/** @file SMI handler profile support. Copyright (c) 2017, Intel Corporation. All rights reserved.
SPDX-License-Identifier: BSD-2-Clause-Patent **/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "PiSmmCore.h" #define GET_OCCUPIED_SIZE(ActualSize, Alignment) \ ((ActualSize) + (((Alignment) - ((ActualSize) & ((Alignment) - 1))) & ((Alignment) - 1))) typedef struct { EFI_GUID FileGuid; PHYSICAL_ADDRESS EntryPoint; PHYSICAL_ADDRESS ImageBase; UINT64 ImageSize; UINT32 ImageRef; UINT16 PdbStringSize; CHAR8 *PdbString; } IMAGE_STRUCT; /** Register SMI handler profile handler. **/ VOID RegisterSmiHandlerProfileHandler( VOID ); /** Retrieves and returns a pointer to the entry point to a PE/COFF image that has been loaded into system memory with the PE/COFF Loader Library functions. Retrieves the entry point to the PE/COFF image specified by Pe32Data and returns this entry point in EntryPoint. If the entry point could not be retrieved from the PE/COFF image, then return RETURN_INVALID_PARAMETER. Otherwise return RETURN_SUCCESS. If Pe32Data is NULL, then ASSERT(). If EntryPoint is NULL, then ASSERT(). @param Pe32Data The pointer to the PE/COFF image that is loaded in system memory. @param EntryPoint The pointer to entry point to the PE/COFF image to return. @retval RETURN_SUCCESS EntryPoint was returned. @retval RETURN_INVALID_PARAMETER The entry point could not be found in the PE/COFF image. **/ RETURN_STATUS InternalPeCoffGetEntryPoint ( IN VOID *Pe32Data, OUT VOID **EntryPoint ); extern LIST_ENTRY mSmiEntryList; extern LIST_ENTRY mHardwareSmiEntryList; extern SMI_ENTRY mRootSmiEntry; extern SMI_HANDLER_PROFILE_PROTOCOL mSmiHandlerProfile; GLOBAL_REMOVE_IF_UNREFERENCED LIST_ENTRY mHardwareSmiEntryList = INITIALIZE_LIST_HEAD_VARIABLE (mHardwareSmiEntryList); GLOBAL_REMOVE_IF_UNREFERENCED LIST_ENTRY mRootSmiEntryList = INITIALIZE_LIST_HEAD_VARIABLE (mRootSmiEntryList); GLOBAL_REMOVE_IF_UNREFERENCED LIST_ENTRY *mSmmCoreRootSmiEntryList = &mRootSmiEntryList; GLOBAL_REMOVE_IF_UNREFERENCED LIST_ENTRY *mSmmCoreSmiEntryList = &mSmiEntryList; GLOBAL_REMOVE_IF_UNREFERENCED LIST_ENTRY *mSmmCoreHardwareSmiEntryList = &mHardwareSmiEntryList; GLOBAL_REMOVE_IF_UNREFERENCED IMAGE_STRUCT *mImageStruct; GLOBAL_REMOVE_IF_UNREFERENCED UINT32 mImageStructCountMax; GLOBAL_REMOVE_IF_UNREFERENCED UINT32 mImageStructCount; GLOBAL_REMOVE_IF_UNREFERENCED VOID *mSmiHandlerProfileDatabase; GLOBAL_REMOVE_IF_UNREFERENCED UINTN mSmiHandlerProfileDatabaseSize; GLOBAL_REMOVE_IF_UNREFERENCED UINTN mSmmImageDatabaseSize; GLOBAL_REMOVE_IF_UNREFERENCED UINTN mSmmRootSmiDatabaseSize; GLOBAL_REMOVE_IF_UNREFERENCED UINTN mSmmSmiDatabaseSize; GLOBAL_REMOVE_IF_UNREFERENCED UINTN mSmmHardwareSmiDatabaseSize; GLOBAL_REMOVE_IF_UNREFERENCED BOOLEAN mSmiHandlerProfileRecordingStatus; GLOBAL_REMOVE_IF_UNREFERENCED SMI_HANDLER_PROFILE_PROTOCOL mSmiHandlerProfile = { SmiHandlerProfileRegisterHandler, SmiHandlerProfileUnregisterHandler, }; /** This function dump raw data. @param Data raw data @param Size raw data size **/ VOID InternalDumpData ( IN UINT8 *Data, IN UINTN Size ) { UINTN Index; for (Index = 0; Index < Size; Index++) { DEBUG ((DEBUG_INFO, "%02x ", (UINTN)Data[Index])); } } /** Get GUID name for an image. @param[in] LoadedImage LoadedImage protocol. @param[out] Guid Guid of the FFS **/ VOID GetDriverGuid ( IN EFI_LOADED_IMAGE_PROTOCOL *LoadedImage, OUT EFI_GUID *Guid ) { EFI_GUID *FileName; FileName = NULL; if ((DevicePathType(LoadedImage->FilePath) == MEDIA_DEVICE_PATH) && (DevicePathSubType(LoadedImage->FilePath) == MEDIA_PIWG_FW_FILE_DP)) { FileName = &((MEDIA_FW_VOL_FILEPATH_DEVICE_PATH *)LoadedImage->FilePath)->FvFileName; } if (FileName != NULL) { CopyGuid(Guid, FileName); } else { ZeroMem(Guid, sizeof(EFI_GUID)); } } /** Add image structure. @param ImageBase image base @param ImageSize image size @param EntryPoint image entry point @param Guid FFS GUID of the image @param PdbString image PDB string **/ VOID AddImageStruct( IN PHYSICAL_ADDRESS ImageBase, IN UINT64 ImageSize, IN PHYSICAL_ADDRESS EntryPoint, IN EFI_GUID *Guid, IN CHAR8 *PdbString ) { UINTN PdbStringSize; if (mImageStructCount >= mImageStructCountMax) { ASSERT(FALSE); return; } CopyGuid(&mImageStruct[mImageStructCount].FileGuid, Guid); mImageStruct[mImageStructCount].ImageRef = mImageStructCount; mImageStruct[mImageStructCount].ImageBase = ImageBase; mImageStruct[mImageStructCount].ImageSize = ImageSize; mImageStruct[mImageStructCount].EntryPoint = EntryPoint; if (PdbString != NULL) { PdbStringSize = AsciiStrSize(PdbString); mImageStruct[mImageStructCount].PdbString = AllocateCopyPool(PdbStringSize, PdbString); if (mImageStruct[mImageStructCount].PdbString != NULL) { mImageStruct[mImageStructCount].PdbStringSize = (UINT16) PdbStringSize; } } mImageStructCount++; } /** return an image structure based upon image address. @param Address image address @return image structure **/ IMAGE_STRUCT * AddressToImageStruct( IN UINTN Address ) { UINTN Index; for (Index = 0; Index < mImageStructCount; Index++) { if ((Address >= mImageStruct[Index].ImageBase) && (Address < mImageStruct[Index].ImageBase + mImageStruct[Index].ImageSize)) { return &mImageStruct[Index]; } } return NULL; } /** return an image reference index based upon image address. @param Address image address @return image reference index **/ UINT32 AddressToImageRef( IN UINTN Address ) { IMAGE_STRUCT *ImageStruct; ImageStruct = AddressToImageStruct(Address); if (ImageStruct != NULL) { return ImageStruct->ImageRef; } return (UINT32)-1; } /** Collect SMM image information based upon loaded image protocol. **/ VOID GetSmmLoadedImage( VOID ) { EFI_STATUS Status; UINTN NoHandles; UINTN HandleBufferSize; EFI_HANDLE *HandleBuffer; UINTN Index; EFI_LOADED_IMAGE_PROTOCOL *LoadedImage; CHAR16 *PathStr; EFI_SMM_DRIVER_ENTRY *LoadedImagePrivate; PHYSICAL_ADDRESS EntryPoint; VOID *EntryPointInImage; EFI_GUID Guid; CHAR8 *PdbString; PHYSICAL_ADDRESS RealImageBase; HandleBufferSize = 0; HandleBuffer = NULL; Status = gSmst->SmmLocateHandle( ByProtocol, &gEfiLoadedImageProtocolGuid, NULL, &HandleBufferSize, HandleBuffer ); if (Status != EFI_BUFFER_TOO_SMALL) { return; } HandleBuffer = AllocateZeroPool(HandleBufferSize); if (HandleBuffer == NULL) { return; } Status = gSmst->SmmLocateHandle( ByProtocol, &gEfiLoadedImageProtocolGuid, NULL, &HandleBufferSize, HandleBuffer ); if (EFI_ERROR(Status)) { return; } NoHandles = HandleBufferSize/sizeof(EFI_HANDLE); mImageStructCountMax = (UINT32) NoHandles; mImageStruct = AllocateZeroPool(mImageStructCountMax * sizeof(IMAGE_STRUCT)); if (mImageStruct == NULL) { goto Done; } for (Index = 0; Index < NoHandles; Index++) { Status = gSmst->SmmHandleProtocol( HandleBuffer[Index], &gEfiLoadedImageProtocolGuid, (VOID **)&LoadedImage ); if (EFI_ERROR(Status)) { continue; } PathStr = ConvertDevicePathToText(LoadedImage->FilePath, TRUE, TRUE); GetDriverGuid(LoadedImage, &Guid); DEBUG ((DEBUG_INFO, "Image: %g ", &Guid)); EntryPoint = 0; LoadedImagePrivate = BASE_CR(LoadedImage, EFI_SMM_DRIVER_ENTRY, SmmLoadedImage); RealImageBase = (UINTN)LoadedImage->ImageBase; if (LoadedImagePrivate->Signature == EFI_SMM_DRIVER_ENTRY_SIGNATURE) { EntryPoint = LoadedImagePrivate->ImageEntryPoint; if ((EntryPoint != 0) && ((EntryPoint < (UINTN)LoadedImage->ImageBase) || (EntryPoint >= ((UINTN)LoadedImage->ImageBase + LoadedImage->ImageSize)))) { // // If the EntryPoint is not in the range of image buffer, it should come from emulation environment. // So patch ImageBuffer here to align the EntryPoint. // Status = InternalPeCoffGetEntryPoint(LoadedImage->ImageBase, &EntryPointInImage); ASSERT_EFI_ERROR(Status); RealImageBase = (UINTN)LoadedImage->ImageBase + EntryPoint - (UINTN)EntryPointInImage; } } DEBUG ((DEBUG_INFO, "(0x%lx - 0x%lx", RealImageBase, LoadedImage->ImageSize)); if (EntryPoint != 0) { DEBUG ((DEBUG_INFO, ", EntryPoint:0x%lx", EntryPoint)); } DEBUG ((DEBUG_INFO, ")\n")); if (RealImageBase != 0) { PdbString = PeCoffLoaderGetPdbPointer ((VOID*) (UINTN) RealImageBase); DEBUG ((DEBUG_INFO, " pdb - %a\n", PdbString)); } else { PdbString = NULL; } DEBUG ((DEBUG_INFO, " (%s)\n", PathStr)); AddImageStruct(RealImageBase, LoadedImage->ImageSize, EntryPoint, &Guid, PdbString); } Done: FreePool(HandleBuffer); return; } /** Dump SMI child context. @param HandlerType the handler type @param Context the handler context @param ContextSize the handler context size **/ VOID DumpSmiChildContext ( IN EFI_GUID *HandlerType, IN VOID *Context, IN UINTN ContextSize ) { CHAR16 *Str; if (CompareGuid (HandlerType, &gEfiSmmSwDispatch2ProtocolGuid)) { DEBUG ((DEBUG_INFO, " SwSmi - 0x%lx\n", ((SMI_HANDLER_PROFILE_SW_REGISTER_CONTEXT *)Context)->SwSmiInputValue)); } else if (CompareGuid (HandlerType, &gEfiSmmSxDispatch2ProtocolGuid)) { DEBUG ((DEBUG_INFO, " SxType - 0x%x\n", ((EFI_SMM_SX_REGISTER_CONTEXT *)Context)->Type)); DEBUG ((DEBUG_INFO, " SxPhase - 0x%x\n", ((EFI_SMM_SX_REGISTER_CONTEXT *)Context)->Phase)); } else if (CompareGuid (HandlerType, &gEfiSmmPowerButtonDispatch2ProtocolGuid)) { DEBUG ((DEBUG_INFO, " PowerButtonPhase - 0x%x\n", ((EFI_SMM_POWER_BUTTON_REGISTER_CONTEXT *)Context)->Phase)); } else if (CompareGuid (HandlerType, &gEfiSmmStandbyButtonDispatch2ProtocolGuid)) { DEBUG ((DEBUG_INFO, " StandbyButtonPhase - 0x%x\n", ((EFI_SMM_STANDBY_BUTTON_REGISTER_CONTEXT *)Context)->Phase)); } else if (CompareGuid (HandlerType, &gEfiSmmPeriodicTimerDispatch2ProtocolGuid)) { DEBUG ((DEBUG_INFO, " PeriodicTimerPeriod - %ld\n", ((EFI_SMM_PERIODIC_TIMER_REGISTER_CONTEXT *)Context)->Period)); DEBUG ((DEBUG_INFO, " PeriodicTimerSmiTickInterval - %ld\n", ((EFI_SMM_PERIODIC_TIMER_REGISTER_CONTEXT *)Context)->SmiTickInterval)); } else if (CompareGuid (HandlerType, &gEfiSmmGpiDispatch2ProtocolGuid)) { DEBUG ((DEBUG_INFO, " GpiNum - 0x%lx\n", ((EFI_SMM_GPI_REGISTER_CONTEXT *)Context)->GpiNum)); } else if (CompareGuid (HandlerType, &gEfiSmmIoTrapDispatch2ProtocolGuid)) { DEBUG ((DEBUG_INFO, " IoTrapAddress - 0x%x\n", ((EFI_SMM_IO_TRAP_REGISTER_CONTEXT *)Context)->Address)); DEBUG ((DEBUG_INFO, " IoTrapLength - 0x%x\n", ((EFI_SMM_IO_TRAP_REGISTER_CONTEXT *)Context)->Length)); DEBUG ((DEBUG_INFO, " IoTrapType - 0x%x\n", ((EFI_SMM_IO_TRAP_REGISTER_CONTEXT *)Context)->Type)); } else if (CompareGuid (HandlerType, &gEfiSmmUsbDispatch2ProtocolGuid)) { DEBUG ((DEBUG_INFO, " UsbType - 0x%x\n", ((SMI_HANDLER_PROFILE_USB_REGISTER_CONTEXT *)Context)->Type)); Str = ConvertDevicePathToText((EFI_DEVICE_PATH_PROTOCOL *)(((SMI_HANDLER_PROFILE_USB_REGISTER_CONTEXT *)Context) + 1), TRUE, TRUE); DEBUG ((DEBUG_INFO, " UsbDevicePath - %s\n", Str)); if (Str != NULL) { FreePool(Str); } } else { DEBUG ((DEBUG_INFO, " Context - ")); InternalDumpData (Context, ContextSize); DEBUG ((DEBUG_INFO, "\n")); } } /** Dump all SMI handlers associated with SmiEntry. @param SmiEntry SMI entry. **/ VOID DumpSmiHandlerOnSmiEntry( IN SMI_ENTRY *SmiEntry ) { LIST_ENTRY *ListEntry; SMI_HANDLER *SmiHandler; IMAGE_STRUCT *ImageStruct; ListEntry = &SmiEntry->SmiHandlers; for (ListEntry = ListEntry->ForwardLink; ListEntry != &SmiEntry->SmiHandlers; ListEntry = ListEntry->ForwardLink) { SmiHandler = CR(ListEntry, SMI_HANDLER, Link, SMI_HANDLER_SIGNATURE); ImageStruct = AddressToImageStruct((UINTN)SmiHandler->Handler); if (ImageStruct != NULL) { DEBUG ((DEBUG_INFO, " Module - %g", &ImageStruct->FileGuid)); } if ((ImageStruct != NULL) && (ImageStruct->PdbString[0] != 0)) { DEBUG ((DEBUG_INFO, " (Pdb - %a)", ImageStruct->PdbString)); } DEBUG ((DEBUG_INFO, "\n")); if (SmiHandler->ContextSize != 0) { DumpSmiChildContext (&SmiEntry->HandlerType, SmiHandler->Context, SmiHandler->ContextSize); } DEBUG ((DEBUG_INFO, " Handler - 0x%x", SmiHandler->Handler)); if (ImageStruct != NULL) { DEBUG ((DEBUG_INFO, " <== RVA - 0x%x", (UINTN)SmiHandler->Handler - (UINTN) ImageStruct->ImageBase)); } DEBUG ((DEBUG_INFO, "\n")); DEBUG ((DEBUG_INFO, " CallerAddr - 0x%x", SmiHandler->CallerAddr)); if (ImageStruct != NULL) { DEBUG ((DEBUG_INFO, " <== RVA - 0x%x", SmiHandler->CallerAddr - (UINTN) ImageStruct->ImageBase)); } DEBUG ((DEBUG_INFO, "\n")); } return; } /** Dump all SMI entry on the list. @param SmiEntryList a list of SMI entry. **/ VOID DumpSmiEntryList( IN LIST_ENTRY *SmiEntryList ) { LIST_ENTRY *ListEntry; SMI_ENTRY *SmiEntry; ListEntry = SmiEntryList; for (ListEntry = ListEntry->ForwardLink; ListEntry != SmiEntryList; ListEntry = ListEntry->ForwardLink) { SmiEntry = CR(ListEntry, SMI_ENTRY, AllEntries, SMI_ENTRY_SIGNATURE); DEBUG ((DEBUG_INFO, "SmiEntry - %g\n", &SmiEntry->HandlerType)); DumpSmiHandlerOnSmiEntry(SmiEntry); } return; } /** SMM Ready To Lock event notification handler. This function collects all SMM image information and build SmiHandleProfile database, and register SmiHandlerProfile SMI handler. @param[in] Protocol Points to the protocol's unique identifier. @param[in] Interface Points to the interface instance. @param[in] Handle The handle on which the interface was installed. @retval EFI_SUCCESS Notification handler runs successfully. **/ EFI_STATUS EFIAPI SmmReadyToLockInSmiHandlerProfile ( IN CONST EFI_GUID *Protocol, IN VOID *Interface, IN EFI_HANDLE Handle ) { // // Dump all image // DEBUG ((DEBUG_INFO, "##################\n")); DEBUG ((DEBUG_INFO, "# IMAGE DATABASE #\n")); DEBUG ((DEBUG_INFO, "##################\n")); GetSmmLoadedImage (); DEBUG ((DEBUG_INFO, "\n")); // // Dump SMI Handler // DEBUG ((DEBUG_INFO, "########################\n")); DEBUG ((DEBUG_INFO, "# SMI Handler DATABASE #\n")); DEBUG ((DEBUG_INFO, "########################\n")); DEBUG ((DEBUG_INFO, "# 1. ROOT SMI Handler #\n")); DEBUG_CODE ( DumpSmiEntryList(mSmmCoreRootSmiEntryList); ); DEBUG ((DEBUG_INFO, "# 2. GUID SMI Handler #\n")); DEBUG_CODE ( DumpSmiEntryList(mSmmCoreSmiEntryList); ); DEBUG ((DEBUG_INFO, "# 3. Hardware SMI Handler #\n")); DEBUG_CODE ( DumpSmiEntryList(mSmmCoreHardwareSmiEntryList); ); DEBUG ((DEBUG_INFO, "\n")); RegisterSmiHandlerProfileHandler(); if (mImageStruct != NULL) { FreePool(mImageStruct); } return EFI_SUCCESS; } /** returns SMM image data base size. @return SMM image data base size. **/ UINTN GetSmmImageDatabaseSize( VOID ) { UINTN Size; UINT32 Index; Size = 0; for (Index = 0; Index < mImageStructCount; Index++) { Size += sizeof(SMM_CORE_IMAGE_DATABASE_STRUCTURE) + GET_OCCUPIED_SIZE (mImageStruct[Index].PdbStringSize, sizeof (UINT64)); } return Size; } /** returns all SMI handlers' size associated with SmiEntry. @param SmiEntry SMI entry. @return all SMI handlers' size associated with SmiEntry. **/ UINTN GetSmmSmiHandlerSizeOnSmiEntry( IN SMI_ENTRY *SmiEntry ) { LIST_ENTRY *ListEntry; SMI_HANDLER *SmiHandler; UINTN Size; Size = 0; ListEntry = &SmiEntry->SmiHandlers; for (ListEntry = ListEntry->ForwardLink; ListEntry != &SmiEntry->SmiHandlers; ListEntry = ListEntry->ForwardLink) { SmiHandler = CR(ListEntry, SMI_HANDLER, Link, SMI_HANDLER_SIGNATURE); Size += sizeof(SMM_CORE_SMI_HANDLER_STRUCTURE) + GET_OCCUPIED_SIZE (SmiHandler->ContextSize, sizeof (UINT64)); } return Size; } /** return all SMI handler database size on the SMI entry list. @param SmiEntryList a list of SMI entry. @return all SMI handler database size on the SMI entry list. **/ UINTN GetSmmSmiDatabaseSize( IN LIST_ENTRY *SmiEntryList ) { LIST_ENTRY *ListEntry; SMI_ENTRY *SmiEntry; UINTN Size; Size = 0; ListEntry = SmiEntryList; for (ListEntry = ListEntry->ForwardLink; ListEntry != SmiEntryList; ListEntry = ListEntry->ForwardLink) { SmiEntry = CR(ListEntry, SMI_ENTRY, AllEntries, SMI_ENTRY_SIGNATURE); Size += sizeof(SMM_CORE_SMI_DATABASE_STRUCTURE); Size += GetSmmSmiHandlerSizeOnSmiEntry(SmiEntry); } return Size; } /** return SMI handler profile database size. @return SMI handler profile database size. **/ UINTN GetSmiHandlerProfileDatabaseSize ( VOID ) { mSmmImageDatabaseSize = GetSmmImageDatabaseSize(); mSmmRootSmiDatabaseSize = GetSmmSmiDatabaseSize(mSmmCoreRootSmiEntryList); mSmmSmiDatabaseSize = GetSmmSmiDatabaseSize(mSmmCoreSmiEntryList); mSmmHardwareSmiDatabaseSize = GetSmmSmiDatabaseSize(mSmmCoreHardwareSmiEntryList); return mSmmImageDatabaseSize + mSmmSmiDatabaseSize + mSmmRootSmiDatabaseSize + mSmmHardwareSmiDatabaseSize; } /** get SMM image database. @param Data The buffer to hold SMM image database @param ExpectedSize The expected size of the SMM image database @return SMM image data base size. **/ UINTN GetSmmImageDatabaseData ( IN OUT VOID *Data, IN UINTN ExpectedSize ) { SMM_CORE_IMAGE_DATABASE_STRUCTURE *ImageStruct; UINTN Size; UINTN Index; ImageStruct = Data; Size = 0; for (Index = 0; Index < mImageStructCount; Index++) { if (Size >= ExpectedSize) { return 0; } if (sizeof(SMM_CORE_IMAGE_DATABASE_STRUCTURE) + GET_OCCUPIED_SIZE (mImageStruct[Index].PdbStringSize, sizeof (UINT64)) > ExpectedSize - Size) { return 0; } ImageStruct->Header.Signature = SMM_CORE_IMAGE_DATABASE_SIGNATURE; ImageStruct->Header.Length = (UINT32)(sizeof(SMM_CORE_IMAGE_DATABASE_STRUCTURE) + GET_OCCUPIED_SIZE (mImageStruct[Index].PdbStringSize, sizeof (UINT64))); ImageStruct->Header.Revision = SMM_CORE_IMAGE_DATABASE_REVISION; CopyGuid(&ImageStruct->FileGuid, &mImageStruct[Index].FileGuid); ImageStruct->ImageRef = mImageStruct[Index].ImageRef; ImageStruct->EntryPoint = mImageStruct[Index].EntryPoint; ImageStruct->ImageBase = mImageStruct[Index].ImageBase; ImageStruct->ImageSize = mImageStruct[Index].ImageSize; if (mImageStruct[Index].PdbStringSize != 0) { ImageStruct->PdbStringOffset = sizeof(SMM_CORE_IMAGE_DATABASE_STRUCTURE); CopyMem((VOID *)((UINTN)ImageStruct + ImageStruct->PdbStringOffset), mImageStruct[Index].PdbString, mImageStruct[Index].PdbStringSize); } else { ImageStruct->PdbStringOffset = 0; } ImageStruct = (SMM_CORE_IMAGE_DATABASE_STRUCTURE *)((UINTN)ImageStruct + ImageStruct->Header.Length); Size += sizeof(SMM_CORE_IMAGE_DATABASE_STRUCTURE) + GET_OCCUPIED_SIZE (mImageStruct[Index].PdbStringSize, sizeof (UINT64)); } if (ExpectedSize != Size) { return 0; } return Size; } /** get all SMI handler data associated with SmiEntry. @param SmiEntry SMI entry. @param Data The buffer to hold all SMI handler data @param MaxSize The max size of the SMM image database @param Count The count of the SMI handler. @return SMM image data base size. **/ UINTN GetSmmSmiHandlerDataOnSmiEntry( IN SMI_ENTRY *SmiEntry, IN OUT VOID *Data, IN UINTN MaxSize, OUT UINT32 *Count ) { SMM_CORE_SMI_HANDLER_STRUCTURE *SmiHandlerStruct; LIST_ENTRY *ListEntry; SMI_HANDLER *SmiHandler; UINTN Size; SmiHandlerStruct = Data; Size = 0; *Count = 0; ListEntry = &SmiEntry->SmiHandlers; for (ListEntry = ListEntry->ForwardLink; ListEntry != &SmiEntry->SmiHandlers; ListEntry = ListEntry->ForwardLink) { SmiHandler = CR(ListEntry, SMI_HANDLER, Link, SMI_HANDLER_SIGNATURE); if (Size >= MaxSize) { *Count = 0; return 0; } if (sizeof(SMM_CORE_SMI_HANDLER_STRUCTURE) + GET_OCCUPIED_SIZE (SmiHandler->ContextSize, sizeof (UINT64)) > MaxSize - Size) { *Count = 0; return 0; } SmiHandlerStruct->Length = (UINT32)(sizeof(SMM_CORE_SMI_HANDLER_STRUCTURE) + GET_OCCUPIED_SIZE (SmiHandler->ContextSize, sizeof (UINT64))); SmiHandlerStruct->CallerAddr = (UINTN)SmiHandler->CallerAddr; SmiHandlerStruct->Handler = (UINTN)SmiHandler->Handler; SmiHandlerStruct->ImageRef = AddressToImageRef((UINTN)SmiHandler->Handler); SmiHandlerStruct->ContextBufferSize = (UINT32)SmiHandler->ContextSize; if (SmiHandler->ContextSize != 0) { SmiHandlerStruct->ContextBufferOffset = sizeof(SMM_CORE_SMI_HANDLER_STRUCTURE); CopyMem((UINT8 *)SmiHandlerStruct + SmiHandlerStruct->ContextBufferOffset, SmiHandler->Context, SmiHandler->ContextSize); } else { SmiHandlerStruct->ContextBufferOffset = 0; } Size += sizeof(SMM_CORE_SMI_HANDLER_STRUCTURE) + GET_OCCUPIED_SIZE (SmiHandler->ContextSize, sizeof (UINT64)); SmiHandlerStruct = (SMM_CORE_SMI_HANDLER_STRUCTURE *)((UINTN)SmiHandlerStruct + SmiHandlerStruct->Length); *Count = *Count + 1; } return Size; } /** get all SMI handler database on the SMI entry list. @param SmiEntryList a list of SMI entry. @param HandlerCategory The handler category @param Data The buffer to hold all SMI handler database @param ExpectedSize The expected size of the SMM image database @return all SMI database size on the SMI entry list. **/ UINTN GetSmmSmiDatabaseData( IN LIST_ENTRY *SmiEntryList, IN UINT32 HandlerCategory, IN OUT VOID *Data, IN UINTN ExpectedSize ) { SMM_CORE_SMI_DATABASE_STRUCTURE *SmiStruct; LIST_ENTRY *ListEntry; SMI_ENTRY *SmiEntry; UINTN Size; UINTN SmiHandlerSize; UINT32 SmiHandlerCount; SmiStruct = Data; Size = 0; ListEntry = SmiEntryList; for (ListEntry = ListEntry->ForwardLink; ListEntry != SmiEntryList; ListEntry = ListEntry->ForwardLink) { SmiEntry = CR(ListEntry, SMI_ENTRY, AllEntries, SMI_ENTRY_SIGNATURE); if (Size >= ExpectedSize) { return 0; } if (sizeof(SMM_CORE_SMI_DATABASE_STRUCTURE) > ExpectedSize - Size) { return 0; } SmiStruct->Header.Signature = SMM_CORE_SMI_DATABASE_SIGNATURE; SmiStruct->Header.Length = sizeof(SMM_CORE_SMI_DATABASE_STRUCTURE); SmiStruct->Header.Revision = SMM_CORE_SMI_DATABASE_REVISION; SmiStruct->HandlerCategory = HandlerCategory; CopyGuid(&SmiStruct->HandlerType, &SmiEntry->HandlerType); Size += sizeof(SMM_CORE_SMI_DATABASE_STRUCTURE); SmiHandlerSize = GetSmmSmiHandlerDataOnSmiEntry(SmiEntry, (UINT8 *)SmiStruct + SmiStruct->Header.Length, ExpectedSize - Size, &SmiHandlerCount); SmiStruct->HandlerCount = SmiHandlerCount; Size += SmiHandlerSize; SmiStruct->Header.Length += (UINT32)SmiHandlerSize; SmiStruct = (VOID *)((UINTN)SmiStruct + SmiStruct->Header.Length); } if (ExpectedSize != Size) { return 0; } return Size; } /** Get SMI handler profile database. @param Data the buffer to hold SMI handler profile database @retval EFI_SUCCESS the database is got. @retval EFI_INVALID_PARAMETER the database size mismatch. **/ EFI_STATUS GetSmiHandlerProfileDatabaseData( IN OUT VOID *Data ) { UINTN SmmImageDatabaseSize; UINTN SmmSmiDatabaseSize; UINTN SmmRootSmiDatabaseSize; UINTN SmmHardwareSmiDatabaseSize; DEBUG((DEBUG_VERBOSE, "GetSmiHandlerProfileDatabaseData\n")); SmmImageDatabaseSize = GetSmmImageDatabaseData(Data, mSmmImageDatabaseSize); if (SmmImageDatabaseSize != mSmmImageDatabaseSize) { DEBUG((DEBUG_ERROR, "GetSmiHandlerProfileDatabaseData - SmmImageDatabaseSize mismatch!\n")); return EFI_INVALID_PARAMETER; } SmmRootSmiDatabaseSize = GetSmmSmiDatabaseData(mSmmCoreRootSmiEntryList, SmmCoreSmiHandlerCategoryRootHandler, (UINT8 *)Data + SmmImageDatabaseSize, mSmmRootSmiDatabaseSize); if (SmmRootSmiDatabaseSize != mSmmRootSmiDatabaseSize) { DEBUG((DEBUG_ERROR, "GetSmiHandlerProfileDatabaseData - SmmRootSmiDatabaseSize mismatch!\n")); return EFI_INVALID_PARAMETER; } SmmSmiDatabaseSize = GetSmmSmiDatabaseData(mSmmCoreSmiEntryList, SmmCoreSmiHandlerCategoryGuidHandler, (UINT8 *)Data + SmmImageDatabaseSize + mSmmRootSmiDatabaseSize, mSmmSmiDatabaseSize); if (SmmSmiDatabaseSize != mSmmSmiDatabaseSize) { DEBUG((DEBUG_ERROR, "GetSmiHandlerProfileDatabaseData - SmmSmiDatabaseSize mismatch!\n")); return EFI_INVALID_PARAMETER; } SmmHardwareSmiDatabaseSize = GetSmmSmiDatabaseData(mSmmCoreHardwareSmiEntryList, SmmCoreSmiHandlerCategoryHardwareHandler, (UINT8 *)Data + SmmImageDatabaseSize + SmmRootSmiDatabaseSize + SmmSmiDatabaseSize, mSmmHardwareSmiDatabaseSize); if (SmmHardwareSmiDatabaseSize != mSmmHardwareSmiDatabaseSize) { DEBUG((DEBUG_ERROR, "GetSmiHandlerProfileDatabaseData - SmmHardwareSmiDatabaseSize mismatch!\n")); return EFI_INVALID_PARAMETER; } return EFI_SUCCESS; } /** build SMI handler profile database. **/ VOID BuildSmiHandlerProfileDatabase( VOID ) { EFI_STATUS Status; mSmiHandlerProfileDatabaseSize = GetSmiHandlerProfileDatabaseSize(); mSmiHandlerProfileDatabase = AllocatePool(mSmiHandlerProfileDatabaseSize); if (mSmiHandlerProfileDatabase == NULL) { return; } Status = GetSmiHandlerProfileDatabaseData(mSmiHandlerProfileDatabase); if (EFI_ERROR(Status)) { FreePool(mSmiHandlerProfileDatabase); mSmiHandlerProfileDatabase = NULL; } } /** Copy SMI handler profile data. @param DataBuffer The buffer to hold SMI handler profile data. @param DataSize On input, data buffer size. On output, actual data buffer size copied. @param DataOffset On input, data buffer offset to copy. On output, next time data buffer offset to copy. **/ VOID SmiHandlerProfileCopyData( OUT VOID *DataBuffer, IN OUT UINT64 *DataSize, IN OUT UINT64 *DataOffset ) { if (*DataOffset >= mSmiHandlerProfileDatabaseSize) { *DataOffset = mSmiHandlerProfileDatabaseSize; return; } if (mSmiHandlerProfileDatabaseSize - *DataOffset < *DataSize) { *DataSize = mSmiHandlerProfileDatabaseSize - *DataOffset; } CopyMem( DataBuffer, (UINT8 *)mSmiHandlerProfileDatabase + *DataOffset, (UINTN)*DataSize ); *DataOffset = *DataOffset + *DataSize; } /** SMI handler profile handler to get info. @param SmiHandlerProfileParameterGetInfo The parameter of SMI handler profile get info. **/ VOID SmiHandlerProfileHandlerGetInfo( IN SMI_HANDLER_PROFILE_PARAMETER_GET_INFO *SmiHandlerProfileParameterGetInfo ) { BOOLEAN SmiHandlerProfileRecordingStatus; SmiHandlerProfileRecordingStatus = mSmiHandlerProfileRecordingStatus; mSmiHandlerProfileRecordingStatus = FALSE; SmiHandlerProfileParameterGetInfo->DataSize = mSmiHandlerProfileDatabaseSize; SmiHandlerProfileParameterGetInfo->Header.ReturnStatus = 0; mSmiHandlerProfileRecordingStatus = SmiHandlerProfileRecordingStatus; } /** SMI handler profile handler to get data by offset. @param SmiHandlerProfileParameterGetDataByOffset The parameter of SMI handler profile get data by offset. **/ VOID SmiHandlerProfileHandlerGetDataByOffset( IN SMI_HANDLER_PROFILE_PARAMETER_GET_DATA_BY_OFFSET *SmiHandlerProfileParameterGetDataByOffset ) { SMI_HANDLER_PROFILE_PARAMETER_GET_DATA_BY_OFFSET SmiHandlerProfileGetDataByOffset; BOOLEAN SmiHandlerProfileRecordingStatus; SmiHandlerProfileRecordingStatus = mSmiHandlerProfileRecordingStatus; mSmiHandlerProfileRecordingStatus = FALSE; CopyMem(&SmiHandlerProfileGetDataByOffset, SmiHandlerProfileParameterGetDataByOffset, sizeof(SmiHandlerProfileGetDataByOffset)); // // Sanity check // if (!SmmIsBufferOutsideSmmValid((UINTN)SmiHandlerProfileGetDataByOffset.DataBuffer, (UINTN)SmiHandlerProfileGetDataByOffset.DataSize)) { DEBUG((DEBUG_ERROR, "SmiHandlerProfileHandlerGetDataByOffset: SMI handler profile get data in SMRAM or overflow!\n")); SmiHandlerProfileParameterGetDataByOffset->Header.ReturnStatus = (UINT64)(INT64)(INTN)EFI_ACCESS_DENIED; goto Done; } SmiHandlerProfileCopyData((VOID *)(UINTN)SmiHandlerProfileGetDataByOffset.DataBuffer, &SmiHandlerProfileGetDataByOffset.DataSize, &SmiHandlerProfileGetDataByOffset.DataOffset); CopyMem(SmiHandlerProfileParameterGetDataByOffset, &SmiHandlerProfileGetDataByOffset, sizeof(SmiHandlerProfileGetDataByOffset)); SmiHandlerProfileParameterGetDataByOffset->Header.ReturnStatus = 0; Done: mSmiHandlerProfileRecordingStatus = SmiHandlerProfileRecordingStatus; } /** Dispatch function for a Software SMI handler. Caution: This function may receive untrusted input. Communicate buffer and buffer size are external input, so this function will do basic validation. @param DispatchHandle The unique handle assigned to this handler by SmiHandlerRegister(). @param Context Points to an optional handler context which was specified when the handler was registered. @param CommBuffer A pointer to a collection of data in memory that will be conveyed from a non-SMM environment into an SMM environment. @param CommBufferSize The size of the CommBuffer. @retval EFI_SUCCESS Command is handled successfully. **/ EFI_STATUS EFIAPI SmiHandlerProfileHandler( IN EFI_HANDLE DispatchHandle, IN CONST VOID *Context OPTIONAL, IN OUT VOID *CommBuffer OPTIONAL, IN OUT UINTN *CommBufferSize OPTIONAL ) { SMI_HANDLER_PROFILE_PARAMETER_HEADER *SmiHandlerProfileParameterHeader; UINTN TempCommBufferSize; DEBUG((DEBUG_ERROR, "SmiHandlerProfileHandler Enter\n")); if (mSmiHandlerProfileDatabase == NULL) { return EFI_SUCCESS; } // // If input is invalid, stop processing this SMI // if (CommBuffer == NULL || CommBufferSize == NULL) { return EFI_SUCCESS; } TempCommBufferSize = *CommBufferSize; if (TempCommBufferSize < sizeof(SMI_HANDLER_PROFILE_PARAMETER_HEADER)) { DEBUG((DEBUG_ERROR, "SmiHandlerProfileHandler: SMM communication buffer size invalid!\n")); return EFI_SUCCESS; } if (!SmmIsBufferOutsideSmmValid((UINTN)CommBuffer, TempCommBufferSize)) { DEBUG((DEBUG_ERROR, "SmiHandlerProfileHandler: SMM communication buffer in SMRAM or overflow!\n")); return EFI_SUCCESS; } SmiHandlerProfileParameterHeader = (SMI_HANDLER_PROFILE_PARAMETER_HEADER *)((UINTN)CommBuffer); SmiHandlerProfileParameterHeader->ReturnStatus = (UINT64)-1; switch (SmiHandlerProfileParameterHeader->Command) { case SMI_HANDLER_PROFILE_COMMAND_GET_INFO: DEBUG((DEBUG_ERROR, "SmiHandlerProfileHandlerGetInfo\n")); if (TempCommBufferSize != sizeof(SMI_HANDLER_PROFILE_PARAMETER_GET_INFO)) { DEBUG((DEBUG_ERROR, "SmiHandlerProfileHandler: SMM communication buffer size invalid!\n")); return EFI_SUCCESS; } SmiHandlerProfileHandlerGetInfo((SMI_HANDLER_PROFILE_PARAMETER_GET_INFO *)(UINTN)CommBuffer); break; case SMI_HANDLER_PROFILE_COMMAND_GET_DATA_BY_OFFSET: DEBUG((DEBUG_ERROR, "SmiHandlerProfileHandlerGetDataByOffset\n")); if (TempCommBufferSize != sizeof(SMI_HANDLER_PROFILE_PARAMETER_GET_DATA_BY_OFFSET)) { DEBUG((DEBUG_ERROR, "SmiHandlerProfileHandler: SMM communication buffer size invalid!\n")); return EFI_SUCCESS; } SmiHandlerProfileHandlerGetDataByOffset((SMI_HANDLER_PROFILE_PARAMETER_GET_DATA_BY_OFFSET *)(UINTN)CommBuffer); break; default: break; } DEBUG((DEBUG_ERROR, "SmiHandlerProfileHandler Exit\n")); return EFI_SUCCESS; } /** Register SMI handler profile handler. **/ VOID RegisterSmiHandlerProfileHandler ( VOID ) { EFI_STATUS Status; EFI_HANDLE DispatchHandle; Status = gSmst->SmiHandlerRegister ( SmiHandlerProfileHandler, &gSmiHandlerProfileGuid, &DispatchHandle ); ASSERT_EFI_ERROR(Status); BuildSmiHandlerProfileDatabase(); } /** Finds the SMI entry for the requested handler type. @param HandlerType The type of the interrupt @param Create Create a new entry if not found @return SMI entry **/ SMI_ENTRY * SmmCoreFindHardwareSmiEntry ( IN EFI_GUID *HandlerType, IN BOOLEAN Create ) { LIST_ENTRY *Link; SMI_ENTRY *Item; SMI_ENTRY *SmiEntry; // // Search the SMI entry list for the matching GUID // SmiEntry = NULL; for (Link = mHardwareSmiEntryList.ForwardLink; Link != &mHardwareSmiEntryList; Link = Link->ForwardLink) { Item = CR (Link, SMI_ENTRY, AllEntries, SMI_ENTRY_SIGNATURE); if (CompareGuid (&Item->HandlerType, HandlerType)) { // // This is the SMI entry // SmiEntry = Item; break; } } // // If the protocol entry was not found and Create is TRUE, then // allocate a new entry // if ((SmiEntry == NULL) && Create) { SmiEntry = AllocatePool (sizeof(SMI_ENTRY)); if (SmiEntry != NULL) { // // Initialize new SMI entry structure // SmiEntry->Signature = SMI_ENTRY_SIGNATURE; CopyGuid ((VOID *)&SmiEntry->HandlerType, HandlerType); InitializeListHead (&SmiEntry->SmiHandlers); // // Add it to SMI entry list // InsertTailList (&mHardwareSmiEntryList, &SmiEntry->AllEntries); } } return SmiEntry; } /** Convert EFI_SMM_USB_REGISTER_CONTEXT to SMI_HANDLER_PROFILE_USB_REGISTER_CONTEXT. @param UsbContext A pointer to EFI_SMM_USB_REGISTER_CONTEXT @param UsbContextSize The size of EFI_SMM_USB_REGISTER_CONTEXT in bytes @param SmiHandlerUsbContextSize The size of SMI_HANDLER_PROFILE_USB_REGISTER_CONTEXT in bytes @return SmiHandlerUsbContext A pointer to SMI_HANDLER_PROFILE_USB_REGISTER_CONTEXT **/ SMI_HANDLER_PROFILE_USB_REGISTER_CONTEXT * ConvertSmiHandlerUsbContext ( IN EFI_SMM_USB_REGISTER_CONTEXT *UsbContext, IN UINTN UsbContextSize, OUT UINTN *SmiHandlerUsbContextSize ) { UINTN DevicePathSize; SMI_HANDLER_PROFILE_USB_REGISTER_CONTEXT *SmiHandlerUsbContext; ASSERT (UsbContextSize == sizeof(EFI_SMM_USB_REGISTER_CONTEXT)); DevicePathSize = GetDevicePathSize (UsbContext->Device); SmiHandlerUsbContext = AllocatePool (sizeof (SMI_HANDLER_PROFILE_USB_REGISTER_CONTEXT) + DevicePathSize); if (SmiHandlerUsbContext == NULL) { *SmiHandlerUsbContextSize = 0; return NULL; } SmiHandlerUsbContext->Type = UsbContext->Type; SmiHandlerUsbContext->DevicePathSize = (UINT32)DevicePathSize; CopyMem(SmiHandlerUsbContext + 1, UsbContext->Device, DevicePathSize); *SmiHandlerUsbContextSize = sizeof (SMI_HANDLER_PROFILE_USB_REGISTER_CONTEXT) + DevicePathSize; return SmiHandlerUsbContext; } /** Convert EFI_SMM_SW_REGISTER_CONTEXT to SMI_HANDLER_PROFILE_SW_REGISTER_CONTEXT. @param SwContext A pointer to EFI_SMM_SW_REGISTER_CONTEXT @param SwContextSize The size of EFI_SMM_SW_REGISTER_CONTEXT in bytes @param SmiHandlerSwContextSize The size of SMI_HANDLER_PROFILE_SW_REGISTER_CONTEXT in bytes @return SmiHandlerSwContext A pointer to SMI_HANDLER_PROFILE_SW_REGISTER_CONTEXT **/ SMI_HANDLER_PROFILE_SW_REGISTER_CONTEXT * ConvertSmiHandlerSwContext ( IN EFI_SMM_SW_REGISTER_CONTEXT *SwContext, IN UINTN SwContextSize, OUT UINTN *SmiHandlerSwContextSize ) { SMI_HANDLER_PROFILE_SW_REGISTER_CONTEXT *SmiHandlerSwContext; ASSERT (SwContextSize == sizeof(EFI_SMM_SW_REGISTER_CONTEXT)); SmiHandlerSwContext = AllocatePool (sizeof (SMI_HANDLER_PROFILE_SW_REGISTER_CONTEXT)); if (SmiHandlerSwContext == NULL) { *SmiHandlerSwContextSize = 0; return NULL; } SmiHandlerSwContext->SwSmiInputValue = SwContext->SwSmiInputValue; *SmiHandlerSwContextSize = sizeof (SMI_HANDLER_PROFILE_SW_REGISTER_CONTEXT); return SmiHandlerSwContext; } /** This function is called by SmmChildDispatcher module to report a new SMI handler is registered, to SmmCore. @param This The protocol instance @param HandlerGuid The GUID to identify the type of the handler. For the SmmChildDispatch protocol, the HandlerGuid must be the GUID of SmmChildDispatch protocol. @param Handler The SMI handler. @param CallerAddress The address of the module who registers the SMI handler. @param Context The context of the SMI handler. For the SmmChildDispatch protocol, the Context must match the one defined for SmmChildDispatch protocol. @param ContextSize The size of the context in bytes. For the SmmChildDispatch protocol, the Context must match the one defined for SmmChildDispatch protocol. @retval EFI_SUCCESS The information is recorded. @retval EFI_OUT_OF_RESOURCES There is no enough resource to record the information. **/ EFI_STATUS EFIAPI SmiHandlerProfileRegisterHandler ( IN SMI_HANDLER_PROFILE_PROTOCOL *This, IN EFI_GUID *HandlerGuid, IN EFI_SMM_HANDLER_ENTRY_POINT2 Handler, IN PHYSICAL_ADDRESS CallerAddress, IN VOID *Context, OPTIONAL IN UINTN ContextSize OPTIONAL ) { SMI_HANDLER *SmiHandler; SMI_ENTRY *SmiEntry; LIST_ENTRY *List; if (((ContextSize == 0) && (Context != NULL)) || ((ContextSize != 0) && (Context == NULL))) { return EFI_INVALID_PARAMETER; } SmiHandler = AllocateZeroPool(sizeof (SMI_HANDLER)); if (SmiHandler == NULL) { return EFI_OUT_OF_RESOURCES; } SmiHandler->Signature = SMI_HANDLER_SIGNATURE; SmiHandler->Handler = Handler; SmiHandler->CallerAddr = (UINTN)CallerAddress; SmiHandler->Context = Context; SmiHandler->ContextSize = ContextSize; if (Context != NULL) { if (CompareGuid (HandlerGuid, &gEfiSmmUsbDispatch2ProtocolGuid)) { SmiHandler->Context = ConvertSmiHandlerUsbContext (Context, ContextSize, &SmiHandler->ContextSize); } else if (CompareGuid (HandlerGuid, &gEfiSmmSwDispatch2ProtocolGuid)) { SmiHandler->Context = ConvertSmiHandlerSwContext (Context, ContextSize, &SmiHandler->ContextSize); } else { SmiHandler->Context = AllocateCopyPool(ContextSize, Context); } } if (SmiHandler->Context == NULL) { SmiHandler->ContextSize = 0; } SmiEntry = SmmCoreFindHardwareSmiEntry (HandlerGuid, TRUE); if (SmiEntry == NULL) { if (SmiHandler->Context != NULL) { FreePool(SmiHandler->Context); } FreePool(SmiHandler); return EFI_OUT_OF_RESOURCES; } List = &SmiEntry->SmiHandlers; SmiHandler->SmiEntry = SmiEntry; InsertTailList (List, &SmiHandler->Link); return EFI_SUCCESS; } /** This function is called by SmmChildDispatcher module to report an existing SMI handler is unregistered, to SmmCore. @param This The protocol instance @param HandlerGuid The GUID to identify the type of the handler. For the SmmChildDispatch protocol, the HandlerGuid must be the GUID of SmmChildDispatch protocol. @param Handler The SMI handler. @param Context The context of the SMI handler. If it is NOT NULL, it will be used to check what is registered. @param ContextSize The size of the context in bytes. If Context is NOT NULL, it will be used to check what is registered. @retval EFI_SUCCESS The original record is removed. @retval EFI_NOT_FOUND There is no record for the HandlerGuid and handler. **/ EFI_STATUS EFIAPI SmiHandlerProfileUnregisterHandler ( IN SMI_HANDLER_PROFILE_PROTOCOL *This, IN EFI_GUID *HandlerGuid, IN EFI_SMM_HANDLER_ENTRY_POINT2 Handler, IN VOID *Context, OPTIONAL IN UINTN ContextSize OPTIONAL ) { LIST_ENTRY *Link; LIST_ENTRY *Head; SMI_HANDLER *SmiHandler; SMI_ENTRY *SmiEntry; SMI_HANDLER *TargetSmiHandler; VOID *SearchContext; UINTN SearchContextSize; if (((ContextSize == 0) && (Context != NULL)) || ((ContextSize != 0) && (Context == NULL))) { return EFI_INVALID_PARAMETER; } SmiEntry = SmmCoreFindHardwareSmiEntry (HandlerGuid, FALSE); if (SmiEntry == NULL) { return EFI_NOT_FOUND; } SearchContext = Context; SearchContextSize = ContextSize; if (Context != NULL) { if (CompareGuid (HandlerGuid, &gEfiSmmUsbDispatch2ProtocolGuid)) { SearchContext = ConvertSmiHandlerUsbContext (Context, ContextSize, &SearchContextSize); } else if (CompareGuid (HandlerGuid, &gEfiSmmSwDispatch2ProtocolGuid)) { SearchContext = ConvertSmiHandlerSwContext (Context, ContextSize, &SearchContextSize); } } TargetSmiHandler = NULL; Head = &SmiEntry->SmiHandlers; for (Link = Head->ForwardLink; Link != Head; Link = Link->ForwardLink) { SmiHandler = CR (Link, SMI_HANDLER, Link, SMI_HANDLER_SIGNATURE); if (SmiHandler->Handler == Handler) { if ((SearchContext == NULL) || ((SearchContextSize == SmiHandler->ContextSize) && (CompareMem (SearchContext, SmiHandler->Context, SearchContextSize) == 0))) { TargetSmiHandler = SmiHandler; break; } } } if (SearchContext != NULL) { if (CompareGuid (HandlerGuid, &gEfiSmmUsbDispatch2ProtocolGuid)) { FreePool(SearchContext); } } if (TargetSmiHandler == NULL) { return EFI_NOT_FOUND; } SmiHandler = TargetSmiHandler; RemoveEntryList (&SmiHandler->Link); if (SmiHandler->Context != NULL) { FreePool(SmiHandler->Context); } FreePool(SmiHandler); if (IsListEmpty (&SmiEntry->SmiHandlers)) { RemoveEntryList (&SmiEntry->AllEntries); FreePool(SmiEntry); } return EFI_SUCCESS; } /** Initialize SmiHandler profile feature. **/ VOID SmmCoreInitializeSmiHandlerProfile ( VOID ) { EFI_STATUS Status; VOID *Registration; EFI_HANDLE Handle; if ((PcdGet8 (PcdSmiHandlerProfilePropertyMask) & 0x1) != 0) { InsertTailList (&mRootSmiEntryList, &mRootSmiEntry.AllEntries); Status = gSmst->SmmRegisterProtocolNotify ( &gEfiSmmReadyToLockProtocolGuid, SmmReadyToLockInSmiHandlerProfile, &Registration ); ASSERT_EFI_ERROR(Status); Handle = NULL; Status = gSmst->SmmInstallProtocolInterface ( &Handle, &gSmiHandlerProfileGuid, EFI_NATIVE_INTERFACE, &mSmiHandlerProfile ); ASSERT_EFI_ERROR(Status); } }