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|
//===----------------------------- Registers.hpp --------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is dual licensed under the MIT and the University of Illinois Open
// Source Licenses. See LICENSE.TXT for details.
//
//
// Models register sets for supported processors.
//
//===----------------------------------------------------------------------===//
#ifndef __REGISTERS_HPP__
#define __REGISTERS_HPP__
#include <stdint.h>
#include <string.h>
#include "libunwind.h"
#include "config.h"
namespace libunwind {
// For emulating 128-bit registers
struct v128 { uint32_t vec[4]; };
/// Registers_x86 holds the register state of a thread in a 32-bit intel
/// process.
class _LIBUNWIND_HIDDEN Registers_x86 {
public:
Registers_x86();
Registers_x86(const void *registers);
bool validRegister(int num) const;
uint32_t getRegister(int num) const;
void setRegister(int num, uint32_t value);
bool validFloatRegister(int) const { return false; }
double getFloatRegister(int num) const;
void setFloatRegister(int num, double value);
bool validVectorRegister(int) const { return false; }
v128 getVectorRegister(int num) const;
void setVectorRegister(int num, v128 value);
const char *getRegisterName(int num);
void jumpto();
static int lastDwarfRegNum() { return 8; }
uint32_t getSP() const { return _registers.__esp; }
void setSP(uint32_t value) { _registers.__esp = value; }
uint32_t getIP() const { return _registers.__eip; }
void setIP(uint32_t value) { _registers.__eip = value; }
uint32_t getEBP() const { return _registers.__ebp; }
void setEBP(uint32_t value) { _registers.__ebp = value; }
uint32_t getEBX() const { return _registers.__ebx; }
void setEBX(uint32_t value) { _registers.__ebx = value; }
uint32_t getECX() const { return _registers.__ecx; }
void setECX(uint32_t value) { _registers.__ecx = value; }
uint32_t getEDX() const { return _registers.__edx; }
void setEDX(uint32_t value) { _registers.__edx = value; }
uint32_t getESI() const { return _registers.__esi; }
void setESI(uint32_t value) { _registers.__esi = value; }
uint32_t getEDI() const { return _registers.__edi; }
void setEDI(uint32_t value) { _registers.__edi = value; }
private:
struct GPRs {
unsigned int __eax;
unsigned int __ebx;
unsigned int __ecx;
unsigned int __edx;
unsigned int __edi;
unsigned int __esi;
unsigned int __ebp;
unsigned int __esp;
unsigned int __ss;
unsigned int __eflags;
unsigned int __eip;
unsigned int __cs;
unsigned int __ds;
unsigned int __es;
unsigned int __fs;
unsigned int __gs;
};
GPRs _registers;
};
inline Registers_x86::Registers_x86(const void *registers) {
static_assert(sizeof(Registers_x86) < sizeof(unw_context_t),
"x86 registers do not fit into unw_context_t");
memcpy(&_registers, registers, sizeof(_registers));
}
inline Registers_x86::Registers_x86() {
memset(&_registers, 0, sizeof(_registers));
}
inline bool Registers_x86::validRegister(int regNum) const {
if (regNum == UNW_REG_IP)
return true;
if (regNum == UNW_REG_SP)
return true;
if (regNum < 0)
return false;
if (regNum > 7)
return false;
return true;
}
inline uint32_t Registers_x86::getRegister(int regNum) const {
switch (regNum) {
case UNW_REG_IP:
return _registers.__eip;
case UNW_REG_SP:
return _registers.__esp;
case UNW_X86_EAX:
return _registers.__eax;
case UNW_X86_ECX:
return _registers.__ecx;
case UNW_X86_EDX:
return _registers.__edx;
case UNW_X86_EBX:
return _registers.__ebx;
case UNW_X86_EBP:
return _registers.__ebp;
case UNW_X86_ESP:
return _registers.__esp;
case UNW_X86_ESI:
return _registers.__esi;
case UNW_X86_EDI:
return _registers.__edi;
}
_LIBUNWIND_ABORT("unsupported x86 register");
}
inline void Registers_x86::setRegister(int regNum, uint32_t value) {
switch (regNum) {
case UNW_REG_IP:
_registers.__eip = value;
return;
case UNW_REG_SP:
_registers.__esp = value;
return;
case UNW_X86_EAX:
_registers.__eax = value;
return;
case UNW_X86_ECX:
_registers.__ecx = value;
return;
case UNW_X86_EDX:
_registers.__edx = value;
return;
case UNW_X86_EBX:
_registers.__ebx = value;
return;
case UNW_X86_EBP:
_registers.__ebp = value;
return;
case UNW_X86_ESP:
_registers.__esp = value;
return;
case UNW_X86_ESI:
_registers.__esi = value;
return;
case UNW_X86_EDI:
_registers.__edi = value;
return;
}
_LIBUNWIND_ABORT("unsupported x86 register");
}
inline const char *Registers_x86::getRegisterName(int regNum) {
switch (regNum) {
case UNW_REG_IP:
return "ip";
case UNW_REG_SP:
return "esp";
case UNW_X86_EAX:
return "eax";
case UNW_X86_ECX:
return "ecx";
case UNW_X86_EDX:
return "edx";
case UNW_X86_EBX:
return "ebx";
case UNW_X86_EBP:
return "ebp";
case UNW_X86_ESP:
return "esp";
case UNW_X86_ESI:
return "esi";
case UNW_X86_EDI:
return "edi";
default:
return "unknown register";
}
}
inline double Registers_x86::getFloatRegister(int) const {
_LIBUNWIND_ABORT("no x86 float registers");
}
inline void Registers_x86::setFloatRegister(int, double) {
_LIBUNWIND_ABORT("no x86 float registers");
}
inline v128 Registers_x86::getVectorRegister(int) const {
_LIBUNWIND_ABORT("no x86 vector registers");
}
inline void Registers_x86::setVectorRegister(int, v128) {
_LIBUNWIND_ABORT("no x86 vector registers");
}
/// Registers_x86_64 holds the register state of a thread in a 64-bit intel
/// process.
class _LIBUNWIND_HIDDEN Registers_x86_64 {
public:
Registers_x86_64();
Registers_x86_64(const void *registers);
bool validRegister(int num) const;
uint64_t getRegister(int num) const;
void setRegister(int num, uint64_t value);
bool validFloatRegister(int) const { return false; }
double getFloatRegister(int num) const;
void setFloatRegister(int num, double value);
bool validVectorRegister(int) const { return false; }
v128 getVectorRegister(int num) const;
void setVectorRegister(int num, v128 value);
const char *getRegisterName(int num);
void jumpto();
static int lastDwarfRegNum() { return 16; }
uint64_t getSP() const { return _registers.__rsp; }
void setSP(uint64_t value) { _registers.__rsp = value; }
uint64_t getIP() const { return _registers.__rip; }
void setIP(uint64_t value) { _registers.__rip = value; }
uint64_t getRBP() const { return _registers.__rbp; }
void setRBP(uint64_t value) { _registers.__rbp = value; }
uint64_t getRBX() const { return _registers.__rbx; }
void setRBX(uint64_t value) { _registers.__rbx = value; }
uint64_t getR12() const { return _registers.__r12; }
void setR12(uint64_t value) { _registers.__r12 = value; }
uint64_t getR13() const { return _registers.__r13; }
void setR13(uint64_t value) { _registers.__r13 = value; }
uint64_t getR14() const { return _registers.__r14; }
void setR14(uint64_t value) { _registers.__r14 = value; }
uint64_t getR15() const { return _registers.__r15; }
void setR15(uint64_t value) { _registers.__r15 = value; }
private:
struct GPRs {
uint64_t __rax;
uint64_t __rbx;
uint64_t __rcx;
uint64_t __rdx;
uint64_t __rdi;
uint64_t __rsi;
uint64_t __rbp;
uint64_t __rsp;
uint64_t __r8;
uint64_t __r9;
uint64_t __r10;
uint64_t __r11;
uint64_t __r12;
uint64_t __r13;
uint64_t __r14;
uint64_t __r15;
uint64_t __rip;
uint64_t __rflags;
uint64_t __cs;
uint64_t __fs;
uint64_t __gs;
};
GPRs _registers;
};
inline Registers_x86_64::Registers_x86_64(const void *registers) {
static_assert(sizeof(Registers_x86_64) < sizeof(unw_context_t),
"x86_64 registers do not fit into unw_context_t");
memcpy(&_registers, registers, sizeof(_registers));
}
inline Registers_x86_64::Registers_x86_64() {
memset(&_registers, 0, sizeof(_registers));
}
inline bool Registers_x86_64::validRegister(int regNum) const {
if (regNum == UNW_REG_IP)
return true;
if (regNum == UNW_REG_SP)
return true;
if (regNum < 0)
return false;
if (regNum > 15)
return false;
return true;
}
inline uint64_t Registers_x86_64::getRegister(int regNum) const {
switch (regNum) {
case UNW_REG_IP:
return _registers.__rip;
case UNW_REG_SP:
return _registers.__rsp;
case UNW_X86_64_RAX:
return _registers.__rax;
case UNW_X86_64_RDX:
return _registers.__rdx;
case UNW_X86_64_RCX:
return _registers.__rcx;
case UNW_X86_64_RBX:
return _registers.__rbx;
case UNW_X86_64_RSI:
return _registers.__rsi;
case UNW_X86_64_RDI:
return _registers.__rdi;
case UNW_X86_64_RBP:
return _registers.__rbp;
case UNW_X86_64_RSP:
return _registers.__rsp;
case UNW_X86_64_R8:
return _registers.__r8;
case UNW_X86_64_R9:
return _registers.__r9;
case UNW_X86_64_R10:
return _registers.__r10;
case UNW_X86_64_R11:
return _registers.__r11;
case UNW_X86_64_R12:
return _registers.__r12;
case UNW_X86_64_R13:
return _registers.__r13;
case UNW_X86_64_R14:
return _registers.__r14;
case UNW_X86_64_R15:
return _registers.__r15;
}
_LIBUNWIND_ABORT("unsupported x86_64 register");
}
inline void Registers_x86_64::setRegister(int regNum, uint64_t value) {
switch (regNum) {
case UNW_REG_IP:
_registers.__rip = value;
return;
case UNW_REG_SP:
_registers.__rsp = value;
return;
case UNW_X86_64_RAX:
_registers.__rax = value;
return;
case UNW_X86_64_RDX:
_registers.__rdx = value;
return;
case UNW_X86_64_RCX:
_registers.__rcx = value;
return;
case UNW_X86_64_RBX:
_registers.__rbx = value;
return;
case UNW_X86_64_RSI:
_registers.__rsi = value;
return;
case UNW_X86_64_RDI:
_registers.__rdi = value;
return;
case UNW_X86_64_RBP:
_registers.__rbp = value;
return;
case UNW_X86_64_RSP:
_registers.__rsp = value;
return;
case UNW_X86_64_R8:
_registers.__r8 = value;
return;
case UNW_X86_64_R9:
_registers.__r9 = value;
return;
case UNW_X86_64_R10:
_registers.__r10 = value;
return;
case UNW_X86_64_R11:
_registers.__r11 = value;
return;
case UNW_X86_64_R12:
_registers.__r12 = value;
return;
case UNW_X86_64_R13:
_registers.__r13 = value;
return;
case UNW_X86_64_R14:
_registers.__r14 = value;
return;
case UNW_X86_64_R15:
_registers.__r15 = value;
return;
}
_LIBUNWIND_ABORT("unsupported x86_64 register");
}
inline const char *Registers_x86_64::getRegisterName(int regNum) {
switch (regNum) {
case UNW_REG_IP:
return "rip";
case UNW_REG_SP:
return "rsp";
case UNW_X86_64_RAX:
return "rax";
case UNW_X86_64_RDX:
return "rdx";
case UNW_X86_64_RCX:
return "rcx";
case UNW_X86_64_RBX:
return "rbx";
case UNW_X86_64_RSI:
return "rsi";
case UNW_X86_64_RDI:
return "rdi";
case UNW_X86_64_RBP:
return "rbp";
case UNW_X86_64_RSP:
return "rsp";
case UNW_X86_64_R8:
return "r8";
case UNW_X86_64_R9:
return "r9";
case UNW_X86_64_R10:
return "r10";
case UNW_X86_64_R11:
return "r11";
case UNW_X86_64_R12:
return "r12";
case UNW_X86_64_R13:
return "r13";
case UNW_X86_64_R14:
return "r14";
case UNW_X86_64_R15:
return "r15";
default:
return "unknown register";
}
}
inline double Registers_x86_64::getFloatRegister(int) const {
_LIBUNWIND_ABORT("no x86_64 float registers");
}
inline void Registers_x86_64::setFloatRegister(int, double) {
_LIBUNWIND_ABORT("no x86_64 float registers");
}
inline v128 Registers_x86_64::getVectorRegister(int) const {
_LIBUNWIND_ABORT("no x86_64 vector registers");
}
inline void Registers_x86_64::setVectorRegister(int, v128) {
_LIBUNWIND_ABORT("no x86_64 vector registers");
}
/// Registers_ppc holds the register state of a thread in a 32-bit PowerPC
/// process.
class _LIBUNWIND_HIDDEN Registers_ppc {
public:
Registers_ppc();
Registers_ppc(const void *registers);
bool validRegister(int num) const;
uint32_t getRegister(int num) const;
void setRegister(int num, uint32_t value);
bool validFloatRegister(int num) const;
double getFloatRegister(int num) const;
void setFloatRegister(int num, double value);
bool validVectorRegister(int num) const;
v128 getVectorRegister(int num) const;
void setVectorRegister(int num, v128 value);
const char *getRegisterName(int num);
void jumpto();
static int lastDwarfRegNum() { return 112; }
uint64_t getSP() const { return _registers.__r1; }
void setSP(uint32_t value) { _registers.__r1 = value; }
uint64_t getIP() const { return _registers.__srr0; }
void setIP(uint32_t value) { _registers.__srr0 = value; }
private:
struct ppc_thread_state_t {
unsigned int __srr0; /* Instruction address register (PC) */
unsigned int __srr1; /* Machine state register (supervisor) */
unsigned int __r0;
unsigned int __r1;
unsigned int __r2;
unsigned int __r3;
unsigned int __r4;
unsigned int __r5;
unsigned int __r6;
unsigned int __r7;
unsigned int __r8;
unsigned int __r9;
unsigned int __r10;
unsigned int __r11;
unsigned int __r12;
unsigned int __r13;
unsigned int __r14;
unsigned int __r15;
unsigned int __r16;
unsigned int __r17;
unsigned int __r18;
unsigned int __r19;
unsigned int __r20;
unsigned int __r21;
unsigned int __r22;
unsigned int __r23;
unsigned int __r24;
unsigned int __r25;
unsigned int __r26;
unsigned int __r27;
unsigned int __r28;
unsigned int __r29;
unsigned int __r30;
unsigned int __r31;
unsigned int __cr; /* Condition register */
unsigned int __xer; /* User's integer exception register */
unsigned int __lr; /* Link register */
unsigned int __ctr; /* Count register */
unsigned int __mq; /* MQ register (601 only) */
unsigned int __vrsave; /* Vector Save Register */
};
struct ppc_float_state_t {
double __fpregs[32];
unsigned int __fpscr_pad; /* fpscr is 64 bits, 32 bits of rubbish */
unsigned int __fpscr; /* floating point status register */
};
ppc_thread_state_t _registers;
ppc_float_state_t _floatRegisters;
v128 _vectorRegisters[32]; // offset 424
};
inline Registers_ppc::Registers_ppc(const void *registers) {
static_assert(sizeof(Registers_ppc) < sizeof(unw_context_t),
"ppc registers do not fit into unw_context_t");
memcpy(&_registers, static_cast<const uint8_t *>(registers),
sizeof(_registers));
static_assert(sizeof(ppc_thread_state_t) == 160,
"expected float register offset to be 160");
memcpy(&_floatRegisters,
static_cast<const uint8_t *>(registers) + sizeof(ppc_thread_state_t),
sizeof(_floatRegisters));
static_assert(sizeof(ppc_thread_state_t) + sizeof(ppc_float_state_t) == 424,
"expected vector register offset to be 424 bytes");
memcpy(_vectorRegisters,
static_cast<const uint8_t *>(registers) + sizeof(ppc_thread_state_t) +
sizeof(ppc_float_state_t),
sizeof(_vectorRegisters));
}
inline Registers_ppc::Registers_ppc() {
memset(&_registers, 0, sizeof(_registers));
memset(&_floatRegisters, 0, sizeof(_floatRegisters));
memset(&_vectorRegisters, 0, sizeof(_vectorRegisters));
}
inline bool Registers_ppc::validRegister(int regNum) const {
if (regNum == UNW_REG_IP)
return true;
if (regNum == UNW_REG_SP)
return true;
if (regNum == UNW_PPC_VRSAVE)
return true;
if (regNum < 0)
return false;
if (regNum <= UNW_PPC_R31)
return true;
if (regNum == UNW_PPC_MQ)
return true;
if (regNum == UNW_PPC_LR)
return true;
if (regNum == UNW_PPC_CTR)
return true;
if ((UNW_PPC_CR0 <= regNum) && (regNum <= UNW_PPC_CR7))
return true;
return false;
}
inline uint32_t Registers_ppc::getRegister(int regNum) const {
switch (regNum) {
case UNW_REG_IP:
return _registers.__srr0;
case UNW_REG_SP:
return _registers.__r1;
case UNW_PPC_R0:
return _registers.__r0;
case UNW_PPC_R1:
return _registers.__r1;
case UNW_PPC_R2:
return _registers.__r2;
case UNW_PPC_R3:
return _registers.__r3;
case UNW_PPC_R4:
return _registers.__r4;
case UNW_PPC_R5:
return _registers.__r5;
case UNW_PPC_R6:
return _registers.__r6;
case UNW_PPC_R7:
return _registers.__r7;
case UNW_PPC_R8:
return _registers.__r8;
case UNW_PPC_R9:
return _registers.__r9;
case UNW_PPC_R10:
return _registers.__r10;
case UNW_PPC_R11:
return _registers.__r11;
case UNW_PPC_R12:
return _registers.__r12;
case UNW_PPC_R13:
return _registers.__r13;
case UNW_PPC_R14:
return _registers.__r14;
case UNW_PPC_R15:
return _registers.__r15;
case UNW_PPC_R16:
return _registers.__r16;
case UNW_PPC_R17:
return _registers.__r17;
case UNW_PPC_R18:
return _registers.__r18;
case UNW_PPC_R19:
return _registers.__r19;
case UNW_PPC_R20:
return _registers.__r20;
case UNW_PPC_R21:
return _registers.__r21;
case UNW_PPC_R22:
return _registers.__r22;
case UNW_PPC_R23:
return _registers.__r23;
case UNW_PPC_R24:
return _registers.__r24;
case UNW_PPC_R25:
return _registers.__r25;
case UNW_PPC_R26:
return _registers.__r26;
case UNW_PPC_R27:
return _registers.__r27;
case UNW_PPC_R28:
return _registers.__r28;
case UNW_PPC_R29:
return _registers.__r29;
case UNW_PPC_R30:
return _registers.__r30;
case UNW_PPC_R31:
return _registers.__r31;
case UNW_PPC_LR:
return _registers.__lr;
case UNW_PPC_CR0:
return (_registers.__cr & 0xF0000000);
case UNW_PPC_CR1:
return (_registers.__cr & 0x0F000000);
case UNW_PPC_CR2:
return (_registers.__cr & 0x00F00000);
case UNW_PPC_CR3:
return (_registers.__cr & 0x000F0000);
case UNW_PPC_CR4:
return (_registers.__cr & 0x0000F000);
case UNW_PPC_CR5:
return (_registers.__cr & 0x00000F00);
case UNW_PPC_CR6:
return (_registers.__cr & 0x000000F0);
case UNW_PPC_CR7:
return (_registers.__cr & 0x0000000F);
case UNW_PPC_VRSAVE:
return _registers.__vrsave;
}
_LIBUNWIND_ABORT("unsupported ppc register");
}
inline void Registers_ppc::setRegister(int regNum, uint32_t value) {
//fprintf(stderr, "Registers_ppc::setRegister(%d, 0x%08X)\n", regNum, value);
switch (regNum) {
case UNW_REG_IP:
_registers.__srr0 = value;
return;
case UNW_REG_SP:
_registers.__r1 = value;
return;
case UNW_PPC_R0:
_registers.__r0 = value;
return;
case UNW_PPC_R1:
_registers.__r1 = value;
return;
case UNW_PPC_R2:
_registers.__r2 = value;
return;
case UNW_PPC_R3:
_registers.__r3 = value;
return;
case UNW_PPC_R4:
_registers.__r4 = value;
return;
case UNW_PPC_R5:
_registers.__r5 = value;
return;
case UNW_PPC_R6:
_registers.__r6 = value;
return;
case UNW_PPC_R7:
_registers.__r7 = value;
return;
case UNW_PPC_R8:
_registers.__r8 = value;
return;
case UNW_PPC_R9:
_registers.__r9 = value;
return;
case UNW_PPC_R10:
_registers.__r10 = value;
return;
case UNW_PPC_R11:
_registers.__r11 = value;
return;
case UNW_PPC_R12:
_registers.__r12 = value;
return;
case UNW_PPC_R13:
_registers.__r13 = value;
return;
case UNW_PPC_R14:
_registers.__r14 = value;
return;
case UNW_PPC_R15:
_registers.__r15 = value;
return;
case UNW_PPC_R16:
_registers.__r16 = value;
return;
case UNW_PPC_R17:
_registers.__r17 = value;
return;
case UNW_PPC_R18:
_registers.__r18 = value;
return;
case UNW_PPC_R19:
_registers.__r19 = value;
return;
case UNW_PPC_R20:
_registers.__r20 = value;
return;
case UNW_PPC_R21:
_registers.__r21 = value;
return;
case UNW_PPC_R22:
_registers.__r22 = value;
return;
case UNW_PPC_R23:
_registers.__r23 = value;
return;
case UNW_PPC_R24:
_registers.__r24 = value;
return;
case UNW_PPC_R25:
_registers.__r25 = value;
return;
case UNW_PPC_R26:
_registers.__r26 = value;
return;
case UNW_PPC_R27:
_registers.__r27 = value;
return;
case UNW_PPC_R28:
_registers.__r28 = value;
return;
case UNW_PPC_R29:
_registers.__r29 = value;
return;
case UNW_PPC_R30:
_registers.__r30 = value;
return;
case UNW_PPC_R31:
_registers.__r31 = value;
return;
case UNW_PPC_MQ:
_registers.__mq = value;
return;
case UNW_PPC_LR:
_registers.__lr = value;
return;
case UNW_PPC_CTR:
_registers.__ctr = value;
return;
case UNW_PPC_CR0:
_registers.__cr &= 0x0FFFFFFF;
_registers.__cr |= (value & 0xF0000000);
return;
case UNW_PPC_CR1:
_registers.__cr &= 0xF0FFFFFF;
_registers.__cr |= (value & 0x0F000000);
return;
case UNW_PPC_CR2:
_registers.__cr &= 0xFF0FFFFF;
_registers.__cr |= (value & 0x00F00000);
return;
case UNW_PPC_CR3:
_registers.__cr &= 0xFFF0FFFF;
_registers.__cr |= (value & 0x000F0000);
return;
case UNW_PPC_CR4:
_registers.__cr &= 0xFFFF0FFF;
_registers.__cr |= (value & 0x0000F000);
return;
case UNW_PPC_CR5:
_registers.__cr &= 0xFFFFF0FF;
_registers.__cr |= (value & 0x00000F00);
return;
case UNW_PPC_CR6:
_registers.__cr &= 0xFFFFFF0F;
_registers.__cr |= (value & 0x000000F0);
return;
case UNW_PPC_CR7:
_registers.__cr &= 0xFFFFFFF0;
_registers.__cr |= (value & 0x0000000F);
return;
case UNW_PPC_VRSAVE:
_registers.__vrsave = value;
return;
// not saved
return;
case UNW_PPC_XER:
_registers.__xer = value;
return;
case UNW_PPC_AP:
case UNW_PPC_VSCR:
case UNW_PPC_SPEFSCR:
// not saved
return;
}
_LIBUNWIND_ABORT("unsupported ppc register");
}
inline bool Registers_ppc::validFloatRegister(int regNum) const {
if (regNum < UNW_PPC_F0)
return false;
if (regNum > UNW_PPC_F31)
return false;
return true;
}
inline double Registers_ppc::getFloatRegister(int regNum) const {
assert(validFloatRegister(regNum));
return _floatRegisters.__fpregs[regNum - UNW_PPC_F0];
}
inline void Registers_ppc::setFloatRegister(int regNum, double value) {
assert(validFloatRegister(regNum));
_floatRegisters.__fpregs[regNum - UNW_PPC_F0] = value;
}
inline bool Registers_ppc::validVectorRegister(int regNum) const {
if (regNum < UNW_PPC_V0)
return false;
if (regNum > UNW_PPC_V31)
return false;
return true;
}
inline v128 Registers_ppc::getVectorRegister(int regNum) const {
assert(validVectorRegister(regNum));
v128 result = _vectorRegisters[regNum - UNW_PPC_V0];
return result;
}
inline void Registers_ppc::setVectorRegister(int regNum, v128 value) {
assert(validVectorRegister(regNum));
_vectorRegisters[regNum - UNW_PPC_V0] = value;
}
inline const char *Registers_ppc::getRegisterName(int regNum) {
switch (regNum) {
case UNW_REG_IP:
return "ip";
case UNW_REG_SP:
return "sp";
case UNW_PPC_R0:
return "r0";
case UNW_PPC_R1:
return "r1";
case UNW_PPC_R2:
return "r2";
case UNW_PPC_R3:
return "r3";
case UNW_PPC_R4:
return "r4";
case UNW_PPC_R5:
return "r5";
case UNW_PPC_R6:
return "r6";
case UNW_PPC_R7:
return "r7";
case UNW_PPC_R8:
return "r8";
case UNW_PPC_R9:
return "r9";
case UNW_PPC_R10:
return "r10";
case UNW_PPC_R11:
return "r11";
case UNW_PPC_R12:
return "r12";
case UNW_PPC_R13:
return "r13";
case UNW_PPC_R14:
return "r14";
case UNW_PPC_R15:
return "r15";
case UNW_PPC_R16:
return "r16";
case UNW_PPC_R17:
return "r17";
case UNW_PPC_R18:
return "r18";
case UNW_PPC_R19:
return "r19";
case UNW_PPC_R20:
return "r20";
case UNW_PPC_R21:
return "r21";
case UNW_PPC_R22:
return "r22";
case UNW_PPC_R23:
return "r23";
case UNW_PPC_R24:
return "r24";
case UNW_PPC_R25:
return "r25";
case UNW_PPC_R26:
return "r26";
case UNW_PPC_R27:
return "r27";
case UNW_PPC_R28:
return "r28";
case UNW_PPC_R29:
return "r29";
case UNW_PPC_R30:
return "r30";
case UNW_PPC_R31:
return "r31";
case UNW_PPC_F0:
return "fp0";
case UNW_PPC_F1:
return "fp1";
case UNW_PPC_F2:
return "fp2";
case UNW_PPC_F3:
return "fp3";
case UNW_PPC_F4:
return "fp4";
case UNW_PPC_F5:
return "fp5";
case UNW_PPC_F6:
return "fp6";
case UNW_PPC_F7:
return "fp7";
case UNW_PPC_F8:
return "fp8";
case UNW_PPC_F9:
return "fp9";
case UNW_PPC_F10:
return "fp10";
case UNW_PPC_F11:
return "fp11";
case UNW_PPC_F12:
return "fp12";
case UNW_PPC_F13:
return "fp13";
case UNW_PPC_F14:
return "fp14";
case UNW_PPC_F15:
return "fp15";
case UNW_PPC_F16:
return "fp16";
case UNW_PPC_F17:
return "fp17";
case UNW_PPC_F18:
return "fp18";
case UNW_PPC_F19:
return "fp19";
case UNW_PPC_F20:
return "fp20";
case UNW_PPC_F21:
return "fp21";
case UNW_PPC_F22:
return "fp22";
case UNW_PPC_F23:
return "fp23";
case UNW_PPC_F24:
return "fp24";
case UNW_PPC_F25:
return "fp25";
case UNW_PPC_F26:
return "fp26";
case UNW_PPC_F27:
return "fp27";
case UNW_PPC_F28:
return "fp28";
case UNW_PPC_F29:
return "fp29";
case UNW_PPC_F30:
return "fp30";
case UNW_PPC_F31:
return "fp31";
case UNW_PPC_LR:
return "lr";
default:
return "unknown register";
}
}
/// Registers_arm64 holds the register state of a thread in a 64-bit arm
/// process.
class _LIBUNWIND_HIDDEN Registers_arm64 {
public:
Registers_arm64();
Registers_arm64(const void *registers);
bool validRegister(int num) const;
uint64_t getRegister(int num) const;
void setRegister(int num, uint64_t value);
bool validFloatRegister(int num) const;
double getFloatRegister(int num) const;
void setFloatRegister(int num, double value);
bool validVectorRegister(int num) const;
v128 getVectorRegister(int num) const;
void setVectorRegister(int num, v128 value);
const char *getRegisterName(int num);
void jumpto();
static int lastDwarfRegNum() { return 95; }
uint64_t getSP() const { return _registers.__sp; }
void setSP(uint64_t value) { _registers.__sp = value; }
uint64_t getIP() const { return _registers.__pc; }
void setIP(uint64_t value) { _registers.__pc = value; }
uint64_t getFP() const { return _registers.__fp; }
void setFP(uint64_t value) { _registers.__fp = value; }
private:
struct GPRs {
uint64_t __x[29]; // x0-x28
uint64_t __fp; // Frame pointer x29
uint64_t __lr; // Link register x30
uint64_t __sp; // Stack pointer x31
uint64_t __pc; // Program counter
uint64_t padding; // 16-byte align
};
GPRs _registers;
double _vectorHalfRegisters[32];
// Currently only the lower double in 128-bit vectore registers
// is perserved during unwinding. We could define new register
// numbers (> 96) which mean whole vector registers, then this
// struct would need to change to contain whole vector registers.
};
inline Registers_arm64::Registers_arm64(const void *registers) {
static_assert(sizeof(Registers_arm64) < sizeof(unw_context_t),
"arm64 registers do not fit into unw_context_t");
memcpy(&_registers, registers, sizeof(_registers));
static_assert(sizeof(GPRs) == 0x110,
"expected VFP registers to be at offset 272");
memcpy(_vectorHalfRegisters,
static_cast<const uint8_t *>(registers) + sizeof(GPRs),
sizeof(_vectorHalfRegisters));
}
inline Registers_arm64::Registers_arm64() {
memset(&_registers, 0, sizeof(_registers));
memset(&_vectorHalfRegisters, 0, sizeof(_vectorHalfRegisters));
}
inline bool Registers_arm64::validRegister(int regNum) const {
if (regNum == UNW_REG_IP)
return true;
if (regNum == UNW_REG_SP)
return true;
if (regNum < 0)
return false;
if (regNum > 95)
return false;
if ((regNum > 31) && (regNum < 64))
return false;
return true;
}
inline uint64_t Registers_arm64::getRegister(int regNum) const {
if (regNum == UNW_REG_IP)
return _registers.__pc;
if (regNum == UNW_REG_SP)
return _registers.__sp;
if ((regNum >= 0) && (regNum < 32))
return _registers.__x[regNum];
_LIBUNWIND_ABORT("unsupported arm64 register");
}
inline void Registers_arm64::setRegister(int regNum, uint64_t value) {
if (regNum == UNW_REG_IP)
_registers.__pc = value;
else if (regNum == UNW_REG_SP)
_registers.__sp = value;
else if ((regNum >= 0) && (regNum < 32))
_registers.__x[regNum] = value;
else
_LIBUNWIND_ABORT("unsupported arm64 register");
}
inline const char *Registers_arm64::getRegisterName(int regNum) {
switch (regNum) {
case UNW_REG_IP:
return "pc";
case UNW_REG_SP:
return "sp";
case UNW_ARM64_X0:
return "x0";
case UNW_ARM64_X1:
return "x1";
case UNW_ARM64_X2:
return "x2";
case UNW_ARM64_X3:
return "x3";
case UNW_ARM64_X4:
return "x4";
case UNW_ARM64_X5:
return "x5";
case UNW_ARM64_X6:
return "x6";
case UNW_ARM64_X7:
return "x7";
case UNW_ARM64_X8:
return "x8";
case UNW_ARM64_X9:
return "x9";
case UNW_ARM64_X10:
return "x10";
case UNW_ARM64_X11:
return "x11";
case UNW_ARM64_X12:
return "x12";
case UNW_ARM64_X13:
return "x13";
case UNW_ARM64_X14:
return "x14";
case UNW_ARM64_X15:
return "x15";
case UNW_ARM64_X16:
return "x16";
case UNW_ARM64_X17:
return "x17";
case UNW_ARM64_X18:
return "x18";
case UNW_ARM64_X19:
return "x19";
case UNW_ARM64_X20:
return "x20";
case UNW_ARM64_X21:
return "x21";
case UNW_ARM64_X22:
return "x22";
case UNW_ARM64_X23:
return "x23";
case UNW_ARM64_X24:
return "x24";
case UNW_ARM64_X25:
return "x25";
case UNW_ARM64_X26:
return "x26";
case UNW_ARM64_X27:
return "x27";
case UNW_ARM64_X28:
return "x28";
case UNW_ARM64_X29:
return "fp";
case UNW_ARM64_X30:
return "lr";
case UNW_ARM64_X31:
return "sp";
case UNW_ARM64_D0:
return "d0";
case UNW_ARM64_D1:
return "d1";
case UNW_ARM64_D2:
return "d2";
case UNW_ARM64_D3:
return "d3";
case UNW_ARM64_D4:
return "d4";
case UNW_ARM64_D5:
return "d5";
case UNW_ARM64_D6:
return "d6";
case UNW_ARM64_D7:
return "d7";
case UNW_ARM64_D8:
return "d8";
case UNW_ARM64_D9:
return "d9";
case UNW_ARM64_D10:
return "d10";
case UNW_ARM64_D11:
return "d11";
case UNW_ARM64_D12:
return "d12";
case UNW_ARM64_D13:
return "d13";
case UNW_ARM64_D14:
return "d14";
case UNW_ARM64_D15:
return "d15";
case UNW_ARM64_D16:
return "d16";
case UNW_ARM64_D17:
return "d17";
case UNW_ARM64_D18:
return "d18";
case UNW_ARM64_D19:
return "d19";
case UNW_ARM64_D20:
return "d20";
case UNW_ARM64_D21:
return "d21";
case UNW_ARM64_D22:
return "d22";
case UNW_ARM64_D23:
return "d23";
case UNW_ARM64_D24:
return "d24";
case UNW_ARM64_D25:
return "d25";
case UNW_ARM64_D26:
return "d26";
case UNW_ARM64_D27:
return "d27";
case UNW_ARM64_D28:
return "d28";
case UNW_ARM64_D29:
return "d29";
case UNW_ARM64_D30:
return "d30";
case UNW_ARM64_D31:
return "d31";
default:
return "unknown register";
}
}
inline bool Registers_arm64::validFloatRegister(int regNum) const {
if (regNum < UNW_ARM64_D0)
return false;
if (regNum > UNW_ARM64_D31)
return false;
return true;
}
inline double Registers_arm64::getFloatRegister(int regNum) const {
assert(validFloatRegister(regNum));
return _vectorHalfRegisters[regNum - UNW_ARM64_D0];
}
inline void Registers_arm64::setFloatRegister(int regNum, double value) {
assert(validFloatRegister(regNum));
_vectorHalfRegisters[regNum - UNW_ARM64_D0] = value;
}
inline bool Registers_arm64::validVectorRegister(int) const {
return false;
}
inline v128 Registers_arm64::getVectorRegister(int) const {
_LIBUNWIND_ABORT("no arm64 vector register support yet");
}
inline void Registers_arm64::setVectorRegister(int, v128) {
_LIBUNWIND_ABORT("no arm64 vector register support yet");
}
/// Registers_arm holds the register state of a thread in a 32-bit arm
/// process.
///
/// NOTE: Assumes VFPv3. On ARM processors without a floating point unit,
/// this uses more memory than required.
class _LIBUNWIND_HIDDEN Registers_arm {
public:
Registers_arm();
Registers_arm(const void *registers);
bool validRegister(int num) const;
uint32_t getRegister(int num);
void setRegister(int num, uint32_t value);
bool validFloatRegister(int num) const;
unw_fpreg_t getFloatRegister(int num);
void setFloatRegister(int num, unw_fpreg_t value);
bool validVectorRegister(int num) const;
v128 getVectorRegister(int num) const;
void setVectorRegister(int num, v128 value);
const char *getRegisterName(int num);
void jumpto() {
restoreSavedFloatRegisters();
restoreCoreAndJumpTo();
}
uint32_t getSP() const { return _registers.__sp; }
void setSP(uint32_t value) { _registers.__sp = value; }
uint32_t getIP() const { return _registers.__pc; }
void setIP(uint32_t value) { _registers.__pc = value; }
void saveVFPAsX() {
assert(_use_X_for_vfp_save || !_saved_vfp_d0_d15);
_use_X_for_vfp_save = true;
}
void restoreSavedFloatRegisters() {
if (_saved_vfp_d0_d15) {
if (_use_X_for_vfp_save)
restoreVFPWithFLDMX(_vfp_d0_d15_pad);
else
restoreVFPWithFLDMD(_vfp_d0_d15_pad);
}
if (_saved_vfp_d16_d31)
restoreVFPv3(_vfp_d16_d31);
if (_saved_iwmmx)
restoreiWMMX(_iwmmx);
if (_saved_iwmmx_control)
restoreiWMMXControl(_iwmmx_control);
}
private:
struct GPRs {
uint32_t __r[13]; // r0-r12
uint32_t __sp; // Stack pointer r13
uint32_t __lr; // Link register r14
uint32_t __pc; // Program counter r15
};
static void saveVFPWithFSTMD(unw_fpreg_t*);
static void saveVFPWithFSTMX(unw_fpreg_t*);
static void saveVFPv3(unw_fpreg_t*);
static void saveiWMMX(unw_fpreg_t*);
static void saveiWMMXControl(uint32_t*);
static void restoreVFPWithFLDMD(unw_fpreg_t*);
static void restoreVFPWithFLDMX(unw_fpreg_t*);
static void restoreVFPv3(unw_fpreg_t*);
static void restoreiWMMX(unw_fpreg_t*);
static void restoreiWMMXControl(uint32_t*);
void restoreCoreAndJumpTo();
// ARM registers
GPRs _registers;
// We save floating point registers lazily because we can't know ahead of
// time which ones are used. See EHABI #4.7.
// Whether D0-D15 are saved in the FTSMX instead of FSTMD format.
//
// See EHABI #7.5 that explains how matching instruction sequences for load
// and store need to be used to correctly restore the exact register bits.
bool _use_X_for_vfp_save;
// Whether VFP D0-D15 are saved.
bool _saved_vfp_d0_d15;
// Whether VFPv3 D16-D31 are saved.
bool _saved_vfp_d16_d31;
// Whether iWMMX data registers are saved.
bool _saved_iwmmx;
// Whether iWMMX control registers are saved.
bool _saved_iwmmx_control;
// VFP registers D0-D15, + padding if saved using FSTMX
unw_fpreg_t _vfp_d0_d15_pad[17];
// VFPv3 registers D16-D31, always saved using FSTMD
unw_fpreg_t _vfp_d16_d31[16];
// iWMMX registers
unw_fpreg_t _iwmmx[16];
// iWMMX control registers
uint32_t _iwmmx_control[4];
};
inline Registers_arm::Registers_arm(const void *registers)
: _use_X_for_vfp_save(false),
_saved_vfp_d0_d15(false),
_saved_vfp_d16_d31(false),
_saved_iwmmx(false),
_saved_iwmmx_control(false) {
static_assert(sizeof(Registers_arm) < sizeof(unw_context_t),
"arm registers do not fit into unw_context_t");
// See unw_getcontext() note about data.
memcpy(&_registers, registers, sizeof(_registers));
memset(&_vfp_d0_d15_pad, 0, sizeof(_vfp_d0_d15_pad));
memset(&_vfp_d16_d31, 0, sizeof(_vfp_d16_d31));
memset(&_iwmmx, 0, sizeof(_iwmmx));
memset(&_iwmmx_control, 0, sizeof(_iwmmx_control));
}
inline Registers_arm::Registers_arm()
: _use_X_for_vfp_save(false),
_saved_vfp_d0_d15(false),
_saved_vfp_d16_d31(false),
_saved_iwmmx(false),
_saved_iwmmx_control(false) {
memset(&_registers, 0, sizeof(_registers));
memset(&_vfp_d0_d15_pad, 0, sizeof(_vfp_d0_d15_pad));
memset(&_vfp_d16_d31, 0, sizeof(_vfp_d16_d31));
memset(&_iwmmx, 0, sizeof(_iwmmx));
memset(&_iwmmx_control, 0, sizeof(_iwmmx_control));
}
inline bool Registers_arm::validRegister(int regNum) const {
// Returns true for all non-VFP registers supported by the EHABI
// virtual register set (VRS).
if (regNum == UNW_REG_IP)
return true;
if (regNum == UNW_REG_SP)
return true;
if (regNum >= UNW_ARM_R0 && regNum <= UNW_ARM_R15)
return true;
if (regNum >= UNW_ARM_WC0 && regNum <= UNW_ARM_WC3)
return true;
return false;
}
inline uint32_t Registers_arm::getRegister(int regNum) {
if (regNum == UNW_REG_SP || regNum == UNW_ARM_SP)
return _registers.__sp;
if (regNum == UNW_ARM_LR)
return _registers.__lr;
if (regNum == UNW_REG_IP || regNum == UNW_ARM_IP)
return _registers.__pc;
if (regNum >= UNW_ARM_R0 && regNum <= UNW_ARM_R12)
return _registers.__r[regNum];
if (regNum >= UNW_ARM_WC0 && regNum <= UNW_ARM_WC3) {
if (!_saved_iwmmx_control) {
_saved_iwmmx_control = true;
saveiWMMXControl(_iwmmx_control);
}
return _iwmmx_control[regNum - UNW_ARM_WC0];
}
_LIBUNWIND_ABORT("unsupported arm register");
}
inline void Registers_arm::setRegister(int regNum, uint32_t value) {
if (regNum == UNW_REG_SP || regNum == UNW_ARM_SP)
_registers.__sp = value;
else if (regNum == UNW_ARM_LR)
_registers.__lr = value;
else if (regNum == UNW_REG_IP || regNum == UNW_ARM_IP)
_registers.__pc = value;
else if (regNum >= UNW_ARM_R0 && regNum <= UNW_ARM_R12)
_registers.__r[regNum] = value;
else if (regNum >= UNW_ARM_WC0 && regNum <= UNW_ARM_WC3) {
if (!_saved_iwmmx_control) {
_saved_iwmmx_control = true;
saveiWMMXControl(_iwmmx_control);
}
_iwmmx_control[regNum - UNW_ARM_WC0] = value;
} else
_LIBUNWIND_ABORT("unsupported arm register");
}
inline const char *Registers_arm::getRegisterName(int regNum) {
switch (regNum) {
case UNW_REG_IP:
case UNW_ARM_IP: // UNW_ARM_R15 is alias
return "pc";
case UNW_ARM_LR: // UNW_ARM_R14 is alias
return "lr";
case UNW_REG_SP:
case UNW_ARM_SP: // UNW_ARM_R13 is alias
return "sp";
case UNW_ARM_R0:
return "r0";
case UNW_ARM_R1:
return "r1";
case UNW_ARM_R2:
return "r2";
case UNW_ARM_R3:
return "r3";
case UNW_ARM_R4:
return "r4";
case UNW_ARM_R5:
return "r5";
case UNW_ARM_R6:
return "r6";
case UNW_ARM_R7:
return "r7";
case UNW_ARM_R8:
return "r8";
case UNW_ARM_R9:
return "r9";
case UNW_ARM_R10:
return "r10";
case UNW_ARM_R11:
return "r11";
case UNW_ARM_R12:
return "r12";
case UNW_ARM_S0:
return "s0";
case UNW_ARM_S1:
return "s1";
case UNW_ARM_S2:
return "s2";
case UNW_ARM_S3:
return "s3";
case UNW_ARM_S4:
return "s4";
case UNW_ARM_S5:
return "s5";
case UNW_ARM_S6:
return "s6";
case UNW_ARM_S7:
return "s7";
case UNW_ARM_S8:
return "s8";
case UNW_ARM_S9:
return "s9";
case UNW_ARM_S10:
return "s10";
case UNW_ARM_S11:
return "s11";
case UNW_ARM_S12:
return "s12";
case UNW_ARM_S13:
return "s13";
case UNW_ARM_S14:
return "s14";
case UNW_ARM_S15:
return "s15";
case UNW_ARM_S16:
return "s16";
case UNW_ARM_S17:
return "s17";
case UNW_ARM_S18:
return "s18";
case UNW_ARM_S19:
return "s19";
case UNW_ARM_S20:
return "s20";
case UNW_ARM_S21:
return "s21";
case UNW_ARM_S22:
return "s22";
case UNW_ARM_S23:
return "s23";
case UNW_ARM_S24:
return "s24";
case UNW_ARM_S25:
return "s25";
case UNW_ARM_S26:
return "s26";
case UNW_ARM_S27:
return "s27";
case UNW_ARM_S28:
return "s28";
case UNW_ARM_S29:
return "s29";
case UNW_ARM_S30:
return "s30";
case UNW_ARM_S31:
return "s31";
case UNW_ARM_D0:
return "d0";
case UNW_ARM_D1:
return "d1";
case UNW_ARM_D2:
return "d2";
case UNW_ARM_D3:
return "d3";
case UNW_ARM_D4:
return "d4";
case UNW_ARM_D5:
return "d5";
case UNW_ARM_D6:
return "d6";
case UNW_ARM_D7:
return "d7";
case UNW_ARM_D8:
return "d8";
case UNW_ARM_D9:
return "d9";
case UNW_ARM_D10:
return "d10";
case UNW_ARM_D11:
return "d11";
case UNW_ARM_D12:
return "d12";
case UNW_ARM_D13:
return "d13";
case UNW_ARM_D14:
return "d14";
case UNW_ARM_D15:
return "d15";
case UNW_ARM_D16:
return "d16";
case UNW_ARM_D17:
return "d17";
case UNW_ARM_D18:
return "d18";
case UNW_ARM_D19:
return "d19";
case UNW_ARM_D20:
return "d20";
case UNW_ARM_D21:
return "d21";
case UNW_ARM_D22:
return "d22";
case UNW_ARM_D23:
return "d23";
case UNW_ARM_D24:
return "d24";
case UNW_ARM_D25:
return "d25";
case UNW_ARM_D26:
return "d26";
case UNW_ARM_D27:
return "d27";
case UNW_ARM_D28:
return "d28";
case UNW_ARM_D29:
return "d29";
case UNW_ARM_D30:
return "d30";
case UNW_ARM_D31:
return "d31";
default:
return "unknown register";
}
}
inline bool Registers_arm::validFloatRegister(int regNum) const {
// NOTE: Consider the intel MMX registers floating points so the
// unw_get_fpreg can be used to transmit the 64-bit data back.
return ((regNum >= UNW_ARM_D0) && (regNum <= UNW_ARM_D31))
|| ((regNum >= UNW_ARM_WR0) && (regNum <= UNW_ARM_WR15));
}
inline unw_fpreg_t Registers_arm::getFloatRegister(int regNum) {
if (regNum >= UNW_ARM_D0 && regNum <= UNW_ARM_D15) {
if (!_saved_vfp_d0_d15) {
_saved_vfp_d0_d15 = true;
if (_use_X_for_vfp_save)
saveVFPWithFSTMX(_vfp_d0_d15_pad);
else
saveVFPWithFSTMD(_vfp_d0_d15_pad);
}
return _vfp_d0_d15_pad[regNum - UNW_ARM_D0];
} else if (regNum >= UNW_ARM_D16 && regNum <= UNW_ARM_D31) {
if (!_saved_vfp_d16_d31) {
_saved_vfp_d16_d31 = true;
saveVFPv3(_vfp_d16_d31);
}
return _vfp_d16_d31[regNum - UNW_ARM_D16];
} else if (regNum >= UNW_ARM_WR0 && regNum <= UNW_ARM_WR15) {
if (!_saved_iwmmx) {
_saved_iwmmx = true;
saveiWMMX(_iwmmx);
}
return _iwmmx[regNum - UNW_ARM_WR0];
} else {
_LIBUNWIND_ABORT("Unknown ARM float register");
}
}
inline void Registers_arm::setFloatRegister(int regNum, unw_fpreg_t value) {
if (regNum >= UNW_ARM_D0 && regNum <= UNW_ARM_D15) {
if (!_saved_vfp_d0_d15) {
_saved_vfp_d0_d15 = true;
if (_use_X_for_vfp_save)
saveVFPWithFSTMX(_vfp_d0_d15_pad);
else
saveVFPWithFSTMD(_vfp_d0_d15_pad);
}
_vfp_d0_d15_pad[regNum - UNW_ARM_D0] = value;
} else if (regNum >= UNW_ARM_D16 && regNum <= UNW_ARM_D31) {
if (!_saved_vfp_d16_d31) {
_saved_vfp_d16_d31 = true;
saveVFPv3(_vfp_d16_d31);
}
_vfp_d16_d31[regNum - UNW_ARM_D16] = value;
} else if (regNum >= UNW_ARM_WR0 && regNum <= UNW_ARM_WR15) {
if (!_saved_iwmmx) {
_saved_iwmmx = true;
saveiWMMX(_iwmmx);
}
_iwmmx[regNum - UNW_ARM_WR0] = value;
} else {
_LIBUNWIND_ABORT("Unknown ARM float register");
}
}
inline bool Registers_arm::validVectorRegister(int) const {
return false;
}
inline v128 Registers_arm::getVectorRegister(int) const {
_LIBUNWIND_ABORT("ARM vector support not implemented");
}
inline void Registers_arm::setVectorRegister(int, v128) {
_LIBUNWIND_ABORT("ARM vector support not implemented");
}
/// Registers_or1k holds the register state of a thread in an OpenRISC1000
/// process.
class _LIBUNWIND_HIDDEN Registers_or1k {
public:
Registers_or1k();
Registers_or1k(const void *registers);
bool validRegister(int num) const;
uint32_t getRegister(int num) const;
void setRegister(int num, uint32_t value);
bool validFloatRegister(int num) const;
double getFloatRegister(int num) const;
void setFloatRegister(int num, double value);
bool validVectorRegister(int num) const;
v128 getVectorRegister(int num) const;
void setVectorRegister(int num, v128 value);
const char *getRegisterName(int num);
void jumpto();
static int lastDwarfRegNum() { return 31; }
uint64_t getSP() const { return _registers.__r[1]; }
void setSP(uint32_t value) { _registers.__r[1] = value; }
uint64_t getIP() const { return _registers.__r[9]; }
void setIP(uint32_t value) { _registers.__r[9] = value; }
private:
struct or1k_thread_state_t {
unsigned int __r[32];
};
or1k_thread_state_t _registers;
};
inline Registers_or1k::Registers_or1k(const void *registers) {
static_assert(sizeof(Registers_or1k) < sizeof(unw_context_t),
"or1k registers do not fit into unw_context_t");
memcpy(&_registers, static_cast<const uint8_t *>(registers),
sizeof(_registers));
}
inline Registers_or1k::Registers_or1k() {
memset(&_registers, 0, sizeof(_registers));
}
inline bool Registers_or1k::validRegister(int regNum) const {
if (regNum == UNW_REG_IP)
return true;
if (regNum == UNW_REG_SP)
return true;
if (regNum < 0)
return false;
if (regNum <= UNW_OR1K_R31)
return true;
return false;
}
inline uint32_t Registers_or1k::getRegister(int regNum) const {
if (regNum >= UNW_OR1K_R0 && regNum <= UNW_OR1K_R31)
return _registers.__r[regNum - UNW_OR1K_R0];
switch (regNum) {
case UNW_REG_IP:
return _registers.__r[9];
case UNW_REG_SP:
return _registers.__r[1];
}
_LIBUNWIND_ABORT("unsupported or1k register");
}
inline void Registers_or1k::setRegister(int regNum, uint32_t value) {
if (regNum >= UNW_OR1K_R0 && regNum <= UNW_OR1K_R31) {
_registers.__r[regNum - UNW_OR1K_R0] = value;
return;
}
switch (regNum) {
case UNW_REG_IP:
_registers.__r[9] = value;
return;
case UNW_REG_SP:
_registers.__r[1] = value;
return;
}
_LIBUNWIND_ABORT("unsupported or1k register");
}
inline bool Registers_or1k::validFloatRegister(int /* regNum */) const {
return false;
}
inline double Registers_or1k::getFloatRegister(int /* regNum */) const {
_LIBUNWIND_ABORT("or1k float support not implemented");
}
inline void Registers_or1k::setFloatRegister(int /* regNum */,
double /* value */) {
_LIBUNWIND_ABORT("or1k float support not implemented");
}
inline bool Registers_or1k::validVectorRegister(int /* regNum */) const {
return false;
}
inline v128 Registers_or1k::getVectorRegister(int /* regNum */) const {
_LIBUNWIND_ABORT("or1k vector support not implemented");
}
inline void Registers_or1k::setVectorRegister(int /* regNum */, v128 /* value */) {
_LIBUNWIND_ABORT("or1k vector support not implemented");
}
inline const char *Registers_or1k::getRegisterName(int regNum) {
switch (regNum) {
case UNW_OR1K_R0:
return "r0";
case UNW_OR1K_R1:
return "r1";
case UNW_OR1K_R2:
return "r2";
case UNW_OR1K_R3:
return "r3";
case UNW_OR1K_R4:
return "r4";
case UNW_OR1K_R5:
return "r5";
case UNW_OR1K_R6:
return "r6";
case UNW_OR1K_R7:
return "r7";
case UNW_OR1K_R8:
return "r8";
case UNW_OR1K_R9:
return "r9";
case UNW_OR1K_R10:
return "r10";
case UNW_OR1K_R11:
return "r11";
case UNW_OR1K_R12:
return "r12";
case UNW_OR1K_R13:
return "r13";
case UNW_OR1K_R14:
return "r14";
case UNW_OR1K_R15:
return "r15";
case UNW_OR1K_R16:
return "r16";
case UNW_OR1K_R17:
return "r17";
case UNW_OR1K_R18:
return "r18";
case UNW_OR1K_R19:
return "r19";
case UNW_OR1K_R20:
return "r20";
case UNW_OR1K_R21:
return "r21";
case UNW_OR1K_R22:
return "r22";
case UNW_OR1K_R23:
return "r23";
case UNW_OR1K_R24:
return "r24";
case UNW_OR1K_R25:
return "r25";
case UNW_OR1K_R26:
return "r26";
case UNW_OR1K_R27:
return "r27";
case UNW_OR1K_R28:
return "r28";
case UNW_OR1K_R29:
return "r29";
case UNW_OR1K_R30:
return "r30";
case UNW_OR1K_R31:
return "r31";
default:
return "unknown register";
}
}
} // namespace libunwind
#endif // __REGISTERS_HPP__
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