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android_system_core/libunwindstack/tests/ElfFake.h
Ryan Prichard 9b8f545920 libunwindstack: Support signal frame CIEs. 
Mark a CIE with a S in its augmentation string as signal frame.
This allows the code to properly handle signal frame data if none
of the signal frame pattern matchers work.

For a signal frame, DwarfSectionImpl<AddressType>::Eval needs to
continue the unwinding even if PC is zero. A zero PC means that the
program has crashed, and we should try to recover the real PC using the
return address on the stack or LR. This behavior is tested by
UnwindOffline.signal_{x86,x86_64}, which modify the libc.so files
so that the signal frame pattern matcher fails and the CIE/FDE
data is used instead.

Test: libunwindstack_test
Change-Id: I4655b070028fd984345311a5e743796f8c30ed36
2020-10-02 16:34:14 -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.
*/
#ifndef _LIBUNWINDSTACK_TESTS_ELF_FAKE_H
#define _LIBUNWINDSTACK_TESTS_ELF_FAKE_H
#include <stdint.h>
#include <deque>
#include <string>
#include <unordered_map>
#include <unwindstack/Elf.h>
#include <unwindstack/ElfInterface.h>
#include <unwindstack/Memory.h>
#include <unwindstack/Regs.h>
#include "ElfInterfaceArm.h"
namespace unwindstack {
struct StepData {
StepData(uint64_t pc, uint64_t sp, bool finished) : pc(pc), sp(sp), finished(finished) {}
uint64_t pc;
uint64_t sp;
bool finished;
};
struct FunctionData {
FunctionData(std::string name, uint64_t offset) : name(name), offset(offset) {}
std::string name;
uint64_t offset;
};
class ElfFake : public Elf {
public:
ElfFake(Memory* memory) : Elf(memory) { valid_ = true; }
virtual ~ElfFake() = default;
void FakeSetValid(bool valid) { valid_ = valid; }
void FakeSetLoadBias(uint64_t load_bias) { load_bias_ = load_bias; }
void FakeSetArch(ArchEnum arch) { arch_ = arch; }
void FakeSetInterface(ElfInterface* interface) { interface_.reset(interface); }
void FakeSetGnuDebugdataInterface(ElfInterface* interface) {
gnu_debugdata_interface_.reset(interface);
}
};
class ElfInterfaceFake : public ElfInterface {
public:
ElfInterfaceFake(Memory* memory) : ElfInterface(memory) {}
virtual ~ElfInterfaceFake() = default;
bool Init(int64_t*) override { return false; }
void InitHeaders() override {}
std::string GetSoname() override { return fake_soname_; }
bool GetFunctionName(uint64_t, std::string*, uint64_t*) override;
bool GetGlobalVariable(const std::string&, uint64_t*) override;
std::string GetBuildID() override { return fake_build_id_; }
bool Step(uint64_t, Regs*, Memory*, bool*, bool*) override;
void FakeSetGlobalVariable(const std::string& global, uint64_t offset) {
globals_[global] = offset;
}
void FakeSetBuildID(std::string& build_id) { fake_build_id_ = build_id; }
void FakeSetBuildID(const char* build_id) { fake_build_id_ = build_id; }
void FakeSetSoname(const char* soname) { fake_soname_ = soname; }
static void FakePushFunctionData(const FunctionData data) { functions_.push_back(data); }
static void FakePushStepData(const StepData data) { steps_.push_back(data); }
static void FakeClear() {
functions_.clear();
steps_.clear();
}
void FakeSetErrorCode(ErrorCode code) { last_error_.code = code; }
void FakeSetErrorAddress(uint64_t address) { last_error_.address = address; }
void FakeSetDataOffset(uint64_t offset) { data_offset_ = offset; }
void FakeSetDataVaddrStart(uint64_t vaddr) { data_vaddr_start_ = vaddr; }
void FakeSetDataVaddrEnd(uint64_t vaddr) { data_vaddr_end_ = vaddr; }
void FakeSetDynamicOffset(uint64_t offset) { dynamic_offset_ = offset; }
void FakeSetDynamicVaddrStart(uint64_t vaddr) { dynamic_vaddr_start_ = vaddr; }
void FakeSetDynamicVaddrEnd(uint64_t vaddr) { dynamic_vaddr_end_ = vaddr; }
void FakeSetGnuDebugdataOffset(uint64_t offset) { gnu_debugdata_offset_ = offset; }
void FakeSetGnuDebugdataSize(uint64_t size) { gnu_debugdata_size_ = size; }
private:
std::unordered_map<std::string, uint64_t> globals_;
std::string fake_build_id_;
std::string fake_soname_;
static std::deque<FunctionData> functions_;
static std::deque<StepData> steps_;
};
class ElfInterface32Fake : public ElfInterface32 {
public:
ElfInterface32Fake(Memory* memory) : ElfInterface32(memory) {}
virtual ~ElfInterface32Fake() = default;
void FakeSetEhFrameOffset(uint64_t offset) { eh_frame_offset_ = offset; }
void FakeSetEhFrameSize(uint64_t size) { eh_frame_size_ = size; }
void FakeSetDebugFrameOffset(uint64_t offset) { debug_frame_offset_ = offset; }
void FakeSetDebugFrameSize(uint64_t size) { debug_frame_size_ = size; }
};
class ElfInterface64Fake : public ElfInterface64 {
public:
ElfInterface64Fake(Memory* memory) : ElfInterface64(memory) {}
virtual ~ElfInterface64Fake() = default;
void FakeSetEhFrameOffset(uint64_t offset) { eh_frame_offset_ = offset; }
void FakeSetEhFrameSize(uint64_t size) { eh_frame_size_ = size; }
void FakeSetDebugFrameOffset(uint64_t offset) { debug_frame_offset_ = offset; }
void FakeSetDebugFrameSize(uint64_t size) { debug_frame_size_ = size; }
};
class ElfInterfaceArmFake : public ElfInterfaceArm {
public:
ElfInterfaceArmFake(Memory* memory) : ElfInterfaceArm(memory) {}
virtual ~ElfInterfaceArmFake() = default;
void FakeSetStartOffset(uint64_t offset) { start_offset_ = offset; }
void FakeSetTotalEntries(size_t entries) { total_entries_ = entries; }
};
} // namespace unwindstack
#endif // _LIBUNWINDSTACK_TESTS_ELF_FAKE_H
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