/* * SPDX-FileCopyrightText: 2023-2024 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #include "freertos/FreeRTOS.h" #include "freertos/task.h" #include "freertos/semphr.h" #include "soc/soc_caps.h" #include "esp_check.h" #include "esp_lcd_panel_interface.h" #include "esp_lcd_mipi_dsi.h" #include "esp_clk_tree.h" #include "esp_cache.h" #include "mipi_dsi_priv.h" #include "esp_async_fbcpy.h" #include "esp_private/dw_gdma.h" #include "hal/cache_hal.h" #include "hal/cache_ll.h" static const char *TAG = "lcd.dsi.dpi"; typedef struct esp_lcd_dpi_panel_t esp_lcd_dpi_panel_t; static esp_err_t dpi_panel_del(esp_lcd_panel_t *panel); static esp_err_t dpi_panel_init(esp_lcd_panel_t *panel); static esp_err_t dpi_panel_draw_bitmap(esp_lcd_panel_t *panel, int x_start, int y_start, int x_end, int y_end, const void *color_data); struct esp_lcd_dpi_panel_t { esp_lcd_panel_t base; // Base class of generic lcd panel esp_lcd_dsi_bus_handle_t bus; // DSI bus handle uint8_t virtual_channel; // Virtual channel ID, index from 0 uint8_t cur_fb_index; // Current frame buffer index uint8_t num_fbs; // Number of frame buffers uint8_t *fbs[DPI_PANEL_MAX_FB_NUM]; // Frame buffers uint32_t h_pixels; // Horizontal pixels uint32_t v_pixels; // Vertical pixels size_t frame_buffer_size; // Frame buffer size size_t bytes_per_pixel; // Bytes per pixel lcd_color_rgb_pixel_format_t pixel_format; // RGB Pixel format dw_gdma_channel_handle_t dma_chan; // DMA channel dw_gdma_link_list_handle_t link_lists[DPI_PANEL_MAX_FB_NUM]; // DMA link list esp_async_fbcpy_handle_t fbcpy_handle; // Use DMA2D to do frame buffer copy SemaphoreHandle_t draw_sem; // A semaphore used to synchronize the draw operations when DMA2D is used esp_lcd_dpi_panel_color_trans_done_cb_t on_color_trans_done; // Callback invoked when color data transfer has finished void *user_ctx; // User context for the callback }; IRAM_ATTR static bool async_fbcpy_done_cb(esp_async_fbcpy_handle_t mcp, esp_async_fbcpy_event_data_t *event, void *cb_args) { bool need_yield = false; esp_lcd_dpi_panel_t *dpi_panel = (esp_lcd_dpi_panel_t *)cb_args; // release the draw semaphore first BaseType_t task_woken = pdFALSE; xSemaphoreGiveFromISR(dpi_panel->draw_sem, &task_woken); if (task_woken == pdTRUE) { need_yield = true; } if (dpi_panel->on_color_trans_done) { if (dpi_panel->on_color_trans_done(&dpi_panel->base, NULL, dpi_panel->user_ctx)) { need_yield = true; } } return need_yield; } IRAM_ATTR static bool dma_list_invalid_block_cb(dw_gdma_channel_handle_t chan, const dw_gdma_break_event_data_t *event_data, void *user_data) { dw_gdma_lli_handle_t lli = event_data->invalid_lli; dw_gdma_block_markers_t markers = { .is_valid = true, // mark the block as valid so that the DMA can continue the transfer }; dw_gdma_lli_set_block_markers(lli, markers); // after the item is marked as valid again, tell the DMA to continue the transfer dw_gdma_channel_continue(chan); return false; } // Please note, errors happened in this function is just propagated to the caller // dpi_panel_del() is actually doing the error handling static esp_err_t dpi_panel_create_dma_link(esp_lcd_dpi_panel_t *dpi_panel) { dw_gdma_channel_handle_t dma_chan = NULL; dw_gdma_link_list_handle_t link_list = NULL; // sending image stream from memory to the DSI bridge dw_gdma_channel_alloc_config_t dma_alloc_config = { .src = { .block_transfer_type = DW_GDMA_BLOCK_TRANSFER_LIST, .role = DW_GDMA_ROLE_MEM, .handshake_type = DW_GDMA_HANDSHAKE_HW, .num_outstanding_requests = 5, }, .dst = { .block_transfer_type = DW_GDMA_BLOCK_TRANSFER_LIST, .role = DW_GDMA_ROLE_PERIPH_DSI, .handshake_type = DW_GDMA_HANDSHAKE_HW, .num_outstanding_requests = 2, }, .flow_controller = DW_GDMA_FLOW_CTRL_DST, // the DSI bridge as the DMA flow controller .chan_priority = 1, }; ESP_RETURN_ON_ERROR(dw_gdma_new_channel(&dma_alloc_config, &dma_chan), TAG, "create DMA channel failed"); dpi_panel->dma_chan = dma_chan; // create DMA link lists dw_gdma_link_list_config_t link_list_config = { .num_items = 1, // NOTE: we assume one DMA link item can carry the whole image .link_type = DW_GDMA_LINKED_LIST_TYPE_CIRCULAR, }; for (int i = 0; i < dpi_panel->num_fbs; i++) { ESP_RETURN_ON_ERROR(dw_gdma_new_link_list(&link_list_config, &link_list), TAG, "create DMA link list failed"); dpi_panel->link_lists[i] = link_list; } // register DMA ISR callbacks dw_gdma_event_callbacks_t dsi_dma_cbs = { .on_invalid_block = dma_list_invalid_block_cb, }; ESP_RETURN_ON_ERROR(dw_gdma_channel_register_event_callbacks(dma_chan, &dsi_dma_cbs, NULL), TAG, "register DMA callbacks failed"); return ESP_OK; } esp_err_t esp_lcd_new_panel_dpi(esp_lcd_dsi_bus_handle_t bus, const esp_lcd_dpi_panel_config_t *panel_config, esp_lcd_panel_handle_t *ret_panel) { esp_err_t ret = ESP_OK; esp_lcd_dpi_panel_t *dpi_panel = NULL; esp_async_fbcpy_handle_t fbcpy_ctx = NULL; ESP_RETURN_ON_FALSE(bus && panel_config && ret_panel, ESP_ERR_INVALID_ARG, TAG, "invalid argument"); ESP_RETURN_ON_FALSE(panel_config->virtual_channel < 4, ESP_ERR_INVALID_ARG, TAG, "invalid virtual channel %d", panel_config->virtual_channel); ESP_RETURN_ON_FALSE(panel_config->dpi_clock_freq_mhz, ESP_ERR_INVALID_ARG, TAG, "invalid DPI clock frequency %"PRIu32, panel_config->dpi_clock_freq_mhz); #if !SOC_DMA2D_SUPPORTED ESP_RETURN_ON_FALSE(!panel_config->flags.use_dma2d, ESP_ERR_NOT_SUPPORTED, TAG, "DMA2D is not supported"); #endif // !SOC_DMA2D_SUPPORTED size_t num_fbs = panel_config->num_fbs; // if the user doesn't specify the number of frame buffers, then fallback to use one frame buffer if (num_fbs == 0) { num_fbs = 1; } ESP_RETURN_ON_FALSE(num_fbs <= DPI_PANEL_MAX_FB_NUM, ESP_ERR_INVALID_ARG, TAG, "num_fbs not within [1,%d]", DPI_PANEL_MAX_FB_NUM); int bus_id = bus->bus_id; mipi_dsi_hal_context_t *hal = &bus->hal; dpi_panel = heap_caps_calloc(1, sizeof(esp_lcd_dpi_panel_t), DSI_MEM_ALLOC_CAPS); ESP_GOTO_ON_FALSE(dpi_panel, ESP_ERR_NO_MEM, err, TAG, "no memory for DPI panel"); dpi_panel->virtual_channel = panel_config->virtual_channel; dpi_panel->pixel_format = panel_config->pixel_format; dpi_panel->bus = bus; dpi_panel->num_fbs = num_fbs; // allocate frame buffer from PSRAM size_t bytes_per_pixel = 0; switch (panel_config->pixel_format) { case LCD_COLOR_PIXEL_FORMAT_RGB565: bytes_per_pixel = 2; break; case LCD_COLOR_PIXEL_FORMAT_RGB666: bytes_per_pixel = 3; break; case LCD_COLOR_PIXEL_FORMAT_RGB888: bytes_per_pixel = 3; break; } uint32_t cache_line_size = cache_hal_get_cache_line_size(CACHE_LL_LEVEL_EXT_MEM, CACHE_TYPE_DATA); // DMA doesn't have requirement on the buffer alignment, but the cache does uint32_t alignment = cache_line_size; size_t frame_buffer_size = panel_config->video_timing.h_size * panel_config->video_timing.v_size * bytes_per_pixel; uint8_t *frame_buffer = NULL; for (int i = 0; i < num_fbs; i++) { frame_buffer = heap_caps_aligned_calloc(alignment, 1, frame_buffer_size, MALLOC_CAP_SPIRAM | MALLOC_CAP_8BIT); ESP_GOTO_ON_FALSE(frame_buffer, ESP_ERR_NO_MEM, err, TAG, "no memory for frame buffer"); dpi_panel->fbs[i] = frame_buffer; ESP_LOGD(TAG, "fb[%d] @%p", i, frame_buffer); // preset the frame buffer with black color // the frame buffer address alignment is ensured by `heap_caps_aligned_calloc` // while the value of the frame_buffer_size may not be aligned to the cache line size // but that's not a problem because the `heap_caps_aligned_calloc` internally allocated a buffer whose size is aligned up to the cache line size ESP_GOTO_ON_ERROR(esp_cache_msync(frame_buffer, frame_buffer_size, ESP_CACHE_MSYNC_FLAG_DIR_C2M | ESP_CACHE_MSYNC_FLAG_UNALIGNED), err, TAG, "cache write back failed"); } dpi_panel->frame_buffer_size = frame_buffer_size; dpi_panel->bytes_per_pixel = bytes_per_pixel; dpi_panel->h_pixels = panel_config->video_timing.h_size; dpi_panel->v_pixels = panel_config->video_timing.v_size; #if SOC_DMA2D_SUPPORTED if (panel_config->flags.use_dma2d) { esp_async_fbcpy_config_t fbcpy_config = {}; ESP_GOTO_ON_ERROR(esp_async_fbcpy_install(&fbcpy_config, &fbcpy_ctx), err, TAG, "install async memcpy 2d failed"); dpi_panel->fbcpy_handle = fbcpy_ctx; dpi_panel->draw_sem = xSemaphoreCreateBinaryWithCaps(DSI_MEM_ALLOC_CAPS); ESP_GOTO_ON_FALSE(dpi_panel->draw_sem, ESP_ERR_NO_MEM, err, TAG, "no memory for draw semaphore"); xSemaphoreGive(dpi_panel->draw_sem); } #endif // SOC_DMA2D_SUPPORTED // if the clock source is not assigned, fallback to the default clock source mipi_dsi_dpi_clock_source_t dpi_clk_src = panel_config->dpi_clk_src; if (dpi_clk_src == 0) { dpi_clk_src = MIPI_DSI_DPI_CLK_SRC_DEFAULT; } // get the clock source frequency uint32_t dpi_clk_src_freq_hz = 0; ESP_GOTO_ON_ERROR(esp_clk_tree_src_get_freq_hz(dpi_clk_src, ESP_CLK_TREE_SRC_FREQ_PRECISION_CACHED, &dpi_clk_src_freq_hz), err, TAG, "get clock source frequency failed"); // divide the source clock to get the final DPI clock uint32_t dpi_div = mipi_dsi_hal_host_dpi_calculate_divider(hal, dpi_clk_src_freq_hz / 1000 / 1000, panel_config->dpi_clock_freq_mhz); // set the clock source, set the divider, and enable the dpi clock DSI_CLOCK_SRC_ATOMIC() { mipi_dsi_ll_set_dpi_clock_source(bus_id, dpi_clk_src); mipi_dsi_ll_set_dpi_clock_div(bus_id, dpi_div); mipi_dsi_ll_enable_dpi_clock(bus_id, true); } // create DMA resources ESP_GOTO_ON_ERROR(dpi_panel_create_dma_link(dpi_panel), err, TAG, "initialize DMA link failed"); mipi_dsi_host_ll_dpi_set_vcid(hal->host, panel_config->virtual_channel); mipi_dsi_hal_host_dpi_set_color_coding(hal, panel_config->pixel_format, 0); // these signals define how the DPI interface interacts with the controller mipi_dsi_host_ll_dpi_set_timing_polarity(hal->host, false, false, false, false, false); // configure the low-power transitions: defines the video periods which are permitted to goto low-power if the time available to do so mipi_dsi_host_ll_dpi_enable_lp_horizontal_timing(hal->host, true, true); mipi_dsi_host_ll_dpi_enable_lp_vertical_timing(hal->host, true, true, true, true); // after sending a frame, the DSI device should return an ack mipi_dsi_host_ll_dpi_enable_frame_ack(hal->host, true); // commands are transmitted in low-power mode mipi_dsi_host_ll_dpi_enable_lp_command(hal->host, true); // using the burst mode because it's energy-efficient mipi_dsi_host_ll_dpi_set_video_burst_type(hal->host, MIPI_DSI_LL_VIDEO_BURST_WITH_SYNC_PULSES); // configure the size of the active lin period, measured in pixels mipi_dsi_host_ll_dpi_set_video_packet_pixel_num(hal->host, panel_config->video_timing.h_size); // disable multi-packets mipi_dsi_host_ll_dpi_set_trunks_num(hal->host, 0); // disable "null packets" mipi_dsi_host_ll_dpi_set_null_packet_size(hal->host, 0); // set horizontal and vertical timing configuration mipi_dsi_hal_host_dpi_set_horizontal_timing(hal, panel_config->video_timing.hsync_pulse_width, panel_config->video_timing.hsync_back_porch, panel_config->video_timing.h_size, panel_config->video_timing.hsync_front_porch); mipi_dsi_hal_host_dpi_set_vertical_timing(hal, panel_config->video_timing.vsync_pulse_width, panel_config->video_timing.vsync_back_porch, panel_config->video_timing.v_size, panel_config->video_timing.vsync_front_porch); mipi_dsi_brg_ll_set_num_pixel_bits(hal->bridge, panel_config->video_timing.h_size * panel_config->video_timing.v_size * bytes_per_pixel * 8); mipi_dsi_brg_ll_set_underrun_discard_count(hal->bridge, panel_config->video_timing.h_size); // let the DSI bridge as the DMA flow controller mipi_dsi_brg_ll_set_flow_controller(hal->bridge, MIPI_DSI_LL_FLOW_CONTROLLER_BRIDGE); mipi_dsi_brg_ll_set_burst_len(hal->bridge, 256); mipi_dsi_brg_ll_set_empty_threshold(hal->bridge, 1024 - 256); // enable DSI bridge mipi_dsi_brg_ll_enable(hal->bridge, true); mipi_dsi_brg_ll_update_dpi_config(hal->bridge); dpi_panel->base.del = dpi_panel_del; dpi_panel->base.init = dpi_panel_init; dpi_panel->base.draw_bitmap = dpi_panel_draw_bitmap; *ret_panel = &dpi_panel->base; ESP_LOGD(TAG, "dpi panel created @%p", dpi_panel); return ESP_OK; err: if (dpi_panel) { dpi_panel_del(&dpi_panel->base); } return ret; } static esp_err_t dpi_panel_del(esp_lcd_panel_t *panel) { esp_lcd_dpi_panel_t *dpi_panel = __containerof(panel, esp_lcd_dpi_panel_t, base); esp_lcd_dsi_bus_handle_t bus = dpi_panel->bus; int bus_id = bus->bus_id; mipi_dsi_hal_context_t *hal = &bus->hal; // disable the DPI clock DSI_CLOCK_SRC_ATOMIC() { mipi_dsi_ll_enable_dpi_clock(bus_id, false); } // disable the DSI bridge mipi_dsi_brg_ll_enable(hal->bridge, false); // free memory if (dpi_panel->dma_chan) { dw_gdma_del_channel(dpi_panel->dma_chan); } for (int i = 0; i < DPI_PANEL_MAX_FB_NUM; i++) { if (dpi_panel->fbs[i]) { free(dpi_panel->fbs[i]); } } for (int i = 0; i < DPI_PANEL_MAX_FB_NUM; i++) { if (dpi_panel->link_lists[i]) { dw_gdma_del_link_list(dpi_panel->link_lists[i]); } } if (dpi_panel->fbcpy_handle) { esp_async_fbcpy_uninstall(dpi_panel->fbcpy_handle); } if (dpi_panel->draw_sem) { vSemaphoreDelete(dpi_panel->draw_sem); } free(dpi_panel); return ESP_OK; } esp_err_t esp_lcd_dpi_panel_get_frame_buffer(esp_lcd_panel_handle_t panel, uint32_t fb_num, void **fb0, ...) { ESP_RETURN_ON_FALSE(panel, ESP_ERR_INVALID_ARG, TAG, "invalid argument"); esp_lcd_dpi_panel_t *dpi_panel = __containerof(panel, esp_lcd_dpi_panel_t, base); ESP_RETURN_ON_FALSE(fb_num && fb_num <= dpi_panel->num_fbs, ESP_ERR_INVALID_ARG, TAG, "invalid frame buffer number"); void **fb_itor = fb0; va_list args; va_start(args, fb0); for (uint32_t i = 0; i < fb_num; i++) { if (fb_itor) { *fb_itor = dpi_panel->fbs[i]; fb_itor = va_arg(args, void **); } } va_end(args); return ESP_OK; } static esp_err_t dpi_panel_init(esp_lcd_panel_t *panel) { esp_lcd_dpi_panel_t *dpi_panel = __containerof(panel, esp_lcd_dpi_panel_t, base); esp_lcd_dsi_bus_handle_t bus = dpi_panel->bus; mipi_dsi_hal_context_t *hal = &bus->hal; dw_gdma_channel_handle_t dma_chan = dpi_panel->dma_chan; dw_gdma_link_list_handle_t link_list = NULL; dw_gdma_block_transfer_config_t dma_transfer_config = { .src = { .burst_mode = DW_GDMA_BURST_MODE_INCREMENT, .burst_items = DW_GDMA_BURST_ITEMS_512, .burst_len = 16, .width = DW_GDMA_TRANS_WIDTH_64, }, .dst = { .addr = MIPI_DSI_BRG_MEM_BASE, .burst_mode = DW_GDMA_BURST_MODE_FIXED, .burst_items = DW_GDMA_BURST_ITEMS_256, .burst_len = 16, .width = DW_GDMA_TRANS_WIDTH_64, }, .size = dpi_panel->frame_buffer_size * 8 / 64, }; for (int i = 0; i < dpi_panel->num_fbs; i++) { link_list = dpi_panel->link_lists[i]; dma_transfer_config.src.addr = (uint32_t)(dpi_panel->fbs[i]); dw_gdma_lli_config_transfer(dw_gdma_link_list_get_item(link_list, 0), &dma_transfer_config); dw_gdma_block_markers_t markers = { .is_valid = true, }; dw_gdma_lli_set_block_markers(dw_gdma_link_list_get_item(link_list, 0), markers); } // by default, we use the fb0 as the first working frame buffer dpi_panel->cur_fb_index = 0; link_list = dpi_panel->link_lists[0]; dw_gdma_channel_use_link_list(dma_chan, link_list); // enable the DMA channel dw_gdma_channel_enable_ctrl(dma_chan, true); // enable the video mode mipi_dsi_host_ll_enable_video_mode(hal->host, true); // switch the clock lane to high speed mode mipi_dsi_host_ll_set_clock_lane_state(hal->host, MIPI_DSI_LL_CLOCK_LANE_STATE_AUTO); // enable the DPI output of the DSI bridge mipi_dsi_brg_ll_enable_dpi_output(hal->bridge, true); mipi_dsi_brg_ll_update_dpi_config(hal->bridge); return ESP_OK; } static esp_err_t dpi_panel_draw_bitmap(esp_lcd_panel_t *panel, int x_start, int y_start, int x_end, int y_end, const void *color_data) { esp_lcd_dpi_panel_t *dpi_panel = __containerof(panel, esp_lcd_dpi_panel_t, base); uint8_t cur_fb_index = dpi_panel->cur_fb_index; uint8_t *frame_buffer = dpi_panel->fbs[cur_fb_index]; uint8_t *draw_buffer = (uint8_t *)color_data; size_t frame_buffer_size = dpi_panel->frame_buffer_size; size_t bytes_per_pixel = dpi_panel->bytes_per_pixel; bool do_copy = false; uint8_t draw_buf_fb_index = 0; // check if the user draw buffer resides in any frame buffer's memory range // if so, we don't need to copy the data, just do cache write back if (draw_buffer >= dpi_panel->fbs[0] && draw_buffer < dpi_panel->fbs[0] + frame_buffer_size) { draw_buf_fb_index = 0; } else if (draw_buffer >= dpi_panel->fbs[1] && draw_buffer < dpi_panel->fbs[1] + frame_buffer_size) { draw_buf_fb_index = 1; } else if (draw_buffer >= dpi_panel->fbs[2] && draw_buffer < dpi_panel->fbs[2] + frame_buffer_size) { draw_buf_fb_index = 2; } else { do_copy = true; } if (!do_copy) { // no copy, just do cache memory write back ESP_LOGD(TAG, "draw buffer is in frame buffer memory range, do cache write back only"); // only write back the LCD lines that updated by the draw buffer uint8_t *cache_sync_start = dpi_panel->fbs[draw_buf_fb_index] + (y_start * dpi_panel->h_pixels) * bytes_per_pixel; size_t cache_sync_size = (y_end - y_start) * dpi_panel->h_pixels * bytes_per_pixel; // the buffer to be flushed is still within the frame buffer, so even an unaligned address is OK esp_cache_msync(cache_sync_start, cache_sync_size, ESP_CACHE_MSYNC_FLAG_DIR_C2M | ESP_CACHE_MSYNC_FLAG_UNALIGNED); // update the link connections for all DMA link lists, make draw_buf_fb_index take effect automatically in the next DMA loop for (int i = 0; i < dpi_panel->num_fbs; i++) { dw_gdma_lli_set_next(dw_gdma_link_list_get_item(dpi_panel->link_lists[i], 0), dw_gdma_link_list_get_item(dpi_panel->link_lists[draw_buf_fb_index], 0)); } dpi_panel->cur_fb_index = draw_buf_fb_index; // invoke the trans done callback if (dpi_panel->on_color_trans_done) { dpi_panel->on_color_trans_done(&dpi_panel->base, NULL, dpi_panel->user_ctx); } } else if (!dpi_panel->fbcpy_handle) { // copy by CPU ESP_LOGD(TAG, "copy draw buffer by CPU"); const uint8_t *from = draw_buffer; uint8_t *to = frame_buffer + (y_start * dpi_panel->h_pixels + x_start) * bytes_per_pixel; uint32_t copy_bytes_per_line = (x_end - x_start) * bytes_per_pixel; uint32_t bytes_per_line = bytes_per_pixel * dpi_panel->h_pixels; // please note, we assume the user provided draw_buffer is compact, // but the destination is a sub-window of the frame buffer, so we need to skip the stride for (int y = y_start; y < y_end; y++) { memcpy(to, from, copy_bytes_per_line); to += bytes_per_line; from += copy_bytes_per_line; } uint8_t *cache_sync_start = frame_buffer + (y_start * dpi_panel->h_pixels) * bytes_per_pixel; size_t cache_sync_size = (y_end - y_start) * dpi_panel->h_pixels * bytes_per_pixel; // the buffer to be flushed is still within the frame buffer, so even an unaligned address is OK esp_cache_msync(cache_sync_start, cache_sync_size, ESP_CACHE_MSYNC_FLAG_DIR_C2M | ESP_CACHE_MSYNC_FLAG_UNALIGNED); // invoke the trans done callback if (dpi_panel->on_color_trans_done) { dpi_panel->on_color_trans_done(&dpi_panel->base, NULL, dpi_panel->user_ctx); } } else { // copy by DMA2D ESP_LOGD(TAG, "copy draw buffer by DMA2D"); // ensure the previous draw operation is finished ESP_RETURN_ON_FALSE(xSemaphoreTake(dpi_panel->draw_sem, 0) == pdTRUE, ESP_ERR_INVALID_STATE, TAG, "previous draw operation is not finished"); // write back the user's draw buffer, so that the DMA can see the correct data // Note, the user draw buffer should be 1D array, and contiguous in memory, no stride size_t color_data_size = (x_end - x_start) * (y_end - y_start) * bytes_per_pixel; esp_cache_msync(draw_buffer, color_data_size, ESP_CACHE_MSYNC_FLAG_DIR_C2M | ESP_CACHE_MSYNC_FLAG_UNALIGNED); esp_async_fbcpy_trans_desc_t fbcpy_trans_config = { .src_buffer = draw_buffer, .dst_buffer = (void *)frame_buffer, .src_buffer_size_x = x_end - x_start, .src_buffer_size_y = y_end - y_start, .dst_buffer_size_x = dpi_panel->h_pixels, .dst_buffer_size_y = dpi_panel->v_pixels, .src_offset_x = 0, .src_offset_y = 0, .dst_offset_x = x_start, .dst_offset_y = y_start, .copy_size_x = x_end - x_start, .copy_size_y = y_end - y_start, .pixel_format_unique_id = { .color_space = COLOR_SPACE_RGB, .pixel_format = dpi_panel->pixel_format, }, }; ESP_RETURN_ON_ERROR(esp_async_fbcpy(dpi_panel->fbcpy_handle, &fbcpy_trans_config, async_fbcpy_done_cb, dpi_panel), TAG, "async memcpy failed"); } return ESP_OK; } esp_err_t esp_lcd_dpi_panel_set_pattern(esp_lcd_panel_handle_t panel, mipi_dsi_pattern_type_t pattern) { ESP_RETURN_ON_FALSE(panel, ESP_ERR_INVALID_ARG, TAG, "invalid argument"); esp_lcd_dpi_panel_t *dpi_panel = __containerof(panel, esp_lcd_dpi_panel_t, base); esp_lcd_dsi_bus_handle_t bus = dpi_panel->bus; mipi_dsi_hal_context_t *hal = &bus->hal; if (pattern != MIPI_DSI_PATTERN_NONE) { // stop the DSI bridge from generating the DPI stream mipi_dsi_brg_ll_enable_dpi_output(hal->bridge, false); mipi_dsi_brg_ll_update_dpi_config(hal->bridge); } // set the pattern type and enable the pattern generator for the DSI host controller mipi_dsi_host_ll_dpi_set_pattern_type(hal->host, pattern); if (pattern == MIPI_DSI_PATTERN_NONE) { // re-enable the DSI bridge to generate the DPI stream mipi_dsi_brg_ll_enable_dpi_output(hal->bridge, true); mipi_dsi_brg_ll_update_dpi_config(hal->bridge); } return ESP_OK; } esp_err_t esp_lcd_dpi_panel_register_event_callbacks(esp_lcd_panel_handle_t panel, const esp_lcd_dpi_panel_event_callbacks_t *cbs, void *user_ctx) { ESP_RETURN_ON_FALSE(panel && cbs, ESP_ERR_INVALID_ARG, TAG, "invalid argument"); esp_lcd_dpi_panel_t *dpi_panel = __containerof(panel, esp_lcd_dpi_panel_t, base); dpi_panel->on_color_trans_done = cbs->on_color_trans_done; dpi_panel->user_ctx = user_ctx; return ESP_OK; }