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llvm-project/lldb/source/Plugins/Instruction/ARM/EmulateInstructionARM.h

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//===-- lldb_EmulateInstructionARM.h ------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#ifndef lldb_EmulateInstructionARM_h_
#define lldb_EmulateInstructionARM_h_
#include "lldb/Core/EmulateInstruction.h"
#include "lldb/Core/Error.h"
#include "Plugins/Process/Utility/ARMDefines.h"
namespace lldb_private {
// ITSession - Keep track of the IT Block progression.
class ITSession
{
public:
ITSession() : ITCounter(0), ITState(0) {}
~ITSession() {}
// InitIT - Initializes ITCounter/ITState.
bool InitIT(uint32_t bits7_0);
// ITAdvance - Updates ITCounter/ITState as IT Block progresses.
void ITAdvance();
// InITBlock - Returns true if we're inside an IT Block.
bool InITBlock();
// LastInITBlock - Returns true if we're the last instruction inside an IT Block.
bool LastInITBlock();
// GetCond - Gets condition bits for the current thumb instruction.
uint32_t GetCond();
private:
uint32_t ITCounter; // Possible values: 0, 1, 2, 3, 4.
uint32_t ITState; // A2.5.2 Consists of IT[7:5] and IT[4:0] initially.
};
class EmulateInstructionARM : public EmulateInstruction
{
public:
typedef enum
{
eEncodingA1,
eEncodingA2,
eEncodingA3,
eEncodingA4,
eEncodingA5,
eEncodingT1,
eEncodingT2,
eEncodingT3,
eEncodingT4,
eEncodingT5
} ARMEncoding;
static void
Initialize ();
static void
Terminate ();
static const char *
GetPluginNameStatic ();
static const char *
GetPluginDescriptionStatic ();
static lldb_private::EmulateInstruction *
CreateInstance (const lldb_private::ArchSpec &arch,
InstructionType inst_type);
static bool
SupportsEmulatingIntructionsOfTypeStatic (InstructionType inst_type)
{
switch (inst_type)
{
case eInstructionTypeAny:
case eInstructionTypePrologueEpilogue:
case eInstructionTypePCModifying:
return true;
case eInstructionTypeAll:
return false;
default:
break;
}
return false;
}
virtual const char *
GetPluginName()
{
return "EmulateInstructionARM";
}
virtual const char *
GetShortPluginName()
{
return GetPluginNameStatic();
}
virtual uint32_t
GetPluginVersion()
{
return 1;
}
bool
SetTargetTriple (const ArchSpec &arch);
enum Mode
{
eModeInvalid = -1,
eModeARM,
eModeThumb
};
EmulateInstructionARM (const ArchSpec &arch) :
EmulateInstruction (arch),
m_arm_isa (0),
m_opcode_mode (eModeInvalid),
m_opcode_cpsr (0),
m_it_session (),
m_ignore_conditions (false)
{
SetArchitecture (arch);
}
// EmulateInstructionARM (const ArchSpec &arch,
// bool ignore_conditions,
// void *baton,
// ReadMemory read_mem_callback,
// WriteMemory write_mem_callback,
// ReadRegister read_reg_callback,
// WriteRegister write_reg_callback) :
// EmulateInstruction (arch,
// ignore_conditions,
// baton,
// read_mem_callback,
// write_mem_callback,
// read_reg_callback,
// write_reg_callback),
// m_arm_isa (0),
// m_opcode_mode (eModeInvalid),
// m_opcode_cpsr (0),
// m_it_session ()
// {
// }
virtual bool
SupportsEmulatingIntructionsOfType (InstructionType inst_type)
{
return SupportsEmulatingIntructionsOfTypeStatic (inst_type);
}
virtual bool
SetArchitecture (const ArchSpec &arch);
virtual bool
ReadInstruction ();
virtual bool
SetInstruction (const Opcode &insn_opcode, const Address &inst_addr, Target *target);
virtual bool
EvaluateInstruction (uint32_t evaluate_options);
virtual bool
TestEmulation (Stream *out_stream, ArchSpec &arch, OptionValueDictionary *test_data);
virtual bool
GetRegisterInfo (uint32_t reg_kind, uint32_t reg_num, RegisterInfo &reg_info);
virtual bool
CreateFunctionEntryUnwind (UnwindPlan &unwind_plan);
uint32_t
ArchVersion();
bool
ConditionPassed (const uint32_t opcode,
bool *is_conditional = NULL); // Filled in with true if the opcode is a conditional opcode
// Filled in with false if the opcode is always executed
uint32_t
CurrentCond (const uint32_t opcode);
// InITBlock - Returns true if we're in Thumb mode and inside an IT Block.
bool InITBlock();
// LastInITBlock - Returns true if we're in Thumb mode and the last instruction inside an IT Block.
bool LastInITBlock();
bool
BadMode (uint32_t mode);
bool
CurrentModeIsPrivileged ();
void
CPSRWriteByInstr (uint32_t value, uint32_t bytemask, bool affect_execstate);
bool
BranchWritePC(const Context &context, uint32_t addr);
bool
BXWritePC(Context &context, uint32_t addr);
bool
LoadWritePC(Context &context, uint32_t addr);
bool
ALUWritePC(Context &context, uint32_t addr);
Mode
CurrentInstrSet();
bool
SelectInstrSet(Mode arm_or_thumb);
bool
WriteBits32Unknown (int n);
bool
WriteBits32UnknownToMemory (lldb::addr_t address);
bool
UnalignedSupport();
typedef struct
{
uint32_t result;
uint8_t carry_out;
uint8_t overflow;
} AddWithCarryResult;
AddWithCarryResult
AddWithCarry(uint32_t x, uint32_t y, uint8_t carry_in);
// Helper method to read the content of an ARM core register.
uint32_t
ReadCoreReg (uint32_t regnum, bool *success);
// See A8.6.96 MOV (immediate) Operation.
// Default arguments are specified for carry and overflow parameters, which means
// not to update the respective flags even if setflags is true.
bool
WriteCoreRegOptionalFlags (Context &context,
const uint32_t result,
const uint32_t Rd,
bool setflags,
const uint32_t carry = ~0u,
const uint32_t overflow = ~0u);
bool
WriteCoreReg (Context &context,
const uint32_t result,
const uint32_t Rd)
{
// Don't set the flags.
return WriteCoreRegOptionalFlags(context, result, Rd, false);
}
// See A8.6.35 CMP (immediate) Operation.
// Default arguments are specified for carry and overflow parameters, which means
// not to update the respective flags.
bool
WriteFlags (Context &context,
const uint32_t result,
const uint32_t carry = ~0u,
const uint32_t overflow = ~0u);
inline uint64_t
MemARead (EmulateInstruction::Context &context,
lldb::addr_t address,
uint32_t size,
uint64_t fail_value,
bool *success_ptr)
{
// This is a stub function corresponding to "MemA[]" in the ARM manual pseudocode, for
// aligned reads from memory. Since we are not trying to write a full hardware simulator, and since
// we are running in User mode (rather than Kernel mode) and therefore won't have access to many of the
// system registers we would need in order to fully implement this function, we will just call
// ReadMemoryUnsigned from here. In the future, if we decide we do need to do more faithful emulation of
// the hardware, we can update this function appropriately.
return ReadMemoryUnsigned (context, address, size, fail_value, success_ptr);
}
inline bool
MemAWrite (EmulateInstruction::Context &context,
lldb::addr_t address,
uint64_t data_val,
uint32_t size)
{
// This is a stub function corresponding to "MemA[]" in the ARM manual pseudocode, for
// aligned writes to memory. Since we are not trying to write a full hardware simulator, and since
// we are running in User mode (rather than Kernel mode) and therefore won't have access to many of the
// system registers we would need in order to fully implement this function, we will just call
// WriteMemoryUnsigned from here. In the future, if we decide we do need to do more faithful emulation of
// the hardware, we can update this function appropriately.
return WriteMemoryUnsigned (context, address, data_val, size);
}
inline uint64_t
MemURead (EmulateInstruction::Context &context,
lldb::addr_t address,
uint32_t size,
uint64_t fail_value,
bool *success_ptr)
{
// This is a stub function corresponding to "MemU[]" in the ARM manual pseudocode, for
// unaligned reads from memory. Since we are not trying to write a full hardware simulator, and since
// we are running in User mode (rather than Kernel mode) and therefore won't have access to many of the
// system registers we would need in order to fully implement this function, we will just call
// ReadMemoryUnsigned from here. In the future, if we decide we do need to do more faithful emulation of
// the hardware, we can update this function appropriately.
return ReadMemoryUnsigned (context, address, size, fail_value, success_ptr);
}
inline bool
MemUWrite (EmulateInstruction::Context &context,
lldb::addr_t address,
uint64_t data_val,
uint32_t size)
{
// This is a stub function corresponding to "MemU[]" in the ARM manual pseudocode, for
// unaligned writes to memory. Since we are not trying to write a full hardware simulator, and since
// we are running in User mode (rather than Kernel mode) and therefore won't have access to many of the
// system registers we would need in order to fully implement this function, we will just call
// WriteMemoryUnsigned from here. In the future, if we decide we do need to do more faithful emulation of
// the hardware, we can update this function appropriately.
return WriteMemoryUnsigned (context, address, data_val, size);
}
protected:
// Typedef for the callback function used during the emulation.
// Pass along (ARMEncoding)encoding as the callback data.
typedef enum
{
eSize16,
eSize32
} ARMInstrSize;
typedef struct
{
uint32_t mask;
uint32_t value;
uint32_t variants;
EmulateInstructionARM::ARMEncoding encoding;
uint32_t vfp_variants;
ARMInstrSize size;
bool (EmulateInstructionARM::*callback) (const uint32_t opcode, const EmulateInstructionARM::ARMEncoding encoding);
const char *name;
} ARMOpcode;
uint32_t
GetFramePointerRegisterNumber () const;
uint32_t
GetFramePointerDWARFRegisterNumber () const;
static ARMOpcode*
GetARMOpcodeForInstruction (const uint32_t opcode, uint32_t isa_mask);
static ARMOpcode*
GetThumbOpcodeForInstruction (const uint32_t opcode, uint32_t isa_mask);
// A8.6.123 PUSH
bool
EmulatePUSH (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.122 POP
bool
EmulatePOP (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.8 ADD (SP plus immediate)
bool
EmulateADDRdSPImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.97 MOV (register) -- Rd == r7|ip and Rm == sp
bool
EmulateMOVRdSP (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.97 MOV (register) -- move from r8-r15 to r0-r7
bool
EmulateMOVLowHigh (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.59 LDR (literal)
bool
EmulateLDRRtPCRelative (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.8 ADD (SP plus immediate)
bool
EmulateADDSPImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.9 ADD (SP plus register)
bool
EmulateADDSPRm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.23 BL, BLX (immediate)
bool
EmulateBLXImmediate (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.24 BLX (register)
bool
EmulateBLXRm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.25 BX
bool
EmulateBXRm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.26 BXJ
bool
EmulateBXJRm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.212 SUB (immediate, ARM) -- Rd == r7 and Rm == ip
bool
EmulateSUBR7IPImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.215 SUB (SP minus immediate) -- Rd == ip
bool
EmulateSUBIPSPImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.215 SUB (SP minus immediate)
bool
EmulateSUBSPImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.216 SUB (SP minus register)
bool
EmulateSUBSPReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.194 STR (immediate, ARM) -- Rn == sp
bool
EmulateSTRRtSP (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.355 VPUSH
bool
EmulateVPUSH (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.354 VPOP
bool
EmulateVPOP (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.218 SVC (previously SWI)
bool
EmulateSVC (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.50 IT
bool
EmulateIT (const uint32_t opcode, const ARMEncoding encoding);
// NOP
bool
EmulateNop (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.16 B
bool
EmulateB (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.27 CBNZ, CBZ
bool
EmulateCB (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.226 TBB, TBH
bool
EmulateTB (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.4 ADD (immediate, Thumb)
bool
EmulateADDImmThumb (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.5 ADD (immediate, ARM)
bool
EmulateADDImmARM (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.6 ADD (register)
bool
EmulateADDReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.7 ADD (register-shifted register)
bool
EmulateADDRegShift (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.97 MOV (register)
bool
EmulateMOVRdRm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.96 MOV (immediate)
bool
EmulateMOVRdImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.35 CMP (immediate)
bool
EmulateCMPImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.36 CMP (register)
bool
EmulateCMPReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.14 ASR (immediate)
bool
EmulateASRImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.15 ASR (register)
bool
EmulateASRReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.88 LSL (immediate)
bool
EmulateLSLImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.89 LSL (register)
bool
EmulateLSLReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.90 LSR (immediate)
bool
EmulateLSRImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.91 LSR (register)
bool
EmulateLSRReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.139 ROR (immediate)
bool
EmulateRORImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.140 ROR (register)
bool
EmulateRORReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.141 RRX
bool
EmulateRRX (const uint32_t opcode, const ARMEncoding encoding);
// Helper method for ASR, LSL, LSR, ROR (immediate), and RRX
bool
EmulateShiftImm (const uint32_t opcode, const ARMEncoding encoding, ARM_ShifterType shift_type);
// Helper method for ASR, LSL, LSR, and ROR (register)
bool
EmulateShiftReg (const uint32_t opcode, const ARMEncoding encoding, ARM_ShifterType shift_type);
// LOAD FUNCTIONS
// A8.6.53 LDM/LDMIA/LDMFD
bool
EmulateLDM (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.54 LDMDA/LDMFA
bool
EmulateLDMDA (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.55 LDMDB/LDMEA
bool
EmulateLDMDB (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.56 LDMIB/LDMED
bool
EmulateLDMIB (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.57 LDR (immediate, Thumb) -- Encoding T1
bool
EmulateLDRRtRnImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.58 LDR (immediate, ARM) - Encoding A1
bool
EmulateLDRImmediateARM (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.59 LDR (literal)
bool
EmulateLDRLiteral (const uint32_t, const ARMEncoding encoding);
// A8.6.60 LDR (register) - Encoding T1, T2, A1
bool
EmulateLDRRegister (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.61 LDRB (immediate, Thumb) - Encoding T1, T2, T3
bool
EmulateLDRBImmediate (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.62 LDRB (immediate, ARM)
bool
EmulateLDRBImmediateARM (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.63 LDRB (literal) - Encoding T1, A1
bool
EmulateLDRBLiteral (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.64 LDRB (register) - Encoding T1, T2, A1
bool
EmulateLDRBRegister (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.65 LDRBT
bool
EmulateLDRBT (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.66 LDRD (immediate)
bool
EmulateLDRDImmediate (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.67
bool
EmulateLDRDLiteral (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.68 LDRD (register)
bool
EmulateLDRDRegister (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.69 LDREX
bool
EmulateLDREX (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.70 LDREXB
bool
EmulateLDREXB (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.71 LDREXD
bool
EmulateLDREXD (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.72 LDREXH
bool
EmulateLDREXH (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.73 LDRH (immediate, Thumb) - Encoding T1, T2, T3
bool
EmulateLDRHImmediate (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.74 LDRS (immediate, ARM)
bool
EmulateLDRHImmediateARM (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.75 LDRH (literal) - Encoding T1, A1
bool
EmulateLDRHLiteral (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.76 LDRH (register) - Encoding T1, T2, A1
bool
EmulateLDRHRegister (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.77 LDRHT
bool
EmulateLDRHT (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.78 LDRSB (immediate) - Encoding T1, T2, A1
bool
EmulateLDRSBImmediate (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.79 LDRSB (literal) - Encoding T1, A1
bool
EmulateLDRSBLiteral (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.80 LDRSB (register) - Encoding T1, T2, A1
bool
EmulateLDRSBRegister (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.81 LDRSBT
bool
EmulateLDRSBT (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.82 LDRSH (immediate) - Encoding T1, T2, A1
bool
EmulateLDRSHImmediate (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.83 LDRSH (literal) - Encoding T1, A1
bool
EmulateLDRSHLiteral (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.84 LDRSH (register) - Encoding T1, T2, A1
bool
EmulateLDRSHRegister (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.85 LDRSHT
bool
EmulateLDRSHT (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.86
bool
EmulateLDRT (const uint32_t opcode, const ARMEncoding encoding);
// STORE FUNCTIONS
// A8.6.189 STM/STMIA/STMEA
bool
EmulateSTM (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.190 STMDA/STMED
bool
EmulateSTMDA (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.191 STMDB/STMFD
bool
EmulateSTMDB (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.192 STMIB/STMFA
bool
EmulateSTMIB (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.193 STR (immediate, Thumb)
bool
EmulateSTRThumb(const uint32_t opcode, const ARMEncoding encoding);
// A8.6.194 STR (immediate, ARM)
bool
EmulateSTRImmARM (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.195 STR (register)
bool
EmulateSTRRegister (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.196 STRB (immediate, Thumb)
bool
EmulateSTRBThumb (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.197 STRB (immediate, ARM)
bool
EmulateSTRBImmARM (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.198 STRB (register)
bool
EmulateSTRBReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.199 STRBT
bool
EmulateSTRBT (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.200 STRD (immediate)
bool
EmulateSTRDImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.201 STRD (register)
bool
EmulateSTRDReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.202 STREX
bool
EmulateSTREX (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.203 STREXB
bool
EmulateSTREXB (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.204 STREXD
bool
EmulateSTREXD (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.205 STREXH
bool
EmulateSTREXH (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.206 STRH (immediate, Thumb)
bool
EmulateSTRHImmThumb (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.207 STRH (immediate, ARM)
bool
EmulateSTRHImmARM (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.208 STRH (register)
bool
EmulateSTRHRegister (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.209 STRHT
bool
EmulateSTRHT (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.210 STRT
bool
EmulateSTRT (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.1 ADC (immediate)
bool
EmulateADCImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.2 ADC (Register)
bool
EmulateADCReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.10 ADR
bool
EmulateADR (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.11 AND (immediate)
bool
EmulateANDImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.12 AND (register)
bool
EmulateANDReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.19 BIC (immediate)
bool
EmulateBICImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.20 BIC (register)
bool
EmulateBICReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.26 BXJ
bool
EmulateBXJ (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.32 CMN (immediate)
bool
EmulateCMNImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.33 CMN (register)
bool
EmulateCMNReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.44 EOR (immediate)
bool
EmulateEORImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.45 EOR (register)
bool
EmulateEORReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.105 MUL
bool
EmulateMUL (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.106 MVN (immediate)
bool
EmulateMVNImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.107 MVN (register)
bool
EmulateMVNReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.113 ORR (immediate)
bool
EmulateORRImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.114 ORR (register)
bool
EmulateORRReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.117 PLD (immediate, literal) - Encoding T1, T2, T3, A1
bool
EmulatePLDImmediate (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.119 PLI (immediate,literal) - Encoding T3, A1
bool
EmulatePLIImmediate (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.120 PLI (register) - Encoding T1, A1
bool
EmulatePLIRegister (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.141 RSB (immediate)
bool
EmulateRSBImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.142 RSB (register)
bool
EmulateRSBReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.144 RSC (immediate)
bool
EmulateRSCImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.145 RSC (register)
bool
EmulateRSCReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.150 SBC (immediate)
bool
EmulateSBCImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.151 SBC (register)
bool
EmulateSBCReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.211 SUB (immediate, Thumb)
bool
EmulateSUBImmThumb (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.212 SUB (immediate, ARM)
bool
EmulateSUBImmARM (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.213 SUB (register)
bool
EmulateSUBReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.214 SUB (register-shifted register)
bool
EmulateSUBRegShift (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.222 SXTB - Encoding T1
bool
EmulateSXTB (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.224 SXTH - EncodingT1
bool
EmulateSXTH (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.227 TEQ (immediate) - Encoding A1
bool
EmulateTEQImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.228 TEQ (register) - Encoding A1
bool
EmulateTEQReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.230 TST (immediate) - Encoding A1
bool
EmulateTSTImm (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.231 TST (register) - Encoding T1, A1
bool
EmulateTSTReg (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.262 UXTB - Encoding T1
bool
EmulateUXTB (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.264 UXTH - Encoding T1
bool
EmulateUXTH (const uint32_t opcode, const ARMEncoding encoding);
// B6.1.8 RFE
bool
EmulateRFE (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.319 VLDM
bool
EmulateVLDM (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.399 VSTM
bool
EmulateVSTM (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.307 VLD1 (multiple single elements)
bool
EmulateVLD1Multiple (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.308 VLD1 (single element to one lane)
bool
EmulateVLD1Single (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.309 VLD1 (single element to all lanes)
bool
EmulateVLD1SingleAll (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.391 VST1 (multiple single elements)
bool
EmulateVST1Multiple (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.392 VST1 (single element from one lane)
bool
EmulateVST1Single (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.317 VLDR
bool
EmulateVLDR (const uint32_t opcode, const ARMEncoding encoding);
// A8.6.400 VSTR
bool
EmulateVSTR (const uint32_t opcode, const ARMEncoding encoding);
// B6.2.13 SUBS PC, LR and related instructions
bool
EmulateSUBSPcLrEtc (const uint32_t opcode, const ARMEncoding encoding);
uint32_t m_arm_isa;
Mode m_opcode_mode;
uint32_t m_opcode_cpsr;
uint32_t m_new_inst_cpsr; // This can get updated by the opcode.
ITSession m_it_session;
bool m_ignore_conditions;
};
} // namespace lldb_private
#endif // lldb_EmulateInstructionARM_h_
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