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|
/*
* This file is part of the coreboot project.
*
* Copyright (C) 2011 - 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
*/
/*----------------------------------------------------------------------------------------
* M O D U L E S U S E D
*----------------------------------------------------------------------------------------
*/
#include <stdint.h>
#include <string.h>
#include <cpu/x86/mtrr.h>
#include "agesawrapper.h"
#include "BiosCallOuts.h"
#include "cpuRegisters.h"
#include "cpuCacheInit.h"
#include "cpuApicUtilities.h"
#include "cpuEarlyInit.h"
#include "cpuLateInit.h"
#include "Dispatcher.h"
#include "cpuCacheInit.h"
#include "amdlib.h"
#include "Filecode.h"
#include "heapManager.h"
#include <cpuFamilyTranslation.h> /* CPU_SPECIFIC_SERVICES */
#define FILECODE UNASSIGNED_FILE_FILECODE
/*----------------------------------------------------------------------------------------
* D E F I N I T I O N S A N D M A C R O S
*----------------------------------------------------------------------------------------
*/
/* ACPI table pointers returned by AmdInitLate */
VOID *DmiTable = NULL;
VOID *AcpiPstate = NULL;
VOID *AcpiSrat = NULL;
VOID *AcpiSlit = NULL;
VOID *AcpiWheaMce = NULL;
VOID *AcpiWheaCmc = NULL;
VOID *AcpiAlib = NULL;
/*----------------------------------------------------------------------------------------
* T Y P E D E F S A N D S T R U C T U R E S
*----------------------------------------------------------------------------------------
*/
/*----------------------------------------------------------------------------------------
* P R O T O T Y P E S O F L O C A L F U N C T I O N S
*----------------------------------------------------------------------------------------
*/
/*----------------------------------------------------------------------------------------
* E X P O R T E D F U N C T I O N S
*----------------------------------------------------------------------------------------
*/
/*---------------------------------------------------------------------------------------
* L O C A L F U N C T I O N S
*---------------------------------------------------------------------------------------
*/
extern VOID OemCustomizeInitEarly(IN OUT AMD_EARLY_PARAMS *InitEarly);
static AGESA_STATUS agesawrapper_amdinitcpuio(void)
{
AGESA_STATUS Status;
UINT32 PciData;
PCI_ADDR PciAddress;
AMD_CONFIG_PARAMS StdHeader;
UINT32 nodes;
UINT32 node;
UINT32 sblink;
UINT32 i;
UINT32 TOM;
/* get the number of coherent nodes in the system */
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB, FUNC_0, 0x60);
LibAmdPciRead(AccessWidth32, PciAddress, &PciData, &StdHeader);
nodes = ((PciData >> 4) & 7) + 1; //NodeCnt[2:0]
/* Find out the Link ID of Node0 that connects to the
* Southbridge (system IO hub). e.g. family10 MCM Processor,
* sbLink is Processor0 Link2, internal Node0 Link3
*/
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB, FUNC_0, 0x64);
LibAmdPciRead(AccessWidth32, PciAddress, &PciData, &StdHeader);
sblink = (PciData >> 8) & 3; //assume ganged
/* Enable MMIO on AMD CPU Address Map Controller for all nodes */
for (node = 0; node < nodes; node++) {
/* clear all MMIO Mapped Base/Limit Registers */
for (i = 0; i < 8; i++) {
PciData = 0x00000000;
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB + node, FUNC_1, 0x80 + i*8);
LibAmdPciWrite(AccessWidth32, PciAddress, &PciData, &StdHeader);
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB + node, FUNC_1, 0x84 + i*8);
LibAmdPciWrite(AccessWidth32, PciAddress, &PciData, &StdHeader);
}
/* clear all IO Space Base/Limit Registers */
for (i = 0; i < 4; i++) {
PciData = 0x00000000;
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB + node, FUNC_1, 0xC4 + i*8);
LibAmdPciWrite(AccessWidth32, PciAddress, &PciData, &StdHeader);
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB + node, FUNC_1, 0xC0 + i*8);
LibAmdPciWrite(AccessWidth32, PciAddress, &PciData, &StdHeader);
}
/* Set VGA Ram MMIO 0000A0000-0000BFFFF to Node0 sbLink */
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB + node, FUNC_1, 0x84);
PciData = 0x00000B00;
PciData |= sblink << 4;
LibAmdPciWrite(AccessWidth32, PciAddress, &PciData, &StdHeader);
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB + node, FUNC_1, 0x80);
PciData = 0x00000A03;
LibAmdPciWrite(AccessWidth32, PciAddress, &PciData, &StdHeader);
/* Set TOM1-FFFFFFFF to Node0 sbLink. */
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB + node, FUNC_1, 0x8C);
PciData = 0x00FFFF00;
PciData |= sblink << 4;
LibAmdPciWrite(AccessWidth32, PciAddress, &PciData, &StdHeader);
TOM = (UINT32)MsrRead(TOP_MEM);
PciData = (TOM >> 8) | 0x03;
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB + node, FUNC_1, 0x88);
LibAmdPciWrite(AccessWidth32, PciAddress, &PciData, &StdHeader);
/* Set MMCONF space to Node0 sbLink with NP set.
* default E0000000-EFFFFFFF
* Just have all mmio set to non-posted,
* coreboot not implemente the range by range setting yet.
*/
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB + node, FUNC_1, 0xBC);
PciData = CONFIG_MMCONF_BASE_ADDRESS + (CONFIG_MMCONF_BUS_NUMBER * 0x100000) - 1;//1MB each bus
PciData = (PciData >> 8) & 0xFFFFFF00;
PciData |= 0x80; //NP
PciData |= sblink << 4;
LibAmdPciWrite(AccessWidth32, PciAddress, &PciData, &StdHeader);
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB + node, FUNC_1, 0xB8);
PciData = (PCIE_BASE_ADDRESS >> 8) | 0x03;
LibAmdPciWrite(AccessWidth32, PciAddress, &PciData, &StdHeader);
/* Set PCIO: 0x0 - 0xFFF000 to Node0 sbLink and enabled VGA IO*/
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB + node, FUNC_1, 0xC4);
PciData = 0x00FFF000;
PciData |= sblink << 4;
LibAmdPciWrite(AccessWidth32, PciAddress, &PciData, &StdHeader);
PciAddress.AddressValue = MAKE_SBDFO(0, 0, CONFIG_CDB + node, FUNC_1, 0xC0);
PciData = 0x00000033;
LibAmdPciWrite(AccessWidth32, PciAddress, &PciData, &StdHeader);
}
Status = AGESA_SUCCESS;
return Status;
}
AGESA_STATUS agesawrapper_amdinitmmio(void)
{
AGESA_STATUS Status;
UINT64 MsrReg;
AMD_CONFIG_PARAMS StdHeader;
/*
* Set the MMIO Configuration Base Address and Bus Range onto
* MMIO configuration base Address MSR register.
*/
MsrReg = CONFIG_MMCONF_BASE_ADDRESS | (LibAmdBitScanReverse(CONFIG_MMCONF_BUS_NUMBER) << 2) | 1;
LibAmdMsrWrite(0xC0010058, &MsrReg, &StdHeader);
/*
* Set the NB_CFG MSR register. Enable CF8 extended configuration cycles.
*/
LibAmdMsrRead(0xC001001F, &MsrReg, &StdHeader);
MsrReg = MsrReg | (1ULL << 46);
LibAmdMsrWrite(0xC001001F, &MsrReg, &StdHeader);
/* Set ROM cache onto WP to decrease post time */
MsrReg = (0x0100000000 - CACHE_ROM_SIZE) | 5;
LibAmdMsrWrite (0x20C, &MsrReg, &StdHeader);
MsrReg = ((1ULL << CONFIG_CPU_ADDR_BITS) - CACHE_ROM_SIZE) | 0x800ull;
LibAmdMsrWrite(0x20D, &MsrReg, &StdHeader);
Status = AGESA_SUCCESS;
return Status;
}
UINT32 agesawrapper_amdinitreset(void)
{
AGESA_STATUS status = AGESA_SUCCESS;
AMD_INTERFACE_PARAMS AmdParamStruct;
AMD_RESET_PARAMS AmdResetParams;
LibAmdMemFill(&AmdParamStruct,
0,
sizeof(AMD_INTERFACE_PARAMS),
&(AmdParamStruct.StdHeader));
LibAmdMemFill(&AmdResetParams,
0,
sizeof(AMD_RESET_PARAMS),
&(AmdResetParams.StdHeader));
AmdParamStruct.AgesaFunctionName = AMD_INIT_RESET;
AmdParamStruct.AllocationMethod = ByHost;
AmdParamStruct.NewStructSize = sizeof(AMD_RESET_PARAMS);
AmdParamStruct.NewStructPtr = &AmdResetParams;
AmdParamStruct.StdHeader.AltImageBasePtr = 0;
AmdParamStruct.StdHeader.CalloutPtr = NULL;
AmdParamStruct.StdHeader.Func = 0;
AmdParamStruct.StdHeader.ImageBasePtr = 0;
status = AmdCreateStruct(&AmdParamStruct);
if (status != AGESA_SUCCESS) {
return status;
}
AmdResetParams.HtConfig.Depth = 0;
//MARG34PI disabled AGESA_ENTRY_INIT_RESET by default
//but we need to call AmdCreateStruct to call HeapManagerInit, or the event log not work
#if (defined AGESA_ENTRY_INIT_RESET) && (AGESA_ENTRY_INIT_RESET == TRUE)
status = AmdInitReset((AMD_RESET_PARAMS *)AmdParamStruct.NewStructPtr);
#endif
if (status != AGESA_SUCCESS)
agesawrapper_amdreadeventlog(AmdParamStruct.StdHeader.HeapStatus);
AmdReleaseStruct(&AmdParamStruct);
return status;
}
AGESA_STATUS agesawrapper_amdinitearly(void)
{
AGESA_STATUS status;
AMD_INTERFACE_PARAMS AmdParamStruct;
AMD_EARLY_PARAMS *AmdEarlyParamsPtr;
UINT32 TscRateInMhz;
CPU_SPECIFIC_SERVICES *FamilySpecificServices;
LibAmdMemFill(&AmdParamStruct,
0,
sizeof(AMD_INTERFACE_PARAMS),
&(AmdParamStruct.StdHeader));
AmdParamStruct.AgesaFunctionName = AMD_INIT_EARLY;
AmdParamStruct.AllocationMethod = PreMemHeap;
AmdParamStruct.StdHeader.AltImageBasePtr = 0;
AmdParamStruct.StdHeader.CalloutPtr = (CALLOUT_ENTRY) &GetBiosCallout;
AmdParamStruct.StdHeader.Func = 0;
AmdParamStruct.StdHeader.ImageBasePtr = 0;
status = AmdCreateStruct(&AmdParamStruct);
if (status != AGESA_SUCCESS) {
return status;
}
AmdEarlyParamsPtr = (AMD_EARLY_PARAMS *)AmdParamStruct.NewStructPtr;
OemCustomizeInitEarly(AmdEarlyParamsPtr);
status = AmdInitEarly(AmdEarlyParamsPtr);
if (status != AGESA_SUCCESS)
agesawrapper_amdreadeventlog(AmdParamStruct.StdHeader.HeapStatus);
GetCpuServicesOfCurrentCore((CONST CPU_SPECIFIC_SERVICES **)&FamilySpecificServices, &AmdParamStruct.StdHeader);
FamilySpecificServices->GetTscRate(FamilySpecificServices, &TscRateInMhz, &AmdParamStruct.StdHeader);
printk(BIOS_DEBUG, "BSP Frequency: %uMHz\n", (unsigned int)TscRateInMhz);
AmdReleaseStruct(&AmdParamStruct);
return status;
}
AGESA_STATUS agesawrapper_amdinitpost(void)
{
AGESA_STATUS status;
AMD_INTERFACE_PARAMS AmdParamStruct;
AMD_POST_PARAMS *PostParams;
UINT32 TscRateInMhz;
CPU_SPECIFIC_SERVICES *FamilySpecificServices;
LibAmdMemFill(&AmdParamStruct,
0,
sizeof(AMD_INTERFACE_PARAMS),
&(AmdParamStruct.StdHeader));
AmdParamStruct.AgesaFunctionName = AMD_INIT_POST;
AmdParamStruct.AllocationMethod = PreMemHeap;
AmdParamStruct.StdHeader.AltImageBasePtr = 0;
AmdParamStruct.StdHeader.CalloutPtr = (CALLOUT_ENTRY) &GetBiosCallout;
AmdParamStruct.StdHeader.Func = 0;
AmdParamStruct.StdHeader.ImageBasePtr = 0;
status = AmdCreateStruct(&AmdParamStruct);
if (status != AGESA_SUCCESS) {
return status;
}
PostParams = (AMD_POST_PARAMS *)AmdParamStruct.NewStructPtr;
status = AmdInitPost(PostParams);
if (status != AGESA_SUCCESS) {
agesawrapper_amdreadeventlog(PostParams->StdHeader.HeapStatus);
}
AmdReleaseStruct(&AmdParamStruct);
/* Initialize heap space */
EmptyHeap();
GetCpuServicesOfCurrentCore ((CONST CPU_SPECIFIC_SERVICES **)&FamilySpecificServices, &AmdParamStruct.StdHeader);
FamilySpecificServices->GetTscRate (FamilySpecificServices, &TscRateInMhz, &AmdParamStruct.StdHeader);
printk(BIOS_DEBUG, "BSP Frequency: %uMHz\n", (unsigned int)TscRateInMhz);
return status;
}
AGESA_STATUS agesawrapper_amdinitenv(void)
{
AGESA_STATUS status;
AMD_INTERFACE_PARAMS AmdParamStruct;
AMD_ENV_PARAMS *EnvParams;
LibAmdMemFill(&AmdParamStruct,
0,
sizeof(AMD_INTERFACE_PARAMS),
&(AmdParamStruct.StdHeader));
AmdParamStruct.AgesaFunctionName = AMD_INIT_ENV;
AmdParamStruct.AllocationMethod = PostMemDram;
AmdParamStruct.StdHeader.AltImageBasePtr = 0;
AmdParamStruct.StdHeader.CalloutPtr = (CALLOUT_ENTRY) &GetBiosCallout;
AmdParamStruct.StdHeader.Func = 0;
AmdParamStruct.StdHeader.ImageBasePtr = 0;
status = AmdCreateStruct(&AmdParamStruct);
if (status != AGESA_SUCCESS) {
return status;
}
EnvParams = (AMD_ENV_PARAMS *)AmdParamStruct.NewStructPtr;
status = AmdInitEnv(EnvParams);
if (status != AGESA_SUCCESS)
agesawrapper_amdreadeventlog(EnvParams->StdHeader.HeapStatus);
AmdReleaseStruct(&AmdParamStruct);
return status;
}
VOID * agesawrapper_getlateinitptr(int pick)
{
switch (pick) {
case PICK_DMI:
return DmiTable;
case PICK_PSTATE:
return AcpiPstate;
case PICK_SRAT:
return AcpiSrat;
case PICK_SLIT:
return AcpiSlit;
case PICK_WHEA_MCE:
return AcpiWheaMce;
case PICK_WHEA_CMC:
return AcpiWheaCmc;
case PICK_ALIB:
return AcpiAlib;
default:
return NULL;
}
return NULL;
}
AGESA_STATUS agesawrapper_amdinitmid(void)
{
AGESA_STATUS status;
AMD_INTERFACE_PARAMS AmdParamStruct;
/* Enable MMIO on AMD CPU Address Map Controller */
agesawrapper_amdinitcpuio();
LibAmdMemFill(&AmdParamStruct,
0,
sizeof(AMD_INTERFACE_PARAMS),
&(AmdParamStruct.StdHeader));
AmdParamStruct.AgesaFunctionName = AMD_INIT_MID;
AmdParamStruct.AllocationMethod = PostMemDram;
AmdParamStruct.StdHeader.AltImageBasePtr = 0;
AmdParamStruct.StdHeader.CalloutPtr = (CALLOUT_ENTRY) &GetBiosCallout;
AmdParamStruct.StdHeader.Func = 0;
AmdParamStruct.StdHeader.ImageBasePtr = 0;
status = AmdCreateStruct(&AmdParamStruct);
if (status != AGESA_SUCCESS) {
return status;
}
status = AmdInitMid((AMD_MID_PARAMS *)AmdParamStruct.NewStructPtr);
if (status != AGESA_SUCCESS)
agesawrapper_amdreadeventlog(AmdParamStruct.StdHeader.HeapStatus);
AmdReleaseStruct(&AmdParamStruct);
return status;
}
AGESA_STATUS agesawrapper_amdinitlate(void)
{
AGESA_STATUS Status;
AMD_INTERFACE_PARAMS AmdParamStruct;
AMD_LATE_PARAMS *AmdLateParamsPtr;
LibAmdMemFill(&AmdParamStruct,
0,
sizeof (AMD_INTERFACE_PARAMS),
&(AmdParamStruct.StdHeader));
AmdParamStruct.AgesaFunctionName = AMD_INIT_LATE;
AmdParamStruct.AllocationMethod = PostMemDram;
AmdParamStruct.StdHeader.AltImageBasePtr = 0;
AmdParamStruct.StdHeader.CalloutPtr = (CALLOUT_ENTRY) &GetBiosCallout;
AmdParamStruct.StdHeader.Func = 0;
AmdParamStruct.StdHeader.ImageBasePtr = 0;
AmdCreateStruct (&AmdParamStruct);
AmdLateParamsPtr = (AMD_LATE_PARAMS *) AmdParamStruct.NewStructPtr;
printk(BIOS_DEBUG, "agesawrapper_amdinitlate: AmdLateParamsPtr = %X\n", (u32)AmdLateParamsPtr);
Status = AmdInitLate(AmdLateParamsPtr);
if (Status != AGESA_SUCCESS) {
agesawrapper_amdreadeventlog(AmdLateParamsPtr->StdHeader.HeapStatus);
ASSERT(Status == AGESA_SUCCESS);
}
DmiTable = AmdLateParamsPtr->DmiTable;
AcpiPstate = AmdLateParamsPtr->AcpiPState;
AcpiSrat = AmdLateParamsPtr->AcpiSrat;
AcpiSlit = AmdLateParamsPtr->AcpiSlit;
AcpiWheaMce = AmdLateParamsPtr->AcpiWheaMce;
AcpiWheaCmc = AmdLateParamsPtr->AcpiWheaCmc;
AcpiAlib = AmdLateParamsPtr->AcpiAlib;
printk(BIOS_DEBUG, "In %s, AGESA generated ACPI tables:\n"
" DmiTable:%p\n AcpiPstate: %p\n AcpiSrat:%p\n AcpiSlit:%p\n"
" Mce:%p\n Cmc:%p\n Alib:%p\n",
__func__, DmiTable, AcpiPstate, AcpiSrat, AcpiSlit,
AcpiWheaMce, AcpiWheaCmc, AcpiAlib);
/* Don't release the structure until coreboot has copied the ACPI tables.
* AmdReleaseStruct (&AmdLateParams);
*/
return Status;
}
/**
* @param[in] UINTN ApicIdOfCore,
* @param[in] AP_EXE_PARAMS *LaunchApParams
*/
AGESA_STATUS agesawrapper_amdlaterunaptask (UINT32 Func, UINT32 Data, VOID *ConfigPtr)
{
AGESA_STATUS Status;
AMD_LATE_PARAMS AmdLateParams;
LibAmdMemFill(&AmdLateParams,
0,
sizeof(AMD_LATE_PARAMS),
&(AmdLateParams.StdHeader));
AmdLateParams.StdHeader.AltImageBasePtr = 0;
AmdLateParams.StdHeader.CalloutPtr = (CALLOUT_ENTRY) &GetBiosCallout;
AmdLateParams.StdHeader.Func = 0;
AmdLateParams.StdHeader.ImageBasePtr = 0;
AmdLateParams.StdHeader.HeapStatus = HEAP_TEMP_MEM;
printk(BIOS_DEBUG, "AmdLateRunApTask on Core: %x\n", (uint32_t)Data);
Status = AmdLateRunApTask((AP_EXE_PARAMS *)ConfigPtr);
if (Status != AGESA_SUCCESS) {
agesawrapper_amdreadeventlog(AmdLateParams.StdHeader.HeapStatus);
ASSERT(Status <= AGESA_UNSUPPORTED);
}
return Status;
}
/**
*
*/
static void agesa_bound_check(EVENT_PARAMS *event)
{
switch (event->EventInfo) {
case CPU_ERROR_HEAP_IS_FULL:
printk(BIOS_DEBUG, "Heap allocation for specified buffer handle failed as heap is full\n");
break;
case CPU_ERROR_HEAP_BUFFER_HANDLE_IS_ALREADY_USED:
printk(BIOS_DEBUG, "Allocation incomplete as buffer has previously been allocated\n");
break;
case CPU_ERROR_HEAP_BUFFER_HANDLE_IS_NOT_PRESENT:
printk(BIOS_DEBUG, "Unable to locate buffer handle or deallocate heap as buffer handle cannot be located\n");
break;
case CPU_ERROR_HEAP_BUFFER_IS_NOT_PRESENT:
printk(BIOS_DEBUG, "Unable to locate pointer to the heap buffer\n");
break;
default:
break;
}
}
/**
*
*/
static void agesa_alert(EVENT_PARAMS *event)
{
switch (event->EventInfo) {
case MEM_ALERT_USER_TMG_MODE_OVERRULED:
printk(BIOS_DEBUG, "Socket %x Dct %x Channel %x "
"TIMING_MODE_SPECIFIC is requested but can not be applied to current configurations.\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
case MEM_ALERT_ORG_MISMATCH_DIMM:
printk(BIOS_DEBUG, "Socket %x Dct %x Channel %x "
"DIMM organization miss-match\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
case MEM_ALERT_BK_INT_DIS:
printk(BIOS_DEBUG, "Socket %x Dct %x Channel %x "
"Bank interleaving disable for internal issue\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
case CPU_EVENT_BIST_ERROR:
printk(BIOS_DEBUG, "BIST error: %x reported on Socket %x Core %x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
case HT_EVENT_HW_SYNCFLOOD:
printk(BIOS_DEBUG, "HT_EVENT_DATA_HW_SYNCFLOOD error on Socket %x Link %x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2);
break;
case HT_EVENT_HW_HTCRC:
printk(BIOS_DEBUG, "HT_EVENT_HW_HTCRC error on Socket %x Link %x Lanemask:%x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
default:
break;
}
}
/**
*
*/
static void agesa_warning(EVENT_PARAMS *event)
{
/*
if (event->EventInfo == CPU_EVENT_STACK_REENTRY) {
printk(BIOS_DEBUG,
"The stack has already been enabled and this is a
redundant invocation of AMD_ENABLE_STACK. There is no event logged and
no data values. The event sub-class is returned along with the status code\n");
return;
}
*/
switch (event->EventInfo >> 24) {
case 0x04:
printk(BIOS_DEBUG, "Memory: Socket %x Dct %x Channel%x ",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
case 0x08:
printk(BIOS_DEBUG, "Processor: ");
break;
case 0x10:
printk(BIOS_DEBUG, "Hyper Transport: ");
break;
default:
break;
}
switch (event->EventInfo) {
case MEM_WARNING_UNSUPPORTED_QRDIMM:
printk(BIOS_DEBUG, "QR DIMMs detected but not supported\n");
break;
case MEM_WARNING_UNSUPPORTED_UDIMM:
printk(BIOS_DEBUG, "Unbuffered DIMMs detected but not supported\n");
break;
case MEM_WARNING_UNSUPPORTED_SODIMM:
printk(BIOS_DEBUG, "SO-DIMMs detected but not supported");
break;
case MEM_WARNING_UNSUPPORTED_X4DIMM:
printk(BIOS_DEBUG, "x4 DIMMs detected but not supported");
break;
case MEM_WARNING_UNSUPPORTED_RDIMM:
printk(BIOS_DEBUG, "Registered DIMMs detected but not supported");
break;
/*
case MEM_WARNING_UNSUPPORTED_LRDIMM:
printk(BIOS_DEBUG, "Load Reduced DIMMs detected but not supported");
break;
*/
case MEM_WARNING_NO_SPDTRC_FOUND:
printk(BIOS_DEBUG, "NO_SPDTRC_FOUND");
break;
case MEM_WARNING_EMP_NOT_SUPPORTED:
printk(BIOS_DEBUG, "Processor is not capable for EMP");//
break;
case MEM_WARNING_EMP_CONFLICT:
printk(BIOS_DEBUG, "EMP cannot be enabled if channel interleaving bank interleaving, or bank swizzle is enabled\n");//
break;
case MEM_WARNING_EMP_NOT_ENABLED:
printk(BIOS_DEBUG, "Memory size is not power of two\n");//
break;
case MEM_WARNING_PERFORMANCE_ENABLED_BATTERY_LIFE_PREFERRED:
printk(BIOS_DEBUG, "MEM_WARNING_PERFORMANCE_ENABLED_BATTERY_LIFE_PREFERRED\n");
break;
case MEM_WARNING_NODE_INTERLEAVING_NOT_ENABLED:
printk(BIOS_DEBUG, "MEM_WARNING_NODE_INTERLEAVING_NOT_ENABLED\n");
break;
case MEM_WARNING_CHANNEL_INTERLEAVING_NOT_ENABLED:
printk(BIOS_DEBUG, "MEM_WARNING_CHANNEL_INTERLEAVING_NOT_ENABLED\n");
break;
case MEM_WARNING_BANK_INTERLEAVING_NOT_ENABLED:
printk(BIOS_DEBUG, "MEM_WARNING_BANK_INTERLEAVING_NOT_ENABLED\n");
break;
case MEM_WARNING_VOLTAGE_1_35_NOT_SUPPORTED:
printk(BIOS_DEBUG, "MEM_WARNING_VOLTAGE_1_35_NOT_SUPPORTED\n");
break;
/*
case MEM_WARNING_INITIAL_DDR3VOLT_NONZERO:
printk(BIOS_DEBUG, "MEM_WARNING_INITIAL_DDR3VOLT_NONZERO\n");
break;
case MEM_WARNING_NO_COMMONLY_SUPPORTED_VDDIO:
printk(BIOS_DEBUG, "MEM_WARNING_NO_COMMONLY_SUPPORTED_VDDIO\n");
break;
*/
case CPU_EVENT_EXECUTION_CACHE_ALLOCATION_ERROR:
printk(BIOS_DEBUG, "Allocation rule number that has been violated:");
if ((event->EventInfo & 0x000000FF) == 0x01) {
printk(BIOS_DEBUG, "AGESA_CACHE_SIZE_REDUCED\n");
} else if ((event->EventInfo & 0x000000FF) == 0x02) {
printk(BIOS_DEBUG, "AGESA_CACHE_REGIONS_ACROSS_1MB\n");
} else if ((event->EventInfo & 0x000000FF) == 0x03) {
printk(BIOS_DEBUG, "AGESA_CACHE_REGIONS_ACROSS_4GB\n");
}
printk(BIOS_DEBUG, "cache region index:%x, start:%x size:%x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
case CPU_WARNING_ADJUSTED_LEVELING_MODE:
printk(BIOS_DEBUG, "CPU_WARNING_ADJUSTED_LEVELING_MODE "
"requested: %x, actual level:%x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2);
break;
case CPU_EVENT_PM_PSTATE_OVERCURRENT:
printk(BIOS_DEBUG, "CPU_EVENT_PM_PSTATE_OVERCURRENT "
"Socket: %x, Pstate:%x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2);
break;
case CPU_WARNING_NONOPTIMAL_HT_ASSIST_CFG:
printk(BIOS_DEBUG, "CPU_WARNING_NONOPTIMAL_HT_ASSIST_CFG\n");
break;
/*
case CPU_EVENT_UNKNOWN_PROCESSOR_REVISION:
printk(BIOS_DEBUG, "CPU_EVENT_UNKNOWN_PROCESSOR_REVISION, socket: %lx, cpuid:%lx\n",
event->DataParam1,
event->DataParam2);
break;
*/
case HT_EVENT_OPT_REQUIRED_CAP_RETRY:
printk(BIOS_DEBUG, "HT_EVENT_OPT_REQUIRED_CAP_RETRY, Socket %x Link %x Depth %x\n",
event->DataParam1,
event->DataParam2,
event->DataParam3);
break;
case HT_EVENT_OPT_REQUIRED_CAP_GEN3:
printk(BIOS_DEBUG, "HT_EVENT_OPT_REQUIRED_CAP_GEN3, Socket %x Link %x Depth %x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
case HT_EVENT_OPT_UNUSED_LINKS:
printk(BIOS_DEBUG, "HT_EVENT_OPT_UNUSED_LINKS, SocketA%x LinkA%x SocketB%x LinkB%x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3,
(unsigned int)event->DataParam4);
break;
case HT_EVENT_OPT_LINK_PAIR_EXCEED:
printk(BIOS_DEBUG, "HT_EVENT_OPT_LINK_PAIR_EXCEED, SocketA%x MasterLink%x SocketB%x AltLink%x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3,
(unsigned int)event->DataParam4);
default:
break;
}
}
/**
*
*/
static void agesa_error(EVENT_PARAMS *event)
{
switch (event->EventInfo >> 24) {
case 0x04:
printk(BIOS_DEBUG, "Memory: Socket %x Dct %x Channel%x ",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
case 0x08:
printk(BIOS_DEBUG, "Processor: ");
break;
case 0x10:
printk(BIOS_DEBUG, "Hyper Transport: ");
break;
default:
break;
}
switch (event->EventInfo) {
case MEM_ERROR_NO_DQS_POS_RD_WINDOW:
printk(BIOS_DEBUG, "No DQS Position window for RD DQS\n");
break;
case MEM_ERROR_SMALL_DQS_POS_RD_WINDOW:
printk(BIOS_DEBUG, "Small DQS Position window for RD DQS\n");
break;
case MEM_ERROR_NO_DQS_POS_WR_WINDOW:
printk(BIOS_DEBUG, "No DQS Position window for WR DQS\n");
break;
case MEM_ERROR_SMALL_DQS_POS_WR_WINDOW:
printk(BIOS_DEBUG, "Small DQS Position window for WR DQS\n");
break;
case MEM_ERROR_DIMM_SPARING_NOT_ENABLED:
printk(BIOS_DEBUG, "DIMM sparing has not been enabled for an internal issues\n");
break;
case MEM_ERROR_RCVR_EN_VALUE_TOO_LARGE:
printk(BIOS_DEBUG, "Receive Enable value is too large\n");
break;
case MEM_ERROR_RCVR_EN_NO_PASSING_WINDOW:
printk(BIOS_DEBUG, "There is no DQS receiver enable window\n");
break;
case MEM_ERROR_DRAM_ENABLED_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling DramEnabled bit\n");
break;
case MEM_ERROR_DCT_ACCESS_DONE_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling DctAccessDone bit\n");
break;
case MEM_ERROR_SEND_CTRL_WORD_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling SendCtrlWord bit\n");
break;
case MEM_ERROR_PREF_DRAM_TRAIN_MODE_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling PrefDramTrainMode bit\n");
break;
case MEM_ERROR_ENTER_SELF_REF_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling EnterSelfRef bit\n");
break;
case MEM_ERROR_FREQ_CHG_IN_PROG_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling FreqChgInProg bit\n");
break;
case MEM_ERROR_EXIT_SELF_REF_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling ExitSelfRef bit\n");
break;
case MEM_ERROR_SEND_MRS_CMD_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling SendMrsCmd bit\n");
break;
case MEM_ERROR_SEND_ZQ_CMD_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling SendZQCmd bit\n");
break;
case MEM_ERROR_DCT_EXTRA_ACCESS_DONE_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling DctExtraAccessDone bit\n");
break;
case MEM_ERROR_MEM_CLR_BUSY_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling MemClrBusy bit\n");
break;
case MEM_ERROR_MEM_CLEARED_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling MemCleared bit\n");
break;
case MEM_ERROR_FLUSH_WR_TIME_OUT:
printk(BIOS_DEBUG, "Time out when polling FlushWr bit\n");
break;
case MEM_ERROR_MAX_LAT_NO_WINDOW:
printk(BIOS_DEBUG, "Fail to find pass during Max Rd Latency training\n");
break;
case MEM_ERROR_PARALLEL_TRAINING_LAUNCH_FAIL:
printk(BIOS_DEBUG, "Fail to launch training code on an AP\n");
break;
case MEM_ERROR_PARALLEL_TRAINING_TIME_OUT:
printk(BIOS_DEBUG, "Fail to finish parallel training\n");
break;
case MEM_ERROR_NO_ADDRESS_MAPPING:
printk(BIOS_DEBUG, "No address mapping found for a dimm\n");
break;
case MEM_ERROR_RCVR_EN_NO_PASSING_WINDOW_EQUAL_LIMIT:
printk(BIOS_DEBUG, "There is no DQS receiver enable window and the value is equal to the largest value\n");
break;
case MEM_ERROR_RCVR_EN_VALUE_TOO_LARGE_LIMIT_LESS_ONE:
printk(BIOS_DEBUG, "Receive Enable value is too large and is 1 less than limit\n");
break;
case MEM_ERROR_CHECKSUM_NV_SPDCHK_RESTRT_ERROR:
printk(BIOS_DEBUG, "SPD Checksum error for NV_SPDCHK_RESTRT\n");
break;
case MEM_ERROR_NO_CHIPSELECT:
printk(BIOS_DEBUG, "No chipselects found\n");
break;
case MEM_ERROR_UNSUPPORTED_333MHZ_UDIMM:
printk(BIOS_DEBUG, "Unbuffered dimm is not supported at 333MHz\n");
break;
case MEM_ERROR_WL_PRE_OUT_OF_RANGE:
printk(BIOS_DEBUG, "Returned PRE value during write levelizzation was out of range\n");
break;
case CPU_ERROR_BRANDID_HEAP_NOT_AVAILABLE:
printk(BIOS_DEBUG, "No heap is allocated for BrandId structure\n");
break;
case CPU_ERROR_MICRO_CODE_PATCH_IS_NOT_LOADED:
printk(BIOS_DEBUG, "Unable to load micro code patch\n");
break;
case CPU_ERROR_PSTATE_HEAP_NOT_AVAILABLE:
printk(BIOS_DEBUG, "No heap is allocated for the Pstate structure\n");
break;
/*
case CPU_ERROR_PM_NB_PSTATE_MISMATCH:
printk(BIOS_DEBUG, "NB P-state indicated by Index was disabled due to mismatch between processors\n");
break;
*/
case CPU_EVENT_EXECUTION_CACHE_ALLOCATION_ERROR:
printk(BIOS_DEBUG, "Allocation rule number that has been violated:");
if ((event->EventInfo & 0x000000FF) == 0x04) {
printk(BIOS_DEBUG, "AGESA_REGION_NOT_ALIGNED_ON_BOUNDARY\n");
} else if ((event->EventInfo & 0x000000FF) == 0x05) {
printk(BIOS_DEBUG, "AGESA_START_ADDRESS_LESS_D0000\n");
} else if ((event->EventInfo & 0x000000FF) == 0x06) {
printk(BIOS_DEBUG, "AGESA_THREE_CACHE_REGIONS_ABOVE_1MB\n");
} else if ((event->EventInfo & 0x000000FF) == 0x07) {
printk(BIOS_DEBUG, "AGESA_DEALLOCATE_CACHE_REGIONS\n");
}
printk(BIOS_DEBUG, "cache region index:%x, start:%x size:%x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
case HT_EVENT_COH_NO_TOPOLOGY:
printk(BIOS_DEBUG, "no Matching Topology was found during coherent initializatio TotalHtNodes: %x\n",
(unsigned int)event->DataParam1);
break;
case HT_EVENT_NCOH_BUID_EXCEED:
printk(BIOS_DEBUG, "there is a limit of 32 unit IDs per chain Socket%x Link%x Depth%x"
"Current BUID: %x, Unit Count: %x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3,
(unsigned int)event->DataParam4 >> 16,
(unsigned int)event->DataParam4 & 0x0000FFFF);
break;
case HT_EVENT_NCOH_BUS_MAX_EXCEED:
printk(BIOS_DEBUG, "maximum auto bus limit exceeded, Socket %x Link %x Bus %x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
case HT_EVENT_NCOH_CFG_MAP_EXCEED:
printk(BIOS_DEBUG, "there is a limit of four non-coherent chains, Socket %x Link %x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2);
break;
case HT_EVENT_NCOH_DEVICE_FAILED:
printk(BIOS_DEBUG, "after assigning an IO Device an ID, it does not respond at the new ID"
"Socket %x Link %x Depth %x DeviceID %x\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3,
(unsigned int)event->DataParam4);
default:
break;
}
}
/**
*
*/
static void agesa_critical(EVENT_PARAMS *event)
{
switch (event->EventInfo) {
case MEM_ERROR_HEAP_ALLOCATE_FOR_DMI_TABLE_DDR3:
printk(BIOS_DEBUG, "Socket: %x, Heap allocation error for DMI table for DDR3\n",
(unsigned int)event->DataParam1);
break;
case MEM_ERROR_HEAP_ALLOCATE_FOR_DMI_TABLE_DDR2:
printk(BIOS_DEBUG, "Socket: %x, Heap allocation error for DMI table for DDR2\n",
(unsigned int)event->DataParam1);
break;
case MEM_ERROR_UNSUPPORTED_DIMM_CONFIG:
printk(BIOS_DEBUG, "Socket: %x, Dimm population is not supported\n",
(unsigned int)event->DataParam1);
break;
case HT_EVENT_COH_PROCESSOR_TYPE_MIX:
printk(BIOS_DEBUG, "Socket %x Link %x TotalSockets %x, HT_EVENT_COH_PROCESSOR_TYPE_MIX\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
case HT_EVENT_COH_MPCAP_MISMATCH:
printk(BIOS_DEBUG, "Socket %x Link %x MpCap %x TotalSockets %x, HT_EVENT_COH_MPCAP_MISMATCH\n",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3,
(unsigned int)event->DataParam4);
default:
break;
}
}
/**
*
*/
static void agesa_fatal(EVENT_PARAMS *event)
{
switch (event->EventInfo >> 24) {
case 0x04:
printk(BIOS_DEBUG, "Memory: Socket %x Dct %x Channel%x ",
(unsigned int)event->DataParam1,
(unsigned int)event->DataParam2,
(unsigned int)event->DataParam3);
break;
case 0x08:
printk(BIOS_DEBUG, "Processor: ");
break;
case 0x10:
printk(BIOS_DEBUG, "Hyper Transport: ");
break;
default:
break;
}
switch (event->EventInfo) {
case MEM_ERROR_MINIMUM_MODE:
printk(BIOS_DEBUG, "Running in minimum mode\n");
break;
case MEM_ERROR_MODULE_TYPE_MISMATCH_DIMM:
printk(BIOS_DEBUG, "DIMM modules are missmatched\n");
break;
case MEM_ERROR_NO_DIMM_FOUND_ON_SYSTEM:
printk(BIOS_DEBUG, "No DIMMs have been foun\n");
break;
case MEM_ERROR_MISMATCH_DIMM_CLOCKS:
printk(BIOS_DEBUG, "DIMM clocks miss-matched\n");
break;
case MEM_ERROR_NO_CYC_TIME:
printk(BIOS_DEBUG, "No cycle time found\n");
break;
case MEM_ERROR_HEAP_ALLOCATE_DYN_STORING_OF_TRAINED_TIMINGS:
printk(BIOS_DEBUG, "Heap allocation error with dynamic storing of trained timings\n");
break;
case MEM_ERROR_HEAP_ALLOCATE_FOR_DCT_STRUCT_AND_CH_DEF_STRUCTs:
printk(BIOS_DEBUG, "Heap allocation error for DCT_STRUCT and CH_DEF_STRUCT\n");
break;
case MEM_ERROR_HEAP_ALLOCATE_FOR_REMOTE_TRAINING_ENV:
printk(BIOS_DEBUG, "Heap allocation error with REMOTE_TRAINING_ENV\n");
break;
case MEM_ERROR_HEAP_ALLOCATE_FOR_SPD:
printk(BIOS_DEBUG, "Heap allocation error for SPD data\n");
break;
case MEM_ERROR_HEAP_ALLOCATE_FOR_RECEIVED_DATA:
printk(BIOS_DEBUG, "Heap allocation error for RECEIVED_DATA during parallel training\n");
break;
case MEM_ERROR_HEAP_ALLOCATE_FOR_S3_SPECIAL_CASE_REGISTERS:
printk(BIOS_DEBUG, "Heap allocation error for S3 \"SPECIAL_CASE_REGISTER\"\n");
break;
case MEM_ERROR_HEAP_ALLOCATE_FOR_TRAINING_DATA:
printk(BIOS_DEBUG, "Heap allocation error for Training Data\n");
break;
case MEM_ERROR_HEAP_ALLOCATE_FOR_IDENTIFY_DIMM_MEM_NB_BLOCK:
printk(BIOS_DEBUG, "Heap allocation error for DIMM Identify \"MEM_NB_BLOCK\"\n");
break;
case MEM_ERROR_NO_CONSTRUCTOR_FOR_IDENTIFY_DIMM:
printk(BIOS_DEBUG, "No Constructor for DIMM Identify\n");
break;
case MEM_ERROR_VDDIO_UNSUPPORTED:
printk(BIOS_DEBUG, "VDDIO of the dimms on the board is not supported\n");
break;
case CPU_EVENT_PM_ALL_PSTATE_OVERCURRENT:
printk(BIOS_DEBUG, "Socket: %x, All PStates exceeded the motherboard current limit on specified socket\n",
(unsigned int)event->DataParam1);
break;
default:
break;
}
}
/**
*
* Interprte the agesa event log to an user readable string
*/
static void interpret_agesa_eventlog(EVENT_PARAMS *event)
{
switch (event->EventClass) {
case AGESA_BOUNDS_CHK:
agesa_bound_check(event);
break;
case AGESA_ALERT:
agesa_alert(event);
break;
case AGESA_WARNING:
agesa_warning(event);
break;
case AGESA_ERROR:
agesa_error(event);
break;
case AGESA_CRITICAL:
agesa_critical(event);
break;
case AGESA_FATAL:
agesa_fatal(event);
break;
default:
break;
}
}
/**
* @param HeapStatus -the current HeapStatus
*/
AGESA_STATUS agesawrapper_amdreadeventlog(UINT8 HeapStatus)
{
printk(BIOS_DEBUG, "enter in %s\n", __func__);
AGESA_STATUS Status;
EVENT_PARAMS AmdEventParams;
LibAmdMemFill(&AmdEventParams,
0,
sizeof(EVENT_PARAMS),
&(AmdEventParams.StdHeader));
AmdEventParams.StdHeader.AltImageBasePtr = 0;
AmdEventParams.StdHeader.CalloutPtr = (CALLOUT_ENTRY) &GetBiosCallout;
AmdEventParams.StdHeader.Func = 0;
AmdEventParams.StdHeader.ImageBasePtr = 0;
/* I have to know the current HeapStatus to Locate the EventLogHeapPointer */
AmdEventParams.StdHeader.HeapStatus = HeapStatus;
Status = AmdReadEventLog(&AmdEventParams);
while (AmdEventParams.EventClass != 0) {
printk(BIOS_DEBUG,"\nEventLog: EventClass = %x, EventInfo = %x.\n",
(unsigned int)AmdEventParams.EventClass,
(unsigned int)AmdEventParams.EventInfo);
printk(BIOS_DEBUG," Param1 = %x, Param2 = %x.\n",
(unsigned int)AmdEventParams.DataParam1,
(unsigned int)AmdEventParams.DataParam2);
printk(BIOS_DEBUG," Param3 = %x, Param4 = %x.\n",
(unsigned int)AmdEventParams.DataParam3,
(unsigned int)AmdEventParams.DataParam4);
interpret_agesa_eventlog(&AmdEventParams);
Status = AmdReadEventLog(&AmdEventParams);
}
printk(BIOS_DEBUG, "exit %s\n", __func__);
return Status;
}
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