grfabs_fal.c revision 1.16.2.3
1 1.16.2.3 skrll /* $NetBSD: grfabs_fal.c,v 1.16.2.3 2004/09/21 13:13:58 skrll Exp $ */ 2 1.1 leo 3 1.1 leo /* 4 1.2 leo * Copyright (c) 1995 Thomas Gerner. 5 1.1 leo * Copyright (c) 1995 Leo Weppelman. 6 1.1 leo * All rights reserved. 7 1.1 leo * 8 1.1 leo * Redistribution and use in source and binary forms, with or without 9 1.1 leo * modification, are permitted provided that the following conditions 10 1.1 leo * are met: 11 1.1 leo * 1. Redistributions of source code must retain the above copyright 12 1.1 leo * notice, this list of conditions and the following disclaimer. 13 1.1 leo * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 leo * notice, this list of conditions and the following disclaimer in the 15 1.1 leo * documentation and/or other materials provided with the distribution. 16 1.1 leo * 3. All advertising materials mentioning features or use of this software 17 1.1 leo * must display the following acknowledgement: 18 1.1 leo * This product includes software developed by Leo Weppelman. 19 1.1 leo * 4. The name of the author may not be used to endorse or promote products 20 1.1 leo * derived from this software without specific prior written permission 21 1.1 leo * 22 1.1 leo * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 23 1.1 leo * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 24 1.1 leo * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 25 1.1 leo * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 26 1.1 leo * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 27 1.1 leo * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 28 1.1 leo * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 29 1.1 leo * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 30 1.1 leo * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 31 1.1 leo * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 32 1.1 leo */ 33 1.1 leo 34 1.16.2.1 skrll #include <sys/cdefs.h> 35 1.16.2.3 skrll __KERNEL_RCSID(0, "$NetBSD: grfabs_fal.c,v 1.16.2.3 2004/09/21 13:13:58 skrll Exp $"); 36 1.16.2.1 skrll 37 1.1 leo #ifdef FALCON_VIDEO 38 1.1 leo /* 39 1.1 leo * atari abstract graphics driver: Falcon-interface 40 1.1 leo */ 41 1.1 leo #include <sys/param.h> 42 1.1 leo #include <sys/queue.h> 43 1.1 leo #include <sys/malloc.h> 44 1.1 leo #include <sys/device.h> 45 1.4 leo #include <sys/systm.h> 46 1.1 leo 47 1.16 thorpej #include <uvm/uvm_extern.h> 48 1.16 thorpej 49 1.1 leo #include <machine/iomap.h> 50 1.1 leo #include <machine/video.h> 51 1.1 leo #include <machine/mfp.h> 52 1.1 leo #include <atari/atari/device.h> 53 1.4 leo #include <atari/atari/stalloc.h> 54 1.1 leo #include <atari/dev/grfabs_reg.h> 55 1.6 leo #include <atari/dev/grfabs_fal.h> 56 1.1 leo 57 1.1 leo /* 58 1.1 leo * Function decls 59 1.1 leo */ 60 1.1 leo static void init_view __P((view_t *, bmap_t *, dmode_t *, box_t *)); 61 1.1 leo static bmap_t *alloc_bitmap __P((u_long, u_long, u_char)); 62 1.1 leo static colormap_t *alloc_colormap __P((dmode_t *)); 63 1.1 leo static void free_bitmap __P((bmap_t *)); 64 1.1 leo static void falcon_display_view __P((view_t *)); 65 1.1 leo static view_t *falcon_alloc_view __P((dmode_t *, dimen_t *, u_char)); 66 1.1 leo static void falcon_free_view __P((view_t *)); 67 1.1 leo static void falcon_remove_view __P((view_t *)); 68 1.7 leo static void falcon_save_view __P((view_t *)); 69 1.1 leo static int falcon_use_colormap __P((view_t *, colormap_t *)); 70 1.2 leo static void falcon_detect __P((dmode_t *)); 71 1.3 leo static struct videl *falcon_getreg __P((u_short)); 72 1.1 leo 73 1.1 leo /* 74 1.1 leo * Our function switch table 75 1.1 leo */ 76 1.1 leo struct grfabs_sw fal_vid_sw = { 77 1.1 leo falcon_display_view, 78 1.1 leo falcon_alloc_view, 79 1.1 leo falcon_free_view, 80 1.1 leo falcon_remove_view, 81 1.7 leo falcon_save_view, 82 1.1 leo falcon_use_colormap 83 1.1 leo }; 84 1.1 leo 85 1.6 leo struct falcon_hwregs { 86 1.6 leo u_short fal_mode; /* falcon mode */ 87 1.6 leo struct videl *fal_regs; /* videl register values */ 88 1.6 leo }; 89 1.6 leo #define vm_mode(dm) (((struct falcon_hwregs*)(dm->data))->fal_mode) 90 1.6 leo #define vm_regs(dm) (((struct falcon_hwregs*)(dm->data))->fal_regs) 91 1.6 leo 92 1.6 leo /* 93 1.6 leo * Note that the order of this table *must* match the order of 94 1.6 leo * the table below! 95 1.6 leo */ 96 1.6 leo static struct falcon_hwregs fal_hwregs[] = { 97 1.6 leo { RES_FALAUTO }, 98 1.6 leo { RES_FAL_STHIGH }, 99 1.6 leo { RES_FAL_STMID }, 100 1.6 leo { RES_FAL_STLOW }, 101 1.6 leo { RES_FAL_TTLOW }, 102 1.6 leo { RES_VGA2 }, 103 1.6 leo { RES_VGA4 }, 104 1.6 leo { RES_VGA16 }, 105 1.6 leo { RES_VGA256 }, 106 1.6 leo { RES_DIRECT } 107 1.6 leo }; 108 1.6 leo 109 1.6 leo 110 1.1 leo static dmode_t vid_modes[] = { 111 1.6 leo { {NULL,NULL}, "falauto", { 0, 0 }, 0, NULL, &fal_vid_sw}, 112 1.6 leo { {NULL,NULL}, "sthigh", { 640,400 }, 1, NULL, &fal_vid_sw}, 113 1.6 leo { {NULL,NULL}, "stmid", { 640,200 }, 2, NULL, &fal_vid_sw}, 114 1.6 leo { {NULL,NULL}, "stlow", { 320,200 }, 4, NULL, &fal_vid_sw}, 115 1.6 leo { {NULL,NULL}, "ttlow", { 320,480 }, 8, NULL, &fal_vid_sw}, 116 1.6 leo { {NULL,NULL}, "vga2", { 640,480 }, 1, NULL, &fal_vid_sw}, 117 1.6 leo { {NULL,NULL}, "vga4", { 640,480 }, 2, NULL, &fal_vid_sw}, 118 1.6 leo { {NULL,NULL}, "vga16", { 640,480 }, 4, NULL, &fal_vid_sw}, 119 1.6 leo { {NULL,NULL}, "vga256", { 640,480 }, 8, NULL, &fal_vid_sw}, 120 1.6 leo { {NULL,NULL}, "highcol", { 320,200 }, 16, NULL, &fal_vid_sw}, 121 1.3 leo { {NULL,NULL}, NULL, } 122 1.1 leo }; 123 1.1 leo 124 1.1 leo /* 125 1.2 leo * The following table contains timing values for the various video modes. 126 1.3 leo * I have only a multisync display, therefore I can not say if this values 127 1.3 leo * are useful at other displays. 128 1.2 leo * Use other video modes at YOUR OWN RISK. 129 1.2 leo * THERE IS NO WARRENTY ABOUT THIS VALUES TO WORK WITH A PARTICULAR 130 1.3 leo * DISPLAY. -- Thomas 131 1.2 leo */ 132 1.2 leo static struct videl videlinit[] = { 133 1.3 leo { RES_FALAUTO, /* autodedect */ 134 1.2 leo 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 135 1.2 leo 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0 }, 136 1.2 leo 137 1.3 leo { FAL_VGA | RES_FAL_STHIGH, /* sthigh, 640x400, 2 colors */ 138 1.2 leo 0x2, 0x0, 0x28, 0x0, 0x400, 0xc6, 0x8d, 0x15, 0x273, 0x50, 0x96, 0x0, 139 1.2 leo 0x0, 0x419, 0x3af, 0x8f, 0x8f, 0x3af, 0x415, 0x186, 0x8 }, 140 1.2 leo 141 1.3 leo #if 0 /* not yet */ 142 1.3 leo { FAL_SM | RES_FAL_STHIGH, /* sthigh, 640x400, 2 colors */ 143 1.3 leo 0x0, 0x0, 0x28, 0x2, 0x0, 0x1a, 0x0, 0x0, 0x20f, 0xc, 0x14, 0x0, 144 1.3 leo 0x0, 0x3e9, 0x0, 0x0, 0x43, 0x363, 0x3e7, 0x80, 0x8 }, 145 1.3 leo #endif 146 1.3 leo 147 1.3 leo { FAL_VGA | RES_FAL_STMID, /* stmid, 640x200, 4 colors */ 148 1.2 leo 0x2, 0x0, 0x50, 0x1, 0x0, 0x17, 0x12, 0x1, 0x20e, 0xd, 0x11, 0x0, 149 1.2 leo 0x0, 0x419, 0x3af, 0x8f, 0x8f, 0x3af, 0x415, 0x186, 0x9 }, 150 1.2 leo 151 1.3 leo { FAL_VGA | RES_FAL_STLOW, /* stlow, 320x200, 16 colors */ 152 1.2 leo 0x2, 0x0, 0x50, 0x0, 0x0, 0x17, 0x12, 0x1, 0x20e, 0xd, 0x11, 0x0, 153 1.2 leo 0x0, 0x419, 0x3af, 0x8f, 0x8f, 0x3af, 0x415, 0x186, 0x5 }, 154 1.2 leo 155 1.3 leo { FAL_VGA | RES_FAL_TTLOW, /* ttlow, 320x480, 256 colors */ 156 1.2 leo 0x2, 0x0, 0xa0, 0x0, 0x10, 0xc6, 0x8d, 0x15, 0x29a, 0x7b, 0x96, 0x0, 157 1.2 leo 0x0, 0x419, 0x3ff, 0x3f, 0x3f, 0x3ff, 0x415, 0x186, 0x4 }, 158 1.2 leo 159 1.3 leo { FAL_VGA | RES_VGA2, /* vga, 640x480, 2 colors */ 160 1.2 leo 0x2, 0x0, 0x28, 0x0, 0x400, 0xc6, 0x8d, 0x15, 0x273, 0x50, 0x96, 0x0, 161 1.2 leo 0x0, 0x419, 0x3ff, 0x3f, 0x3f, 0x3ff, 0x415, 0x186, 0x8 }, 162 1.2 leo 163 1.3 leo { FAL_VGA | RES_VGA4, /* vga, 640x480, 4 colors */ 164 1.2 leo 0x2, 0x0, 0x50, 0x1, 0x0, 0x17, 0x12, 0x1, 0x20e, 0xd, 0x11, 0x0, 165 1.2 leo 0x0, 0x419, 0x3ff, 0x3f, 0x3f, 0x3ff, 0x415, 0x186, 0x8 }, 166 1.2 leo 167 1.3 leo { FAL_VGA | RES_VGA16, /* vga, 640x480, 16 colors */ 168 1.2 leo 0x2, 0x0, 0xa0, 0x1, 0x0, 0xc6, 0x8d, 0x15, 0x2a3, 0x7c, 0x96, 0x0, 169 1.2 leo 0x0, 0x419, 0x3ff, 0x3f, 0x3f, 0x3ff, 0x415, 0x186, 0x8 }, 170 1.2 leo 171 1.3 leo { FAL_VGA | RES_VGA256, /* vga, 640x480, 256 colors */ 172 1.2 leo 0x2, 0x0, 0x140, 0x1, 0x10, 0xc6, 0x8d, 0x15, 0x2ab, 0x84, 0x96, 0x0, 173 1.2 leo 0x0, 0x419, 0x3ff, 0x3f, 0x3f, 0x3ff, 0x415, 0x186, 0x8 }, 174 1.2 leo 175 1.3 leo { FAL_VGA | RES_DIRECT, /* direct video, 320x200, 65536 colors */ 176 1.2 leo 0x2, 0x0, 0x140, 0x0, 0x100, 0xc6, 0x8d, 0x15, 0x2ac, 0x91, 0x96, 0x0, 177 1.2 leo 0x0, 0x419, 0x3ff, 0x3f, 0x3f, 0x3ff, 0x415, 0x186, 0x4 }, 178 1.2 leo 179 1.3 leo { 0xffff } /* end of list */ 180 1.2 leo }; 181 1.2 leo 182 1.3 leo static u_short mon_type; 183 1.2 leo /* 184 1.1 leo * XXX: called from ite console init routine. 185 1.14 wiz * Initialize list of possible video modes. 186 1.1 leo */ 187 1.1 leo void 188 1.1 leo falcon_probe_video(modelp) 189 1.1 leo MODES *modelp; 190 1.1 leo { 191 1.1 leo dmode_t *dm; 192 1.3 leo struct videl *vregs; 193 1.1 leo int i; 194 1.1 leo 195 1.5 leo mon_type = *(volatile unsigned char *)(AD_FAL_MON_TYPE); 196 1.3 leo mon_type = (mon_type & 0xc0) << 2; 197 1.3 leo 198 1.3 leo /* 199 1.14 wiz * get all possible modes 200 1.1 leo */ 201 1.1 leo 202 1.1 leo for (i = 0; (dm = &vid_modes[i])->name != NULL; i++) { 203 1.6 leo dm->data = (void *)&fal_hwregs[i]; 204 1.6 leo if (vm_mode(dm) == RES_FALAUTO) { 205 1.6 leo vm_regs(dm) = falcon_getreg(RES_FALAUTO); 206 1.2 leo falcon_detect(dm); 207 1.2 leo LIST_INSERT_HEAD(modelp, dm, link); 208 1.3 leo } else { 209 1.6 leo vregs = falcon_getreg(vm_mode(dm) | mon_type); 210 1.3 leo if (vregs) { 211 1.6 leo vm_regs(dm) = vregs; 212 1.3 leo LIST_INSERT_HEAD(modelp, dm, link); 213 1.3 leo } 214 1.3 leo } 215 1.1 leo } 216 1.1 leo 217 1.1 leo /* 218 1.1 leo * This seems to prevent bordered screens. 219 1.1 leo */ 220 1.1 leo for (i=0; i < 16; i++) 221 1.1 leo VIDEO->vd_fal_rgb[i] = CM_L2FAL(gra_def_color16[i]); 222 1.1 leo } 223 1.1 leo 224 1.2 leo static struct videl * 225 1.3 leo falcon_getreg(mode) 226 1.3 leo u_short mode; 227 1.2 leo { 228 1.2 leo int i; 229 1.2 leo struct videl *vregs; 230 1.2 leo 231 1.3 leo for (i = 0; (vregs = &videlinit[i])->video_mode != 0xffff; i++) 232 1.3 leo if ((vregs->video_mode) == mode) 233 1.2 leo return vregs; 234 1.2 leo 235 1.3 leo return NULL; /* mode not found */ 236 1.2 leo } 237 1.2 leo 238 1.1 leo static void 239 1.2 leo falcon_detect(dm) 240 1.1 leo dmode_t *dm; 241 1.1 leo { 242 1.1 leo u_short falshift, stshift; 243 1.6 leo struct videl *vregs = vm_regs(dm); 244 1.1 leo 245 1.2 leo /* 246 1.13 soren * First get the videl register values 247 1.2 leo */ 248 1.2 leo 249 1.2 leo vregs->vd_syncmode = VIDEO->vd_sync; 250 1.2 leo vregs->vd_line_wide = VIDEO->vd_line_wide; 251 1.2 leo vregs->vd_vert_wrap = VIDEO->vd_vert_wrap; 252 1.2 leo vregs->vd_st_res = VIDEO->vd_st_res; 253 1.2 leo vregs->vd_fal_res = VIDEO->vd_fal_res; 254 1.2 leo vregs->vd_h_hold_tim = VIDEO->vd_h_hold_tim; 255 1.2 leo vregs->vd_h_bord_beg = VIDEO->vd_h_bord_beg; 256 1.2 leo vregs->vd_h_bord_end = VIDEO->vd_h_bord_end; 257 1.2 leo vregs->vd_h_dis_beg = VIDEO->vd_h_dis_beg; 258 1.2 leo vregs->vd_h_dis_end = VIDEO->vd_h_dis_end; 259 1.2 leo vregs->vd_h_ss = VIDEO->vd_h_ss; 260 1.2 leo vregs->vd_h_fs = VIDEO->vd_h_fs; 261 1.2 leo vregs->vd_h_hh = VIDEO->vd_h_hh; 262 1.2 leo vregs->vd_v_freq_tim = VIDEO->vd_v_freq_tim; 263 1.2 leo vregs->vd_v_bord_beg = VIDEO->vd_v_bord_beg; 264 1.2 leo vregs->vd_v_bord_end = VIDEO->vd_v_bord_end; 265 1.2 leo vregs->vd_v_dis_beg = VIDEO->vd_v_dis_beg; 266 1.2 leo vregs->vd_v_dis_end = VIDEO->vd_v_dis_end; 267 1.2 leo vregs->vd_v_ss = VIDEO->vd_v_ss; 268 1.2 leo vregs->vd_fal_ctrl = VIDEO->vd_fal_ctrl; 269 1.2 leo vregs->vd_fal_mode = VIDEO->vd_fal_mode; 270 1.2 leo 271 1.1 leo 272 1.1 leo /* 273 1.1 leo * Calculate the depth of the screen 274 1.1 leo */ 275 1.1 leo 276 1.2 leo falshift = vregs->vd_fal_res; 277 1.2 leo stshift = vregs->vd_st_res; 278 1.1 leo 279 1.1 leo if (falshift & 0x400) /* 2 color */ 280 1.1 leo dm->depth = 1; 281 1.1 leo else if (falshift & 0x100) /* high color, direct */ 282 1.1 leo dm->depth = 16; 283 1.1 leo else if (falshift & 0x10) /* 256 color */ 284 1.1 leo dm->depth = 8; 285 1.1 leo else if (stshift == 0) /* 16 color */ 286 1.1 leo dm->depth = 4; 287 1.1 leo else if (stshift == 1) /* 4 color */ 288 1.1 leo dm->depth = 2; 289 1.1 leo else dm->depth = 1; /* 2 color */ 290 1.1 leo 291 1.1 leo /* 292 1.1 leo * Now calculate the screen hight 293 1.1 leo */ 294 1.1 leo 295 1.2 leo dm->size.height = vregs->vd_v_dis_end - vregs->vd_v_dis_beg; 296 1.2 leo if (!((vregs->vd_fal_mode & 0x2) >> 1)) /* if not interlaced */ 297 1.2 leo dm->size.height >>=1; 298 1.2 leo if (vregs->vd_fal_mode & 0x1) /* if doublescan */ 299 1.2 leo dm->size.height >>=1; 300 1.1 leo 301 1.1 leo /* 302 1.1 leo * And the width 303 1.1 leo */ 304 1.1 leo 305 1.2 leo dm->size.width = vregs->vd_vert_wrap * 16 / dm->depth; 306 1.2 leo 307 1.1 leo } 308 1.1 leo 309 1.9 leo u_long falcon_needs_vbl; 310 1.9 leo void falcon_display_switch __P((void)); 311 1.9 leo 312 1.1 leo static void 313 1.1 leo falcon_display_view(v) 314 1.1 leo view_t *v; 315 1.1 leo { 316 1.1 leo dmode_t *dm = v->mode; 317 1.9 leo bmap_t *bm; 318 1.9 leo struct videl *vregs; 319 1.9 leo static u_short last_mode = 0xffff; 320 1.1 leo 321 1.1 leo if (dm->current_view) { 322 1.1 leo /* 323 1.1 leo * Mark current view for this mode as no longer displayed 324 1.1 leo */ 325 1.1 leo dm->current_view->flags &= ~VF_DISPLAY; 326 1.1 leo } 327 1.1 leo dm->current_view = v; 328 1.1 leo v->flags |= VF_DISPLAY; 329 1.9 leo vregs = vm_regs(v->mode); 330 1.1 leo 331 1.1 leo falcon_use_colormap(v, v->colormap); 332 1.1 leo 333 1.9 leo bm = v->bitmap; 334 1.9 leo VIDEO->vd_ramh = ((u_long)bm->hw_address >> 16) & 0xff; 335 1.9 leo VIDEO->vd_ramm = ((u_long)bm->hw_address >> 8) & 0xff; 336 1.9 leo VIDEO->vd_raml = (u_long)bm->hw_address & 0xff; 337 1.9 leo 338 1.9 leo if (last_mode != vregs->video_mode) { 339 1.9 leo last_mode = vregs->video_mode; 340 1.9 leo 341 1.9 leo if (dm->depth == 1) { 342 1.9 leo /* 343 1.9 leo * Set the resolution registers to a mode, which guarantee 344 1.9 leo * no shifting when the register are written during vbl. 345 1.9 leo */ 346 1.9 leo VIDEO->vd_fal_res = 0; 347 1.9 leo VIDEO->vd_st_res = 0; 348 1.9 leo } 349 1.9 leo 350 1.9 leo /* 351 1.9 leo * Arrange for them to be activated 352 1.9 leo * at the second vbl interrupt. 353 1.9 leo */ 354 1.9 leo falcon_needs_vbl = (u_long)v; 355 1.9 leo } 356 1.9 leo } 357 1.9 leo 358 1.9 leo void 359 1.9 leo falcon_display_switch() 360 1.9 leo { 361 1.9 leo view_t *v; 362 1.9 leo struct videl *vregs; 363 1.9 leo static int vbl_count = 1; 364 1.9 leo 365 1.9 leo if(vbl_count--) return; 366 1.9 leo 367 1.9 leo v = (view_t*)falcon_needs_vbl; 368 1.3 leo 369 1.9 leo vbl_count = 1; 370 1.9 leo falcon_needs_vbl = 0; 371 1.3 leo 372 1.3 leo /* 373 1.3 leo * Write to videl registers only on VGA displays 374 1.3 leo * This is only a hack. Must be fixed soon. XXX -- Thomas 375 1.3 leo */ 376 1.3 leo if(mon_type != FAL_VGA) return; 377 1.2 leo 378 1.9 leo vregs = vm_regs(v->mode); 379 1.9 leo 380 1.9 leo VIDEO->vd_v_freq_tim = vregs->vd_v_freq_tim; 381 1.9 leo VIDEO->vd_v_ss = vregs->vd_v_ss; 382 1.9 leo VIDEO->vd_v_bord_beg = vregs->vd_v_bord_beg; 383 1.9 leo VIDEO->vd_v_bord_end = vregs->vd_v_bord_end; 384 1.9 leo VIDEO->vd_v_dis_beg = vregs->vd_v_dis_beg; 385 1.9 leo VIDEO->vd_v_dis_end = vregs->vd_v_dis_end; 386 1.9 leo VIDEO->vd_h_hold_tim = vregs->vd_h_hold_tim; 387 1.9 leo VIDEO->vd_h_ss = vregs->vd_h_ss; 388 1.9 leo VIDEO->vd_h_bord_beg = vregs->vd_h_bord_beg; 389 1.9 leo VIDEO->vd_h_bord_end = vregs->vd_h_bord_end; 390 1.9 leo VIDEO->vd_h_dis_beg = vregs->vd_h_dis_beg; 391 1.9 leo VIDEO->vd_h_dis_end = vregs->vd_h_dis_end; 392 1.2 leo #if 0 /* This seems not to be necessary -- Thomas */ 393 1.2 leo VIDEO->vd_h_fs = vregs->vd_h_fs; 394 1.2 leo VIDEO->vd_h_hh = vregs->vd_h_hh; 395 1.2 leo #endif 396 1.2 leo VIDEO->vd_sync = vregs->vd_syncmode; 397 1.2 leo VIDEO->vd_fal_res = 0; 398 1.9 leo if (v->mode->depth == 2) 399 1.2 leo VIDEO->vd_st_res = vregs->vd_st_res; 400 1.2 leo else { 401 1.2 leo VIDEO->vd_st_res = 0; 402 1.2 leo VIDEO->vd_fal_res = vregs->vd_fal_res; 403 1.2 leo } 404 1.2 leo VIDEO->vd_vert_wrap = vregs->vd_vert_wrap; 405 1.2 leo VIDEO->vd_line_wide = vregs->vd_line_wide; 406 1.2 leo VIDEO->vd_fal_ctrl = vregs->vd_fal_ctrl; 407 1.2 leo VIDEO->vd_fal_mode = vregs->vd_fal_mode; 408 1.1 leo } 409 1.1 leo 410 1.1 leo static void 411 1.1 leo falcon_remove_view(v) 412 1.1 leo view_t *v; 413 1.1 leo { 414 1.1 leo dmode_t *mode = v->mode; 415 1.1 leo 416 1.1 leo if (mode->current_view == v) { 417 1.1 leo #if 0 418 1.1 leo if (v->flags & VF_DISPLAY) 419 1.15 provos panic("Cannot shutdown display"); /* XXX */ 420 1.1 leo #endif 421 1.1 leo mode->current_view = NULL; 422 1.1 leo } 423 1.1 leo v->flags &= ~VF_DISPLAY; 424 1.1 leo } 425 1.1 leo 426 1.7 leo void 427 1.7 leo falcon_save_view(v) 428 1.7 leo view_t *v; 429 1.7 leo { 430 1.7 leo } 431 1.7 leo 432 1.1 leo static void 433 1.1 leo falcon_free_view(v) 434 1.1 leo view_t *v; 435 1.1 leo { 436 1.1 leo if (v) { 437 1.1 leo falcon_remove_view(v); 438 1.1 leo if (v->colormap != &gra_con_cmap) 439 1.1 leo free(v->colormap, M_DEVBUF); 440 1.1 leo free_bitmap(v->bitmap); 441 1.1 leo if (v != &gra_con_view) 442 1.1 leo free(v, M_DEVBUF); 443 1.1 leo } 444 1.1 leo } 445 1.1 leo 446 1.1 leo static int 447 1.1 leo falcon_use_colormap(v, cm) 448 1.1 leo view_t *v; 449 1.1 leo colormap_t *cm; 450 1.1 leo { 451 1.1 leo dmode_t *dm; 452 1.1 leo volatile u_short *creg; 453 1.1 leo volatile u_long *fcreg; 454 1.1 leo u_long *src; 455 1.1 leo colormap_t *vcm; 456 1.1 leo u_long *vcreg; 457 1.1 leo u_short ncreg; 458 1.11 leo int last_streg; 459 1.1 leo int i; 460 1.1 leo 461 1.1 leo dm = v->mode; 462 1.1 leo vcm = v->colormap; 463 1.1 leo 464 1.1 leo /* 465 1.1 leo * I guess it seems reasonable to require the maps to be 466 1.1 leo * of the same type... 467 1.1 leo */ 468 1.1 leo if (cm->type != vcm->type) 469 1.1 leo return (EINVAL); 470 1.1 leo 471 1.1 leo /* 472 1.1 leo * First get the colormap addresses an calculate 473 1.1 leo * howmany colors are in it. 474 1.1 leo */ 475 1.1 leo if (dm->depth == 16) /* direct color, no colormap; 476 1.1 leo but also not (yet) supported */ 477 1.1 leo return(0); 478 1.1 leo fcreg = &VIDEO->vd_fal_rgb[0]; 479 1.1 leo creg = &VIDEO->vd_st_rgb[0]; 480 1.1 leo ncreg = 1 << dm->depth; 481 1.1 leo 482 1.1 leo /* If first entry specified beyond capabilities -> error */ 483 1.1 leo if (cm->first >= ncreg) 484 1.1 leo return (EINVAL); 485 1.1 leo 486 1.1 leo /* 487 1.1 leo * A little tricky, the actual colormap pointer will be NULL 488 1.1 leo * when view is not displaying, valid otherwise. 489 1.1 leo */ 490 1.11 leo if (v->flags & VF_DISPLAY) { 491 1.1 leo creg = &creg[cm->first]; 492 1.11 leo fcreg = &fcreg[cm->first]; 493 1.11 leo } else { 494 1.11 leo creg = NULL; 495 1.11 leo fcreg = NULL; 496 1.11 leo } 497 1.1 leo 498 1.1 leo vcreg = &vcm->entry[cm->first]; 499 1.1 leo ncreg -= cm->first; 500 1.11 leo last_streg = 16 - cm->first; 501 1.1 leo if (cm->size > ncreg) 502 1.1 leo return (EINVAL); 503 1.1 leo ncreg = cm->size; 504 1.1 leo 505 1.1 leo for (i = 0, src = cm->entry; i < ncreg; i++, vcreg++) { 506 1.1 leo *vcreg = *src++; 507 1.1 leo 508 1.1 leo /* 509 1.1 leo * If displaying, also update actual color register. 510 1.1 leo */ 511 1.11 leo if (fcreg != NULL) { 512 1.1 leo *fcreg++ = CM_L2FAL(*vcreg); 513 1.11 leo if (i < last_streg) 514 1.1 leo *creg++ = CM_L2ST(*vcreg); 515 1.1 leo } 516 1.1 leo } 517 1.1 leo return (0); 518 1.1 leo } 519 1.1 leo 520 1.1 leo static view_t * 521 1.1 leo falcon_alloc_view(mode, dim, depth) 522 1.1 leo dmode_t *mode; 523 1.1 leo dimen_t *dim; 524 1.1 leo u_char depth; 525 1.1 leo { 526 1.1 leo view_t *v; 527 1.1 leo bmap_t *bm; 528 1.1 leo 529 1.1 leo if (!atari_realconfig) 530 1.1 leo v = &gra_con_view; 531 1.1 leo else v = malloc(sizeof(*v), M_DEVBUF, M_NOWAIT); 532 1.1 leo if (v == NULL) 533 1.1 leo return(NULL); 534 1.1 leo 535 1.1 leo bm = alloc_bitmap(mode->size.width, mode->size.height, mode->depth); 536 1.1 leo if (bm) { 537 1.1 leo box_t box; 538 1.1 leo 539 1.1 leo v->colormap = alloc_colormap(mode); 540 1.1 leo if (v->colormap) { 541 1.1 leo INIT_BOX(&box,0,0,mode->size.width,mode->size.height); 542 1.1 leo init_view(v, bm, mode, &box); 543 1.1 leo return(v); 544 1.1 leo } 545 1.1 leo free_bitmap(bm); 546 1.1 leo } 547 1.1 leo if (v != &gra_con_view) 548 1.1 leo free(v, M_DEVBUF); 549 1.1 leo return (NULL); 550 1.1 leo } 551 1.1 leo 552 1.1 leo static void 553 1.1 leo init_view(v, bm, mode, dbox) 554 1.1 leo view_t *v; 555 1.1 leo bmap_t *bm; 556 1.1 leo dmode_t *mode; 557 1.1 leo box_t *dbox; 558 1.1 leo { 559 1.1 leo v->bitmap = bm; 560 1.1 leo v->mode = mode; 561 1.1 leo v->flags = 0; 562 1.1 leo bcopy(dbox, &v->display, sizeof(box_t)); 563 1.1 leo } 564 1.1 leo 565 1.1 leo /* bitmap functions */ 566 1.1 leo 567 1.1 leo static bmap_t * 568 1.1 leo alloc_bitmap(width, height, depth) 569 1.1 leo u_long width, height; 570 1.1 leo u_char depth; 571 1.1 leo { 572 1.1 leo u_long total_size, bm_size; 573 1.1 leo void *hw_address; 574 1.1 leo bmap_t *bm; 575 1.1 leo 576 1.1 leo /* 577 1.1 leo * Sigh, it seems for mapping to work we need the bitplane data to 578 1.1 leo * 1: be aligned on a page boundry. 579 1.1 leo * 2: be n pages large. 580 1.1 leo * 581 1.1 leo * why? because the user gets a page aligned address, if this is before 582 1.1 leo * your allocation, too bad. Also it seems that the mapping routines 583 1.1 leo * do not watch to closely to the allowable length. so if you go over 584 1.1 leo * n pages by less than another page, the user gets to write all over 585 1.1 leo * the entire page. Since you did not allocate up to a page boundry 586 1.1 leo * (or more) the user writes into someone elses memory. -ch 587 1.1 leo */ 588 1.10 veego bm_size = m68k_round_page((width * height * depth) / NBBY); 589 1.16 thorpej total_size = bm_size + sizeof(bmap_t) + PAGE_SIZE; 590 1.1 leo 591 1.1 leo if ((bm = (bmap_t*)alloc_stmem(total_size, &hw_address)) == NULL) 592 1.1 leo return(NULL); 593 1.1 leo 594 1.1 leo bm->plane = (u_char*)bm + sizeof(bmap_t); 595 1.10 veego bm->plane = (u_char*)m68k_round_page(bm->plane); 596 1.1 leo bm->hw_address = (u_char*)hw_address + sizeof(bmap_t); 597 1.10 veego bm->hw_address = (u_char*)m68k_round_page(bm->hw_address); 598 1.1 leo bm->bytes_per_row = (width * depth) / NBBY; 599 1.1 leo bm->rows = height; 600 1.1 leo bm->depth = depth; 601 1.8 leo bm->phys_mappable = (depth * width * height) / NBBY; 602 1.12 thomas bm->regs = NULL; 603 1.12 thomas bm->hw_regs = NULL; 604 1.12 thomas bm->reg_size = 0; 605 1.12 thomas bm->vga_address = NULL; 606 1.12 thomas bm->vga_mappable = 0; 607 1.12 thomas bm->lin_base = 0; 608 1.12 thomas bm->vga_base = 0; 609 1.1 leo 610 1.1 leo bzero(bm->plane, bm_size); 611 1.1 leo return (bm); 612 1.1 leo } 613 1.1 leo 614 1.1 leo static void 615 1.1 leo free_bitmap(bm) 616 1.1 leo bmap_t *bm; 617 1.1 leo { 618 1.1 leo if (bm) 619 1.1 leo free_stmem(bm); 620 1.1 leo } 621 1.1 leo 622 1.1 leo static colormap_t * 623 1.1 leo alloc_colormap(dm) 624 1.1 leo dmode_t *dm; 625 1.1 leo { 626 1.1 leo int nentries, i; 627 1.1 leo colormap_t *cm; 628 1.1 leo u_char type = CM_COLOR; 629 1.1 leo 630 1.1 leo if (dm->depth == 16) /* direct color, no colormap; 631 1.1 leo not (yet) supported */ 632 1.1 leo nentries = 0; 633 1.1 leo else 634 1.1 leo nentries = 1 << dm->depth; 635 1.1 leo 636 1.1 leo if (!atari_realconfig) { 637 1.1 leo cm = &gra_con_cmap; 638 1.1 leo cm->entry = gra_con_colors; 639 1.1 leo } 640 1.1 leo else { 641 1.1 leo int size; 642 1.1 leo 643 1.1 leo size = sizeof(*cm) + (nentries * sizeof(cm->entry[0])); 644 1.1 leo cm = malloc(size, M_DEVBUF, M_NOWAIT); 645 1.1 leo if (cm == NULL) 646 1.1 leo return(NULL); 647 1.1 leo cm->entry = (long *)&cm[1]; 648 1.1 leo 649 1.1 leo } 650 1.1 leo 651 1.1 leo if ((cm->type = type) == CM_COLOR) 652 1.1 leo cm->red_mask = cm->green_mask = cm->blue_mask = 0x3f; 653 1.1 leo 654 1.1 leo cm->first = 0; 655 1.1 leo cm->size = nentries; 656 1.1 leo 657 1.1 leo for (i = 0; i < nentries; i++) 658 1.1 leo cm->entry[i] = gra_def_color16[i % 16]; 659 1.1 leo return (cm); 660 1.1 leo } 661 1.1 leo #endif /* FALCON_VIDEO */ 662
Indexes created Wed Oct 01 07:09:59 GMT 2025