DNBArchImplX86_64.h
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//===-- DNBArchImplX86_64.h -------------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// Created by Greg Clayton on 6/25/07.
//
//===----------------------------------------------------------------------===//
#ifndef LLDB_TOOLS_DEBUGSERVER_SOURCE_MACOSX_X86_64_DNBARCHIMPLX86_64_H
#define LLDB_TOOLS_DEBUGSERVER_SOURCE_MACOSX_X86_64_DNBARCHIMPLX86_64_H
#if defined(__i386__) || defined(__x86_64__)
#include "DNBArch.h"
#include "MachRegisterStatesX86_64.h"
#include <map>
class MachThread;
class DNBArchImplX86_64 : public DNBArchProtocol {
public:
DNBArchImplX86_64(MachThread *thread)
: DNBArchProtocol(), m_thread(thread), m_state(), m_2pc_dbg_checkpoint(),
m_2pc_trans_state(Trans_Done), m_saved_register_states() {}
virtual ~DNBArchImplX86_64() {}
static void Initialize();
virtual bool GetRegisterValue(uint32_t set, uint32_t reg,
DNBRegisterValue *value);
virtual bool SetRegisterValue(uint32_t set, uint32_t reg,
const DNBRegisterValue *value);
virtual nub_size_t GetRegisterContext(void *buf, nub_size_t buf_len);
virtual nub_size_t SetRegisterContext(const void *buf, nub_size_t buf_len);
virtual uint32_t SaveRegisterState();
virtual bool RestoreRegisterState(uint32_t save_id);
virtual kern_return_t GetRegisterState(int set, bool force);
virtual kern_return_t SetRegisterState(int set);
virtual bool RegisterSetStateIsValid(int set) const;
virtual uint64_t GetPC(uint64_t failValue); // Get program counter
virtual kern_return_t SetPC(uint64_t value);
virtual uint64_t GetSP(uint64_t failValue); // Get stack pointer
virtual void ThreadWillResume();
virtual bool ThreadDidStop();
virtual bool NotifyException(MachException::Data &exc);
virtual uint32_t NumSupportedHardwareBreakpoints();
virtual uint32_t NumSupportedHardwareWatchpoints();
virtual uint32_t EnableHardwareBreakpoint(nub_addr_t addr, nub_size_t size,
bool also_set_on_task);
virtual bool DisableHardwareBreakpoint(uint32_t hw_break_index,
bool also_set_on_task);
virtual uint32_t EnableHardwareWatchpoint(nub_addr_t addr, nub_size_t size,
bool read, bool write,
bool also_set_on_task);
virtual bool DisableHardwareWatchpoint(uint32_t hw_break_index,
bool also_set_on_task);
virtual uint32_t GetHardwareWatchpointHit(nub_addr_t &addr);
protected:
kern_return_t EnableHardwareSingleStep(bool enable);
typedef __x86_64_thread_state_t GPR;
typedef __x86_64_float_state_t FPU;
typedef __x86_64_exception_state_t EXC;
typedef __x86_64_avx_state_t AVX;
typedef __x86_64_debug_state_t DBG;
static const DNBRegisterInfo g_gpr_registers[];
static const DNBRegisterInfo g_fpu_registers_no_avx[];
static const DNBRegisterInfo g_fpu_registers_avx[];
static const DNBRegisterInfo g_exc_registers[];
static const DNBRegisterSetInfo g_reg_sets_no_avx[];
static const DNBRegisterSetInfo g_reg_sets_avx[];
static const size_t k_num_gpr_registers;
static const size_t k_num_fpu_registers_no_avx;
static const size_t k_num_fpu_registers_avx;
static const size_t k_num_exc_registers;
static const size_t k_num_all_registers_no_avx;
static const size_t k_num_all_registers_avx;
static const size_t k_num_register_sets;
typedef __x86_64_avx512f_state_t AVX512F;
static const DNBRegisterInfo g_fpu_registers_avx512f[];
static const DNBRegisterSetInfo g_reg_sets_avx512f[];
static const size_t k_num_fpu_registers_avx512f;
static const size_t k_num_all_registers_avx512f;
enum RegisterSet {
e_regSetALL = REGISTER_SET_ALL,
e_regSetGPR,
e_regSetFPU,
e_regSetEXC,
e_regSetDBG,
kNumRegisterSets
};
enum RegisterSetWordSize {
e_regSetWordSizeGPR = sizeof(GPR) / sizeof(int),
e_regSetWordSizeFPU = sizeof(FPU) / sizeof(int),
e_regSetWordSizeEXC = sizeof(EXC) / sizeof(int),
e_regSetWordSizeAVX = sizeof(AVX) / sizeof(int),
e_regSetWordSizeAVX512f = sizeof(AVX512F) / sizeof(int),
e_regSetWordSizeDBG = sizeof(DBG) / sizeof(int)
};
enum { Read = 0, Write = 1, kNumErrors = 2 };
struct Context {
GPR gpr;
union {
FPU no_avx;
AVX avx;
AVX512F avx512f;
} fpu;
EXC exc;
DBG dbg;
};
struct State {
Context context;
kern_return_t gpr_errs[2]; // Read/Write errors
kern_return_t fpu_errs[2]; // Read/Write errors
kern_return_t exc_errs[2]; // Read/Write errors
kern_return_t dbg_errs[2]; // Read/Write errors
State() {
uint32_t i;
for (i = 0; i < kNumErrors; i++) {
gpr_errs[i] = -1;
fpu_errs[i] = -1;
exc_errs[i] = -1;
dbg_errs[i] = -1;
}
}
void InvalidateAllRegisterStates() { SetError(e_regSetALL, Read, -1); }
kern_return_t GetError(int flavor, uint32_t err_idx) const {
if (err_idx < kNumErrors) {
switch (flavor) {
// When getting all errors, just OR all values together to see if
// we got any kind of error.
case e_regSetALL:
return gpr_errs[err_idx] | fpu_errs[err_idx] | exc_errs[err_idx];
case e_regSetGPR:
return gpr_errs[err_idx];
case e_regSetFPU:
return fpu_errs[err_idx];
case e_regSetEXC:
return exc_errs[err_idx];
case e_regSetDBG:
return dbg_errs[err_idx];
default:
break;
}
}
return -1;
}
bool SetError(int flavor, uint32_t err_idx, kern_return_t err) {
if (err_idx < kNumErrors) {
switch (flavor) {
case e_regSetALL:
gpr_errs[err_idx] = fpu_errs[err_idx] = exc_errs[err_idx] =
dbg_errs[err_idx] = err;
return true;
case e_regSetGPR:
gpr_errs[err_idx] = err;
return true;
case e_regSetFPU:
fpu_errs[err_idx] = err;
return true;
case e_regSetEXC:
exc_errs[err_idx] = err;
return true;
case e_regSetDBG:
dbg_errs[err_idx] = err;
return true;
default:
break;
}
}
return false;
}
bool RegsAreValid(int flavor) const {
return GetError(flavor, Read) == KERN_SUCCESS;
}
};
kern_return_t GetGPRState(bool force);
kern_return_t GetFPUState(bool force);
kern_return_t GetEXCState(bool force);
kern_return_t GetDBGState(bool force);
kern_return_t SetGPRState();
kern_return_t SetFPUState();
kern_return_t SetEXCState();
kern_return_t SetDBGState(bool also_set_on_task);
static DNBArchProtocol *Create(MachThread *thread);
static const uint8_t *SoftwareBreakpointOpcode(nub_size_t byte_size);
static const DNBRegisterSetInfo *GetRegisterSetInfo(nub_size_t *num_reg_sets);
static uint32_t GetRegisterContextSize();
static void SetHardwareBreakpoint(DBG &debug_state, uint32_t hw_index,
nub_addr_t addr, nub_size_t size);
// Helper functions for watchpoint manipulations.
static void SetWatchpoint(DBG &debug_state, uint32_t hw_index,
nub_addr_t addr, nub_size_t size, bool read,
bool write);
static void ClearWatchpoint(DBG &debug_state, uint32_t hw_index);
static bool IsWatchpointVacant(const DBG &debug_state, uint32_t hw_index);
static void ClearWatchpointHits(DBG &debug_state);
static bool IsWatchpointHit(const DBG &debug_state, uint32_t hw_index);
static nub_addr_t GetWatchAddress(const DBG &debug_state, uint32_t hw_index);
virtual bool StartTransForHWP();
virtual bool RollbackTransForHWP();
virtual bool FinishTransForHWP();
DBG GetDBGCheckpoint();
MachThread *m_thread;
State m_state;
DBG m_2pc_dbg_checkpoint;
uint32_t m_2pc_trans_state; // Is transaction of DBG state change: Pedning
// (0), Done (1), or Rolled Back (2)?
typedef std::map<uint32_t, Context> SaveRegisterStates;
SaveRegisterStates m_saved_register_states;
};
#endif // #if defined (__i386__) || defined (__x86_64__)
#endif // LLDB_TOOLS_DEBUGSERVER_SOURCE_MACOSX_X86_64_DNBARCHIMPLX86_64_H