| /* |
| * drivers/amlogic/media/vout/lcd/lcd_tablet/lcd_tablet.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/gpio.h> |
| #include <fdtdec.h> |
| #include <amlogic/media/vout/lcd/aml_lcd.h> |
| #include "../lcd_reg.h" |
| #include "../lcd_common.h" |
| #include "lcd_tablet.h" |
| #include "mipi_dsi_util.h" |
| |
| static int check_lcd_output_mode(char *mode) |
| { |
| if (strcmp(mode, "panel") != 0) { |
| LCDERR("outputmode[%s] is not support\n", mode); |
| return -1; |
| } |
| |
| return 0; |
| } |
| |
| static void lcd_list_support_mode(void) |
| { |
| printf("panel\n"); |
| } |
| |
| static void lcd_config_load_print(struct lcd_config_s *pconf) |
| { |
| if (lcd_debug_print_flag == 0) |
| return; |
| |
| LCDPR("%s, %s, %dbit, %dx%d\n", |
| pconf->lcd_basic.model_name, |
| lcd_type_type_to_str(pconf->lcd_basic.lcd_type), |
| pconf->lcd_basic.lcd_bits, |
| pconf->lcd_basic.h_active, pconf->lcd_basic.v_active); |
| |
| LCDPR("h_period = %d\n", pconf->lcd_basic.h_period); |
| LCDPR("v_period = %d\n", pconf->lcd_basic.v_period); |
| |
| LCDPR("h_period_min = %d\n", pconf->lcd_basic.h_period_min); |
| LCDPR("h_period_max = %d\n", pconf->lcd_basic.h_period_max); |
| LCDPR("v_period_min = %d\n", pconf->lcd_basic.v_period_min); |
| LCDPR("v_period_max = %d\n", pconf->lcd_basic.v_period_max); |
| LCDPR("pclk_min = %d\n", pconf->lcd_basic.lcd_clk_min); |
| LCDPR("pclk_max = %d\n", pconf->lcd_basic.lcd_clk_max); |
| |
| LCDPR("hsync_width = %d\n", pconf->lcd_timing.hsync_width); |
| LCDPR("hsync_bp = %d\n", pconf->lcd_timing.hsync_bp); |
| LCDPR("hsync_pol = %d\n", pconf->lcd_timing.hsync_pol); |
| LCDPR("vsync_width = %d\n", pconf->lcd_timing.vsync_width); |
| LCDPR("vsync_bp = %d\n", pconf->lcd_timing.vsync_bp); |
| LCDPR("vsync_pol = %d\n", pconf->lcd_timing.vsync_pol); |
| |
| LCDPR("fr_adjust_type = %d\n", pconf->lcd_timing.fr_adjust_type); |
| LCDPR("ss_level = %d\n", pconf->lcd_timing.ss_level); |
| LCDPR("clk_auto = %d\n", pconf->lcd_timing.clk_auto); |
| LCDPR("clk = %dHz\n", pconf->lcd_timing.lcd_clk); |
| |
| if (pconf->lcd_basic.lcd_type == LCD_TTL) { |
| LCDPR("clk_pol = %d\n", pconf->lcd_control.ttl_config->clk_pol); |
| LCDPR("sync_valid = %d\n", pconf->lcd_control.ttl_config->sync_valid); |
| LCDPR("swap_ctrl = %d\n", pconf->lcd_control.ttl_config->swap_ctrl); |
| } else if (pconf->lcd_basic.lcd_type == LCD_LVDS) { |
| LCDPR("lvds_repack = %d\n", pconf->lcd_control.lvds_config->lvds_repack); |
| LCDPR("pn_swap = %d\n", pconf->lcd_control.lvds_config->pn_swap); |
| LCDPR("dual_port = %d\n", pconf->lcd_control.lvds_config->dual_port); |
| LCDPR("port_swap = %d\n", pconf->lcd_control.lvds_config->port_swap); |
| LCDPR("lane_reverse = %d\n", pconf->lcd_control.lvds_config->lane_reverse); |
| } else if (pconf->lcd_basic.lcd_type == LCD_VBYONE) { |
| LCDPR("lane_count = %d\n", pconf->lcd_control.vbyone_config->lane_count); |
| LCDPR("byte_mode = %d\n", pconf->lcd_control.vbyone_config->byte_mode); |
| LCDPR("region_num = %d\n", pconf->lcd_control.vbyone_config->region_num); |
| LCDPR("color_fmt = %d\n", pconf->lcd_control.vbyone_config->color_fmt); |
| } else if (pconf->lcd_basic.lcd_type == LCD_MIPI) { |
| if (pconf->lcd_control.mipi_config->check_en) { |
| LCDPR("check_reg = 0x%02x\n", |
| pconf->lcd_control.mipi_config->check_reg); |
| LCDPR("check_cnt = %d\n", |
| pconf->lcd_control.mipi_config->check_cnt); |
| } |
| LCDPR("lane_num = %d\n", |
| pconf->lcd_control.mipi_config->lane_num); |
| LCDPR("bit_rate_max = %d\n", |
| pconf->lcd_control.mipi_config->bit_rate_max); |
| LCDPR("pclk_lanebyteclk_factor = %d\n", |
| pconf->lcd_control.mipi_config->factor_numerator); |
| LCDPR("operation_mode_init = %d\n", |
| pconf->lcd_control.mipi_config->operation_mode_init); |
| LCDPR("operation_mode_disp = %d\n", |
| pconf->lcd_control.mipi_config->operation_mode_display); |
| LCDPR("video_mode_type = %d\n", |
| pconf->lcd_control.mipi_config->video_mode_type); |
| LCDPR("clk_always_hs = %d\n", |
| pconf->lcd_control.mipi_config->clk_always_hs); |
| LCDPR("phy_switch = %d\n", |
| pconf->lcd_control.mipi_config->phy_switch); |
| LCDPR("extern_init = %d\n", |
| pconf->lcd_control.mipi_config->extern_init); |
| } |
| } |
| |
| static int lcd_config_load_from_dts(const void *dt_blob, struct lcd_config_s *pconf) |
| { |
| int parent_offset; |
| int child_offset; |
| char propname[30]; |
| char *propdata; |
| unsigned int temp; |
| int len; |
| |
| 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; |
| } |
| |
| propdata = (char *)fdt_getprop(dt_blob, parent_offset, "pinctrl_version", NULL); |
| if (propdata) { |
| pconf->pinctrl_ver = (unsigned char)(be32_to_cpup((u32*)propdata)); |
| } else { |
| pconf->pinctrl_ver = 0; |
| } |
| LCDPR("pinctrl_version: %d\n", pconf->pinctrl_ver); |
| |
| /* check panel_type */ |
| char *panel_type = env_get("panel_type"); |
| if (panel_type == NULL) { |
| LCDERR("no panel_type, use default lcd config\n "); |
| return -1; |
| } |
| LCDPR("use panel_type=%s\n", panel_type); |
| |
| sprintf(propname, "/lcd/%s", panel_type); |
| child_offset = fdt_path_offset(dt_blob, propname); |
| if (child_offset < 0) { |
| LCDERR("not find /lcd/%s node: %s\n", |
| panel_type, fdt_strerror(child_offset)); |
| return -1; |
| } |
| |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "model_name", NULL); |
| if (propdata == NULL) { |
| LCDERR("failed to get model_name\n"); |
| strcpy(pconf->lcd_basic.model_name, panel_type); |
| } else { |
| strcpy(pconf->lcd_basic.model_name, propdata); |
| } |
| |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "interface", NULL); |
| if (propdata == NULL) { |
| LCDERR("failed to get interface\n"); |
| return -1; |
| } else { |
| pconf->lcd_basic.lcd_type = lcd_type_str_to_type(propdata); |
| } |
| |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "basic_setting", NULL); |
| if (propdata == NULL) { |
| LCDERR("failed to get basic_setting\n"); |
| return -1; |
| } else { |
| pconf->lcd_basic.h_active = be32_to_cpup((u32*)propdata); |
| pconf->lcd_basic.v_active = be32_to_cpup((((u32*)propdata)+1)); |
| pconf->lcd_basic.h_period = be32_to_cpup((((u32*)propdata)+2)); |
| pconf->lcd_basic.v_period = be32_to_cpup((((u32*)propdata)+3)); |
| pconf->lcd_basic.lcd_bits = be32_to_cpup((((u32*)propdata)+4)); |
| pconf->lcd_basic.screen_width = be32_to_cpup((((u32*)propdata)+5)); |
| pconf->lcd_basic.screen_height = be32_to_cpup((((u32*)propdata)+6)); |
| } |
| |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "range_setting", NULL); |
| if (propdata == NULL) { |
| pconf->lcd_basic.h_period_min = pconf->lcd_basic.h_period; |
| pconf->lcd_basic.h_period_max = pconf->lcd_basic.h_period; |
| pconf->lcd_basic.v_period_min = pconf->lcd_basic.v_period; |
| pconf->lcd_basic.v_period_max = pconf->lcd_basic.v_period; |
| pconf->lcd_basic.lcd_clk_min = 0; |
| pconf->lcd_basic.lcd_clk_max = 0; |
| } else { |
| pconf->lcd_basic.h_period_min = be32_to_cpup((u32*)propdata); |
| pconf->lcd_basic.h_period_max = be32_to_cpup((((u32*)propdata)+1)); |
| pconf->lcd_basic.v_period_min = be32_to_cpup((((u32*)propdata)+2)); |
| pconf->lcd_basic.v_period_max = be32_to_cpup((((u32*)propdata)+3)); |
| pconf->lcd_basic.lcd_clk_min = be32_to_cpup((((u32*)propdata)+4)); |
| pconf->lcd_basic.lcd_clk_max = be32_to_cpup((((u32*)propdata)+5)); |
| } |
| |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "lcd_timing", NULL); |
| if (propdata == NULL) { |
| LCDERR("failed to get lcd_timing\n"); |
| return -1; |
| } else { |
| pconf->lcd_timing.hsync_width = (unsigned short)(be32_to_cpup((u32*)propdata)); |
| pconf->lcd_timing.hsync_bp = (unsigned short)(be32_to_cpup((((u32*)propdata)+1))); |
| pconf->lcd_timing.hsync_pol = (unsigned short)(be32_to_cpup((((u32*)propdata)+2))); |
| pconf->lcd_timing.vsync_width = (unsigned short)(be32_to_cpup((((u32*)propdata)+3))); |
| pconf->lcd_timing.vsync_bp = (unsigned short)(be32_to_cpup((((u32*)propdata)+4))); |
| pconf->lcd_timing.vsync_pol = (unsigned short)(be32_to_cpup((((u32*)propdata)+5))); |
| } |
| |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "clk_attr", NULL); |
| if (propdata == NULL) { |
| LCDERR("failed to get clk_attr\n"); |
| pconf->lcd_timing.fr_adjust_type = 0; |
| pconf->lcd_timing.ss_level = 0; |
| pconf->lcd_timing.clk_auto = 1; |
| pconf->lcd_timing.lcd_clk = 60; |
| } else { |
| pconf->lcd_timing.fr_adjust_type = (unsigned char)(be32_to_cpup((u32*)propdata)); |
| pconf->lcd_timing.ss_level = (unsigned char)(be32_to_cpup((((u32*)propdata)+1))); |
| pconf->lcd_timing.clk_auto = (unsigned char)(be32_to_cpup((((u32*)propdata)+2))); |
| temp = be32_to_cpup((((u32*)propdata)+3)); |
| if (temp > 0) { |
| pconf->lcd_timing.lcd_clk = temp; |
| } else { /* avoid 0 mistake */ |
| pconf->lcd_timing.lcd_clk = 60; |
| LCDERR("lcd_clk is 0, default to 60Hz\n"); |
| } |
| } |
| if (pconf->lcd_timing.clk_auto == 0) { |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "clk_para", NULL); |
| if (propdata == NULL) { |
| LCDERR("failed to get clk_para\n"); |
| pconf->lcd_timing.pll_ctrl = 0x00140248; |
| pconf->lcd_timing.div_ctrl = 0x00000901; |
| pconf->lcd_timing.clk_ctrl = 0x000000c0; |
| } else { |
| pconf->lcd_timing.pll_ctrl = be32_to_cpup((u32*)propdata); |
| pconf->lcd_timing.div_ctrl = be32_to_cpup((((u32*)propdata)+1)); |
| pconf->lcd_timing.clk_ctrl = be32_to_cpup((((u32*)propdata)+2)); |
| } |
| } |
| |
| switch (pconf->lcd_basic.lcd_type) { |
| case LCD_TTL: |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "ttl_attr", NULL); |
| if (propdata == NULL) { |
| LCDERR("failed to get ttl_attr\n"); |
| } else { |
| pconf->lcd_control.ttl_config->clk_pol = be32_to_cpup((u32*)propdata); |
| pconf->lcd_control.ttl_config->sync_valid = |
| (((be32_to_cpup((((u32*)propdata)+1))) << 1) | |
| ((be32_to_cpup((((u32*)propdata)+2))) << 0)); |
| pconf->lcd_control.ttl_config->swap_ctrl = |
| (((be32_to_cpup((((u32*)propdata)+3))) << 1) | |
| ((be32_to_cpup((((u32*)propdata)+4))) << 0)); |
| } |
| break; |
| case LCD_LVDS: |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "lvds_attr", &len); |
| if (propdata == NULL) { |
| LCDERR("failed to get lvds_attr\n"); |
| } else { |
| len = len / 4; |
| if (len == 5) { |
| pconf->lcd_control.lvds_config->lvds_repack = be32_to_cpup((u32*)propdata); |
| pconf->lcd_control.lvds_config->dual_port = be32_to_cpup((((u32*)propdata)+1)); |
| pconf->lcd_control.lvds_config->pn_swap = be32_to_cpup((((u32*)propdata)+2)); |
| pconf->lcd_control.lvds_config->port_swap = be32_to_cpup((((u32*)propdata)+3)); |
| pconf->lcd_control.lvds_config->lane_reverse = be32_to_cpup((((u32*)propdata)+4)); |
| } else if (len == 4) { |
| pconf->lcd_control.lvds_config->lvds_repack = be32_to_cpup((u32*)propdata); |
| pconf->lcd_control.lvds_config->dual_port = be32_to_cpup((((u32*)propdata)+1)); |
| pconf->lcd_control.lvds_config->pn_swap = be32_to_cpup((((u32*)propdata)+2)); |
| pconf->lcd_control.lvds_config->port_swap = be32_to_cpup((((u32*)propdata)+3)); |
| pconf->lcd_control.lvds_config->lane_reverse = 0; |
| } else { |
| LCDERR("invalid lvds_attr parameters cnt: %d\n", len); |
| } |
| } |
| |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "phy_attr", &len); |
| if (propdata == NULL) { |
| if (lcd_debug_print_flag) |
| LCDPR("failed to get phy_attr\n"); |
| pconf->lcd_control.lvds_config->phy_vswing = LVDS_PHY_VSWING_DFT; |
| pconf->lcd_control.lvds_config->phy_preem = LVDS_PHY_PREEM_DFT; |
| } else { |
| len = len / 4; |
| if (len == 4) { |
| pconf->lcd_control.lvds_config->phy_vswing = be32_to_cpup((u32*)propdata); |
| pconf->lcd_control.lvds_config->phy_preem = be32_to_cpup((((u32*)propdata)+1)); |
| pconf->lcd_control.lvds_config->phy_clk_vswing = be32_to_cpup((((u32*)propdata)+2)); |
| pconf->lcd_control.lvds_config->phy_clk_preem = be32_to_cpup((((u32*)propdata)+3)); |
| if (lcd_debug_print_flag) { |
| LCDPR("set phy vswing=0x%x, preemphasis=0x%x\n", |
| pconf->lcd_control.lvds_config->phy_vswing, |
| pconf->lcd_control.lvds_config->phy_preem); |
| LCDPR("set phy clk_vswing=0x%x, clk_preemphasis=0x%x\n", |
| pconf->lcd_control.lvds_config->phy_clk_vswing, |
| pconf->lcd_control.lvds_config->phy_clk_preem); |
| } |
| } else if (len == 2) { |
| pconf->lcd_control.lvds_config->phy_vswing = be32_to_cpup((u32*)propdata); |
| pconf->lcd_control.lvds_config->phy_preem = be32_to_cpup((((u32*)propdata)+1)); |
| pconf->lcd_control.lvds_config->phy_clk_vswing = LVDS_PHY_CLK_VSWING_DFT; |
| pconf->lcd_control.lvds_config->phy_clk_preem = LVDS_PHY_CLK_PREEM_DFT; |
| if (lcd_debug_print_flag) { |
| LCDPR("set phy vswing=0x%x, preemphasis=0x%x\n", |
| pconf->lcd_control.lvds_config->phy_vswing, |
| pconf->lcd_control.lvds_config->phy_preem); |
| } |
| } else { |
| LCDERR("invalid phy_attr parameters cnt: %d\n", len); |
| } |
| } |
| break; |
| case LCD_VBYONE: |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "vbyone_attr", NULL); |
| if (propdata == NULL) { |
| LCDERR("failed to get vbyone_attr\n"); |
| } else { |
| pconf->lcd_control.vbyone_config->lane_count = be32_to_cpup((u32*)propdata); |
| pconf->lcd_control.vbyone_config->region_num = be32_to_cpup((((u32*)propdata)+1)); |
| pconf->lcd_control.vbyone_config->byte_mode = be32_to_cpup((((u32*)propdata)+2)); |
| pconf->lcd_control.vbyone_config->color_fmt = be32_to_cpup((((u32*)propdata)+3)); |
| } |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "phy_attr", NULL); |
| if (propdata == NULL) { |
| if (lcd_debug_print_flag) |
| LCDPR("failed to get phy_attr\n"); |
| pconf->lcd_control.vbyone_config->phy_vswing = VX1_PHY_VSWING_DFT; |
| pconf->lcd_control.vbyone_config->phy_preem = VX1_PHY_PREEM_DFT; |
| } else { |
| pconf->lcd_control.vbyone_config->phy_vswing = be32_to_cpup((u32*)propdata); |
| pconf->lcd_control.vbyone_config->phy_preem = be32_to_cpup((((u32*)propdata)+1)); |
| if (lcd_debug_print_flag) { |
| LCDPR("set phy vswing=%d, preemphasis=%d\n", |
| pconf->lcd_control.vbyone_config->phy_vswing, |
| pconf->lcd_control.vbyone_config->phy_preem); |
| } |
| } |
| break; |
| case LCD_MIPI: |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "mipi_attr", NULL); |
| if (propdata == NULL) { |
| LCDERR("failed to get mipi_attr\n"); |
| } else { |
| pconf->lcd_control.mipi_config->lane_num = be32_to_cpup((u32*)propdata); |
| pconf->lcd_control.mipi_config->bit_rate_max = be32_to_cpup((((u32*)propdata)+1)); |
| pconf->lcd_control.mipi_config->factor_numerator = be32_to_cpup((((u32*)propdata)+2)); |
| pconf->lcd_control.mipi_config->factor_denominator = 100; |
| pconf->lcd_control.mipi_config->operation_mode_init = be32_to_cpup((((u32*)propdata)+3)); |
| pconf->lcd_control.mipi_config->operation_mode_display = be32_to_cpup((((u32*)propdata)+4)); |
| pconf->lcd_control.mipi_config->video_mode_type = be32_to_cpup((((u32*)propdata)+5)); |
| pconf->lcd_control.mipi_config->clk_always_hs = be32_to_cpup((((u32*)propdata)+6)); |
| pconf->lcd_control.mipi_config->phy_switch = be32_to_cpup((((u32*)propdata)+7)); |
| } |
| |
| pconf->lcd_control.mipi_config->check_en = 0; |
| pconf->lcd_control.mipi_config->check_reg = 0xff; |
| pconf->lcd_control.mipi_config->check_cnt = 0; |
| lcd_mipi_dsi_init_table_detect(dt_blob, child_offset, pconf->lcd_control.mipi_config, 1); |
| lcd_mipi_dsi_init_table_detect(dt_blob, child_offset, pconf->lcd_control.mipi_config, 0); |
| |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "extern_init", NULL); |
| if (propdata == NULL) { |
| LCDERR("failed to get extern_init\n"); |
| } else { |
| pconf->lcd_control.mipi_config->extern_init = be32_to_cpup((u32*)propdata); |
| } |
| break; |
| default: |
| LCDERR("invalid lcd type\n"); |
| break; |
| } |
| |
| /* check power_step */ |
| lcd_power_load_from_dts(pconf, dt_blob, child_offset); |
| |
| propdata = (char *)fdt_getprop(dt_blob, child_offset, "backlight_index", NULL); |
| if (propdata == NULL) { |
| LCDERR("failed to get backlight_index\n"); |
| pconf->backlight_index = 0xff; |
| return 0; |
| } else { |
| pconf->backlight_index = be32_to_cpup((u32*)propdata); |
| } |
| |
| return 0; |
| } |
| |
| static int lcd_config_load_from_bsp(struct lcd_config_s *pconf) |
| { |
| struct ext_lcd_config_s *ext_lcd = NULL; |
| char *panel_type = env_get("panel_type"); |
| unsigned int i, j; |
| unsigned int temp; |
| struct lcd_power_step_s *power_step; |
| |
| if (panel_type == NULL) { |
| LCDERR("no panel_type, use default lcd config\n "); |
| return -1; |
| } |
| for (i = 0 ; i < LCD_NUM_MAX ; i++) { |
| ext_lcd = &ext_lcd_config[i]; |
| if (strcmp(ext_lcd->panel_type, panel_type) == 0) |
| break; |
| if (strcmp(ext_lcd->panel_type, "invalid") == 0) { |
| i = LCD_NUM_MAX; |
| break; |
| } |
| } |
| if (i >= LCD_NUM_MAX) { |
| LCDERR("can't find %s, use default lcd config\n ", panel_type); |
| return -1; |
| } |
| LCDPR("use panel_type=%s\n", panel_type); |
| |
| strcpy(pconf->lcd_basic.model_name, panel_type); |
| pconf->lcd_basic.lcd_type = ext_lcd->lcd_type; |
| pconf->lcd_basic.lcd_bits = ext_lcd->lcd_bits; |
| |
| pconf->lcd_basic.h_active = ext_lcd->h_active; |
| pconf->lcd_basic.v_active = ext_lcd->v_active; |
| pconf->lcd_basic.h_period = ext_lcd->h_period; |
| pconf->lcd_basic.v_period = ext_lcd->v_period; |
| |
| pconf->lcd_basic.h_period_min = pconf->lcd_basic.h_period; |
| pconf->lcd_basic.h_period_max = pconf->lcd_basic.h_period; |
| pconf->lcd_basic.v_period_min = pconf->lcd_basic.v_period; |
| pconf->lcd_basic.v_period_max = pconf->lcd_basic.v_period; |
| pconf->lcd_basic.lcd_clk_min = 0; |
| pconf->lcd_basic.lcd_clk_max = 0; |
| |
| pconf->lcd_timing.hsync_width = ext_lcd->hsync_width; |
| pconf->lcd_timing.hsync_bp = ext_lcd->hsync_bp; |
| pconf->lcd_timing.hsync_pol = ext_lcd->hsync_pol; |
| pconf->lcd_timing.vsync_width = ext_lcd->vsync_width; |
| pconf->lcd_timing.vsync_bp = ext_lcd->vsync_bp; |
| pconf->lcd_timing.vsync_pol = ext_lcd->vsync_pol; |
| |
| /* fr_adjust_type */ |
| temp = ext_lcd->customer_val_0; |
| if (temp == Rsv_val) |
| pconf->lcd_timing.fr_adjust_type = 0; |
| else |
| pconf->lcd_timing.fr_adjust_type = (unsigned char)temp; |
| /* ss_level */ |
| temp = ext_lcd->customer_val_1; |
| if (temp == Rsv_val) |
| pconf->lcd_timing.ss_level = 0; |
| else |
| pconf->lcd_timing.ss_level = (unsigned char)temp; |
| /* clk_auto_generate */ |
| temp = ext_lcd->customer_val_2; |
| if (temp == Rsv_val) |
| pconf->lcd_timing.clk_auto = 1; |
| else |
| pconf->lcd_timing.clk_auto = (unsigned char)temp; |
| /* lcd_clk */ |
| temp = ext_lcd->customer_val_3; |
| if (temp == Rsv_val) |
| pconf->lcd_timing.lcd_clk = 60; |
| else |
| pconf->lcd_timing.lcd_clk = temp; |
| |
| if (pconf->lcd_basic.lcd_type == LCD_TTL) { |
| pconf->lcd_control.ttl_config->clk_pol = ext_lcd->if_attr_val0; |
| pconf->lcd_control.ttl_config->sync_valid = |
| ((ext_lcd->if_attr_val1 << 1) | |
| (ext_lcd->if_attr_val2 << 0)); |
| pconf->lcd_control.ttl_config->swap_ctrl = |
| ((ext_lcd->if_attr_val3 << 1) | |
| (ext_lcd->if_attr_val4 << 0)); |
| } else if (pconf->lcd_basic.lcd_type == LCD_LVDS) { |
| pconf->lcd_control.lvds_config->lvds_repack = ext_lcd->if_attr_val0; |
| pconf->lcd_control.lvds_config->dual_port = ext_lcd->if_attr_val1; |
| pconf->lcd_control.lvds_config->pn_swap = ext_lcd->if_attr_val2; |
| pconf->lcd_control.lvds_config->port_swap = ext_lcd->if_attr_val3; |
| pconf->lcd_control.lvds_config->lane_reverse = ext_lcd->if_attr_val4; |
| pconf->lcd_control.lvds_config->phy_vswing = LVDS_PHY_VSWING_DFT; |
| pconf->lcd_control.lvds_config->phy_preem = LVDS_PHY_PREEM_DFT; |
| pconf->lcd_control.lvds_config->phy_clk_vswing = LVDS_PHY_CLK_VSWING_DFT; |
| pconf->lcd_control.lvds_config->phy_clk_preem = LVDS_PHY_CLK_PREEM_DFT; |
| } else if (pconf->lcd_basic.lcd_type == LCD_VBYONE) { |
| pconf->lcd_control.vbyone_config->lane_count = ext_lcd->if_attr_val0; |
| pconf->lcd_control.vbyone_config->region_num = ext_lcd->if_attr_val1; |
| pconf->lcd_control.vbyone_config->byte_mode = ext_lcd->if_attr_val2; |
| pconf->lcd_control.vbyone_config->color_fmt = ext_lcd->if_attr_val3; |
| pconf->lcd_control.vbyone_config->phy_vswing = VX1_PHY_VSWING_DFT; |
| pconf->lcd_control.vbyone_config->phy_preem = VX1_PHY_PREEM_DFT; |
| } else if (pconf->lcd_basic.lcd_type == LCD_MIPI) { |
| pconf->lcd_control.mipi_config->lane_num = ext_lcd->if_attr_val0; |
| pconf->lcd_control.mipi_config->bit_rate_max = ext_lcd->if_attr_val1; |
| pconf->lcd_control.mipi_config->factor_numerator = ext_lcd->if_attr_val2; |
| pconf->lcd_control.mipi_config->operation_mode_init = ext_lcd->if_attr_val3; |
| pconf->lcd_control.mipi_config->operation_mode_display = ext_lcd->if_attr_val4; |
| pconf->lcd_control.mipi_config->video_mode_type = ext_lcd->if_attr_val5; |
| pconf->lcd_control.mipi_config->clk_always_hs = ext_lcd->if_attr_val6; |
| pconf->lcd_control.mipi_config->phy_switch = ext_lcd->if_attr_val7; |
| pconf->lcd_control.mipi_config->factor_denominator = 100; |
| |
| pconf->lcd_control.mipi_config->dsi_init_on = ext_lcd->cmd_init_on; |
| pconf->lcd_control.mipi_config->dsi_init_off = ext_lcd->cmd_init_off; |
| pconf->lcd_control.mipi_config->check_en = 0; |
| pconf->lcd_control.mipi_config->check_reg = 0xff; |
| pconf->lcd_control.mipi_config->check_cnt = 0; |
| lcd_mipi_dsi_init_table_check_bsp(pconf->lcd_control.mipi_config, 1); |
| lcd_mipi_dsi_init_table_check_bsp(pconf->lcd_control.mipi_config, 0); |
| |
| if (ext_lcd->if_attr_val9 == Rsv_val) |
| pconf->lcd_control.mipi_config->extern_init = 0xff; |
| else |
| pconf->lcd_control.mipi_config->extern_init = ext_lcd->if_attr_val9; |
| } |
| |
| i = 0; |
| while (i < LCD_PWR_STEP_MAX) { |
| power_step = &ext_lcd->power_on_step[i]; |
| if (lcd_debug_print_flag) { |
| LCDPR("power_on: step %d: type=%d, index=%d, value=%d, delay=%d\n", |
| i, power_step->type, power_step->index, |
| power_step->value, power_step->delay); |
| } |
| pconf->lcd_power->power_on_step[i].type = power_step->type; |
| pconf->lcd_power->power_on_step[i].index = power_step->index; |
| pconf->lcd_power->power_on_step[i].value = power_step->value; |
| pconf->lcd_power->power_on_step[i].delay = power_step->delay; |
| if (power_step->type >= LCD_POWER_TYPE_MAX) |
| break; |
| else |
| i++; |
| } |
| |
| i = 0; |
| while (i < LCD_PWR_STEP_MAX) { |
| power_step = &ext_lcd->power_off_step[i]; |
| if (lcd_debug_print_flag) { |
| LCDPR("power_off: step %d: type=%d, index=%d, value=%d, delay=%d\n", |
| i, power_step->type, power_step->index, |
| power_step->value, power_step->delay); |
| } |
| pconf->lcd_power->power_off_step[i].type = power_step->type; |
| pconf->lcd_power->power_off_step[i].index = power_step->index; |
| pconf->lcd_power->power_off_step[i].value = power_step->value; |
| pconf->lcd_power->power_off_step[i].delay = power_step->delay; |
| if (power_step->type >= LCD_POWER_TYPE_MAX) |
| break; |
| else |
| i++; |
| } |
| |
| i = 0; |
| while (i < LCD_CPU_GPIO_NUM_MAX) { |
| if (strcmp(pconf->lcd_power->cpu_gpio[i], "invalid") == 0) |
| break; |
| i++; |
| } |
| for (j = i; j < LCD_CPU_GPIO_NUM_MAX; j++) { |
| strcpy(pconf->lcd_power->cpu_gpio[j], "invalid"); |
| } |
| |
| return 0; |
| } |
| |
| static int lcd_config_load_from_unifykey(struct lcd_config_s *pconf) |
| { |
| unsigned char *para; |
| int key_len, len; |
| unsigned char *p; |
| const char *str; |
| struct aml_lcd_unifykey_header_s lcd_header; |
| unsigned int temp; |
| int ret; |
| |
| para = (unsigned char *)malloc(sizeof(unsigned char) * LCD_UKEY_LCD_SIZE); |
| if (!para) { |
| LCDERR("%s: Not enough memory\n", __func__); |
| return -1; |
| } |
| key_len = LCD_UKEY_LCD_SIZE; |
| memset(para, 0, (sizeof(unsigned char) * key_len)); |
| ret = aml_lcd_unifykey_get("lcd", para, &key_len); |
| if (ret) { |
| free(para); |
| return -1; |
| } |
| |
| /* step 1: check header */ |
| len = LCD_UKEY_HEAD_SIZE; |
| ret = aml_lcd_unifykey_len_check(key_len, len); |
| if (ret) { |
| LCDERR("unifykey header length is incorrect\n"); |
| free(para); |
| return -1; |
| } |
| |
| aml_lcd_unifykey_header_check(para, &lcd_header); |
| LCDPR("unifykey version: 0x%04x\n", lcd_header.version); |
| switch (lcd_header.version) { |
| case 2: |
| len = LCD_UKEY_DATA_LEN_V2; /*10+36+18+31+20+44+10*/ |
| break; |
| default: |
| len = LCD_UKEY_DATA_LEN_V1; /*10+36+18+31+20*/ |
| break; |
| } |
| if (lcd_debug_print_flag) { |
| LCDPR("unifykey header:\n"); |
| LCDPR("crc32 = 0x%08x\n", lcd_header.crc32); |
| LCDPR("data_len = %d\n", lcd_header.data_len); |
| LCDPR("reserved = 0x%04x\n", lcd_header.reserved); |
| } |
| |
| /* step 2: check lcd parameters */ |
| ret = aml_lcd_unifykey_len_check(key_len, len); |
| if (ret) { |
| LCDERR("unifykey parameters length is incorrect\n"); |
| free(para); |
| return -1; |
| } |
| |
| /* basic: 36byte */ |
| p = para; |
| *(p + LCD_UKEY_MODEL_NAME - 1) = '\0'; /* ensure string ending */ |
| str = (const char *)(p + LCD_UKEY_HEAD_SIZE); |
| strcpy(pconf->lcd_basic.model_name, str); |
| pconf->lcd_basic.lcd_type = *(p + LCD_UKEY_INTERFACE); |
| pconf->lcd_basic.lcd_bits = *(p + LCD_UKEY_LCD_BITS); |
| pconf->lcd_basic.screen_width = (*(p + LCD_UKEY_SCREEN_WIDTH) | |
| ((*(p + LCD_UKEY_SCREEN_WIDTH + 1)) << 8)); |
| pconf->lcd_basic.screen_height = (*(p + LCD_UKEY_SCREEN_HEIGHT) | |
| ((*(p + LCD_UKEY_SCREEN_HEIGHT + 1)) << 8)); |
| |
| /* timing: 18byte */ |
| pconf->lcd_basic.h_active = (*(p + LCD_UKEY_H_ACTIVE) | |
| ((*(p + LCD_UKEY_H_ACTIVE + 1)) << 8)); |
| pconf->lcd_basic.v_active = (*(p + LCD_UKEY_V_ACTIVE)) | |
| ((*(p + LCD_UKEY_V_ACTIVE + 1)) << 8); |
| pconf->lcd_basic.h_period = (*(p + LCD_UKEY_H_PERIOD)) | |
| ((*(p + LCD_UKEY_H_PERIOD + 1)) << 8); |
| pconf->lcd_basic.v_period = (*(p + LCD_UKEY_V_PERIOD)) | |
| ((*(p + LCD_UKEY_V_PERIOD + 1)) << 8); |
| pconf->lcd_timing.hsync_width = (*(p + LCD_UKEY_HS_WIDTH) | |
| ((*(p + LCD_UKEY_HS_WIDTH + 1)) << 8)); |
| pconf->lcd_timing.hsync_bp = (*(p + LCD_UKEY_HS_BP) | ((*(p + LCD_UKEY_HS_BP + 1)) << 8)); |
| pconf->lcd_timing.hsync_pol = *(p + LCD_UKEY_HS_POL); |
| pconf->lcd_timing.vsync_width = (*(p + LCD_UKEY_VS_WIDTH) | |
| ((*(p + LCD_UKEY_VS_WIDTH + 1)) << 8)); |
| pconf->lcd_timing.vsync_bp = (*(p + LCD_UKEY_VS_BP) | |
| ((*(p + LCD_UKEY_VS_BP + 1)) << 8)); |
| pconf->lcd_timing.vsync_pol = *(p + LCD_UKEY_VS_POL); |
| |
| /* customer: 31byte */ |
| pconf->lcd_timing.fr_adjust_type = *(p + LCD_UKEY_FR_ADJ_TYPE); |
| pconf->lcd_timing.ss_level = *(p + LCD_UKEY_SS_LEVEL); |
| pconf->lcd_timing.clk_auto = *(p + LCD_UKEY_CLK_AUTO_GEN); |
| pconf->lcd_timing.lcd_clk = (*(p + LCD_UKEY_PCLK) | |
| ((*(p + LCD_UKEY_PCLK + 1)) << 8) | |
| ((*(p + LCD_UKEY_PCLK + 2)) << 16) | |
| ((*(p + LCD_UKEY_PCLK + 3)) << 24)); |
| pconf->lcd_basic.h_period_min = (*(p + LCD_UKEY_H_PERIOD_MIN) | |
| ((*(p + LCD_UKEY_H_PERIOD_MIN + 1)) << 8)); |
| pconf->lcd_basic.h_period_max = (*(p + LCD_UKEY_H_PERIOD_MAX) | |
| ((*(p + LCD_UKEY_H_PERIOD_MAX + 1)) << 8)); |
| pconf->lcd_basic.v_period_min = (*(p + LCD_UKEY_V_PERIOD_MIN) | |
| ((*(p + LCD_UKEY_V_PERIOD_MIN + 1)) << 8)); |
| pconf->lcd_basic.v_period_max = (*(p + LCD_UKEY_V_PERIOD_MAX) | |
| ((*(p + LCD_UKEY_V_PERIOD_MAX + 1)) << 8)); |
| pconf->lcd_basic.lcd_clk_min = (*(p + LCD_UKEY_PCLK_MIN) | |
| ((*(p + LCD_UKEY_PCLK_MIN + 1)) << 8) | |
| ((*(p + LCD_UKEY_PCLK_MIN + 2)) << 16) | ((*(p + LCD_UKEY_PCLK_MIN + 3)) << 24)); |
| pconf->lcd_basic.lcd_clk_max = (*(p + LCD_UKEY_PCLK_MAX) | ((*(p + LCD_UKEY_PCLK_MAX + 1)) << 8) | |
| ((*(p + LCD_UKEY_PCLK_MAX + 2)) << 16) | ((*(p + LCD_UKEY_PCLK_MAX + 3)) << 24)); |
| |
| /* interface: 20byte */ |
| if (pconf->lcd_basic.lcd_type == LCD_LVDS) { |
| if (lcd_header.version == 2) { |
| pconf->lcd_control.lvds_config->lvds_repack = |
| (*(p + LCD_UKEY_IF_ATTR_0) | |
| ((*(p + LCD_UKEY_IF_ATTR_0 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.lvds_config->dual_port = |
| (*(p + LCD_UKEY_IF_ATTR_1) | |
| ((*(p + LCD_UKEY_IF_ATTR_1 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.lvds_config->pn_swap = |
| (*(p + LCD_UKEY_IF_ATTR_2) | |
| ((*(p + LCD_UKEY_IF_ATTR_2 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.lvds_config->port_swap = |
| (*(p + LCD_UKEY_IF_ATTR_3) | |
| ((*(p + LCD_UKEY_IF_ATTR_3 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.lvds_config->lane_reverse = |
| (*(p + LCD_UKEY_IF_ATTR_4) | |
| ((*(p + LCD_UKEY_IF_ATTR_4 + 1)) << 8)) & 0xff; |
| } else { |
| pconf->lcd_control.lvds_config->lvds_repack = |
| (*(p + LCD_UKEY_IF_ATTR_0) | |
| ((*(p + LCD_UKEY_IF_ATTR_0 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.lvds_config->dual_port = |
| (*(p + LCD_UKEY_IF_ATTR_1) | |
| ((*(p + LCD_UKEY_IF_ATTR_1 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.lvds_config->pn_swap = |
| (*(p + LCD_UKEY_IF_ATTR_2) | |
| ((*(p + LCD_UKEY_IF_ATTR_2 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.lvds_config->port_swap = |
| (*(p + LCD_UKEY_IF_ATTR_3) | |
| ((*(p + LCD_UKEY_IF_ATTR_3 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.lvds_config->phy_vswing = |
| (*(p + LCD_UKEY_IF_ATTR_4) | |
| ((*(p + LCD_UKEY_IF_ATTR_4 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.lvds_config->phy_preem = |
| (*(p + LCD_UKEY_IF_ATTR_5) | |
| ((*(p + LCD_UKEY_IF_ATTR_5 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.lvds_config->phy_clk_vswing = |
| (*(p + LCD_UKEY_IF_ATTR_6) | |
| ((*(p + LCD_UKEY_IF_ATTR_6 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.lvds_config->phy_clk_preem = |
| (*(p + LCD_UKEY_IF_ATTR_7) | |
| ((*(p + LCD_UKEY_IF_ATTR_7 + 1)) << 8)) & 0xff; |
| |
| pconf->lcd_control.lvds_config->lane_reverse = 0; |
| } |
| } else if (pconf->lcd_basic.lcd_type == LCD_TTL) { |
| pconf->lcd_control.ttl_config->clk_pol = |
| (*(p + LCD_UKEY_IF_ATTR_0) | |
| ((*(p + LCD_UKEY_IF_ATTR_0 + 1)) << 8)) & 0x1; |
| temp = (*(p + LCD_UKEY_IF_ATTR_1) | |
| ((*(p + LCD_UKEY_IF_ATTR_1 + 1)) << 8)) & 0x1; /* de_valid */ |
| pconf->lcd_control.ttl_config->sync_valid = (temp << 1); |
| temp = (*(p + LCD_UKEY_IF_ATTR_2) | |
| ((*(p + LCD_UKEY_IF_ATTR_2 + 1)) << 8)) & 0x1; /* hvsync_valid */ |
| pconf->lcd_control.ttl_config->sync_valid |= (temp << 0); |
| temp = (*(p + LCD_UKEY_IF_ATTR_3) | |
| ((*(p + LCD_UKEY_IF_ATTR_3 + 1)) << 8)) & 0x1; /* rb_swap */ |
| pconf->lcd_control.ttl_config->swap_ctrl = (temp << 1); |
| temp = (*(p + LCD_UKEY_IF_ATTR_4) | |
| ((*(p + LCD_UKEY_IF_ATTR_4 + 1)) << 8)) & 0x1; /* bit_swap */ |
| pconf->lcd_control.ttl_config->swap_ctrl |= (temp << 0); |
| } else if (pconf->lcd_basic.lcd_type == LCD_VBYONE) { |
| if (lcd_header.version == 2) { |
| pconf->lcd_control.vbyone_config->lane_count = |
| (*(p + LCD_UKEY_IF_ATTR_0) | |
| ((*(p + LCD_UKEY_IF_ATTR_0 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.vbyone_config->region_num = |
| (*(p + LCD_UKEY_IF_ATTR_1) | |
| ((*(p + LCD_UKEY_IF_ATTR_1 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.vbyone_config->byte_mode = |
| (*(p + LCD_UKEY_IF_ATTR_2) | |
| ((*(p + LCD_UKEY_IF_ATTR_2 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.vbyone_config->color_fmt = |
| (*(p + LCD_UKEY_IF_ATTR_3) | |
| ((*(p + LCD_UKEY_IF_ATTR_3 + 1)) << 8)) & 0xff; |
| } else { |
| pconf->lcd_control.vbyone_config->lane_count = |
| (*(p + LCD_UKEY_IF_ATTR_0) | |
| ((*(p + LCD_UKEY_IF_ATTR_0 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.vbyone_config->region_num = |
| (*(p + LCD_UKEY_IF_ATTR_1) | |
| ((*(p + LCD_UKEY_IF_ATTR_1 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.vbyone_config->byte_mode = |
| (*(p + LCD_UKEY_IF_ATTR_2) | |
| ((*(p + LCD_UKEY_IF_ATTR_2 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.vbyone_config->color_fmt = |
| (*(p + LCD_UKEY_IF_ATTR_3) | |
| ((*(p + LCD_UKEY_IF_ATTR_3 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.vbyone_config->phy_vswing = |
| (*(p + LCD_UKEY_IF_ATTR_4) | |
| ((*(p + LCD_UKEY_IF_ATTR_4 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.vbyone_config->phy_preem = |
| (*(p + LCD_UKEY_IF_ATTR_5) | |
| ((*(p + LCD_UKEY_IF_ATTR_5 + 1)) << 8)) & 0xff; |
| } |
| } else |
| LCDERR("unsupport lcd_type: %d\n", pconf->lcd_basic.lcd_type); |
| |
| if (lcd_header.version == 2) { |
| /* phy: 10byte */ /* v2 */ |
| if (pconf->lcd_basic.lcd_type == LCD_LVDS) { |
| pconf->lcd_control.lvds_config->phy_vswing = *(p +LCD_UKEY_PHY_ATTR_0); |
| pconf->lcd_control.lvds_config->phy_preem = *(p + LCD_UKEY_PHY_ATTR_1); |
| pconf->lcd_control.lvds_config->phy_clk_vswing = *(p + LCD_UKEY_PHY_ATTR_2); |
| pconf->lcd_control.lvds_config->phy_clk_preem = *(p + LCD_UKEY_PHY_ATTR_3); |
| } else if (pconf->lcd_basic.lcd_type == LCD_VBYONE) { |
| pconf->lcd_control.vbyone_config->phy_vswing = |
| (*(p + LCD_UKEY_PHY_ATTR_0) | |
| ((*(p + LCD_UKEY_PHY_ATTR_0 + 1)) << 8)) & 0xff; |
| pconf->lcd_control.vbyone_config->phy_preem = |
| (*(p + LCD_UKEY_PHY_ATTR_1) | |
| ((*(p + LCD_UKEY_PHY_ATTR_1 + 1)) << 8)) & 0xff; |
| } |
| } |
| |
| /* step 3: check power sequence */ |
| ret = lcd_power_load_from_unifykey(pconf, para, key_len, len); |
| if (ret < 0) { |
| free(para); |
| return -1; |
| } |
| |
| free(para); |
| return 0; |
| } |
| |
| static void lcd_config_init(struct lcd_config_s *pconf) |
| { |
| unsigned int h_period = pconf->lcd_basic.h_period; |
| unsigned int v_period = pconf->lcd_basic.v_period; |
| unsigned int clk = pconf->lcd_timing.lcd_clk; |
| unsigned int sync_duration; |
| |
| if (clk < 200) { /* regard as frame_rate */ |
| sync_duration = clk * 100; |
| pconf->lcd_timing.lcd_clk = clk * h_period * v_period; |
| } else { /* regard as pixel clock */ |
| sync_duration = ((clk / h_period) * 100) / v_period; |
| } |
| pconf->lcd_timing.lcd_clk_dft = pconf->lcd_timing.lcd_clk; |
| pconf->lcd_timing.h_period_dft = pconf->lcd_basic.h_period; |
| pconf->lcd_timing.v_period_dft = pconf->lcd_basic.v_period; |
| pconf->lcd_timing.sync_duration_num = sync_duration; |
| pconf->lcd_timing.sync_duration_den = 100; |
| |
| lcd_timing_init_config(pconf); |
| lcd_tablet_config_update(pconf); |
| lcd_clk_generate_parameter(pconf); |
| } |
| |
| static int lcd_config_check(char *mode) |
| { |
| int ret; |
| |
| ret = check_lcd_output_mode(mode); |
| if (ret) |
| return -1; |
| |
| return 0; |
| } |
| |
| int get_lcd_tablet_config(const void *dt_blob, int load_id) |
| { |
| struct aml_lcd_drv_s *lcd_drv = aml_lcd_get_driver(); |
| int ret = 0; |
| |
| strcpy(lcd_drv->version, LCD_DRV_VERSION); |
| lcd_drv->list_support_mode = lcd_list_support_mode; |
| lcd_drv->outputmode_check = check_lcd_output_mode; |
| lcd_drv->config_check = lcd_config_check; |
| lcd_drv->driver_init_pre = lcd_tablet_driver_init_pre; |
| lcd_drv->driver_init = lcd_tablet_driver_init; |
| lcd_drv->driver_disable = lcd_tablet_driver_disable; |
| |
| if (load_id & 0x10) { /* unifykey */ |
| ret = lcd_config_load_from_unifykey(lcd_drv->lcd_config); |
| ret = lcd_pinmux_load_config(dt_blob, lcd_drv->lcd_config); |
| } else if (load_id & 0x1) { /* dts */ |
| ret = lcd_config_load_from_dts(dt_blob, lcd_drv->lcd_config); |
| ret = lcd_pinmux_load_config(dt_blob, lcd_drv->lcd_config); |
| } else { /* bsp */ |
| ret = lcd_config_load_from_bsp(lcd_drv->lcd_config); |
| } |
| if (ret) |
| return -1; |
| |
| lcd_config_init(lcd_drv->lcd_config); |
| lcd_config_load_print(lcd_drv->lcd_config); |
| |
| return 0; |
| } |
| |
| |
