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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2008 Advanced Micro Devices, Inc.
* Copyright (C) 2010 Siemens AG, Inc.
* (Written by Josef Kellermann <joseph.kellermann@heitec.de> for Siemens AG, Inc.)
*
* 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; version 2 of the License.
*
* 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.
*/
#include <console/console.h>
#include <device/device.h>
#include <device/pci.h>
#include <arch/io.h>
#include <arch/interrupt.h>
#include <delay.h>
#include <cpu/x86/msr.h>
#include <cpu/amd/mtrr.h>
#include <device/pci_def.h>
#include <pc80/mc146818rtc.h>
#include <cpu/x86/lapic.h>
#include <southbridge/amd/sb600/sb600.h>
#include <southbridge/amd/rs690/chip.h>
#include <southbridge/amd/rs690/rs690.h>
#include <superio/ite/it8712f/it8712f.h>
#if CONFIG_PCI_OPTION_ROM_RUN_YABEL
#include <x86emu/x86emu.h>
#endif
#include "int15_func.h"
#include "mainboard.h"
// ****LCD panel ID support: *****
// Callback Sub-Function 00h - Get LCD Panel ID
#define PANEL_TABLE_ID_NO 0 // no LCD
#define PANEL_TABLE_ID1 1 // 1024x768_65MHz_Dual
#define PANEL_TABLE_ID2 2 // 920x1200_162MHz
#define PANEL_TABLE_ID3 3 // 600x1200_162MHz
#define PANEL_TABLE_ID4 4 // 1024x768_65MHz
#define PANEL_TABLE_ID5 5 // 1400x1050_108MHz
#define PANEL_TABLE_ID6 6 // 1680x1050_119MHz
#define PANEL_TABLE_ID7 7 // 2048x1536_164MHz
#define PANEL_TABLE_ID8 8 // 1280x1024_108MHz
#define PANEL_TABLE_ID9 9 // 1366x768_86MHz_chimei_V32B1L01
// Callback Sub-Function 05h - Select Boot-up TV Standard
#define TV_MODE_00 0x00 /* NTSC */
#define TV_MODE_01 0x01 /* PAL */
#define TV_MODE_02 0x02 /* PALM */
#define TV_MODE_03 0x03 /* PAL60 */
#define TV_MODE_04 0x04 /* NTSCJ */
#define TV_MODE_05 0x05 /* PALCN */
#define TV_MODE_06 0x06 /* PALN */
#define TV_MODE_09 0x09 /* SCART-RGB */
#define TV_MODE_NO 0xff /* No TV Support */
#define PLX_VIDDID 0x861610b5
/* 7475 Common Registers */
#define REG_DEVREV2 0x12 /* ADT7490 only */
#define REG_VTT 0x1E /* ADT7490 only */
#define REG_EXTEND3 0x1F /* ADT7490 only */
#define REG_VOLTAGE_BASE 0x20
#define REG_TEMP_BASE 0x25
#define REG_TACH_BASE 0x28
#define REG_PWM_BASE 0x30
#define REG_PWM_MAX_BASE 0x38
#define REG_DEVID 0x3D
#define REG_VENDID 0x3E
#define REG_DEVID2 0x3F
#define REG_STATUS1 0x41
#define REG_STATUS2 0x42
#define REG_VID 0x43 /* ADT7476 only */
#define REG_VOLTAGE_MIN_BASE 0x44
#define REG_VOLTAGE_MAX_BASE 0x45
#define REG_TEMP_MIN_BASE 0x4E
#define REG_TEMP_MAX_BASE 0x4F
#define REG_TACH_MIN_BASE 0x54
#define REG_PWM_CONFIG_BASE 0x5C
#define REG_TEMP_TRANGE_BASE 0x5F
#define REG_PWM_MIN_BASE 0x64
#define REG_TEMP_TMIN_BASE 0x67
#define REG_TEMP_THERM_BASE 0x6A
#define REG_REMOTE1_HYSTERSIS 0x6D
#define REG_REMOTE2_HYSTERSIS 0x6E
#define REG_TEMP_OFFSET_BASE 0x70
#define REG_CONFIG2 0x73
#define REG_EXTEND1 0x76
#define REG_EXTEND2 0x77
#define REG_CONFIG1 0x40 // ADT7475
#define REG_CONFIG3 0x78
#define REG_CONFIG5 0x7C
#define REG_CONFIG6 0x10 // ADT7475
#define REG_CONFIG7 0x11 // ADT7475
#define REG_CONFIG4 0x7D
#define REG_STATUS4 0x81 /* ADT7490 only */
#define REG_VTT_MIN 0x84 /* ADT7490 only */
#define REG_VTT_MAX 0x86 /* ADT7490 only */
#define VID_VIDSEL 0x80 /* ADT7476 only */
#define CONFIG2_ATTN 0x20
#define CONFIG3_SMBALERT 0x01
#define CONFIG3_THERM 0x02
#define CONFIG4_PINFUNC 0x03
#define CONFIG4_MAXDUTY 0x08
#define CONFIG4_ATTN_IN10 0x30
#define CONFIG4_ATTN_IN43 0xC0
#define CONFIG5_TWOSCOMP 0x01
#define CONFIG5_TEMPOFFSET 0x02
#define CONFIG5_VIDGPIO 0x10 /* ADT7476 only */
#define REMOTE1 0
#define LOCAL 1
#define REMOTE2 2
/* ADT7475 Settings */
#define ADT7475_VOLTAGE_COUNT 5 /* Not counting Vtt */
#define ADT7475_TEMP_COUNT 3
#define ADT7475_TACH_COUNT 4
#define ADT7475_PWM_COUNT 3
/* Macros to easily index the registers */
#define TACH_REG(idx) (REG_TACH_BASE + ((idx) * 2))
#define TACH_MIN_REG(idx) (REG_TACH_MIN_BASE + ((idx) * 2))
#define PWM_REG(idx) (REG_PWM_BASE + (idx))
#define PWM_MAX_REG(idx) (REG_PWM_MAX_BASE + (idx))
#define PWM_MIN_REG(idx) (REG_PWM_MIN_BASE + (idx))
#define PWM_CONFIG_REG(idx) (REG_PWM_CONFIG_BASE + (idx))
#define VOLTAGE_REG(idx) (REG_VOLTAGE_BASE + (idx))
#define VOLTAGE_MIN_REG(idx) (REG_VOLTAGE_MIN_BASE + ((idx) * 2))
#define VOLTAGE_MAX_REG(idx) (REG_VOLTAGE_MAX_BASE + ((idx) * 2))
#define TEMP_REG(idx) (REG_TEMP_BASE + (idx))
#define TEMP_MIN_REG(idx) (REG_TEMP_MIN_BASE + ((idx) * 2))
#define TEMP_MAX_REG(idx) (REG_TEMP_MAX_BASE + ((idx) * 2))
#define TEMP_TMIN_REG(idx) (REG_TEMP_TMIN_BASE + (idx))
#define TEMP_THERM_REG(idx) (REG_TEMP_THERM_BASE + (idx))
#define TEMP_OFFSET_REG(idx) (REG_TEMP_OFFSET_BASE + (idx))
#define TEMP_TRANGE_REG(idx) (REG_TEMP_TRANGE_BASE + (idx))
#define SMBUS_IO_BASE 0x1000
#define ADT7475_ADDRESS 0x2E
#define D_OPEN (1 << 6)
#define D_CLS (1 << 5)
#define D_LCK (1 << 4)
#define G_SMRAME (1 << 3)
#define A_BASE_SEG ((0 << 2) | (1 << 1) | (0 << 0)) // 0x2: SMM space at 640KB-768KB
extern int do_smbus_read_byte(u32 smbus_io_base, u32 device, u32 address);
extern int do_smbus_write_byte(u32 smbus_io_base, u32 device, u32 address, u8 val);
static u32 smbus_io_base = SMBUS_IO_BASE;
static u32 adt7475_address = ADT7475_ADDRESS;
/* Macro to read the registers */
#define adt7475_read_byte(reg) \
do_smbus_read_byte(smbus_io_base, adt7475_address, reg)
#define adt7475_write_byte(reg, val) \
do_smbus_write_byte(smbus_io_base, adt7475_address, reg, val)
#define TWOS_COMPL 1
struct __table__{
const char *info;
u8 val;
};
struct __table__ dutycycles[] = {
{"25%", 0x3f},{"30%", 0x4c},{"35%", 0x59},{"40%", 0x66},{"45%", 0x73},
{"50%", 0x80},{"55%", 0x8d},{"60%", 0x9a},{"65%", 0xa7},{"70%", 0xb4},
{"75%", 0xc1},{"80%", 0xce},{"85%", 0xdb},{"90%", 0xe8},{"95%", 0xf5},
{"100%", 0xff}
};
#define SIZEOF_DUTYCYCLES sizeof(dutycycles)/sizeof(struct __table__)
#define DUTYCYCLE(i,d) (i < SIZEOF_DUTYCYCLES) ? dutycycles[i].val : dutycycles[d].val // hopefully d is a correct value !!! fix
#define DUTYCYCLE_INFO(i) (i < SIZEOF_DUTYCYCLES) ? dutycycles[i].info : "out_of_range"
#if TWOS_COMPL == 0
struct __table__ temperatures[] = {
{"30C", 0x5e},{"35C", 0x63},{"40C", 0x68},{"45C", 0x6d},{"50C", 0x72},
{"55C", 0x77},{"60C", 0x7c},{"65C", 0x81},{"70C", 0x86},{"75C", 0x8b},
{"80C", 0x90}
};
#else
struct __table__ temperatures[] = {
{"30C", 30},{"35C", 35},{"40C", 40},{"45C", 45},{"50C", 50},
{"55C", 55},{"60C", 60},{"65C", 65},{"70C", 70},{"75C", 75},
{"80C", 80}
};
#endif
// FIXME: implicit conversion from 'double' to 'int'
// int trange[] = {2.0,2.5,3.33,4.0,5.0,6.67,8.0,10.0,13.33,16.0,20.0,26.67,32.0,40.0,53.33,80.0};
int trange[] = {2,2,3,4,5,6,8,10,13,16,20,26,32,40,53,80};
#define SIZEOF_TEMPERATURES sizeof(temperatures)/sizeof(struct __table__)
#define TEMPERATURE(i,d) (i < SIZEOF_TEMPERATURES) ? temperatures[i].val : temperatures[d].val // hopefully d is a correct value !!! fix
#define TEMPERATURE_INFO(i) (i < SIZEOF_TEMPERATURES) ? temperatures[i].info : "out of range"
struct fan_control {
unsigned int enable : 1;
u8 polarity;
u8 t_min;
u8 t_max;
u8 pwm_min;
u8 pwm_max;
u8 t_range;
};
/* ############################################################################################# */
#if CONFIG_PCI_OPTION_ROM_RUN_YABEL
static int int15_handler(void)
{
#define BOOT_DISPLAY_DEFAULT 0
#define BOOT_DISPLAY_CRT (1 << 0)
#define BOOT_DISPLAY_TV (1 << 1)
#define BOOT_DISPLAY_EFP (1 << 2)
#define BOOT_DISPLAY_LCD (1 << 3)
#define BOOT_DISPLAY_CRT2 (1 << 4)
#define BOOT_DISPLAY_TV2 (1 << 5)
#define BOOT_DISPLAY_EFP2 (1 << 6)
#define BOOT_DISPLAY_LCD2 (1 << 7)
printk(BIOS_DEBUG, "%s: AX=%04x BX=%04x CX=%04x DX=%04x\n",
__func__, X86_AX, X86_BX, X86_CX, X86_DX);
switch (X86_AX) {
case 0x4e08: /* Boot Display */
switch (X86_BX) {
case 0x80:
X86_AX &= ~(0xff); // Success
X86_BX &= ~(0xff);
printk(BIOS_DEBUG, "Integrated System Information\n");
break;
case 0x00:
X86_AX &= ~(0xff);
X86_BX = 0x00;
printk(BIOS_DEBUG, "Panel ID = 0\n");
break;
case 0x05:
X86_AX &= ~(0xff);
X86_BX = 0xff;
printk(BIOS_DEBUG, "TV = off\n");
break;
default:
return 0;
}
break;
case 0x5f35: /* Boot Display */
X86_AX = 0x005f; // Success
X86_CL = BOOT_DISPLAY_DEFAULT;
break;
case 0x5f40: /* Boot Panel Type */
// M.x86.R_AX = 0x015f; // Supported but failed
X86_AX = 0x005f; // Success
X86_CL = 3; // Display ID
break;
default:
/* Interrupt was not handled */
return 0;
}
/* Interrupt handled */
return 1;
}
#endif
/* ############################################################################################# */
static u8 calc_trange(u8 t_min, u8 t_max) {
u8 prev;
int i;
int diff = t_max - t_min;
// walk through the trange table
for(i = 0, prev = 0; i < sizeof(trange)/sizeof(int); i++) {
if( trange[i] < diff ) {
prev = i; // save last val
continue;
}
if( diff == trange[i] ) return i;
if( (diff - trange[prev]) < (trange[i] - diff) ) break; // return with last val index
return i;
}
return prev;
}
/********************************************************
* sina uses SB600 GPIO9 to detect IDE_DMA66.
* IDE_DMA66 is routed to GPIO 9. So we read Gpio 9 to
* get the cable type, 40 pin or 80 pin?
********************************************************/
static void cable_detect(void)
{
u8 byte;
struct device *sm_dev;
struct device *ide_dev;
/* SMBus Module and ACPI Block (Device 20, Function 0) on SB600 */
printk(BIOS_DEBUG, "%s.\n", __func__);
sm_dev = dev_find_slot(0, PCI_DEVFN(0x14, 0));
byte = pci_read_config8(sm_dev, 0xA9);
byte |= (1 << 5); /* Set Gpio9 as input */
pci_write_config8(sm_dev, 0xA9, byte);
/* IDE Controller (Device 20, Function 1) on SB600 */
ide_dev = dev_find_slot(0, PCI_DEVFN(0x14, 1));
byte = pci_read_config8(ide_dev, 9);
printk(BIOS_INFO, "IDE controller in %s Mode\n", byte & (1 << 0) ? "Native" : "Compatibility");
byte = pci_read_config8(ide_dev, 0x56);
byte &= ~(7 << 0);
if( pci_read_config8(sm_dev, 0xAA) & (1 << 5) )
byte |= 2 << 0; /* mode 2 */
else
byte |= 5 << 0; /* mode 5 */
printk(BIOS_INFO, "DMA mode %d selected\n", byte & (7 << 0));
pci_write_config8(ide_dev, 0x56, byte);
}
/**
* @brief Detect the ADT7475 device
*
*/
static const char * adt7475_detect( void ) {
int vendid, devid, devid2;
const char *name = NULL;
vendid = adt7475_read_byte(REG_VENDID);
devid2 = adt7475_read_byte(REG_DEVID2);
if (vendid != 0x41 || (devid2 & 0xf8) != 0x68) /* Analog Devices */
return name;
devid = adt7475_read_byte(REG_DEVID);
if (devid == 0x73)
name = "adt7473";
else if (devid == 0x75 && adt7475_address == 0x2e)
name = "adt7475";
else if (devid == 0x76)
name = "adt7476";
else if ((devid2 & 0xfc) == 0x6c)
name = "adt7490";
return name;
}
// thermal control defaults
const struct fan_control cpu_fan_control_defaults = {
.enable = 0, // disable by default
.polarity = 0, // high by default
.t_min = 3, // default = 45°C
.t_max = 7, // 65°C
.pwm_min = 1, // default dutycycle = 30%
.pwm_max = 13, // 90%
};
const struct fan_control case_fan_control_defaults = {
.enable = 0, // disable by default
.polarity = 0, // high by default
.t_min = 2, // default = 40°C
.t_max = 8, // 70°C
.pwm_min = 0, // default dutycycle = 25%
.pwm_max = 13, // 90%
};
static void pm_init( void )
{
u16 word;
u8 byte;
device_t sm_dev = dev_find_slot(0, PCI_DEVFN(0x14, 0));
/* set SB600 GPIO 64 to GPIO with pull-up */
byte = pm2_ioread(0x42);
byte &= 0x3f;
pm2_iowrite(0x42, byte);
/* set GPIO 64 to tristate */
word = pci_read_config16(sm_dev, 0x56);
word |= 1 << 7;
pci_write_config16(sm_dev, 0x56, word);
/* set GPIO 64 internal pull-up */
byte = pm2_ioread(0xf0);
byte &= 0xee;
pm2_iowrite(0xf0, byte);
/* set Talert to be active low */
byte = pm_ioread(0x67);
byte &= ~(1 << 5);
pm_iowrite(0x67, byte);
/* set Talert to generate ACPI event */
byte = pm_ioread(0x3c);
byte &= 0xf3;
pm_iowrite(0x3c, byte);
/* set GPM5 to not wake from s5 */
byte = pm_ioread(0x77);
byte &= ~(1 << 5);
pm_iowrite(0x77, byte);
}
/**
* @brief Setup thermal config on SINA Mainboard
*
*/
static void set_thermal_config(void)
{
u8 byte, byte2;
u8 cpu_pwm_conf, case_pwm_conf;
device_t sm_dev;
struct fan_control cpu_fan_control, case_fan_control;
const char *name = NULL;
sm_dev = dev_find_slot(0, PCI_DEVFN(0x14, 0));
smbus_io_base = pci_read_config32(sm_dev, 0x10) & ~(0xf); // get BAR0-Address which holds the SMBUS_IO_BASE
if( (name = adt7475_detect()) == NULL ) {
printk(BIOS_NOTICE, "Couldn't detect an ADT7473/75/76/90 part at %x:%x\n", smbus_io_base, adt7475_address);
return;
}
printk(BIOS_DEBUG, "Found %s part at %x:%x\n", name, smbus_io_base, adt7475_address);
cpu_fan_control = cpu_fan_control_defaults;
case_fan_control = case_fan_control_defaults;
if (get_option(&byte, "cpu_fan_control") == CB_CMOS_CHECKSUM_INVALID) {
printk(BIOS_WARNING, "%s: CMOS checksum invalid, keeping default values\n",__func__);
} else {
// get all the options needed
if( get_option(&byte, "cpu_fan_control") == CB_SUCCESS )
cpu_fan_control.enable = byte ? 1 : 0;
get_option(&cpu_fan_control.polarity, "cpu_fan_polarity");
get_option(&cpu_fan_control.t_min, "cpu_t_min");
get_option(&cpu_fan_control.t_max, "cpu_t_max");
get_option(&cpu_fan_control.pwm_min, "cpu_dutycycle_min");
get_option(&cpu_fan_control.pwm_max, "cpu_dutycycle_max");
if( get_option(&byte, "chassis_fan_control") == CB_SUCCESS)
case_fan_control.enable = byte ? 1 : 0;
get_option(&case_fan_control.polarity, "chassis_fan_polarity");
get_option(&case_fan_control.t_min, "chassis_t_min");
get_option(&case_fan_control.t_max, "chassis_t_max");
get_option(&case_fan_control.pwm_min, "chassis_dutycycle_min");
get_option(&case_fan_control.pwm_max, "chassis_dutycycle_max");
}
printk(BIOS_DEBUG, "cpu_fan_control:%s", cpu_fan_control.enable ? "enable" : "disable");
printk(BIOS_DEBUG, " cpu_fan_polarity:%s", cpu_fan_control.polarity ? "low" : "high");
printk(BIOS_DEBUG, " cpu_t_min:%s", TEMPERATURE_INFO(cpu_fan_control.t_min));
cpu_fan_control.t_min = TEMPERATURE(cpu_fan_control.t_min, cpu_fan_control_defaults.t_min);
printk(BIOS_DEBUG, " cpu_t_max:%s", TEMPERATURE_INFO(cpu_fan_control.t_max));
cpu_fan_control.t_max = TEMPERATURE(cpu_fan_control.t_max, cpu_fan_control_defaults.t_max);
printk(BIOS_DEBUG, " cpu_pwm_min:%s", DUTYCYCLE_INFO(cpu_fan_control.pwm_min));
cpu_fan_control.pwm_min = DUTYCYCLE(cpu_fan_control.pwm_min, cpu_fan_control_defaults.pwm_min);
printk(BIOS_DEBUG, " cpu_pwm_max:%s", DUTYCYCLE_INFO(cpu_fan_control.pwm_max));
cpu_fan_control.pwm_max = DUTYCYCLE(cpu_fan_control.pwm_max, cpu_fan_control_defaults.pwm_max);
cpu_fan_control.t_range = calc_trange(cpu_fan_control.t_min, cpu_fan_control.t_max);
printk(BIOS_DEBUG, " cpu_t_range:0x%02x\n", cpu_fan_control.t_range);
cpu_fan_control.t_range <<= 4;
cpu_fan_control.t_range |= (4 << 0); // 35.3Hz
printk(BIOS_DEBUG, "chassis_fan_control:%s", case_fan_control.enable ? "enable" : "disable");
printk(BIOS_DEBUG, " chassis_fan_polarity:%s", case_fan_control.polarity ? "low" : "high");
printk(BIOS_DEBUG, " chassis_t_min:%s", TEMPERATURE_INFO(case_fan_control.t_min));
case_fan_control.t_min = TEMPERATURE(case_fan_control.t_min, case_fan_control_defaults.t_min);
printk(BIOS_DEBUG, " chassis_t_max:%s", TEMPERATURE_INFO(case_fan_control.t_max));
case_fan_control.t_max = TEMPERATURE(case_fan_control.t_max, case_fan_control_defaults.t_max);
printk(BIOS_DEBUG, " chassis_pwm_min:%s", DUTYCYCLE_INFO(case_fan_control.pwm_min));
case_fan_control.pwm_min = DUTYCYCLE(case_fan_control.pwm_min, case_fan_control_defaults.pwm_min);
printk(BIOS_DEBUG, " chassis_pwm_max:%s", DUTYCYCLE_INFO(case_fan_control.pwm_max));
case_fan_control.pwm_max = DUTYCYCLE(case_fan_control.pwm_max, case_fan_control_defaults.pwm_max);
case_fan_control.t_range = calc_trange(case_fan_control.t_min, case_fan_control.t_max);
printk(BIOS_DEBUG, " case_t_range:0x%02x\n", case_fan_control.t_range);
case_fan_control.t_range <<= 4;
case_fan_control.t_range |= (4 << 0); // 35.3Hz
cpu_pwm_conf = (((cpu_fan_control.polarity & 0x1) << 4) | 0x2); // bit 4 control polarity of PWMx output
case_pwm_conf = (((case_fan_control.polarity & 0x1) << 4) | 0x2); // bit 4 control polarity of PWMx output
cpu_pwm_conf |= cpu_fan_control.enable ? (0 << 5) : (7 << 5); // manual control
case_pwm_conf |= case_fan_control.enable ? (1 << 5) : (7 << 5); // local temp
/* set adt7475 */
adt7475_write_byte(REG_CONFIG1, 0x04); // clear register, bit 2 is read only
/* Config Register 6: */
adt7475_write_byte(REG_CONFIG6, 0x00);
/* Config Register 7 */
adt7475_write_byte(REG_CONFIG7, 0x00);
/* Config Register 5: */
/* set Offset 64 format, enable THERM on Remote 1& Local */
adt7475_write_byte(REG_CONFIG5, TWOS_COMPL ? 0x61 : 0x60);
/* No offset for remote 1 */
adt7475_write_byte(TEMP_OFFSET_REG(0), 0x00);
/* No offset for local */
adt7475_write_byte(TEMP_OFFSET_REG(1), 0x00);
/* No offset for remote 2 */
adt7475_write_byte(TEMP_OFFSET_REG(2), 0x00);
/* remote 1 low temp limit */
adt7475_write_byte(TEMP_MIN_REG(0), 0x00);
/* remote 1 High temp limit (90C) */
adt7475_write_byte(TEMP_MAX_REG(0), 0x9a);
/* local Low Temp Limit */
adt7475_write_byte(TEMP_MIN_REG(1), 0x00);
/* local High Limit (90C) */
adt7475_write_byte(TEMP_MAX_REG(1), 0x9a);
/* remote 1 therm temp limit (95C) */
adt7475_write_byte(TEMP_THERM_REG(0), 0x9f);
/* local therm temp limit (95C) */
adt7475_write_byte(TEMP_THERM_REG(1), 0x9f);
/* PWM 1 configuration register CPU fan controlled by CPU Thermal Diode */
adt7475_write_byte(PWM_CONFIG_REG(0), cpu_pwm_conf);
/* PWM 3 configuration register Case fan controlled by ADTxxxx temp */
adt7475_write_byte(PWM_CONFIG_REG(2), case_pwm_conf);
if( cpu_fan_control.enable ) {
/* PWM 1 minimum duty cycle (37%) */
adt7475_write_byte(PWM_MIN_REG(0), cpu_fan_control.pwm_min);
/* PWM 1 Maximum duty cycle (100%) */
adt7475_write_byte(PWM_MAX_REG(0), cpu_fan_control.pwm_max);
/* Remote 1 temperature Tmin (32C) */
adt7475_write_byte(TEMP_TMIN_REG(0), cpu_fan_control.t_min);
/* remote 1 Trange (53C ramp range) */
adt7475_write_byte(TEMP_TRANGE_REG(0), cpu_fan_control.t_range);
} else {
adt7475_write_byte(PWM_REG(0), cpu_fan_control.pwm_max);
}
if( case_fan_control.enable ) {
/* PWM 2 minimum duty cycle (37%) */
adt7475_write_byte(PWM_MIN_REG(2), case_fan_control.pwm_min);
/* PWM 2 Maximum Duty Cycle (100%) */
adt7475_write_byte(PWM_MAX_REG(2), case_fan_control.pwm_max);
/* local temperature Tmin (32C) */
adt7475_write_byte(TEMP_TMIN_REG(1), case_fan_control.t_min);
/* local Trange (53C ramp range) */
adt7475_write_byte(TEMP_TRANGE_REG(1), case_fan_control.t_range); // Local TRange
adt7475_write_byte(TEMP_TRANGE_REG(2), case_fan_control.t_range); // PWM2 Freq
} else {
adt7475_write_byte(PWM_REG(2), case_fan_control.pwm_max);
}
/* Config Register 3 - enable smbalert & therm */
adt7475_write_byte(0x78, 0x03);
/* Config Register 4 - enable therm output */
adt7475_write_byte(0x7d, 0x09);
/* Interrupt Mask Register 2 - Mask SMB alert for Therm Conditions, Fan 3 fault, SmbAlert Fan for Therm Timer event */
adt7475_write_byte(0x75, 0x2e);
/* Config Register 1 Set Start bit */
adt7475_write_byte(0x40, 0x05);
/* Read status register to clear any old errors */
byte2 = adt7475_read_byte(0x42);
byte = adt7475_read_byte(0x41);
printk(BIOS_DEBUG, "Init 'Thermal Monitor' end , status 0x42 = 0x%02x, status 0x41 = 0x%02x\n",
byte2, byte);
}
static void patch_mmio_nonposted( void )
{
unsigned reg, index;
resource_t rbase, rend;
u32 base, limit;
struct resource *resource;
device_t dev;
device_t k8_f1 = dev_find_slot(0, PCI_DEVFN(0x18,1));
printk(BIOS_DEBUG,"%s ...\n", __func__);
dev = dev_find_slot(1, PCI_DEVFN(5,0));
// the uma frame buffer
index = 0x10;
resource = probe_resource(dev, index);
if( resource ) {
// fixup resource nonposted in k8 mmio
/* Get the base address */
rbase = (resource->base >> 8) & ~(0xff);
/* Get the limit (rounded up) */
rend = (resource_end(resource) >> 8) & ~(0xff);
printk(BIOS_DEBUG,"%s %x base = %0llx limit = %0llx\n", dev_path(dev), index, rbase, rend);
for( reg = 0xb8; reg >= 0x80; reg -= 8 ) {
base = pci_read_config32(k8_f1,reg);
limit = pci_read_config32(k8_f1,reg+4);
printk(BIOS_DEBUG," %02x[%08x] %02x[%08x]", reg, base, reg+4, limit);
if( ((base & ~(0xff)) == rbase) && ((limit & ~(0xff)) == rend) ) {
limit |= (1 << 7);
printk(BIOS_DEBUG, "\nPatching %s %x <- %08x", dev_path(k8_f1), reg, limit);
pci_write_config32(k8_f1, reg+4, limit);
break;
}
}
printk(BIOS_DEBUG, "\n");
}
}
struct {
unsigned int bus;
unsigned int devfn;
} slot[] = {
{0, PCI_DEVFN(0,0)},
{0, PCI_DEVFN(18,0)},
{0, PCI_DEVFN(19,0)},{0, PCI_DEVFN(19,1)},{0, PCI_DEVFN(19,2)},{0, PCI_DEVFN(19,3)},{0, PCI_DEVFN(19,4)},{0, PCI_DEVFN(19,5)},
{0, PCI_DEVFN(20,0)},{0, PCI_DEVFN(20,1)},{0, PCI_DEVFN(20,2)},{0, PCI_DEVFN(20,3)},{0, PCI_DEVFN(20,5)},{0, PCI_DEVFN(20,6)},
{0, PCI_DEVFN(5,0)},{0, PCI_DEVFN(5,2)},
{255,0},
};
unsigned int plx_present = 0;
static void update_subsystemid( device_t dev )
{
int i;
dev->subsystem_vendor = 0x110a;
if( plx_present ){
dev->subsystem_device = 0x4076; // U1P1 = 0x4076, U1P0 = 0x4077
} else {
dev->subsystem_device = 0x4077; // U1P0 = 0x4077
}
printk(BIOS_INFO, "%s [%x/%x]\n", dev_name(dev), dev->subsystem_vendor, dev->subsystem_device );
for( i = 0; slot[i].bus < 255; i++) {
device_t d;
d = dev_find_slot(slot[i].bus,slot[i].devfn);
if( d ) {
printk(BIOS_DEBUG,"%s subsystem <- %x/%x\n", dev_path(d), dev->subsystem_vendor, dev->subsystem_device);
d->subsystem_device = dev->subsystem_device;
}
}
}
static void detect_hw_variant( device_t dev )
{
device_t nb_dev =0, dev2 = 0;
struct southbridge_amd_rs690_config *cfg;
u32 lc_state, id = 0;
printk(BIOS_INFO, "Scan for PLX device ...\n");
nb_dev = dev_find_slot(0, PCI_DEVFN(0, 0));
if (!nb_dev) {
die("CAN NOT FIND RS690 DEVICE, HALT!\n");
/* NOT REACHED */
}
dev2 = dev_find_slot(0, PCI_DEVFN(2, 0));
if (!dev2) {
die("CAN NOT FIND GFX DEVICE 2, HALT!\n");
/* NOT REACHED */
}
PcieReleasePortTraining(nb_dev, dev2, 2); // we assume PLX is connected to port 2
mdelay(40);
lc_state = nbpcie_p_read_index(dev2, 0xa5); /* lc_state */
printk(BIOS_DEBUG, "lc current state=%x\n", lc_state);
/* LC_CURRENT_STATE = bit0-5 */
switch( lc_state & 0x3f ){
case 0x00:
case 0x01:
case 0x02:
case 0x03:
case 0x04:
printk(BIOS_NOTICE, "No device present, skipping PLX scan ..\n");
break;
case 0x07:
case 0x10:
{
struct device dummy;
u32 pci_primary_bus, buses;
u16 secondary, subordinate;
printk(BIOS_DEBUG, "Scan for PLX bridge behind %s[%x]\n", dev_path(dev2), pci_read_config32(dev2, PCI_VENDOR_ID));
// save the existing primary/secondary/subordinate bus number configuration.
secondary = dev2->bus->secondary;
subordinate = dev2->bus->subordinate;
buses = pci_primary_bus = pci_read_config32(dev2, PCI_PRIMARY_BUS);
// Configure the bus numbers for this bridge
// bus number 1 is for internal gfx device, so we start with busnumber 2
buses &= 0xff000000;
buses |= ((2 << 8) | (0xff << 16));
// setup the buses in device 2
pci_write_config32(dev2,PCI_PRIMARY_BUS, buses);
// fake a device descriptor for a device behind device 2
dummy.bus = dev2->bus;
dummy.bus->secondary = (buses >> 8) & 0xff;
dummy.bus->subordinate = (buses >> 16) & 0xff;
dummy.path.type = DEVICE_PATH_PCI;
dummy.path.pci.devfn = PCI_DEVFN(0,0); // PLX: device number 0, function 0
id = pci_read_config32(&dummy, PCI_VENDOR_ID);
/* Have we found something?
* Some broken boards return 0 if a slot is empty, but
* the expected answer is 0xffffffff
*/
if ((id == 0xffffffff) || (id == 0x00000000) || (id == 0x0000ffff) || (id == 0xffff0000)) {
printk(BIOS_DEBUG, "%s, bad id 0x%x\n", dev_path(&dummy), id);
} else {
printk(BIOS_DEBUG, "found device [%x]\n", id);
}
// restore changes made for device 2
dev2->bus->secondary = secondary;
dev2->bus->subordinate = subordinate;
pci_write_config32(dev2, PCI_PRIMARY_BUS, pci_primary_bus);
}
break;
default:
break;
}
plx_present = 0;
if( id == PLX_VIDDID ){
printk(BIOS_INFO, "found PLX device\n");
plx_present = 1;
cfg = (struct southbridge_amd_rs690_config *)dev2->chip_info;
if( cfg->gfx_tmds ) {
printk(BIOS_INFO, "Disable 'gfx_tmds' support\n");
cfg->gfx_tmds = 0;
cfg->gfx_link_width = 4;
}
return;
}
}
void smm_lock(void)
{
/* LOCK the SMM memory window and enable normal SMM.
* After running this function, only a full reset can
* make the SMM registers writable again.
*/
printk(BIOS_DEBUG, "Locking SMM.\n");
pci_write_config8(dev_find_slot(0, PCI_DEVFN(0, 0)), 0x69,
D_LCK | G_SMRAME | A_BASE_SEG);
}
/**
* @brief Init
*
* @param dev - the root device
*/
static void mainboard_init(device_t dev)
{
#if CONFIG_PCI_OPTION_ROM_RUN_REALMODE
INT15_function_extensions int15_func;
#endif
printk(BIOS_DEBUG, "%s %s[%x/%x] %s\n",
dev_name(dev), dev_path(dev), dev->subsystem_vendor, dev->subsystem_device, __func__);
#if CONFIG_PCI_OPTION_ROM_RUN_REALMODE
if (get_option(&int15_func.regs.func00_LCD_panel_id, "lcd_panel_id") != CB_SUCCESS)
int15_func.regs.func00_LCD_panel_id = PANEL_TABLE_ID_NO;
int15_func.regs.func05_TV_standard = TV_MODE_NO;
install_INT15_function_extensions(&int15_func);
#endif
set_thermal_config();
pm_init();
cable_detect();
patch_mmio_nonposted();
smm_lock();
}
/*************************************************
* enable the dedicated function in sina board.
* This function called early than rs690_enable.
*************************************************/
static void mainboard_enable(device_t dev)
{
printk(BIOS_INFO, "%s %s[%x/%x] %s\n",
dev_name(dev), dev_path(dev), dev->subsystem_vendor, dev->subsystem_device, __func__);
#if CONFIG_PCI_OPTION_ROM_RUN_YABEL
/* Install custom int15 handler for VGA OPROM */
mainboard_interrupt_handlers(0x15, &int15_handler);
#endif
detect_hw_variant(dev);
update_subsystemid(dev);
dev->ops->init = mainboard_init; // rest of mainboard init later
dev->ops->acpi_inject_dsdt_generator = mainboard_inject_dsdt;
}
struct chip_operations mainboard_ops = {
.enable_dev = mainboard_enable,
};
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