mirror of
https://github.com/espressif/esp-idf.git
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379 lines
17 KiB
C
379 lines
17 KiB
C
/*
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* SPDX-FileCopyrightText: 2021-2022 Espressif Systems (Shanghai) CO LTD
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#include <stdlib.h>
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#include <string.h>
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#include <sys/cdefs.h>
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#include "sdkconfig.h"
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#if CONFIG_LCD_ENABLE_DEBUG_LOG
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// The local log level must be defined before including esp_log.h
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// Set the maximum log level for this source file
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#define LOG_LOCAL_LEVEL ESP_LOG_DEBUG
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#endif
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#include "esp_lcd_panel_io_interface.h"
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#include "esp_lcd_panel_io.h"
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#include "hal/spi_ll.h"
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#include "driver/spi_master.h"
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#include "driver/gpio.h"
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#include "esp_log.h"
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#include "esp_check.h"
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#include "esp_lcd_common.h"
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#define LCD_SPI_MAX_DATA_SIZE (SPI_LL_DATA_MAX_BIT_LEN / 8)
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static const char *TAG = "lcd_panel.io.spi";
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static esp_err_t panel_io_spi_rx_param(esp_lcd_panel_io_t *io, int lcd_cmd, void *param, size_t param_size);
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static esp_err_t panel_io_spi_tx_param(esp_lcd_panel_io_t *io, int lcd_cmd, const void *param, size_t param_size);
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static esp_err_t panel_io_spi_tx_color(esp_lcd_panel_io_t *io, int lcd_cmd, const void *color, size_t color_size);
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static esp_err_t panel_io_spi_del(esp_lcd_panel_io_t *io);
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static void lcd_spi_pre_trans_cb(spi_transaction_t *trans);
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static void lcd_spi_post_trans_color_cb(spi_transaction_t *trans);
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typedef struct {
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spi_transaction_t base;
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struct {
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unsigned int dc_gpio_level: 1;
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unsigned int en_trans_done_cb: 1;
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} flags;
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} lcd_spi_trans_descriptor_t;
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typedef struct {
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esp_lcd_panel_io_t base; // Base class of generic lcd panel io
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spi_device_handle_t spi_dev; // SPI device handle
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int dc_gpio_num; // D/C line GPIO number
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esp_lcd_panel_io_color_trans_done_cb_t on_color_trans_done; // User register's callback, invoked when color data trans done
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void *user_ctx; // User's private data, passed directly to callback on_color_trans_done
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size_t queue_size; // Size of transaction queue
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size_t num_trans_inflight; // Number of transactions that are undergoing (the descriptor not recycled yet)
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int lcd_cmd_bits; // Bit width of LCD command
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int lcd_param_bits; // Bit width of LCD parameter
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struct {
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unsigned int dc_data_level: 1; // Indicates the level of DC line when tranfering data
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unsigned int octal_mode: 1; // Indicates whether the transmitting is enabled with octal mode (8 data lines)
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} flags;
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lcd_spi_trans_descriptor_t trans_pool[]; // Transaction pool
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} esp_lcd_panel_io_spi_t;
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esp_err_t esp_lcd_new_panel_io_spi(esp_lcd_spi_bus_handle_t bus, const esp_lcd_panel_io_spi_config_t *io_config, esp_lcd_panel_io_handle_t *ret_io)
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{
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#if CONFIG_LCD_ENABLE_DEBUG_LOG
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esp_log_level_set(TAG, ESP_LOG_DEBUG);
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#endif
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esp_err_t ret = ESP_OK;
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esp_lcd_panel_io_spi_t *spi_panel_io = NULL;
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ESP_GOTO_ON_FALSE(bus && io_config && ret_io, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument");
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// at the moment, the hardware doesn't support 9-bit SPI LCD, but in the future, there will be such a feature
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// so for now, we will force the user to use the GPIO to control the LCD's D/C line.
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ESP_GOTO_ON_FALSE(io_config->dc_gpio_num >= 0, ESP_ERR_INVALID_ARG, err, TAG, "invalid DC mode");
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spi_panel_io = calloc(1, sizeof(esp_lcd_panel_io_spi_t) + sizeof(lcd_spi_trans_descriptor_t) * io_config->trans_queue_depth);
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ESP_GOTO_ON_FALSE(spi_panel_io, ESP_ERR_NO_MEM, err, TAG, "no mem for spi panel io");
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spi_device_interface_config_t devcfg = {
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.flags = SPI_DEVICE_HALFDUPLEX | (io_config->flags.lsb_first ? SPI_DEVICE_TXBIT_LSBFIRST : 0),
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.clock_speed_hz = io_config->pclk_hz,
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.mode = io_config->spi_mode,
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.spics_io_num = io_config->cs_gpio_num,
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.queue_size = io_config->trans_queue_depth,
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.pre_cb = lcd_spi_pre_trans_cb, // pre-transaction callback, mainly control DC gpio level
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.post_cb = io_config->on_color_trans_done ? lcd_spi_post_trans_color_cb : NULL, // post-transaction, where we invoke user registered "on_color_trans_done()"
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};
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ret = spi_bus_add_device((spi_host_device_t)bus, &devcfg, &spi_panel_io->spi_dev);
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ESP_GOTO_ON_ERROR(ret, err, TAG, "adding spi device to bus failed");
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// if the DC line is not encoded into any spi transaction phase or it's not controlled by SPI peripheral
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if (io_config->dc_gpio_num >= 0) {
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gpio_config_t io_conf = {
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.mode = GPIO_MODE_OUTPUT,
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.pin_bit_mask = 1ULL << io_config->dc_gpio_num,
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};
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ESP_GOTO_ON_ERROR(gpio_config(&io_conf), err, TAG, "configure GPIO for D/C line failed");
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}
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spi_panel_io->flags.dc_data_level = !io_config->flags.dc_low_on_data;
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spi_panel_io->flags.octal_mode = io_config->flags.octal_mode;
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spi_panel_io->on_color_trans_done = io_config->on_color_trans_done;
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spi_panel_io->user_ctx = io_config->user_ctx;
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spi_panel_io->lcd_cmd_bits = io_config->lcd_cmd_bits;
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spi_panel_io->lcd_param_bits = io_config->lcd_param_bits;
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spi_panel_io->dc_gpio_num = io_config->dc_gpio_num;
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spi_panel_io->queue_size = io_config->trans_queue_depth;
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spi_panel_io->base.rx_param = panel_io_spi_rx_param;
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spi_panel_io->base.tx_param = panel_io_spi_tx_param;
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spi_panel_io->base.tx_color = panel_io_spi_tx_color;
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spi_panel_io->base.del = panel_io_spi_del;
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*ret_io = &(spi_panel_io->base);
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ESP_LOGD(TAG, "new spi lcd panel io @%p", spi_panel_io);
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return ESP_OK;
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err:
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if (spi_panel_io) {
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if (io_config->dc_gpio_num >= 0) {
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gpio_reset_pin(io_config->dc_gpio_num);
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}
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free(spi_panel_io);
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}
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return ret;
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}
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static esp_err_t panel_io_spi_del(esp_lcd_panel_io_t *io)
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{
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esp_err_t ret = ESP_OK;
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spi_transaction_t *spi_trans = NULL;
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esp_lcd_panel_io_spi_t *spi_panel_io = __containerof(io, esp_lcd_panel_io_spi_t, base);
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// wait all pending transaction to finish
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size_t num_trans_inflight = spi_panel_io->num_trans_inflight;
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for (size_t i = 0; i < num_trans_inflight; i++) {
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ret = spi_device_get_trans_result(spi_panel_io->spi_dev, &spi_trans, portMAX_DELAY);
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ESP_GOTO_ON_ERROR(ret, err, TAG, "recycle spi transactions failed");
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spi_panel_io->num_trans_inflight--;
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}
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spi_bus_remove_device(spi_panel_io->spi_dev);
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if (spi_panel_io->dc_gpio_num >= 0) {
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gpio_reset_pin(spi_panel_io->dc_gpio_num);
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}
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ESP_LOGD(TAG, "del lcd panel io spi @%p", spi_panel_io);
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free(spi_panel_io);
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err:
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return ret;
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}
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static void spi_lcd_prepare_cmd_buffer(esp_lcd_panel_io_spi_t *panel_io, const void *cmd)
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{
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uint8_t *from = (uint8_t *)cmd;
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// LCD is big-endian, e.g. to send command 0x1234, byte 0x12 should appear on the bus first
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// However, the SPI peripheral will send 0x34 first, so we reversed the order below
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if (panel_io->lcd_cmd_bits > 8) {
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int start = 0;
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int end = panel_io->lcd_cmd_bits / 8 - 1;
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lcd_com_reverse_buffer_bytes(from, start, end);
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}
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}
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static void spi_lcd_prepare_param_buffer(esp_lcd_panel_io_spi_t *panel_io, const void *param, size_t param_size)
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{
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uint8_t *from = (uint8_t *)param;
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int param_width = panel_io->lcd_param_bits / 8;
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size_t param_num = param_size / param_width;
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// LCD is big-endian, e.g. to send command 0x1234, byte 0x12 should appear on the bus first
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// However, the SPI peripheral will send 0x34 first, so we reversed the order below
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if (panel_io->lcd_param_bits > 8) {
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for (size_t i = 0; i < param_num; i++) {
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int start = i * param_width;
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int end = start + param_width - 1;
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lcd_com_reverse_buffer_bytes(from, start, end);
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}
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}
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}
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static esp_err_t panel_io_spi_tx_param(esp_lcd_panel_io_t *io, int lcd_cmd, const void *param, size_t param_size)
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{
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esp_err_t ret = ESP_OK;
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spi_transaction_t *spi_trans = NULL;
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lcd_spi_trans_descriptor_t *lcd_trans = NULL;
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esp_lcd_panel_io_spi_t *spi_panel_io = __containerof(io, esp_lcd_panel_io_spi_t, base);
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bool send_cmd = (lcd_cmd >= 0);
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spi_device_acquire_bus(spi_panel_io->spi_dev, portMAX_DELAY);
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// before issue a polling transaction, need to wait queued transactions finished
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size_t num_trans_inflight = spi_panel_io->num_trans_inflight;
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for (size_t i = 0; i < num_trans_inflight; i++) {
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ret = spi_device_get_trans_result(spi_panel_io->spi_dev, &spi_trans, portMAX_DELAY);
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ESP_GOTO_ON_ERROR(ret, err, TAG, "recycle spi transactions failed");
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spi_panel_io->num_trans_inflight--;
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}
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lcd_trans = &spi_panel_io->trans_pool[0];
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memset(lcd_trans, 0, sizeof(lcd_spi_trans_descriptor_t));
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spi_lcd_prepare_cmd_buffer(spi_panel_io, &lcd_cmd);
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lcd_trans->base.user = spi_panel_io;
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lcd_trans->base.flags |= SPI_TRANS_CS_KEEP_ACTIVE;
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if (spi_panel_io->flags.octal_mode) {
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// use 8 lines for transmitting command, address and data
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lcd_trans->base.flags |= (SPI_TRANS_MULTILINE_CMD | SPI_TRANS_MULTILINE_ADDR | SPI_TRANS_MODE_OCT);
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}
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if (send_cmd) {
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lcd_trans->flags.dc_gpio_level = !spi_panel_io->flags.dc_data_level; // set D/C line to command mode
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lcd_trans->base.length = spi_panel_io->lcd_cmd_bits;
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lcd_trans->base.tx_buffer = &lcd_cmd;
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// command is short, using polling mode
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ret = spi_device_polling_transmit(spi_panel_io->spi_dev, &lcd_trans->base);
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ESP_GOTO_ON_ERROR(ret, err, TAG, "spi transmit (polling) command failed");
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}
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if (param && param_size) {
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spi_lcd_prepare_param_buffer(spi_panel_io, param, param_size);
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lcd_trans->flags.dc_gpio_level = spi_panel_io->flags.dc_data_level; // set D/C line to data mode
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lcd_trans->base.length = param_size * 8; // transaction length is in bits
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lcd_trans->base.tx_buffer = param;
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lcd_trans->base.flags &= ~SPI_TRANS_CS_KEEP_ACTIVE;
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// parameter is usually short, using polling mode
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ret = spi_device_polling_transmit(spi_panel_io->spi_dev, &lcd_trans->base);
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ESP_GOTO_ON_ERROR(ret, err, TAG, "spi transmit (polling) param failed");
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}
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err:
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spi_device_release_bus(spi_panel_io->spi_dev);
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return ret;
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}
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static esp_err_t panel_io_spi_rx_param(esp_lcd_panel_io_t *io, int lcd_cmd, void *param, size_t param_size)
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{
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esp_err_t ret = ESP_OK;
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spi_transaction_t *spi_trans = NULL;
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lcd_spi_trans_descriptor_t *lcd_trans = NULL;
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esp_lcd_panel_io_spi_t *spi_panel_io = __containerof(io, esp_lcd_panel_io_spi_t, base);
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bool send_cmd = (lcd_cmd >= 0);
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spi_device_acquire_bus(spi_panel_io->spi_dev, portMAX_DELAY);
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// before issue a polling transaction, need to wait queued transactions finished
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size_t num_trans_inflight = spi_panel_io->num_trans_inflight;
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for (size_t i = 0; i < num_trans_inflight; i++) {
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ret = spi_device_get_trans_result(spi_panel_io->spi_dev, &spi_trans, portMAX_DELAY);
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ESP_GOTO_ON_ERROR(ret, err, TAG, "recycle spi transactions failed");
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spi_panel_io->num_trans_inflight--;
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}
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lcd_trans = &spi_panel_io->trans_pool[0];
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memset(lcd_trans, 0, sizeof(lcd_spi_trans_descriptor_t));
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spi_lcd_prepare_cmd_buffer(spi_panel_io, &lcd_cmd);
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lcd_trans->base.user = spi_panel_io;
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lcd_trans->base.flags |= SPI_TRANS_CS_KEEP_ACTIVE;
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if (spi_panel_io->flags.octal_mode) {
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// use 8 lines for transmitting command, address and data
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lcd_trans->base.flags |= (SPI_TRANS_MULTILINE_CMD | SPI_TRANS_MULTILINE_ADDR | SPI_TRANS_MODE_OCT);
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}
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if (send_cmd) {
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lcd_trans->flags.dc_gpio_level = !spi_panel_io->flags.dc_data_level; // set D/C line to command mode
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lcd_trans->base.length = spi_panel_io->lcd_cmd_bits;
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lcd_trans->base.tx_buffer = &lcd_cmd;
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// command is short, using polling mode
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ret = spi_device_polling_transmit(spi_panel_io->spi_dev, &lcd_trans->base);
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ESP_GOTO_ON_ERROR(ret, err, TAG, "spi transmit (polling) command failed");
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}
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if (param && param_size) {
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lcd_trans->flags.dc_gpio_level = spi_panel_io->flags.dc_data_level; // set D/C line to data mode
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lcd_trans->base.length = 0;
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lcd_trans->base.tx_buffer = NULL;
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lcd_trans->base.rxlength = param_size * 8; // Read length in bits
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lcd_trans->base.rx_buffer = param;
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lcd_trans->base.flags &= ~SPI_TRANS_CS_KEEP_ACTIVE;
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// parameter is usually short, using polling mode
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ret = spi_device_polling_transmit(spi_panel_io->spi_dev, &lcd_trans->base);
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ESP_GOTO_ON_ERROR(ret, err, TAG, "spi transmit (polling) param failed");
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}
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err:
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spi_device_release_bus(spi_panel_io->spi_dev);
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return ret;
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}
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static esp_err_t panel_io_spi_tx_color(esp_lcd_panel_io_t *io, int lcd_cmd, const void *color, size_t color_size)
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{
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esp_err_t ret = ESP_OK;
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spi_transaction_t *spi_trans = NULL;
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lcd_spi_trans_descriptor_t *lcd_trans = NULL;
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esp_lcd_panel_io_spi_t *spi_panel_io = __containerof(io, esp_lcd_panel_io_spi_t, base);
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// before issue a polling transaction, need to wait queued transactions finished
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size_t num_trans_inflight = spi_panel_io->num_trans_inflight;
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for (size_t i = 0; i < num_trans_inflight; i++) {
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ret = spi_device_get_trans_result(spi_panel_io->spi_dev, &spi_trans, portMAX_DELAY);
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ESP_GOTO_ON_ERROR(ret, err, TAG, "recycle spi transactions failed");
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spi_panel_io->num_trans_inflight--;
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}
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lcd_trans = &spi_panel_io->trans_pool[0];
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memset(lcd_trans, 0, sizeof(lcd_spi_trans_descriptor_t));
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spi_lcd_prepare_cmd_buffer(spi_panel_io, &lcd_cmd);
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lcd_trans->base.user = spi_panel_io;
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lcd_trans->flags.dc_gpio_level = !spi_panel_io->flags.dc_data_level; // set D/C line to command mode
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lcd_trans->base.length = spi_panel_io->lcd_cmd_bits;
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lcd_trans->base.tx_buffer = &lcd_cmd;
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if (spi_panel_io->flags.octal_mode) {
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// use 8 lines for transmitting command, address and data
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lcd_trans->base.flags |= (SPI_TRANS_MULTILINE_CMD | SPI_TRANS_MULTILINE_ADDR | SPI_TRANS_MODE_OCT);
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}
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// command is short, using polling mode
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ret = spi_device_polling_transmit(spi_panel_io->spi_dev, &lcd_trans->base);
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ESP_GOTO_ON_ERROR(ret, err, TAG, "spi transmit (polling) command failed");
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// split to chunks if required:
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// the SPI bus has a maximum transaction size determined by SPI_LL_DATA_MAX_BIT_LEN
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do {
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size_t chunk_size = color_size;
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if (spi_panel_io->num_trans_inflight < spi_panel_io->queue_size) {
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// get the next available transaction
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lcd_trans = &spi_panel_io->trans_pool[spi_panel_io->num_trans_inflight];
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} else {
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// transaction pool has used up, recycle one transaction
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ret = spi_device_get_trans_result(spi_panel_io->spi_dev, &spi_trans, portMAX_DELAY);
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ESP_GOTO_ON_ERROR(ret, err, TAG, "recycle spi transactions failed");
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lcd_trans = __containerof(spi_trans, lcd_spi_trans_descriptor_t, base);
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spi_panel_io->num_trans_inflight--;
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}
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memset(lcd_trans, 0, sizeof(lcd_spi_trans_descriptor_t));
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// SPI per-transfer size has its limitation, if the color buffer is too big, we need to split it into multiple trunks
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if (chunk_size > LCD_SPI_MAX_DATA_SIZE) {
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// cap the transfer size to the maximum supported by the bus
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chunk_size = LCD_SPI_MAX_DATA_SIZE;
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} else {
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// mark en_trans_done_cb only at the last round to avoid premature completion callback
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lcd_trans->flags.en_trans_done_cb = 1;
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}
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lcd_trans->base.user = spi_panel_io;
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lcd_trans->flags.dc_gpio_level = spi_panel_io->flags.dc_data_level; // set D/C line to data mode
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lcd_trans->base.length = chunk_size * 8; // transaction length is in bits
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lcd_trans->base.tx_buffer = color;
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if (spi_panel_io->flags.octal_mode) {
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// use 8 lines for transmitting command, address and data
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lcd_trans->base.flags |= (SPI_TRANS_MULTILINE_CMD | SPI_TRANS_MULTILINE_ADDR | SPI_TRANS_MODE_OCT);
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}
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// color data is usually large, using queue+blocking mode
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ret = spi_device_queue_trans(spi_panel_io->spi_dev, &lcd_trans->base, portMAX_DELAY);
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ESP_GOTO_ON_ERROR(ret, err, TAG, "spi transmit (queue) color failed");
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spi_panel_io->num_trans_inflight++;
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// move on to the next chunk
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color = (const uint8_t *)color + chunk_size;
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color_size -= chunk_size;
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} while (color_size > 0); // continue while we have remaining data to transmit
|
|
|
|
err:
|
|
return ret;
|
|
}
|
|
|
|
static void lcd_spi_pre_trans_cb(spi_transaction_t *trans)
|
|
{
|
|
esp_lcd_panel_io_spi_t *spi_panel_io = trans->user;
|
|
lcd_spi_trans_descriptor_t *lcd_trans = __containerof(trans, lcd_spi_trans_descriptor_t, base);
|
|
if (spi_panel_io->dc_gpio_num >= 0) { // set D/C line level if necessary
|
|
gpio_set_level(spi_panel_io->dc_gpio_num, lcd_trans->flags.dc_gpio_level);
|
|
}
|
|
}
|
|
|
|
static void lcd_spi_post_trans_color_cb(spi_transaction_t *trans)
|
|
{
|
|
esp_lcd_panel_io_spi_t *spi_panel_io = trans->user;
|
|
lcd_spi_trans_descriptor_t *lcd_trans = __containerof(trans, lcd_spi_trans_descriptor_t, base);
|
|
if (lcd_trans->flags.en_trans_done_cb) {
|
|
if (spi_panel_io->on_color_trans_done) {
|
|
spi_panel_io->on_color_trans_done(&spi_panel_io->base, NULL, spi_panel_io->user_ctx);
|
|
}
|
|
}
|
|
}
|