/************************************************************************** * * Copyright 2008-2009 Vmware, Inc. * All Rights Reserved. * * 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, sub license, 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 NON-INFRINGEMENT. * IN NO EVENT SHALL VMWARE AND/OR ITS SUPPLIERS 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. * **************************************************************************/ #include #include "pipe/p_screen.h" #include "util/u_memory.h" #include "hud/hud_context.h" #include "state_tracker/st_api.h" #include "stw_icd.h" #include "stw_framebuffer.h" #include "stw_device.h" #include "stw_winsys.h" #include "stw_tls.h" #include "stw_context.h" #include "stw_st.h" /** * Search the framebuffer with the matching HWND while holding the * stw_dev::fb_mutex global lock. * If a stw_framebuffer is found, lock it and return the pointer. * Else, return NULL. */ static struct stw_framebuffer * stw_framebuffer_from_hwnd_locked(HWND hwnd) { struct stw_framebuffer *fb; for (fb = stw_dev->fb_head; fb != NULL; fb = fb->next) if (fb->hWnd == hwnd) { stw_framebuffer_lock(fb); assert(fb->mutex.RecursionCount == 1); return fb; } return NULL; } /** * Decrement the reference count on the given stw_framebuffer object. * If the reference count hits zero, destroy the object. * * Note: Both stw_dev::fb_mutex and stw_framebuffer::mutex must already be * locked. After this function completes, the fb's mutex will be unlocked. */ void stw_framebuffer_release_locked(struct stw_framebuffer *fb) { struct stw_framebuffer **link; assert(fb); assert(stw_own_mutex(&fb->mutex)); assert(stw_own_mutex(&stw_dev->fb_mutex)); /* check the reference count */ fb->refcnt--; if (fb->refcnt) { stw_framebuffer_unlock(fb); return; } /* remove this stw_framebuffer from the device's linked list */ link = &stw_dev->fb_head; while (*link != fb) link = &(*link)->next; assert(*link); *link = fb->next; fb->next = NULL; if (fb->shared_surface) stw_dev->stw_winsys->shared_surface_close(stw_dev->screen, fb->shared_surface); stw_st_destroy_framebuffer_locked(fb->stfb); stw_framebuffer_unlock(fb); DeleteCriticalSection(&fb->mutex); FREE( fb ); } /** * Query the size of the given framebuffer's on-screen window and update * the stw_framebuffer's width/height. */ static void stw_framebuffer_get_size(struct stw_framebuffer *fb) { LONG width, height; RECT client_rect; RECT window_rect; POINT client_pos; /* * Sanity checking. */ assert(fb->hWnd); assert(fb->width && fb->height); assert(fb->client_rect.right == fb->client_rect.left + fb->width); assert(fb->client_rect.bottom == fb->client_rect.top + fb->height); /* * Get the client area size. */ if (!GetClientRect(fb->hWnd, &client_rect)) { return; } assert(client_rect.left == 0); assert(client_rect.top == 0); width = client_rect.right - client_rect.left; height = client_rect.bottom - client_rect.top; fb->minimized = width == 0 || height == 0; if (width <= 0 || height <= 0) { /* * When the window is minimized GetClientRect will return zeros. Simply * preserve the current window size, until the window is restored or * maximized again. */ return; } if (width != fb->width || height != fb->height) { fb->must_resize = TRUE; fb->width = width; fb->height = height; } client_pos.x = 0; client_pos.y = 0; if (ClientToScreen(fb->hWnd, &client_pos) && GetWindowRect(fb->hWnd, &window_rect)) { fb->client_rect.left = client_pos.x - window_rect.left; fb->client_rect.top = client_pos.y - window_rect.top; } fb->client_rect.right = fb->client_rect.left + fb->width; fb->client_rect.bottom = fb->client_rect.top + fb->height; #if 0 debug_printf("\n"); debug_printf("%s: hwnd = %p\n", __FUNCTION__, fb->hWnd); debug_printf("%s: client_position = (%li, %li)\n", __FUNCTION__, client_pos.x, client_pos.y); debug_printf("%s: window_rect = (%li, %li) - (%li, %li)\n", __FUNCTION__, window_rect.left, window_rect.top, window_rect.right, window_rect.bottom); debug_printf("%s: client_rect = (%li, %li) - (%li, %li)\n", __FUNCTION__, fb->client_rect.left, fb->client_rect.top, fb->client_rect.right, fb->client_rect.bottom); #endif } /** * @sa http://msdn.microsoft.com/en-us/library/ms644975(VS.85).aspx * @sa http://msdn.microsoft.com/en-us/library/ms644960(VS.85).aspx */ LRESULT CALLBACK stw_call_window_proc(int nCode, WPARAM wParam, LPARAM lParam) { struct stw_tls_data *tls_data; PCWPSTRUCT pParams = (PCWPSTRUCT)lParam; struct stw_framebuffer *fb; tls_data = stw_tls_get_data(); if (!tls_data) return 0; if (nCode < 0 || !stw_dev) return CallNextHookEx(tls_data->hCallWndProcHook, nCode, wParam, lParam); /* We check that the stw_dev object is initialized before we try to do * anything with it. Otherwise, in multi-threaded programs there's a * chance of executing this code before the stw_dev object is fully * initialized. */ if (stw_dev && stw_dev->initialized) { if (pParams->message == WM_WINDOWPOSCHANGED) { /* We handle WM_WINDOWPOSCHANGED instead of WM_SIZE because according * to http://blogs.msdn.com/oldnewthing/archive/2008/01/15/7113860.aspx * WM_SIZE is generated from WM_WINDOWPOSCHANGED by DefWindowProc so it * can be masked out by the application. */ LPWINDOWPOS lpWindowPos = (LPWINDOWPOS)pParams->lParam; if ((lpWindowPos->flags & SWP_SHOWWINDOW) || !(lpWindowPos->flags & SWP_NOMOVE) || !(lpWindowPos->flags & SWP_NOSIZE)) { fb = stw_framebuffer_from_hwnd( pParams->hwnd ); if (fb) { /* Size in WINDOWPOS includes the window frame, so get the size * of the client area via GetClientRect. */ stw_framebuffer_get_size(fb); stw_framebuffer_unlock(fb); } } } else if (pParams->message == WM_DESTROY) { stw_lock_framebuffers(stw_dev); fb = stw_framebuffer_from_hwnd_locked( pParams->hwnd ); if (fb) stw_framebuffer_release_locked(fb); stw_unlock_framebuffers(stw_dev); } } return CallNextHookEx(tls_data->hCallWndProcHook, nCode, wParam, lParam); } /** * Create a new stw_framebuffer object which corresponds to the given * HDC/window. If successful, we return the new stw_framebuffer object * with its mutex locked. */ struct stw_framebuffer * stw_framebuffer_create(HDC hdc, int iPixelFormat) { HWND hWnd; struct stw_framebuffer *fb; const struct stw_pixelformat_info *pfi; /* We only support drawing to a window. */ hWnd = WindowFromDC( hdc ); if (!hWnd) return NULL; fb = CALLOC_STRUCT( stw_framebuffer ); if (fb == NULL) return NULL; fb->hWnd = hWnd; fb->iPixelFormat = iPixelFormat; /* * We often need a displayable pixel format to make GDI happy. Set it * here (always 1, i.e., out first pixel format) where appropriate. */ fb->iDisplayablePixelFormat = iPixelFormat <= stw_dev->pixelformat_count ? iPixelFormat : 1; fb->pfi = pfi = stw_pixelformat_get_info( iPixelFormat ); fb->stfb = stw_st_create_framebuffer( fb ); if (!fb->stfb) { FREE( fb ); return NULL; } fb->refcnt = 1; /* * Windows can be sometimes have zero width and or height, but we ensure * a non-zero framebuffer size at all times. */ fb->must_resize = TRUE; fb->width = 1; fb->height = 1; fb->client_rect.left = 0; fb->client_rect.top = 0; fb->client_rect.right = fb->client_rect.left + fb->width; fb->client_rect.bottom = fb->client_rect.top + fb->height; stw_framebuffer_get_size(fb); InitializeCriticalSection(&fb->mutex); /* This is the only case where we lock the stw_framebuffer::mutex before * stw_dev::fb_mutex, since no other thread can know about this framebuffer * and we must prevent any other thread from destroying it before we return. */ stw_framebuffer_lock(fb); stw_lock_framebuffers(stw_dev); fb->next = stw_dev->fb_head; stw_dev->fb_head = fb; stw_unlock_framebuffers(stw_dev); return fb; } /** * Update the framebuffer's size if necessary. */ void stw_framebuffer_update(struct stw_framebuffer *fb) { assert(fb->stfb); assert(fb->height); assert(fb->width); /* XXX: It would be nice to avoid checking the size again -- in theory * stw_call_window_proc would have cought the resize and stored the right * size already, but unfortunately threads created before the DllMain is * called don't get a DLL_THREAD_ATTACH notification, and there is no way * to know of their existing without using the not very portable PSAPI. */ stw_framebuffer_get_size(fb); } /** * Try to free all stw_framebuffer objects associated with the device. */ void stw_framebuffer_cleanup(void) { struct stw_framebuffer *fb; struct stw_framebuffer *next; if (!stw_dev) return; stw_lock_framebuffers(stw_dev); fb = stw_dev->fb_head; while (fb) { next = fb->next; stw_framebuffer_lock(fb); stw_framebuffer_release_locked(fb); fb = next; } stw_dev->fb_head = NULL; stw_unlock_framebuffers(stw_dev); } /** * Given an hdc, return the corresponding stw_framebuffer. * The returned stw_framebuffer will have its mutex locked. */ static struct stw_framebuffer * stw_framebuffer_from_hdc_locked(HDC hdc) { HWND hwnd; hwnd = WindowFromDC(hdc); if (!hwnd) { return NULL; } return stw_framebuffer_from_hwnd_locked(hwnd); } /** * Given an HDC, return the corresponding stw_framebuffer. * The returned stw_framebuffer will have its mutex locked. */ struct stw_framebuffer * stw_framebuffer_from_hdc(HDC hdc) { struct stw_framebuffer *fb; if (!stw_dev) return NULL; stw_lock_framebuffers(stw_dev); fb = stw_framebuffer_from_hdc_locked(hdc); stw_unlock_framebuffers(stw_dev); return fb; } /** * Given an HWND, return the corresponding stw_framebuffer. * The returned stw_framebuffer will have its mutex locked. */ struct stw_framebuffer * stw_framebuffer_from_hwnd(HWND hwnd) { struct stw_framebuffer *fb; stw_lock_framebuffers(stw_dev); fb = stw_framebuffer_from_hwnd_locked(hwnd); stw_unlock_framebuffers(stw_dev); return fb; } BOOL APIENTRY DrvSetPixelFormat(HDC hdc, LONG iPixelFormat) { uint count; uint index; struct stw_framebuffer *fb; if (!stw_dev) return FALSE; index = (uint) iPixelFormat - 1; count = stw_pixelformat_get_count(); if (index >= count) return FALSE; fb = stw_framebuffer_from_hdc_locked(hdc); if (fb) { /* * SetPixelFormat must be called only once. However ignore * pbuffers, for which the framebuffer object is created first. */ boolean bPbuffer = fb->bPbuffer; stw_framebuffer_unlock( fb ); return bPbuffer; } fb = stw_framebuffer_create(hdc, iPixelFormat); if (!fb) { return FALSE; } stw_framebuffer_unlock( fb ); /* Some applications mistakenly use the undocumented wglSetPixelFormat * function instead of SetPixelFormat, so we call SetPixelFormat here to * avoid opengl32.dll's wglCreateContext to fail */ if (GetPixelFormat(hdc) == 0) { BOOL bRet = SetPixelFormat(hdc, iPixelFormat, NULL); if (!bRet) { debug_printf("SetPixelFormat failed\n"); } } return TRUE; } int stw_pixelformat_get(HDC hdc) { int iPixelFormat = 0; struct stw_framebuffer *fb; fb = stw_framebuffer_from_hdc(hdc); if (fb) { iPixelFormat = fb->iPixelFormat; stw_framebuffer_unlock(fb); } return iPixelFormat; } BOOL APIENTRY DrvPresentBuffers(HDC hdc, PGLPRESENTBUFFERSDATA data) { struct stw_framebuffer *fb; struct pipe_screen *screen; struct pipe_resource *res; if (!stw_dev) return FALSE; fb = stw_framebuffer_from_hdc( hdc ); if (fb == NULL) return FALSE; screen = stw_dev->screen; res = (struct pipe_resource *)data->pPrivateData; if (data->hSharedSurface != fb->hSharedSurface) { if (fb->shared_surface) { stw_dev->stw_winsys->shared_surface_close(screen, fb->shared_surface); fb->shared_surface = NULL; } fb->hSharedSurface = data->hSharedSurface; if (data->hSharedSurface && stw_dev->stw_winsys->shared_surface_open) { fb->shared_surface = stw_dev->stw_winsys->shared_surface_open(screen, fb->hSharedSurface); } } if (!fb->minimized) { if (fb->shared_surface) { stw_dev->stw_winsys->compose(screen, res, fb->shared_surface, &fb->client_rect, data->PresentHistoryToken); } else { stw_dev->stw_winsys->present( screen, res, hdc ); } } stw_framebuffer_update(fb); stw_notify_current_locked(fb); stw_framebuffer_unlock(fb); return TRUE; } /** * Queue a composition. * * The stw_framebuffer object must have its mutex locked. The mutex will * be unlocked here before returning. */ BOOL stw_framebuffer_present_locked(HDC hdc, struct stw_framebuffer *fb, struct pipe_resource *res) { if (stw_dev->callbacks.wglCbPresentBuffers && stw_dev->stw_winsys->compose) { GLCBPRESENTBUFFERSDATA data; memset(&data, 0, sizeof data); data.magic1 = 2; data.magic2 = 0; data.AdapterLuid = stw_dev->AdapterLuid; data.rect = fb->client_rect; data.pPrivateData = (void *)res; stw_notify_current_locked(fb); stw_framebuffer_unlock(fb); return stw_dev->callbacks.wglCbPresentBuffers(hdc, &data); } else { struct pipe_screen *screen = stw_dev->screen; stw_dev->stw_winsys->present( screen, res, hdc ); stw_framebuffer_update(fb); stw_notify_current_locked(fb); stw_framebuffer_unlock(fb); return TRUE; } } BOOL APIENTRY DrvSwapBuffers(HDC hdc) { struct stw_context *ctx; struct stw_framebuffer *fb; if (!stw_dev) return FALSE; fb = stw_framebuffer_from_hdc( hdc ); if (fb == NULL) return FALSE; if (!(fb->pfi->pfd.dwFlags & PFD_DOUBLEBUFFER)) { stw_framebuffer_unlock(fb); return TRUE; } ctx = stw_current_context(); if (ctx) { if (ctx->hud) { /* Display the HUD */ struct pipe_resource *back = stw_get_framebuffer_resource(fb->stfb, ST_ATTACHMENT_BACK_LEFT); if (back) { hud_draw(ctx->hud, back); } } if (ctx->current_framebuffer == fb) { /* flush current context */ ctx->st->flush(ctx->st, ST_FLUSH_END_OF_FRAME, NULL); } } return stw_st_swap_framebuffer_locked(hdc, fb->stfb); } BOOL APIENTRY DrvSwapLayerBuffers(HDC hdc, UINT fuPlanes) { if (fuPlanes & WGL_SWAP_MAIN_PLANE) return DrvSwapBuffers(hdc); return FALSE; }