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/** @file
* File managing the MMU for ARMv7 architecture
*
* Copyright (c) 2011-2012, ARM Limited. All rights reserved.
*
* 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 <Chipset/ArmV7.h>
#include <Library/BaseMemoryLib.h>
#include <Library/MemoryAllocationLib.h>
#include <Library/ArmLib.h>
#include <Library/BaseLib.h>
#include <Library/DebugLib.h>
#include "ArmV7Lib.h"
#include "ArmLibPrivate.h"
VOID
PopulateLevel2PageTable (
IN UINT32 *SectionEntry,
IN UINT32 PhysicalBase,
IN UINT32 RemainLength,
IN ARM_MEMORY_REGION_ATTRIBUTES Attributes
)
{
UINT32* PageEntry;
UINT32 Pages;
UINT32 Index;
UINT32 PageAttributes;
UINT32 SectionDescriptor;
UINT32 TranslationTable;
UINT32 BaseSectionAddress;
switch (Attributes) {
case ARM_MEMORY_REGION_ATTRIBUTE_WRITE_BACK:
case ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_WRITE_BACK:
PageAttributes = TT_DESCRIPTOR_PAGE_WRITE_BACK;
break;
case ARM_MEMORY_REGION_ATTRIBUTE_WRITE_THROUGH:
case ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_WRITE_THROUGH:
PageAttributes = TT_DESCRIPTOR_PAGE_WRITE_THROUGH;
break;
case ARM_MEMORY_REGION_ATTRIBUTE_DEVICE:
case ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_DEVICE:
PageAttributes = TT_DESCRIPTOR_PAGE_DEVICE;
break;
case ARM_MEMORY_REGION_ATTRIBUTE_UNCACHED_UNBUFFERED:
case ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_UNCACHED_UNBUFFERED:
PageAttributes = TT_DESCRIPTOR_PAGE_UNCACHED;
break;
default:
PageAttributes = TT_DESCRIPTOR_PAGE_UNCACHED;
break;
}
// Check if the Section Entry has already been populated. Otherwise attach a
// Level 2 Translation Table to it
if (*SectionEntry != 0) {
// The entry must be a page table. Otherwise it exists an overlapping in the memory map
if (TT_DESCRIPTOR_SECTION_TYPE_IS_PAGE_TABLE(*SectionEntry)) {
TranslationTable = *SectionEntry & TT_DESCRIPTOR_SECTION_PAGETABLE_ADDRESS_MASK;
} else if ((*SectionEntry & TT_DESCRIPTOR_SECTION_TYPE_MASK) == TT_DESCRIPTOR_SECTION_TYPE_SECTION) {
// Case where a virtual memory map descriptor overlapped a section entry
// Allocate a Level2 Page Table for this Section
TranslationTable = (UINTN)AllocatePages(EFI_SIZE_TO_PAGES(TRANSLATION_TABLE_PAGE_SIZE + TRANSLATION_TABLE_PAGE_ALIGNMENT));
TranslationTable = ((UINTN)TranslationTable + TRANSLATION_TABLE_PAGE_ALIGNMENT_MASK) & ~TRANSLATION_TABLE_PAGE_ALIGNMENT_MASK;
// Translate the Section Descriptor into Page Descriptor
SectionDescriptor = TT_DESCRIPTOR_PAGE_TYPE_PAGE;
SectionDescriptor |= TT_DESCRIPTOR_CONVERT_TO_PAGE_CACHE_POLICY(*SectionEntry,0);
SectionDescriptor |= TT_DESCRIPTOR_CONVERT_TO_PAGE_AP(*SectionEntry);
SectionDescriptor |= TT_DESCRIPTOR_CONVERT_TO_PAGE_XN(*SectionEntry,0);
SectionDescriptor |= TT_DESCRIPTOR_CONVERT_TO_PAGE_NG(*SectionEntry);
SectionDescriptor |= TT_DESCRIPTOR_CONVERT_TO_PAGE_S(*SectionEntry);
BaseSectionAddress = TT_DESCRIPTOR_SECTION_BASE_ADDRESS(*SectionEntry);
// Populate the new Level2 Page Table for the section
PageEntry = (UINT32*)TranslationTable;
for (Index = 0; Index < TRANSLATION_TABLE_PAGE_COUNT; Index++) {
PageEntry[Index] = TT_DESCRIPTOR_PAGE_BASE_ADDRESS(BaseSectionAddress + (Index << 12)) | SectionDescriptor;
}
// Overwrite the section entry to point to the new Level2 Translation Table
*SectionEntry = (TranslationTable & TT_DESCRIPTOR_SECTION_PAGETABLE_ADDRESS_MASK) |
(IS_ARM_MEMORY_REGION_ATTRIBUTES_SECURE(Attributes) ? (1 << 3) : 0) |
TT_DESCRIPTOR_SECTION_TYPE_PAGE_TABLE;
} else {
// We do not support the other section type (16MB Section)
ASSERT(0);
return;
}
} else {
TranslationTable = (UINTN)AllocatePages(EFI_SIZE_TO_PAGES(TRANSLATION_TABLE_PAGE_SIZE + TRANSLATION_TABLE_PAGE_ALIGNMENT));
TranslationTable = ((UINTN)TranslationTable + TRANSLATION_TABLE_PAGE_ALIGNMENT_MASK) & ~TRANSLATION_TABLE_PAGE_ALIGNMENT_MASK;
ZeroMem ((VOID *)TranslationTable, TRANSLATION_TABLE_PAGE_SIZE);
*SectionEntry = (TranslationTable & TT_DESCRIPTOR_SECTION_PAGETABLE_ADDRESS_MASK) |
(IS_ARM_MEMORY_REGION_ATTRIBUTES_SECURE(Attributes) ? (1 << 3) : 0) |
TT_DESCRIPTOR_SECTION_TYPE_PAGE_TABLE;
}
PageEntry = ((UINT32 *)(TranslationTable) + ((PhysicalBase & TT_DESCRIPTOR_PAGE_INDEX_MASK) >> TT_DESCRIPTOR_PAGE_BASE_SHIFT));
Pages = RemainLength / TT_DESCRIPTOR_PAGE_SIZE;
for (Index = 0; Index < Pages; Index++) {
*PageEntry++ = TT_DESCRIPTOR_PAGE_BASE_ADDRESS(PhysicalBase) | PageAttributes;
PhysicalBase += TT_DESCRIPTOR_PAGE_SIZE;
}
}
VOID
FillTranslationTable (
IN UINT32 *TranslationTable,
IN ARM_MEMORY_REGION_DESCRIPTOR *MemoryRegion
)
{
UINT32 *SectionEntry;
UINT32 Attributes;
UINT32 PhysicalBase = MemoryRegion->PhysicalBase;
UINT32 RemainLength = MemoryRegion->Length;
ASSERT(MemoryRegion->Length > 0);
switch (MemoryRegion->Attributes) {
case ARM_MEMORY_REGION_ATTRIBUTE_WRITE_BACK:
Attributes = TT_DESCRIPTOR_SECTION_WRITE_BACK(0);
break;
case ARM_MEMORY_REGION_ATTRIBUTE_WRITE_THROUGH:
Attributes = TT_DESCRIPTOR_SECTION_WRITE_THROUGH(0);
break;
case ARM_MEMORY_REGION_ATTRIBUTE_DEVICE:
Attributes = TT_DESCRIPTOR_SECTION_DEVICE(0);
break;
case ARM_MEMORY_REGION_ATTRIBUTE_UNCACHED_UNBUFFERED:
Attributes = TT_DESCRIPTOR_SECTION_UNCACHED(0);
break;
case ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_WRITE_BACK:
Attributes = TT_DESCRIPTOR_SECTION_WRITE_BACK(1);
break;
case ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_WRITE_THROUGH:
Attributes = TT_DESCRIPTOR_SECTION_WRITE_THROUGH(1);
break;
case ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_DEVICE:
Attributes = TT_DESCRIPTOR_SECTION_DEVICE(1);
break;
case ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_UNCACHED_UNBUFFERED:
Attributes = TT_DESCRIPTOR_SECTION_UNCACHED(1);
break;
default:
Attributes = TT_DESCRIPTOR_SECTION_UNCACHED(0);
break;
}
// Get the first section entry for this mapping
SectionEntry = TRANSLATION_TABLE_ENTRY_FOR_VIRTUAL_ADDRESS(TranslationTable, MemoryRegion->VirtualBase);
while (RemainLength != 0) {
if (PhysicalBase % TT_DESCRIPTOR_SECTION_SIZE == 0) {
if (RemainLength >= TT_DESCRIPTOR_SECTION_SIZE) {
// Case: Physical address aligned on the Section Size (1MB) && the length is greater than the Section Size
*SectionEntry++ = TT_DESCRIPTOR_SECTION_BASE_ADDRESS(PhysicalBase) | Attributes;
PhysicalBase += TT_DESCRIPTOR_SECTION_SIZE;
} else {
// Case: Physical address aligned on the Section Size (1MB) && the length does not fill a section
PopulateLevel2PageTable (SectionEntry++, PhysicalBase, RemainLength, MemoryRegion->Attributes);
// It must be the last entry
break;
}
} else {
// Case: Physical address NOT aligned on the Section Size (1MB)
PopulateLevel2PageTable (SectionEntry++, PhysicalBase, RemainLength, MemoryRegion->Attributes);
// Aligned the address
PhysicalBase = (PhysicalBase + TT_DESCRIPTOR_SECTION_SIZE) & ~(TT_DESCRIPTOR_SECTION_SIZE-1);
// If it is the last entry
if (RemainLength < TT_DESCRIPTOR_SECTION_SIZE) {
break;
}
}
RemainLength -= TT_DESCRIPTOR_SECTION_SIZE;
}
}
VOID
EFIAPI
ArmConfigureMmu (
IN ARM_MEMORY_REGION_DESCRIPTOR *MemoryTable,
OUT VOID **TranslationTableBase OPTIONAL,
OUT UINTN *TranslationTableSize OPTIONAL
)
{
UINTN TranslationTable;
ARM_MEMORY_REGION_ATTRIBUTES TranslationTableAttribute;
UINT32 TTBRAttributes;
// Allocate pages for translation table.
TranslationTable = (UINTN)AllocatePages (EFI_SIZE_TO_PAGES(TRANSLATION_TABLE_SECTION_SIZE + TRANSLATION_TABLE_SECTION_ALIGNMENT));
TranslationTable = ((UINTN)TranslationTable + TRANSLATION_TABLE_SECTION_ALIGNMENT_MASK) & ~TRANSLATION_TABLE_SECTION_ALIGNMENT_MASK;
if (TranslationTableBase != NULL) {
*TranslationTableBase = (VOID *)TranslationTable;
}
if (TranslationTableSize != NULL) {
*TranslationTableSize = TRANSLATION_TABLE_SECTION_SIZE;
}
ZeroMem ((VOID *)TranslationTable, TRANSLATION_TABLE_SECTION_SIZE);
ArmCleanInvalidateDataCache ();
ArmInvalidateInstructionCache ();
ArmInvalidateTlb ();
ArmDisableDataCache ();
ArmDisableInstructionCache();
ArmDisableMmu ();
// Make sure nothing sneaked into the cache
ArmCleanInvalidateDataCache ();
ArmInvalidateInstructionCache ();
TranslationTableAttribute = (ARM_MEMORY_REGION_ATTRIBUTES)0;
while (MemoryTable->Length != 0) {
// Find the memory attribute for the Translation Table
if ((TranslationTable >= MemoryTable->PhysicalBase) && (TranslationTable <= MemoryTable->PhysicalBase - 1 + MemoryTable->Length)) {
TranslationTableAttribute = MemoryTable->Attributes;
}
FillTranslationTable ((VOID *)TranslationTable, MemoryTable);
MemoryTable++;
}
// Translate the Memory Attributes into Translation Table Register Attributes
if ((TranslationTableAttribute == ARM_MEMORY_REGION_ATTRIBUTE_UNCACHED_UNBUFFERED) ||
(TranslationTableAttribute == ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_UNCACHED_UNBUFFERED)) {
TTBRAttributes = TTBR_NON_CACHEABLE;
} else if ((TranslationTableAttribute == ARM_MEMORY_REGION_ATTRIBUTE_WRITE_BACK) ||
(TranslationTableAttribute == ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_WRITE_BACK)) {
TTBRAttributes = TTBR_WRITE_BACK_ALLOC;
} else if ((TranslationTableAttribute == ARM_MEMORY_REGION_ATTRIBUTE_WRITE_THROUGH) ||
(TranslationTableAttribute == ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_WRITE_THROUGH)) {
TTBRAttributes = TTBR_WRITE_THROUGH_NO_ALLOC;
} else {
//TODO: We should raise an error here
TTBRAttributes = TTBR_NON_CACHEABLE;
}
ArmSetTTBR0 ((VOID *)(UINTN)((TranslationTable & ~TRANSLATION_TABLE_SECTION_ALIGNMENT_MASK) | (TTBRAttributes & 0x7F)));
ArmSetDomainAccessControl (DOMAIN_ACCESS_CONTROL_NONE(15) |
DOMAIN_ACCESS_CONTROL_NONE(14) |
DOMAIN_ACCESS_CONTROL_NONE(13) |
DOMAIN_ACCESS_CONTROL_NONE(12) |
DOMAIN_ACCESS_CONTROL_NONE(11) |
DOMAIN_ACCESS_CONTROL_NONE(10) |
DOMAIN_ACCESS_CONTROL_NONE( 9) |
DOMAIN_ACCESS_CONTROL_NONE( 8) |
DOMAIN_ACCESS_CONTROL_NONE( 7) |
DOMAIN_ACCESS_CONTROL_NONE( 6) |
DOMAIN_ACCESS_CONTROL_NONE( 5) |
DOMAIN_ACCESS_CONTROL_NONE( 4) |
DOMAIN_ACCESS_CONTROL_NONE( 3) |
DOMAIN_ACCESS_CONTROL_NONE( 2) |
DOMAIN_ACCESS_CONTROL_NONE( 1) |
DOMAIN_ACCESS_CONTROL_MANAGER(0));
ArmEnableInstructionCache();
ArmEnableDataCache();
ArmEnableMmu();
}
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