238 lines
6.4 KiB
C++
238 lines
6.4 KiB
C++
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/*
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* Copyright (C) 2016 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include <assert.h>
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#include <elf.h>
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#include <stdint.h>
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#include <sys/ptrace.h>
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#include <sys/uio.h>
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#include <vector>
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#include "Elf.h"
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#include "ElfInterface.h"
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#include "Machine.h"
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#include "MapInfo.h"
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#include "Regs.h"
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#include "User.h"
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template <typename AddressType>
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uint64_t RegsTmpl<AddressType>::GetRelPc(Elf* elf, const MapInfo* map_info) {
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uint64_t load_bias = 0;
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if (elf->valid()) {
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load_bias = elf->interface()->load_bias();
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}
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return pc_ - map_info->start + load_bias + map_info->elf_offset;
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}
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template <typename AddressType>
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bool RegsTmpl<AddressType>::GetReturnAddressFromDefault(Memory* memory, uint64_t* value) {
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switch (return_loc_.type) {
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case LOCATION_REGISTER:
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assert(return_loc_.value < total_regs_);
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*value = regs_[return_loc_.value];
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return true;
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case LOCATION_SP_OFFSET:
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AddressType return_value;
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if (!memory->Read(sp_ + return_loc_.value, &return_value, sizeof(return_value))) {
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return false;
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}
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*value = return_value;
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return true;
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case LOCATION_UNKNOWN:
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default:
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return false;
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}
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}
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RegsArm::RegsArm() : RegsTmpl<uint32_t>(ARM_REG_LAST, ARM_REG_SP,
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Location(LOCATION_REGISTER, ARM_REG_LR)) {
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}
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uint64_t RegsArm::GetAdjustedPc(uint64_t rel_pc, Elf* elf) {
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if (!elf->valid()) {
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return rel_pc;
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}
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uint64_t load_bias = elf->interface()->load_bias();
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if (rel_pc < load_bias) {
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return rel_pc;
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}
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uint64_t adjusted_rel_pc = rel_pc - load_bias;
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if (adjusted_rel_pc < 5) {
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return rel_pc;
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}
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if (adjusted_rel_pc & 1) {
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// This is a thumb instruction, it could be 2 or 4 bytes.
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uint32_t value;
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if (rel_pc < 5 || !elf->memory()->Read(adjusted_rel_pc - 5, &value, sizeof(value)) ||
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(value & 0xe000f000) != 0xe000f000) {
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return rel_pc - 2;
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}
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}
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return rel_pc - 4;
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}
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RegsArm64::RegsArm64() : RegsTmpl<uint64_t>(ARM64_REG_LAST, ARM64_REG_SP,
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Location(LOCATION_REGISTER, ARM64_REG_LR)) {
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}
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uint64_t RegsArm64::GetAdjustedPc(uint64_t rel_pc, Elf* elf) {
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if (!elf->valid()) {
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return rel_pc;
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}
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if (rel_pc < 4) {
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return rel_pc;
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}
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return rel_pc - 4;
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}
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RegsX86::RegsX86() : RegsTmpl<uint32_t>(X86_REG_LAST, X86_REG_SP,
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Location(LOCATION_SP_OFFSET, -4)) {
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}
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uint64_t RegsX86::GetAdjustedPc(uint64_t rel_pc, Elf* elf) {
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if (!elf->valid()) {
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return rel_pc;
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}
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if (rel_pc == 0) {
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return 0;
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}
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return rel_pc - 1;
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}
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RegsX86_64::RegsX86_64() : RegsTmpl<uint64_t>(X86_64_REG_LAST, X86_64_REG_SP,
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Location(LOCATION_SP_OFFSET, -8)) {
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}
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uint64_t RegsX86_64::GetAdjustedPc(uint64_t rel_pc, Elf* elf) {
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if (!elf->valid()) {
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return rel_pc;
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}
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if (rel_pc == 0) {
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return 0;
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}
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return rel_pc - 1;
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}
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static Regs* ReadArm(void* remote_data) {
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arm_user_regs* user = reinterpret_cast<arm_user_regs*>(remote_data);
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RegsArm* regs = new RegsArm();
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memcpy(regs->RawData(), &user->regs[0], ARM_REG_LAST * sizeof(uint32_t));
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regs->set_pc(user->regs[ARM_REG_PC]);
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regs->set_sp(user->regs[ARM_REG_SP]);
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return regs;
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}
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static Regs* ReadArm64(void* remote_data) {
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arm64_user_regs* user = reinterpret_cast<arm64_user_regs*>(remote_data);
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RegsArm64* regs = new RegsArm64();
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memcpy(regs->RawData(), &user->regs[0], (ARM64_REG_R31 + 1) * sizeof(uint64_t));
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regs->set_pc(user->pc);
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regs->set_sp(user->sp);
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return regs;
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}
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static Regs* ReadX86(void* remote_data) {
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x86_user_regs* user = reinterpret_cast<x86_user_regs*>(remote_data);
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RegsX86* regs = new RegsX86();
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(*regs)[X86_REG_EAX] = user->eax;
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(*regs)[X86_REG_EBX] = user->ebx;
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(*regs)[X86_REG_ECX] = user->ecx;
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(*regs)[X86_REG_EDX] = user->edx;
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(*regs)[X86_REG_EBP] = user->ebp;
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(*regs)[X86_REG_EDI] = user->edi;
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(*regs)[X86_REG_ESI] = user->esi;
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(*regs)[X86_REG_ESP] = user->esp;
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(*regs)[X86_REG_EIP] = user->eip;
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regs->set_pc(user->eip);
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regs->set_sp(user->esp);
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return regs;
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}
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static Regs* ReadX86_64(void* remote_data) {
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x86_64_user_regs* user = reinterpret_cast<x86_64_user_regs*>(remote_data);
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RegsX86_64* regs = new RegsX86_64();
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(*regs)[X86_64_REG_RAX] = user->rax;
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(*regs)[X86_64_REG_RBX] = user->rbx;
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(*regs)[X86_64_REG_RCX] = user->rcx;
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(*regs)[X86_64_REG_RDX] = user->rdx;
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(*regs)[X86_64_REG_R8] = user->r8;
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(*regs)[X86_64_REG_R9] = user->r9;
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(*regs)[X86_64_REG_R10] = user->r10;
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(*regs)[X86_64_REG_R11] = user->r11;
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(*regs)[X86_64_REG_R12] = user->r12;
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(*regs)[X86_64_REG_R13] = user->r13;
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(*regs)[X86_64_REG_R14] = user->r14;
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(*regs)[X86_64_REG_R15] = user->r15;
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(*regs)[X86_64_REG_RDI] = user->rdi;
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(*regs)[X86_64_REG_RSI] = user->rsi;
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(*regs)[X86_64_REG_RBP] = user->rbp;
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(*regs)[X86_64_REG_RSP] = user->rsp;
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(*regs)[X86_64_REG_RIP] = user->rip;
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regs->set_pc(user->rip);
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regs->set_sp(user->rsp);
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return regs;
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}
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// This function assumes that reg_data is already aligned to a 64 bit value.
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// If not this could crash with an unaligned access.
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Regs* Regs::RemoteGet(pid_t pid, uint32_t* machine_type) {
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// Make the buffer large enough to contain the largest registers type.
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std::vector<uint64_t> buffer(MAX_USER_REGS_SIZE / sizeof(uint64_t));
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struct iovec io;
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io.iov_base = buffer.data();
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io.iov_len = buffer.size() * sizeof(uint64_t);
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if (ptrace(PTRACE_GETREGSET, pid, NT_PRSTATUS, reinterpret_cast<void*>(&io)) == -1) {
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return nullptr;
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}
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switch (io.iov_len) {
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case sizeof(x86_user_regs):
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*machine_type = EM_386;
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return ReadX86(buffer.data());
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case sizeof(x86_64_user_regs):
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*machine_type = EM_X86_64;
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return ReadX86_64(buffer.data());
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case sizeof(arm_user_regs):
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*machine_type = EM_ARM;
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return ReadArm(buffer.data());
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case sizeof(arm64_user_regs):
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*machine_type = EM_AARCH64;
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return ReadArm64(buffer.data());
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}
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return nullptr;
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}
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