/* * Copyright (c) 2006-2021, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2019-03-12 ZYH first version */ #include #ifdef BSP_USING_LCD #include #include "drv_lcd.h" #include #include #include #include #include #include "dmalock.h" #include "sleep.h" #define DBG_TAG "LCD" #define DBG_LVL DBG_WARNING #include #define NO_OPERATION 0x00 #define SOFTWARE_RESET 0x01 #define READ_ID 0x04 #define READ_STATUS 0x09 #define READ_POWER_MODE 0x0A #define READ_MADCTL 0x0B #define READ_PIXEL_FORMAT 0x0C #define READ_IMAGE_FORMAT 0x0D #define READ_SIGNAL_MODE 0x0E #define READ_SELT_DIAG_RESULT 0x0F #define SLEEP_ON 0x10 #define SLEEP_OFF 0x11 #define PARTIAL_DISPALY_ON 0x12 #define NORMAL_DISPALY_ON 0x13 #define INVERSION_DISPALY_OFF 0x20 #define INVERSION_DISPALY_ON 0x21 #define GAMMA_SET 0x26 #define DISPALY_OFF 0x28 #define DISPALY_ON 0x29 #define HORIZONTAL_ADDRESS_SET 0x2A #define VERTICAL_ADDRESS_SET 0x2B #define MEMORY_WRITE 0x2C #define COLOR_SET 0x2D #define MEMORY_READ 0x2E #define PARTIAL_AREA 0x30 #define VERTICAL_SCROL_DEFINE 0x33 #define TEAR_EFFECT_LINE_OFF 0x34 #define TEAR_EFFECT_LINE_ON 0x35 #define MEMORY_ACCESS_CTL 0x36 #define VERTICAL_SCROL_S_ADD 0x37 #define IDLE_MODE_OFF 0x38 #define IDLE_MODE_ON 0x39 #define PIXEL_FORMAT_SET 0x3A #define WRITE_MEMORY_CONTINUE 0x3C #define READ_MEMORY_CONTINUE 0x3E #define SET_TEAR_SCANLINE 0x44 #define GET_SCANLINE 0x45 #define WRITE_BRIGHTNESS 0x51 #define READ_BRIGHTNESS 0x52 #define WRITE_CTRL_DISPALY 0x53 #define READ_CTRL_DISPALY 0x54 #define WRITE_BRIGHTNESS_CTL 0x55 #define READ_BRIGHTNESS_CTL 0x56 #define WRITE_MIN_BRIGHTNESS 0x5E #define READ_MIN_BRIGHTNESS 0x5F #define READ_ID1 0xDA #define READ_ID2 0xDB #define READ_ID3 0xDC #define RGB_IF_SIGNAL_CTL 0xB0 #define NORMAL_FRAME_CTL 0xB1 #define IDLE_FRAME_CTL 0xB2 #define PARTIAL_FRAME_CTL 0xB3 #define INVERSION_CTL 0xB4 #define BLANK_PORCH_CTL 0xB5 #define DISPALY_FUNCTION_CTL 0xB6 #define ENTRY_MODE_SET 0xB7 #define BACKLIGHT_CTL1 0xB8 #define BACKLIGHT_CTL2 0xB9 #define BACKLIGHT_CTL3 0xBA #define BACKLIGHT_CTL4 0xBB #define BACKLIGHT_CTL5 0xBC #define BACKLIGHT_CTL7 0xBE #define BACKLIGHT_CTL8 0xBF #define POWER_CTL1 0xC0 #define POWER_CTL2 0xC1 #define VCOM_CTL1 0xC5 #define VCOM_CTL2 0xC7 #define NV_MEMORY_WRITE 0xD0 #define NV_MEMORY_PROTECT_KEY 0xD1 #define NV_MEMORY_STATUS_READ 0xD2 #define READ_ID4 0xD3 #define POSITIVE_GAMMA_CORRECT 0xE0 #define NEGATIVE_GAMMA_CORRECT 0xE1 #define DIGITAL_GAMMA_CTL1 0xE2 #define DIGITAL_GAMMA_CTL2 0xE3 #define INTERFACE_CTL 0xF6 #define LCD_SPI_CHANNEL SPI_DEVICE_0 #define LCD_SPI_CHIP_SELECT SPI_CHIP_SELECT_0 #if defined(BSP_BOARD_K210_OPENMV_TEST) #define LCD_SCAN_DIR DIR_YX_LRUD #elif defined(BSP_BOARD_K210_DRACO) #define LCD_SCAN_DIR DIR_YX_LRUD #elif defined(BSP_BOARD_KD233) #define LCD_SCAN_DIR (DIR_YX_RLUD | 0x08) #elif defined(BSP_BOARD_USER) /*user define.*/ #define LCD_SCAN_DIR DIR_YX_RLUD #endif typedef struct lcd_8080_device { struct rt_device parent; struct rt_device_graphic_info lcd_info; int spi_channel; int cs; int dc_pin; #if BSP_LCD_RST_PIN >= 0 int rst_pin; #endif #if BSP_LCD_BACKLIGHT_PIN >= 0 int backlight_pin; #endif int dma_channel; } * lcd_8080_device_t; static struct lcd_8080_device _lcddev; static void drv_lcd_cmd(lcd_8080_device_t lcd, rt_uint8_t cmd) { gpiohs_set_pin(lcd->dc_pin, GPIO_PV_LOW); spi_init(lcd->spi_channel, SPI_WORK_MODE_0, SPI_FF_OCTAL, 8, 0); spi_init_non_standard(lcd->spi_channel, 8 /*instrction length*/, 0 /*address length*/, 0 /*wait cycles*/, SPI_AITM_AS_FRAME_FORMAT /*spi address trans mode*/); spi_send_data_normal_dma(lcd->dma_channel, lcd->spi_channel, lcd->cs, &cmd, 1, SPI_TRANS_CHAR); } static void drv_lcd_data_byte(lcd_8080_device_t lcd, rt_uint8_t *data_buf, rt_uint32_t length) { gpiohs_set_pin(lcd->dc_pin, GPIO_PV_HIGH); spi_init(lcd->spi_channel, SPI_WORK_MODE_0, SPI_FF_OCTAL, 8, 0); spi_init_non_standard(lcd->spi_channel, 8 /*instrction length*/, 0 /*address length*/, 0 /*wait cycles*/, SPI_AITM_AS_FRAME_FORMAT /*spi address trans mode*/); spi_send_data_normal_dma(lcd->dma_channel, lcd->spi_channel, lcd->cs, data_buf, length, SPI_TRANS_CHAR); } static void drv_lcd_data_half_word(lcd_8080_device_t lcd, rt_uint16_t *data_buf, rt_uint32_t length) { gpiohs_set_pin(lcd->dc_pin, GPIO_PV_HIGH); spi_init(lcd->spi_channel, SPI_WORK_MODE_0, SPI_FF_OCTAL, 16, 0); spi_init_non_standard(lcd->spi_channel, 16 /*instrction length*/, 0 /*address length*/, 0 /*wait cycles*/, SPI_AITM_AS_FRAME_FORMAT /*spi address trans mode*/); spi_send_data_normal_dma(lcd->dma_channel, lcd->spi_channel, lcd->cs, data_buf, length, SPI_TRANS_SHORT); } static void drv_lcd_data_word(lcd_8080_device_t lcd, rt_uint32_t *data_buf, rt_uint32_t length) { gpiohs_set_pin(lcd->dc_pin, GPIO_PV_HIGH); spi_init(lcd->spi_channel, SPI_WORK_MODE_0, SPI_FF_OCTAL, 32, 0); spi_init_non_standard(lcd->spi_channel, 0 /*instrction length*/, 32 /*address length*/, 0 /*wait cycles*/, SPI_AITM_AS_FRAME_FORMAT /*spi address trans mode*/); spi_send_data_normal_dma(lcd->dma_channel, lcd->spi_channel, lcd->cs, data_buf, length, SPI_TRANS_INT); } static void drv_lcd_hw_init(lcd_8080_device_t lcd) { #if BSP_LCD_RST_PIN >= 0 { gpiohs_set_drive_mode(lcd->rst_pin, GPIO_DM_OUTPUT); gpiohs_set_pin(lcd->rst_pin, GPIO_PV_LOW); msleep(20); gpiohs_set_pin(lcd->rst_pin, GPIO_PV_HIGH); msleep(20); } #endif #if BSP_LCD_BACKLIGHT_PIN >= 0 { gpiohs_set_drive_mode(lcd->backlight_pin, GPIO_DM_OUTPUT); #if defined(BSP_LCD_BACKLIGHT_ACTIVE_LOW) gpiohs_set_pin(lcd->backlight_pin, GPIO_PV_LOW); #elif defined(BSP_LCD_BACKLIGHT_ACTIVE_HIGH) gpiohs_set_pin(lcd->backlight_pin, GPIO_PV_HIGH); #else gpiohs_set_pin(lcd->backlight_pin, GPIO_PV_LOW); #endif } #endif gpiohs_set_drive_mode(lcd->dc_pin, GPIO_DM_OUTPUT); gpiohs_set_pin(lcd->dc_pin, GPIO_PV_HIGH); spi_init(lcd->spi_channel, SPI_WORK_MODE_0, SPI_FF_OCTAL, 8, 0); spi_set_clk_rate(lcd->spi_channel, BSP_LCD_CLK_FREQ); } static void drv_lcd_set_direction(lcd_8080_device_t lcd, lcd_dir_t dir) { if (dir & DIR_XY_MASK) { lcd->lcd_info.width = BSP_LCD_Y_MAX; lcd->lcd_info.height = BSP_LCD_X_MAX; } else { lcd->lcd_info.width = BSP_LCD_X_MAX; lcd->lcd_info.height = BSP_LCD_Y_MAX; } drv_lcd_cmd(lcd, MEMORY_ACCESS_CTL); drv_lcd_data_byte(lcd, (rt_uint8_t *)&dir, 1); } static void drv_lcd_set_area(lcd_8080_device_t lcd, rt_uint16_t x1, rt_uint16_t y1, rt_uint16_t x2, rt_uint16_t y2) { rt_uint8_t data[4] = {0}; data[0] = (rt_uint8_t)(x1 >> 8); data[1] = (rt_uint8_t)(x1); data[2] = (rt_uint8_t)(x2 >> 8); data[3] = (rt_uint8_t)(x2); drv_lcd_cmd(lcd, HORIZONTAL_ADDRESS_SET); drv_lcd_data_byte(lcd, data, 4); data[0] = (rt_uint8_t)(y1 >> 8); data[1] = (rt_uint8_t)(y1); data[2] = (rt_uint8_t)(y2 >> 8); data[3] = (rt_uint8_t)(y2); drv_lcd_cmd(lcd, VERTICAL_ADDRESS_SET); drv_lcd_data_byte(lcd, data, 4); drv_lcd_cmd(lcd, MEMORY_WRITE); } static void drv_lcd_set_pixel(lcd_8080_device_t lcd, uint16_t x, uint16_t y, uint16_t color) { drv_lcd_set_area(lcd, x, y, x, y); drv_lcd_data_half_word(lcd, &color, 1); } static void drv_lcd_clear(lcd_8080_device_t lcd, uint16_t color) { uint32_t data = ((uint32_t)color << 16) | (uint32_t)color; drv_lcd_set_area(lcd, 0, 0, lcd->lcd_info.width - 1, lcd->lcd_info.height - 1); gpiohs_set_pin(lcd->dc_pin, GPIO_PV_HIGH); spi_init(lcd->spi_channel, SPI_WORK_MODE_0, SPI_FF_OCTAL, 32, 0); spi_init_non_standard(lcd->spi_channel, 0 /*instrction length*/, 32 /*address length*/, 0 /*wait cycles*/, SPI_AITM_AS_FRAME_FORMAT /*spi address trans mode*/); spi_fill_data_dma(lcd->dma_channel, lcd->spi_channel, lcd->cs, (const uint32_t *)&data, lcd->lcd_info.width * lcd->lcd_info.height / 2); } static void rt_bitblt(rt_uint16_t * dest, int dest_segment, int dest_common, int dest_x, int dest_y, int width, int height, rt_uint16_t *src, int src_segment, int src_common, int src_x, int src_y) { int sx0, sx1, sy0, sy1; int dx0, dx1, dy0, dy1; rt_uint16_t *buff_src; rt_uint16_t *buff_dest; int x, y; if (width <= 0) { return; } if (height <= 0) { return; } sx0 = src_x; sy0 = src_y; sx1 = sx0 + width - 1; sy1 = sy0 + height - 1; dx0 = dest_x; dy0 = dest_y; dx1 = dx0 + width - 1; dy1 = dy0 + height - 1; if (sx0 < 0) { dx0 -= sx0; sx0 = 0; } if (sy0 < 0) { dy0 -= sy0; sy0 = 0; } if (sx1 >= src_segment) { dx1 -= (sx1 - src_segment + 1); sx1 = src_segment - 1; } if (sy1 >= src_common) { dy1 -= (sy1 - src_common + 1); sy1 = src_common - 1; } if (dx0 < 0) { sx0 -= dx0; dx0 = 0; } if (dy0 < 0) { sy0 -= dy0; dy0 = 0; } if (dx1 >= dest_segment) { sx1 -= (dx1 - dest_segment + 1); dx1 = dest_segment - 1; } if (dy1 >= dest_common) { sy1 -= (dy1 - dest_common + 1); dy1 = dest_common - 1; } if (sx1 < 0 || sx0 >= src_segment) { return; } if (sy1 < 0 || sy0 >= src_common) { return; } if (dx1 < 0 || dx0 >= dest_segment) { return; } if (dy1 < 0 || dy0 >= dest_common) { return; } if ((rt_ubase_t)dest < (rt_ubase_t)src) { buff_src = src + (sy0 * src_segment) + sx0; buff_dest = dest + (dy0 * dest_segment) + dx0; for (y = sy0; y <= sy1; y++) { src = buff_src; dest = buff_dest; for (x = sx0; x <= sx1; x++) { *dest++ = *src++; } buff_src += src_segment; buff_dest += dest_segment; } } else { buff_src = src + (sy1 * src_segment) + sx1; buff_dest = dest + (dy1 * dest_segment) + dx1; for (y = sy1; y >= sy0; y--) { src = buff_src; dest = buff_dest; for (x = sx1; x >= sx0; x--) { *dest-- = *src--; } buff_src -= src_segment; buff_dest -= dest_segment; } } } static void drv_lcd_rect_update(lcd_8080_device_t lcd, uint16_t x1, uint16_t y1, uint16_t width, uint16_t height) { static rt_uint16_t * rect_buffer = RT_NULL; if(!rect_buffer) { rect_buffer = rt_malloc_align(lcd->lcd_info.height * lcd->lcd_info.width * (lcd->lcd_info.bits_per_pixel / 8), 64); if(!rect_buffer) { return; } } if(x1 == 0 && y1 == 0 && width == lcd->lcd_info.width && height == lcd->lcd_info.height) { drv_lcd_set_area(lcd, x1, y1, x1 + width - 1, y1 + height - 1); drv_lcd_data_half_word(lcd, (rt_uint32_t *)lcd->lcd_info.framebuffer, width * height); } else { rt_bitblt(rect_buffer, width, height, 0, 0, width, height, (rt_uint16_t *)lcd->lcd_info.framebuffer, lcd->lcd_info.width, lcd->lcd_info.height, x1, y1); drv_lcd_set_area(lcd, x1, y1, x1 + width - 1, y1 + height - 1); drv_lcd_data_half_word(lcd, (rt_uint16_t *)rect_buffer, width * height); } } static rt_err_t drv_lcd_init(rt_device_t dev) { rt_err_t ret = RT_EOK; lcd_8080_device_t lcd = (lcd_8080_device_t)dev; rt_uint8_t data = 0; if(!lcd) { return -RT_ERROR; } drv_lcd_hw_init(lcd); /* reset LCD */ drv_lcd_cmd(lcd, SOFTWARE_RESET); rt_thread_mdelay(100); /* Enter normal status */ drv_lcd_cmd(lcd, SLEEP_OFF); rt_thread_mdelay(100); /* pixel format rgb565 */ drv_lcd_cmd(lcd, PIXEL_FORMAT_SET); data = 0x55; drv_lcd_data_byte(lcd, &data, 1); /* set direction */ drv_lcd_set_direction(lcd, LCD_SCAN_DIR); lcd->lcd_info.framebuffer = rt_malloc_align(lcd->lcd_info.height * lcd->lcd_info.width * (lcd->lcd_info.bits_per_pixel / 8), 64); RT_ASSERT(lcd->lcd_info.framebuffer); uint16_t *framebuffer = (uint16_t *)(lcd->lcd_info.framebuffer); for(uint32_t i=0; i<(lcd->lcd_info.height * lcd->lcd_info.width * (lcd->lcd_info.bits_per_pixel / 8))/2; i++) { framebuffer[i] = BLACK; } /*display on*/ #ifdef BSP_BOARD_K210_DRACO drv_lcd_cmd(lcd, INVERSION_DISPALY_ON); #endif drv_lcd_cmd(lcd, DISPALY_ON); /* set to black */ drv_lcd_clear(lcd, BLACK); return ret; } static rt_err_t drv_lcd_open(rt_device_t dev, rt_uint16_t oflag) { /* Not need */ return RT_EOK; } static rt_err_t drv_lcd_close(rt_device_t dev) { /* Not need */ return RT_EOK; } static rt_ssize_t drv_lcd_read(rt_device_t dev, rt_off_t pos, void *buffer, rt_size_t size) { /* Not need */ return 0; } static rt_ssize_t drv_lcd_write(rt_device_t dev, rt_off_t pos, const void *buffer, rt_size_t size) { /* Not need */ return 0; } static rt_err_t drv_lcd_control(rt_device_t dev, int cmd, void *args) { rt_err_t ret = RT_EOK; lcd_8080_device_t lcd = (lcd_8080_device_t)dev; rt_base_t level; struct rt_device_rect_info* rect_info = (struct rt_device_rect_info*)args; RT_ASSERT(dev != RT_NULL); switch (cmd) { case RTGRAPHIC_CTRL_RECT_UPDATE: if(!rect_info) { LOG_E("RTGRAPHIC_CTRL_RECT_UPDATE error args"); return -RT_ERROR; } drv_lcd_rect_update(lcd, rect_info->x, rect_info->y, rect_info->width, rect_info->height); break; #if BSP_LCD_BACKLIGHT_PIN >= 0 case RTGRAPHIC_CTRL_POWERON: #if defined(BSP_LCD_BACKLIGHT_ACTIVE_LOW) gpiohs_set_pin(lcd->backlight_pin, GPIO_PV_LOW); #elif defined(BSP_LCD_BACKLIGHT_ACTIVE_HIGH) gpiohs_set_pin(lcd->backlight_pin, GPIO_PV_HIGH); #else gpiohs_set_pin(lcd->backlight_pin, GPIO_PV_LOW); #endif break; case RTGRAPHIC_CTRL_POWEROFF: #if defined(BSP_LCD_BACKLIGHT_ACTIVE_LOW) gpiohs_set_pin(lcd->backlight_pin, GPIO_PV_HIGH); #elif defined(BSP_LCD_BACKLIGHT_ACTIVE_HIGH) gpiohs_set_pin(lcd->backlight_pin, GPIO_PV_LOW); #else gpiohs_set_pin(lcd->backlight_pin, GPIO_PV_HIGH); #endif break; #endif /* BSP_LCD_BACKLIGHT_PIN >= 0 */ case RTGRAPHIC_CTRL_GET_INFO: *(struct rt_device_graphic_info *)args = lcd->lcd_info; break; case RTGRAPHIC_CTRL_SET_MODE: ret = -RT_ENOSYS; break; case RTGRAPHIC_CTRL_GET_EXT: ret = -RT_ENOSYS; break; default: LOG_E("drv_lcd_control cmd: %d", cmd); break; } return ret; } #ifdef RT_USING_DEVICE_OPS const static struct rt_device_ops drv_lcd_ops = { drv_lcd_init, drv_lcd_open, drv_lcd_close, drv_lcd_read, drv_lcd_write, drv_lcd_control }; #endif int rt_hw_lcd_init(void) { rt_err_t ret = RT_EOK; lcd_8080_device_t lcd_dev = &_lcddev; lcd_dev->cs = SPI_CHIP_SELECT_0; lcd_dev->dc_pin = LCD_DC_PIN; #if BSP_LCD_RST_PIN >= 0 lcd_dev->rst_pin = LCD_RST_PIN; #endif #if BSP_LCD_BACKLIGHT_PIN >= 0 lcd_dev->backlight_pin = LCD_BACKLIGHT_PIN; #endif dmalock_sync_take(&lcd_dev->dma_channel, RT_WAITING_FOREVER); lcd_dev->spi_channel = SPI_DEVICE_0; lcd_dev->lcd_info.bits_per_pixel = 16; lcd_dev->lcd_info.pixel_format = RTGRAPHIC_PIXEL_FORMAT_RGB565; lcd_dev->parent.type = RT_Device_Class_Graphic; lcd_dev->parent.rx_indicate = RT_NULL; lcd_dev->parent.tx_complete = RT_NULL; #ifdef RT_USING_DEVICE_OPS lcd_dev->parent.ops = &drv_lcd_ops; #else lcd_dev->parent.init = drv_lcd_init; lcd_dev->parent.open = drv_lcd_open; lcd_dev->parent.close = drv_lcd_close; lcd_dev->parent.read = drv_lcd_read; lcd_dev->parent.write = drv_lcd_write; lcd_dev->parent.control = drv_lcd_control; #endif lcd_dev->parent.user_data = RT_NULL; ret = rt_device_register(&lcd_dev->parent, "lcd", RT_DEVICE_FLAG_RDWR); return ret; } INIT_DEVICE_EXPORT(rt_hw_lcd_init); void lcd_set_direction(lcd_dir_t dir) { drv_lcd_set_direction(&_lcddev, dir); } #endif