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path: root/src/mainboard/asrock/e350m1/BiosCallOuts.c
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/*
 * This file is part of the coreboot project.
 *
 * Copyright (C) 2011 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 "heapManager.h"
#include "SB800.h"
#include <northbridge/amd/agesa/family14/dimmSpd.h>

CONST 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_HOOKBEFORE_DQS_TRAINING,
   BiosHookBeforeDQSTraining
  },

  {AGESA_HOOKBEFORE_DRAM_INIT,
   BiosHookBeforeDramInit
  },
  {AGESA_HOOKBEFORE_EXIT_SELF_REF,
   BiosHookBeforeExitSelfRefresh
  },
  {AGESA_GNB_PCIE_SLOT_RESET,
   BiosGnbPcieSlotReset
  },
};

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;
}

AGESA_STATUS BiosAllocateBuffer (UINT32 Func, UINT32 Data, VOID *ConfigPtr)
{
  UINT32              AvailableHeapSize;
  UINT8               *BiosHeapBaseAddr;
  UINT32              CurrNodeOffset;
  UINT32              PrevNodeOffset;
  UINT32              FreedNodeOffset;
  UINT32              BestFitNodeOffset;
  UINT32              BestFitPrevNodeOffset;
  UINT32              NextFreeOffset;
  BIOS_BUFFER_NODE   *CurrNodePtr;
  BIOS_BUFFER_NODE   *FreedNodePtr;
  BIOS_BUFFER_NODE   *BestFitNodePtr;
  BIOS_BUFFER_NODE   *BestFitPrevNodePtr;
  BIOS_BUFFER_NODE   *NextFreePtr;
  BIOS_HEAP_MANAGER  *BiosHeapBasePtr;
  AGESA_BUFFER_PARAMS *AllocParams;

  AllocParams = ((AGESA_BUFFER_PARAMS *) ConfigPtr);
  AllocParams->BufferPointer = NULL;

  AvailableHeapSize = BIOS_HEAP_SIZE - sizeof (BIOS_HEAP_MANAGER);
  BiosHeapBaseAddr = (UINT8 *) BIOS_HEAP_START_ADDRESS;
  BiosHeapBasePtr = (BIOS_HEAP_MANAGER *) BIOS_HEAP_START_ADDRESS;

  if (BiosHeapBasePtr->StartOfAllocatedNodes == 0) {
    /* First allocation */
    CurrNodeOffset = sizeof (BIOS_HEAP_MANAGER);
    CurrNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + CurrNodeOffset);
    CurrNodePtr->BufferHandle = AllocParams->BufferHandle;
    CurrNodePtr->BufferSize = AllocParams->BufferLength;
    CurrNodePtr->NextNodeOffset = 0;
    AllocParams->BufferPointer = (UINT8 *) CurrNodePtr + sizeof (BIOS_BUFFER_NODE);

    /* Update the remaining free space */
    FreedNodeOffset = CurrNodeOffset + CurrNodePtr->BufferSize + sizeof (BIOS_BUFFER_NODE);
    FreedNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + FreedNodeOffset);
    FreedNodePtr->BufferSize = AvailableHeapSize - sizeof (BIOS_BUFFER_NODE) - CurrNodePtr->BufferSize;
    FreedNodePtr->NextNodeOffset = 0;

    /* Update the offsets for Allocated and Freed nodes */
    BiosHeapBasePtr->StartOfAllocatedNodes = CurrNodeOffset;
    BiosHeapBasePtr->StartOfFreedNodes = FreedNodeOffset;
  } else {
    /* Find out whether BufferHandle has been allocated on the heap. */
    /* If it has, return AGESA_BOUNDS_CHK */
    CurrNodeOffset = BiosHeapBasePtr->StartOfAllocatedNodes;
    CurrNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + CurrNodeOffset);

    while (CurrNodeOffset != 0) {
      CurrNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + CurrNodeOffset);
      if (CurrNodePtr->BufferHandle == AllocParams->BufferHandle) {
        return AGESA_BOUNDS_CHK;
      }
      CurrNodeOffset = CurrNodePtr->NextNodeOffset;
      /* If BufferHandle has not been allocated on the heap, CurrNodePtr here points
       to the end of the allocated nodes list.
      */

    }
    /* Find the node that best fits the requested buffer size */
    FreedNodeOffset = BiosHeapBasePtr->StartOfFreedNodes;
    PrevNodeOffset = FreedNodeOffset;
    BestFitNodeOffset = 0;
    BestFitPrevNodeOffset = 0;
    while (FreedNodeOffset != 0) {
      FreedNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + FreedNodeOffset);
      if (FreedNodePtr->BufferSize >= (AllocParams->BufferLength + sizeof (BIOS_BUFFER_NODE))) {
        if (BestFitNodeOffset == 0) {
          /* First node that fits the requested buffer size */
          BestFitNodeOffset = FreedNodeOffset;
          BestFitPrevNodeOffset = PrevNodeOffset;
        } else {
          /* Find out whether current node is a better fit than the previous nodes */
          BestFitNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + BestFitNodeOffset);
          if (BestFitNodePtr->BufferSize > FreedNodePtr->BufferSize) {
            BestFitNodeOffset = FreedNodeOffset;
            BestFitPrevNodeOffset = PrevNodeOffset;
          }
        }
      }
      PrevNodeOffset = FreedNodeOffset;
      FreedNodeOffset = FreedNodePtr->NextNodeOffset;
    } /* end of while loop */


    if (BestFitNodeOffset == 0) {
      /* If we could not find a node that fits the requested buffer */
      /* size, return AGESA_BOUNDS_CHK */
      return AGESA_BOUNDS_CHK;
    } else {
      BestFitNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + BestFitNodeOffset);
      BestFitPrevNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + BestFitPrevNodeOffset);

      /* If BestFitNode is larger than the requested buffer, fragment the node further */
      if (BestFitNodePtr->BufferSize > (AllocParams->BufferLength + sizeof (BIOS_BUFFER_NODE))) {
        NextFreeOffset = BestFitNodeOffset + AllocParams->BufferLength + sizeof (BIOS_BUFFER_NODE);

        NextFreePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + NextFreeOffset);
        NextFreePtr->BufferSize = BestFitNodePtr->BufferSize - (AllocParams->BufferLength + sizeof (BIOS_BUFFER_NODE));
        NextFreePtr->NextNodeOffset = BestFitNodePtr->NextNodeOffset;
      } else {
        /* Otherwise, next free node is NextNodeOffset of BestFitNode */
        NextFreeOffset = BestFitNodePtr->NextNodeOffset;
      }

      /* If BestFitNode is the first buffer in the list, then update
         StartOfFreedNodes to reflect the new free node
      */
      if (BestFitNodeOffset == BiosHeapBasePtr->StartOfFreedNodes) {
        BiosHeapBasePtr->StartOfFreedNodes = NextFreeOffset;
      } else {
        BestFitPrevNodePtr->NextNodeOffset = NextFreeOffset;
      }

      /* Add BestFitNode to the list of Allocated nodes */
      CurrNodePtr->NextNodeOffset = BestFitNodeOffset;
      BestFitNodePtr->BufferSize = AllocParams->BufferLength;
      BestFitNodePtr->BufferHandle = AllocParams->BufferHandle;
      BestFitNodePtr->NextNodeOffset = 0;

      /* Remove BestFitNode from list of Freed nodes */
      AllocParams->BufferPointer = (UINT8 *) BestFitNodePtr + sizeof (BIOS_BUFFER_NODE);
    }
  }

  return AGESA_SUCCESS;
}

AGESA_STATUS BiosDeallocateBuffer (UINT32 Func, UINT32 Data, VOID *ConfigPtr)
{

  UINT8               *BiosHeapBaseAddr;
  UINT32              AllocNodeOffset;
  UINT32              PrevNodeOffset;
  UINT32              NextNodeOffset;
  UINT32              FreedNodeOffset;
  UINT32              EndNodeOffset;
  BIOS_BUFFER_NODE   *AllocNodePtr;
  BIOS_BUFFER_NODE   *PrevNodePtr;
  BIOS_BUFFER_NODE   *FreedNodePtr;
  BIOS_BUFFER_NODE   *NextNodePtr;
  BIOS_HEAP_MANAGER  *BiosHeapBasePtr;
  AGESA_BUFFER_PARAMS *AllocParams;

  BiosHeapBaseAddr = (UINT8 *) BIOS_HEAP_START_ADDRESS;
  BiosHeapBasePtr = (BIOS_HEAP_MANAGER *) BIOS_HEAP_START_ADDRESS;

  AllocParams = (AGESA_BUFFER_PARAMS *) ConfigPtr;

  /* Find target node to deallocate in list of allocated nodes.
     Return AGESA_BOUNDS_CHK if the BufferHandle is not found
  */
  AllocNodeOffset = BiosHeapBasePtr->StartOfAllocatedNodes;
  AllocNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + AllocNodeOffset);
  PrevNodeOffset = AllocNodeOffset;

  while (AllocNodePtr->BufferHandle !=  AllocParams->BufferHandle) {
    if (AllocNodePtr->NextNodeOffset == 0) {
      return AGESA_BOUNDS_CHK;
    }
    PrevNodeOffset = AllocNodeOffset;
    AllocNodeOffset = AllocNodePtr->NextNodeOffset;
    AllocNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + AllocNodeOffset);
  }

  /* Remove target node from list of allocated nodes */
  PrevNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + PrevNodeOffset);
  PrevNodePtr->NextNodeOffset = AllocNodePtr->NextNodeOffset;

  /* Zero out the buffer, and clear the BufferHandle */
  LibAmdMemFill ((UINT8 *)AllocNodePtr + sizeof (BIOS_BUFFER_NODE), 0, AllocNodePtr->BufferSize, &(AllocParams->StdHeader));
  AllocNodePtr->BufferHandle = 0;
  AllocNodePtr->BufferSize += sizeof (BIOS_BUFFER_NODE);

  /* Add deallocated node in order to the list of freed nodes */
  FreedNodeOffset = BiosHeapBasePtr->StartOfFreedNodes;
  FreedNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + FreedNodeOffset);

  EndNodeOffset = AllocNodeOffset + AllocNodePtr->BufferSize;

  if (AllocNodeOffset < FreedNodeOffset) {
    /* Add to the start of the freed list */
    if (EndNodeOffset == FreedNodeOffset) {
      /* If the freed node is adjacent to the first node in the list, concatenate both nodes */
      AllocNodePtr->BufferSize += FreedNodePtr->BufferSize;
      AllocNodePtr->NextNodeOffset = FreedNodePtr->NextNodeOffset;

      /* Clear the BufferSize and NextNodeOffset of the previous first node */
      FreedNodePtr->BufferSize = 0;
      FreedNodePtr->NextNodeOffset = 0;

    } else {
      /* Otherwise, add freed node to the start of the list
         Update NextNodeOffset and BufferSize to include the
         size of BIOS_BUFFER_NODE
      */
      AllocNodePtr->NextNodeOffset = FreedNodeOffset;
    }
    /* Update StartOfFreedNodes to the new first node */
    BiosHeapBasePtr->StartOfFreedNodes = AllocNodeOffset;
  } else {
    /* Traverse list of freed nodes to find where the deallocated node
       should be place
    */
    NextNodeOffset = FreedNodeOffset;
    NextNodePtr = FreedNodePtr;
    while (AllocNodeOffset > NextNodeOffset) {
      PrevNodeOffset = NextNodeOffset;
      if (NextNodePtr->NextNodeOffset == 0) {
        break;
      }
      NextNodeOffset = NextNodePtr->NextNodeOffset;
      NextNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + NextNodeOffset);
    }

    /* If deallocated node is adjacent to the next node,
       concatenate both nodes
    */
    if (NextNodeOffset == EndNodeOffset) {
      NextNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + NextNodeOffset);
      AllocNodePtr->BufferSize += NextNodePtr->BufferSize;
      AllocNodePtr->NextNodeOffset = NextNodePtr->NextNodeOffset;

      NextNodePtr->BufferSize = 0;
      NextNodePtr->NextNodeOffset = 0;
    } else {
      /*AllocNodePtr->NextNodeOffset = FreedNodePtr->NextNodeOffset; */
      AllocNodePtr->NextNodeOffset = NextNodeOffset;
    }
    /* If deallocated node is adjacent to the previous node,
       concatenate both nodes
    */
    PrevNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + PrevNodeOffset);
    EndNodeOffset = PrevNodeOffset + PrevNodePtr->BufferSize;
    if (AllocNodeOffset == EndNodeOffset) {
      PrevNodePtr->NextNodeOffset = AllocNodePtr->NextNodeOffset;
      PrevNodePtr->BufferSize += AllocNodePtr->BufferSize;

      AllocNodePtr->BufferSize = 0;
      AllocNodePtr->NextNodeOffset = 0;
    } else {
      PrevNodePtr->NextNodeOffset = AllocNodeOffset;
    }
  }
  return AGESA_SUCCESS;
}

AGESA_STATUS BiosLocateBuffer (UINT32 Func, UINT32 Data, VOID *ConfigPtr)
{
  UINT32              AllocNodeOffset;
  UINT8               *BiosHeapBaseAddr;
  BIOS_BUFFER_NODE   *AllocNodePtr;
  BIOS_HEAP_MANAGER  *BiosHeapBasePtr;
  AGESA_BUFFER_PARAMS *AllocParams;

  AllocParams = (AGESA_BUFFER_PARAMS *) ConfigPtr;

  BiosHeapBaseAddr = (UINT8 *) BIOS_HEAP_START_ADDRESS;
  BiosHeapBasePtr = (BIOS_HEAP_MANAGER *) BIOS_HEAP_START_ADDRESS;

  AllocNodeOffset = BiosHeapBasePtr->StartOfAllocatedNodes;
  AllocNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + AllocNodeOffset);

  while (AllocParams->BufferHandle != AllocNodePtr->BufferHandle) {
    if (AllocNodePtr->NextNodeOffset == 0) {
      AllocParams->BufferPointer = NULL;
      AllocParams->BufferLength = 0;
      return AGESA_BOUNDS_CHK;
    } else {
      AllocNodeOffset = AllocNodePtr->NextNodeOffset;
      AllocNodePtr = (BIOS_BUFFER_NODE *) (BiosHeapBaseAddr + AllocNodeOffset);
    }
  }

  AllocParams->BufferPointer = (UINT8 *) ((UINT8 *) AllocNodePtr + sizeof (BIOS_BUFFER_NODE));
  AllocParams->BufferLength = AllocNodePtr->BufferSize;

  return AGESA_SUCCESS;

}

AGESA_STATUS BiosRunFuncOnAp (UINT32 Func, UINT32 Data, VOID *ConfigPtr)
{
  AGESA_STATUS        Status;

  Status = agesawrapper_amdlaterunaptask (Func, Data, ConfigPtr);
  return Status;
}

AGESA_STATUS BiosReset (UINT32 Func, UINT32 Data, VOID *ConfigPtr)
{
  AGESA_STATUS        Status;
  UINT8                 Value;
  UINTN               ResetType;
  AMD_CONFIG_PARAMS   *StdHeader;

  ResetType = Data;
  StdHeader = ConfigPtr;

  //
  // Perform the RESET based upon the ResetType. In case of
  // WARM_RESET_WHENVER and COLD_RESET_WHENEVER, the request will go to
  // AmdResetManager. During the critical condition, where reset is required
  // immediately, the reset will be invoked directly by writing 0x04 to port
  // 0xCF9 (Reset Port).
  //
  switch (ResetType) {
  case WARM_RESET_WHENEVER:
  case COLD_RESET_WHENEVER:
    break;

  case WARM_RESET_IMMEDIATELY:
  case COLD_RESET_IMMEDIATELY:
      Value = 0x06;
      LibAmdIoWrite (AccessWidth8, 0xCf9, &Value, StdHeader);
    break;

  default:
    break;
  }

  Status = 0;
  return Status;
}

AGESA_STATUS BiosReadSpd (UINT32 Func, UINT32 Data, VOID *ConfigPtr)
{
  AGESA_STATUS Status;
#ifdef __PRE_RAM__
  Status = agesa_ReadSPD (Func, Data, ConfigPtr);
#else
  Status = AGESA_UNSUPPORTED;
#endif

  return Status;
}

AGESA_STATUS BiosDefaultRet (UINT32 Func, UINT32 Data, VOID *ConfigPtr)
{
  return AGESA_UNSUPPORTED;
}
/*  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;
  UINT8             TempData8;

  FcnData = Data;
  MemData = ConfigPtr;

  Status  = AGESA_SUCCESS;
  /* Get SB800 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;

  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);
  }
  // disable memory clear for boot time reduction
  MemData->ParameterListPtr->EnableMemClr = FALSE;
  return Status;
}
/*  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)
{
  return AGESA_UNSUPPORTED;
}