view.c revision 1.33
1 1.33 dholland /* $NetBSD: view.c,v 1.33 2014/03/16 05:20:23 dholland Exp $ */ 2 1.1 leo 3 1.1 leo /* 4 1.1 leo * Copyright (c) 1994 Christian E. Hopps 5 1.1 leo * All rights reserved. 6 1.1 leo * 7 1.1 leo * Redistribution and use in source and binary forms, with or without 8 1.1 leo * modification, are permitted provided that the following conditions 9 1.1 leo * are met: 10 1.1 leo * 1. Redistributions of source code must retain the above copyright 11 1.1 leo * notice, this list of conditions and the following disclaimer. 12 1.1 leo * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 leo * notice, this list of conditions and the following disclaimer in the 14 1.1 leo * documentation and/or other materials provided with the distribution. 15 1.1 leo * 3. All advertising materials mentioning features or use of this software 16 1.1 leo * must display the following acknowledgement: 17 1.1 leo * This product includes software developed by Christian E. Hopps. 18 1.1 leo * 4. The name of the author may not be used to endorse or promote products 19 1.1 leo * derived from this software without specific prior written permission 20 1.1 leo * 21 1.1 leo * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 22 1.1 leo * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 23 1.1 leo * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 24 1.1 leo * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 25 1.1 leo * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 26 1.1 leo * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 27 1.1 leo * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 28 1.1 leo * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 29 1.1 leo * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 30 1.1 leo * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 31 1.1 leo */ 32 1.1 leo 33 1.1 leo /* The view major device is a placeholder device. It serves 34 1.1 leo * simply to map the semantics of a graphics dipslay to 35 1.1 leo * the semantics of a character block device. In other 36 1.1 leo * words the graphics system as currently built does not like to be 37 1.1 leo * refered to by open/close/ioctl. This device serves as 38 1.1 leo * a interface to graphics. */ 39 1.22 lukem 40 1.22 lukem #include <sys/cdefs.h> 41 1.33 dholland __KERNEL_RCSID(0, "$NetBSD: view.c,v 1.33 2014/03/16 05:20:23 dholland Exp $"); 42 1.1 leo 43 1.1 leo #include <sys/param.h> 44 1.7 leo #include <sys/systm.h> 45 1.1 leo #include <sys/proc.h> 46 1.1 leo #include <sys/ioctl.h> 47 1.1 leo #include <sys/file.h> 48 1.1 leo #include <sys/device.h> 49 1.1 leo #include <sys/malloc.h> 50 1.1 leo #include <sys/queue.h> 51 1.8 leo #include <sys/conf.h> 52 1.1 leo #include <machine/cpu.h> 53 1.1 leo #include <atari/dev/grfabs_reg.h> 54 1.1 leo #include <atari/dev/viewioctl.h> 55 1.1 leo #include <atari/dev/viewvar.h> 56 1.1 leo #include "view.h" 57 1.1 leo 58 1.26 dsl static void view_display(struct view_softc *); 59 1.26 dsl static void view_remove(struct view_softc *); 60 1.26 dsl static int view_setsize(struct view_softc *, struct view_size *); 61 1.26 dsl static int view_get_colormap(struct view_softc *, colormap_t *); 62 1.26 dsl static int view_set_colormap(struct view_softc *, colormap_t *); 63 1.1 leo 64 1.1 leo struct view_softc views[NVIEW]; 65 1.1 leo static int view_inited; 66 1.1 leo 67 1.1 leo int view_default_x; 68 1.1 leo int view_default_y; 69 1.1 leo int view_default_width = 640; 70 1.1 leo int view_default_height = 400; 71 1.1 leo int view_default_depth = 1; 72 1.19 gehenna 73 1.19 gehenna dev_type_open(viewopen); 74 1.19 gehenna dev_type_close(viewclose); 75 1.19 gehenna dev_type_ioctl(viewioctl); 76 1.19 gehenna dev_type_mmap(viewmmap); 77 1.19 gehenna 78 1.19 gehenna const struct cdevsw view_cdevsw = { 79 1.33 dholland .d_open = viewopen, 80 1.33 dholland .d_close = viewclose, 81 1.33 dholland .d_read = nullread, 82 1.33 dholland .d_write = nullwrite, 83 1.33 dholland .d_ioctl = viewioctl, 84 1.33 dholland .d_stop = nostop, 85 1.33 dholland .d_tty = notty, 86 1.33 dholland .d_poll = nopoll, 87 1.33 dholland .d_mmap = viewmmap, 88 1.33 dholland .d_kqfilter = nokqfilter, 89 1.33 dholland .d_flag = 0 90 1.19 gehenna }; 91 1.1 leo 92 1.1 leo /* 93 1.1 leo * functions for probeing. 94 1.1 leo */ 95 1.26 dsl void viewattach(int); 96 1.8 leo 97 1.7 leo void 98 1.27 dsl viewattach(int cnt) 99 1.1 leo { 100 1.1 leo viewprobe(); 101 1.13 christos printf("%d view%s configured\n", NVIEW, NVIEW > 1 ? "s" : ""); 102 1.1 leo } 103 1.1 leo 104 1.1 leo /* this function is called early to set up a display. */ 105 1.7 leo int 106 1.29 cegger viewprobe(void) 107 1.1 leo { 108 1.1 leo int i; 109 1.1 leo 110 1.32 tsutsui if (view_inited) 111 1.32 tsutsui return 1; 112 1.1 leo 113 1.1 leo view_inited = 1; 114 1.1 leo 115 1.32 tsutsui for (i = 0; i < NVIEW; i++) { 116 1.1 leo views[i].view = NULL; 117 1.1 leo views[i].flags = 0; 118 1.1 leo } 119 1.32 tsutsui return 1; 120 1.1 leo } 121 1.1 leo 122 1.1 leo 123 1.1 leo /* 124 1.1 leo * Internal functions. 125 1.1 leo */ 126 1.1 leo 127 1.1 leo static void 128 1.28 dsl view_display (struct view_softc *vu) 129 1.1 leo { 130 1.1 leo int s, i; 131 1.1 leo 132 1.1 leo if (vu == NULL) 133 1.1 leo return; 134 1.1 leo 135 1.9 leo s = spltty(); 136 1.1 leo 137 1.1 leo /* 138 1.1 leo * mark views that share this monitor as not displaying 139 1.1 leo */ 140 1.9 leo for (i = 0; i < NVIEW; i++) { 141 1.32 tsutsui if (views[i].flags & VUF_DISPLAY) { 142 1.9 leo if (vu->view && (vu->view == views[i].view)) { 143 1.9 leo splx(s); 144 1.9 leo return; 145 1.9 leo } 146 1.11 leo if (views[i].view) { 147 1.11 leo grf_save_view(views[i].view); 148 1.11 leo views[i].view->flags &= ~VF_DISPLAY; 149 1.11 leo } 150 1.1 leo views[i].flags &= ~VUF_DISPLAY; 151 1.9 leo } 152 1.1 leo } 153 1.1 leo 154 1.1 leo vu->flags |= VUF_ADDED; 155 1.1 leo if (vu->view) { 156 1.1 leo vu->view->display.x = vu->size.x; 157 1.1 leo vu->view->display.y = vu->size.y; 158 1.1 leo 159 1.1 leo grf_display_view(vu->view); 160 1.11 leo vu->view->flags |= VF_DISPLAY; 161 1.1 leo 162 1.1 leo vu->size.x = vu->view->display.x; 163 1.1 leo vu->size.y = vu->view->display.y; 164 1.1 leo vu->flags |= VUF_DISPLAY; 165 1.1 leo } 166 1.1 leo splx(s); 167 1.1 leo } 168 1.1 leo 169 1.1 leo /* 170 1.1 leo * remove a view from our added list if it is marked as displaying 171 1.1 leo * switch to a new display. 172 1.1 leo */ 173 1.1 leo static void 174 1.27 dsl view_remove(struct view_softc *vu) 175 1.1 leo { 176 1.1 leo int i; 177 1.1 leo 178 1.1 leo if ((vu->flags & VUF_ADDED) == 0) 179 1.1 leo return; 180 1.1 leo 181 1.1 leo vu->flags &= ~VUF_ADDED; 182 1.1 leo if (vu->flags & VUF_DISPLAY) { 183 1.1 leo for (i = 0; i < NVIEW; i++) { 184 1.32 tsutsui if ((views[i].flags & VUF_ADDED) && &views[i] != vu) { 185 1.1 leo view_display(&views[i]); 186 1.1 leo break; 187 1.1 leo } 188 1.1 leo } 189 1.1 leo } 190 1.1 leo vu->flags &= ~VUF_DISPLAY; 191 1.1 leo grf_remove_view(vu->view); 192 1.1 leo } 193 1.1 leo 194 1.1 leo static int 195 1.27 dsl view_setsize(struct view_softc *vu, struct view_size *vs) 196 1.1 leo { 197 1.4 leo view_t *new, *old; 198 1.4 leo dmode_t *dmode; 199 1.1 leo dimen_t ns; 200 1.4 leo int co, cs; 201 1.1 leo 202 1.1 leo co = 0; 203 1.1 leo cs = 0; 204 1.1 leo if (vs->x != vu->size.x || vs->y != vu->size.y) 205 1.1 leo co = 1; 206 1.1 leo 207 1.1 leo if (vs->width != vu->size.width || vs->height != vu->size.height || 208 1.1 leo vs->depth != vu->size.depth) 209 1.1 leo cs = 1; 210 1.1 leo 211 1.1 leo if (cs == 0 && co == 0) 212 1.32 tsutsui return 0; 213 1.1 leo 214 1.1 leo ns.width = vs->width; 215 1.1 leo ns.height = vs->height; 216 1.1 leo 217 1.32 tsutsui if ((dmode = grf_get_best_mode(&ns, vs->depth)) != NULL) { 218 1.4 leo /* 219 1.4 leo * If we can't do better, leave it 220 1.4 leo */ 221 1.32 tsutsui if (dmode == vu->view->mode) 222 1.32 tsutsui return 0; 223 1.4 leo } 224 1.4 leo new = grf_alloc_view(dmode, &ns, vs->depth); 225 1.1 leo if (new == NULL) 226 1.32 tsutsui return ENOMEM; 227 1.1 leo 228 1.1 leo old = vu->view; 229 1.1 leo vu->view = new; 230 1.1 leo vu->size.x = new->display.x; 231 1.1 leo vu->size.y = new->display.y; 232 1.1 leo vu->size.width = new->display.width; 233 1.1 leo vu->size.height = new->display.height; 234 1.1 leo vu->size.depth = new->bitmap->depth; 235 1.1 leo 236 1.1 leo /* 237 1.1 leo * we need a custom remove here to avoid letting 238 1.1 leo * another view display mark as not added or displayed 239 1.1 leo */ 240 1.1 leo if (vu->flags & VUF_DISPLAY) { 241 1.1 leo vu->flags &= ~(VUF_ADDED|VUF_DISPLAY); 242 1.1 leo view_display(vu); 243 1.1 leo } 244 1.1 leo grf_free_view(old); 245 1.32 tsutsui return 0; 246 1.1 leo } 247 1.1 leo 248 1.2 leo static int 249 1.28 dsl view_get_colormap (struct view_softc *vu, colormap_t *ucm) 250 1.2 leo { 251 1.2 leo int error; 252 1.2 leo long *cme; 253 1.2 leo long *uep; 254 1.2 leo 255 1.32 tsutsui if (ucm->size > MAX_CENTRIES) 256 1.32 tsutsui return EINVAL; 257 1.2 leo 258 1.2 leo /* add one incase of zero, ick. */ 259 1.25 cube cme = malloc(sizeof(ucm->entry[0])*(ucm->size+1), M_TEMP,M_WAITOK); 260 1.2 leo if (cme == NULL) 261 1.32 tsutsui return ENOMEM; 262 1.2 leo 263 1.2 leo error = 0; 264 1.2 leo uep = ucm->entry; 265 1.2 leo ucm->entry = cme; /* set entry to out alloc. */ 266 1.32 tsutsui if (vu->view == NULL || grf_get_colormap(vu->view, ucm)) 267 1.2 leo error = EINVAL; 268 1.32 tsutsui else 269 1.32 tsutsui error = copyout(cme, uep, sizeof(ucm->entry[0]) * ucm->size); 270 1.2 leo ucm->entry = uep; /* set entry back to users. */ 271 1.25 cube free(cme, M_TEMP); 272 1.32 tsutsui return error; 273 1.2 leo } 274 1.2 leo 275 1.2 leo static int 276 1.27 dsl view_set_colormap(struct view_softc *vu, colormap_t *ucm) 277 1.2 leo { 278 1.2 leo colormap_t *cm; 279 1.2 leo int error = 0; 280 1.2 leo 281 1.32 tsutsui if (ucm->size > MAX_CENTRIES) 282 1.32 tsutsui return EINVAL; 283 1.2 leo 284 1.32 tsutsui cm = malloc(sizeof(ucm->entry[0])*ucm->size + sizeof(*cm), 285 1.32 tsutsui M_TEMP, M_WAITOK); 286 1.32 tsutsui if (cm == NULL) 287 1.32 tsutsui return ENOMEM; 288 1.2 leo 289 1.31 tsutsui memcpy(cm, ucm, sizeof(colormap_t)); 290 1.2 leo cm->entry = (long *)&cm[1]; /* table directly after. */ 291 1.2 leo if (((error = 292 1.2 leo copyin(ucm->entry,cm->entry,sizeof(ucm->entry[0])*ucm->size)) == 0) 293 1.2 leo && (vu->view == NULL || grf_use_colormap(vu->view, cm))) 294 1.2 leo error = EINVAL; 295 1.25 cube free(cm, M_TEMP); 296 1.32 tsutsui return error; 297 1.2 leo } 298 1.2 leo 299 1.1 leo /* 300 1.1 leo * functions made available by conf.c 301 1.1 leo */ 302 1.1 leo 303 1.1 leo /*ARGSUSED*/ 304 1.8 leo int 305 1.27 dsl viewopen(dev_t dev, int flags, int mode, struct lwp *l) 306 1.1 leo { 307 1.1 leo dimen_t size; 308 1.1 leo struct view_softc *vu; 309 1.1 leo 310 1.1 leo vu = &views[minor(dev)]; 311 1.1 leo 312 1.32 tsutsui if (minor(dev) >= NVIEW) 313 1.32 tsutsui return EXDEV; 314 1.32 tsutsui if (vu->flags & VUF_OPEN) 315 1.32 tsutsui return EBUSY; 316 1.1 leo 317 1.1 leo vu->size.x = view_default_x; 318 1.1 leo vu->size.y = view_default_y; 319 1.1 leo size.width = vu->size.width = view_default_width; 320 1.1 leo size.height = vu->size.height = view_default_height; 321 1.1 leo vu->size.depth = view_default_depth; 322 1.1 leo vu->view = grf_alloc_view(NULL, &size, vu->size.depth); 323 1.1 leo if (vu->view == NULL) 324 1.32 tsutsui return ENOMEM; 325 1.1 leo 326 1.1 leo vu->size.x = vu->view->display.x; 327 1.1 leo vu->size.y = vu->view->display.y; 328 1.1 leo vu->size.width = vu->view->display.width; 329 1.1 leo vu->size.height = vu->view->display.height; 330 1.1 leo vu->size.depth = vu->view->bitmap->depth; 331 1.1 leo vu->flags |= VUF_OPEN; 332 1.32 tsutsui return 0; 333 1.1 leo } 334 1.1 leo 335 1.1 leo /*ARGSUSED*/ 336 1.8 leo int 337 1.28 dsl viewclose (dev_t dev, int flags, int mode, struct lwp *l) 338 1.1 leo { 339 1.1 leo struct view_softc *vu; 340 1.1 leo 341 1.1 leo vu = &views[minor(dev)]; 342 1.1 leo 343 1.1 leo if ((vu->flags & VUF_OPEN) == 0) 344 1.32 tsutsui return 0; /* XXX not open? */ 345 1.1 leo view_remove (vu); 346 1.1 leo grf_free_view (vu->view); 347 1.1 leo vu->flags = 0; 348 1.1 leo vu->view = NULL; 349 1.32 tsutsui return 0; 350 1.1 leo } 351 1.1 leo 352 1.1 leo 353 1.1 leo /*ARGSUSED*/ 354 1.1 leo int 355 1.28 dsl viewioctl (dev_t dev, u_long cmd, void * data, int flag, struct lwp *l) 356 1.1 leo { 357 1.1 leo struct view_softc *vu; 358 1.1 leo bmap_t *bm; 359 1.1 leo int error; 360 1.1 leo 361 1.1 leo vu = &views[minor(dev)]; 362 1.1 leo error = 0; 363 1.1 leo 364 1.1 leo switch (cmd) { 365 1.1 leo case VIOCDISPLAY: 366 1.1 leo view_display(vu); 367 1.1 leo break; 368 1.1 leo case VIOCREMOVE: 369 1.1 leo view_remove(vu); 370 1.1 leo break; 371 1.1 leo case VIOCGSIZE: 372 1.31 tsutsui memcpy(data, &vu->size, sizeof (struct view_size)); 373 1.1 leo break; 374 1.1 leo case VIOCSSIZE: 375 1.1 leo error = view_setsize(vu, (struct view_size *)data); 376 1.1 leo break; 377 1.1 leo case VIOCGBMAP: 378 1.1 leo bm = (bmap_t *)data; 379 1.31 tsutsui memcpy(bm, vu->view->bitmap, sizeof(bmap_t)); 380 1.23 christos if (l != NOLWP) { 381 1.1 leo bm->plane = NULL; 382 1.1 leo bm->hw_address = NULL; 383 1.9 leo bm->regs = NULL; 384 1.9 leo bm->hw_regs = NULL; 385 1.1 leo } 386 1.1 leo break; 387 1.1 leo case VIOCGCMAP: 388 1.1 leo error = view_get_colormap(vu, (colormap_t *)data); 389 1.1 leo break; 390 1.1 leo case VIOCSCMAP: 391 1.1 leo error = view_set_colormap(vu, (colormap_t *)data); 392 1.1 leo break; 393 1.1 leo default: 394 1.18 atatat error = EPASSTHROUGH; 395 1.1 leo break; 396 1.1 leo } 397 1.32 tsutsui return error; 398 1.1 leo } 399 1.1 leo 400 1.1 leo /*ARGSUSED*/ 401 1.17 simonb paddr_t 402 1.27 dsl viewmmap(dev_t dev, off_t off, int prot) 403 1.1 leo { 404 1.1 leo struct view_softc *vu; 405 1.1 leo bmap_t *bm; 406 1.1 leo u_char *bmd_start; 407 1.16 thomas u_long bmd_lin, bmd_vga; 408 1.1 leo 409 1.1 leo vu = &views[minor(dev)]; 410 1.1 leo bm = vu->view->bitmap; 411 1.1 leo bmd_start = bm->hw_address; 412 1.16 thomas bmd_lin = bm->lin_base; 413 1.16 thomas bmd_vga = bm->vga_base; 414 1.14 leo 415 1.14 leo /* 416 1.14 leo * control registers 417 1.14 leo */ 418 1.14 leo if (off >= 0 && off < bm->reg_size) 419 1.32 tsutsui return ((paddr_t)bm->hw_regs + off) >> PGSHIFT; 420 1.1 leo 421 1.16 thomas /* 422 1.16 thomas * VGA memory 423 1.16 thomas */ 424 1.16 thomas if (off >= bmd_vga && off < (bmd_vga + bm->vga_mappable)) 425 1.32 tsutsui return ((paddr_t)bm->vga_address - bmd_vga + off) >> PGSHIFT; 426 1.16 thomas 427 1.16 thomas /* 428 1.16 thomas * frame buffer 429 1.16 thomas */ 430 1.16 thomas if (off >= bmd_lin && off < (bmd_lin + bm->phys_mappable)) 431 1.32 tsutsui return ((paddr_t)bmd_start - bmd_lin + off) >> PGSHIFT; 432 1.1 leo 433 1.32 tsutsui return -1; 434 1.5 leo } 435 1.5 leo 436 1.5 leo view_t * 437 1.27 dsl viewview(dev_t dev) 438 1.5 leo { 439 1.32 tsutsui 440 1.32 tsutsui return views[minor(dev)].view; 441 1.1 leo } 442
Indexes created Wed Sep 24 05:09:52 GMT 2025