/* * Copyright © 2010 Intel Corporation * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. * * Authors: * Kristian Høgsberg */ #define WL_HIDE_DEPRECATED #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_LIBDRM #include #include #endif #include #include #include "GL/mesa_glinterop.h" #include #include #ifdef HAVE_WAYLAND_PLATFORM #include "wayland-drm.h" #include "wayland-drm-client-protocol.h" #endif #include "egl_dri2.h" #include "util/u_atomic.h" /* The kernel header drm_fourcc.h defines the DRM formats below. We duplicate * some of the definitions here so that building Mesa won't bleeding-edge * kernel headers. */ #ifndef DRM_FORMAT_R8 #define DRM_FORMAT_R8 fourcc_code('R', '8', ' ', ' ') /* [7:0] R */ #endif #ifndef DRM_FORMAT_RG88 #define DRM_FORMAT_RG88 fourcc_code('R', 'G', '8', '8') /* [15:0] R:G 8:8 little endian */ #endif #ifndef DRM_FORMAT_GR88 #define DRM_FORMAT_GR88 fourcc_code('G', 'R', '8', '8') /* [15:0] G:R 8:8 little endian */ #endif const __DRIuseInvalidateExtension use_invalidate = { .base = { __DRI_USE_INVALIDATE, 1 } }; EGLint dri2_to_egl_attribute_map[] = { 0, EGL_BUFFER_SIZE, /* __DRI_ATTRIB_BUFFER_SIZE */ EGL_LEVEL, /* __DRI_ATTRIB_LEVEL */ EGL_RED_SIZE, /* __DRI_ATTRIB_RED_SIZE */ EGL_GREEN_SIZE, /* __DRI_ATTRIB_GREEN_SIZE */ EGL_BLUE_SIZE, /* __DRI_ATTRIB_BLUE_SIZE */ EGL_LUMINANCE_SIZE, /* __DRI_ATTRIB_LUMINANCE_SIZE */ EGL_ALPHA_SIZE, /* __DRI_ATTRIB_ALPHA_SIZE */ 0, /* __DRI_ATTRIB_ALPHA_MASK_SIZE */ EGL_DEPTH_SIZE, /* __DRI_ATTRIB_DEPTH_SIZE */ EGL_STENCIL_SIZE, /* __DRI_ATTRIB_STENCIL_SIZE */ 0, /* __DRI_ATTRIB_ACCUM_RED_SIZE */ 0, /* __DRI_ATTRIB_ACCUM_GREEN_SIZE */ 0, /* __DRI_ATTRIB_ACCUM_BLUE_SIZE */ 0, /* __DRI_ATTRIB_ACCUM_ALPHA_SIZE */ EGL_SAMPLE_BUFFERS, /* __DRI_ATTRIB_SAMPLE_BUFFERS */ EGL_SAMPLES, /* __DRI_ATTRIB_SAMPLES */ 0, /* __DRI_ATTRIB_RENDER_TYPE, */ 0, /* __DRI_ATTRIB_CONFIG_CAVEAT */ 0, /* __DRI_ATTRIB_CONFORMANT */ 0, /* __DRI_ATTRIB_DOUBLE_BUFFER */ 0, /* __DRI_ATTRIB_STEREO */ 0, /* __DRI_ATTRIB_AUX_BUFFERS */ 0, /* __DRI_ATTRIB_TRANSPARENT_TYPE */ 0, /* __DRI_ATTRIB_TRANSPARENT_INDEX_VALUE */ 0, /* __DRI_ATTRIB_TRANSPARENT_RED_VALUE */ 0, /* __DRI_ATTRIB_TRANSPARENT_GREEN_VALUE */ 0, /* __DRI_ATTRIB_TRANSPARENT_BLUE_VALUE */ 0, /* __DRI_ATTRIB_TRANSPARENT_ALPHA_VALUE */ 0, /* __DRI_ATTRIB_FLOAT_MODE (deprecated) */ 0, /* __DRI_ATTRIB_RED_MASK */ 0, /* __DRI_ATTRIB_GREEN_MASK */ 0, /* __DRI_ATTRIB_BLUE_MASK */ 0, /* __DRI_ATTRIB_ALPHA_MASK */ EGL_MAX_PBUFFER_WIDTH, /* __DRI_ATTRIB_MAX_PBUFFER_WIDTH */ EGL_MAX_PBUFFER_HEIGHT, /* __DRI_ATTRIB_MAX_PBUFFER_HEIGHT */ EGL_MAX_PBUFFER_PIXELS, /* __DRI_ATTRIB_MAX_PBUFFER_PIXELS */ 0, /* __DRI_ATTRIB_OPTIMAL_PBUFFER_WIDTH */ 0, /* __DRI_ATTRIB_OPTIMAL_PBUFFER_HEIGHT */ 0, /* __DRI_ATTRIB_VISUAL_SELECT_GROUP */ 0, /* __DRI_ATTRIB_SWAP_METHOD */ EGL_MAX_SWAP_INTERVAL, /* __DRI_ATTRIB_MAX_SWAP_INTERVAL */ EGL_MIN_SWAP_INTERVAL, /* __DRI_ATTRIB_MIN_SWAP_INTERVAL */ 0, /* __DRI_ATTRIB_BIND_TO_TEXTURE_RGB */ 0, /* __DRI_ATTRIB_BIND_TO_TEXTURE_RGBA */ 0, /* __DRI_ATTRIB_BIND_TO_MIPMAP_TEXTURE */ 0, /* __DRI_ATTRIB_BIND_TO_TEXTURE_TARGETS */ EGL_Y_INVERTED_NOK, /* __DRI_ATTRIB_YINVERTED */ 0, /* __DRI_ATTRIB_FRAMEBUFFER_SRGB_CAPABLE */ }; const __DRIconfig * dri2_get_dri_config(struct dri2_egl_config *conf, EGLint surface_type, EGLenum colorspace) { const bool srgb = colorspace == EGL_GL_COLORSPACE_SRGB_KHR; return surface_type == EGL_WINDOW_BIT ? conf->dri_double_config[srgb] : conf->dri_single_config[srgb]; } static EGLBoolean dri2_match_config(const _EGLConfig *conf, const _EGLConfig *criteria) { if (_eglCompareConfigs(conf, criteria, NULL, EGL_FALSE) != 0) return EGL_FALSE; if (!_eglMatchConfig(conf, criteria)) return EGL_FALSE; return EGL_TRUE; } struct dri2_egl_config * dri2_add_config(_EGLDisplay *disp, const __DRIconfig *dri_config, int id, EGLint surface_type, const EGLint *attr_list, const unsigned int *rgba_masks) { struct dri2_egl_config *conf; struct dri2_egl_display *dri2_dpy; _EGLConfig base; unsigned int attrib, value, double_buffer; bool srgb = false; EGLint key, bind_to_texture_rgb, bind_to_texture_rgba; unsigned int dri_masks[4] = { 0, 0, 0, 0 }; _EGLConfig *matching_config; EGLint num_configs = 0; EGLint config_id; int i; dri2_dpy = disp->DriverData; _eglInitConfig(&base, disp, id); i = 0; double_buffer = 0; bind_to_texture_rgb = 0; bind_to_texture_rgba = 0; while (dri2_dpy->core->indexConfigAttrib(dri_config, i++, &attrib, &value)) { switch (attrib) { case __DRI_ATTRIB_RENDER_TYPE: if (value & __DRI_ATTRIB_RGBA_BIT) value = EGL_RGB_BUFFER; else if (value & __DRI_ATTRIB_LUMINANCE_BIT) value = EGL_LUMINANCE_BUFFER; else return NULL; _eglSetConfigKey(&base, EGL_COLOR_BUFFER_TYPE, value); break; case __DRI_ATTRIB_CONFIG_CAVEAT: if (value & __DRI_ATTRIB_NON_CONFORMANT_CONFIG) value = EGL_NON_CONFORMANT_CONFIG; else if (value & __DRI_ATTRIB_SLOW_BIT) value = EGL_SLOW_CONFIG; else value = EGL_NONE; _eglSetConfigKey(&base, EGL_CONFIG_CAVEAT, value); break; case __DRI_ATTRIB_BIND_TO_TEXTURE_RGB: bind_to_texture_rgb = value; break; case __DRI_ATTRIB_BIND_TO_TEXTURE_RGBA: bind_to_texture_rgba = value; break; case __DRI_ATTRIB_DOUBLE_BUFFER: double_buffer = value; break; case __DRI_ATTRIB_RED_MASK: dri_masks[0] = value; break; case __DRI_ATTRIB_GREEN_MASK: dri_masks[1] = value; break; case __DRI_ATTRIB_BLUE_MASK: dri_masks[2] = value; break; case __DRI_ATTRIB_ALPHA_MASK: dri_masks[3] = value; break; case __DRI_ATTRIB_ACCUM_RED_SIZE: case __DRI_ATTRIB_ACCUM_GREEN_SIZE: case __DRI_ATTRIB_ACCUM_BLUE_SIZE: case __DRI_ATTRIB_ACCUM_ALPHA_SIZE: /* Don't expose visuals with the accumulation buffer. */ if (value > 0) return NULL; break; case __DRI_ATTRIB_FRAMEBUFFER_SRGB_CAPABLE: srgb = value != 0; if (!disp->Extensions.KHR_gl_colorspace && srgb) return NULL; break; default: key = dri2_to_egl_attribute_map[attrib]; if (key != 0) _eglSetConfigKey(&base, key, value); break; } } if (attr_list) for (i = 0; attr_list[i] != EGL_NONE; i += 2) _eglSetConfigKey(&base, attr_list[i], attr_list[i+1]); if (rgba_masks && memcmp(rgba_masks, dri_masks, sizeof(dri_masks))) return NULL; base.NativeRenderable = EGL_TRUE; base.SurfaceType = surface_type; if (surface_type & (EGL_PBUFFER_BIT | (disp->Extensions.NOK_texture_from_pixmap ? EGL_PIXMAP_BIT : 0))) { base.BindToTextureRGB = bind_to_texture_rgb; if (base.AlphaSize > 0) base.BindToTextureRGBA = bind_to_texture_rgba; } base.RenderableType = disp->ClientAPIs; base.Conformant = disp->ClientAPIs; base.MinSwapInterval = dri2_dpy->min_swap_interval; base.MaxSwapInterval = dri2_dpy->max_swap_interval; if (!_eglValidateConfig(&base, EGL_FALSE)) { _eglLog(_EGL_DEBUG, "DRI2: failed to validate config %d", id); return NULL; } config_id = base.ConfigID; base.ConfigID = EGL_DONT_CARE; base.SurfaceType = EGL_DONT_CARE; num_configs = _eglFilterArray(disp->Configs, (void **) &matching_config, 1, (_EGLArrayForEach) dri2_match_config, &base); if (num_configs == 1) { conf = (struct dri2_egl_config *) matching_config; if (double_buffer && !conf->dri_double_config[srgb]) conf->dri_double_config[srgb] = dri_config; else if (!double_buffer && !conf->dri_single_config[srgb]) conf->dri_single_config[srgb] = dri_config; else /* a similar config type is already added (unlikely) => discard */ return NULL; } else if (num_configs == 0) { conf = calloc(1, sizeof *conf); if (conf == NULL) return NULL; if (double_buffer) conf->dri_double_config[srgb] = dri_config; else conf->dri_single_config[srgb] = dri_config; memcpy(&conf->base, &base, sizeof base); conf->base.SurfaceType = 0; conf->base.ConfigID = config_id; _eglLinkConfig(&conf->base); } else { assert(0); return NULL; } if (double_buffer) { surface_type &= ~EGL_PIXMAP_BIT; } conf->base.SurfaceType |= surface_type; return conf; } __DRIimage * dri2_lookup_egl_image(__DRIscreen *screen, void *image, void *data) { _EGLDisplay *disp = data; struct dri2_egl_image *dri2_img; _EGLImage *img; (void) screen; img = _eglLookupImage(image, disp); if (img == NULL) { _eglError(EGL_BAD_PARAMETER, "dri2_lookup_egl_image"); return NULL; } dri2_img = dri2_egl_image(image); return dri2_img->dri_image; } const __DRIimageLookupExtension image_lookup_extension = { .base = { __DRI_IMAGE_LOOKUP, 1 }, .lookupEGLImage = dri2_lookup_egl_image }; struct dri2_extension_match { const char *name; int version; int offset; }; static struct dri2_extension_match dri3_driver_extensions[] = { { __DRI_CORE, 1, offsetof(struct dri2_egl_display, core) }, { __DRI_IMAGE_DRIVER, 1, offsetof(struct dri2_egl_display, image_driver) }, { NULL, 0, 0 } }; static struct dri2_extension_match dri2_driver_extensions[] = { { __DRI_CORE, 1, offsetof(struct dri2_egl_display, core) }, { __DRI_DRI2, 2, offsetof(struct dri2_egl_display, dri2) }, { NULL, 0, 0 } }; static struct dri2_extension_match dri2_core_extensions[] = { { __DRI2_FLUSH, 1, offsetof(struct dri2_egl_display, flush) }, { __DRI_TEX_BUFFER, 2, offsetof(struct dri2_egl_display, tex_buffer) }, { __DRI_IMAGE, 1, offsetof(struct dri2_egl_display, image) }, { NULL, 0, 0 } }; static struct dri2_extension_match swrast_driver_extensions[] = { { __DRI_CORE, 1, offsetof(struct dri2_egl_display, core) }, { __DRI_SWRAST, 2, offsetof(struct dri2_egl_display, swrast) }, { NULL, 0, 0 } }; static struct dri2_extension_match swrast_core_extensions[] = { { __DRI_TEX_BUFFER, 2, offsetof(struct dri2_egl_display, tex_buffer) }, { NULL, 0, 0 } }; static EGLBoolean dri2_bind_extensions(struct dri2_egl_display *dri2_dpy, struct dri2_extension_match *matches, const __DRIextension **extensions) { int i, j, ret = EGL_TRUE; void *field; for (i = 0; extensions[i]; i++) { _eglLog(_EGL_DEBUG, "found extension `%s'", extensions[i]->name); for (j = 0; matches[j].name; j++) { if (strcmp(extensions[i]->name, matches[j].name) == 0 && extensions[i]->version >= matches[j].version) { field = ((char *) dri2_dpy + matches[j].offset); *(const __DRIextension **) field = extensions[i]; _eglLog(_EGL_INFO, "found extension %s version %d", extensions[i]->name, extensions[i]->version); } } } for (j = 0; matches[j].name; j++) { field = ((char *) dri2_dpy + matches[j].offset); if (*(const __DRIextension **) field == NULL) { _eglLog(_EGL_WARNING, "did not find extension %s version %d", matches[j].name, matches[j].version); ret = EGL_FALSE; } } return ret; } static const __DRIextension ** dri2_open_driver(_EGLDisplay *disp) { struct dri2_egl_display *dri2_dpy = disp->DriverData; const __DRIextension **extensions = NULL; char path[PATH_MAX], *search_paths, *p, *next, *end; char *get_extensions_name; const __DRIextension **(*get_extensions)(void); search_paths = NULL; if (geteuid() == getuid()) { /* don't allow setuid apps to use LIBGL_DRIVERS_PATH */ search_paths = getenv("LIBGL_DRIVERS_PATH"); } if (search_paths == NULL) search_paths = DEFAULT_DRIVER_DIR; dri2_dpy->driver = NULL; end = search_paths + strlen(search_paths); for (p = search_paths; p < end; p = next + 1) { int len; next = strchr(p, ':'); if (next == NULL) next = end; len = next - p; #if GLX_USE_TLS snprintf(path, sizeof path, "%.*s/tls/%s_dri.so", len, p, dri2_dpy->driver_name); dri2_dpy->driver = dlopen(path, RTLD_NOW | RTLD_GLOBAL); #endif if (dri2_dpy->driver == NULL) { snprintf(path, sizeof path, "%.*s/%s_dri.so", len, p, dri2_dpy->driver_name); dri2_dpy->driver = dlopen(path, RTLD_NOW | RTLD_GLOBAL); if (dri2_dpy->driver == NULL) _eglLog(_EGL_DEBUG, "failed to open %s: %s\n", path, dlerror()); } /* not need continue to loop all paths once the driver is found */ if (dri2_dpy->driver != NULL) break; #ifdef ANDROID snprintf(path, sizeof path, "%.*s/gallium_dri.so", len, p); dri2_dpy->driver = dlopen(path, RTLD_NOW | RTLD_GLOBAL); if (dri2_dpy->driver == NULL) _eglLog(_EGL_DEBUG, "failed to open %s: %s\n", path, dlerror()); else break; #endif } if (dri2_dpy->driver == NULL) { _eglLog(_EGL_WARNING, "DRI2: failed to open %s (search paths %s)", dri2_dpy->driver_name, search_paths); return NULL; } _eglLog(_EGL_DEBUG, "DRI2: dlopen(%s)", path); if (asprintf(&get_extensions_name, "%s_%s", __DRI_DRIVER_GET_EXTENSIONS, dri2_dpy->driver_name) != -1) { get_extensions = dlsym(dri2_dpy->driver, get_extensions_name); if (get_extensions) { extensions = get_extensions(); } else { _eglLog(_EGL_DEBUG, "driver does not expose %s(): %s\n", get_extensions_name, dlerror()); } free(get_extensions_name); } if (!extensions) extensions = dlsym(dri2_dpy->driver, __DRI_DRIVER_EXTENSIONS); if (extensions == NULL) { _eglLog(_EGL_WARNING, "DRI2: driver exports no extensions (%s)", dlerror()); dlclose(dri2_dpy->driver); } return extensions; } EGLBoolean dri2_load_driver_dri3(_EGLDisplay *disp) { struct dri2_egl_display *dri2_dpy = disp->DriverData; const __DRIextension **extensions; extensions = dri2_open_driver(disp); if (!extensions) return EGL_FALSE; if (!dri2_bind_extensions(dri2_dpy, dri3_driver_extensions, extensions)) { dlclose(dri2_dpy->driver); return EGL_FALSE; } dri2_dpy->driver_extensions = extensions; return EGL_TRUE; } EGLBoolean dri2_load_driver(_EGLDisplay *disp) { struct dri2_egl_display *dri2_dpy = disp->DriverData; const __DRIextension **extensions; extensions = dri2_open_driver(disp); if (!extensions) return EGL_FALSE; if (!dri2_bind_extensions(dri2_dpy, dri2_driver_extensions, extensions)) { dlclose(dri2_dpy->driver); return EGL_FALSE; } dri2_dpy->driver_extensions = extensions; return EGL_TRUE; } EGLBoolean dri2_load_driver_swrast(_EGLDisplay *disp) { struct dri2_egl_display *dri2_dpy = disp->DriverData; const __DRIextension **extensions; extensions = dri2_open_driver(disp); if (!extensions) return EGL_FALSE; if (!dri2_bind_extensions(dri2_dpy, swrast_driver_extensions, extensions)) { dlclose(dri2_dpy->driver); return EGL_FALSE; } dri2_dpy->driver_extensions = extensions; return EGL_TRUE; } static unsigned dri2_renderer_query_integer(struct dri2_egl_display *dri2_dpy, int param) { const __DRI2rendererQueryExtension *rendererQuery = dri2_dpy->rendererQuery; unsigned int value = 0; if (!rendererQuery || rendererQuery->queryInteger(dri2_dpy->dri_screen, param, &value) == -1) return 0; return value; } void dri2_setup_screen(_EGLDisplay *disp) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); unsigned int api_mask; if (dri2_dpy->image_driver) { api_mask = dri2_dpy->image_driver->getAPIMask(dri2_dpy->dri_screen); } else if (dri2_dpy->dri2) { api_mask = dri2_dpy->dri2->getAPIMask(dri2_dpy->dri_screen); } else { assert(dri2_dpy->swrast); api_mask = 1 << __DRI_API_OPENGL | 1 << __DRI_API_GLES | 1 << __DRI_API_GLES2 | 1 << __DRI_API_GLES3; } disp->ClientAPIs = 0; if (api_mask & (1 <<__DRI_API_OPENGL)) disp->ClientAPIs |= EGL_OPENGL_BIT; if (api_mask & (1 <<__DRI_API_GLES)) disp->ClientAPIs |= EGL_OPENGL_ES_BIT; if (api_mask & (1 << __DRI_API_GLES2)) disp->ClientAPIs |= EGL_OPENGL_ES2_BIT; if (api_mask & (1 << __DRI_API_GLES3)) disp->ClientAPIs |= EGL_OPENGL_ES3_BIT_KHR; assert(dri2_dpy->image_driver || dri2_dpy->dri2 || dri2_dpy->swrast); disp->Extensions.KHR_surfaceless_context = EGL_TRUE; disp->Extensions.MESA_configless_context = EGL_TRUE; if (dri2_renderer_query_integer(dri2_dpy, __DRI2_RENDERER_HAS_FRAMEBUFFER_SRGB)) disp->Extensions.KHR_gl_colorspace = EGL_TRUE; if (dri2_dpy->image_driver || (dri2_dpy->dri2 && dri2_dpy->dri2->base.version >= 3) || (dri2_dpy->swrast && dri2_dpy->swrast->base.version >= 3)) { disp->Extensions.KHR_create_context = EGL_TRUE; if (dri2_dpy->robustness) disp->Extensions.EXT_create_context_robustness = EGL_TRUE; } if (dri2_dpy->fence) { disp->Extensions.KHR_fence_sync = EGL_TRUE; disp->Extensions.KHR_wait_sync = EGL_TRUE; if (dri2_dpy->fence->get_fence_from_cl_event) disp->Extensions.KHR_cl_event2 = EGL_TRUE; } disp->Extensions.KHR_reusable_sync = EGL_TRUE; if (dri2_dpy->image) { if (dri2_dpy->image->base.version >= 10 && dri2_dpy->image->getCapabilities != NULL) { int capabilities; capabilities = dri2_dpy->image->getCapabilities(dri2_dpy->dri_screen); disp->Extensions.MESA_drm_image = (capabilities & __DRI_IMAGE_CAP_GLOBAL_NAMES) != 0; if (dri2_dpy->image->base.version >= 11) disp->Extensions.MESA_image_dma_buf_export = EGL_TRUE; } else { disp->Extensions.MESA_drm_image = EGL_TRUE; if (dri2_dpy->image->base.version >= 11) disp->Extensions.MESA_image_dma_buf_export = EGL_TRUE; } disp->Extensions.KHR_image_base = EGL_TRUE; disp->Extensions.KHR_gl_renderbuffer_image = EGL_TRUE; if (dri2_dpy->image->base.version >= 5 && dri2_dpy->image->createImageFromTexture) { disp->Extensions.KHR_gl_texture_2D_image = EGL_TRUE; disp->Extensions.KHR_gl_texture_cubemap_image = EGL_TRUE; } if (dri2_renderer_query_integer(dri2_dpy, __DRI2_RENDERER_HAS_TEXTURE_3D)) disp->Extensions.KHR_gl_texture_3D_image = EGL_TRUE; #ifdef HAVE_LIBDRM if (dri2_dpy->image->base.version >= 8 && dri2_dpy->image->createImageFromDmaBufs) { disp->Extensions.EXT_image_dma_buf_import = EGL_TRUE; } #endif } } /* All platforms but DRM call this function to create the screen, query the * dri extensions, setup the vtables and populate the driver_configs. * DRM inherits all that information from its display - GBM. */ EGLBoolean dri2_create_screen(_EGLDisplay *disp) { const __DRIextension **extensions; struct dri2_egl_display *dri2_dpy; unsigned i; dri2_dpy = disp->DriverData; if (dri2_dpy->image_driver) { dri2_dpy->dri_screen = dri2_dpy->image_driver->createNewScreen2(0, dri2_dpy->fd, dri2_dpy->extensions, dri2_dpy->driver_extensions, &dri2_dpy->driver_configs, disp); } else if (dri2_dpy->dri2) { if (dri2_dpy->dri2->base.version >= 4) { dri2_dpy->dri_screen = dri2_dpy->dri2->createNewScreen2(0, dri2_dpy->fd, dri2_dpy->extensions, dri2_dpy->driver_extensions, &dri2_dpy->driver_configs, disp); } else { dri2_dpy->dri_screen = dri2_dpy->dri2->createNewScreen(0, dri2_dpy->fd, dri2_dpy->extensions, &dri2_dpy->driver_configs, disp); } } else { assert(dri2_dpy->swrast); if (dri2_dpy->swrast->base.version >= 4) { dri2_dpy->dri_screen = dri2_dpy->swrast->createNewScreen2(0, dri2_dpy->extensions, dri2_dpy->driver_extensions, &dri2_dpy->driver_configs, disp); } else { dri2_dpy->dri_screen = dri2_dpy->swrast->createNewScreen(0, dri2_dpy->extensions, &dri2_dpy->driver_configs, disp); } } if (dri2_dpy->dri_screen == NULL) { _eglLog(_EGL_WARNING, "DRI2: failed to create dri screen"); return EGL_FALSE; } dri2_dpy->own_dri_screen = 1; extensions = dri2_dpy->core->getExtensions(dri2_dpy->dri_screen); if (dri2_dpy->image_driver || dri2_dpy->dri2) { if (!dri2_bind_extensions(dri2_dpy, dri2_core_extensions, extensions)) goto cleanup_dri_screen; } else { assert(dri2_dpy->swrast); if (!dri2_bind_extensions(dri2_dpy, swrast_core_extensions, extensions)) goto cleanup_dri_screen; } for (i = 0; extensions[i]; i++) { if (strcmp(extensions[i]->name, __DRI2_ROBUSTNESS) == 0) { dri2_dpy->robustness = (__DRIrobustnessExtension *) extensions[i]; } if (strcmp(extensions[i]->name, __DRI2_CONFIG_QUERY) == 0) { dri2_dpy->config = (__DRI2configQueryExtension *) extensions[i]; } if (strcmp(extensions[i]->name, __DRI2_FENCE) == 0) { dri2_dpy->fence = (__DRI2fenceExtension *) extensions[i]; } if (strcmp(extensions[i]->name, __DRI2_RENDERER_QUERY) == 0) { dri2_dpy->rendererQuery = (__DRI2rendererQueryExtension *) extensions[i]; } if (strcmp(extensions[i]->name, __DRI2_INTEROP) == 0) dri2_dpy->interop = (__DRI2interopExtension *) extensions[i]; } dri2_setup_screen(disp); return EGL_TRUE; cleanup_dri_screen: dri2_dpy->core->destroyScreen(dri2_dpy->dri_screen); return EGL_FALSE; } /** * Called via eglInitialize(), GLX_drv->API.Initialize(). */ static EGLBoolean dri2_initialize(_EGLDriver *drv, _EGLDisplay *disp) { /* not until swrast_dri is supported */ if (disp->Options.UseFallback) return EGL_FALSE; switch (disp->Platform) { #ifdef HAVE_SURFACELESS_PLATFORM case _EGL_PLATFORM_SURFACELESS: if (disp->Options.TestOnly) return EGL_TRUE; return dri2_initialize_surfaceless(drv, disp); #endif #ifdef HAVE_X11_PLATFORM case _EGL_PLATFORM_X11: if (disp->Options.TestOnly) return EGL_TRUE; return dri2_initialize_x11(drv, disp); #endif #ifdef HAVE_DRM_PLATFORM case _EGL_PLATFORM_DRM: if (disp->Options.TestOnly) return EGL_TRUE; return dri2_initialize_drm(drv, disp); #endif #ifdef HAVE_WAYLAND_PLATFORM case _EGL_PLATFORM_WAYLAND: if (disp->Options.TestOnly) return EGL_TRUE; return dri2_initialize_wayland(drv, disp); #endif #ifdef HAVE_ANDROID_PLATFORM case _EGL_PLATFORM_ANDROID: if (disp->Options.TestOnly) return EGL_TRUE; return dri2_initialize_android(drv, disp); #endif default: _eglLog(_EGL_WARNING, "No EGL platform enabled."); return EGL_FALSE; } } /** * Called via eglTerminate(), drv->API.Terminate(). */ static EGLBoolean dri2_terminate(_EGLDriver *drv, _EGLDisplay *disp) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); unsigned i; _eglReleaseDisplayResources(drv, disp); _eglCleanupDisplay(disp); if (dri2_dpy->own_dri_screen) dri2_dpy->core->destroyScreen(dri2_dpy->dri_screen); if (dri2_dpy->fd >= 0) close(dri2_dpy->fd); if (dri2_dpy->driver) dlclose(dri2_dpy->driver); free(dri2_dpy->device_name); free(dri2_dpy->driver_name); switch (disp->Platform) { #ifdef HAVE_X11_PLATFORM case _EGL_PLATFORM_X11: if (dri2_dpy->own_device) { xcb_disconnect(dri2_dpy->conn); } break; #endif #ifdef HAVE_DRM_PLATFORM case _EGL_PLATFORM_DRM: if (dri2_dpy->own_device) { gbm_device_destroy(&dri2_dpy->gbm_dri->base.base); } break; #endif #ifdef HAVE_WAYLAND_PLATFORM case _EGL_PLATFORM_WAYLAND: if (dri2_dpy->wl_drm) wl_drm_destroy(dri2_dpy->wl_drm); if (dri2_dpy->wl_shm) wl_shm_destroy(dri2_dpy->wl_shm); wl_registry_destroy(dri2_dpy->wl_registry); wl_event_queue_destroy(dri2_dpy->wl_queue); if (dri2_dpy->own_device) { wl_display_disconnect(dri2_dpy->wl_dpy); } break; #endif default: break; } /* The drm platform does not create the screen/driver_configs but reuses * the ones from the gbm device. As such the gbm itself is responsible * for the cleanup. */ if (disp->Platform != _EGL_PLATFORM_DRM) { for (i = 0; dri2_dpy->driver_configs[i]; i++) free((__DRIconfig *) dri2_dpy->driver_configs[i]); free(dri2_dpy->driver_configs); } free(dri2_dpy); disp->DriverData = NULL; return EGL_TRUE; } /** * Set the error code after a call to * dri2_egl_display::dri2::createContextAttribs. */ static void dri2_create_context_attribs_error(int dri_error) { EGLint egl_error; switch (dri_error) { case __DRI_CTX_ERROR_SUCCESS: return; case __DRI_CTX_ERROR_NO_MEMORY: egl_error = EGL_BAD_ALLOC; break; /* From the EGL_KHR_create_context spec, section "Errors": * * * If does not support a client API context compatible * with the requested API major and minor version, [...] context flags, * and context reset notification behavior (for client API types where * these attributes are supported), then an EGL_BAD_MATCH error is * generated. * * * If an OpenGL ES context is requested and the values for * attributes EGL_CONTEXT_MAJOR_VERSION_KHR and * EGL_CONTEXT_MINOR_VERSION_KHR specify an OpenGL ES version that * is not defined, than an EGL_BAD_MATCH error is generated. * * * If an OpenGL context is requested, the requested version is * greater than 3.2, and the value for attribute * EGL_CONTEXT_OPENGL_PROFILE_MASK_KHR has no bits set; has any * bits set other than EGL_CONTEXT_OPENGL_CORE_PROFILE_BIT_KHR and * EGL_CONTEXT_OPENGL_COMPATIBILITY_PROFILE_BIT_KHR; has more than * one of these bits set; or if the implementation does not support * the requested profile, then an EGL_BAD_MATCH error is generated. */ case __DRI_CTX_ERROR_BAD_API: case __DRI_CTX_ERROR_BAD_VERSION: case __DRI_CTX_ERROR_BAD_FLAG: egl_error = EGL_BAD_MATCH; break; /* From the EGL_KHR_create_context spec, section "Errors": * * * If an attribute name or attribute value in is not * recognized (including unrecognized bits in bitmask attributes), * then an EGL_BAD_ATTRIBUTE error is generated." */ case __DRI_CTX_ERROR_UNKNOWN_ATTRIBUTE: case __DRI_CTX_ERROR_UNKNOWN_FLAG: egl_error = EGL_BAD_ATTRIBUTE; break; default: assert(0); egl_error = EGL_BAD_MATCH; break; } _eglError(egl_error, "dri2_create_context"); } static bool dri2_fill_context_attribs(struct dri2_egl_context *dri2_ctx, struct dri2_egl_display *dri2_dpy, uint32_t *ctx_attribs, unsigned *num_attribs) { int pos = 0; assert(*num_attribs >= 8); ctx_attribs[pos++] = __DRI_CTX_ATTRIB_MAJOR_VERSION; ctx_attribs[pos++] = dri2_ctx->base.ClientMajorVersion; ctx_attribs[pos++] = __DRI_CTX_ATTRIB_MINOR_VERSION; ctx_attribs[pos++] = dri2_ctx->base.ClientMinorVersion; if (dri2_ctx->base.Flags != 0) { /* If the implementation doesn't support the __DRI2_ROBUSTNESS * extension, don't even try to send it the robust-access flag. * It may explode. Instead, generate the required EGL error here. */ if ((dri2_ctx->base.Flags & EGL_CONTEXT_OPENGL_ROBUST_ACCESS_BIT_KHR) != 0 && !dri2_dpy->robustness) { _eglError(EGL_BAD_MATCH, "eglCreateContext"); return false; } ctx_attribs[pos++] = __DRI_CTX_ATTRIB_FLAGS; ctx_attribs[pos++] = dri2_ctx->base.Flags; } if (dri2_ctx->base.ResetNotificationStrategy != EGL_NO_RESET_NOTIFICATION_KHR) { /* If the implementation doesn't support the __DRI2_ROBUSTNESS * extension, don't even try to send it a reset strategy. It may * explode. Instead, generate the required EGL error here. */ if (!dri2_dpy->robustness) { _eglError(EGL_BAD_CONFIG, "eglCreateContext"); return false; } ctx_attribs[pos++] = __DRI_CTX_ATTRIB_RESET_STRATEGY; ctx_attribs[pos++] = __DRI_CTX_RESET_LOSE_CONTEXT; } *num_attribs = pos; return true; } /** * Called via eglCreateContext(), drv->API.CreateContext(). */ static _EGLContext * dri2_create_context(_EGLDriver *drv, _EGLDisplay *disp, _EGLConfig *conf, _EGLContext *share_list, const EGLint *attrib_list) { struct dri2_egl_context *dri2_ctx; struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); struct dri2_egl_context *dri2_ctx_shared = dri2_egl_context(share_list); __DRIcontext *shared = dri2_ctx_shared ? dri2_ctx_shared->dri_context : NULL; struct dri2_egl_config *dri2_config = dri2_egl_config(conf); const __DRIconfig *dri_config; int api; (void) drv; dri2_ctx = malloc(sizeof *dri2_ctx); if (!dri2_ctx) { _eglError(EGL_BAD_ALLOC, "eglCreateContext"); return NULL; } if (!_eglInitContext(&dri2_ctx->base, disp, conf, attrib_list)) goto cleanup; switch (dri2_ctx->base.ClientAPI) { case EGL_OPENGL_ES_API: switch (dri2_ctx->base.ClientMajorVersion) { case 1: api = __DRI_API_GLES; break; case 2: api = __DRI_API_GLES2; break; case 3: api = __DRI_API_GLES3; break; default: _eglError(EGL_BAD_PARAMETER, "eglCreateContext"); free(dri2_ctx); return NULL; } break; case EGL_OPENGL_API: if ((dri2_ctx->base.ClientMajorVersion >= 4 || (dri2_ctx->base.ClientMajorVersion == 3 && dri2_ctx->base.ClientMinorVersion >= 2)) && dri2_ctx->base.Profile == EGL_CONTEXT_OPENGL_CORE_PROFILE_BIT_KHR) api = __DRI_API_OPENGL_CORE; else api = __DRI_API_OPENGL; break; default: _eglError(EGL_BAD_PARAMETER, "eglCreateContext"); free(dri2_ctx); return NULL; } if (conf != NULL) { /* The config chosen here isn't necessarily * used for surfaces later. * A pixmap surface will use the single config. * This opportunity depends on disabling the * doubleBufferMode check in * src/mesa/main/context.c:check_compatible() */ if (dri2_config->dri_double_config[0]) dri_config = dri2_config->dri_double_config[0]; else dri_config = dri2_config->dri_single_config[0]; /* EGL_WINDOW_BIT is set only when there is a dri_double_config. This * makes sure the back buffer will always be used. */ if (conf->SurfaceType & EGL_WINDOW_BIT) dri2_ctx->base.WindowRenderBuffer = EGL_BACK_BUFFER; } else dri_config = NULL; if (dri2_dpy->image_driver) { unsigned error; unsigned num_attribs = 8; uint32_t ctx_attribs[8]; if (!dri2_fill_context_attribs(dri2_ctx, dri2_dpy, ctx_attribs, &num_attribs)) goto cleanup; dri2_ctx->dri_context = dri2_dpy->image_driver->createContextAttribs(dri2_dpy->dri_screen, api, dri_config, shared, num_attribs / 2, ctx_attribs, & error, dri2_ctx); dri2_create_context_attribs_error(error); } else if (dri2_dpy->dri2) { if (dri2_dpy->dri2->base.version >= 3) { unsigned error; unsigned num_attribs = 8; uint32_t ctx_attribs[8]; if (!dri2_fill_context_attribs(dri2_ctx, dri2_dpy, ctx_attribs, &num_attribs)) goto cleanup; dri2_ctx->dri_context = dri2_dpy->dri2->createContextAttribs(dri2_dpy->dri_screen, api, dri_config, shared, num_attribs / 2, ctx_attribs, & error, dri2_ctx); dri2_create_context_attribs_error(error); } else { dri2_ctx->dri_context = dri2_dpy->dri2->createNewContextForAPI(dri2_dpy->dri_screen, api, dri_config, shared, dri2_ctx); } } else { assert(dri2_dpy->swrast); if (dri2_dpy->swrast->base.version >= 3) { unsigned error; unsigned num_attribs = 8; uint32_t ctx_attribs[8]; if (!dri2_fill_context_attribs(dri2_ctx, dri2_dpy, ctx_attribs, &num_attribs)) goto cleanup; dri2_ctx->dri_context = dri2_dpy->swrast->createContextAttribs(dri2_dpy->dri_screen, api, dri_config, shared, num_attribs / 2, ctx_attribs, & error, dri2_ctx); dri2_create_context_attribs_error(error); } else { dri2_ctx->dri_context = dri2_dpy->swrast->createNewContextForAPI(dri2_dpy->dri_screen, api, dri_config, shared, dri2_ctx); } } if (!dri2_ctx->dri_context) goto cleanup; return &dri2_ctx->base; cleanup: free(dri2_ctx); return NULL; } /** * Called via eglDestroyContext(), drv->API.DestroyContext(). */ static EGLBoolean dri2_destroy_context(_EGLDriver *drv, _EGLDisplay *disp, _EGLContext *ctx) { struct dri2_egl_context *dri2_ctx = dri2_egl_context(ctx); struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); if (_eglPutContext(ctx)) { dri2_dpy->core->destroyContext(dri2_ctx->dri_context); free(dri2_ctx); } return EGL_TRUE; } /** * Called via eglMakeCurrent(), drv->API.MakeCurrent(). */ static EGLBoolean dri2_make_current(_EGLDriver *drv, _EGLDisplay *disp, _EGLSurface *dsurf, _EGLSurface *rsurf, _EGLContext *ctx) { struct dri2_egl_driver *dri2_drv = dri2_egl_driver(drv); struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); struct dri2_egl_context *dri2_ctx = dri2_egl_context(ctx); _EGLContext *old_ctx; _EGLSurface *old_dsurf, *old_rsurf; _EGLSurface *tmp_dsurf, *tmp_rsurf; __DRIdrawable *ddraw, *rdraw; __DRIcontext *cctx; /* make new bindings */ if (!_eglBindContext(ctx, dsurf, rsurf, &old_ctx, &old_dsurf, &old_rsurf)) return EGL_FALSE; /* flush before context switch */ if (old_ctx && dri2_drv->glFlush) dri2_drv->glFlush(); ddraw = (dsurf) ? dri2_dpy->vtbl->get_dri_drawable(dsurf) : NULL; rdraw = (rsurf) ? dri2_dpy->vtbl->get_dri_drawable(rsurf) : NULL; cctx = (dri2_ctx) ? dri2_ctx->dri_context : NULL; if (old_ctx) { __DRIcontext *old_cctx = dri2_egl_context(old_ctx)->dri_context; dri2_dpy->core->unbindContext(old_cctx); } if ((cctx == NULL && ddraw == NULL && rdraw == NULL) || dri2_dpy->core->bindContext(cctx, ddraw, rdraw)) { if (old_dsurf) drv->API.DestroySurface(drv, disp, old_dsurf); if (old_rsurf) drv->API.DestroySurface(drv, disp, old_rsurf); if (old_ctx) drv->API.DestroyContext(drv, disp, old_ctx); return EGL_TRUE; } else { /* undo the previous _eglBindContext */ _eglBindContext(old_ctx, old_dsurf, old_rsurf, &ctx, &tmp_dsurf, &tmp_rsurf); assert(&dri2_ctx->base == ctx && tmp_dsurf == dsurf && tmp_rsurf == rsurf); _eglPutSurface(dsurf); _eglPutSurface(rsurf); _eglPutContext(ctx); _eglPutSurface(old_dsurf); _eglPutSurface(old_rsurf); _eglPutContext(old_ctx); return EGL_FALSE; } } __DRIdrawable * dri2_surface_get_dri_drawable(_EGLSurface *surf) { struct dri2_egl_surface *dri2_surf = dri2_egl_surface(surf); return dri2_surf->dri_drawable; } /* * Called from eglGetProcAddress() via drv->API.GetProcAddress(). */ static _EGLProc dri2_get_proc_address(_EGLDriver *drv, const char *procname) { struct dri2_egl_driver *dri2_drv = dri2_egl_driver(drv); return dri2_drv->get_proc_address(procname); } static _EGLSurface* dri2_create_window_surface(_EGLDriver *drv, _EGLDisplay *dpy, _EGLConfig *conf, void *native_window, const EGLint *attrib_list) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->create_window_surface(drv, dpy, conf, native_window, attrib_list); } static _EGLSurface* dri2_create_pixmap_surface(_EGLDriver *drv, _EGLDisplay *dpy, _EGLConfig *conf, void *native_pixmap, const EGLint *attrib_list) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->create_pixmap_surface(drv, dpy, conf, native_pixmap, attrib_list); } static _EGLSurface* dri2_create_pbuffer_surface(_EGLDriver *drv, _EGLDisplay *dpy, _EGLConfig *conf, const EGLint *attrib_list) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->create_pbuffer_surface(drv, dpy, conf, attrib_list); } static EGLBoolean dri2_destroy_surface(_EGLDriver *drv, _EGLDisplay *dpy, _EGLSurface *surf) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->destroy_surface(drv, dpy, surf); } static EGLBoolean dri2_swap_interval(_EGLDriver *drv, _EGLDisplay *dpy, _EGLSurface *surf, EGLint interval) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->swap_interval(drv, dpy, surf, interval); } /** * Asks the client API to flush any rendering to the drawable so that we can * do our swapbuffers. */ void dri2_flush_drawable_for_swapbuffers(_EGLDisplay *disp, _EGLSurface *draw) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); __DRIdrawable *dri_drawable = dri2_dpy->vtbl->get_dri_drawable(draw); if (dri2_dpy->flush) { if (dri2_dpy->flush->base.version >= 4) { /* We know there's a current context because: * * "If surface is not bound to the calling thread’s current * context, an EGL_BAD_SURFACE error is generated." */ _EGLContext *ctx = _eglGetCurrentContext(); struct dri2_egl_context *dri2_ctx = dri2_egl_context(ctx); /* From the EGL 1.4 spec (page 52): * * "The contents of ancillary buffers are always undefined * after calling eglSwapBuffers." */ dri2_dpy->flush->flush_with_flags(dri2_ctx->dri_context, dri_drawable, __DRI2_FLUSH_DRAWABLE | __DRI2_FLUSH_INVALIDATE_ANCILLARY, __DRI2_THROTTLE_SWAPBUFFER); } else { dri2_dpy->flush->flush(dri_drawable); } } } static EGLBoolean dri2_swap_buffers(_EGLDriver *drv, _EGLDisplay *dpy, _EGLSurface *surf) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->swap_buffers(drv, dpy, surf); } static EGLBoolean dri2_swap_buffers_with_damage(_EGLDriver *drv, _EGLDisplay *dpy, _EGLSurface *surf, const EGLint *rects, EGLint n_rects) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->swap_buffers_with_damage(drv, dpy, surf, rects, n_rects); } static EGLBoolean dri2_swap_buffers_region(_EGLDriver *drv, _EGLDisplay *dpy, _EGLSurface *surf, EGLint numRects, const EGLint *rects) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->swap_buffers_region(drv, dpy, surf, numRects, rects); } static EGLBoolean dri2_post_sub_buffer(_EGLDriver *drv, _EGLDisplay *dpy, _EGLSurface *surf, EGLint x, EGLint y, EGLint width, EGLint height) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->post_sub_buffer(drv, dpy, surf, x, y, width, height); } static EGLBoolean dri2_copy_buffers(_EGLDriver *drv, _EGLDisplay *dpy, _EGLSurface *surf, void *native_pixmap_target) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->copy_buffers(drv, dpy, surf, native_pixmap_target); } static EGLint dri2_query_buffer_age(_EGLDriver *drv, _EGLDisplay *dpy, _EGLSurface *surf) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->query_buffer_age(drv, dpy, surf); } static EGLBoolean dri2_wait_client(_EGLDriver *drv, _EGLDisplay *disp, _EGLContext *ctx) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); _EGLSurface *surf = ctx->DrawSurface; __DRIdrawable *dri_drawable = dri2_dpy->vtbl->get_dri_drawable(surf); (void) drv; /* FIXME: If EGL allows frontbuffer rendering for window surfaces, * we need to copy fake to real here.*/ if (dri2_dpy->flush != NULL) dri2_dpy->flush->flush(dri_drawable); return EGL_TRUE; } static EGLBoolean dri2_wait_native(_EGLDriver *drv, _EGLDisplay *disp, EGLint engine) { (void) drv; (void) disp; if (engine != EGL_CORE_NATIVE_ENGINE) return _eglError(EGL_BAD_PARAMETER, "eglWaitNative"); /* glXWaitX(); */ return EGL_TRUE; } static EGLBoolean dri2_bind_tex_image(_EGLDriver *drv, _EGLDisplay *disp, _EGLSurface *surf, EGLint buffer) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); struct dri2_egl_context *dri2_ctx; _EGLContext *ctx; GLint format, target; __DRIdrawable *dri_drawable = dri2_dpy->vtbl->get_dri_drawable(surf); ctx = _eglGetCurrentContext(); dri2_ctx = dri2_egl_context(ctx); if (!_eglBindTexImage(drv, disp, surf, buffer)) return EGL_FALSE; switch (surf->TextureFormat) { case EGL_TEXTURE_RGB: format = __DRI_TEXTURE_FORMAT_RGB; break; case EGL_TEXTURE_RGBA: format = __DRI_TEXTURE_FORMAT_RGBA; break; default: assert(!"Unexpected texture format in dri2_bind_tex_image()"); format = __DRI_TEXTURE_FORMAT_RGBA; } switch (surf->TextureTarget) { case EGL_TEXTURE_2D: target = GL_TEXTURE_2D; break; default: target = GL_TEXTURE_2D; assert(!"Unexpected texture target in dri2_bind_tex_image()"); } (*dri2_dpy->tex_buffer->setTexBuffer2)(dri2_ctx->dri_context, target, format, dri_drawable); return EGL_TRUE; } static EGLBoolean dri2_release_tex_image(_EGLDriver *drv, _EGLDisplay *disp, _EGLSurface *surf, EGLint buffer) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); struct dri2_egl_context *dri2_ctx; _EGLContext *ctx; GLint target; __DRIdrawable *dri_drawable = dri2_dpy->vtbl->get_dri_drawable(surf); ctx = _eglGetCurrentContext(); dri2_ctx = dri2_egl_context(ctx); if (!_eglReleaseTexImage(drv, disp, surf, buffer)) return EGL_FALSE; switch (surf->TextureTarget) { case EGL_TEXTURE_2D: target = GL_TEXTURE_2D; break; default: assert(0); } if (dri2_dpy->tex_buffer->base.version >= 3 && dri2_dpy->tex_buffer->releaseTexBuffer != NULL) { (*dri2_dpy->tex_buffer->releaseTexBuffer)(dri2_ctx->dri_context, target, dri_drawable); } return EGL_TRUE; } static _EGLImage* dri2_create_image(_EGLDriver *drv, _EGLDisplay *dpy, _EGLContext *ctx, EGLenum target, EGLClientBuffer buffer, const EGLint *attr_list) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->create_image(drv, dpy, ctx, target, buffer, attr_list); } static _EGLImage * dri2_create_image_from_dri(_EGLDisplay *disp, __DRIimage *dri_image) { struct dri2_egl_image *dri2_img; if (dri_image == NULL) { _eglError(EGL_BAD_ALLOC, "dri2_create_image"); return NULL; } dri2_img = malloc(sizeof *dri2_img); if (!dri2_img) { _eglError(EGL_BAD_ALLOC, "dri2_create_image"); return NULL; } if (!_eglInitImage(&dri2_img->base, disp)) { free(dri2_img); return NULL; } dri2_img->dri_image = dri_image; return &dri2_img->base; } static _EGLImage * dri2_create_image_khr_renderbuffer(_EGLDisplay *disp, _EGLContext *ctx, EGLClientBuffer buffer, const EGLint *attr_list) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); struct dri2_egl_context *dri2_ctx = dri2_egl_context(ctx); GLuint renderbuffer = (GLuint) (uintptr_t) buffer; __DRIimage *dri_image; if (renderbuffer == 0) { _eglError(EGL_BAD_PARAMETER, "dri2_create_image_khr"); return EGL_NO_IMAGE_KHR; } dri_image = dri2_dpy->image->createImageFromRenderbuffer(dri2_ctx->dri_context, renderbuffer, NULL); return dri2_create_image_from_dri(disp, dri_image); } #ifdef HAVE_WAYLAND_PLATFORM /* This structure describes how a wl_buffer maps to one or more * __DRIimages. A wl_drm_buffer stores the wl_drm format code and the * offsets and strides of the planes in the buffer. This table maps a * wl_drm format code to a description of the planes in the buffer * that lets us create a __DRIimage for each of the planes. */ static const struct wl_drm_components_descriptor { uint32_t dri_components; EGLint components; int nplanes; } wl_drm_components[] = { { __DRI_IMAGE_COMPONENTS_RGB, EGL_TEXTURE_RGB, 1 }, { __DRI_IMAGE_COMPONENTS_RGBA, EGL_TEXTURE_RGBA, 1 }, { __DRI_IMAGE_COMPONENTS_Y_U_V, EGL_TEXTURE_Y_U_V_WL, 3 }, { __DRI_IMAGE_COMPONENTS_Y_UV, EGL_TEXTURE_Y_UV_WL, 2 }, { __DRI_IMAGE_COMPONENTS_Y_XUXV, EGL_TEXTURE_Y_XUXV_WL, 2 }, }; static _EGLImage * dri2_create_image_wayland_wl_buffer(_EGLDisplay *disp, _EGLContext *ctx, EGLClientBuffer _buffer, const EGLint *attr_list) { struct wl_drm_buffer *buffer; struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); const struct wl_drm_components_descriptor *f; __DRIimage *dri_image; _EGLImageAttribs attrs; EGLint err; int32_t plane; buffer = wayland_drm_buffer_get(dri2_dpy->wl_server_drm, (struct wl_resource *) _buffer); if (!buffer) return NULL; err = _eglParseImageAttribList(&attrs, disp, attr_list); plane = attrs.PlaneWL; if (err != EGL_SUCCESS) { _eglError(EGL_BAD_PARAMETER, "dri2_create_image_wayland_wl_buffer"); return NULL; } f = buffer->driver_format; if (plane < 0 || plane >= f->nplanes) { _eglError(EGL_BAD_PARAMETER, "dri2_create_image_wayland_wl_buffer (plane out of bounds)"); return NULL; } dri_image = dri2_dpy->image->fromPlanar(buffer->driver_buffer, plane, NULL); if (dri_image == NULL) { _eglError(EGL_BAD_PARAMETER, "dri2_create_image_wayland_wl_buffer"); return NULL; } return dri2_create_image_from_dri(disp, dri_image); } #endif static EGLBoolean dri2_get_sync_values_chromium(_EGLDisplay *dpy, _EGLSurface *surf, EGLuint64KHR *ust, EGLuint64KHR *msc, EGLuint64KHR *sbc) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->get_sync_values(dpy, surf, ust, msc, sbc); } /** * Set the error code after a call to * dri2_egl_image::dri_image::createImageFromTexture. */ static void dri2_create_image_khr_texture_error(int dri_error) { EGLint egl_error; switch (dri_error) { case __DRI_IMAGE_ERROR_SUCCESS: return; case __DRI_IMAGE_ERROR_BAD_ALLOC: egl_error = EGL_BAD_ALLOC; break; case __DRI_IMAGE_ERROR_BAD_MATCH: egl_error = EGL_BAD_MATCH; break; case __DRI_IMAGE_ERROR_BAD_PARAMETER: egl_error = EGL_BAD_PARAMETER; break; case __DRI_IMAGE_ERROR_BAD_ACCESS: egl_error = EGL_BAD_ACCESS; break; default: assert(0); egl_error = EGL_BAD_MATCH; break; } _eglError(egl_error, "dri2_create_image_khr_texture"); } static _EGLImage * dri2_create_image_khr_texture(_EGLDisplay *disp, _EGLContext *ctx, EGLenum target, EGLClientBuffer buffer, const EGLint *attr_list) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); struct dri2_egl_context *dri2_ctx = dri2_egl_context(ctx); struct dri2_egl_image *dri2_img; GLuint texture = (GLuint) (uintptr_t) buffer; _EGLImageAttribs attrs; GLuint depth; GLenum gl_target; unsigned error; if (texture == 0) { _eglError(EGL_BAD_PARAMETER, "dri2_create_image_khr"); return EGL_NO_IMAGE_KHR; } if (_eglParseImageAttribList(&attrs, disp, attr_list) != EGL_SUCCESS) return EGL_NO_IMAGE_KHR; switch (target) { case EGL_GL_TEXTURE_2D_KHR: depth = 0; gl_target = GL_TEXTURE_2D; break; case EGL_GL_TEXTURE_3D_KHR: if (disp->Extensions.KHR_gl_texture_3D_image) { depth = attrs.GLTextureZOffset; gl_target = GL_TEXTURE_3D; break; } else { _eglError(EGL_BAD_PARAMETER, "dri2_create_image_khr"); return EGL_NO_IMAGE_KHR; } case EGL_GL_TEXTURE_CUBE_MAP_POSITIVE_X_KHR: case EGL_GL_TEXTURE_CUBE_MAP_NEGATIVE_X_KHR: case EGL_GL_TEXTURE_CUBE_MAP_POSITIVE_Y_KHR: case EGL_GL_TEXTURE_CUBE_MAP_NEGATIVE_Y_KHR: case EGL_GL_TEXTURE_CUBE_MAP_POSITIVE_Z_KHR: case EGL_GL_TEXTURE_CUBE_MAP_NEGATIVE_Z_KHR: depth = target - EGL_GL_TEXTURE_CUBE_MAP_POSITIVE_X_KHR; gl_target = GL_TEXTURE_CUBE_MAP; break; default: _eglError(EGL_BAD_PARAMETER, "dri2_create_image_khr"); return EGL_NO_IMAGE_KHR; } dri2_img = malloc(sizeof *dri2_img); if (!dri2_img) { _eglError(EGL_BAD_ALLOC, "dri2_create_image_khr"); return EGL_NO_IMAGE_KHR; } if (!_eglInitImage(&dri2_img->base, disp)) { _eglError(EGL_BAD_ALLOC, "dri2_create_image_khr"); free(dri2_img); return EGL_NO_IMAGE_KHR; } dri2_img->dri_image = dri2_dpy->image->createImageFromTexture(dri2_ctx->dri_context, gl_target, texture, depth, attrs.GLTextureLevel, &error, dri2_img); dri2_create_image_khr_texture_error(error); if (!dri2_img->dri_image) { free(dri2_img); return EGL_NO_IMAGE_KHR; } return &dri2_img->base; } static struct wl_buffer* dri2_create_wayland_buffer_from_image(_EGLDriver *drv, _EGLDisplay *dpy, _EGLImage *img) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); return dri2_dpy->vtbl->create_wayland_buffer_from_image(drv, dpy, img); } #ifdef HAVE_LIBDRM static _EGLImage * dri2_create_image_mesa_drm_buffer(_EGLDisplay *disp, _EGLContext *ctx, EGLClientBuffer buffer, const EGLint *attr_list) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); EGLint format, name, pitch, err; _EGLImageAttribs attrs; __DRIimage *dri_image; name = (EGLint) (uintptr_t) buffer; err = _eglParseImageAttribList(&attrs, disp, attr_list); if (err != EGL_SUCCESS) return NULL; if (attrs.Width <= 0 || attrs.Height <= 0 || attrs.DRMBufferStrideMESA <= 0) { _eglError(EGL_BAD_PARAMETER, "bad width, height or stride"); return NULL; } switch (attrs.DRMBufferFormatMESA) { case EGL_DRM_BUFFER_FORMAT_ARGB32_MESA: format = __DRI_IMAGE_FORMAT_ARGB8888; pitch = attrs.DRMBufferStrideMESA; break; default: _eglError(EGL_BAD_PARAMETER, "dri2_create_image_khr: unsupported pixmap depth"); return NULL; } dri_image = dri2_dpy->image->createImageFromName(dri2_dpy->dri_screen, attrs.Width, attrs.Height, format, name, pitch, NULL); return dri2_create_image_from_dri(disp, dri_image); } static EGLBoolean dri2_check_dma_buf_attribs(const _EGLImageAttribs *attrs) { unsigned i; /** * The spec says: * * "Required attributes and their values are as follows: * * * EGL_WIDTH & EGL_HEIGHT: The logical dimensions of the buffer in pixels * * * EGL_LINUX_DRM_FOURCC_EXT: The pixel format of the buffer, as specified * by drm_fourcc.h and used as the pixel_format parameter of the * drm_mode_fb_cmd2 ioctl." * * and * * "* If is EGL_LINUX_DMA_BUF_EXT, and the list of attributes is * incomplete, EGL_BAD_PARAMETER is generated." */ if (attrs->Width <= 0 || attrs->Height <= 0 || !attrs->DMABufFourCC.IsPresent) { _eglError(EGL_BAD_PARAMETER, "attribute(s) missing"); return EGL_FALSE; } /** * Also: * * "If is EGL_LINUX_DMA_BUF_EXT and one or more of the values * specified for a plane's pitch or offset isn't supported by EGL, * EGL_BAD_ACCESS is generated." */ for (i = 0; i < ARRAY_SIZE(attrs->DMABufPlanePitches); ++i) { if (attrs->DMABufPlanePitches[i].IsPresent && attrs->DMABufPlanePitches[i].Value <= 0) { _eglError(EGL_BAD_ACCESS, "invalid pitch"); return EGL_FALSE; } } return EGL_TRUE; } /* Returns the total number of file descriptors. Zero indicates an error. */ static unsigned dri2_check_dma_buf_format(const _EGLImageAttribs *attrs) { unsigned i, plane_n; switch (attrs->DMABufFourCC.Value) { case DRM_FORMAT_R8: case DRM_FORMAT_RG88: case DRM_FORMAT_GR88: case DRM_FORMAT_RGB332: case DRM_FORMAT_BGR233: case DRM_FORMAT_XRGB4444: case DRM_FORMAT_XBGR4444: case DRM_FORMAT_RGBX4444: case DRM_FORMAT_BGRX4444: case DRM_FORMAT_ARGB4444: case DRM_FORMAT_ABGR4444: case DRM_FORMAT_RGBA4444: case DRM_FORMAT_BGRA4444: case DRM_FORMAT_XRGB1555: case DRM_FORMAT_XBGR1555: case DRM_FORMAT_RGBX5551: case DRM_FORMAT_BGRX5551: case DRM_FORMAT_ARGB1555: case DRM_FORMAT_ABGR1555: case DRM_FORMAT_RGBA5551: case DRM_FORMAT_BGRA5551: case DRM_FORMAT_RGB565: case DRM_FORMAT_BGR565: case DRM_FORMAT_RGB888: case DRM_FORMAT_BGR888: case DRM_FORMAT_XRGB8888: case DRM_FORMAT_XBGR8888: case DRM_FORMAT_RGBX8888: case DRM_FORMAT_BGRX8888: case DRM_FORMAT_ARGB8888: case DRM_FORMAT_ABGR8888: case DRM_FORMAT_RGBA8888: case DRM_FORMAT_BGRA8888: case DRM_FORMAT_XRGB2101010: case DRM_FORMAT_XBGR2101010: case DRM_FORMAT_RGBX1010102: case DRM_FORMAT_BGRX1010102: case DRM_FORMAT_ARGB2101010: case DRM_FORMAT_ABGR2101010: case DRM_FORMAT_RGBA1010102: case DRM_FORMAT_BGRA1010102: case DRM_FORMAT_YUYV: case DRM_FORMAT_YVYU: case DRM_FORMAT_UYVY: case DRM_FORMAT_VYUY: plane_n = 1; break; case DRM_FORMAT_NV12: case DRM_FORMAT_NV21: case DRM_FORMAT_NV16: case DRM_FORMAT_NV61: plane_n = 2; break; case DRM_FORMAT_YUV410: case DRM_FORMAT_YVU410: case DRM_FORMAT_YUV411: case DRM_FORMAT_YVU411: case DRM_FORMAT_YUV420: case DRM_FORMAT_YVU420: case DRM_FORMAT_YUV422: case DRM_FORMAT_YVU422: case DRM_FORMAT_YUV444: case DRM_FORMAT_YVU444: plane_n = 3; break; default: _eglError(EGL_BAD_ATTRIBUTE, "invalid format"); return 0; } /** * The spec says: * * "* If is EGL_LINUX_DMA_BUF_EXT, and the list of attributes is * incomplete, EGL_BAD_PARAMETER is generated." */ for (i = 0; i < plane_n; ++i) { if (!attrs->DMABufPlaneFds[i].IsPresent || !attrs->DMABufPlaneOffsets[i].IsPresent || !attrs->DMABufPlanePitches[i].IsPresent) { _eglError(EGL_BAD_PARAMETER, "plane attribute(s) missing"); return 0; } } /** * The spec also says: * * "If is EGL_LINUX_DMA_BUF_EXT, and the EGL_LINUX_DRM_FOURCC_EXT * attribute indicates a single-plane format, EGL_BAD_ATTRIBUTE is * generated if any of the EGL_DMA_BUF_PLANE1_* or EGL_DMA_BUF_PLANE2_* * attributes are specified." */ for (i = plane_n; i < 3; ++i) { if (attrs->DMABufPlaneFds[i].IsPresent || attrs->DMABufPlaneOffsets[i].IsPresent || attrs->DMABufPlanePitches[i].IsPresent) { _eglError(EGL_BAD_ATTRIBUTE, "too many plane attributes"); return 0; } } return plane_n; } /** * The spec says: * * "If eglCreateImageKHR is successful for a EGL_LINUX_DMA_BUF_EXT target, the * EGL will take a reference to the dma_buf(s) which it will release at any * time while the EGLDisplay is initialized. It is the responsibility of the * application to close the dma_buf file descriptors." * * Therefore we must never close or otherwise modify the file descriptors. */ _EGLImage * dri2_create_image_dma_buf(_EGLDisplay *disp, _EGLContext *ctx, EGLClientBuffer buffer, const EGLint *attr_list) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); _EGLImage *res; EGLint err; _EGLImageAttribs attrs; __DRIimage *dri_image; unsigned num_fds; unsigned i; int fds[3]; int pitches[3]; int offsets[3]; unsigned error; /** * The spec says: * * ""* If is EGL_LINUX_DMA_BUF_EXT and is not NULL, the * error EGL_BAD_PARAMETER is generated." */ if (buffer != NULL) { _eglError(EGL_BAD_PARAMETER, "buffer not NULL"); return NULL; } err = _eglParseImageAttribList(&attrs, disp, attr_list); if (err != EGL_SUCCESS) { _eglError(err, "bad attribute"); return NULL; } if (!dri2_check_dma_buf_attribs(&attrs)) return NULL; num_fds = dri2_check_dma_buf_format(&attrs); if (!num_fds) return NULL; for (i = 0; i < num_fds; ++i) { fds[i] = attrs.DMABufPlaneFds[i].Value; pitches[i] = attrs.DMABufPlanePitches[i].Value; offsets[i] = attrs.DMABufPlaneOffsets[i].Value; } dri_image = dri2_dpy->image->createImageFromDmaBufs(dri2_dpy->dri_screen, attrs.Width, attrs.Height, attrs.DMABufFourCC.Value, fds, num_fds, pitches, offsets, attrs.DMABufYuvColorSpaceHint.Value, attrs.DMABufSampleRangeHint.Value, attrs.DMABufChromaHorizontalSiting.Value, attrs.DMABufChromaVerticalSiting.Value, &error, NULL); dri2_create_image_khr_texture_error(error); if (!dri_image) return EGL_NO_IMAGE_KHR; res = dri2_create_image_from_dri(disp, dri_image); return res; } static _EGLImage * dri2_create_drm_image_mesa(_EGLDriver *drv, _EGLDisplay *disp, const EGLint *attr_list) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); struct dri2_egl_image *dri2_img; _EGLImageAttribs attrs; unsigned int dri_use, valid_mask; int format; EGLint err = EGL_SUCCESS; (void) drv; dri2_img = malloc(sizeof *dri2_img); if (!dri2_img) { _eglError(EGL_BAD_ALLOC, "dri2_create_image_khr"); return EGL_NO_IMAGE_KHR; } if (!attr_list) { err = EGL_BAD_PARAMETER; goto cleanup_img; } if (!_eglInitImage(&dri2_img->base, disp)) { err = EGL_BAD_PARAMETER; goto cleanup_img; } err = _eglParseImageAttribList(&attrs, disp, attr_list); if (err != EGL_SUCCESS) goto cleanup_img; if (attrs.Width <= 0 || attrs.Height <= 0) { _eglLog(_EGL_WARNING, "bad width or height (%dx%d)", attrs.Width, attrs.Height); goto cleanup_img; } switch (attrs.DRMBufferFormatMESA) { case EGL_DRM_BUFFER_FORMAT_ARGB32_MESA: format = __DRI_IMAGE_FORMAT_ARGB8888; break; default: _eglLog(_EGL_WARNING, "bad image format value 0x%04x", attrs.DRMBufferFormatMESA); goto cleanup_img; } valid_mask = EGL_DRM_BUFFER_USE_SCANOUT_MESA | EGL_DRM_BUFFER_USE_SHARE_MESA | EGL_DRM_BUFFER_USE_CURSOR_MESA; if (attrs.DRMBufferUseMESA & ~valid_mask) { _eglLog(_EGL_WARNING, "bad image use bit 0x%04x", attrs.DRMBufferUseMESA & ~valid_mask); goto cleanup_img; } dri_use = 0; if (attrs.DRMBufferUseMESA & EGL_DRM_BUFFER_USE_SHARE_MESA) dri_use |= __DRI_IMAGE_USE_SHARE; if (attrs.DRMBufferUseMESA & EGL_DRM_BUFFER_USE_SCANOUT_MESA) dri_use |= __DRI_IMAGE_USE_SCANOUT; if (attrs.DRMBufferUseMESA & EGL_DRM_BUFFER_USE_CURSOR_MESA) dri_use |= __DRI_IMAGE_USE_CURSOR; dri2_img->dri_image = dri2_dpy->image->createImage(dri2_dpy->dri_screen, attrs.Width, attrs.Height, format, dri_use, dri2_img); if (dri2_img->dri_image == NULL) { err = EGL_BAD_ALLOC; goto cleanup_img; } return &dri2_img->base; cleanup_img: free(dri2_img); _eglError(err, "dri2_create_drm_image_mesa"); return EGL_NO_IMAGE_KHR; } static EGLBoolean dri2_export_drm_image_mesa(_EGLDriver *drv, _EGLDisplay *disp, _EGLImage *img, EGLint *name, EGLint *handle, EGLint *stride) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); struct dri2_egl_image *dri2_img = dri2_egl_image(img); (void) drv; if (name && !dri2_dpy->image->queryImage(dri2_img->dri_image, __DRI_IMAGE_ATTRIB_NAME, name)) { _eglError(EGL_BAD_ALLOC, "dri2_export_drm_image_mesa"); return EGL_FALSE; } if (handle) dri2_dpy->image->queryImage(dri2_img->dri_image, __DRI_IMAGE_ATTRIB_HANDLE, handle); if (stride) dri2_dpy->image->queryImage(dri2_img->dri_image, __DRI_IMAGE_ATTRIB_STRIDE, stride); return EGL_TRUE; } static EGLBoolean dri2_export_dma_buf_image_query_mesa(_EGLDriver *drv, _EGLDisplay *disp, _EGLImage *img, EGLint *fourcc, EGLint *nplanes, EGLuint64KHR *modifiers) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); struct dri2_egl_image *dri2_img = dri2_egl_image(img); (void) drv; if (nplanes) dri2_dpy->image->queryImage(dri2_img->dri_image, __DRI_IMAGE_ATTRIB_NUM_PLANES, nplanes); if (fourcc) dri2_dpy->image->queryImage(dri2_img->dri_image, __DRI_IMAGE_ATTRIB_FOURCC, fourcc); if (modifiers) *modifiers = 0; return EGL_TRUE; } static EGLBoolean dri2_export_dma_buf_image_mesa(_EGLDriver *drv, _EGLDisplay *disp, _EGLImage *img, int *fds, EGLint *strides, EGLint *offsets) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); struct dri2_egl_image *dri2_img = dri2_egl_image(img); (void) drv; /* rework later to provide multiple fds/strides/offsets */ if (fds) dri2_dpy->image->queryImage(dri2_img->dri_image, __DRI_IMAGE_ATTRIB_FD, fds); if (strides) dri2_dpy->image->queryImage(dri2_img->dri_image, __DRI_IMAGE_ATTRIB_STRIDE, strides); if (offsets) offsets[0] = 0; return EGL_TRUE; } #endif _EGLImage * dri2_create_image_khr(_EGLDriver *drv, _EGLDisplay *disp, _EGLContext *ctx, EGLenum target, EGLClientBuffer buffer, const EGLint *attr_list) { (void) drv; switch (target) { case EGL_GL_TEXTURE_2D_KHR: case EGL_GL_TEXTURE_CUBE_MAP_POSITIVE_X_KHR: case EGL_GL_TEXTURE_CUBE_MAP_NEGATIVE_X_KHR: case EGL_GL_TEXTURE_CUBE_MAP_POSITIVE_Y_KHR: case EGL_GL_TEXTURE_CUBE_MAP_NEGATIVE_Y_KHR: case EGL_GL_TEXTURE_CUBE_MAP_POSITIVE_Z_KHR: case EGL_GL_TEXTURE_CUBE_MAP_NEGATIVE_Z_KHR: return dri2_create_image_khr_texture(disp, ctx, target, buffer, attr_list); case EGL_GL_TEXTURE_3D_KHR: if (disp->Extensions.KHR_gl_texture_3D_image) { return dri2_create_image_khr_texture(disp, ctx, target, buffer, attr_list); } else { _eglError(EGL_BAD_PARAMETER, "dri2_create_image_khr"); return EGL_NO_IMAGE_KHR; } case EGL_GL_RENDERBUFFER_KHR: return dri2_create_image_khr_renderbuffer(disp, ctx, buffer, attr_list); #ifdef HAVE_LIBDRM case EGL_DRM_BUFFER_MESA: return dri2_create_image_mesa_drm_buffer(disp, ctx, buffer, attr_list); case EGL_LINUX_DMA_BUF_EXT: return dri2_create_image_dma_buf(disp, ctx, buffer, attr_list); #endif #ifdef HAVE_WAYLAND_PLATFORM case EGL_WAYLAND_BUFFER_WL: return dri2_create_image_wayland_wl_buffer(disp, ctx, buffer, attr_list); #endif default: _eglError(EGL_BAD_PARAMETER, "dri2_create_image_khr"); return EGL_NO_IMAGE_KHR; } } static EGLBoolean dri2_destroy_image_khr(_EGLDriver *drv, _EGLDisplay *disp, _EGLImage *image) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); struct dri2_egl_image *dri2_img = dri2_egl_image(image); (void) drv; dri2_dpy->image->destroyImage(dri2_img->dri_image); free(dri2_img); return EGL_TRUE; } #ifdef HAVE_WAYLAND_PLATFORM static void dri2_wl_reference_buffer(void *user_data, uint32_t name, int fd, struct wl_drm_buffer *buffer) { _EGLDisplay *disp = user_data; struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); __DRIimage *img; int i, dri_components = 0; if (fd == -1) img = dri2_dpy->image->createImageFromNames(dri2_dpy->dri_screen, buffer->width, buffer->height, buffer->format, (int*)&name, 1, buffer->stride, buffer->offset, NULL); else img = dri2_dpy->image->createImageFromFds(dri2_dpy->dri_screen, buffer->width, buffer->height, buffer->format, &fd, 1, buffer->stride, buffer->offset, NULL); if (img == NULL) return; dri2_dpy->image->queryImage(img, __DRI_IMAGE_ATTRIB_COMPONENTS, &dri_components); buffer->driver_format = NULL; for (i = 0; i < ARRAY_SIZE(wl_drm_components); i++) if (wl_drm_components[i].dri_components == dri_components) buffer->driver_format = &wl_drm_components[i]; if (buffer->driver_format == NULL) dri2_dpy->image->destroyImage(img); else buffer->driver_buffer = img; } static void dri2_wl_release_buffer(void *user_data, struct wl_drm_buffer *buffer) { _EGLDisplay *disp = user_data; struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); dri2_dpy->image->destroyImage(buffer->driver_buffer); } static struct wayland_drm_callbacks wl_drm_callbacks = { .authenticate = NULL, .reference_buffer = dri2_wl_reference_buffer, .release_buffer = dri2_wl_release_buffer }; static EGLBoolean dri2_bind_wayland_display_wl(_EGLDriver *drv, _EGLDisplay *disp, struct wl_display *wl_dpy) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); int flags = 0; uint64_t cap; (void) drv; if (dri2_dpy->wl_server_drm) return EGL_FALSE; wl_drm_callbacks.authenticate = (int(*)(void *, uint32_t)) dri2_dpy->vtbl->authenticate; if (drmGetCap(dri2_dpy->fd, DRM_CAP_PRIME, &cap) == 0 && cap == (DRM_PRIME_CAP_IMPORT | DRM_PRIME_CAP_EXPORT) && dri2_dpy->image->base.version >= 7 && dri2_dpy->image->createImageFromFds != NULL) flags |= WAYLAND_DRM_PRIME; dri2_dpy->wl_server_drm = wayland_drm_init(wl_dpy, dri2_dpy->device_name, &wl_drm_callbacks, disp, flags); if (!dri2_dpy->wl_server_drm) return EGL_FALSE; #ifdef HAVE_DRM_PLATFORM /* We have to share the wl_drm instance with gbm, so gbm can convert * wl_buffers to gbm bos. */ if (dri2_dpy->gbm_dri) dri2_dpy->gbm_dri->wl_drm = dri2_dpy->wl_server_drm; #endif return EGL_TRUE; } static EGLBoolean dri2_unbind_wayland_display_wl(_EGLDriver *drv, _EGLDisplay *disp, struct wl_display *wl_dpy) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); (void) drv; if (!dri2_dpy->wl_server_drm) return EGL_FALSE; wayland_drm_uninit(dri2_dpy->wl_server_drm); dri2_dpy->wl_server_drm = NULL; return EGL_TRUE; } static EGLBoolean dri2_query_wayland_buffer_wl(_EGLDriver *drv, _EGLDisplay *disp, struct wl_resource *buffer_resource, EGLint attribute, EGLint *value) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(disp); struct wl_drm_buffer *buffer; const struct wl_drm_components_descriptor *format; buffer = wayland_drm_buffer_get(dri2_dpy->wl_server_drm, buffer_resource); if (!buffer) return EGL_FALSE; format = buffer->driver_format; switch (attribute) { case EGL_TEXTURE_FORMAT: *value = format->components; return EGL_TRUE; case EGL_WIDTH: *value = buffer->width; return EGL_TRUE; case EGL_HEIGHT: *value = buffer->height; return EGL_TRUE; } return EGL_FALSE; } #endif static void dri2_egl_ref_sync(struct dri2_egl_sync *sync) { p_atomic_inc(&sync->refcount); } static void dri2_egl_unref_sync(struct dri2_egl_display *dri2_dpy, struct dri2_egl_sync *dri2_sync) { if (p_atomic_dec_zero(&dri2_sync->refcount)) { if (dri2_sync->base.Type == EGL_SYNC_REUSABLE_KHR) cnd_destroy(&dri2_sync->cond); if (dri2_sync->fence) dri2_dpy->fence->destroy_fence(dri2_dpy->dri_screen, dri2_sync->fence); free(dri2_sync); } } static _EGLSync * dri2_create_sync(_EGLDriver *drv, _EGLDisplay *dpy, EGLenum type, const EGLint *attrib_list, const EGLAttrib *attrib_list64) { _EGLContext *ctx = _eglGetCurrentContext(); struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); struct dri2_egl_context *dri2_ctx = dri2_egl_context(ctx); struct dri2_egl_sync *dri2_sync; EGLint ret; pthread_condattr_t attr; dri2_sync = calloc(1, sizeof(struct dri2_egl_sync)); if (!dri2_sync) { _eglError(EGL_BAD_ALLOC, "eglCreateSyncKHR"); return NULL; } if (!_eglInitSync(&dri2_sync->base, dpy, type, attrib_list, attrib_list64)) { free(dri2_sync); return NULL; } switch (type) { case EGL_SYNC_FENCE_KHR: dri2_sync->fence = dri2_dpy->fence->create_fence(dri2_ctx->dri_context); if (!dri2_sync->fence) { /* Why did it fail? DRI doesn't return an error code, so we emit * a generic EGL error that doesn't communicate user error. */ _eglError(EGL_BAD_ALLOC, "eglCreateSyncKHR"); free(dri2_sync); return NULL; } break; case EGL_SYNC_CL_EVENT_KHR: dri2_sync->fence = dri2_dpy->fence->get_fence_from_cl_event( dri2_dpy->dri_screen, dri2_sync->base.CLEvent); /* this can only happen if the cl_event passed in is invalid. */ if (!dri2_sync->fence) { _eglError(EGL_BAD_ATTRIBUTE, "eglCreateSyncKHR"); free(dri2_sync); return NULL; } /* the initial status must be "signaled" if the cl_event is signaled */ if (dri2_dpy->fence->client_wait_sync(dri2_ctx->dri_context, dri2_sync->fence, 0, 0)) dri2_sync->base.SyncStatus = EGL_SIGNALED_KHR; break; case EGL_SYNC_REUSABLE_KHR: /* intialize attr */ ret = pthread_condattr_init(&attr); if (ret) { _eglError(EGL_BAD_ACCESS, "eglCreateSyncKHR"); free(dri2_sync); return NULL; } /* change clock attribute to CLOCK_MONOTONIC */ ret = pthread_condattr_setclock(&attr, CLOCK_MONOTONIC); if (ret) { _eglError(EGL_BAD_ACCESS, "eglCreateSyncKHR"); free(dri2_sync); return NULL; } ret = pthread_cond_init(&dri2_sync->cond, &attr); if (ret) { _eglError(EGL_BAD_ACCESS, "eglCreateSyncKHR"); free(dri2_sync); return NULL; } /* initial status of reusable sync must be "unsignaled" */ dri2_sync->base.SyncStatus = EGL_UNSIGNALED_KHR; break; } p_atomic_set(&dri2_sync->refcount, 1); return &dri2_sync->base; } static EGLBoolean dri2_destroy_sync(_EGLDriver *drv, _EGLDisplay *dpy, _EGLSync *sync) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); struct dri2_egl_sync *dri2_sync = dri2_egl_sync(sync); EGLint ret = EGL_TRUE; EGLint err; /* if type of sync is EGL_SYNC_REUSABLE_KHR and it is not signaled yet, * then unlock all threads possibly blocked by the reusable sync before * destroying it. */ if (dri2_sync->base.Type == EGL_SYNC_REUSABLE_KHR && dri2_sync->base.SyncStatus == EGL_UNSIGNALED_KHR) { dri2_sync->base.SyncStatus = EGL_SIGNALED_KHR; /* unblock all threads currently blocked by sync */ err = cnd_broadcast(&dri2_sync->cond); if (err) { _eglError(EGL_BAD_ACCESS, "eglDestroySyncKHR"); ret = EGL_FALSE; } } dri2_egl_unref_sync(dri2_dpy, dri2_sync); return ret; } static EGLint dri2_client_wait_sync(_EGLDriver *drv, _EGLDisplay *dpy, _EGLSync *sync, EGLint flags, EGLTime timeout) { _EGLContext *ctx = _eglGetCurrentContext(); struct dri2_egl_driver *dri2_drv = dri2_egl_driver(drv); struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); struct dri2_egl_context *dri2_ctx = dri2_egl_context(ctx); struct dri2_egl_sync *dri2_sync = dri2_egl_sync(sync); unsigned wait_flags = 0; /* timespecs for cnd_timedwait */ struct timespec current; xtime expire; EGLint ret = EGL_CONDITION_SATISFIED_KHR; /* The EGL_KHR_fence_sync spec states: * * "If no context is current for the bound API, * the EGL_SYNC_FLUSH_COMMANDS_BIT_KHR bit is ignored. */ if (dri2_ctx && flags & EGL_SYNC_FLUSH_COMMANDS_BIT_KHR) wait_flags |= __DRI2_FENCE_FLAG_FLUSH_COMMANDS; /* the sync object should take a reference while waiting */ dri2_egl_ref_sync(dri2_sync); switch (sync->Type) { case EGL_SYNC_FENCE_KHR: case EGL_SYNC_CL_EVENT_KHR: if (dri2_dpy->fence->client_wait_sync(dri2_ctx ? dri2_ctx->dri_context : NULL, dri2_sync->fence, wait_flags, timeout)) dri2_sync->base.SyncStatus = EGL_SIGNALED_KHR; else ret = EGL_TIMEOUT_EXPIRED_KHR; break; case EGL_SYNC_REUSABLE_KHR: if (dri2_ctx && dri2_sync->base.SyncStatus == EGL_UNSIGNALED_KHR && (flags & EGL_SYNC_FLUSH_COMMANDS_BIT_KHR)) { /* flush context if EGL_SYNC_FLUSH_COMMANDS_BIT_KHR is set */ if (dri2_drv->glFlush) dri2_drv->glFlush(); } /* if timeout is EGL_FOREVER_KHR, it should wait without any timeout.*/ if (timeout == EGL_FOREVER_KHR) { if (mtx_lock(&dri2_sync->mutex)) { ret = EGL_FALSE; goto cleanup; } ret = cnd_wait(&dri2_sync->cond, &dri2_sync->mutex); mtx_unlock(&dri2_sync->mutex); if (ret) { _eglError(EGL_BAD_PARAMETER, "eglClientWaitSyncKHR"); ret = EGL_FALSE; } } else { /* if reusable sync has not been yet signaled */ if (dri2_sync->base.SyncStatus != EGL_SIGNALED_KHR) { clock_gettime(CLOCK_MONOTONIC, ¤t); /* calculating when to expire */ expire.nsec = timeout % 1000000000L; expire.sec = timeout / 1000000000L; expire.nsec += current.tv_nsec; expire.sec += current.tv_sec; /* expire.nsec now is a number between 0 and 1999999998 */ if (expire.nsec > 999999999L) { expire.sec++; expire.nsec -= 1000000000L; } if (mtx_lock(&dri2_sync->mutex)) { ret = EGL_FALSE; goto cleanup; } ret = cnd_timedwait(&dri2_sync->cond, &dri2_sync->mutex, &expire); mtx_unlock(&dri2_sync->mutex); if (ret) if (ret == thrd_busy) { if (dri2_sync->base.SyncStatus == EGL_UNSIGNALED_KHR) { ret = EGL_TIMEOUT_EXPIRED_KHR; } else { _eglError(EGL_BAD_ACCESS, "eglClientWaitSyncKHR"); ret = EGL_FALSE; } } } } break; } cleanup: dri2_egl_unref_sync(dri2_dpy, dri2_sync); if (ret == EGL_FALSE) { _eglError(EGL_BAD_ACCESS, "eglClientWaitSyncKHR"); return EGL_FALSE; } return ret; } static EGLBoolean dri2_signal_sync(_EGLDriver *drv, _EGLDisplay *dpy, _EGLSync *sync, EGLenum mode) { struct dri2_egl_sync *dri2_sync = dri2_egl_sync(sync); EGLint ret; if (sync->Type != EGL_SYNC_REUSABLE_KHR) { _eglError(EGL_BAD_MATCH, "eglSignalSyncKHR"); return EGL_FALSE; } if (mode != EGL_SIGNALED_KHR && mode != EGL_UNSIGNALED_KHR) { _eglError(EGL_BAD_ATTRIBUTE, "eglSignalSyncKHR"); return EGL_FALSE; } dri2_sync->base.SyncStatus = mode; if (mode == EGL_SIGNALED_KHR) { ret = cnd_broadcast(&dri2_sync->cond); /* fail to broadcast */ if (ret) { _eglError(EGL_BAD_ACCESS, "eglSignalSyncKHR"); return EGL_FALSE; } } return EGL_TRUE; } static EGLint dri2_server_wait_sync(_EGLDriver *drv, _EGLDisplay *dpy, _EGLSync *sync) { _EGLContext *ctx = _eglGetCurrentContext(); struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); struct dri2_egl_context *dri2_ctx = dri2_egl_context(ctx); struct dri2_egl_sync *dri2_sync = dri2_egl_sync(sync); dri2_dpy->fence->server_wait_sync(dri2_ctx->dri_context, dri2_sync->fence, 0); return EGL_TRUE; } static int dri2_interop_query_device_info(_EGLDisplay *dpy, _EGLContext *ctx, struct mesa_glinterop_device_info *out) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); struct dri2_egl_context *dri2_ctx = dri2_egl_context(ctx); if (!dri2_dpy->interop) return MESA_GLINTEROP_UNSUPPORTED; return dri2_dpy->interop->query_device_info(dri2_ctx->dri_context, out); } static int dri2_interop_export_object(_EGLDisplay *dpy, _EGLContext *ctx, struct mesa_glinterop_export_in *in, struct mesa_glinterop_export_out *out) { struct dri2_egl_display *dri2_dpy = dri2_egl_display(dpy); struct dri2_egl_context *dri2_ctx = dri2_egl_context(ctx); if (!dri2_dpy->interop) return MESA_GLINTEROP_UNSUPPORTED; return dri2_dpy->interop->export_object(dri2_ctx->dri_context, in, out); } static void dri2_unload(_EGLDriver *drv) { struct dri2_egl_driver *dri2_drv = dri2_egl_driver(drv); if (dri2_drv->handle) dlclose(dri2_drv->handle); free(dri2_drv); } static EGLBoolean dri2_load(_EGLDriver *drv) { struct dri2_egl_driver *dri2_drv = dri2_egl_driver(drv); #ifdef HAVE_ANDROID_PLATFORM const char *libname = "libglapi.so"; #elif defined(__APPLE__) const char *libname = "libglapi.0.dylib"; #elif defined(__CYGWIN__) const char *libname = "cygglapi-0.dll"; #else const char *libname = "libglapi.so.0"; #endif void *handle; /* RTLD_GLOBAL to make sure glapi symbols are visible to DRI drivers */ handle = dlopen(libname, RTLD_LAZY | RTLD_GLOBAL); if (handle) { dri2_drv->get_proc_address = (_EGLProc (*)(const char *)) dlsym(handle, "_glapi_get_proc_address"); if (!dri2_drv->get_proc_address || !libname) { /* no need to keep a reference */ dlclose(handle); handle = NULL; } } /* if glapi is not available, loading DRI drivers will fail */ if (!dri2_drv->get_proc_address) { _eglLog(_EGL_WARNING, "DRI2: failed to find _glapi_get_proc_address"); return EGL_FALSE; } dri2_drv->glFlush = (void (*)(void)) dri2_drv->get_proc_address("glFlush"); dri2_drv->handle = handle; return EGL_TRUE; } /** * This is the main entrypoint into the driver, called by libEGL. * Create a new _EGLDriver object and init its dispatch table. */ _EGLDriver * _eglBuiltInDriverDRI2(const char *args) { struct dri2_egl_driver *dri2_drv; (void) args; dri2_drv = calloc(1, sizeof *dri2_drv); if (!dri2_drv) return NULL; if (!dri2_load(&dri2_drv->base)) { free(dri2_drv); return NULL; } _eglInitDriverFallbacks(&dri2_drv->base); dri2_drv->base.API.Initialize = dri2_initialize; dri2_drv->base.API.Terminate = dri2_terminate; dri2_drv->base.API.CreateContext = dri2_create_context; dri2_drv->base.API.DestroyContext = dri2_destroy_context; dri2_drv->base.API.MakeCurrent = dri2_make_current; dri2_drv->base.API.CreateWindowSurface = dri2_create_window_surface; dri2_drv->base.API.CreatePixmapSurface = dri2_create_pixmap_surface; dri2_drv->base.API.CreatePbufferSurface = dri2_create_pbuffer_surface; dri2_drv->base.API.DestroySurface = dri2_destroy_surface; dri2_drv->base.API.GetProcAddress = dri2_get_proc_address; dri2_drv->base.API.WaitClient = dri2_wait_client; dri2_drv->base.API.WaitNative = dri2_wait_native; dri2_drv->base.API.BindTexImage = dri2_bind_tex_image; dri2_drv->base.API.ReleaseTexImage = dri2_release_tex_image; dri2_drv->base.API.SwapInterval = dri2_swap_interval; dri2_drv->base.API.SwapBuffers = dri2_swap_buffers; dri2_drv->base.API.SwapBuffersWithDamageEXT = dri2_swap_buffers_with_damage; dri2_drv->base.API.SwapBuffersRegionNOK = dri2_swap_buffers_region; dri2_drv->base.API.PostSubBufferNV = dri2_post_sub_buffer; dri2_drv->base.API.CopyBuffers = dri2_copy_buffers, dri2_drv->base.API.QueryBufferAge = dri2_query_buffer_age; dri2_drv->base.API.CreateImageKHR = dri2_create_image; dri2_drv->base.API.DestroyImageKHR = dri2_destroy_image_khr; dri2_drv->base.API.CreateWaylandBufferFromImageWL = dri2_create_wayland_buffer_from_image; #ifdef HAVE_LIBDRM dri2_drv->base.API.CreateDRMImageMESA = dri2_create_drm_image_mesa; dri2_drv->base.API.ExportDRMImageMESA = dri2_export_drm_image_mesa; dri2_drv->base.API.ExportDMABUFImageQueryMESA = dri2_export_dma_buf_image_query_mesa; dri2_drv->base.API.ExportDMABUFImageMESA = dri2_export_dma_buf_image_mesa; #endif #ifdef HAVE_WAYLAND_PLATFORM dri2_drv->base.API.BindWaylandDisplayWL = dri2_bind_wayland_display_wl; dri2_drv->base.API.UnbindWaylandDisplayWL = dri2_unbind_wayland_display_wl; dri2_drv->base.API.QueryWaylandBufferWL = dri2_query_wayland_buffer_wl; #endif dri2_drv->base.API.GetSyncValuesCHROMIUM = dri2_get_sync_values_chromium; dri2_drv->base.API.CreateSyncKHR = dri2_create_sync; dri2_drv->base.API.ClientWaitSyncKHR = dri2_client_wait_sync; dri2_drv->base.API.SignalSyncKHR = dri2_signal_sync; dri2_drv->base.API.WaitSyncKHR = dri2_server_wait_sync; dri2_drv->base.API.DestroySyncKHR = dri2_destroy_sync; dri2_drv->base.API.GLInteropQueryDeviceInfo = dri2_interop_query_device_info; dri2_drv->base.API.GLInteropExportObject = dri2_interop_export_object; dri2_drv->base.Name = "DRI2"; dri2_drv->base.Unload = dri2_unload; return &dri2_drv->base; }