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#ifdef BUILD_LK
#else
#include <linux/string.h>
#if defined(BUILD_UBOOT)
#include <asm/arch/mt6577_gpio.h>
#else
#include <mach/mt6577_gpio.h>
#endif
#endif
#include "lcm_drv.h"
// ---------------------------------------------------------------------------
// Local Constants
// ---------------------------------------------------------------------------
#define FRAME_WIDTH (480)
#define FRAME_HEIGHT (800)
#define REGFLAG_DELAY 0XFE
#define REGFLAG_END_OF_TABLE 0xFF // END OF REGISTERS MARKER
// ---------------------------------------------------------------------------
// Local Variables
// ---------------------------------------------------------------------------
static LCM_UTIL_FUNCS lcm_util = {0};
#define SET_RESET_PIN(v) (lcm_util.set_reset_pin((v)))
#define UDELAY(n) (lcm_util.udelay(n))
#define MDELAY(n) (lcm_util.mdelay(n))
#define LCM_ID (0x55)
#define LCM_ID1 (0xC1)
#define LCM_ID2 (0x80)
// ---------------------------------------------------------------------------
// Local Functions
// ---------------------------------------------------------------------------
#define dsi_set_cmdq_V2(cmd, count, ppara, force_update) lcm_util.dsi_set_cmdq_V2(cmd, count, ppara, force_update)
#define dsi_set_cmdq(pdata, queue_size, force_update) lcm_util.dsi_set_cmdq(pdata, queue_size, force_update)
#define wrtie_cmd(cmd) lcm_util.dsi_write_cmd(cmd)
#define write_regs(addr, pdata, byte_nums) lcm_util.dsi_write_regs(addr, pdata, byte_nums)
#define read_reg lcm_util.dsi_read_reg()
#define read_reg_v2(cmd, buffer, buffer_size) lcm_util.dsi_dcs_read_lcm_reg_v2(cmd, buffer, buffer_size)
struct LCM_setting_table {
unsigned cmd;
unsigned char count;
unsigned char para_list[64];
};
// ---------------------------------------------------------------------------
// LCM Driver Implementations
// ---------------------------------------------------------------------------
static void lcm_set_util_funcs(const LCM_UTIL_FUNCS *util)
{
memcpy(&lcm_util, util, sizeof(LCM_UTIL_FUNCS));
}
static void lcm_get_params(LCM_PARAMS *params)
{
memset(params, 0, sizeof(LCM_PARAMS));
params->type = LCM_TYPE_DSI;
params->width = FRAME_WIDTH;
params->height = FRAME_HEIGHT;
// enable tearing-free
params->dbi.te_mode = LCM_DBI_TE_MODE_VSYNC_ONLY;
params->dbi.te_edge_polarity = LCM_POLARITY_RISING;
params->dsi.mode = CMD_MODE;
// DSI
/* Command mode setting */
params->dsi.LANE_NUM = LCM_TWO_LANE;
//The following defined the fomat for data coming from LCD engine.
params->dsi.data_format.color_order = LCM_COLOR_ORDER_RGB;
params->dsi.data_format.trans_seq = LCM_DSI_TRANS_SEQ_MSB_FIRST;
params->dsi.data_format.padding = LCM_DSI_PADDING_ON_LSB;
params->dsi.data_format.format = LCM_DSI_FORMAT_RGB888;
// Highly depends on LCD driver capability.
params->dsi.packet_size=256;
// Bit rate calculation
params->dsi.pll_div1=34; // fref=26MHz, fvco=fref*(div1+1) (div1=0~63, fvco=500MHZ~1GHz)
params->dsi.pll_div2=1; // div2=0~15: fout=fvo/(2*div2)
params->dsi.HS_TRAIL = 10;//min max(n*8*UI, 60ns+n*4UI)
params->dsi.HS_ZERO = 8;//min 105ns+6*UI
params->dsi.HS_PRPR = 4;//min 40ns+4*UI; max 85ns+6UI
params->dsi.LPX = 12;//min 50ns
params->dsi.TA_GO = 12;//4*LPX
params->dsi.CLK_TRAIL = 5;//min 60ns
params->dsi.CLK_ZERO = 18;//min 300ns-38ns
params->dsi.LPX_WAIT = 10;
params->dsi.CONT_DET = 0;
params->dsi.CLK_HS_PRPR = 4;//min 38ns; max 95ns
}
static void init_lcm_registers(void)
{
unsigned int data_array[16];
data_array[0]=0x00053902;
data_array[1]=0x2555AAFF;
data_array[2]=0x00000001;
dsi_set_cmdq(data_array, 3, 1);
data_array[0]=0x00123902;
data_array[1]=0x000201F8;
data_array[2]=0x00133320;
data_array[3]=0x23000040;
data_array[4]=0x00C89902;
data_array[5]=0x00001100;
dsi_set_cmdq(data_array, 6, 1);
//*************Enable CMD2 Page1 *******************//
data_array[0]=0x00063902;
data_array[1]=0x52AA55F0;
data_array[2]=0x00000108;
dsi_set_cmdq(data_array, 3, 1);
//************* AVDD: manual *******************//
data_array[0]=0x00043902;
data_array[1]=0x343434B6;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]=0x00043902;
data_array[1]=0x090909B0;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]=0x00043902;//AVEE: manual, -6V
data_array[1]=0x242424B7;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]=0x00043902;//AVEE voltage, Set AVEE -6V
data_array[1]=0x090909B1;
dsi_set_cmdq(data_array, 2, 1);
//Power Control for VCL
data_array[0]=0x34B81500;
dsi_set_cmdq(data_array, 1, 1);
data_array[0]=0x00B21500;
dsi_set_cmdq(data_array, 1, 1);
data_array[0]=0x00043902;//VGH: Clamp Enable
data_array[1]=0x242424B9;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]=0x00043902;
data_array[1]=0x050505B3;
dsi_set_cmdq(data_array, 2, 1);
//data_array[0]=0x01BF1500;
//dsi_set_cmdq(data_array, 1, 1);
data_array[0]=0x00043902;//VGL(LVGL)
data_array[1]=0x242424BA;
dsi_set_cmdq(data_array, 2, 1);
//VGL_REG(VGLO)
data_array[0]=0x00043902;
data_array[1]=0x0B0B0BB5;
dsi_set_cmdq(data_array, 2, 1);
//VGMP/VGSP
data_array[0]=0x00043902;
data_array[1]=0x00A300BC;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]=0x00043902;//VGMN/VGSN
data_array[1]=0x00A300BD;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]=0x00033902;//VCOM=-0.1
data_array[1]=0x005000BE;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]=0x00353902;
data_array[1]=0x003700D1;
data_array[2]=0x007B0052;
data_array[3]=0x00B10099;
data_array[4]=0x01F600D2;
data_array[5]=0x014E0127;
data_array[6]=0x02BE018C;
data_array[7]=0x0248020B;
data_array[8]=0x027E024A;
data_array[9]=0x03E102BC;
data_array[10]=0x03310310;
data_array[11]=0x0373035A;
data_array[12]=0x039F0394;
data_array[13]=0x03B903B3;
data_array[14]=0x000000C1;
dsi_set_cmdq(data_array, 15, 1);
data_array[0]=0x00353902;
data_array[1]=0x003700D2;
data_array[2]=0x007B0052;
data_array[3]=0x00B10099;
data_array[4]=0x01F600D2;
data_array[5]=0x014E0127;
data_array[6]=0x02BE018C;
data_array[7]=0x0248020B;
data_array[8]=0x027E024A;
data_array[9]=0x03E102BC;
data_array[10]=0x03310310;
data_array[11]=0x0373035A;
data_array[12]=0x039F0394;
data_array[13]=0x03B903B3;
data_array[14]=0x000000C1;
dsi_set_cmdq(data_array, 15, 1);
data_array[0]=0x00353902;
data_array[1]=0x003700D3;
data_array[2]=0x007B0052;
data_array[3]=0x00B10099;
data_array[4]=0x01F600D2;
data_array[5]=0x014E0127;
data_array[6]=0x02BE018C;
data_array[7]=0x0248020B;
data_array[8]=0x027E024A;
data_array[9]=0x03E102BC;
data_array[10]=0x03310310;
data_array[11]=0x0373035A;
data_array[12]=0x039F0394;
data_array[13]=0x03B903B3;
data_array[14]=0x000000C1;
dsi_set_cmdq(data_array, 15, 1);
data_array[0]=0x00353902;
data_array[1]=0x003700D4;
data_array[2]=0x007B0052;
data_array[3]=0x00B10099;
data_array[4]=0x01F600D2;
data_array[5]=0x014E0127;
data_array[6]=0x02BE018C;
data_array[7]=0x0248020B;
data_array[8]=0x027E024A;
data_array[9]=0x03E102BC;
data_array[10]=0x03310310;
data_array[11]=0x0373035A;
data_array[12]=0x039F0394;
data_array[13]=0x03B903B3;
data_array[14]=0x000000C1;
dsi_set_cmdq(data_array, 15, 1);
data_array[0]=0x00353902;
data_array[1]=0x003700D5;
data_array[2]=0x007B0052;
data_array[3]=0x00B10099;
data_array[4]=0x01F600D2;
data_array[5]=0x014E0127;
data_array[6]=0x02BE018C;
data_array[7]=0x0248020B;
data_array[8]=0x027E024A;
data_array[9]=0x03E102BC;
data_array[10]=0x03310310;
data_array[11]=0x0373035A;
data_array[12]=0x039F0394;
data_array[13]=0x03B903B3;
data_array[14]=0x000000C1;
dsi_set_cmdq(data_array, 15, 1);
data_array[0]=0x00353902;
data_array[1]=0x003700D6;
data_array[2]=0x007B0052;
data_array[3]=0x00B10099;
data_array[4]=0x01F600D2;
data_array[5]=0x014E0127;
data_array[6]=0x02BE018C;
data_array[7]=0x0248020B;
data_array[8]=0x027E024A;
data_array[9]=0x03E102BC;
data_array[10]=0x03310310;
data_array[11]=0x0373035A;
data_array[12]=0x039F0394;
data_array[13]=0x03B903B3;
data_array[14]=0x000000C1;
dsi_set_cmdq(data_array, 15, 1);
// ******************** EABLE CMD2 PAGE 0 **************//
data_array[0]=0x00063902;
data_array[1]=0x52AA55F0;
data_array[2]=0x00000008;
dsi_set_cmdq(data_array, 3, 1);
data_array[0]=0x00063902;//I/F Setting
data_array[1]=0x020500B0;
data_array[2]=0x00000205;
dsi_set_cmdq(data_array, 3, 1);
data_array[0]=0x0AB61500;//SDT
dsi_set_cmdq(data_array, 1, 1);
data_array[0]=0x00033902;//Set Gate EQ
data_array[1]=0x000000B7;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]=0x00053902;//Set Source EQ
data_array[1]=0x050501B8;
data_array[2]=0x00000005;
dsi_set_cmdq(data_array, 3, 1);
data_array[0]=0x00043902;//Inversion: Column inversion (NVT)
data_array[1]=0x020202BC;//0x000000BC
dsi_set_cmdq(data_array, 2, 1);
data_array[0]=0x00043902;//BOE's Setting (default)
data_array[1]=0x000003CC;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]=0x00063902;//Display Timing
data_array[1]=0x078401BD;
data_array[2]=0x00000031;
dsi_set_cmdq(data_array, 3, 1);
data_array[0]=0x01BA1500;
dsi_set_cmdq(data_array, 1, 1);
data_array[0]=0x00053902;
data_array[1]=0x2555AAF0;
data_array[2]=0x00000001;
dsi_set_cmdq(data_array, 3, 1);
/*
data_array[0]=0x00053902;//Enable Test mode
data_array[1]=0x2555AAFF;
data_array[2]=0x00000001;
dsi_set_cmdq(data_array, 3, 1);
MDELAY(10);
*/
data_array[0]=0x773A1500;//TE ON
dsi_set_cmdq(data_array, 1, 1);
// data_array[0] = 0x00351500;// TE ON
// dsi_set_cmdq(data_array, 1, 1);
// MDELAY(10);
/*
data_array[0] = 0x00110500; // Sleep Out
dsi_set_cmdq(data_array, 1, 1);
MDELAY(120);
data_array[0] = 0x00290500; // Display On
dsi_set_cmdq(data_array, 1, 1);
*/
//******************* ENABLE PAGE0 **************//
data_array[0]=0x00063902;
data_array[1]=0x52AA55F0;
data_array[2]=0x00000008;
dsi_set_cmdq(data_array, 3, 1);
/* data_array[0]=0x02C71500;
dsi_set_cmdq(data_array, 1, 1);
MDELAY(10);
data_array[0]=0x00053902;
data_array[1]=0x000011C9;
data_array[2]=0x00000000;
dsi_set_cmdq(data_array, 3, 1);
MDELAY(10);
data_array[0]=0x00211500;
dsi_set_cmdq(data_array, 1, 1);
MDELAY(120);
*/
data_array[0] = 0x00351500;// TE ON
dsi_set_cmdq(data_array, 1, 1);
data_array[0]= 0x00033902;
data_array[1]= 0x0000E8B1;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]= 0x00023902;
data_array[1]= 0x0051;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]= 0x00023902;
data_array[1]= 0x2453;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]= 0x00023902;
data_array[1]= 0x0155;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]= 0x00023902;
data_array[1]= 0x705e;
dsi_set_cmdq(data_array, 2, 1);
data_array[0]= 0x00033902;
data_array[1]= 0x000301E0;
dsi_set_cmdq(data_array, 2, 1);
}
static void lcm_init(void)
{
SET_RESET_PIN(1);
MDELAY(1);
SET_RESET_PIN(0);
MDELAY(10);
SET_RESET_PIN(1);
MDELAY(10);
init_lcm_registers();
}
static void lcm_suspend(void)
{
//push_table(lcm_deep_sleep_mode_in_setting, sizeof(lcm_deep_sleep_mode_in_setting) / sizeof(struct LCM_setting_table), 1);
unsigned int data_array[16];
data_array[0]=0x00280500;
dsi_set_cmdq(data_array, 1, 1);
//MDELAY(50);
data_array[0]=0x00100500;
dsi_set_cmdq(data_array, 1, 1);
MDELAY(120);
}
static void lcm_update(unsigned int x, unsigned int y,
unsigned int width, unsigned int height)
{
unsigned int x0 = x;
unsigned int y0 = y;
unsigned int x1 = x0 + width - 1;
unsigned int y1 = y0 + height - 1;
unsigned char x0_MSB = ((x0>>8)&0xFF);
unsigned char x0_LSB = (x0&0xFF);
unsigned char x1_MSB = ((x1>>8)&0xFF);
unsigned char x1_LSB = (x1&0xFF);
unsigned char y0_MSB = ((y0>>8)&0xFF);
unsigned char y0_LSB = (y0&0xFF);
unsigned char y1_MSB = ((y1>>8)&0xFF);
unsigned char y1_LSB = (y1&0xFF);
unsigned int data_array[16];
data_array[0]= 0x00053902;
data_array[1]= (x1_MSB<<24)|(x0_LSB<<16)|(x0_MSB<<8)|0x2a;
data_array[2]= (x1_LSB);
data_array[3]= 0x00053902;
data_array[4]= (y1_MSB<<24)|(y0_LSB<<16)|(y0_MSB<<8)|0x2b;
data_array[5]= (y1_LSB);
data_array[6]= 0x002c3909;
dsi_set_cmdq(data_array, 7, 0);
}
void lcm_setbacklight(unsigned int level)
{
unsigned int data_array[16];
#if defined(BUILD_LK)
printf("%s, %d\n", __func__, level);
#elif defined(BUILD_UBOOT)
printf("%s, %d\n", __func__, level);
#else
printk("lcm_setbacklight = %d\n", level);
#endif
if(level > 255)
level = 255;
data_array[0]= 0x00023902;
data_array[1] =(0x51|(level<<8));
dsi_set_cmdq(data_array, 2, 1);
}
static void lcm_resume(void)
{
//push_table(lcm_sleep_out_setting, sizeof(lcm_sleep_out_setting) / sizeof(struct LCM_setting_table), 1);
unsigned int data_array[16];
lcm_init();
data_array[0]=0x00110500;
dsi_set_cmdq(data_array, 1, 1);
MDELAY(120);
data_array[0]=0x00290500;
dsi_set_cmdq(data_array, 1, 1);
}
void lcm_setpwm(unsigned int divider)
{
// TBD
}
unsigned int lcm_getpwm(unsigned int divider)
{
// ref freq = 15MHz, B0h setting 0x80, so 80.6% * freq is pwm_clk;
// pwm_clk / 255 / 2(lcm_setpwm() 6th params) = pwm_duration = 23706
unsigned int pwm_clk = 23706 / (1<<divider);
return pwm_clk;
}
static unsigned int lcm_compare_id(void)
{
unsigned int id = 0, id2 = 0;
unsigned char buffer[2];
unsigned int data_array[16];
SET_RESET_PIN(1); //NOTE:should reset LCM firstly
MDELAY(10);
SET_RESET_PIN(0);
MDELAY(10);
SET_RESET_PIN(1);
MDELAY(10);
/*
data_array[0] = 0x00110500; // Sleep Out
dsi_set_cmdq(data_array, 1, 1);
MDELAY(120);
*/
//*************Enable CMD2 Page1 *******************//
data_array[0]=0x00063902;
data_array[1]=0x52AA55F0;
data_array[2]=0x00000108;
dsi_set_cmdq(data_array, 3, 1);
MDELAY(10);
data_array[0] = 0x00023700;// read id return two byte,version and id
dsi_set_cmdq(data_array, 1, 1);
MDELAY(10);
read_reg_v2(0xC5, buffer, 2);
id = buffer[0]; //we only need ID
id2= buffer[1]; //we test buffer 1
return (LCM_ID == id)?1:0;
}
// ---------------------------------------------------------------------------
// Get LCM Driver Hooks
// ---------------------------------------------------------------------------
LCM_DRIVER nt35510_lcm_drv =
{
.name = "nt35510",
.set_util_funcs = lcm_set_util_funcs,
.get_params = lcm_get_params,
.init = lcm_init,
.suspend = lcm_suspend,
.resume = lcm_resume,
.set_backlight = lcm_setbacklight,
//.set_pwm = lcm_setpwm,
//.get_pwm = lcm_getpwm,
.compare_id = lcm_compare_id,
.update = lcm_update
};
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