b, 0x28, 0x1f, 0x21, 0x1f, 0x21, 0x6d, 0x28, 204 1.7 veego 0x79, 0x29, 0x2b, 0x22, 0x6f, 0x28, 0x59, 0x26, 205 1.7 veego 0x7c, 0x29, 0x7d, 0x29, 0x38, 0x23, 0x21, 0x21, 206 1.7 veego 0x7f, 0x29, 0x39, 0x23, 0x5d, 0x26, 0x75, 0x28, 207 1.7 veego 0x22, 0x21, 0x77, 0x28, 0x53, 0x25, 0x6c, 0x27, 208 1.7 veego 0x54, 0x25, 0x61, 0x26, 0x55, 0x25, 0x30, 0x22, 209 1.7 veego 0x56, 0x25, 0x63, 0x26, 0x57, 0x25, 0x71, 0x27, 210 1.7 veego 0x58, 0x25, 0x7f, 0x28, 0x25, 0x21, 0x74, 0x27, 211 1.7 veego 0x67, 0x26, 0x40, 0x23, 0x5b, 0x25, 0x26, 0x21, 212 1.7 veego 0x41, 0x23, 0x34, 0x22, 0x78, 0x27, 0x6b, 0x26, 213 1.7 veego 0x27, 0x21, 0x35, 0x22, 0x51, 0x24, 0x7b, 0x27, 214 1.7 veego 0x13, 0x1, 0x13, 0x1, 0x7d, 0x27, 0x4c, 0x9, 215 1.7 veego 0x37, 0x22, 0x5b, 0xb, 0x71, 0x26, 0x5c, 0xb, 216 1.7 veego 0x6b, 0xd, 0x47, 0x23, 0x14, 0x1, 0x4f, 0x9, 217 1.7 veego 0x23, 0x3, 0x75, 0x26, 0x7d, 0xf, 0x1c, 0x2, 218 1.7 veego 0x51, 0x9, 0x59, 0x24, 0x61, 0xb, 0x69, 0x25, 219 1.7 veego 0x79, 0x26, 0x34, 0x5, 0x1d, 0x2, 0x6b, 0x25, 220 1.7 veego 0x54, 0x9, 0x35, 0x5, 0x45, 0x7, 0x6d, 0x25, 221 1.7 veego 0x7d, 0x26, 0x16, 0x1, 0x7f, 0x26, 0x77, 0xd, 222 1.7 veego 0x4f, 0x23, 0x78, 0xd, 0x2f, 0x21, 0x27, 0x3, 223 1.7 veego 0x1f, 0x2, 0x59, 0x9, 0x6a, 0xb, 0x73, 0x25, 224 1.7 veego 0x6b, 0xb, 0x63, 0x24, 0x5b, 0x9, 0x20, 0x2, 225 1.7 veego 0x7e, 0xd, 0x4b, 0x7, 0x65, 0x24, 0x43, 0x22, 226 1.7 veego 0x18, 0x1, 0x6f, 0xb, 0x5e, 0x9, 0x70, 0xb, 227 1.7 veego 0x2a, 0x3, 0x33, 0x4, 0x45, 0x6, 0x60, 0x9, 228 1.7 veego 0x7b, 0xc, 0x19, 0x1, 0x19, 0x1, 0x7d, 0xc, 229 1.7 veego 0x74, 0xb, 0x50, 0x7, 0x75, 0xb, 0x63, 0x9, 230 1.7 veego 0x51, 0x7, 0x23, 0x2, 0x3f, 0x5, 0x1a, 0x1, 231 1.7 veego 0x65, 0x9, 0x2d, 0x3, 0x40, 0x5, 0x0, 0x0, 232 1.1 chopps }; 233 1.1 chopps 234 1.1 chopps 235 1.1 chopps /* Board Address of CV64 */ 236 1.4 jtc static volatile caddr_t cv_boardaddr; 237 1.1 chopps static int cv_fbsize; 238 1.1 chopps 239 1.7 veego /* 240 1.7 veego * Memory clock (binpatchable). 241 1.12 veego * Let's be defensive: 50 MHz runs on all boards I know of. 242 1.7 veego * 55 MHz runs on most boards. But you should know what you're doing 243 1.7 veego * if you set this flag. Again: This flag may destroy your CV Board. 244 1.7 veego * Use it at your own risk!!! 245 1.7 veego * Anyway, this doesn't imply that I'm responsible if your board breaks 246 1.7 veego * without setting this flag :-). 247 1.7 veego */ 248 1.7 veego #ifdef CV_AGGRESSIVE_TIMING 249 1.7 veego long cv_memclk = 55000000; 250 1.7 veego #else 251 1.12 veego long cv_memclk = 50000000; 252 1.7 veego #endif 253 1.1 chopps 254 1.1 chopps /* standard driver stuff */ 255 1.10 thorpej struct cfattach grfcv_ca = { 256 1.21 veego sizeof(struct grf_cv_softc), grfcvmatch, grfcvattach 257 1.10 thorpej }; 258 1.10 thorpej 259 1.1 chopps static struct cfdata *cfdata; 260 1.1 chopps 261 1.23 veego #define CV_INT_NUM 6 /* CV interrupt Level: #2 or #6 */ 262 1.21 veego #define CV_ULCURSOR 1 /* Underlined Cursor in textmode */ 263 1.21 veego 264 1.21 veego #ifndef CV_NO_HARDWARE_CURSOR 265 1.21 veego 266 1.21 veego #define HWC_OFF (cv_fbsize - 1024*2) 267 1.21 veego #define HWC_SIZE 1024 268 1.21 veego 269 1.21 veego static unsigned short cv_cursor_storage[HWC_SIZE/2]; 270 1.21 veego static short curs_update_flag = 0; 271 1.21 veego 272 1.21 veego #endif /* !CV_NO_HARDWARE_CURSOR */ 273 1.21 veego 274 1.21 veego /* 275 1.21 veego * Interrupt handler 276 1.21 veego * This is used for updating the cursor shape (because it _must not_ 277 1.21 veego * be changed while cursor is displayed) 278 1.21 veego * and maybe later to avoid busy waiting 279 1.21 veego * for Vertical Blank and/or gfx engine busy 280 1.21 veego */ 281 1.21 veego 282 1.21 veego int 283 1.21 veego cvintr(arg) 284 1.21 veego void * arg; 285 1.21 veego { 286 1.21 veego #ifndef CV_NO_HARDWARE_CURSOR 287 1.21 veego register unsigned long *csrc, *cdest; 288 1.21 veego int i; 289 1.21 veego #endif 290 1.21 veego struct grf_softc *gp = arg; 291 1.21 veego volatile caddr_t ba = gp->g_regkva; 292 1.21 veego unsigned char test; 293 1.21 veego unsigned char cridx; /* Save the cr Register index */ 294 1.21 veego 295 1.21 veego if (gp == NULL) 296 1.21 veego return 0; 297 1.21 veego 298 1.21 veego test = vgar(ba, GREG_INPUT_STATUS0_R); 299 1.21 veego 300 1.21 veego if (test & 0x80) { /* VR int pending */ 301 1.21 veego /* Save old CR index */ 302 1.21 veego cridx = vgar (ba, CRT_ADDRESS); 303 1.23 veego 304 1.21 veego #if 0 305 1.21 veego test = RCrt(ba, CRT_ID_END_VER_RETR); 306 1.21 veego /* Clear int (bit 4) */ 307 1.23 veego test &= ~0x10; 308 1.21 veego WCrt(ba, CRT_ID_END_VER_RETR, test); 309 1.21 veego #else 310 1.21 veego vgaw(ba, CRT_ADDRESS, CRT_ID_END_VER_RETR); 311 1.21 veego asm volatile("bclr #4,%0@(0x3d5);nop" : : "a" (ba)); 312 1.21 veego #endif 313 1.23 veego 314 1.21 veego #ifndef CV_NO_HARDWARE_CURSOR 315 1.21 veego /* update the hardware cursor, if necessary */ 316 1.21 veego if (curs_update_flag) { 317 1.21 veego csrc = (unsigned long *)cv_cursor_storage; 318 1.21 veego cdest = (unsigned long *)((volatile char *)gp->g_fbkva 319 1.21 veego + HWC_OFF); 320 1.21 veego for (i = 0; i < HWC_SIZE / sizeof(long); i++) 321 1.21 veego *cdest++ = *csrc++; 322 1.21 veego curs_update_flag = 0; 323 1.21 veego } 324 1.21 veego /* Reenable int */ 325 1.21 veego #if 0 326 1.21 veego test |= 0x10; 327 1.21 veego WCrt(ba, CRT_ID_END_VER_RETR, test); 328 1.21 veego #else 329 1.21 veego /* I don't trust the optimizer here... */ 330 1.21 veego asm volatile("bset #4,%0@(0x3d5);nop" : : "a" (ba)); 331 1.21 veego #endif 332 1.21 veego cv_setspritepos (gp, NULL); 333 1.23 veego 334 1.23 veego /* Restore the old CR index */ 335 1.21 veego vgaw(ba, CRT_ADDRESS, cridx); 336 1.23 veego asm volatile("nop"); 337 1.21 veego #endif /* !CV_NO_HARDWARE_CURSOR */ 338 1.23 veego return (1); 339 1.21 veego } 340 1.23 veego return (0); 341 1.21 veego } 342 1.1 chopps 343 1.1 chopps /* 344 1.1 chopps * Get frambuffer memory size. 345 1.1 chopps * phase5 didn't provide the bit in CR36, 346 1.1 chopps * so we have to do it this way. 347 1.1 chopps * Return 0 for 2MB, 1 for 4MB 348 1.1 chopps */ 349 1.1 chopps static int 350 1.7 veego cv_has_4mb(fb) 351 1.7 veego volatile caddr_t fb; 352 1.1 chopps { 353 1.1 chopps volatile unsigned long *testfbw, *testfbr; 354 1.1 chopps 355 1.1 chopps /* write patterns in memory and test if they can be read */ 356 1.7 veego testfbw = (volatile unsigned long *)fb; 357 1.7 veego testfbr = (volatile unsigned long *)(fb + 0x02000000); 358 1.1 chopps *testfbw = 0x87654321; 359 1.1 chopps if (*testfbr != 0x87654321) 360 1.2 chopps return (0); 361 1.7 veego 362 1.1 chopps /* upper memory region */ 363 1.1 chopps testfbw = (volatile unsigned long *)(fb + 0x00200000); 364 1.7 veego testfbr = (volatile unsigned long *)(fb + 0x02200000); 365 1.1 chopps *testfbw = 0x87654321; 366 1.1 chopps if (*testfbr != 0x87654321) 367 1.2 chopps return (0); 368 1.1 chopps *testfbw = 0xAAAAAAAA; 369 1.1 chopps if (*testfbr != 0xAAAAAAAA) 370 1.2 chopps return (0); 371 1.1 chopps *testfbw = 0x55555555; 372 1.1 chopps if (*testfbr != 0x55555555) 373 1.2 chopps return (0); 374 1.2 chopps return (1); 375 1.1 chopps } 376 1.1 chopps 377 1.1 chopps int 378 1.20 veego grfcvmatch(pdp, cfp, auxp) 379 1.1 chopps struct device *pdp; 380 1.20 veego struct cfdata *cfp; 381 1.20 veego void *auxp; 382 1.1 chopps { 383 1.13 veego #ifdef CV64CONSOLE 384 1.13 veego static int cvcons_unit = -1; 385 1.13 veego #endif 386 1.1 chopps struct zbus_args *zap; 387 1.1 chopps 388 1.1 chopps zap = auxp; 389 1.1 chopps 390 1.1 chopps if (amiga_realconfig == 0) 391 1.7 veego #ifdef CV64CONSOLE 392 1.7 veego if (cvcons_unit != -1) 393 1.1 chopps #endif 394 1.7 veego return (0); 395 1.1 chopps 396 1.7 veego /* Lets be Paranoid: Test man and prod id */ 397 1.1 chopps if (zap->manid != 8512 || zap->prodid != 34) 398 1.2 chopps return (0); 399 1.1 chopps 400 1.1 chopps cv_boardaddr = zap->va; 401 1.1 chopps 402 1.1 chopps #ifdef CV64CONSOLE 403 1.1 chopps if (amiga_realconfig == 0) { 404 1.7 veego cvcons_unit = cfp->cf_unit; 405 1.1 chopps cfdata = cfp; 406 1.1 chopps } 407 1.1 chopps #endif 408 1.1 chopps 409 1.2 chopps return (1); 410 1.1 chopps } 411 1.1 chopps 412 1.1 chopps void 413 1.1 chopps grfcvattach(pdp, dp, auxp) 414 1.1 chopps struct device *pdp, *dp; 415 1.1 chopps void *auxp; 416 1.1 chopps { 417 1.21 veego static struct grf_cv_softc congrf; 418 1.1 chopps struct zbus_args *zap; 419 1.1 chopps struct grf_softc *gp; 420 1.21 veego struct grf_cv_softc *gcp; 421 1.12 veego static char attachflag = 0; 422 1.1 chopps 423 1.1 chopps zap = auxp; 424 1.1 chopps 425 1.7 veego /* 426 1.7 veego * This function is called twice, once on console init (dp == NULL) 427 1.7 veego * and once on "normal" grf5 init. 428 1.7 veego */ 429 1.1 chopps 430 1.7 veego if (dp == NULL) /* console init */ 431 1.21 veego gcp = &congrf; 432 1.7 veego else 433 1.21 veego gcp = (struct grf_cv_softc *)dp; 434 1.21 veego 435 1.21 veego gp = &gcp->gcs_sc; 436 1.1 chopps 437 1.21 veego if (dp != NULL && congrf.gcs_sc.g_regkva != 0) { 438 1.7 veego /* 439 1.7 veego * inited earlier, just copy (not device struct) 440 1.7 veego */ 441 1.1 chopps 442 1.18 christos printf("\n"); 443 1.21 veego bcopy(&congrf.gcs_sc.g_display, &gp->g_display, 444 1.21 veego (char *) &gcp->gcs_isr - (char *) &gp->g_display); 445 1.1 chopps 446 1.21 veego /* ... and transfer the isr */ 447 1.21 veego gcp->gcs_isr.isr_ipl = CV_INT_NUM; 448 1.21 veego gcp->gcs_isr.isr_intr = cvintr; 449 1.21 veego gcp->gcs_isr.isr_arg = (void *)gp; 450 1.21 veego 451 1.21 veego /* First add new isr */ 452 1.21 veego add_isr(&gcp->gcs_isr); 453 1.21 veego remove_isr(&congrf.gcs_isr); 454 1.7 veego } else { 455 1.7 veego gp->g_regkva = (volatile caddr_t)cv_boardaddr + 0x02000000; 456 1.7 veego gp->g_fbkva = (volatile caddr_t)cv_boardaddr + 0x01400000; 457 1.7 veego 458 1.7 veego gp->g_unit = GRF_CV64_UNIT; 459 1.7 veego gp->g_mode = cv_mode; 460 1.7 veego gp->g_conpri = grfcv_cnprobe(); 461 1.7 veego gp->g_flags = GF_ALIVE; 462 1.7 veego 463 1.21 veego /* add Interrupt Handler */ 464 1.21 veego gcp->gcs_isr.isr_ipl = CV_INT_NUM; 465 1.21 veego gcp->gcs_isr.isr_intr = cvintr; 466 1.21 veego gcp->gcs_isr.isr_arg = (void *)gp; 467 1.21 veego add_isr(&gcp->gcs_isr); 468 1.21 veego 469 1.7 veego /* wakeup the board */ 470 1.7 veego cv_boardinit(gp); 471 1.1 chopps 472 1.1 chopps #ifdef CV64CONSOLE 473 1.7 veego grfcv_iteinit(gp); 474 1.7 veego (void)cv_load_mon(gp, &cvconsole_mode); 475 1.1 chopps #endif 476 1.7 veego } 477 1.1 chopps 478 1.1 chopps /* 479 1.4 jtc * attach grf 480 1.1 chopps */ 481 1.7 veego if (amiga_config_found(cfdata, &gp->g_device, gp, grfcvprint)) { 482 1.7 veego if (dp != NULL) 483 1.21 veego printf("grfcv: CyberVision64 with %dMB being used\n", 484 1.21 veego cv_fbsize/0x100000); 485 1.7 veego attachflag = 1; 486 1.7 veego } else { 487 1.7 veego if (!attachflag) 488 1.18 christos /*printf("grfcv unattached!!\n")*/; 489 1.7 veego } 490 1.1 chopps } 491 1.1 chopps 492 1.1 chopps int 493 1.1 chopps grfcvprint(auxp, pnp) 494 1.1 chopps void *auxp; 495 1.16 cgd const char *pnp; 496 1.1 chopps { 497 1.1 chopps if (pnp) 498 1.18 christos printf("ite at %s: ", pnp); 499 1.2 chopps return (UNCONF); 500 1.1 chopps } 501 1.1 chopps 502 1.1 chopps 503 1.1 chopps /* 504 1.1 chopps * Computes M, N, and R values from 505 1.1 chopps * given input frequency. It uses a table of 506 1.1 chopps * precomputed values, to keep CPU time low. 507 1.1 chopps * 508 1.1 chopps * The return value consist of: 509 1.1 chopps * lower byte: Bits 4-0: N Divider Value 510 1.1 chopps * Bits 5-6: R Value for e.g. SR10 or SR12 511 1.1 chopps * higher byte: Bits 0-6: M divider value for e.g. SR11 or SR13 512 1.1 chopps */ 513 1.1 chopps 514 1.1 chopps static unsigned short 515 1.14 veego cv_compute_clock(freq) 516 1.1 chopps unsigned long freq; 517 1.1 chopps { 518 1.1 chopps static unsigned char *mnr, *save; /* M, N + R vals */ 519 1.1 chopps unsigned long work_freq, r; 520 1.1 chopps unsigned short erg; 521 1.1 chopps long diff, d2; 522 1.1 chopps 523 1.7 veego if (freq < 12500000 || freq > MAXPIXELCLOCK) { 524 1.18 christos printf("grfcv: Illegal clock frequency: %ldMHz\n", freq/1000000); 525 1.18 christos printf("grfcv: Using default frequency: 25MHz\n"); 526 1.18 christos printf("grfcv: See the manpage of grfconfig for more informations.\n"); 527 1.7 veego freq = 25000000; 528 1.1 chopps } 529 1.1 chopps 530 1.1 chopps mnr = clocks; /* there the vals are stored */ 531 1.1 chopps d2 = 0x7fffffff; 532 1.1 chopps 533 1.1 chopps while (*mnr) { /* mnr vals are 0-terminated */ 534 1.1 chopps work_freq = (0x37EE * (mnr[0] + 2)) / ((mnr[1] & 0x1F) + 2); 535 1.1 chopps 536 1.1 chopps r = (mnr[1] >> 5) & 0x03; 537 1.7 veego if (r != 0) 538 1.1 chopps work_freq=work_freq >> r; /* r is the freq divider */ 539 1.1 chopps 540 1.1 chopps work_freq *= 0x3E8; /* 2nd part of OSC */ 541 1.1 chopps 542 1.1 chopps diff = abs(freq - work_freq); 543 1.1 chopps 544 1.1 chopps if (d2 >= diff) { 545 1.1 chopps d2 = diff; 546 1.1 chopps /* In save are the vals for minimal diff */ 547 1.1 chopps save = mnr; 548 1.1 chopps } 549 1.1 chopps mnr += 2; 550 1.1 chopps } 551 1.1 chopps erg = *((unsigned short *)save); 552 1.1 chopps 553 1.1 chopps return (erg); 554 1.1 chopps } 555 1.1 chopps 556 1.1 chopps 557 1.1 chopps void 558 1.1 chopps cv_boardinit(gp) 559 1.1 chopps struct grf_softc *gp; 560 1.1 chopps { 561 1.7 veego volatile caddr_t ba; 562 1.1 chopps unsigned char test; 563 1.1 chopps unsigned int clockpar; 564 1.1 chopps int i; 565 1.4 jtc struct grfinfo *gi; 566 1.1 chopps 567 1.7 veego ba = gp->g_regkva; 568 1.1 chopps /* Reset board */ 569 1.1 chopps for (i = 0; i < 6; i++) 570 1.7 veego cv_write_port (0xff, ba - 0x02000000); /* Clear all bits */ 571 1.1 chopps 572 1.1 chopps /* Return to operational Mode */ 573 1.7 veego cv_write_port(0x8004, ba - 0x02000000); 574 1.1 chopps 575 1.1 chopps /* Wakeup Chip */ 576 1.1 chopps vgaw(ba, SREG_VIDEO_SUBS_ENABLE, 0x10); 577 1.12 veego vgaw(ba, SREG_OPTION_SELECT, 0x01); 578 1.12 veego vgaw(ba, SREG_VIDEO_SUBS_ENABLE, 0x08); 579 1.1 chopps 580 1.12 veego vgaw(ba, GREG_MISC_OUTPUT_W, 0x03); 581 1.1 chopps 582 1.1 chopps WCrt(ba, CRT_ID_REGISTER_LOCK_1, 0x48); /* unlock S3 VGA regs */ 583 1.1 chopps WCrt(ba, CRT_ID_REGISTER_LOCK_2, 0xA5); /* unlock syscontrol */ 584 1.1 chopps 585 1.23 veego /* 586 1.23 veego * The default board interrupt is #6. 587 1.23 veego * Set the roxxler register to use interrupt #2, not #6. 588 1.23 veego */ 589 1.23 veego #if CV_INT_NUM == 2 590 1.23 veego cv_write_port(0x8080, ba - 0x02000000); 591 1.23 veego #endif 592 1.23 veego 593 1.21 veego /* Enable board interrupts */ 594 1.21 veego cv_write_port(0x8008, ba - 0x02000000); 595 1.21 veego 596 1.1 chopps test = RCrt(ba, CRT_ID_SYSTEM_CONFIG); 597 1.1 chopps test = test | 0x01; /* enable enhaced register access */ 598 1.1 chopps test = test & 0xEF; /* clear bit 4, 0 wait state */ 599 1.1 chopps WCrt(ba, CRT_ID_SYSTEM_CONFIG, test); 600 1.1 chopps 601 1.1 chopps /* 602 1.1 chopps * bit 1=1: enable enhanced mode functions 603 1.1 chopps * bit 4=1: enable linear adressing 604 1.7 veego * bit 5=1: enable MMIO 605 1.12 veego */ 606 1.7 veego vgaw(ba, ECR_ADV_FUNC_CNTL, 0x31); 607 1.1 chopps 608 1.23 veego /* enable color mode (bit0), cpu acess (bit1), high 64k page (bit5) */ 609 1.23 veego vgaw(ba, GREG_MISC_OUTPUT_W, 0xe3); 610 1.1 chopps 611 1.1 chopps /* Cpu base addr */ 612 1.12 veego WCrt(ba, CRT_ID_EXT_SYS_CNTL_4, 0x00); 613 1.1 chopps 614 1.1 chopps /* Reset. This does nothing, but everyone does it:) */ 615 1.12 veego WSeq(ba, SEQ_ID_RESET, 0x03); 616 1.1 chopps 617 1.12 veego WSeq(ba, SEQ_ID_CLOCKING_MODE, 0x01); /* 8 Dot Clock */ 618 1.12 veego WSeq(ba, SEQ_ID_MAP_MASK, 0x0f); /* Enable write planes */ 619 1.12 veego WSeq(ba, SEQ_ID_CHAR_MAP_SELECT, 0x00); /* Character Font */ 620 1.1 chopps 621 1.12 veego WSeq(ba, SEQ_ID_MEMORY_MODE, 0x02); /* Complete mem access */ 622 1.1 chopps 623 1.12 veego WSeq(ba, SEQ_ID_UNLOCK_EXT, 0x06); /* Unlock extensions */ 624 1.1 chopps test = RSeq(ba, SEQ_ID_BUS_REQ_CNTL); /* Bus Request */ 625 1.1 chopps 626 1.1 chopps /* enable 4MB fast Page Mode */ 627 1.1 chopps test = test | 1 << 6; 628 1.1 chopps WSeq(ba, SEQ_ID_BUS_REQ_CNTL, test); 629 1.4 jtc /* faster LUT write */ 630 1.7 veego WSeq(ba, SEQ_ID_RAMDAC_CNTL, 0xC0); 631 1.1 chopps 632 1.1 chopps test = RSeq(ba, SEQ_ID_CLKSYN_CNTL_2); /* Clksyn2 read */ 633 1.1 chopps 634 1.1 chopps /* immediately Clkload bit clear */ 635 1.1 chopps test = test & 0xDF; 636 1.12 veego 637 1.7 veego /* 2 MCLK Memory Write.... */ 638 1.7 veego if (cv_memclk >= 55000000) 639 1.7 veego test |= 0x80; 640 1.7 veego 641 1.1 chopps WSeq(ba, SEQ_ID_CLKSYN_CNTL_2, test); 642 1.1 chopps 643 1.7 veego /* Memory CLK */ 644 1.14 veego clockpar = cv_compute_clock(cv_memclk); 645 1.1 chopps test = (clockpar & 0xFF00) >> 8; 646 1.9 is WSeq(ba, SEQ_ID_MCLK_HI, test); /* PLL N-Divider Value */ 647 1.5 chopps 648 1.9 is test = clockpar & 0xFF; 649 1.9 is WSeq(ba, SEQ_ID_MCLK_LO, test); /* PLL M-Divider Value */ 650 1.1 chopps 651 1.12 veego if (RCrt(ba, CRT_ID_REVISION) == 0x10) /* bugfix for new S3 chips */ 652 1.12 veego WSeq(ba, SEQ_ID_MORE_MAGIC, test); 653 1.12 veego 654 1.1 chopps /* We now load an 25 MHz, 31 kHz, 640x480 standard VGA Mode. */ 655 1.1 chopps /* DCLK */ 656 1.1 chopps WSeq(ba, SEQ_ID_DCLK_HI, 0x13); 657 1.1 chopps WSeq(ba, SEQ_ID_DCLK_LO, 0x41); 658 1.1 chopps 659 1.1 chopps test = RSeq (ba, SEQ_ID_CLKSYN_CNTL_2); 660 1.1 chopps test = test | 0x22; 661 1.1 chopps 662 1.1 chopps /* DCLK + MCLK Clock immediate load! */ 663 1.1 chopps WSeq(ba,SEQ_ID_CLKSYN_CNTL_2, test); 664 1.1 chopps 665 1.1 chopps /* DCLK load */ 666 1.1 chopps test = vgar(ba, 0x3cc); 667 1.1 chopps test = test | 0x0c; 668 1.1 chopps vgaw(ba, 0x3c2, test); 669 1.1 chopps 670 1.1 chopps /* Clear bit 5 again, prevent further loading. */ 671 1.12 veego WSeq(ba, SEQ_ID_CLKSYN_CNTL_2, 0x02); 672 1.1 chopps 673 1.1 chopps WCrt(ba, CRT_ID_HOR_TOTAL, 0x5F); 674 1.1 chopps WCrt(ba, CRT_ID_HOR_DISP_ENA_END, 0x4F); 675 1.1 chopps WCrt(ba, CRT_ID_START_HOR_BLANK, 0x50); 676 1.1 chopps WCrt(ba, CRT_ID_END_HOR_BLANK, 0x82); 677 1.1 chopps WCrt(ba, CRT_ID_START_HOR_RETR, 0x54); 678 1.1 chopps WCrt(ba, CRT_ID_END_HOR_RETR, 0x80); 679 1.1 chopps WCrt(ba, CRT_ID_VER_TOTAL, 0xBF); 680 1.1 chopps 681 1.1 chopps WCrt(ba, CRT_ID_OVERFLOW, 0x1F); /* overflow reg */ 682 1.1 chopps 683 1.12 veego WCrt(ba, CRT_ID_PRESET_ROW_SCAN, 0x00); /* no panning */ 684 1.1 chopps 685 1.1 chopps WCrt(ba, CRT_ID_MAX_SCAN_LINE, 0x40); /* vscan */ 686 1.1 chopps 687 1.1 chopps WCrt(ba, CRT_ID_CURSOR_START, 0x00); 688 1.1 chopps WCrt(ba, CRT_ID_CURSOR_END, 0x00); 689 1.1 chopps 690 1.1 chopps /* Display start adress */ 691 1.1 chopps WCrt(ba, CRT_ID_START_ADDR_HIGH, 0x00); 692 1.1 chopps WCrt(ba, CRT_ID_START_ADDR_LOW, 0x00); 693 1.1 chopps 694 1.1 chopps /* Cursor location */ 695 1.3 chopps WCrt(ba, CRT_ID_CURSOR_LOC_HIGH, 0x00); 696 1.1 chopps WCrt(ba, CRT_ID_CURSOR_LOC_LOW, 0x00); 697 1.1 chopps 698 1.1 chopps /* Vertical retrace */ 699 1.1 chopps WCrt(ba, CRT_ID_START_VER_RETR, 0x9C); 700 1.1 chopps WCrt(ba, CRT_ID_END_VER_RETR, 0x0E); 701 1.1 chopps 702 1.1 chopps WCrt(ba, CRT_ID_VER_DISP_ENA_END, 0x8F); 703 1.1 chopps WCrt(ba, CRT_ID_SCREEN_OFFSET, 0x50); 704 1.1 chopps 705 1.1 chopps WCrt(ba, CRT_ID_UNDERLINE_LOC, 0x00); 706 1.1 chopps 707 1.1 chopps WCrt(ba, CRT_ID_START_VER_BLANK, 0x96); 708 1.1 chopps WCrt(ba, CRT_ID_END_VER_BLANK, 0xB9); 709 1.1 chopps 710 1.1 chopps WCrt(ba, CRT_ID_MODE_CONTROL, 0xE3); 711 1.1 chopps 712 1.1 chopps WCrt(ba, CRT_ID_LINE_COMPARE, 0xFF); 713 1.1 chopps 714 1.1 chopps WCrt(ba, CRT_ID_BACKWAD_COMP_3, 0x10); /* FIFO enabled */ 715 1.1 chopps 716 1.1 chopps /* Refresh count 1, High speed text font, enhanced color mode */ 717 1.1 chopps WCrt(ba, CRT_ID_MISC_1, 0x35); 718 1.1 chopps 719 1.1 chopps /* start fifo position */ 720 1.1 chopps WCrt(ba, CRT_ID_DISPLAY_FIFO, 0x5a); 721 1.1 chopps 722 1.1 chopps WCrt(ba, CRT_ID_EXT_MEM_CNTL_2, 0x70); 723 1.1 chopps 724 1.1 chopps /* address window position */ 725 1.1 chopps WCrt(ba, CRT_ID_LAW_POS_LO, 0x40); 726 1.1 chopps 727 1.1 chopps /* N Parameter for Display FIFO */ 728 1.1 chopps WCrt(ba, CRT_ID_EXT_MEM_CNTL_3, 0xFF); 729 1.1 chopps 730 1.12 veego WGfx(ba, GCT_ID_SET_RESET, 0x00); 731 1.12 veego WGfx(ba, GCT_ID_ENABLE_SET_RESET, 0x00); 732 1.12 veego WGfx(ba, GCT_ID_COLOR_COMPARE, 0x00); 733 1.12 veego WGfx(ba, GCT_ID_DATA_ROTATE, 0x00); 734 1.12 veego WGfx(ba, GCT_ID_READ_MAP_SELECT, 0x00); 735 1.1 chopps WGfx(ba, GCT_ID_GRAPHICS_MODE, 0x40); 736 1.1 chopps WGfx(ba, GCT_ID_MISC, 0x01); 737 1.1 chopps WGfx(ba, GCT_ID_COLOR_XCARE, 0x0F); 738 1.1 chopps WGfx(ba, GCT_ID_BITMASK, 0xFF); 739 1.1 chopps 740 1.1 chopps /* colors for text mode */ 741 1.1 chopps for (i = 0; i <= 0xf; i++) 742 1.1 chopps WAttr (ba, i, i); 743 1.1 chopps 744 1.4 jtc WAttr(ba, ACT_ID_ATTR_MODE_CNTL, 0x41); 745 1.4 jtc WAttr(ba, ACT_ID_OVERSCAN_COLOR, 0x01); 746 1.4 jtc WAttr(ba, ACT_ID_COLOR_PLANE_ENA, 0x0F); 747 1.12 veego WAttr(ba, ACT_ID_HOR_PEL_PANNING, 0x00); 748 1.12 veego WAttr(ba, ACT_ID_COLOR_SELECT, 0x00); 749 1.1 chopps 750 1.1 chopps vgaw(ba, VDAC_MASK, 0xFF); /* DAC Mask */ 751 1.1 chopps 752 1.1 chopps *((unsigned long *)(ba + ECR_FRGD_COLOR)) = 0xFF; 753 1.1 chopps *((unsigned long *)(ba + ECR_BKGD_COLOR)) = 0; 754 1.1 chopps 755 1.1 chopps /* colors initially set to greyscale */ 756 1.1 chopps 757 1.1 chopps vgaw(ba, VDAC_ADDRESS_W, 0); 758 1.1 chopps for (i = 255; i >= 0 ; i--) { 759 1.1 chopps vgaw(ba, VDAC_DATA, i); 760 1.1 chopps vgaw(ba, VDAC_DATA, i); 761 1.1 chopps vgaw(ba, VDAC_DATA, i); 762 1.1 chopps } 763 1.1 chopps 764 1.1 chopps /* GFx hardware cursor off */ 765 1.1 chopps WCrt(ba, CRT_ID_HWGC_MODE, 0x00); 766 1.1 chopps 767 1.1 chopps /* Set first to 4 MB, so test will work */ 768 1.1 chopps WCrt(ba, CRT_ID_LAW_CNTL, 0x13); 769 1.1 chopps 770 1.1 chopps /* find *correct* fbsize of z3 board */ 771 1.7 veego if (cv_has_4mb((volatile caddr_t)cv_boardaddr + 0x01400000)) { 772 1.1 chopps cv_fbsize = 1024 * 1024 * 4; 773 1.1 chopps WCrt(ba, CRT_ID_LAW_CNTL, 0x13); /* 4 MB */ 774 1.1 chopps } else { 775 1.1 chopps cv_fbsize = 1024 * 1024 * 2; 776 1.1 chopps WCrt(ba, CRT_ID_LAW_CNTL, 0x12); /* 2 MB */ 777 1.1 chopps } 778 1.1 chopps 779 1.12 veego /* Initialize graphics engine */ 780 1.12 veego GfxBusyWait(ba); 781 1.12 veego vgaw16(ba, ECR_FRGD_MIX, 0x27); 782 1.12 veego vgaw16(ba, ECR_BKGD_MIX, 0x07); 783 1.12 veego 784 1.12 veego vgaw16(ba, ECR_READ_REG_DATA, 0x1000); 785 1.12 veego delay(200000); 786 1.12 veego vgaw16(ba, ECR_READ_REG_DATA, 0x2000); 787 1.12 veego GfxBusyWait(ba); 788 1.12 veego vgaw16(ba, ECR_READ_REG_DATA, 0x3fff); 789 1.12 veego GfxBusyWait(ba); 790 1.12 veego delay(200000); 791 1.12 veego vgaw16(ba, ECR_READ_REG_DATA, 0x4fff); 792 1.12 veego GfxBusyWait(ba); 793 1.12 veego 794 1.12 veego vgaw16(ba, ECR_BITPLANE_WRITE_MASK, ~0); 795 1.12 veego 796 1.12 veego GfxBusyWait (ba); 797 1.12 veego vgaw16(ba, ECR_READ_REG_DATA, 0xe000); 798 1.12 veego vgaw16(ba, ECR_CURRENT_Y_POS2, 0x00); 799 1.12 veego vgaw16(ba, ECR_CURRENT_X_POS2, 0x00); 800 1.12 veego vgaw16(ba, ECR_READ_REG_DATA, 0xa000); 801 1.12 veego vgaw16(ba, ECR_DEST_Y__AX_STEP, 0x00); 802 1.12 veego vgaw16(ba, ECR_DEST_Y2__AX_STEP2, 0x00); 803 1.12 veego vgaw16(ba, ECR_DEST_X__DIA_STEP, 0x00); 804 1.12 veego vgaw16(ba, ECR_DEST_X2__DIA_STEP2, 0x00); 805 1.12 veego vgaw16(ba, ECR_SHORT_STROKE, 0x00); 806 1.12 veego vgaw16(ba, ECR_DRAW_CMD, 0x01); 807 1.12 veego GfxBusyWait (ba); 808 1.12 veego 809 1.12 veego /* It ain't easy to write here, so let's do it again */ 810 1.12 veego vgaw16(ba, ECR_READ_REG_DATA, 0x4fff); 811 1.12 veego 812 1.12 veego vgaw16(ba, ECR_BKGD_COLOR, 0x01); 813 1.12 veego vgaw16(ba, ECR_FRGD_COLOR, 0x00); 814 1.12 veego 815 1.7 veego /* Enable Video Display (Set Bit 5) */ 816 1.1 chopps WAttr(ba, 0x33, 0); 817 1.4 jtc 818 1.7 veego gi = &gp->g_display; 819 1.7 veego gi->gd_regaddr = (caddr_t) kvtop (ba); 820 1.7 veego gi->gd_regsize = 64 * 1024; 821 1.7 veego gi->gd_fbaddr = (caddr_t) kvtop (gp->g_fbkva); 822 1.7 veego gi->gd_fbsize = cv_fbsize; 823 1.1 chopps } 824 1.1 chopps 825 1.1 chopps 826 1.1 chopps int 827 1.1 chopps cv_getvmode(gp, vm) 828 1.1 chopps struct grf_softc *gp; 829 1.1 chopps struct grfvideo_mode *vm; 830 1.1 chopps { 831 1.1 chopps struct grfvideo_mode *gv; 832 1.1 chopps 833 1.1 chopps #ifdef CV64CONSOLE 834 1.1 chopps /* Handle grabbing console mode */ 835 1.1 chopps if (vm->mode_num == 255) { 836 1.1 chopps bcopy(&cvconsole_mode, vm, sizeof(struct grfvideo_mode)); 837 1.2 chopps /* XXX so grfconfig can tell us the correct text dimensions. */ 838 1.1 chopps vm->depth = cvconsole_mode.fy; 839 1.2 chopps } else 840 1.1 chopps #endif 841 1.2 chopps { 842 1.2 chopps if (vm->mode_num == 0) 843 1.2 chopps vm->mode_num = (monitor_current - monitor_def) + 1; 844 1.2 chopps if (vm->mode_num < 1 || vm->mode_num > monitor_def_max) 845 1.2 chopps return (EINVAL); 846 1.2 chopps gv = monitor_def + (vm->mode_num - 1); 847 1.2 chopps if (gv->mode_num == 0) 848 1.2 chopps return (EINVAL); 849 1.2 chopps 850 1.2 chopps bcopy(gv, vm, sizeof(struct grfvideo_mode)); 851 1.2 chopps } 852 1.2 chopps 853 1.2 chopps /* adjust internal values to pixel values */ 854 1.2 chopps 855 1.2 chopps vm->hblank_start *= 8; 856 1.2 chopps vm->hsync_start *= 8; 857 1.2 chopps vm->hsync_stop *= 8; 858 1.2 chopps vm->htotal *= 8; 859 1.1 chopps 860 1.2 chopps return (0); 861 1.1 chopps } 862 1.1 chopps 863 1.1 chopps 864 1.1 chopps int 865 1.1 chopps cv_setvmode(gp, mode) 866 1.1 chopps struct grf_softc *gp; 867 1.1 chopps unsigned mode; 868 1.1 chopps { 869 1.7 veego 870 1.1 chopps if (!mode || (mode > monitor_def_max) || 871 1.4 jtc monitor_def[mode - 1].mode_num == 0) 872 1.2 chopps return (EINVAL); 873 1.1 chopps 874 1.1 chopps monitor_current = monitor_def + (mode - 1); 875 1.1 chopps 876 1.2 chopps return (0); 877 1.1 chopps } 878 1.1 chopps 879 1.1 chopps 880 1.1 chopps int 881 1.1 chopps cv_blank(gp, on) 882 1.1 chopps struct grf_softc *gp; 883 1.1 chopps int *on; 884 1.1 chopps { 885 1.7 veego volatile caddr_t ba; 886 1.1 chopps 887 1.7 veego ba = gp->g_regkva; 888 1.15 is gfx_on_off(*on > 0 ? 0 : 1, ba); 889 1.1 chopps return (0); 890 1.1 chopps } 891 1.1 chopps 892 1.1 chopps 893 1.1 chopps /* 894 1.1 chopps * Change the mode of the display. 895 1.1 chopps * Return a UNIX error number or 0 for success. 896 1.1 chopps */ 897 1.1 chopps int 898 1.1 chopps cv_mode(gp, cmd, arg, a2, a3) 899 1.1 chopps register struct grf_softc *gp; 900 1.12 veego u_long cmd; 901 1.1 chopps void *arg; 902 1.12 veego u_long a2; 903 1.12 veego int a3; 904 1.1 chopps { 905 1.1 chopps int error; 906 1.1 chopps 907 1.1 chopps switch (cmd) { 908 1.12 veego case GM_GRFON: 909 1.1 chopps error = cv_load_mon (gp, 910 1.1 chopps (struct grfcvtext_mode *) monitor_current) ? 0 : EINVAL; 911 1.2 chopps return (error); 912 1.1 chopps 913 1.12 veego case GM_GRFOFF: 914 1.1 chopps #ifndef CV64CONSOLE 915 1.22 veego cvscreen(1, gp->g_regkva - 0x02000000); 916 1.1 chopps #else 917 1.1 chopps cv_load_mon(gp, &cvconsole_mode); 918 1.7 veego ite_reinit(gp->g_itedev); 919 1.1 chopps #endif 920 1.2 chopps return (0); 921 1.1 chopps 922 1.12 veego case GM_GRFCONFIG: 923 1.2 chopps return (0); 924 1.1 chopps 925 1.12 veego case GM_GRFGETVMODE: 926 1.2 chopps return (cv_getvmode (gp, (struct grfvideo_mode *) arg)); 927 1.1 chopps 928 1.12 veego case GM_GRFSETVMODE: 929 1.1 chopps error = cv_setvmode (gp, *(unsigned *) arg); 930 1.1 chopps if (!error && (gp->g_flags & GF_GRFON)) 931 1.1 chopps cv_load_mon(gp, 932 1.1 chopps (struct grfcvtext_mode *) monitor_current); 933 1.2 chopps return (error); 934 1.1 chopps 935 1.12 veego case GM_GRFGETNUMVM: 936 1.1 chopps *(int *)arg = monitor_def_max; 937 1.2 chopps return (0); 938 1.1 chopps 939 1.12 veego case GM_GRFIOCTL: 940 1.12 veego return (cv_ioctl (gp, a2, arg)); 941 1.1 chopps 942 1.12 veego default: 943 1.1 chopps break; 944 1.1 chopps } 945 1.1 chopps 946 1.2 chopps return (EINVAL); 947 1.1 chopps } 948 1.1 chopps 949 1.12 veego 950 1.1 chopps int 951 1.1 chopps cv_ioctl (gp, cmd, data) 952 1.1 chopps register struct grf_softc *gp; 953 1.12 veego u_long cmd; 954 1.1 chopps void *data; 955 1.1 chopps { 956 1.1 chopps switch (cmd) { 957 1.21 veego #ifndef CV_NO_HARDWARE_CURSOR 958 1.12 veego case GRFIOCGSPRITEPOS: 959 1.12 veego return(cv_getspritepos (gp, (struct grf_position *) data)); 960 1.12 veego 961 1.12 veego case GRFIOCSSPRITEPOS: 962 1.12 veego return(cv_setspritepos (gp, (struct grf_position *) data)); 963 1.12 veego 964 1.12 veego case GRFIOCSSPRITEINF: 965 1.12 veego return(cv_setspriteinfo (gp, (struct grf_spriteinfo *) data)); 966 1.12 veego 967 1.12 veego case GRFIOCGSPRITEINF: 968 1.12 veego return(cv_getspriteinfo (gp, (struct grf_spriteinfo *) data)); 969 1.12 veego 970 1.12 veego case GRFIOCGSPRITEMAX: 971 1.12 veego return(cv_getspritemax (gp, (struct grf_position *) data)); 972 1.21 veego #else /* !CV_NO_HARDWARE_CURSOR */ 973 1.12 veego case GRFIOCGSPRITEPOS: 974 1.12 veego case GRFIOCSSPRITEPOS: 975 1.12 veego case GRFIOCSSPRITEINF: 976 1.12 veego case GRFIOCGSPRITEINF: 977 1.12 veego case GRFIOCGSPRITEMAX: 978 1.1 chopps break; 979 1.21 veego #endif /* !CV_NO_HARDWARE_CURSOR */ 980 1.1 chopps 981 1.12 veego case GRFIOCGETCMAP: 982 1.2 chopps return (cv_getcmap (gp, (struct grf_colormap *) data)); 983 1.1 chopps 984 1.12 veego case GRFIOCPUTCMAP: 985 1.2 chopps return (cv_putcmap (gp, (struct grf_colormap *) data)); 986 1.1 chopps 987 1.12 veego case GRFIOCBITBLT: 988 1.1 chopps break; 989 1.1 chopps 990 1.12 veego case GRFTOGGLE: 991 1.4 jtc return (cv_toggle (gp)); 992 1.1 chopps 993 1.12 veego case GRFIOCSETMON: 994 1.2 chopps return (cv_setmonitor (gp, (struct grfvideo_mode *)data)); 995 1.1 chopps 996 1.12 veego case GRFIOCBLANK: 997 1.2 chopps return (cv_blank (gp, (int *)data)); 998 1.1 chopps } 999 1.2 chopps return (EINVAL); 1000 1.1 chopps } 1001 1.1 chopps 1002 1.12 veego 1003 1.1 chopps int 1004 1.1 chopps cv_setmonitor(gp, gv) 1005 1.1 chopps struct grf_softc *gp; 1006 1.1 chopps struct grfvideo_mode *gv; 1007 1.1 chopps { 1008 1.1 chopps struct grfvideo_mode *md; 1009 1.1 chopps 1010 1.2 chopps if (!cv_mondefok(gv)) 1011 1.2 chopps return (EINVAL); 1012 1.2 chopps 1013 1.1 chopps #ifdef CV64CONSOLE 1014 1.1 chopps /* handle interactive setting of console mode */ 1015 1.2 chopps if (gv->mode_num == 255) { 1016 1.1 chopps bcopy(gv, &cvconsole_mode.gv, sizeof(struct grfvideo_mode)); 1017 1.2 chopps cvconsole_mode.gv.hblank_start /= 8; 1018 1.2 chopps cvconsole_mode.gv.hsync_start /= 8; 1019 1.2 chopps cvconsole_mode.gv.hsync_stop /= 8; 1020 1.2 chopps cvconsole_mode.gv.htotal /= 8; 1021 1.1 chopps cvconsole_mode.rows = gv->disp_height / cvconsole_mode.fy; 1022 1.1 chopps cvconsole_mode.cols = gv->disp_width / cvconsole_mode.fx; 1023 1.1 chopps if (!(gp->g_flags & GF_GRFON)) 1024 1.1 chopps cv_load_mon(gp, &cvconsole_mode); 1025 1.1 chopps ite_reinit(gp->g_itedev); 1026 1.2 chopps return (0); 1027 1.1 chopps } 1028 1.1 chopps #endif 1029 1.1 chopps 1030 1.2 chopps md = monitor_def + (gv->mode_num - 1); 1031 1.14 veego 1032 1.14 veego /* 1033 1.14 veego * Prevent user from crashing the system by using 1034 1.14 veego * grfconfig while in X 1035 1.14 veego */ 1036 1.14 veego if (gp->g_flags & GF_GRFON) 1037 1.14 veego if (md == monitor_current) { 1038 1.23 veego printf("grfcv: Changing the used mode not allowed!\n"); 1039 1.14 veego return (EINVAL); 1040 1.14 veego } 1041 1.14 veego 1042 1.2 chopps bcopy(gv, md, sizeof(struct grfvideo_mode)); 1043 1.1 chopps 1044 1.2 chopps /* adjust pixel oriented values to internal rep. */ 1045 1.1 chopps 1046 1.2 chopps md->hblank_start /= 8; 1047 1.2 chopps md->hsync_start /= 8; 1048 1.2 chopps md->hsync_stop /= 8; 1049 1.2 chopps md->htotal /= 8; 1050 1.1 chopps 1051 1.2 chopps return (0); 1052 1.1 chopps } 1053 1.1 chopps 1054 1.12 veego 1055 1.1 chopps int 1056 1.1 chopps cv_getcmap(gfp, cmap) 1057 1.1 chopps struct grf_softc *gfp; 1058 1.1 chopps struct grf_colormap *cmap; 1059 1.1 chopps { 1060 1.4 jtc volatile caddr_t ba; 1061 1.1 chopps u_char red[256], green[256], blue[256], *rp, *gp, *bp; 1062 1.1 chopps short x; 1063 1.1 chopps int error; 1064 1.1 chopps 1065 1.7 veego ba = gfp->g_regkva; 1066 1.1 chopps if (cmap->count == 0 || cmap->index >= 256) 1067 1.2 chopps return (0); 1068 1.1 chopps 1069 1.1 chopps if (cmap->index + cmap->count > 256) 1070 1.1 chopps cmap->count = 256 - cmap->index; 1071 1.1 chopps 1072 1.1 chopps /* first read colors out of the chip, then copyout to userspace */ 1073 1.1 chopps vgaw (ba, VDAC_ADDRESS_W, cmap->index); 1074 1.1 chopps x = cmap->count - 1; 1075 1.1 chopps 1076 1.1 chopps rp = red + cmap->index; 1077 1.1 chopps gp = green + cmap->index; 1078 1.1 chopps bp = blue + cmap->index; 1079 1.1 chopps 1080 1.1 chopps do { 1081 1.1 chopps *rp++ = vgar (ba, VDAC_DATA) << 2; 1082 1.1 chopps *gp++ = vgar (ba, VDAC_DATA) << 2; 1083 1.1 chopps *bp++ = vgar (ba, VDAC_DATA) << 2; 1084 1.1 chopps } while (x-- > 0); 1085 1.1 chopps 1086 1.1 chopps if (!(error = copyout (red + cmap->index, cmap->red, cmap->count)) 1087 1.1 chopps && !(error = copyout (green + cmap->index, cmap->green, cmap->count)) 1088 1.1 chopps && !(error = copyout (blue + cmap->index, cmap->blue, cmap->count))) 1089 1.2 chopps return (0); 1090 1.1 chopps 1091 1.2 chopps return (error); 1092 1.1 chopps } 1093 1.1 chopps 1094 1.12 veego 1095 1.1 chopps int 1096 1.1 chopps cv_putcmap(gfp, cmap) 1097 1.1 chopps struct grf_softc *gfp; 1098 1.1 chopps struct grf_colormap *cmap; 1099 1.1 chopps { 1100 1.4 jtc volatile caddr_t ba; 1101 1.1 chopps u_char red[256], green[256], blue[256], *rp, *gp, *bp; 1102 1.1 chopps short x; 1103 1.1 chopps int error; 1104 1.1 chopps 1105 1.7 veego ba = gfp->g_regkva; 1106 1.1 chopps if (cmap->count == 0 || cmap->index >= 256) 1107 1.2 chopps return (0); 1108 1.1 chopps 1109 1.1 chopps if (cmap->index + cmap->count > 256) 1110 1.1 chopps cmap->count = 256 - cmap->index; 1111 1.1 chopps 1112 1.1 chopps /* first copy the colors into kernelspace */ 1113 1.1 chopps if (!(error = copyin (cmap->red, red + cmap->index, cmap->count)) 1114 1.1 chopps && !(error = copyin (cmap->green, green + cmap->index, cmap->count)) 1115 1.1 chopps && !(error = copyin (cmap->blue, blue + cmap->index, cmap->count))) { 1116 1.1 chopps vgaw (ba, VDAC_ADDRESS_W, cmap->index); 1117 1.1 chopps x = cmap->count - 1; 1118 1.1 chopps 1119 1.1 chopps rp = red + cmap->index; 1120 1.1 chopps gp = green + cmap->index; 1121 1.1 chopps bp = blue + cmap->index; 1122 1.1 chopps 1123 1.1 chopps do { 1124 1.1 chopps vgaw (ba, VDAC_DATA, *rp++ >> 2); 1125 1.1 chopps vgaw (ba, VDAC_DATA, *gp++ >> 2); 1126 1.1 chopps vgaw (ba, VDAC_DATA, *bp++ >> 2); 1127 1.1 chopps } while (x-- > 0); 1128 1.2 chopps return (0); 1129 1.2 chopps } else 1130 1.2 chopps return (error); 1131 1.1 chopps } 1132 1.1 chopps 1133 1.1 chopps 1134 1.1 chopps int 1135 1.4 jtc cv_toggle(gp) 1136 1.1 chopps struct grf_softc *gp; 1137 1.1 chopps { 1138 1.4 jtc volatile caddr_t ba; 1139 1.1 chopps 1140 1.4 jtc ba = gp->g_regkva; 1141 1.19 veego #ifndef CV64CONSOLE 1142 1.19 veego cv_pass_toggle = 1; 1143 1.19 veego #endif /* !CV64CONSOLE */ 1144 1.19 veego 1145 1.19 veego if (cv_pass_toggle) { 1146 1.19 veego cvscreen(0, ba - 0x02000000); 1147 1.19 veego cv_pass_toggle = 0; 1148 1.19 veego } else { 1149 1.19 veego cvscreen(1, ba - 0x02000000); 1150 1.19 veego cv_pass_toggle = 1; 1151 1.19 veego } 1152 1.1 chopps 1153 1.2 chopps return (0); 1154 1.1 chopps } 1155 1.1 chopps 1156 1.1 chopps 1157 1.1 chopps int 1158 1.2 chopps cv_mondefok(gv) 1159 1.2 chopps struct grfvideo_mode *gv; 1160 1.1 chopps { 1161 1.2 chopps unsigned long maxpix; 1162 1.2 chopps 1163 1.7 veego if (gv->mode_num < 1 || gv->mode_num > monitor_def_max) { 1164 1.14 veego if (gv->mode_num != 255 || gv->depth != 4) 1165 1.2 chopps return (0); 1166 1.7 veego } 1167 1.1 chopps 1168 1.2 chopps switch(gv->depth) { 1169 1.1 chopps case 4: 1170 1.14 veego maxpix = MAXPIXELCLOCK - 55000000; 1171 1.14 veego break; 1172 1.1 chopps case 8: 1173 1.2 chopps maxpix = MAXPIXELCLOCK; 1174 1.2 chopps break; 1175 1.1 chopps case 15: 1176 1.1 chopps case 16: 1177 1.12 veego #ifdef CV_AGGRESSIVE_TIMING 1178 1.7 veego maxpix = MAXPIXELCLOCK - 35000000; 1179 1.7 veego #else 1180 1.2 chopps maxpix = MAXPIXELCLOCK - 55000000; 1181 1.7 veego #endif 1182 1.2 chopps break; 1183 1.1 chopps case 24: 1184 1.7 veego case 32: 1185 1.12 veego #ifdef CV_AGGRESSIVE_TIMING 1186 1.7 veego maxpix = MAXPIXELCLOCK - 75000000; 1187 1.7 veego #else 1188 1.2 chopps maxpix = MAXPIXELCLOCK - 85000000; 1189 1.7 veego #endif 1190 1.2 chopps break; 1191 1.1 chopps default: 1192 1.23 veego printf("grfcv: Illegal depth in mode %d\n", 1193 1.14 veego (int) gv->mode_num); 1194 1.2 chopps return (0); 1195 1.1 chopps } 1196 1.2 chopps 1197 1.14 veego if (gv->pixel_clock > maxpix) { 1198 1.23 veego printf("grfcv: Pixelclock too high in mode %d\n", 1199 1.14 veego (int) gv->mode_num); 1200 1.2 chopps return (0); 1201 1.7 veego } 1202 1.7 veego 1203 1.14 veego if (gv->mode_num == 255) { /* console mode */ 1204 1.14 veego if ((gv->disp_width / 8) > MAXCOLS) { 1205 1.18 christos printf ("grfcv: Too many columns for console\n"); 1206 1.14 veego return (0); 1207 1.14 veego } else if ((gv->disp_height / S3FONTY) > MAXROWS) { 1208 1.18 christos printf ("grfcv: Too many rows for console\n"); 1209 1.14 veego return (0); 1210 1.7 veego } 1211 1.7 veego } 1212 1.14 veego 1213 1.23 veego if (gv->disp_flags & GRF_FLAGS_SYNC_ON_GREEN) { 1214 1.23 veego printf("grfcv: sync-on-green is not supported\n"); 1215 1.23 veego return (0); 1216 1.23 veego } 1217 1.23 veego 1218 1.2 chopps return (1); 1219 1.1 chopps } 1220 1.1 chopps 1221 1.12 veego 1222 1.1 chopps int 1223 1.1 chopps cv_load_mon(gp, md) 1224 1.1 chopps struct grf_softc *gp; 1225 1.1 chopps struct grfcvtext_mode *md; 1226 1.1 chopps { 1227 1.1 chopps struct grfvideo_mode *gv; 1228 1.1 chopps struct grfinfo *gi; 1229 1.4 jtc volatile caddr_t ba, fb; 1230 1.1 chopps unsigned short mnr; 1231 1.2 chopps unsigned short HT, HDE, HBS, HBE, HSS, HSE, VDE, VBS, VBE, VSS, 1232 1.2 chopps VSE, VT; 1233 1.14 veego int cr50, sr15, sr18, clock_mode, test; 1234 1.7 veego int m, n; /* For calc'ing display FIFO */ 1235 1.7 veego int tfillm, temptym; /* FIFO fill and empty mclk's */ 1236 1.24 veego int hmul; /* Multiplier for hor. Values */ 1237 1.23 veego unsigned char hvsync_pulse; 1238 1.23 veego char TEXT, CONSOLE; 1239 1.23 veego 1240 1.1 chopps /* identity */ 1241 1.1 chopps gv = &md->gv; 1242 1.7 veego 1243 1.12 veego TEXT = (gv->depth == 4); 1244 1.7 veego CONSOLE = (gv->mode_num == 255); 1245 1.1 chopps 1246 1.1 chopps if (!cv_mondefok(gv)) { 1247 1.23 veego printf("grfcv: Monitor definition not ok\n"); 1248 1.2 chopps return (0); 1249 1.1 chopps } 1250 1.23 veego 1251 1.1 chopps ba = gp->g_regkva; 1252 1.1 chopps fb = gp->g_fbkva; 1253 1.1 chopps 1254 1.21 veego /* Disable Interrupts */ 1255 1.21 veego test = RCrt(ba, CRT_ID_BACKWAD_COMP_1); 1256 1.21 veego test &= ~0x10; 1257 1.21 veego WCrt(ba, CRT_ID_BACKWAD_COMP_1, test); 1258 1.21 veego 1259 1.3 chopps /* turn gfx off, don't mess up the display */ 1260 1.3 chopps gfx_on_off(1, ba); 1261 1.3 chopps 1262 1.2 chopps /* provide all needed information in grf device-independant locations */ 1263 1.1 chopps gp->g_data = (caddr_t) gv; 1264 1.1 chopps gi = &gp->g_display; 1265 1.1 chopps gi->gd_colors = 1 << gv->depth; 1266 1.1 chopps gi->gd_planes = gv->depth; 1267 1.1 chopps gi->gd_fbwidth = gv->disp_width; 1268 1.1 chopps gi->gd_fbheight = gv->disp_height; 1269 1.1 chopps gi->gd_fbx = 0; 1270 1.1 chopps gi->gd_fby = 0; 1271 1.7 veego if (CONSOLE) { 1272 1.1 chopps gi->gd_dwidth = md->fx * md->cols; 1273 1.1 chopps gi->gd_dheight = md->fy * md->rows; 1274 1.1 chopps } else { 1275 1.1 chopps gi->gd_dwidth = gv->disp_width; 1276 1.1 chopps gi->gd_dheight = gv->disp_height; 1277 1.1 chopps } 1278 1.1 chopps gi->gd_dx = 0; 1279 1.1 chopps gi->gd_dy = 0; 1280 1.1 chopps 1281 1.1 chopps /* get display mode parameters */ 1282 1.7 veego switch (gv->depth) { 1283 1.23 veego case 15: 1284 1.23 veego case 16: 1285 1.23 veego hmul = 2; 1286 1.23 veego break; 1287 1.23 veego default: 1288 1.23 veego hmul = 1; 1289 1.23 veego break; 1290 1.7 veego } 1291 1.1 chopps 1292 1.7 veego HBS = gv->hblank_start * hmul; 1293 1.7 veego HSS = gv->hsync_start * hmul; 1294 1.7 veego HSE = gv->hsync_stop * hmul; 1295 1.23 veego HBE = gv->htotal * hmul - 6; 1296 1.23 veego HT = gv->htotal * hmul - 5; 1297 1.4 jtc VBS = gv->vblank_start - 1; 1298 1.1 chopps VSS = gv->vsync_start; 1299 1.1 chopps VSE = gv->vsync_stop; 1300 1.23 veego VBE = gv->vtotal - 3; 1301 1.4 jtc VT = gv->vtotal - 2; 1302 1.1 chopps 1303 1.12 veego /* Disable enhanced Mode for text display */ 1304 1.12 veego 1305 1.12 veego vgaw(ba, ECR_ADV_FUNC_CNTL, (TEXT ? 0x00 : 0x31)); 1306 1.12 veego 1307 1.1 chopps if (TEXT) 1308 1.1 chopps HDE = ((gv->disp_width + md->fx - 1) / md->fx) - 1; 1309 1.1 chopps else 1310 1.7 veego HDE = (gv->disp_width + 3) * hmul / 8 - 1; /*HBS;*/ 1311 1.1 chopps VDE = gv->disp_height - 1; 1312 1.1 chopps 1313 1.23 veego /* adjustments */ 1314 1.1 chopps 1315 1.24 veego if (gv->disp_flags & GRF_FLAGS_LACE) { 1316 1.24 veego VDE = VDE / 2; 1317 1.24 veego VBS = VBS / 2; 1318 1.24 veego VSS = VSS / 2; 1319 1.24 veego VSE = VSE / 2; 1320 1.24 veego VBE = VBE / 2; 1321 1.24 veego VT = VT / 2; 1322 1.24 veego } 1323 1.1 chopps 1324 1.23 veego /* Horizontal/Vertical Sync Pulse */ 1325 1.23 veego /* 1326 1.23 veego * GREG_MISC_OUTPUT_W Register: 1327 1.23 veego * bit description (0/1) 1328 1.23 veego * 0 Monochrome/Color emulation 1329 1.23 veego * 1 Disable/Enable access of the display memory from the CPU 1330 1.23 veego * 5 Select the low/high 64K page of memory 1331 1.23 veego * 6 Select a positive/negative horizontal retrace sync pulse 1332 1.23 veego * 7 Select a positive/negative vertical retrace sync pulse 1333 1.23 veego */ 1334 1.23 veego hvsync_pulse = vgar(ba, GREG_MISC_OUTPUT_R); 1335 1.23 veego if (gv->disp_flags & GRF_FLAGS_PHSYNC) 1336 1.23 veego hvsync_pulse &= ~0x40; 1337 1.23 veego else 1338 1.23 veego hvsync_pulse |= 0x40; 1339 1.23 veego if (gv->disp_flags & GRF_FLAGS_PVSYNC) 1340 1.23 veego hvsync_pulse &= ~0x80; 1341 1.23 veego else 1342 1.23 veego hvsync_pulse |= 0x80; 1343 1.23 veego vgaw(ba, GREG_MISC_OUTPUT_W, hvsync_pulse); 1344 1.1 chopps 1345 1.14 veego /* GFX hardware cursor off */ 1346 1.12 veego WCrt(ba, CRT_ID_HWGC_MODE, 0x00); 1347 1.14 veego WCrt(ba, CRT_ID_EXT_DAC_CNTL, 0x00); 1348 1.12 veego 1349 1.1 chopps WSeq(ba, SEQ_ID_MEMORY_MODE, (TEXT || (gv->depth == 1)) ? 0x06 : 0x0e); 1350 1.1 chopps WGfx(ba, GCT_ID_READ_MAP_SELECT, 0x00); 1351 1.1 chopps WSeq(ba, SEQ_ID_MAP_MASK, (gv->depth == 1) ? 0x01 : 0xff); 1352 1.1 chopps WSeq(ba, SEQ_ID_CHAR_MAP_SELECT, 0x00); 1353 1.1 chopps 1354 1.1 chopps /* Set clock */ 1355 1.1 chopps 1356 1.14 veego mnr = cv_compute_clock(gv->pixel_clock); 1357 1.12 veego WSeq(ba, SEQ_ID_DCLK_HI, ((mnr & 0xFF00) >> 8)); 1358 1.1 chopps WSeq(ba, SEQ_ID_DCLK_LO, (mnr & 0xFF)); 1359 1.1 chopps 1360 1.1 chopps /* load display parameters into board */ 1361 1.1 chopps 1362 1.1 chopps WCrt(ba, CRT_ID_EXT_HOR_OVF, 1363 1.1 chopps ((HT & 0x100) ? 0x01 : 0x00) | 1364 1.1 chopps ((HDE & 0x100) ? 0x02 : 0x00) | 1365 1.1 chopps ((HBS & 0x100) ? 0x04 : 0x00) | 1366 1.3 chopps /* ((HBE & 0x40) ? 0x08 : 0x00) | */ /* Later... */ 1367 1.1 chopps ((HSS & 0x100) ? 0x10 : 0x00) | 1368 1.3 chopps /* ((HSE & 0x20) ? 0x20 : 0x00) | */ 1369 1.1 chopps (((HT-5) & 0x100) ? 0x40 : 0x00) ); 1370 1.1 chopps 1371 1.1 chopps WCrt(ba, CRT_ID_EXT_VER_OVF, 1372 1.1 chopps 0x40 | /* Line compare */ 1373 1.1 chopps ((VT & 0x400) ? 0x01 : 0x00) | 1374 1.1 chopps ((VDE & 0x400) ? 0x02 : 0x00) | 1375 1.1 chopps ((VBS & 0x400) ? 0x04 : 0x00) | 1376 1.1 chopps ((VSS & 0x400) ? 0x10 : 0x00) ); 1377 1.1 chopps 1378 1.1 chopps WCrt(ba, CRT_ID_HOR_TOTAL, HT); 1379 1.1 chopps WCrt(ba, CRT_ID_DISPLAY_FIFO, HT - 5); 1380 1.1 chopps 1381 1.1 chopps WCrt(ba, CRT_ID_HOR_DISP_ENA_END, ((HDE >= HBS) ? (HBS - 1) : HDE)); 1382 1.1 chopps WCrt(ba, CRT_ID_START_HOR_BLANK, HBS); 1383 1.1 chopps WCrt(ba, CRT_ID_END_HOR_BLANK, ((HBE & 0x1f) | 0x80)); 1384 1.1 chopps WCrt(ba, CRT_ID_START_HOR_RETR, HSS); 1385 1.1 chopps WCrt(ba, CRT_ID_END_HOR_RETR, 1386 1.1 chopps (HSE & 0x1f) | 1387 1.1 chopps ((HBE & 0x20) ? 0x80 : 0x00) ); 1388 1.1 chopps WCrt(ba, CRT_ID_VER_TOTAL, VT); 1389 1.1 chopps WCrt(ba, CRT_ID_OVERFLOW, 1390 1.1 chopps 0x10 | 1391 1.1 chopps ((VT & 0x100) ? 0x01 : 0x00) | 1392 1.1 chopps ((VDE & 0x100) ? 0x02 : 0x00) | 1393 1.1 chopps ((VSS & 0x100) ? 0x04 : 0x00) | 1394 1.1 chopps ((VBS & 0x100) ? 0x08 : 0x00) | 1395 1.1 chopps ((VT & 0x200) ? 0x20 : 0x00) | 1396 1.1 chopps ((VDE & 0x200) ? 0x40 : 0x00) | 1397 1.1 chopps ((VSS & 0x200) ? 0x80 : 0x00) ); 1398 1.1 chopps 1399 1.1 chopps WCrt(ba, CRT_ID_MAX_SCAN_LINE, 1400 1.1 chopps 0x40 | /* TEXT ? 0x00 ??? */ 1401 1.23 veego ((gv->disp_flags & GRF_FLAGS_DBLSCAN) ? 0x80 : 0x00) | 1402 1.1 chopps ((VBS & 0x200) ? 0x20 : 0x00) | 1403 1.1 chopps (TEXT ? ((md->fy - 1) & 0x1f) : 0x00)); 1404 1.1 chopps 1405 1.12 veego WCrt(ba, CRT_ID_MODE_CONTROL, 0xe3); 1406 1.1 chopps 1407 1.1 chopps /* text cursor */ 1408 1.1 chopps 1409 1.1 chopps if (TEXT) { 1410 1.21 veego #if CV_ULCURSOR 1411 1.1 chopps WCrt(ba, CRT_ID_CURSOR_START, (md->fy & 0x1f) - 2); 1412 1.1 chopps WCrt(ba, CRT_ID_CURSOR_END, (md->fy & 0x1f) - 1); 1413 1.1 chopps #else 1414 1.1 chopps WCrt(ba, CRT_ID_CURSOR_START, 0x00); 1415 1.1 chopps WCrt(ba, CRT_ID_CURSOR_END, md->fy & 0x1f); 1416 1.1 chopps #endif 1417 1.1 chopps WCrt(ba, CRT_ID_UNDERLINE_LOC, (md->fy - 1) & 0x1f); 1418 1.1 chopps 1419 1.1 chopps WCrt(ba, CRT_ID_CURSOR_LOC_HIGH, 0x00); 1420 1.1 chopps WCrt(ba, CRT_ID_CURSOR_LOC_LOW, 0x00); 1421 1.1 chopps } 1422 1.1 chopps 1423 1.1 chopps WCrt(ba, CRT_ID_START_ADDR_HIGH, 0x00); 1424 1.1 chopps WCrt(ba, CRT_ID_START_ADDR_LOW, 0x00); 1425 1.1 chopps 1426 1.1 chopps WCrt(ba, CRT_ID_START_VER_RETR, VSS); 1427 1.1 chopps WCrt(ba, CRT_ID_END_VER_RETR, (VSE & 0x0f)); 1428 1.1 chopps WCrt(ba, CRT_ID_VER_DISP_ENA_END, VDE); 1429 1.1 chopps WCrt(ba, CRT_ID_START_VER_BLANK, VBS); 1430 1.1 chopps WCrt(ba, CRT_ID_END_VER_BLANK, VBE); 1431 1.1 chopps 1432 1.1 chopps WCrt(ba, CRT_ID_LINE_COMPARE, 0xff); 1433 1.1 chopps WCrt(ba, CRT_ID_LACE_RETR_START, HT / 2); 1434 1.23 veego WCrt(ba, CRT_ID_LACE_CONTROL, 1435 1.23 veego ((gv->disp_flags & GRF_FLAGS_LACE) ? 0x20 : 0x00)); 1436 1.1 chopps 1437 1.1 chopps WGfx(ba, GCT_ID_GRAPHICS_MODE, 1438 1.1 chopps ((TEXT || (gv->depth == 1)) ? 0x00 : 0x40)); 1439 1.1 chopps WGfx(ba, GCT_ID_MISC, (TEXT ? 0x04 : 0x01)); 1440 1.1 chopps 1441 1.1 chopps WSeq (ba, SEQ_ID_MEMORY_MODE, 1442 1.7 veego ((TEXT || (gv->depth == 1)) ? 0x06 : 0x02)); 1443 1.1 chopps 1444 1.1 chopps vgaw(ba, VDAC_MASK, 0xff); 1445 1.1 chopps 1446 1.14 veego /* Blank border */ 1447 1.14 veego test = RCrt(ba, CRT_ID_BACKWAD_COMP_2); 1448 1.14 veego WCrt(ba, CRT_ID_BACKWAD_COMP_2, (test | 0x20)); 1449 1.14 veego 1450 1.4 jtc sr15 = RSeq(ba, SEQ_ID_CLKSYN_CNTL_2); 1451 1.23 veego sr15 &= ~0x10; 1452 1.4 jtc sr18 = RSeq(ba, SEQ_ID_RAMDAC_CNTL); 1453 1.23 veego sr18 &= ~0x80; 1454 1.4 jtc clock_mode = 0x00; 1455 1.7 veego cr50 = 0x00; 1456 1.1 chopps 1457 1.1 chopps test = RCrt(ba, CRT_ID_EXT_MISC_CNTL_2); 1458 1.4 jtc test &= 0xd; 1459 1.1 chopps 1460 1.7 veego /* clear roxxler byte-swapping... */ 1461 1.7 veego cv_write_port(0x0040, cv_boardaddr); 1462 1.7 veego cv_write_port(0x0020, cv_boardaddr); 1463 1.7 veego 1464 1.1 chopps switch (gv->depth) { 1465 1.1 chopps case 1: 1466 1.1 chopps case 4: /* text */ 1467 1.1 chopps HDE = gv->disp_width / 16; 1468 1.1 chopps break; 1469 1.1 chopps case 8: 1470 1.4 jtc if (gv->pixel_clock > 80000000) { 1471 1.4 jtc clock_mode = 0x10 | 0x02; 1472 1.4 jtc sr15 |= 0x10; 1473 1.4 jtc sr18 |= 0x80; 1474 1.4 jtc } 1475 1.1 chopps HDE = gv->disp_width / 8; 1476 1.7 veego cr50 |= 0x00; 1477 1.1 chopps break; 1478 1.1 chopps case 15: 1479 1.7 veego cv_write_port (0x8020, cv_boardaddr); 1480 1.4 jtc clock_mode = 0x30; 1481 1.1 chopps HDE = gv->disp_width / 4; 1482 1.7 veego cr50 |= 0x10; 1483 1.1 chopps break; 1484 1.1 chopps case 16: 1485 1.7 veego cv_write_port (0x8020, cv_boardaddr); 1486 1.4 jtc clock_mode = 0x50; 1487 1.1 chopps HDE = gv->disp_width / 4; 1488 1.7 veego cr50 |= 0x10; 1489 1.1 chopps break; 1490 1.7 veego case 24: /* this is really 32 Bit on CV64 */ 1491 1.7 veego case 32: 1492 1.7 veego cv_write_port(0x8040, cv_boardaddr); 1493 1.4 jtc clock_mode = 0xd0; 1494 1.7 veego HDE = (gv->disp_width / 2); 1495 1.7 veego cr50 |= 0x30; 1496 1.1 chopps break; 1497 1.1 chopps } 1498 1.1 chopps 1499 1.4 jtc WCrt(ba, CRT_ID_EXT_MISC_CNTL_2, clock_mode | test); 1500 1.4 jtc WSeq(ba, SEQ_ID_CLKSYN_CNTL_2, sr15); 1501 1.4 jtc WSeq(ba, SEQ_ID_RAMDAC_CNTL, sr18); 1502 1.4 jtc WCrt(ba, CRT_ID_SCREEN_OFFSET, HDE); 1503 1.1 chopps 1504 1.12 veego WCrt(ba, CRT_ID_MISC_1, (TEXT ? 0x05 : 0x35)); 1505 1.12 veego 1506 1.1 chopps test = RCrt(ba, CRT_ID_EXT_SYS_CNTL_2); 1507 1.7 veego test &= ~0x30; 1508 1.1 chopps /* HDE Overflow in bits 4-5 */ 1509 1.1 chopps test |= (HDE >> 4) & 0x30; 1510 1.1 chopps WCrt(ba, CRT_ID_EXT_SYS_CNTL_2, test); 1511 1.1 chopps 1512 1.7 veego /* Set up graphics engine */ 1513 1.7 veego switch (gv->disp_width) { 1514 1.7 veego case 1024: 1515 1.7 veego cr50 |= 0x00; 1516 1.7 veego break; 1517 1.7 veego case 640: 1518 1.7 veego cr50 |= 0x40; 1519 1.7 veego break; 1520 1.7 veego case 800: 1521 1.7 veego cr50 |= 0x80; 1522 1.7 veego break; 1523 1.7 veego case 1280: 1524 1.7 veego cr50 |= 0xc0; 1525 1.7 veego break; 1526 1.7 veego case 1152: 1527 1.7 veego cr50 |= 0x01; 1528 1.7 veego break; 1529 1.7 veego case 1600: 1530 1.7 veego cr50 |= 0x81; 1531 1.7 veego break; 1532 1.14 veego default: /* XXX The Xserver has to handle this */ 1533 1.7 veego break; 1534 1.7 veego } 1535 1.7 veego 1536 1.7 veego WCrt(ba, CRT_ID_EXT_SYS_CNTL_1, cr50); 1537 1.7 veego 1538 1.1 chopps delay(100000); 1539 1.12 veego WAttr(ba, ACT_ID_ATTR_MODE_CNTL, (TEXT ? 0x08 : 0x41)); 1540 1.1 chopps delay(100000); 1541 1.1 chopps WAttr(ba, ACT_ID_COLOR_PLANE_ENA, 1542 1.1 chopps (gv->depth == 1) ? 0x01 : 0x0f); 1543 1.1 chopps delay(100000); 1544 1.1 chopps 1545 1.4 jtc /* 1546 1.7 veego * M-Parameter of Display FIFO 1547 1.7 veego * This is dependant on the pixel clock and the memory clock. 1548 1.7 veego * The FIFO filling bandwidth is 240 MHz and the FIFO is 96 Byte wide. 1549 1.7 veego * Then the time to fill the FIFO is tfill = (96/240000000) sec, the time 1550 1.7 veego * to empty the FIFO is tempty = (96/pixelclock) sec. 1551 1.7 veego * Then the M parameter maximum is ((tempty-tfill)*cv_memclk-9)/2. 1552 1.7 veego * This seems to be logical, ain't it? 1553 1.7 veego * Remember: We have to use integer arithmetics :( 1554 1.7 veego * Divide by 1000 to prevent overflows. 1555 1.1 chopps */ 1556 1.4 jtc 1557 1.7 veego tfillm = (96 * (cv_memclk/1000))/240000; 1558 1.7 veego 1559 1.7 veego switch(gv->depth) { 1560 1.14 veego case 32: 1561 1.14 veego case 24: 1562 1.7 veego temptym = (24 * (cv_memclk/1000)) / (gv->pixel_clock/1000); 1563 1.7 veego break; 1564 1.14 veego case 15: 1565 1.14 veego case 16: 1566 1.7 veego temptym = (48 * (cv_memclk/1000)) / (gv->pixel_clock/1000); 1567 1.7 veego break; 1568 1.14 veego case 4: 1569 1.14 veego temptym = (192 * (cv_memclk/1000)) / (gv->pixel_clock/1000); 1570 1.14 veego break; 1571 1.14 veego default: 1572 1.7 veego temptym = (96 * (cv_memclk/1000)) / (gv->pixel_clock/1000); 1573 1.7 veego break; 1574 1.7 veego } 1575 1.7 veego 1576 1.7 veego m = (temptym - tfillm - 9) / 2; 1577 1.12 veego if (m < 0) 1578 1.12 veego m = 0; /* prevent underflow */ 1579 1.7 veego m = (m & 0x1f) << 3; 1580 1.7 veego if (m < 0x18) 1581 1.7 veego m = 0x18; 1582 1.4 jtc n = 0xff; 1583 1.1 chopps 1584 1.4 jtc WCrt(ba, CRT_ID_EXT_MEM_CNTL_2, m); 1585 1.4 jtc WCrt(ba, CRT_ID_EXT_MEM_CNTL_3, n); 1586 1.1 chopps delay(10000); 1587 1.1 chopps 1588 1.3 chopps /* text initialization */ 1589 1.3 chopps 1590 1.3 chopps if (TEXT) { 1591 1.3 chopps cv_inittextmode(gp); 1592 1.3 chopps } 1593 1.3 chopps 1594 1.7 veego if (CONSOLE) { 1595 1.7 veego int i; 1596 1.7 veego vgaw(ba, VDAC_ADDRESS_W, 0); 1597 1.12 veego for (i = 0; i < 16; i++) { 1598 1.7 veego vgaw(ba, VDAC_DATA, cvconscolors[i][0]); 1599 1.7 veego vgaw(ba, VDAC_DATA, cvconscolors[i][1]); 1600 1.7 veego vgaw(ba, VDAC_DATA, cvconscolors[i][2]); 1601 1.7 veego } 1602 1.7 veego } 1603 1.7 veego 1604 1.21 veego /* Set display enable flag */ 1605 1.1 chopps WAttr(ba, 0x33, 0); 1606 1.1 chopps 1607 1.1 chopps /* turn gfx on again */ 1608 1.1 chopps gfx_on_off(0, ba); 1609 1.1 chopps 1610 1.21 veego /* enable interrupts */ 1611 1.21 veego test = RCrt(ba, CRT_ID_BACKWAD_COMP_1); 1612 1.21 veego test |= 0x10; 1613 1.21 veego WCrt(ba, CRT_ID_BACKWAD_COMP_1, test); 1614 1.21 veego 1615 1.21 veego test = RCrt(ba, CRT_ID_END_VER_RETR); 1616 1.21 veego test &= ~0x20; 1617 1.21 veego WCrt(ba, CRT_ID_END_VER_RETR, test); 1618 1.21 veego test &= ~0x10; 1619 1.21 veego WCrt(ba, CRT_ID_END_VER_RETR, test); 1620 1.21 veego test |= 0x10; 1621 1.21 veego WCrt(ba, CRT_ID_END_VER_RETR, test); 1622 1.21 veego #ifndef CV_NO_HARDWARE_CURSOR 1623 1.21 veego cv_setup_hwc(gp); 1624 1.21 veego #endif 1625 1.21 veego 1626 1.1 chopps /* Pass-through */ 1627 1.7 veego cvscreen(0, ba - 0x02000000); 1628 1.1 chopps 1629 1.2 chopps return (1); 1630 1.1 chopps } 1631 1.1 chopps 1632 1.12 veego 1633 1.1 chopps void 1634 1.1 chopps cv_inittextmode(gp) 1635 1.1 chopps struct grf_softc *gp; 1636 1.1 chopps { 1637 1.1 chopps struct grfcvtext_mode *tm = (struct grfcvtext_mode *)gp->g_data; 1638 1.7 veego volatile caddr_t ba, fb; 1639 1.1 chopps unsigned char *c, *f, y; 1640 1.1 chopps unsigned short z; 1641 1.1 chopps 1642 1.7 veego ba = gp->g_regkva; 1643 1.7 veego fb = gp->g_fbkva; 1644 1.1 chopps 1645 1.1 chopps /* load text font into beginning of display memory. 1646 1.2 chopps * Each character cell is 32 bytes long (enough for 4 planes) 1647 1.12 veego * In linear adressing text mode, the memory is organized 1648 1.12 veego * so, that the Bytes of all 4 planes are interleaved. 1649 1.12 veego * 1st byte plane 0, 1st byte plane 1, 1st byte plane 2, 1650 1.12 veego * 1st byte plane 3, 2nd byte plane 0, 2nd byte plane 1,... 1651 1.12 veego * The font is loaded in plane 2. 1652 1.1 chopps */ 1653 1.1 chopps 1654 1.12 veego c = (unsigned char *) fb; 1655 1.12 veego 1656 1.12 veego /* clear screen */ 1657 1.12 veego for (z = 0; z < tm->cols * tm->rows * 3; z++) { 1658 1.12 veego *c++ = 0x20; 1659 1.12 veego *c++ = 0x07; 1660 1.12 veego *c++ = 0; 1661 1.12 veego *c++ = 0; 1662 1.12 veego } 1663 1.12 veego 1664 1.12 veego c = (unsigned char *) (fb) + (32 * tm->fdstart * 4 + 2); 1665 1.1 chopps f = tm->fdata; 1666 1.12 veego for (z = tm->fdstart; z <= tm->fdend; z++, c += (32 - tm->fy) * 4) 1667 1.12 veego for (y = 0; y < tm->fy; y++) { 1668 1.12 veego *c = *f++; 1669 1.12 veego c += 4; 1670 1.12 veego } 1671 1.1 chopps 1672 1.1 chopps /* print out a little init msg */ 1673 1.12 veego c = (unsigned char *)(fb) + (tm->cols - 6) * 4; 1674 1.12 veego *c++ = 'C'; 1675 1.12 veego *c++ = 0x0a; 1676 1.12 veego c +=2; 1677 1.12 veego *c++ = 'V'; 1678 1.12 veego *c++ = 0x0b; 1679 1.12 veego c +=2; 1680 1.12 veego *c++ = '6'; 1681 1.12 veego *c++ = 0x0c; 1682 1.12 veego c +=2; 1683 1.12 veego *c++ = '4'; 1684 1.12 veego *c++ = 0x0d; 1685 1.7 veego } 1686 1.7 veego 1687 1.7 veego 1688 1.23 veego static __inline void 1689 1.7 veego cv_write_port(bits, BoardAddr) 1690 1.7 veego unsigned short bits; 1691 1.7 veego volatile caddr_t BoardAddr; 1692 1.7 veego { 1693 1.7 veego volatile caddr_t addr; 1694 1.7 veego static unsigned char CVPortBits = 0; /* mirror port bits here */ 1695 1.7 veego 1696 1.7 veego addr = BoardAddr + 0x40001; 1697 1.7 veego if (bits & 0x8000) 1698 1.7 veego CVPortBits |= bits & 0xFF; /* Set bits */ 1699 1.7 veego else { 1700 1.7 veego bits = bits & 0xFF; 1701 1.7 veego bits = (~bits) & 0xFF ; 1702 1.7 veego CVPortBits &= bits; /* Clear bits */ 1703 1.7 veego } 1704 1.7 veego 1705 1.7 veego *addr = CVPortBits; 1706 1.7 veego } 1707 1.7 veego 1708 1.7 veego 1709 1.7 veego /* 1710 1.7 veego * Monitor Switch 1711 1.7 veego * 0 = CyberVision Signal 1712 1.7 veego * 1 = Amiga Signal, 1713 1.7 veego * ba = boardaddr 1714 1.7 veego */ 1715 1.23 veego static __inline void 1716 1.7 veego cvscreen(toggle, ba) 1717 1.7 veego int toggle; 1718 1.7 veego volatile caddr_t ba; 1719 1.7 veego { 1720 1.7 veego 1721 1.7 veego if (toggle == 1) 1722 1.7 veego cv_write_port (0x10, ba); 1723 1.7 veego else 1724 1.7 veego cv_write_port (0x8010, ba); 1725 1.7 veego } 1726 1.7 veego 1727 1.12 veego 1728 1.7 veego /* 0 = on, 1= off */ 1729 1.7 veego /* ba= registerbase */ 1730 1.23 veego static __inline void 1731 1.7 veego gfx_on_off(toggle, ba) 1732 1.7 veego int toggle; 1733 1.7 veego volatile caddr_t ba; 1734 1.7 veego { 1735 1.7 veego int r; 1736 1.7 veego 1737 1.7 veego toggle &= 0x1; 1738 1.7 veego toggle = toggle << 5; 1739 1.7 veego 1740 1.7 veego r = RSeq(ba, SEQ_ID_CLOCKING_MODE); 1741 1.23 veego r &= ~0x20; /* set Bit 5 to 0 */ 1742 1.7 veego 1743 1.7 veego WSeq(ba, SEQ_ID_CLOCKING_MODE, r | toggle); 1744 1.1 chopps } 1745 1.12 veego 1746 1.12 veego 1747 1.21 veego #ifndef CV_NO_HARDWARE_CURSOR 1748 1.12 veego 1749 1.12 veego static unsigned char cv_hotx = 0, cv_hoty = 0; 1750 1.21 veego static char cv_cursor_on = 0; 1751 1.12 veego 1752 1.12 veego /* Hardware Cursor handling routines */ 1753 1.12 veego 1754 1.12 veego int 1755 1.21 veego cv_getspritepos(gp, pos) 1756 1.12 veego struct grf_softc *gp; 1757 1.12 veego struct grf_position *pos; 1758 1.12 veego { 1759 1.12 veego int hi,lo; 1760 1.12 veego volatile caddr_t ba = gp->g_regkva; 1761 1.12 veego 1762 1.21 veego hi = RCrt(ba, CRT_ID_HWGC_ORIGIN_Y_HI); 1763 1.21 veego lo = RCrt(ba, CRT_ID_HWGC_ORIGIN_Y_LO); 1764 1.12 veego 1765 1.12 veego pos->y = (hi << 8) + lo; 1766 1.21 veego hi = RCrt(ba, CRT_ID_HWGC_ORIGIN_X_HI); 1767 1.21 veego lo = RCrt(ba, CRT_ID_HWGC_ORIGIN_X_LO); 1768 1.12 veego pos->x = (hi << 8) + lo; 1769 1.12 veego return (0); 1770 1.12 veego } 1771 1.12 veego 1772 1.12 veego 1773 1.12 veego int 1774 1.21 veego cv_setspritepos(gp, pos) 1775 1.12 veego struct grf_softc *gp; 1776 1.12 veego struct grf_position *pos; 1777 1.12 veego { 1778 1.12 veego volatile caddr_t ba = gp->g_regkva; 1779 1.21 veego short x, y; 1780 1.21 veego static short savex, savey; 1781 1.12 veego short xoff, yoff; 1782 1.12 veego 1783 1.21 veego if (pos) { 1784 1.21 veego x = pos->x; 1785 1.21 veego y = pos->y; 1786 1.21 veego savex = x; 1787 1.21 veego savey= y; 1788 1.21 veego } else { /* restore cursor */ 1789 1.21 veego x = savex; 1790 1.21 veego y = savey; 1791 1.21 veego } 1792 1.12 veego x -= cv_hotx; 1793 1.12 veego y -= cv_hoty; 1794 1.12 veego if (x < 0) { 1795 1.12 veego xoff = ((-x) & 0xFE); 1796 1.12 veego x = 0; 1797 1.12 veego } else { 1798 1.12 veego xoff = 0; 1799 1.12 veego } 1800 1.12 veego 1801 1.12 veego if (y < 0) { 1802 1.12 veego yoff = ((-y) & 0xFE); 1803 1.12 veego y = 0; 1804 1.12 veego } else { 1805 1.12 veego yoff = 0; 1806 1.12 veego } 1807 1.12 veego 1808 1.21 veego WCrt(ba, CRT_ID_HWGC_ORIGIN_X_HI, (x >> 8)); 1809 1.21 veego WCrt(ba, CRT_ID_HWGC_ORIGIN_X_LO, (x & 0xff)); 1810 1.12 veego 1811 1.21 veego WCrt(ba, CRT_ID_HWGC_ORIGIN_Y_LO, (y & 0xff)); 1812 1.21 veego WCrt(ba, CRT_ID_HWGC_DSTART_X, xoff); 1813 1.21 veego WCrt(ba, CRT_ID_HWGC_DSTART_Y, yoff); 1814 1.21 veego WCrt(ba, CRT_ID_HWGC_ORIGIN_Y_HI, (y >> 8)); 1815 1.12 veego 1816 1.12 veego return(0); 1817 1.12 veego } 1818 1.12 veego 1819 1.23 veego static __inline short 1820 1.21 veego M2I(short val) { 1821 1.21 veego return ( ((val & 0xff00) >> 8) | ((val & 0xff) << 8)); 1822 1.21 veego } 1823 1.12 veego 1824 1.12 veego int 1825 1.21 veego cv_getspriteinfo(gp, info) 1826 1.12 veego struct grf_softc *gp; 1827 1.12 veego struct grf_spriteinfo *info; 1828 1.12 veego { 1829 1.12 veego volatile caddr_t ba, fb; 1830 1.12 veego 1831 1.12 veego ba = gp->g_regkva; 1832 1.12 veego fb = gp->g_fbkva; 1833 1.12 veego 1834 1.12 veego if (info->set & GRFSPRSET_ENABLE) 1835 1.12 veego info->enable = RCrt(ba, CRT_ID_HWGC_MODE) & 0x01; 1836 1.12 veego 1837 1.12 veego if (info->set & GRFSPRSET_POS) 1838 1.12 veego cv_getspritepos (gp, &info->pos); 1839 1.12 veego 1840 1.12 veego #if 0 /* XXX */ 1841 1.12 veego if (info->set & GRFSPRSET_SHAPE) { 1842 1.12 veego u_char image[512], mask[512]; 1843 1.12 veego volatile u_long *hwp; 1844 1.12 veego u_char *imp, *mp; 1845 1.12 veego short row; 1846 1.12 veego info->size.x = 64; 1847 1.12 veego info->size.y = 64; 1848 1.12 veego for (row = 0, hwp = (u_long *)(fb + HWC_OFF), 1849 1.12 veego mp = mask, imp = image; 1850 1.12 veego row < 64; 1851 1.12 veego row++) { 1852 1.12 veego u_long bp10, bp20, bp11, bp21; 1853 1.12 veego bp10 = *hwp++; 1854 1.12 veego bp20 = *hwp++; 1855 1.12 veego bp11 = *hwp++; 1856 1.12 veego bp21 = *hwp++; 1857 1.12 veego M2I (bp10); 1858 1.12 veego M2I (bp20); 1859 1.12 veego M2I (bp11); 1860 1.12 veego M2I (bp21); 1861 1.12 veego *imp++ = (~bp10) & bp11; 1862 1.12 veego *imp++ = (~bp20) & bp21; 1863 1.12 veego *mp++ = (~bp10) | (bp10 & ~bp11); 1864 1.12 veego *mp++ = (~bp20) & (bp20 & ~bp21); 1865 1.12 veego } 1866 1.12 veego copyout (image, info->image, sizeof (image)); 1867 1.12 veego copyout (mask, info->mask, sizeof (mask)); 1868 1.12 veego } 1869 1.12 veego #endif 1870 1.12 veego return(0); 1871 1.12 veego } 1872 1.12 veego 1873 1.12 veego 1874 1.12 veego void 1875 1.21 veego cv_setup_hwc(gp) 1876 1.12 veego struct grf_softc *gp; 1877 1.12 veego { 1878 1.14 veego volatile caddr_t ba = gp->g_regkva; 1879 1.21 veego volatile caddr_t hwc; 1880 1.12 veego int test; 1881 1.12 veego 1882 1.21 veego if (gp->g_display.gd_planes <= 4) 1883 1.21 veego cv_cursor_on = 0; /* don't enable hwc in text modes */ 1884 1.21 veego if (cv_cursor_on == 0) 1885 1.21 veego return; 1886 1.12 veego 1887 1.12 veego /* reset colour stack */ 1888 1.21 veego #if 0 1889 1.12 veego test = RCrt(ba, CRT_ID_HWGC_MODE); 1890 1.23 veego asm volatile("nop"); 1891 1.21 veego #else 1892 1.21 veego /* do it in assembler, the above does't seem to work */ 1893 1.21 veego asm volatile ("moveb #0x45, %1@(0x3d4); \ 1894 1.21 veego moveb %1@(0x3d5),%0" : "=r" (test) : "a" (ba)); 1895 1.21 veego #endif 1896 1.23 veego 1897 1.12 veego WCrt (ba, CRT_ID_HWGC_FG_STACK, 0); 1898 1.12 veego 1899 1.21 veego hwc = ba + CRT_ADDRESS_W; 1900 1.21 veego *hwc = 0; 1901 1.21 veego *hwc = 0; 1902 1.23 veego 1903 1.21 veego #if 0 1904 1.12 veego test = RCrt(ba, CRT_ID_HWGC_MODE); 1905 1.23 veego asm volatile("nop"); 1906 1.21 veego #else 1907 1.21 veego /* do it in assembler, the above does't seem to work */ 1908 1.21 veego asm volatile ("moveb #0x45, %1@(0x3d4); \ 1909 1.21 veego moveb %1@(0x3d5),%0" : "=r" (test) : "a" (ba)); 1910 1.21 veego #endif 1911 1.21 veego switch (gp->g_display.gd_planes) { 1912 1.21 veego case 8: 1913 1.21 veego WCrt (ba, CRT_ID_HWGC_BG_STACK, 0x1); 1914 1.21 veego *hwc = 1; 1915 1.21 veego break; 1916 1.21 veego default: 1917 1.21 veego WCrt (ba, CRT_ID_HWGC_BG_STACK, 0xff); 1918 1.21 veego *hwc = 0xff; 1919 1.21 veego *hwc = 0xff; 1920 1.21 veego } 1921 1.12 veego 1922 1.12 veego test = HWC_OFF / HWC_SIZE; 1923 1.12 veego WCrt (ba, CRT_ID_HWGC_START_AD_HI, (test >> 8)); 1924 1.12 veego WCrt (ba, CRT_ID_HWGC_START_AD_LO, (test & 0xff)); 1925 1.12 veego 1926 1.12 veego WCrt (ba, CRT_ID_HWGC_DSTART_X , 0); 1927 1.12 veego WCrt (ba, CRT_ID_HWGC_DSTART_Y , 0); 1928 1.12 veego 1929 1.21 veego WCrt (ba, CRT_ID_EXT_DAC_CNTL, 0x10); /* Cursor X11 Mode */ 1930 1.21 veego /* 1931 1.21 veego * Put it into Windoze Mode or you'll see sometimes a white stripe 1932 1.21 veego * on the right side (in double clocking modes with a screen bigger 1933 1.21 veego * > 1023 pixels). 1934 1.21 veego */ 1935 1.21 veego WCrt (ba, CRT_ID_EXT_DAC_CNTL, 0x00); /* Cursor Windoze Mode */ 1936 1.12 veego 1937 1.12 veego WCrt (ba, CRT_ID_HWGC_MODE, 0x01); 1938 1.12 veego } 1939 1.12 veego 1940 1.12 veego 1941 1.21 veego /* 1942 1.21 veego * This was the reason why you shouldn't use the HWC in the Kernel:( 1943 1.21 veego * Obsoleted now by use of interrupts :-) 1944 1.21 veego */ 1945 1.12 veego 1946 1.12 veego #define VerticalRetraceWait(ba) \ 1947 1.12 veego { \ 1948 1.12 veego while (vgar(ba, GREG_INPUT_STATUS1_R) == 0x00) ; \ 1949 1.12 veego while ((vgar(ba, GREG_INPUT_STATUS1_R) & 0x08) == 0x08) ; \ 1950 1.12 veego while ((vgar(ba, GREG_INPUT_STATUS1_R) & 0x08) == 0x00) ; \ 1951 1.12 veego } 1952 1.12 veego 1953 1.12 veego 1954 1.12 veego int 1955 1.12 veego cv_setspriteinfo (gp, info) 1956 1.12 veego struct grf_softc *gp; 1957 1.12 veego struct grf_spriteinfo *info; 1958 1.12 veego { 1959 1.12 veego volatile caddr_t ba, fb; 1960 1.14 veego int depth = gp->g_display.gd_planes; 1961 1.12 veego 1962 1.12 veego ba = gp->g_regkva; 1963 1.12 veego fb = gp->g_fbkva; 1964 1.12 veego 1965 1.12 veego if (info->set & GRFSPRSET_SHAPE) { 1966 1.12 veego /* 1967 1.12 veego * For an explanation of these weird actions here, see above 1968 1.12 veego * when reading the shape. We set the shape directly into 1969 1.12 veego * the video memory, there's no reason to keep 1k on the 1970 1.12 veego * kernel stack just as template 1971 1.12 veego */ 1972 1.12 veego u_char *image, *mask; 1973 1.12 veego volatile u_short *hwp; 1974 1.12 veego u_char *imp, *mp; 1975 1.12 veego unsigned short row; 1976 1.12 veego 1977 1.21 veego #ifdef CV_NO_INT 1978 1.12 veego /* Cursor off */ 1979 1.12 veego WCrt (ba, CRT_ID_HWGC_MODE, 0x00); 1980 1.14 veego 1981 1.14 veego /* 1982 1.14 veego * The Trio64 crashes if the cursor data is written 1983 1.14 veego * while the cursor is displayed. 1984 1.14 veego * Sadly, turning the cursor off is not enough. 1985 1.14 veego * What we have to do is: 1986 1.14 veego * 1. Wait for vertical retrace, to make sure no-one 1987 1.14 veego * has moved the cursor in this sync period (because 1988 1.14 veego * another write then would have no effect, argh!). 1989 1.14 veego * 2. Move the cursor off-screen 1990 1.14 veego * 3. Another wait for v. retrace to make sure the cursor 1991 1.14 veego * is really off. 1992 1.14 veego * 4. Write the data, finally. 1993 1.14 veego * (thanks to Harald Koenig for this tip!) 1994 1.14 veego */ 1995 1.14 veego 1996 1.21 veego /* 1997 1.21 veego * Remark 06/06/96: Update in interrupt obsoletes this, 1998 1.21 veego * but the warning should stay there! 1999 1.21 veego */ 2000 1.21 veego 2001 1.14 veego VerticalRetraceWait(ba); 2002 1.14 veego 2003 1.12 veego WCrt (ba, CRT_ID_HWGC_ORIGIN_X_HI, 0x7); 2004 1.12 veego WCrt (ba, CRT_ID_HWGC_ORIGIN_X_LO, 0xff); 2005 1.12 veego WCrt (ba, CRT_ID_HWGC_ORIGIN_Y_LO, 0xff); 2006 1.12 veego WCrt (ba, CRT_ID_HWGC_DSTART_X, 0x3f); 2007 1.12 veego WCrt (ba, CRT_ID_HWGC_DSTART_Y, 0x3f); 2008 1.12 veego WCrt (ba, CRT_ID_HWGC_ORIGIN_Y_HI, 0x7); 2009 1.21 veego #endif /* CV_NO_INT */ 2010 1.12 veego 2011 1.12 veego if (info->size.y > 64) 2012 1.12 veego info->size.y = 64; 2013 1.12 veego if (info->size.x > 64) 2014 1.12 veego info->size.x = 64; 2015 1.12 veego if (info->size.x < 32) 2016 1.12 veego info->size.x = 32; 2017 1.12 veego 2018 1.12 veego image = malloc(HWC_SIZE, M_TEMP, M_WAITOK); 2019 1.12 veego mask = image + HWC_SIZE/2; 2020 1.12 veego 2021 1.12 veego copyin(info->image, image, info->size.y * info->size.x / 8); 2022 1.12 veego copyin(info->mask, mask, info->size.y * info->size.x / 8); 2023 1.12 veego 2024 1.21 veego #ifdef CV_NO_INT 2025 1.12 veego hwp = (u_short *)(fb +HWC_OFF); 2026 1.12 veego 2027 1.14 veego /* This is necessary in order not to crash the board */ 2028 1.14 veego VerticalRetraceWait(ba); 2029 1.21 veego #else /* CV_NO_INT */ 2030 1.21 veego hwp = (u_short *) cv_cursor_storage; 2031 1.21 veego #endif /* CV_NO_INT */ 2032 1.14 veego 2033 1.12 veego /* 2034 1.12 veego * setting it is slightly more difficult, because we can't 2035 1.12 veego * force the application to not pass a *smaller* than 2036 1.12 veego * supported bitmap 2037 1.12 veego */ 2038 1.12 veego 2039 1.12 veego for (row = 0, mp = mask, imp = image; 2040 1.12 veego row < info->size.y; row++) { 2041 1.12 veego u_short im1, im2, im3, im4, m1, m2, m3, m4; 2042 1.12 veego 2043 1.21 veego m1 = ~(*(unsigned short *)mp); 2044 1.21 veego im1 = *(unsigned short *)imp & *(unsigned short *)mp; 2045 1.21 veego mp += 2; 2046 1.12 veego imp += 2; 2047 1.21 veego 2048 1.21 veego m2 = ~(*(unsigned short *)mp); 2049 1.21 veego im2 = *(unsigned short *)imp & *(unsigned short *)mp; 2050 1.12 veego mp += 2; 2051 1.12 veego imp += 2; 2052 1.12 veego 2053 1.12 veego if (info->size.x > 32) { 2054 1.21 veego m3 = ~(*(unsigned short *)mp); 2055 1.21 veego im3 = *(unsigned short *)imp & *(unsigned short *)mp; 2056 1.21 veego mp += 2; 2057 1.21 veego imp += 2; 2058 1.21 veego m4 = ~(*(unsigned short *)mp); 2059 1.21 veego im4 = *(unsigned short *)imp & *(unsigned short *)mp; 2060 1.21 veego mp += 2; 2061 1.21 veego imp += 2; 2062 1.21 veego } else { 2063 1.21 veego m3 = 0xffff; 2064 1.21 veego im3 = 0; 2065 1.21 veego m4 = 0xffff; 2066 1.21 veego im4 = 0; 2067 1.12 veego } 2068 1.12 veego 2069 1.14 veego switch (depth) { 2070 1.14 veego case 8: 2071 1.14 veego *hwp++ = m1; 2072 1.14 veego *hwp++ = im1; 2073 1.14 veego *hwp++ = m2; 2074 1.14 veego *hwp++ = im2; 2075 1.14 veego *hwp++ = m3; 2076 1.14 veego *hwp++ = im3; 2077 1.14 veego *hwp++ = m4; 2078 1.14 veego *hwp++ = im4; 2079 1.14 veego break; 2080 1.14 veego case 15: 2081 1.14 veego case 16: 2082 1.14 veego *hwp++ = M2I(m1); 2083 1.14 veego *hwp++ = M2I(im1); 2084 1.14 veego *hwp++ = M2I(m2); 2085 1.14 veego *hwp++ = M2I(im2); 2086 1.14 veego *hwp++ = M2I(m3); 2087 1.14 veego *hwp++ = M2I(im3); 2088 1.14 veego *hwp++ = M2I(m4); 2089 1.14 veego *hwp++ = M2I(im4); 2090 1.14 veego break; 2091 1.14 veego case 24: 2092 1.14 veego case 32: 2093 1.14 veego *hwp++ = M2I(im1); 2094 1.14 veego *hwp++ = M2I(m1); 2095 1.14 veego *hwp++ = M2I(im2); 2096 1.14 veego *hwp++ = M2I(m2); 2097 1.14 veego *hwp++ = M2I(im3); 2098 1.14 veego *hwp++ = M2I(m3); 2099 1.14 veego *hwp++ = M2I(im4); 2100 1.14 veego *hwp++ = M2I(m4); 2101 1.14 veego break; 2102 1.14 veego } 2103 1.12 veego } 2104 1.21 veego 2105 1.21 veego if (depth < 24) { 2106 1.21 veego for (; row < 64; row++) { 2107 1.21 veego *hwp++ = 0xffff; 2108 1.21 veego *hwp++ = 0x0000; 2109 1.21 veego *hwp++ = 0xffff; 2110 1.21 veego *hwp++ = 0x0000; 2111 1.21 veego *hwp++ = 0xffff; 2112 1.21 veego *hwp++ = 0x0000; 2113 1.21 veego *hwp++ = 0xffff; 2114 1.21 veego *hwp++ = 0x0000; 2115 1.21 veego } 2116 1.21 veego } else { 2117 1.21 veego for (; row < 64; row++) { 2118 1.21 veego *hwp++ = 0x0000; 2119 1.21 veego *hwp++ = 0xffff; 2120 1.21 veego *hwp++ = 0x0000; 2121 1.21 veego *hwp++ = 0xffff; 2122 1.21 veego *hwp++ = 0x0000; 2123 1.21 veego *hwp++ = 0xffff; 2124 1.21 veego *hwp++ = 0x0000; 2125 1.21 veego *hwp++ = 0xffff; 2126 1.21 veego } 2127 1.12 veego } 2128 1.21 veego 2129 1.12 veego free(image, M_TEMP); 2130 1.21 veego /* cv_setup_hwc(gp); */ 2131 1.12 veego cv_hotx = info->hot.x; 2132 1.12 veego cv_hoty = info->hot.y; 2133 1.12 veego 2134 1.21 veego #ifdef CV_NO_INT 2135 1.12 veego /* One must not write twice per vertical blank :-( */ 2136 1.21 veego VerticalRetraceWait(ba); 2137 1.21 veego cv_setspritepos (gp, &info->pos); 2138 1.21 veego #else /* CV_NO_INT */ 2139 1.12 veego cv_setspritepos (gp, &info->pos); 2140 1.21 veego curs_update_flag = 1; 2141 1.21 veego #endif /* CV_NO_INT */ 2142 1.12 veego } 2143 1.12 veego if (info->set & GRFSPRSET_CMAP) { 2144 1.21 veego volatile caddr_t hwc; 2145 1.12 veego int test; 2146 1.14 veego 2147 1.12 veego /* reset colour stack */ 2148 1.12 veego test = RCrt(ba, CRT_ID_HWGC_MODE); 2149 1.23 veego asm volatile("nop"); 2150 1.12 veego switch (depth) { 2151 1.21 veego case 8: 2152 1.21 veego case 15: 2153 1.21 veego case 16: 2154 1.21 veego WCrt (ba, CRT_ID_HWGC_FG_STACK, 0); 2155 1.21 veego hwc = ba + CRT_ADDRESS_W; 2156 1.21 veego *hwc = 0; 2157 1.21 veego break; 2158 1.14 veego case 32: 2159 1.14 veego case 24: 2160 1.12 veego WCrt (ba, CRT_ID_HWGC_FG_STACK, 0); 2161 1.21 veego hwc = ba + CRT_ADDRESS_W; 2162 1.21 veego *hwc = 0; 2163 1.21 veego *hwc = 0; 2164 1.21 veego break; 2165 1.12 veego } 2166 1.12 veego 2167 1.12 veego test = RCrt(ba, CRT_ID_HWGC_MODE); 2168 1.12 veego asm volatile("nop"); 2169 1.12 veego switch (depth) { 2170 1.12 veego case 8: 2171 1.12 veego WCrt (ba, CRT_ID_HWGC_BG_STACK, 1); 2172 1.21 veego hwc = ba + CRT_ADDRESS_W; 2173 1.21 veego *hwc = 1; 2174 1.12 veego break; 2175 1.21 veego case 15: 2176 1.12 veego case 16: 2177 1.12 veego WCrt (ba, CRT_ID_HWGC_BG_STACK, 0xff); 2178 1.21 veego hwc = ba + CRT_ADDRESS_W; 2179 1.21 veego *hwc = 0xff; 2180 1.21 veego break; 2181 1.21 veego case 32: 2182 1.21 veego case 24: 2183 1.12 veego WCrt (ba, CRT_ID_HWGC_BG_STACK, 0xff); 2184 1.21 veego hwc = ba + CRT_ADDRESS_W; 2185 1.21 veego *hwc = 0xff; 2186 1.21 veego *hwc = 0xff; 2187 1.21 veego break; 2188 1.12 veego } 2189 1.12 veego } 2190 1.12 veego 2191 1.12 veego if (info->set & GRFSPRSET_ENABLE) { 2192 1.21 veego if (info->enable) { 2193 1.21 veego cv_cursor_on = 1; 2194 1.21 veego cv_setup_hwc(gp); 2195 1.21 veego /* WCrt(ba, CRT_ID_HWGC_MODE, 0x01); */ 2196 1.21 veego } else 2197 1.21 veego WCrt(ba, CRT_ID_HWGC_MODE, 0x00); 2198 1.12 veego } 2199 1.12 veego if (info->set & GRFSPRSET_POS) 2200 1.12 veego cv_setspritepos(gp, &info->pos); 2201 1.12 veego if (info->set & GRFSPRSET_HOT) { 2202 1.12 veego 2203 1.12 veego cv_hotx = info->hot.x; 2204 1.12 veego cv_hoty = info->hot.y; 2205 1.12 veego cv_setspritepos (gp, &info->pos); 2206 1.12 veego } 2207 1.12 veego return(0); 2208 1.12 veego } 2209 1.12 veego 2210 1.12 veego 2211 1.12 veego int 2212 1.12 veego cv_getspritemax (gp, pos) 2213 1.12 veego struct grf_softc *gp; 2214 1.12 veego struct grf_position *pos; 2215 1.12 veego { 2216 1.12 veego 2217 1.12 veego pos->x = 64; 2218 1.12 veego pos->y = 64; 2219 1.12 veego return(0); 2220 1.12 veego } 2221 1.12 veego 2222 1.21 veego #endif /* !CV_NO_HARDWARE_CURSOR */ 2223 1.1 chopps 2224 1.1 chopps #endif /* NGRFCV */ 2225
Indexes created Wed Oct 01 07:09:59 GMT 2025