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platform_system_core/libunwindstack/DwarfEhFrameWithHdr.cpp
Christopher Ferris 22d8e8e12f Remove sequential search from DwarfEhFrameWithHdr. 
Since there has never been a time that a sequential search has been
necessary, simply remove the sequential code and allow the DwarfEhFrame
object to be used in that case. If this does come up regularly, I'm not
sure that it wouldn't be more performant to use the DwarfEhFrame object
regardless.

Bug: 129550015

Test: libunwindstack unit tests, libbacktrace unit tests.
Change-Id: I738e81accb9bc1e182168cddc9c0c22823e3369b
2019-03-29 14:08:37 -07:00

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/*
* Copyright (C) 2017 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <stdint.h>
#include <unwindstack/DwarfError.h>
#include <unwindstack/DwarfStructs.h>
#include <unwindstack/Memory.h>
#include "Check.h"
#include "DwarfEhFrameWithHdr.h"
#include "DwarfEncoding.h"
namespace unwindstack {
static inline bool IsEncodingRelative(uint8_t encoding) {
encoding >>= 4;
return encoding > 0 && encoding <= DW_EH_PE_funcrel;
}
template <typename AddressType>
bool DwarfEhFrameWithHdr<AddressType>::Init(uint64_t offset, uint64_t size, uint64_t load_bias) {
load_bias_ = load_bias;
memory_.clear_func_offset();
memory_.clear_text_offset();
memory_.set_data_offset(offset);
memory_.set_cur_offset(offset);
pc_offset_ = offset;
// Read the first four bytes all at once.
uint8_t data[4];
if (!memory_.ReadBytes(data, 4)) {
last_error_.code = DWARF_ERROR_MEMORY_INVALID;
last_error_.address = memory_.cur_offset();
return false;
}
version_ = data[0];
if (version_ != 1) {
// Unknown version.
last_error_.code = DWARF_ERROR_UNSUPPORTED_VERSION;
return false;
}
ptr_encoding_ = data[1];
uint8_t fde_count_encoding = data[2];
table_encoding_ = data[3];
table_entry_size_ = memory_.template GetEncodedSize<AddressType>(table_encoding_);
// If we can't perform a binary search on the entries, it's not worth
// using this object. The calling code will fall back to the DwarfEhFrame
// object in this case.
if (table_entry_size_ == 0) {
last_error_.code = DWARF_ERROR_ILLEGAL_VALUE;
return false;
}
memory_.set_pc_offset(memory_.cur_offset());
if (!memory_.template ReadEncodedValue<AddressType>(ptr_encoding_, &ptr_offset_)) {
last_error_.code = DWARF_ERROR_MEMORY_INVALID;
last_error_.address = memory_.cur_offset();
return false;
}
memory_.set_pc_offset(memory_.cur_offset());
if (!memory_.template ReadEncodedValue<AddressType>(fde_count_encoding, &fde_count_)) {
last_error_.code = DWARF_ERROR_MEMORY_INVALID;
last_error_.address = memory_.cur_offset();
return false;
}
if (fde_count_ == 0) {
last_error_.code = DWARF_ERROR_NO_FDES;
return false;
}
entries_offset_ = memory_.cur_offset();
entries_end_ = offset + size;
entries_data_offset_ = offset;
cur_entries_offset_ = entries_offset_;
return true;
}
template <typename AddressType>
const DwarfFde* DwarfEhFrameWithHdr<AddressType>::GetFdeFromPc(uint64_t pc) {
uint64_t fde_offset;
if (!GetFdeOffsetFromPc(pc, &fde_offset)) {
return nullptr;
}
const DwarfFde* fde = this->GetFdeFromOffset(fde_offset);
if (fde == nullptr) {
return nullptr;
}
// Guaranteed pc >= pc_start, need to check pc in the fde range.
if (pc < fde->pc_end) {
return fde;
}
last_error_.code = DWARF_ERROR_ILLEGAL_STATE;
return nullptr;
}
template <typename AddressType>
const typename DwarfEhFrameWithHdr<AddressType>::FdeInfo*
DwarfEhFrameWithHdr<AddressType>::GetFdeInfoFromIndex(size_t index) {
auto entry = fde_info_.find(index);
if (entry != fde_info_.end()) {
return &fde_info_[index];
}
FdeInfo* info = &fde_info_[index];
memory_.set_data_offset(entries_data_offset_);
memory_.set_cur_offset(entries_offset_ + 2 * index * table_entry_size_);
memory_.set_pc_offset(0);
uint64_t value;
if (!memory_.template ReadEncodedValue<AddressType>(table_encoding_, &value) ||
!memory_.template ReadEncodedValue<AddressType>(table_encoding_, &info->offset)) {
last_error_.code = DWARF_ERROR_MEMORY_INVALID;
last_error_.address = memory_.cur_offset();
fde_info_.erase(index);
return nullptr;
}
// Relative encodings require adding in the load bias.
if (IsEncodingRelative(table_encoding_)) {
value += load_bias_;
}
info->pc = value;
return info;
}
template <typename AddressType>
bool DwarfEhFrameWithHdr<AddressType>::GetFdeOffsetFromPc(uint64_t pc, uint64_t* fde_offset) {
if (fde_count_ == 0) {
return false;
}
size_t first = 0;
size_t last = fde_count_;
while (first < last) {
size_t current = (first + last) / 2;
const FdeInfo* info = GetFdeInfoFromIndex(current);
if (info == nullptr) {
return false;
}
if (pc == info->pc) {
*fde_offset = info->offset;
return true;
}
if (pc < info->pc) {
last = current;
} else {
first = current + 1;
}
}
if (last != 0) {
const FdeInfo* info = GetFdeInfoFromIndex(last - 1);
if (info == nullptr) {
return false;
}
*fde_offset = info->offset;
return true;
}
return false;
}
template <typename AddressType>
void DwarfEhFrameWithHdr<AddressType>::GetFdes(std::vector<const DwarfFde*>* fdes) {
for (size_t i = 0; i < fde_count_; i++) {
const FdeInfo* info = GetFdeInfoFromIndex(i);
if (info == nullptr) {
break;
}
const DwarfFde* fde = this->GetFdeFromOffset(info->offset);
if (fde == nullptr) {
break;
}
fdes->push_back(fde);
}
}
// Explicitly instantiate DwarfEhFrameWithHdr
template class DwarfEhFrameWithHdr<uint32_t>;
template class DwarfEhFrameWithHdr<uint64_t>;
} // namespace unwindstack
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