376 lines
12 KiB
C++
376 lines
12 KiB
C++
/*
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* Copyright (C) 2017 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 <stdint.h>
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#include <sys/mman.h>
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#include <sys/types.h>
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#include <unistd.h>
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#include <memory>
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#include <mutex>
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#include <string>
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#include <android-base/stringprintf.h>
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#include <unwindstack/Elf.h>
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#include <unwindstack/MapInfo.h>
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#include <unwindstack/Maps.h>
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#include "MemoryFileAtOffset.h"
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#include "MemoryRange.h"
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namespace unwindstack {
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bool MapInfo::InitFileMemoryFromPreviousReadOnlyMap(MemoryFileAtOffset* memory) {
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// One last attempt, see if the previous map is read-only with the
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// same name and stretches across this map.
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if (prev_real_map == nullptr || prev_real_map->flags != PROT_READ) {
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return false;
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}
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uint64_t map_size = end - prev_real_map->end;
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if (!memory->Init(name, prev_real_map->offset, map_size)) {
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return false;
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}
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uint64_t max_size;
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if (!Elf::GetInfo(memory, &max_size) || max_size < map_size) {
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return false;
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}
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if (!memory->Init(name, prev_real_map->offset, max_size)) {
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return false;
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}
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elf_offset = offset - prev_real_map->offset;
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elf_start_offset = prev_real_map->offset;
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return true;
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}
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Memory* MapInfo::GetFileMemory() {
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std::unique_ptr<MemoryFileAtOffset> memory(new MemoryFileAtOffset);
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if (offset == 0) {
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if (memory->Init(name, 0)) {
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return memory.release();
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}
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return nullptr;
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}
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// These are the possibilities when the offset is non-zero.
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// - There is an elf file embedded in a file, and the offset is the
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// the start of the elf in the file.
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// - There is an elf file embedded in a file, and the offset is the
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// the start of the executable part of the file. The actual start
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// of the elf is in the read-only segment preceeding this map.
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// - The whole file is an elf file, and the offset needs to be saved.
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//
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// Map in just the part of the file for the map. If this is not
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// a valid elf, then reinit as if the whole file is an elf file.
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// If the offset is a valid elf, then determine the size of the map
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// and reinit to that size. This is needed because the dynamic linker
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// only maps in a portion of the original elf, and never the symbol
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// file data.
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uint64_t map_size = end - start;
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if (!memory->Init(name, offset, map_size)) {
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return nullptr;
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}
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// Check if the start of this map is an embedded elf.
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uint64_t max_size = 0;
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if (Elf::GetInfo(memory.get(), &max_size)) {
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elf_start_offset = offset;
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if (max_size > map_size) {
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if (memory->Init(name, offset, max_size)) {
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return memory.release();
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}
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// Try to reinit using the default map_size.
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if (memory->Init(name, offset, map_size)) {
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return memory.release();
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}
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elf_start_offset = 0;
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return nullptr;
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}
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return memory.release();
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}
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// No elf at offset, try to init as if the whole file is an elf.
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if (memory->Init(name, 0) && Elf::IsValidElf(memory.get())) {
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elf_offset = offset;
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// Need to check how to set the elf start offset. If this map is not
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// the r-x map of a r-- map, then use the real offset value. Otherwise,
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// use 0.
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if (prev_real_map == nullptr || prev_real_map->offset != 0 ||
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prev_real_map->flags != PROT_READ || prev_real_map->name != name) {
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elf_start_offset = offset;
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}
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return memory.release();
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}
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// See if the map previous to this one contains a read-only map
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// that represents the real start of the elf data.
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if (InitFileMemoryFromPreviousReadOnlyMap(memory.get())) {
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return memory.release();
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}
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// Failed to find elf at start of file or at read-only map, return
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// file object from the current map.
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if (memory->Init(name, offset, map_size)) {
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return memory.release();
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}
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return nullptr;
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}
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Memory* MapInfo::CreateMemory(const std::shared_ptr<Memory>& process_memory) {
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if (end <= start) {
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return nullptr;
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}
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elf_offset = 0;
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// Fail on device maps.
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if (flags & MAPS_FLAGS_DEVICE_MAP) {
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return nullptr;
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}
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// First try and use the file associated with the info.
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if (!name.empty()) {
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Memory* memory = GetFileMemory();
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if (memory != nullptr) {
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return memory;
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}
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}
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if (process_memory == nullptr) {
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return nullptr;
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}
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memory_backed_elf = true;
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// Need to verify that this elf is valid. It's possible that
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// only part of the elf file to be mapped into memory is in the executable
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// map. In this case, there will be another read-only map that includes the
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// first part of the elf file. This is done if the linker rosegment
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// option is used.
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std::unique_ptr<MemoryRange> memory(new MemoryRange(process_memory, start, end - start, 0));
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if (Elf::IsValidElf(memory.get())) {
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// Might need to peek at the next map to create a memory object that
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// includes that map too.
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if (offset != 0 || name.empty() || next_real_map == nullptr ||
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offset >= next_real_map->offset || next_real_map->name != name) {
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return memory.release();
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}
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// There is a possibility that the elf object has already been created
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// in the next map. Since this should be a very uncommon path, just
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// redo the work. If this happens, the elf for this map will eventually
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// be discarded.
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MemoryRanges* ranges = new MemoryRanges;
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ranges->Insert(new MemoryRange(process_memory, start, end - start, 0));
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ranges->Insert(new MemoryRange(process_memory, next_real_map->start,
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next_real_map->end - next_real_map->start,
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next_real_map->offset - offset));
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return ranges;
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}
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// Find the read-only map by looking at the previous map. The linker
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// doesn't guarantee that this invariant will always be true. However,
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// if that changes, there is likely something else that will change and
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// break something.
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if (offset == 0 || name.empty() || prev_real_map == nullptr || prev_real_map->name != name ||
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prev_real_map->offset >= offset) {
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memory_backed_elf = false;
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return nullptr;
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}
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// Make sure that relative pc values are corrected properly.
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elf_offset = offset - prev_real_map->offset;
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// Use this as the elf start offset, otherwise, you always get offsets into
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// the r-x section, which is not quite the right information.
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elf_start_offset = prev_real_map->offset;
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MemoryRanges* ranges = new MemoryRanges;
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ranges->Insert(new MemoryRange(process_memory, prev_real_map->start,
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prev_real_map->end - prev_real_map->start, 0));
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ranges->Insert(new MemoryRange(process_memory, start, end - start, elf_offset));
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return ranges;
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}
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Elf* MapInfo::GetElf(const std::shared_ptr<Memory>& process_memory, ArchEnum expected_arch) {
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{
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// Make sure no other thread is trying to add the elf to this map.
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std::lock_guard<std::mutex> guard(mutex_);
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if (elf.get() != nullptr) {
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return elf.get();
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}
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bool locked = false;
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if (Elf::CachingEnabled() && !name.empty()) {
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Elf::CacheLock();
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locked = true;
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if (Elf::CacheGet(this)) {
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Elf::CacheUnlock();
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return elf.get();
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}
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}
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Memory* memory = CreateMemory(process_memory);
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if (locked) {
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if (Elf::CacheAfterCreateMemory(this)) {
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delete memory;
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Elf::CacheUnlock();
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return elf.get();
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}
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}
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elf.reset(new Elf(memory));
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// If the init fails, keep the elf around as an invalid object so we
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// don't try to reinit the object.
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elf->Init();
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if (elf->valid() && expected_arch != elf->arch()) {
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// Make the elf invalid, mismatch between arch and expected arch.
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elf->Invalidate();
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}
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if (locked) {
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Elf::CacheAdd(this);
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Elf::CacheUnlock();
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}
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}
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if (!elf->valid()) {
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elf_start_offset = offset;
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} else if (prev_real_map != nullptr && elf_start_offset != offset &&
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prev_real_map->offset == elf_start_offset && prev_real_map->name == name) {
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// If there is a read-only map then a read-execute map that represents the
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// same elf object, make sure the previous map is using the same elf
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// object if it hasn't already been set.
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std::lock_guard<std::mutex> guard(prev_real_map->mutex_);
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if (prev_real_map->elf.get() == nullptr) {
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prev_real_map->elf = elf;
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prev_real_map->memory_backed_elf = memory_backed_elf;
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} else {
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// Discard this elf, and use the elf from the previous map instead.
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elf = prev_real_map->elf;
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}
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}
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return elf.get();
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}
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bool MapInfo::GetFunctionName(uint64_t addr, std::string* name, uint64_t* func_offset) {
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{
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// Make sure no other thread is trying to update this elf object.
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std::lock_guard<std::mutex> guard(mutex_);
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if (elf == nullptr) {
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return false;
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}
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}
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// No longer need the lock, once the elf object is created, it is not deleted
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// until this object is deleted.
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return elf->GetFunctionName(addr, name, func_offset);
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}
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uint64_t MapInfo::GetLoadBias(const std::shared_ptr<Memory>& process_memory) {
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int64_t cur_load_bias = load_bias.load();
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if (cur_load_bias != INT64_MAX) {
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return cur_load_bias;
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}
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{
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// Make sure no other thread is trying to add the elf to this map.
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std::lock_guard<std::mutex> guard(mutex_);
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if (elf != nullptr) {
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if (elf->valid()) {
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cur_load_bias = elf->GetLoadBias();
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load_bias = cur_load_bias;
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return cur_load_bias;
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} else {
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load_bias = 0;
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return 0;
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}
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}
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}
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// Call lightweight static function that will only read enough of the
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// elf data to get the load bias.
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std::unique_ptr<Memory> memory(CreateMemory(process_memory));
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cur_load_bias = Elf::GetLoadBias(memory.get());
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load_bias = cur_load_bias;
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return cur_load_bias;
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}
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MapInfo::~MapInfo() {
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std::string* id = build_id.load();
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if (id != nullptr) {
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delete id;
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}
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}
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const std::string& MapInfo::GetBuildID() {
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std::string* id = build_id.load();
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if (id != nullptr) {
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return *id;
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}
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// No need to lock, at worst if multiple threads do this at the same
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// time it should be detected and only one thread should win and
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// save the data.
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std::unique_ptr<std::string> cur_build_id(new std::string);
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// Now need to see if the elf object exists.
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// Make sure no other thread is trying to add the elf to this map.
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mutex_.lock();
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Elf* elf_obj = elf.get();
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mutex_.unlock();
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if (elf_obj != nullptr) {
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*cur_build_id = elf_obj->GetBuildID();
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} else {
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// This will only work if we can get the file associated with this memory.
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// If this is only available in memory, then the section name information
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// is not present and we will not be able to find the build id info.
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std::unique_ptr<Memory> memory(GetFileMemory());
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if (memory != nullptr) {
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*cur_build_id = Elf::GetBuildID(memory.get());
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}
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}
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std::string* expected_id = nullptr;
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// Strong version since we need to reliably return the stored pointer.
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if (build_id.compare_exchange_strong(expected_id, cur_build_id.get())) {
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// Value saved, so make sure the memory is not freed.
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return *cur_build_id.release();
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} else {
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// The expected value is set to the stored value on failure.
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return *expected_id;
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}
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}
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std::string MapInfo::GetPrintableBuildID() {
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std::string raw_build_id = GetBuildID();
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if (raw_build_id.empty()) {
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return "";
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}
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std::string printable_build_id;
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for (const char& c : raw_build_id) {
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// Use %hhx to avoid sign extension on abis that have signed chars.
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printable_build_id += android::base::StringPrintf("%02hhx", c);
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}
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return printable_build_id;
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}
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} // namespace unwindstack
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