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|
//*************************************************************************
//*************************************************************************
//** **
//** (C)Copyright 1985-2013, American Megatrends, Inc. **
//** **
//** All Rights Reserved. **
//** **
//** 5555 Oakbrook Parkway, Suite 200, Norcross, GA 30093 **
//** **
//** Phone: (770)-246-8600 **
//** **
//*************************************************************************
//*************************************************************************
//*************************************************************************
// $Header: /Alaska/BIN/Chipset/Intel/SouthBridge/LynxPoint/Intel Pch SB Chipset/SB SMI/SBSMI.c 19 7/12/15 11:08p Dennisliu $
//
// $Revision: 19 $
//
// $Date: 7/12/15 11:08p $
//*************************************************************************
// Revision History
// ----------------
// $Log: /Alaska/BIN/Chipset/Intel/SouthBridge/LynxPoint/Intel Pch SB Chipset/SB SMI/SBSMI.c $
//
// 19 7/12/15 11:08p Dennisliu
// [TAG] None
// [Category] Improvement
// [Description] Coding error in ElogGenerateNmiNow()
// [Files] Chipset\SB\SBSMI.c
//
// 17 12/30/13 5:59a Barretlin
// [TAG] EIP144559
// [Category] Improvement
// [Description] S3 can't resume via USB KB & MS under usb3.0 port in
// special case
// [Files] SBSMI.c SBSMI.h SBGeneric.c
//
// 16 10/01/13 7:53a Barretlin
// [TAG] EIP137385
// [Category] Bug Fix
// [Severity] Normal
// [Symptom] System hang if power button pushed on BSU, after windows
// shutdown / reboot
// [RootCause] Push power button key on RF keyboard will triger xhci hw
// smi, but xhci is set D3hot state in power button handler, then we can't
// service it
// [Solution] Stop xhci before we set D3hot state and check if
// hciversion is valid
// [Files] SBSMI.c
//
// 15 5/28/13 11:45p Scottyang
// [TAG] None
// [Category] Bug Fix
// [Severity] Normal
// [Symptom] GbE cannot wake form S5 under DOS.
// [RootCause] The base address is incorrect.
// [Solution] Correct base address.
// [Files] SBSMI.c
//
// 14 4/19/13 6:34a Wesleychen
// [TAG] None
// [Category] Improvement
// [Description] Update GbES02SxWorkaround() and add
// UsbS02SxWorkaround() for SBPwrBtnHandler().
// [Files] SBSMI.c; SBSMI.h; SBGeneric.c; SBCspLib.h
//
// 12 3/21/13 3:39a Scottyang
// [TAG] EIP83075
// [Category] Bug Fix
// [Severity] Normal
// [Symptom] USB3.0 mouse can not resume form S3 if shot down at POST
// before.
// [Solution] Additional xHCI Controller Configurations Prior to Enter
// S5.
// [Files] SBSMI.c
//
// 11 3/19/13 8:37a Scottyang
// [TAG] None
// [Category] Improvement
// [Description] Improve alternate access mode enable/disable routine.
// [Files] SBGeneric.c, SBCspLib.h, SBSMI.c
//
// 10 1/11/13 4:46a Scottyang
// [TAG] None
// [Category] Improvement
// [Description] Fixed coding error.
// [Files] SBSMI.c
//
// 9 1/04/13 2:45a Scottyang
// [TAG] EIP104199
// [Category] Improvement
// [Description] Register dummy Handler for all Tco Smi
// [Files] SBSMI.c;
//
// 8 10/30/12 10:04p Scottyang
// [TAG] None
// [Category] Improvement
// [Description] Remove clear SMI state and Y2K roller for PFAT
// function.
// [Files] SBSMI.c, SBGeneric.c
//
// 7 10/26/12 1:11a Scottyang
// [TAG] CHECK_BS_VARIABLE
// [Category] Improvement
// [Description] If project has module NVRamSMI then don't need to check
// this.
// [Files] SBSMI.c
//
// 6 10/12/12 8:06a Scottyang
// [TAG] None
// [Category] Improvement
// [Description] Fixed the system hang when Y2K roll over is occur with
// TCO SMI enabled.
//
// 5 9/26/12 3:58a Victortu
// [TAG] None
// [Category] Improvement
// [Description] Update for PCH LP GPIO compatible.
// [Files] SB.sdl, SB.H, AcpiModeEnable.c, AcpiModeEnable.sdl,
// SBDxe.c, SBGeneric.c, SBPEI.c, SBSMI.c, SleepSmi.c,
// SmiHandlerPorting.c, SmiHandlerPorting2.c
//
// 4 8/13/12 10:31a Victortu
// [TAG] None
// [Category] Improvement
// [Description] Implement BIOS Lock function.
// [Files] SBCspLib.h, SBDxe.c, SBSMI.c, SBSMI.dxs, SBSMI.sdl
//
// 3 7/27/12 6:17a Victortu
// [TAG] None
// [Category] Improvement
// [Description] Update to support ULT Platform.
// [Files] SB.H, SB.mak, SB.sdl, SB.sd, SBSetup.c,
// AcpiModeEnable.c, SBDxe.c, SBPEI.c, SBSMI.c, SleepSmi.c,
// SmiHandlerPorting.c, SmiHandlerPorting2.c, SBPPI.h, Pch.sdl
//
// 2 6/13/12 11:36p Victortu
// [TAG] None
// [Category] Improvement
// [Description] Implement Warm Boot function for Secure Flash feature.
// [Files] SB.H, SB.mak, SB.sdl, SBDxe.c, SBGeneric.c, SBPEI.c,
// SBSMI.c
//
// 1 2/08/12 8:31a Yurenlai
// Intel Lynx Point/SB eChipset initially releases.
//
//*************************************************************************
//<AMI_FHDR_START>
//
// Name: SBSMI.c
//
// Description: This file contains code for all North Bridge SMI events
//
//<AMI_FHDR_END>
//*************************************************************************
//----------------------------------------------------------------------------
// Include(s)
//----------------------------------------------------------------------------
#include <Token.h>
#include <Setup.h>
#include <AmiDxeLib.h>
#include <AMICSPLIBInc.h>
#include <AmiCspLib.h>
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
#include <Protocol\SmmPowerButtonDispatch2.h>
#include <Protocol\SmmBase2.h>
#include <Protocol\S3SaveState.h>
#include <Protocol\SmmSwDispatch2.h>
#else
#include <Protocol\SmmPowerButtonDispatch.h>
#include <Protocol\SmmBase.h>
#include <Protocol\BootScriptSave.h>
#include <Protocol\SmmSwDispatch.h>
#endif
#if SB_PCIE_ERROR_LOG_SUPPORT
#include <Protocol\GenericElog.h>
#endif
#include <Protocol\SBSmiProtocol.h>
#include <Edk\Foundation\Framework\Protocol\SmmIchnDispatch\SmmIchnDispatch.h>
#include <Protocol\PchPlatformPolicy\PchPlatformPolicy.h>
#include <ReferenceCode\Chipset\LynxPoint\Protocol\SmmIchnDispatchEx\SmmIchnDispatchEx.h>
#include <ReferenceCode\Chipset\LynxPoint\Protocol\SmmIoTrapDispatch\SmmIoTrapDispatch.h>
#include <Protocol\SBPlatformData.h>
#include <SBSMI.h>
//----------------------------------------------------------------------------
// Constant, Macro and Type Definition(s)
//----------------------------------------------------------------------------
// Constant Definition(s)
#define GBE_MAX_LOOP_TIME 4000
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
#define AMI_SMM_SW_DISPATCH_PROTOCOL EFI_SMM_SW_DISPATCH2_PROTOCOL
#define AMI_SMM_SW_DISPATCH_CONTEXT EFI_SMM_SW_REGISTER_CONTEXT
#define AMI_SMM_POWER_BUTTON_DISPATCH_PROTOCOL EFI_SMM_POWER_BUTTON_DISPATCH2_PROTOCOL
#define AMI_SMM_POWER_BUTTON_DISPATCH_CONTEXT EFI_SMM_POWER_BUTTON_REGISTER_CONTEXT
#define SMM_CHILD_DISPATCH_SUCCESS EFI_SUCCESS
#else
#define AMI_SMM_SW_DISPATCH_PROTOCOL EFI_SMM_SW_DISPATCH_PROTOCOL
#define AMI_SMM_SW_DISPATCH_CONTEXT EFI_SMM_SW_DISPATCH_CONTEXT
#define AMI_SMM_POWER_BUTTON_DISPATCH_PROTOCOL EFI_SMM_POWER_BUTTON_DISPATCH_PROTOCOL
#define AMI_SMM_POWER_BUTTON_DISPATCH_CONTEXT EFI_SMM_POWER_BUTTON_DISPATCH_CONTEXT
#define SMM_CHILD_DISPATCH_SUCCESS
#endif
#ifndef NvramSmiSupport
#define CHECK_BS_VARIABLE 1
#endif
#if defined NvramSmiSupport && NvramSmiSupport
#define CHECK_BS_VARIABLE 0
#else
#define CHECK_BS_VARIABLE 1
#endif
// Macro Definition(s)
// Type Definition(s)
// Function Prototype(s)
//----------------------------------------------------------------------------
// Variable and External Declaration(s)
//----------------------------------------------------------------------------
// Variable Declaration(s)
#if SB_PCIE_ERROR_LOG_SUPPORT
SB_PCIE_ERROR_LOG_DISPATCH_LINK *gSbPcieErrorLogDispatchHead = 0, *gSbPcieErrorLogDispatchTail = 0;
UINT32 SBPcieBridge[] =
{
{(UINT32)SB_PCIE_CFG_ADDRESS(PCIEBRS_BUS, PCIEBRS_DEV, PCIEBRS_FUN, PCI_VID)},
{(UINT32)SB_PCIE_CFG_ADDRESS(PCIEBRS2_BUS, PCIEBRS2_DEV, PCIEBRS2_FUN, PCI_VID)},
{(UINT32)SB_PCIE_CFG_ADDRESS(PCIEBRS3_BUS, PCIEBRS3_DEV, PCIEBRS3_FUN, PCI_VID)},
{(UINT32)SB_PCIE_CFG_ADDRESS(PCIEBRS4_BUS, PCIEBRS4_DEV, PCIEBRS4_FUN, PCI_VID)},
{(UINT32)SB_PCIE_CFG_ADDRESS(PCIEBRS5_BUS, PCIEBRS5_DEV, PCIEBRS5_FUN, PCI_VID)},
{(UINT32)SB_PCIE_CFG_ADDRESS(PCIEBRS6_BUS, PCIEBRS6_DEV, PCIEBRS6_FUN, PCI_VID)},
{(UINT32)SB_PCIE_CFG_ADDRESS(PCIEBRS7_BUS, PCIEBRS7_DEV, PCIEBRS7_FUN, PCI_VID)},
{(UINT32)SB_PCIE_CFG_ADDRESS(PCIEBRS8_BUS, PCIEBRS8_DEV, PCIEBRS8_FUN, PCI_VID)},
{0xFFFFFFFF}
};
#endif
BOOLEAN gIsLastState = FALSE;
BOOLEAN gPchWakeOnLan = FALSE;
EFI_SMM_ICHN_DISPATCH_PROTOCOL *gIchnDispatch;
EFI_RESET_SYSTEM gSmmResetSystem = NULL;
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
EFI_SMM_BASE2_PROTOCOL *gSmmBase2;
#endif
// GUID Definition(s)
#if SB_PCIE_ERROR_LOG_SUPPORT
EFI_GUID gSbPcieErrorLogDispatchProtocolGuid = EFI_SB_PCIE_ERROR_LOG_DISPATCH_PROTOCOL_GUID;
EFI_GUID gElogProtocolGuid = EFI_SM_ELOG_PROTOCOL_GUID;
#endif
EFI_GUID gAmiSbSmiProtocolGuid = AMI_SB_SMI_PROTOCOL_GUID;
EFI_GUID gEfiSmmIchnExDispatchProtocolGuid = EFI_SMM_ICHN_DISPATCH_EX_PROTOCOL_GUID;
EFI_GUID gIchnDispatchProtocolGuid = EFI_SMM_ICHN_DISPATCH_PROTOCOL_GUID;
EFI_GUID gDxePchPlatformPolicyProtocolGuid = DXE_PCH_PLATFORM_POLICY_PROTOCOL_GUID;
EFI_GUID gEfiSmmIoTrapDispatchProtocolGuid = EFI_SMM_IO_TRAP_DISPATCH_PROTOCOL_GUID;
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION<0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
EFI_GUID gSwDispatchProtocolGuid = EFI_SMM_SW_DISPATCH_PROTOCOL_GUID;
#endif
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: AddLink
//
// Description: Create and add link to specified list.
//
// Parameters: Size -
// Head -
// Tail -
//
// Returns: VOID Pointer
//
// Modified:
//
// Referrals: SmmAllocatePool
//
// Notes: Here is the control flow of this function:
// 1. Allocate Link in Smm Pool.
// 2. Add Link to end.
// 3. Return Link address.
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
VOID * AddLink (
IN UINT32 Size,
IN VOID **Head,
IN VOID **Tail )
{
VOID *Link;
if (pSmst->SmmAllocatePool(0, Size, &Link) != EFI_SUCCESS) return 0;
((GENERIC_LINK*)Link)->Link = 0;
if (!*Head) {
*Head = *Tail = Link;
} else {
((GENERIC_LINK*)*Tail)->Link = Link;
*Tail = Link;
}
return Link;
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: RemoveLink
//
// Description: Remove link from specified list.
//
// Parameters: Handle - EFI Handle
// Head -
// Tail -
//
// Returns: BOOLEAN
// TRUE if link was removed. FALSE if link not in the list.
//
// Modified:
//
// Referrals: SmmFreePool
//
// Notes: Here is the control flow of this function:
// 1. Search link list for Link.
// 2. Remove link from list.
// 3. Free link.
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
BOOLEAN RemoveLink (
IN EFI_HANDLE Handle,
IN VOID **Head,
IN VOID **Tail )
{
GENERIC_LINK *PrevLink,*Link;
PrevLink = *Head;
// Is link first. Link address is the same as the Handle.
if (((GENERIC_LINK*)*Head) == Handle) {
if (PrevLink == *Tail) *Tail = 0; // If Tail = Head, then 0.
*Head = PrevLink->Link;
pSmst->SmmFreePool(PrevLink);
return TRUE;
}
// Find Link.
for (Link=PrevLink->Link; Link; PrevLink=Link, Link=Link->Link) {
if (Link == Handle) { // Link address is the same as the Handle.
if (Link == *Tail) *Tail = PrevLink;
PrevLink->Link = Link->Link;
pSmst->SmmFreePool(Link);
return TRUE;
}
}
return FALSE;
}
#if SB_PCIE_ERROR_LOG_SUPPORT
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: EfiSbPcieErrorLogEnRegister
//
// Description: Register a Link on SbPcieErrorLog enable SMI.
//
// Parameters: This -
// Function -
// Context -
//
//
// Returns: Handle -
// EFI_STATUS
//
// Modified: gSbPcieErrorLogDispatchHead, gSbPcieErrorLogDispatchTail
//
// Referrals: AddLink
//
// Notes: Here is the control flow of this function:
// 1. Verify if Context if valid. If invalid,
// return EFI_INVALID_PARAMETER.
// 2. Allocate structure and add to link list.
// 3. Fill link.
// 4. Enable Smi Source.
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
EFI_STATUS SbPcieErrorLogRegister (
IN EFI_SB_PCIE_ERROR_LOG_DISPATCH_PROTOCOL *This,
IN EFI_SB_PCIE_ERROR_LOG_DISPATCH Function,
OUT EFI_HANDLE *Handle )
{
SB_PCIE_ERROR_LOG_DISPATCH_LINK *NewLink;
NewLink = AddLink( sizeof(SB_PCIE_ERROR_LOG_DISPATCH_LINK), \
&gSbPcieErrorLogDispatchHead, \
&gSbPcieErrorLogDispatchTail );
if (!NewLink) return EFI_OUT_OF_RESOURCES;
NewLink->Function = Function;
*Handle = NewLink;
return EFI_SUCCESS;
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: SbPcieErrorLogUnregister
//
// Description: Unregister a Link on SbPcieErrorLog enable SMI.
//
// Parameters: This -
// Handle -
//
// Returns: EFI_STATUS
//
// Modified: gSbPcieErrorLogDispatchHead, gSbPcieErrorLogDispatchTail
//
// Referrals: RemoveLink
//
// Notes: Here is the control flow of this function:
// 1. Remove link. If no link, return EFI_INVALID_PARAMETER.
// 2. Disable SMI Source if no other handlers using source.
// 3. Return EFI_SUCCESS.
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
EFI_STATUS SbPcieErrorLogUnregister (
IN EFI_SB_PCIE_ERROR_LOG_DISPATCH_PROTOCOL *This,
IN EFI_HANDLE Handle )
{
if (!RemoveLink(Handle, &gSbPcieErrorLogDispatchHead, &gSbPcieErrorLogDispatchTail))
return EFI_INVALID_PARAMETER;
return EFI_SUCCESS;
}
#endif
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: CheckReadyFlag
//
// Description: Check ready flag to see if writing to MDIC is done.
//
// Parameters: GbEBar - GbE Memory Base Address Register
//
// Returns: EFI_SUCCESS - Successfully completed.
// EFI_TIMEOUT - Checking flag time out.
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
EFI_STATUS CheckReadyFlag ( IN UINT32 GbEBar )
{
UINT32 ReadyFlag;
UINT32 LoopTime;
ReadyFlag = 0;
for (LoopTime = 0; LoopTime < GBE_MAX_LOOP_TIME; LoopTime++) {
ReadyFlag = READ_MEM32 (GbEBar + R_PCH_MBARA_GBECSR3) & B_PCH_MBARA_GBECSR3_RB;
if (ReadyFlag) {
break;
}
CountTime((10), PM_BASE_ADDRESS);
}
if (LoopTime >= GBE_MAX_LOOP_TIME) {
return EFI_TIMEOUT;
}
return EFI_SUCCESS;
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: GbES02SxWorkaround
//
// Description: PCH BIOS Spec Rev 0.7.0 Section 10.6
// Additional Internal GbE Controller special cases WOL Support
//
// Parameters: None
//
// Returns: None
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
VOID GbES02SxWorkaround ( VOID )
{
UINTN PciD25F0RegBase;
UINTN PciD31F0RegBase;
UINT32 GbEBar;
UINT32 GbEBarB;
UINT16 CmdReg;
UINT32 RAL0;
UINT32 RAH0;
UINT32 PhyCtrl;
UINT32 ExtCnfCtrl;
UINT32 Buffer;
UINT32 LoopTime;
UINT32 RootComplexBar;
UINT32 PchGpioBase;
EFI_STATUS Status;
PciD25F0RegBase = MmPciAddress (
PCIEX_BASE_ADDRESS,
PCI_BUS_NUMBER_PCH_LAN,
PCI_DEVICE_NUMBER_PCH_LAN,
PCI_FUNCTION_NUMBER_PCH_LAN,
0
);
PciD31F0RegBase = MmPciAddress (
PCIEX_BASE_ADDRESS,
0,
PCI_DEVICE_NUMBER_PCH_LPC,
PCI_FUNCTION_NUMBER_PCH_LPC,
0
);
RootComplexBar = (READ_MEM32 (PciD31F0RegBase + SB_REG_RCBA)) & ~BIT0;
PchGpioBase = (MmioRead32 (PciD31F0RegBase + R_PCH_LPC_GPIO_BASE)) &~BIT0;
GbEBar = 0;
GbEBarB = 0;
CmdReg = 0;
Buffer = 0;
if (((MmioRead16 (RootComplexBar + R_PCH_RCRB_BUC)) & BIT5) == 0) {
///
/// System BIOS requires to program the registers listed below for internal GbE to function upon S0 to S3,4,5 transition
/// (When ME off and GbE device in D0)
///
/// Note: Time out should be applied for MBARA + Offset 20h[28] verification to avoid non respond loop. Upon time out,
/// system BIOS is required to clear MBARA + Offset F00h [5] = 0b before exiting the WA.
///
/// Check if GbE device is in D0 state
///
if ((MmioRead16 (PciD25F0RegBase + R_PCH_LAN_PMCS) & (UINT16) B_PCH_LAN_PMCS_PS) == (UINT16) V_PCH_LAN_PMCS_PS0) {
GbEBar = MmioRead32 (PciD25F0RegBase + R_PCH_LAN_MEM_BASE_A);
///
/// Step 1
/// If MBARA + Offset 5800h [0] = 1b then proceed the steps below
///
if (MmioRead32 (GbEBar + R_PCH_MBARA_GBECSR9) & B_PCH_MBARA_GBECSR9_APME) {
///
/// Step 2
/// System BIOS perform read to MBARA + Offset 5400h [31:0], MBARA + Offset 5404h [31:0]
/// and MBARA + Offset F00h [31:0]
///
RAL0 = MmioRead32 (GbEBar + R_PCH_MBARA_GBECSR7);
RAH0 = MmioRead32 (GbEBar + R_PCH_MBARA_GBECSR8);
ExtCnfCtrl = MmioRead32 (GbEBar + R_PCH_MBARA_GBECSR5);
///
/// Step 3
/// Ensure that MBARA + Offset F00h [5] = 1b
/// a. Set MBARA + Offset F00h [31:0] value with the value read in step 2 or with 0x20 (set bit 5)
/// b. Read MBARA + Offset F00h
/// c. If MBARA + Offset F00h [5] = 1b (true) continue else wait X Sec and go back to step 3.b for Y times
/// (X*Y totals to ~200mSec) if false - exit flow by jumping to step 32.
///
MmioWrite32 (GbEBar + R_PCH_MBARA_GBECSR5, ExtCnfCtrl | B_PCH_MBARA_GBECSR5_SWFLAG);
for (LoopTime = 0; LoopTime < GBE_MAX_LOOP_TIME; LoopTime++) {
ExtCnfCtrl = MmioRead32 (GbEBar + R_PCH_MBARA_GBECSR5);
if (ExtCnfCtrl & B_PCH_MBARA_GBECSR5_SWFLAG) {
break;
}
CountTime((50), PM_BASE_ADDRESS);
}
if (LoopTime >= GBE_MAX_LOOP_TIME) {
goto ExitGbEWa;
}
///
/// Step 4
/// If MBARA + Offset 5B54h [15] = 1b then jump to Step 10
///
if ((MmioRead32 (GbEBar + 0x5B54) & BIT15) != BIT15) {
///
/// Step 5
/// If MBARA + Offset F10h [2] = 1b, then set MBARA + Offset F10h[1] = 1b. Else clear MBARA + Offset F10h[1] = 0b
///
if (MmioRead32 (GbEBar + R_PCH_MBARA_GBECSR6) & B_PCH_MBARA_GBECSR6_LPLUND) {
SET_MEM32(GbEBar + R_PCH_MBARA_GBECSR6, (UINT32) B_PCH_MBARA_GBECSR6_LPLUD);
} else {
RESET_MEM32 (GbEBar + R_PCH_MBARA_GBECSR6, (UINT32)B_PCH_MBARA_GBECSR6_LPLUD);
}
///
/// Step 6
/// Set MBARA + Offset 20h = 0x043f0000. Verify MBARA + Offset 20h[28] = 1b
///
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x043f0000);
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
///
/// Step 7
/// Wait 4 mSec
///
CountTime((4 * 1000), PM_BASE_ADDRESS);
///
/// Step 8
/// Set MBARA + Offset 20h = 0x04390000 or with 0x400 or with 0x40 if MBARA + Offset F10h [3] = 1b
/// or with 0x04 if MBARA + Offset F10h [2] = 1b
///
Buffer = 0x04390000 | 0x400;
if (MmioRead32 (GbEBar + R_PCH_MBARA_GBECSR6) & B_PCH_MBARA_GBECSR6_GbE_DIS) {
Buffer |= 0x40;
}
if (MmioRead32 (GbEBar + R_PCH_MBARA_GBECSR6) & B_PCH_MBARA_GBECSR6_LPLUND) {
Buffer |= 0x04;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), Buffer);
///
/// Step 9
/// Verify MBARA + Offset 20h[28] = 1b
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
}
///
/// Step 10
/// Set MBARA + Offset 20h = 0x043f6400
///
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x043f6400);
///
/// Step 11
/// Wait 4 mSec
///
CountTime((4 * 1000), PM_BASE_ADDRESS);
///
/// Step 12
/// Set MBARA + Offset F10h [6] = 1b (read modify write)
///
PhyCtrl = MmioRead32 (GbEBar + R_PCH_MBARA_GBECSR6);
MmioWrite32 (GbEBar + R_PCH_MBARA_GBECSR6, PhyCtrl | B_PCH_MBARA_GBECSR6_GGD);
///
/// Step 13
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x4310010
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x4310010);
///
/// Step 14
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x4320000 or with
/// the least significant word of MBARA + offset 5400 that read in step 2
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), (0x4320000 | (RAL0 & 0x0000FFFF)));
///
/// Step 15
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x4310011
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x4310011);
///
/// Step 16
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x4320000 or with
/// the most significant word of MBARA + offset 5400 that read in step 2
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), (0x4320000 | (RAL0 >> 16)));
///
/// Step 17
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x4310012
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x4310012);
///
/// Step 18
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x4320000 or with
/// the least significant word of MBARA + offset 5404 that read in step 2
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), (0x4320000 | (RAH0 & B_PCH_MBARA_GBECSR8_RAH)));
///
/// Step 19
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x4310013
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x4310013);
///
/// Step 20
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x4328000
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x4328000);
///
/// Step 21
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x4310001
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x4310001);
///
/// Step 22
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x8320000
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x8320000);
///
/// Step 23
/// Verify MBARA + Offset 20h[28] = 1b, TEMP[15:0] = MBARA + Offset 20h [15:0]
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
Buffer = MmioRead32 (GbEBar + R_PCH_MBARA_GBECSR3) & B_PCH_MBARA_GBECSR3_DATA;
///
/// Step 24
/// Set MBARA + Offset 20h = 0x4320000 or TEMP[15:0] or 0x0001
///
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x4320000 | Buffer | 0x0001);
///
/// Step 25
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x43f6460
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x43f6460);
///
/// Step 26
/// Wait 4 mSec
///
CountTime((4 * 1000), PM_BASE_ADDRESS);
///
/// Step 27
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x4310042
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x4310042);
///
/// Step 28
/// Verify MBARA + Offset 20h[28] = 1b.
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x43F6020);
///
/// Step 29
/// Wait 4 mSec
///
CountTime((4 * 1000), PM_BASE_ADDRESS);
///
/// Step 30
/// Verify MBARA + Offset 20h[28] = 1b, set MBARA + Offset 20h = 0x8310000
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x8310000);
///
/// Step 31
/// Verify MBARA + Offset 20h[28] = 1b, TEMP[15:0] = MBARA + 20[15:0]
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
Buffer = MmioRead32 (GbEBar + R_PCH_MBARA_GBECSR3) & 0x0000FFFF;
///
/// Step 32
/// Verify MBARA + 20h[28] = 1b, set MBARA + 20h = 4310000h or with the TEMP[15:0] or with 10h
///
Status = CheckReadyFlag (GbEBar);
if (EFI_ERROR (Status)) {
goto ExitGbEWa;
}
ExitGbEWa:
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR3), 0x4310000 | Buffer | 0x10);
///
/// Step 33
/// Verify MBARA + Offset 20h[28] = 1b
///
Status = CheckReadyFlag (GbEBar);
///
/// Step 34
/// Clear MBARA + Offset F00h [5] = 0b (read modify write)
///
MmioWrite32 ((GbEBar + R_PCH_MBARA_GBECSR5), (ExtCnfCtrl & (UINT32) (~BIT5)));
}
}
}
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: SBPwrBtnHandler
//
// Description: If the power button is pressed, then this function is called.
//
// Input: DispatchHandle - Handle of dispatch function, for when interfacing
// with the parent SMM driver, will be the address of linked
// list link in the call back record.
// DispatchContext - Pointer to the dispatch function's context.
//
// Output: VOID
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
EFI_STATUS SBPwrBtnHandler (
IN EFI_HANDLE DispatchHandle,
IN CONST VOID *DispatchContext OPTIONAL,
IN OUT VOID *CommBuffer OPTIONAL,
IN OUT UINTN *CommBufferSize OPTIONAL )
#else
VOID SBPwrBtnHandler(
IN EFI_HANDLE DispatchHandle,
IN AMI_SMM_POWER_BUTTON_DISPATCH_CONTEXT *DispatchContext)
#endif
{
// Usage sample code shows that user how to decide NMI_EN bit is diabled or enabled in SMI.
//#### EFI_CMOS_ACCESS_INTERFACE *CmosInterface;
//#### EFI_STATUS Status;
//####
//#### LOCATE_CMOS_ACCESS_SMM_PROTOCOL(Status, CmosInterface);
//#### if( !EFI_ERROR(Status) ) {
//#### // Example1:Disable NMI
//#### CmosInterface->Write( CmosInterface,
//#### SB_SSP_NMI_CONTROL_BITS,
//#### DISABLE_NMI_BEFORE_SMI_EXIT );
//#### // Example2:Enable NMI
//####// CmosInterface->Write( CmosInterface,
//####// SB_SSP_NMI_CONTROL_BITS,
//####// ENABLE_NMI_BEFORE_SMI_EXIT );
//#### }
// Program AfterG3 bit depend the setup question.
if (gIsLastState) SET_PCI8_SB(SB_REG_GEN_PMCON_3, 1); // 0xA4
if (gPchWakeOnLan) GbES02SxWorkaround();
return SMM_CHILD_DISPATCH_SUCCESS;
}
#if SB_PCIE_ERROR_LOG_SUPPORT
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: ElogGenerateNmiNow
//
// Description: Generate NmiNow.
//
// Input: None
//
// Output: None
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
VOID ElogGenerateNmiNow (VOID)
{
UINT16 PmBase;
UINT8 SaveNmi2SmiEn;
UINT8 SavePort70;
//
// Get the PM Base Address
//
PmBase = READ_PCI16_SB (SB_REG_PMBASE) & 0xFF80;
// Read the NMI2SMI_EN bit, save it for future restore
SaveNmi2SmiEn = READ_IO8(PmBase + TCO1_CNT_OFFSET + 1);
// Set the NMI2SMI_EN bit to 0
RESET_IO8(PmBase + TCO1_CNT_OFFSET + 1, BIT01);
SavePort70 = ReadPort70h(); //Improve alternate access mode
// Enable NMI_EN
WRITE_IO8(CMOS_ADDR_PORT, (SavePort70 & ~BIT07)); //Improve alternate access mode
// Set NMI_NOW = 1
SET_IO8(PmBase + TCO1_CNT_OFFSET + 1, BIT00);
// Clear NMI_NOW = 0 by writing 1 to NMI_NOW bit
RESET_IO8(PmBase + TCO1_CNT_OFFSET + 1, BIT00);
// Restore NMI2SMI_EN
WRITE_IO8(PmBase + TCO1_CNT_OFFSET + 1, SaveNmi2SmiEn);
// Clear the DMISERR_STS bit, bit 12
WRITE_IO16(PmBase + TCO1_STS_OFFSET, BIT12);
// Clear the NMI2SMI_STS bit if set
if ((READ_IO16(PmBase + TCO1_STS_OFFSET)) & 0x0001) {
// check port 0x61
if (READ_IO8(NMI_SC_PORT) & 0x80) {
SET_IO8(NMI_SC_PORT, BIT02);
RESET_IO8(NMI_SC_PORT, BIT02);
}
}
// Restore NMI_EN
WRITE_IO8(CMOS_ADDR_PORT, SavePort70);
return;
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: SBErrLogHandler
//
// Description: South bridge error logging handler.
//
// Input: DispatchHandle - Handle of dispatch function, for when interfacing
// with the parent SMM driver, will be the address of linked
// list link in the call back record.
// DispatchContext - Pointer to the dispatch function's context.
//
// Output: None
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
VOID SBErrLogHandler (
IN EFI_HANDLE DispatchHandle,
IN EFI_SMM_ICHN_DISPATCH_CONTEXT *DispatchContext
)
{
EFI_STATUS Status = EFI_SUCCESS;
SB_PCIE_ERROR_LOG_DISPATCH_LINK *Link;
SB_PCIE_ERR ErrorInfo;
UINT8 i;
UINT8 CapPtr;
UINT16 PciStatus;
UINT16 PcieStatus;
UINT16 DeviceStatus;
UINT32 DevBaseAddr;
if (READ_IO8(NMI_SC_PORT) & BIT7) // SERR#_NMI_STS?
{
// Clear SERR#_NMI_STS & NMI2SMI_STS by set Port 61h[2] = 1 then set it to 0.
SET_IO8(NMI_SC_PORT, BIT02);
RESET_IO8(NMI_SC_PORT, BIT02);
for (i = 0; SBPcieBridge[i] != 0xFFFFFFFF; i++)
{
DevBaseAddr = SBPcieBridge[i];
if (READ_MEM32(DevBaseAddr) == 0xFFFFFFFF)
continue;
PciStatus = READ_MEM16(DevBaseAddr + 0x06);
PcieStatus = READ_MEM16(DevBaseAddr + 0x1E);
CapPtr = SbFindCapPtr(DevBaseAddr, 0x10);
if (CapPtr != 0)
DeviceStatus = READ_MEM16(DevBaseAddr + CapPtr + 0x0A);
if ((PciStatus & (BIT8 | BIT15)) || (PcieStatus & (BIT8 | BIT15)))
ErrorInfo.ParityError = TRUE;
else
ErrorInfo.ParityError = FALSE;
if ((PciStatus & BIT14) || (PcieStatus & BIT14))
ErrorInfo.SystemError = TRUE;
else
ErrorInfo.SystemError = FALSE;
if ((ErrorInfo.ParityError) || (ErrorInfo.SystemError)) {
ErrorInfo.PcieAddress = DevBaseAddr;
ErrorInfo.Bus = (DevBaseAddr >> 20) & ((UINT8)((PCIEX_LENGTH >> 20) - 1));
ErrorInfo.Dev = (DevBaseAddr >> 15) & 0x1F;
ErrorInfo.Fun = (DevBaseAddr >> 12) & 0x07;
ErrorInfo.VendorId = READ_MEM16(DevBaseAddr + 0x00);
ErrorInfo.DeviceId = READ_MEM16(DevBaseAddr + 0x02);
ErrorInfo.PciCommand = READ_MEM16(DevBaseAddr + 0x04);
ErrorInfo.PciCCode = READ_MEM16(DevBaseAddr + 0x0A);
ErrorInfo.BridgeControl = READ_MEM16(DevBaseAddr + 0x3E);
ErrorInfo.Version = READ_MEM8(DevBaseAddr + CapPtr + 0x02) & 0x0F;
ErrorInfo.PortType = (UINT32)((READ_MEM8(DevBaseAddr + CapPtr + 0x02) & 0xF0) >> 4);
if (CapPtr != 0) {
ErrorInfo.Correctable = (DeviceStatus & BIT0)? TRUE : FALSE;
ErrorInfo.NonFatal = (DeviceStatus & BIT1)? TRUE : FALSE;
ErrorInfo.Fatal = (DeviceStatus & BIT2)? TRUE : FALSE;
}
// Clear Error status
WRITE_MEM16(DevBaseAddr + 0x06, PciStatus);
WRITE_MEM16(DevBaseAddr + 0x1E, PcieStatus);
if (CapPtr != 0)
// Clear Error Status
WRITE_MEM16(DevBaseAddr + CapPtr + 0x0A, DeviceStatus);
//#### if (!ErrorInfo.Correctable)
//#### ElogGenerateNmiNow();
for(Link = gSbPcieErrorLogDispatchHead; Link; Link = Link->Link) {
Link->Function(Link, ErrorInfo);
}
} // if ((ErrorInfo.ParityError) || (ErrorInfo.SystemError))
}
}
}
//----------------------------------------------------------------------------
VOID InitSbSmiLogic(VOID)
{
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: InitSbSmiLogicHandler
//
// Description: Initialize SB SMI Logic Handler.
// This handler should be performed in ready to boot
// and S3 rerume.
//
// Input: DispatchHandle - Handle of dispatch function, for when interfacing
// with the parent SMM driver, will be the address of linked
// list link in the call back record.
// DispatchContext - Pointer to the dispatch function's context.
//
// Output: None
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
EFI_STATUS InitSbSmiLogicHandler (
IN EFI_HANDLE DispatchHandle,
IN CONST VOID *DispatchContext OPTIONAL,
IN OUT VOID *CommBuffer OPTIONAL,
IN OUT UINTN *CommBufferSize OPTIONAL )
#else
VOID InitSbSmiLogicHandler (
IN EFI_HANDLE DispatchHandle,
IN AMI_SMM_SW_DISPATCH_CONTEXT *DispatchContext)
#endif
{
UINT32 PmBase;
UINT32 Buffer32;
PmBase = READ_PCI16_SB (SB_REG_PMBASE) & 0xFF80;
//
//Every SERR (System Erors) will generate NMI. So route NMI as a SMI to handle Errors
//Steps to route NMI as a SMI
//Enable NMI2SMI_EN bit in TCO1 Control Register
//UnMask NMI Enable bit in NMI Enable (and Real Time Clock Index) Register
//
// Set NMI2SMI_EN = '1b', TCO_BASE + 08h[9]
SET_IO16_PM(TCO1_CNT_OFFSET, BIT09);
// Enable NMI by set Port 70h[7] = '0b'
SwitchAlternateAccessMode (TRUE); //Improve alternate access mode
RESET_IO8(CMOS_ADDR_PORT, BIT07);
SwitchAlternateAccessMode (FALSE); //Improve alternate access mode
//
//Clear all Spurious Sources of the SMI.
//
Buffer32 = READ_IO32_PM(SMI_STS_OFFSET);
WRITE_IO32_PM(SMI_STS_OFFSET, Buffer32);
Buffer32 = READ_IO32_PM(TCO1_STS_OFFSET);
WRITE_IO32_PM(TCO1_STS_OFFSET, Buffer32);
SET_IO8(NMI_SC_PORT, BIT02);
RESET_IO8(NMI_SC_PORT, BIT02);
return SMM_CHILD_DISPATCH_SUCCESS;
}
EFI_SB_PCIE_ERROR_LOG_DISPATCH_PROTOCOL gEfiSbPcieErrorLogDispatchProtocol = \
{SbPcieErrorLogRegister, SbPcieErrorLogUnregister};
#endif
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: GetSbSmiContext
//
// Description: This is a template SB SMI GetContext for Porting.
//
// Input: None
//
// Output: BOOLEAN
//
// Notes: Here is the control flow of this function:
// 1. Check if NB Smi source.
// 2. If yes, return TRUE.
// 3. If not, return FALSE.
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
BOOLEAN GetSbSmiContext (VOID)
{
return FALSE;
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: SbSmiHandler
//
// Description: This is a template SB SMI Handler for Porting.
//
// Input: None
//
// Output: None
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
VOID SbSmiHandler (VOID)
{
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: SbIchnExGpioUnlockSmiHandler
//
// Description: If the GPIO Lockdown Enable(GLE, B0:D31:F0 R4Ch[0]) bit is
// changed from 1 to 0, then this function is called.
//
// Input: DispatchHandle - EFI Handle
// DispatchContext - Pointer to the EFI_SMM_ICHN_DISPATCH_EX_CONTEXT
//
// Output: None
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
VOID SbIchnExGpioUnlockSmiHandler (
IN EFI_HANDLE DispatchHandle,
IN EFI_SMM_ICHN_DISPATCH_EX_CONTEXT *DispatchContext )
{
// Set GPIO Lockdown Enable(GLE) bit.
SET_PCI8_SB(SB_REG_GC, BIT00);
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: PchBiosWpCallback
//
// Description: This hardware SMI handler will be run every time the BIOS Write Enable bit is set.
//
// Input: DispatchHandle Not used
// DispatchContext Not used
//
// Output: None
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
static
VOID
PchBiosWpCallback (
IN EFI_HANDLE DispatchHandle,
IN EFI_SMM_ICHN_DISPATCH_CONTEXT *DispatchContext
)
{
#if CHECK_BS_VARIABLE
// Do not need to check the BS attribute variable
// if NvramSmi is enabled.
EFI_STATUS Status;
SB_PLATFORM_DATA SbPlatformData;
EFI_GUID SetupGuid = SETUP_GUID;
UINTN VarSize;
VarSize = sizeof(SB_PLATFORM_DATA);
Status = pRS->GetVariable(
L"SbPlatformData",
&SetupGuid,
NULL,
&VarSize,
&SbPlatformData );
if(!EFI_ERROR(Status) || (Status == EFI_ACCESS_DENIED)) return;
#endif
//
// Disable BIOSWE bit to protect BIOS
//
RESET_PCI8_SB(R_PCH_LPC_BIOS_CNTL, B_PCH_LPC_BIOS_CNTL_BIOSWE);
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: PchBiosLockIoTrapCallback
//
// Description: Register an IchnBiosWp callback function to handle TCO BIOSWR SMI
// SMM_BWP and BLE bits will be set here
//
// Input: DispatchHandle Not used
// DispatchContext Not used
//
// Output: None
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
VOID PchBiosLockIoTrapCallback (
IN EFI_HANDLE DispatchHandle,
IN EFI_SMM_IO_TRAP_DISPATCH_CALLBACK_CONTEXT *DispatchContext )
{
EFI_STATUS Status;
EFI_SMM_ICHN_DISPATCH_CONTEXT IchnContext;
EFI_HANDLE IchnHandle = NULL;
if (READ_PCI8_SB(R_PCH_LPC_BIOS_CNTL) & B_PCH_LPC_BIOS_CNTL_BLE) {
return;
}
if ((DispatchContext->Type != WriteTrap) || (DispatchContext->WriteData != PCH_BWP_SIGNATURE)) {
return;
}
if (gIchnDispatch == NULL) {
return;
}
#if defined NvramSmiSupport && NvramSmiSupport
#if SMM_BIOS_WRITE_PROTECT_DISABLE
//
// Set SMM_BWP bit before registering IchnBiosWp
//
SET_PCI8_SB(R_PCH_LPC_BIOS_CNTL, B_PCH_LPC_BIOS_CNTL_SMM_BWP);
#endif
#endif
//
// Register an IchnBiosWp callback function to handle TCO BIOSWR SMI
//
IchnContext.Type = IchnBiosWp;
Status = gIchnDispatch->Register (
gIchnDispatch,
PchBiosWpCallback,
&IchnContext,
&IchnHandle
);
ASSERT_EFI_ERROR (Status);
return;
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: SbChildDispatcher
//
// Description: South Bridge SMM Child Dispatcher Handler.
//
// Input: SmmImageHandle -
// *CommunicationBuffer - OPTIONAL
// *SourceSize - OPTIONAL
//
// Output: EFI_STATUS
//
// Modified:
//
// Referrals: EfiSmmSwDispatch EfiSmmSxDispatch
//
// Notes: Here is the control flow of this function:
// 1. Read SMI source status registers.
// 2. If source, call handler.
// 3. Repeat #2 for all sources registered.
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
EFI_STATUS SbChildDispatcher (
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
IN EFI_HANDLE DispatchHandle,
IN CONST VOID *DispatchContext OPTIONAL,
IN OUT VOID *CommBuffer OPTIONAL,
IN OUT UINTN *CommBufferSize OPTIONAL )
#else
IN EFI_HANDLE SmmImageHandle,
IN OUT VOID *CommunicationBuffer OPTIONAL,
IN OUT UINTN *SourceSize OPTIONAL )
#endif
{
if (GetSbSmiContext()) SbSmiHandler();
return EFI_HANDLER_SUCCESS;
}
//<AMI_PHDR_START> //EIP104199 >>
//----------------------------------------------------------------------------
//
// Procedure: DummyTcoSmiCallback
//
// Description:
//
// Input:
//
// Output: None
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
static VOID DummyTcoSmiCallback (
IN EFI_HANDLE DispatchHandle,
IN EFI_SMM_ICHN_DISPATCH_CONTEXT *DispatchContext
)
{
// Dummy routine for clear any unexpected TCO SMIs status.
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: RegisterAllTcoSmiDummyHandler
//
// Description:
//
// Input: None
//
// Output: None
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
VOID RegisterAllTcoSmiDummyHandler ( VOID )
{
EFI_STATUS Status;
EFI_HANDLE IchnHandle[12];
EFI_SMM_ICHN_DISPATCH_CONTEXT IchnContext[12];
UINT8 Index=0;
IchnContext[0].Type = IchnMch;
IchnContext[1].Type = IchnPme;
IchnContext[2].Type = IchnRtcAlarm;
IchnContext[3].Type = IchnRingIndicate;
IchnContext[4].Type = IchnAc97Wake;
IchnContext[5].Type = IchnSerialIrq;
IchnContext[6].Type = IchnY2KRollover;
IchnContext[7].Type = IchnTcoTimeout;
IchnContext[8].Type = IchnOsTco;
IchnContext[9].Type = IchnNmi;
IchnContext[10].Type = IchnIntruderDetect;
IchnContext[11].Type = IchnBiosWp;
for(Index = 0; Index<12; Index++){
Status = gIchnDispatch->Register (
gIchnDispatch,
DummyTcoSmiCallback,
&IchnContext[Index],
&IchnHandle[Index]
);
ASSERT_EFI_ERROR (Status);
}
}
//EIP104199 <<
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: InSmmFunction
//
// Description: Installs North Bridge SMM Child Dispatcher Handler.
//
// Input: ImageHandle - Image handle
// *SystemTable - Pointer to the system table
//
// Output: EFI_STATUS
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
EFI_STATUS InSmmFunction (
IN EFI_HANDLE ImageHandle,
IN EFI_SYSTEM_TABLE *SystemTable )
{
AMI_SMM_POWER_BUTTON_DISPATCH_PROTOCOL *PowerButton;
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
AMI_SMM_POWER_BUTTON_DISPATCH_CONTEXT DispatchContext = {EfiPowerButtonEntry};
EFI_HANDLE RootHandle;
#else
AMI_SMM_POWER_BUTTON_DISPATCH_CONTEXT DispatchContext = {PowerButtonEntry};
EFI_SMM_BASE_PROTOCOL *SmmBaseProtocol;
#endif
EFI_HANDLE Handle = NULL;
EFI_STATUS Status;
AMI_S3_SAVE_PROTOCOL *BootScriptSave;
EFI_HANDLE DummyHandle = NULL;
#if SB_PCIE_ERROR_LOG_SUPPORT
EFI_SM_ELOG_PROTOCOL *GenericElogProtocol = NULL;
AMI_SMM_SW_DISPATCH_CONTEXT SbErrorLogS3PatchContext = {SW_SMI_SB_EL_S3};
EFI_SMM_ICHN_DISPATCH_CONTEXT IchnContext;
#endif
EFI_SMM_ICHN_DISPATCH_EX_CONTEXT IchnExContext;
EFI_SMM_ICHN_DISPATCH_EX_PROTOCOL *pIchnExDispatch;
SB_SETUP_DATA *SbSetupData = NULL;
UINTN VariableSize = sizeof(SB_SETUP_DATA);
DXE_PCH_PLATFORM_POLICY_PROTOCOL *PchPlatformPolicy;
EFI_HANDLE SwHandle = NULL;
AMI_SMM_SW_DISPATCH_PROTOCOL *SwDispatch;
// AMI_SMM_SW_DISPATCH_CONTEXT SwContext;
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
EFI_SMM_SYSTEM_TABLE2 *pSmst2;
#endif
EFI_SMM_IO_TRAP_DISPATCH_PROTOCOL *PchIoTrap;
EFI_HANDLE PchIoTrapHandle;
EFI_SMM_IO_TRAP_DISPATCH_REGISTER_CONTEXT PchIoTrapContext;
//
// Locate PCH Platform Policy protocol
//
Status = pBS->LocateProtocol ( &gDxePchPlatformPolicyProtocolGuid, \
NULL, \
&PchPlatformPolicy);
if (EFI_ERROR (Status)) return Status;
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
Status = InitAmiSmmLib( ImageHandle, SystemTable );
// We are in SMM, retrieve the pointer to SMM System Table
Status = gSmmBase2->GetSmstLocation( gSmmBase2, &pSmst2);
if (EFI_ERROR(Status)) return EFI_UNSUPPORTED;
#else
Status = pBS->LocateProtocol( &gEfiSmmBaseProtocolGuid, \
NULL, \
&SmmBaseProtocol );
#endif
if (EFI_ERROR(Status)) return Status;
Status = pBS->LocateProtocol( AMI_S3_SAVE_PROTOCOL_GUID, \
NULL, \
&BootScriptSave );
Status = pBS->AllocatePool( EfiBootServicesData, \
VariableSize, \
&SbSetupData );
GetSbSetupData( pRS, SbSetupData, FALSE );
gPchWakeOnLan = (SbSetupData->PchWakeOnLan == 1) ? TRUE : FALSE;
gIsLastState = (SbSetupData->LastState == 2) ? TRUE : FALSE;
Status = pBS->FreePool( SbSetupData );
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
Status = pSmst2->SmmLocateProtocol( &gEfiSmmPowerButtonDispatch2ProtocolGuid, \
NULL, \
&PowerButton );
#else
Status = pBS->LocateProtocol(
&gEfiSmmPowerButtonDispatchProtocolGuid,
NULL,
&PowerButton
);
#endif
if (EFI_ERROR(Status)) return Status;
Status = PowerButton->Register( PowerButton,
SBPwrBtnHandler,
&DispatchContext,
&Handle );
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
Status = pSmst2->SmmLocateProtocol( &gEfiSmmSwDispatch2ProtocolGuid, \
NULL, \
&SwDispatch );
#else
Status = pBS->LocateProtocol( &gSwDispatchProtocolGuid, \
NULL, \
&SwDispatch );
#endif
if (EFI_ERROR(Status)) return Status;
Status = pBS->LocateProtocol ( &gIchnDispatchProtocolGuid, \
NULL, \
&gIchnDispatch );
if (EFI_ERROR(Status)) return Status;
#if REGISTER_ALL_TCO_SMI_IN_DUMMY //EIP104199 >>
//Please define this token if need support this function.
RegisterAllTcoSmiDummyHandler();
#endif //EIP104199 <<
#if SB_PCIE_ERROR_LOG_SUPPORT
Status = pBS->LocateProtocol( &gElogProtocolGuid,
NULL,
&GenericElogProtocol );
if (!EFI_ERROR (Status)) {
Status = SwDispatch->Register( SwDispatch, \
InitSbSmiLogicHandler, \
&SbErrorLogS3PatchContext, \
&Handle );
if (EFI_ERROR(Status)) return Status;
ASSERT_EFI_ERROR (Status);
IchnContext.Type = IchnNmi;
Status = gIchnDispatch->Register( gIchnDispatch, \
SBErrLogHandler, \
&IchnContext, \
&Handle );
ASSERT_EFI_ERROR (Status);
Status = pBS->InstallProtocolInterface( &DummyHandle, \
&gSbPcieErrorLogDispatchProtocolGuid, \
EFI_NATIVE_INTERFACE, \
&gEfiSbPcieErrorLogDispatchProtocol );
}
#endif
if (PchPlatformPolicy->LockDownConfig->GpioLockDown == PCH_DEVICE_ENABLE) {
Status = pBS->LocateProtocol( &gEfiSmmIchnExDispatchProtocolGuid, \
NULL, \
&pIchnExDispatch );
if (!EFI_ERROR(Status)) {
IchnExContext.Type = IchnExGpioUnlock;
Status = pIchnExDispatch->Register( pIchnExDispatch, \
SbIchnExGpioUnlockSmiHandler, \
&IchnExContext, \
&Handle );
}
}
if (PchPlatformPolicy->LockDownConfig->BiosLock == PCH_DEVICE_ENABLE) {
///
/// Locate the PCH IO TRAP Dispatch protocol
///
PchIoTrapHandle = NULL;
Status = pBS->LocateProtocol (&gEfiSmmIoTrapDispatchProtocolGuid, NULL, &PchIoTrap);
ASSERT_EFI_ERROR (Status);
if (!EFI_ERROR(Status)) {
///
/// Register BIOS Lock IO Trap SMI handler
///
PchIoTrapContext.Type = WriteTrap;
PchIoTrapContext.Length = 4;
PchIoTrapContext.Address = PchPlatformPolicy->LockDownConfig->PchBiosLockIoTrapAddress;
PchIoTrapContext.Context = NULL;
PchIoTrapContext.MergeDisable = FALSE;
Status = PchIoTrap->Register (
PchIoTrap,
PchBiosLockIoTrapCallback,
&PchIoTrapContext,
&PchIoTrapHandle );
if (EFI_ERROR(Status)) return Status;
if ((PchPlatformPolicy->LockDownConfig->PchBiosLockIoTrapAddress == 0) &&
(PchIoTrapContext.Address == 0)) {
TRACE((TRACE_ALWAYS, "Invalid PchIoTrapContext.Address!!!\n"));
} else {
if ((PchPlatformPolicy->LockDownConfig->PchBiosLockIoTrapAddress != 0) &&
(PchPlatformPolicy->LockDownConfig->PchBiosLockIoTrapAddress != PchIoTrapContext.Address)) {
TRACE((TRACE_ALWAYS, "Invalid PchIoTrapContext.Address!!!\n"));
} else {
PchPlatformPolicy->LockDownConfig->PchBiosLockIoTrapAddress = PchIoTrapContext.Address;
}
}
}
}
Status = pBS->InstallProtocolInterface( &DummyHandle, \
&gAmiSbSmiProtocolGuid, \
EFI_NATIVE_INTERFACE, \
NULL );
// Register Callbacks
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
Status = pSmst2->SmiHandlerRegister( SbChildDispatcher, \
NULL, \
&RootHandle );
#else
Status = SmmBaseProtocol->RegisterCallback( SmmBaseProtocol, \
ImageHandle, \
SbChildDispatcher, \
FALSE, \
FALSE );
#endif
// Update SMM Runtime Service Table
pRS->ResetSystem = gSmmResetSystem;
return Status;
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: NotInSmmFunction
//
// Description: This function is called from outside of SMM during SMM registration.
//
// Input: IN EFI_HANDLE ImageHandle
// IN EFI_SYSTEM_TABLE *SystemTable
//
// Output: EFI_STATUS
//
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
EFI_STATUS NotInSmmFunction( IN EFI_HANDLE ImageHandle, IN EFI_SYSTEM_TABLE *SystemTable)
{
UINT16 Value = 0;
#if defined PowerButton_SUPPORT && PowerButton_SUPPORT == 0
//Clear All PM Statuses
Value = IoRead16(PM_BASE_ADDRESS);
IoWrite16(PM_BASE_ADDRESS,Value);
//Enable PowerButton and Global Enable
IoWrite16(PM_BASE_ADDRESS + 0x02, BIT05 + BIT08);
#endif
return EFI_SUCCESS;
}
//<AMI_PHDR_START>
//----------------------------------------------------------------------------
//
// Procedure: InitializeSBSmm
//
// Description: Installs North Bridge SMM Child Dispatcher Handler.
//
// Input: ImageHandle - Image handle
// *SystemTable - Pointer to the system table
//
// Output: EFI_STATUS
//----------------------------------------------------------------------------
//<AMI_PHDR_END>
EFI_STATUS InitializeSBSmm (
IN EFI_HANDLE ImageHandle,
IN EFI_SYSTEM_TABLE *SystemTable )
{
EFI_STATUS Status = EFI_SUCCESS;
InitAmiLib(ImageHandle, SystemTable);
gSmmResetSystem = pRS->ResetSystem;
#if defined(PI_SPECIFICATION_VERSION)&&(PI_SPECIFICATION_VERSION>=0x0001000A)&&(CORE_COMBINED_VERSION >= 0x4028B)
Status = SystemTable->BootServices->LocateProtocol( \
&gEfiSmmBase2ProtocolGuid, \
NULL, \
&gSmmBase2 );
ASSERT_EFI_ERROR(Status);
#endif
return InitSmmHandler(ImageHandle, SystemTable, InSmmFunction, NotInSmmFunction);
}
//*************************************************************************
//*************************************************************************
//** **
//** (C)Copyright 1985-2013, American Megatrends, Inc. **
//** **
//** All Rights Reserved. **
//** **
//** 5555 Oakbrook Parkway, Suite 200, Norcross, GA 30093 **
//** **
//** Phone: (770)-246-8600 **
//** **
//*************************************************************************
//*************************************************************************
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