/* * Copyright 2019-2021, 2023 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include "fsl_fbdev.h" /******************************************************************************* * Definitions ******************************************************************************/ /******************************************************************************* * Prototypes ******************************************************************************/ static void FBDEV_BufferSwitchOffCallback(void *param, void *switchOffBuffer); /******************************************************************************* * Variables ******************************************************************************/ /******************************************************************************* * Code ******************************************************************************/ status_t FBDEV_Open(fbdev_t *fbdev, const dc_fb_t *dc, uint8_t layer) { status_t status; assert(NULL != fbdev); (void)memset(fbdev, 0, sizeof(fbdev_t)); fbdev->dc = dc; (void)VIDEO_STACK_Init(&fbdev->fbManager, fbdev->buffers, FBDEV_MAX_FRAME_BUFFER); /* Initialize the display controller. */ status = dc->ops->init(dc); if (kStatus_Success != status) { return status; } fbdev->layer = layer; /* Initializes the dc_fb_info_t to the display controller default setting. */ status = dc->ops->getLayerDefaultConfig(dc, layer, &fbdev->fbInfo.bufInfo); if (kStatus_Success != status) { return status; } fbdev->semaFramePending = rt_sem_create("fsfp", 0, RT_IPC_FLAG_PRIO); if (NULL == fbdev->semaFramePending) { return kStatus_Fail; } /* No frame pending. */ (void)rt_sem_release(fbdev->semaFramePending); dc->ops->setCallback(dc, layer, FBDEV_BufferSwitchOffCallback, (void *)fbdev); return kStatus_Success; } status_t FBDEV_Close(fbdev_t *fbdev) { const dc_fb_t *dc = fbdev->dc; (void)dc->ops->deinit(dc); if (NULL != fbdev->semaFbManager) { rt_sem_delete(fbdev->semaFbManager); fbdev->semaFbManager = NULL; } if (NULL != fbdev->semaFramePending) { rt_sem_delete(fbdev->semaFramePending); fbdev->semaFramePending = NULL; } return kStatus_Success; } status_t FBDEV_Enable(fbdev_t *fbdev) { status_t status = kStatus_Success; const dc_fb_t *dc = fbdev->dc; if (!fbdev->enabled) { /* Wait for frame buffer sent to display controller video memory. */ if ((dc->ops->getProperty(dc) & (uint32_t)kDC_FB_ReserveFrameBuffer) == 0U) { if (RT_EOK != rt_sem_take(fbdev->semaFramePending, RT_WAITING_FOREVER)) { status = kStatus_Fail; } } if (kStatus_Success == status) { /* No frame is pending. */ (void)rt_sem_release(fbdev->semaFramePending); status = dc->ops->enableLayer(dc, fbdev->layer); if (kStatus_Success == status) { fbdev->enabled = true; } } } return status; } status_t FBDEV_Disable(fbdev_t *fbdev) { status_t status = kStatus_Success; const dc_fb_t *dc = fbdev->dc; if (!fbdev->enabled) { /* Wait until no frame pending. */ if (RT_EOK != rt_sem_take(fbdev->semaFramePending, RT_WAITING_FOREVER)) { status = kStatus_Fail; } if (kStatus_Success == status) { (void)rt_sem_release(fbdev->semaFramePending); (void)dc->ops->disableLayer(dc, fbdev->layer); fbdev->enabled = false; } } return status; } void FBDEV_GetFrameBufferInfo(fbdev_t *fbdev, fbdev_fb_info_t *info) { *info = fbdev->fbInfo; } status_t FBDEV_SetFrameBufferInfo(fbdev_t *fbdev, fbdev_fb_info_t *info) { status_t status; const dc_fb_t *dc = fbdev->dc; /* Should only change the frame buffer setting before enabling the fbdev. */ if (fbdev->enabled) { return kStatus_Fail; } fbdev->fbInfo = *info; status = dc->ops->setLayerConfig(dc, fbdev->layer, &fbdev->fbInfo.bufInfo); if (kStatus_Success != status) { return status; } fbdev->semaFbManager = rt_sem_create("fsfm", 0, RT_IPC_FLAG_PRIO); if (NULL == fbdev->semaFbManager) { return kStatus_Fail; } for (uint8_t i = 0; i < info->bufferCount; i++) { /* Don't need to disable interrupt for the FB stack operation, because the fbdev is not working, this is the only function to access FB stack. */ (void)VIDEO_STACK_Push(&fbdev->fbManager, info->buffers[i]); (void)rt_sem_release(fbdev->semaFbManager); } return kStatus_Success; } void *FBDEV_GetFrameBuffer(fbdev_t *fbdev, uint32_t flags) { rt_uint32_t tick; void *fb; tick = ((flags & (uint32_t)kFBDEV_NoWait) != 0U) ? 0U : RT_WAITING_FOREVER; if (RT_EOK == rt_sem_take(fbdev->semaFbManager, tick)) { /* Disable interrupt to protect the FB stack. */ rt_enter_critical(); (void)VIDEO_STACK_Pop(&fbdev->fbManager, &fb); rt_exit_critical(); } else { fb = NULL; } return fb; } status_t FBDEV_SetFrameBuffer(fbdev_t *fbdev, void *frameBuffer, uint32_t flags) { rt_uint32_t tick; const dc_fb_t *dc = fbdev->dc; tick = ((flags & (uint32_t)kFBDEV_NoWait) != 0U) ? 0U : RT_WAITING_FOREVER; if (RT_EOK == rt_sem_take(fbdev->semaFramePending, tick)) { return dc->ops->setFrameBuffer(dc, fbdev->layer, frameBuffer); } else { return kStatus_Fail; } } static void FBDEV_BufferSwitchOffCallback(void *param, void *switchOffBuffer) { fbdev_t *fbdev = (fbdev_t *)param; /* This function should only be called in ISR, so don't need to protect the FB stack */ (void)VIDEO_STACK_Push(&fbdev->fbManager, switchOffBuffer); rt_sem_release(fbdev->semaFbManager); rt_sem_release(fbdev->semaFramePending); }