mirror of https://github.com/acidanthera/audk.git
662 lines
20 KiB
C
662 lines
20 KiB
C
/** @file
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MM Core Main Entry Point
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Copyright (c) 2009 - 2014, Intel Corporation. All rights reserved.<BR>
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Copyright (c) 2016 - 2021, Arm Limited. All rights reserved.<BR>
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SPDX-License-Identifier: BSD-2-Clause-Patent
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**/
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#include "StandaloneMmCore.h"
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EFI_STATUS
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MmCoreFfsFindMmDriver (
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IN EFI_FIRMWARE_VOLUME_HEADER *FwVolHeader
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);
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EFI_STATUS
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MmDispatcher (
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VOID
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);
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//
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// Globals used to initialize the protocol
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//
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EFI_HANDLE mMmCpuHandle = NULL;
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//
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// Physical pointer to private structure shared between MM IPL and the MM Core
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//
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MM_CORE_PRIVATE_DATA *gMmCorePrivate;
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//
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// MM Core global variable for MM System Table. Only accessed as a physical structure in MMRAM.
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//
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EFI_MM_SYSTEM_TABLE gMmCoreMmst = {
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// The table header for the MMST.
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{
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MM_MMST_SIGNATURE,
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EFI_MM_SYSTEM_TABLE_REVISION,
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sizeof (gMmCoreMmst.Hdr)
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},
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// MmFirmwareVendor
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NULL,
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// MmFirmwareRevision
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0,
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// MmInstallConfigurationTable
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MmInstallConfigurationTable,
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// I/O Service
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{
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{
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(EFI_MM_CPU_IO) MmEfiNotAvailableYetArg5, // MmMemRead
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(EFI_MM_CPU_IO) MmEfiNotAvailableYetArg5 // MmMemWrite
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},
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{
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(EFI_MM_CPU_IO) MmEfiNotAvailableYetArg5, // MmIoRead
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(EFI_MM_CPU_IO) MmEfiNotAvailableYetArg5 // MmIoWrite
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}
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},
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// Runtime memory services
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MmAllocatePool,
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MmFreePool,
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MmAllocatePages,
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MmFreePages,
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// MP service
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NULL, // MmStartupThisAp
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0, // CurrentlyExecutingCpu
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0, // NumberOfCpus
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NULL, // CpuSaveStateSize
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NULL, // CpuSaveState
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0, // NumberOfTableEntries
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NULL, // MmConfigurationTable
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MmInstallProtocolInterface,
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MmUninstallProtocolInterface,
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MmHandleProtocol,
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MmRegisterProtocolNotify,
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MmLocateHandle,
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MmLocateProtocol,
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MmiManage,
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MmiHandlerRegister,
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MmiHandlerUnRegister
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};
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//
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// Table of MMI Handlers that are registered by the MM Core when it is initialized
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//
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MM_CORE_MMI_HANDLERS mMmCoreMmiHandlers[] = {
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{ MmReadyToLockHandler, &gEfiDxeMmReadyToLockProtocolGuid, NULL, TRUE },
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{ MmEndOfDxeHandler, &gEfiEndOfDxeEventGroupGuid, NULL, FALSE },
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{ MmExitBootServiceHandler,&gEfiEventExitBootServicesGuid, NULL, FALSE },
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{ MmReadyToBootHandler, &gEfiEventReadyToBootGuid, NULL, FALSE },
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{ NULL, NULL, NULL, FALSE },
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};
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EFI_SYSTEM_TABLE *mEfiSystemTable;
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UINTN mMmramRangeCount;
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EFI_MMRAM_DESCRIPTOR *mMmramRanges;
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/**
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Place holder function until all the MM System Table Service are available.
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Note: This function is only used by MMRAM invocation. It is never used by DXE invocation.
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@param Arg1 Undefined
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@param Arg2 Undefined
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@param Arg3 Undefined
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@param Arg4 Undefined
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@param Arg5 Undefined
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@return EFI_NOT_AVAILABLE_YET
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**/
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EFI_STATUS
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EFIAPI
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MmEfiNotAvailableYetArg5 (
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UINTN Arg1,
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UINTN Arg2,
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UINTN Arg3,
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UINTN Arg4,
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UINTN Arg5
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)
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{
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//
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// This function should never be executed. If it does, then the architectural protocols
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// have not been designed correctly.
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//
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return EFI_NOT_AVAILABLE_YET;
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}
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/**
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Software MMI handler that is called when a ExitBoot Service event is signaled.
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@param DispatchHandle The unique handle assigned to this handler by MmiHandlerRegister().
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@param Context Points to an optional handler context which was specified when the handler was registered.
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@param CommBuffer A pointer to a collection of data in memory that will
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be conveyed from a non-MM environment into an MM environment.
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@param CommBufferSize The size of the CommBuffer.
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@return Status Code
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**/
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EFI_STATUS
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EFIAPI
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MmExitBootServiceHandler (
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IN EFI_HANDLE DispatchHandle,
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IN CONST VOID *Context OPTIONAL,
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IN OUT VOID *CommBuffer OPTIONAL,
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IN OUT UINTN *CommBufferSize OPTIONAL
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)
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{
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EFI_HANDLE MmHandle;
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EFI_STATUS Status;
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STATIC BOOLEAN mInExitBootServices = FALSE;
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Status = EFI_SUCCESS;
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if (!mInExitBootServices) {
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MmHandle = NULL;
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Status = MmInstallProtocolInterface (
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&MmHandle,
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&gEfiEventExitBootServicesGuid,
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EFI_NATIVE_INTERFACE,
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NULL
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);
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}
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mInExitBootServices = TRUE;
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return Status;
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}
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/**
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Software MMI handler that is called when a ExitBoot Service event is signaled.
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@param DispatchHandle The unique handle assigned to this handler by MmiHandlerRegister().
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@param Context Points to an optional handler context which was specified when the handler was registered.
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@param CommBuffer A pointer to a collection of data in memory that will
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be conveyed from a non-MM environment into an MM environment.
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@param CommBufferSize The size of the CommBuffer.
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@return Status Code
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**/
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EFI_STATUS
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EFIAPI
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MmReadyToBootHandler (
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IN EFI_HANDLE DispatchHandle,
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IN CONST VOID *Context OPTIONAL,
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IN OUT VOID *CommBuffer OPTIONAL,
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IN OUT UINTN *CommBufferSize OPTIONAL
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)
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{
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EFI_HANDLE MmHandle;
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EFI_STATUS Status;
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STATIC BOOLEAN mInReadyToBoot = FALSE;
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Status = EFI_SUCCESS;
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if (!mInReadyToBoot) {
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MmHandle = NULL;
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Status = MmInstallProtocolInterface (
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&MmHandle,
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&gEfiEventReadyToBootGuid,
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EFI_NATIVE_INTERFACE,
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NULL
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);
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}
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mInReadyToBoot = TRUE;
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return Status;
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}
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/**
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Software MMI handler that is called when the DxeMmReadyToLock protocol is added
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or if gEfiEventReadyToBootGuid is signaled. This function unregisters the
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Software SMIs that are nor required after MMRAM is locked and installs the
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MM Ready To Lock Protocol so MM Drivers are informed that MMRAM is about
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to be locked.
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@param DispatchHandle The unique handle assigned to this handler by MmiHandlerRegister().
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@param Context Points to an optional handler context which was specified when the handler was registered.
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@param CommBuffer A pointer to a collection of data in memory that will
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be conveyed from a non-MM environment into an MM environment.
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@param CommBufferSize The size of the CommBuffer.
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@return Status Code
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**/
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EFI_STATUS
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EFIAPI
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MmReadyToLockHandler (
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IN EFI_HANDLE DispatchHandle,
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IN CONST VOID *Context OPTIONAL,
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IN OUT VOID *CommBuffer OPTIONAL,
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IN OUT UINTN *CommBufferSize OPTIONAL
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)
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{
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EFI_STATUS Status;
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UINTN Index;
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EFI_HANDLE MmHandle;
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DEBUG ((DEBUG_INFO, "MmReadyToLockHandler\n"));
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//
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// Unregister MMI Handlers that are no longer required after the MM driver dispatch is stopped
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//
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for (Index = 0; mMmCoreMmiHandlers[Index].HandlerType != NULL; Index++) {
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if (mMmCoreMmiHandlers[Index].UnRegister) {
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MmiHandlerUnRegister (mMmCoreMmiHandlers[Index].DispatchHandle);
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}
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}
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//
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// Install MM Ready to lock protocol
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//
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MmHandle = NULL;
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Status = MmInstallProtocolInterface (
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&MmHandle,
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&gEfiMmReadyToLockProtocolGuid,
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EFI_NATIVE_INTERFACE,
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NULL
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);
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//
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// Make sure MM CPU I/O 2 Protocol has been installed into the handle database
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//
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//Status = MmLocateProtocol (&EFI_MM_CPU_IO_PROTOCOL_GUID, NULL, &Interface);
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//
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// Print a message on a debug build if the MM CPU I/O 2 Protocol is not installed
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//
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//if (EFI_ERROR (Status)) {
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//DEBUG ((DEBUG_ERROR, "\nSMM: SmmCpuIo Arch Protocol not present!!\n"));
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//}
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//
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// Assert if the CPU I/O 2 Protocol is not installed
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//
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//ASSERT_EFI_ERROR (Status);
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//
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// Display any drivers that were not dispatched because dependency expression
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// evaluated to false if this is a debug build
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//
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//MmDisplayDiscoveredNotDispatched ();
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return Status;
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}
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/**
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Software MMI handler that is called when the EndOfDxe event is signaled.
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This function installs the MM EndOfDxe Protocol so MM Drivers are informed that
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platform code will invoke 3rd part code.
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@param DispatchHandle The unique handle assigned to this handler by MmiHandlerRegister().
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@param Context Points to an optional handler context which was specified when the handler was registered.
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@param CommBuffer A pointer to a collection of data in memory that will
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be conveyed from a non-MM environment into an MM environment.
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@param CommBufferSize The size of the CommBuffer.
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@return Status Code
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**/
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EFI_STATUS
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EFIAPI
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MmEndOfDxeHandler (
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IN EFI_HANDLE DispatchHandle,
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IN CONST VOID *Context OPTIONAL,
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IN OUT VOID *CommBuffer OPTIONAL,
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IN OUT UINTN *CommBufferSize OPTIONAL
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)
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{
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EFI_STATUS Status;
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EFI_HANDLE MmHandle;
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DEBUG ((DEBUG_INFO, "MmEndOfDxeHandler\n"));
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//
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// Install MM EndOfDxe protocol
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//
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MmHandle = NULL;
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Status = MmInstallProtocolInterface (
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&MmHandle,
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&gEfiMmEndOfDxeProtocolGuid,
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EFI_NATIVE_INTERFACE,
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NULL
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);
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return Status;
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}
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/**
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The main entry point to MM Foundation.
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Note: This function is only used by MMRAM invocation. It is never used by DXE invocation.
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@param MmEntryContext Processor information and functionality
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needed by MM Foundation.
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**/
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VOID
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EFIAPI
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MmEntryPoint (
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IN CONST EFI_MM_ENTRY_CONTEXT *MmEntryContext
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)
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{
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EFI_STATUS Status;
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EFI_MM_COMMUNICATE_HEADER *CommunicateHeader;
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DEBUG ((DEBUG_INFO, "MmEntryPoint ...\n"));
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//
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// Update MMST using the context
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//
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CopyMem (&gMmCoreMmst.MmStartupThisAp, MmEntryContext, sizeof (EFI_MM_ENTRY_CONTEXT));
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//
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// Call platform hook before Mm Dispatch
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//
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//PlatformHookBeforeMmDispatch ();
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//
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// If a legacy boot has occurred, then make sure gMmCorePrivate is not accessed
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//
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//
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// TBD: Mark the InMm flag as TRUE
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//
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gMmCorePrivate->InMm = TRUE;
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//
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// Check to see if this is a Synchronous MMI sent through the MM Communication
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// Protocol or an Asynchronous MMI
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//
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if (gMmCorePrivate->CommunicationBuffer != 0) {
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//
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// Synchronous MMI for MM Core or request from Communicate protocol
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//
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if (!MmIsBufferOutsideMmValid ((UINTN)gMmCorePrivate->CommunicationBuffer, gMmCorePrivate->BufferSize)) {
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//
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// If CommunicationBuffer is not in valid address scope, return EFI_INVALID_PARAMETER
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//
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gMmCorePrivate->CommunicationBuffer = 0;
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gMmCorePrivate->ReturnStatus = EFI_INVALID_PARAMETER;
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} else {
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CommunicateHeader = (EFI_MM_COMMUNICATE_HEADER *)(UINTN)gMmCorePrivate->CommunicationBuffer;
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gMmCorePrivate->BufferSize -= OFFSET_OF (EFI_MM_COMMUNICATE_HEADER, Data);
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Status = MmiManage (
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&CommunicateHeader->HeaderGuid,
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NULL,
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CommunicateHeader->Data,
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(UINTN *)&gMmCorePrivate->BufferSize
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);
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//
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// Update CommunicationBuffer, BufferSize and ReturnStatus
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// Communicate service finished, reset the pointer to CommBuffer to NULL
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//
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gMmCorePrivate->BufferSize += OFFSET_OF (EFI_MM_COMMUNICATE_HEADER, Data);
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gMmCorePrivate->CommunicationBuffer = 0;
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gMmCorePrivate->ReturnStatus = (Status == EFI_SUCCESS) ? EFI_SUCCESS : EFI_NOT_FOUND;
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}
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}
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//
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// Process Asynchronous MMI sources
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//
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MmiManage (NULL, NULL, NULL, NULL);
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//
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// TBD: Do not use private data structure ?
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//
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//
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// Clear the InMm flag as we are going to leave MM
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//
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gMmCorePrivate->InMm = FALSE;
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DEBUG ((DEBUG_INFO, "MmEntryPoint Done\n"));
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}
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/** Register the MM Entry Point provided by the MM Core with the
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MM Configuration protocol.
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@param [in] Protocol Pointer to the protocol.
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@param [in] Interface Pointer to the MM Configuration protocol.
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@param [in] Handle Handle.
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@retval EFI_SUCCESS Success.
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**/
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EFI_STATUS
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EFIAPI
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MmConfigurationMmNotify (
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IN CONST EFI_GUID *Protocol,
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IN VOID *Interface,
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IN EFI_HANDLE Handle
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)
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{
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EFI_STATUS Status;
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EFI_MM_CONFIGURATION_PROTOCOL *MmConfiguration;
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DEBUG ((DEBUG_INFO, "MmConfigurationMmNotify(%g) - %x\n", Protocol, Interface));
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MmConfiguration = Interface;
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//
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// Register the MM Entry Point provided by the MM Core with the MM COnfiguration protocol
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//
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Status = MmConfiguration->RegisterMmEntry (MmConfiguration, (EFI_MM_ENTRY_POINT)(UINTN)gMmCorePrivate->MmEntryPoint);
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ASSERT_EFI_ERROR (Status);
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//
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// Set flag to indicate that the MM Entry Point has been registered which
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// means that MMIs are now fully operational.
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//
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gMmCorePrivate->MmEntryPointRegistered = TRUE;
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//
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// Print debug message showing MM Core entry point address.
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//
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DEBUG ((DEBUG_INFO, "MM Core registered MM Entry Point address %p\n", (VOID *)(UINTN)gMmCorePrivate->MmEntryPoint));
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return EFI_SUCCESS;
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}
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/** Returns the HOB list size.
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@param [in] HobStart Pointer to the start of the HOB list.
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@retval Size of the HOB list.
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**/
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UINTN
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GetHobListSize (
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IN VOID *HobStart
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)
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{
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EFI_PEI_HOB_POINTERS Hob;
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ASSERT (HobStart != NULL);
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Hob.Raw = (UINT8 *) HobStart;
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while (!END_OF_HOB_LIST (Hob)) {
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Hob.Raw = GET_NEXT_HOB (Hob);
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}
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//
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// Need plus END_OF_HOB_LIST
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//
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return (UINTN)Hob.Raw - (UINTN)HobStart + sizeof (EFI_HOB_GENERIC_HEADER);
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}
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/**
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The Entry Point for MM Core
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Install DXE Protocols and reload MM Core into MMRAM and register MM Core
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EntryPoint on the MMI vector.
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Note: This function is called for both DXE invocation and MMRAM invocation.
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@param HobStart Pointer to the start of the HOB list.
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@retval EFI_SUCCESS Success.
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@retval EFI_UNSUPPORTED Unsupported operation.
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**/
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EFI_STATUS
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EFIAPI
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StandaloneMmMain (
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IN VOID *HobStart
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)
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{
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EFI_STATUS Status;
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UINTN Index;
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VOID *MmHobStart;
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UINTN HobSize;
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VOID *Registration;
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EFI_HOB_GUID_TYPE *GuidHob;
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MM_CORE_DATA_HOB_DATA *DataInHob;
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EFI_HOB_GUID_TYPE *MmramRangesHob;
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EFI_MMRAM_HOB_DESCRIPTOR_BLOCK *MmramRangesHobData;
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EFI_MMRAM_DESCRIPTOR *MmramRanges;
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UINTN MmramRangeCount;
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EFI_HOB_FIRMWARE_VOLUME *BfvHob;
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ProcessLibraryConstructorList (HobStart, &gMmCoreMmst);
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DEBUG ((DEBUG_INFO, "MmMain - 0x%x\n", HobStart));
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//
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// Determine if the caller has passed a reference to a MM_CORE_PRIVATE_DATA
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// structure in the Hoblist. This choice will govern how boot information is
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// extracted later.
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//
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GuidHob = GetNextGuidHob (&gMmCoreDataHobGuid, HobStart);
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if (GuidHob == NULL) {
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//
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// Allocate and zero memory for a MM_CORE_PRIVATE_DATA table and then
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// initialise it
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//
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gMmCorePrivate = (MM_CORE_PRIVATE_DATA *) AllocateRuntimePages(EFI_SIZE_TO_PAGES(sizeof (MM_CORE_PRIVATE_DATA)));
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SetMem ((VOID *)(UINTN)gMmCorePrivate, sizeof (MM_CORE_PRIVATE_DATA), 0);
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gMmCorePrivate->Signature = MM_CORE_PRIVATE_DATA_SIGNATURE;
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gMmCorePrivate->MmEntryPointRegistered = FALSE;
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gMmCorePrivate->InMm = FALSE;
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gMmCorePrivate->ReturnStatus = EFI_SUCCESS;
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//
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// Extract the MMRAM ranges from the MMRAM descriptor HOB
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//
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MmramRangesHob = GetNextGuidHob (&gEfiMmPeiMmramMemoryReserveGuid, HobStart);
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if (MmramRangesHob == NULL)
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return EFI_UNSUPPORTED;
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MmramRangesHobData = GET_GUID_HOB_DATA (MmramRangesHob);
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ASSERT (MmramRangesHobData != NULL);
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MmramRanges = MmramRangesHobData->Descriptor;
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MmramRangeCount = (UINTN)MmramRangesHobData->NumberOfMmReservedRegions;
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|
ASSERT (MmramRanges);
|
|
ASSERT (MmramRangeCount);
|
|
|
|
//
|
|
// Copy the MMRAM ranges into MM_CORE_PRIVATE_DATA table just in case any
|
|
// code relies on them being present there
|
|
//
|
|
gMmCorePrivate->MmramRangeCount = (UINT64)MmramRangeCount;
|
|
gMmCorePrivate->MmramRanges =
|
|
(EFI_PHYSICAL_ADDRESS)(UINTN)AllocatePool (MmramRangeCount * sizeof (EFI_MMRAM_DESCRIPTOR));
|
|
ASSERT (gMmCorePrivate->MmramRanges != 0);
|
|
CopyMem (
|
|
(VOID *)(UINTN)gMmCorePrivate->MmramRanges,
|
|
MmramRanges,
|
|
MmramRangeCount * sizeof (EFI_MMRAM_DESCRIPTOR)
|
|
);
|
|
} else {
|
|
DataInHob = GET_GUID_HOB_DATA (GuidHob);
|
|
gMmCorePrivate = (MM_CORE_PRIVATE_DATA *)(UINTN)DataInHob->Address;
|
|
MmramRanges = (EFI_MMRAM_DESCRIPTOR *)(UINTN)gMmCorePrivate->MmramRanges;
|
|
MmramRangeCount = (UINTN)gMmCorePrivate->MmramRangeCount;
|
|
}
|
|
|
|
//
|
|
// Print the MMRAM ranges passed by the caller
|
|
//
|
|
DEBUG ((DEBUG_INFO, "MmramRangeCount - 0x%x\n", MmramRangeCount));
|
|
for (Index = 0; Index < MmramRangeCount; Index++) {
|
|
DEBUG ((DEBUG_INFO, "MmramRanges[%d]: 0x%016lx - 0x%lx\n", Index,
|
|
MmramRanges[Index].CpuStart,
|
|
MmramRanges[Index].PhysicalSize));
|
|
}
|
|
|
|
//
|
|
// Copy the MMRAM ranges into private MMRAM
|
|
//
|
|
mMmramRangeCount = MmramRangeCount;
|
|
DEBUG ((DEBUG_INFO, "mMmramRangeCount - 0x%x\n", mMmramRangeCount));
|
|
mMmramRanges = AllocatePool (mMmramRangeCount * sizeof (EFI_MMRAM_DESCRIPTOR));
|
|
DEBUG ((DEBUG_INFO, "mMmramRanges - 0x%x\n", mMmramRanges));
|
|
ASSERT (mMmramRanges != NULL);
|
|
CopyMem (mMmramRanges, (VOID *)(UINTN)MmramRanges, mMmramRangeCount * sizeof (EFI_MMRAM_DESCRIPTOR));
|
|
|
|
//
|
|
// Get Boot Firmware Volume address from the BFV Hob
|
|
//
|
|
BfvHob = GetFirstHob (EFI_HOB_TYPE_FV);
|
|
if (BfvHob != NULL) {
|
|
DEBUG ((DEBUG_INFO, "BFV address - 0x%x\n", BfvHob->BaseAddress));
|
|
DEBUG ((DEBUG_INFO, "BFV size - 0x%x\n", BfvHob->Length));
|
|
gMmCorePrivate->StandaloneBfvAddress = BfvHob->BaseAddress;
|
|
}
|
|
|
|
gMmCorePrivate->Mmst = (EFI_PHYSICAL_ADDRESS)(UINTN)&gMmCoreMmst;
|
|
gMmCorePrivate->MmEntryPoint = (EFI_PHYSICAL_ADDRESS)(UINTN)MmEntryPoint;
|
|
|
|
//
|
|
// No need to initialize memory service.
|
|
// It is done in the constructor of StandaloneMmCoreMemoryAllocationLib(),
|
|
// so that the library linked with StandaloneMmCore can use AllocatePool() in
|
|
// the constructor.
|
|
|
|
DEBUG ((DEBUG_INFO, "MmInstallConfigurationTable For HobList\n"));
|
|
//
|
|
// Install HobList
|
|
//
|
|
HobSize = GetHobListSize (HobStart);
|
|
DEBUG ((DEBUG_INFO, "HobSize - 0x%x\n", HobSize));
|
|
MmHobStart = AllocatePool (HobSize);
|
|
DEBUG ((DEBUG_INFO, "MmHobStart - 0x%x\n", MmHobStart));
|
|
ASSERT (MmHobStart != NULL);
|
|
CopyMem (MmHobStart, HobStart, HobSize);
|
|
Status = MmInstallConfigurationTable (&gMmCoreMmst, &gEfiHobListGuid, MmHobStart, HobSize);
|
|
ASSERT_EFI_ERROR (Status);
|
|
|
|
//
|
|
// Register notification for EFI_MM_CONFIGURATION_PROTOCOL registration and
|
|
// use it to register the MM Foundation entrypoint
|
|
//
|
|
DEBUG ((DEBUG_INFO, "MmRegisterProtocolNotify - MmConfigurationMmProtocol\n"));
|
|
Status = MmRegisterProtocolNotify (
|
|
&gEfiMmConfigurationProtocolGuid,
|
|
MmConfigurationMmNotify,
|
|
&Registration
|
|
);
|
|
ASSERT_EFI_ERROR (Status);
|
|
|
|
//
|
|
// Dispatch standalone BFV
|
|
//
|
|
DEBUG ((DEBUG_INFO, "Mm Dispatch StandaloneBfvAddress - 0x%08x\n", gMmCorePrivate->StandaloneBfvAddress));
|
|
if (gMmCorePrivate->StandaloneBfvAddress != 0) {
|
|
MmCoreFfsFindMmDriver ((EFI_FIRMWARE_VOLUME_HEADER *)(UINTN)gMmCorePrivate->StandaloneBfvAddress);
|
|
MmDispatcher ();
|
|
}
|
|
|
|
//
|
|
// Register all handlers in the core table
|
|
//
|
|
for (Index = 0; mMmCoreMmiHandlers[Index].HandlerType != NULL; Index++) {
|
|
Status = MmiHandlerRegister (
|
|
mMmCoreMmiHandlers[Index].Handler,
|
|
mMmCoreMmiHandlers[Index].HandlerType,
|
|
&mMmCoreMmiHandlers[Index].DispatchHandle
|
|
);
|
|
DEBUG ((DEBUG_INFO, "MmiHandlerRegister - GUID %g - Status %d\n", mMmCoreMmiHandlers[Index].HandlerType, Status));
|
|
}
|
|
|
|
DEBUG ((DEBUG_INFO, "MmMain Done!\n"));
|
|
|
|
return EFI_SUCCESS;
|
|
}
|