DAL_STATUS DAL_Clean(void) { DAL_STATUS ret = DAL_STATUS_OK; static int dal_clean_cnt; MFC_CONTEXT *ctxt = (MFC_CONTEXT *) mfc_handle; DISP_DRV_MSG("[MTKFB_DAL] DAL_Clean\n"); if (NULL == mfc_handle) return DAL_STATUS_NOT_READY; /* if (LCD_STATE_POWER_OFF == LCD_GetState()) */ /* return DAL_STATUS_LCD_IN_SUSPEND; */ DAL_LOCK(); DAL_CHECK_MFC_RET(MFC_ResetCursor(mfc_handle)); ctxt->screen_color = 0; DAL_SetScreenColor(DAL_COLOR_RED); /* TODO: if dal_shown=false, and 3D enabled, mtkfb may disable UI layer, please modify 3D driver */ if (isAEEEnabled == 1) { /* DAL disable, switch UI layer to default layer 3 */ DISP_DRV_MSG("[DDP]* isAEEEnabled from 1 to 0, %d\n", dal_clean_cnt++); isAEEEnabled = 0; DAL_Dynamic_Change_FB_Layer(isAEEEnabled); /* restore UI layer to DEFAULT_UI_LAYER */ } dal_shown = FALSE; #ifdef DAL_LOWMEMORY_ASSERT if (dal_lowMemory_shown) { /* only need show lowmemory assert */ UINT32 LOWMEMORY_FG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_FG_COLOR, DAL_LOWMEMORY_FG_COLOR); UINT32 LOWMEMORY_BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_BG_COLOR, DAL_LOWMEMORY_BG_COLOR); DAL_CHECK_MFC_RET(MFC_LowMemory_Printf (mfc_handle, low_memory_msg, LOWMEMORY_FG_COLOR, LOWMEMORY_BG_COLOR)); Show_LowMemory(); } dal_enable_when_resume_lowmemory = FALSE; dal_disable_when_resume_lowmemory = FALSE; #endif dal_disable_when_resume = FALSE; DAL_UpdateScreen(FALSE, FALSE, 0, 0); DAL_CHECK_DISP_RET(DISP_UpdateScreen(0, 0, DAL_WIDTH, DAL_HEIGHT)); DAL_UNLOCK(); return ret; }
DAL_STATUS DAL_LowMemoryOn(void) { UINT32 LOWMEMORY_FG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_FG_COLOR, DAL_LOWMEMORY_FG_COLOR); UINT32 LOWMEMORY_BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_BG_COLOR, DAL_LOWMEMORY_BG_COLOR); DAL_LOG("Enter DAL_LowMemoryOn()\n"); DAL_CHECK_MFC_RET(MFC_LowMemory_Printf(mfc_handle, low_memory_msg, LOWMEMORY_FG_COLOR, LOWMEMORY_BG_COLOR)); Show_LowMemory(); dal_lowMemory_shown = TRUE; DAL_LOG("Leave DAL_LowMemoryOn()\n"); return DAL_STATUS_OK; }
DAL_STATUS DAL_Clean(void) { const UINT32 BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_BG_COLOR, DAL_BG_COLOR); UINT32 i, *ptr; if (NULL == mfc_handle) return DAL_STATUS_NOT_READY; DAL_LOCK(); MFC_CHECK_RET(MFC_ResetCursor(mfc_handle)); LCD_CHECK_RET(LCD_LayerEnable(ASSERT_LAYER, FALSE)); ptr = (UINT32 *)dal_fb_addr; for(i = 0; i < DAL_GetLayerSize() / sizeof(UINT32); ++ i) { *ptr ++ = BG_COLOR; } dal_shown = FALSE; DAL_UNLOCK(); return DAL_STATUS_OK; }
DAL_STATUS DAL_LowMemoryOff(void) { UINT32 BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_BG_COLOR, DAL_BG_COLOR); DAL_LOG("Enter DAL_LowMemoryOff()\n"); DAL_CHECK_MFC_RET(MFC_SetMem(mfc_handle, low_memory_msg, BG_COLOR)); if (LCD_STATE_POWER_OFF == LCD_GetState()) { dal_disable_when_resume_lowmemory = TRUE; goto End; } //what about LCM_PHYSICAL_ROTATION = 180 if(!dal_shown){// only low memory assert shown on screen DAL_CHECK_LCD_RET(LCD_LayerEnable(ASSERT_LAYER, FALSE)); DAL_CHECK_LCD_RET(LCD_LayerSetOffset(ASSERT_LAYER, 0,0)); DAL_CHECK_LCD_RET(LCD_LayerSetWindowOffset(ASSERT_LAYER, 0,0)); DAL_CHECK_LCD_RET(LCD_LayerSetSize(ASSERT_LAYER, DAL_WIDTH, DAL_HEIGHT)); } /* DAL_CHECK_DISP_RET(DISP_UpdateScreen(0, 0, DAL_WIDTH, DAL_HEIGHT)); */ End: dal_lowMemory_shown = FALSE; DAL_LOG("Leave DAL_LowMemoryOff()\n"); return DAL_STATUS_OK; }
DAL_STATUS DAL_SetScreenColor(DAL_COLOR color) { UINT32 i; UINT32 size; UINT32 BG_COLOR; MFC_CONTEXT *ctxt =NULL; UINT32 offset; UINT32 *addr; color=RGB888_To_RGB565(color); BG_COLOR = MAKE_TWO_RGB565_COLOR(color, color); ctxt = (MFC_CONTEXT *)mfc_handle; if(!ctxt) return DAL_STATUS_FATAL_ERROR; if(ctxt->screen_color==color) return DAL_STATUS_OK; offset = MFC_Get_Cursor_Offset(mfc_handle); addr=(UINT32 *)(ctxt->fb_addr+offset); size= DAL_GetLayerSize()-offset - DAL_address_burst_align(); for(i = 0; i < size/ sizeof(UINT32); ++ i) { *addr ++ = BG_COLOR; } ctxt->screen_color=color; return DAL_STATUS_OK; }
DAL_STATUS DAL_LowMemoryOff(void) { UINT32 BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_BG_COLOR, DAL_BG_COLOR); DAL_LOG("Enter DAL_LowMemoryOff()\n"); DAL_CHECK_MFC_RET(MFC_SetMem(mfc_handle, low_memory_msg, BG_COLOR)); //what about LCM_PHYSICAL_ROTATION = 180 if(!dal_shown) {// only low memory assert shown on screen mutex_lock(&OverlaySettingMutex); cached_layer_config[ASSERT_LAYER].src_x = 0; cached_layer_config[ASSERT_LAYER].src_y = 0; cached_layer_config[ASSERT_LAYER].src_w = DAL_WIDTH; cached_layer_config[ASSERT_LAYER].src_h = DAL_HEIGHT; cached_layer_config[ASSERT_LAYER].dst_x = 0; cached_layer_config[ASSERT_LAYER].dst_y = 0; cached_layer_config[ASSERT_LAYER].dst_w = DAL_WIDTH; cached_layer_config[ASSERT_LAYER].dst_h = DAL_HEIGHT; cached_layer_config[ASSERT_LAYER].layer_en= FALSE; cached_layer_config[ASSERT_LAYER].isDirty = true; atomic_set(&OverlaySettingDirtyFlag, 1); atomic_set(&OverlaySettingApplied, 0); mutex_unlock(&OverlaySettingMutex); } dal_lowMemory_shown = FALSE; DAL_LOG("Leave DAL_LowMemoryOff()\n"); return DAL_STATUS_OK; }
DAL_STATUS DAL_Clean(void) { const UINT32 BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_BG_COLOR, DAL_BG_COLOR); DAL_STATUS ret = DAL_STATUS_OK; UINT32 i, *ptr; if (NULL == mfc_handle) return DAL_STATUS_NOT_READY; // if (LCD_STATE_POWER_OFF == LCD_GetState()) // return DAL_STATUS_LCD_IN_SUSPEND; DAL_LOCK(); DAL_CHECK_MFC_RET(MFC_ResetCursor(mfc_handle)); ptr = (UINT32 *)dal_fb_addr; for(i = 0; i < DAL_GetLayerSize() / sizeof(UINT32); ++ i) { *ptr ++ = BG_COLOR; } if (LCD_STATE_POWER_OFF == LCD_GetState()) { DISP_LOG_PRINT(ANDROID_LOG_INFO, "DAL", "dal_clean in power off\n"); dal_disable_when_resume = TRUE; ret = DAL_STATUS_LCD_IN_SUSPEND; goto End; } DAL_CHECK_LCD_RET(LCD_LayerEnable(ASSERT_LAYER, FALSE)); dal_shown = FALSE; #ifdef DAL_LOWMEMORY_ASSERT if (dal_lowMemory_shown) {//only need show lowmemory assert UINT32 LOWMEMORY_FG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_FG_COLOR, DAL_LOWMEMORY_FG_COLOR); UINT32 LOWMEMORY_BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_BG_COLOR, DAL_LOWMEMORY_BG_COLOR); DAL_CHECK_MFC_RET(MFC_LowMemory_Printf(mfc_handle, low_memory_msg, LOWMEMORY_FG_COLOR, LOWMEMORY_BG_COLOR)); Show_LowMemory(); } dal_enable_when_resume_lowmemory = FALSE; dal_disable_when_resume_lowmemory = FALSE; #endif dal_disable_when_resume = FALSE; End: DAL_UNLOCK(); return ret; }
static DAL_STATUS DAL_SetRedScreen(UINT32 *addr) { UINT32 i; const UINT32 BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_BG_COLOR, DAL_BG_COLOR); for(i = 0; i < DAL_GetLayerSize() / sizeof(UINT32); ++ i) { *addr ++ = BG_COLOR; } }
DAL_STATUS DAL_LowMemoryOn(void) { UINT32 LOWMEMORY_FG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_FG_COLOR, DAL_LOWMEMORY_FG_COLOR); UINT32 LOWMEMORY_BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_BG_COLOR, DAL_LOWMEMORY_BG_COLOR); DAL_LOG("Enter DAL_LowMemoryOn()\n"); DAL_CHECK_MFC_RET(MFC_LowMemory_Printf(mfc_handle, low_memory_msg, LOWMEMORY_FG_COLOR, LOWMEMORY_BG_COLOR)); if (LCD_STATE_POWER_OFF == LCD_GetState()) { dal_enable_when_resume_lowmemory = TRUE; DAL_LOG("LCD is off\n"); goto End; } Show_LowMemory(); // dal_lowMemory_shown = TRUE; End: dal_lowMemory_shown = TRUE; DAL_LOG("Leave DAL_LowMemoryOn()\n"); return DAL_STATUS_OK; }
DAL_STATUS DAL_LowMemoryOff(void) { UINT32 BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_BG_COLOR, DAL_BG_COLOR); DAL_LOG("Enter DAL_LowMemoryOff()\n"); DAL_CHECK_MFC_RET(MFC_SetMem(mfc_handle, low_memory_msg, BG_COLOR)); /* what about LCM_PHYSICAL_ROTATION = 180 */ if (!dal_shown) { /* only low memory assert shown on screen */ DAL_UpdateScreen(FALSE, FALSE, 0, 0); } dal_lowMemory_shown = FALSE; DAL_LOG("Leave DAL_LowMemoryOff()\n"); return DAL_STATUS_OK; }
DAL_STATUS DAL_OnDispPowerOn(void) { DAL_LOCK(); /* Re-enable assertion layer when display resumes */ if (LCD_STATE_POWER_OFF != LCD_GetState()){ if(dal_enable_when_resume) { dal_enable_when_resume = FALSE; if (!dal_shown) { DAL_CHECK_LCD_RET(LCD_LayerSetWindowOffset(ASSERT_LAYER,0,0)); DAL_CHECK_LCD_RET(LCD_LayerSetOffset(ASSERT_LAYER, 0,0)); DAL_CHECK_LCD_RET(LCD_LayerSetSize(ASSERT_LAYER, DAL_WIDTH, DAL_HEIGHT)); DAL_CHECK_LCD_RET(LCD_LayerEnable(ASSERT_LAYER, TRUE)); dal_shown = TRUE; } #ifdef DAL_LOWMEMORY_ASSERT dal_enable_when_resume_lowmemory = FALSE; dal_disable_when_resume_lowmemory = FALSE; #endif goto End; } else if(dal_disable_when_resume){ dal_disable_when_resume = FALSE; DAL_CHECK_LCD_RET(LCD_LayerEnable(ASSERT_LAYER, FALSE)); dal_shown = FALSE; #ifdef DAL_LOWMEMORY_ASSERT if (dal_lowMemory_shown) {//only need show lowmemory assert UINT32 LOWMEMORY_FG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_FG_COLOR, DAL_LOWMEMORY_FG_COLOR); UINT32 LOWMEMORY_BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_BG_COLOR, DAL_LOWMEMORY_BG_COLOR); DAL_CHECK_MFC_RET(MFC_LowMemory_Printf(mfc_handle, low_memory_msg, LOWMEMORY_FG_COLOR, LOWMEMORY_BG_COLOR)); Show_LowMemory(); } dal_enable_when_resume_lowmemory = FALSE; dal_disable_when_resume_lowmemory = FALSE; #endif goto End; } #ifdef DAL_LOWMEMORY_ASSERT if(dal_enable_when_resume_lowmemory){ dal_enable_when_resume_lowmemory = FALSE; if(!dal_shown){//only need show lowmemory assert Show_LowMemory(); } } else if(dal_disable_when_resume_lowmemory){ if(!dal_shown){// only low memory assert shown on screen DAL_CHECK_LCD_RET(LCD_LayerEnable(ASSERT_LAYER, FALSE)); DAL_CHECK_LCD_RET(LCD_LayerSetOffset(ASSERT_LAYER, 0,0)); DAL_CHECK_LCD_RET(LCD_LayerSetWindowOffset(ASSERT_LAYER, 0,0)); DAL_CHECK_LCD_RET(LCD_LayerSetSize(ASSERT_LAYER, DAL_WIDTH, DAL_HEIGHT)); } } else{} #endif } End: DAL_UNLOCK(); return DAL_STATUS_OK; }
DAL_STATUS DAL_Clean(void) { const UINT32 BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_BG_COLOR, DAL_BG_COLOR); DAL_STATUS ret = DAL_STATUS_OK; UINT32 i, *ptr; static int dal_clean_cnt = 0; printk("[MTKFB_DAL] DAL_Clean\n"); if (NULL == mfc_handle) return DAL_STATUS_NOT_READY; // if (LCD_STATE_POWER_OFF == LCD_GetState()) // return DAL_STATUS_LCD_IN_SUSPEND; DAL_LOCK(); DAL_CHECK_MFC_RET(MFC_ResetCursor(mfc_handle)); ptr = (UINT32 *)dal_fb_addr; for(i = 0; i < DAL_GetLayerSize() / sizeof(UINT32); ++ i) { *ptr ++ = BG_COLOR; } /* if (LCD_STATE_POWER_OFF == LCD_GetState()) { DISP_LOG_PRINT(ANDROID_LOG_INFO, "DAL", "dal_clean in power off\n"); dal_disable_when_resume = TRUE; ret = DAL_STATUS_LCD_IN_SUSPEND; goto End; } */ if (down_interruptible(&sem_early_suspend)) { DISP_LOG_PRINT(ANDROID_LOG_INFO, "DAL", "can't get semaphore in DAL_Clean()\n"); goto End; } //xuecheng, for debug #if 0 if(is_early_suspended){ up(&sem_early_suspend); DISP_LOG_PRINT(ANDROID_LOG_INFO, "DAL", "dal_clean in power off\n"); goto End; } #endif up(&sem_early_suspend); mutex_lock(&OverlaySettingMutex); //TODO: if dal_shown=false, and 3D enabled, mtkfb may disable UI layer, please modify 3D driver if(isAEEEnabled==1) { DAL_CHECK_LCD_RET(LCD_LayerEnable(ASSERT_LAYER, FALSE)); // DAL disable, switch UI layer to default layer 3 printk("[DDP]* isAEEEnabled from 1 to 0, %d \n", dal_clean_cnt++); isAEEEnabled = 0; DAL_CHECK_LCD_RET(LCD_Dynamic_Change_FB_Layer(isAEEEnabled)); // restore UI layer to DEFAULT_UI_LAYER } dal_shown = FALSE; #ifdef DAL_LOWMEMORY_ASSERT if (dal_lowMemory_shown) {//only need show lowmemory assert UINT32 LOWMEMORY_FG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_FG_COLOR, DAL_LOWMEMORY_FG_COLOR); UINT32 LOWMEMORY_BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_BG_COLOR, DAL_LOWMEMORY_BG_COLOR); DAL_CHECK_MFC_RET(MFC_LowMemory_Printf(mfc_handle, low_memory_msg, LOWMEMORY_FG_COLOR, LOWMEMORY_BG_COLOR)); Show_LowMemory(); } dal_enable_when_resume_lowmemory = FALSE; dal_disable_when_resume_lowmemory = FALSE; #endif dal_disable_when_resume = FALSE; atomic_set(&OverlaySettingDirtyFlag, 1); atomic_set(&OverlaySettingApplied, 0); mutex_unlock(&OverlaySettingMutex); DAL_CHECK_DISP_RET(DISP_UpdateScreen(0, 0, DAL_WIDTH, DAL_HEIGHT)); End: DAL_UNLOCK(); return ret; }
DAL_STATUS DAL_OnDispPowerOn(void) { DAL_LOCK(); /* Re-enable assertion layer when display resumes */ if (is_early_suspended) { if(dal_enable_when_resume) { dal_enable_when_resume = FALSE; if (!dal_shown) { DAL_UpdateScreen(TRUE, FALSE, DAL_WIDTH, DAL_HEIGHT); dal_shown = TRUE; } #ifdef DAL_LOWMEMORY_ASSERT dal_enable_when_resume_lowmemory = FALSE; dal_disable_when_resume_lowmemory = FALSE; #endif goto End; } else if(dal_disable_when_resume) { dal_disable_when_resume = FALSE; DAL_UpdateScreen(FALSE, FALSE, 0, 0); dal_shown = FALSE; #ifdef DAL_LOWMEMORY_ASSERT if (dal_lowMemory_shown) { //only need show lowmemory assert UINT32 LOWMEMORY_FG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_FG_COLOR, DAL_LOWMEMORY_FG_COLOR); UINT32 LOWMEMORY_BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_BG_COLOR, DAL_LOWMEMORY_BG_COLOR); DAL_CHECK_MFC_RET(MFC_LowMemory_Printf(mfc_handle, low_memory_msg, LOWMEMORY_FG_COLOR, LOWMEMORY_BG_COLOR)); Show_LowMemory(); } dal_enable_when_resume_lowmemory = FALSE; dal_disable_when_resume_lowmemory = FALSE; #endif goto End; } #ifdef DAL_LOWMEMORY_ASSERT if(dal_enable_when_resume_lowmemory) { dal_enable_when_resume_lowmemory = FALSE; if(!dal_shown) { //only need show lowmemory assert Show_LowMemory(); } } else if(dal_disable_when_resume_lowmemory) { if(!dal_shown) { // only low memory assert shown on screen DAL_UpdateScreen(FALSE, FALSE, 0, 0); } } else {} #endif } End: DAL_UNLOCK(); return DAL_STATUS_OK; }
DAL_STATUS DAL_Clean(void) { const UINT32 BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_BG_COLOR, DAL_BG_COLOR); DAL_STATUS ret = DAL_STATUS_OK; static int dal_clean_cnt = 0; MFC_CONTEXT *ctxt = (MFC_CONTEXT *)mfc_handle; printk("[MTKFB_DAL] DAL_Clean\n"); if (NULL == mfc_handle) return DAL_STATUS_NOT_READY; // if (LCD_STATE_POWER_OFF == LCD_GetState()) // return DAL_STATUS_LCD_IN_SUSPEND; MMProfileLogEx(ddp_mmp_get_events()->dal_clean, MMProfileFlagStart, 0, 0); DAL_LOCK(); DAL_CHECK_MFC_RET(MFC_ResetCursor(mfc_handle)); ctxt->screen_color=0; DAL_SetScreenColor(DAL_COLOR_RED); /* if (LCD_STATE_POWER_OFF == LCD_GetState()) { DISP_LOG_PRINT(ANDROID_LOG_INFO, "DAL", "dal_clean in power off\n"); dal_disable_when_resume = TRUE; ret = DAL_STATUS_LCD_IN_SUSPEND; goto End; } */ //xuecheng, for debug #if 0 if(is_early_suspended){ up(&sem_early_suspend); DISP_LOG_PRINT(ANDROID_LOG_INFO, "DAL", "dal_clean in power off\n"); goto End; } #endif //TODO: if dal_shown=false, and 3D enabled, mtkfb may disable UI layer, please modify 3D driver if(isAEEEnabled==1) { primary_disp_input_config input; memset((void*)&input, 0, sizeof(primary_disp_input_config)); input.addr = (unsigned long)dal_fb_pa; input.layer = primary_display_get_option("ASSERT_LAYER"); input.layer_en = 0; input.src_x = 0; input.src_y = 0; input.src_w = DAL_WIDTH; input.src_h = DAL_HEIGHT; input.dst_x = 0; input.dst_y = 0; input.dst_w = DAL_WIDTH; input.dst_h = DAL_HEIGHT; input.alpha = 0x80; input.aen = 1; input.buff_idx = -1; input.src_pitch = DAL_WIDTH * DAL_BPP; input.isDirty = 1; input.fmt = DAL_FORMAT; ret = primary_display_config_input(&input); // DAL disable, switch UI layer to default layer 3 printk("[DDP]* isAEEEnabled from 1 to 0, %d \n", dal_clean_cnt++); isAEEEnabled = 0; DAL_Dynamic_Change_FB_Layer(isAEEEnabled); // restore UI layer to DEFAULT_UI_LAYER } dal_shown = FALSE; dal_disable_when_resume = FALSE; primary_display_trigger(0, NULL, 0); End: DAL_UNLOCK(); MMProfileLogEx(ddp_mmp_get_events()->dal_clean, MMProfileFlagEnd, 0, 0); return ret; }
DAL_STATUS DAL_OnDispPowerOn(void) { DAL_LOCK(); /* Re-enable assertion layer when display resumes */ if (is_early_suspended) { if(dal_enable_when_resume) { dal_enable_when_resume = FALSE; if (!dal_shown) { mutex_lock(&OverlaySettingMutex); cached_layer_config[ASSERT_LAYER].src_x = 0; cached_layer_config[ASSERT_LAYER].src_y = 0; cached_layer_config[ASSERT_LAYER].src_w = DAL_WIDTH; cached_layer_config[ASSERT_LAYER].src_h = DAL_HEIGHT; cached_layer_config[ASSERT_LAYER].dst_x = 0; cached_layer_config[ASSERT_LAYER].dst_y = 0; cached_layer_config[ASSERT_LAYER].dst_w = DAL_WIDTH; cached_layer_config[ASSERT_LAYER].dst_h = DAL_HEIGHT; cached_layer_config[ASSERT_LAYER].layer_en= TRUE; cached_layer_config[ASSERT_LAYER].isDirty = true; atomic_set(&OverlaySettingDirtyFlag, 1); atomic_set(&OverlaySettingApplied, 0); mutex_unlock(&OverlaySettingMutex); dal_shown = TRUE; } #ifdef DAL_LOWMEMORY_ASSERT dal_enable_when_resume_lowmemory = FALSE; dal_disable_when_resume_lowmemory = FALSE; #endif goto End; } else if(dal_disable_when_resume) { dal_disable_when_resume = FALSE; mutex_lock(&OverlaySettingMutex); cached_layer_config[ASSERT_LAYER].layer_en= FALSE; cached_layer_config[ASSERT_LAYER].isDirty = true; atomic_set(&OverlaySettingDirtyFlag, 1); atomic_set(&OverlaySettingApplied, 0); mutex_unlock(&OverlaySettingMutex); dal_shown = FALSE; #ifdef DAL_LOWMEMORY_ASSERT if (dal_lowMemory_shown) {//only need show lowmemory assert UINT32 LOWMEMORY_FG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_FG_COLOR, DAL_LOWMEMORY_FG_COLOR); UINT32 LOWMEMORY_BG_COLOR = MAKE_TWO_RGB565_COLOR(DAL_LOWMEMORY_BG_COLOR, DAL_LOWMEMORY_BG_COLOR); DAL_CHECK_MFC_RET(MFC_LowMemory_Printf(mfc_handle, low_memory_msg, LOWMEMORY_FG_COLOR, LOWMEMORY_BG_COLOR)); Show_LowMemory(); } dal_enable_when_resume_lowmemory = FALSE; dal_disable_when_resume_lowmemory = FALSE; #endif goto End; } #ifdef DAL_LOWMEMORY_ASSERT if(dal_enable_when_resume_lowmemory) { dal_enable_when_resume_lowmemory = FALSE; if(!dal_shown) {//only need show lowmemory assert Show_LowMemory(); } } else if(dal_disable_when_resume_lowmemory) { if(!dal_shown) {// only low memory assert shown on screen mutex_lock(&OverlaySettingMutex); cached_layer_config[ASSERT_LAYER].src_x = 0; cached_layer_config[ASSERT_LAYER].src_y = 0; cached_layer_config[ASSERT_LAYER].src_w = DAL_WIDTH; cached_layer_config[ASSERT_LAYER].src_h = DAL_HEIGHT; cached_layer_config[ASSERT_LAYER].dst_x = 0; cached_layer_config[ASSERT_LAYER].dst_y = 0; cached_layer_config[ASSERT_LAYER].dst_w = DAL_WIDTH; cached_layer_config[ASSERT_LAYER].dst_h = DAL_HEIGHT; cached_layer_config[ASSERT_LAYER].layer_en= FALSE; cached_layer_config[ASSERT_LAYER].isDirty = true; atomic_set(&OverlaySettingDirtyFlag, 1); atomic_set(&OverlaySettingApplied, 0); mutex_unlock(&OverlaySettingMutex); } } else{} #endif } End: DAL_UNLOCK(); return DAL_STATUS_OK; }