1 /* 2 * SGI FREE SOFTWARE LICENSE B (Version 2.0, Sept. 18, 2008) 3 * Copyright (C) 1991-2000 Silicon Graphics, Inc. All Rights Reserved. 4 * 5 * Permission is hereby granted, free of charge, to any person obtaining a 6 * copy of this software and associated documentation files (the "Software"), 7 * to deal in the Software without restriction, including without limitation 8 * the rights to use, copy, modify, merge, publish, distribute, sublicense, 9 * and/or sell copies of the Software, and to permit persons to whom the 10 * Software is furnished to do so, subject to the following conditions: 11 * 12 * The above copyright notice including the dates of first publication and 13 * either this permission notice or a reference to 14 * http://oss.sgi.com/projects/FreeB/ 15 * shall be included in all copies or substantial portions of the Software. 16 * 17 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS 18 * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 19 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL 20 * SILICON GRAPHICS, INC. BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, 21 * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF 22 * OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE 23 * SOFTWARE. 24 * 25 * Except as contained in this notice, the name of Silicon Graphics, Inc. 26 * shall not be used in advertising or otherwise to promote the sale, use or 27 * other dealings in this Software without prior written authorization from 28 * Silicon Graphics, Inc. 29 */ 30 31 /** 32 * \file glxcmds.c 33 * Client-side GLX interface. 34 */ 35 36 #include "glxclient.h" 37 #include "glapi.h" 38 #include "glxextensions.h" 39 #include "indirect.h" 40 #include "glx_error.h" 41 42 #ifdef GLX_DIRECT_RENDERING 43 #ifdef GLX_USE_APPLEGL 44 #include "apple_glx_context.h" 45 #include "apple_glx.h" 46 #else 47 #include <sys/time.h> 48 #ifdef XF86VIDMODE 49 #include <X11/extensions/xf86vmode.h> 50 #endif 51 #include "xf86dri.h" 52 #endif 53 #else 54 #endif 55 56 #if defined(USE_XCB) 57 #include <X11/Xlib-xcb.h> 58 #include <xcb/xcb.h> 59 #include <xcb/glx.h> 60 #endif 61 62 static const char __glXGLXClientVendorName[] = "Mesa Project and SGI"; 63 static const char __glXGLXClientVersion[] = "1.4"; 64 65 #if defined(GLX_DIRECT_RENDERING) && !defined(GLX_USE_APPLEGL) 66 67 /** 68 * Get the __DRIdrawable for the drawable associated with a GLXContext 69 * 70 * \param dpy The display associated with \c drawable. 71 * \param drawable GLXDrawable whose __DRIdrawable part is to be retrieved. 72 * \param scrn_num If non-NULL, the drawables screen is stored there 73 * \returns A pointer to the context's __DRIdrawable on success, or NULL if 74 * the drawable is not associated with a direct-rendering context. 75 */ 76 _X_HIDDEN __GLXDRIdrawable * 77 GetGLXDRIDrawable(Display * dpy, GLXDrawable drawable) 78 { 79 struct glx_display *priv = __glXInitialize(dpy); 80 __GLXDRIdrawable *pdraw; 81 82 if (priv == NULL) 83 return NULL; 84 85 if (__glxHashLookup(priv->drawHash, drawable, (void *) &pdraw) == 0) 86 return pdraw; 87 88 return NULL; 89 } 90 91 #endif 92 93 _X_HIDDEN struct glx_drawable * 94 GetGLXDrawable(Display *dpy, GLXDrawable drawable) 95 { 96 struct glx_display *priv = __glXInitialize(dpy); 97 struct glx_drawable *glxDraw; 98 99 if (priv == NULL) 100 return NULL; 101 102 if (__glxHashLookup(priv->glXDrawHash, drawable, (void *) &glxDraw) == 0) 103 return glxDraw; 104 105 return NULL; 106 } 107 108 _X_HIDDEN int 109 InitGLXDrawable(Display *dpy, struct glx_drawable *glxDraw, XID xDrawable, 110 GLXDrawable drawable) 111 { 112 struct glx_display *priv = __glXInitialize(dpy); 113 114 if (!priv) 115 return -1; 116 117 glxDraw->xDrawable = xDrawable; 118 glxDraw->drawable = drawable; 119 glxDraw->lastEventSbc = 0; 120 glxDraw->eventSbcWrap = 0; 121 122 return __glxHashInsert(priv->glXDrawHash, drawable, glxDraw); 123 } 124 125 _X_HIDDEN void 126 DestroyGLXDrawable(Display *dpy, GLXDrawable drawable) 127 { 128 struct glx_display *priv = __glXInitialize(dpy); 129 struct glx_drawable *glxDraw; 130 131 if (!priv) 132 return; 133 134 glxDraw = GetGLXDrawable(dpy, drawable); 135 __glxHashDelete(priv->glXDrawHash, drawable); 136 free(glxDraw); 137 } 138 139 /** 140 * Get the GLX per-screen data structure associated with a GLX context. 141 * 142 * \param dpy Display for which the GLX per-screen information is to be 143 * retrieved. 144 * \param scrn Screen on \c dpy for which the GLX per-screen information is 145 * to be retrieved. 146 * \returns A pointer to the GLX per-screen data if \c dpy and \c scrn 147 * specify a valid GLX screen, or NULL otherwise. 148 * 149 * \todo Should this function validate that \c scrn is within the screen 150 * number range for \c dpy? 151 */ 152 153 _X_HIDDEN struct glx_screen * 154 GetGLXScreenConfigs(Display * dpy, int scrn) 155 { 156 struct glx_display *const priv = __glXInitialize(dpy); 157 158 return (priv 159 && priv->screens != 160 NULL) ? priv->screens[scrn] : NULL; 161 } 162 163 164 static int 165 GetGLXPrivScreenConfig(Display * dpy, int scrn, struct glx_display ** ppriv, 166 struct glx_screen ** ppsc) 167 { 168 /* Initialize the extension, if needed . This has the added value 169 * of initializing/allocating the display private 170 */ 171 172 if (dpy == NULL) { 173 return GLX_NO_EXTENSION; 174 } 175 176 *ppriv = __glXInitialize(dpy); 177 if (*ppriv == NULL) { 178 return GLX_NO_EXTENSION; 179 } 180 181 /* Check screen number to see if its valid */ 182 if ((scrn < 0) || (scrn >= ScreenCount(dpy))) { 183 return GLX_BAD_SCREEN; 184 } 185 186 /* Check to see if the GL is supported on this screen */ 187 *ppsc = (*ppriv)->screens[scrn]; 188 if ((*ppsc)->configs == NULL) { 189 /* No support for GL on this screen regardless of visual */ 190 return GLX_BAD_VISUAL; 191 } 192 193 return Success; 194 } 195 196 197 /** 198 * Determine if a \c GLXFBConfig supplied by the application is valid. 199 * 200 * \param dpy Application supplied \c Display pointer. 201 * \param config Application supplied \c GLXFBConfig. 202 * 203 * \returns If the \c GLXFBConfig is valid, the a pointer to the matching 204 * \c struct glx_config structure is returned. Otherwise, \c NULL 205 * is returned. 206 */ 207 static struct glx_config * 208 ValidateGLXFBConfig(Display * dpy, GLXFBConfig fbconfig) 209 { 210 struct glx_display *const priv = __glXInitialize(dpy); 211 int num_screens = ScreenCount(dpy); 212 unsigned i; 213 struct glx_config *config; 214 215 if (priv != NULL) { 216 for (i = 0; i < num_screens; i++) { 217 for (config = priv->screens[i]->configs; config != NULL; 218 config = config->next) { 219 if (config == (struct glx_config *) fbconfig) { 220 return config; 221 } 222 } 223 } 224 } 225 226 return NULL; 227 } 228 229 _X_HIDDEN Bool 230 glx_context_init(struct glx_context *gc, 231 struct glx_screen *psc, struct glx_config *config) 232 { 233 gc->majorOpcode = __glXSetupForCommand(psc->display->dpy); 234 if (!gc->majorOpcode) 235 return GL_FALSE; 236 237 gc->screen = psc->scr; 238 gc->psc = psc; 239 gc->config = config; 240 gc->isDirect = GL_TRUE; 241 gc->currentContextTag = -1; 242 243 return GL_TRUE; 244 } 245 246 247 /** 248 * Create a new context. 249 * 250 * \param renderType For FBConfigs, what is the rendering type? 251 */ 252 253 static GLXContext 254 CreateContext(Display *dpy, int generic_id, struct glx_config *config, 255 GLXContext shareList_user, Bool allowDirect, 256 unsigned code, int renderType, int screen) 257 { 258 struct glx_context *gc; 259 struct glx_screen *psc; 260 struct glx_context *shareList = (struct glx_context *) shareList_user; 261 if (dpy == NULL) 262 return NULL; 263 264 psc = GetGLXScreenConfigs(dpy, screen); 265 if (psc == NULL) 266 return NULL; 267 268 if (generic_id == None) 269 return NULL; 270 271 gc = NULL; 272 #ifdef GLX_USE_APPLEGL 273 gc = applegl_create_context(psc, config, shareList, renderType); 274 #else 275 if (allowDirect && psc->vtable->create_context) 276 gc = psc->vtable->create_context(psc, config, shareList, renderType); 277 if (!gc) 278 gc = indirect_create_context(psc, config, shareList, renderType); 279 #endif 280 if (!gc) 281 return NULL; 282 283 LockDisplay(dpy); 284 switch (code) { 285 case X_GLXCreateContext: { 286 xGLXCreateContextReq *req; 287 288 /* Send the glXCreateContext request */ 289 GetReq(GLXCreateContext, req); 290 req->reqType = gc->majorOpcode; 291 req->glxCode = X_GLXCreateContext; 292 req->context = gc->xid = XAllocID(dpy); 293 req->visual = generic_id; 294 req->screen = screen; 295 req->shareList = shareList ? shareList->xid : None; 296 req->isDirect = gc->isDirect; 297 break; 298 } 299 300 case X_GLXCreateNewContext: { 301 xGLXCreateNewContextReq *req; 302 303 /* Send the glXCreateNewContext request */ 304 GetReq(GLXCreateNewContext, req); 305 req->reqType = gc->majorOpcode; 306 req->glxCode = X_GLXCreateNewContext; 307 req->context = gc->xid = XAllocID(dpy); 308 req->fbconfig = generic_id; 309 req->screen = screen; 310 req->renderType = renderType; 311 req->shareList = shareList ? shareList->xid : None; 312 req->isDirect = gc->isDirect; 313 break; 314 } 315 316 case X_GLXvop_CreateContextWithConfigSGIX: { 317 xGLXVendorPrivateWithReplyReq *vpreq; 318 xGLXCreateContextWithConfigSGIXReq *req; 319 320 /* Send the glXCreateNewContext request */ 321 GetReqExtra(GLXVendorPrivateWithReply, 322 sz_xGLXCreateContextWithConfigSGIXReq - 323 sz_xGLXVendorPrivateWithReplyReq, vpreq); 324 req = (xGLXCreateContextWithConfigSGIXReq *) vpreq; 325 req->reqType = gc->majorOpcode; 326 req->glxCode = X_GLXVendorPrivateWithReply; 327 req->vendorCode = X_GLXvop_CreateContextWithConfigSGIX; 328 req->context = gc->xid = XAllocID(dpy); 329 req->fbconfig = generic_id; 330 req->screen = screen; 331 req->renderType = renderType; 332 req->shareList = shareList ? shareList->xid : None; 333 req->isDirect = gc->isDirect; 334 break; 335 } 336 337 default: 338 /* What to do here? This case is the sign of an internal error. It 339 * should never be reachable. 340 */ 341 break; 342 } 343 344 UnlockDisplay(dpy); 345 SyncHandle(); 346 347 gc->share_xid = shareList ? shareList->xid : None; 348 gc->imported = GL_FALSE; 349 gc->renderType = renderType; 350 351 return (GLXContext) gc; 352 } 353 354 _X_EXPORT GLXContext 355 glXCreateContext(Display * dpy, XVisualInfo * vis, 356 GLXContext shareList, Bool allowDirect) 357 { 358 struct glx_config *config = NULL; 359 int renderType = 0; 360 361 #if defined(GLX_DIRECT_RENDERING) || defined(GLX_USE_APPLEGL) 362 struct glx_screen *const psc = GetGLXScreenConfigs(dpy, vis->screen); 363 364 config = glx_config_find_visual(psc->visuals, vis->visualid); 365 if (config == NULL) { 366 xError error; 367 368 error.errorCode = BadValue; 369 error.resourceID = vis->visualid; 370 error.sequenceNumber = dpy->request; 371 error.type = X_Error; 372 error.majorCode = __glXSetupForCommand(dpy); 373 error.minorCode = X_GLXCreateContext; 374 _XError(dpy, &error); 375 return None; 376 } 377 378 renderType = config->rgbMode ? GLX_RGBA_TYPE : GLX_COLOR_INDEX_TYPE; 379 #endif 380 381 return CreateContext(dpy, vis->visualid, config, shareList, allowDirect, 382 X_GLXCreateContext, renderType, vis->screen); 383 } 384 385 static void 386 glx_send_destroy_context(Display *dpy, XID xid) 387 { 388 CARD8 opcode = __glXSetupForCommand(dpy); 389 xGLXDestroyContextReq *req; 390 391 LockDisplay(dpy); 392 GetReq(GLXDestroyContext, req); 393 req->reqType = opcode; 394 req->glxCode = X_GLXDestroyContext; 395 req->context = xid; 396 UnlockDisplay(dpy); 397 SyncHandle(); 398 } 399 400 /* 401 ** Destroy the named context 402 */ 403 404 _X_EXPORT void 405 glXDestroyContext(Display * dpy, GLXContext ctx) 406 { 407 struct glx_context *gc = (struct glx_context *) ctx; 408 409 if (gc == NULL || gc->xid == None) 410 return; 411 412 __glXLock(); 413 if (!gc->imported) 414 glx_send_destroy_context(dpy, gc->xid); 415 416 if (gc->currentDpy) { 417 /* This context is bound to some thread. According to the man page, 418 * we should not actually delete the context until it's unbound. 419 * Note that we set gc->xid = None above. In MakeContextCurrent() 420 * we check for that and delete the context there. 421 */ 422 gc->xid = None; 423 } else { 424 gc->vtable->destroy(gc); 425 } 426 __glXUnlock(); 427 } 428 429 /* 430 ** Return the major and minor version #s for the GLX extension 431 */ 432 _X_EXPORT Bool 433 glXQueryVersion(Display * dpy, int *major, int *minor) 434 { 435 struct glx_display *priv; 436 437 /* Init the extension. This fetches the major and minor version. */ 438 priv = __glXInitialize(dpy); 439 if (!priv) 440 return GL_FALSE; 441 442 if (major) 443 *major = priv->majorVersion; 444 if (minor) 445 *minor = priv->minorVersion; 446 return GL_TRUE; 447 } 448 449 /* 450 ** Query the existance of the GLX extension 451 */ 452 _X_EXPORT Bool 453 glXQueryExtension(Display * dpy, int *errorBase, int *eventBase) 454 { 455 int major_op, erb, evb; 456 Bool rv; 457 458 rv = XQueryExtension(dpy, GLX_EXTENSION_NAME, &major_op, &evb, &erb); 459 if (rv) { 460 if (errorBase) 461 *errorBase = erb; 462 if (eventBase) 463 *eventBase = evb; 464 } 465 return rv; 466 } 467 468 /* 469 ** Put a barrier in the token stream that forces the GL to finish its 470 ** work before X can proceed. 471 */ 472 _X_EXPORT void 473 glXWaitGL(void) 474 { 475 struct glx_context *gc = __glXGetCurrentContext(); 476 477 if (gc && gc->vtable->wait_gl) 478 gc->vtable->wait_gl(gc); 479 } 480 481 /* 482 ** Put a barrier in the token stream that forces X to finish its 483 ** work before GL can proceed. 484 */ 485 _X_EXPORT void 486 glXWaitX(void) 487 { 488 struct glx_context *gc = __glXGetCurrentContext(); 489 490 if (gc && gc->vtable->wait_x) 491 gc->vtable->wait_x(gc); 492 } 493 494 _X_EXPORT void 495 glXUseXFont(Font font, int first, int count, int listBase) 496 { 497 struct glx_context *gc = __glXGetCurrentContext(); 498 499 if (gc && gc->vtable->use_x_font) 500 gc->vtable->use_x_font(gc, font, first, count, listBase); 501 } 502 503 /************************************************************************/ 504 505 /* 506 ** Copy the source context to the destination context using the 507 ** attribute "mask". 508 */ 509 _X_EXPORT void 510 glXCopyContext(Display * dpy, GLXContext source_user, 511 GLXContext dest_user, unsigned long mask) 512 { 513 struct glx_context *source = (struct glx_context *) source_user; 514 struct glx_context *dest = (struct glx_context *) dest_user; 515 #ifdef GLX_USE_APPLEGL 516 struct glx_context *gc = __glXGetCurrentContext(); 517 int errorcode; 518 bool x11error; 519 520 if(apple_glx_copy_context(gc->driContext, source->driContext, dest->driContext, 521 mask, &errorcode, &x11error)) { 522 __glXSendError(dpy, errorcode, 0, X_GLXCopyContext, x11error); 523 } 524 525 #else 526 xGLXCopyContextReq *req; 527 struct glx_context *gc = __glXGetCurrentContext(); 528 GLXContextTag tag; 529 CARD8 opcode; 530 531 opcode = __glXSetupForCommand(dpy); 532 if (!opcode) { 533 return; 534 } 535 536 #if defined(GLX_DIRECT_RENDERING) && !defined(GLX_USE_APPLEGL) 537 if (gc->isDirect) { 538 /* NOT_DONE: This does not work yet */ 539 } 540 #endif 541 542 /* 543 ** If the source is the current context, send its tag so that the context 544 ** can be flushed before the copy. 545 */ 546 if (source == gc && dpy == gc->currentDpy) { 547 tag = gc->currentContextTag; 548 } 549 else { 550 tag = 0; 551 } 552 553 /* Send the glXCopyContext request */ 554 LockDisplay(dpy); 555 GetReq(GLXCopyContext, req); 556 req->reqType = opcode; 557 req->glxCode = X_GLXCopyContext; 558 req->source = source ? source->xid : None; 559 req->dest = dest ? dest->xid : None; 560 req->mask = mask; 561 req->contextTag = tag; 562 UnlockDisplay(dpy); 563 SyncHandle(); 564 #endif /* GLX_USE_APPLEGL */ 565 } 566 567 568 /** 569 * Determine if a context uses direct rendering. 570 * 571 * \param dpy Display where the context was created. 572 * \param contextID ID of the context to be tested. 573 * 574 * \returns \c GL_TRUE if the context is direct rendering or not. 575 */ 576 static Bool 577 __glXIsDirect(Display * dpy, GLXContextID contextID) 578 { 579 #if !defined(USE_XCB) 580 xGLXIsDirectReq *req; 581 xGLXIsDirectReply reply; 582 #endif 583 CARD8 opcode; 584 585 opcode = __glXSetupForCommand(dpy); 586 if (!opcode) { 587 return GL_FALSE; 588 } 589 590 #ifdef USE_XCB 591 xcb_connection_t *c = XGetXCBConnection(dpy); 592 xcb_generic_error_t *err; 593 xcb_glx_is_direct_reply_t *reply = xcb_glx_is_direct_reply(c, 594 xcb_glx_is_direct 595 (c, contextID), 596 &err); 597 598 const Bool is_direct = (reply != NULL && reply->is_direct) ? True : False; 599 600 if (err != NULL) { 601 __glXSendErrorForXcb(dpy, err); 602 free(err); 603 } 604 605 free(reply); 606 607 return is_direct; 608 #else 609 /* Send the glXIsDirect request */ 610 LockDisplay(dpy); 611 GetReq(GLXIsDirect, req); 612 req->reqType = opcode; 613 req->glxCode = X_GLXIsDirect; 614 req->context = contextID; 615 _XReply(dpy, (xReply *) & reply, 0, False); 616 UnlockDisplay(dpy); 617 SyncHandle(); 618 619 return reply.isDirect; 620 #endif /* USE_XCB */ 621 } 622 623 /** 624 * \todo 625 * Shouldn't this function \b always return \c GL_FALSE when 626 * \c GLX_DIRECT_RENDERING is not defined? Do we really need to bother with 627 * the GLX protocol here at all? 628 */ 629 _X_EXPORT Bool 630 glXIsDirect(Display * dpy, GLXContext gc_user) 631 { 632 struct glx_context *gc = (struct glx_context *) gc_user; 633 634 if (!gc) { 635 return GL_FALSE; 636 } 637 else if (gc->isDirect) { 638 return GL_TRUE; 639 } 640 #ifdef GLX_USE_APPLEGL /* TODO: indirect on darwin */ 641 return GL_FALSE; 642 #else 643 return __glXIsDirect(dpy, gc->xid); 644 #endif 645 } 646 647 _X_EXPORT GLXPixmap 648 glXCreateGLXPixmap(Display * dpy, XVisualInfo * vis, Pixmap pixmap) 649 { 650 #ifdef GLX_USE_APPLEGL 651 int screen = vis->screen; 652 struct glx_screen *const psc = GetGLXScreenConfigs(dpy, screen); 653 const struct glx_config *config; 654 655 config = glx_config_find_visual(psc->visuals, vis->visualid); 656 657 if(apple_glx_pixmap_create(dpy, vis->screen, pixmap, config)) 658 return None; 659 660 return pixmap; 661 #else 662 xGLXCreateGLXPixmapReq *req; 663 struct glx_drawable *glxDraw; 664 GLXPixmap xid; 665 CARD8 opcode; 666 667 opcode = __glXSetupForCommand(dpy); 668 if (!opcode) { 669 return None; 670 } 671 672 glxDraw = Xmalloc(sizeof(*glxDraw)); 673 if (!glxDraw) 674 return None; 675 676 /* Send the glXCreateGLXPixmap request */ 677 LockDisplay(dpy); 678 GetReq(GLXCreateGLXPixmap, req); 679 req->reqType = opcode; 680 req->glxCode = X_GLXCreateGLXPixmap; 681 req->screen = vis->screen; 682 req->visual = vis->visualid; 683 req->pixmap = pixmap; 684 req->glxpixmap = xid = XAllocID(dpy); 685 UnlockDisplay(dpy); 686 SyncHandle(); 687 688 if (InitGLXDrawable(dpy, glxDraw, pixmap, req->glxpixmap)) { 689 free(glxDraw); 690 return None; 691 } 692 693 #if defined(GLX_DIRECT_RENDERING) && !defined(GLX_USE_APPLEGL) 694 do { 695 /* FIXME: Maybe delay __DRIdrawable creation until the drawable 696 * is actually bound to a context... */ 697 698 struct glx_display *const priv = __glXInitialize(dpy); 699 __GLXDRIdrawable *pdraw; 700 struct glx_screen *psc; 701 struct glx_config *config; 702 703 psc = priv->screens[vis->screen]; 704 if (psc->driScreen == NULL) 705 return xid; 706 707 config = glx_config_find_visual(psc->visuals, vis->visualid); 708 pdraw = psc->driScreen->createDrawable(psc, pixmap, xid, config); 709 if (pdraw == NULL) { 710 fprintf(stderr, "failed to create pixmap\n"); 711 xid = None; 712 break; 713 } 714 715 if (__glxHashInsert(priv->drawHash, xid, pdraw)) { 716 (*pdraw->destroyDrawable) (pdraw); 717 xid = None; 718 break; 719 } 720 } while (0); 721 722 if (xid == None) { 723 xGLXDestroyGLXPixmapReq *dreq; 724 LockDisplay(dpy); 725 GetReq(GLXDestroyGLXPixmap, dreq); 726 dreq->reqType = opcode; 727 dreq->glxCode = X_GLXDestroyGLXPixmap; 728 dreq->glxpixmap = xid; 729 UnlockDisplay(dpy); 730 SyncHandle(); 731 } 732 #endif 733 734 return xid; 735 #endif 736 } 737 738 /* 739 ** Destroy the named pixmap 740 */ 741 _X_EXPORT void 742 glXDestroyGLXPixmap(Display * dpy, GLXPixmap glxpixmap) 743 { 744 #ifdef GLX_USE_APPLEGL 745 if(apple_glx_pixmap_destroy(dpy, glxpixmap)) 746 __glXSendError(dpy, GLXBadPixmap, glxpixmap, X_GLXDestroyPixmap, false); 747 #else 748 xGLXDestroyGLXPixmapReq *req; 749 CARD8 opcode; 750 751 opcode = __glXSetupForCommand(dpy); 752 if (!opcode) { 753 return; 754 } 755 756 /* Send the glXDestroyGLXPixmap request */ 757 LockDisplay(dpy); 758 GetReq(GLXDestroyGLXPixmap, req); 759 req->reqType = opcode; 760 req->glxCode = X_GLXDestroyGLXPixmap; 761 req->glxpixmap = glxpixmap; 762 UnlockDisplay(dpy); 763 SyncHandle(); 764 765 DestroyGLXDrawable(dpy, glxpixmap); 766 767 #if defined(GLX_DIRECT_RENDERING) && !defined(GLX_USE_APPLEGL) 768 { 769 struct glx_display *const priv = __glXInitialize(dpy); 770 __GLXDRIdrawable *pdraw = GetGLXDRIDrawable(dpy, glxpixmap); 771 772 if (pdraw != NULL) { 773 (*pdraw->destroyDrawable) (pdraw); 774 __glxHashDelete(priv->drawHash, glxpixmap); 775 } 776 } 777 #endif 778 #endif /* GLX_USE_APPLEGL */ 779 } 780 781 _X_EXPORT void 782 glXSwapBuffers(Display * dpy, GLXDrawable drawable) 783 { 784 #ifdef GLX_USE_APPLEGL 785 struct glx_context * gc = __glXGetCurrentContext(); 786 if(gc && apple_glx_is_current_drawable(dpy, gc->driContext, drawable)) { 787 apple_glx_swap_buffers(gc->driContext); 788 } else { 789 __glXSendError(dpy, GLXBadCurrentWindow, 0, X_GLXSwapBuffers, false); 790 } 791 #else 792 struct glx_context *gc; 793 GLXContextTag tag; 794 CARD8 opcode; 795 #ifdef USE_XCB 796 xcb_connection_t *c; 797 #else 798 xGLXSwapBuffersReq *req; 799 #endif 800 801 gc = __glXGetCurrentContext(); 802 803 #if defined(GLX_DIRECT_RENDERING) && !defined(GLX_USE_APPLEGL) 804 { 805 __GLXDRIdrawable *pdraw = GetGLXDRIDrawable(dpy, drawable); 806 807 if (pdraw != NULL) { 808 if (gc && drawable == gc->currentDrawable) { 809 glFlush(); 810 } 811 812 (*pdraw->psc->driScreen->swapBuffers)(pdraw, 0, 0, 0); 813 return; 814 } 815 } 816 #endif 817 818 opcode = __glXSetupForCommand(dpy); 819 if (!opcode) { 820 return; 821 } 822 823 /* 824 ** The calling thread may or may not have a current context. If it 825 ** does, send the context tag so the server can do a flush. 826 */ 827 if ((gc != NULL) && (dpy == gc->currentDpy) && 828 ((drawable == gc->currentDrawable) 829 || (drawable == gc->currentReadable))) { 830 tag = gc->currentContextTag; 831 } 832 else { 833 tag = 0; 834 } 835 836 #ifdef USE_XCB 837 c = XGetXCBConnection(dpy); 838 xcb_glx_swap_buffers(c, tag, drawable); 839 xcb_flush(c); 840 #else 841 /* Send the glXSwapBuffers request */ 842 LockDisplay(dpy); 843 GetReq(GLXSwapBuffers, req); 844 req->reqType = opcode; 845 req->glxCode = X_GLXSwapBuffers; 846 req->drawable = drawable; 847 req->contextTag = tag; 848 UnlockDisplay(dpy); 849 SyncHandle(); 850 XFlush(dpy); 851 #endif /* USE_XCB */ 852 #endif /* GLX_USE_APPLEGL */ 853 } 854 855 856 /* 857 ** Return configuration information for the given display, screen and 858 ** visual combination. 859 */ 860 _X_EXPORT int 861 glXGetConfig(Display * dpy, XVisualInfo * vis, int attribute, 862 int *value_return) 863 { 864 struct glx_display *priv; 865 struct glx_screen *psc; 866 struct glx_config *config; 867 int status; 868 869 status = GetGLXPrivScreenConfig(dpy, vis->screen, &priv, &psc); 870 if (status == Success) { 871 config = glx_config_find_visual(psc->visuals, vis->visualid); 872 873 /* Lookup attribute after first finding a match on the visual */ 874 if (config != NULL) { 875 return glx_config_get(config, attribute, value_return); 876 } 877 878 status = GLX_BAD_VISUAL; 879 } 880 881 /* 882 ** If we can't find the config for this visual, this visual is not 883 ** supported by the OpenGL implementation on the server. 884 */ 885 if ((status == GLX_BAD_VISUAL) && (attribute == GLX_USE_GL)) { 886 *value_return = GL_FALSE; 887 status = Success; 888 } 889 890 return status; 891 } 892 893 /************************************************************************/ 894 895 static void 896 init_fbconfig_for_chooser(struct glx_config * config, 897 GLboolean fbconfig_style_tags) 898 { 899 memset(config, 0, sizeof(struct glx_config)); 900 config->visualID = (XID) GLX_DONT_CARE; 901 config->visualType = GLX_DONT_CARE; 902 903 /* glXChooseFBConfig specifies different defaults for these two than 904 * glXChooseVisual. 905 */ 906 if (fbconfig_style_tags) { 907 config->rgbMode = GL_TRUE; 908 config->doubleBufferMode = GLX_DONT_CARE; 909 } 910 911 config->visualRating = GLX_DONT_CARE; 912 config->transparentPixel = GLX_NONE; 913 config->transparentRed = GLX_DONT_CARE; 914 config->transparentGreen = GLX_DONT_CARE; 915 config->transparentBlue = GLX_DONT_CARE; 916 config->transparentAlpha = GLX_DONT_CARE; 917 config->transparentIndex = GLX_DONT_CARE; 918 919 config->drawableType = GLX_WINDOW_BIT; 920 config->renderType = 921 (config->rgbMode) ? GLX_RGBA_BIT : GLX_COLOR_INDEX_BIT; 922 config->xRenderable = GLX_DONT_CARE; 923 config->fbconfigID = (GLXFBConfigID) (GLX_DONT_CARE); 924 925 config->swapMethod = GLX_DONT_CARE; 926 } 927 928 #define MATCH_DONT_CARE( param ) \ 929 do { \ 930 if ( ((int) a-> param != (int) GLX_DONT_CARE) \ 931 && (a-> param != b-> param) ) { \ 932 return False; \ 933 } \ 934 } while ( 0 ) 935 936 #define MATCH_MINIMUM( param ) \ 937 do { \ 938 if ( ((int) a-> param != (int) GLX_DONT_CARE) \ 939 && (a-> param > b-> param) ) { \ 940 return False; \ 941 } \ 942 } while ( 0 ) 943 944 #define MATCH_EXACT( param ) \ 945 do { \ 946 if ( a-> param != b-> param) { \ 947 return False; \ 948 } \ 949 } while ( 0 ) 950 951 /* Test that all bits from a are contained in b */ 952 #define MATCH_MASK(param) \ 953 do { \ 954 if ((a->param & ~b->param) != 0) \ 955 return False; \ 956 } while (0); 957 958 /** 959 * Determine if two GLXFBConfigs are compatible. 960 * 961 * \param a Application specified config to test. 962 * \param b Server specified config to test against \c a. 963 */ 964 static Bool 965 fbconfigs_compatible(const struct glx_config * const a, 966 const struct glx_config * const b) 967 { 968 MATCH_DONT_CARE(doubleBufferMode); 969 MATCH_DONT_CARE(visualType); 970 MATCH_DONT_CARE(visualRating); 971 MATCH_DONT_CARE(xRenderable); 972 MATCH_DONT_CARE(fbconfigID); 973 MATCH_DONT_CARE(swapMethod); 974 975 MATCH_MINIMUM(rgbBits); 976 MATCH_MINIMUM(numAuxBuffers); 977 MATCH_MINIMUM(redBits); 978 MATCH_MINIMUM(greenBits); 979 MATCH_MINIMUM(blueBits); 980 MATCH_MINIMUM(alphaBits); 981 MATCH_MINIMUM(depthBits); 982 MATCH_MINIMUM(stencilBits); 983 MATCH_MINIMUM(accumRedBits); 984 MATCH_MINIMUM(accumGreenBits); 985 MATCH_MINIMUM(accumBlueBits); 986 MATCH_MINIMUM(accumAlphaBits); 987 MATCH_MINIMUM(sampleBuffers); 988 MATCH_MINIMUM(maxPbufferWidth); 989 MATCH_MINIMUM(maxPbufferHeight); 990 MATCH_MINIMUM(maxPbufferPixels); 991 MATCH_MINIMUM(samples); 992 993 MATCH_DONT_CARE(stereoMode); 994 MATCH_EXACT(level); 995 996 MATCH_MASK(drawableType); 997 MATCH_MASK(renderType); 998 999 /* There is a bug in a few of the XFree86 DDX drivers. They contain 1000 * visuals with a "transparent type" of 0 when they really mean GLX_NONE. 1001 * Technically speaking, it is a bug in the DDX driver, but there is 1002 * enough of an installed base to work around the problem here. In any 1003 * case, 0 is not a valid value of the transparent type, so we'll treat 0 1004 * from the app as GLX_DONT_CARE. We'll consider GLX_NONE from the app and 1005 * 0 from the server to be a match to maintain backward compatibility with 1006 * the (broken) drivers. 1007 */ 1008 1009 if (a->transparentPixel != (int) GLX_DONT_CARE && a->transparentPixel != 0) { 1010 if (a->transparentPixel == GLX_NONE) { 1011 if (b->transparentPixel != GLX_NONE && b->transparentPixel != 0) 1012 return False; 1013 } 1014 else { 1015 MATCH_EXACT(transparentPixel); 1016 } 1017 1018 switch (a->transparentPixel) { 1019 case GLX_TRANSPARENT_RGB: 1020 MATCH_DONT_CARE(transparentRed); 1021 MATCH_DONT_CARE(transparentGreen); 1022 MATCH_DONT_CARE(transparentBlue); 1023 MATCH_DONT_CARE(transparentAlpha); 1024 break; 1025 1026 case GLX_TRANSPARENT_INDEX: 1027 MATCH_DONT_CARE(transparentIndex); 1028 break; 1029 1030 default: 1031 break; 1032 } 1033 } 1034 1035 return True; 1036 } 1037 1038 1039 /* There's some trickly language in the GLX spec about how this is supposed 1040 * to work. Basically, if a given component size is either not specified 1041 * or the requested size is zero, it is supposed to act like PERFER_SMALLER. 1042 * Well, that's really hard to do with the code as-is. This behavior is 1043 * closer to correct, but still not technically right. 1044 */ 1045 #define PREFER_LARGER_OR_ZERO(comp) \ 1046 do { \ 1047 if ( ((*a)-> comp) != ((*b)-> comp) ) { \ 1048 if ( ((*a)-> comp) == 0 ) { \ 1049 return -1; \ 1050 } \ 1051 else if ( ((*b)-> comp) == 0 ) { \ 1052 return 1; \ 1053 } \ 1054 else { \ 1055 return ((*b)-> comp) - ((*a)-> comp) ; \ 1056 } \ 1057 } \ 1058 } while( 0 ) 1059 1060 #define PREFER_LARGER(comp) \ 1061 do { \ 1062 if ( ((*a)-> comp) != ((*b)-> comp) ) { \ 1063 return ((*b)-> comp) - ((*a)-> comp) ; \ 1064 } \ 1065 } while( 0 ) 1066 1067 #define PREFER_SMALLER(comp) \ 1068 do { \ 1069 if ( ((*a)-> comp) != ((*b)-> comp) ) { \ 1070 return ((*a)-> comp) - ((*b)-> comp) ; \ 1071 } \ 1072 } while( 0 ) 1073 1074 /** 1075 * Compare two GLXFBConfigs. This function is intended to be used as the 1076 * compare function passed in to qsort. 1077 * 1078 * \returns If \c a is a "better" config, according to the specification of 1079 * SGIX_fbconfig, a number less than zero is returned. If \c b is 1080 * better, then a number greater than zero is return. If both are 1081 * equal, zero is returned. 1082 * \sa qsort, glXChooseVisual, glXChooseFBConfig, glXChooseFBConfigSGIX 1083 */ 1084 static int 1085 fbconfig_compare(struct glx_config **a, struct glx_config **b) 1086 { 1087 /* The order of these comparisons must NOT change. It is defined by 1088 * the GLX 1.3 spec and ARB_multisample. 1089 */ 1090 1091 PREFER_SMALLER(visualSelectGroup); 1092 1093 /* The sort order for the visualRating is GLX_NONE, GLX_SLOW, and 1094 * GLX_NON_CONFORMANT_CONFIG. It just so happens that this is the 1095 * numerical sort order of the enums (0x8000, 0x8001, and 0x800D). 1096 */ 1097 PREFER_SMALLER(visualRating); 1098 1099 /* This isn't quite right. It is supposed to compare the sum of the 1100 * components the user specifically set minimums for. 1101 */ 1102 PREFER_LARGER_OR_ZERO(redBits); 1103 PREFER_LARGER_OR_ZERO(greenBits); 1104 PREFER_LARGER_OR_ZERO(blueBits); 1105 PREFER_LARGER_OR_ZERO(alphaBits); 1106 1107 PREFER_SMALLER(rgbBits); 1108 1109 if (((*a)->doubleBufferMode != (*b)->doubleBufferMode)) { 1110 /* Prefer single-buffer. 1111 */ 1112 return (!(*a)->doubleBufferMode) ? -1 : 1; 1113 } 1114 1115 PREFER_SMALLER(numAuxBuffers); 1116 1117 PREFER_LARGER_OR_ZERO(depthBits); 1118 PREFER_SMALLER(stencilBits); 1119 1120 /* This isn't quite right. It is supposed to compare the sum of the 1121 * components the user specifically set minimums for. 1122 */ 1123 PREFER_LARGER_OR_ZERO(accumRedBits); 1124 PREFER_LARGER_OR_ZERO(accumGreenBits); 1125 PREFER_LARGER_OR_ZERO(accumBlueBits); 1126 PREFER_LARGER_OR_ZERO(accumAlphaBits); 1127 1128 PREFER_SMALLER(visualType); 1129 1130 /* None of the multisample specs say where this comparison should happen, 1131 * so I put it near the end. 1132 */ 1133 PREFER_SMALLER(sampleBuffers); 1134 PREFER_SMALLER(samples); 1135 1136 /* None of the pbuffer or fbconfig specs say that this comparison needs 1137 * to happen at all, but it seems like it should. 1138 */ 1139 PREFER_LARGER(maxPbufferWidth); 1140 PREFER_LARGER(maxPbufferHeight); 1141 PREFER_LARGER(maxPbufferPixels); 1142 1143 return 0; 1144 } 1145 1146 1147 /** 1148 * Selects and sorts a subset of the supplied configs based on the attributes. 1149 * This function forms to basis of \c glXChooseVisual, \c glXChooseFBConfig, 1150 * and \c glXChooseFBConfigSGIX. 1151 * 1152 * \param configs Array of pointers to possible configs. The elements of 1153 * this array that do not meet the criteria will be set to 1154 * NULL. The remaining elements will be sorted according to 1155 * the various visual / FBConfig selection rules. 1156 * \param num_configs Number of elements in the \c configs array. 1157 * \param attribList Attributes used select from \c configs. This array is 1158 * terminated by a \c None tag. The array can either take 1159 * the form expected by \c glXChooseVisual (where boolean 1160 * tags do not have a value) or by \c glXChooseFBConfig 1161 * (where every tag has a value). 1162 * \param fbconfig_style_tags Selects whether \c attribList is in 1163 * \c glXChooseVisual style or 1164 * \c glXChooseFBConfig style. 1165 * \returns The number of valid elements left in \c configs. 1166 * 1167 * \sa glXChooseVisual, glXChooseFBConfig, glXChooseFBConfigSGIX 1168 */ 1169 static int 1170 choose_visual(struct glx_config ** configs, int num_configs, 1171 const int *attribList, GLboolean fbconfig_style_tags) 1172 { 1173 struct glx_config test_config; 1174 int base; 1175 int i; 1176 1177 /* This is a fairly direct implementation of the selection method 1178 * described by GLX_SGIX_fbconfig. Start by culling out all the 1179 * configs that are not compatible with the selected parameter 1180 * list. 1181 */ 1182 1183 init_fbconfig_for_chooser(&test_config, fbconfig_style_tags); 1184 __glXInitializeVisualConfigFromTags(&test_config, 512, 1185 (const INT32 *) attribList, 1186 GL_TRUE, fbconfig_style_tags); 1187 1188 base = 0; 1189 for (i = 0; i < num_configs; i++) { 1190 if (fbconfigs_compatible(&test_config, configs[i])) { 1191 configs[base] = configs[i]; 1192 base++; 1193 } 1194 } 1195 1196 if (base == 0) { 1197 return 0; 1198 } 1199 1200 if (base < num_configs) { 1201 (void) memset(&configs[base], 0, sizeof(void *) * (num_configs - base)); 1202 } 1203 1204 /* After the incompatible configs are removed, the resulting 1205 * list is sorted according to the rules set out in the various 1206 * specifications. 1207 */ 1208 1209 qsort(configs, base, sizeof(struct glx_config *), 1210 (int (*)(const void *, const void *)) fbconfig_compare); 1211 return base; 1212 } 1213 1214 1215 1216 1217 /* 1218 ** Return the visual that best matches the template. Return None if no 1219 ** visual matches the template. 1220 */ 1221 _X_EXPORT XVisualInfo * 1222 glXChooseVisual(Display * dpy, int screen, int *attribList) 1223 { 1224 XVisualInfo *visualList = NULL; 1225 struct glx_display *priv; 1226 struct glx_screen *psc; 1227 struct glx_config test_config; 1228 struct glx_config *config; 1229 struct glx_config *best_config = NULL; 1230 1231 /* 1232 ** Get a list of all visuals, return if list is empty 1233 */ 1234 if (GetGLXPrivScreenConfig(dpy, screen, &priv, &psc) != Success) { 1235 return None; 1236 } 1237 1238 1239 /* 1240 ** Build a template from the defaults and the attribute list 1241 ** Free visual list and return if an unexpected token is encountered 1242 */ 1243 init_fbconfig_for_chooser(&test_config, GL_FALSE); 1244 __glXInitializeVisualConfigFromTags(&test_config, 512, 1245 (const INT32 *) attribList, 1246 GL_TRUE, GL_FALSE); 1247 1248 /* 1249 ** Eliminate visuals that don't meet minimum requirements 1250 ** Compute a score for those that do 1251 ** Remember which visual, if any, got the highest score 1252 ** If no visual is acceptable, return None 1253 ** Otherwise, create an XVisualInfo list with just the selected X visual 1254 ** and return this. 1255 */ 1256 for (config = psc->visuals; config != NULL; config = config->next) { 1257 if (fbconfigs_compatible(&test_config, config) 1258 && ((best_config == NULL) || 1259 (fbconfig_compare (&config, &best_config) < 0))) { 1260 XVisualInfo visualTemplate; 1261 XVisualInfo *newList; 1262 int i; 1263 1264 visualTemplate.screen = screen; 1265 visualTemplate.visualid = config->visualID; 1266 newList = XGetVisualInfo(dpy, VisualScreenMask | VisualIDMask, 1267 &visualTemplate, &i); 1268 1269 if (newList) { 1270 Xfree(visualList); 1271 visualList = newList; 1272 best_config = config; 1273 } 1274 } 1275 } 1276 1277 #ifdef GLX_USE_APPLEGL 1278 if(visualList && getenv("LIBGL_DUMP_VISUALID")) { 1279 printf("visualid 0x%lx\n", visualList[0].visualid); 1280 } 1281 #endif 1282 1283 return visualList; 1284 } 1285 1286 1287 _X_EXPORT const char * 1288 glXQueryExtensionsString(Display * dpy, int screen) 1289 { 1290 struct glx_screen *psc; 1291 struct glx_display *priv; 1292 1293 if (GetGLXPrivScreenConfig(dpy, screen, &priv, &psc) != Success) { 1294 return NULL; 1295 } 1296 1297 if (!psc->effectiveGLXexts) { 1298 if (!psc->serverGLXexts) { 1299 psc->serverGLXexts = 1300 __glXQueryServerString(dpy, priv->majorOpcode, screen, 1301 GLX_EXTENSIONS); 1302 } 1303 1304 __glXCalculateUsableExtensions(psc, 1305 #if defined(GLX_DIRECT_RENDERING) && !defined(GLX_USE_APPLEGL) 1306 (psc->driScreen != NULL), 1307 #else 1308 GL_FALSE, 1309 #endif 1310 priv->minorVersion); 1311 } 1312 1313 return psc->effectiveGLXexts; 1314 } 1315 1316 _X_EXPORT const char * 1317 glXGetClientString(Display * dpy, int name) 1318 { 1319 (void) dpy; 1320 1321 switch (name) { 1322 case GLX_VENDOR: 1323 return (__glXGLXClientVendorName); 1324 case GLX_VERSION: 1325 return (__glXGLXClientVersion); 1326 case GLX_EXTENSIONS: 1327 return (__glXGetClientExtensions()); 1328 default: 1329 return NULL; 1330 } 1331 } 1332 1333 _X_EXPORT const char * 1334 glXQueryServerString(Display * dpy, int screen, int name) 1335 { 1336 struct glx_screen *psc; 1337 struct glx_display *priv; 1338 const char **str; 1339 1340 1341 if (GetGLXPrivScreenConfig(dpy, screen, &priv, &psc) != Success) { 1342 return NULL; 1343 } 1344 1345 switch (name) { 1346 case GLX_VENDOR: 1347 str = &priv->serverGLXvendor; 1348 break; 1349 case GLX_VERSION: 1350 str = &priv->serverGLXversion; 1351 break; 1352 case GLX_EXTENSIONS: 1353 str = &psc->serverGLXexts; 1354 break; 1355 default: 1356 return NULL; 1357 } 1358 1359 if (*str == NULL) { 1360 *str = __glXQueryServerString(dpy, priv->majorOpcode, screen, name); 1361 } 1362 1363 return *str; 1364 } 1365 1366 void 1367 __glXClientInfo(Display * dpy, int opcode) 1368 { 1369 char *ext_str = __glXGetClientGLExtensionString(); 1370 int size = strlen(ext_str) + 1; 1371 1372 #ifdef USE_XCB 1373 xcb_connection_t *c = XGetXCBConnection(dpy); 1374 xcb_glx_client_info(c, 1375 GLX_MAJOR_VERSION, GLX_MINOR_VERSION, size, ext_str); 1376 #else 1377 xGLXClientInfoReq *req; 1378 1379 /* Send the glXClientInfo request */ 1380 LockDisplay(dpy); 1381 GetReq(GLXClientInfo, req); 1382 req->reqType = opcode; 1383 req->glxCode = X_GLXClientInfo; 1384 req->major = GLX_MAJOR_VERSION; 1385 req->minor = GLX_MINOR_VERSION; 1386 1387 req->length += (size + 3) >> 2; 1388 req->numbytes = size; 1389 Data(dpy, ext_str, size); 1390 1391 UnlockDisplay(dpy); 1392 SyncHandle(); 1393 #endif /* USE_XCB */ 1394 1395 Xfree(ext_str); 1396 } 1397 1398 1399 /* 1400 ** EXT_import_context 1401 */ 1402 1403 _X_EXPORT Display * 1404 glXGetCurrentDisplay(void) 1405 { 1406 struct glx_context *gc = __glXGetCurrentContext(); 1407 if (NULL == gc) 1408 return NULL; 1409 return gc->currentDpy; 1410 } 1411 1412 _X_EXPORT 1413 GLX_ALIAS(Display *, glXGetCurrentDisplayEXT, (void), (), 1414 glXGetCurrentDisplay) 1415 1416 #ifndef GLX_USE_APPLEGL 1417 _X_EXPORT GLXContext 1418 glXImportContextEXT(Display *dpy, GLXContextID contextID) 1419 { 1420 struct glx_display *priv = __glXInitialize(dpy); 1421 struct glx_screen *psc = NULL; 1422 xGLXQueryContextReply reply; 1423 CARD8 opcode; 1424 struct glx_context *ctx; 1425 1426 /* This GLX implementation knows about 5 different properties, so 1427 * allow the server to send us one of each. 1428 */ 1429 int propList[5 * 2], *pProp, nPropListBytes; 1430 int numProps; 1431 int i, renderType; 1432 XID share; 1433 struct glx_config *mode; 1434 uint32_t fbconfigID = 0; 1435 uint32_t visualID = 0; 1436 uint32_t screen; 1437 Bool got_screen = False; 1438 1439 /* The GLX_EXT_import_context spec says: 1440 * 1441 * "If <contextID> does not refer to a valid context, then a BadContext 1442 * error is generated; if <contextID> refers to direct rendering 1443 * context then no error is generated but glXImportContextEXT returns 1444 * NULL." 1445 * 1446 * If contextID is None, generate BadContext on the client-side. Other 1447 * sorts of invalid contexts will be detected by the server in the 1448 * __glXIsDirect call. 1449 */ 1450 if (contextID == None) { 1451 __glXSendError(dpy, GLXBadContext, contextID, X_GLXIsDirect, false); 1452 return NULL; 1453 } 1454 1455 if (__glXIsDirect(dpy, contextID)) 1456 return NULL; 1457 1458 opcode = __glXSetupForCommand(dpy); 1459 if (!opcode) 1460 return 0; 1461 1462 /* Send the glXQueryContextInfoEXT request */ 1463 LockDisplay(dpy); 1464 1465 if (priv->majorVersion > 1 || priv->minorVersion >= 3) { 1466 xGLXQueryContextReq *req; 1467 1468 GetReq(GLXQueryContext, req); 1469 1470 req->reqType = opcode; 1471 req->glxCode = X_GLXQueryContext; 1472 req->context = contextID; 1473 } 1474 else { 1475 xGLXVendorPrivateReq *vpreq; 1476 xGLXQueryContextInfoEXTReq *req; 1477 1478 GetReqExtra(GLXVendorPrivate, 1479 sz_xGLXQueryContextInfoEXTReq - sz_xGLXVendorPrivateReq, 1480 vpreq); 1481 req = (xGLXQueryContextInfoEXTReq *) vpreq; 1482 req->reqType = opcode; 1483 req->glxCode = X_GLXVendorPrivateWithReply; 1484 req->vendorCode = X_GLXvop_QueryContextInfoEXT; 1485 req->context = contextID; 1486 } 1487 1488 _XReply(dpy, (xReply *) & reply, 0, False); 1489 1490 if (reply.n <= __GLX_MAX_CONTEXT_PROPS) 1491 nPropListBytes = reply.n * 2 * sizeof propList[0]; 1492 else 1493 nPropListBytes = 0; 1494 _XRead(dpy, (char *) propList, nPropListBytes); 1495 UnlockDisplay(dpy); 1496 SyncHandle(); 1497 1498 numProps = nPropListBytes / (2 * sizeof(propList[0])); 1499 share = None; 1500 mode = NULL; 1501 renderType = 0; 1502 pProp = propList; 1503 1504 for (i = 0, pProp = propList; i < numProps; i++, pProp += 2) 1505 switch (pProp[0]) { 1506 case GLX_SCREEN: 1507 screen = pProp[1]; 1508 got_screen = True; 1509 break; 1510 case GLX_SHARE_CONTEXT_EXT: 1511 share = pProp[1]; 1512 break; 1513 case GLX_VISUAL_ID_EXT: 1514 visualID = pProp[1]; 1515 break; 1516 case GLX_FBCONFIG_ID: 1517 fbconfigID = pProp[1]; 1518 break; 1519 case GLX_RENDER_TYPE: 1520 renderType = pProp[1]; 1521 break; 1522 } 1523 1524 if (!got_screen) 1525 return NULL; 1526 1527 psc = GetGLXScreenConfigs(dpy, screen); 1528 if (psc == NULL) 1529 return NULL; 1530 1531 if (fbconfigID != 0) { 1532 mode = glx_config_find_fbconfig(psc->configs, fbconfigID); 1533 } else if (visualID != 0) { 1534 mode = glx_config_find_visual(psc->visuals, visualID); 1535 } 1536 1537 if (mode == NULL) 1538 return NULL; 1539 1540 ctx = indirect_create_context(psc, mode, NULL, renderType); 1541 if (ctx == NULL) 1542 return NULL; 1543 1544 ctx->xid = contextID; 1545 ctx->imported = GL_TRUE; 1546 ctx->share_xid = share; 1547 1548 return (GLXContext) ctx; 1549 } 1550 1551 #endif 1552 1553 _X_EXPORT int 1554 glXQueryContext(Display * dpy, GLXContext ctx_user, int attribute, int *value) 1555 { 1556 struct glx_context *ctx = (struct glx_context *) ctx_user; 1557 1558 switch (attribute) { 1559 case GLX_SHARE_CONTEXT_EXT: 1560 *value = ctx->share_xid; 1561 break; 1562 case GLX_VISUAL_ID_EXT: 1563 *value = ctx->config ? ctx->config->visualID : None; 1564 break; 1565 case GLX_SCREEN: 1566 *value = ctx->screen; 1567 break; 1568 case GLX_FBCONFIG_ID: 1569 *value = ctx->config ? ctx->config->fbconfigID : None; 1570 break; 1571 case GLX_RENDER_TYPE: 1572 *value = ctx->renderType; 1573 break; 1574 default: 1575 return GLX_BAD_ATTRIBUTE; 1576 } 1577 return Success; 1578 } 1579 1580 _X_EXPORT 1581 GLX_ALIAS(int, glXQueryContextInfoEXT, 1582 (Display * dpy, GLXContext ctx, int attribute, int *value), 1583 (dpy, ctx, attribute, value), glXQueryContext) 1584 1585 _X_EXPORT GLXContextID glXGetContextIDEXT(const GLXContext ctx_user) 1586 { 1587 struct glx_context *ctx = (struct glx_context *) ctx_user; 1588 1589 return (ctx == NULL) ? None : ctx->xid; 1590 } 1591 1592 _X_EXPORT void 1593 glXFreeContextEXT(Display *dpy, GLXContext ctx) 1594 { 1595 struct glx_context *gc = (struct glx_context *) ctx; 1596 1597 if (gc == NULL || gc->xid == None) 1598 return; 1599 1600 /* The GLX_EXT_import_context spec says: 1601 * 1602 * "glXFreeContext does not free the server-side context information or 1603 * the XID associated with the server-side context." 1604 * 1605 * Don't send any protocol. Just destroy the client-side tracking of the 1606 * context. Also, only release the context structure if it's not current. 1607 */ 1608 __glXLock(); 1609 if (gc->currentDpy) { 1610 gc->xid = None; 1611 } else { 1612 gc->vtable->destroy(gc); 1613 } 1614 __glXUnlock(); 1615 } 1616 1617 _X_EXPORT GLXFBConfig * 1618 glXChooseFBConfig(Display * dpy, int screen, 1619 const int *attribList, int *nitems) 1620 { 1621 struct glx_config **config_list; 1622 int list_size; 1623 1624 1625 config_list = (struct glx_config **) 1626 glXGetFBConfigs(dpy, screen, &list_size); 1627 1628 if ((config_list != NULL) && (list_size > 0) && (attribList != NULL)) { 1629 list_size = choose_visual(config_list, list_size, attribList, GL_TRUE); 1630 if (list_size == 0) { 1631 XFree(config_list); 1632 config_list = NULL; 1633 } 1634 } 1635 1636 *nitems = list_size; 1637 return (GLXFBConfig *) config_list; 1638 } 1639 1640 1641 _X_EXPORT GLXContext 1642 glXCreateNewContext(Display * dpy, GLXFBConfig fbconfig, 1643 int renderType, GLXContext shareList, Bool allowDirect) 1644 { 1645 struct glx_config *config = (struct glx_config *) fbconfig; 1646 1647 return CreateContext(dpy, config->fbconfigID, config, shareList, 1648 allowDirect, X_GLXCreateNewContext, renderType, 1649 config->screen); 1650 } 1651 1652 1653 _X_EXPORT GLXDrawable 1654 glXGetCurrentReadDrawable(void) 1655 { 1656 struct glx_context *gc = __glXGetCurrentContext(); 1657 1658 return gc->currentReadable; 1659 } 1660 1661 1662 _X_EXPORT GLXFBConfig * 1663 glXGetFBConfigs(Display * dpy, int screen, int *nelements) 1664 { 1665 struct glx_display *priv = __glXInitialize(dpy); 1666 struct glx_config **config_list = NULL; 1667 struct glx_config *config; 1668 unsigned num_configs = 0; 1669 int i; 1670 1671 *nelements = 0; 1672 if (priv && (priv->screens != NULL) 1673 && (screen >= 0) && (screen <= ScreenCount(dpy)) 1674 && (priv->screens[screen]->configs != NULL) 1675 && (priv->screens[screen]->configs->fbconfigID 1676 != (int) GLX_DONT_CARE)) { 1677 1678 for (config = priv->screens[screen]->configs; config != NULL; 1679 config = config->next) { 1680 if (config->fbconfigID != (int) GLX_DONT_CARE) { 1681 num_configs++; 1682 } 1683 } 1684 1685 config_list = Xmalloc(num_configs * sizeof *config_list); 1686 if (config_list != NULL) { 1687 *nelements = num_configs; 1688 i = 0; 1689 for (config = priv->screens[screen]->configs; config != NULL; 1690 config = config->next) { 1691 if (config->fbconfigID != (int) GLX_DONT_CARE) { 1692 config_list[i] = config; 1693 i++; 1694 } 1695 } 1696 } 1697 } 1698 1699 return (GLXFBConfig *) config_list; 1700 } 1701 1702 1703 _X_EXPORT int 1704 glXGetFBConfigAttrib(Display * dpy, GLXFBConfig fbconfig, 1705 int attribute, int *value) 1706 { 1707 struct glx_config *config = ValidateGLXFBConfig(dpy, fbconfig); 1708 1709 if (config == NULL) 1710 return GLXBadFBConfig; 1711 1712 return glx_config_get(config, attribute, value); 1713 } 1714 1715 1716 _X_EXPORT XVisualInfo * 1717 glXGetVisualFromFBConfig(Display * dpy, GLXFBConfig fbconfig) 1718 { 1719 XVisualInfo visualTemplate; 1720 struct glx_config *config = (struct glx_config *) fbconfig; 1721 int count; 1722 1723 /* 1724 ** Get a list of all visuals, return if list is empty 1725 */ 1726 visualTemplate.visualid = config->visualID; 1727 return XGetVisualInfo(dpy, VisualIDMask, &visualTemplate, &count); 1728 } 1729 1730 #ifndef GLX_USE_APPLEGL 1731 /* 1732 ** GLX_SGI_swap_control 1733 */ 1734 static int 1735 __glXSwapIntervalSGI(int interval) 1736 { 1737 xGLXVendorPrivateReq *req; 1738 struct glx_context *gc = __glXGetCurrentContext(); 1739 struct glx_screen *psc; 1740 Display *dpy; 1741 CARD32 *interval_ptr; 1742 CARD8 opcode; 1743 1744 if (gc == NULL) { 1745 return GLX_BAD_CONTEXT; 1746 } 1747 1748 if (interval <= 0) { 1749 return GLX_BAD_VALUE; 1750 } 1751 1752 psc = GetGLXScreenConfigs( gc->currentDpy, gc->screen); 1753 1754 #ifdef GLX_DIRECT_RENDERING 1755 if (gc->isDirect && psc->driScreen && psc->driScreen->setSwapInterval) { 1756 __GLXDRIdrawable *pdraw = 1757 GetGLXDRIDrawable(gc->currentDpy, gc->currentDrawable); 1758 psc->driScreen->setSwapInterval(pdraw, interval); 1759 return 0; 1760 } 1761 #endif 1762 1763 dpy = gc->currentDpy; 1764 opcode = __glXSetupForCommand(dpy); 1765 if (!opcode) { 1766 return 0; 1767 } 1768 1769 /* Send the glXSwapIntervalSGI request */ 1770 LockDisplay(dpy); 1771 GetReqExtra(GLXVendorPrivate, sizeof(CARD32), req); 1772 req->reqType = opcode; 1773 req->glxCode = X_GLXVendorPrivate; 1774 req->vendorCode = X_GLXvop_SwapIntervalSGI; 1775 req->contextTag = gc->currentContextTag; 1776 1777 interval_ptr = (CARD32 *) (req + 1); 1778 *interval_ptr = interval; 1779 1780 UnlockDisplay(dpy); 1781 SyncHandle(); 1782 XFlush(dpy); 1783 1784 return 0; 1785 } 1786 1787 1788 /* 1789 ** GLX_MESA_swap_control 1790 */ 1791 static int 1792 __glXSwapIntervalMESA(unsigned int interval) 1793 { 1794 #ifdef GLX_DIRECT_RENDERING 1795 struct glx_context *gc = __glXGetCurrentContext(); 1796 1797 if (gc != NULL && gc->isDirect) { 1798 struct glx_screen *psc; 1799 1800 psc = GetGLXScreenConfigs( gc->currentDpy, gc->screen); 1801 if (psc->driScreen && psc->driScreen->setSwapInterval) { 1802 __GLXDRIdrawable *pdraw = 1803 GetGLXDRIDrawable(gc->currentDpy, gc->currentDrawable); 1804 return psc->driScreen->setSwapInterval(pdraw, interval); 1805 } 1806 } 1807 #endif 1808 1809 return GLX_BAD_CONTEXT; 1810 } 1811 1812 1813 static int 1814 __glXGetSwapIntervalMESA(void) 1815 { 1816 #ifdef GLX_DIRECT_RENDERING 1817 struct glx_context *gc = __glXGetCurrentContext(); 1818 1819 if (gc != NULL && gc->isDirect) { 1820 struct glx_screen *psc; 1821 1822 psc = GetGLXScreenConfigs( gc->currentDpy, gc->screen); 1823 if (psc->driScreen && psc->driScreen->getSwapInterval) { 1824 __GLXDRIdrawable *pdraw = 1825 GetGLXDRIDrawable(gc->currentDpy, gc->currentDrawable); 1826 return psc->driScreen->getSwapInterval(pdraw); 1827 } 1828 } 1829 #endif 1830 1831 return 0; 1832 } 1833 1834 1835 /* 1836 ** GLX_SGI_video_sync 1837 */ 1838 static int 1839 __glXGetVideoSyncSGI(unsigned int *count) 1840 { 1841 int64_t ust, msc, sbc; 1842 int ret; 1843 struct glx_context *gc = __glXGetCurrentContext(); 1844 struct glx_screen *psc; 1845 #ifdef GLX_DIRECT_RENDERING 1846 __GLXDRIdrawable *pdraw; 1847 #endif 1848 1849 if (!gc) 1850 return GLX_BAD_CONTEXT; 1851 1852 #ifdef GLX_DIRECT_RENDERING 1853 if (!gc->isDirect) 1854 return GLX_BAD_CONTEXT; 1855 #endif 1856 1857 psc = GetGLXScreenConfigs(gc->currentDpy, gc->screen); 1858 #ifdef GLX_DIRECT_RENDERING 1859 pdraw = GetGLXDRIDrawable(gc->currentDpy, gc->currentDrawable); 1860 #endif 1861 1862 /* FIXME: Looking at the GLX_SGI_video_sync spec in the extension registry, 1863 * FIXME: there should be a GLX encoding for this call. I can find no 1864 * FIXME: documentation for the GLX encoding. 1865 */ 1866 #ifdef GLX_DIRECT_RENDERING 1867 if (psc->driScreen && psc->driScreen->getDrawableMSC) { 1868 ret = psc->driScreen->getDrawableMSC(psc, pdraw, &ust, &msc, &sbc); 1869 *count = (unsigned) msc; 1870 return (ret == True) ? 0 : GLX_BAD_CONTEXT; 1871 } 1872 #endif 1873 1874 return GLX_BAD_CONTEXT; 1875 } 1876 1877 static int 1878 __glXWaitVideoSyncSGI(int divisor, int remainder, unsigned int *count) 1879 { 1880 struct glx_context *gc = __glXGetCurrentContext(); 1881 struct glx_screen *psc; 1882 #ifdef GLX_DIRECT_RENDERING 1883 __GLXDRIdrawable *pdraw; 1884 #endif 1885 int64_t ust, msc, sbc; 1886 int ret; 1887 1888 if (divisor <= 0 || remainder < 0) 1889 return GLX_BAD_VALUE; 1890 1891 if (!gc) 1892 return GLX_BAD_CONTEXT; 1893 1894 #ifdef GLX_DIRECT_RENDERING 1895 if (!gc->isDirect) 1896 return GLX_BAD_CONTEXT; 1897 #endif 1898 1899 psc = GetGLXScreenConfigs( gc->currentDpy, gc->screen); 1900 #ifdef GLX_DIRECT_RENDERING 1901 pdraw = GetGLXDRIDrawable(gc->currentDpy, gc->currentDrawable); 1902 #endif 1903 1904 #ifdef GLX_DIRECT_RENDERING 1905 if (psc->driScreen && psc->driScreen->waitForMSC) { 1906 ret = psc->driScreen->waitForMSC(pdraw, 0, divisor, remainder, &ust, &msc, 1907 &sbc); 1908 *count = (unsigned) msc; 1909 return (ret == True) ? 0 : GLX_BAD_CONTEXT; 1910 } 1911 #endif 1912 1913 return GLX_BAD_CONTEXT; 1914 } 1915 1916 #endif /* GLX_USE_APPLEGL */ 1917 1918 /* 1919 ** GLX_SGIX_fbconfig 1920 ** Many of these functions are aliased to GLX 1.3 entry points in the 1921 ** GLX_functions table. 1922 */ 1923 1924 _X_EXPORT 1925 GLX_ALIAS(int, glXGetFBConfigAttribSGIX, 1926 (Display * dpy, GLXFBConfigSGIX config, int attribute, int *value), 1927 (dpy, config, attribute, value), glXGetFBConfigAttrib) 1928 1929 _X_EXPORT GLX_ALIAS(GLXFBConfigSGIX *, glXChooseFBConfigSGIX, 1930 (Display * dpy, int screen, int *attrib_list, 1931 int *nelements), (dpy, screen, attrib_list, nelements), 1932 glXChooseFBConfig) 1933 1934 _X_EXPORT GLX_ALIAS(XVisualInfo *, glXGetVisualFromFBConfigSGIX, 1935 (Display * dpy, GLXFBConfigSGIX config), 1936 (dpy, config), glXGetVisualFromFBConfig) 1937 1938 _X_EXPORT GLXPixmap 1939 glXCreateGLXPixmapWithConfigSGIX(Display * dpy, 1940 GLXFBConfigSGIX fbconfig, 1941 Pixmap pixmap) 1942 { 1943 #ifndef GLX_USE_APPLEGL 1944 xGLXVendorPrivateWithReplyReq *vpreq; 1945 xGLXCreateGLXPixmapWithConfigSGIXReq *req; 1946 GLXPixmap xid = None; 1947 CARD8 opcode; 1948 struct glx_screen *psc; 1949 #endif 1950 struct glx_config *config = (struct glx_config *) fbconfig; 1951 1952 1953 if ((dpy == NULL) || (config == NULL)) { 1954 return None; 1955 } 1956 #ifdef GLX_USE_APPLEGL 1957 if(apple_glx_pixmap_create(dpy, config->screen, pixmap, config)) 1958 return None; 1959 return pixmap; 1960 #else 1961 1962 psc = GetGLXScreenConfigs(dpy, config->screen); 1963 if ((psc != NULL) 1964 && __glXExtensionBitIsEnabled(psc, SGIX_fbconfig_bit)) { 1965 opcode = __glXSetupForCommand(dpy); 1966 if (!opcode) { 1967 return None; 1968 } 1969 1970 /* Send the glXCreateGLXPixmapWithConfigSGIX request */ 1971 LockDisplay(dpy); 1972 GetReqExtra(GLXVendorPrivateWithReply, 1973 sz_xGLXCreateGLXPixmapWithConfigSGIXReq - 1974 sz_xGLXVendorPrivateWithReplyReq, vpreq); 1975 req = (xGLXCreateGLXPixmapWithConfigSGIXReq *) vpreq; 1976 req->reqType = opcode; 1977 req->glxCode = X_GLXVendorPrivateWithReply; 1978 req->vendorCode = X_GLXvop_CreateGLXPixmapWithConfigSGIX; 1979 req->screen = config->screen; 1980 req->fbconfig = config->fbconfigID; 1981 req->pixmap = pixmap; 1982 req->glxpixmap = xid = XAllocID(dpy); 1983 UnlockDisplay(dpy); 1984 SyncHandle(); 1985 } 1986 1987 return xid; 1988 #endif 1989 } 1990 1991 _X_EXPORT GLXContext 1992 glXCreateContextWithConfigSGIX(Display * dpy, 1993 GLXFBConfigSGIX fbconfig, int renderType, 1994 GLXContext shareList, Bool allowDirect) 1995 { 1996 GLXContext gc = NULL; 1997 struct glx_config *config = (struct glx_config *) fbconfig; 1998 struct glx_screen *psc; 1999 2000 2001 if ((dpy == NULL) || (config == NULL)) { 2002 return None; 2003 } 2004 2005 psc = GetGLXScreenConfigs(dpy, config->screen); 2006 if ((psc != NULL) 2007 && __glXExtensionBitIsEnabled(psc, SGIX_fbconfig_bit)) { 2008 gc = CreateContext(dpy, config->fbconfigID, config, shareList, 2009 allowDirect, 2010 X_GLXvop_CreateContextWithConfigSGIX, renderType, 2011 config->screen); 2012 } 2013 2014 return gc; 2015 } 2016 2017 2018 _X_EXPORT GLXFBConfigSGIX 2019 glXGetFBConfigFromVisualSGIX(Display * dpy, XVisualInfo * vis) 2020 { 2021 struct glx_display *priv; 2022 struct glx_screen *psc = NULL; 2023 2024 if ((GetGLXPrivScreenConfig(dpy, vis->screen, &priv, &psc) == Success) 2025 && __glXExtensionBitIsEnabled(psc, SGIX_fbconfig_bit) 2026 && (psc->configs->fbconfigID != (int) GLX_DONT_CARE)) { 2027 return (GLXFBConfigSGIX) glx_config_find_visual(psc->configs, 2028 vis->visualid); 2029 } 2030 2031 return NULL; 2032 } 2033 2034 #ifndef GLX_USE_APPLEGL 2035 /* 2036 ** GLX_SGIX_swap_group 2037 */ 2038 static void 2039 __glXJoinSwapGroupSGIX(Display * dpy, GLXDrawable drawable, 2040 GLXDrawable member) 2041 { 2042 (void) dpy; 2043 (void) drawable; 2044 (void) member; 2045 } 2046 2047 2048 /* 2049 ** GLX_SGIX_swap_barrier 2050 */ 2051 static void 2052 __glXBindSwapBarrierSGIX(Display * dpy, GLXDrawable drawable, int barrier) 2053 { 2054 (void) dpy; 2055 (void) drawable; 2056 (void) barrier; 2057 } 2058 2059 static Bool 2060 __glXQueryMaxSwapBarriersSGIX(Display * dpy, int screen, int *max) 2061 { 2062 (void) dpy; 2063 (void) screen; 2064 (void) max; 2065 return False; 2066 } 2067 2068 2069 /* 2070 ** GLX_OML_sync_control 2071 */ 2072 static Bool 2073 __glXGetSyncValuesOML(Display * dpy, GLXDrawable drawable, 2074 int64_t * ust, int64_t * msc, int64_t * sbc) 2075 { 2076 struct glx_display * const priv = __glXInitialize(dpy); 2077 int ret; 2078 #ifdef GLX_DIRECT_RENDERING 2079 __GLXDRIdrawable *pdraw; 2080 #endif 2081 struct glx_screen *psc; 2082 2083 if (!priv) 2084 return False; 2085 2086 #ifdef GLX_DIRECT_RENDERING 2087 pdraw = GetGLXDRIDrawable(dpy, drawable); 2088 psc = pdraw ? pdraw->psc : NULL; 2089 if (pdraw && psc->driScreen->getDrawableMSC) { 2090 ret = psc->driScreen->getDrawableMSC(psc, pdraw, ust, msc, sbc); 2091 return ret; 2092 } 2093 #endif 2094 2095 return False; 2096 } 2097 2098 #if defined(GLX_DIRECT_RENDERING) && !defined(GLX_USE_APPLEGL) 2099 _X_HIDDEN GLboolean 2100 __glxGetMscRate(__GLXDRIdrawable *glxDraw, 2101 int32_t * numerator, int32_t * denominator) 2102 { 2103 #ifdef XF86VIDMODE 2104 struct glx_screen *psc; 2105 XF86VidModeModeLine mode_line; 2106 int dot_clock; 2107 int i; 2108 2109 psc = glxDraw->psc; 2110 if (XF86VidModeQueryVersion(psc->dpy, &i, &i) && 2111 XF86VidModeGetModeLine(psc->dpy, psc->scr, &dot_clock, &mode_line)) { 2112 unsigned n = dot_clock * 1000; 2113 unsigned d = mode_line.vtotal * mode_line.htotal; 2114 2115 # define V_INTERLACE 0x010 2116 # define V_DBLSCAN 0x020 2117 2118 if (mode_line.flags & V_INTERLACE) 2119 n *= 2; 2120 else if (mode_line.flags & V_DBLSCAN) 2121 d *= 2; 2122 2123 /* The OML_sync_control spec requires that if the refresh rate is a 2124 * whole number, that the returned numerator be equal to the refresh 2125 * rate and the denominator be 1. 2126 */ 2127 2128 if (n % d == 0) { 2129 n /= d; 2130 d = 1; 2131 } 2132 else { 2133 static const unsigned f[] = { 13, 11, 7, 5, 3, 2, 0 }; 2134 2135 /* This is a poor man's way to reduce a fraction. It's far from 2136 * perfect, but it will work well enough for this situation. 2137 */ 2138 2139 for (i = 0; f[i] != 0; i++) { 2140 while (n % f[i] == 0 && d % f[i] == 0) { 2141 d /= f[i]; 2142 n /= f[i]; 2143 } 2144 } 2145 } 2146 2147 *numerator = n; 2148 *denominator = d; 2149 2150 return True; 2151 } 2152 else 2153 #endif 2154 2155 return False; 2156 } 2157 #endif 2158 2159 /** 2160 * Determine the refresh rate of the specified drawable and display. 2161 * 2162 * \param dpy Display whose refresh rate is to be determined. 2163 * \param drawable Drawable whose refresh rate is to be determined. 2164 * \param numerator Numerator of the refresh rate. 2165 * \param demoninator Denominator of the refresh rate. 2166 * \return If the refresh rate for the specified display and drawable could 2167 * be calculated, True is returned. Otherwise False is returned. 2168 * 2169 * \note This function is implemented entirely client-side. A lot of other 2170 * functionality is required to export GLX_OML_sync_control, so on 2171 * XFree86 this function can be called for direct-rendering contexts 2172 * when GLX_OML_sync_control appears in the client extension string. 2173 */ 2174 2175 _X_HIDDEN GLboolean 2176 __glXGetMscRateOML(Display * dpy, GLXDrawable drawable, 2177 int32_t * numerator, int32_t * denominator) 2178 { 2179 #if defined( GLX_DIRECT_RENDERING ) && defined( XF86VIDMODE ) 2180 __GLXDRIdrawable *draw = GetGLXDRIDrawable(dpy, drawable); 2181 2182 if (draw == NULL) 2183 return False; 2184 2185 return __glxGetMscRate(draw, numerator, denominator); 2186 #else 2187 (void) dpy; 2188 (void) drawable; 2189 (void) numerator; 2190 (void) denominator; 2191 #endif 2192 return False; 2193 } 2194 2195 2196 static int64_t 2197 __glXSwapBuffersMscOML(Display * dpy, GLXDrawable drawable, 2198 int64_t target_msc, int64_t divisor, int64_t remainder) 2199 { 2200 struct glx_context *gc = __glXGetCurrentContext(); 2201 #ifdef GLX_DIRECT_RENDERING 2202 __GLXDRIdrawable *pdraw = GetGLXDRIDrawable(dpy, drawable); 2203 struct glx_screen *psc = pdraw ? pdraw->psc : NULL; 2204 #endif 2205 2206 if (!gc) /* no GLX for this */ 2207 return -1; 2208 2209 #ifdef GLX_DIRECT_RENDERING 2210 if (!pdraw || !gc->isDirect) 2211 return -1; 2212 #endif 2213 2214 /* The OML_sync_control spec says these should "generate a GLX_BAD_VALUE 2215 * error", but it also says "It [glXSwapBuffersMscOML] will return a value 2216 * of -1 if the function failed because of errors detected in the input 2217 * parameters" 2218 */ 2219 if (divisor < 0 || remainder < 0 || target_msc < 0) 2220 return -1; 2221 if (divisor > 0 && remainder >= divisor) 2222 return -1; 2223 2224 if (target_msc == 0 && divisor == 0 && remainder == 0) 2225 remainder = 1; 2226 2227 #ifdef GLX_DIRECT_RENDERING 2228 if (psc->driScreen && psc->driScreen->swapBuffers) 2229 return (*psc->driScreen->swapBuffers)(pdraw, target_msc, divisor, 2230 remainder); 2231 #endif 2232 2233 return -1; 2234 } 2235 2236 2237 static Bool 2238 __glXWaitForMscOML(Display * dpy, GLXDrawable drawable, 2239 int64_t target_msc, int64_t divisor, 2240 int64_t remainder, int64_t * ust, 2241 int64_t * msc, int64_t * sbc) 2242 { 2243 #ifdef GLX_DIRECT_RENDERING 2244 __GLXDRIdrawable *pdraw = GetGLXDRIDrawable(dpy, drawable); 2245 struct glx_screen *psc = pdraw ? pdraw->psc : NULL; 2246 int ret; 2247 #endif 2248 2249 2250 /* The OML_sync_control spec says these should "generate a GLX_BAD_VALUE 2251 * error", but the return type in the spec is Bool. 2252 */ 2253 if (divisor < 0 || remainder < 0 || target_msc < 0) 2254 return False; 2255 if (divisor > 0 && remainder >= divisor) 2256 return False; 2257 2258 #ifdef GLX_DIRECT_RENDERING 2259 if (pdraw && psc->driScreen && psc->driScreen->waitForMSC) { 2260 ret = psc->driScreen->waitForMSC(pdraw, target_msc, divisor, remainder, 2261 ust, msc, sbc); 2262 return ret; 2263 } 2264 #endif 2265 2266 return False; 2267 } 2268 2269 2270 static Bool 2271 __glXWaitForSbcOML(Display * dpy, GLXDrawable drawable, 2272 int64_t target_sbc, int64_t * ust, 2273 int64_t * msc, int64_t * sbc) 2274 { 2275 #ifdef GLX_DIRECT_RENDERING 2276 __GLXDRIdrawable *pdraw = GetGLXDRIDrawable(dpy, drawable); 2277 struct glx_screen *psc = pdraw ? pdraw->psc : NULL; 2278 int ret; 2279 #endif 2280 2281 /* The OML_sync_control spec says this should "generate a GLX_BAD_VALUE 2282 * error", but the return type in the spec is Bool. 2283 */ 2284 if (target_sbc < 0) 2285 return False; 2286 2287 #ifdef GLX_DIRECT_RENDERING 2288 if (pdraw && psc->driScreen && psc->driScreen->waitForSBC) { 2289 ret = psc->driScreen->waitForSBC(pdraw, target_sbc, ust, msc, sbc); 2290 return ret; 2291 } 2292 #endif 2293 2294 return False; 2295 } 2296 2297 /*@}*/ 2298 2299 2300 /** 2301 * Mesa extension stubs. These will help reduce portability problems. 2302 */ 2303 /*@{*/ 2304 2305 /** 2306 * Release all buffers associated with the specified GLX drawable. 2307 * 2308 * \todo 2309 * This function was intended for stand-alone Mesa. The issue there is that 2310 * the library doesn't get any notification when a window is closed. In 2311 * DRI there is a similar but slightly different issue. When GLX 1.3 is 2312 * supported, there are 3 different functions to destroy a drawable. It 2313 * should be possible to create GLX protocol (or have it determine which 2314 * protocol to use based on the type of the drawable) to have one function 2315 * do the work of 3. For the direct-rendering case, this function could 2316 * just call the driver's \c __DRIdrawableRec::destroyDrawable function. 2317 * This would reduce the frequency with which \c __driGarbageCollectDrawables 2318 * would need to be used. This really should be done as part of the new DRI 2319 * interface work. 2320 * 2321 * \sa http://oss.sgi.com/projects/ogl-sample/registry/MESA/release_buffers.txt 2322 * __driGarbageCollectDrawables 2323 * glXDestroyGLXPixmap 2324 * glXDestroyPbuffer glXDestroyPixmap glXDestroyWindow 2325 * glXDestroyGLXPbufferSGIX glXDestroyGLXVideoSourceSGIX 2326 */ 2327 static Bool 2328 __glXReleaseBuffersMESA(Display * dpy, GLXDrawable d) 2329 { 2330 (void) dpy; 2331 (void) d; 2332 return False; 2333 } 2334 2335 2336 _X_EXPORT GLXPixmap 2337 glXCreateGLXPixmapMESA(Display * dpy, XVisualInfo * visual, 2338 Pixmap pixmap, Colormap cmap) 2339 { 2340 (void) dpy; 2341 (void) visual; 2342 (void) pixmap; 2343 (void) cmap; 2344 return 0; 2345 } 2346 2347 /*@}*/ 2348 2349 2350 /** 2351 * GLX_MESA_copy_sub_buffer 2352 */ 2353 #define X_GLXvop_CopySubBufferMESA 5154 /* temporary */ 2354 static void 2355 __glXCopySubBufferMESA(Display * dpy, GLXDrawable drawable, 2356 int x, int y, int width, int height) 2357 { 2358 xGLXVendorPrivateReq *req; 2359 struct glx_context *gc; 2360 GLXContextTag tag; 2361 CARD32 *drawable_ptr; 2362 INT32 *x_ptr, *y_ptr, *w_ptr, *h_ptr; 2363 CARD8 opcode; 2364 2365 #if defined(GLX_DIRECT_RENDERING) && !defined(GLX_USE_APPLEGL) 2366 __GLXDRIdrawable *pdraw = GetGLXDRIDrawable(dpy, drawable); 2367 if (pdraw != NULL) { 2368 struct glx_screen *psc = pdraw->psc; 2369 if (psc->driScreen->copySubBuffer != NULL) { 2370 glFlush(); 2371 (*psc->driScreen->copySubBuffer) (pdraw, x, y, width, height); 2372 } 2373 2374 return; 2375 } 2376 #endif 2377 2378 opcode = __glXSetupForCommand(dpy); 2379 if (!opcode) 2380 return; 2381 2382 /* 2383 ** The calling thread may or may not have a current context. If it 2384 ** does, send the context tag so the server can do a flush. 2385 */ 2386 gc = __glXGetCurrentContext(); 2387 if ((gc != NULL) && (dpy == gc->currentDpy) && 2388 ((drawable == gc->currentDrawable) || 2389 (drawable == gc->currentReadable))) { 2390 tag = gc->currentContextTag; 2391 } 2392 else { 2393 tag = 0; 2394 } 2395 2396 LockDisplay(dpy); 2397 GetReqExtra(GLXVendorPrivate, sizeof(CARD32) + sizeof(INT32) * 4, req); 2398 req->reqType = opcode; 2399 req->glxCode = X_GLXVendorPrivate; 2400 req->vendorCode = X_GLXvop_CopySubBufferMESA; 2401 req->contextTag = tag; 2402 2403 drawable_ptr = (CARD32 *) (req + 1); 2404 x_ptr = (INT32 *) (drawable_ptr + 1); 2405 y_ptr = (INT32 *) (drawable_ptr + 2); 2406 w_ptr = (INT32 *) (drawable_ptr + 3); 2407 h_ptr = (INT32 *) (drawable_ptr + 4); 2408 2409 *drawable_ptr = drawable; 2410 *x_ptr = x; 2411 *y_ptr = y; 2412 *w_ptr = width; 2413 *h_ptr = height; 2414 2415 UnlockDisplay(dpy); 2416 SyncHandle(); 2417 } 2418 2419 /*@{*/ 2420 static void 2421 __glXBindTexImageEXT(Display * dpy, 2422 GLXDrawable drawable, int buffer, const int *attrib_list) 2423 { 2424 struct glx_context *gc = __glXGetCurrentContext(); 2425 2426 if (gc == NULL || gc->vtable->bind_tex_image == NULL) 2427 return; 2428 2429 gc->vtable->bind_tex_image(dpy, drawable, buffer, attrib_list); 2430 } 2431 2432 static void 2433 __glXReleaseTexImageEXT(Display * dpy, GLXDrawable drawable, int buffer) 2434 { 2435 struct glx_context *gc = __glXGetCurrentContext(); 2436 2437 if (gc == NULL || gc->vtable->release_tex_image == NULL) 2438 return; 2439 2440 gc->vtable->release_tex_image(dpy, drawable, buffer); 2441 } 2442 2443 /*@}*/ 2444 2445 #endif /* GLX_USE_APPLEGL */ 2446 2447 /** 2448 * \c strdup is actually not a standard ANSI C or POSIX routine. 2449 * Irix will not define it if ANSI mode is in effect. 2450 * 2451 * \sa strdup 2452 */ 2453 _X_HIDDEN char * 2454 __glXstrdup(const char *str) 2455 { 2456 char *copy; 2457 copy = (char *) Xmalloc(strlen(str) + 1); 2458 if (!copy) 2459 return NULL; 2460 strcpy(copy, str); 2461 return copy; 2462 } 2463 2464 /* 2465 ** glXGetProcAddress support 2466 */ 2467 2468 struct name_address_pair 2469 { 2470 const char *Name; 2471 GLvoid *Address; 2472 }; 2473 2474 #define GLX_FUNCTION(f) { # f, (GLvoid *) f } 2475 #define GLX_FUNCTION2(n,f) { # n, (GLvoid *) f } 2476 2477 static const struct name_address_pair GLX_functions[] = { 2478 /*** GLX_VERSION_1_0 ***/ 2479 GLX_FUNCTION(glXChooseVisual), 2480 GLX_FUNCTION(glXCopyContext), 2481 GLX_FUNCTION(glXCreateContext), 2482 GLX_FUNCTION(glXCreateGLXPixmap), 2483 GLX_FUNCTION(glXDestroyContext), 2484 GLX_FUNCTION(glXDestroyGLXPixmap), 2485 GLX_FUNCTION(glXGetConfig), 2486 GLX_FUNCTION(glXGetCurrentContext), 2487 GLX_FUNCTION(glXGetCurrentDrawable), 2488 GLX_FUNCTION(glXIsDirect), 2489 GLX_FUNCTION(glXMakeCurrent), 2490 GLX_FUNCTION(glXQueryExtension), 2491 GLX_FUNCTION(glXQueryVersion), 2492 GLX_FUNCTION(glXSwapBuffers), 2493 GLX_FUNCTION(glXUseXFont), 2494 GLX_FUNCTION(glXWaitGL), 2495 GLX_FUNCTION(glXWaitX), 2496 2497 /*** GLX_VERSION_1_1 ***/ 2498 GLX_FUNCTION(glXGetClientString), 2499 GLX_FUNCTION(glXQueryExtensionsString), 2500 GLX_FUNCTION(glXQueryServerString), 2501 2502 /*** GLX_VERSION_1_2 ***/ 2503 GLX_FUNCTION(glXGetCurrentDisplay), 2504 2505 /*** GLX_VERSION_1_3 ***/ 2506 GLX_FUNCTION(glXChooseFBConfig), 2507 GLX_FUNCTION(glXCreateNewContext), 2508 GLX_FUNCTION(glXCreatePbuffer), 2509 GLX_FUNCTION(glXCreatePixmap), 2510 GLX_FUNCTION(glXCreateWindow), 2511 GLX_FUNCTION(glXDestroyPbuffer), 2512 GLX_FUNCTION(glXDestroyPixmap), 2513 GLX_FUNCTION(glXDestroyWindow), 2514 GLX_FUNCTION(glXGetCurrentReadDrawable), 2515 GLX_FUNCTION(glXGetFBConfigAttrib), 2516 GLX_FUNCTION(glXGetFBConfigs), 2517 GLX_FUNCTION(glXGetSelectedEvent), 2518 GLX_FUNCTION(glXGetVisualFromFBConfig), 2519 GLX_FUNCTION(glXMakeContextCurrent), 2520 GLX_FUNCTION(glXQueryContext), 2521 GLX_FUNCTION(glXQueryDrawable), 2522 GLX_FUNCTION(glXSelectEvent), 2523 2524 #ifndef GLX_USE_APPLEGL 2525 /*** GLX_SGI_swap_control ***/ 2526 GLX_FUNCTION2(glXSwapIntervalSGI, __glXSwapIntervalSGI), 2527 2528 /*** GLX_SGI_video_sync ***/ 2529 GLX_FUNCTION2(glXGetVideoSyncSGI, __glXGetVideoSyncSGI), 2530 GLX_FUNCTION2(glXWaitVideoSyncSGI, __glXWaitVideoSyncSGI), 2531 2532 /*** GLX_SGI_make_current_read ***/ 2533 GLX_FUNCTION2(glXMakeCurrentReadSGI, glXMakeContextCurrent), 2534 GLX_FUNCTION2(glXGetCurrentReadDrawableSGI, glXGetCurrentReadDrawable), 2535 2536 /*** GLX_EXT_import_context ***/ 2537 GLX_FUNCTION(glXFreeContextEXT), 2538 GLX_FUNCTION(glXGetContextIDEXT), 2539 GLX_FUNCTION2(glXGetCurrentDisplayEXT, glXGetCurrentDisplay), 2540 GLX_FUNCTION(glXImportContextEXT), 2541 GLX_FUNCTION2(glXQueryContextInfoEXT, glXQueryContext), 2542 #endif 2543 2544 /*** GLX_SGIX_fbconfig ***/ 2545 GLX_FUNCTION2(glXGetFBConfigAttribSGIX, glXGetFBConfigAttrib), 2546 GLX_FUNCTION2(glXChooseFBConfigSGIX, glXChooseFBConfig), 2547 GLX_FUNCTION(glXCreateGLXPixmapWithConfigSGIX), 2548 GLX_FUNCTION(glXCreateContextWithConfigSGIX), 2549 GLX_FUNCTION2(glXGetVisualFromFBConfigSGIX, glXGetVisualFromFBConfig), 2550 GLX_FUNCTION(glXGetFBConfigFromVisualSGIX), 2551 2552 #ifndef GLX_USE_APPLEGL 2553 /*** GLX_SGIX_pbuffer ***/ 2554 GLX_FUNCTION(glXCreateGLXPbufferSGIX), 2555 GLX_FUNCTION(glXDestroyGLXPbufferSGIX), 2556 GLX_FUNCTION(glXQueryGLXPbufferSGIX), 2557 GLX_FUNCTION(glXSelectEventSGIX), 2558 GLX_FUNCTION(glXGetSelectedEventSGIX), 2559 2560 /*** GLX_SGIX_swap_group ***/ 2561 GLX_FUNCTION2(glXJoinSwapGroupSGIX, __glXJoinSwapGroupSGIX), 2562 2563 /*** GLX_SGIX_swap_barrier ***/ 2564 GLX_FUNCTION2(glXBindSwapBarrierSGIX, __glXBindSwapBarrierSGIX), 2565 GLX_FUNCTION2(glXQueryMaxSwapBarriersSGIX, __glXQueryMaxSwapBarriersSGIX), 2566 2567 /*** GLX_MESA_copy_sub_buffer ***/ 2568 GLX_FUNCTION2(glXCopySubBufferMESA, __glXCopySubBufferMESA), 2569 2570 /*** GLX_MESA_pixmap_colormap ***/ 2571 GLX_FUNCTION(glXCreateGLXPixmapMESA), 2572 2573 /*** GLX_MESA_release_buffers ***/ 2574 GLX_FUNCTION2(glXReleaseBuffersMESA, __glXReleaseBuffersMESA), 2575 2576 /*** GLX_MESA_swap_control ***/ 2577 GLX_FUNCTION2(glXSwapIntervalMESA, __glXSwapIntervalMESA), 2578 GLX_FUNCTION2(glXGetSwapIntervalMESA, __glXGetSwapIntervalMESA), 2579 #endif 2580 2581 /*** GLX_ARB_get_proc_address ***/ 2582 GLX_FUNCTION(glXGetProcAddressARB), 2583 2584 /*** GLX 1.4 ***/ 2585 GLX_FUNCTION2(glXGetProcAddress, glXGetProcAddressARB), 2586 2587 #ifndef GLX_USE_APPLEGL 2588 /*** GLX_OML_sync_control ***/ 2589 GLX_FUNCTION2(glXWaitForSbcOML, __glXWaitForSbcOML), 2590 GLX_FUNCTION2(glXWaitForMscOML, __glXWaitForMscOML), 2591 GLX_FUNCTION2(glXSwapBuffersMscOML, __glXSwapBuffersMscOML), 2592 GLX_FUNCTION2(glXGetMscRateOML, __glXGetMscRateOML), 2593 GLX_FUNCTION2(glXGetSyncValuesOML, __glXGetSyncValuesOML), 2594 2595 /*** GLX_EXT_texture_from_pixmap ***/ 2596 GLX_FUNCTION2(glXBindTexImageEXT, __glXBindTexImageEXT), 2597 GLX_FUNCTION2(glXReleaseTexImageEXT, __glXReleaseTexImageEXT), 2598 #endif 2599 2600 #if defined(GLX_DIRECT_RENDERING) && !defined(GLX_USE_APPLEGL) 2601 /*** DRI configuration ***/ 2602 GLX_FUNCTION(glXGetScreenDriver), 2603 GLX_FUNCTION(glXGetDriverConfig), 2604 #endif 2605 2606 /*** GLX_ARB_create_context and GLX_ARB_create_context_profile ***/ 2607 GLX_FUNCTION(glXCreateContextAttribsARB), 2608 2609 {NULL, NULL} /* end of list */ 2610 }; 2611 2612 static const GLvoid * 2613 get_glx_proc_address(const char *funcName) 2614 { 2615 GLuint i; 2616 2617 /* try static functions */ 2618 for (i = 0; GLX_functions[i].Name; i++) { 2619 if (strcmp(GLX_functions[i].Name, funcName) == 0) 2620 return GLX_functions[i].Address; 2621 } 2622 2623 return NULL; 2624 } 2625 2626 /** 2627 * Get the address of a named GL function. This is the pre-GLX 1.4 name for 2628 * \c glXGetProcAddress. 2629 * 2630 * \param procName Name of a GL or GLX function. 2631 * \returns A pointer to the named function 2632 * 2633 * \sa glXGetProcAddress 2634 */ 2635 _X_EXPORT void (*glXGetProcAddressARB(const GLubyte * procName)) (void) 2636 { 2637 typedef void (*gl_function) (void); 2638 gl_function f; 2639 2640 2641 /* Search the table of GLX and internal functions first. If that 2642 * fails and the supplied name could be a valid core GL name, try 2643 * searching the core GL function table. This check is done to prevent 2644 * DRI based drivers from searching the core GL function table for 2645 * internal API functions. 2646 */ 2647 f = (gl_function) get_glx_proc_address((const char *) procName); 2648 if ((f == NULL) && (procName[0] == 'g') && (procName[1] == 'l') 2649 && (procName[2] != 'X')) { 2650 #ifdef GLX_SHARED_GLAPI 2651 f = (gl_function) __indirect_get_proc_address((const char *) procName); 2652 #endif 2653 if (!f) 2654 f = (gl_function) _glapi_get_proc_address((const char *) procName); 2655 if (!f) { 2656 struct glx_context *gc = __glXGetCurrentContext(); 2657 2658 if (gc != NULL && gc->vtable->get_proc_address != NULL) 2659 f = gc->vtable->get_proc_address((const char *) procName); 2660 } 2661 } 2662 return f; 2663 } 2664 2665 /** 2666 * Get the address of a named GL function. This is the GLX 1.4 name for 2667 * \c glXGetProcAddressARB. 2668 * 2669 * \param procName Name of a GL or GLX function. 2670 * \returns A pointer to the named function 2671 * 2672 * \sa glXGetProcAddressARB 2673 */ 2674 _X_EXPORT void (*glXGetProcAddress(const GLubyte * procName)) (void) 2675 #if defined(__GNUC__) && !defined(GLX_ALIAS_UNSUPPORTED) 2676 __attribute__ ((alias("glXGetProcAddressARB"))); 2677 #else 2678 { 2679 return glXGetProcAddressARB(procName); 2680 } 2681 #endif /* __GNUC__ */ 2682 2683 2684 #if defined(GLX_DIRECT_RENDERING) && !defined(GLX_USE_APPLEGL) 2685 /** 2686 * Get the unadjusted system time (UST). Currently, the UST is measured in 2687 * microseconds since Epoc. The actual resolution of the UST may vary from 2688 * system to system, and the units may vary from release to release. 2689 * Drivers should not call this function directly. They should instead use 2690 * \c glXGetProcAddress to obtain a pointer to the function. 2691 * 2692 * \param ust Location to store the 64-bit UST 2693 * \returns Zero on success or a negative errno value on failure. 2694 * 2695 * \sa glXGetProcAddress, PFNGLXGETUSTPROC 2696 * 2697 * \since Internal API version 20030317. 2698 */ 2699 _X_HIDDEN int 2700 __glXGetUST(int64_t * ust) 2701 { 2702 struct timeval tv; 2703 2704 if (ust == NULL) { 2705 return -EFAULT; 2706 } 2707 2708 if (gettimeofday(&tv, NULL) == 0) { 2709 ust[0] = (tv.tv_sec * 1000000) + tv.tv_usec; 2710 return 0; 2711 } 2712 else { 2713 return -errno; 2714 } 2715 } 2716 #endif /* GLX_DIRECT_RENDERING */ 2717
