/* * This file is part of the coreboot project. * * Copyright (C) 2012 Advanced Micro Devices, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include "agesawrapper.h" #include "amdlib.h" #include "BiosCallOuts.h" #include "Ids.h" #include "OptionsIds.h" #include "heapManager.h" #include "SB700.h" #include #include "OEM.h" /* SMBUS0_BASE_ADDRESS */ #ifndef SB_GPIO_REG01 #define SB_GPIO_REG01 1 #endif #ifndef SB_GPIO_REG24 #define SB_GPIO_REG24 24 #endif #ifndef SB_GPIO_REG27 #define SB_GPIO_REG27 27 #endif #ifdef __PRE_RAM__ /* This define is used when selecting the appropriate socket for the SPD read * because this is a multi-socket design. */ #define LTC4305_SMBUS_ADDR (0x94) static void select_socket(UINT8 socket_id) { AMD_CONFIG_PARAMS StdHeader; UINT32 PciData32; UINT8 PciData8; PCI_ADDR PciAddress; /* Set SMBus MMIO. */ PciAddress.AddressValue = MAKE_SBDFO (0, 0, 20, 0, 0x90); PciData32 = (SMBUS0_BASE_ADDRESS & 0xFFFFFFF0) | BIT0; LibAmdPciWrite(AccessWidth32, PciAddress, &PciData32, &StdHeader); /* Enable SMBus MMIO. */ PciAddress.AddressValue = MAKE_SBDFO (0, 0, 20, 0, 0xD2); LibAmdPciRead(AccessWidth8, PciAddress, &PciData8, &StdHeader); ; PciData8 |= BIT0; LibAmdPciWrite(AccessWidth8, PciAddress, &PciData8, &StdHeader); switch (socket_id) { case 0: /* Switch onto the First CPU Socket SMBus */ writeSmbusByte(SMBUS0_BASE_ADDRESS, LTC4305_SMBUS_ADDR, 0x80, 0x03); break; case 1: /* Switch onto the Second CPU Socket SMBus */ writeSmbusByte(SMBUS0_BASE_ADDRESS, LTC4305_SMBUS_ADDR, 0x40, 0x03); break; default: /* Switch off two CPU Sockets SMBus */ writeSmbusByte(SMBUS0_BASE_ADDRESS, LTC4305_SMBUS_ADDR, 0x00, 0x03); break; } } static void restore_socket(void) { /* Switch off two CPU Sockets SMBus */ writeSmbusByte(SMBUS0_BASE_ADDRESS, LTC4305_SMBUS_ADDR, 0x00, 0x03); } #endif STATIC BIOS_CALLOUT_STRUCT BiosCallouts[] = { {AGESA_ALLOCATE_BUFFER, BiosAllocateBuffer }, {AGESA_DEALLOCATE_BUFFER, BiosDeallocateBuffer }, {AGESA_DO_RESET, BiosReset }, {AGESA_LOCATE_BUFFER, BiosLocateBuffer}, {AGESA_READ_SPD, BiosReadSpd }, {AGESA_READ_SPD_RECOVERY, BiosDefaultRet }, {AGESA_RUNFUNC_ONAP, BiosRunFuncOnAp }, {AGESA_GNB_PCIE_SLOT_RESET, BiosGnbPcieSlotReset }, {AGESA_GET_IDS_INIT_DATA, BiosGetIdsInitData }, {AGESA_HOOKBEFORE_DRAM_INIT, BiosHookBeforeDramInit }, {AGESA_HOOKBEFORE_DRAM_INIT_RECOVERY, BiosHookBeforeDramInitRecovery }, {AGESA_HOOKBEFORE_DQS_TRAINING, BiosHookBeforeDQSTraining }, {AGESA_HOOKBEFORE_EXIT_SELF_REF, BiosHookBeforeExitSelfRefresh }, }; AGESA_STATUS GetBiosCallout (UINT32 Func, UINT32 Data, VOID *ConfigPtr) { UINTN i; AGESA_STATUS CalloutStatus; UINTN CallOutCount = sizeof (BiosCallouts) / sizeof (BiosCallouts [0]); for (i = 0; i < CallOutCount; i++) { if (BiosCallouts[i].CalloutName == Func) { break; } } if(i >= CallOutCount) { return AGESA_UNSUPPORTED; } CalloutStatus = BiosCallouts[i].CalloutPtr (Func, Data, ConfigPtr); return CalloutStatus; } CONST IDS_NV_ITEM IdsData[] = { /*{ AGESA_IDS_NV_MAIN_PLL_CON, 0x1 }, { AGESA_IDS_NV_MAIN_PLL_FID_EN, 0x1 }, { AGESA_IDS_NV_MAIN_PLL_FID, 0x8 }, { AGESA_IDS_NV_CUSTOM_NB_PSTATE, }, { AGESA_IDS_NV_CUSTOM_NB_P0_DIV_CTRL, }, { AGESA_IDS_NV_CUSTOM_NB_P1_DIV_CTRL, }, { AGESA_IDS_NV_FORCE_NB_PSTATE, }, */ { 0xFFFF, 0xFFFF } }; #define NUM_IDS_ENTRIES (sizeof (IdsData) / sizeof (IDS_NV_ITEM)) AGESA_STATUS BiosGetIdsInitData (UINT32 Func, UINT32 Data, VOID *ConfigPtr) { UINTN i; IDS_NV_ITEM *IdsPtr; IdsPtr = ((IDS_CALLOUT_STRUCT *) ConfigPtr)->IdsNvPtr; if (Data == IDS_CALLOUT_INIT) { for (i = 0; i < NUM_IDS_ENTRIES; i++) { IdsPtr[i].IdsNvValue = IdsData[i].IdsNvValue; IdsPtr[i].IdsNvId = IdsData[i].IdsNvId; } } return AGESA_SUCCESS; } AGESA_STATUS BiosReadSpd (UINT32 Func, UINT32 Data, VOID *ConfigPtr) { AGESA_STATUS Status; #ifdef __PRE_RAM__ if (ConfigPtr == NULL) return AGESA_ERROR; select_socket(((AGESA_READ_SPD_PARAMS *)ConfigPtr)->SocketId); Status = agesa_ReadSPD (Func, Data, ConfigPtr); restore_socket(); #else Status = AGESA_UNSUPPORTED; #endif return Status; } /* Call the host environment interface to provide a user hook opportunity. */ AGESA_STATUS BiosHookBeforeDQSTraining (UINT32 Func, UINT32 Data, VOID *ConfigPtr) { return AGESA_SUCCESS; } /* Call the host environment interface to provide a user hook opportunity. */ AGESA_STATUS BiosHookBeforeDramInit (UINT32 Func, UINT32 Data, VOID *ConfigPtr) { AGESA_STATUS Status; UINTN FcnData; MEM_DATA_STRUCT *MemData; UINT32 AcpiMmioAddr; UINT32 GpioMmioAddr; UINT8 Data8; UINT16 Data16; FcnData = Data; MemData = ConfigPtr; Status = AGESA_SUCCESS; /* Get SB MMIO Base (AcpiMmioAddr) */ WriteIo8 (0xCD6, 0x27); Data8 = ReadIo8(0xCD7); Data16 = Data8<<8; WriteIo8 (0xCD6, 0x26); Data8 = ReadIo8(0xCD7); Data16 |= Data8; AcpiMmioAddr = (UINT32)Data16 << 16; GpioMmioAddr = AcpiMmioAddr + GPIO_BASE; Status = AGESA_SUCCESS; return Status; } /* Call the host environment interface to provide a user hook opportunity. */ AGESA_STATUS BiosHookBeforeDramInitRecovery (UINT32 Func, UINT32 Data, VOID *ConfigPtr) { return AGESA_SUCCESS; } /* Call the host environment interface to provide a user hook opportunity. */ AGESA_STATUS BiosHookBeforeExitSelfRefresh (UINT32 Func, UINT32 Data, VOID *ConfigPtr) { return AGESA_SUCCESS; } /* PCIE slot reset control */ AGESA_STATUS BiosGnbPcieSlotReset (UINT32 Func, UINT32 Data, VOID *ConfigPtr) { AGESA_STATUS Status; Status = AGESA_SUCCESS; return Status; }