src/mainboard/amd/inagua/BiosCallOuts.c - coreboot - Gitiles

 /*
  * This file is part of the coreboot project.
  *
  *
  * 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 <AGESA.h>
 #include <amdlib.h>
 #include <amdblocks/acpimmio.h>
 #include <northbridge/amd/agesa/BiosCallOuts.h>
 #include <SB800.h>
 #include <southbridge/amd/cimx/sb800/gpio_oem.h>
 #include <stdlib.h>

 static AGESA_STATUS board_BeforeDramInit (UINT32 Func, UINTN Data, VOID *ConfigPtr);
 static AGESA_STATUS board_GnbPcieSlotReset (UINT32 Func, UINTN Data, VOID *ConfigPtr);

 const BIOS_CALLOUT_STRUCT BiosCallouts[] =
 {
 	{AGESA_DO_RESET,			agesa_Reset },
 	{AGESA_READ_SPD,			agesa_ReadSpd },
 	{AGESA_READ_SPD_RECOVERY,		agesa_NoopUnsupported },
 	{AGESA_RUNFUNC_ONAP,			agesa_RunFuncOnAp },
 	{AGESA_GNB_PCIE_SLOT_RESET,		board_GnbPcieSlotReset },
 	{AGESA_HOOKBEFORE_DRAM_INIT,		board_BeforeDramInit },
 	{AGESA_HOOKBEFORE_DRAM_INIT_RECOVERY,	agesa_NoopSuccess },
 	{AGESA_HOOKBEFORE_DQS_TRAINING,		agesa_NoopSuccess },
 	{AGESA_HOOKBEFORE_EXIT_SELF_REF,	agesa_NoopSuccess },
 };
 const int BiosCalloutsLen = ARRAY_SIZE(BiosCallouts);

 /*  Call the host environment interface to provide a user hook opportunity. */
 static AGESA_STATUS board_BeforeDramInit (UINT32 Func, UINTN Data, VOID *ConfigPtr)
 {
 	AGESA_STATUS      Status;
 	UINTN             FcnData;
 	MEM_DATA_STRUCT   *MemData;
 	UINT32            AcpiMmioAddr;
 	UINT32            GpioMmioAddr;
 	UINT8             Data8;
 	UINT8             TempData8;

 	FcnData = Data;
 	MemData = ConfigPtr;

 	Status  = AGESA_SUCCESS;
 	AcpiMmioAddr = AMD_SB_ACPI_MMIO_ADDR;
 	GpioMmioAddr = AcpiMmioAddr + GPIO_BASE;

 	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG178);
 	Data8 &= ~BIT5;
 	TempData8  = Read64Mem8(GpioMmioAddr+SB_GPIO_REG178);
 	TempData8 &= 0x03;
 	TempData8 |= Data8;
 	Write64Mem8(GpioMmioAddr+SB_GPIO_REG178, TempData8);

 	Data8 |= BIT2+BIT3;
 	Data8 &= ~BIT4;
 	TempData8  = Read64Mem8(GpioMmioAddr+SB_GPIO_REG178);
 	TempData8 &= 0x23;
 	TempData8 |= Data8;
 	Write64Mem8(GpioMmioAddr+SB_GPIO_REG178, TempData8);

 	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG179);
 	Data8 &= ~BIT5;
 	TempData8  = Read64Mem8(GpioMmioAddr+SB_GPIO_REG179);
 	TempData8 &= 0x03;
 	TempData8 |= Data8;
 	Write64Mem8(GpioMmioAddr+SB_GPIO_REG179, TempData8);

 	Data8 |= BIT2+BIT3;
 	Data8 &= ~BIT4;
 	TempData8  = Read64Mem8(GpioMmioAddr+SB_GPIO_REG179);
 	TempData8 &= 0x23;
 	TempData8 |= Data8;
 	Write64Mem8(GpioMmioAddr+SB_GPIO_REG179, TempData8);

 	switch (MemData->ParameterListPtr->DDR3Voltage) {
 	case VOLT1_35:
 		Data8 =  Read64Mem8(GpioMmioAddr+SB_GPIO_REG178);
 		Data8 &= ~(UINT8)BIT6;
 		Write64Mem8(GpioMmioAddr+SB_GPIO_REG178, Data8);
 		Data8 =  Read64Mem8(GpioMmioAddr+SB_GPIO_REG179);
 		Data8 |= (UINT8)BIT6;
 		Write64Mem8(GpioMmioAddr+SB_GPIO_REG179, Data8);
 		break;
 	case VOLT1_25:
 		Data8 =  Read64Mem8(GpioMmioAddr+SB_GPIO_REG178);
 		Data8 &= ~(UINT8)BIT6;
 		Write64Mem8(GpioMmioAddr+SB_GPIO_REG178, Data8);
 		Data8 =  Read64Mem8(GpioMmioAddr+SB_GPIO_REG179);
 		Data8 &= ~(UINT8)BIT6;
 		Write64Mem8(GpioMmioAddr+SB_GPIO_REG179, Data8);
 		break;
 	case VOLT1_5:
 	default:
 		Data8 =  Read64Mem8(GpioMmioAddr+SB_GPIO_REG178);
 		Data8 |= (UINT8)BIT6;
 		Write64Mem8(GpioMmioAddr+SB_GPIO_REG178, Data8);
 		Data8 =  Read64Mem8(GpioMmioAddr+SB_GPIO_REG179);
 		Data8 &= ~(UINT8)BIT6;
 		Write64Mem8(GpioMmioAddr+SB_GPIO_REG179, Data8);
 	}
 	return Status;
 }

 /* PCIE slot reset control */
 static AGESA_STATUS board_GnbPcieSlotReset (UINT32 Func, UINTN Data, VOID *ConfigPtr)
 {
 	AGESA_STATUS Status;
 	UINTN                 FcnData;
 	PCIe_SLOT_RESET_INFO  *ResetInfo;

 	UINT32  GpioMmioAddr;
 	UINT32  AcpiMmioAddr;
 	UINT8   Data8;

 	FcnData   = Data;
 	ResetInfo = ConfigPtr;
 	AcpiMmioAddr = AMD_SB_ACPI_MMIO_ADDR;
 	GpioMmioAddr = AcpiMmioAddr + GPIO_BASE;
 	Status = AGESA_UNSUPPORTED;
 	switch (ResetInfo->ResetId) {
 	case 4:
 		switch (ResetInfo->ResetControl) {
 		case AssertSlotReset:
 			Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG21);
 			Data8 &= ~(UINT8)BIT6;
 			/* MXM_GPIO0. GPIO21 */
 			Write64Mem8(GpioMmioAddr+SB_GPIO_REG21, Data8);
 			Status = AGESA_SUCCESS;
 			break;
 		case DeassertSlotReset:
 			Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG21);
 			Data8 |= BIT6;
 			/* MXM_GPIO0. GPIO21 */
 			Write64Mem8(GpioMmioAddr+SB_GPIO_REG21, Data8);
 			Status = AGESA_SUCCESS;
 			break;
 		}
 		break;
 	case 6:
 		switch (ResetInfo->ResetControl) {
 		case AssertSlotReset:
 			Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG25);
 			Data8 &= ~(UINT8)BIT6;
 			/* PCIE_RST#_LAN, GPIO25 */
 			Write64Mem8(GpioMmioAddr+SB_GPIO_REG25, Data8);
 			Status = AGESA_SUCCESS;
 			break;
 		case DeassertSlotReset:
 			Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG25);
 			Data8 |= BIT6;
 			/* PCIE_RST#_LAN, GPIO25 */
 			Write64Mem8(GpioMmioAddr+SB_GPIO_REG25, Data8);
 			Status = AGESA_SUCCESS;
 			break;
 		}
 		break;
 	case 7:
 		switch (ResetInfo->ResetControl) {
 		case AssertSlotReset:
 			Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG02);
 			Data8 &= ~(UINT8)BIT6;
 			/* MPCIE_RST0, GPIO02 */
 			Write64Mem8(GpioMmioAddr+SB_GPIO_REG02, Data8);
 			Status = AGESA_SUCCESS;
 			break;
 		case DeassertSlotReset:
 			Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG02);
 			Data8 |= BIT6;
 			/* MPCIE_RST0, GPIO02 */
 			Write64Mem8(GpioMmioAddr+SB_GPIO_REG02, Data8);
 			Status = AGESA_SUCCESS;
 			break;
 		}
 		break;
 	}
 	return Status;
 }
	/*
	* This file is part of the coreboot project.
	*
	*
	* 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 <AGESA.h>
	#include <amdlib.h>
	#include <amdblocks/acpimmio.h>
	#include <northbridge/amd/agesa/BiosCallOuts.h>
	#include <SB800.h>
	#include <southbridge/amd/cimx/sb800/gpio_oem.h>
	#include <stdlib.h>

	static AGESA_STATUS board_BeforeDramInit (UINT32 Func, UINTN Data, VOID *ConfigPtr);
	static AGESA_STATUS board_GnbPcieSlotReset (UINT32 Func, UINTN Data, VOID *ConfigPtr);

	const BIOS_CALLOUT_STRUCT BiosCallouts[] =
	{
	{AGESA_DO_RESET, agesa_Reset },
	{AGESA_READ_SPD, agesa_ReadSpd },
	{AGESA_READ_SPD_RECOVERY, agesa_NoopUnsupported },
	{AGESA_RUNFUNC_ONAP, agesa_RunFuncOnAp },
	{AGESA_GNB_PCIE_SLOT_RESET, board_GnbPcieSlotReset },
	{AGESA_HOOKBEFORE_DRAM_INIT, board_BeforeDramInit },
	{AGESA_HOOKBEFORE_DRAM_INIT_RECOVERY, agesa_NoopSuccess },
	{AGESA_HOOKBEFORE_DQS_TRAINING, agesa_NoopSuccess },
	{AGESA_HOOKBEFORE_EXIT_SELF_REF, agesa_NoopSuccess },
	};
	const int BiosCalloutsLen = ARRAY_SIZE(BiosCallouts);

	/* Call the host environment interface to provide a user hook opportunity. */
	static AGESA_STATUS board_BeforeDramInit (UINT32 Func, UINTN Data, VOID *ConfigPtr)
	{
	AGESA_STATUS Status;
	UINTN FcnData;
	MEM_DATA_STRUCT *MemData;
	UINT32 AcpiMmioAddr;
	UINT32 GpioMmioAddr;
	UINT8 Data8;
	UINT8 TempData8;

	FcnData = Data;
	MemData = ConfigPtr;

	Status = AGESA_SUCCESS;
	AcpiMmioAddr = AMD_SB_ACPI_MMIO_ADDR;
	GpioMmioAddr = AcpiMmioAddr + GPIO_BASE;

	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG178);
	Data8 &= ~BIT5;
	TempData8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG178);
	TempData8 &= 0x03;
	TempData8 \|= Data8;
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG178, TempData8);

	Data8 \|= BIT2+BIT3;
	Data8 &= ~BIT4;
	TempData8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG178);
	TempData8 &= 0x23;
	TempData8 \|= Data8;
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG178, TempData8);

	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG179);
	Data8 &= ~BIT5;
	TempData8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG179);
	TempData8 &= 0x03;
	TempData8 \|= Data8;
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG179, TempData8);

	Data8 \|= BIT2+BIT3;
	Data8 &= ~BIT4;
	TempData8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG179);
	TempData8 &= 0x23;
	TempData8 \|= Data8;
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG179, TempData8);

	switch (MemData->ParameterListPtr->DDR3Voltage) {
	case VOLT1_35:
	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG178);
	Data8 &= ~(UINT8)BIT6;
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG178, Data8);
	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG179);
	Data8 \|= (UINT8)BIT6;
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG179, Data8);
	break;
	case VOLT1_25:
	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG178);
	Data8 &= ~(UINT8)BIT6;
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG178, Data8);
	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG179);
	Data8 &= ~(UINT8)BIT6;
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG179, Data8);
	break;
	case VOLT1_5:
	default:
	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG178);
	Data8 \|= (UINT8)BIT6;
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG178, Data8);
	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG179);
	Data8 &= ~(UINT8)BIT6;
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG179, Data8);
	}
	return Status;
	}

	/* PCIE slot reset control */
	static AGESA_STATUS board_GnbPcieSlotReset (UINT32 Func, UINTN Data, VOID *ConfigPtr)
	{
	AGESA_STATUS Status;
	UINTN FcnData;
	PCIe_SLOT_RESET_INFO *ResetInfo;

	UINT32 GpioMmioAddr;
	UINT32 AcpiMmioAddr;
	UINT8 Data8;

	FcnData = Data;
	ResetInfo = ConfigPtr;
	AcpiMmioAddr = AMD_SB_ACPI_MMIO_ADDR;
	GpioMmioAddr = AcpiMmioAddr + GPIO_BASE;
	Status = AGESA_UNSUPPORTED;
	switch (ResetInfo->ResetId) {
	case 4:
	switch (ResetInfo->ResetControl) {
	case AssertSlotReset:
	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG21);
	Data8 &= ~(UINT8)BIT6;
	/* MXM_GPIO0. GPIO21 */
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG21, Data8);
	Status = AGESA_SUCCESS;
	break;
	case DeassertSlotReset:
	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG21);
	Data8 \|= BIT6;
	/* MXM_GPIO0. GPIO21 */
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG21, Data8);
	Status = AGESA_SUCCESS;
	break;
	}
	break;
	case 6:
	switch (ResetInfo->ResetControl) {
	case AssertSlotReset:
	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG25);
	Data8 &= ~(UINT8)BIT6;
	/* PCIE_RST#_LAN, GPIO25 */
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG25, Data8);
	Status = AGESA_SUCCESS;
	break;
	case DeassertSlotReset:
	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG25);
	Data8 \|= BIT6;
	/* PCIE_RST#_LAN, GPIO25 */
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG25, Data8);
	Status = AGESA_SUCCESS;
	break;
	}
	break;
	case 7:
	switch (ResetInfo->ResetControl) {
	case AssertSlotReset:
	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG02);
	Data8 &= ~(UINT8)BIT6;
	/* MPCIE_RST0, GPIO02 */
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG02, Data8);
	Status = AGESA_SUCCESS;
	break;
	case DeassertSlotReset:
	Data8 = Read64Mem8(GpioMmioAddr+SB_GPIO_REG02);
	Data8 \|= BIT6;
	/* MPCIE_RST0, GPIO02 */
	Write64Mem8(GpioMmioAddr+SB_GPIO_REG02, Data8);
	Status = AGESA_SUCCESS;
	break;
	}
	break;
	}
	return Status;
	}