/* * Copyright (c) 2018 Jan Van Winkel * Copyright (c) 2021 Nordic Semiconductor * * SPDX-License-Identifier: Apache-2.0 */ #define DT_DRV_COMPAT zephyr_sdl_dc #include #include #include #include #include #include "display_sdl_bottom.h" #include "cmdline.h" #define LOG_LEVEL CONFIG_DISPLAY_LOG_LEVEL #include LOG_MODULE_REGISTER(display_sdl); static uint32_t sdl_display_zoom_pct; struct sdl_display_config { uint16_t height; uint16_t width; }; struct sdl_display_data { void *window; void *renderer; void *mutex; void *texture; void *read_texture; void *background_texture; bool display_on; enum display_pixel_format current_pixel_format; uint8_t *buf; uint8_t *read_buf; }; static inline uint32_t mono_pixel_order(uint32_t order) { if (IS_ENABLED(CONFIG_SDL_DISPLAY_MONO_MSB_FIRST)) { return BIT(7 - order); } else { return BIT(order); } } static int sdl_display_init(const struct device *dev) { const struct sdl_display_config *config = dev->config; struct sdl_display_data *disp_data = dev->data; bool use_accelerator = true; LOG_DBG("Initializing display driver"); IF_DISABLED(CONFIG_SDL_DISPLAY_USE_HARDWARE_ACCELERATOR, (use_accelerator = false)); disp_data->current_pixel_format = #if defined(CONFIG_SDL_DISPLAY_DEFAULT_PIXEL_FORMAT_RGB_888) PIXEL_FORMAT_RGB_888 #elif defined(CONFIG_SDL_DISPLAY_DEFAULT_PIXEL_FORMAT_MONO01) PIXEL_FORMAT_MONO01 #elif defined(CONFIG_SDL_DISPLAY_DEFAULT_PIXEL_FORMAT_MONO10) PIXEL_FORMAT_MONO10 #elif defined(CONFIG_SDL_DISPLAY_DEFAULT_PIXEL_FORMAT_RGB_565) PIXEL_FORMAT_RGB_565 #elif defined(CONFIG_SDL_DISPLAY_DEFAULT_PIXEL_FORMAT_BGR_565) PIXEL_FORMAT_BGR_565 #else /* SDL_DISPLAY_DEFAULT_PIXEL_FORMAT */ PIXEL_FORMAT_ARGB_8888 #endif /* SDL_DISPLAY_DEFAULT_PIXEL_FORMAT */ ; if (sdl_display_zoom_pct == UINT32_MAX) { sdl_display_zoom_pct = CONFIG_SDL_DISPLAY_ZOOM_PCT; } int rc = sdl_display_init_bottom(config->height, config->width, sdl_display_zoom_pct, use_accelerator, &disp_data->window, &disp_data->renderer, &disp_data->mutex, &disp_data->texture, &disp_data->read_texture, &disp_data->background_texture, CONFIG_SDL_DISPLAY_TRANSPARENCY_GRID_CELL_COLOR_1, CONFIG_SDL_DISPLAY_TRANSPARENCY_GRID_CELL_COLOR_2, CONFIG_SDL_DISPLAY_TRANSPARENCY_GRID_CELL_SIZE); if (rc != 0) { LOG_ERR("Failed to create SDL display"); return -EIO; } disp_data->display_on = false; return 0; } static void sdl_display_write_argb8888(void *disp_buf, const struct display_buffer_descriptor *desc, const void *buf) { __ASSERT((desc->pitch * 4U * desc->height) <= desc->buf_size, "Input buffer too small"); memcpy(disp_buf, buf, desc->pitch * 4U * desc->height); } static void sdl_display_write_rgb888(uint8_t *disp_buf, const struct display_buffer_descriptor *desc, const void *buf) { uint32_t w_idx; uint32_t h_idx; uint32_t pixel; const uint8_t *byte_ptr; __ASSERT((desc->pitch * 3U * desc->height) <= desc->buf_size, "Input buffer too small"); for (h_idx = 0U; h_idx < desc->height; ++h_idx) { for (w_idx = 0U; w_idx < desc->width; ++w_idx) { byte_ptr = (const uint8_t *)buf + ((h_idx * desc->pitch) + w_idx) * 3U; pixel = *byte_ptr << 16; pixel |= *(byte_ptr + 1) << 8; pixel |= *(byte_ptr + 2); *((uint32_t *)disp_buf) = pixel | 0xFF000000; disp_buf += 4; } } } static void sdl_display_write_rgb565(uint8_t *disp_buf, const struct display_buffer_descriptor *desc, const void *buf) { uint32_t w_idx; uint32_t h_idx; uint32_t pixel; const uint16_t *pix_ptr; uint16_t rgb565; __ASSERT((desc->pitch * 2U * desc->height) <= desc->buf_size, "Input buffer too small"); for (h_idx = 0U; h_idx < desc->height; ++h_idx) { for (w_idx = 0U; w_idx < desc->width; ++w_idx) { pix_ptr = (const uint16_t *)buf + ((h_idx * desc->pitch) + w_idx); rgb565 = sys_be16_to_cpu(*pix_ptr); pixel = (((rgb565 >> 11) & 0x1F) * 255 / 31) << 16; pixel |= (((rgb565 >> 5) & 0x3F) * 255 / 63) << 8; pixel |= (rgb565 & 0x1F) * 255 / 31; *((uint32_t *)disp_buf) = pixel | 0xFF000000; disp_buf += 4; } } } static void sdl_display_write_bgr565(uint8_t *disp_buf, const struct display_buffer_descriptor *desc, const void *buf) { uint32_t w_idx; uint32_t h_idx; uint32_t pixel; const uint16_t *pix_ptr; __ASSERT((desc->pitch * 2U * desc->height) <= desc->buf_size, "Input buffer too small"); for (h_idx = 0U; h_idx < desc->height; ++h_idx) { for (w_idx = 0U; w_idx < desc->width; ++w_idx) { pix_ptr = (const uint16_t *)buf + ((h_idx * desc->pitch) + w_idx); pixel = (((*pix_ptr >> 11) & 0x1F) * 255 / 31) << 16; pixel |= (((*pix_ptr >> 5) & 0x3F) * 255 / 63) << 8; pixel |= (*pix_ptr & 0x1F) * 255 / 31; *((uint32_t *)disp_buf) = pixel | 0xFF000000; disp_buf += 4; } } } static void sdl_display_write_mono(uint8_t *disp_buf, const struct display_buffer_descriptor *desc, const void *buf, const bool one_is_black) { uint32_t w_idx; uint32_t h_idx; uint32_t tile_idx; uint32_t pixel; const uint8_t *byte_ptr; uint32_t one_color; uint8_t *disp_buf_start; __ASSERT((desc->pitch * desc->height) <= (desc->buf_size * 8U), "Input buffer too small"); __ASSERT((desc->height % 8) == 0U, "Input buffer height not aligned per 8 pixels"); if (one_is_black) { one_color = 0U; } else { one_color = 0x00FFFFFF; } for (tile_idx = 0U; tile_idx < desc->height/8U; ++tile_idx) { for (w_idx = 0U; w_idx < desc->width; ++w_idx) { byte_ptr = (const uint8_t *)buf + ((tile_idx * desc->pitch) + w_idx); disp_buf_start = disp_buf; for (h_idx = 0U; h_idx < 8; ++h_idx) { if ((*byte_ptr & mono_pixel_order(h_idx)) != 0U) { pixel = one_color; } else { pixel = ~one_color; } *((uint32_t *)disp_buf) = pixel | 0xFF000000; disp_buf += (desc->width * 4U); } disp_buf = disp_buf_start; disp_buf += 4; } disp_buf += 7 * (desc->width * 4U); } } static int sdl_display_write(const struct device *dev, const uint16_t x, const uint16_t y, const struct display_buffer_descriptor *desc, const void *buf) { const struct sdl_display_config *config = dev->config; struct sdl_display_data *disp_data = dev->data; LOG_DBG("Writing %dx%d (w,h) bitmap @ %dx%d (x,y)", desc->width, desc->height, x, y); __ASSERT(desc->width <= desc->pitch, "Pitch is smaller than width"); __ASSERT(desc->pitch <= config->width, "Pitch in descriptor is larger than screen size"); __ASSERT(desc->height <= config->height, "Height in descriptor is larger than screen size"); __ASSERT(x + desc->width <= config->width, "Writing outside screen boundaries in horizontal direction"); __ASSERT(y + desc->height <= config->height, "Writing outside screen boundaries in vertical direction"); if (desc->width > desc->pitch || x + desc->width > config->width || y + desc->height > config->height) { return -EINVAL; } if (disp_data->current_pixel_format == PIXEL_FORMAT_ARGB_8888) { sdl_display_write_argb8888(disp_data->buf, desc, buf); } else if (disp_data->current_pixel_format == PIXEL_FORMAT_RGB_888) { sdl_display_write_rgb888(disp_data->buf, desc, buf); } else if (disp_data->current_pixel_format == PIXEL_FORMAT_MONO10) { sdl_display_write_mono(disp_data->buf, desc, buf, true); } else if (disp_data->current_pixel_format == PIXEL_FORMAT_MONO01) { sdl_display_write_mono(disp_data->buf, desc, buf, false); } else if (disp_data->current_pixel_format == PIXEL_FORMAT_RGB_565) { sdl_display_write_rgb565(disp_data->buf, desc, buf); } else if (disp_data->current_pixel_format == PIXEL_FORMAT_BGR_565) { sdl_display_write_bgr565(disp_data->buf, desc, buf); } sdl_display_write_bottom(desc->height, desc->width, x, y, disp_data->renderer, disp_data->mutex, disp_data->texture, disp_data->background_texture, disp_data->buf, disp_data->display_on, desc->frame_incomplete); return 0; } static void sdl_display_read_argb8888(const uint8_t *read_buf, const struct display_buffer_descriptor *desc, void *buf) { __ASSERT((desc->pitch * 4U * desc->height) <= desc->buf_size, "Read buffer is too small"); memcpy(buf, read_buf, desc->pitch * 4U * desc->height); } static void sdl_display_read_rgb888(const uint8_t *read_buf, const struct display_buffer_descriptor *desc, void *buf) { uint32_t w_idx; uint32_t h_idx; uint8_t *buf8; const uint32_t *pix_ptr; __ASSERT((desc->pitch * 3U * desc->height) <= desc->buf_size, "Read buffer is too small"); for (h_idx = 0U; h_idx < desc->height; ++h_idx) { buf8 = ((uint8_t *)buf) + desc->pitch * 3U * h_idx; for (w_idx = 0U; w_idx < desc->width; ++w_idx) { pix_ptr = (const uint32_t *)read_buf + ((h_idx * desc->pitch) + w_idx); *buf8 = (*pix_ptr & 0xFF0000) >> 16; buf8 += 1; *buf8 = (*pix_ptr & 0xFF00) >> 8; buf8 += 1; *buf8 = (*pix_ptr & 0xFF); buf8 += 1; } } } static void sdl_display_read_rgb565(const uint8_t *read_buf, const struct display_buffer_descriptor *desc, void *buf) { uint32_t w_idx; uint32_t h_idx; uint16_t pixel; uint16_t *buf16; const uint32_t *pix_ptr; __ASSERT((desc->pitch * 2U * desc->height) <= desc->buf_size, "Read buffer is too small"); for (h_idx = 0U; h_idx < desc->height; ++h_idx) { buf16 = (void *)(((uint8_t *)buf) + desc->pitch * 2U * h_idx); for (w_idx = 0U; w_idx < desc->width; ++w_idx) { pix_ptr = (const uint32_t *)read_buf + ((h_idx * desc->pitch) + w_idx); pixel = (*pix_ptr & 0xF80000) >> 8; pixel |= (*pix_ptr & 0x00FC00) >> 5; pixel |= (*pix_ptr & 0x0000F8) >> 3; *buf16 = sys_be16_to_cpu(pixel); buf16 += 1; } } } static void sdl_display_read_bgr565(const uint8_t *read_buf, const struct display_buffer_descriptor *desc, void *buf) { uint32_t w_idx; uint32_t h_idx; uint16_t pixel; uint16_t *buf16; const uint32_t *pix_ptr; __ASSERT((desc->pitch * 2U * desc->height) <= desc->buf_size, "Read buffer is too small"); for (h_idx = 0U; h_idx < desc->height; ++h_idx) { buf16 = (void *)(((uint8_t *)buf) + desc->pitch * 2U * h_idx); for (w_idx = 0U; w_idx < desc->width; ++w_idx) { pix_ptr = (const uint32_t *)read_buf + ((h_idx * desc->pitch) + w_idx); pixel = (*pix_ptr & 0xF80000) >> 8; pixel |= (*pix_ptr & 0x00FC00) >> 5; pixel |= (*pix_ptr & 0x0000F8) >> 3; *buf16 = pixel; buf16 += 1; } } } static void sdl_display_read_mono(const uint8_t *read_buf, const struct display_buffer_descriptor *desc, void *buf, const bool one_is_black) { uint32_t w_idx; uint32_t h_idx; uint32_t tile_idx; uint8_t tile; const uint32_t *pix_ptr; uint8_t *buf8; __ASSERT((desc->pitch * desc->height) <= (desc->buf_size * 8U), "Read buffer is too small"); __ASSERT((desc->height % 8U) == 0U, "Read buffer height not aligned per 8 pixels"); for (tile_idx = 0U; tile_idx < (desc->height / 8U); ++tile_idx) { buf8 = (void *)(((uint8_t *)buf) + desc->pitch * tile_idx); for (w_idx = 0U; w_idx < desc->width; ++w_idx) { tile = 0; for (h_idx = 0U; h_idx < 8; ++h_idx) { pix_ptr = (const uint32_t *)read_buf + ((tile_idx * 8 + h_idx) * desc->pitch + w_idx); if ((*pix_ptr)) { tile |= mono_pixel_order(h_idx); } } *buf8 = one_is_black ? ~tile : tile; buf8 += 1; } } } static int sdl_display_read(const struct device *dev, const uint16_t x, const uint16_t y, const struct display_buffer_descriptor *desc, void *buf) { struct sdl_display_data *disp_data = dev->data; int err; LOG_DBG("Reading %dx%d (w,h) bitmap @ %dx%d (x,y)", desc->width, desc->height, x, y); __ASSERT(desc->width <= desc->pitch, "Pitch is smaller than width"); memset(disp_data->read_buf, 0, desc->pitch * desc->height * 4); err = sdl_display_read_bottom(desc->height, desc->width, x, y, disp_data->renderer, disp_data->read_buf, desc->pitch, disp_data->mutex, disp_data->texture, disp_data->read_texture); if (err) { return err; } if (disp_data->current_pixel_format == PIXEL_FORMAT_ARGB_8888) { sdl_display_read_argb8888(disp_data->read_buf, desc, buf); } else if (disp_data->current_pixel_format == PIXEL_FORMAT_RGB_888) { sdl_display_read_rgb888(disp_data->read_buf, desc, buf); } else if (disp_data->current_pixel_format == PIXEL_FORMAT_MONO10) { sdl_display_read_mono(disp_data->read_buf, desc, buf, true); } else if (disp_data->current_pixel_format == PIXEL_FORMAT_MONO01) { sdl_display_read_mono(disp_data->read_buf, desc, buf, false); } else if (disp_data->current_pixel_format == PIXEL_FORMAT_RGB_565) { sdl_display_read_rgb565(disp_data->read_buf, desc, buf); } else if (disp_data->current_pixel_format == PIXEL_FORMAT_BGR_565) { sdl_display_read_bgr565(disp_data->read_buf, desc, buf); } return 0; } static int sdl_display_blanking_off(const struct device *dev) { struct sdl_display_data *disp_data = dev->data; LOG_DBG("Turning display blacking off"); disp_data->display_on = true; sdl_display_blanking_off_bottom(disp_data->renderer, disp_data->texture, disp_data->background_texture); return 0; } static int sdl_display_blanking_on(const struct device *dev) { struct sdl_display_data *disp_data = dev->data; LOG_DBG("Turning display blanking on"); disp_data->display_on = false; sdl_display_blanking_on_bottom(disp_data->renderer); return 0; } static void sdl_display_get_capabilities( const struct device *dev, struct display_capabilities *capabilities) { const struct sdl_display_config *config = dev->config; struct sdl_display_data *disp_data = dev->data; memset(capabilities, 0, sizeof(struct display_capabilities)); capabilities->x_resolution = config->width; capabilities->y_resolution = config->height; capabilities->supported_pixel_formats = PIXEL_FORMAT_ARGB_8888 | PIXEL_FORMAT_RGB_888 | PIXEL_FORMAT_MONO01 | PIXEL_FORMAT_MONO10 | PIXEL_FORMAT_RGB_565 | PIXEL_FORMAT_BGR_565; capabilities->current_pixel_format = disp_data->current_pixel_format; capabilities->screen_info = SCREEN_INFO_MONO_VTILED | (IS_ENABLED(CONFIG_SDL_DISPLAY_MONO_MSB_FIRST) ? SCREEN_INFO_MONO_MSB_FIRST : 0); } static int sdl_display_set_pixel_format(const struct device *dev, const enum display_pixel_format pixel_format) { struct sdl_display_data *disp_data = dev->data; switch (pixel_format) { case PIXEL_FORMAT_ARGB_8888: case PIXEL_FORMAT_RGB_888: case PIXEL_FORMAT_MONO01: case PIXEL_FORMAT_MONO10: case PIXEL_FORMAT_RGB_565: case PIXEL_FORMAT_BGR_565: disp_data->current_pixel_format = pixel_format; return 0; default: LOG_ERR("Pixel format not supported"); return -ENOTSUP; } } static void sdl_display_cleanup(struct sdl_display_data *disp_data) { sdl_display_cleanup_bottom(&disp_data->window, &disp_data->renderer, &disp_data->mutex, &disp_data->texture, &disp_data->read_texture, &disp_data->background_texture); } static DEVICE_API(display, sdl_display_api) = { .blanking_on = sdl_display_blanking_on, .blanking_off = sdl_display_blanking_off, .write = sdl_display_write, .read = sdl_display_read, .get_capabilities = sdl_display_get_capabilities, .set_pixel_format = sdl_display_set_pixel_format, }; #define DISPLAY_SDL_DEFINE(n) \ static const struct sdl_display_config sdl_config_##n = { \ .height = DT_INST_PROP(n, height), \ .width = DT_INST_PROP(n, width), \ }; \ \ static uint8_t sdl_buf_##n[4 * DT_INST_PROP(n, height) \ * DT_INST_PROP(n, width)]; \ static uint8_t sdl_read_buf_##n[4 * DT_INST_PROP(n, height) \ * DT_INST_PROP(n, width)]; \ static struct sdl_display_data sdl_data_##n = { \ .buf = sdl_buf_##n, \ .read_buf = sdl_read_buf_##n, \ }; \ \ DEVICE_DT_INST_DEFINE(n, &sdl_display_init, NULL, \ &sdl_data_##n, \ &sdl_config_##n, \ POST_KERNEL, \ CONFIG_DISPLAY_INIT_PRIORITY, \ &sdl_display_api); \ \ static void sdl_display_cleanup_##n(void) \ { \ sdl_display_cleanup(&sdl_data_##n); \ } \ \ NATIVE_TASK(sdl_display_cleanup_##n, ON_EXIT, 1); DT_INST_FOREACH_STATUS_OKAY(DISPLAY_SDL_DEFINE) static void display_sdl_options(void) { static struct args_struct_t sdl_display_options[] = { { .option = "display_zoom_pct", .name = "pct", .type = 'u', .dest = (void *)&sdl_display_zoom_pct, .descript = "Display zoom percentage (100 == 1:1 scale), " "by default " STRINGIFY(CONFIG_SDL_DISPLAY_ZOOM_PCT) " = CONFIG_SDL_DISPLAY_ZOOM_PCT" }, ARG_TABLE_ENDMARKER }; native_add_command_line_opts(sdl_display_options); } NATIVE_TASK(display_sdl_options, PRE_BOOT_1, 1);