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|
/** @file
Copyright (c) 2017, Intel Corporation. All rights reserved.<BR>
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.
**/
#include <Uefi.h>
#include <PiPei.h>
#include <Library/BaseLib.h>
#include <Library/BaseMemoryLib.h>
#include <Library/MemoryAllocationLib.h>
#include <Library/IoLib.h>
#include <Library/DebugLib.h>
#include <Library/PeiServicesLib.h>
#include <Library/HobLib.h>
#include <IndustryStandard/Vtd.h>
#include <Ppi/IoMmu.h>
#include <Ppi/VtdInfo.h>
#include "IntelVTdPmrPei.h"
#define TOTAL_DMA_BUFFER_SIZE SIZE_4MB
EFI_ACPI_DMAR_HEADER *mAcpiDmarTable;
VTD_INFO *mVTdInfo;
UINT64 mEngineMask;
UINTN mDmaBufferBase;
UINTN mDmaBufferSize = TOTAL_DMA_BUFFER_SIZE;
UINTN mDmaBufferCurrentTop;
UINTN mDmaBufferCurrentBottom;
#define MAP_INFO_SIGNATURE SIGNATURE_32 ('D', 'M', 'A', 'P')
typedef struct {
UINT32 Signature;
EDKII_IOMMU_OPERATION Operation;
UINTN NumberOfBytes;
EFI_PHYSICAL_ADDRESS HostAddress;
EFI_PHYSICAL_ADDRESS DeviceAddress;
} MAP_INFO;
/**
PEI Memory Layout:
+------------------+ <=============== PHMR.Limit (Top of memory)
| Mem Resource |
| |
+------------------+ <------- EfiMemoryTop
| PEI allocated |
=========== +==================+ <=============== PHMR.Base
^ | Commom Buf |
| | -------------- |
DMA Buffer | * DMA FREE * |
| | -------------- |
V | Read/Write Buf |
=========== +==================+ <=============== PLMR.Limit
| PEI allocated |
| -------------- | <------- EfiFreeMemoryTop
| * PEI FREE * |
| -------------- | <------- EfiFreeMemoryBottom
| hob |
| -------------- |
| Stack |
+------------------+ <------- EfiMemoryBottom / Stack Bottom
+------------------+
| Mem Alloc Hob |
+------------------+
| |
| Mem Resource |
+------------------+ <=============== PLMR.Base (0)
**/
/**
Set IOMMU attribute for a system memory.
If the IOMMU PPI exists, the system memory cannot be used
for DMA by default.
When a device requests a DMA access for a system memory,
the device driver need use SetAttribute() to update the IOMMU
attribute to request DMA access (read and/or write).
@param[in] This The PPI instance pointer.
@param[in] Mapping The mapping value returned from Map().
@param[in] IoMmuAccess The IOMMU access.
@retval EFI_SUCCESS The IoMmuAccess is set for the memory range specified by DeviceAddress and Length.
@retval EFI_INVALID_PARAMETER Mapping is not a value that was returned by Map().
@retval EFI_INVALID_PARAMETER IoMmuAccess specified an illegal combination of access.
@retval EFI_UNSUPPORTED The bit mask of IoMmuAccess is not supported by the IOMMU.
@retval EFI_UNSUPPORTED The IOMMU does not support the memory range specified by Mapping.
@retval EFI_OUT_OF_RESOURCES There are not enough resources available to modify the IOMMU access.
@retval EFI_DEVICE_ERROR The IOMMU device reported an error while attempting the operation.
**/
EFI_STATUS
EFIAPI
PeiIoMmuSetAttribute (
IN EDKII_IOMMU_PPI *This,
IN VOID *Mapping,
IN UINT64 IoMmuAccess
)
{
return EFI_SUCCESS;
}
/**
Provides the controller-specific addresses required to access system memory from a
DMA bus master.
@param This The PPI instance pointer.
@param Operation Indicates if the bus master is going to read or write to system memory.
@param HostAddress The system memory address to map to the PCI controller.
@param NumberOfBytes On input the number of bytes to map. On output the number of bytes
that were mapped.
@param DeviceAddress The resulting map address for the bus master PCI controller to use to
access the hosts HostAddress.
@param Mapping A resulting value to pass to Unmap().
@retval EFI_SUCCESS The range was mapped for the returned NumberOfBytes.
@retval EFI_UNSUPPORTED The HostAddress cannot be mapped as a common buffer.
@retval EFI_INVALID_PARAMETER One or more parameters are invalid.
@retval EFI_OUT_OF_RESOURCES The request could not be completed due to a lack of resources.
@retval EFI_DEVICE_ERROR The system hardware could not map the requested address.
**/
EFI_STATUS
EFIAPI
PeiIoMmuMap (
IN EDKII_IOMMU_PPI *This,
IN EDKII_IOMMU_OPERATION Operation,
IN VOID *HostAddress,
IN OUT UINTN *NumberOfBytes,
OUT EFI_PHYSICAL_ADDRESS *DeviceAddress,
OUT VOID **Mapping
)
{
MAP_INFO *MapInfo;
UINTN Length;
if (Operation == EdkiiIoMmuOperationBusMasterCommonBuffer ||
Operation == EdkiiIoMmuOperationBusMasterCommonBuffer64) {
*DeviceAddress = (UINTN)HostAddress;
*Mapping = 0;
return EFI_SUCCESS;
}
DEBUG ((DEBUG_VERBOSE, "PeiIoMmuMap - HostAddress - 0x%x, NumberOfBytes - %x\n", HostAddress, *NumberOfBytes));
DEBUG ((DEBUG_VERBOSE, " mDmaBufferCurrentTop - %x\n", mDmaBufferCurrentTop));
DEBUG ((DEBUG_VERBOSE, " mDmaBufferCurrentBottom - %x\n", mDmaBufferCurrentBottom));
Length = *NumberOfBytes + sizeof(MAP_INFO);
if (Length > mDmaBufferCurrentTop - mDmaBufferCurrentBottom) {
DEBUG ((DEBUG_ERROR, "PeiIoMmuMap - OUT_OF_RESOURCE\n"));
ASSERT (FALSE);
return EFI_OUT_OF_RESOURCES;
}
*DeviceAddress = mDmaBufferCurrentBottom;
mDmaBufferCurrentBottom += Length;
MapInfo = (VOID *)(UINTN)(*DeviceAddress + *NumberOfBytes);
MapInfo->Signature = MAP_INFO_SIGNATURE;
MapInfo->Operation = Operation;
MapInfo->NumberOfBytes = *NumberOfBytes;
MapInfo->HostAddress = (UINTN)HostAddress;
MapInfo->DeviceAddress = *DeviceAddress;
*Mapping = MapInfo;
DEBUG ((DEBUG_VERBOSE, " Op(%x):DeviceAddress - %x, Mapping - %x\n", Operation, (UINTN)*DeviceAddress, MapInfo));
//
// If this is a read operation from the Bus Master's point of view,
// then copy the contents of the real buffer into the mapped buffer
// so the Bus Master can read the contents of the real buffer.
//
if (Operation == EdkiiIoMmuOperationBusMasterRead ||
Operation == EdkiiIoMmuOperationBusMasterRead64) {
CopyMem (
(VOID *) (UINTN) MapInfo->DeviceAddress,
(VOID *) (UINTN) MapInfo->HostAddress,
MapInfo->NumberOfBytes
);
}
return EFI_SUCCESS;
}
/**
Completes the Map() operation and releases any corresponding resources.
@param This The PPI instance pointer.
@param Mapping The mapping value returned from Map().
@retval EFI_SUCCESS The range was unmapped.
@retval EFI_INVALID_PARAMETER Mapping is not a value that was returned by Map().
@retval EFI_DEVICE_ERROR The data was not committed to the target system memory.
**/
EFI_STATUS
EFIAPI
PeiIoMmuUnmap (
IN EDKII_IOMMU_PPI *This,
IN VOID *Mapping
)
{
MAP_INFO *MapInfo;
UINTN Length;
if (Mapping == NULL) {
return EFI_SUCCESS;
}
DEBUG ((DEBUG_VERBOSE, "PeiIoMmuUnmap - Mapping - %x\n", Mapping));
DEBUG ((DEBUG_VERBOSE, " mDmaBufferCurrentTop - %x\n", mDmaBufferCurrentTop));
DEBUG ((DEBUG_VERBOSE, " mDmaBufferCurrentBottom - %x\n", mDmaBufferCurrentBottom));
MapInfo = Mapping;
ASSERT (MapInfo->Signature == MAP_INFO_SIGNATURE);
DEBUG ((DEBUG_VERBOSE, " Op(%x):DeviceAddress - %x, NumberOfBytes - %x\n", MapInfo->Operation, (UINTN)MapInfo->DeviceAddress, MapInfo->NumberOfBytes));
//
// If this is a write operation from the Bus Master's point of view,
// then copy the contents of the mapped buffer into the real buffer
// so the processor can read the contents of the real buffer.
//
if (MapInfo->Operation == EdkiiIoMmuOperationBusMasterWrite ||
MapInfo->Operation == EdkiiIoMmuOperationBusMasterWrite64) {
CopyMem (
(VOID *) (UINTN) MapInfo->HostAddress,
(VOID *) (UINTN) MapInfo->DeviceAddress,
MapInfo->NumberOfBytes
);
}
Length = MapInfo->NumberOfBytes + sizeof(MAP_INFO);
if (mDmaBufferCurrentBottom == MapInfo->DeviceAddress + Length) {
mDmaBufferCurrentBottom -= Length;
}
return EFI_SUCCESS;
}
/**
Allocates pages that are suitable for an OperationBusMasterCommonBuffer or
OperationBusMasterCommonBuffer64 mapping.
@param This The PPI instance pointer.
@param MemoryType The type of memory to allocate, EfiBootServicesData or
EfiRuntimeServicesData.
@param Pages The number of pages to allocate.
@param HostAddress A pointer to store the base system memory address of the
allocated range.
@param Attributes The requested bit mask of attributes for the allocated range.
@retval EFI_SUCCESS The requested memory pages were allocated.
@retval EFI_UNSUPPORTED Attributes is unsupported. The only legal attribute bits are
MEMORY_WRITE_COMBINE and MEMORY_CACHED.
@retval EFI_INVALID_PARAMETER One or more parameters are invalid.
@retval EFI_OUT_OF_RESOURCES The memory pages could not be allocated.
**/
EFI_STATUS
EFIAPI
PeiIoMmuAllocateBuffer (
IN EDKII_IOMMU_PPI *This,
IN EFI_MEMORY_TYPE MemoryType,
IN UINTN Pages,
IN OUT VOID **HostAddress,
IN UINT64 Attributes
)
{
UINTN Length;
DEBUG ((DEBUG_VERBOSE, "PeiIoMmuAllocateBuffer - page - %x\n", Pages));
DEBUG ((DEBUG_VERBOSE, " mDmaBufferCurrentTop - %x\n", mDmaBufferCurrentTop));
DEBUG ((DEBUG_VERBOSE, " mDmaBufferCurrentBottom - %x\n", mDmaBufferCurrentBottom));
Length = EFI_PAGES_TO_SIZE(Pages);
if (Length > mDmaBufferCurrentTop - mDmaBufferCurrentBottom) {
DEBUG ((DEBUG_ERROR, "PeiIoMmuAllocateBuffer - OUT_OF_RESOURCE\n"));
ASSERT (FALSE);
return EFI_OUT_OF_RESOURCES;
}
*HostAddress = (VOID *)(UINTN)(mDmaBufferCurrentTop - Length);
mDmaBufferCurrentTop -= Length;
DEBUG ((DEBUG_VERBOSE, "PeiIoMmuAllocateBuffer - allocate - %x\n", *HostAddress));
return EFI_SUCCESS;
}
/**
Frees memory that was allocated with AllocateBuffer().
@param This The PPI instance pointer.
@param Pages The number of pages to free.
@param HostAddress The base system memory address of the allocated range.
@retval EFI_SUCCESS The requested memory pages were freed.
@retval EFI_INVALID_PARAMETER The memory range specified by HostAddress and Pages
was not allocated with AllocateBuffer().
**/
EFI_STATUS
EFIAPI
PeiIoMmuFreeBuffer (
IN EDKII_IOMMU_PPI *This,
IN UINTN Pages,
IN VOID *HostAddress
)
{
UINTN Length;
DEBUG ((DEBUG_VERBOSE, "PeiIoMmuFreeBuffer - page - %x, HostAddr - %x\n", Pages, HostAddress));
DEBUG ((DEBUG_VERBOSE, " mDmaBufferCurrentTop - %x\n", mDmaBufferCurrentTop));
DEBUG ((DEBUG_VERBOSE, " mDmaBufferCurrentBottom - %x\n", mDmaBufferCurrentBottom));
Length = EFI_PAGES_TO_SIZE(Pages);
if ((UINTN)HostAddress == mDmaBufferCurrentTop) {
mDmaBufferCurrentTop += Length;
}
return EFI_SUCCESS;
}
EDKII_IOMMU_PPI mIoMmuPpi = {
EDKII_IOMMU_PPI_REVISION,
PeiIoMmuSetAttribute,
PeiIoMmuMap,
PeiIoMmuUnmap,
PeiIoMmuAllocateBuffer,
PeiIoMmuFreeBuffer,
};
CONST EFI_PEI_PPI_DESCRIPTOR mIoMmuPpiList = {
EFI_PEI_PPI_DESCRIPTOR_PPI | EFI_PEI_PPI_DESCRIPTOR_TERMINATE_LIST,
&gEdkiiIoMmuPpiGuid,
(VOID *) &mIoMmuPpi
};
#define MEMORY_ATTRIBUTE_MASK (EFI_RESOURCE_ATTRIBUTE_PRESENT | \
EFI_RESOURCE_ATTRIBUTE_INITIALIZED | \
EFI_RESOURCE_ATTRIBUTE_TESTED | \
EFI_RESOURCE_ATTRIBUTE_16_BIT_IO | \
EFI_RESOURCE_ATTRIBUTE_32_BIT_IO | \
EFI_RESOURCE_ATTRIBUTE_64_BIT_IO \
)
#define TESTED_MEMORY_ATTRIBUTES (EFI_RESOURCE_ATTRIBUTE_PRESENT | EFI_RESOURCE_ATTRIBUTE_INITIALIZED | EFI_RESOURCE_ATTRIBUTE_TESTED)
#define INITIALIZED_MEMORY_ATTRIBUTES (EFI_RESOURCE_ATTRIBUTE_PRESENT | EFI_RESOURCE_ATTRIBUTE_INITIALIZED)
#define PRESENT_MEMORY_ATTRIBUTES (EFI_RESOURCE_ATTRIBUTE_PRESENT)
GLOBAL_REMOVE_IF_UNREFERENCED CHAR8 *mResourceTypeShortName[] = {
"Mem",
"MMIO",
"I/O",
"FD",
"MM Port I/O",
"Reserved Mem",
"Reserved I/O",
};
/**
Return the short name of resource type.
@param Type resource type.
@return the short name of resource type.
**/
CHAR8 *
ShortNameOfResourceType (
IN UINT32 Type
)
{
if (Type < sizeof(mResourceTypeShortName) / sizeof(mResourceTypeShortName[0])) {
return mResourceTypeShortName[Type];
} else {
return "Unknown";
}
}
/**
Dump resource hob.
@param HobList the HOB list.
**/
VOID
DumpResourceHob (
IN VOID *HobList
)
{
EFI_PEI_HOB_POINTERS Hob;
EFI_HOB_RESOURCE_DESCRIPTOR *ResourceHob;
DEBUG ((DEBUG_VERBOSE, "Resource Descriptor HOBs\n"));
for (Hob.Raw = HobList; !END_OF_HOB_LIST (Hob); Hob.Raw = GET_NEXT_HOB (Hob)) {
if (GET_HOB_TYPE (Hob) == EFI_HOB_TYPE_RESOURCE_DESCRIPTOR) {
ResourceHob = Hob.ResourceDescriptor;
DEBUG ((DEBUG_VERBOSE,
" BA=%016lx L=%016lx Attr=%08x ",
ResourceHob->PhysicalStart,
ResourceHob->ResourceLength,
ResourceHob->ResourceAttribute
));
DEBUG ((DEBUG_VERBOSE, ShortNameOfResourceType(ResourceHob->ResourceType)));
switch (ResourceHob->ResourceType) {
case EFI_RESOURCE_SYSTEM_MEMORY:
if ((ResourceHob->ResourceAttribute & EFI_RESOURCE_ATTRIBUTE_PERSISTENT) != 0) {
DEBUG ((DEBUG_VERBOSE, " (Persistent)"));
} else if ((ResourceHob->ResourceAttribute & EFI_RESOURCE_ATTRIBUTE_MORE_RELIABLE) != 0) {
DEBUG ((DEBUG_VERBOSE, " (MoreReliable)"));
} else if ((ResourceHob->ResourceAttribute & MEMORY_ATTRIBUTE_MASK) == TESTED_MEMORY_ATTRIBUTES) {
DEBUG ((DEBUG_VERBOSE, " (Tested)"));
} else if ((ResourceHob->ResourceAttribute & MEMORY_ATTRIBUTE_MASK) == INITIALIZED_MEMORY_ATTRIBUTES) {
DEBUG ((DEBUG_VERBOSE, " (Init)"));
} else if ((ResourceHob->ResourceAttribute & MEMORY_ATTRIBUTE_MASK) == PRESENT_MEMORY_ATTRIBUTES) {
DEBUG ((DEBUG_VERBOSE, " (Present)"));
} else {
DEBUG ((DEBUG_VERBOSE, " (Unknown)"));
}
break;
default:
break;
}
DEBUG ((DEBUG_VERBOSE, "\n"));
}
}
}
/**
Dump PHIT hob.
@param HobList the HOB list.
**/
VOID
DumpPhitHob (
IN VOID *HobList
)
{
EFI_HOB_HANDOFF_INFO_TABLE *PhitHob;
PhitHob = HobList;
ASSERT(GET_HOB_TYPE(HobList) == EFI_HOB_TYPE_HANDOFF);
DEBUG ((DEBUG_VERBOSE, "PHIT HOB\n"));
DEBUG ((DEBUG_VERBOSE, " PhitHob - 0x%x\n", PhitHob));
DEBUG ((DEBUG_VERBOSE, " BootMode - 0x%x\n", PhitHob->BootMode));
DEBUG ((DEBUG_VERBOSE, " EfiMemoryTop - 0x%016lx\n", PhitHob->EfiMemoryTop));
DEBUG ((DEBUG_VERBOSE, " EfiMemoryBottom - 0x%016lx\n", PhitHob->EfiMemoryBottom));
DEBUG ((DEBUG_VERBOSE, " EfiFreeMemoryTop - 0x%016lx\n", PhitHob->EfiFreeMemoryTop));
DEBUG ((DEBUG_VERBOSE, " EfiFreeMemoryBottom - 0x%016lx\n", PhitHob->EfiFreeMemoryBottom));
DEBUG ((DEBUG_VERBOSE, " EfiEndOfHobList - 0x%lx\n", PhitHob->EfiEndOfHobList));
}
/**
Get the highest memory.
@return the highest memory.
**/
UINT64
GetTopMemory (
VOID
)
{
VOID *HobList;
EFI_PEI_HOB_POINTERS Hob;
EFI_HOB_RESOURCE_DESCRIPTOR *ResourceHob;
UINT64 TopMemory;
UINT64 ResourceTop;
HobList = GetHobList ();
TopMemory = 0;
for (Hob.Raw = HobList; !END_OF_HOB_LIST (Hob); Hob.Raw = GET_NEXT_HOB (Hob)) {
if (GET_HOB_TYPE (Hob) == EFI_HOB_TYPE_RESOURCE_DESCRIPTOR) {
ResourceHob = Hob.ResourceDescriptor;
switch (ResourceHob->ResourceType) {
case EFI_RESOURCE_SYSTEM_MEMORY:
ResourceTop = ResourceHob->PhysicalStart + ResourceHob->ResourceLength;
if (TopMemory < ResourceTop) {
TopMemory = ResourceTop;
}
break;
default:
break;
}
DEBUG ((DEBUG_VERBOSE, "\n"));
}
}
return TopMemory;
}
/**
Initialize DMA protection.
@param DmaBufferSize the DMA buffer size
@param DmaBufferBase the DMA buffer base
@retval EFI_SUCCESS the DMA protection is initialized.
@retval EFI_OUT_OF_RESOURCES no enough resource to initialize DMA protection.
**/
EFI_STATUS
InitDmaProtection (
IN UINTN DmaBufferSize,
OUT UINTN *DmaBufferBase
)
{
EFI_STATUS Status;
VOID *HobList;
EFI_HOB_HANDOFF_INFO_TABLE *PhitHob;
UINT32 LowMemoryAlignment;
UINT64 HighMemoryAlignment;
UINTN MemoryAlignment;
UINTN LowBottom;
UINTN LowTop;
UINTN HighBottom;
UINT64 HighTop;
HobList = GetHobList ();
DumpPhitHob (HobList);
DumpResourceHob (HobList);
PhitHob = HobList;
ASSERT (PhitHob->EfiMemoryBottom < PhitHob->EfiMemoryTop);
LowMemoryAlignment = GetLowMemoryAlignment (mEngineMask);
HighMemoryAlignment = GetHighMemoryAlignment (mEngineMask);
if (LowMemoryAlignment < HighMemoryAlignment) {
MemoryAlignment = (UINTN)HighMemoryAlignment;
} else {
MemoryAlignment = LowMemoryAlignment;
}
ASSERT (DmaBufferSize == ALIGN_VALUE(DmaBufferSize, MemoryAlignment));
*DmaBufferBase = (UINTN)AllocateAlignedPages (EFI_SIZE_TO_PAGES(DmaBufferSize), MemoryAlignment);
if (*DmaBufferBase == 0) {
DEBUG ((DEBUG_INFO, " InitDmaProtection : OutOfResource\n"));
return EFI_OUT_OF_RESOURCES;
}
LowBottom = 0;
LowTop = *DmaBufferBase;
HighBottom = *DmaBufferBase + DmaBufferSize;
HighTop = GetTopMemory ();
Status = SetDmaProtectedRange (
mEngineMask,
(UINT32)LowBottom,
(UINT32)(LowTop - LowBottom),
HighBottom,
HighTop - HighBottom
);
if (EFI_ERROR(Status)) {
FreePages ((VOID *)*DmaBufferBase, EFI_SIZE_TO_PAGES(DmaBufferSize));
}
return Status;
}
/**
Dump DMAR DeviceScopeEntry.
@param[in] DmarDeviceScopeEntry DMAR DeviceScopeEntry
**/
VOID
DumpDmarDeviceScopeEntry (
IN EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *DmarDeviceScopeEntry
)
{
UINTN PciPathNumber;
UINTN PciPathIndex;
EFI_ACPI_DMAR_PCI_PATH *PciPath;
if (DmarDeviceScopeEntry == NULL) {
return;
}
DEBUG ((DEBUG_INFO,
" *************************************************************************\n"
));
DEBUG ((DEBUG_INFO,
" * DMA-Remapping Device Scope Entry Structure *\n"
));
DEBUG ((DEBUG_INFO,
" *************************************************************************\n"
));
DEBUG ((DEBUG_INFO,
(sizeof(UINTN) == sizeof(UINT64)) ?
" DMAR Device Scope Entry address ...................... 0x%016lx\n" :
" DMAR Device Scope Entry address ...................... 0x%08x\n",
DmarDeviceScopeEntry
));
DEBUG ((DEBUG_INFO,
" Device Scope Entry Type ............................ 0x%02x\n",
DmarDeviceScopeEntry->Type
));
switch (DmarDeviceScopeEntry->Type) {
case EFI_ACPI_DEVICE_SCOPE_ENTRY_TYPE_PCI_ENDPOINT:
DEBUG ((DEBUG_INFO,
" PCI Endpoint Device\n"
));
break;
case EFI_ACPI_DEVICE_SCOPE_ENTRY_TYPE_PCI_BRIDGE:
DEBUG ((DEBUG_INFO,
" PCI Sub-hierachy\n"
));
break;
default:
break;
}
DEBUG ((DEBUG_INFO,
" Length ............................................. 0x%02x\n",
DmarDeviceScopeEntry->Length
));
DEBUG ((DEBUG_INFO,
" Enumeration ID ..................................... 0x%02x\n",
DmarDeviceScopeEntry->EnumerationId
));
DEBUG ((DEBUG_INFO,
" Starting Bus Number ................................ 0x%02x\n",
DmarDeviceScopeEntry->StartBusNumber
));
PciPathNumber = (DmarDeviceScopeEntry->Length - sizeof(EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER)) / sizeof(EFI_ACPI_DMAR_PCI_PATH);
PciPath = (EFI_ACPI_DMAR_PCI_PATH *)(DmarDeviceScopeEntry + 1);
for (PciPathIndex = 0; PciPathIndex < PciPathNumber; PciPathIndex++) {
DEBUG ((DEBUG_INFO,
" Device ............................................. 0x%02x\n",
PciPath[PciPathIndex].Device
));
DEBUG ((DEBUG_INFO,
" Function ........................................... 0x%02x\n",
PciPath[PciPathIndex].Function
));
}
DEBUG ((DEBUG_INFO,
" *************************************************************************\n\n"
));
return;
}
/**
Dump DMAR RMRR table.
@param[in] Rmrr DMAR RMRR table
**/
VOID
DumpDmarRmrr (
IN EFI_ACPI_DMAR_RMRR_HEADER *Rmrr
)
{
EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *DmarDeviceScopeEntry;
INTN RmrrLen;
if (Rmrr == NULL) {
return;
}
DEBUG ((DEBUG_INFO,
" ***************************************************************************\n"
));
DEBUG ((DEBUG_INFO,
" * Reserved Memory Region Reporting Structure *\n"
));
DEBUG ((DEBUG_INFO,
" ***************************************************************************\n"
));
DEBUG ((DEBUG_INFO,
(sizeof(UINTN) == sizeof(UINT64)) ?
" RMRR address ........................................... 0x%016lx\n" :
" RMRR address ........................................... 0x%08x\n",
Rmrr
));
DEBUG ((DEBUG_INFO,
" Type ................................................. 0x%04x\n",
Rmrr->Header.Type
));
DEBUG ((DEBUG_INFO,
" Length ............................................... 0x%04x\n",
Rmrr->Header.Length
));
DEBUG ((DEBUG_INFO,
" Segment Number ....................................... 0x%04x\n",
Rmrr->SegmentNumber
));
DEBUG ((DEBUG_INFO,
" Reserved Memory Region Base Address .................. 0x%016lx\n",
Rmrr->ReservedMemoryRegionBaseAddress
));
DEBUG ((DEBUG_INFO,
" Reserved Memory Region Limit Address ................. 0x%016lx\n",
Rmrr->ReservedMemoryRegionLimitAddress
));
RmrrLen = Rmrr->Header.Length - sizeof(EFI_ACPI_DMAR_RMRR_HEADER);
DmarDeviceScopeEntry = (EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *)(Rmrr + 1);
while (RmrrLen > 0) {
DumpDmarDeviceScopeEntry (DmarDeviceScopeEntry);
RmrrLen -= DmarDeviceScopeEntry->Length;
DmarDeviceScopeEntry = (EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *)((UINTN)DmarDeviceScopeEntry + DmarDeviceScopeEntry->Length);
}
DEBUG ((DEBUG_INFO,
" ***************************************************************************\n\n"
));
return;
}
/**
Dump DMAR DRHD table.
@param[in] Drhd DMAR DRHD table
**/
VOID
DumpDmarDrhd (
IN EFI_ACPI_DMAR_DRHD_HEADER *Drhd
)
{
EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *DmarDeviceScopeEntry;
INTN DrhdLen;
if (Drhd == NULL) {
return;
}
DEBUG ((DEBUG_INFO,
" ***************************************************************************\n"
));
DEBUG ((DEBUG_INFO,
" * DMA-Remapping Hardware Definition Structure *\n"
));
DEBUG ((DEBUG_INFO,
" ***************************************************************************\n"
));
DEBUG ((DEBUG_INFO,
(sizeof(UINTN) == sizeof(UINT64)) ?
" DRHD address ........................................... 0x%016lx\n" :
" DRHD address ........................................... 0x%08x\n",
Drhd
));
DEBUG ((DEBUG_INFO,
" Type ................................................. 0x%04x\n",
Drhd->Header.Type
));
DEBUG ((DEBUG_INFO,
" Length ............................................... 0x%04x\n",
Drhd->Header.Length
));
DEBUG ((DEBUG_INFO,
" Flags ................................................ 0x%02x\n",
Drhd->Flags
));
DEBUG ((DEBUG_INFO,
" INCLUDE_PCI_ALL .................................... 0x%02x\n",
Drhd->Flags & EFI_ACPI_DMAR_DRHD_FLAGS_INCLUDE_PCI_ALL
));
DEBUG ((DEBUG_INFO,
" Segment Number ....................................... 0x%04x\n",
Drhd->SegmentNumber
));
DEBUG ((DEBUG_INFO,
" Register Base Address ................................ 0x%016lx\n",
Drhd->RegisterBaseAddress
));
DrhdLen = Drhd->Header.Length - sizeof(EFI_ACPI_DMAR_DRHD_HEADER);
DmarDeviceScopeEntry = (EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *)(Drhd + 1);
while (DrhdLen > 0) {
DumpDmarDeviceScopeEntry (DmarDeviceScopeEntry);
DrhdLen -= DmarDeviceScopeEntry->Length;
DmarDeviceScopeEntry = (EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *)((UINTN)DmarDeviceScopeEntry + DmarDeviceScopeEntry->Length);
}
DEBUG ((DEBUG_INFO,
" ***************************************************************************\n\n"
));
return;
}
/**
Dump DMAR ACPI table.
@param[in] Dmar DMAR ACPI table
**/
VOID
DumpAcpiDMAR (
IN EFI_ACPI_DMAR_HEADER *Dmar
)
{
EFI_ACPI_DMAR_STRUCTURE_HEADER *DmarHeader;
INTN DmarLen;
if (Dmar == NULL) {
return;
}
//
// Dump Dmar table
//
DEBUG ((DEBUG_INFO,
"*****************************************************************************\n"
));
DEBUG ((DEBUG_INFO,
"* DMAR Table *\n"
));
DEBUG ((DEBUG_INFO,
"*****************************************************************************\n"
));
DEBUG ((DEBUG_INFO,
(sizeof(UINTN) == sizeof(UINT64)) ?
"DMAR address ............................................. 0x%016lx\n" :
"DMAR address ............................................. 0x%08x\n",
Dmar
));
DEBUG ((DEBUG_INFO,
" Table Contents:\n"
));
DEBUG ((DEBUG_INFO,
" Host Address Width ................................... 0x%02x\n",
Dmar->HostAddressWidth
));
DEBUG ((DEBUG_INFO,
" Flags ................................................ 0x%02x\n",
Dmar->Flags
));
DEBUG ((DEBUG_INFO,
" INTR_REMAP ......................................... 0x%02x\n",
Dmar->Flags & EFI_ACPI_DMAR_FLAGS_INTR_REMAP
));
DEBUG ((DEBUG_INFO,
" X2APIC_OPT_OUT_SET ................................. 0x%02x\n",
Dmar->Flags & EFI_ACPI_DMAR_FLAGS_X2APIC_OPT_OUT
));
DmarLen = Dmar->Header.Length - sizeof(EFI_ACPI_DMAR_HEADER);
DmarHeader = (EFI_ACPI_DMAR_STRUCTURE_HEADER *)(Dmar + 1);
while (DmarLen > 0) {
switch (DmarHeader->Type) {
case EFI_ACPI_DMAR_TYPE_DRHD:
DumpDmarDrhd ((EFI_ACPI_DMAR_DRHD_HEADER *)DmarHeader);
break;
case EFI_ACPI_DMAR_TYPE_RMRR:
DumpDmarRmrr ((EFI_ACPI_DMAR_RMRR_HEADER *)DmarHeader);
break;
default:
break;
}
DmarLen -= DmarHeader->Length;
DmarHeader = (EFI_ACPI_DMAR_STRUCTURE_HEADER *)((UINTN)DmarHeader + DmarHeader->Length);
}
DEBUG ((DEBUG_INFO,
"*****************************************************************************\n\n"
));
return;
}
/**
Get VTd engine number.
@return the VTd engine number.
**/
UINTN
GetVtdEngineNumber (
VOID
)
{
EFI_ACPI_DMAR_STRUCTURE_HEADER *DmarHeader;
UINTN VtdIndex;
VtdIndex = 0;
DmarHeader = (EFI_ACPI_DMAR_STRUCTURE_HEADER *)((UINTN)(mAcpiDmarTable + 1));
while ((UINTN)DmarHeader < (UINTN)mAcpiDmarTable + mAcpiDmarTable->Header.Length) {
switch (DmarHeader->Type) {
case EFI_ACPI_DMAR_TYPE_DRHD:
VtdIndex++;
break;
default:
break;
}
DmarHeader = (EFI_ACPI_DMAR_STRUCTURE_HEADER *)((UINTN)DmarHeader + DmarHeader->Length);
}
return VtdIndex ;
}
/**
Process DMAR DHRD table.
@param[in] VtdIndex The index of VTd engine.
@param[in] DmarDrhd The DRHD table.
**/
VOID
ProcessDhrd (
IN UINTN VtdIndex,
IN EFI_ACPI_DMAR_DRHD_HEADER *DmarDrhd
)
{
DEBUG ((DEBUG_INFO," VTD (%d) BaseAddress - 0x%016lx\n", VtdIndex, DmarDrhd->RegisterBaseAddress));
mVTdInfo->VTdEngineAddress[VtdIndex] = DmarDrhd->RegisterBaseAddress;
}
/**
Parse DMAR DRHD table.
@return EFI_SUCCESS The DMAR DRHD table is parsed.
**/
EFI_STATUS
ParseDmarAcpiTableDrhd (
VOID
)
{
EFI_ACPI_DMAR_STRUCTURE_HEADER *DmarHeader;
UINTN VtdUnitNumber;
UINTN VtdIndex;
VtdUnitNumber = GetVtdEngineNumber ();
if (VtdUnitNumber == 0) {
return EFI_UNSUPPORTED;
}
mVTdInfo = AllocateZeroPool (sizeof(VTD_INFO) + (VtdUnitNumber - 1) * sizeof(UINT64));
if (mVTdInfo == NULL) {
return EFI_OUT_OF_RESOURCES;
}
mVTdInfo->HostAddressWidth = mAcpiDmarTable->HostAddressWidth;
mVTdInfo->VTdEngineCount = VtdUnitNumber;
VtdIndex = 0;
DmarHeader = (EFI_ACPI_DMAR_STRUCTURE_HEADER *)((UINTN)(mAcpiDmarTable + 1));
while ((UINTN)DmarHeader < (UINTN)mAcpiDmarTable + mAcpiDmarTable->Header.Length) {
switch (DmarHeader->Type) {
case EFI_ACPI_DMAR_TYPE_DRHD:
ASSERT (VtdIndex < VtdUnitNumber);
ProcessDhrd (VtdIndex, (EFI_ACPI_DMAR_DRHD_HEADER *)DmarHeader);
VtdIndex++;
break;
default:
break;
}
DmarHeader = (EFI_ACPI_DMAR_STRUCTURE_HEADER *)((UINTN)DmarHeader + DmarHeader->Length);
}
ASSERT (VtdIndex == VtdUnitNumber);
//
// Initialize the engine mask to all.
//
mEngineMask = LShiftU64 (1, VtdUnitNumber) - 1;
return EFI_SUCCESS;
}
/**
Return the VTd engine index according to the Segment and DevScopeEntry.
@param Segment The segment of the VTd engine
@param DevScopeEntry The DevScopeEntry of the VTd engine
@return The VTd engine index according to the Segment and DevScopeEntry.
@retval -1 The VTd engine is not found.
**/
UINTN
GetVTdEngineFromDevScopeEntry (
IN UINT16 Segment,
IN EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *DevScopeEntry
)
{
EFI_ACPI_DMAR_STRUCTURE_HEADER *DmarHeader;
UINTN VtdIndex;
EFI_ACPI_DMAR_DRHD_HEADER *DmarDrhd;
EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *ThisDevScopeEntry;
VtdIndex = 0;
DmarHeader = (EFI_ACPI_DMAR_STRUCTURE_HEADER *)((UINTN)(mAcpiDmarTable + 1));
while ((UINTN)DmarHeader < (UINTN)mAcpiDmarTable + mAcpiDmarTable->Header.Length) {
switch (DmarHeader->Type) {
case EFI_ACPI_DMAR_TYPE_DRHD:
DmarDrhd = (EFI_ACPI_DMAR_DRHD_HEADER *)DmarHeader;
if (DmarDrhd->SegmentNumber != Segment) {
// Mismatch
break;
}
if ((DmarDrhd->Header.Length == sizeof(EFI_ACPI_DMAR_DRHD_HEADER)) ||
((DmarDrhd->Flags & EFI_ACPI_DMAR_DRHD_FLAGS_INCLUDE_PCI_ALL) != 0)) {
// No DevScopeEntry
// Do not handle PCI_ALL
break;
}
ThisDevScopeEntry = (EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *)((UINTN)(DmarDrhd + 1));
while ((UINTN)ThisDevScopeEntry < (UINTN)DmarDrhd + DmarDrhd->Header.Length) {
if ((ThisDevScopeEntry->Length == DevScopeEntry->Length) &&
(CompareMem (ThisDevScopeEntry, DevScopeEntry, DevScopeEntry->Length) == 0)) {
return VtdIndex;
}
ThisDevScopeEntry = (EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *)((UINTN)ThisDevScopeEntry + ThisDevScopeEntry->Length);
}
break;
default:
break;
}
DmarHeader = (EFI_ACPI_DMAR_STRUCTURE_HEADER *)((UINTN)DmarHeader + DmarHeader->Length);
}
return (UINTN)-1;
}
/**
Process DMAR RMRR table.
@param[in] DmarRmrr The RMRR table.
**/
VOID
ProcessRmrr (
IN EFI_ACPI_DMAR_RMRR_HEADER *DmarRmrr
)
{
EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *DmarDevScopeEntry;
UINTN VTdIndex;
UINT64 RmrrMask;
UINTN LowBottom;
UINTN LowTop;
UINTN HighBottom;
UINT64 HighTop;
DEBUG ((DEBUG_INFO," RMRR (Base 0x%016lx, Limit 0x%016lx)\n", DmarRmrr->ReservedMemoryRegionBaseAddress, DmarRmrr->ReservedMemoryRegionLimitAddress));
if ((DmarRmrr->ReservedMemoryRegionBaseAddress == 0) ||
(DmarRmrr->ReservedMemoryRegionLimitAddress == 0)) {
return ;
}
DmarDevScopeEntry = (EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *)((UINTN)(DmarRmrr + 1));
while ((UINTN)DmarDevScopeEntry < (UINTN)DmarRmrr + DmarRmrr->Header.Length) {
ASSERT (DmarDevScopeEntry->Type == EFI_ACPI_DEVICE_SCOPE_ENTRY_TYPE_PCI_ENDPOINT);
VTdIndex = GetVTdEngineFromDevScopeEntry (DmarRmrr->SegmentNumber, DmarDevScopeEntry);
if (VTdIndex != (UINTN)-1) {
RmrrMask = LShiftU64 (1, VTdIndex);
LowBottom = 0;
LowTop = (UINTN)DmarRmrr->ReservedMemoryRegionBaseAddress;
HighBottom = (UINTN)DmarRmrr->ReservedMemoryRegionLimitAddress + 1;
HighTop = GetTopMemory ();
SetDmaProtectedRange (
RmrrMask,
0,
(UINT32)(LowTop - LowBottom),
HighBottom,
HighTop - HighBottom
);
//
// Remove the engine from the engine mask.
// The assumption is that any other PEI driver does not access
// the device covered by this engine.
//
mEngineMask = mEngineMask & (~RmrrMask);
}
DmarDevScopeEntry = (EFI_ACPI_DMAR_DEVICE_SCOPE_STRUCTURE_HEADER *)((UINTN)DmarDevScopeEntry + DmarDevScopeEntry->Length);
}
}
/**
Parse DMAR DRHD table.
**/
VOID
ParseDmarAcpiTableRmrr (
VOID
)
{
EFI_ACPI_DMAR_STRUCTURE_HEADER *DmarHeader;
DmarHeader = (EFI_ACPI_DMAR_STRUCTURE_HEADER *)((UINTN)(mAcpiDmarTable + 1));
while ((UINTN)DmarHeader < (UINTN)mAcpiDmarTable + mAcpiDmarTable->Header.Length) {
switch (DmarHeader->Type) {
case EFI_ACPI_DMAR_TYPE_RMRR:
ProcessRmrr ((EFI_ACPI_DMAR_RMRR_HEADER *)DmarHeader);
break;
default:
break;
}
DmarHeader = (EFI_ACPI_DMAR_STRUCTURE_HEADER *)((UINTN)DmarHeader + DmarHeader->Length);
}
}
/**
Initializes the Intel VTd PMR PEIM.
@param FileHandle Handle of the file being invoked.
@param PeiServices Describes the list of possible PEI Services.
@retval EFI_SUCCESS Usb bot driver is successfully initialized.
@retval EFI_OUT_OF_RESOURCES Can't initialize the driver.
**/
EFI_STATUS
EFIAPI
IntelVTdPmrInitialize (
IN EFI_PEI_FILE_HANDLE FileHandle,
IN CONST EFI_PEI_SERVICES **PeiServices
)
{
EFI_STATUS Status;
if ((PcdGet8(PcdVTdPolicyPropertyMask) & BIT0) == 0) {
return EFI_UNSUPPORTED;
}
Status = PeiServicesLocatePpi (
&gEdkiiVTdInfoPpiGuid,
0,
NULL,
(VOID **)&mAcpiDmarTable
);
ASSERT_EFI_ERROR(Status);
DumpAcpiDMAR (mAcpiDmarTable);
//
// Get DMAR information to local VTdInfo
//
Status = ParseDmarAcpiTableDrhd ();
if (EFI_ERROR(Status)) {
return Status;
}
//
// If there is RMRR memory, parse it here.
//
ParseDmarAcpiTableRmrr ();
//
// Find a pre-memory in resource hob as DMA buffer
// Mark PEI memory to be DMA protected.
//
Status = InitDmaProtection (mDmaBufferSize, &mDmaBufferBase);
if (EFI_ERROR(Status)) {
return Status;
}
DEBUG ((DEBUG_INFO, " DmaBufferBase : 0x%x\n", mDmaBufferBase));
DEBUG ((DEBUG_INFO, " DmaBufferSize : 0x%x\n", mDmaBufferSize));
mDmaBufferCurrentTop = mDmaBufferBase + mDmaBufferSize;
mDmaBufferCurrentBottom = mDmaBufferBase;
//
// Install PPI.
//
Status = PeiServicesInstallPpi (&mIoMmuPpiList);
ASSERT_EFI_ERROR(Status);
return Status;
}
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