mirror of https://github.com/acidanthera/audk.git
149 lines
4.2 KiB
NASM
149 lines
4.2 KiB
NASM
;------------------------------------------------------------------------------
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; @file
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; Sets the CR3 register for 64-bit paging
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;
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; Copyright (c) 2008 - 2013, Intel Corporation. All rights reserved.<BR>
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; SPDX-License-Identifier: BSD-2-Clause-Patent
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;
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;------------------------------------------------------------------------------
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BITS 32
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%define PAGE_PRESENT 0x01
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%define PAGE_READ_WRITE 0x02
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%define PAGE_USER_SUPERVISOR 0x04
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%define PAGE_WRITE_THROUGH 0x08
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%define PAGE_CACHE_DISABLE 0x010
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%define PAGE_ACCESSED 0x020
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%define PAGE_DIRTY 0x040
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%define PAGE_PAT 0x080
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%define PAGE_GLOBAL 0x0100
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%define PAGE_2M_MBO 0x080
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%define PAGE_2M_PAT 0x01000
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%define PAGE_2M_PDE_ATTR (PAGE_2M_MBO + \
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PAGE_ACCESSED + \
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PAGE_DIRTY + \
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PAGE_READ_WRITE + \
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PAGE_PRESENT)
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%define PAGE_PDP_ATTR (PAGE_ACCESSED + \
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PAGE_READ_WRITE + \
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PAGE_PRESENT)
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; Check if Secure Encrypted Virtualization (SEV) feature is enabled
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;
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; If SEV is enabled then EAX will be at least 32
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; If SEV is disabled then EAX will be zero.
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;
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CheckSevFeature:
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; Check if we have a valid (0x8000_001F) CPUID leaf
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mov eax, 0x80000000
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cpuid
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; This check should fail on Intel or Non SEV AMD CPUs. In future if
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; Intel CPUs supports this CPUID leaf then we are guranteed to have exact
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; same bit definition.
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cmp eax, 0x8000001f
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jl NoSev
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; Check for memory encryption feature:
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; CPUID Fn8000_001F[EAX] - Bit 1
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;
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mov eax, 0x8000001f
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cpuid
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bt eax, 1
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jnc NoSev
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; Check if memory encryption is enabled
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; MSR_0xC0010131 - Bit 0 (SEV enabled)
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mov ecx, 0xc0010131
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rdmsr
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bt eax, 0
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jnc NoSev
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; Get pte bit position to enable memory encryption
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; CPUID Fn8000_001F[EBX] - Bits 5:0
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;
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mov eax, ebx
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and eax, 0x3f
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jmp SevExit
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NoSev:
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xor eax, eax
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SevExit:
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OneTimeCallRet CheckSevFeature
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;
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; Modified: EAX, EBX, ECX, EDX
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;
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SetCr3ForPageTables64:
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OneTimeCall CheckSevFeature
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xor edx, edx
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test eax, eax
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jz SevNotActive
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; If SEV is enabled, C-bit is always above 31
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sub eax, 32
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bts edx, eax
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SevNotActive:
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;
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; For OVMF, build some initial page tables at
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; PcdOvmfSecPageTablesBase - (PcdOvmfSecPageTablesBase + 0x6000).
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;
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; This range should match with PcdOvmfSecPageTablesSize which is
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; declared in the FDF files.
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;
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; At the end of PEI, the pages tables will be rebuilt into a
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; more permanent location by DxeIpl.
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;
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mov ecx, 6 * 0x1000 / 4
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xor eax, eax
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clearPageTablesMemoryLoop:
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mov dword[ecx * 4 + PT_ADDR (0) - 4], eax
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loop clearPageTablesMemoryLoop
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;
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; Top level Page Directory Pointers (1 * 512GB entry)
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;
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mov dword[PT_ADDR (0)], PT_ADDR (0x1000) + PAGE_PDP_ATTR
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mov dword[PT_ADDR (4)], edx
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;
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; Next level Page Directory Pointers (4 * 1GB entries => 4GB)
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;
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mov dword[PT_ADDR (0x1000)], PT_ADDR (0x2000) + PAGE_PDP_ATTR
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mov dword[PT_ADDR (0x1004)], edx
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mov dword[PT_ADDR (0x1008)], PT_ADDR (0x3000) + PAGE_PDP_ATTR
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mov dword[PT_ADDR (0x100C)], edx
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mov dword[PT_ADDR (0x1010)], PT_ADDR (0x4000) + PAGE_PDP_ATTR
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mov dword[PT_ADDR (0x1014)], edx
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mov dword[PT_ADDR (0x1018)], PT_ADDR (0x5000) + PAGE_PDP_ATTR
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mov dword[PT_ADDR (0x101C)], edx
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;
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; Page Table Entries (2048 * 2MB entries => 4GB)
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;
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mov ecx, 0x800
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pageTableEntriesLoop:
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mov eax, ecx
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dec eax
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shl eax, 21
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add eax, PAGE_2M_PDE_ATTR
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mov [ecx * 8 + PT_ADDR (0x2000 - 8)], eax
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mov [(ecx * 8 + PT_ADDR (0x2000 - 8)) + 4], edx
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loop pageTableEntriesLoop
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;
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; Set CR3 now that the paging structures are available
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;
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mov eax, PT_ADDR (0)
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mov cr3, eax
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OneTimeCallRet SetCr3ForPageTables64
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