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platform_system_core/libunwindstack/Unwinder.cpp
Christopher Ferris a09c4a6ff2 Fix offsets when shared lib split across maps. 
The linker was modified so that a shared library has a read-only
map, then a read-execute map to represent the whole shared library.
When backtraces are created, then the offsets are set incorrectly
for backtraces. For example, all backtraces wind up with an offset now,
and a shared library loaded out of an apk shows the wrong offset.

Changes:
- Fix the FormatFrame function which was putting the offset before the
  map name.
- Refactor the Maps and MapInfo classes to keep track of the previous map
  instead of all maps. This was the only map that was ever needed.
- Modify the unwind_for_offline tool to capture both the read-only and
  read-execute map when using the read-only segment option.

Bug: 120981155

Test: Updated unit tests pass.
Test: Unwinds on device don't show the offsets everywhere any more.
Change-Id: I75b3727221be9c20316dfdcd7a1c6d242d7ce948
2018-12-18 11:22:14 -08:00

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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.
*/
#define _GNU_SOURCE 1
#include <elf.h>
#include <inttypes.h>
#include <stdint.h>
#include <string.h>
#include <sys/types.h>
#include <unistd.h>
#include <algorithm>
#include <android-base/stringprintf.h>
#include <unwindstack/Elf.h>
#include <unwindstack/JitDebug.h>
#include <unwindstack/MapInfo.h>
#include <unwindstack/Maps.h>
#include <unwindstack/Unwinder.h>
#if !defined(NO_LIBDEXFILE_SUPPORT)
#include <unwindstack/DexFiles.h>
#endif
namespace unwindstack {
// Inject extra 'virtual' frame that represents the dex pc data.
// The dex pc is a magic register defined in the Mterp interpreter,
// and thus it will be restored/observed in the frame after it.
// Adding the dex frame first here will create something like:
// #7 pc 0015fa20 core.vdex java.util.Arrays.binarySearch+8
// #8 pc 006b1ba1 libartd.so ExecuteMterpImpl+14625
// #9 pc 0039a1ef libartd.so art::interpreter::Execute+719
void Unwinder::FillInDexFrame() {
size_t frame_num = frames_.size();
frames_.resize(frame_num + 1);
FrameData* frame = &frames_.at(frame_num);
frame->num = frame_num;
uint64_t dex_pc = regs_->dex_pc();
frame->pc = dex_pc;
frame->sp = regs_->sp();
MapInfo* info = maps_->Find(dex_pc);
if (info != nullptr) {
frame->map_start = info->start;
frame->map_end = info->end;
frame->map_elf_start_offset = info->elf_start_offset;
frame->map_exact_offset = info->offset;
frame->map_load_bias = info->load_bias;
frame->map_flags = info->flags;
if (resolve_names_) {
frame->map_name = info->name;
}
frame->rel_pc = dex_pc - info->start;
} else {
frame->rel_pc = dex_pc;
return;
}
if (!resolve_names_) {
return;
}
#if !defined(NO_LIBDEXFILE_SUPPORT)
if (dex_files_ == nullptr) {
return;
}
dex_files_->GetMethodInformation(maps_, info, dex_pc, &frame->function_name,
&frame->function_offset);
#endif
}
void Unwinder::FillInFrame(MapInfo* map_info, Elf* elf, uint64_t rel_pc, uint64_t func_pc,
uint64_t pc_adjustment) {
size_t frame_num = frames_.size();
frames_.resize(frame_num + 1);
FrameData* frame = &frames_.at(frame_num);
frame->num = frame_num;
frame->sp = regs_->sp();
frame->rel_pc = rel_pc - pc_adjustment;
frame->pc = regs_->pc() - pc_adjustment;
if (map_info == nullptr) {
return;
}
if (resolve_names_) {
frame->map_name = map_info->name;
}
frame->map_elf_start_offset = map_info->elf_start_offset;
frame->map_exact_offset = map_info->offset;
frame->map_start = map_info->start;
frame->map_end = map_info->end;
frame->map_flags = map_info->flags;
frame->map_load_bias = elf->GetLoadBias();
if (!resolve_names_ ||
!elf->GetFunctionName(func_pc, &frame->function_name, &frame->function_offset)) {
frame->function_name = "";
frame->function_offset = 0;
}
}
static bool ShouldStop(const std::vector<std::string>* map_suffixes_to_ignore,
std::string& map_name) {
if (map_suffixes_to_ignore == nullptr) {
return false;
}
auto pos = map_name.find_last_of('.');
if (pos == std::string::npos) {
return false;
}
return std::find(map_suffixes_to_ignore->begin(), map_suffixes_to_ignore->end(),
map_name.substr(pos + 1)) != map_suffixes_to_ignore->end();
}
void Unwinder::Unwind(const std::vector<std::string>* initial_map_names_to_skip,
const std::vector<std::string>* map_suffixes_to_ignore) {
frames_.clear();
last_error_.code = ERROR_NONE;
last_error_.address = 0;
ArchEnum arch = regs_->Arch();
bool return_address_attempt = false;
bool adjust_pc = false;
std::unique_ptr<JitDebug> jit_debug;
for (; frames_.size() < max_frames_;) {
uint64_t cur_pc = regs_->pc();
uint64_t cur_sp = regs_->sp();
MapInfo* map_info = maps_->Find(regs_->pc());
uint64_t pc_adjustment = 0;
uint64_t step_pc;
uint64_t rel_pc;
Elf* elf;
if (map_info == nullptr) {
step_pc = regs_->pc();
rel_pc = step_pc;
last_error_.code = ERROR_INVALID_MAP;
} else {
if (ShouldStop(map_suffixes_to_ignore, map_info->name)) {
break;
}
elf = map_info->GetElf(process_memory_, arch);
step_pc = regs_->pc();
rel_pc = elf->GetRelPc(step_pc, map_info);
// Everyone except elf data in gdb jit debug maps uses the relative pc.
if (!(map_info->flags & MAPS_FLAGS_JIT_SYMFILE_MAP)) {
step_pc = rel_pc;
}
if (adjust_pc) {
pc_adjustment = regs_->GetPcAdjustment(rel_pc, elf);
} else {
pc_adjustment = 0;
}
step_pc -= pc_adjustment;
// If the pc is in an invalid elf file, try and get an Elf object
// using the jit debug information.
if (!elf->valid() && jit_debug_ != nullptr) {
uint64_t adjusted_jit_pc = regs_->pc() - pc_adjustment;
Elf* jit_elf = jit_debug_->GetElf(maps_, adjusted_jit_pc);
if (jit_elf != nullptr) {
// The jit debug information requires a non relative adjusted pc.
step_pc = adjusted_jit_pc;
elf = jit_elf;
}
}
}
if (map_info == nullptr || initial_map_names_to_skip == nullptr ||
std::find(initial_map_names_to_skip->begin(), initial_map_names_to_skip->end(),
basename(map_info->name.c_str())) == initial_map_names_to_skip->end()) {
if (regs_->dex_pc() != 0) {
// Add a frame to represent the dex file.
FillInDexFrame();
// Clear the dex pc so that we don't repeat this frame later.
regs_->set_dex_pc(0);
// Make sure there is enough room for the real frame.
if (frames_.size() == max_frames_) {
last_error_.code = ERROR_MAX_FRAMES_EXCEEDED;
break;
}
}
FillInFrame(map_info, elf, rel_pc, step_pc, pc_adjustment);
// Once a frame is added, stop skipping frames.
initial_map_names_to_skip = nullptr;
}
adjust_pc = true;
bool stepped;
bool in_device_map = false;
if (map_info == nullptr) {
stepped = false;
} else {
if (map_info->flags & MAPS_FLAGS_DEVICE_MAP) {
// Do not stop here, fall through in case we are
// in the speculative unwind path and need to remove
// some of the speculative frames.
stepped = false;
in_device_map = true;
} else {
MapInfo* sp_info = maps_->Find(regs_->sp());
if (sp_info != nullptr && sp_info->flags & MAPS_FLAGS_DEVICE_MAP) {
// Do not stop here, fall through in case we are
// in the speculative unwind path and need to remove
// some of the speculative frames.
stepped = false;
in_device_map = true;
} else {
bool finished;
stepped = elf->Step(rel_pc, step_pc, regs_, process_memory_.get(), &finished);
elf->GetLastError(&last_error_);
if (stepped && finished) {
break;
}
}
}
}
if (!stepped) {
if (return_address_attempt) {
// Only remove the speculative frame if there are more than two frames
// or the pc in the first frame is in a valid map.
// This allows for a case where the code jumps into the middle of
// nowhere, but there is no other unwind information after that.
if (frames_.size() != 2 || maps_->Find(frames_[0].pc) != nullptr) {
// Remove the speculative frame.
frames_.pop_back();
}
break;
} else if (in_device_map) {
// Do not attempt any other unwinding, pc or sp is in a device
// map.
break;
} else {
// Steping didn't work, try this secondary method.
if (!regs_->SetPcFromReturnAddress(process_memory_.get())) {
break;
}
return_address_attempt = true;
}
} else {
return_address_attempt = false;
if (max_frames_ == frames_.size()) {
last_error_.code = ERROR_MAX_FRAMES_EXCEEDED;
}
}
// If the pc and sp didn't change, then consider everything stopped.
if (cur_pc == regs_->pc() && cur_sp == regs_->sp()) {
last_error_.code = ERROR_REPEATED_FRAME;
break;
}
}
}
std::string Unwinder::FormatFrame(size_t frame_num) {
if (frame_num >= frames_.size()) {
return "";
}
return FormatFrame(frames_[frame_num], regs_->Is32Bit());
}
std::string Unwinder::FormatFrame(const FrameData& frame, bool is32bit) {
std::string data;
if (is32bit) {
data += android::base::StringPrintf(" #%02zu pc %08" PRIx64, frame.num, frame.rel_pc);
} else {
data += android::base::StringPrintf(" #%02zu pc %016" PRIx64, frame.num, frame.rel_pc);
}
if (frame.map_start == frame.map_end) {
// No valid map associated with this frame.
data += " <unknown>";
} else if (!frame.map_name.empty()) {
data += " " + frame.map_name;
} else {
data += android::base::StringPrintf(" <anonymous:%" PRIx64 ">", frame.map_start);
}
if (frame.map_elf_start_offset != 0) {
data += android::base::StringPrintf(" (offset 0x%" PRIx64 ")", frame.map_elf_start_offset);
}
if (!frame.function_name.empty()) {
data += " (" + frame.function_name;
if (frame.function_offset != 0) {
data += android::base::StringPrintf("+%" PRId64, frame.function_offset);
}
data += ')';
}
return data;
}
void Unwinder::SetJitDebug(JitDebug* jit_debug, ArchEnum arch) {
jit_debug->SetArch(arch);
jit_debug_ = jit_debug;
}
#if !defined(NO_LIBDEXFILE_SUPPORT)
void Unwinder::SetDexFiles(DexFiles* dex_files, ArchEnum arch) {
dex_files->SetArch(arch);
dex_files_ = dex_files;
}
#endif
} // namespace unwindstack
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