C++程序  |  334行  |  8.9 KB

/** @file
Common Lib function for QNC internal network access.

Copyright (c) 2013-2015 Intel Corporation.

This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution.  The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php

THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.

**/

//
// The package level header files this module uses
//
#include <Uefi.h>

#include <IntelQNCRegs.h>
#include <Library/QNCAccessLib.h>
#include <Library/DebugLib.h>
#include <IndustryStandard/Pci22.h>

UINT32
EFIAPI
QNCPortRead(
  UINT8 Port,
  UINT32 RegAddress
  )
{
  McD0PciCfg32 (QNC_ACCESS_PORT_MEA) = (RegAddress & 0xFFFFFF00);
  McD0PciCfg32 (QNC_ACCESS_PORT_MCR) = MESSAGE_READ_DW (Port, RegAddress);
  return McD0PciCfg32 (QNC_ACCESS_PORT_MDR);
}

VOID
EFIAPI
QNCPortWrite (
  UINT8 Port,
  UINT32 RegAddress,
  UINT32 WriteValue
  )
{
  McD0PciCfg32 (QNC_ACCESS_PORT_MDR) = WriteValue;
  McD0PciCfg32 (QNC_ACCESS_PORT_MEA) = (RegAddress & 0xFFFFFF00);
  McD0PciCfg32 (QNC_ACCESS_PORT_MCR) = MESSAGE_WRITE_DW (Port, RegAddress);
}

UINT32
EFIAPI
QNCAltPortRead (
  UINT8 Port,
  UINT32 RegAddress
  )
{
  McD0PciCfg32 (QNC_ACCESS_PORT_MEA) = (RegAddress & 0xFFFFFF00);
  McD0PciCfg32 (QNC_ACCESS_PORT_MCR) = ALT_MESSAGE_READ_DW (Port, RegAddress);
  return McD0PciCfg32 (QNC_ACCESS_PORT_MDR);
}

VOID
EFIAPI
QNCAltPortWrite (
  UINT8 Port,
  UINT32 RegAddress,
  UINT32 WriteValue
  )
{
  McD0PciCfg32 (QNC_ACCESS_PORT_MDR) = WriteValue;
  McD0PciCfg32 (QNC_ACCESS_PORT_MEA) = (RegAddress & 0xFFFFFF00);
  McD0PciCfg32 (QNC_ACCESS_PORT_MCR) = ALT_MESSAGE_WRITE_DW (Port, RegAddress);
}

UINT32
EFIAPI
QNCPortIORead(
  UINT8 Port,
  UINT32 RegAddress
  )
{
  McD0PciCfg32 (QNC_ACCESS_PORT_MEA) = (RegAddress & 0xFFFFFF00);
  McD0PciCfg32 (QNC_ACCESS_PORT_MCR) = MESSAGE_IO_READ_DW (Port, RegAddress);
  return McD0PciCfg32 (QNC_ACCESS_PORT_MDR);
}

VOID
EFIAPI
QNCPortIOWrite (
  UINT8 Port,
  UINT32 RegAddress,
  UINT32 WriteValue
  )
{
  McD0PciCfg32 (QNC_ACCESS_PORT_MDR) = WriteValue;
  McD0PciCfg32 (QNC_ACCESS_PORT_MEA) = (RegAddress & 0xFFFFFF00);
  McD0PciCfg32 (QNC_ACCESS_PORT_MCR) = MESSAGE_IO_WRITE_DW (Port, RegAddress);
}

RETURN_STATUS
EFIAPI
QNCMmIoWrite (
  UINT32             MmIoAddress,
  QNC_MEM_IO_WIDTH    Width,
  UINT32             DataNumber,
  VOID               *pData
  )
/*++

Routine Description:

  This is for the special consideration for QNC MMIO write, as required by FWG, a reading must be performed after MMIO writing
to ensure the expected write is processed and data is flushed into chipset

Arguments:

  Row -- row number to be cleared ( start from 1 )

Returns:

  EFI_SUCCESS

--*/
{
  RETURN_STATUS  Status;
  UINTN          Index;

  Status = RETURN_SUCCESS;

  for (Index =0; Index < DataNumber; Index++) {
    switch (Width) {
      case QNCMmioWidthUint8:
        QNCMmio8 (MmIoAddress, 0) = ((UINT8 *)pData)[Index];
        if (QNCMmio8 (MmIoAddress, 0) != ((UINT8*)pData)[Index]) {
          Status = RETURN_DEVICE_ERROR;
          break;
        }
        break;

      case QNCMmioWidthUint16:
        QNCMmio16 (MmIoAddress, 0) = ((UINT16 *)pData)[Index];
        if (QNCMmio16 (MmIoAddress, 0) != ((UINT16 *)pData)[Index]) {
          Status = RETURN_DEVICE_ERROR;
          break;
        }
        break;

      case QNCMmioWidthUint32:
        QNCMmio32 (MmIoAddress, 0) = ((UINT32 *)pData)[Index];
        if (QNCMmio32 (MmIoAddress, 0) != ((UINT32 *)pData)[Index]) {
          Status = RETURN_DEVICE_ERROR;
          break;
        }
        break;

      case QNCMmioWidthUint64:
        QNCMmio64 (MmIoAddress, 0) = ((UINT64 *)pData)[Index];
        if (QNCMmio64 (MmIoAddress, 0) != ((UINT64 *)pData)[Index]) {
          Status = RETURN_DEVICE_ERROR;
          break;
        }
        break;

      default:
        break;
    }
  }

  return Status;
}

UINT32
EFIAPI
QncHsmmcRead (
  VOID
  )
{
  return QNCPortRead (QUARK_NC_HOST_BRIDGE_SB_PORT_ID, QNC_MSG_FSBIC_REG_HSMMC);
}

VOID
EFIAPI
QncHsmmcWrite (
  UINT32 WriteValue
  )
{
  UINT16  DeviceId;
  UINT32  Data32;

  //
  // Check what Soc we are running on (read Host bridge DeviceId)
  //
  DeviceId = QNCMmPci16(0, MC_BUS, MC_DEV, MC_FUN, PCI_DEVICE_ID_OFFSET);

  if (DeviceId == QUARK2_MC_DEVICE_ID) {
    //
    // Disable HSMMC configuration
    //
    Data32 = QncHsmmcRead ();
    Data32 &= ~SMM_CTL_EN;
    QNCPortWrite (QUARK_NC_HOST_BRIDGE_SB_PORT_ID, QNC_MSG_FSBIC_REG_HSMMC, Data32);

    //
    // Validate HSMMC configuration is disabled
    //
    Data32 = QncHsmmcRead ();
    ASSERT((Data32 & SMM_CTL_EN) == 0);

    //
    // Enable HSMMC configuration
    //
    WriteValue |= SMM_CTL_EN;
  }

  //
  // Write the register value
  //
  QNCPortWrite (QUARK_NC_HOST_BRIDGE_SB_PORT_ID, QNC_MSG_FSBIC_REG_HSMMC, WriteValue);

  if (DeviceId == QUARK2_MC_DEVICE_ID) {
    //
    // Validate HSMMC configuration is enabled
    //
    Data32 = QncHsmmcRead ();
    ASSERT((Data32 & SMM_CTL_EN) != 0);
  }
}

VOID
EFIAPI
QncImrWrite (
  UINT32 ImrBaseOffset,
  UINT32 ImrLow,
  UINT32 ImrHigh,
  UINT32 ImrReadMask,
  UINT32 ImrWriteMask
  )
{
  UINT16  DeviceId;
  UINT32  Data32;

  //
  // Check what Soc we are running on (read Host bridge DeviceId)
  //
  DeviceId = QNCMmPci16(0, MC_BUS, MC_DEV, MC_FUN, PCI_DEVICE_ID_OFFSET);

  //
  // Disable IMR protection
  //
  if (DeviceId == QUARK2_MC_DEVICE_ID) {
    //
    // Disable IMR protection
    //
    Data32 = QNCPortRead (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXL);
    Data32 &= ~IMR_EN;
    QNCPortWrite (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXL, Data32);

    //
    // Validate IMR protection is disabled
    //
    Data32 = QNCPortRead (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXL);
    ASSERT((Data32 & IMR_EN) == 0);

    //
    // Update the IMR (IMRXL must be last as it may enable IMR violation checking)
    //
    QNCPortWrite (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXRM, ImrReadMask);
    QNCPortWrite (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXWM, ImrWriteMask);
    QNCPortWrite (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXH, ImrHigh);
    QNCPortWrite (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXL, ImrLow);

    //
    // Validate IMR protection is enabled/disabled
    //
    Data32 = QNCPortRead (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXL);
    ASSERT((Data32 & IMR_EN) == (ImrLow & IMR_EN));
  } else {
    //
    // Disable IMR protection (allow all access)
    //
    QNCPortWrite (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXRM, (UINT32)IMRX_ALL_ACCESS);
    QNCPortWrite (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXWM, (UINT32)IMRX_ALL_ACCESS);

    //
    // Update the IMR (IMRXRM/IMRXWM must be last as they restrict IMR access)
    //
    QNCPortWrite (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXL, (ImrLow & ~IMR_EN));
    QNCPortWrite (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXH, ImrHigh);
    QNCPortWrite (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXRM, ImrReadMask);
    QNCPortWrite (QUARK_NC_MEMORY_MANAGER_SB_PORT_ID, ImrBaseOffset+QUARK_NC_MEMORY_MANAGER_IMRXWM, ImrWriteMask);
  }
}

VOID
EFIAPI
QncIClkAndThenOr (
  UINT32 RegAddress,
  UINT32 AndValue,
  UINT32 OrValue
  )
{
  UINT32 RegValue;
  //
  // Whenever an iCLK SB register (Endpoint 32h) is being programmed the access
  // should always consist of a READ from the address followed by 2 identical
  // WRITEs to that address.
  //
  RegValue = QNCAltPortRead (QUARK_ICLK_SB_PORT_ID, RegAddress);
  RegValue &= AndValue;
  RegValue |= OrValue;
  QNCAltPortWrite (QUARK_ICLK_SB_PORT_ID, RegAddress, RegValue);
  QNCAltPortWrite (QUARK_ICLK_SB_PORT_ID, RegAddress, RegValue);
}

VOID
EFIAPI
QncIClkOr (
  UINT32 RegAddress,
  UINT32 OrValue
  )
{
  UINT32 RegValue;
  //
  // Whenever an iCLK SB register (Endpoint 32h) is being programmed the access
  // should always consist of a READ from the address followed by 2 identical
  // WRITEs to that address.
  //
  RegValue = QNCAltPortRead (QUARK_ICLK_SB_PORT_ID, RegAddress);
  RegValue |= OrValue;
  QNCAltPortWrite (QUARK_ICLK_SB_PORT_ID, RegAddress, RegValue);
  QNCAltPortWrite (QUARK_ICLK_SB_PORT_ID, RegAddress, RegValue);
}