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| //===-- RegisterContextDarwin_arm64.cpp ---------------------------*- 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
//
//===----------------------------------------------------------------------===//
#include "RegisterContextDarwin_arm64.h"
#include "RegisterContextDarwinConstants.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/Thread.h"
#include "lldb/Utility/DataBufferHeap.h"
#include "lldb/Utility/DataExtractor.h"
#include "lldb/Utility/Endian.h"
#include "lldb/Utility/Log.h"
#include "lldb/Utility/RegisterValue.h"
#include "lldb/Utility/Scalar.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/Support/Compiler.h"
#include "Plugins/Process/Utility/InstructionUtils.h"
#include <memory>
#if defined(__APPLE__) && (defined(__arm64__) || defined(__aarch64__))
#include <sys/types.h>
#include <sys/sysctl.h>
#endif
// Support building against older versions of LLVM, this macro was added
// recently.
#ifndef LLVM_EXTENSION
#define LLVM_EXTENSION
#endif
#include "Utility/ARM64_DWARF_Registers.h"
using namespace lldb;
using namespace lldb_private;
#define GPR_OFFSET(idx) ((idx)*8)
#define GPR_OFFSET_NAME(reg) \
(LLVM_EXTENSION offsetof(RegisterContextDarwin_arm64::GPR, reg))
#define FPU_OFFSET(idx) ((idx)*16 + sizeof(RegisterContextDarwin_arm64::GPR))
#define FPU_OFFSET_NAME(reg) \
(LLVM_EXTENSION offsetof(RegisterContextDarwin_arm64::FPU, reg))
#define EXC_OFFSET_NAME(reg) \
(LLVM_EXTENSION offsetof(RegisterContextDarwin_arm64::EXC, reg) + \
sizeof(RegisterContextDarwin_arm64::GPR) + \
sizeof(RegisterContextDarwin_arm64::FPU))
#define DBG_OFFSET_NAME(reg) \
(LLVM_EXTENSION offsetof(RegisterContextDarwin_arm64::DBG, reg) + \
sizeof(RegisterContextDarwin_arm64::GPR) + \
sizeof(RegisterContextDarwin_arm64::FPU) + \
sizeof(RegisterContextDarwin_arm64::EXC))
#define DEFINE_DBG(reg, i) \
#reg, NULL, \
sizeof(((RegisterContextDarwin_arm64::DBG *) NULL)->reg[i]), \
DBG_OFFSET_NAME(reg[i]), eEncodingUint, eFormatHex, \
{LLDB_INVALID_REGNUM, LLDB_INVALID_REGNUM, \
LLDB_INVALID_REGNUM, LLDB_INVALID_REGNUM, \
LLDB_INVALID_REGNUM }, \
NULL, NULL, NULL, 0
#define REG_CONTEXT_SIZE \
(sizeof(RegisterContextDarwin_arm64::GPR) + \
sizeof(RegisterContextDarwin_arm64::FPU) + \
sizeof(RegisterContextDarwin_arm64::EXC))
// Include RegisterInfos_arm64 to declare our g_register_infos_arm64 structure.
#define DECLARE_REGISTER_INFOS_ARM64_STRUCT
#include "RegisterInfos_arm64.h"
#undef DECLARE_REGISTER_INFOS_ARM64_STRUCT
// General purpose registers
static uint32_t g_gpr_regnums[] = {
gpr_x0, gpr_x1, gpr_x2, gpr_x3, gpr_x4, gpr_x5, gpr_x6,
gpr_x7, gpr_x8, gpr_x9, gpr_x10, gpr_x11, gpr_x12, gpr_x13,
gpr_x14, gpr_x15, gpr_x16, gpr_x17, gpr_x18, gpr_x19, gpr_x20,
gpr_x21, gpr_x22, gpr_x23, gpr_x24, gpr_x25, gpr_x26, gpr_x27,
gpr_x28, gpr_fp, gpr_lr, gpr_sp, gpr_pc, gpr_cpsr};
// Floating point registers
static uint32_t g_fpu_regnums[] = {
fpu_v0, fpu_v1, fpu_v2, fpu_v3, fpu_v4, fpu_v5, fpu_v6,
fpu_v7, fpu_v8, fpu_v9, fpu_v10, fpu_v11, fpu_v12, fpu_v13,
fpu_v14, fpu_v15, fpu_v16, fpu_v17, fpu_v18, fpu_v19, fpu_v20,
fpu_v21, fpu_v22, fpu_v23, fpu_v24, fpu_v25, fpu_v26, fpu_v27,
fpu_v28, fpu_v29, fpu_v30, fpu_v31, fpu_fpsr, fpu_fpcr};
// Exception registers
static uint32_t g_exc_regnums[] = {exc_far, exc_esr, exc_exception};
static size_t k_num_register_infos =
llvm::array_lengthof(g_register_infos_arm64_le);
RegisterContextDarwin_arm64::RegisterContextDarwin_arm64(
Thread &thread, uint32_t concrete_frame_idx)
: RegisterContext(thread, concrete_frame_idx), gpr(), fpu(), exc() {
uint32_t i;
for (i = 0; i < kNumErrors; i++) {
gpr_errs[i] = -1;
fpu_errs[i] = -1;
exc_errs[i] = -1;
}
}
RegisterContextDarwin_arm64::~RegisterContextDarwin_arm64() {}
void RegisterContextDarwin_arm64::InvalidateAllRegisters() {
InvalidateAllRegisterStates();
}
size_t RegisterContextDarwin_arm64::GetRegisterCount() {
assert(k_num_register_infos == k_num_registers);
return k_num_registers;
}
const RegisterInfo *
RegisterContextDarwin_arm64::GetRegisterInfoAtIndex(size_t reg) {
assert(k_num_register_infos == k_num_registers);
if (reg < k_num_registers)
return &g_register_infos_arm64_le[reg];
return nullptr;
}
size_t RegisterContextDarwin_arm64::GetRegisterInfosCount() {
return k_num_register_infos;
}
const RegisterInfo *RegisterContextDarwin_arm64::GetRegisterInfos() {
return g_register_infos_arm64_le;
}
// Number of registers in each register set
const size_t k_num_gpr_registers = llvm::array_lengthof(g_gpr_regnums);
const size_t k_num_fpu_registers = llvm::array_lengthof(g_fpu_regnums);
const size_t k_num_exc_registers = llvm::array_lengthof(g_exc_regnums);
// Register set definitions. The first definitions at register set index of
// zero is for all registers, followed by other registers sets. The register
// information for the all register set need not be filled in.
static const RegisterSet g_reg_sets[] = {
{
"General Purpose Registers", "gpr", k_num_gpr_registers, g_gpr_regnums,
},
{"Floating Point Registers", "fpu", k_num_fpu_registers, g_fpu_regnums},
{"Exception State Registers", "exc", k_num_exc_registers, g_exc_regnums}};
const size_t k_num_regsets = llvm::array_lengthof(g_reg_sets);
size_t RegisterContextDarwin_arm64::GetRegisterSetCount() {
return k_num_regsets;
}
const RegisterSet *RegisterContextDarwin_arm64::GetRegisterSet(size_t reg_set) {
if (reg_set < k_num_regsets)
return &g_reg_sets[reg_set];
return nullptr;
}
// Register information definitions for arm64
int RegisterContextDarwin_arm64::GetSetForNativeRegNum(int reg) {
if (reg < fpu_v0)
return GPRRegSet;
else if (reg < exc_far)
return FPURegSet;
else if (reg < k_num_registers)
return EXCRegSet;
return -1;
}
int RegisterContextDarwin_arm64::ReadGPR(bool force) {
int set = GPRRegSet;
if (force || !RegisterSetIsCached(set)) {
SetError(set, Read, DoReadGPR(GetThreadID(), set, gpr));
}
return GetError(GPRRegSet, Read);
}
int RegisterContextDarwin_arm64::ReadFPU(bool force) {
int set = FPURegSet;
if (force || !RegisterSetIsCached(set)) {
SetError(set, Read, DoReadFPU(GetThreadID(), set, fpu));
}
return GetError(FPURegSet, Read);
}
int RegisterContextDarwin_arm64::ReadEXC(bool force) {
int set = EXCRegSet;
if (force || !RegisterSetIsCached(set)) {
SetError(set, Read, DoReadEXC(GetThreadID(), set, exc));
}
return GetError(EXCRegSet, Read);
}
int RegisterContextDarwin_arm64::ReadDBG(bool force) {
int set = DBGRegSet;
if (force || !RegisterSetIsCached(set)) {
SetError(set, Read, DoReadDBG(GetThreadID(), set, dbg));
}
return GetError(DBGRegSet, Read);
}
int RegisterContextDarwin_arm64::WriteGPR() {
int set = GPRRegSet;
if (!RegisterSetIsCached(set)) {
SetError(set, Write, -1);
return KERN_INVALID_ARGUMENT;
}
SetError(set, Write, DoWriteGPR(GetThreadID(), set, gpr));
SetError(set, Read, -1);
return GetError(GPRRegSet, Write);
}
int RegisterContextDarwin_arm64::WriteFPU() {
int set = FPURegSet;
if (!RegisterSetIsCached(set)) {
SetError(set, Write, -1);
return KERN_INVALID_ARGUMENT;
}
SetError(set, Write, DoWriteFPU(GetThreadID(), set, fpu));
SetError(set, Read, -1);
return GetError(FPURegSet, Write);
}
int RegisterContextDarwin_arm64::WriteEXC() {
int set = EXCRegSet;
if (!RegisterSetIsCached(set)) {
SetError(set, Write, -1);
return KERN_INVALID_ARGUMENT;
}
SetError(set, Write, DoWriteEXC(GetThreadID(), set, exc));
SetError(set, Read, -1);
return GetError(EXCRegSet, Write);
}
int RegisterContextDarwin_arm64::WriteDBG() {
int set = DBGRegSet;
if (!RegisterSetIsCached(set)) {
SetError(set, Write, -1);
return KERN_INVALID_ARGUMENT;
}
SetError(set, Write, DoWriteDBG(GetThreadID(), set, dbg));
SetError(set, Read, -1);
return GetError(DBGRegSet, Write);
}
int RegisterContextDarwin_arm64::ReadRegisterSet(uint32_t set, bool force) {
switch (set) {
case GPRRegSet:
return ReadGPR(force);
case FPURegSet:
return ReadFPU(force);
case EXCRegSet:
return ReadEXC(force);
case DBGRegSet:
return ReadDBG(force);
default:
break;
}
return KERN_INVALID_ARGUMENT;
}
int RegisterContextDarwin_arm64::WriteRegisterSet(uint32_t set) {
// Make sure we have a valid context to set.
if (RegisterSetIsCached(set)) {
switch (set) {
case GPRRegSet:
return WriteGPR();
case FPURegSet:
return WriteFPU();
case EXCRegSet:
return WriteEXC();
case DBGRegSet:
return WriteDBG();
default:
break;
}
}
return KERN_INVALID_ARGUMENT;
}
void RegisterContextDarwin_arm64::LogDBGRegisters(Log *log, const DBG &dbg) {
if (log) {
for (uint32_t i = 0; i < 16; i++)
LLDB_LOGF(log,
"BVR%-2u/BCR%-2u = { 0x%8.8" PRIu64 ", 0x%8.8" PRIu64
" } WVR%-2u/WCR%-2u "
"= { 0x%8.8" PRIu64 ", 0x%8.8" PRIu64 " }",
i, i, dbg.bvr[i], dbg.bcr[i], i, i, dbg.wvr[i], dbg.wcr[i]);
}
}
bool RegisterContextDarwin_arm64::ReadRegister(const RegisterInfo *reg_info,
RegisterValue &value) {
const uint32_t reg = reg_info->kinds[eRegisterKindLLDB];
int set = RegisterContextDarwin_arm64::GetSetForNativeRegNum(reg);
if (set == -1)
return false;
if (ReadRegisterSet(set, false) != KERN_SUCCESS)
return false;
switch (reg) {
case gpr_x0:
case gpr_x1:
case gpr_x2:
case gpr_x3:
case gpr_x4:
case gpr_x5:
case gpr_x6:
case gpr_x7:
case gpr_x8:
case gpr_x9:
case gpr_x10:
case gpr_x11:
case gpr_x12:
case gpr_x13:
case gpr_x14:
case gpr_x15:
case gpr_x16:
case gpr_x17:
case gpr_x18:
case gpr_x19:
case gpr_x20:
case gpr_x21:
case gpr_x22:
case gpr_x23:
case gpr_x24:
case gpr_x25:
case gpr_x26:
case gpr_x27:
case gpr_x28:
value.SetUInt64(gpr.x[reg - gpr_x0]);
break;
case gpr_fp:
value.SetUInt64(gpr.fp);
break;
case gpr_sp:
value.SetUInt64(gpr.sp);
break;
case gpr_lr:
value.SetUInt64(gpr.lr);
break;
case gpr_pc:
value.SetUInt64(gpr.pc);
break;
case gpr_cpsr:
value.SetUInt64(gpr.cpsr);
break;
case gpr_w0:
case gpr_w1:
case gpr_w2:
case gpr_w3:
case gpr_w4:
case gpr_w5:
case gpr_w6:
case gpr_w7:
case gpr_w8:
case gpr_w9:
case gpr_w10:
case gpr_w11:
case gpr_w12:
case gpr_w13:
case gpr_w14:
case gpr_w15:
case gpr_w16:
case gpr_w17:
case gpr_w18:
case gpr_w19:
case gpr_w20:
case gpr_w21:
case gpr_w22:
case gpr_w23:
case gpr_w24:
case gpr_w25:
case gpr_w26:
case gpr_w27:
case gpr_w28: {
ProcessSP process_sp(m_thread.GetProcess());
if (process_sp.get()) {
DataExtractor regdata(&gpr.x[reg - gpr_w0], 8, process_sp->GetByteOrder(),
process_sp->GetAddressByteSize());
offset_t offset = 0;
uint64_t retval = regdata.GetMaxU64(&offset, 8);
uint32_t retval_lower32 = static_cast<uint32_t>(retval & 0xffffffff);
value.SetUInt32(retval_lower32);
}
} break;
case fpu_v0:
case fpu_v1:
case fpu_v2:
case fpu_v3:
case fpu_v4:
case fpu_v5:
case fpu_v6:
case fpu_v7:
case fpu_v8:
case fpu_v9:
case fpu_v10:
case fpu_v11:
case fpu_v12:
case fpu_v13:
case fpu_v14:
case fpu_v15:
case fpu_v16:
case fpu_v17:
case fpu_v18:
case fpu_v19:
case fpu_v20:
case fpu_v21:
case fpu_v22:
case fpu_v23:
case fpu_v24:
case fpu_v25:
case fpu_v26:
case fpu_v27:
case fpu_v28:
case fpu_v29:
case fpu_v30:
case fpu_v31:
value.SetBytes(fpu.v[reg - fpu_v0].bytes, reg_info->byte_size,
endian::InlHostByteOrder());
break;
case fpu_s0:
case fpu_s1:
case fpu_s2:
case fpu_s3:
case fpu_s4:
case fpu_s5:
case fpu_s6:
case fpu_s7:
case fpu_s8:
case fpu_s9:
case fpu_s10:
case fpu_s11:
case fpu_s12:
case fpu_s13:
case fpu_s14:
case fpu_s15:
case fpu_s16:
case fpu_s17:
case fpu_s18:
case fpu_s19:
case fpu_s20:
case fpu_s21:
case fpu_s22:
case fpu_s23:
case fpu_s24:
case fpu_s25:
case fpu_s26:
case fpu_s27:
case fpu_s28:
case fpu_s29:
case fpu_s30:
case fpu_s31: {
ProcessSP process_sp(m_thread.GetProcess());
if (process_sp.get()) {
DataExtractor regdata(&fpu.v[reg - fpu_s0], 4, process_sp->GetByteOrder(),
process_sp->GetAddressByteSize());
offset_t offset = 0;
value.SetFloat(regdata.GetFloat(&offset));
}
} break;
case fpu_d0:
case fpu_d1:
case fpu_d2:
case fpu_d3:
case fpu_d4:
case fpu_d5:
case fpu_d6:
case fpu_d7:
case fpu_d8:
case fpu_d9:
case fpu_d10:
case fpu_d11:
case fpu_d12:
case fpu_d13:
case fpu_d14:
case fpu_d15:
case fpu_d16:
case fpu_d17:
case fpu_d18:
case fpu_d19:
case fpu_d20:
case fpu_d21:
case fpu_d22:
case fpu_d23:
case fpu_d24:
case fpu_d25:
case fpu_d26:
case fpu_d27:
case fpu_d28:
case fpu_d29:
case fpu_d30:
case fpu_d31: {
ProcessSP process_sp(m_thread.GetProcess());
if (process_sp.get()) {
DataExtractor regdata(&fpu.v[reg - fpu_d0], 8, process_sp->GetByteOrder(),
process_sp->GetAddressByteSize());
offset_t offset = 0;
value.SetDouble(regdata.GetDouble(&offset));
}
} break;
case fpu_fpsr:
value.SetUInt32(fpu.fpsr);
break;
case fpu_fpcr:
value.SetUInt32(fpu.fpcr);
break;
case exc_exception:
value.SetUInt32(exc.exception);
break;
case exc_esr:
value.SetUInt32(exc.esr);
break;
case exc_far:
value.SetUInt64(exc.far);
break;
default:
value.SetValueToInvalid();
return false;
}
return true;
}
bool RegisterContextDarwin_arm64::WriteRegister(const RegisterInfo *reg_info,
const RegisterValue &value) {
const uint32_t reg = reg_info->kinds[eRegisterKindLLDB];
int set = GetSetForNativeRegNum(reg);
if (set == -1)
return false;
if (ReadRegisterSet(set, false) != KERN_SUCCESS)
return false;
switch (reg) {
case gpr_x0:
case gpr_x1:
case gpr_x2:
case gpr_x3:
case gpr_x4:
case gpr_x5:
case gpr_x6:
case gpr_x7:
case gpr_x8:
case gpr_x9:
case gpr_x10:
case gpr_x11:
case gpr_x12:
case gpr_x13:
case gpr_x14:
case gpr_x15:
case gpr_x16:
case gpr_x17:
case gpr_x18:
case gpr_x19:
case gpr_x20:
case gpr_x21:
case gpr_x22:
case gpr_x23:
case gpr_x24:
case gpr_x25:
case gpr_x26:
case gpr_x27:
case gpr_x28:
case gpr_fp:
case gpr_sp:
case gpr_lr:
case gpr_pc:
case gpr_cpsr:
gpr.x[reg - gpr_x0] = value.GetAsUInt64();
break;
case fpu_v0:
case fpu_v1:
case fpu_v2:
case fpu_v3:
case fpu_v4:
case fpu_v5:
case fpu_v6:
case fpu_v7:
case fpu_v8:
case fpu_v9:
case fpu_v10:
case fpu_v11:
case fpu_v12:
case fpu_v13:
case fpu_v14:
case fpu_v15:
case fpu_v16:
case fpu_v17:
case fpu_v18:
case fpu_v19:
case fpu_v20:
case fpu_v21:
case fpu_v22:
case fpu_v23:
case fpu_v24:
case fpu_v25:
case fpu_v26:
case fpu_v27:
case fpu_v28:
case fpu_v29:
case fpu_v30:
case fpu_v31:
::memcpy(fpu.v[reg - fpu_v0].bytes, value.GetBytes(),
value.GetByteSize());
break;
case fpu_fpsr:
fpu.fpsr = value.GetAsUInt32();
break;
case fpu_fpcr:
fpu.fpcr = value.GetAsUInt32();
break;
case exc_exception:
exc.exception = value.GetAsUInt32();
break;
case exc_esr:
exc.esr = value.GetAsUInt32();
break;
case exc_far:
exc.far = value.GetAsUInt64();
break;
default:
return false;
}
return WriteRegisterSet(set) == KERN_SUCCESS;
}
bool RegisterContextDarwin_arm64::ReadAllRegisterValues(
lldb::DataBufferSP &data_sp) {
data_sp = std::make_shared<DataBufferHeap>(REG_CONTEXT_SIZE, 0);
if (ReadGPR(false) == KERN_SUCCESS && ReadFPU(false) == KERN_SUCCESS &&
ReadEXC(false) == KERN_SUCCESS) {
uint8_t *dst = data_sp->GetBytes();
::memcpy(dst, &gpr, sizeof(gpr));
dst += sizeof(gpr);
::memcpy(dst, &fpu, sizeof(fpu));
dst += sizeof(gpr);
::memcpy(dst, &exc, sizeof(exc));
return true;
}
return false;
}
bool RegisterContextDarwin_arm64::WriteAllRegisterValues(
const lldb::DataBufferSP &data_sp) {
if (data_sp && data_sp->GetByteSize() == REG_CONTEXT_SIZE) {
const uint8_t *src = data_sp->GetBytes();
::memcpy(&gpr, src, sizeof(gpr));
src += sizeof(gpr);
::memcpy(&fpu, src, sizeof(fpu));
src += sizeof(gpr);
::memcpy(&exc, src, sizeof(exc));
uint32_t success_count = 0;
if (WriteGPR() == KERN_SUCCESS)
++success_count;
if (WriteFPU() == KERN_SUCCESS)
++success_count;
if (WriteEXC() == KERN_SUCCESS)
++success_count;
return success_count == 3;
}
return false;
}
uint32_t RegisterContextDarwin_arm64::ConvertRegisterKindToRegisterNumber(
RegisterKind kind, uint32_t reg) {
if (kind == eRegisterKindGeneric) {
switch (reg) {
case LLDB_REGNUM_GENERIC_PC:
return gpr_pc;
case LLDB_REGNUM_GENERIC_SP:
return gpr_sp;
case LLDB_REGNUM_GENERIC_FP:
return gpr_fp;
case LLDB_REGNUM_GENERIC_RA:
return gpr_lr;
case LLDB_REGNUM_GENERIC_FLAGS:
return gpr_cpsr;
default:
break;
}
} else if (kind == eRegisterKindDWARF) {
switch (reg) {
case arm64_dwarf::x0:
return gpr_x0;
case arm64_dwarf::x1:
return gpr_x1;
case arm64_dwarf::x2:
return gpr_x2;
case arm64_dwarf::x3:
return gpr_x3;
case arm64_dwarf::x4:
return gpr_x4;
case arm64_dwarf::x5:
return gpr_x5;
case arm64_dwarf::x6:
return gpr_x6;
case arm64_dwarf::x7:
return gpr_x7;
case arm64_dwarf::x8:
return gpr_x8;
case arm64_dwarf::x9:
return gpr_x9;
case arm64_dwarf::x10:
return gpr_x10;
case arm64_dwarf::x11:
return gpr_x11;
case arm64_dwarf::x12:
return gpr_x12;
case arm64_dwarf::x13:
return gpr_x13;
case arm64_dwarf::x14:
return gpr_x14;
case arm64_dwarf::x15:
return gpr_x15;
case arm64_dwarf::x16:
return gpr_x16;
case arm64_dwarf::x17:
return gpr_x17;
case arm64_dwarf::x18:
return gpr_x18;
case arm64_dwarf::x19:
return gpr_x19;
case arm64_dwarf::x20:
return gpr_x20;
case arm64_dwarf::x21:
return gpr_x21;
case arm64_dwarf::x22:
return gpr_x22;
case arm64_dwarf::x23:
return gpr_x23;
case arm64_dwarf::x24:
return gpr_x24;
case arm64_dwarf::x25:
return gpr_x25;
case arm64_dwarf::x26:
return gpr_x26;
case arm64_dwarf::x27:
return gpr_x27;
case arm64_dwarf::x28:
return gpr_x28;
case arm64_dwarf::fp:
return gpr_fp;
case arm64_dwarf::sp:
return gpr_sp;
case arm64_dwarf::lr:
return gpr_lr;
case arm64_dwarf::pc:
return gpr_pc;
case arm64_dwarf::cpsr:
return gpr_cpsr;
case arm64_dwarf::v0:
return fpu_v0;
case arm64_dwarf::v1:
return fpu_v1;
case arm64_dwarf::v2:
return fpu_v2;
case arm64_dwarf::v3:
return fpu_v3;
case arm64_dwarf::v4:
return fpu_v4;
case arm64_dwarf::v5:
return fpu_v5;
case arm64_dwarf::v6:
return fpu_v6;
case arm64_dwarf::v7:
return fpu_v7;
case arm64_dwarf::v8:
return fpu_v8;
case arm64_dwarf::v9:
return fpu_v9;
case arm64_dwarf::v10:
return fpu_v10;
case arm64_dwarf::v11:
return fpu_v11;
case arm64_dwarf::v12:
return fpu_v12;
case arm64_dwarf::v13:
return fpu_v13;
case arm64_dwarf::v14:
return fpu_v14;
case arm64_dwarf::v15:
return fpu_v15;
case arm64_dwarf::v16:
return fpu_v16;
case arm64_dwarf::v17:
return fpu_v17;
case arm64_dwarf::v18:
return fpu_v18;
case arm64_dwarf::v19:
return fpu_v19;
case arm64_dwarf::v20:
return fpu_v20;
case arm64_dwarf::v21:
return fpu_v21;
case arm64_dwarf::v22:
return fpu_v22;
case arm64_dwarf::v23:
return fpu_v23;
case arm64_dwarf::v24:
return fpu_v24;
case arm64_dwarf::v25:
return fpu_v25;
case arm64_dwarf::v26:
return fpu_v26;
case arm64_dwarf::v27:
return fpu_v27;
case arm64_dwarf::v28:
return fpu_v28;
case arm64_dwarf::v29:
return fpu_v29;
case arm64_dwarf::v30:
return fpu_v30;
case arm64_dwarf::v31:
return fpu_v31;
default:
break;
}
} else if (kind == eRegisterKindEHFrame) {
switch (reg) {
case arm64_ehframe::x0:
return gpr_x0;
case arm64_ehframe::x1:
return gpr_x1;
case arm64_ehframe::x2:
return gpr_x2;
case arm64_ehframe::x3:
return gpr_x3;
case arm64_ehframe::x4:
return gpr_x4;
case arm64_ehframe::x5:
return gpr_x5;
case arm64_ehframe::x6:
return gpr_x6;
case arm64_ehframe::x7:
return gpr_x7;
case arm64_ehframe::x8:
return gpr_x8;
case arm64_ehframe::x9:
return gpr_x9;
case arm64_ehframe::x10:
return gpr_x10;
case arm64_ehframe::x11:
return gpr_x11;
case arm64_ehframe::x12:
return gpr_x12;
case arm64_ehframe::x13:
return gpr_x13;
case arm64_ehframe::x14:
return gpr_x14;
case arm64_ehframe::x15:
return gpr_x15;
case arm64_ehframe::x16:
return gpr_x16;
case arm64_ehframe::x17:
return gpr_x17;
case arm64_ehframe::x18:
return gpr_x18;
case arm64_ehframe::x19:
return gpr_x19;
case arm64_ehframe::x20:
return gpr_x20;
case arm64_ehframe::x21:
return gpr_x21;
case arm64_ehframe::x22:
return gpr_x22;
case arm64_ehframe::x23:
return gpr_x23;
case arm64_ehframe::x24:
return gpr_x24;
case arm64_ehframe::x25:
return gpr_x25;
case arm64_ehframe::x26:
return gpr_x26;
case arm64_ehframe::x27:
return gpr_x27;
case arm64_ehframe::x28:
return gpr_x28;
case arm64_ehframe::fp:
return gpr_fp;
case arm64_ehframe::sp:
return gpr_sp;
case arm64_ehframe::lr:
return gpr_lr;
case arm64_ehframe::pc:
return gpr_pc;
case arm64_ehframe::cpsr:
return gpr_cpsr;
}
} else if (kind == eRegisterKindLLDB) {
return reg;
}
return LLDB_INVALID_REGNUM;
}
uint32_t RegisterContextDarwin_arm64::NumSupportedHardwareWatchpoints() {
#if defined(__APPLE__) && (defined(__arm64__) || defined(__aarch64__))
// autodetect how many watchpoints are supported dynamically...
static uint32_t g_num_supported_hw_watchpoints = UINT32_MAX;
if (g_num_supported_hw_watchpoints == UINT32_MAX) {
size_t len;
uint32_t n = 0;
len = sizeof(n);
if (::sysctlbyname("hw.optional.watchpoint", &n, &len, NULL, 0) == 0) {
g_num_supported_hw_watchpoints = n;
}
}
return g_num_supported_hw_watchpoints;
#else
// TODO: figure out remote case here!
return 2;
#endif
}
uint32_t RegisterContextDarwin_arm64::SetHardwareWatchpoint(lldb::addr_t addr,
size_t size,
bool read,
bool write) {
// if (log) log->Printf
// ("RegisterContextDarwin_arm64::EnableHardwareWatchpoint(addr = %8.8p,
// size = %u, read = %u, write = %u)", addr, size, read, write);
const uint32_t num_hw_watchpoints = NumSupportedHardwareWatchpoints();
// Can't watch zero bytes
if (size == 0)
return LLDB_INVALID_INDEX32;
// We must watch for either read or write
if (!read && !write)
return LLDB_INVALID_INDEX32;
// Can't watch more than 4 bytes per WVR/WCR pair
if (size > 4)
return LLDB_INVALID_INDEX32;
// We can only watch up to four bytes that follow a 4 byte aligned address
// per watchpoint register pair. Since we have at most so we can only watch
// until the next 4 byte boundary and we need to make sure we can properly
// encode this.
uint32_t addr_word_offset = addr % 4;
// if (log) log->Printf
// ("RegisterContextDarwin_arm64::EnableHardwareWatchpoint() -
// addr_word_offset = 0x%8.8x", addr_word_offset);
uint32_t byte_mask = ((1u << size) - 1u) << addr_word_offset;
// if (log) log->Printf
// ("RegisterContextDarwin_arm64::EnableHardwareWatchpoint() - byte_mask =
// 0x%8.8x", byte_mask);
if (byte_mask > 0xfu)
return LLDB_INVALID_INDEX32;
// Read the debug state
int kret = ReadDBG(false);
if (kret == KERN_SUCCESS) {
// Check to make sure we have the needed hardware support
uint32_t i = 0;
for (i = 0; i < num_hw_watchpoints; ++i) {
if ((dbg.wcr[i] & WCR_ENABLE) == 0)
break; // We found an available hw breakpoint slot (in i)
}
// See if we found an available hw breakpoint slot above
if (i < num_hw_watchpoints) {
// Make the byte_mask into a valid Byte Address Select mask
uint32_t byte_address_select = byte_mask << 5;
// Make sure bits 1:0 are clear in our address
dbg.wvr[i] = addr & ~((lldb::addr_t)3);
dbg.wcr[i] = byte_address_select | // Which bytes that follow the IMVA
// that we will watch
S_USER | // Stop only in user mode
(read ? WCR_LOAD : 0) | // Stop on read access?
(write ? WCR_STORE : 0) | // Stop on write access?
WCR_ENABLE; // Enable this watchpoint;
kret = WriteDBG();
// if (log) log->Printf
// ("RegisterContextDarwin_arm64::EnableHardwareWatchpoint()
// WriteDBG() => 0x%8.8x.", kret);
if (kret == KERN_SUCCESS)
return i;
} else {
// if (log) log->Printf
// ("RegisterContextDarwin_arm64::EnableHardwareWatchpoint():
// All hardware resources (%u) are in use.",
// num_hw_watchpoints);
}
}
return LLDB_INVALID_INDEX32;
}
bool RegisterContextDarwin_arm64::ClearHardwareWatchpoint(uint32_t hw_index) {
int kret = ReadDBG(false);
const uint32_t num_hw_points = NumSupportedHardwareWatchpoints();
if (kret == KERN_SUCCESS) {
if (hw_index < num_hw_points) {
dbg.wcr[hw_index] = 0;
// if (log) log->Printf
// ("RegisterContextDarwin_arm64::ClearHardwareWatchpoint( %u )
// - WVR%u = 0x%8.8x WCR%u = 0x%8.8x",
// hw_index,
// hw_index,
// dbg.wvr[hw_index],
// hw_index,
// dbg.wcr[hw_index]);
kret = WriteDBG();
if (kret == KERN_SUCCESS)
return true;
}
}
return false;
}
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