/** * Functions for choosing and opening/loading device drivers. */ #include #include #include #include #include #include "eglconfig.h" #include "eglcontext.h" #include "egldefines.h" #include "egldisplay.h" #include "egldriver.h" #include "eglglobals.h" #include "egllog.h" #include "eglmode.h" #include "eglscreen.h" #include "eglstring.h" #include "eglsurface.h" #if defined(_EGL_PLATFORM_X) #include "eglx.h" #elif defined(_EGL_PLATFORM_WINDOWS) /* XXX to do */ #elif defined(_EGL_PLATFORM_WINCE) /* XXX to do */ #endif const char *DefaultDriverName = ":0"; const char *SysFS = "/sys/class"; /** * Given a card number, use sysfs to determine the DRI driver name. */ static const char * _eglChooseDRMDriver(int card) { #if 0 return _eglstrdup("libEGLdri"); #else char path[2000], driverName[2000]; FILE *f; int length; snprintf(path, sizeof(path), "%s/drm/card%d/dri_library_name", SysFS, card); f = fopen(path, "r"); if (!f) return NULL; fgets(driverName, sizeof(driverName), f); fclose(f); if ((length = strlen(driverName)) > 1) { /* remove the trailing newline from sysfs */ driverName[length - 1] = '\0'; strncat(driverName, "_dri", sizeof(driverName)); return _eglstrdup(driverName); } else { return NULL; } #endif } /** * Determine/return the name of the driver to use for the given _EGLDisplay. * * Try to be clever and determine if nativeDisplay is an Xlib Display * ptr or a string (naming a driver or screen number, etc). * * If the first character is ':' we interpret it as a screen or card index * number (i.e. ":0" or ":1", etc) * Else if the first character is '!' we interpret it as specific driver name * (i.e. "!r200" or "!i830". * * Whatever follows ':' is copied and put into dpy->DriverArgs. * * The caller may free() the returned string. */ const char * _eglChooseDriver(_EGLDisplay *dpy) { const char *displayString = (const char *) dpy->NativeDisplay; const char *driverName = NULL; if (!displayString) { /* choose a default */ displayString = DefaultDriverName; } /* extract default DriverArgs = whatever follows ':' */ if (displayString[0] == '!' || displayString[0] == ':') { const char *args = strchr(displayString, ':'); if (args) dpy->DriverArgs = _eglstrdup(args + 1); } /* determine driver name now */ if (displayString && displayString[0] == ':' && (displayString[1] >= '0' && displayString[1] <= '9') && !displayString[2]) { int card = atoi(displayString + 1); driverName = _eglChooseDRMDriver(card); } else if (displayString && displayString[0] == '!') { /* use user-specified driver name */ driverName = _eglstrdup(displayString + 1); /* truncate driverName at ':' if present */ { char *args = strchr(driverName, ':'); if (args) { *args = 0; } } } else { /* NativeDisplay is not a string! */ #if defined(_EGL_PLATFORM_X) driverName = _xeglChooseDriver(dpy); #elif defined(_EGL_PLATFORM_WINDOWS) /* XXX to do */ driverName = _weglChooseDriver(dpy); #elif defined(_EGL_PLATFORM_WINCE) /* XXX to do */ #endif } return driverName; } /** * Open/load the named driver and call its bootstrap function: _eglMain(). * By the time this function is called, the dpy->DriverName should have * been determined. * * \return new _EGLDriver object. */ _EGLDriver * _eglOpenDriver(_EGLDisplay *dpy, const char *driverName, const char *args) { _EGLDriver *drv; _EGLMain_t mainFunc; void *lib; char driverFilename[1000]; assert(driverName); /* XXX also prepend a directory path??? */ sprintf(driverFilename, "%s.so", driverName); _eglLog(_EGL_DEBUG, "dlopen(%s)", driverFilename); lib = dlopen(driverFilename, RTLD_NOW); if (!lib) { _eglLog(_EGL_WARNING, "Could not open %s (%s)", driverFilename, dlerror()); return NULL; } mainFunc = (_EGLMain_t) dlsym(lib, "_eglMain"); if (!mainFunc) { _eglLog(_EGL_WARNING, "_eglMain not found in %s", driverFilename); dlclose(lib); return NULL; } drv = mainFunc(dpy, args); if (!drv) { dlclose(lib); return NULL; } /* with a recurvise open you want the inner most handle */ if (!drv->LibHandle) drv->LibHandle = lib; else dlclose(lib); drv->Display = dpy; return drv; } EGLBoolean _eglCloseDriver(_EGLDriver *drv, EGLDisplay dpy) { void *handle = drv->LibHandle; EGLBoolean b; _eglLog(_EGL_INFO, "Closing driver"); /* * XXX check for currently bound context/surfaces and delete them? */ b = drv->API.Terminate(drv, dpy); dlclose(handle); return b; } /** * Given a display handle, return the _EGLDriver for that display. */ _EGLDriver * _eglLookupDriver(EGLDisplay dpy) { _EGLDisplay *d = _eglLookupDisplay(dpy); if (d) return d->Driver; else return NULL; } /** * Plug all the available fallback routines into the given driver's * dispatch table. */ void _eglInitDriverFallbacks(_EGLDriver *drv) { /* If a pointer is set to NULL, then the device driver _really_ has * to implement it. */ drv->API.Initialize = NULL; drv->API.Terminate = NULL; drv->API.GetConfigs = _eglGetConfigs; drv->API.ChooseConfig = _eglChooseConfig; drv->API.GetConfigAttrib = _eglGetConfigAttrib; drv->API.CreateContext = _eglCreateContext; drv->API.DestroyContext = _eglDestroyContext; drv->API.MakeCurrent = _eglMakeCurrent; drv->API.QueryContext = _eglQueryContext; drv->API.CreateWindowSurface = _eglCreateWindowSurface; drv->API.CreatePixmapSurface = _eglCreatePixmapSurface; drv->API.CreatePbufferSurface = _eglCreatePbufferSurface; drv->API.DestroySurface = _eglDestroySurface; drv->API.QuerySurface = _eglQuerySurface; drv->API.SurfaceAttrib = _eglSurfaceAttrib; drv->API.BindTexImage = _eglBindTexImage; drv->API.ReleaseTexImage = _eglReleaseTexImage; drv->API.SwapInterval = _eglSwapInterval; drv->API.SwapBuffers = _eglSwapBuffers; drv->API.CopyBuffers = _eglCopyBuffers; drv->API.QueryString = _eglQueryString; drv->API.WaitGL = _eglWaitGL; drv->API.WaitNative = _eglWaitNative; #ifdef EGL_MESA_screen_surface drv->API.ChooseModeMESA = _eglChooseModeMESA; drv->API.GetModesMESA = _eglGetModesMESA; drv->API.GetModeAttribMESA = _eglGetModeAttribMESA; drv->API.GetScreensMESA = _eglGetScreensMESA; drv->API.CreateScreenSurfaceMESA = _eglCreateScreenSurfaceMESA; drv->API.ShowScreenSurfaceMESA = _eglShowScreenSurfaceMESA; drv->API.ScreenPositionMESA = _eglScreenPositionMESA; drv->API.QueryScreenMESA = _eglQueryScreenMESA; drv->API.QueryScreenSurfaceMESA = _eglQueryScreenSurfaceMESA; drv->API.QueryScreenModeMESA = _eglQueryScreenModeMESA; drv->API.QueryModeStringMESA = _eglQueryModeStringMESA; #endif /* EGL_MESA_screen_surface */ #ifdef EGL_VERSION_1_2 drv->API.CreatePbufferFromClientBuffer = _eglCreatePbufferFromClientBuffer; #endif /* EGL_VERSION_1_2 */ } /** * Examine the individual extension enable/disable flags and recompute * the driver's Extensions string. */ static void _eglUpdateExtensionsString(_EGLDriver *drv) { drv->Extensions.String[0] = 0; if (drv->Extensions.MESA_screen_surface) strcat(drv->Extensions.String, "EGL_MESA_screen_surface "); if (drv->Extensions.MESA_copy_context) strcat(drv->Extensions.String, "EGL_MESA_copy_context "); assert(strlen(drv->Extensions.String) < _EGL_MAX_EXTENSIONS_LEN); } const char * _eglQueryString(_EGLDriver *drv, EGLDisplay dpy, EGLint name) { (void) drv; (void) dpy; switch (name) { case EGL_VENDOR: return _EGL_VENDOR_STRING; case EGL_VERSION: return _EGL_VERSION_STRING; case EGL_EXTENSIONS: _eglUpdateExtensionsString(drv); return drv->Extensions.String; #ifdef EGL_VERSION_1_2 case EGL_CLIENT_APIS: /* XXX need to initialize somewhere */ return drv->ClientAPIs; #endif default: _eglError(EGL_BAD_PARAMETER, "eglQueryString"); return NULL; } } EGLBoolean _eglWaitGL(_EGLDriver *drv, EGLDisplay dpy) { /* just a placeholder */ (void) drv; (void) dpy; return EGL_TRUE; } EGLBoolean _eglWaitNative(_EGLDriver *drv, EGLDisplay dpy, EGLint engine) { /* just a placeholder */ (void) drv; (void) dpy; switch (engine) { case EGL_CORE_NATIVE_ENGINE: break; default: _eglError(EGL_BAD_PARAMETER, "eglWaitNative(engine)"); return EGL_FALSE; } return EGL_TRUE; }