/** @file Agent Module to load other modules to deploy SMM Entry Vector for X86 CPU. Copyright (c) 2009 - 2019, Intel Corporation. All rights reserved.
Copyright (c) 2017, AMD Incorporated. All rights reserved.
SPDX-License-Identifier: BSD-2-Clause-Patent **/ #ifndef _CPU_PISMMCPUDXESMM_H_ #define _CPU_PISMMCPUDXESMM_H_ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "CpuService.h" #include "SmmProfile.h" // // CET definition // #define CPUID_CET_SS BIT7 #define CPUID_CET_IBT BIT20 #define CR4_CET_ENABLE BIT23 #define MSR_IA32_S_CET 0x6A2 #define MSR_IA32_PL0_SSP 0x6A4 #define MSR_IA32_INTERRUPT_SSP_TABLE_ADDR 0x6A8 typedef union { struct { // enable shadow stacks UINT32 SH_STK_ENP:1; // enable the WRSS{D,Q}W instructions. UINT32 WR_SHSTK_EN:1; // enable tracking of indirect call/jmp targets to be ENDBRANCH instruction. UINT32 ENDBR_EN:1; // enable legacy compatibility treatment for indirect call/jmp tracking. UINT32 LEG_IW_EN:1; // enable use of no-track prefix on indirect call/jmp. UINT32 NO_TRACK_EN:1; // disable suppression of CET indirect branch tracking on legacy compatibility. UINT32 SUPPRESS_DIS:1; UINT32 RSVD:4; // indirect branch tracking is suppressed. // This bit can be written to 1 only if TRACKER is written as IDLE. UINT32 SUPPRESS:1; // Value of the endbranch state machine // Values: IDLE (0), WAIT_FOR_ENDBRANCH(1). UINT32 TRACKER:1; // linear address of a bitmap in memory indicating valid // pages as target of CALL/JMP_indirect that do not land on ENDBRANCH when CET is enabled // and not suppressed. Valid when ENDBR_EN is 1. Must be machine canonical when written on // parts that support 64 bit mode. On parts that do not support 64 bit mode, the bits 63:32 are // reserved and must be 0. This value is extended by 12 bits at the low end to form the base address // (this automatically aligns the address on a 4-Kbyte boundary). UINT32 EB_LEG_BITMAP_BASE_low:12; UINT32 EB_LEG_BITMAP_BASE_high:32; } Bits; UINT64 Uint64; } MSR_IA32_CET; // // MSRs required for configuration of SMM Code Access Check // #define EFI_MSR_SMM_MCA_CAP 0x17D #define SMM_CODE_ACCESS_CHK_BIT BIT58 #define SMM_FEATURE_CONTROL_LOCK_BIT BIT0 #define SMM_CODE_CHK_EN_BIT BIT2 /// /// Page Table Entry /// #define IA32_PG_P BIT0 #define IA32_PG_RW BIT1 #define IA32_PG_U BIT2 #define IA32_PG_WT BIT3 #define IA32_PG_CD BIT4 #define IA32_PG_A BIT5 #define IA32_PG_D BIT6 #define IA32_PG_PS BIT7 #define IA32_PG_PAT_2M BIT12 #define IA32_PG_PAT_4K IA32_PG_PS #define IA32_PG_PMNT BIT62 #define IA32_PG_NX BIT63 #define PAGE_ATTRIBUTE_BITS (IA32_PG_D | IA32_PG_A | IA32_PG_U | IA32_PG_RW | IA32_PG_P) // // Bits 1, 2, 5, 6 are reserved in the IA32 PAE PDPTE // X64 PAE PDPTE does not have such restriction // #define IA32_PAE_PDPTE_ATTRIBUTE_BITS (IA32_PG_P) #define PAGE_PROGATE_BITS (IA32_PG_NX | PAGE_ATTRIBUTE_BITS) #define PAGING_4K_MASK 0xFFF #define PAGING_2M_MASK 0x1FFFFF #define PAGING_1G_MASK 0x3FFFFFFF #define PAGING_PAE_INDEX_MASK 0x1FF #define PAGING_4K_ADDRESS_MASK_64 0x000FFFFFFFFFF000ull #define PAGING_2M_ADDRESS_MASK_64 0x000FFFFFFFE00000ull #define PAGING_1G_ADDRESS_MASK_64 0x000FFFFFC0000000ull #define SMRR_MAX_ADDRESS BASE_4GB typedef enum { PageNone, Page4K, Page2M, Page1G, } PAGE_ATTRIBUTE; typedef struct { PAGE_ATTRIBUTE Attribute; UINT64 Length; UINT64 AddressMask; } PAGE_ATTRIBUTE_TABLE; // // Size of Task-State Segment defined in IA32 Manual // #define TSS_SIZE 104 #define EXCEPTION_TSS_SIZE (TSS_SIZE + 4) // Add 4 bytes SSP #define TSS_X64_IST1_OFFSET 36 #define TSS_IA32_CR3_OFFSET 28 #define TSS_IA32_ESP_OFFSET 56 #define TSS_IA32_SSP_OFFSET 104 #define CR0_WP BIT16 // // Code select value // #define PROTECT_MODE_CODE_SEGMENT 0x08 #define LONG_MODE_CODE_SEGMENT 0x38 // // The size 0x20 must be bigger than // the size of template code of SmmInit. Currently, // the size of SmmInit requires the 0x16 Bytes buffer // at least. // #define BACK_BUF_SIZE 0x20 #define EXCEPTION_VECTOR_NUMBER 0x20 #define INVALID_APIC_ID 0xFFFFFFFFFFFFFFFFULL typedef UINT32 SMM_CPU_ARRIVAL_EXCEPTIONS; #define ARRIVAL_EXCEPTION_BLOCKED 0x1 #define ARRIVAL_EXCEPTION_DELAYED 0x2 #define ARRIVAL_EXCEPTION_SMI_DISABLED 0x4 // // Wrapper used to convert EFI_AP_PROCEDURE2 and EFI_AP_PROCEDURE. // typedef struct { EFI_AP_PROCEDURE Procedure; VOID *ProcedureArgument; } PROCEDURE_WRAPPER; #define PROCEDURE_TOKEN_SIGNATURE SIGNATURE_32 ('P', 'R', 'T', 'S') typedef struct { UINTN Signature; LIST_ENTRY Link; SPIN_LOCK *SpinLock; volatile UINT32 RunningApCount; BOOLEAN Used; } PROCEDURE_TOKEN; #define PROCEDURE_TOKEN_FROM_LINK(a) CR (a, PROCEDURE_TOKEN, Link, PROCEDURE_TOKEN_SIGNATURE) #define TOKEN_BUFFER_SIGNATURE SIGNATURE_32 ('T', 'K', 'B', 'S') typedef struct { UINTN Signature; LIST_ENTRY Link; UINT8 *Buffer; } TOKEN_BUFFER; #define TOKEN_BUFFER_FROM_LINK(a) CR (a, TOKEN_BUFFER, Link, TOKEN_BUFFER_SIGNATURE) // // Private structure for the SMM CPU module that is stored in DXE Runtime memory // Contains the SMM Configuration Protocols that is produced. // Contains a mix of DXE and SMM contents. All the fields must be used properly. // #define SMM_CPU_PRIVATE_DATA_SIGNATURE SIGNATURE_32 ('s', 'c', 'p', 'u') typedef struct { UINTN Signature; EFI_HANDLE SmmCpuHandle; EFI_PROCESSOR_INFORMATION *ProcessorInfo; SMM_CPU_OPERATION *Operation; UINTN *CpuSaveStateSize; VOID **CpuSaveState; EFI_SMM_RESERVED_SMRAM_REGION SmmReservedSmramRegion[1]; EFI_SMM_ENTRY_CONTEXT SmmCoreEntryContext; EFI_SMM_ENTRY_POINT SmmCoreEntry; EFI_SMM_CONFIGURATION_PROTOCOL SmmConfiguration; PROCEDURE_WRAPPER *ApWrapperFunc; LIST_ENTRY TokenList; } SMM_CPU_PRIVATE_DATA; extern SMM_CPU_PRIVATE_DATA *gSmmCpuPrivate; extern CPU_HOT_PLUG_DATA mCpuHotPlugData; extern UINTN mMaxNumberOfCpus; extern UINTN mNumberOfCpus; extern EFI_SMM_CPU_PROTOCOL mSmmCpu; extern EFI_MM_MP_PROTOCOL mSmmMp; /// /// The mode of the CPU at the time an SMI occurs /// extern UINT8 mSmmSaveStateRegisterLma; // // SMM CPU Protocol function prototypes. // /** Read information from the CPU save state. @param This EFI_SMM_CPU_PROTOCOL instance @param Width The number of bytes to read from the CPU save state. @param Register Specifies the CPU register to read form the save state. @param CpuIndex Specifies the zero-based index of the CPU save state @param Buffer Upon return, this holds the CPU register value read from the save state. @retval EFI_SUCCESS The register was read from Save State @retval EFI_NOT_FOUND The register is not defined for the Save State of Processor @retval EFI_INVALID_PARAMTER This or Buffer is NULL. **/ EFI_STATUS EFIAPI SmmReadSaveState ( IN CONST EFI_SMM_CPU_PROTOCOL *This, IN UINTN Width, IN EFI_SMM_SAVE_STATE_REGISTER Register, IN UINTN CpuIndex, OUT VOID *Buffer ); /** Write data to the CPU save state. @param This EFI_SMM_CPU_PROTOCOL instance @param Width The number of bytes to read from the CPU save state. @param Register Specifies the CPU register to write to the save state. @param CpuIndex Specifies the zero-based index of the CPU save state @param Buffer Upon entry, this holds the new CPU register value. @retval EFI_SUCCESS The register was written from Save State @retval EFI_NOT_FOUND The register is not defined for the Save State of Processor @retval EFI_INVALID_PARAMTER ProcessorIndex or Width is not correct **/ EFI_STATUS EFIAPI SmmWriteSaveState ( IN CONST EFI_SMM_CPU_PROTOCOL *This, IN UINTN Width, IN EFI_SMM_SAVE_STATE_REGISTER Register, IN UINTN CpuIndex, IN CONST VOID *Buffer ); /** Read a CPU Save State register on the target processor. This function abstracts the differences that whether the CPU Save State register is in the IA32 CPU Save State Map or X64 CPU Save State Map. This function supports reading a CPU Save State register in SMBase relocation handler. @param[in] CpuIndex Specifies the zero-based index of the CPU save state. @param[in] RegisterIndex Index into mSmmCpuWidthOffset[] look up table. @param[in] Width The number of bytes to read from the CPU save state. @param[out] Buffer Upon return, this holds the CPU register value read from the save state. @retval EFI_SUCCESS The register was read from Save State. @retval EFI_NOT_FOUND The register is not defined for the Save State of Processor. @retval EFI_INVALID_PARAMTER This or Buffer is NULL. **/ EFI_STATUS EFIAPI ReadSaveStateRegister ( IN UINTN CpuIndex, IN EFI_SMM_SAVE_STATE_REGISTER Register, IN UINTN Width, OUT VOID *Buffer ); /** Write value to a CPU Save State register on the target processor. This function abstracts the differences that whether the CPU Save State register is in the IA32 CPU Save State Map or X64 CPU Save State Map. This function supports writing a CPU Save State register in SMBase relocation handler. @param[in] CpuIndex Specifies the zero-based index of the CPU save state. @param[in] RegisterIndex Index into mSmmCpuWidthOffset[] look up table. @param[in] Width The number of bytes to read from the CPU save state. @param[in] Buffer Upon entry, this holds the new CPU register value. @retval EFI_SUCCESS The register was written to Save State. @retval EFI_NOT_FOUND The register is not defined for the Save State of Processor. @retval EFI_INVALID_PARAMTER ProcessorIndex or Width is not correct. **/ EFI_STATUS EFIAPI WriteSaveStateRegister ( IN UINTN CpuIndex, IN EFI_SMM_SAVE_STATE_REGISTER Register, IN UINTN Width, IN CONST VOID *Buffer ); extern CONST UINT8 gcSmmInitTemplate[]; extern CONST UINT16 gcSmmInitSize; X86_ASSEMBLY_PATCH_LABEL gPatchSmmCr0; extern UINT32 mSmmCr0; X86_ASSEMBLY_PATCH_LABEL gPatchSmmCr3; extern UINT32 mSmmCr4; X86_ASSEMBLY_PATCH_LABEL gPatchSmmCr4; X86_ASSEMBLY_PATCH_LABEL gPatchSmmInitStack; X86_ASSEMBLY_PATCH_LABEL mPatchCetSupported; extern BOOLEAN mCetSupported; /** Semaphore operation for all processor relocate SMMBase. **/ VOID EFIAPI SmmRelocationSemaphoreComplete ( VOID ); /// /// The type of SMM CPU Information /// typedef struct { SPIN_LOCK *Busy; volatile EFI_AP_PROCEDURE2 Procedure; volatile VOID *Parameter; volatile UINT32 *Run; volatile BOOLEAN *Present; PROCEDURE_TOKEN *Token; EFI_STATUS *Status; } SMM_CPU_DATA_BLOCK; typedef enum { SmmCpuSyncModeTradition, SmmCpuSyncModeRelaxedAp, SmmCpuSyncModeMax } SMM_CPU_SYNC_MODE; typedef struct { // // Pointer to an array. The array should be located immediately after this structure // so that UC cache-ability can be set together. // SMM_CPU_DATA_BLOCK *CpuData; volatile UINT32 *Counter; volatile UINT32 BspIndex; volatile BOOLEAN *InsideSmm; volatile BOOLEAN *AllCpusInSync; volatile SMM_CPU_SYNC_MODE EffectiveSyncMode; volatile BOOLEAN SwitchBsp; volatile BOOLEAN *CandidateBsp; EFI_AP_PROCEDURE StartupProcedure; VOID *StartupProcArgs; } SMM_DISPATCHER_MP_SYNC_DATA; #define SMM_PSD_OFFSET 0xfb00 /// /// All global semaphores' pointer /// typedef struct { volatile UINT32 *Counter; volatile BOOLEAN *InsideSmm; volatile BOOLEAN *AllCpusInSync; SPIN_LOCK *PFLock; SPIN_LOCK *CodeAccessCheckLock; } SMM_CPU_SEMAPHORE_GLOBAL; /// /// All semaphores for each processor /// typedef struct { SPIN_LOCK *Busy; volatile UINT32 *Run; volatile BOOLEAN *Present; SPIN_LOCK *Token; } SMM_CPU_SEMAPHORE_CPU; /// /// All semaphores' information /// typedef struct { SMM_CPU_SEMAPHORE_GLOBAL SemaphoreGlobal; SMM_CPU_SEMAPHORE_CPU SemaphoreCpu; } SMM_CPU_SEMAPHORES; extern IA32_DESCRIPTOR gcSmiGdtr; extern EFI_PHYSICAL_ADDRESS mGdtBuffer; extern UINTN mGdtBufferSize; extern IA32_DESCRIPTOR gcSmiIdtr; extern VOID *gcSmiIdtrPtr; extern UINT64 gPhyMask; extern SMM_DISPATCHER_MP_SYNC_DATA *mSmmMpSyncData; extern UINTN mSmmStackArrayBase; extern UINTN mSmmStackArrayEnd; extern UINTN mSmmStackSize; extern EFI_SMM_CPU_SERVICE_PROTOCOL mSmmCpuService; extern IA32_DESCRIPTOR gcSmiInitGdtr; extern SMM_CPU_SEMAPHORES mSmmCpuSemaphores; extern UINTN mSemaphoreSize; extern SPIN_LOCK *mPFLock; extern SPIN_LOCK *mConfigSmmCodeAccessCheckLock; extern EFI_SMRAM_DESCRIPTOR *mSmmCpuSmramRanges; extern UINTN mSmmCpuSmramRangeCount; extern UINT8 mPhysicalAddressBits; // // Copy of the PcdPteMemoryEncryptionAddressOrMask // extern UINT64 mAddressEncMask; /** Create 4G PageTable in SMRAM. @param[in] Is32BitPageTable Whether the page table is 32-bit PAE @return PageTable Address **/ UINT32 Gen4GPageTable ( IN BOOLEAN Is32BitPageTable ); /** Initialize global data for MP synchronization. @param Stacks Base address of SMI stack buffer for all processors. @param StackSize Stack size for each processor in SMM. @param ShadowStackSize Shadow Stack size for each processor in SMM. **/ UINT32 InitializeMpServiceData ( IN VOID *Stacks, IN UINTN StackSize, IN UINTN ShadowStackSize ); /** Initialize Timer for SMM AP Sync. **/ VOID InitializeSmmTimer ( VOID ); /** Start Timer for SMM AP Sync. **/ UINT64 EFIAPI StartSyncTimer ( VOID ); /** Check if the SMM AP Sync timer is timeout. @param Timer The start timer from the begin. **/ BOOLEAN EFIAPI IsSyncTimerTimeout ( IN UINT64 Timer ); /** Initialize IDT for SMM Stack Guard. **/ VOID EFIAPI InitializeIDTSmmStackGuard ( VOID ); /** Initialize Gdt for all processors. @param[in] Cr3 CR3 value. @param[out] GdtStepSize The step size for GDT table. @return GdtBase for processor 0. GdtBase for processor X is: GdtBase + (GdtStepSize * X) **/ VOID * InitGdt ( IN UINTN Cr3, OUT UINTN *GdtStepSize ); /** Register the SMM Foundation entry point. @param This Pointer to EFI_SMM_CONFIGURATION_PROTOCOL instance @param SmmEntryPoint SMM Foundation EntryPoint @retval EFI_SUCCESS Successfully to register SMM foundation entry point **/ EFI_STATUS EFIAPI RegisterSmmEntry ( IN CONST EFI_SMM_CONFIGURATION_PROTOCOL *This, IN EFI_SMM_ENTRY_POINT SmmEntryPoint ); /** Create PageTable for SMM use. @return PageTable Address **/ UINT32 SmmInitPageTable ( VOID ); /** Schedule a procedure to run on the specified CPU. @param Procedure The address of the procedure to run @param CpuIndex Target CPU number @param ProcArguments The parameter to pass to the procedure @retval EFI_INVALID_PARAMETER CpuNumber not valid @retval EFI_INVALID_PARAMETER CpuNumber specifying BSP @retval EFI_INVALID_PARAMETER The AP specified by CpuNumber did not enter SMM @retval EFI_INVALID_PARAMETER The AP specified by CpuNumber is busy @retval EFI_SUCCESS - The procedure has been successfully scheduled **/ EFI_STATUS EFIAPI SmmStartupThisAp ( IN EFI_AP_PROCEDURE Procedure, IN UINTN CpuIndex, IN OUT VOID *ProcArguments OPTIONAL ); /** Schedule a procedure to run on the specified CPU in a blocking fashion. @param Procedure The address of the procedure to run @param CpuIndex Target CPU Index @param ProcArguments The parameter to pass to the procedure @retval EFI_INVALID_PARAMETER CpuNumber not valid @retval EFI_INVALID_PARAMETER CpuNumber specifying BSP @retval EFI_INVALID_PARAMETER The AP specified by CpuNumber did not enter SMM @retval EFI_INVALID_PARAMETER The AP specified by CpuNumber is busy @retval EFI_SUCCESS The procedure has been successfully scheduled **/ EFI_STATUS EFIAPI SmmBlockingStartupThisAp ( IN EFI_AP_PROCEDURE Procedure, IN UINTN CpuIndex, IN OUT VOID *ProcArguments OPTIONAL ); /** This function sets the attributes for the memory region specified by BaseAddress and Length from their current attributes to the attributes specified by Attributes. @param[in] BaseAddress The physical address that is the start address of a memory region. @param[in] Length The size in bytes of the memory region. @param[in] Attributes The bit mask of attributes to set for the memory region. @retval EFI_SUCCESS The attributes were set for the memory region. @retval EFI_ACCESS_DENIED The attributes for the memory resource range specified by BaseAddress and Length cannot be modified. @retval EFI_INVALID_PARAMETER Length is zero. Attributes specified an illegal combination of attributes that cannot be set together. @retval EFI_OUT_OF_RESOURCES There are not enough system resources to modify the attributes of the memory resource range. @retval EFI_UNSUPPORTED The processor does not support one or more bytes of the memory resource range specified by BaseAddress and Length. The bit mask of attributes is not support for the memory resource range specified by BaseAddress and Length. **/ EFI_STATUS EFIAPI SmmSetMemoryAttributes ( IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length, IN UINT64 Attributes ); /** This function clears the attributes for the memory region specified by BaseAddress and Length from their current attributes to the attributes specified by Attributes. @param[in] BaseAddress The physical address that is the start address of a memory region. @param[in] Length The size in bytes of the memory region. @param[in] Attributes The bit mask of attributes to clear for the memory region. @retval EFI_SUCCESS The attributes were cleared for the memory region. @retval EFI_ACCESS_DENIED The attributes for the memory resource range specified by BaseAddress and Length cannot be modified. @retval EFI_INVALID_PARAMETER Length is zero. Attributes specified an illegal combination of attributes that cannot be set together. @retval EFI_OUT_OF_RESOURCES There are not enough system resources to modify the attributes of the memory resource range. @retval EFI_UNSUPPORTED The processor does not support one or more bytes of the memory resource range specified by BaseAddress and Length. The bit mask of attributes is not support for the memory resource range specified by BaseAddress and Length. **/ EFI_STATUS EFIAPI SmmClearMemoryAttributes ( IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length, IN UINT64 Attributes ); /** Initialize MP synchronization data. **/ VOID EFIAPI InitializeMpSyncData ( VOID ); /** Find out SMRAM information including SMRR base and SMRR size. @param SmrrBase SMRR base @param SmrrSize SMRR size **/ VOID FindSmramInfo ( OUT UINT32 *SmrrBase, OUT UINT32 *SmrrSize ); /** Relocate SmmBases for each processor. Execute on first boot and all S3 resumes **/ VOID EFIAPI SmmRelocateBases ( VOID ); /** Page Fault handler for SMM use. @param InterruptType Defines the type of interrupt or exception that occurred on the processor.This parameter is processor architecture specific. @param SystemContext A pointer to the processor context when the interrupt occurred on the processor. **/ VOID EFIAPI SmiPFHandler ( IN EFI_EXCEPTION_TYPE InterruptType, IN EFI_SYSTEM_CONTEXT SystemContext ); /** Perform the remaining tasks. **/ VOID PerformRemainingTasks ( VOID ); /** Perform the pre tasks. **/ VOID PerformPreTasks ( VOID ); /** Initialize MSR spin lock by MSR index. @param MsrIndex MSR index value. **/ VOID InitMsrSpinLockByIndex ( IN UINT32 MsrIndex ); /** Hook return address of SMM Save State so that semaphore code can be executed immediately after AP exits SMM to indicate to the BSP that an AP has exited SMM after SMBASE relocation. @param[in] CpuIndex The processor index. @param[in] RebasedFlag A pointer to a flag that is set to TRUE immediately after AP exits SMM. **/ VOID SemaphoreHook ( IN UINTN CpuIndex, IN volatile BOOLEAN *RebasedFlag ); /** Configure SMM Code Access Check feature for all processors. SMM Feature Control MSR will be locked after configuration. **/ VOID ConfigSmmCodeAccessCheck ( VOID ); /** Hook the code executed immediately after an RSM instruction on the currently executing CPU. The mode of code executed immediately after RSM must be detected, and the appropriate hook must be selected. Always clear the auto HALT restart flag if it is set. @param[in] CpuIndex The processor index for the currently executing CPU. @param[in] CpuState Pointer to SMRAM Save State Map for the currently executing CPU. @param[in] NewInstructionPointer32 Instruction pointer to use if resuming to 32-bit mode from 64-bit SMM. @param[in] NewInstructionPointer Instruction pointer to use if resuming to same mode as SMM. @retval The value of the original instruction pointer before it was hooked. **/ UINT64 EFIAPI HookReturnFromSmm ( IN UINTN CpuIndex, SMRAM_SAVE_STATE_MAP *CpuState, UINT64 NewInstructionPointer32, UINT64 NewInstructionPointer ); /** Get the size of the SMI Handler in bytes. @retval The size, in bytes, of the SMI Handler. **/ UINTN EFIAPI GetSmiHandlerSize ( VOID ); /** Install the SMI handler for the CPU specified by CpuIndex. This function is called by the CPU that was elected as monarch during System Management Mode initialization. @param[in] CpuIndex The index of the CPU to install the custom SMI handler. The value must be between 0 and the NumberOfCpus field in the System Management System Table (SMST). @param[in] SmBase The SMBASE address for the CPU specified by CpuIndex. @param[in] SmiStack The stack to use when an SMI is processed by the the CPU specified by CpuIndex. @param[in] StackSize The size, in bytes, if the stack used when an SMI is processed by the CPU specified by CpuIndex. @param[in] GdtBase The base address of the GDT to use when an SMI is processed by the CPU specified by CpuIndex. @param[in] GdtSize The size, in bytes, of the GDT used when an SMI is processed by the CPU specified by CpuIndex. @param[in] IdtBase The base address of the IDT to use when an SMI is processed by the CPU specified by CpuIndex. @param[in] IdtSize The size, in bytes, of the IDT used when an SMI is processed by the CPU specified by CpuIndex. @param[in] Cr3 The base address of the page tables to use when an SMI is processed by the CPU specified by CpuIndex. **/ VOID EFIAPI InstallSmiHandler ( IN UINTN CpuIndex, IN UINT32 SmBase, IN VOID *SmiStack, IN UINTN StackSize, IN UINTN GdtBase, IN UINTN GdtSize, IN UINTN IdtBase, IN UINTN IdtSize, IN UINT32 Cr3 ); /** Search module name by input IP address and output it. @param CallerIpAddress Caller instruction pointer. **/ VOID DumpModuleInfoByIp ( IN UINTN CallerIpAddress ); /** This function sets memory attribute according to MemoryAttributesTable. **/ VOID SetMemMapAttributes ( VOID ); /** This function sets UEFI memory attribute according to UEFI memory map. **/ VOID SetUefiMemMapAttributes ( VOID ); /** Return if the Address is forbidden as SMM communication buffer. @param[in] Address the address to be checked @return TRUE The address is forbidden as SMM communication buffer. @return FALSE The address is allowed as SMM communication buffer. **/ BOOLEAN IsSmmCommBufferForbiddenAddress ( IN UINT64 Address ); /** This function caches the UEFI memory map information. **/ VOID GetUefiMemoryMap ( VOID ); /** This function sets memory attribute for page table. **/ VOID SetPageTableAttributes ( VOID ); /** Return page table base. @return page table base. **/ UINTN GetPageTableBase ( VOID ); /** This function sets the attributes for the memory region specified by BaseAddress and Length from their current attributes to the attributes specified by Attributes. @param[in] BaseAddress The physical address that is the start address of a memory region. @param[in] Length The size in bytes of the memory region. @param[in] Attributes The bit mask of attributes to set for the memory region. @param[out] IsSplitted TRUE means page table splitted. FALSE means page table not splitted. @retval EFI_SUCCESS The attributes were set for the memory region. @retval EFI_ACCESS_DENIED The attributes for the memory resource range specified by BaseAddress and Length cannot be modified. @retval EFI_INVALID_PARAMETER Length is zero. Attributes specified an illegal combination of attributes that cannot be set together. @retval EFI_OUT_OF_RESOURCES There are not enough system resources to modify the attributes of the memory resource range. @retval EFI_UNSUPPORTED The processor does not support one or more bytes of the memory resource range specified by BaseAddress and Length. The bit mask of attributes is not support for the memory resource range specified by BaseAddress and Length. **/ EFI_STATUS EFIAPI SmmSetMemoryAttributesEx ( IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length, IN UINT64 Attributes, OUT BOOLEAN *IsSplitted OPTIONAL ); /** This function clears the attributes for the memory region specified by BaseAddress and Length from their current attributes to the attributes specified by Attributes. @param[in] BaseAddress The physical address that is the start address of a memory region. @param[in] Length The size in bytes of the memory region. @param[in] Attributes The bit mask of attributes to clear for the memory region. @param[out] IsSplitted TRUE means page table splitted. FALSE means page table not splitted. @retval EFI_SUCCESS The attributes were cleared for the memory region. @retval EFI_ACCESS_DENIED The attributes for the memory resource range specified by BaseAddress and Length cannot be modified. @retval EFI_INVALID_PARAMETER Length is zero. Attributes specified an illegal combination of attributes that cannot be set together. @retval EFI_OUT_OF_RESOURCES There are not enough system resources to modify the attributes of the memory resource range. @retval EFI_UNSUPPORTED The processor does not support one or more bytes of the memory resource range specified by BaseAddress and Length. The bit mask of attributes is not support for the memory resource range specified by BaseAddress and Length. **/ EFI_STATUS EFIAPI SmmClearMemoryAttributesEx ( IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length, IN UINT64 Attributes, OUT BOOLEAN *IsSplitted OPTIONAL ); /** This API provides a way to allocate memory for page table. This API can be called more once to allocate memory for page tables. Allocates the number of 4KB pages of type EfiRuntimeServicesData and returns a pointer to the allocated buffer. The buffer returned is aligned on a 4KB boundary. If Pages is 0, then NULL is returned. If there is not enough memory remaining to satisfy the request, then NULL is returned. @param Pages The number of 4 KB pages to allocate. @return A pointer to the allocated buffer or NULL if allocation fails. **/ VOID * AllocatePageTableMemory ( IN UINTN Pages ); /** Allocate pages for code. @param[in] Pages Number of pages to be allocated. @return Allocated memory. **/ VOID * AllocateCodePages ( IN UINTN Pages ); /** Allocate aligned pages for code. @param[in] Pages Number of pages to be allocated. @param[in] Alignment The requested alignment of the allocation. Must be a power of two. If Alignment is zero, then byte alignment is used. @return Allocated memory. **/ VOID * AllocateAlignedCodePages ( IN UINTN Pages, IN UINTN Alignment ); // // S3 related global variable and function prototype. // extern BOOLEAN mSmmS3Flag; /** Initialize SMM S3 resume state structure used during S3 Resume. @param[in] Cr3 The base address of the page tables to use in SMM. **/ VOID InitSmmS3ResumeState ( IN UINT32 Cr3 ); /** Get ACPI CPU data. **/ VOID GetAcpiCpuData ( VOID ); /** Restore SMM Configuration in S3 boot path. **/ VOID RestoreSmmConfigurationInS3 ( VOID ); /** Get ACPI S3 enable flag. **/ VOID GetAcpiS3EnableFlag ( VOID ); /** Transfer AP to safe hlt-loop after it finished restore CPU features on S3 patch. @param[in] ApHltLoopCode The address of the safe hlt-loop function. @param[in] TopOfStack A pointer to the new stack to use for the ApHltLoopCode. @param[in] NumberToFinishAddress Address of Semaphore of APs finish count. **/ VOID TransferApToSafeState ( IN UINTN ApHltLoopCode, IN UINTN TopOfStack, IN UINTN NumberToFinishAddress ); /** Set ShadowStack memory. @param[in] Cr3 The page table base address. @param[in] BaseAddress The physical address that is the start address of a memory region. @param[in] Length The size in bytes of the memory region. @retval EFI_SUCCESS The shadow stack memory is set. **/ EFI_STATUS SetShadowStack ( IN UINTN Cr3, IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length ); /** Set not present memory. @param[in] Cr3 The page table base address. @param[in] BaseAddress The physical address that is the start address of a memory region. @param[in] Length The size in bytes of the memory region. @retval EFI_SUCCESS The not present memory is set. **/ EFI_STATUS SetNotPresentPage ( IN UINTN Cr3, IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length ); /** Initialize the shadow stack related data structure. @param CpuIndex The index of CPU. @param ShadowStack The bottom of the shadow stack for this CPU. **/ VOID InitShadowStack ( IN UINTN CpuIndex, IN VOID *ShadowStack ); /** This function set given attributes of the memory region specified by BaseAddress and Length. @param This The EDKII_SMM_MEMORY_ATTRIBUTE_PROTOCOL instance. @param BaseAddress The physical address that is the start address of a memory region. @param Length The size in bytes of the memory region. @param Attributes The bit mask of attributes to set for the memory region. @retval EFI_SUCCESS The attributes were set for the memory region. @retval EFI_INVALID_PARAMETER Length is zero. Attributes specified an illegal combination of attributes that cannot be set together. @retval EFI_UNSUPPORTED The processor does not support one or more bytes of the memory resource range specified by BaseAddress and Length. The bit mask of attributes is not supported for the memory resource range specified by BaseAddress and Length. **/ EFI_STATUS EFIAPI EdkiiSmmSetMemoryAttributes ( IN EDKII_SMM_MEMORY_ATTRIBUTE_PROTOCOL *This, IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length, IN UINT64 Attributes ); /** This function clears given attributes of the memory region specified by BaseAddress and Length. @param This The EDKII_SMM_MEMORY_ATTRIBUTE_PROTOCOL instance. @param BaseAddress The physical address that is the start address of a memory region. @param Length The size in bytes of the memory region. @param Attributes The bit mask of attributes to clear for the memory region. @retval EFI_SUCCESS The attributes were cleared for the memory region. @retval EFI_INVALID_PARAMETER Length is zero. Attributes specified an illegal combination of attributes that cannot be cleared together. @retval EFI_UNSUPPORTED The processor does not support one or more bytes of the memory resource range specified by BaseAddress and Length. The bit mask of attributes is not supported for the memory resource range specified by BaseAddress and Length. **/ EFI_STATUS EFIAPI EdkiiSmmClearMemoryAttributes ( IN EDKII_SMM_MEMORY_ATTRIBUTE_PROTOCOL *This, IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length, IN UINT64 Attributes ); /** This function retrieves the attributes of the memory region specified by BaseAddress and Length. If different attributes are got from different part of the memory region, EFI_NO_MAPPING will be returned. @param This The EDKII_SMM_MEMORY_ATTRIBUTE_PROTOCOL instance. @param BaseAddress The physical address that is the start address of a memory region. @param Length The size in bytes of the memory region. @param Attributes Pointer to attributes returned. @retval EFI_SUCCESS The attributes got for the memory region. @retval EFI_INVALID_PARAMETER Length is zero. Attributes is NULL. @retval EFI_NO_MAPPING Attributes are not consistent cross the memory region. @retval EFI_UNSUPPORTED The processor does not support one or more bytes of the memory resource range specified by BaseAddress and Length. **/ EFI_STATUS EFIAPI EdkiiSmmGetMemoryAttributes ( IN EDKII_SMM_MEMORY_ATTRIBUTE_PROTOCOL *This, IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length, IN UINT64 *Attributes ); /** This function fixes up the address of the global variable or function referred in SmmInit assembly files to be the absoute address. **/ VOID EFIAPI PiSmmCpuSmmInitFixupAddress ( ); /** This function fixes up the address of the global variable or function referred in SmiEntry assembly files to be the absoute address. **/ VOID EFIAPI PiSmmCpuSmiEntryFixupAddress ( ); /** This function reads CR2 register when on-demand paging is enabled for 64 bit and no action for 32 bit. @param[out] *Cr2 Pointer to variable to hold CR2 register value. **/ VOID SaveCr2 ( OUT UINTN *Cr2 ); /** This function writes into CR2 register when on-demand paging is enabled for 64 bit and no action for 32 bit. @param[in] Cr2 Value to write into CR2 register. **/ VOID RestoreCr2 ( IN UINTN Cr2 ); /** Schedule a procedure to run on the specified CPU. @param[in] Procedure The address of the procedure to run @param[in] CpuIndex Target CPU Index @param[in,out] ProcArguments The parameter to pass to the procedure @param[in,out] Token This is an optional parameter that allows the caller to execute the procedure in a blocking or non-blocking fashion. If it is NULL the call is blocking, and the call will not return until the AP has completed the procedure. If the token is not NULL, the call will return immediately. The caller can check whether the procedure has completed with CheckOnProcedure or WaitForProcedure. @param[in] TimeoutInMicroseconds Indicates the time limit in microseconds for the APs to finish execution of Procedure, either for blocking or non-blocking mode. Zero means infinity. If the timeout expires before all APs return from Procedure, then Procedure on the failed APs is terminated. If the timeout expires in blocking mode, the call returns EFI_TIMEOUT. If the timeout expires in non-blocking mode, the timeout determined can be through CheckOnProcedure or WaitForProcedure. Note that timeout support is optional. Whether an implementation supports this feature can be determined via the Attributes data member. @param[in,out] CpuStatus This optional pointer may be used to get the status code returned by Procedure when it completes execution on the target AP, or with EFI_TIMEOUT if the Procedure fails to complete within the optional timeout. The implementation will update this variable with EFI_NOT_READY prior to starting Procedure on the target AP. @retval EFI_INVALID_PARAMETER CpuNumber not valid @retval EFI_INVALID_PARAMETER CpuNumber specifying BSP @retval EFI_INVALID_PARAMETER The AP specified by CpuNumber did not enter SMM @retval EFI_INVALID_PARAMETER The AP specified by CpuNumber is busy @retval EFI_SUCCESS The procedure has been successfully scheduled **/ EFI_STATUS InternalSmmStartupThisAp ( IN EFI_AP_PROCEDURE2 Procedure, IN UINTN CpuIndex, IN OUT VOID *ProcArguments OPTIONAL, IN OUT MM_COMPLETION *Token, IN UINTN TimeoutInMicroseconds, IN OUT EFI_STATUS *CpuStatus ); /** Checks whether the input token is the current used token. @param[in] Token This parameter describes the token that was passed into DispatchProcedure or BroadcastProcedure. @retval TRUE The input token is the current used token. @retval FALSE The input token is not the current used token. **/ BOOLEAN IsTokenInUse ( IN SPIN_LOCK *Token ); /** Checks status of specified AP. This function checks whether the specified AP has finished the task assigned by StartupThisAP(), and whether timeout expires. @param[in] Token This parameter describes the token that was passed into DispatchProcedure or BroadcastProcedure. @retval EFI_SUCCESS Specified AP has finished task assigned by StartupThisAPs(). @retval EFI_NOT_READY Specified AP has not finished task and timeout has not expired. **/ EFI_STATUS IsApReady ( IN SPIN_LOCK *Token ); /** Check whether it is an present AP. @param CpuIndex The AP index which calls this function. @retval TRUE It's a present AP. @retval TRUE This is not an AP or it is not present. **/ BOOLEAN IsPresentAp ( IN UINTN CpuIndex ); /** Worker function to execute a caller provided function on all enabled APs. @param[in] Procedure A pointer to the function to be run on enabled APs of the system. @param[in] TimeoutInMicroseconds Indicates the time limit in microseconds for APs to return from Procedure, either for blocking or non-blocking mode. @param[in,out] ProcedureArguments The parameter passed into Procedure for all APs. @param[in,out] Token This is an optional parameter that allows the caller to execute the procedure in a blocking or non-blocking fashion. If it is NULL the call is blocking, and the call will not return until the AP has completed the procedure. If the token is not NULL, the call will return immediately. The caller can check whether the procedure has completed with CheckOnProcedure or WaitForProcedure. @param[in,out] CPUStatus This optional pointer may be used to get the status code returned by Procedure when it completes execution on the target AP, or with EFI_TIMEOUT if the Procedure fails to complete within the optional timeout. The implementation will update this variable with EFI_NOT_READY prior to starting Procedure on the target AP. @retval EFI_SUCCESS In blocking mode, all APs have finished before the timeout expired. @retval EFI_SUCCESS In non-blocking mode, function has been dispatched to all enabled APs. @retval others Failed to Startup all APs. **/ EFI_STATUS InternalSmmStartupAllAPs ( IN EFI_AP_PROCEDURE2 Procedure, IN UINTN TimeoutInMicroseconds, IN OUT VOID *ProcedureArguments OPTIONAL, IN OUT MM_COMPLETION *Token, IN OUT EFI_STATUS *CPUStatus ); /** Register the SMM Foundation entry point. @param[in] Procedure A pointer to the code stream to be run on the designated target AP of the system. Type EFI_AP_PROCEDURE is defined below in Volume 2 with the related definitions of EFI_MP_SERVICES_PROTOCOL.StartupAllAPs. If caller may pass a value of NULL to deregister any existing startup procedure. @param[in,out] ProcedureArguments Allows the caller to pass a list of parameters to the code that is run by the AP. It is an optional common mailbox between APs and the caller to share information @retval EFI_SUCCESS The Procedure has been set successfully. @retval EFI_INVALID_PARAMETER The Procedure is NULL but ProcedureArguments not NULL. **/ EFI_STATUS RegisterStartupProcedure ( IN EFI_AP_PROCEDURE Procedure, IN OUT VOID *ProcedureArguments OPTIONAL ); /** Allocate buffer for SpinLock and Wrapper function buffer. **/ VOID InitializeDataForMmMp ( VOID ); /** Return whether access to non-SMRAM is restricted. @retval TRUE Access to non-SMRAM is restricted. @retval FALSE Access to non-SMRAM is not restricted. **/ BOOLEAN IsRestrictedMemoryAccess ( VOID ); #endif