[mirror_edk2.git] / IntelFspPkg / Library / BaseCacheLib / CacheLib.c

/** @file\r
\r
  Copyright (c) 2014, Intel Corporation. All rights reserved.<BR>\r
  This program and the accompanying materials\r
  are licensed and made available under the terms and conditions of the BSD License\r
  which accompanies this distribution.  The full text of the license may be found at\r
  http://opensource.org/licenses/bsd-license.php.\r
\r
  THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,\r
  WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.\r
\r
**/\r
\r
#include <Uefi.h>\r
#include <Library/BaseLib.h>\r
#include <Library/CacheLib.h>\r
#include <Library/CacheAsRamLib.h>\r
#include "CacheLibInternal.h"\r
\r
/**\r
  Calculate the maximum value which is a power of 2, but less the Input.\r
\r
  @param[in]  Input        The number to pass in.\r
  @return The maximum value which is align to power of 2 and less the Input\r
**/\r
UINT32\r
SetPower2 (\r
  IN  UINT32                    Input\r
  );\r
\r
/**\r
  Search the memory cache type for specific memory from MTRR.\r
\r
  @param[in]  MemoryAddress         the address of target memory\r
  @param[in]  MemoryLength          the length of target memory\r
  @param[in]  ValidMtrrAddressMask  the MTRR address mask\r
  @param[out] UsedMsrNum            the used MSR number\r
  @param[out] UsedMemoryCacheType   the cache type for the target memory\r
\r
  @retval EFI_SUCCESS    The memory is found in MTRR and cache type is returned\r
  @retval EFI_NOT_FOUND  The memory is not found in MTRR\r
\r
**/\r
EFI_STATUS\r
SearchForExactMtrr (\r
  IN  EFI_PHYSICAL_ADDRESS      MemoryAddress,\r
  IN  UINT64                    MemoryLength,\r
  IN  UINT64                    ValidMtrrAddressMask,\r
  OUT UINT32                    *UsedMsrNum,\r
  OUT EFI_MEMORY_CACHE_TYPE     *MemoryCacheType\r
  );\r
\r
/**\r
  Check if CacheType match current default setting.\r
\r
  @param[in] MemoryCacheType  input cache type to be checked.\r
\r
  @retval TRUE MemoryCacheType is default MTRR setting.\r
  @retval TRUE MemoryCacheType is NOT default MTRR setting.\r
**/\r
BOOLEAN\r
IsDefaultType (\r
  IN  EFI_MEMORY_CACHE_TYPE     MemoryCacheType\r
  );\r
\r
/**\r
  Return MTRR alignment requirement for base address and size.\r
\r
  @param[in]  BaseAddress     Base address.\r
  @param[in]  Size            Size.\r
\r
  @retval Zero      Alligned.\r
  @retval Non-Zero  Not alligned.\r
\r
**/\r
UINT32\r
CheckMtrrAlignment (\r
  IN  UINT64                    BaseAddress,\r
  IN  UINT64                    Size\r
  );\r
\r
typedef struct {\r
  UINT32    Msr;\r
  UINT32    BaseAddress;\r
  UINT32    Length;\r
} EFI_FIXED_MTRR;\r
\r
EFI_FIXED_MTRR mFixedMtrrTable[] = {\r
  { EFI_MSR_IA32_MTRR_FIX64K_00000, 0,       0x10000},\r
  { EFI_MSR_IA32_MTRR_FIX16K_80000, 0x80000, 0x4000},\r
  { EFI_MSR_IA32_MTRR_FIX16K_A0000, 0xA0000, 0x4000},\r
  { EFI_MSR_IA32_MTRR_FIX4K_C0000,  0xC0000, 0x1000},\r
  { EFI_MSR_IA32_MTRR_FIX4K_C8000,  0xC8000, 0x1000},\r
  { EFI_MSR_IA32_MTRR_FIX4K_D0000,  0xD0000, 0x1000},\r
  { EFI_MSR_IA32_MTRR_FIX4K_D8000,  0xD8000, 0x1000},\r
  { EFI_MSR_IA32_MTRR_FIX4K_E0000,  0xE0000, 0x1000},\r
  { EFI_MSR_IA32_MTRR_FIX4K_E8000,  0xE8000, 0x1000},\r
  { EFI_MSR_IA32_MTRR_FIX4K_F0000,  0xF0000, 0x1000},\r
  { EFI_MSR_IA32_MTRR_FIX4K_F8000,  0xF8000, 0x1000}\r
};\r
\r
/**\r
  Given the input, check if the number of MTRR is lesser.\r
  if positive or subtractive.\r
\r
  @param[in]  Input   Length of Memory to program MTRR.\r
\r
  @retval  Zero      do positive.\r
  @retval  Non-Zero  do subtractive.\r
\r
**/\r
INT8\r
CheckDirection (\r
  IN  UINT64                    Input\r
  )\r
{\r
  return 0;\r
}\r
\r
/**\r
  Disable cache and its mtrr.\r
\r
  @param[out]  OldMtrr To return the Old MTRR value\r
\r
**/\r
VOID\r
EfiDisableCacheMtrr (\r
  OUT UINT64                   *OldMtrr\r
  )\r
{\r
  UINT64  TempQword;\r
\r
  //\r
  // Disable Cache MTRR\r
  //\r
  *OldMtrr = AsmReadMsr64(EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE);\r
  TempQword = (*OldMtrr) & ~B_EFI_MSR_GLOBAL_MTRR_ENABLE & ~B_EFI_MSR_FIXED_MTRR_ENABLE;\r
  AsmWriteMsr64(EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE, TempQword);\r
  AsmDisableCache ();\r
}\r
\r
/**\r
  Recover cache MTRR.\r
\r
  @param[in] EnableMtrr Whether to enable the MTRR\r
  @param[in] OldMtrr    The saved old MTRR value to restore when not to enable the MTRR\r
\r
**/\r
VOID\r
EfiRecoverCacheMtrr (\r
  IN BOOLEAN                  EnableMtrr,\r
  IN UINT64                   OldMtrr\r
  )\r
{\r
  UINT64  TempQword;\r
\r
  //\r
  // Enable Cache MTRR\r
  //\r
  if (EnableMtrr) {\r
    TempQword = AsmReadMsr64(EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE);\r
    TempQword |= (B_EFI_MSR_GLOBAL_MTRR_ENABLE | B_EFI_MSR_FIXED_MTRR_ENABLE);\r
  } else {\r
    TempQword = OldMtrr;\r
  }\r
\r
  AsmWriteMsr64 (EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE, TempQword);\r
\r
  AsmEnableCache ();\r
}\r
\r
/**\r
  Programming MTRR according to Memory address, length, and type.\r
\r
  @param[in] MtrrNumber           the variable MTRR index number\r
  @param[in] MemoryAddress        the address of target memory\r
  @param[in] MemoryLength         the length of target memory\r
  @param[in] MemoryCacheType      the cache type of target memory\r
  @param[in] ValidMtrrAddressMask the MTRR address mask\r
\r
**/\r
VOID\r
EfiProgramMtrr (\r
  IN  UINTN                     MtrrNumber,\r
  IN  EFI_PHYSICAL_ADDRESS      MemoryAddress,\r
  IN  UINT64                    MemoryLength,\r
  IN  EFI_MEMORY_CACHE_TYPE     MemoryCacheType,\r
  IN  UINT64                    ValidMtrrAddressMask\r
  )\r
{\r
  UINT64                        TempQword;\r
  UINT64                        OldMtrr;\r
\r
  if (MemoryLength == 0) {\r
    return;\r
  }\r
\r
  EfiDisableCacheMtrr (&OldMtrr);\r
\r
  //\r
  // MTRR Physical Base\r
  //\r
  TempQword = (MemoryAddress & ValidMtrrAddressMask) | MemoryCacheType;\r
  AsmWriteMsr64 (MtrrNumber, TempQword);\r
\r
  //\r
  // MTRR Physical Mask\r
  //\r
  TempQword = ~(MemoryLength - 1);\r
  AsmWriteMsr64 (MtrrNumber + 1, (TempQword & ValidMtrrAddressMask) | B_EFI_MSR_CACHE_MTRR_VALID);\r
\r
  EfiRecoverCacheMtrr (TRUE, OldMtrr);\r
}\r
\r
/**\r
  Calculate the maximum value which is a power of 2, but less the MemoryLength.\r
\r
  @param[in]  MemoryAddress       Memory address.\r
  @param[in]  MemoryLength        The number to pass in.\r
\r
  @return The maximum value which is align to power of 2 and less the MemoryLength\r
\r
**/\r
UINT64\r
Power2MaxMemory (\r
  IN UINT64                 MemoryAddress,\r
  IN UINT64                 MemoryLength\r
  )\r
{\r
  UINT64                    Result;\r
\r
  if (MemoryLength == 0) {\r
    return EFI_INVALID_PARAMETER;\r
  }\r
\r
  //\r
  // Compute inital power of 2 size to return\r
  //\r
  if (RShiftU64(MemoryLength, 32)) {\r
    Result = LShiftU64((UINT64)SetPower2((UINT32) RShiftU64(MemoryLength, 32)), 32);\r
  } else {\r
    Result = (UINT64)SetPower2((UINT32)MemoryLength);\r
  }\r
\r
  //\r
  // Special case base of 0 as all ranges are valid\r
  //\r
  if (MemoryAddress == 0) {\r
    return Result;\r
  }\r
\r
  //\r
  // Loop till a value that can be mapped to this base address is found\r
  //\r
  while (CheckMtrrAlignment (MemoryAddress, Result) != 0) {\r
    //\r
    // Need to try the next smaller power of 2\r
    //\r
    Result = RShiftU64 (Result, 1);\r
  }\r
\r
  return Result;\r
}\r
\r
/**\r
  Return MTRR alignment requirement for base address and size.\r
\r
  @param[in]  BaseAddress     Base address.\r
  @param[in]  Size            Size.\r
\r
  @retval Zero      Alligned.\r
  @retval Non-Zero  Not alligned.\r
\r
**/\r
UINT32\r
CheckMtrrAlignment (\r
  IN  UINT64    BaseAddress,\r
  IN  UINT64    Size\r
  )\r
{\r
  UINT32      ShiftedBase;\r
  UINT32      ShiftedSize;\r
\r
  //\r
  // Shift base and size right 12 bits to allow for larger memory sizes.  The\r
  // MTRRs do not use the first 12 bits so this is safe for now.  Only supports\r
  // up to 52 bits of physical address space.\r
  //\r
  ShiftedBase = (UINT32) RShiftU64 (BaseAddress, 12);\r
  ShiftedSize = (UINT32) RShiftU64 (Size, 12);\r
\r
  //\r
  // Return the results to the caller of the MOD\r
  //\r
  return ShiftedBase % ShiftedSize;\r
}\r
\r
/**\r
  Calculate the maximum value which is a power of 2, but less the Input.\r
\r
  @param[in]  Input        The number to pass in.\r
\r
  @return The maximum value which is align to power of 2 and less the Input.\r
**/\r
UINT32\r
SetPower2 (\r
  IN UINT32 Input\r
  )\r
{\r
  UINT32 Result;\r
\r
  Result = 0;\r
#if defined(__GCC__)\r
  asm("bsr %1, \\r
      %%eax; \\r
     bts %%eax, \\r
      %0;" :"=r"(Result) :\r
    "r"(Input)\r
  );\r
#elif defined(_MSC_VER)\r
  _asm {\r
    bsr eax, Input\r
    bts Result, eax\r
  }\r
#endif\r
  return Result;\r
}\r
\r
/**\r
  Programs fixed MTRRs registers.\r
\r
  @param[in]  MemoryCacheType  The memory type to set.\r
  @param[in]  Base             The base address of memory range.\r
  @param[in]  Length           The length of memory range.\r
\r
  @retval RETURN_SUCCESS      The cache type was updated successfully\r
  @retval RETURN_UNSUPPORTED  The requested range or cache type was invalid\r
                              for the fixed MTRRs.\r
\r
**/\r
EFI_STATUS\r
ProgramFixedMtrr (\r
  IN  EFI_MEMORY_CACHE_TYPE     MemoryCacheType,\r
  IN  UINT64                    *Base,\r
  IN  UINT64                    *Len\r
  )\r
{\r
  UINT32                      MsrNum;\r
  UINT32                      ByteShift;\r
  UINT64                      TempQword;\r
  UINT64                      OrMask;\r
  UINT64                      ClearMask;\r
\r
  TempQword = 0;\r
  OrMask =  0;\r
  ClearMask = 0;\r
\r
  for (MsrNum = 0; MsrNum < V_EFI_FIXED_MTRR_NUMBER; MsrNum++) {\r
    if ((*Base >= mFixedMtrrTable[MsrNum].BaseAddress) &&\r
        (*Base < (mFixedMtrrTable[MsrNum].BaseAddress + 8 * mFixedMtrrTable[MsrNum].Length))) {\r
      break;\r
    }\r
  }\r
  if (MsrNum == V_EFI_FIXED_MTRR_NUMBER ) {\r
    return EFI_DEVICE_ERROR;\r
  }\r
  //\r
  // We found the fixed MTRR to be programmed\r
  //\r
  for (ByteShift=0; ByteShift < 8; ByteShift++) {\r
    if ( *Base == (mFixedMtrrTable[MsrNum].BaseAddress + ByteShift * mFixedMtrrTable[MsrNum].Length)) {\r
      break;\r
    }\r
  }\r
  if (ByteShift == 8 ) {\r
    return EFI_DEVICE_ERROR;\r
  }\r
  for (; ((ByteShift<8) && (*Len >= mFixedMtrrTable[MsrNum].Length));ByteShift++) {\r
    OrMask |= LShiftU64((UINT64) MemoryCacheType, (UINT32) (ByteShift* 8));\r
    ClearMask |= LShiftU64((UINT64) 0xFF, (UINT32) (ByteShift * 8));\r
    *Len -= mFixedMtrrTable[MsrNum].Length;\r
    *Base += mFixedMtrrTable[MsrNum].Length;\r
  }\r
  TempQword = AsmReadMsr64 (mFixedMtrrTable[MsrNum].Msr) & (~ClearMask | OrMask);\r
  AsmWriteMsr64 (mFixedMtrrTable[MsrNum].Msr, TempQword);\r
\r
  return EFI_SUCCESS;\r
}\r
\r
/**\r
  Check if there is a valid variable MTRR that overlaps the given range.\r
\r
  @param[in]  Start  Base Address of the range to check.\r
  @param[in]  End    End address of the range to check.\r
\r
  @retval TRUE   Mtrr overlap.\r
  @retval FALSE  Mtrr not overlap.\r
**/\r
BOOLEAN\r
CheckMtrrOverlap (\r
  IN  EFI_PHYSICAL_ADDRESS      Start,\r
  IN  EFI_PHYSICAL_ADDRESS      End\r
  )\r
{\r
  return FALSE;\r
}\r
\r
/**\r
  Given the memory range and cache type, programs the MTRRs.\r
\r
  @param[in] MemoryAddress           Base Address of Memory to program MTRR.\r
  @param[in] MemoryLength            Length of Memory to program MTRR.\r
  @param[in] MemoryCacheType         Cache Type.\r
\r
  @retval EFI_SUCCESS            Mtrr are set successfully.\r
  @retval EFI_LOAD_ERROR         No empty MTRRs to use.\r
  @retval EFI_INVALID_PARAMETER  The input parameter is not valid.\r
  @retval others                 An error occurs when setting MTTR.\r
\r
**/\r
EFI_STATUS\r
EFIAPI\r
SetCacheAttributes (\r
  IN  EFI_PHYSICAL_ADDRESS      MemoryAddress,\r
  IN  UINT64                    MemoryLength,\r
  IN  EFI_MEMORY_CACHE_TYPE     MemoryCacheType\r
  )\r
{\r
  EFI_STATUS            Status;\r
  UINT32                MsrNum, MsrNumEnd;\r
  UINT64                TempQword;\r
  UINT32                LastVariableMtrrForBios;\r
  UINT64                OldMtrr;\r
  UINT32                UsedMsrNum;\r
  EFI_MEMORY_CACHE_TYPE UsedMemoryCacheType;\r
  UINT64                ValidMtrrAddressMask;\r
  UINT32                Cpuid_RegEax;\r
\r
  AsmCpuid (CPUID_EXTENDED_FUNCTION, &Cpuid_RegEax, NULL, NULL, NULL);\r
  if (Cpuid_RegEax >= CPUID_VIR_PHY_ADDRESS_SIZE) {\r
    AsmCpuid (CPUID_VIR_PHY_ADDRESS_SIZE, &Cpuid_RegEax, NULL, NULL, NULL);\r
    ValidMtrrAddressMask = (LShiftU64((UINT64) 1, (Cpuid_RegEax & 0xFF)) - 1) & (~(UINT64)0x0FFF);\r
  } else {\r
    ValidMtrrAddressMask = (LShiftU64((UINT64) 1, 36) - 1) & (~(UINT64)0x0FFF);\r
  }\r
\r
  //\r
  // Check for invalid parameter\r
  //\r
  if ((MemoryAddress & ~ValidMtrrAddressMask) != 0 || (MemoryLength & ~ValidMtrrAddressMask) != 0) {\r
    return EFI_INVALID_PARAMETER;\r
  }\r
\r
  if (MemoryLength == 0) {\r
    return EFI_INVALID_PARAMETER;\r
  }\r
\r
  switch (MemoryCacheType) {\r
    case EFI_CACHE_UNCACHEABLE:\r
    case EFI_CACHE_WRITECOMBINING:\r
    case EFI_CACHE_WRITETHROUGH:\r
    case EFI_CACHE_WRITEPROTECTED:\r
    case EFI_CACHE_WRITEBACK:\r
      break;\r
\r
    default:\r
      return EFI_INVALID_PARAMETER;\r
  }\r
\r
  //\r
  // Check if Fixed MTRR\r
  //\r
  if ((MemoryAddress + MemoryLength) <= (1 << 20)) {\r
    Status = EFI_SUCCESS;\r
    EfiDisableCacheMtrr (&OldMtrr);\r
    while ((MemoryLength > 0) && (Status == EFI_SUCCESS)) {\r
      Status = ProgramFixedMtrr (MemoryCacheType, &MemoryAddress, &MemoryLength);\r
    }\r
    EfiRecoverCacheMtrr (TRUE, OldMtrr);\r
    return Status;\r
  }\r
\r
  //\r
  // Search if the range attribute has been set before\r
  //\r
  Status = SearchForExactMtrr(\r
                              MemoryAddress,\r
                              MemoryLength,\r
                              ValidMtrrAddressMask,\r
                              &UsedMsrNum,\r
                              &UsedMemoryCacheType\r
                              );\r
\r
  if (!EFI_ERROR(Status)) {\r
    //\r
    // Compare if it has the same type as current setting\r
    //\r
    if (UsedMemoryCacheType == MemoryCacheType) {\r
      return EFI_SUCCESS;\r
    } else {\r
      //\r
      // Different type\r
      //\r
\r
      //\r
      // Check if the set type is the same as Default Type\r
      //\r
      if (IsDefaultType(MemoryCacheType)) {\r
        //\r
        // Clear the MTRR\r
        //\r
        AsmWriteMsr64(UsedMsrNum, 0);\r
        AsmWriteMsr64(UsedMsrNum + 1, 0);\r
\r
        return EFI_SUCCESS;\r
      } else {\r
        //\r
        // Modify the MTRR type\r
        //\r
        EfiProgramMtrr(UsedMsrNum,\r
                       MemoryAddress,\r
                       MemoryLength,\r
                       MemoryCacheType,\r
                       ValidMtrrAddressMask\r
                       );\r
        return EFI_SUCCESS;\r
      }\r
    }\r
  }\r
\r
#if 0\r
  //\r
  // @bug - Need to create memory map so that when checking for overlap we\r
  //        can determine if an overlap exists based on all caching requests.\r
  //\r
  // Don't waste a variable MTRR if the caching attrib is same as default in MTRR_DEF_TYPE\r
  //\r
  if (MemoryCacheType == (AsmReadMsr64(EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE) & B_EFI_MSR_CACHE_MEMORY_TYPE))  {\r
    if (!CheckMtrrOverlap (MemoryAddress, MemoryAddress+MemoryLength-1)) {\r
      return EFI_SUCCESS;\r
    }\r
  }\r
#endif\r
\r
  //\r
  // Find first unused MTRR\r
  //\r
  MsrNumEnd = EFI_MSR_CACHE_VARIABLE_MTRR_BASE + (2 * (UINT32)(AsmReadMsr64(EFI_MSR_IA32_MTRR_CAP) & B_EFI_MSR_IA32_MTRR_CAP_VARIABLE_SUPPORT));\r
  for (MsrNum = EFI_MSR_CACHE_VARIABLE_MTRR_BASE; MsrNum < MsrNumEnd; MsrNum +=2) {\r
    if ((AsmReadMsr64(MsrNum+1) & B_EFI_MSR_CACHE_MTRR_VALID) == 0 ) {\r
      break;\r
    }\r
  }\r
\r
  //\r
  // Reserve 1 MTRR pair for OS.\r
  //\r
  LastVariableMtrrForBios = MsrNumEnd - 1 - (EFI_CACHE_NUM_VAR_MTRR_PAIRS_FOR_OS * 2);\r
  if (MsrNum > LastVariableMtrrForBios) {\r
    return EFI_LOAD_ERROR;\r
  }\r
\r
  //\r
  // Special case for 1 MB base address\r
  //\r
  if (MemoryAddress == BASE_1MB) {\r
    MemoryAddress = 0;\r
  }\r
\r
  //\r
  // Program MTRRs\r
  //\r
  TempQword = MemoryLength;\r
\r
  if (TempQword == Power2MaxMemory(MemoryAddress, TempQword)) {\r
    EfiProgramMtrr(MsrNum,\r
                   MemoryAddress,\r
                   MemoryLength,\r
                   MemoryCacheType,\r
                   ValidMtrrAddressMask\r
                   );\r
\r
  } else {\r
    //\r
    // Fill in MTRRs with values.  Direction can not be checked for this method\r
    // as we are using WB as the default cache type and only setting areas to UC.\r
    //\r
    do {\r
      //\r
      // Do boundary check so we don't go past last MTRR register\r
      // for BIOS use.  Leave one MTRR pair for OS use.\r
      //\r
      if (MsrNum > LastVariableMtrrForBios) {\r
        return EFI_LOAD_ERROR;\r
      }\r
\r
      //\r
      // Set next power of 2 region\r
      //\r
      MemoryLength = Power2MaxMemory(MemoryAddress, TempQword);\r
      EfiProgramMtrr(MsrNum,\r
                     MemoryAddress,\r
                     MemoryLength,\r
                     MemoryCacheType,\r
                     ValidMtrrAddressMask\r
                     );\r
      MemoryAddress += MemoryLength;\r
      TempQword -= MemoryLength;\r
      MsrNum += 2;\r
    } while (TempQword != 0);\r
  }\r
\r
  return EFI_SUCCESS;\r
}\r
\r
/**\r
 Reset all the MTRRs to a known state.\r
\r
  @retval  EFI_SUCCESS All MTRRs have been reset successfully.\r
\r
**/\r
EFI_STATUS\r
EFIAPI\r
ResetCacheAttributes (\r
  VOID\r
  )\r
{\r
  UINT32                      MsrNum, MsrNumEnd;\r
  UINT16                      Index;\r
  UINT64                      OldMtrr;\r
  UINT64                      CacheType;\r
  BOOLEAN                     DisableCar;\r
  Index = 0;\r
  DisableCar = TRUE;\r
\r
  //\r
  // Determine default cache type\r
  //\r
  CacheType = EFI_CACHE_UNCACHEABLE;\r
\r
  //\r
  // Set default cache type\r
  //\r
  AsmWriteMsr64(EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE, CacheType);\r
\r
  //\r
  // Disable CAR\r
  //\r
  DisableCacheAsRam (DisableCar);\r
\r
  EfiDisableCacheMtrr (&OldMtrr);\r
\r
  //\r
  // Reset Fixed MTRRs\r
  //\r
  for (Index = 0; Index < V_EFI_FIXED_MTRR_NUMBER; Index++) {\r
    AsmWriteMsr64 (mFixedMtrrTable[Index].Msr, 0);\r
  }\r
\r
  //\r
  // Reset Variable MTRRs\r
  //\r
  MsrNumEnd = EFI_MSR_CACHE_VARIABLE_MTRR_BASE + (2 * (UINT32)(AsmReadMsr64(EFI_MSR_IA32_MTRR_CAP) & B_EFI_MSR_IA32_MTRR_CAP_VARIABLE_SUPPORT));\r
  for (MsrNum = EFI_MSR_CACHE_VARIABLE_MTRR_BASE; MsrNum < MsrNumEnd; MsrNum++) {\r
    AsmWriteMsr64 (MsrNum, 0);\r
  }\r
\r
  //\r
  // Enable Fixed and Variable MTRRs\r
  //\r
  EfiRecoverCacheMtrr (TRUE, OldMtrr);\r
\r
  return EFI_SUCCESS;\r
}\r
\r
/**\r
  Search the memory cache type for specific memory from MTRR.\r
\r
  @param[in]  MemoryAddress         the address of target memory\r
  @param[in]  MemoryLength          the length of target memory\r
  @param[in]  ValidMtrrAddressMask  the MTRR address mask\r
  @param[out] UsedMsrNum            the used MSR number\r
  @param[out] UsedMemoryCacheType   the cache type for the target memory\r
\r
  @retval EFI_SUCCESS    The memory is found in MTRR and cache type is returned\r
  @retval EFI_NOT_FOUND  The memory is not found in MTRR\r
\r
**/\r
EFI_STATUS\r
SearchForExactMtrr (\r
  IN  EFI_PHYSICAL_ADDRESS      MemoryAddress,\r
  IN  UINT64                    MemoryLength,\r
  IN  UINT64                    ValidMtrrAddressMask,\r
  OUT UINT32                    *UsedMsrNum,\r
  OUT EFI_MEMORY_CACHE_TYPE     *UsedMemoryCacheType\r
  )\r
{\r
  UINT32                      MsrNum, MsrNumEnd;\r
  UINT64                      TempQword;\r
\r
  if (MemoryLength == 0) {\r
    return EFI_INVALID_PARAMETER;\r
  }\r
\r
  MsrNumEnd = EFI_MSR_CACHE_VARIABLE_MTRR_BASE + (2 * (UINT32)(AsmReadMsr64(EFI_MSR_IA32_MTRR_CAP) & B_EFI_MSR_IA32_MTRR_CAP_VARIABLE_SUPPORT));\r
  for (MsrNum = EFI_MSR_CACHE_VARIABLE_MTRR_BASE; MsrNum < MsrNumEnd; MsrNum +=2) {\r
    TempQword = AsmReadMsr64(MsrNum+1);\r
    if ((TempQword & B_EFI_MSR_CACHE_MTRR_VALID) == 0) {\r
      continue;\r
    }\r
\r
    if ((TempQword & ValidMtrrAddressMask) != ((~(MemoryLength - 1)) & ValidMtrrAddressMask)) {\r
      continue;\r
    }\r
\r
    TempQword = AsmReadMsr64 (MsrNum);\r
    if ((TempQword & ValidMtrrAddressMask) != (MemoryAddress & ValidMtrrAddressMask)) {\r
      continue;\r
    }\r
\r
    *UsedMemoryCacheType = (EFI_MEMORY_CACHE_TYPE)(TempQword & B_EFI_MSR_CACHE_MEMORY_TYPE);\r
    *UsedMsrNum = MsrNum;\r
\r
    return EFI_SUCCESS;\r
  }\r
\r
  return EFI_NOT_FOUND;\r
}\r
\r
/**\r
  Check if CacheType match current default setting.\r
\r
  @param[in] MemoryCacheType  input cache type to be checked.\r
\r
  @retval TRUE MemoryCacheType is default MTRR setting.\r
  @retval TRUE MemoryCacheType is NOT default MTRR setting.\r
**/\r
BOOLEAN\r
IsDefaultType (\r
  IN  EFI_MEMORY_CACHE_TYPE     MemoryCacheType\r
  )\r
{\r
  if ((AsmReadMsr64(EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE) & B_EFI_MSR_CACHE_MEMORY_TYPE) != MemoryCacheType) {\r
    return FALSE;\r
  }\r
\r
  return TRUE;\r
}\r
\r
Commit	Line	Data
c8ec22a2 JY	1	/** @file\r
	2	\r
	3	Copyright (c) 2014, Intel Corporation. All rights reserved.<BR>\r
	4	This program and the accompanying materials\r
	5	are licensed and made available under the terms and conditions of the BSD License\r
	6	which accompanies this distribution. The full text of the license may be found at\r
	7	http://opensource.org/licenses/bsd-license.php.\r
	8	\r
	9	THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,\r
	10	WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.\r
	11	\r
	12	**/\r
	13	\r
	14	#include <Uefi.h>\r
	15	#include <Library/BaseLib.h>\r
	16	#include <Library/CacheLib.h>\r
	17	#include <Library/CacheAsRamLib.h>\r
	18	#include "CacheLibInternal.h"\r
	19	\r
	20	/**\r
	21	Calculate the maximum value which is a power of 2, but less the Input.\r
	22	\r
	23	@param[in] Input The number to pass in.\r
	24	@return The maximum value which is align to power of 2 and less the Input\r
	25	**/\r
	26	UINT32\r
	27	SetPower2 (\r
	28	IN UINT32 Input\r
	29	);\r
	30	\r
	31	/**\r
	32	Search the memory cache type for specific memory from MTRR.\r
	33	\r
	34	@param[in] MemoryAddress the address of target memory\r
	35	@param[in] MemoryLength the length of target memory\r
	36	@param[in] ValidMtrrAddressMask the MTRR address mask\r
	37	@param[out] UsedMsrNum the used MSR number\r
	38	@param[out] UsedMemoryCacheType the cache type for the target memory\r
	39	\r
	40	@retval EFI_SUCCESS The memory is found in MTRR and cache type is returned\r
	41	@retval EFI_NOT_FOUND The memory is not found in MTRR\r
	42	\r
	43	**/\r
	44	EFI_STATUS\r
	45	SearchForExactMtrr (\r
	46	IN EFI_PHYSICAL_ADDRESS MemoryAddress,\r
	47	IN UINT64 MemoryLength,\r
	48	IN UINT64 ValidMtrrAddressMask,\r
	49	OUT UINT32 *UsedMsrNum,\r
	50	OUT EFI_MEMORY_CACHE_TYPE *MemoryCacheType\r
	51	);\r
	52	\r
	53	/**\r
	54	Check if CacheType match current default setting.\r
	55	\r
	56	@param[in] MemoryCacheType input cache type to be checked.\r
	57	\r
	58	@retval TRUE MemoryCacheType is default MTRR setting.\r
	59	@retval TRUE MemoryCacheType is NOT default MTRR setting.\r
	60	**/\r
	61	BOOLEAN\r
	62	IsDefaultType (\r
	63	IN EFI_MEMORY_CACHE_TYPE MemoryCacheType\r
	64	);\r
65	\r
66	/**\r
67	Return MTRR alignment requirement for base address and size.\r
68	\r
69	@param[in] BaseAddress Base address.\r
70	@param[in] Size Size.\r
71	\r
72	@retval Zero Alligned.\r
73	@retval Non-Zero Not alligned.\r
74	\r
75	**/\r
76	UINT32\r
77	CheckMtrrAlignment (\r
78	IN UINT64 BaseAddress,\r
79	IN UINT64 Size\r
80	);\r
81	\r
82	typedef struct {\r
83	UINT32 Msr;\r
84	UINT32 BaseAddress;\r
85	UINT32 Length;\r
86	} EFI_FIXED_MTRR;\r
87	\r
88	EFI_FIXED_MTRR mFixedMtrrTable[] = {\r
89	{ EFI_MSR_IA32_MTRR_FIX64K_00000, 0, 0x10000},\r
90	{ EFI_MSR_IA32_MTRR_FIX16K_80000, 0x80000, 0x4000},\r
91	{ EFI_MSR_IA32_MTRR_FIX16K_A0000, 0xA0000, 0x4000},\r
92	{ EFI_MSR_IA32_MTRR_FIX4K_C0000, 0xC0000, 0x1000},\r
93	{ EFI_MSR_IA32_MTRR_FIX4K_C8000, 0xC8000, 0x1000},\r
94	{ EFI_MSR_IA32_MTRR_FIX4K_D0000, 0xD0000, 0x1000},\r
95	{ EFI_MSR_IA32_MTRR_FIX4K_D8000, 0xD8000, 0x1000},\r
96	{ EFI_MSR_IA32_MTRR_FIX4K_E0000, 0xE0000, 0x1000},\r
97	{ EFI_MSR_IA32_MTRR_FIX4K_E8000, 0xE8000, 0x1000},\r
98	{ EFI_MSR_IA32_MTRR_FIX4K_F0000, 0xF0000, 0x1000},\r
99	{ EFI_MSR_IA32_MTRR_FIX4K_F8000, 0xF8000, 0x1000}\r
100	};\r
101	\r
102	/**\r
103	Given the input, check if the number of MTRR is lesser.\r
104	if positive or subtractive.\r
105	\r
106	@param[in] Input Length of Memory to program MTRR.\r
107	\r
108	@retval Zero do positive.\r
109	@retval Non-Zero do subtractive.\r
110	\r
111	**/\r
112	INT8\r
113	CheckDirection (\r
114	IN UINT64 Input\r
115	)\r
116	{\r
117	return 0;\r
118	}\r
119	\r
120	/**\r
121	Disable cache and its mtrr.\r
122	\r
123	@param[out] OldMtrr To return the Old MTRR value\r
124	\r
125	**/\r
126	VOID\r
127	EfiDisableCacheMtrr (\r
128	OUT UINT64 *OldMtrr\r
129	)\r
130	{\r
131	UINT64 TempQword;\r
132	\r
133	//\r
134	// Disable Cache MTRR\r
135	//\r
136	*OldMtrr = AsmReadMsr64(EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE);\r
137	TempQword = (*OldMtrr) & ~B_EFI_MSR_GLOBAL_MTRR_ENABLE & ~B_EFI_MSR_FIXED_MTRR_ENABLE;\r
138	AsmWriteMsr64(EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE, TempQword);\r
139	AsmDisableCache ();\r
140	}\r
141	\r
142	/**\r
143	Recover cache MTRR.\r
144	\r
145	@param[in] EnableMtrr Whether to enable the MTRR\r
146	@param[in] OldMtrr The saved old MTRR value to restore when not to enable the MTRR\r
147	\r
148	**/\r
149	VOID\r
150	EfiRecoverCacheMtrr (\r
151	IN BOOLEAN EnableMtrr,\r
152	IN UINT64 OldMtrr\r
153	)\r
154	{\r
155	UINT64 TempQword;\r
156	\r
157	//\r
158	// Enable Cache MTRR\r
159	//\r
160	if (EnableMtrr) {\r
161	TempQword = AsmReadMsr64(EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE);\r
162	TempQword \|= (B_EFI_MSR_GLOBAL_MTRR_ENABLE \| B_EFI_MSR_FIXED_MTRR_ENABLE);\r
163	} else {\r
164	TempQword = OldMtrr;\r
165	}\r
166	\r
167	AsmWriteMsr64 (EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE, TempQword);\r
168	\r
169	AsmEnableCache ();\r
170	}\r
171	\r
172	/**\r
173	Programming MTRR according to Memory address, length, and type.\r
174	\r
175	@param[in] MtrrNumber the variable MTRR index number\r
176	@param[in] MemoryAddress the address of target memory\r
177	@param[in] MemoryLength the length of target memory\r
178	@param[in] MemoryCacheType the cache type of target memory\r
179	@param[in] ValidMtrrAddressMask the MTRR address mask\r
180	\r
181	**/\r
182	VOID\r
183	EfiProgramMtrr (\r
184	IN UINTN MtrrNumber,\r
185	IN EFI_PHYSICAL_ADDRESS MemoryAddress,\r
186	IN UINT64 MemoryLength,\r
187	IN EFI_MEMORY_CACHE_TYPE MemoryCacheType,\r
188	IN UINT64 ValidMtrrAddressMask\r
189	)\r
190	{\r
191	UINT64 TempQword;\r
192	UINT64 OldMtrr;\r
193	\r
194	if (MemoryLength == 0) {\r
195	return;\r
196	}\r
197	\r
198	EfiDisableCacheMtrr (&OldMtrr);\r
199	\r
200	//\r
201	// MTRR Physical Base\r
202	//\r
203	TempQword = (MemoryAddress & ValidMtrrAddressMask) \| MemoryCacheType;\r
204	AsmWriteMsr64 (MtrrNumber, TempQword);\r
205	\r
206	//\r
207	// MTRR Physical Mask\r
208	//\r
209	TempQword = ~(MemoryLength - 1);\r
210	AsmWriteMsr64 (MtrrNumber + 1, (TempQword & ValidMtrrAddressMask) \| B_EFI_MSR_CACHE_MTRR_VALID);\r
211	\r
212	EfiRecoverCacheMtrr (TRUE, OldMtrr);\r
213	}\r
214	\r
215	/**\r
216	Calculate the maximum value which is a power of 2, but less the MemoryLength.\r
217	\r
218	@param[in] MemoryAddress Memory address.\r
219	@param[in] MemoryLength The number to pass in.\r
220	\r
221	@return The maximum value which is align to power of 2 and less the MemoryLength\r
222	\r
223	**/\r
224	UINT64\r
225	Power2MaxMemory (\r
226	IN UINT64 MemoryAddress,\r
227	IN UINT64 MemoryLength\r
228	)\r
229	{\r
230	UINT64 Result;\r
231	\r
232	if (MemoryLength == 0) {\r
233	return EFI_INVALID_PARAMETER;\r
234	}\r
235	\r
236	//\r
237	// Compute inital power of 2 size to return\r
238	//\r
239	if (RShiftU64(MemoryLength, 32)) {\r
240	Result = LShiftU64((UINT64)SetPower2((UINT32) RShiftU64(MemoryLength, 32)), 32);\r
241	} else {\r
242	Result = (UINT64)SetPower2((UINT32)MemoryLength);\r
243	}\r
244	\r
245	//\r
246	// Special case base of 0 as all ranges are valid\r
247	//\r
248	if (MemoryAddress == 0) {\r
249	return Result;\r
250	}\r
251	\r
252	//\r
253	// Loop till a value that can be mapped to this base address is found\r
254	//\r
255	while (CheckMtrrAlignment (MemoryAddress, Result) != 0) {\r
256	//\r
257	// Need to try the next smaller power of 2\r
258	//\r
259	Result = RShiftU64 (Result, 1);\r
260	}\r
261	\r
262	return Result;\r
263	}\r
264	\r
265	/**\r
266	Return MTRR alignment requirement for base address and size.\r
267	\r
268	@param[in] BaseAddress Base address.\r
269	@param[in] Size Size.\r
270	\r
271	@retval Zero Alligned.\r
272	@retval Non-Zero Not alligned.\r
273	\r
274	**/\r
275	UINT32\r
276	CheckMtrrAlignment (\r
277	IN UINT64 BaseAddress,\r
278	IN UINT64 Size\r
279	)\r
280	{\r
281	UINT32 ShiftedBase;\r
282	UINT32 ShiftedSize;\r
283	\r
284	//\r
285	// Shift base and size right 12 bits to allow for larger memory sizes. The\r
286	// MTRRs do not use the first 12 bits so this is safe for now. Only supports\r
287	// up to 52 bits of physical address space.\r
288	//\r
289	ShiftedBase = (UINT32) RShiftU64 (BaseAddress, 12);\r
290	ShiftedSize = (UINT32) RShiftU64 (Size, 12);\r
291	\r
292	//\r
293	// Return the results to the caller of the MOD\r
294	//\r
295	return ShiftedBase % ShiftedSize;\r
296	}\r
297	\r
298	/**\r
299	Calculate the maximum value which is a power of 2, but less the Input.\r
300	\r
301	@param[in] Input The number to pass in.\r
302	\r
303	@return The maximum value which is align to power of 2 and less the Input.\r
304	**/\r
305	UINT32\r
306	SetPower2 (\r
307	IN UINT32 Input\r
308	)\r
309	{\r
310	UINT32 Result;\r
311	\r
312	Result = 0;\r
313	#if defined(__GCC__)\r
314	asm("bsr %1, \\r
315	%%eax; \\r
316	bts %%eax, \\r
317	%0;" :"=r"(Result) :\r
318	"r"(Input)\r
319	);\r
320	#elif defined(_MSC_VER)\r
321	_asm {\r
322	bsr eax, Input\r
323	bts Result, eax\r
324	}\r
325	#endif\r
326	return Result;\r
327	}\r
328	\r
329	/**\r
330	Programs fixed MTRRs registers.\r
331	\r
332	@param[in] MemoryCacheType The memory type to set.\r
333	@param[in] Base The base address of memory range.\r
334	@param[in] Length The length of memory range.\r
335	\r
336	@retval RETURN_SUCCESS The cache type was updated successfully\r
337	@retval RETURN_UNSUPPORTED The requested range or cache type was invalid\r
338	for the fixed MTRRs.\r
339	\r
340	**/\r
341	EFI_STATUS\r
342	ProgramFixedMtrr (\r
343	IN EFI_MEMORY_CACHE_TYPE MemoryCacheType,\r
344	IN UINT64 *Base,\r
345	IN UINT64 *Len\r
346	)\r
347	{\r
348	UINT32 MsrNum;\r
349	UINT32 ByteShift;\r
350	UINT64 TempQword;\r
351	UINT64 OrMask;\r
352	UINT64 ClearMask;\r
353	\r
354	TempQword = 0;\r
355	OrMask = 0;\r
356	ClearMask = 0;\r
357	\r
358	for (MsrNum = 0; MsrNum < V_EFI_FIXED_MTRR_NUMBER; MsrNum++) {\r
359	if ((*Base >= mFixedMtrrTable[MsrNum].BaseAddress) &&\r
360	(Base < (mFixedMtrrTable[MsrNum].BaseAddress + 8 mFixedMtrrTable[MsrNum].Length))) {\r
361	break;\r
362	}\r
363	}\r
364	if (MsrNum == V_EFI_FIXED_MTRR_NUMBER ) {\r
365	return EFI_DEVICE_ERROR;\r
366	}\r
367	//\r
368	// We found the fixed MTRR to be programmed\r
369	//\r
370	for (ByteShift=0; ByteShift < 8; ByteShift++) {\r
371	if ( Base == (mFixedMtrrTable[MsrNum].BaseAddress + ByteShift mFixedMtrrTable[MsrNum].Length)) {\r
372	break;\r
373	}\r
374	}\r
375	if (ByteShift == 8 ) {\r
376	return EFI_DEVICE_ERROR;\r
377	}\r
378	for (; ((ByteShift<8) && (*Len >= mFixedMtrrTable[MsrNum].Length));ByteShift++) {\r
379	OrMask \|= LShiftU64((UINT64) MemoryCacheType, (UINT32) (ByteShift* 8));\r
380	ClearMask \|= LShiftU64((UINT64) 0xFF, (UINT32) (ByteShift * 8));\r
381	*Len -= mFixedMtrrTable[MsrNum].Length;\r
382	*Base += mFixedMtrrTable[MsrNum].Length;\r
383	}\r
384	TempQword = AsmReadMsr64 (mFixedMtrrTable[MsrNum].Msr) & (~ClearMask \| OrMask);\r
385	AsmWriteMsr64 (mFixedMtrrTable[MsrNum].Msr, TempQword);\r
386	\r
387	return EFI_SUCCESS;\r
388	}\r
389	\r
390	/**\r
391	Check if there is a valid variable MTRR that overlaps the given range.\r
392	\r
393	@param[in] Start Base Address of the range to check.\r
394	@param[in] End End address of the range to check.\r
395	\r
396	@retval TRUE Mtrr overlap.\r
397	@retval FALSE Mtrr not overlap.\r
398	**/\r
399	BOOLEAN\r
400	CheckMtrrOverlap (\r
401	IN EFI_PHYSICAL_ADDRESS Start,\r
402	IN EFI_PHYSICAL_ADDRESS End\r
403	)\r
404	{\r
405	return FALSE;\r
406	}\r
407	\r
408	/**\r
409	Given the memory range and cache type, programs the MTRRs.\r
410	\r
411	@param[in] MemoryAddress Base Address of Memory to program MTRR.\r
412	@param[in] MemoryLength Length of Memory to program MTRR.\r
413	@param[in] MemoryCacheType Cache Type.\r
414	\r
415	@retval EFI_SUCCESS Mtrr are set successfully.\r
416	@retval EFI_LOAD_ERROR No empty MTRRs to use.\r
417	@retval EFI_INVALID_PARAMETER The input parameter is not valid.\r
418	@retval others An error occurs when setting MTTR.\r
419	\r
420	**/\r
421	EFI_STATUS\r
422	EFIAPI\r
423	SetCacheAttributes (\r
424	IN EFI_PHYSICAL_ADDRESS MemoryAddress,\r
425	IN UINT64 MemoryLength,\r
426	IN EFI_MEMORY_CACHE_TYPE MemoryCacheType\r
427	)\r
428	{\r
429	EFI_STATUS Status;\r
430	UINT32 MsrNum, MsrNumEnd;\r
431	UINT64 TempQword;\r
432	UINT32 LastVariableMtrrForBios;\r
433	UINT64 OldMtrr;\r
434	UINT32 UsedMsrNum;\r
435	EFI_MEMORY_CACHE_TYPE UsedMemoryCacheType;\r
436	UINT64 ValidMtrrAddressMask;\r
437	UINT32 Cpuid_RegEax;\r
438	\r
439	AsmCpuid (CPUID_EXTENDED_FUNCTION, &Cpuid_RegEax, NULL, NULL, NULL);\r
440	if (Cpuid_RegEax >= CPUID_VIR_PHY_ADDRESS_SIZE) {\r
441	AsmCpuid (CPUID_VIR_PHY_ADDRESS_SIZE, &Cpuid_RegEax, NULL, NULL, NULL);\r
442	ValidMtrrAddressMask = (LShiftU64((UINT64) 1, (Cpuid_RegEax & 0xFF)) - 1) & (~(UINT64)0x0FFF);\r
443	} else {\r
444	ValidMtrrAddressMask = (LShiftU64((UINT64) 1, 36) - 1) & (~(UINT64)0x0FFF);\r
445	}\r
446	\r
447	//\r
448	// Check for invalid parameter\r
449	//\r
450	if ((MemoryAddress & ~ValidMtrrAddressMask) != 0 \|\| (MemoryLength & ~ValidMtrrAddressMask) != 0) {\r
451	return EFI_INVALID_PARAMETER;\r
452	}\r
453	\r
454	if (MemoryLength == 0) {\r
455	return EFI_INVALID_PARAMETER;\r
456	}\r
457	\r
458	switch (MemoryCacheType) {\r
459	case EFI_CACHE_UNCACHEABLE:\r
460	case EFI_CACHE_WRITECOMBINING:\r
461	case EFI_CACHE_WRITETHROUGH:\r
462	case EFI_CACHE_WRITEPROTECTED:\r
463	case EFI_CACHE_WRITEBACK:\r
464	break;\r
465	\r
466	default:\r
467	return EFI_INVALID_PARAMETER;\r
468	}\r
469	\r
470	//\r
471	// Check if Fixed MTRR\r
472	//\r
473	if ((MemoryAddress + MemoryLength) <= (1 << 20)) {\r
474	Status = EFI_SUCCESS;\r
475	EfiDisableCacheMtrr (&OldMtrr);\r
476	while ((MemoryLength > 0) && (Status == EFI_SUCCESS)) {\r
477	Status = ProgramFixedMtrr (MemoryCacheType, &MemoryAddress, &MemoryLength);\r
478	}\r
479	EfiRecoverCacheMtrr (TRUE, OldMtrr);\r
480	return Status;\r
481	}\r
482	\r
483	//\r
484	// Search if the range attribute has been set before\r
485	//\r
486	Status = SearchForExactMtrr(\r
487	MemoryAddress,\r
488	MemoryLength,\r
489	ValidMtrrAddressMask,\r
490	&UsedMsrNum,\r
491	&UsedMemoryCacheType\r
492	);\r
493	\r
494	if (!EFI_ERROR(Status)) {\r
495	//\r
496	// Compare if it has the same type as current setting\r
497	//\r
498	if (UsedMemoryCacheType == MemoryCacheType) {\r
499	return EFI_SUCCESS;\r
500	} else {\r
501	//\r
502	// Different type\r
503	//\r
504	\r
505	//\r
506	// Check if the set type is the same as Default Type\r
507	//\r
508	if (IsDefaultType(MemoryCacheType)) {\r
509	//\r
510	// Clear the MTRR\r
511	//\r
512	AsmWriteMsr64(UsedMsrNum, 0);\r
513	AsmWriteMsr64(UsedMsrNum + 1, 0);\r
514	\r
515	return EFI_SUCCESS;\r
516	} else {\r
517	//\r
518	// Modify the MTRR type\r
519	//\r
520	EfiProgramMtrr(UsedMsrNum,\r
521	MemoryAddress,\r
522	MemoryLength,\r
523	MemoryCacheType,\r
524	ValidMtrrAddressMask\r
525	);\r
526	return EFI_SUCCESS;\r
527	}\r
528	}\r
529	}\r
530	\r
531	#if 0\r
532	//\r
533	// @bug - Need to create memory map so that when checking for overlap we\r
534	// can determine if an overlap exists based on all caching requests.\r
535	//\r
536	// Don't waste a variable MTRR if the caching attrib is same as default in MTRR_DEF_TYPE\r
537	//\r
538	if (MemoryCacheType == (AsmReadMsr64(EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE) & B_EFI_MSR_CACHE_MEMORY_TYPE)) {\r
539	if (!CheckMtrrOverlap (MemoryAddress, MemoryAddress+MemoryLength-1)) {\r
540	return EFI_SUCCESS;\r
541	}\r
542	}\r
543	#endif\r
544	\r
545	//\r
546	// Find first unused MTRR\r
547	//\r
548	MsrNumEnd = EFI_MSR_CACHE_VARIABLE_MTRR_BASE + (2 * (UINT32)(AsmReadMsr64(EFI_MSR_IA32_MTRR_CAP) & B_EFI_MSR_IA32_MTRR_CAP_VARIABLE_SUPPORT));\r
549	for (MsrNum = EFI_MSR_CACHE_VARIABLE_MTRR_BASE; MsrNum < MsrNumEnd; MsrNum +=2) {\r
550	if ((AsmReadMsr64(MsrNum+1) & B_EFI_MSR_CACHE_MTRR_VALID) == 0 ) {\r
551	break;\r
552	}\r
553	}\r
554	\r
555	//\r
556	// Reserve 1 MTRR pair for OS.\r
557	//\r
558	LastVariableMtrrForBios = MsrNumEnd - 1 - (EFI_CACHE_NUM_VAR_MTRR_PAIRS_FOR_OS * 2);\r
559	if (MsrNum > LastVariableMtrrForBios) {\r
560	return EFI_LOAD_ERROR;\r
561	}\r
562	\r
563	//\r
564	// Special case for 1 MB base address\r
565	//\r
566	if (MemoryAddress == BASE_1MB) {\r
567	MemoryAddress = 0;\r
568	}\r
569	\r
570	//\r
571	// Program MTRRs\r
572	//\r
573	TempQword = MemoryLength;\r
574	\r
575	if (TempQword == Power2MaxMemory(MemoryAddress, TempQword)) {\r
576	EfiProgramMtrr(MsrNum,\r
577	MemoryAddress,\r
578	MemoryLength,\r
579	MemoryCacheType,\r
580	ValidMtrrAddressMask\r
581	);\r
582	\r
583	} else {\r
584	//\r
585	// Fill in MTRRs with values. Direction can not be checked for this method\r
586	// as we are using WB as the default cache type and only setting areas to UC.\r
587	//\r
588	do {\r
589	//\r
590	// Do boundary check so we don't go past last MTRR register\r
591	// for BIOS use. Leave one MTRR pair for OS use.\r
592	//\r
593	if (MsrNum > LastVariableMtrrForBios) {\r
594	return EFI_LOAD_ERROR;\r
595	}\r
596	\r
597	//\r
598	// Set next power of 2 region\r
599	//\r
600	MemoryLength = Power2MaxMemory(MemoryAddress, TempQword);\r
601	EfiProgramMtrr(MsrNum,\r
602	MemoryAddress,\r
603	MemoryLength,\r
604	MemoryCacheType,\r
605	ValidMtrrAddressMask\r
606	);\r
607	MemoryAddress += MemoryLength;\r
608	TempQword -= MemoryLength;\r
609	MsrNum += 2;\r
610	} while (TempQword != 0);\r
611	}\r
612	\r
613	return EFI_SUCCESS;\r
614	}\r
615	\r
616	/**\r
617	Reset all the MTRRs to a known state.\r
618	\r
619	@retval EFI_SUCCESS All MTRRs have been reset successfully.\r
620	\r
621	**/\r
622	EFI_STATUS\r
623	EFIAPI\r
624	ResetCacheAttributes (\r
625	VOID\r
626	)\r
627	{\r
628	UINT32 MsrNum, MsrNumEnd;\r
629	UINT16 Index;\r
630	UINT64 OldMtrr;\r
631	UINT64 CacheType;\r
632	BOOLEAN DisableCar;\r
633	Index = 0;\r
634	DisableCar = TRUE;\r
635	\r
636	//\r
637	// Determine default cache type\r
638	//\r
639	CacheType = EFI_CACHE_UNCACHEABLE;\r
640	\r
641	//\r
642	// Set default cache type\r
643	//\r
644	AsmWriteMsr64(EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE, CacheType);\r
645	\r
646	//\r
647	// Disable CAR\r
648	//\r
649	DisableCacheAsRam (DisableCar);\r
650	\r
651	EfiDisableCacheMtrr (&OldMtrr);\r
652	\r
653	//\r
654	// Reset Fixed MTRRs\r
655	//\r
656	for (Index = 0; Index < V_EFI_FIXED_MTRR_NUMBER; Index++) {\r
657	AsmWriteMsr64 (mFixedMtrrTable[Index].Msr, 0);\r
658	}\r
659	\r
660	//\r
661	// Reset Variable MTRRs\r
662	//\r
663	MsrNumEnd = EFI_MSR_CACHE_VARIABLE_MTRR_BASE + (2 * (UINT32)(AsmReadMsr64(EFI_MSR_IA32_MTRR_CAP) & B_EFI_MSR_IA32_MTRR_CAP_VARIABLE_SUPPORT));\r
664	for (MsrNum = EFI_MSR_CACHE_VARIABLE_MTRR_BASE; MsrNum < MsrNumEnd; MsrNum++) {\r
665	AsmWriteMsr64 (MsrNum, 0);\r
666	}\r
667	\r
668	//\r
669	// Enable Fixed and Variable MTRRs\r
670	//\r
671	EfiRecoverCacheMtrr (TRUE, OldMtrr);\r
672	\r
673	return EFI_SUCCESS;\r
674	}\r
675	\r
676	/**\r
677	Search the memory cache type for specific memory from MTRR.\r
678	\r
679	@param[in] MemoryAddress the address of target memory\r
680	@param[in] MemoryLength the length of target memory\r
681	@param[in] ValidMtrrAddressMask the MTRR address mask\r
682	@param[out] UsedMsrNum the used MSR number\r
683	@param[out] UsedMemoryCacheType the cache type for the target memory\r
684	\r
685	@retval EFI_SUCCESS The memory is found in MTRR and cache type is returned\r
686	@retval EFI_NOT_FOUND The memory is not found in MTRR\r
687	\r
688	**/\r
689	EFI_STATUS\r
690	SearchForExactMtrr (\r
691	IN EFI_PHYSICAL_ADDRESS MemoryAddress,\r
692	IN UINT64 MemoryLength,\r
693	IN UINT64 ValidMtrrAddressMask,\r
694	OUT UINT32 *UsedMsrNum,\r
695	OUT EFI_MEMORY_CACHE_TYPE *UsedMemoryCacheType\r
696	)\r
697	{\r
698	UINT32 MsrNum, MsrNumEnd;\r
699	UINT64 TempQword;\r
700	\r
701	if (MemoryLength == 0) {\r
702	return EFI_INVALID_PARAMETER;\r
703	}\r
704	\r
705	MsrNumEnd = EFI_MSR_CACHE_VARIABLE_MTRR_BASE + (2 * (UINT32)(AsmReadMsr64(EFI_MSR_IA32_MTRR_CAP) & B_EFI_MSR_IA32_MTRR_CAP_VARIABLE_SUPPORT));\r
706	for (MsrNum = EFI_MSR_CACHE_VARIABLE_MTRR_BASE; MsrNum < MsrNumEnd; MsrNum +=2) {\r
707	TempQword = AsmReadMsr64(MsrNum+1);\r
708	if ((TempQword & B_EFI_MSR_CACHE_MTRR_VALID) == 0) {\r
709	continue;\r
710	}\r
711	\r
712	if ((TempQword & ValidMtrrAddressMask) != ((~(MemoryLength - 1)) & ValidMtrrAddressMask)) {\r
713	continue;\r
714	}\r
715	\r
716	TempQword = AsmReadMsr64 (MsrNum);\r
717	if ((TempQword & ValidMtrrAddressMask) != (MemoryAddress & ValidMtrrAddressMask)) {\r
718	continue;\r
719	}\r
720	\r
721	*UsedMemoryCacheType = (EFI_MEMORY_CACHE_TYPE)(TempQword & B_EFI_MSR_CACHE_MEMORY_TYPE);\r
722	*UsedMsrNum = MsrNum;\r
723	\r
724	return EFI_SUCCESS;\r
725	}\r
726	\r
727	return EFI_NOT_FOUND;\r
728	}\r
729	\r
730	/**\r
731	Check if CacheType match current default setting.\r
732	\r
733	@param[in] MemoryCacheType input cache type to be checked.\r
734	\r
735	@retval TRUE MemoryCacheType is default MTRR setting.\r
736	@retval TRUE MemoryCacheType is NOT default MTRR setting.\r
737	**/\r
738	BOOLEAN\r
739	IsDefaultType (\r
740	IN EFI_MEMORY_CACHE_TYPE MemoryCacheType\r
741	)\r
742	{\r
743	if ((AsmReadMsr64(EFI_MSR_CACHE_IA32_MTRR_DEF_TYPE) & B_EFI_MSR_CACHE_MEMORY_TYPE) != MemoryCacheType) {\r
744	return FALSE;\r
745	}\r
746	\r
747	return TRUE;\r
748	}\r
749	\r