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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2012 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.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "AGESA.h"
#include "amdlib.h"
#include <console/console.h>
#include <cpu/x86/msr.h>
#include <cpu/x86/mtrr.h>
#include <cpu/amd/mtrr.h>
#include <cpu/x86/cache.h>
#include <cbmem.h>
#include <device/device.h>
#include <device/pci.h>
#ifndef __PRE_RAM__
#include <device/pci_ops.h>
#endif
#include <arch/io.h>
#include <arch/acpi.h>
#include <string.h>
#include "Porting.h"
#include "BiosCallOuts.h"
#include "s3_resume.h"
#include "agesawrapper.h"
#ifndef __PRE_RAM__
#include <spi-generic.h>
#include <spi_flash.h>
#endif
void restore_mtrr(void)
{
u32 msr;
volatile UINT32 *msrPtr = (volatile UINT32 *)S3_DATA_MTRR_POS;
msr_t msr_data;
printk(BIOS_SPEW, "%s\n", __func__);
disable_cache();
/* Enable access to AMD RdDram and WrDram extension bits */
msr_data = rdmsr(SYS_CFG);
msr_data.lo |= SYSCFG_MSR_MtrrFixDramModEn;
wrmsr(SYS_CFG, msr_data);
/* Now restore the Fixed MTRRs */
msr_data.lo = *msrPtr;
msrPtr ++;
msr_data.hi = *msrPtr;
msrPtr ++;
wrmsr(0x250, msr_data);
msr_data.lo = *msrPtr;
msrPtr ++;
msr_data.hi = *msrPtr;
msrPtr ++;
wrmsr(0x258, msr_data);
msr_data.lo = *msrPtr;
msrPtr ++;
msr_data.hi = *msrPtr;
msrPtr ++;
wrmsr(0x259, msr_data);
for (msr = 0x268; msr <= 0x26F; msr++) {
msr_data.lo = *msrPtr;
msrPtr ++;
msr_data.hi = *msrPtr;
msrPtr ++;
wrmsr(msr, msr_data);
}
/* Disable access to AMD RdDram and WrDram extension bits */
msr_data = rdmsr(SYS_CFG);
msr_data.lo &= ~SYSCFG_MSR_MtrrFixDramModEn;
wrmsr(SYS_CFG, msr_data);
/* Restore the Variable MTRRs */
for (msr = 0x200; msr <= 0x20F; msr++) {
msr_data.lo = *msrPtr;
msrPtr ++;
msr_data.hi = *msrPtr;
msrPtr ++;
wrmsr(msr, msr_data);
}
/* Restore SYSCFG MTRR */
msr_data.lo = *msrPtr;
msrPtr ++;
msr_data.hi = *msrPtr;
msrPtr ++;
wrmsr(SYS_CFG, msr_data);
}
inline void *backup_resume(void)
{
unsigned long high_ram_base;
void *resume_backup_memory;
/* Start address of high memory tables */
high_ram_base = (u32) get_cbmem_toc();
/*
* printk(BIOS_DEBUG, "CBMEM TOC is at: %x\n", (u32_t)high_ram_base);
* printk(BIOS_DEBUG, "CBMEM TOC 0-size:%x\n ",(u32_t)(high_ram_base + HIGH_MEMORY_SIZE + 4096));
*/
cbmem_reinit((u64) high_ram_base);
resume_backup_memory = cbmem_find(CBMEM_ID_RESUME);
if (((u32) resume_backup_memory == 0)
|| ((u32) resume_backup_memory == -1)) {
printk(BIOS_ERR, "Error: resume_backup_memory: %x\n",
(u32) resume_backup_memory);
for (;;) ;
}
return resume_backup_memory;
}
void move_stack_high_mem(void)
{
void *high_stack;
high_stack = cbmem_find(CBMEM_ID_RESUME_SCRATCH);
memcpy(high_stack, (void *)BSP_STACK_BASE_ADDR,
(CONFIG_HIGH_SCRATCH_MEMORY_SIZE - BIOS_HEAP_SIZE));
__asm__
volatile ("add %0, %%esp; add %0, %%ebp; invd"::"g"
(high_stack - BSP_STACK_BASE_ADDR)
:);
}
void OemAgesaSaveMtrr(void)
{
#ifndef __PRE_RAM__
msr_t msr_data;
u32 nvram_pos = S3_DATA_MTRR_POS;
u32 i;
struct spi_flash *flash;
spi_init();
flash = spi_flash_probe(0, 0, 0, 0);
if (!flash) {
printk(BIOS_DEBUG, "Could not find SPI device\n");
return;
}
flash->spi->rw = SPI_WRITE_FLAG;
spi_claim_bus(flash->spi);
flash->erase(flash, S3_DATA_MTRR_POS, S3_DATA_MTRR_SIZE);
/* Enable access to AMD RdDram and WrDram extension bits */
msr_data = rdmsr(SYS_CFG);
msr_data.lo |= SYSCFG_MSR_MtrrFixDramModEn;
wrmsr(SYS_CFG, msr_data);
/* Fixed MTRRs */
msr_data = rdmsr(0x250);
flash->write(flash, nvram_pos, 4, &msr_data.lo);
nvram_pos += 4;
flash->write(flash, nvram_pos, 4, &msr_data.hi);
nvram_pos += 4;
msr_data = rdmsr(0x258);
flash->write(flash, nvram_pos, 4, &msr_data.lo);
nvram_pos += 4;
flash->write(flash, nvram_pos, 4, &msr_data.hi);
nvram_pos += 4;
msr_data = rdmsr(0x259);
flash->write(flash, nvram_pos, 4, &msr_data.lo);
nvram_pos += 4;
flash->write(flash, nvram_pos, 4, &msr_data.hi);
nvram_pos += 4;
for (i = 0x268; i < 0x270; i++) {
msr_data = rdmsr(i);
flash->write(flash, nvram_pos, 4, &msr_data.lo);
nvram_pos += 4;
flash->write(flash, nvram_pos, 4, &msr_data.hi);
nvram_pos += 4;
}
/* Disable access to AMD RdDram and WrDram extension bits */
msr_data = rdmsr(SYS_CFG);
msr_data.lo &= ~SYSCFG_MSR_MtrrFixDramModEn;
wrmsr(SYS_CFG, msr_data);
/* Variable MTRRs */
for (i = 0x200; i < 0x210; i++) {
msr_data = rdmsr(i);
flash->write(flash, nvram_pos, 4, &msr_data.lo);
nvram_pos += 4;
flash->write(flash, nvram_pos, 4, &msr_data.hi);
nvram_pos += 4;
}
/* SYS_CFG */
msr_data = rdmsr(0xC0010010);
flash->write(flash, nvram_pos, 4, &msr_data.lo);
nvram_pos += 4;
flash->write(flash, nvram_pos, 4, &msr_data.hi);
nvram_pos += 4;
/* TOM */
msr_data = rdmsr(0xC001001A);
flash->write(flash, nvram_pos, 4, &msr_data.lo);
nvram_pos += 4;
flash->write(flash, nvram_pos, 4, &msr_data.hi);
nvram_pos += 4;
/* TOM2 */
msr_data = rdmsr(0xC001001D);
flash->write(flash, nvram_pos, 4, &msr_data.lo);
nvram_pos += 4;
flash->write(flash, nvram_pos, 4, &msr_data.hi);
nvram_pos += 4;
flash->spi->rw = SPI_WRITE_FLAG;
spi_release_bus(flash->spi);
#endif
}
void OemAgesaGetS3Info(S3_DATA_TYPE S3DataType, u32 *DataSize, void **Data)
{
AMD_CONFIG_PARAMS StdHeader;
if (S3DataType == S3DataTypeNonVolatile) {
*Data = (void *)S3_DATA_NONVOLATILE_POS;
*DataSize = *(UINTN *) (*Data);
*Data += 4;
} else {
*DataSize = *(UINTN *) S3_DATA_VOLATILE_POS;
*Data = (void *) GetHeapBase(&StdHeader);
memcpy((void *)(*Data), (void *)(S3_DATA_VOLATILE_POS + 4), *DataSize);
}
}
#ifndef __PRE_RAM__
u32 OemAgesaSaveS3Info(S3_DATA_TYPE S3DataType, u32 DataSize, void *Data)
{
u32 pos = S3_DATA_VOLATILE_POS;
u32 data;
u32 nvram_pos;
struct spi_flash *flash;
if (S3DataType == S3DataTypeNonVolatile) {
pos = S3_DATA_NONVOLATILE_POS;
} else { /* S3DataTypeVolatile */
pos = S3_DATA_VOLATILE_POS;
}
spi_init();
flash = spi_flash_probe(0, 0, 0, 0);
if (!flash) {
printk(BIOS_DEBUG, "Could not find SPI device\n");
/* Dont make flow stop. */
return AGESA_SUCCESS;
}
flash->spi->rw = SPI_WRITE_FLAG;
spi_claim_bus(flash->spi);
if (S3DataType == S3DataTypeNonVolatile) {
flash->erase(flash, S3_DATA_NONVOLATILE_POS, S3_DATA_NONVOLATILE_SIZE);
} else {
flash->erase(flash, S3_DATA_VOLATILE_POS, S3_DATA_VOLATILE_SIZE);
}
nvram_pos = 0;
flash->write(flash, nvram_pos + pos, sizeof(DataSize), &DataSize);
for (nvram_pos = 0; nvram_pos < DataSize; nvram_pos += 4) {
data = *(u32 *) (Data + nvram_pos);
flash->write(flash, nvram_pos + pos + 4, sizeof(u32), (u32 *)(Data + nvram_pos));
}
flash->spi->rw = SPI_WRITE_FLAG;
spi_release_bus(flash->spi);
return AGESA_SUCCESS;
}
#endif
void set_resume_cache(void)
{
msr_t msr;
/* disable fixed mtrr for now, it will be enabled by mtrr restore */
msr = rdmsr(SYSCFG_MSR);
msr.lo &= ~(SYSCFG_MSR_MtrrFixDramEn | SYSCFG_MSR_MtrrFixDramModEn);
wrmsr(SYSCFG_MSR, msr);
/* Enable caching for 0 - coreboot ram using variable mtrr */
msr.lo = 0 | MTRR_TYPE_WRBACK;
msr.hi = 0;
wrmsr(MTRRphysBase_MSR(0), msr);
msr.lo = ~(CONFIG_RAMTOP - 1) | MTRRphysMaskValid;
msr.hi = (1 << (CONFIG_CPU_ADDR_BITS - 32)) - 1;
wrmsr(MTRRphysMask_MSR(0), msr);
/* Set the default memory type and disable fixed and enable variable MTRRs */
msr.hi = 0;
msr.lo = (1 << 11);
wrmsr(MTRRdefType_MSR, msr);
enable_cache();
}
void s3_resume(void)
{
int status;
printk(BIOS_DEBUG, "agesawrapper_amds3laterestore ");
status = agesawrapper_amds3laterestore();
if (status)
printk(BIOS_DEBUG, "error level: %x \n", (u32) status);
else
printk(BIOS_DEBUG, "passed.\n");
}
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