/**************************************************************************** * arch/arm/include/stm32/ltdc.h * * Copyright (C) 2014-2015 Marco Krahl. All rights reserved. * Author: Marco Krahl * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name NuttX nor the names of its contributors may be * used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************/ #ifndef __ARCH_ARM_INCLUDE_STM32_LTDC_H #define __ARCH_ARM_INCLUDE_STM32_LTDC_H /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #ifdef CONFIG_STM32_LTDC /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /**************************************************************************** * Public Types ****************************************************************************/ struct dma2d_layer_s; /* see arch/chip/dma2d.h */ /* Blend mode definitions */ enum ltdc_blend_e { LTDC_BLEND_NONE = 0, /* Disable all blend operation */ LTDC_BLEND_ALPHA = 0x1, /* Enable alpha blending */ LTDC_BLEND_PIXELALPHA = 0x2, /* Enable alpha blending from pixel color */ LTDC_BLEND_COLORKEY = 0x4, /* Enable colorkey */ LTDC_BLEND_ALPHAINV = 0x8, /* Inverse alpha blending of source */ LTDC_BLEND_PIXELALPHAINV = 0x10 /* Invers pixel alpha blending of source */ }; /* layer control definitions */ enum ltdc_layer_e { LTDC_LAYER_OWN = 0, /* The given layer */ LTDC_LAYER_TOP = 0x1, /* The initialized top layer */ LTDC_LAYER_BOTTOM = 0x2, /* the initialized bottom layer */ LTDC_LAYER_ACTIVE = 0x4, /* The current visible flip layer */ LTDC_LAYER_INACTIVE = 0x8 /* The current invisible flip layer */ #ifdef CONFIG_STM32_DMA2D ,LTDC_LAYER_DMA2D = 0x10 /* The dma2d interface layer id */ #endif }; /* Update operation flag */ enum ltdc_update_e { LTDC_UPDATE_NONE = 0, /* Update given layer only */ LTDC_UPDATE_SIM = 0x1, /* Update both layer simultaneous */ LTDC_UPDATE_FLIP = 0x2, /* Perform flip operation */ LTDC_UPDATE_ACTIVATE = 0x4 /* Set the given layer to the active layer */ }; /* sync mode definitions */ enum ltdc_sync_e { LTDC_SYNC_NONE = 0, /* Immediately */ LTDC_SYNC_VBLANK = 0x100, /* Upon vertical sync */ LTDC_SYNC_WAIT = 0x200 /* Waits upon vertical sync */ }; /* Definition of the visible layer position and size */ struct ltdc_area_s { fb_coord_t xpos; /* X position in pixel */ fb_coord_t ypos; /* Y position in pixel */ fb_coord_t xres; /* X resolution in pixel */ fb_coord_t yres; /* Y resolution in pixel */ }; /* The layer is controlled through the following structure */ struct ltdc_layer_s { /* * Name: getvideoinfo * * Description: * Get video information about the layer * * Parameter: * layer - Reference to the layer control structure * vinfo - Reference to the video info structure * * Return: * On success - OK * On error - -EINVAL * */ int (*getvideoinfo)(FAR struct ltdc_layer_s *layer, FAR struct fb_videoinfo_s *vinfo); /* * Name: getplaneinfo * * Description: * Get plane information about the layer * * Parameter: * layer - Reference to the layer control structure * planeno - Number of the plane * pinfo - Reference to the plane info structure * * Return: * On success - OK * On error - -EINVAL * */ int (*getplaneinfo)(FAR struct ltdc_layer_s *layer, int planeno, FAR struct fb_planeinfo_s *pinfo); /* * Name: getlid * * Description: * Get a specific layer identifier. * * Parameter: * layer - Reference to the layer structure * lid - Reference to store the layer id * flag - Operation flag describe the layer identifier * e.g. get the current active or inactive layer. * See LTDC_LAYER_* for possible values * * Return: * On success - OK * On error - -EINVAL * */ int (*getlid)(FAR struct ltdc_layer_s *layer, int *lid, uint32_t flag); #ifdef CONFIG_FB_CMAP /* * Name: setclut * * Description: * Configure layer clut (color lookup table). * Non clut is defined during initializing. * Clut is active during next vertical blank period. Do not need an update. * * Parameter: * layer - Reference to the layer structure * cmap - color lookup table with up the 256 entries * enable - Enable or disable clut support (if false cmap is ignored and can * be NULL) * * Return: * On success - OK * On error - -EINVAL * */ int (*setclut)(FAR struct ltdc_layer_s *layer, const FAR struct fb_cmap_s *cmap); /* * Name: getclut * * Description: * Get configured layer clut (color lookup table). * * Parameter: * layer - Reference to the layer structure * cmap - Reference to valid color lookup table accept up the 256 color * entries * * Return: * On success - OK * On error - -EINVAL * */ int (*getclut)(FAR struct ltdc_layer_s *layer, FAR struct fb_cmap_s *cmap); #endif /* * Name: setcolor * * Description: * Configure layer color for the non active layer area. * Default value during initializing: 0x00000000 * Color is active after next update. * * Parameter: * layer - Reference to the layer structure * argb - ARGB8888 color value * * Return: * On success - OK * On error - -EINVAL * */ int (*setcolor)(FAR struct ltdc_layer_s *layer, uint32_t argb); /* * Name: getcolor * * Description: * Get configured layer color for the non active layer area. * * Parameter: * layer - Reference to the layer structure * argb - Reference to store the ARGB8888 color value * * Return: * On success - OK * On error - -EINVAL * */ int (*getcolor)(FAR struct ltdc_layer_s *layer, uint32_t *argb); /* * Name: setcolorkey * * Description: * Configure the layer color key (chromakey) for transparence. * Default value during initializing: 0x00000000 * Colorkey is active after next update. * * Parameter: * layer - Reference to the layer structure * rgb - RGB888 color key * * Return: * On success - OK * On error - -EINVAL * */ int (*setcolorkey)(FAR struct ltdc_layer_s *layer, uint32_t rgb); /* * Name: getcolorkey * * Description: * Get the configured layer color key (chromakey) for transparence. * * Parameter: * layer - Reference to the layer structure * rgb - Reference to store the RGB888 color key * * Return: * On success - OK * On error - -EINVAL * */ int (*getcolorkey)(FAR struct ltdc_layer_s *layer, uint32_t *rgb); /* * Name: setalpha * * Description: * Configure layer alpha value factor into blend operation. * During the layer blend operation the source alpha value is multiplied * with this alpha value. If the source color format doesn't support alpha * channel (e.g. non ARGB8888) this alpha value will be used as constant * alpha value for blend operation. * Default value during initializing: 0xff * Alpha is active after next update. * * Parameter: * layer - Reference to the layer structure * alpha - Alpha value * * Return: * On success - OK * On error - -EINVAL * */ int (*setalpha)(FAR struct ltdc_layer_s *layer, uint8_t alpha); /* * Name: getalpha * * Description: * Get configured layer alpha value factor for blend operation. * * Parameter: * layer - Reference to the layer structure * alpha - Reference to store the alpha value * * Return: * On success - OK * On error - -EINVAL * */ int (*getalpha)(FAR struct ltdc_layer_s *layer, uint8_t *alpha); /* * Name: setblendmode * * Description: * Configure blend mode of the layer. * Default mode during initializing: LTDC_BLEND_NONE * Blendmode is active after next update. * * Parameter: * layer - Reference to the layer structure * mode - Blend mode (see LTDC_BLEND_*) * * Return: * On success - OK * On error - -EINVAL * * Procedure information: * LTDC_BLEND_NONE: * Informs the driver to disable all blend operation for the given layer. * That means the layer is opaque. Note this has no effect on the * colorkey settings. * * LTDC_BLEND_ALPHA: * Informs the driver to enable alpha blending for the given layer. * * LTDC_BLEND_COLORKEY: * Informs the driver to enable colorkeying for the given layer. * * LTDC_BLEND_SRCPIXELALPHA: * Informs the driver to use the pixel alpha value of the layer instead * the constant alpha value. This is only useful for ARGB8888 * color format. * * LTDC_BLEND_DESTPIXELALPHA: * Informs the driver to use the pixel alpha value of the subjacent layer * instead the constant alpha value. This is only useful for ARGB8888 * color format. * */ int (*setblendmode)(FAR struct ltdc_layer_s *layer, uint32_t mode); /* * Name: getblendmode * * Description: * Get configured blend mode of the layer. * * Parameter: * layer - Reference to the layer structure * mode - Reference to store the blend mode * * Return: * On success - OK * On error - -EINVAL * */ int (*getblendmode)(FAR struct ltdc_layer_s *layer, uint32_t *mode); /* * Name: setarea * * Description: * Configure visible layer area and the reference position of the first * pixel of the whole layer which is the first visible top left pixel in * the active area. * Default value during initializing: * xpos = 0 * ypos = 0 * xres = display x resolution * yres = display y resolution * * Area is active after next update. * * Parameter: * layer - Reference to the layer control structure * area - Reference to the valid area structure for the new active area * srcxpos - x position of the visible pixel of the whole layer * srcypos - y position of the visible pixel of the whole layer * * Return: * On success - OK * On error - -EINVAL * * Procedure Information: * If the srcxpos and srcypos unequal the the xpos and ypos of the coord * structure this acts like moving the visible area to another position on * the screen during the next update operation. * */ int (*setarea)(FAR struct ltdc_layer_s *layer, FAR const struct ltdc_area_s *area, fb_coord_t srcxpos, fb_coord_t srcypos); /* * Name: getarea * * Description: * Get configured visible layer area. * * Parameter: * layer - Reference to the layer control structure * area - Reference to the area structure to store the active area * srcxpos - Reference to store the referenced x position of the whole layer * srcypos - Reference to store the reterenced y position of the whole layer * * Return: * On success - OK * On error - -EINVAL * */ int (*getarea)(FAR struct ltdc_layer_s *layer, FAR struct ltdc_area_s *area, fb_coord_t *srcxpos, fb_coord_t *srcypos); /* * Name: update * * Description: * Update current layer settings and make changes visible. * * Parameter: * layer - Reference to the layer structure * mode - operation mode (see LTDC_UPDATE_*) * * Return: * OK - On success * -EINVAL - If one of the parameter invalid * -ECANCELED - Operation cancelled, something goes wrong * * Procedure information: * LTDC_UPDATE_SIM: * Informs the driver to update both ltdc layers simultaneously. Otherwise * update the given layer only. * * LTDC_UPDATE_FLIP: * Informs the driver to perform a flip operation. * This only effects the ltdc layer 1 and 2 and can be useful for double * buffering. Each flip operation changed the active layer ot the inactive * and vice versa. In the context of the ltdc that means, the inactive layer * is complete disabled. So the subjacent layer is the background layer * (background color). To reactivate both layer and their settings perform * an update without LTDC_UPDATE_FLIP flag. * * LTDC_UPDATE_ACTIVATE: * Informs the driver that the given layer should be the active layer when * the operation is complete. * * LTDC_SYNC_VBLANK: * Informs the driver to update the layer upon vertical blank. Otherwise * immediately. * */ int (*update)(FAR struct ltdc_layer_s *layer, uint32_t mode); #ifdef CONFIG_STM32_DMA2D /* * Name: blit * * Description: * Copy selected area from a source layer to selected position of the * destination layer. * * Parameter: * dest - Reference to the destination layer * destxpos - Selected x position of the destination layer * destypos - Selected y position of the destination layer * src - Reference to the source layer * srcarea - Reference to the selected area of the source layer * * Return: * OK - On success * -EINVAL - If one of the parameter invalid or if the size of the selected * source area outside the visible area of the destination layer. * (The visible area usually represents the display size) * */ int (*blit)(FAR struct ltdc_layer_s *dest, fb_coord_t destxpos, fb_coord_t destypos, FAR const struct dma2d_layer_s *src, FAR const struct ltdc_area_s *srcarea); /* * * Name: blend * * Description: * Blends the selected area from a foreground layer with selected position * of the background layer. Copy the result to the destination layer. Note! * The content of the foreground and background layer is not changed. * * Parameter: * dest - Reference to the destination layer * destxpos - Selected x position of the destination layer * destypos - Selected y position of the destination layer * fore - Reference to the foreground layer * forexpos - Selected x position of the foreground layer * foreypos - Selected y position of the foreground layer * back - Reference to the background layer * backarea - Reference to the selected area of the background layer * * Return: * OK - On success * -EINVAL - If one of the parameter invalid or if the size of the selected * source area outside the visible area of the destination layer. * (The visible area usually represents the display size) * */ int (*blend)(FAR struct ltdc_layer_s *dest, fb_coord_t destxpos, fb_coord_t destypos, FAR const struct dma2d_layer_s *fore, fb_coord_t forexpos, fb_coord_t foreypos, FAR const struct dma2d_layer_s *back, FAR const struct ltdc_area_s *backarea); /* * Name: fillarea * * Description: * Fill the selected area of the whole layer with a specific color. * * Parameter: * layer - Reference to the layer structure * area - Reference to the valid area structure select the area * color - Color to fill the selected area. Color must be formatted * according to the layer pixel format. * * Return: * OK - On success * -EINVAL - If one of the parameter invalid or if the size of the selected * area outside the visible area of the layer. * */ int (*fillarea)(FAR struct ltdc_layer_s *layer, FAR const struct ltdc_area_s *area, uint32_t color); #endif }; /**************************************************************************** * Public Data ****************************************************************************/ /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: up_ltdcgetlayer * * Description: * Get the ltdc layer structure to perform hardware layer operation * * Parameter: * lid - Layer identifier * * Return: * Reference to the layer control structure on success or Null if parameter * invalid. * ****************************************************************************/ FAR struct ltdc_layer_s *up_ltdcgetlayer(int lid); #endif /* CONFIG_STM32_LTDC */ #endif /* __ARCH_ARM_INCLUDE_STM32_LTDC_H */