mirror of https://github.com/acidanthera/audk.git
470 lines
13 KiB
NASM
470 lines
13 KiB
NASM
;; @file
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; Provide FSP API entry points.
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;
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; Copyright (c) 2016, Intel Corporation. All rights reserved.<BR>
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; This program and the accompanying materials
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; are licensed and made available under the terms and conditions of the BSD License
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; which accompanies this distribution. The full text of the license may be found at
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; http://opensource.org/licenses/bsd-license.php.
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;
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; THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
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; WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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;;
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SECTION .text
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%include "SaveRestoreSseNasm.inc"
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%include "MicrocodeLoadNasm.inc"
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;
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; Following are fixed PCDs
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;
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extern ASM_PFX(PcdGet32 (PcdTemporaryRamBase))
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extern ASM_PFX(PcdGet32 (PcdTemporaryRamSize))
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extern ASM_PFX(PcdGet32 (PcdFspReservedBufferSize))
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;
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; Following functions will be provided in PlatformSecLib
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;
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extern ASM_PFX(AsmGetFspBaseAddress)
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extern ASM_PFX(AsmGetFspInfoHeader)
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;extern ASM_PFX(LoadMicrocode) ; @todo: needs a weak implementation
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extern ASM_PFX(SecPlatformInit) ; @todo: needs a weak implementation
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extern ASM_PFX(SecCarInit)
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;
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; Define the data length that we saved on the stack top
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;
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DATA_LEN_OF_PER0 EQU 18h
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DATA_LEN_OF_MCUD EQU 18h
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DATA_LEN_AT_STACK_TOP EQU (DATA_LEN_OF_PER0 + DATA_LEN_OF_MCUD + 4)
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;
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; @todo: These structures are moved from MicrocodeLoadNasm.inc to avoid
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; build error. This needs to be fixed later on.
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;
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struc MicrocodeHdr
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.MicrocodeHdrVersion: resd 1
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.MicrocodeHdrRevision: resd 1
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.MicrocodeHdrDate: resd 1
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.MicrocodeHdrProcessor: resd 1
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.MicrocodeHdrChecksum: resd 1
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.MicrocodeHdrLoader: resd 1
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.MicrocodeHdrFlags: resd 1
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.MicrocodeHdrDataSize: resd 1
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.MicrocodeHdrTotalSize: resd 1
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.MicrocodeHdrRsvd: resd 3
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.size:
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endstruc
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struc ExtSigHdr
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.ExtSigHdrCount: resd 1
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.ExtSigHdrChecksum: resd 1
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.ExtSigHdrRsvd: resd 3
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.size:
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endstruc
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struc ExtSig
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.ExtSigProcessor: resd 1
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.ExtSigFlags: resd 1
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.ExtSigChecksum: resd 1
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.size:
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endstruc
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struc LoadMicrocodeParams
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; FSP_UPD_HEADER {
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.FspUpdHeader: resd 8
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; }
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; FSPT_CORE_UPD {
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.MicrocodeCodeAddr: resd 1
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.MicrocodeCodeSize: resd 1
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.CodeRegionBase: resd 1
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.CodeRegionSize: resd 1
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; }
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.size:
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endstruc
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;
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; Define SSE macros
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;
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;
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;args 1: ReturnAddress 2:MmxRegister
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;
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%macro LOAD_MMX_EXT 2
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mov esi, %1
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movd %2, esi ; save ReturnAddress into MMX
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%endmacro
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;
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;args 1: RoutineLabel 2:MmxRegister
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;
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%macro CALL_MMX_EXT 2
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mov esi, %%ReturnAddress
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movd %2, esi ; save ReturnAddress into MMX
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jmp %1
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%%ReturnAddress:
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%endmacro
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;
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;arg 1:MmxRegister
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;
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%macro RET_ESI_EXT 1
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movd esi, %1 ; move ReturnAddress from MMX to ESI
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jmp esi
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%endmacro
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;
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;arg 1:RoutineLabel
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;
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%macro CALL_MMX 1
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CALL_MMX_EXT %1, mm7
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%endmacro
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%macro RET_ESI 0
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RET_ESI_EXT mm7
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%endmacro
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;
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; @todo: The strong/weak implementation does not work.
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; This needs to be reviewed later.
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;
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;------------------------------------------------------------------------------
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;
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;;global ASM_PFX(SecPlatformInitDefault)
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;ASM_PFX(SecPlatformInitDefault):
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; ; Inputs:
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; ; mm7 -> Return address
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; ; Outputs:
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; ; eax -> 0 - Successful, Non-zero - Failed.
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; ; Register Usage:
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; ; eax is cleared and ebp is used for return address.
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; ; All others reserved.
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;
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; ; Save return address to EBP
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; movd ebp, mm7
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;
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; xor eax, eax
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;Exit1:
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; jmp ebp
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;------------------------------------------------------------------------------
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global ASM_PFX(LoadMicrocodeDefault)
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ASM_PFX(LoadMicrocodeDefault):
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; Inputs:
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; esp -> LoadMicrocodeParams pointer
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; Register Usage:
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; esp Preserved
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; All others destroyed
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; Assumptions:
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; No memory available, stack is hard-coded and used for return address
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; Executed by SBSP and NBSP
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; Beginning of microcode update region starts on paragraph boundary
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;
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;
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; Save return address to EBP
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movd ebp, mm7
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cmp esp, 0
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jz ParamError
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mov eax, dword [esp + 4] ; Parameter pointer
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cmp eax, 0
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jz ParamError
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mov esp, eax
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mov esi, dword [esp + LoadMicrocodeParams.MicrocodeCodeAddr]
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cmp esi, 0
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jnz CheckMainHeader
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ParamError:
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mov eax, 080000002h
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jmp Exit2
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CheckMainHeader:
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; Get processor signature and platform ID from the installed processor
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; and save into registers for later use
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; ebx = processor signature
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; edx = platform ID
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mov eax, 1
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cpuid
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mov ebx, eax
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mov ecx, MSR_IA32_PLATFORM_ID
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rdmsr
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mov ecx, edx
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shr ecx, 50-32 ; shift (50d-32d=18d=0x12) bits
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and ecx, 7h ; platform id at bit[52..50]
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mov edx, 1
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shl edx, cl
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; Current register usage
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; esp -> stack with parameters
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; esi -> microcode update to check
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; ebx = processor signature
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; edx = platform ID
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; Check for valid microcode header
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; Minimal test checking for header version and loader version as 1
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mov eax, dword 1
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cmp dword [esi + MicrocodeHdr.MicrocodeHdrVersion], eax
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jne AdvanceFixedSize
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cmp dword [esi + MicrocodeHdr.MicrocodeHdrLoader], eax
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jne AdvanceFixedSize
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; Check if signature and plaform ID match
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cmp ebx, dword [esi + MicrocodeHdr.MicrocodeHdrProcessor]
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jne LoadMicrocodeDefault1
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test edx, dword [esi + MicrocodeHdr.MicrocodeHdrFlags ]
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jnz LoadCheck ; Jif signature and platform ID match
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LoadMicrocodeDefault1:
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; Check if extended header exists
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; First check if MicrocodeHdrTotalSize and MicrocodeHdrDataSize are valid
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xor eax, eax
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cmp dword [esi + MicrocodeHdr.MicrocodeHdrTotalSize], eax
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je NextMicrocode
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cmp dword [esi + MicrocodeHdr.MicrocodeHdrDataSize], eax
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je NextMicrocode
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; Then verify total size - sizeof header > data size
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mov ecx, dword [esi + MicrocodeHdr.MicrocodeHdrTotalSize]
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sub ecx, MicrocodeHdr.size
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cmp ecx, dword [esi + MicrocodeHdr.MicrocodeHdrDataSize]
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jng NextMicrocode ; Jif extended header does not exist
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; Set edi -> extended header
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mov edi, esi
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add edi, MicrocodeHdr.size
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add edi, dword [esi + MicrocodeHdr.MicrocodeHdrDataSize]
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; Get count of extended structures
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mov ecx, dword [edi + ExtSigHdr.ExtSigHdrCount]
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; Move pointer to first signature structure
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add edi, ExtSigHdr.size
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CheckExtSig:
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; Check if extended signature and platform ID match
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cmp dword [edi + ExtSig.ExtSigProcessor], ebx
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jne LoadMicrocodeDefault2
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test dword [edi + ExtSig.ExtSigFlags], edx
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jnz LoadCheck ; Jif signature and platform ID match
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LoadMicrocodeDefault2:
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; Check if any more extended signatures exist
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add edi, ExtSig.size
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loop CheckExtSig
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NextMicrocode:
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; Advance just after end of this microcode
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xor eax, eax
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cmp dword [esi + MicrocodeHdr.MicrocodeHdrTotalSize], eax
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je LoadMicrocodeDefault3
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add esi, dword [esi + MicrocodeHdr.MicrocodeHdrTotalSize]
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jmp CheckAddress
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LoadMicrocodeDefault3:
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add esi, dword 2048
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jmp CheckAddress
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AdvanceFixedSize:
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; Advance by 4X dwords
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add esi, dword 1024
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CheckAddress:
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; Is valid Microcode start point ?
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cmp dword [esi + MicrocodeHdr.MicrocodeHdrVersion], 0ffffffffh
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jz Done
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; Is automatic size detection ?
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mov eax, dword [esp + LoadMicrocodeParams.MicrocodeCodeSize]
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cmp eax, 0ffffffffh
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jz LoadMicrocodeDefault4
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; Address >= microcode region address + microcode region size?
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add eax, dword [esp + LoadMicrocodeParams.MicrocodeCodeAddr]
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cmp esi, eax
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jae Done ;Jif address is outside of microcode region
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jmp CheckMainHeader
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LoadMicrocodeDefault4:
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LoadCheck:
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; Get the revision of the current microcode update loaded
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mov ecx, MSR_IA32_BIOS_SIGN_ID
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xor eax, eax ; Clear EAX
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xor edx, edx ; Clear EDX
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wrmsr ; Load 0 to MSR at 8Bh
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mov eax, 1
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cpuid
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mov ecx, MSR_IA32_BIOS_SIGN_ID
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rdmsr ; Get current microcode signature
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; Verify this microcode update is not already loaded
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cmp dword [esi + MicrocodeHdr.MicrocodeHdrRevision], edx
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je Continue
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LoadMicrocode:
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; EAX contains the linear address of the start of the Update Data
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; EDX contains zero
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; ECX contains 79h (IA32_BIOS_UPDT_TRIG)
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; Start microcode load with wrmsr
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mov eax, esi
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add eax, MicrocodeHdr.size
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xor edx, edx
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mov ecx, MSR_IA32_BIOS_UPDT_TRIG
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wrmsr
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mov eax, 1
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cpuid
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Continue:
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jmp NextMicrocode
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Done:
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mov eax, 1
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cpuid
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mov ecx, MSR_IA32_BIOS_SIGN_ID
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rdmsr ; Get current microcode signature
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xor eax, eax
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cmp edx, 0
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jnz Exit2
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mov eax, 08000000Eh
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Exit2:
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jmp ebp
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global ASM_PFX(EstablishStackFsp)
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ASM_PFX(EstablishStackFsp):
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;
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; Save parameter pointer in edx
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;
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mov edx, dword [esp + 4]
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;
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; Enable FSP STACK
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;
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mov esp, DWORD [ASM_PFX(PcdGet32 (PcdTemporaryRamBase))]
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add esp, DWORD [ASM_PFX(PcdGet32 (PcdTemporaryRamSize))]
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push DATA_LEN_OF_MCUD ; Size of the data region
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push 4455434Dh ; Signature of the data region 'MCUD'
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push dword [edx + 2Ch] ; Code size sizeof(FSPT_UPD_COMMON) + 12
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push dword [edx + 28h] ; Code base sizeof(FSPT_UPD_COMMON) + 8
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push dword [edx + 24h] ; Microcode size sizeof(FSPT_UPD_COMMON) + 4
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push dword [edx + 20h] ; Microcode base sizeof(FSPT_UPD_COMMON) + 0
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;
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; Save API entry/exit timestamp into stack
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;
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push DATA_LEN_OF_PER0 ; Size of the data region
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push 30524550h ; Signature of the data region 'PER0'
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rdtsc
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push edx
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push eax
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LOAD_EDX
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push edx
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LOAD_EAX
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push eax
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;
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; Terminator for the data on stack
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;
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push 0
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;
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; Set ECX/EDX to the BootLoader temporary memory range
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;
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mov ecx, [ASM_PFX(PcdGet32 (PcdTemporaryRamBase))]
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mov edx, ecx
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add edx, [ASM_PFX(PcdGet32 (PcdTemporaryRamSize))]
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sub edx, [ASM_PFX(PcdGet32 (PcdFspReservedBufferSize))]
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cmp ecx, edx ;If PcdFspReservedBufferSize >= PcdTemporaryRamSize, then error.
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jb EstablishStackFspSuccess
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mov eax, 80000003h ;EFI_UNSUPPORTED
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jmp EstablishStackFspExit
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EstablishStackFspSuccess:
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xor eax, eax
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EstablishStackFspExit:
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RET_ESI
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;----------------------------------------------------------------------------
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; TempRamInit API
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;
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; This FSP API will load the microcode update, enable code caching for the
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; region specified by the boot loader and also setup a temporary stack to be
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; used till main memory is initialized.
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;
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;----------------------------------------------------------------------------
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global ASM_PFX(TempRamInitApi)
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ASM_PFX(TempRamInitApi):
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;
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; Ensure SSE is enabled
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;
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ENABLE_SSE
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;
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; Save EBP, EBX, ESI, EDI & ESP in XMM7 & XMM6
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;
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SAVE_REGS
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;
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; Save timestamp into XMM6
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;
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rdtsc
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SAVE_EAX
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SAVE_EDX
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;
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; Check Parameter
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;
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mov eax, dword [esp + 4]
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cmp eax, 0
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mov eax, 80000002h
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jz TempRamInitExit
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;
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; Sec Platform Init
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;
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CALL_MMX ASM_PFX(SecPlatformInit)
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cmp eax, 0
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jnz TempRamInitExit
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; Load microcode
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LOAD_ESP
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CALL_MMX ASM_PFX(LoadMicrocodeDefault)
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SXMMN xmm6, 3, eax ;Save microcode return status in ECX-SLOT 3 in xmm6.
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;@note If return value eax is not 0, microcode did not load, but continue and attempt to boot.
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; Call Sec CAR Init
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LOAD_ESP
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CALL_MMX ASM_PFX(SecCarInit)
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cmp eax, 0
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jnz TempRamInitExit
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LOAD_ESP
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CALL_MMX ASM_PFX(EstablishStackFsp)
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cmp eax, 0
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jnz TempRamInitExit
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LXMMN xmm6, eax, 3 ;Restore microcode status if no CAR init error from ECX-SLOT 3 in xmm6.
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TempRamInitExit:
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mov bl, al ; save al data in bl
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mov al, 07Fh ; API exit postcode 7f
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out 080h, al
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mov al, bl ; restore al data from bl
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;
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; Load EBP, EBX, ESI, EDI & ESP from XMM7 & XMM6
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;
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LOAD_REGS
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ret
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;----------------------------------------------------------------------------
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; Module Entrypoint API
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;----------------------------------------------------------------------------
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global ASM_PFX(_ModuleEntryPoint)
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ASM_PFX(_ModuleEntryPoint):
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jmp $
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