/* $Id: fakedri_drv.c 43273 2012-09-10 19:29:40Z vboxsync $ */ /** @file * VBox OpenGL DRI driver functions */ /* * Copyright (C) 2009 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ #define _GNU_SOURCE 1 #include "cr_error.h" #include "cr_gl.h" #include "cr_mem.h" #include "stub.h" #include "fakedri_drv.h" #include "dri_glx.h" #include "iprt/mem.h" #include "iprt/err.h" #include #include #include /** X server message type definitions. */ typedef enum { X_PROBED, /* Value was probed */ X_CONFIG, /* Value was given in the config file */ X_DEFAULT, /* Value is a default */ X_CMDLINE, /* Value was given on the command line */ X_NOTICE, /* Notice */ X_ERROR, /* Error message */ X_WARNING, /* Warning message */ X_INFO, /* Informational message */ X_NONE, /* No prefix */ X_NOT_IMPLEMENTED, /* Not implemented */ X_UNKNOWN = -1 /* unknown -- this must always be last */ } MessageType; #define VBOX_NO_MESA_PATCH_REPORTS //#define DEBUG_DRI_CALLS //@todo this could be different... #ifdef RT_ARCH_AMD64 # define DRI_DEFAULT_DRIVER_DIR "/usr/lib64/dri:/usr/lib/dri:/usr/lib/x86_64-linux-gnu/dri" # define DRI_XORG_DRV_DIR "/usr/lib/xorg/modules/drivers/" #else # define DRI_DEFAULT_DRIVER_DIR "/usr/lib/dri:/usr/lib/i386-linux-gnu/dri" # define DRI_XORG_DRV_DIR "/usr/lib/xorg/modules/drivers/" #endif #ifdef DEBUG_DRI_CALLS #define SWDRI_SHOWNAME(pext, func) \ crDebug("SWDRI: sc %s->%s", #pext, #func) #else #define SWDRI_SHOWNAME(pext, func) #endif #define SWDRI_SAFECALL(pext, func, ...) \ SWDRI_SHOWNAME(pext, func); \ if (pext && pext->func){ \ (*pext->func)(__VA_ARGS__); \ } else { \ crDebug("swcore_call NULL for "#func); \ } #define SWDRI_SAFERET(pext, func, ...) \ SWDRI_SHOWNAME(pext, func); \ if (pext && pext->func){ \ return (*pext->func)(__VA_ARGS__); \ } else { \ crDebug("swcore_call NULL for "#func); \ return 0; \ } #define SWDRI_SAFERET_CORE(func, ...) SWDRI_SAFERET(gpSwDriCoreExternsion, func, __VA_ARGS__) #define SWDRI_SAFECALL_CORE(func, ...) SWDRI_SAFECALL(gpSwDriCoreExternsion, func, __VA_ARGS__) #define SWDRI_SAFERET_SWRAST(func, ...) SWDRI_SAFERET(gpSwDriSwrastExtension, func, __VA_ARGS__) #define SWDRI_SAFECALL_SWRAST(func, ...) SWDRI_SAFECALL(gpSwDriSwrastExtension, func, __VA_ARGS__) #ifndef PAGESIZE #define PAGESIZE 4096 #endif #ifdef RT_ARCH_AMD64 # define DRI_ELFSYM Elf64_Sym #else # define DRI_ELFSYM Elf32_Sym #endif #ifdef RT_ARCH_AMD64 typedef struct _FAKEDRI_PatchNode { const char* psFuncName; void *pDstStart, *pDstEnd; const void *pSrcStart, *pSrcEnd; struct _FAKEDRI_PatchNode *pNext; } FAKEDRI_PatchNode; static FAKEDRI_PatchNode *g_pFreeList=NULL, *g_pRepatchList=NULL; #endif static struct _glapi_table* vbox_glapi_table = NULL; fakedri_glxapi_table glxim; static const __DRIextension **gppSwDriExternsion = NULL; static const __DRIcoreExtension *gpSwDriCoreExternsion = NULL; static const __DRIswrastExtension *gpSwDriSwrastExtension = NULL; extern const __DRIextension * __driDriverExtensions[]; #define VBOX_SET_MESA_FUNC(table, name, func) \ if (_glapi_get_proc_offset(name)>=0) SET_by_offset(table, _glapi_get_proc_offset(name), func); \ else crWarning("%s not found in mesa table", name) #define GLAPI_ENTRY(Func) VBOX_SET_MESA_FUNC(vbox_glapi_table, "gl"#Func, cr_gl##Func); static void vboxPatchMesaExport(const char* psFuncName, const void *pStart, const void *pEnd); static void vboxPatchMesaGLAPITable() { void *pGLTable; pGLTable = (void *)_glapi_get_dispatch(); vbox_glapi_table = crAlloc(_glapi_get_dispatch_table_size() * sizeof (void *)); if (!vbox_glapi_table) { crError("Not enough memory to allocate dispatch table"); } crMemcpy(vbox_glapi_table, pGLTable, _glapi_get_dispatch_table_size() * sizeof (void *)); #include "fakedri_glfuncsList.h" VBOX_SET_MESA_FUNC(vbox_glapi_table, "glBlendEquationSeparateEXT", cr_glBlendEquationSeparate); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glSampleMaskSGIS", cr_glSampleMaskEXT); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glSamplePatternSGIS", cr_glSamplePatternEXT); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos2dMESA", cr_glWindowPos2d); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos2dvMESA", cr_glWindowPos2dv); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos2fMESA", cr_glWindowPos2f); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos2fvMESA", cr_glWindowPos2fv); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos2iMESA", cr_glWindowPos2i); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos2ivMESA", cr_glWindowPos2iv); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos2sMESA", cr_glWindowPos2s); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos2svMESA", cr_glWindowPos2sv); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos3dMESA", cr_glWindowPos3d); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos3dvMESA", cr_glWindowPos3dv); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos3fMESA", cr_glWindowPos3f); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos3fvMESA", cr_glWindowPos3fv); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos3iMESA", cr_glWindowPos3i); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos3ivMESA", cr_glWindowPos3iv); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos3sMESA", cr_glWindowPos3s); VBOX_SET_MESA_FUNC(vbox_glapi_table, "glWindowPos3svMESA", cr_glWindowPos3sv); _glapi_set_dispatch(vbox_glapi_table); }; #undef GLAPI_ENTRY #define GLXAPI_ENTRY(Func) pGLXTable->Func = VBOXGLXTAG(glX##Func); static void vboxFillGLXAPITable(fakedri_glxapi_table *pGLXTable) { #include "fakedri_glxfuncsList.h" } #undef GLXAPI_ENTRY static void vboxApplyPatch(const char* psFuncName, void *pDst, const void *pSrc, unsigned long size) { void *alPatch; int rv; /* Get aligned start address we're going to patch*/ alPatch = (void*) ((uintptr_t)pDst & ~(uintptr_t)(PAGESIZE-1)); #ifndef VBOX_NO_MESA_PATCH_REPORTS crDebug("MProtecting: %p, %li", alPatch, pDst-alPatch+size); #endif /* Get write access to mesa functions */ rv = RTMemProtect(alPatch, pDst-alPatch+size, RTMEM_PROT_READ|RTMEM_PROT_WRITE|RTMEM_PROT_EXEC); if (RT_FAILURE(rv)) { crError("mprotect failed with %x (%s)", rv, psFuncName); } #ifndef VBOX_NO_MESA_PATCH_REPORTS crDebug("Writing %li bytes to %p from %p", size, pDst, pSrc); #endif crMemcpy(pDst, pSrc, size); /*@todo Restore the protection, probably have to check what was it before us...*/ rv = RTMemProtect(alPatch, pDst-alPatch+size, RTMEM_PROT_READ|RTMEM_PROT_EXEC); if (RT_FAILURE(rv)) { crError("mprotect2 failed with %x (%s)", rv, psFuncName); } } #define FAKEDRI_JMP64_PATCH_SIZE 13 static void vboxPatchMesaExport(const char* psFuncName, const void *pStart, const void *pEnd) { Dl_info dlip; DRI_ELFSYM* sym=0; int rv; void *alPatch; void *pMesaEntry; char patch[FAKEDRI_JMP64_PATCH_SIZE]; void *shift; int ignore_size=false; #ifndef VBOX_NO_MESA_PATCH_REPORTS crDebug("\nvboxPatchMesaExport: %s", psFuncName); #endif pMesaEntry = dlsym(RTLD_DEFAULT, psFuncName); if (!pMesaEntry) { crDebug("%s not defined in current scope, are we being loaded by mesa's libGL.so?", psFuncName); return; } rv = dladdr1(pMesaEntry, &dlip, (void**)&sym, RTLD_DL_SYMENT); if (!rv || !sym) { crError("Failed to get size for %p(%s)", pMesaEntry, psFuncName); return; } #if VBOX_OGL_GLX_USE_CSTUBS { Dl_info dlip1; DRI_ELFSYM* sym1=0; int rv; rv = dladdr1(pStart, &dlip1, (void**)&sym1, RTLD_DL_SYMENT); if (!rv || !sym1) { crError("Failed to get size for vbox %p", pStart); return; } pEnd = pStart + sym1->st_size; # ifndef VBOX_NO_MESA_PATCH_REPORTS crDebug("VBox Entry: %p, start: %p(%s:%s), size: %li", pStart, dlip1.dli_saddr, dlip1.dli_fname, dlip1.dli_sname, sym1->st_size); # endif } #endif #ifndef VBOX_NO_MESA_PATCH_REPORTS crDebug("Mesa Entry: %p, start: %p(%s:%s), size: %li", pMesaEntry, dlip.dli_saddr, dlip.dli_fname, dlip.dli_sname, sym->st_size); crDebug("Vbox code: start: %p, end %p, size: %li", pStart, pEnd, pEnd-pStart); #endif #ifndef VBOX_OGL_GLX_USE_CSTUBS if (sym->st_size<(pEnd-pStart)) #endif { #ifdef RT_ARCH_AMD64 int64_t offset; #endif /* Try to insert 5 bytes jmp/jmpq to our stub code */ if (sym->st_size<5) { /*@todo we don't really know the size of targeted static function, but it's long enough in practice. We will also patch same place twice, but it's ok.*/ if (!crStrcmp(psFuncName, "glXDestroyContext") || !crStrcmp(psFuncName, "glXFreeContextEXT")) { if (((unsigned char*)dlip.dli_saddr)[0]==0xEB) { /*it's a rel8 jmp, so we're going to patch the place it targets instead of jmp itself*/ dlip.dli_saddr = (void*) ((intptr_t)dlip.dli_saddr + ((char*)dlip.dli_saddr)[1] + 2); ignore_size = true; } else { crError("Can't patch size is too small.(%s)", psFuncName); return; } } else if (!crStrcmp(psFuncName, "glXCreateGLXPixmapMESA")) { /*@todo it's just a return 0, which we're fine with for now*/ return; } else { crError("Can't patch size is too small.(%s)", psFuncName); return; } } shift = (void*)((intptr_t)pStart-((intptr_t)dlip.dli_saddr+5)); #ifdef RT_ARCH_AMD64 offset = (intptr_t)shift; if (offset>INT32_MAX || offsetst_size>=FAKEDRI_JMP64_PATCH_SIZE || ignore_size) { # ifndef VBOX_NO_MESA_PATCH_REPORTS crDebug("Inserting movq/jmp instead"); # endif /*add 64bit abs jmp*/ patch[0] = 0x49; /*movq %r11,imm64*/ patch[1] = 0xBB; crMemcpy(&patch[2], &pStart, 8); patch[10] = 0x41; /*jmp *%r11*/ patch[11] = 0xFF; patch[12] = 0xE3; pStart = &patch[0]; pEnd = &patch[FAKEDRI_JMP64_PATCH_SIZE]; } else { FAKEDRI_PatchNode *pNode; # ifndef VBOX_NO_MESA_PATCH_REPORTS crDebug("Can't patch offset is too big. Pushing for 2nd pass(%s)", psFuncName); # endif /*Add patch node to repatch with chain jmps in 2nd pass*/ pNode = (FAKEDRI_PatchNode *)crAlloc(sizeof(FAKEDRI_PatchNode)); if (!pNode) { crError("Not enough memory."); return; } pNode->psFuncName = psFuncName; pNode->pDstStart = dlip.dli_saddr; pNode->pDstEnd = dlip.dli_saddr+sym->st_size; pNode->pSrcStart = pStart; pNode->pSrcEnd = pEnd; pNode->pNext = g_pRepatchList; g_pRepatchList = pNode; return; } } else #endif { #ifndef VBOX_NO_MESA_PATCH_REPORTS crDebug("Inserting jmp[q] with shift %p instead", shift); #endif patch[0] = 0xE9; crMemcpy(&patch[1], &shift, 4); pStart = &patch[0]; pEnd = &patch[5]; } } vboxApplyPatch(psFuncName, dlip.dli_saddr, pStart, pEnd-pStart); #ifdef RT_ARCH_AMD64 /*Add rest of mesa function body to free list*/ if (sym->st_size-(pEnd-pStart)>=FAKEDRI_JMP64_PATCH_SIZE) { FAKEDRI_PatchNode *pNode = (FAKEDRI_PatchNode *)crAlloc(sizeof(FAKEDRI_PatchNode)); if (pNode) { pNode->psFuncName = psFuncName; pNode->pDstStart = dlip.dli_saddr+(pEnd-pStart); pNode->pDstEnd = dlip.dli_saddr+sym->st_size; pNode->pSrcStart = dlip.dli_saddr; pNode->pSrcEnd = NULL; pNode->pNext = g_pFreeList; g_pFreeList = pNode; # ifndef VBOX_NO_MESA_PATCH_REPORTS crDebug("Added free node %s, func start=%p, free start=%p, size=%#lx", psFuncName, pNode->pSrcStart, pNode->pDstStart, pNode->pDstEnd-pNode->pDstStart); # endif } } #endif } #ifdef RT_ARCH_AMD64 static void vboxRepatchMesaExports(void) { FAKEDRI_PatchNode *pFreeNode, *pPatchNode; int64_t offset; char patch[FAKEDRI_JMP64_PATCH_SIZE]; pPatchNode = g_pRepatchList; while (pPatchNode) { # ifndef VBOX_NO_MESA_PATCH_REPORTS crDebug("\nvboxRepatchMesaExports %s", pPatchNode->psFuncName); # endif /*find free place in mesa functions, to place 64bit jump to our stub code*/ pFreeNode = g_pFreeList; while (pFreeNode) { if (pFreeNode->pDstEnd-pFreeNode->pDstStart>=FAKEDRI_JMP64_PATCH_SIZE) { offset = ((intptr_t)pFreeNode->pDstStart-((intptr_t)pPatchNode->pDstStart+5)); if (offset<=INT32_MAX && offset>=INT32_MIN) { break; } } pFreeNode=pFreeNode->pNext; } if (!pFreeNode) { crError("Failed to find free space, to place repatch for %s.", pPatchNode->psFuncName); return; } /*add 32bit rel jmp, from mesa orginal function to free space in other mesa function*/ patch[0] = 0xE9; crMemcpy(&patch[1], &offset, 4); # ifndef VBOX_NO_MESA_PATCH_REPORTS crDebug("Adding jmp from mesa %s to mesa %s+%#lx", pPatchNode->psFuncName, pFreeNode->psFuncName, pFreeNode->pDstStart-pFreeNode->pSrcStart); # endif vboxApplyPatch(pPatchNode->psFuncName, pPatchNode->pDstStart, &patch[0], 5); /*add 64bit abs jmp, from free space to our stub code*/ patch[0] = 0x49; /*movq %r11,imm64*/ patch[1] = 0xBB; crMemcpy(&patch[2], &pPatchNode->pSrcStart, 8); patch[10] = 0x41; /*jmp *%r11*/ patch[11] = 0xFF; patch[12] = 0xE3; # ifndef VBOX_NO_MESA_PATCH_REPORTS crDebug("Adding jmp from mesa %s+%#lx to vbox %s", pFreeNode->psFuncName, pFreeNode->pDstStart-pFreeNode->pSrcStart, pPatchNode->psFuncName); # endif vboxApplyPatch(pFreeNode->psFuncName, pFreeNode->pDstStart, &patch[0], FAKEDRI_JMP64_PATCH_SIZE); /*mark this space as used*/ pFreeNode->pDstStart = pFreeNode->pDstStart+FAKEDRI_JMP64_PATCH_SIZE; pPatchNode = pPatchNode->pNext; } } static void vboxFakeDriFreeList(FAKEDRI_PatchNode *pList) { FAKEDRI_PatchNode *pNode; while (pList) { pNode=pList; pList=pNode->pNext; crFree(pNode); } } #endif #ifdef VBOX_OGL_GLX_USE_CSTUBS static void # define GLXAPI_ENTRY(Func) vboxPatchMesaExport("glX"#Func, &vbox_glX##Func, NULL); vboxPatchMesaExports() #else static void # define GLXAPI_ENTRY(Func) vboxPatchMesaExport("glX"#Func, &vbox_glX##Func, &vbox_glX##Func##_EndProc); vboxPatchMesaExports() #endif { crDebug("Patching mesa glx entries"); #include "fakedri_glxfuncsList.h" #ifdef RT_ARCH_AMD64 vboxRepatchMesaExports(); vboxFakeDriFreeList(g_pRepatchList); g_pRepatchList = NULL; vboxFakeDriFreeList(g_pFreeList); g_pFreeList = NULL; #endif } #undef GLXAPI_ENTRY bool vbox_load_sw_dri() { const char *libPaths, *p, *next;; char realDriverName[200]; void *handle; int len, i; /*code from Mesa-7.2/src/glx/x11/dri_common.c:driOpenDriver*/ libPaths = NULL; if (geteuid() == getuid()) { /* don't allow setuid apps to use LIBGL_DRIVERS_PATH */ libPaths = getenv("LIBGL_DRIVERS_PATH"); if (!libPaths) libPaths = getenv("LIBGL_DRIVERS_DIR"); /* deprecated */ } if (libPaths == NULL) libPaths = DRI_DEFAULT_DRIVER_DIR; handle = NULL; for (p = libPaths; *p; p = next) { next = strchr(p, ':'); if (next == NULL) { len = strlen(p); next = p + len; } else { len = next - p; next++; } snprintf(realDriverName, sizeof realDriverName, "%.*s/%s_dri.so", len, p, "swrast"); crDebug("trying %s", realDriverName); handle = dlopen(realDriverName, RTLD_NOW | RTLD_LOCAL); if (handle) break; } /*end code*/ if (handle) gppSwDriExternsion = dlsym(handle, "__driDriverExtensions"); if (!gppSwDriExternsion) { crDebug("%s doesn't export __driDriverExtensions", realDriverName); return false; } crDebug("loaded %s", realDriverName); for (i = 0; gppSwDriExternsion[i]; i++) { if (strcmp(gppSwDriExternsion[i]->name, __DRI_CORE) == 0) gpSwDriCoreExternsion = (__DRIcoreExtension *) gppSwDriExternsion[i]; if (strcmp(gppSwDriExternsion[i]->name, __DRI_SWRAST) == 0) gpSwDriSwrastExtension = (__DRIswrastExtension *) gppSwDriExternsion[i]; } return gpSwDriCoreExternsion && gpSwDriSwrastExtension; } void __attribute__ ((constructor)) vbox_install_into_mesa(void) { { #ifdef _X_ATTRIBUTE_PRINTF void (*pxf86Msg)(MessageType type, const char *format, ...) _X_ATTRIBUTE_PRINTF(2,3); #else void (*pxf86Msg)(MessageType type, const char *format, ...) _printf_attribute(2,3); #endif pxf86Msg = dlsym(RTLD_DEFAULT, "xf86Msg"); if (pxf86Msg) { pxf86Msg(X_INFO, "Next line is added to allow vboxvideo_drv.so to appear as whitelisted driver\n"); pxf86Msg(X_INFO, "The file referenced, is *NOT* loaded\n"); pxf86Msg(X_INFO, "Loading %s/ati_drv.so\n", DRI_XORG_DRV_DIR); /* we're failing to proxy software dri driver calls for certain xservers, so just make sure we're unloaded for now */ __driDriverExtensions[0] = NULL; return; } } if (!stubInit()) { crDebug("vboxdriInitScreen: stubInit failed"); return; } /* Load swrast_dri.so to proxy dri related calls there. */ if (!vbox_load_sw_dri()) { crDebug("vboxdriInitScreen: vbox_load_sw_dri failed...going to fail badly"); return; } /* Handle gl api. * In the end application call would look like this: * app call glFoo->(mesa asm dispatch stub)->cr_glFoo(vbox asm dispatch stub)->SPU Foo function(packspuFoo or alike) * Note, we don't need to install extension functions via _glapi_add_dispatch, because we'd override glXGetProcAddress. */ /* Mesa's dispatch table is different across library versions, have to modify mesa's table using offset info functions*/ vboxPatchMesaGLAPITable(); /* Handle glx api. * In the end application call would look like this: * app call glxFoo->(mesa asm dispatch stub patched with vbox_glXFoo:jmp glxim[Foo's index])->VBOXGLXTAG(glxFoo) */ /* Fill structure used by our assembly stubs */ vboxFillGLXAPITable(&glxim); /* Now patch functions exported by libGL.so */ vboxPatchMesaExports(); } /* * @todo we're missing first glx related call from the client application. * Luckily, this doesn't add much problems, except for some cases. */ /* __DRIcoreExtension */ static __DRIscreen * vboxdriCreateNewScreen(int screen, int fd, unsigned int sarea_handle, const __DRIextension **extensions, const __DRIconfig ***driverConfigs, void *loaderPrivate) { (void) fd; (void) sarea_handle; SWDRI_SAFERET_SWRAST(createNewScreen, screen, extensions, driverConfigs, loaderPrivate); } static void vboxdriDestroyScreen(__DRIscreen *screen) { SWDRI_SAFECALL_CORE(destroyScreen, screen); } static const __DRIextension ** vboxdriGetExtensions(__DRIscreen *screen) { SWDRI_SAFERET_CORE(getExtensions, screen); } static int vboxdriGetConfigAttrib(const __DRIconfig *config, unsigned int attrib, unsigned int *value) { SWDRI_SAFERET_CORE(getConfigAttrib, config, attrib, value); } static int vboxdriIndexConfigAttrib(const __DRIconfig *config, int index, unsigned int *attrib, unsigned int *value) { SWDRI_SAFERET_CORE(indexConfigAttrib, config, index, attrib, value); } static __DRIdrawable * vboxdriCreateNewDrawable(__DRIscreen *screen, const __DRIconfig *config, unsigned int drawable_id, unsigned int head, void *loaderPrivate) { (void) drawable_id; (void) head; SWDRI_SAFERET_SWRAST(createNewDrawable, screen, config, loaderPrivate); } static void vboxdriDestroyDrawable(__DRIdrawable *drawable) { SWDRI_SAFECALL_CORE(destroyDrawable, drawable); } static void vboxdriSwapBuffers(__DRIdrawable *drawable) { SWDRI_SAFECALL_CORE(swapBuffers, drawable); } static __DRIcontext * vboxdriCreateNewContext(__DRIscreen *screen, const __DRIconfig *config, __DRIcontext *shared, void *loaderPrivate) { SWDRI_SAFERET_CORE(createNewContext, screen, config, shared, loaderPrivate); } static int vboxdriCopyContext(__DRIcontext *dest, __DRIcontext *src, unsigned long mask) { SWDRI_SAFERET_CORE(copyContext, dest, src, mask); } static void vboxdriDestroyContext(__DRIcontext *context) { SWDRI_SAFECALL_CORE(destroyContext, context); } static int vboxdriBindContext(__DRIcontext *ctx, __DRIdrawable *pdraw, __DRIdrawable *pread) { SWDRI_SAFERET_CORE(bindContext, ctx, pdraw, pread); } static int vboxdriUnbindContext(__DRIcontext *ctx) { SWDRI_SAFERET_CORE(unbindContext, ctx) } /* __DRIlegacyExtension */ static __DRIscreen * vboxdriCreateNewScreen_Legacy(int scrn, const __DRIversion *ddx_version, const __DRIversion *dri_version, const __DRIversion *drm_version, const __DRIframebuffer *frame_buffer, drmAddress pSAREA, int fd, const __DRIextension **extensions, const __DRIconfig ***driver_modes, void *loaderPrivate) { (void) ddx_version; (void) dri_version; (void) frame_buffer; (void) pSAREA; (void) fd; SWDRI_SAFERET_SWRAST(createNewScreen, scrn, extensions, driver_modes, loaderPrivate); } static __DRIdrawable * vboxdriCreateNewDrawable_Legacy(__DRIscreen *psp, const __DRIconfig *config, drm_drawable_t hwDrawable, int renderType, const int *attrs, void *data) { (void) hwDrawable; (void) renderType; (void) attrs; (void) data; SWDRI_SAFERET_SWRAST(createNewDrawable, psp, config, data); } static __DRIcontext * vboxdriCreateNewContext_Legacy(__DRIscreen *psp, const __DRIconfig *config, int render_type, __DRIcontext *shared, drm_context_t hwContext, void *data) { (void) render_type; (void) hwContext; return vboxdriCreateNewContext(psp, config, shared, data); } static const __DRIlegacyExtension vboxdriLegacyExtension = { { __DRI_LEGACY, __DRI_LEGACY_VERSION }, vboxdriCreateNewScreen_Legacy, vboxdriCreateNewDrawable_Legacy, vboxdriCreateNewContext_Legacy }; static const __DRIcoreExtension vboxdriCoreExtension = { { __DRI_CORE, __DRI_CORE_VERSION }, vboxdriCreateNewScreen, /* driCreateNewScreen */ vboxdriDestroyScreen, vboxdriGetExtensions, vboxdriGetConfigAttrib, vboxdriIndexConfigAttrib, vboxdriCreateNewDrawable, /* driCreateNewDrawable */ vboxdriDestroyDrawable, vboxdriSwapBuffers, vboxdriCreateNewContext, vboxdriCopyContext, vboxdriDestroyContext, vboxdriBindContext, vboxdriUnbindContext }; /* This structure is used by dri_util from mesa, don't rename it! */ DECLEXPORT(const __DRIextension *) __driDriverExtensions[] = { &vboxdriLegacyExtension.base, &vboxdriCoreExtension.base, NULL };