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android_system_core/libunwindstack/tests/DwarfSectionTest.cpp
Christopher Ferris 819f13116e Handle when bias is different in elf headers. 
The original code assumed that the load bias in the program headers
would be exactly the same as in eh_frame/eh_frame_hdr/debug_frame.

This isn't guaranteed, so add a section bias for use when creating
a DwarfSection. In addtion, make the load bias and section bias
a signed value. There is no reason that this value needs to be positive,
so don't force it to be.

Add a new offline test that has a different load bias in eh_frame than
in the executable load.

Add additional unit tests to verify the load bias values are set properly.

Clean up the tests in ElfInterfaceTest, making all tests names follow the
same convention.

Bug: 141888859
Bug: 142094469

Test: New units and old unit tests pass on host and taimen.
Change-Id: Ib878123ab5545f0f315c749cfe0d27b012d873ee
2019-10-08 17:36:06 +00:00

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/*
* Copyright (C) 2016 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 <gmock/gmock.h>
#include <gtest/gtest.h>
#include <unwindstack/DwarfSection.h>
#include "MemoryFake.h"
namespace unwindstack {
class MockDwarfSection : public DwarfSection {
public:
MockDwarfSection(Memory* memory) : DwarfSection(memory) {}
virtual ~MockDwarfSection() = default;
MOCK_METHOD3(Init, bool(uint64_t, uint64_t, int64_t));
MOCK_METHOD5(Eval, bool(const DwarfCie*, Memory*, const dwarf_loc_regs_t&, Regs*, bool*));
MOCK_METHOD3(Log, bool(uint8_t, uint64_t, const DwarfFde*));
MOCK_METHOD1(GetFdes, void(std::vector<const DwarfFde*>*));
MOCK_METHOD1(GetFdeFromPc, const DwarfFde*(uint64_t));
MOCK_METHOD3(GetCfaLocationInfo, bool(uint64_t, const DwarfFde*, dwarf_loc_regs_t*));
MOCK_METHOD1(GetCieOffsetFromFde32, uint64_t(uint32_t));
MOCK_METHOD1(GetCieOffsetFromFde64, uint64_t(uint64_t));
MOCK_METHOD1(AdjustPcFromFde, uint64_t(uint64_t));
};
class DwarfSectionTest : public ::testing::Test {
protected:
void SetUp() override { section_.reset(new MockDwarfSection(&memory_)); }
MemoryFake memory_;
std::unique_ptr<MockDwarfSection> section_;
};
TEST_F(DwarfSectionTest, Step_fail_fde) {
EXPECT_CALL(*section_, GetFdeFromPc(0x1000)).WillOnce(::testing::Return(nullptr));
bool finished;
ASSERT_FALSE(section_->Step(0x1000, nullptr, nullptr, &finished));
}
TEST_F(DwarfSectionTest, Step_fail_cie_null) {
DwarfFde fde{};
fde.pc_end = 0x2000;
fde.cie = nullptr;
EXPECT_CALL(*section_, GetFdeFromPc(0x1000)).WillOnce(::testing::Return(&fde));
bool finished;
ASSERT_FALSE(section_->Step(0x1000, nullptr, nullptr, &finished));
}
TEST_F(DwarfSectionTest, Step_fail_cfa_location) {
DwarfCie cie{};
DwarfFde fde{};
fde.pc_end = 0x2000;
fde.cie = &cie;
EXPECT_CALL(*section_, GetFdeFromPc(0x1000)).WillOnce(::testing::Return(&fde));
EXPECT_CALL(*section_, GetCfaLocationInfo(0x1000, &fde, ::testing::_))
.WillOnce(::testing::Return(false));
bool finished;
ASSERT_FALSE(section_->Step(0x1000, nullptr, nullptr, &finished));
}
TEST_F(DwarfSectionTest, Step_pass) {
DwarfCie cie{};
DwarfFde fde{};
fde.pc_end = 0x2000;
fde.cie = &cie;
EXPECT_CALL(*section_, GetFdeFromPc(0x1000)).WillOnce(::testing::Return(&fde));
EXPECT_CALL(*section_, GetCfaLocationInfo(0x1000, &fde, ::testing::_))
.WillOnce(::testing::Return(true));
MemoryFake process;
EXPECT_CALL(*section_, Eval(&cie, &process, ::testing::_, nullptr, ::testing::_))
.WillOnce(::testing::Return(true));
bool finished;
ASSERT_TRUE(section_->Step(0x1000, nullptr, &process, &finished));
}
static bool MockGetCfaLocationInfo(::testing::Unused, const DwarfFde* fde,
dwarf_loc_regs_t* loc_regs) {
loc_regs->pc_start = fde->pc_start;
loc_regs->pc_end = fde->pc_end;
return true;
}
TEST_F(DwarfSectionTest, Step_cache) {
DwarfCie cie{};
DwarfFde fde{};
fde.pc_start = 0x500;
fde.pc_end = 0x2000;
fde.cie = &cie;
EXPECT_CALL(*section_, GetFdeFromPc(0x1000)).WillOnce(::testing::Return(&fde));
EXPECT_CALL(*section_, GetCfaLocationInfo(0x1000, &fde, ::testing::_))
.WillOnce(::testing::Invoke(MockGetCfaLocationInfo));
MemoryFake process;
EXPECT_CALL(*section_, Eval(&cie, &process, ::testing::_, nullptr, ::testing::_))
.WillRepeatedly(::testing::Return(true));
bool finished;
ASSERT_TRUE(section_->Step(0x1000, nullptr, &process, &finished));
ASSERT_TRUE(section_->Step(0x1000, nullptr, &process, &finished));
ASSERT_TRUE(section_->Step(0x1500, nullptr, &process, &finished));
}
TEST_F(DwarfSectionTest, Step_cache_not_in_pc) {
DwarfCie cie{};
DwarfFde fde0{};
fde0.pc_start = 0x1000;
fde0.pc_end = 0x2000;
fde0.cie = &cie;
EXPECT_CALL(*section_, GetFdeFromPc(0x1000)).WillOnce(::testing::Return(&fde0));
EXPECT_CALL(*section_, GetCfaLocationInfo(0x1000, &fde0, ::testing::_))
.WillOnce(::testing::Invoke(MockGetCfaLocationInfo));
MemoryFake process;
EXPECT_CALL(*section_, Eval(&cie, &process, ::testing::_, nullptr, ::testing::_))
.WillRepeatedly(::testing::Return(true));
bool finished;
ASSERT_TRUE(section_->Step(0x1000, nullptr, &process, &finished));
DwarfFde fde1{};
fde1.pc_start = 0x500;
fde1.pc_end = 0x800;
fde1.cie = &cie;
EXPECT_CALL(*section_, GetFdeFromPc(0x600)).WillOnce(::testing::Return(&fde1));
EXPECT_CALL(*section_, GetCfaLocationInfo(0x600, &fde1, ::testing::_))
.WillOnce(::testing::Invoke(MockGetCfaLocationInfo));
ASSERT_TRUE(section_->Step(0x600, nullptr, &process, &finished));
ASSERT_TRUE(section_->Step(0x700, nullptr, &process, &finished));
}
} // namespace unwindstack
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