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mainboard/asus/kcma-d8: Copy ASUS KGPE-D16 for initial support work 

Also updated KGPE-D16 strings to KCMA-D8 throughout the copy to work
around Jenkins failures caused by an unmodified clone.

Change-Id: I943e81c8c2987a8333fc2a1cdb3675abf2d90cf1
Signed-off-by: Timothy Pearson <tpearson@raptorengineeringinc.com>
Reviewed-on: https://review.coreboot.org/13521
Tested-by: build bot (Jenkins)
Reviewed-by: Martin Roth <martinroth@google.com>
This commit is contained in:
Timothy Pearson 2015-11-24 14:12:08 -06:00 committed by Martin Roth
parent f098a7310a
commit 4551b68c83
18 changed files with 3692 additions and 0 deletions
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103
src/mainboard/asus/kcma-d8/Kconfig Normal file
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if BOARD_ASUS_KCMA_D8
config BOARD_SPECIFIC_OPTIONS # dummy
def_bool y
select CPU_AMD_SOCKET_C32_NON_AGESA
select DIMM_DDR3
select DIMM_REGISTERED
# select QRANK_DIMM_SUPPORT
select DIMM_VOLTAGE_SET_SUPPORT
select NORTHBRIDGE_AMD_AMDFAM10
select SOUTHBRIDGE_AMD_SR5650
select SOUTHBRIDGE_AMD_SB700
select SOUTHBRIDGE_AMD_SB700_DISABLE_ISA_DMA
select SOUTHBRIDGE_AMD_SUBTYPE_SP5100
select SUPERIO_WINBOND_W83667HG_A
select PARALLEL_CPU_INIT
select HAVE_ROMSTAGE_CONSOLE_SPINLOCK
select HAVE_ROMSTAGE_NVRAM_CBFS_SPINLOCK
select HAVE_ROMSTAGE_MICROCODE_CBFS_SPINLOCK
select HAVE_HARD_RESET
select HAVE_OPTION_TABLE
select HAVE_CMOS_DEFAULT
select HAVE_PIRQ_TABLE
select HAVE_MP_TABLE
select HAVE_ACPI_TABLES
select SB_HT_CHAIN_UNITID_OFFSET_ONLY
select LIFT_BSP_APIC_ID
select BOARD_ROMSIZE_KB_2048
select ENABLE_APIC_EXT_ID
select MMCONF_SUPPORT_DEFAULT
select SPI_FLASH
select SPI_FLASH_WINBOND
select HAVE_ACPI_RESUME
select DRIVERS_I2C_W83795
select DRIVERS_ASPEED_AST2050
select MAINBOARD_HAS_NATIVE_VGA_INIT_TEXTMODECFG
config MAINBOARD_DIR
string
default "asus/kcma-d8"
config BOOTBLOCK_MAINBOARD_INIT
string
default "mainboard/asus/kcma-d8/bootblock.c"
config DCACHE_RAM_BASE
hex
default 0xc2000
config DCACHE_RAM_SIZE
hex
default 0x1e000
config APIC_ID_OFFSET
hex
default 0
config MAINBOARD_PART_NUMBER
string
default "KCMA-D8"
config HW_MEM_HOLE_SIZEK
hex
default 0x100000
config MAX_CPUS
int
default 16
# 1 (internal) processor per C32 socket
config MAX_PHYSICAL_CPUS
int
default 2
config HT_CHAIN_UNITID_BASE
hex
default 0x0
config HT_CHAIN_END_UNITID_BASE
hex
default 0x20
config IRQ_SLOT_COUNT
int
default 13
config SOUTHBRIDGE_AMD_SB700_SATA_PORT_COUNT_BITFIELD
hex
default 0x3f
config ONBOARD_VGA_IS_PRIMARY
bool
default y
config MAINBOARD_POWER_ON_AFTER_POWER_FAIL
bool
default y
config MAX_REBOOT_CNT
int
default 10
endif # BOARD_ASUS_KCMA_D8

2
src/mainboard/asus/kcma-d8/Kconfig.name Normal file
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config BOARD_ASUS_KCMA_D8
bool "KCMA-D8"

368
src/mainboard/asus/kcma-d8/acpi/pm_ctrl.asl Normal file
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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2015 Raptor Engineering
* Copyright (C) 2009 Advanced Micro Devices, 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.
*/
/* Port 80 POST card debug */
OperationRegion (DBG0, SystemIO, 0x80, One)
Field (DBG0, ByteAcc, NoLock, Preserve) {
DBG8, 8
}
/* SuperIO control port */
Name (SPIO, 0x2E)
/* SuperIO control map */
OperationRegion (SPIM, SystemIO, SPIO, 0x02)
Field (SPIM, ByteAcc, NoLock, Preserve) {
INDX, 8,
DATA, 8
}
/* SuperIO control registers */
IndexField (INDX, DATA, ByteAcc, NoLock, Preserve) {
Offset (0x07),
CR07, 8, /* Logical device number */
Offset (0x2C),
CR2C, 8, /* GPIO3 multiplexed pin selection */
Offset (0x30),
CR30, 8, /* Logical device activation control register */
Offset (0xE0),
CRE0, 8, /* Wake control register */
Offset (0xE4),
CRE4, 8, /* Standby power control register */
Offset (0xE6),
CRE6, 8, /* Mouse wake event configuration register */
Offset (0xF1),
CRF1, 8, /* GPIO3 data register */
Offset (0xF3),
CRF3, 8, /* SUSLED mode register */
Offset (0xF6),
CRF6, 8, /* SMI/PME event generation control register */
Offset (0xF9),
CRF9, 8, /* ACPI PME configuration register */
}
/* Power Management I/O registers */
OperationRegion(PIOR, SystemIO, 0x00000CD6, 0x00000002)
Field(PIOR, ByteAcc, NoLock, Preserve) {
PIOI, 0x00000008,
PIOD, 0x00000008,
}
IndexField (PIOI, PIOD, ByteAcc, NoLock, Preserve) {
Offset(0x00), /* MiscControl */
, 1,
T1EE, 1,
T2EE, 1,
Offset(0x01), /* MiscStatus */
, 1,
T1E, 1,
T2E, 1,
Offset(0x04), /* SmiWakeUpEventEnable3 */
, 7,
SSEN, 1,
Offset(0x07), /* SmiWakeUpEventStatus3 */
, 7,
CSSM, 1,
Offset(0x10), /* AcpiEnable */
, 6,
PWDE, 1,
Offset(0x1C), /* ProgramIoEnable */
, 3,
MKME, 1,
IO3E, 1,
IO2E, 1,
IO1E, 1,
IO0E, 1,
Offset(0x1D), /* IOMonitorStatus */
, 3,
MKMS, 1,
IO3S, 1,
IO2S, 1,
IO1S, 1,
IO0S,1,
Offset(0x20), /* AcpiPmEvtBlk */
APEB, 16,
Offset(0x36), /* GEvtLevelConfig */
, 6,
ELC6, 1,
ELC7, 1,
Offset(0x37), /* GPMLevelConfig0 */
, 3,
PLC0, 1,
PLC1, 1,
PLC2, 1,
PLC3, 1,
PLC8, 1,
Offset(0x38), /* GPMLevelConfig1 */
, 1,
PLC4, 1,
PLC5, 1,
, 1,
PLC6, 1,
PLC7, 1,
Offset(0x3B), /* PMEStatus1 */
GP0S, 1,
GM4S, 1,
GM5S, 1,
APS, 1,
GM6S, 1,
GM7S, 1,
GP2S, 1,
STSS, 1,
Offset(0x55), /* SoftPciRst */
SPRE, 1,
, 1,
, 1,
PNAT, 1,
PWMK, 1,
PWNS, 1,
/* Offset(0x61), */ /* Options_1 */
/* ,7, */
/* R617,1, */
Offset(0x65), /* UsbPMControl */
, 4,
URRE, 1,
, 2,
BCDL, 1,
Offset(0x68), /* MiscEnable68 */
, 2,
MAPC, 1,
TMTE, 1,
, 1,
Offset(0x7C), /* MiscEnable7C */
, 2,
BLNK, 2,
Offset(0x92), /* GEVENTIN */
, 7,
E7IS, 1,
Offset(0x96), /* GPM98IN */
G8IS, 1,
G9IS, 1,
Offset(0x9A), /* EnhanceControl */
,7,
HPDE, 1,
Offset(0xA8), /* PIO7654Enable */
IO4E, 1,
IO5E, 1,
IO6E, 1,
IO7E, 1,
Offset(0xA9), /* PIO7654Status */
IO4S, 1,
IO5S, 1,
IO6S, 1,
IO7S, 1,
}
/* PM1 Event Block
* First word is PM1_Status, Second word is PM1_Enable
*/
OperationRegion(P1EB, SystemIO, APEB, 0x04)
Field(P1EB, ByteAcc, NoLock, Preserve) {
TMST, 1,
, 3,
BMST, 1,
GBST, 1,
Offset(0x01),
PBST, 1,
, 1,
RTST, 1,
, 3,
PWST, 1,
SPWS, 1,
Offset(0x02),
TMEN, 1,
, 4,
GBEN, 1,
Offset(0x03),
PBEN, 1,
, 1,
RTEN, 1,
, 3,
PWDA, 1,
}
/* Wake status package */
Name(WKST,Package() {Zero, Zero})
/*
* \_WAK System Wake method
*
* Entry:
* Arg0=The value of the sleeping state S1=1, S2=2
*
* Exit:
* Return package of 2 DWords
* Dword 1 - Status
* 0x00000000 wake succeeded
* 0x00000001 Wake was signaled but failed due to lack of power
* 0x00000002 Wake was signaled but failed due to thermal condition
* Dword 2 - Power Supply state
* if non-zero the effective S-state the power supply entered
*/
Method(\_WAK, 1) {
Store (0x20, DBG8)
/* Set up LEDs */
/* Set power LED to steady on */
Store(0x0, BLNK)
/* Configure SuperIO for wake */
/* Access SuperIO ACPI device */
Store(0x87, INDX)
Store(0x87, INDX)
Store(0x0A, CR07)
if (LEqual(Arg0, One)) /* Resuming from power state S1 */
{
/* Deactivate the ACPI device */
Store(Zero, CR30)
/* Disable PS/2 SMI/PME events */
And(CRF6, 0xCF, CRF6)
}
if (Lor(LEqual(Arg0, 0x03), LEqual(Arg0, 0x04))) /* Resuming from power state S3 or S4 */
{
/* Disable PS/2 wake */
And(CRE0, 0x1D, CRE0)
And(CRE6, 0x7F, CRE6)
}
/* Restore default SuperIO access */
Store(0xAA, INDX)
Store (0x21, DBG8)
/* Re-enable HPET */
Store(1, HPDE)
/* Restore PCIRST# so it resets USB */
if (LEqual(Arg0, 3)){
Store(1, URRE)
}
/* Configure southbridge for wake */
/* Arbitrarily clear PciExpWakeStatus */
Store(PWST, Local1)
Store(Local1, PWST)
Store (0x22, DBG8)
Notify(\_SB.PWRB, 0x02) /* NOTIFY_DEVICE_WAKE */
Return(WKST)
}
/*
* \_PTS - Prepare to Sleep method
*
* Entry:
* Arg0=The value of the sleeping state S1=1, S2=2, etc
*
* Exit:
* -none-
*
* The _PTS control method is executed at the beginning of the sleep process
* for S1-S5. The sleeping value is passed to the _PTS control method. This
* control method may be executed a relatively long time before entering the
* sleep state and the OS may abort the operation without notification to
* the ACPI driver. This method cannot modify the configuration or power
* state of any device in the system.
*/
Method(\_PTS, 1) {
Store (Arg0, DBG8)
/* Set up LEDs */
if (LEqual(Arg0, One)) /* Power state S1 requested */
{
/* Set suspend LED to 0.25Hz toggle pulse with 50% duty cycle */
Store(0x2, BLNK)
}
/* Configure SuperIO for sleep */
/* Access SuperIO ACPI device */
Store(0x87, INDX)
Store(0x87, INDX)
Store(0x0A, CR07)
/* Disable PS/2 wakeup and connect PANSW_IN to PANSW_OUT */
And(CRE0, 0x1F, CRE0)
if (LEqual(Arg0, One)) /* Power state S1 requested */
{
/* Activate the ACPI device */
Store(One, CR30)
/* Disable SMI/PME events for:
* LPT
* FDC
* UART
*/
Store(0x00, CRF6)
/* Enable PS/2 keyboard SMI/PME events */
Or(CRF6, 0x10, CRF6)
/* Enable PS/2 keyboard wake */
Or(CRE0, 0x40, CRE0)
/* Enable PS/2 mouse SMI/PME events */
Or(CRF6, 0x20, CRF6)
/* Enable PS/2 mouse wake */
Or(CRE0, 0x20, CRE0)
} else {
/* Enable PS/2 keyboard wake on any keypress */
Or(CRE0, 0x41, CRE0)
/* Enable PS/2 mouse wake on any click */
Or(CRE0, 0x22, CRE0)
Or(CRE6, 0x80, CRE6)
if (LEqual(Arg0, 0x03)) /* Power state S3 requested */
{
/* Set VSBGATE# to provide standby power during S3 */
Or(CRE4, 0x10, CRE4)
}
}
/* Restore default SuperIO access */
Store(0xAA, INDX)
Store (0x10, DBG8)
/* Don't allow PCIRST# to reset USB */
if (LEqual(Arg0, 3)){
Store(0, URRE)
}
/* Configure southbridge for sleep */
/* Use bus clock for delay timebase */
Store(0, BCDL)
/* Defer APIC interrupts until first ACPI access */
Store(One, MAPC)
/* On older chips, clear PciExpWakeDisEn */
// if (LLessEqual(SBRI, 0x13)) {
// Store(0, PWDE)
// }
Store (0x11, DBG8)
/* Clear wake status structure. */
Store(0, Index(WKST,0))
Store(0, Index(WKST,1))
}

109
src/mainboard/asus/kcma-d8/acpi_tables.c Normal file
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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2010 Advanced Micro Devices, Inc.
* Copyright (C) 2015 Timothy Pearson <tpearson@raptorengineeringinc.com>, Raptor Engineering
*
* 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 <string.h>
#include <arch/acpi.h>
#include <arch/ioapic.h>
#include <device/pci.h>
#include <device/pci_ids.h>
#include <cpu/x86/msr.h>
#include <cpu/amd/mtrr.h>
#include <cpu/amd/amdfam10_sysconf.h>
#include "mb_sysconf.h"
unsigned long acpi_fill_madt(unsigned long current)
{
device_t dev;
u32 dword;
u32 gsi_base=0;
uint32_t apicid_sp5100;
uint32_t apicid_sr5650;
/* create all subtables for processors */
current = acpi_create_madt_lapics(current);
if (IS_ENABLED(CONFIG_ENABLE_APIC_EXT_ID) && (CONFIG_APIC_ID_OFFSET > 0))
apicid_sp5100 = 0x0;
else
apicid_sp5100 = 0x20;
apicid_sr5650 = apicid_sp5100 + 1;
/* Write SB700 IOAPIC, only one */
current += acpi_create_madt_ioapic((acpi_madt_ioapic_t *) current, apicid_sp5100,
IO_APIC_ADDR, gsi_base);
/* IOAPIC on rs5690 */
gsi_base += 24; /* SB700 has 24 IOAPIC entries. */
dev = dev_find_slot(0, PCI_DEVFN(0, 0));
if (dev) {
pci_write_config32(dev, 0xF8, 0x1);
dword = pci_read_config32(dev, 0xFC) & 0xfffffff0;
current += acpi_create_madt_ioapic((acpi_madt_ioapic_t *) current, apicid_sr5650,
dword, gsi_base);
}
/* bus, source, gsirq, flags */
current += acpi_create_madt_irqoverride((acpi_madt_irqoverride_t *)
current, 0, 0, 2, 0);
current += acpi_create_madt_irqoverride((acpi_madt_irqoverride_t *)
current, 0, 9, 9, 0xf);
/* create all subtables for processors */
current += acpi_create_madt_lapic_nmi((acpi_madt_lapic_nmi_t *)current, 0xff, 0, 1);
/* 1: LINT1 connect to NMI */
return current;
}
unsigned long acpi_fill_ivrs_ioapic(acpi_ivrs_t* ivrs, unsigned long current)
{
uint8_t *p;
uint32_t apicid_sp5100;
uint32_t apicid_sr5650;
if (IS_ENABLED(CONFIG_ENABLE_APIC_EXT_ID) && (CONFIG_APIC_ID_OFFSET > 0))
apicid_sp5100 = 0x0;
else
apicid_sp5100 = 0x20;
apicid_sr5650 = apicid_sp5100 + 1;
/* Describe NB IOAPIC */
p = (uint8_t *)current;
p[0] = 0x48; /* Entry type */
p[1] = 0; /* Device */
p[2] = 0; /* Bus */
p[3] = 0x0; /* Data */
p[4] = apicid_sr5650; /* IOAPIC ID */
p[5] = 0x1; /* Device 0 Function 1 */
p[6] = 0x0; /* Northbridge bus */
p[7] = 0x1; /* Variety */
current += 8;
/* Describe SB IOAPIC */
p = (uint8_t *)current;
p[0] = 0x48; /* Entry type */
p[1] = 0; /* Device */
p[2] = 0; /* Bus */
p[3] = 0xd7; /* Data */
p[4] = apicid_sp5100; /* IOAPIC ID */
p[5] = 0x14 << 3; /* Device 0x14 Function 0 */
p[6] = 0x0; /* Southbridge bus */
p[7] = 0x1; /* Variety */
current += 8;
return current;
}

5
src/mainboard/asus/kcma-d8/board_info.txt Normal file
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Category: server
ROM package: PLCC-32
ROM protocol: LPC
ROM socketed: y
Flashrom support: y

52
src/mainboard/asus/kcma-d8/bootblock.c Normal file
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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2015 Timothy Pearson <tpearson@raptorengineeringinc.com>, Raptor Engineering
* Copyright (C) 2014 Edward O'Callaghan <eocallaghan@alterapraxis.com>
*
* 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.
*/
#include <arch/io.h>
#include <pc80/mc146818rtc.h>
void bootblock_mainboard_init(void)
{
uint8_t recovery_enabled;
unsigned char addr;
unsigned char byte;
bootblock_northbridge_init();
bootblock_southbridge_init();
/* Recovery jumper is connected to SP5100 GPIO61, and clears the GPIO when placed in the Recovery position */
byte = pci_io_read_config8(PCI_DEV(0, 0x14, 0), 0x56);
byte |= 0x1 << 4; /* Set GPIO61 to input mode */
pci_io_write_config8(PCI_DEV(0, 0x14, 0), 0x56, byte);
recovery_enabled = (!(pci_io_read_config8(PCI_DEV(0, 0x14, 0), 0x57) & 0x1));
if (recovery_enabled) {
#if CONFIG_USE_OPTION_TABLE
/* Clear NVRAM checksum */
for (addr = LB_CKS_RANGE_START; addr <= LB_CKS_RANGE_END; addr++) {
cmos_write(0x0, addr);
}
/* Set fallback boot */
byte = cmos_read(RTC_BOOT_BYTE);
byte &= 0xfc;
cmos_write(byte, RTC_BOOT_BYTE);
#else
/* FIXME
* Figure out how to recover if the option table is not available
*/
#endif
}
}

30
src/mainboard/asus/kcma-d8/cmos.default Normal file
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baud_rate = 115200
debug_level = Spew
multi_core = Enable
slow_cpu = off
compute_unit_siblings = Enable
iommu = Enable
nmi = Disable
hypertransport_speed_limit = Auto
max_mem_clock = DDR3-1600
minimum_memory_voltage = 1.5V
dimm_spd_checksum = Enforce
ECC_memory = Enable
ECC_redirection = Enable
ecc_scrub_rate = 1.28us
interleave_chip_selects = Enable
interleave_nodes = Disable
interleave_memory_channels = Enable
cpu_c_states = Enable
cpu_cc6_state = Enable
cpu_core_boost = Enable
sata_ahci_mode = Enable
sata_alpm = Disable
maximum_p_state_limit = 0xf
probe_filter = Auto
l3_cache_partitioning = Disable
ieee1394_controller = Enable
gart = Enable
experimental_memory_speed_boost = Disable
power_on_after_fail = On
boot_option = Fallback

155
src/mainboard/asus/kcma-d8/cmos.layout Normal file
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##
## This file is part of the coreboot project.
##
## Copyright (C) 2015 Timothy Pearson <tpearson@raptorengineeringinc.com>, Raptor Engineering
## Copyright (C) 2007 AMD
## Written by Yinghai Lu <yinghailu@amd.com> for AMD.
##
## 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.
##
entries
0 384 r 0 reserved_memory
384 1 e 4 boot_option
388 4 r 0 reboot_bits
393 3 e 5 baud_rate
396 5 e 10 ecc_scrub_rate
401 1 e 1 interleave_chip_selects
402 1 e 1 interleave_nodes
403 1 e 1 interleave_memory_channels
404 4 e 8 max_mem_clock
408 1 e 2 multi_core
412 4 e 6 debug_level
440 4 e 9 slow_cpu
444 1 e 1 nmi
445 1 e 1 gart
446 2 e 3 power_on_after_fail
456 1 e 1 ECC_memory
457 1 e 1 ECC_redirection
458 4 e 11 hypertransport_speed_limit
462 2 e 12 minimum_memory_voltage
464 1 e 2 compute_unit_siblings
465 1 e 1 cpu_c_states
466 1 e 1 cpu_cc6_state
467 1 e 1 sata_ahci_mode
468 1 e 1 sata_alpm
469 4 h 0 maximum_p_state_limit
473 2 e 13 dimm_spd_checksum
475 1 e 14 probe_filter
476 1 e 1 l3_cache_partitioning
477 1 e 1 ieee1394_controller
478 1 e 1 iommu
479 1 e 1 cpu_core_boost
480 1 e 1 experimental_memory_speed_boost
481 1 r 0 allow_spd_nvram_cache_restore
728 256 h 0 user_data
984 16 h 0 check_sum
# Reserve the extended AMD configuration registers
1000 24 r 0 amd_reserved
enumerations
#ID value text
1 0 Disable
1 1 Enable
2 0 Enable
2 1 Disable
3 0 Off
3 1 On
3 2 Last
4 0 Fallback
4 1 Normal
5 0 115200
5 1 57600
5 2 38400
5 3 19200
5 4 9600
5 5 4800
5 6 2400
5 7 1200
6 0 Emergency
6 1 Alert
6 2 Critical
6 3 Error
6 4 Warning
6 5 Notice
6 6 Information
6 7 Debug
6 8 Spew
8 0 DDR3-1866
8 1 DDR3-1600
8 2 DDR3-1333
8 3 DDR3-1066
8 4 DDR3-800
8 5 DDR3-667
9 0 off
9 1 87.5%
9 2 75.0%
9 3 62.5%
9 4 50.0%
9 5 37.5%
9 6 25.0%
9 7 12.5%
10 0 Disabled
10 1 40ns
10 2 80ns
10 3 160ns
10 4 320ns
10 5 640ns
10 6 1.28us
10 7 2.56us
10 8 5.12us
10 9 10.2us
10 10 20.5us
10 11 41us
10 12 81.9us
10 13 163.8us
10 14 327.7us
10 15 655.4us
10 16 1.31ms
10 17 2.62ms
10 18 5.24ms
10 19 10.49ms
10 20 20.97ms
10 21 42ms
10 22 84ms
11 0 Auto
11 1 3.2GHz
11 2 3.0GHz
11 3 2.8GHz
11 4 2.6GHz
11 5 2.4GHz
11 6 2.2GHz
11 7 2.0GHz
11 8 1.8GHz
11 9 1.6GHz
11 10 1.4GHz
11 11 1.2GHz
11 12 1.0GHz
11 13 800MHz
11 14 600MHz
11 15 500MHz
12 0 1.5V
12 1 1.35V
12 2 1.25V
12 3 1.15V
13 0 Enforce
13 1 Ignore
13 2 Override
14 0 Disable
14 1 Auto
checksums
checksum 392 983 984

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src/mainboard/asus/kcma-d8/devicetree.cb Normal file
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chip northbridge/amd/amdfam10/root_complex # Root complex
device cpu_cluster 0 on # (L)APIC cluster
chip cpu/amd/socket_F_1207 # CPU socket
device lapic 0 on end # Local APIC of the CPU
end
end
device domain 0 on # PCI domain
subsystemid 0x1043 0x8163 inherit
chip northbridge/amd/amdfam10 # Northbridge / RAM controller
register "maximum_memory_capacity" = "0x4000000000" # 256GB
device pci 18.0 on end # Link 0 == LDT 0
device pci 18.0 on end # Link 1 == LDT 1
device pci 18.0 on end # Link 2 == LDT 2
device pci 18.0 on # Link 3 == LDT 3 [SB on link 3]
chip southbridge/amd/sr5650 # Primary southbridge
device pci 0.0 on end # HT Root Complex 0x9600
device pci 0.1 on end # CLKCONFIG
device pci 0.2 on end # IOMMU
device pci 2.0 on # PCIE P2P bridge 0x9603 (GPP1 Port0)
# Slot # PCI E 1 / PCI E 2
end
device pci 3.0 off end # PCIE P2P bridge 0x960b (GPP1 Port1)
device pci 4.0 on # PCIE P2P bridge 0x9604 (GPP3a Port0)
# PIKE SAS
end
device pci 5.0 off end # PCIE P2P bridge 0x9605 (GPP3a Port1)
device pci 6.0 off end # PCIE P2P bridge 0x9606 (GPP3a Port2)
device pci 7.0 off end # PCIE P2P bridge 0x9607 (GPP3a Port3)
device pci 8.0 off end # NB/SB Link P2P bridge
device pci 9.0 on # Bridge (GPP3a Port4)
# Onboard # NIC A
end
device pci a.0 on # Bridge (GPP3a Port5)
# Onboard # NIC B
end
device pci b.0 on # Bridge (GPP2 Port0)
# Slot # PCI E 4
end
device pci c.0 on # Bridge (GPP2 Port1)
# Slot # PCI E 5
end
device pci d.0 on # Bridge (GPP3b Port0)
# Slot # PCI E 3
end
register "gpp1_configuration" = "0" # Configuration 16:0 default
register "gpp2_configuration" = "1" # Configuration 8:8
register "gpp3a_configuration" = "2" # Configuration 4:1:1:0:0:0
register "port_enable" = "0x3f1c" # Enable all ports except 0, 1, 5, 6, and 7
register "pcie_settling_time" = "1000000" # Allow PIKE to be detected / configured
end
chip southbridge/amd/sb700 # Secondary southbridge
device pci 11.0 on end # SATA
device pci 12.0 on end # USB
device pci 12.1 on end # USB
device pci 12.2 on end # USB
device pci 13.0 on end # USB
device pci 13.1 on end # USB
device pci 13.2 on end # USB
device pci 14.0 on # SM
chip drivers/generic/generic # DIMM n-0-0-0
device i2c 50 on end
end
chip drivers/generic/generic # DIMM n-0-0-1
device i2c 51 on end
end
chip drivers/generic/generic # DIMM n-0-1-0
device i2c 52 on end
end
chip drivers/generic/generic # DIMM n-0-1-1
device i2c 53 on end
end
chip drivers/generic/generic # DIMM n-1-0-0
device i2c 54 on end
end
chip drivers/generic/generic # DIMM n-1-0-1
device i2c 55 on end
end
chip drivers/generic/generic # DIMM n-1-1-0
device i2c 56 on end
end
chip drivers/generic/generic # DIMM n-1-1-1
device i2c 57 on end
end
chip drivers/i2c/w83795
register "fanin_ctl1" = "0xff" # Enable monitoring of FANIN1 - FANIN8
register "fanin_ctl2" = "0x00" # Connect FANIN11 - FANIN14 to alternate functions
register "temp_ctl1" = "0x2a" # Enable monitoring of DTS, VSEN12, and VSEN13
register "temp_ctl2" = "0x01" # Enable monitoring of TD1/TR1
register "temp_dtse" = "0x03" # Enable DTS1 and DTS2
register "volt_ctl1" = "0xff" # Enable monitoring of VSEN1 - VSEN8
register "volt_ctl2" = "0xf7" # Enable monitoring of VSEN9 - VSEN11, 3VDD, 3VSB, and VBAT
register "temp1_fan_select" = "0x00" # All fans to manual mode (no dependence on Temp1)
register "temp2_fan_select" = "0x00" # All fans to manual mode (no dependence on Temp2)
register "temp3_fan_select" = "0x00" # All fans to manual mode (no dependence on Temp3)
register "temp4_fan_select" = "0x00" # All fans to manual mode (no dependence on Temp4)
register "temp5_fan_select" = "0x00" # All fans to manual mode (no dependence on Temp5)
register "temp6_fan_select" = "0x00" # All fans to manual mode (no dependence on Temp6)
register "temp1_source_select" = "0x00" # Use TD1/TR1 as data source for Temp1
register "temp2_source_select" = "0x00" # Use TD2/TR2 as data source for Temp2
register "temp3_source_select" = "0x00" # Use TD3/TR3 as data source for Temp3
register "temp4_source_select" = "0x00" # Use TD4/TR4 as data source for Temp4
register "temp5_source_select" = "0x00" # Use TR5 as data source for Temp5
register "temp6_source_select" = "0x00" # Use TR6 as data source for Temp6
register "tr1_critical_temperature" = "85" # Set TD1/TR1 critical temperature to 85°C
register "tr1_critical_hysteresis" = "80" # Set TD1/TR1 critical hysteresis temperature to 80°C
register "tr1_warning_temperature" = "70" # Set TD1/TR1 warning temperature to 70°C
register "tr1_warning_hysteresis" = "65" # Set TD1/TR1 warning hysteresis temperature to 65°C
register "dts_critical_temperature" = "85" # Set DTS (CPU) critical temperature to 85°C
register "dts_critical_hysteresis" = "80" # Set DTS (CPU) critical hysteresis temperature to 80°C
register "dts_warning_temperature" = "70" # Set DTS (CPU) warning temperature to 70°C
register "dts_warning_hysteresis" = "65" # Set DTS (CPU) warning hysteresis temperature to 65°C
register "temp1_critical_temperature" = "80" # Set Temp1 critical temperature to 80°C
register "temp2_critical_temperature" = "80" # Set Temp1 critical temperature to 80°C
register "temp3_critical_temperature" = "80" # Set Temp1 critical temperature to 80°C
register "temp4_critical_temperature" = "80" # Set Temp1 critical temperature to 80°C
register "temp5_critical_temperature" = "80" # Set Temp1 critical temperature to 80°C
register "temp6_critical_temperature" = "80" # Set Temp1 critical temperature to 80°C
register "temp1_target_temperature" = "80" # Set Temp1 target temperature to 80°C
register "temp2_target_temperature" = "80" # Set Temp1 target temperature to 80°C
register "temp3_target_temperature" = "80" # Set Temp1 target temperature to 80°C
register "temp4_target_temperature" = "80" # Set Temp1 target temperature to 80°C
register "temp5_target_temperature" = "80" # Set Temp1 target temperature to 80°C
register "temp6_target_temperature" = "80" # Set Temp1 target temperature to 80°C
register "fan1_nonstop" = "7" # Set Fan 1 minimum speed
register "fan2_nonstop" = "7" # Set Fan 2 minimum speed
register "fan3_nonstop" = "7" # Set Fan 3 minimum speed
register "fan4_nonstop" = "7" # Set Fan 4 minimum speed
register "fan5_nonstop" = "7" # Set Fan 5 minimum speed
register "fan6_nonstop" = "7" # Set Fan 6 minimum speed
register "fan7_nonstop" = "7" # Set Fan 7 minimum speed
register "fan8_nonstop" = "7" # Set Fan 8 minimum speed
register "default_speed" = "100" # All fans to full speed on power up
register "fan1_duty" = "100" # Fan 1 to full speed
register "fan2_duty" = "100" # Fan 2 to full speed
register "fan3_duty" = "100" # Fan 3 to full speed
register "fan4_duty" = "100" # Fan 4 to full speed
register "fan5_duty" = "100" # Fan 5 to full speed
register "fan6_duty" = "100" # Fan 6 to full speed
register "fan7_duty" = "100" # Fan 7 to full speed
register "fan8_duty" = "100" # Fan 8 to full speed
register "vcore1_high_limit_mv" = "1500" # VCORE1 (Node 0) high limit to 1.5V
register "vcore1_low_limit_mv" = "900" # VCORE1 (Node 0) low limit to 0.9V
register "vcore2_high_limit_mv" = "1500" # VCORE2 (Node 1) high limit to 1.5V
register "vcore2_low_limit_mv" = "900" # VCORE2 (Node 1) low limit to 0.9V
register "vsen3_high_limit_mv" = "1600" # VSEN1 (Node 0 RAM voltage) high limit to 1.6V
register "vsen3_low_limit_mv" = "1100" # VSEN1 (Node 0 RAM voltage) low limit to 1.1V
register "vsen4_high_limit_mv" = "1600" # VSEN2 (Node 1 RAM voltage) high limit to 1.6V
register "vsen4_low_limit_mv" = "1100" # VSEN2 (Node 1 RAM voltage) low limit to 1.1V
register "vsen5_high_limit_mv" = "1250" # VSEN5 (Node 0 HT link voltage) high limit to 1.25V
register "vsen5_low_limit_mv" = "1150" # VSEN5 (Node 0 HT link voltage) low limit to 1.15V
register "vsen6_high_limit_mv" = "1250" # VSEN6 (Node 1 HT link voltage) high limit to 1.25V
register "vsen6_low_limit_mv" = "1150" # VSEN6 (Node 1 HT link voltage) low limit to 1.15V
register "vsen7_high_limit_mv" = "1250" # VSEN7 (Northbridge core voltage) high limit to 1.25V
register "vsen7_low_limit_mv" = "1050" # VSEN7 (Northbridge core voltage) low limit to 1.05V
register "vsen8_high_limit_mv" = "1900" # VSEN8 (+1.8V) high limit to 1.9V
register "vsen8_low_limit_mv" = "1700" # VSEN8 (+1.8V) low limit to 1.7V
register "vsen9_high_limit_mv" = "1250" # VSEN9 (+1.2V) high limit to 1.25V
register "vsen9_low_limit_mv" = "1150" # VSEN9 (+1.2V) low limit to 1.15V
register "vsen10_high_limit_mv" = "1150" # VSEN10 (+1.1V) high limit to 1.15V
register "vsen10_low_limit_mv" = "1050" # VSEN10 (+1.1V) low limit to 1.05V
register "vsen11_high_limit_mv" = "1625" # VSEN11 (5VSB, scaling factor ~3.2) high limit to 5.2V
register "vsen11_low_limit_mv" = "1500" # VSEN11 (5VSB, scaling factor ~3.2) low limit to 4.8V
register "vsen12_high_limit_mv" = "1083" # VSEN12 (+12V, scaling factor ~12) high limit to 13V
register "vsen12_low_limit_mv" = "917" # VSEN12 (+12V, scaling factor ~12) low limit to 11V
register "vsen13_high_limit_mv" = "1625" # VSEN13 (+5V, scaling factor ~3.2) high limit to 5.2V
register "vsen13_low_limit_mv" = "1500" # VSEN13 (+5V, scaling factor ~3.2) low limit to 4.8V
register "vdd_high_limit_mv" = "3500" # 3VDD high limit to 3.5V
register "vdd_low_limit_mv" = "3100" # 3VDD low limit to 3.1V
register "vsb_high_limit_mv" = "3500" # 3VSB high limit to 3.5V
register "vsb_low_limit_mv" = "3100" # 3VSB low limit to 3.1V
register "vbat_high_limit_mv" = "3500" # VBAT (+3V) high limit to 3.5V
register "vbat_low_limit_mv" = "2500" # VBAT (+3V) low limit to 2.5V
register "smbus_aux" = "1" # Device located on auxiliary SMBUS controller
device i2c 0x2f on end
end
end
device pci 14.1 on end # IDE 0x439c
device pci 14.2 on end # HDA 0x4383 (ASUS MIO add-on card)
device pci 14.3 on # LPC 0x439d (SMBUS primary controller)
chip superio/winbond/w83667hg-a # Super I/O
device pnp 2e.0 off end # FDC; Not available on the KCMA-D8
device pnp 2e.1 off end # LPT1; Not available on the KCMA-D8
device pnp 2e.2 on # COM1
io 0x60 = 0x3f8
irq 0x70 = 4
end
device pnp 2e.3 on # COM2
io 0x60 = 0x2f8
irq 0x70 = 3
end
device pnp 2e.5 on # PS/2 keyboard & mouse
io 0x60 = 0x60
io 0x62 = 0x64
irq 0x70 = 1
irq 0x72 = 12
end
device pnp 2e.106 off end # SPI: Not available on the KCMA-D8
device pnp 2e.107 off end # GIPO6
device pnp 2e.207 off end # GIPO7
device pnp 2e.307 off end # GIPO8
device pnp 2e.407 off end # GIPO9
device pnp 2e.8 off end # WDT
device pnp 2e.108 off end # GPIO 1
device pnp 2e.9 off end # GPIO2
device pnp 2e.109 off end # GPIO3
device pnp 2e.209 off end # GPIO4
device pnp 2e.309 off end # GPIO5
device pnp 2e.a on end # ACPI
device pnp 2e.b on # HW Monitor
io 0x60 = 0x290
irq 0x70 = 5
end
device pnp 2e.c off end # PECI
device pnp 2e.d off end # VID_BUSSEL
device pnp 2e.f off end # GPIO_PP_OD
end
end
device pci 14.4 on # Bridge
device pci 1.0 on end # VGA
device pci 2.0 on end # FireWire
device pci 3.0 on # Slot
# Slot # PCI 0
end
end
device pci 14.5 on end # USB OHCI2 0x4399
end
end
device pci 18.1 on end
device pci 18.2 on end
device pci 18.3 on end
device pci 18.4 on end
device pci 18.5 on end
device pci 19.0 on end # Socket 0 node 1
device pci 19.1 on end
device pci 19.2 on end
device pci 19.3 on end
device pci 19.4 on end
device pci 19.5 on end
device pci 1a.0 on end # Socket 1 node 0
device pci 1a.1 on end
device pci 1a.2 on end
device pci 1a.3 on end
device pci 1a.4 on end
device pci 1a.5 on end
device pci 1b.0 on end # Socket 1 node 1
device pci 1b.1 on end
device pci 1b.2 on end
device pci 1b.3 on end
device pci 1b.4 on end
device pci 1b.5 on end
end
end
end

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src/mainboard/asus/kcma-d8/dsdt.asl Normal file
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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2015 Timothy Pearson <tpearson@raptorengineeringinc.com>, Raptor Engineering
* Copyright (C) 2005 - 2012 Advanced Micro Devices, Inc.
* Copyright (C) 2007-2009 coresystems GmbH
* Copyright (C) 2004 Nick Barker <Nick.Barker9@btinternet.com>
* Copyright (C) 2007, 2008 Rudolf Marek <r.marek@assembler.cz>
*
* 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.
*/
/*
* WARNING: Sleep/Wake is a work in progress and is still somewhat flaky!
* Everything else does to the best of my knowledge... (T.P. 01/26/2015)
*/
/*
* ISA portions taken from QEMU acpi-dsdt.dsl.
*/
/*
* PCI link routing templates taken from ck804.asl and modified for this board
*/
DefinitionBlock (
"DSDT.AML", /* Output filename */
"DSDT", /* Signature */
0x03, /* DSDT Revision, needs to be 2 or higher for 64bit */
"ASUS ", /* OEMID */
"COREBOOT", /* TABLE ID */
0x00000001 /* OEM Revision */
)
{
#include "northbridge/amd/amdfam10/amdfam10_util.asl"
#include "southbridge/amd/sr5650/acpi/sr5650.asl"
/* Some global data */
Name(OSVR, 3) /* Assume nothing. WinXp = 1, Vista = 2, Linux = 3, WinCE = 4 */
Name(OSV, Ones) /* Assume nothing */
Name(PICM, One) /* Assume APIC */
/* HPET enable */
Name (HPTE, 0x1)
/* Define power states */
Name (\_S0, Package () { 0x00, 0x00, 0x00, 0x00 }) /* Normal operation */
Name (\_S1, Package () { 0x01, 0x01, 0x00, 0x00 }) /* Standby */
Name (\_S3, Package () { 0x03, 0x03, 0x00, 0x00 }) /* Suspend to RAM */
Name (\_S4, Package () { 0x04, 0x04, 0x00, 0x00 }) /* Suspend to disk */
Name (\_S5, Package () { 0x05, 0x05, 0x00, 0x00 }) /* Hard power off */
/* The _PIC method is called by the OS to choose between interrupt
* routing via the i8259 interrupt controller or the APIC.
*
* _PIC is called with a parameter of 0 for i8259 configuration and
* with a parameter of 1 for Local Apic/IOAPIC configuration.
*/
Method (_PIC, 1, Serialized) {
If (Arg0)
{
\_SB.CIRQ()
}
Store (Arg0, PICM)
}
/* _PR CPU0 is dynamically supplied by SSDT */
/* CPU objects and _PSS entries are dynamically supplied by SSDT */
Scope(\_GPE) { /* Start Scope GPE */
/* General event 3 */
Method(_L03) {
/* Level-Triggered GPE */
Notify(\_SB.PWRB, 0x02) /* NOTIFY_DEVICE_WAKE */
}
/* General event 4 */
Method(_L04) {
/* Level-Triggered GPE */
Notify (\_SB.PCI0.PBR0, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PWRB, 0x02) /* NOTIFY_DEVICE_WAKE */
}
/* Keyboard controller PME# */
Method(_L08) {
/* Level-Triggered GPE */
Notify(\_SB.PCI0.LPC.PS2K, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify(\_SB.PCI0.LPC.PS2M, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify(\_SB.PWRB, 0x02) /* NOTIFY_DEVICE_WAKE */
}
/* USB controller PME# */
Method(_L0B) {
/* Level-Triggered GPE */
Notify (\_SB.PCI0.USB0, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PCI0.USB1, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PCI0.USB2, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PCI0.USB3, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PCI0.USB4, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PCI0.USB5, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PCI0.USB6, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PWRB, 0x02) /* NOTIFY_DEVICE_WAKE */
}
/* GPIO0 or GEvent8 event */
Method(_L18) {
/* Level-Triggered GPE */
Notify (\_SB.PCI0.PCE1, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PCI0.NICA, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PCI0.NICB, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PCI0.PCE4, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PCI0.PCE5, 0x02) /* NOTIFY_DEVICE_WAKE */
Notify (\_SB.PCI0.PCE3, 0x02) /* NOTIFY_DEVICE_WAKE */
}
} /* End Scope GPE */
/* Root of the bus hierarchy */
Scope (\_SB)
{
/* Top southbridge PCI device (SR5690 + SP5100) */
Device (PCI0)
{
/* BUS0 root bus */
Name (_HID, EisaId ("PNP0A08")) /* PCI-e root bus (SR5690) */
Name (_CID, EisaId ("PNP0A03")) /* PCI root bus (SP5100) */
Name (_ADR, 0x00180001)
Name (_UID, 0x00)
Name (HCIN, 0x00) // HC1
Method (_BBN, 0, NotSerialized)
{
Return (GBUS (GHCN(HCIN), GHCL(HCIN)))
}
/* Operating System Capabilities Method */
Method(_OSC,4)
{
/* Let OS control everything */
Return (Arg3)
}
External (BUSN)
External (MMIO)
External (PCIO)
External (SBLK)
External (TOM1)
External (HCLK)
External (SBDN)
External (HCDN)
External (CBST)
/* PCI Routing Tables */
Name (PR00, Package () {
/* PIC */
/* Top southbridge device (SR5690) */
/* HT Link */
Package (0x04) { 0x0000FFFF, 0x00, LNKA, 0x00 },
/* PCI-E Slot 1 (Bridge) */
Package (0x04) { 0x0002FFFF, 0x00, LNKE, 0x00 },
/* NIC A (Bridge) */
Package (0x04) { 0x0009FFFF, 0x00, LNKF, 0x00 },
/* NIC B (Bridge) */
Package (0x04) { 0x000AFFFF, 0x00, LNKG, 0x00 },
/* PCI-E Slot 4 (Bridge) */
Package (0x04) { 0x000BFFFF, 0x00, LNKG, 0x00 },
/* PCI-E Slot 5 (Bridge) */
Package (0x04) { 0x000CFFFF, 0x00, LNKG, 0x00 },
/* PCI-E Slot 3 (Bridge) */
Package (0x04) { 0x000DFFFF, 0x00, LNKG, 0x00 },
/* Bottom southbridge device (SP5100) */
/* SATA 0 */
Package (0x04) { 0x0011FFFF, 0x00, LNKG, 0x00 },
/* USB 0 */
Package (0x04) { 0x0012FFFF, 0x00, LNKA, 0x00 },
Package (0x04) { 0x0012FFFF, 0x01, LNKB, 0x00 },
Package (0x04) { 0x0012FFFF, 0x02, LNKC, 0x00 },
Package (0x04) { 0x0012FFFF, 0x03, LNKD, 0x00 },
/* USB 1 */
Package (0x04) { 0x0013FFFF, 0x00, LNKC, 0x00 },
Package (0x04) { 0x0013FFFF, 0x01, LNKD, 0x00 },
Package (0x04) { 0x0013FFFF, 0x02, LNKA, 0x00 },
Package (0x04) { 0x0013FFFF, 0x03, LNKB, 0x00 },
/* SMBUS / IDE / LPC / VGA / FireWire / PCI Slot 0 */
Package (0x04) { 0x0014FFFF, 0x00, LNKA, 0x00 },
Package (0x04) { 0x0014FFFF, 0x01, LNKB, 0x00 },
Package (0x04) { 0x0014FFFF, 0x02, LNKC, 0x00 },
Package (0x04) { 0x0014FFFF, 0x03, LNKD, 0x00 },
})
Name (AR00, Package () {
/* APIC */
/* Top southbridge device (SR5690) */
/* HT Link */
Package (0x04) { 0x0000FFFF, 0x00, 0x00, 55 },
/* PCI-E Slot 1 (Bridge) */
Package (0x04) { 0x0002FFFF, 0x00, 0x00, 52 },
/* NIC A (Bridge) */
Package (0x04) { 0x0009FFFF, 0x00, 0x00, 53 },
/* NIC B (Bridge) */
Package (0x04) { 0x000AFFFF, 0x00, 0x00, 54 },
/* PCI-E Slot 4 (Bridge) */
Package (0x04) { 0x000BFFFF, 0x00, 0x00, 54 },
/* PCI-E Slot 5 (Bridge) */
Package (0x04) { 0x000CFFFF, 0x00, 0x00, 54 },
/* PCI-E Slot 3 (Bridge) */
Package (0x04) { 0x000DFFFF, 0x00, 0x00, 54 },
/* Bottom southbridge device (SP5100) */
/* SATA 0 */
Package (0x04) { 0x0011FFFF, 0x00, 0x00, 22 },
/* USB 0 */
Package (0x04) { 0x0012FFFF, 0x00, 0x00, 16 },
Package (0x04) { 0x0012FFFF, 0x01, 0x00, 17 },
Package (0x04) { 0x0012FFFF, 0x02, 0x00, 18 },
Package (0x04) { 0x0012FFFF, 0x03, 0x00, 19 },
/* USB 1 */
Package (0x04) { 0x0013FFFF, 0x00, 0x00, 18 },
Package (0x04) { 0x0013FFFF, 0x01, 0x00, 19 },
Package (0x04) { 0x0013FFFF, 0x02, 0x00, 16 },
Package (0x04) { 0x0013FFFF, 0x03, 0x00, 17 },
/* SMBUS / IDE / LPC / VGA / FireWire / PCI Slot 0 */
Package (0x04) { 0x0014FFFF, 0x00, 0x00, 16 },
Package (0x04) { 0x0014FFFF, 0x01, 0x00, 17 },
Package (0x04) { 0x0014FFFF, 0x02, 0x00, 18 },
Package (0x04) { 0x0014FFFF, 0x03, 0x00, 19 },
})
Name (PR01, Package () {
/* PIC */
Package (0x04) { 0x1FFFF, 0x00, LNKF, 0x00 },
Package (0x04) { 0x2FFFF, 0x00, LNKE, 0x00 },
Package (0x04) { 0x3FFFF, 0x00, LNKG, 0x00 },
Package (0x04) { 0x3FFFF, 0x01, LNKH, 0x00 },
Package (0x04) { 0x3FFFF, 0x02, LNKE, 0x00 },
Package (0x04) { 0x3FFFF, 0x03, LNKF, 0x00 },
})
Name (AR01, Package () {
/* APIC */
Package (0x04) { 0x1FFFF, 0x00, 0x00, 21 },
Package (0x04) { 0x2FFFF, 0x00, 0x00, 20 },
Package (0x04) { 0x3FFFF, 0x00, 0x00, 22 },
Package (0x04) { 0x3FFFF, 0x01, 0x00, 23 },
Package (0x04) { 0x3FFFF, 0x02, 0x00, 20 },
Package (0x04) { 0x3FFFF, 0x03, 0x00, 21 },
})
Name (PR02, Package () {
/* PIC */
Package (0x04) { 0xFFFF, 0x00, LNKA, 0x00 },
Package (0x04) { 0xFFFF, 0x01, LNKB, 0x00 },
Package (0x04) { 0xFFFF, 0x02, LNKC, 0x00 },
Package (0x04) { 0xFFFF, 0x03, LNKD, 0x00 },
})
Name (AR02, Package () {
/* APIC */
Package (0x04) { 0xFFFF, 0x00, 0x00, 24 },
Package (0x04) { 0xFFFF, 0x01, 0x00, 25 },
Package (0x04) { 0xFFFF, 0x02, 0x00, 26 },
Package (0x04) { 0xFFFF, 0x03, 0x00, 27 },
})
Name (PR03, Package () {
/* PIC */
Package (0x04) { 0xFFFF, 0x00, LNKE, 0x00 },
Package (0x04) { 0xFFFF, 0x01, LNKF, 0x00 },
Package (0x04) { 0xFFFF, 0x02, LNKG, 0x00 },
Package (0x04) { 0xFFFF, 0x03, LNKH, 0x00 },
})
Name (AR03, Package () {
/* APIC */
Package (0x04) { 0xFFFF, 0x00, 0x00, 44 },
Package (0x04) { 0xFFFF, 0x01, 0x00, 45 },
Package (0x04) { 0xFFFF, 0x02, 0x00, 46 },
Package (0x04) { 0xFFFF, 0x03, 0x00, 47 },
})
Name (PR04, Package () {
/* PIC */
Package (0x04) { 0xFFFF, 0x00, LNKA, 0x00 },
Package (0x04) { 0xFFFF, 0x01, LNKB, 0x00 },
Package (0x04) { 0xFFFF, 0x02, LNKC, 0x00 },
Package (0x04) { 0xFFFF, 0x03, LNKD, 0x00 },
})
Name (AR04, Package () {
/* APIC */
Package (0x04) { 0xFFFF, 0x00, 0x00, 48 },
Package (0x04) { 0xFFFF, 0x01, 0x00, 49 },
Package (0x04) { 0xFFFF, 0x02, 0x00, 50 },
Package (0x04) { 0xFFFF, 0x03, 0x00, 51 },
})
Name (PR05, Package () {
/* PIC */
Package (0x04) { 0xFFFF, 0x00, LNKH, 0x00 },
Package (0x04) { 0xFFFF, 0x01, LNKE, 0x00 },
Package (0x04) { 0xFFFF, 0x02, LNKF, 0x00 },
Package (0x04) { 0xFFFF, 0x03, LNKG, 0x00 },
})
Name (AR05, Package () {
/* APIC */
Package (0x04) { 0xFFFF, 0x00, 0x00, 47 },
Package (0x04) { 0xFFFF, 0x01, 0x00, 44 },
Package (0x04) { 0xFFFF, 0x02, 0x00, 45 },
Package (0x04) { 0xFFFF, 0x03, 0x00, 46 },
})
Name (PR06, Package () {
/* PIC */
Package (0x04) { 0xFFFF, 0x00, LNKA, 0x00 },
Package (0x04) { 0xFFFF, 0x01, LNKB, 0x00 },
Package (0x04) { 0xFFFF, 0x02, LNKC, 0x00 },
Package (0x04) { 0xFFFF, 0x03, LNKD, 0x00 },
})
Name (AR06, Package () {
/* APIC */
Package (0x04) { 0xFFFF, 0x00, 0x00, 32 },
Package (0x04) { 0xFFFF, 0x01, 0x00, 33 },
Package (0x04) { 0xFFFF, 0x02, 0x00, 34 },
Package (0x04) { 0xFFFF, 0x03, 0x00, 35 },
})
Name (PR07, Package () {
/* PIC */
Package (0x04) { 0xFFFF, 0x00, LNKE, 0x00 },
Package (0x04) { 0xFFFF, 0x01, LNKF, 0x00 },
Package (0x04) { 0xFFFF, 0x02, LNKG, 0x00 },
Package (0x04) { 0xFFFF, 0x03, LNKH, 0x00 },
})
Name (AR07, Package () {
/* APIC */
Package (0x04) { 0xFFFF, 0x00, 0x00, 36 },
Package (0x04) { 0xFFFF, 0x01, 0x00, 37 },
Package (0x04) { 0xFFFF, 0x02, 0x00, 38 },
Package (0x04) { 0xFFFF, 0x03, 0x00, 39 },
})
Name (PR08, Package () {
/* PIC */
Package (0x04) { 0xFFFF, 0x00, LNKA, 0x00 },
Package (0x04) { 0xFFFF, 0x01, LNKB, 0x00 },
Package (0x04) { 0xFFFF, 0x02, LNKC, 0x00 },
Package (0x04) { 0xFFFF, 0x03, LNKD, 0x00 },
})
Name (AR08, Package () {
/* APIC */
Package (0x04) { 0xFFFF, 0x00, 0x00, 40 },
Package (0x04) { 0xFFFF, 0x01, 0x00, 41 },
Package (0x04) { 0xFFFF, 0x02, 0x00, 42 },
Package (0x04) { 0xFFFF, 0x03, 0x00, 43 },
})
/* PCI Resource Tables */
/* PCI Resource Settings Access */
Method (_CRS, 0, Serialized)
{
Name (BUF0, ResourceTemplate ()
{
IO (Decode16,
0x0CF8, // Address Range Minimum
0x0CF8, // Address Range Maximum
0x01, // Address Alignment
0x08, // Address Length
)
WordIO (ResourceProducer, MinFixed, MaxFixed, PosDecode, EntireRange,
0x0000, // Address Space Granularity
0x0000, // Address Range Minimum
0x0CF7, // Address Range Maximum
0x0000, // Address Translation Offset
0x0CF8, // Address Length
,, , TypeStatic)
})
/* Methods below use SSDT to get actual MMIO regs
The IO ports are from 0xd00, optionally an VGA,
otherwise the info from MMIO is used.
\_SB.GXXX(node, link)
*/
Concatenate (\_SB.GMEM (0x00, \_SB.PCI0.SBLK), BUF0, Local1)
Concatenate (\_SB.GIOR (0x00, \_SB.PCI0.SBLK), Local1, Local2)
Concatenate (\_SB.GWBN (0x00, \_SB.PCI0.SBLK), Local2, Local3)
Return (Local3)
}
/* PCI Routing Table Access */
Method (_PRT, 0, NotSerialized) {
If (PICM) {
Return (AR00)
} Else {
Return (PR00)
}
}
/* 0:11.0 SP5100 SATA 0 */
Device(SAT0)
{
Name (_ADR, 0x00110000) // _ADR: Address
Name(_PRW, Package () {0x05, 0x04}) // Wake from S1-S4
#include "southbridge/amd/sb700/acpi/sata.asl"
}
/* 0:12.0 SP5100 USB 0 */
Device (USB0)
{
Name (_ADR, 0x00120000) // _ADR: Address
Name(_PRW, Package () {0x05, 0x04}) // Wake from S1-S4
}
/* 0:12.1 SP5100 USB 1 */
Device (USB1)
{
Name (_ADR, 0x00120001) // _ADR: Address
Name(_PRW, Package () {0x05, 0x04}) // Wake from S1-S4
}
/* 0:12.2 SP5100 USB 2 */
Device (USB2)
{
Name (_ADR, 0x00120002) // _ADR: Address
Name(_PRW, Package () {0x05, 0x04}) // Wake from S1-S4
}
/* 0:13.0 SP5100 USB 3 */
Device (USB3)
{
Name (_ADR, 0x00130000) // _ADR: Address
Name(_PRW, Package () {0x05, 0x04}) // Wake from S1-S4
}
/* 0:13.1 SP5100 USB 4 */
Device (USB4)
{
Name (_ADR, 0x00130001) // _ADR: Address
Name(_PRW, Package () {0x05, 0x04}) // Wake from S1-S4
}
/* 0:13.2 SP5100 USB 5 */
Device (USB5)
{
Name (_ADR, 0x00130002) // _ADR: Address
Name(_PRW, Package () {0x05, 0x04}) // Wake from S1-S4
}
/* 0:14.1 SP5100 IDE Controller */
Device (IDEC)
{
Name (_ADR, 0x00140001) // _ADR: Address
Name(_PRW, Package () {0x05, 0x04}) // Wake from S1-S4
#include "southbridge/amd/sb700/acpi/ide.asl"
}
/* 0:14.3 SP5100 LPC */
Device (LPC) {
Name (_HID, EisaId ("PNP0A05"))
Name (_ADR, 0x00140003)
/* Real Time Clock Device */
Device(RTC0) {
Name(_HID, EISAID("PNP0B00")) /* AT Real Time Clock (not PIIX4 compatible) */
Name(BUF0, ResourceTemplate() {
IO(Decode16, 0x0070, 0x0070, 0x01, 0x02)
})
Name(BUF1, ResourceTemplate() {
IRQNoFlags() { 8 }
IO(Decode16, 0x0070, 0x0070, 0x01, 0x02)
})
Method(_CRS, 0) {
If(HPTE) {
Return(BUF0)
}
Return(BUF1)
}
}
Device(TMR) { /* Timer */
Name(_HID,EISAID("PNP0100")) /* System Timer */
Name(BUF0, ResourceTemplate() {
IO(Decode16, 0x0040, 0x0040, 0x01, 0x04)
})
Name(BUF1, ResourceTemplate() {
IRQNoFlags() { 0 }
IO(Decode16, 0x0040, 0x0040, 0x01, 0x04)
})
Method(_CRS, 0) {
If(HPTE) {
Return(BUF0)
}
Return(BUF1)
}
}
Device(SPKR) { /* Speaker */
Name(_HID,EISAID("PNP0800")) /* AT style speaker */
Name(_CRS, ResourceTemplate() {
IO(Decode16, 0x0061, 0x0061, 0, 1)
})
}
Device(PIC) {
Name(_HID,EISAID("PNP0000")) /* AT Interrupt Controller */
Name(_CRS, ResourceTemplate() {
IRQNoFlags() { 2 }
IO(Decode16,0x0020, 0x0020, 0, 2)
IO(Decode16,0x00A0, 0x00A0, 0, 2)
})
}
Device(MAD) { /* 8257 DMA */
Name(_HID,EISAID("PNP0200")) /* Hardware Device ID */
Name(_CRS, ResourceTemplate() {
DMA(Compatibility,BusMaster,Transfer8){4}
IO(Decode16, 0x0000, 0x0000, 0x10, 0x10)
IO(Decode16, 0x0081, 0x0081, 0x01, 0x03)
IO(Decode16, 0x0087, 0x0087, 0x01, 0x01)
IO(Decode16, 0x0089, 0x0089, 0x01, 0x03)
IO(Decode16, 0x008F, 0x008F, 0x01, 0x01)
IO(Decode16, 0x00C0, 0x00C0, 0x10, 0x20)
}) /* End Name(_SB.PCI0.LpcIsaBr.MAD._CRS) */
}
Device(COPR) {
Name(_HID,EISAID("PNP0C04")) /* Math Coprocessor */
Name(_CRS, ResourceTemplate() {
IO(Decode16, 0x00F0, 0x00F0, 0, 0x10)
IRQNoFlags(){13}
})
}
#include "../../../superio/winbond/w83667hg-a/ps2_controller.asl"
/* UART 1 */
Device (URT1)
{
Name (_HID, EisaId ("PNP0501")) // "PNP0501" for UART
Name(_PRW, Package () {0x03, 0x04}) // Wake from S1-S4
Method (_STA, 0, NotSerialized)
{
Return (0x0f) // Always enable
}
Name (_PRS, ResourceTemplate() {
StartDependentFn(0, 1) {
IO(Decode16, 0x3f8, 0x3f8, 0x8, 0x8)
IRQNoFlags() { 4 }
} EndDependentFn()
})
Method (_CRS, 0)
{
Return(ResourceTemplate() {
IO(Decode16, 0x3f8, 0x3f8, 0x8, 0x8)
IRQNoFlags() { 4 }
})
}
}
}
/* High Precision Event Timer */
Device (HPET)
{
Name (_HID, EisaId ("PNP0103"))
Name (CRS, ResourceTemplate ()
{
Memory32Fixed(ReadOnly, 0xFED00000, 0x00000400)
})
Method (_STA, 0)
{
If(HPTE) {
Return (0x0F)
}
Return (0x0)
}
Method(_CRS, 0)
{
Return(CRS)
}
}
/* 0:14.4 PCI Bridge */
Device (PBR0)
{
Name (_ADR, 0x00140004) // _ADR: Address
Name(_PRW, Package () {0x11, 0x04}) // Wake from S1-S4
Method (_PRT, 0, NotSerialized) // _PRT: PCI Routing Table
{
If (PICM) {
Return (AR01)
} Else {
Return (PR01)
}
}
Device (SLT1)
{
Name (_ADR, 0xFFFF) // _ADR: Address
Name(_PRW, Package () {0x0B, 0x04}) // Wake from S1-S4
}
}
/* 0:14.5 SP5100 USB 6 */
Device (USB6)
{
Name (_ADR, 0x00140005) // _ADR: Address
Name(_PRW, Package () {0x05, 0x04}) // Wake from S1-S4
}
/* 2:00.0 PCIe x16 */
Device (PCE1)
{
Name (_ADR, 0x00020000) // _ADR: Address
Name(_PRW, Package () {0x11, 0x04}) // Wake from S1-S4
Method (_PRT, 0, NotSerialized) // _PRT: PCI Routing Table
{
If (PICM) {
Return (AR02)
} Else {
Return (PR02)
}
}
Device (SLT1)
{
Name (_ADR, 0xFFFF) // _ADR: Address
Name(_PRW, Package () {0x0B, 0x04}) // Wake from S1-S4
}
}
/* 1:00.0 PIKE */
Device (PIKE)
{
Name (_ADR, 0x00040000) // _ADR: Address
Name(_PRW, Package () {0x11, 0x04}) // Wake from S1-S4
Method (_PRT, 0, NotSerialized) // _PRT: PCI Routing Table
{
If (PICM) {
Return (AR03)
} Else {
Return (PR03)
}
}
Device (SLT1)
{
Name (_ADR, 0xFFFF) // _ADR: Address
Name(_PRW, Package () {0x0B, 0x04}) // Wake from S1-S4
}
}
/* 3:00.0 PCIe NIC A */
Device (NICA)
{
Name (_ADR, 0x00090000) // _ADR: Address
Name(_PRW, Package () {0x11, 0x04}) // Wake from S1-S4
Method (_PRT, 0, NotSerialized) // _PRT: PCI Routing Table
{
If (PICM) {
Return (AR04)
} Else {
Return (PR04)
}
}
Device (BDC1)
{
Name (_ADR, Zero) // _ADR: Address
}
}
/* 4:00.0 PCIe NIC B */
Device (NICB)
{
Name (_ADR, 0x000A0000) // _ADR: Address
Name(_PRW, Package () {0x11, 0x04}) // Wake from S1-S4
Method (_PRT, 0, NotSerialized) // _PRT: PCI Routing Table
{
If (PICM) {
Return (AR05)
} Else {
Return (PR05)
}
}
Device (BDC2)
{
Name (_ADR, Zero) // _ADR: Address
}
}
/* 5:00.0 PCIe x16 */
Device (PCE4)
{
Name (_ADR, 0x000B0000) // _ADR: Address
Name(_PRW, Package () {0x11, 0x04}) // Wake from S1-S4
Method (_PRT, 0, NotSerialized) // _PRT: PCI Routing Table
{
If (PICM) {
Return (AR06)
} Else {
Return (PR06)
}
}
Device (SLT1)
{
Name (_ADR, 0xFFFF) // _ADR: Address
Name(_PRW, Package () {0x0B, 0x04}) // Wake from S1-S4
}
}
/* 6:00.0 PCIe x16 */
Device (PCE5)
{
Name (_ADR, 0x000C0000) // _ADR: Address
Name(_PRW, Package () {0x11, 0x04}) // Wake from S1-S4
Method (_PRT, 0, NotSerialized) // _PRT: PCI Routing Table
{
If (PICM) {
Return (AR07)
} Else {
Return (PR07)
}
}
Device (SLT1)
{
Name (_ADR, 0xFFFF) // _ADR: Address
Name(_PRW, Package () {0x0B, 0x04}) // Wake from S1-S4
}
}
/* 7:00.0 PCIe x16 */
Device (PCE3)
{
Name (_ADR, 0x000D0000) // _ADR: Address
Name(_PRW, Package () {0x11, 0x04}) // Wake from S1-S4
Method (_PRT, 0, NotSerialized) // _PRT: PCI Routing Table
{
If (PICM) {
Return (AR08)
} Else {
Return (PR08)
}
}
Device (SLT1)
{
Name (_ADR, 0xFFFF) // _ADR: Address
Name(_PRW, Package () {0x0B, 0x04}) // Wake from S1-S4
}
}
}
Device (PWRB) { /* Start Power button device */
Name(_HID, EISAID("PNP0C0C"))
Name(_UID, 0xAA)
Name(_PRW, Package () {3, 0x04}) /* wake from S1-S4 */
Name(_STA, 0x0B) /* sata is invisible */
}
}
#include "acpi/pm_ctrl.asl"
}

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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2010 Advanced Micro Devices, Inc.
* Copyright (C) 2015 Timothy Pearson <tpearson@raptorengineeringinc.com>, Raptor Engineering
*
* 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/pci.h>
#include <device/pci_ids.h>
#include <string.h>
#include <stdint.h>
#include <stdlib.h>
#include <cpu/amd/multicore.h>
#include <cpu/amd/amdfam10_sysconf.h>
/* Global variables for MB layouts and these will be shared by irqtable mptable
* and acpi_tables busnum is default.
*/
u8 bus_isa;
u8 bus_sr5650[14];
u8 bus_sp5100[2];
u32 apicid_sp5100;
/*
* Here you only need to set value in pci1234 for HT-IO that could be installed or not
* You may need to preset pci1234 for HTIO board,
* please refer to src/northbridge/amd/amdk8/get_sblk_pci1234.c for detail
*/
u32 pci1234x[] = {
0x0000ff0,
};
/*
* HT Chain device num, actually it is unit id base of every ht device in chain,
* assume every chain only have 4 ht device at most
*/
u32 hcdnx[] = {
0x20202020,
};
u32 sbdn_sr5650;
u32 sbdn_sp5100;
extern void get_pci1234(void);
static u32 get_bus_conf_done = 0;
void get_bus_conf(void)
{
u32 apicid_base;
device_t dev;
int i;
if (get_bus_conf_done == 1)
return; /* do it only once */
get_bus_conf_done = 1;
sysconf.hc_possible_num = ARRAY_SIZE(pci1234x);
for (i = 0; i < sysconf.hc_possible_num; i++) {
sysconf.pci1234[i] = pci1234x[i];
sysconf.hcdn[i] = hcdnx[i];
}
get_pci1234();
sysconf.sbdn = (sysconf.hcdn[0] & 0xff);
sbdn_sr5650 = sysconf.sbdn;
sbdn_sp5100 = 0;
for (i = 0; i < 2; i++) {
bus_sp5100[i] = 0;
}
for (i = 0; i < ARRAY_SIZE(bus_sr5650); i++) {
bus_sr5650[i] = 0;
}
bus_sr5650[0] = (sysconf.pci1234[0] >> 16) & 0xff;
bus_sp5100[0] = bus_sr5650[0];
/* sp5100 */
dev = dev_find_slot(bus_sp5100[0], PCI_DEVFN(sbdn_sp5100 + 0x14, 4));
if (dev) {
bus_sp5100[1] = pci_read_config8(dev, PCI_SECONDARY_BUS);
bus_isa = pci_read_config8(dev, PCI_SUBORDINATE_BUS);
bus_isa++;
}
/* sr5650 */
for (i = 1; i < ARRAY_SIZE(bus_sr5650); i++) {
dev = dev_find_slot(bus_sr5650[0], PCI_DEVFN(sbdn_sr5650 + i, 0));
if (dev) {
bus_sr5650[i] = pci_read_config8(dev, PCI_SECONDARY_BUS);
if(255 != bus_sr5650[i]) {
bus_isa = pci_read_config8(dev, PCI_SUBORDINATE_BUS);
bus_isa++;
}
}
}
/* I/O APICs: APIC ID Version State Address */
bus_isa = 10;
if (IS_ENABLED(CONFIG_LOGICAL_CPUS))
apicid_base = get_apicid_base(1);
else
apicid_base = CONFIG_MAX_PHYSICAL_CPUS;
apicid_sp5100 = apicid_base + 0;
}

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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2010 Advanced Micro Devices, Inc.
* Copyright (C) 2015 Raptor Engineering
*
* 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/pci_ids.h>
#include <device/pci.h>
#include <string.h>
#include <stdint.h>
#include <arch/pirq_routing.h>
#include <cpu/amd/amdfam10_sysconf.h>
/* Free irqs are 3, 4, 5, 6, 7, 9, 10, 11, 12, 14, and 15 */
#define IRQBM ((1<<3)|(1<<4)|(1<<5)|(1<<6)|(1<<7)|(1<<9)|(1<<10)|(1<<11)|(1<<12)|(1<<14)|(1<<15))
#define LNKA 1
#define LNKB 2
#define LNKC 3
#define LNKD 4
/*
* For simplicity map LNK[E-H] to LNK[A-D].
* This also means we are 82C596 compatible.
* Needs 0:11.0 0x46[4] set to 0.
*/
#define LNKE 1
#define LNKF 2
#define LNKG 3
#define LNKH 4
static void write_pirq_info(struct irq_info *pirq_info, u8 bus, u8 devfn,
u8 link0, u16 bitmap0, u8 link1, u16 bitmap1,
u8 link2, u16 bitmap2, u8 link3, u16 bitmap3,
u8 slot, u8 rfu)
{
pirq_info->bus = bus;
pirq_info->devfn = devfn;
pirq_info->irq[0].link = link0;
pirq_info->irq[0].bitmap = bitmap0;
pirq_info->irq[1].link = link1;
pirq_info->irq[1].bitmap = bitmap1;
pirq_info->irq[2].link = link2;
pirq_info->irq[2].bitmap = bitmap2;
pirq_info->irq[3].link = link3;
pirq_info->irq[3].bitmap = bitmap3;
pirq_info->slot = slot;
pirq_info->rfu = rfu;
}
extern u8 bus_isa;
extern u8 bus_sr5650[14];
extern u8 bus_sp5100[2];
extern u32 sbdn_sp5100;
extern u32 sbdn_sr5650;
unsigned long write_pirq_routing_table(unsigned long addr)
{
struct irq_routing_table *pirq;
struct irq_info *pirq_info;
u32 slot_num;
u8 *v;
u8 sum = 0;
int i;
get_bus_conf(); /* it will find out all bus num and apic that share with mptable.c and mptable.c and acpi_tables.c */
/* Align the table to be 16 byte aligned. */
addr += 15;
addr &= ~15;
/* This table must be between 0xf0000 & 0x100000 */
printk(BIOS_INFO, "Writing IRQ routing tables to 0x%lx...", addr);
pirq = (void *)(addr);
v = (u8 *) (addr);
pirq->signature = PIRQ_SIGNATURE;
pirq->version = PIRQ_VERSION;
/* Where the interrupt router resides */
pirq->rtr_bus = bus_sp5100[0];
pirq->rtr_devfn = PCI_DEVFN(0x14, 4);
pirq->exclusive_irqs = 0;
pirq->rtr_vendor = PCI_VENDOR_ID_ATI;
pirq->rtr_device = PCI_DEVICE_ID_ATI_SB700_PCI;
pirq->miniport_data = 0;
memset(pirq->rfu, 0, sizeof(pirq->rfu));
pirq_info = (void *)(&pirq->checksum + 1);
slot_num = 0;
/* pci bridge */
write_pirq_info(pirq_info, bus_sp5100[0], ((sbdn_sp5100 + 0x14) << 3) | 4,
LNKA, IRQBM, LNKB, IRQBM, LNKC, IRQBM, LNKD, IRQBM, 0, 0);
pirq_info++;
slot_num++;
pirq->size = 32 + 16 * slot_num;
for (i = 0; i < pirq->size; i++)
sum += v[i];
sum = pirq->checksum - sum;
if (sum != pirq->checksum) {
pirq->checksum = sum;
}
printk(BIOS_INFO, "done.\n");
return (unsigned long)pirq_info;
}

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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2015 Timothy Pearson <tpearson@raptorengineeringinc.com>, Raptor Engineering
* Copyright (C) 2010 Advanced Micro Devices, 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 <cpu/x86/msr.h>
#include <cpu/amd/mtrr.h>
#include <device/pci_def.h>
#include <southbridge/amd/sb700/sb700.h>
#include <southbridge/amd/sr5650/cmn.h>
void set_pcie_reset(void);
void set_pcie_dereset(void);
void set_pcie_reset(void)
{
device_t pcie_core_dev;
pcie_core_dev = dev_find_slot(0, PCI_DEVFN(0, 0));
set_htiu_enable_bits(pcie_core_dev, 0xA8, 0xFFFFFFFF, 0x28282828);
set_htiu_enable_bits(pcie_core_dev, 0xA9, 0x000000FF, 0x00000028);
}
void set_pcie_dereset(void)
{
device_t pcie_core_dev;
pcie_core_dev = dev_find_slot(0, PCI_DEVFN(0, 0));
set_htiu_enable_bits(pcie_core_dev, 0xA8, 0xFFFFFFFF, 0x6F6F6F6F);
set_htiu_enable_bits(pcie_core_dev, 0xA9, 0x000000FF, 0x0000006F);
}
/*************************************************
* enable the dedicated function in kgpe-d16 board.
* This function is called earlier than sr5650_enable.
*************************************************/
static void mainboard_enable(device_t dev)
{
printk(BIOS_INFO, "Mainboard KCMA-D8 initializing, dev=0x%p\n", dev);
msr_t msr, msr2;
/* TOP_MEM: the top of DRAM below 4G */
msr = rdmsr(TOP_MEM);
printk
(BIOS_INFO, "%s, TOP MEM: msr.lo = 0x%08x, msr.hi = 0x%08x\n",
__func__, msr.lo, msr.hi);
/* TOP_MEM2: the top of DRAM above 4G */
msr2 = rdmsr(TOP_MEM2);
printk
(BIOS_INFO, "%s, TOP MEM2: msr2.lo = 0x%08x, msr2.hi = 0x%08x\n",
__func__, msr2.lo, msr2.hi);
set_pcie_dereset();
/* get_ide_dma66(); */
}
/* override the default SATA PHY setup */
void sb7xx_51xx_setup_sata_phys(struct device *dev)
{
/* RPR7.6.1 Program the PHY Global Control to 0x2C00 */
pci_write_config16(dev, 0x86, 0x2c00);
/* RPR7.6.2 SATA GENI PHY ports setting */
pci_write_config32(dev, 0x88, 0x01b48016);
pci_write_config32(dev, 0x8c, 0x01b48016);
pci_write_config32(dev, 0x90, 0x01b48016);
pci_write_config32(dev, 0x94, 0x01b48016);
pci_write_config32(dev, 0x98, 0x01b48016);
pci_write_config32(dev, 0x9c, 0x01b48016);
/* RPR7.6.3 SATA GEN II PHY port setting for port [0~5]. */
pci_write_config16(dev, 0xa0, 0xa07a);
pci_write_config16(dev, 0xa2, 0xa07a);
pci_write_config16(dev, 0xa4, 0xa07a);
pci_write_config16(dev, 0xa6, 0xa07a);
pci_write_config16(dev, 0xa8, 0xa07a);
pci_write_config16(dev, 0xaa, 0xa07a);
}
/* override the default SATA port setup */
void sb7xx_51xx_setup_sata_port_indication(void *sata_bar5)
{
uint32_t dword;
/* RPR7.9 Program Port Indication Registers */
dword = read32(sata_bar5 + 0xf8);
dword &= ~(0x3f << 12); /* All ports are iSATA */
dword &= ~0x3f;
write32(sata_bar5 + 0xf8, dword);
dword = read32(sata_bar5 + 0xfc);
dword &= ~(0x1 << 20); /* No eSATA ports are present */
write32(sata_bar5 + 0xfc, dword);
}
struct chip_operations mainboard_ops = {
.enable_dev = mainboard_enable,
};

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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2010 Advanced Micro Devices, Inc.
* Copyright (C) 2015 Timothy Pearson <tpearson@raptorengineeringinc.com>, Raptor Engineering
*
* 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.
*/
#ifndef MB_SYSCONF_H
#define MB_SYSCONF_H
struct mb_sysconf_t {
u8 bus_isa;
u8 bus_8132_0;
u8 bus_8132_1;
u8 bus_8132_2;
u8 bus_8111_0;
u8 bus_8111_1;
u8 bus_8132a[31][3];
u8 bus_8151[31][2];
u32 apicid_8111;
u32 apicid_8132_1;
u32 apicid_8132_2;
u32 apicid_8132a[31][2];
u32 sbdn3;
u32 sbdn3a[31];
u32 sbdn5[31];
};
#endif

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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2010 Advanced Micro Devices, Inc.
* Copyright (C) 2015 Raptor Engineering
*
* 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 <arch/smp/mpspec.h>
#include <device/pci.h>
#include <arch/io.h>
#include <string.h>
#include <stdint.h>
#include <cpu/amd/amdfam10_sysconf.h>
extern u8 bus_sr5650[14];
extern u8 bus_sp5100[2];
extern u32 apicid_sp5100;
extern u32 sbdn_sr5650;
extern u32 sbdn_sp5100;
static void *smp_write_config_table(void *v)
{
struct mp_config_table *mc;
int bus_isa;
u32 apicid_sr5650;
device_t dev;
uint8_t sp5100_bus_number;
mc = (void *)(((char *)v) + SMP_FLOATING_TABLE_LEN);
mptable_init(mc, LOCAL_APIC_ADDR);
smp_write_processors(mc);
get_bus_conf();
if (IS_ENABLED(CONFIG_ENABLE_APIC_EXT_ID) && (CONFIG_APIC_ID_OFFSET > 0))
apicid_sp5100 = 0x0;
else
apicid_sp5100 = 0x20;
apicid_sr5650 = apicid_sp5100 + 1;
mptable_write_buses(mc, NULL, &bus_isa);
/* I/O APICs: APIC ID Version State Address */
{
uint32_t *dword_ptr;
uint32_t dword;
uint16_t word;
uint8_t byte;
sp5100_bus_number = 0; //bus_sp5100[0]; TODO: why bus_sp5100[0] use same value of bus_sr5650[0] assigned by get_pci1234(), instead of 0.
dev = dev_find_slot(sp5100_bus_number, PCI_DEVFN(sbdn_sp5100 + 0x14, 0));
if (dev) {
dword_ptr = (u32 *)(pci_read_config32(dev, 0x74) & 0xfffffff0);
smp_write_ioapic(mc, apicid_sp5100, 0x11, dword_ptr);
/* Initialize interrupt mapping */
/* USB 1 & 2 */
word = pci_read_config16(dev, 0xbe);
word &= ~0x3f3f;
word |= 0x0; /* 0: INTA, ...., 7: INTH */
word |= (0x1 << 3); /* 0: INTA, ...., 7: INTH */
word |= (0x2 << 8); /* 0: INTA, ...., 7: INTH */
word |= (0x3 << 11); /* 0: INTA, ...., 7: INTH */
pci_write_config16(dev, 0xbe, word);
/* USB 3 */
byte = pci_read_config8(dev, 0x63);
byte &= 0xf8;
byte |= (0x2 << 4); /* 0: INTA, ...., 7: INTH */
pci_write_config8(dev, 0x63, byte);
dword = pci_read_config32(dev, 0xac);
/* SATA */
dword &= ~(7 << 26);
dword |= (0x6 << 26); /* 0: INTA, ...., 7: INTH */
/* Hide IDE */
dword &= ~(0x00080000);
/* dword_ptr |= 1<<22; PIC and APIC co exists */
pci_write_config32(dev, 0xac, dword);
/*
* 00:12.0: PROG SATA : INT F
* 00:13.0: INTA USB_0
* 00:13.1: INTB USB_1
* 00:13.2: INTC USB_2
* 00:13.3: INTD USB_3
* 00:13.4: INTC USB_4
* 00:13.5: INTD USB2
* 00:14.1: INTA IDE
* 00:14.2: Prog HDA : INT E
* 00:14.5: INTB ACI
* 00:14.6: INTB MCI
*/
}
dev = dev_find_slot(0, PCI_DEVFN(0, 0));
if (dev) {
pci_write_config32(dev, 0xF8, 0x1);
dword_ptr = (u32 *)(pci_read_config32(dev, 0xFC) & 0xfffffff0);
smp_write_ioapic(mc, apicid_sr5650, 0x11, dword_ptr);
}
}
/* I/O Ints: Type Polarity Trigger Bus ID IRQ APIC ID PIN# */
#define IO_LOCAL_INT(type, intr, apicid, pin) \
smp_write_lintsrc(mc, (type), MP_IRQ_TRIGGER_EDGE | MP_IRQ_POLARITY_HIGH, bus_isa, (intr), (apicid), (pin));
mptable_add_isa_interrupts(mc, bus_isa, apicid_sp5100, 0);
/* SR5650 devices */
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, 0, (((0)<<2)|(2)), apicid_sr5650, 31); /* Device 0 Function 2 (LNKA, APIC pin 31) */
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, 0, (((2)<<2)|(0)), apicid_sr5650, 28); /* Device 2 (LNKE, APIC pin 28) */
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, 0, (((4)<<2)|(0)), apicid_sr5650, 28); /* Device 4 (LNKF, APIC pin 28) */
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, 0, (((9)<<2)|(0)), apicid_sr5650, 29); /* Device 9 (LNKG, APIC pin 29) */
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, 0, (((10)<<2)|(0)), apicid_sr5650, 30); /* Device 10 (LNKG, APIC pin 30) */
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, 0, (((11)<<2)|(0)), apicid_sr5650, 30); /* Device 11 (LNKG, APIC pin 30) */
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, 0, (((12)<<2)|(0)), apicid_sr5650, 30); /* Device 12 (LNKG, APIC pin 30) */
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, 0, (((13)<<2)|(0)), apicid_sr5650, 30); /* Device 13 (LNKG, APIC pin 30)) */
dev = dev_find_slot(0, PCI_DEVFN(0x2, 0));
if (dev && dev->enabled) {
uint8_t bus_pci = dev->link_list->secondary;
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, bus_pci, (((0)<<0x2)|(0)), apicid_sr5650, 0); /* card behind dev2 */
}
dev = dev_find_slot(0, PCI_DEVFN(0x4, 0));
if (dev && dev->enabled) {
uint8_t bus_pci = dev->link_list->secondary;
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, bus_pci, (((0)<<0x4)|(0)), apicid_sr5650, 0); /* PIKE */
}
dev = dev_find_slot(0, PCI_DEVFN(0x9, 0));
if (dev && dev->enabled) {
uint8_t bus_pci = dev->link_list->secondary;
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, bus_pci, (((0)<<0x9)|(0)), apicid_sr5650, 23); /* NIC A */
}
dev = dev_find_slot(0, PCI_DEVFN(0xa, 0));
if (dev && dev->enabled) {
uint8_t bus_pci = dev->link_list->secondary;
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, bus_pci, (((0)<<0xa)|(0)), apicid_sr5650, 24); /* NIC B */
}
dev = dev_find_slot(0, PCI_DEVFN(0xb, 0));
if (dev && dev->enabled) {
uint8_t bus_pci = dev->link_list->secondary;
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, bus_pci, (((0)<<0xb)|(0)), apicid_sr5650, 0); /* card behind dev11 */
}
dev = dev_find_slot(0, PCI_DEVFN(0xc, 0));
if (dev && dev->enabled) {
uint8_t bus_pci = dev->link_list->secondary;
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, bus_pci, (((0)<<0xc)|(0)), apicid_sr5650, 0); /* card behind dev12 */
}
dev = dev_find_slot(0, PCI_DEVFN(0xd, 0));
if (dev && dev->enabled) {
uint8_t bus_pci = dev->link_list->secondary;
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, bus_pci, (((0)<<0xd)|(0)), apicid_sr5650, 0); /* card behind dev13 */
}
/* PCI interrupts are level triggered, and are
* associated with a specific bus/device/function tuple.
*/
#define PCI_INT(bus, dev, interrupt_signal, pin) \
smp_write_intsrc(mc, mp_INT, MP_IRQ_TRIGGER_LEVEL|MP_IRQ_POLARITY_LOW, (bus), (((dev)<<2)|(interrupt_signal)), apicid_sp5100, (pin))
/* USB1 */
PCI_INT(sp5100_bus_number, 0x12, 0x0, 0x10); /* OHCI0 Port 0~2 */
PCI_INT(sp5100_bus_number, 0x12, 0x1, 0x11); /* OHCI1 Port 3~5 */
/* USB2 */
PCI_INT(sp5100_bus_number, 0x13, 0x0, 0x12); /* OHCI0 Port 6~8 */
PCI_INT(sp5100_bus_number, 0x13, 0x1, 0x13); /* EHCI Port 6~11 */
/* USB3 */
PCI_INT(sp5100_bus_number, 0x14, 0x3, 0x12); /* OHCI0 Port 12~13 */
/* SATA */
PCI_INT(sp5100_bus_number, 0x11, 0x0, 0x16); /* 6, INTG */
/* PCI slots */
dev = dev_find_slot(0, PCI_DEVFN(0x14, 4));
if (dev && dev->enabled) {
u8 bus_pci = dev->link_list->secondary;
/* PCI_SLOT 0. */
PCI_INT(bus_pci, 0x1, 0x0, 0x15);
PCI_INT(bus_pci, 0x1, 0x1, 0x16);
PCI_INT(bus_pci, 0x1, 0x2, 0x17);
PCI_INT(bus_pci, 0x1, 0x3, 0x14);
/* PCI_SLOT 1. */
PCI_INT(bus_pci, 0x2, 0x0, 0x14);
PCI_INT(bus_pci, 0x2, 0x1, 0x15);
PCI_INT(bus_pci, 0x2, 0x2, 0x16);
PCI_INT(bus_pci, 0x2, 0x3, 0x17);
/* PCI_SLOT 2. */
PCI_INT(bus_pci, 0x3, 0x0, 0x16);
PCI_INT(bus_pci, 0x3, 0x1, 0x17);
PCI_INT(bus_pci, 0x3, 0x2, 0x14);
PCI_INT(bus_pci, 0x3, 0x3, 0x15);
}
/*Local Ints: Type Polarity Trigger Bus ID IRQ APIC ID PIN# */
IO_LOCAL_INT(mp_ExtINT, 0x0, MP_APIC_ALL, 0x0);
IO_LOCAL_INT(mp_NMI, 0x0, MP_APIC_ALL, 0x1);
/* There is no extension information... */
/* Compute the checksums */
return mptable_finalize(mc);
}
unsigned long write_smp_table(unsigned long addr)
{
void *v;
v = smp_write_floating_table(addr, 0);
return (unsigned long)smp_write_config_table(v);
}

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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2015 Timothy Pearson <tpearson@raptorengineeringinc.com>, Raptor Engineering
*
* Copyright (C) 2007 AMD
* Written by Yinghai Lu <yinghailu@amd.com> for AMD.
*
* 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.
*/
static void setup_mb_resource_map(void)
{
static const unsigned int fam15h_register_values[] = {
/* Careful set limit registers before base registers which contain the enables */
/* DRAM Limit i Registers
* F1:0x44 i = 0
* F1:0x4C i = 1
* F1:0x54 i = 2
* F1:0x5C i = 3
* F1:0x64 i = 4
* F1:0x6C i = 5
* F1:0x74 i = 6
* F1:0x7C i = 7
* [ 2: 0] Destination Node ID
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 7: 3] Reserved
* [10: 8] Interleave select
* specifies the values of A[14:12] to use with interleave enable.
* [15:11] Reserved
* [31:16] DRAM Limit Address i Bits 39-24
* This field defines the upper address bits of a 40 bit address
* that define the end of the DRAM region.
*/
// PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x44), 0x0000f8f8, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x4C), 0x0000f8f8, 0x00000001,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x54), 0x0000f8f8, 0x00000002,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x5C), 0x0000f8f8, 0x00000003,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x64), 0x0000f8f8, 0x00000004,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x6C), 0x0000f8f8, 0x00000005,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x74), 0x0000f8f8, 0x00000006,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x7C), 0x0000f8f8, 0x00000007,
/* DRAM Base i Registers
* F1:0x40 i = 0
* F1:0x48 i = 1
* F1:0x50 i = 2
* F1:0x58 i = 3
* F1:0x60 i = 4
* F1:0x68 i = 5
* F1:0x70 i = 6
* F1:0x78 i = 7
* [ 0: 0] Read Enable
* 0 = Reads Disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes Disabled
* 1 = Writes Enabled
* [ 7: 2] Reserved
* [10: 8] Interleave Enable
* 000 = No interleave
* 001 = Interleave on A[12] (2 nodes)
* 010 = reserved
* 011 = Interleave on A[12] and A[14] (4 nodes)
* 100 = reserved
* 101 = reserved
* 110 = reserved
* 111 = Interleve on A[12] and A[13] and A[14] (8 nodes)
* [15:11] Reserved
* [31:16] DRAM Base Address i Bits 39-24
* This field defines the upper address bits of a 40-bit address
* that define the start of the DRAM region.
*/
// PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x40), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x48), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x50), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x58), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x60), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x68), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x70), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x78), 0x0000f8fc, 0x00000000,
/* Memory-Mapped I/O Limit i Registers
* F1:0x84 i = 0
* F1:0x8C i = 1
* F1:0x94 i = 2
* F1:0x9C i = 3
* F1:0xA4 i = 4
* F1:0xAC i = 5
* F1:0xB4 i = 6
* F1:0xBC i = 7
* [ 2: 0] Destination Node ID
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 3: 3] Reserved
* [ 5: 4] Destination Link ID
* 00 = Link 0
* 01 = Link 1
* 10 = Link 2
* 11 = Link 3
* [ 6: 6] Reserved
* [ 7: 7] Non-Posted
* 0 = CPU writes may be posted
* 1 = CPU writes must be non-posted
* [31: 8] Memory-Mapped I/O Limit Address i (39-16)
* This field defines the upp adddress bits of a 40-bit address that
* defines the end of a memory-mapped I/O region n
*/
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x84), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x8C), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x94), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x9C), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xA4), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xAC), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xB4), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xBC), 0x00000048, 0x00000000,
/* Memory-Mapped I/O Base i Registers
* F1:0x80 i = 0
* F1:0x88 i = 1
* F1:0x90 i = 2
* F1:0x98 i = 3
* F1:0xA0 i = 4
* F1:0xA8 i = 5
* F1:0xB0 i = 6
* F1:0xB8 i = 7
* [ 0: 0] Read Enable
* 0 = Reads disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes disabled
* 1 = Writes Enabled
* [ 2: 2] Cpu Disable
* 0 = Cpu can use this I/O range
* 1 = Cpu requests do not use this I/O range
* [ 3: 3] Lock
* 0 = base/limit registers i are read/write
* 1 = base/limit registers i are read-only
* [ 7: 4] Reserved
* [31: 8] Memory-Mapped I/O Base Address i (39-16)
* This field defines the upper address bits of a 40bit address
* that defines the start of memory-mapped I/O region i
*/
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x80), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x88), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x90), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x98), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xA0), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xA8), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xB0), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xB8), 0x000000f0, 0x00000000,
/* PCI I/O Limit i Registers
* F1:0xC4 i = 0
* F1:0xCC i = 1
* F1:0xD4 i = 2
* F1:0xDC i = 3
* [ 2: 0] Destination Node ID
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 3: 3] Reserved
* [ 5: 4] Destination Link ID
* 00 = Link 0
* 01 = Link 1
* 10 = Link 2
* 11 = Link 3
* [11: 6] Reserved
* [24:12] PCI I/O Limit Address i
* This field defines the end of PCI I/O region n
* [31:25] Reserved
*/
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xC4), 0xFE000FC8, 0x00fff010, /* link 1 of cpu 0 --> AMD SR5690 */
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xCC), 0xFE000FC8, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xD4), 0xFE000FC8, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xDC), 0xFE000FC8, 0x00000000,
/* PCI I/O Base i Registers
* F1:0xC0 i = 0
* F1:0xC8 i = 1
* F1:0xD0 i = 2
* F1:0xD8 i = 3
* [ 0: 0] Read Enable
* 0 = Reads Disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes Disabled
* 1 = Writes Enabled
* [ 3: 2] Reserved
* [ 4: 4] VGA Enable
* 0 = VGA matches Disabled
* 1 = matches all address < 64K and where A[9:0] is in the
* range 3B0-3BB or 3C0-3DF independent of the base & limit registers
* [ 5: 5] ISA Enable
* 0 = ISA matches Disabled
* 1 = Blocks address < 64K and in the last 768 bytes of eack 1K block
* from matching agains this base/limit pair
* [11: 6] Reserved
* [24:12] PCI I/O Base i
* This field defines the start of PCI I/O region n
* [31:25] Reserved
*/
// PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xC0), 0xFE000FCC, 0x00001013,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xC8), 0xFE000FCC, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xD0), 0xFE000FCC, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xD8), 0xFE000FCC, 0x00000000,
/* Config Base and Limit i Registers
* F1:0xE0 i = 0
* F1:0xE4 i = 1
* F1:0xE8 i = 2
* F1:0xEC i = 3
* [ 0: 0] Read Enable
* 0 = Reads Disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes Disabled
* 1 = Writes Enabled
* [ 2: 2] Device Number Compare Enable
* 0 = The ranges are based on bus number
* 1 = The ranges are ranges of devices on bus 0
* [ 3: 3] Reserved
* [ 6: 4] Destination Node
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 7: 7] Reserved
* [ 9: 8] Destination Link
* 00 = Link 0
* 01 = Link 1
* 10 = Link 2
* 11 - Link 3
* [15:10] Reserved
* [23:16] Bus Number Base i
* This field defines the lowest bus number in configuration region i
* [31:24] Bus Number Limit i
* This field defines the highest bus number in configuration region i
*/
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xE0), 0x0000FC88, 0x05000103, /* link 1 of cpu 0 --> AMD SR5690 */
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xE4), 0x0000FC88, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xE8), 0x0000FC88, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xEC), 0x0000FC88, 0x00000000,
};
static const unsigned int fam10h_register_values[] = {
/* Careful set limit registers before base registers which contain the enables */
/* DRAM Limit i Registers
* F1:0x44 i = 0
* F1:0x4C i = 1
* F1:0x54 i = 2
* F1:0x5C i = 3
* F1:0x64 i = 4
* F1:0x6C i = 5
* F1:0x74 i = 6
* F1:0x7C i = 7
* [ 2: 0] Destination Node ID
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 7: 3] Reserved
* [10: 8] Interleave select
* specifies the values of A[14:12] to use with interleave enable.
* [15:11] Reserved
* [31:16] DRAM Limit Address i Bits 39-24
* This field defines the upper address bits of a 40 bit address
* that define the end of the DRAM region.
*/
// PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x44), 0x0000f8f8, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x4C), 0x0000f8f8, 0x00000001,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x54), 0x0000f8f8, 0x00000002,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x5C), 0x0000f8f8, 0x00000003,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x64), 0x0000f8f8, 0x00000004,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x6C), 0x0000f8f8, 0x00000005,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x74), 0x0000f8f8, 0x00000006,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x7C), 0x0000f8f8, 0x00000007,
/* DRAM Base i Registers
* F1:0x40 i = 0
* F1:0x48 i = 1
* F1:0x50 i = 2
* F1:0x58 i = 3
* F1:0x60 i = 4
* F1:0x68 i = 5
* F1:0x70 i = 6
* F1:0x78 i = 7
* [ 0: 0] Read Enable
* 0 = Reads Disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes Disabled
* 1 = Writes Enabled
* [ 7: 2] Reserved
* [10: 8] Interleave Enable
* 000 = No interleave
* 001 = Interleave on A[12] (2 nodes)
* 010 = reserved
* 011 = Interleave on A[12] and A[14] (4 nodes)
* 100 = reserved
* 101 = reserved
* 110 = reserved
* 111 = Interleve on A[12] and A[13] and A[14] (8 nodes)
* [15:11] Reserved
* [31:16] DRAM Base Address i Bits 39-24
* This field defines the upper address bits of a 40-bit address
* that define the start of the DRAM region.
*/
// PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x40), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x48), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x50), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x58), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x60), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x68), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x70), 0x0000f8fc, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x78), 0x0000f8fc, 0x00000000,
/* Memory-Mapped I/O Limit i Registers
* F1:0x84 i = 0
* F1:0x8C i = 1
* F1:0x94 i = 2
* F1:0x9C i = 3
* F1:0xA4 i = 4
* F1:0xAC i = 5
* F1:0xB4 i = 6
* F1:0xBC i = 7
* [ 2: 0] Destination Node ID
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 3: 3] Reserved
* [ 5: 4] Destination Link ID
* 00 = Link 0
* 01 = Link 1
* 10 = Link 2
* 11 = Link 3
* [ 6: 6] Reserved
* [ 7: 7] Non-Posted
* 0 = CPU writes may be posted
* 1 = CPU writes must be non-posted
* [31: 8] Memory-Mapped I/O Limit Address i (39-16)
* This field defines the upp adddress bits of a 40-bit address that
* defines the end of a memory-mapped I/O region n
*/
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x84), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x8C), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x94), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x9C), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xA4), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xAC), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xB4), 0x00000048, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xBC), 0x00000048, 0x00000000,
/* Memory-Mapped I/O Base i Registers
* F1:0x80 i = 0
* F1:0x88 i = 1
* F1:0x90 i = 2
* F1:0x98 i = 3
* F1:0xA0 i = 4
* F1:0xA8 i = 5
* F1:0xB0 i = 6
* F1:0xB8 i = 7
* [ 0: 0] Read Enable
* 0 = Reads disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes disabled
* 1 = Writes Enabled
* [ 2: 2] Cpu Disable
* 0 = Cpu can use this I/O range
* 1 = Cpu requests do not use this I/O range
* [ 3: 3] Lock
* 0 = base/limit registers i are read/write
* 1 = base/limit registers i are read-only
* [ 7: 4] Reserved
* [31: 8] Memory-Mapped I/O Base Address i (39-16)
* This field defines the upper address bits of a 40bit address
* that defines the start of memory-mapped I/O region i
*/
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x80), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x88), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x90), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0x98), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xA0), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xA8), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xB0), 0x000000f0, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xB8), 0x000000f0, 0x00000000,
/* PCI I/O Limit i Registers
* F1:0xC4 i = 0
* F1:0xCC i = 1
* F1:0xD4 i = 2
* F1:0xDC i = 3
* [ 2: 0] Destination Node ID
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 3: 3] Reserved
* [ 5: 4] Destination Link ID
* 00 = Link 0
* 01 = Link 1
* 10 = Link 2
* 11 = Link 3
* [11: 6] Reserved
* [24:12] PCI I/O Limit Address i
* This field defines the end of PCI I/O region n
* [31:25] Reserved
*/
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xC4), 0xFE000FC8, 0x00fff110, /* link 3 of cpu 0 --> AMD SR5690 */
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xCC), 0xFE000FC8, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xD4), 0xFE000FC8, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xDC), 0xFE000FC8, 0x00000000,
/* PCI I/O Base i Registers
* F1:0xC0 i = 0
* F1:0xC8 i = 1
* F1:0xD0 i = 2
* F1:0xD8 i = 3
* [ 0: 0] Read Enable
* 0 = Reads Disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes Disabled
* 1 = Writes Enabled
* [ 3: 2] Reserved
* [ 4: 4] VGA Enable
* 0 = VGA matches Disabled
* 1 = matches all address < 64K and where A[9:0] is in the
* range 3B0-3BB or 3C0-3DF independent of the base & limit registers
* [ 5: 5] ISA Enable
* 0 = ISA matches Disabled
* 1 = Blocks address < 64K and in the last 768 bytes of eack 1K block
* from matching agains this base/limit pair
* [11: 6] Reserved
* [24:12] PCI I/O Base i
* This field defines the start of PCI I/O region n
* [31:25] Reserved
*/
// PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xC0), 0xFE000FCC, 0x00001013,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xC8), 0xFE000FCC, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xD0), 0xFE000FCC, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xD8), 0xFE000FCC, 0x00000000,
/* Config Base and Limit i Registers
* F1:0xE0 i = 0
* F1:0xE4 i = 1
* F1:0xE8 i = 2
* F1:0xEC i = 3
* [ 0: 0] Read Enable
* 0 = Reads Disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes Disabled
* 1 = Writes Enabled
* [ 2: 2] Device Number Compare Enable
* 0 = The ranges are based on bus number
* 1 = The ranges are ranges of devices on bus 0
* [ 3: 3] Reserved
* [ 6: 4] Destination Node
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 7: 7] Reserved
* [ 9: 8] Destination Link
* 00 = Link 0
* 01 = Link 1
* 10 = Link 2
* 11 - Link 3
* [15:10] Reserved
* [23:16] Bus Number Base i
* This field defines the lowest bus number in configuration region i
* [31:24] Bus Number Limit i
* This field defines the highest bus number in configuration region i
*/
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xE0), 0x0000FC88, 0x05000303, /* link 3 of cpu 0 --> AMD SR5690 */
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xE4), 0x0000FC88, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xE8), 0x0000FC88, 0x00000000,
PCI_ADDR(CONFIG_CBB, CONFIG_CDB, 1, 0xEC), 0x0000FC88, 0x00000000,
};
int max;
uint8_t fam15h = 0;
uint32_t family;
family = cpuid_eax(0x80000001);
family = ((family & 0xf00000) >> 16) | ((family & 0xf00) >> 8);
if (family >= 0x6f)
/* Family 15h or later */
fam15h = 1;
if (fam15h) {
max = ARRAY_SIZE(fam15h_register_values);
setup_resource_map(fam15h_register_values, max);
} else {
max = ARRAY_SIZE(fam10h_register_values);
setup_resource_map(fam10h_register_values, max);
}
}

594
src/mainboard/asus/kcma-d8/romstage.c Normal file
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@ -0,0 +1,594 @@
/*
* This file is part of the coreboot project.
*
* Copyright (C) 2015 Raptor Engineering
*
* Copyright (C) 2007 AMD
* Written by Yinghai Lu <yinghailu@amd.com> for AMD.
*
* 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.
*/
#include <stdint.h>
#include <string.h>
#include <reset.h>
#include <device/pci_def.h>
#include <device/pci_ids.h>
#include <arch/io.h>
#include <device/pnp_def.h>
#include <cpu/x86/lapic.h>
#include <console/console.h>
#include <timestamp.h>
#include <lib.h>
#include <spd.h>
#include <cpu/amd/model_10xxx_rev.h>
#include <northbridge/amd/amdfam10/raminit.h>
#include <northbridge/amd/amdfam10/amdfam10.h>
#include <delay.h>
#include <cpu/x86/lapic.h>
#include "northbridge/amd/amdfam10/reset_test.c"
#include <superio/winbond/common/winbond.h>
#include <superio/winbond/w83667hg-a/w83667hg-a.h>
#include <cpu/x86/bist.h>
#include <smp/spinlock.h>
// #include "northbridge/amd/amdk8/incoherent_ht.c"
#include <southbridge/amd/sb700/sb700.h>
#include <southbridge/amd/sb700/smbus.h>
#include <southbridge/amd/sr5650/sr5650.h>
#include "northbridge/amd/amdfam10/debug.c"
#include "northbridge/amd/amdfam10/setup_resource_map.c"
#define SERIAL_DEV PNP_DEV(0x2e, W83667HG_A_SP1)
static void activate_spd_rom(const struct mem_controller *ctrl);
static inline int spd_read_byte(unsigned device, unsigned address)
{
return do_smbus_read_byte(SMBUS_AUX_IO_BASE, device, address);
}
#include <northbridge/amd/amdfam10/amdfam10.h>
#include "northbridge/amd/amdfam10/raminit_sysinfo_in_ram.c"
#include "northbridge/amd/amdfam10/pci.c"
#include "resourcemap.c"
#include "cpu/amd/quadcore/quadcore.c"
#include <cpu/amd/microcode.h>
#include "cpu/amd/family_10h-family_15h/init_cpus.c"
#include "northbridge/amd/amdfam10/early_ht.c"
/*
* ASUS KCMA-D8 specific SPD enable/disable magic.
*
* Setting SP5100 GPIOs 59 and 60 controls an SPI mux with four settings:
* 0: Disabled
* 1: Normal SPI access
* 2: CPU0 SPD
* 3: CPU1 SPD
*
* Disable SPD access after RAM init to allow access to standard SMBus/I2C offsets
* which is required e.g. by lm-sensors.
*/
/* Relevant GPIO register information is available in the
* AMD SP5100 Register Reference Guide rev. 3.03, page 130
*/
static void switch_spd_mux(uint8_t channel)
{
uint8_t byte;
byte = pci_read_config8(PCI_DEV(0, 0x14, 0), 0x54);
byte &= ~0xc; /* Clear SPD mux GPIOs */
byte &= ~0xc0; /* Enable SPD mux GPIO output drivers */
byte |= (channel << 2) & 0xc; /* Set SPD mux GPIOs */
pci_write_config8(PCI_DEV(0, 0x14, 0), 0x54, byte);
}
static const uint8_t spd_addr_fam15[] = {
// Socket 0 Node 0 ("Node 0")
RC00, DIMM0, DIMM1, 0, 0, DIMM2, DIMM3, 0, 0,
// Socket 0 Node 1 ("Node 1")
RC00, DIMM4, DIMM5, 0, 0, DIMM6, DIMM7, 0, 0,
// Socket 1 Node 0 ("Node 2")
RC01, DIMM0, DIMM1, 0, 0, DIMM2, DIMM3, 0, 0,
// Socket 1 Node 1 ("Node 3")
RC01, DIMM4, DIMM5, 0, 0, DIMM6, DIMM7, 0, 0,
};
static const uint8_t spd_addr_fam10[] = {
// Socket 0 Node 0 ("Node 0")
RC00, DIMM0, DIMM1, 0, 0, DIMM2, DIMM3, 0, 0,
// Socket 0 Node 1 ("Node 1")
RC00, DIMM4, DIMM5, 0, 0, DIMM6, DIMM7, 0, 0,
// Socket 1 Node 1 ("Node 2")
RC01, DIMM4, DIMM5, 0, 0, DIMM6, DIMM7, 0, 0,
// Socket 1 Node 0 ("Node 3")
RC01, DIMM0, DIMM1, 0, 0, DIMM2, DIMM3, 0, 0,
};
static void activate_spd_rom(const struct mem_controller *ctrl) {
/* Nothing needs to be done as there is no SPD mux on this board */
printk(BIOS_DEBUG, "activate_spd_rom() for node %02x\n", ctrl->node_id);
}
/* Voltages are specified by index
* Valid indicies for this platform are:
* 0: 1.5V
* 1: 1.35V
* 2: 1.25V
* 3: 1.15V
*/
static void set_ddr3_voltage(uint8_t node, uint8_t index) {
uint8_t byte;
uint8_t value = 0;
if (index == 0)
value = 0x0;
else if (index == 1)
value = 0x1;
else if (index == 2)
value = 0x4;
else if (index == 3)
value = 0x5;
if (node == 1)
value <<= 1;
/* Set GPIOs */
byte = pci_read_config8(PCI_DEV(0, 0x14, 3), 0xd1);
if (node == 0)
byte &= ~0x5;
if (node == 1)
byte &= ~0xa;
byte |= value;
pci_write_config8(PCI_DEV(0, 0x14, 3), 0xd1, byte);
/* Enable GPIO output drivers */
byte = pci_read_config8(PCI_DEV(0, 0x14, 3), 0xd0);
byte &= 0x0f;
pci_write_config8(PCI_DEV(0, 0x14, 3), 0xd0, byte);
printk(BIOS_DEBUG, "Node %02d DIMM voltage set to index %02x\n", node, index);
}
void DIMMSetVoltages(struct MCTStatStruc *pMCTstat,
struct DCTStatStruc *pDCTstatA) {
/* This mainboard allows the DIMM voltage to be set per-socket.
* Therefore, for each socket, iterate over all DIMMs to find the
* lowest supported voltage common to all DIMMs on that socket.
*/
uint8_t nvram;
uint8_t dimm;
uint8_t node;
uint8_t socket;
uint8_t allowed_voltages = 0xf; /* The mainboard VRMs allow 1.15V, 1.25V, 1.35V, and 1.5V */
uint8_t socket_allowed_voltages = allowed_voltages;
uint32_t set_voltage = 0;
if (get_option(&nvram, "minimum_memory_voltage") == CB_SUCCESS) {
switch (nvram) {
case 2:
allowed_voltages = 0x7; /* Allow 1.25V, 1.35V, and 1.5V */
break;
case 1:
allowed_voltages = 0x3; /* Allow 1.35V and 1.5V */
break;
case 0:
default:
allowed_voltages = 0x1; /* Allow 1.5V only */
break;
}
}
for (node = 0; node < MAX_NODES_SUPPORTED; node++) {
socket = node / 2;
struct DCTStatStruc *pDCTstat;
pDCTstat = pDCTstatA + node;
/* reset socket_allowed_voltages before processing each socket */
if (!(node % 2))
socket_allowed_voltages = allowed_voltages;
if (pDCTstat->NodePresent) {
for (dimm = 0; dimm < MAX_DIMMS_SUPPORTED; dimm++) {
if (pDCTstat->DIMMValid & (1 << dimm)) {
socket_allowed_voltages &= pDCTstat->DimmSupportedVoltages[dimm];
}
}
}
/* set voltage per socket after processing last contained node */
if (pDCTstat->NodePresent && (node % 2)) {
/* Set voltages */
if (socket_allowed_voltages & 0x8) {
set_voltage = 0x8;
set_ddr3_voltage(socket, 3);
} else if (socket_allowed_voltages & 0x4) {
set_voltage = 0x4;
set_ddr3_voltage(socket, 2);
} else if (socket_allowed_voltages & 0x2) {
set_voltage = 0x2;
set_ddr3_voltage(socket, 1);
} else {
set_voltage = 0x1;
set_ddr3_voltage(socket, 0);
}
/* Save final DIMM voltages for MCT and SMBIOS use */
if (pDCTstat->NodePresent) {
for (dimm = 0; dimm < MAX_DIMMS_SUPPORTED; dimm++) {
pDCTstat->DimmConfiguredVoltage[dimm] = set_voltage;
}
}
pDCTstat = pDCTstatA + (node - 1);
if (pDCTstat->NodePresent) {
for (dimm = 0; dimm < MAX_DIMMS_SUPPORTED; dimm++) {
pDCTstat->DimmConfiguredVoltage[dimm] = set_voltage;
}
}
}
}
/* Allow the DDR supply voltages to settle */
udelay(100000);
}
static void set_peripheral_control_lines(void) {
uint8_t byte;
uint8_t nvram;
uint8_t enable_ieee1394;
enable_ieee1394 = 1;
if (get_option(&nvram, "ieee1394_controller") == CB_SUCCESS)
enable_ieee1394 = nvram & 0x1;
if (enable_ieee1394) {
/* Enable PCICLK5 (onboard FireWire device) */
outb(0x41, 0xcd6);
outb(0x02, 0xcd7);
} else {
/* Disable PCICLK5 (onboard FireWire device) */
outb(0x41, 0xcd6);
outb(0x00, 0xcd7);
}
/* Enable the RTC AltCentury register */
outb(0x41, 0xcd6);
byte = inb(0xcd7);
byte |= 0x10;
outb(byte, 0xcd7);
}
#ifdef TEST_MEMORY
static void execute_memory_test(void)
{
/* Test DRAM functionality */
uint32_t i;
uint32_t* dataptr;
printk(BIOS_DEBUG, "Writing test patterns to memory...\n");
for (i=0; i < 0x1000000; i = i + 8) {
dataptr = (void *)(0x300000 + i);
*dataptr = 0x55555555;
dataptr = (void *)(0x300000 + i + 4);
*dataptr = 0xaaaaaaaa;
}
printk(BIOS_DEBUG, "Done!\n");
printk(BIOS_DEBUG, "Testing memory...\n");
uint32_t readback;
for (i=0; i < 0x1000000; i = i + 8) {
dataptr = (void *)(0x300000 + i);
readback = *dataptr;
if (readback != 0x55555555)
printk(BIOS_DEBUG, "%p: INCORRECT VALUE %08x (should have been %08x)\n", dataptr, readback, 0x55555555);
dataptr = (void *)(0x300000 + i + 4);
readback = *dataptr;
if (readback != 0xaaaaaaaa)
printk(BIOS_DEBUG, "%p: INCORRECT VALUE %08x (should have been %08x)\n", dataptr, readback, 0xaaaaaaaa);
}
printk(BIOS_DEBUG, "Done!\n");
}
#endif
static spinlock_t printk_spinlock CAR_GLOBAL;
spinlock_t* romstage_console_lock(void)
{
return car_get_var_ptr(&printk_spinlock);
}
void initialize_romstage_console_lock(void)
{
car_get_var(printk_spinlock) = SPIN_LOCK_UNLOCKED;
}
static spinlock_t nvram_cbfs_spinlock CAR_GLOBAL;
spinlock_t* romstage_nvram_cbfs_lock(void)
{
return car_get_var_ptr(&nvram_cbfs_spinlock);
}
void initialize_romstage_nvram_cbfs_lock(void)
{
car_get_var(nvram_cbfs_spinlock) = SPIN_LOCK_UNLOCKED;
}
static spinlock_t microcode_cbfs_spinlock CAR_GLOBAL;
spinlock_t* romstage_microcode_cbfs_lock(void)
{
return car_get_var_ptr(&microcode_cbfs_spinlock);
}
void initialize_romstage_microcode_cbfs_lock(void)
{
car_get_var(microcode_cbfs_spinlock) = SPIN_LOCK_UNLOCKED;
}
void cache_as_ram_main(unsigned long bist, unsigned long cpu_init_detectedx)
{
uint32_t esp;
__asm__ volatile (
"movl %%esp, %0"
: "=r" (esp)
);
struct sys_info *sysinfo = &sysinfo_car;
/* Limit the maximum HT speed to 2.6GHz to prevent lockups
* due to HT CPU <--> CPU wiring not being validated to 3.2GHz
*/
sysinfo->ht_link_cfg.ht_speed_limit = 2600;
uint32_t bsp_apicid = 0, val;
uint8_t byte;
msr_t msr;
int s3resume = acpi_is_wakeup_s3();
if (!cpu_init_detectedx && boot_cpu()) {
/* Initial timestamp */
timestamp_init(timestamp_get());
timestamp_add_now(TS_START_ROMSTAGE);
/* Initialize the printk, nvram CBFS, and microcode CBFS spinlocks */
initialize_romstage_console_lock();
initialize_romstage_nvram_cbfs_lock();
initialize_romstage_microcode_cbfs_lock();
/* Nothing special needs to be done to find bus 0 */
/* Allow the HT devices to be found */
set_bsp_node_CHtExtNodeCfgEn();
enumerate_ht_chain();
/* SR56x0 pcie bridges block pci_locate_device() before pcie training.
* disable all pcie bridges on SR56x0 to work around it
*/
sr5650_disable_pcie_bridge();
/* Initialize southbridge */
sb7xx_51xx_pci_port80();
/* Initialize early serial */
winbond_enable_serial(SERIAL_DEV, CONFIG_TTYS0_BASE);
console_init();
/* Disable LPC legacy DMA support to prevent lockup */
byte = pci_read_config8(PCI_DEV(0, 0x14, 3), 0x78);
byte &= ~(1 << 0);
pci_write_config8(PCI_DEV(0, 0x14, 3), 0x78, byte);
}
printk(BIOS_SPEW, "Initial stack pointer: %08x\n", esp);
post_code(0x30);
if (bist == 0)
bsp_apicid = init_cpus(cpu_init_detectedx, sysinfo);
post_code(0x32);
enable_sr5650_dev8();
sb7xx_51xx_lpc_init();
if (CONFIG_MAX_PHYSICAL_CPUS != 2)
printk(BIOS_WARNING, "CONFIG_MAX_PHYSICAL_CPUS is %d, but this is a dual socket AMD C32 board!\n", CONFIG_MAX_PHYSICAL_CPUS);
/* Halt if there was a built in self test failure */
report_bist_failure(bist);
val = cpuid_eax(1);
printk(BIOS_DEBUG, "BSP Family_Model: %08x\n", val);
printk(BIOS_DEBUG, "*sysinfo range: [%p,%p]\n",sysinfo,sysinfo+1);
printk(BIOS_DEBUG, "bsp_apicid = %02x\n", bsp_apicid);
printk(BIOS_DEBUG, "cpu_init_detectedx = %08lx\n", cpu_init_detectedx);
/* Setup sysinfo defaults */
set_sysinfo_in_ram(0);
update_microcode(val);
post_code(0x33);
cpuSetAMDMSR(0);
post_code(0x34);
amd_ht_init(sysinfo);
amd_ht_fixup(sysinfo);
post_code(0x35);
/* Setup nodes PCI space and start core 0 AP init. */
finalize_node_setup(sysinfo);
/* Setup any mainboard PCI settings etc. */
setup_mb_resource_map();
post_code(0x36);
/* Wait for all the APs core0 started by finalize_node_setup. */
wait_all_core0_started();
/* run _early_setup before soft-reset. */
sr5650_early_setup();
sb7xx_51xx_early_setup();
if (IS_ENABLED(CONFIG_LOGICAL_CPUS)) {
/* Core0 on each node is configured. Now setup any additional cores. */
printk(BIOS_DEBUG, "start_other_cores()\n");
start_other_cores(bsp_apicid);
post_code(0x37);
wait_all_other_cores_started(bsp_apicid);
}
if (IS_ENABLED(CONFIG_SET_FIDVID)) {
msr = rdmsr(0xc0010071);
printk(BIOS_DEBUG, "\nBegin FIDVID MSR 0xc0010071 0x%08x 0x%08x\n", msr.hi, msr.lo);
/* FIXME: The sb fid change may survive the warm reset and only need to be done once */
enable_fid_change_on_sb(sysinfo->sbbusn, sysinfo->sbdn);
post_code(0x39);
#if IS_ENABLED(CONFIG_SET_FIDVID)
if (!warm_reset_detect(0)) { // BSP is node 0
init_fidvid_bsp(bsp_apicid, sysinfo->nodes);
} else {
init_fidvid_stage2(bsp_apicid, 0); // BSP is node 0
}
#endif
post_code(0x3A);
/* show final fid and vid */
msr=rdmsr(0xc0010071);
printk(BIOS_DEBUG, "End FIDVIDMSR 0xc0010071 0x%08x 0x%08x\n", msr.hi, msr.lo);
}
post_code(0x38);
init_timer(); // Need to use TMICT to synconize FID/VID
sr5650_htinit();
/* Reset for HT, FIDVID, PLL and errata changes to take effect. */
if (!warm_reset_detect(0)) {
printk(BIOS_INFO, "...WARM RESET...\n\n\n");
soft_reset();
die("After soft_reset_x - shouldn't see this message!!!\n");
}
sr5650_htinit_dect_and_enable_isochronous_link();
/* Set default DDR memory voltage
* This will be overridden later during RAM initialization
*/
set_lpc_sticky_ctl(1); /* Retain LPC/IMC GPIO configuration during S3 sleep */
if (!s3resume) { /* Avoid supply voltage glitches while the DIMMs are retaining data */
set_ddr3_voltage(0, 0); /* Node 0 */
set_ddr3_voltage(1, 0); /* Node 1 */
}
/* Set up peripheral control lines */
set_peripheral_control_lines();
post_code(0x3B);
/* Wait for all APs to be stopped, otherwise ram initialization may hang */
if (IS_ENABLED(CONFIG_LOGICAL_CPUS))
wait_all_other_cores_stopped(bsp_apicid);
/* It's the time to set ctrl in sysinfo now; */
printk(BIOS_DEBUG, "fill_mem_ctrl() detected %d nodes\n", sysinfo->nodes);
if (is_fam15h())
fill_mem_ctrl(sysinfo->nodes, sysinfo->ctrl, spd_addr_fam15);
else
fill_mem_ctrl(sysinfo->nodes, sysinfo->ctrl, spd_addr_fam10);
post_code(0x3D);
#if 0
/* FIXME
* After the AMD K10 code has been converted to use
* IS_ENABLED(CONFIG_DEBUG_SMBUS) uncomment this block
*/
if (IS_ENABLED(CONFIG_DEBUG_SMBUS)) {
dump_spd_registers(&cpu[0]);
dump_smbus_registers();
}
#endif
post_code(0x40);
timestamp_add_now(TS_BEFORE_INITRAM);
printk(BIOS_DEBUG, "raminit_amdmct()\n");
raminit_amdmct(sysinfo);
timestamp_add_now(TS_AFTER_INITRAM);
#ifdef TEST_MEMORY
execute_memory_test();
#endif
#if !IS_ENABLED(CONFIG_LATE_CBMEM_INIT)
if (s3resume)
cbmem_initialize();
else
cbmem_initialize_empty();
post_code(0x41);
amdmct_cbmem_store_info(sysinfo);
#endif
printk(BIOS_DEBUG, "disable_spd()\n");
switch_spd_mux(0x1);
sr5650_before_pci_init();
sb7xx_51xx_before_pci_init();
/* Configure SP5100 GPIOs to match vendor settings */
pci_write_config16(PCI_DEV(0, 0x14, 0), 0x50, 0x0170);
pci_write_config16(PCI_DEV(0, 0x14, 0), 0x54, 0x0707);
pci_write_config16(PCI_DEV(0, 0x14, 0), 0x56, 0x0bb0);
pci_write_config16(PCI_DEV(0, 0x14, 0), 0x5a, 0x0ff0);
timestamp_add_now(TS_END_ROMSTAGE);
post_cache_as_ram(); // BSP switch stack to ram, copy then execute LB.
post_code(0x43); // Should never see this post code.
}
/**
* BOOL AMD_CB_ManualBUIDSwapList(u8 Node, u8 Link, u8 **List)
* Description:
* This routine is called every time a non-coherent chain is processed.
* BUID assignment may be controlled explicitly on a non-coherent chain. Provide a
* swap list. The first part of the list controls the BUID assignment and the
* second part of the list provides the device to device linking. Device orientation
* can be detected automatically, or explicitly. See documentation for more details.
*
* Automatic non-coherent init assigns BUIDs starting at 1 and incrementing sequentially
* based on each device's unit count.
*
* Parameters:
* @param[in] node = The node on which this chain is located
* @param[in] link = The link on the host for this chain
* @param[out] List = supply a pointer to a list
*/
BOOL AMD_CB_ManualBUIDSwapList (u8 node, u8 link, const u8 **List)
{
/* Force BUID to 0 */
static const u8 swaplist[] = {0, 0, 0xFF, 0, 0xFF};
if ((is_fam15h() && (node == 0) && (link == 1)) /* Family 15h BSP SB link */
|| (!is_fam15h() && (node == 0) && (link == 3))) { /* Family 10h BSP SB link */
*List = swaplist;
return 1;
}
return 0;
}

46
src/mainboard/asus/kcma-d8/spd_notes.txt Normal file
View File

@ -0,0 +1,46 @@
====================================================================================================
SPD mux
====================================================================================================
SP5100
GPIO 60 GPIO 59
Disabled 0 0
Normal operation 0 1
CPU 0 SPD 1 0
CPU 1 SPD 1 1
====================================================================================================
W83795
====================================================================================================
Sensor mappings:
CPU_FAN1: FAN1
CPU_FAN2: FAN2
FRNT_FAN1: FAN3
FRNT_FAN2: FAN4
FRNT_FAN3: FAN5
FRNT_FAN4: FAN6
FRNT_FAN5: FAN7
REAR_FAN1: FAN8
====================================================================================================
Other hardware
====================================================================================================
RECOVERY1 middle pin is connected to southbridge (AMD SP5100) GPIO 61
Normal is HIGH, recovery is LOW.
+12VSB is generated using a charge pump attached to pin 7 of PU24 (APW7145).
The +12VSB standby voltage to each bank of DIMMs is switched by a bank of small FETs located close to each RAM power regulator control chip.
The +12V primary voltage (lower left pin of the FET placed on the upper left of the control chip of the second node) is also connected to the 232GE located near the PCI slot.
The control line running to the gates of the +12VSB control FETs is connected to the +5VSB power for the USB ports.
That line in turn is connected to +5VSB via the lone P06P03G PMOS transistor on the reverse side of the board, near the center on the lower half.
The gate of that transistor is connected via a resistor to the source of the P06P03G PMOS transistor located adjacent to the unpopulated SMA clock header.
The gate of that transistor is connected directly to the drain of the small FET directly below it.
After that, there's a cascade of small FETs and resistors in that region, eventually leading to SuperIO pin 81.
SuperIO pin 81 (VSBGATE#) enables the standby voltage rails when set LOW.
VSBGATE# is reset on every assertion of PWRGOOD.
Setting SuperIO LDN 9 CRF4 bits 1 or 0 (or both) to 0 disables NICB.