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third-party-mirror / u-boot / 46a8da2338f5ca2afe2fd315c1a0722c99baa9df / . / drivers / amlogic / media / vout / lcd / lcd_vout.c
blob: f8b51156f9c7727b5a52165ba3c8177dcde95b15 [file] [log] [blame]
/*
* drivers/amlogic/media/vout/lcd/lcd_vout.c
*
* Copyright (C) 2015 Amlogic, Inc. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include <common.h>
#include <malloc.h>
#include <asm/arch/cpu_id.h>
#include <fdtdec.h>
#include <amlogic/keyunify.h>
#include <amlogic/media/vout/lcd/aml_lcd.h>
#include <amlogic/media/vpp/vpp.h>
#ifdef CONFIG_AML_LCD_EXTERN
#include <amlogic/media/vout/lcd/lcd_extern.h>
#endif
#include "lcd_reg.h"
#include "lcd_common.h"
#ifdef CONFIG_AML_LCD_TABLET
#include "lcd_tablet/mipi_dsi_util.h"
#endif
#define PANEL_NAME "panel"
DECLARE_GLOBAL_DATA_PTR;
unsigned int lcd_debug_print_flag;
unsigned int lcd_debug_load_flag;
static struct aml_lcd_drv_s aml_lcd_driver;
static void lcd_chip_detect(void)
{
#if 1
unsigned int cpu_type;
cpu_type = get_cpu_id().family_id;
switch (cpu_type) {
case MESON_CPU_MAJOR_ID_G12A:
aml_lcd_driver.chip_type = LCD_CHIP_G12A;
break;
case MESON_CPU_MAJOR_ID_G12B:
aml_lcd_driver.chip_type = LCD_CHIP_G12B;
break;
default:
aml_lcd_driver.chip_type = LCD_CHIP_MAX;
}
#else
aml_lcd_driver.chip_type = LCD_CHIP_G12B;
#endif
if (lcd_debug_print_flag)
LCDPR("check chip: %d\n", aml_lcd_driver.chip_type);
}
static int lcd_check_valid(void)
{
if (aml_lcd_driver.config_check == NULL) {
LCDERR("invalid lcd config\n");
return -1;
}
return 0;
}
static void lcd_power_ctrl(int status)
{
struct aml_lcd_drv_s *lcd_drv = aml_lcd_get_driver();
struct lcd_power_ctrl_s *lcd_power;
struct lcd_power_step_s *power_step;
#ifdef CONFIG_AML_LCD_EXTERN
struct aml_lcd_extern_driver_s *ext_drv;
#endif
int i;
i = 0;
lcd_power = lcd_drv->lcd_config->lcd_power;
if (status) {
/* check if factory test */
if (lcd_drv->factory_lcd_power_on_step) {
LCDPR("%s: factory test power_on_step!\n", __func__);
power_step = lcd_drv->factory_lcd_power_on_step;
} else {
power_step = &lcd_power->power_on_step[0];
}
} else {
power_step = &lcd_power->power_off_step[0];
}
while (i < LCD_PWR_STEP_MAX) {
if (power_step->type >= LCD_POWER_TYPE_MAX)
break;
if (lcd_debug_print_flag) {
LCDPR("power_ctrl: %d, step %d: type=%d, index=%d, value=%d, delay=%d\n",
status, i, power_step->type, power_step->index,
power_step->value, power_step->delay);
}
switch (power_step->type) {
case LCD_POWER_TYPE_CPU:
lcd_gpio_set(power_step->index, power_step->value);
break;
case LCD_POWER_TYPE_PMU:
LCDPR("to do\n");
break;
case LCD_POWER_TYPE_SIGNAL:
if (status)
lcd_drv->driver_init();
else
lcd_drv->driver_disable();
break;
#ifdef CONFIG_AML_LCD_EXTERN
case LCD_POWER_TYPE_EXTERN:
ext_drv = aml_lcd_extern_get_driver();
if (ext_drv == NULL) {
LCDERR("ext_drv is null\n");
break;
}
if (status) {
if (ext_drv->power_on)
ext_drv->power_on();
else
LCDERR("no ext power on\n");
} else {
if (ext_drv->power_off)
ext_drv->power_off();
else
LCDERR("no ext power off\n");
}
break;
#endif
default:
break;
}
if (power_step->delay)
mdelay(power_step->delay);
i++;
power_step++;
}
if (lcd_debug_print_flag)
LCDPR("%s: %d\n", __func__, status);
}
static void lcd_gamma_init(void)
{
lcd_wait_vsync();
vpp_disable_lcd_gamma_table();
vpp_init_lcd_gamma_table();
lcd_wait_vsync();
vpp_enable_lcd_gamma_table();
}
static void lcd_module_enable(char *mode)
{
unsigned int sync_duration;
struct aml_lcd_drv_s *lcd_drv = aml_lcd_get_driver();
struct lcd_config_s *pconf = lcd_drv->lcd_config;
int ret;
ret = lcd_drv->config_check(mode);
if (ret) {
LCDERR("init exit\n");
return;
}
sync_duration = pconf->lcd_timing.sync_duration_num;
sync_duration = (sync_duration * 10 / pconf->lcd_timing.sync_duration_den);
LCDPR("enable: %s, %s, %ux%u@%u.%uHz\n", pconf->lcd_basic.model_name,
lcd_type_type_to_str(pconf->lcd_basic.lcd_type),
pconf->lcd_basic.h_active, pconf->lcd_basic.v_active,
(sync_duration / 10), (sync_duration % 10));
lcd_drv->driver_init_pre();
lcd_gamma_init();
lcd_power_ctrl(1);
pconf->retry_enable_cnt = 0;
while (pconf->retry_enable_flag) {
if (pconf->retry_enable_cnt++ >= LCD_ENABLE_RETRY_MAX)
break;
LCDPR("retry enable...%d\n", pconf->retry_enable_cnt);
lcd_power_ctrl(0);
mdelay(100);
lcd_power_ctrl(1);
}
pconf->retry_enable_cnt = 0;
lcd_vcbus_write(VPP_POSTBLEND_H_SIZE, pconf->lcd_basic.h_active);
lcd_vcbus_write(VENC_INTCTRL, 0x200);
bl_pwm_config_update(lcd_drv->bl_config);
bl_set_level(lcd_drv->bl_config->level_default);
bl_power_ctrl(1);
lcd_mute_setting(0);
lcd_drv->lcd_status = 1;
}
static void lcd_module_disable(void)
{
struct aml_lcd_drv_s *lcd_drv = aml_lcd_get_driver();
LCDPR("disable: %s\n", lcd_drv->lcd_config->lcd_basic.model_name);
lcd_mute_setting(1);
bl_power_ctrl(0);
lcd_power_ctrl(0);
lcd_drv->lcd_status = 0;
}
static void lcd_vbyone_filter_flag_print(struct lcd_config_s *pconf)
{
__attribute__((__unused__)) struct vbyone_config_s *vx1_conf =
pconf->lcd_control.vbyone_config;
LCDPR("vx1_sw_filter_en: %d\n", vx1_conf->vx1_sw_filter_en);
LCDPR("vx1_sw_filter_time: %d\n", vx1_conf->vx1_sw_filter_time);
LCDPR("vx1_sw_filter_cnt: %d\n", vx1_conf->vx1_sw_filter_cnt);
LCDPR("vx1_sw_filter_retry_cnt: %d\n", vx1_conf->vx1_sw_filter_retry_cnt);
LCDPR("vx1_sw_filter_retry_delay: %d\n", vx1_conf->vx1_sw_filter_retry_delay);
LCDPR("vx1_sw_cdr_detect_time: %d\n", vx1_conf->vx1_sw_cdr_detect_time);
LCDPR("vx1_sw_cdr_detect_cnt: %d\n", vx1_conf->vx1_sw_cdr_detect_cnt);
LCDPR("vx1_sw_cdr_timeout_cnt: %d\n", vx1_conf->vx1_sw_cdr_timeout_cnt);
}
static void lcd_vbyone_filter_env_init(struct lcd_config_s *pconf)
{
struct vbyone_config_s *vx1_conf = pconf->lcd_control.vbyone_config;
char *str;
unsigned int temp = 0;
str = env_get("lcd_debug_vx1_sw_filter");
if (str)
temp = simple_strtoul(str, NULL, 10);
if (temp == 0)
return;
LCDPR("%s\n", __func__);
str = env_get("vx1_sw_filter_en");
if (str) {
vx1_conf->vx1_sw_filter_en = simple_strtoul(str, NULL, 10);
LCDPR("vx1_sw_filter_en: %d\n", vx1_conf->vx1_sw_filter_en);
}
str = env_get("vx1_sw_filter_time"); /* 100us */
if (str) {
vx1_conf->vx1_sw_filter_time = simple_strtoul(str, NULL, 10);
LCDPR("vx1_sw_filter_time: %d\n", vx1_conf->vx1_sw_filter_time);
}
str = env_get("vx1_sw_filter_cnt");
if (str) {
vx1_conf->vx1_sw_filter_cnt = simple_strtoul(str, NULL, 10);
LCDPR("vx1_sw_filter_cnt: %d\n", vx1_conf->vx1_sw_filter_cnt);
}
str = env_get("vx1_sw_filter_retry_cnt");
if (str) {
vx1_conf->vx1_sw_filter_retry_cnt = simple_strtoul(str, NULL, 10);
LCDPR("vx1_sw_filter_retry_cnt: %d\n", vx1_conf->vx1_sw_filter_retry_cnt);
}
str = env_get("vx1_sw_filter_retry_delay"); /* ms */
if (str) {
vx1_conf->vx1_sw_filter_retry_delay = simple_strtoul(str, NULL, 10);
LCDPR("vx1_sw_filter_retry_delay: %d\n", vx1_conf->vx1_sw_filter_retry_delay);
}
str = env_get("vx1_sw_cdr_detect_time"); /* us * 100 */
if (str) {
vx1_conf->vx1_sw_cdr_detect_time = simple_strtoul(str, NULL, 10);
LCDPR("vx1_sw_cdr_detect_time: %d\n", vx1_conf->vx1_sw_cdr_detect_time);
}
str = env_get("vx1_sw_cdr_detect_cnt");
if (str) {
vx1_conf->vx1_sw_cdr_detect_cnt = simple_strtoul(str, NULL, 10);
LCDPR("vx1_sw_cdr_detect_cnt: %d\n", vx1_conf->vx1_sw_cdr_detect_cnt);
}
str = env_get("vx1_sw_cdr_timeout_cnt");
if (str) {
vx1_conf->vx1_sw_cdr_timeout_cnt = simple_strtoul(str, NULL, 10);
LCDPR("vx1_sw_cdr_timeout_cnt: %d\n", vx1_conf->vx1_sw_cdr_timeout_cnt);
}
}
#ifdef CONFIG_AML_LCD_EXTERN
static int lcd_extern_load_config(const void *dt_blob, struct lcd_config_s *pconf)
{
struct lcd_power_step_s *power_step;
int index, i;
/* mipi extern_init is special */
if (pconf->lcd_basic.lcd_type == LCD_MIPI) {
index = pconf->lcd_control.mipi_config->extern_init;
if (index < LCD_EXTERN_INDEX_INVALID)
aml_lcd_extern_probe(dt_blob, index);
}
i = 0;
while (i < LCD_PWR_STEP_MAX) {
power_step = &pconf->lcd_power->power_on_step[i];
if (power_step->type >= LCD_POWER_TYPE_MAX)
break;
if (power_step->type == LCD_POWER_TYPE_EXTERN) {
if (lcd_debug_print_flag) {
LCDPR("power_on: step %d: type=%d, index=%d\n",
i, power_step->type, power_step->index);
}
index = power_step->index;
if (index < LCD_EXTERN_INDEX_INVALID)
aml_lcd_extern_probe(dt_blob, index);
}
i++;
}
return 0;
}
#endif
static int lcd_init_load_from_dts(const void *dt_blob)
{
struct lcd_config_s *pconf = aml_lcd_driver.lcd_config;
int parent_offset;
char *propdata, *p;
const char *str;
int i, temp;
/* Not use dts to control the backlight*/
#ifdef CONFIG_NOT_DTS_CONTROL_BL
aml_lcd_driver.bl_config->bl_key_valid = 0;
#else
/* check bl_key_valid */
parent_offset = fdt_path_offset(dt_blob, "/backlight");
if (parent_offset < 0) {
LCDERR("not find /backlight node: %s\n", fdt_strerror(parent_offset));
aml_lcd_driver.bl_config->bl_key_valid = 0;
}
propdata = (char *)fdt_getprop(dt_blob, parent_offset, "key_valid", NULL);
if (propdata == NULL) {
LCDERR("failed to get key_valid\n");
aml_lcd_driver.bl_config->bl_key_valid = 0;
} else {
aml_lcd_driver.bl_config->bl_key_valid = (unsigned char)(be32_to_cpup((u32*)propdata));
}
#endif
parent_offset = fdt_path_offset(dt_blob, "/lcd");
if (parent_offset < 0) {
LCDERR("not find /lcd node: %s\n", fdt_strerror(parent_offset));
return -1;
}
/* check lcd_mode & lcd_key_valid */
propdata = (char *)fdt_getprop(dt_blob, parent_offset, "mode", NULL);
if (propdata == NULL) {
LCDERR("failed to get mode\n");
return -1;
} else {
pconf->lcd_mode = lcd_mode_str_to_mode(propdata);
}
str = propdata;
propdata = (char *)fdt_getprop(dt_blob, parent_offset, "key_valid", NULL);
if (propdata == NULL) {
LCDERR("failed to get key_valid\n");
pconf->lcd_key_valid = 0;
} else {
pconf->lcd_key_valid = (unsigned char)(be32_to_cpup((u32*)propdata));
}
LCDPR("detect mode: %s, key_valid: %d\n", str, pconf->lcd_key_valid);
/* check lcd_clk_path */
propdata = (char *)fdt_getprop(dt_blob, parent_offset, "clk_path", NULL);
if (propdata == NULL) {
if (lcd_debug_print_flag)
LCDPR("failed to get clk_path\n");
pconf->lcd_clk_path = 0;
} else {
pconf->lcd_clk_path = (unsigned char)(be32_to_cpup((u32*)propdata));
LCDPR("detect lcd_clk_path: %d\n", pconf->lcd_clk_path);
}
str = env_get("lcd_clk_path");
if (str) {
temp = simple_strtoul(str, NULL, 10);
if (temp)
pconf->lcd_clk_path = 1;
else
pconf->lcd_clk_path = 0;
LCDPR("lcd_clk_path flag set clk_path: %d\n", pconf->lcd_clk_path);
}
i = 0;
propdata = (char *)fdt_getprop(dt_blob, parent_offset, "lcd_cpu_gpio_names", NULL);
if (propdata == NULL) {
LCDPR("failed to get lcd_cpu_gpio_names\n");
} else {
p = propdata;
while (i < LCD_CPU_GPIO_NUM_MAX) {
str = p;
if (strlen(str) == 0)
break;
lcd_gpio_probe(str, i);
p += strlen(p) + 1;
i++;
}
}
return 0;
}
static int lcd_init_load_from_bsp(void)
{
struct lcd_config_s *pconf = aml_lcd_driver.lcd_config;
int i, temp;
char *str;
/*pconf->lcd_key_valid = 0;
aml_lcd_driver.bl_config->bl_key_valid = 0;*/
LCDPR("detect mode: %s, key_valid: %d\n",
lcd_mode_mode_to_str(pconf->lcd_mode), pconf->lcd_key_valid);
i = 0;
while (i < LCD_CPU_GPIO_NUM_MAX) {
if (strcmp(pconf->lcd_power->cpu_gpio[i], "invalid") == 0)
break;
lcd_gpio_probe(pconf->lcd_power->cpu_gpio[i], i);
i++;
}
str = env_get("lcd_clk_path");
if (str) {
temp = simple_strtoul(str, NULL, 10);
if (temp)
pconf->lcd_clk_path = 1;
else
pconf->lcd_clk_path = 0;
LCDPR("lcd_clk_path flag set clk_path: %d\n", pconf->lcd_clk_path);
}
return 0;
}
static int lcd_config_probe(void)
{
const void *dt_blob;
int load_id = 0;
char *str;
int parent_offset;
int ret;
dt_blob = gd->fdt_blob;
if (dt_blob == NULL) {
LCDERR("dt_blob is null, load default lcd parameters\n");
} else {
ret = fdt_check_header(dt_blob);
if (ret) {
LCDERR("check dts: %s, load default lcd parameters\n",
fdt_strerror(ret));
} else {
parent_offset = fdt_path_offset(dt_blob, "/lcd");
if (parent_offset < 0) {
LCDERR("not find /lcd node: %s\n",
fdt_strerror(parent_offset));
} else {
load_id = 0x1;
}
}
}
lcd_debug_load_flag = 0;
str = env_get("lcd_debug_test");
if (str == NULL)
lcd_debug_load_flag = 0;
else
lcd_debug_load_flag = simple_strtoul(str, NULL, 10);
if (lcd_debug_load_flag) {
load_id = 0x0;
LCDPR("lcd_debug_load_flag: %d\n", lcd_debug_load_flag);
}
/* default setting */
aml_lcd_driver.lcd_config->retry_enable_flag = 0;
aml_lcd_driver.lcd_config->retry_enable_cnt = 0;
if (load_id & 0x1) {
ret = lcd_init_load_from_dts(dt_blob);
if (ret)
return -1;
if (aml_lcd_driver.unifykey_test_flag) {
aml_lcd_driver.bl_config->bl_key_valid = 1;
aml_lcd_driver.lcd_config->lcd_key_valid = 1;
LCDPR("force bl_key_valid & lcd_key_valid to 1\n");
}
if (aml_lcd_driver.lcd_config->lcd_key_valid) {
ret = aml_lcd_unifykey_check("lcd");
if (ret == 0) {
LCDPR("load config from unifykey\n");
load_id |= 0x10;
} else {
LCDPR("load config from dts\n");
}
} else {
LCDPR("load config from dts\n");
}
} else {
ret = lcd_init_load_from_bsp();
if (ret)
return -1;
if (aml_lcd_driver.unifykey_test_flag) {
aml_lcd_driver.bl_config->bl_key_valid = 1;
aml_lcd_driver.lcd_config->lcd_key_valid = 1;
LCDPR("force bl_key_valid & lcd_key_valid to 1\n");
}
if (aml_lcd_driver.lcd_config->lcd_key_valid) {
ret = aml_lcd_unifykey_check("lcd");
if (ret == 0) {
LCDPR("load lcd_config from unifykey\n");
load_id |= 0x10;
} else {
LCDPR("load lcd_config from bsp\n");
}
} else {
LCDPR("load config from bsp\n");
}
}
lcd_clk_config_probe();
/* load lcd config */
switch (aml_lcd_driver.lcd_config->lcd_mode) {
#ifdef CONFIG_AML_LCD_TV
case LCD_MODE_TV:
ret = get_lcd_tv_config(dt_blob, load_id);
break;
#endif
#ifdef CONFIG_AML_LCD_TABLET
case LCD_MODE_TABLET:
ret = get_lcd_tablet_config(dt_blob, load_id);
break;
#endif
default:
LCDERR("invalid lcd mode: %d\n", aml_lcd_driver.lcd_config->lcd_mode);
break;
}
if (ret) {
aml_lcd_driver.config_check = NULL;
LCDERR("invalid lcd config\n");
return -1;
}
if (aml_lcd_driver.lcd_config->lcd_basic.lcd_type == LCD_VBYONE)
lcd_vbyone_filter_env_init(aml_lcd_driver.lcd_config);
#if 0
if (aml_lcd_driver.chip_type == LCD_CHIP_TXHD)
lcd_tcon_probe(dt_blob, &aml_lcd_driver, load_id);
#endif
#ifdef CONFIG_AML_LCD_EXTERN
lcd_extern_load_config(dt_blob, aml_lcd_driver.lcd_config);
#endif
/* load bl config */
if (aml_lcd_driver.bl_config->bl_key_valid) {
ret = aml_lcd_unifykey_check("backlight");
if (ret == 0) {
LCDPR("load backlight_config from unifykey\n");
load_id |= 0x10;
} else {
load_id &= ~(0x10);
}
} else {
load_id &= ~(0x10);
}
bl_config_load(dt_blob, load_id);
if (lcd_debug_print_flag) {
if (aml_lcd_driver.lcd_config->lcd_basic.lcd_type == LCD_VBYONE)
lcd_vbyone_filter_flag_print(aml_lcd_driver.lcd_config);
}
lcd_debug_probe(&aml_lcd_driver);
return 0;
}
int lcd_probe(void)
{
#ifdef LCD_DEBUG_INFO
lcd_debug_print_flag = 1;
#else
char *str;
str = env_get("lcd_debug_print");
if (str == NULL) {
lcd_debug_print_flag = 0;
} else {
lcd_debug_print_flag = simple_strtoul(str, NULL, 10);
LCDPR("lcd_debug_print flag: %d\n", lcd_debug_print_flag);
}
#endif
lcd_chip_detect();
lcd_config_bsp_init();
lcd_config_probe();
return 0;
}
int lcd_remove(void)
{
#ifdef CONFIG_AML_LCD_EXTERN
aml_lcd_extern_remove();
#endif
return 0;
}
#define LCD_WAIT_VSYNC_TIMEOUT 50000
void lcd_wait_vsync(void)
{
int line_cnt, line_cnt_previous;
int i = 0;
line_cnt = 0x1fff;
line_cnt_previous = lcd_vcbus_getb(ENCL_INFO_READ, 16, 13);
while (i++ < LCD_WAIT_VSYNC_TIMEOUT) {
line_cnt = lcd_vcbus_getb(ENCL_INFO_READ, 16, 13);
if (line_cnt < line_cnt_previous)
break;
line_cnt_previous = line_cnt;
udelay(2);
}
/*LCDPR("line_cnt=%d, line_cnt_previous=%d, i=%d\n",
* line_cnt, line_cnt_previous, i);
*/
}
/* ********************************************** *
lcd driver API
* ********************************************** */
static int lcd_outputmode_check(char *mode)
{
if (aml_lcd_driver.outputmode_check)
return aml_lcd_driver.outputmode_check(mode);
LCDERR("invalid lcd config\n");
return -1;
}
static void lcd_enable(char *mode)
{
if (lcd_check_valid())
return;
if (aml_lcd_driver.lcd_status)
LCDPR("already enabled\n");
else
lcd_module_enable(mode);
}
static void lcd_disable(void)
{
if (lcd_check_valid())
return;
if (aml_lcd_driver.lcd_status)
lcd_module_disable();
else
LCDPR("already disabled\n");
}
static void lcd_set_ss(int level)
{
struct aml_lcd_drv_s *lcd_drv = aml_lcd_get_driver();
if (lcd_check_valid())
return;
if (aml_lcd_driver.lcd_status) {
lcd_drv->lcd_config->lcd_timing.ss_level = level;
lcd_set_spread_spectrum(level);
} else {
LCDPR("already disabled\n");
}
}
static char *lcd_get_ss(void)
{
char *str = "invalid";
if (lcd_check_valid())
return str;
if (aml_lcd_driver.lcd_status)
str = lcd_get_spread_spectrum();
else
LCDPR("already disabled\n");
return str;
}
static void lcd_test(int num)
{
if (lcd_check_valid())
return;
if (aml_lcd_driver.lcd_status)
lcd_debug_test(num);
else
LCDPR("already disabled\n");
}
static void lcd_clk_info(void)
{
if (lcd_check_valid())
return;
lcd_clk_config_print();
}
static void lcd_info(void)
{
if (lcd_check_valid())
return;
lcd_info_print();
}
static void lcd_reg_info(void)
{
if (lcd_check_valid())
return;
lcd_reg_print();
}
static void lcd_tcon_reg_info(void)
{
if (lcd_check_valid())
return;
lcd_tcon_reg_readback_print();
}
static void lcd_tcon_table_info(void)
{
if (lcd_check_valid())
return;
lcd_tcon_reg_table_print();
}
static void lcd_key_test(void)
{
if (aml_lcd_driver.unifykey_test_flag) {
aml_lcd_unifykey_test();
lcd_config_probe();
} else {
printf("lcd unifykey test disabled\n");
}
}
static void lcd_key_tcon_test(void)
{
if (aml_lcd_driver.unifykey_test_flag) {
aml_lcd_unifykey_tcon_test(1080);
lcd_config_probe();
} else {
printf("lcd unifykey test disabled\n");
}
}
static void lcd_key_dump(void)
{
int flag = LCD_UKEY_DEBUG_NORMAL;
#if 0
switch (aml_lcd_driver.chip_type) {
case LCD_CHIP_TXHD:
flag |= LCD_UKEY_DEBUG_TCON;
break;
default:
break;
}
#endif
aml_lcd_unifykey_dump(flag);
}
static void lcd_extern_info(void)
{
#ifdef CONFIG_AML_LCD_EXTERN
struct aml_lcd_extern_driver_s *ext_drv;
ext_drv = aml_lcd_extern_get_driver();
if (ext_drv)
ext_drv->info_print();
#else
printf("lcd_extern is not support\n");
#endif
}
static struct aml_lcd_drv_s aml_lcd_driver = {
.lcd_status = 0,
.lcd_config = &lcd_config_dft,
.bl_config = &bl_config_dft,
.config_check = NULL,
.lcd_probe = lcd_probe,
.lcd_outputmode_check = lcd_outputmode_check,
.lcd_enable = lcd_enable,
.lcd_disable = lcd_disable,
.lcd_set_ss = lcd_set_ss,
.lcd_get_ss = lcd_get_ss,
.lcd_test = lcd_test,
.lcd_clk = lcd_clk_info,
.lcd_info = lcd_info,
.lcd_reg = lcd_reg_info,
.lcd_tcon_reg = lcd_tcon_reg_info,
.lcd_tcon_table = lcd_tcon_table_info,
.bl_power_ctrl = bl_power_ctrl,
.bl_set_level = bl_set_level,
.bl_get_level = bl_get_level,
.bl_config_print = bl_config_print,
.unifykey_test_flag = 0, /* default disable unifykey test */
.unifykey_test = lcd_key_test,
.unifykey_tcon_test = lcd_key_tcon_test,
.unifykey_dump = lcd_key_dump,
.lcd_extern_info = lcd_extern_info,
/* for factory test */
.factory_lcd_power_on_step = NULL,
.factory_bl_power_on_delay = -1,
};
struct aml_lcd_drv_s *aml_lcd_get_driver(void)
{
return &aml_lcd_driver;
}