/** @file Copyright (c) 2008 - 2009, Apple Inc. All rights reserved.
Copyright (c) 2011 - 2016, ARM Ltd. All rights reserved.
This program and the accompanying materials are licensed and made available under the terms and conditions of the BSD License which accompanies this distribution. The full text of the license may be found at http://opensource.org/licenses/bsd-license.php THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. **/ #ifndef __ARM_LIB__ #define __ARM_LIB__ #include #ifdef MDE_CPU_ARM #include #elif defined(MDE_CPU_AARCH64) #include #else #error "Unknown chipset." #endif /** * The UEFI firmware must not use the ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_* attributes. * * The Non Secure memory attribute (ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_*) should only * be used in Secure World to distinguished Secure to Non-Secure memory. */ typedef enum { ARM_MEMORY_REGION_ATTRIBUTE_UNCACHED_UNBUFFERED = 0, ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_UNCACHED_UNBUFFERED, ARM_MEMORY_REGION_ATTRIBUTE_WRITE_BACK, ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_WRITE_BACK, ARM_MEMORY_REGION_ATTRIBUTE_WRITE_THROUGH, ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_WRITE_THROUGH, ARM_MEMORY_REGION_ATTRIBUTE_DEVICE, ARM_MEMORY_REGION_ATTRIBUTE_NONSECURE_DEVICE } ARM_MEMORY_REGION_ATTRIBUTES; #define IS_ARM_MEMORY_REGION_ATTRIBUTES_SECURE(attr) ((UINT32)(attr) & 1) typedef struct { EFI_PHYSICAL_ADDRESS PhysicalBase; EFI_VIRTUAL_ADDRESS VirtualBase; UINT64 Length; ARM_MEMORY_REGION_ATTRIBUTES Attributes; } ARM_MEMORY_REGION_DESCRIPTOR; typedef VOID (*CACHE_OPERATION)(VOID); typedef VOID (*LINE_OPERATION)(UINTN); // // ARM Processor Mode // typedef enum { ARM_PROCESSOR_MODE_USER = 0x10, ARM_PROCESSOR_MODE_FIQ = 0x11, ARM_PROCESSOR_MODE_IRQ = 0x12, ARM_PROCESSOR_MODE_SUPERVISOR = 0x13, ARM_PROCESSOR_MODE_ABORT = 0x17, ARM_PROCESSOR_MODE_HYP = 0x1A, ARM_PROCESSOR_MODE_UNDEFINED = 0x1B, ARM_PROCESSOR_MODE_SYSTEM = 0x1F, ARM_PROCESSOR_MODE_MASK = 0x1F } ARM_PROCESSOR_MODE; // // ARM Cpu IDs // #define ARM_CPU_IMPLEMENTER_MASK (0xFFU << 24) #define ARM_CPU_IMPLEMENTER_ARMLTD (0x41U << 24) #define ARM_CPU_IMPLEMENTER_DEC (0x44U << 24) #define ARM_CPU_IMPLEMENTER_MOT (0x4DU << 24) #define ARM_CPU_IMPLEMENTER_QUALCOMM (0x51U << 24) #define ARM_CPU_IMPLEMENTER_MARVELL (0x56U << 24) #define ARM_CPU_PRIMARY_PART_MASK (0xFFF << 4) #define ARM_CPU_PRIMARY_PART_CORTEXA5 (0xC05 << 4) #define ARM_CPU_PRIMARY_PART_CORTEXA7 (0xC07 << 4) #define ARM_CPU_PRIMARY_PART_CORTEXA8 (0xC08 << 4) #define ARM_CPU_PRIMARY_PART_CORTEXA9 (0xC09 << 4) #define ARM_CPU_PRIMARY_PART_CORTEXA15 (0xC0F << 4) // // ARM MP Core IDs // #define ARM_CORE_AFF0 0xFF #define ARM_CORE_AFF1 (0xFF << 8) #define ARM_CORE_AFF2 (0xFF << 16) #define ARM_CORE_AFF3 (0xFFULL << 32) #define ARM_CORE_MASK ARM_CORE_AFF0 #define ARM_CLUSTER_MASK ARM_CORE_AFF1 #define GET_CORE_ID(MpId) ((MpId) & ARM_CORE_MASK) #define GET_CLUSTER_ID(MpId) (((MpId) & ARM_CLUSTER_MASK) >> 8) #define GET_MPID(ClusterId, CoreId) (((ClusterId) << 8) | (CoreId)) #define PRIMARY_CORE_ID (PcdGet32(PcdArmPrimaryCore) & ARM_CORE_MASK) UINTN EFIAPI ArmDataCacheLineLength ( VOID ); UINTN EFIAPI ArmInstructionCacheLineLength ( VOID ); UINTN EFIAPI ArmCacheWritebackGranule ( VOID ); UINTN EFIAPI ArmIsArchTimerImplemented ( VOID ); UINTN EFIAPI ArmReadIdPfr0 ( VOID ); UINTN EFIAPI ArmReadIdPfr1 ( VOID ); UINTN EFIAPI ArmCacheInfo ( VOID ); BOOLEAN EFIAPI ArmIsMpCore ( VOID ); VOID EFIAPI ArmInvalidateDataCache ( VOID ); VOID EFIAPI ArmCleanInvalidateDataCache ( VOID ); VOID EFIAPI ArmCleanDataCache ( VOID ); VOID EFIAPI ArmInvalidateInstructionCache ( VOID ); VOID EFIAPI ArmInvalidateDataCacheEntryByMVA ( IN UINTN Address ); VOID EFIAPI ArmCleanDataCacheEntryToPoUByMVA( IN UINTN Address ); VOID EFIAPI ArmCleanDataCacheEntryByMVA( IN UINTN Address ); VOID EFIAPI ArmCleanInvalidateDataCacheEntryByMVA ( IN UINTN Address ); VOID EFIAPI ArmInvalidateDataCacheEntryBySetWay ( IN UINTN SetWayFormat ); VOID EFIAPI ArmCleanDataCacheEntryBySetWay ( IN UINTN SetWayFormat ); VOID EFIAPI ArmCleanInvalidateDataCacheEntryBySetWay ( IN UINTN SetWayFormat ); VOID EFIAPI ArmEnableDataCache ( VOID ); VOID EFIAPI ArmDisableDataCache ( VOID ); VOID EFIAPI ArmEnableInstructionCache ( VOID ); VOID EFIAPI ArmDisableInstructionCache ( VOID ); VOID EFIAPI ArmEnableMmu ( VOID ); VOID EFIAPI ArmDisableMmu ( VOID ); VOID EFIAPI ArmEnableCachesAndMmu ( VOID ); VOID EFIAPI ArmDisableCachesAndMmu ( VOID ); VOID EFIAPI ArmEnableInterrupts ( VOID ); UINTN EFIAPI ArmDisableInterrupts ( VOID ); BOOLEAN EFIAPI ArmGetInterruptState ( VOID ); VOID EFIAPI ArmEnableAsynchronousAbort ( VOID ); UINTN EFIAPI ArmDisableAsynchronousAbort ( VOID ); VOID EFIAPI ArmEnableIrq ( VOID ); UINTN EFIAPI ArmDisableIrq ( VOID ); VOID EFIAPI ArmEnableFiq ( VOID ); UINTN EFIAPI ArmDisableFiq ( VOID ); BOOLEAN EFIAPI ArmGetFiqState ( VOID ); /** * Invalidate Data and Instruction TLBs */ VOID EFIAPI ArmInvalidateTlb ( VOID ); VOID EFIAPI ArmUpdateTranslationTableEntry ( IN VOID *TranslationTableEntry, IN VOID *Mva ); VOID EFIAPI ArmSetDomainAccessControl ( IN UINT32 Domain ); VOID EFIAPI ArmSetTTBR0 ( IN VOID *TranslationTableBase ); VOID EFIAPI ArmSetTTBCR ( IN UINT32 Bits ); VOID * EFIAPI ArmGetTTBR0BaseAddress ( VOID ); RETURN_STATUS EFIAPI ArmConfigureMmu ( IN ARM_MEMORY_REGION_DESCRIPTOR *MemoryTable, OUT VOID **TranslationTableBase OPTIONAL, OUT UINTN *TranslationTableSize OPTIONAL ); BOOLEAN EFIAPI ArmMmuEnabled ( VOID ); VOID EFIAPI ArmEnableBranchPrediction ( VOID ); VOID EFIAPI ArmDisableBranchPrediction ( VOID ); VOID EFIAPI ArmSetLowVectors ( VOID ); VOID EFIAPI ArmSetHighVectors ( VOID ); VOID EFIAPI ArmDataMemoryBarrier ( VOID ); VOID EFIAPI ArmDataSynchronizationBarrier ( VOID ); VOID EFIAPI ArmInstructionSynchronizationBarrier ( VOID ); VOID EFIAPI ArmWriteVBar ( IN UINTN VectorBase ); UINTN EFIAPI ArmReadVBar ( VOID ); VOID EFIAPI ArmWriteAuxCr ( IN UINT32 Bit ); UINT32 EFIAPI ArmReadAuxCr ( VOID ); VOID EFIAPI ArmSetAuxCrBit ( IN UINT32 Bits ); VOID EFIAPI ArmUnsetAuxCrBit ( IN UINT32 Bits ); VOID EFIAPI ArmCallSEV ( VOID ); VOID EFIAPI ArmCallWFE ( VOID ); VOID EFIAPI ArmCallWFI ( VOID ); UINTN EFIAPI ArmReadMpidr ( VOID ); UINTN EFIAPI ArmReadMidr ( VOID ); UINT32 EFIAPI ArmReadCpacr ( VOID ); VOID EFIAPI ArmWriteCpacr ( IN UINT32 Access ); VOID EFIAPI ArmEnableVFP ( VOID ); /** Get the Secure Configuration Register value @return Value read from the Secure Configuration Register **/ UINT32 EFIAPI ArmReadScr ( VOID ); /** Set the Secure Configuration Register @param Value Value to write to the Secure Configuration Register **/ VOID EFIAPI ArmWriteScr ( IN UINT32 Value ); UINT32 EFIAPI ArmReadMVBar ( VOID ); VOID EFIAPI ArmWriteMVBar ( IN UINT32 VectorMonitorBase ); UINT32 EFIAPI ArmReadSctlr ( VOID ); UINTN EFIAPI ArmReadHVBar ( VOID ); VOID EFIAPI ArmWriteHVBar ( IN UINTN HypModeVectorBase ); // // Helper functions for accessing CPU ACTLR // UINTN EFIAPI ArmReadCpuActlr ( VOID ); VOID EFIAPI ArmWriteCpuActlr ( IN UINTN Val ); VOID EFIAPI ArmSetCpuActlrBit ( IN UINTN Bits ); VOID EFIAPI ArmUnsetCpuActlrBit ( IN UINTN Bits ); RETURN_STATUS ArmSetMemoryRegionNoExec ( IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length ); RETURN_STATUS ArmClearMemoryRegionNoExec ( IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length ); RETURN_STATUS ArmSetMemoryRegionReadOnly ( IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length ); RETURN_STATUS ArmClearMemoryRegionReadOnly ( IN EFI_PHYSICAL_ADDRESS BaseAddress, IN UINT64 Length ); #endif // __ARM_LIB__