5afddb0637
In almost all cases, it is faster to read the entire structure rather than do multiple reads using ReadField. The only case where it would be slower is if doing a remote unwind and ptrace is the only way to read. In all other cases, it's a single system call. In the ptrace call, it will be multiple calls. Given that it is unusual to be forced to use ptrace, it's better to avoid it. It also reduces the code complexity to do a single read, and avoids issues where the code forgets to read the field it needs. Test: Unit tests pass on host and target. Change-Id: I7b3875b2c85d0d88115b1776e1be28521dc0b932
184 lines
5.3 KiB
C++
184 lines
5.3 KiB
C++
/*
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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 <elf.h>
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#include <stdint.h>
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#include <unwindstack/MachineArm.h>
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#include <unwindstack/Memory.h>
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#include <unwindstack/RegsArm.h>
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#include "ArmExidx.h"
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#include "ElfInterfaceArm.h"
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namespace unwindstack {
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bool ElfInterfaceArm::Init(uint64_t* load_bias) {
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if (!ElfInterface32::Init(load_bias)) {
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return false;
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}
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load_bias_ = *load_bias;
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return true;
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}
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bool ElfInterfaceArm::FindEntry(uint32_t pc, uint64_t* entry_offset) {
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if (start_offset_ == 0 || total_entries_ == 0) {
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last_error_.code = ERROR_UNWIND_INFO;
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return false;
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}
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size_t first = 0;
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size_t last = total_entries_;
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while (first < last) {
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size_t current = (first + last) / 2;
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uint32_t addr = addrs_[current];
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if (addr == 0) {
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if (!GetPrel31Addr(start_offset_ + current * 8, &addr)) {
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return false;
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}
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addrs_[current] = addr;
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}
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if (pc == addr) {
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*entry_offset = start_offset_ + current * 8;
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return true;
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}
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if (pc < addr) {
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last = current;
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} else {
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first = current + 1;
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}
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}
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if (last != 0) {
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*entry_offset = start_offset_ + (last - 1) * 8;
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return true;
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}
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last_error_.code = ERROR_UNWIND_INFO;
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return false;
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}
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bool ElfInterfaceArm::GetPrel31Addr(uint32_t offset, uint32_t* addr) {
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uint32_t data;
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if (!memory_->Read32(offset, &data)) {
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last_error_.code = ERROR_MEMORY_INVALID;
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last_error_.address = offset;
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return false;
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}
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// Sign extend the value if necessary.
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int32_t value = (static_cast<int32_t>(data) << 1) >> 1;
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*addr = offset + value;
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return true;
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}
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#if !defined(PT_ARM_EXIDX)
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#define PT_ARM_EXIDX 0x70000001
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#endif
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void ElfInterfaceArm::HandleUnknownType(uint32_t type, uint64_t ph_offset, uint64_t ph_filesz) {
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if (type != PT_ARM_EXIDX) {
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return;
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}
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// The offset already takes into account the load bias.
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start_offset_ = ph_offset;
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// Always use filesz instead of memsz. In most cases they are the same,
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// but some shared libraries wind up setting one correctly and not the other.
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total_entries_ = ph_filesz / 8;
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}
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bool ElfInterfaceArm::Step(uint64_t pc, Regs* regs, Memory* process_memory, bool* finished) {
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// Dwarf unwind information is precise about whether a pc is covered or not,
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// but arm unwind information only has ranges of pc. In order to avoid
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// incorrectly doing a bad unwind using arm unwind information for a
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// different function, always try and unwind with the dwarf information first.
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return ElfInterface32::Step(pc, regs, process_memory, finished) ||
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StepExidx(pc, regs, process_memory, finished);
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}
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bool ElfInterfaceArm::StepExidx(uint64_t pc, Regs* regs, Memory* process_memory, bool* finished) {
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// Adjust the load bias to get the real relative pc.
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if (pc < load_bias_) {
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last_error_.code = ERROR_UNWIND_INFO;
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return false;
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}
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pc -= load_bias_;
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RegsArm* regs_arm = reinterpret_cast<RegsArm*>(regs);
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uint64_t entry_offset;
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if (!FindEntry(pc, &entry_offset)) {
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return false;
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}
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ArmExidx arm(regs_arm, memory_, process_memory);
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arm.set_cfa(regs_arm->sp());
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bool return_value = false;
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if (arm.ExtractEntryData(entry_offset) && arm.Eval()) {
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// If the pc was not set, then use the LR registers for the PC.
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if (!arm.pc_set()) {
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(*regs_arm)[ARM_REG_PC] = (*regs_arm)[ARM_REG_LR];
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}
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(*regs_arm)[ARM_REG_SP] = arm.cfa();
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return_value = true;
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// If the pc was set to zero, consider this the final frame.
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*finished = (regs_arm->pc() == 0) ? true : false;
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}
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if (arm.status() == ARM_STATUS_NO_UNWIND) {
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*finished = true;
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return true;
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}
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if (!return_value) {
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switch (arm.status()) {
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case ARM_STATUS_NONE:
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case ARM_STATUS_NO_UNWIND:
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case ARM_STATUS_FINISH:
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last_error_.code = ERROR_NONE;
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break;
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case ARM_STATUS_RESERVED:
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case ARM_STATUS_SPARE:
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case ARM_STATUS_TRUNCATED:
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case ARM_STATUS_MALFORMED:
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case ARM_STATUS_INVALID_ALIGNMENT:
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case ARM_STATUS_INVALID_PERSONALITY:
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last_error_.code = ERROR_UNWIND_INFO;
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break;
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case ARM_STATUS_READ_FAILED:
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last_error_.code = ERROR_MEMORY_INVALID;
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last_error_.address = arm.status_address();
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break;
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}
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}
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return return_value;
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}
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bool ElfInterfaceArm::GetFunctionName(uint64_t addr, std::string* name, uint64_t* offset) {
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// For ARM, thumb function symbols have bit 0 set, but the address passed
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// in here might not have this bit set and result in a failure to find
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// the thumb function names. Adjust the address and offset to account
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// for this possible case.
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if (ElfInterface32::GetFunctionName(addr | 1, name, offset)) {
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*offset &= ~1;
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return true;
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}
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return false;
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}
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} // namespace unwindstack
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