rtt-f030/bsp/x1000/drivers/slcd/drv_slcdc.h

169 lines
4.5 KiB
C

/*
* File : drv_slcdc.h
* COPYRIGHT (C) 2008 - 2016, RT-Thread Development Team
*
* Change Logs:
* Date Author Notes
* 2017Äê3ÔÂ21ÈÕ Urey the first version
*/
#ifndef _DRV_SLCDC_H_
#define _DRV_SLCDC_H_
#ifdef __cplusplus
extern "C" {
#endif
#include <stdint.h>
//#define CONFIG_SLCDC_CONTINUA
#define SLCDC_USING_DUAL_BUFFER
#define CONFIG_SLCDC_USE_TE
#define FB_BASE 0x80200000
#ifndef FB_PAGE_SIZE
# define FB_PAGE_SIZE 4096
#endif
/* SLCDC reg ops */
#define slcd_reg_write(addr,config) writel(config,addr)
#define slcd_reg_read(addr) readl(addr)
struct slcdc_dma_descriptor
{
uint32_t fdadr; /* Frame descriptor address register */
uint32_t fsadr; /* Frame source address register */
uint32_t fidr; /* Frame ID register */
uint32_t ldcmd; /* Command register */
uint32_t offsize; /* Stride Offsize(in word) */
uint32_t page_width; /* Stride Pagewidth(in word) */
uint32_t cmd_num; /* Command Number(for SLCD) */
uint32_t desc_size; /* Foreground Size */
};
/* smart lcd interface_type */
enum smart_lcd_type {
SMART_LCD_TYPE_PARALLEL,
SMART_LCD_TYPE_SERIAL,
};
/* smart lcd command width */
enum smart_lcd_cwidth {
SMART_LCD_CWIDTH_16_BIT_ONCE = (0 << 8),
SMART_LCD_CWIDTH_9_BIT_ONCE = SMART_LCD_CWIDTH_16_BIT_ONCE,
SMART_LCD_CWIDTH_8_BIT_ONCE = (0x1 << 8),
SMART_LCD_CWIDTH_18_BIT_ONCE = (0x2 << 8),
SMART_LCD_CWIDTH_24_BIT_ONCE = (0x3 << 8),
};
/* smart lcd data width */
enum smart_lcd_dwidth {
SMART_LCD_DWIDTH_18_BIT_ONCE_PARALLEL_SERIAL = (0 << 10),
SMART_LCD_DWIDTH_16_BIT_ONCE_PARALLEL_SERIAL = (0x1 << 10),
SMART_LCD_DWIDTH_8_BIT_THIRD_TIME_PARALLEL = (0x2 << 10),
SMART_LCD_DWIDTH_8_BIT_TWICE_TIME_PARALLEL = (0x3 << 10),
SMART_LCD_DWIDTH_8_BIT_ONCE_PARALLEL_SERIAL = (0x4 << 10),
SMART_LCD_DWIDTH_24_BIT_ONCE_PARALLEL = (0x5 << 10),
SMART_LCD_DWIDTH_9_BIT_TWICE_TIME_PARALLEL = (0x7 << 10),
SMART_LCD_DWIDTH_MASK = (0x7 << 10),
};
/* smart lcd new data width */
enum smart_lcd_new_dwidth {
SMART_LCD_NEW_DWIDTH_24_BIT = (4 << 13),
SMART_LCD_NEW_DWIDTH_18_BIT = (3 << 13),
SMART_LCD_NEW_DWIDTH_16_BIT = (2 << 13),
SMART_LCD_NEW_DWIDTH_9_BIT = (1 << 13),
SMART_LCD_NEW_DWIDTH_8_BIT = (0 << 13),
};
/* smart lcd data times */
enum smart_lcd_new_dtimes {
SMART_LCD_NEW_DTIMES_ONCE = (0 << 8),
SMART_LCD_NEW_DTIMES_TWICE = (1 << 8),
SMART_LCD_NEW_DTIMES_THICE = (2 << 8),
};
/* smart lcd init code type */
enum smart_config_type
{
SMART_CONFIG_CMD = 0,
SMART_CONFIG_DATA = 1,
SMART_CONFIG_UDELAY = 2,
};
struct slcd_data_table
{
enum smart_config_type type;
uint32_t value;
};
typedef void (*lcd_bl_func_t)(rt_bool_t isPowerON);
struct slcd_configure;
struct slcdc_dev_s
{
struct rt_device parent;
struct rt_mutex lock;
struct slcd_configure *cfg;
struct slcdc_dma_descriptor *desc_tmp;
struct slcdc_dma_descriptor *desc_cmd;
struct slcdc_dma_descriptor *desc_dat;
struct slcdc_dma_descriptor *desc_self;
rt_uint32_t fb_base;
rt_uint32_t fb_cmd;
rt_uint32_t fb_screen;
#ifdef SLCDC_USING_DUAL_BUFFER
rt_uint32_t fb_dual;
#endif
rt_uint32_t fb_size;
};
struct slcd_configure
{
unsigned pinmd :1;
unsigned pixclk_falling_edge :1;
unsigned data_enable_active_low :1;
unsigned clkply_active_rising:1; /* smart lcd clock polarity:
0: Active edge is Falling,
1: Active edge is Rasing */
unsigned rsply_cmd_high:1; /* smart lcd RS polarity.
0: Command_RS=0, Data_RS=1;
1: Command_RS=1, Data_RS=0 */
unsigned csply_active_high:1; /* smart lcd CS Polarity.
0: Active level is low,
1: Active level is high */
unsigned newcfg_6800_md:1;
unsigned newcfg_fmt_conv:1;
unsigned newcfg_cmd_9bit:1;
rt_uint32_t width;
rt_uint32_t height;
rt_uint32_t fmt;
rt_uint32_t bpp;
rt_uint32_t bus_width;
rt_uint32_t reg_width;
rt_uint32_t refresh;
const struct slcd_data_table *data_table;
rt_uint32_t data_table_num;
const rt_uint32_t *cmd_table; /* write GRAM command */
rt_uint32_t cmd_table_num;
};
int rt_hw_slcd_init (struct slcd_configure *cfg);
void rt_hw_slcd_set_bl_func (lcd_bl_func_t bl_func);
#ifdef __cplusplus
}
#endif
#endif /* _DRV_SLCDC_H_ */