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platform_system_core/libunwindstack/tests/DwarfSectionImplTest.cpp
Christopher Ferris 4cc36d2b43 Fix handling of load bias values. 
It turns out that for the dwarf information, if a FDE indicates it's pc
relative, then pc has to be incremented by the load bias. If not, then
it should not be incremented.

Previously, the code always subtracted load bias values from pcs, and assumed
that all fdes were incremented by load bias values. The new code actually
reads the fdes and adjusted the pcs in the fde and in the eh frame hdr so
that load bias values are already handled properly.

In addition, add dumping of arm exidx values in unwind_reg_info. This allowed
verifying that the debug frame in those elf files was being handled properly.

Added a new unit test that only has a debug frame that has a non-zero load
bias and has fde entries that do not have pc relative encoding.

Fix a couple of other small bugs.

Bug: 109824792

Test: All libbacktrace/libunwindstack unit tests pass.
Test: Ran ART 137-cfi test and 004-ThreadStress.
Test: Verify that displaying the fde start and end pc actually match the
Test: real data for fde that have pc relative set, and that don't.
Test: Verified that the unwind information for arm exidx matches the
Test: debug frame data.

Change-Id: I707555286b5cb05df9f25489e8c5ede753cfe0fb
2018-06-11 18:53:55 -07:00

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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/DwarfError.h>
#include <unwindstack/DwarfSection.h>
#include "DwarfEncoding.h"
#include "LogFake.h"
#include "MemoryFake.h"
#include "RegsFake.h"
namespace unwindstack {
template <typename TypeParam>
class MockDwarfSectionImpl : public DwarfSectionImpl<TypeParam> {
public:
MockDwarfSectionImpl(Memory* memory) : DwarfSectionImpl<TypeParam>(memory) {}
virtual ~MockDwarfSectionImpl() = default;
MOCK_METHOD3(Init, bool(uint64_t, uint64_t, uint64_t));
MOCK_METHOD2(GetFdeOffsetFromPc, bool(uint64_t, uint64_t*));
MOCK_METHOD1(GetFdeFromIndex, const DwarfFde*(size_t));
MOCK_METHOD1(GetCieOffsetFromFde32, uint64_t(uint32_t));
MOCK_METHOD1(GetCieOffsetFromFde64, uint64_t(uint64_t));
MOCK_METHOD1(AdjustPcFromFde, uint64_t(uint64_t));
void TestSetCie32Value(uint32_t value32) { this->cie32_value_ = value32; }
void TestSetCie64Value(uint64_t value64) { this->cie64_value_ = value64; }
void TestSetCachedCieEntry(uint64_t offset, const DwarfCie& cie) {
this->cie_entries_[offset] = cie;
}
void TestClearCachedCieEntry() { this->cie_entries_.clear(); }
void TestSetCachedFdeEntry(uint64_t offset, const DwarfFde& fde) {
this->fde_entries_[offset] = fde;
}
void TestClearCachedFdeEntry() { this->fde_entries_.clear(); }
void TestSetCachedCieLocRegs(uint64_t offset, const dwarf_loc_regs_t& loc_regs) {
this->cie_loc_regs_[offset] = loc_regs;
}
void TestClearCachedCieLocRegs() { this->cie_loc_regs_.clear(); }
void TestClearError() { this->last_error_.code = DWARF_ERROR_NONE; }
};
template <typename TypeParam>
class DwarfSectionImplTest : public ::testing::Test {
protected:
void SetUp() override {
memory_.Clear();
section_ = new MockDwarfSectionImpl<TypeParam>(&memory_);
ResetLogs();
section_->TestSetCie32Value(static_cast<uint32_t>(-1));
section_->TestSetCie64Value(static_cast<uint64_t>(-1));
}
void TearDown() override { delete section_; }
MemoryFake memory_;
MockDwarfSectionImpl<TypeParam>* section_ = nullptr;
};
TYPED_TEST_CASE_P(DwarfSectionImplTest);
// NOTE: All test class variables need to be referenced as this->.
TYPED_TEST_P(DwarfSectionImplTest, Eval_cfa_expr_eval_fail) {
DwarfCie cie{.version = 3, .return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[5] = 0x20;
regs[9] = 0x3000;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_VAL_EXPRESSION, {0x2, 0x5002}};
bool finished;
ASSERT_FALSE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(DWARF_ERROR_MEMORY_INVALID, this->section_->LastErrorCode());
EXPECT_EQ(0x5000U, this->section_->LastErrorAddress());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_cfa_expr_no_stack) {
DwarfCie cie{.version = 3, .return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[5] = 0x20;
regs[9] = 0x3000;
this->memory_.SetMemory(0x5000, std::vector<uint8_t>{0x96, 0x96, 0x96});
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_VAL_EXPRESSION, {0x2, 0x5002}};
bool finished;
ASSERT_FALSE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(DWARF_ERROR_ILLEGAL_STATE, this->section_->LastErrorCode());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_cfa_expr) {
DwarfCie cie{.version = 3, .return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[5] = 0x20;
regs[9] = 0x3000;
this->memory_.SetMemory(0x5000, std::vector<uint8_t>{0x0c, 0x00, 0x00, 0x00, 0x80});
TypeParam cfa_value = 0x12345;
this->memory_.SetMemory(0x80000000, &cfa_value, sizeof(cfa_value));
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_EXPRESSION, {0x4, 0x5004}};
bool finished;
ASSERT_FALSE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(DWARF_ERROR_ILLEGAL_VALUE, this->section_->LastErrorCode());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_cfa_val_expr) {
DwarfCie cie{.version = 3, .return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[5] = 0x20;
regs[9] = 0x3000;
this->memory_.SetMemory(0x5000, std::vector<uint8_t>{0x0c, 0x00, 0x00, 0x00, 0x80});
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_VAL_EXPRESSION, {0x4, 0x5004}};
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
ASSERT_FALSE(finished);
EXPECT_EQ(0x80000000U, regs.sp());
EXPECT_EQ(0x20U, regs.pc());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_cfa_expr_is_register) {
DwarfCie cie{.version = 3, .return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[5] = 0x20;
regs[9] = 0x3000;
this->memory_.SetMemory(0x5000, std::vector<uint8_t>{0x50, 0x96, 0x96});
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_VAL_EXPRESSION, {0x2, 0x5002}};
bool finished;
ASSERT_FALSE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(DWARF_ERROR_NOT_IMPLEMENTED, this->section_->LastErrorCode());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_bad_regs) {
DwarfCie cie{.return_address_register = 60};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
bool finished;
ASSERT_FALSE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(DWARF_ERROR_ILLEGAL_VALUE, this->section_->LastErrorCode());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_no_cfa) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
bool finished;
ASSERT_FALSE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(DWARF_ERROR_CFA_NOT_DEFINED, this->section_->LastErrorCode());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_cfa_bad) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {20, 0}};
bool finished;
ASSERT_FALSE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(DWARF_ERROR_ILLEGAL_VALUE, this->section_->LastErrorCode());
this->section_->TestClearError();
loc_regs.erase(CFA_REG);
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_INVALID, {0, 0}};
ASSERT_FALSE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(DWARF_ERROR_ILLEGAL_VALUE, this->section_->LastErrorCode());
this->section_->TestClearError();
loc_regs.erase(CFA_REG);
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_OFFSET, {0, 0}};
ASSERT_FALSE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(DWARF_ERROR_ILLEGAL_VALUE, this->section_->LastErrorCode());
this->section_->TestClearError();
loc_regs.erase(CFA_REG);
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_VAL_OFFSET, {0, 0}};
ASSERT_FALSE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(DWARF_ERROR_ILLEGAL_VALUE, this->section_->LastErrorCode());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_cfa_register_prev) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[5] = 0x20;
regs[9] = 0x3000;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {9, 0}};
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_FALSE(finished);
EXPECT_EQ(0x20U, regs.pc());
EXPECT_EQ(0x3000U, regs.sp());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_cfa_register_from_value) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[5] = 0x20;
regs[6] = 0x4000;
regs[9] = 0x3000;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {6, 0}};
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_FALSE(finished);
EXPECT_EQ(0x20U, regs.pc());
EXPECT_EQ(0x4000U, regs.sp());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_double_indirection) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[1] = 0x100;
regs[3] = 0x300;
regs[8] = 0x10;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {8, 0}};
loc_regs[1] = DwarfLocation{DWARF_LOCATION_REGISTER, {3, 1}};
loc_regs[9] = DwarfLocation{DWARF_LOCATION_REGISTER, {1, 2}};
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(0x301U, regs[1]);
EXPECT_EQ(0x300U, regs[3]);
EXPECT_EQ(0x10U, regs[8]);
EXPECT_EQ(0x102U, regs[9]);
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_register_reference_chain) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[0] = 0x10;
regs[1] = 0x20;
regs[2] = 0x30;
regs[3] = 0x40;
regs[4] = 0x50;
regs[5] = 0x60;
regs[8] = 0x20;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {8, 0}};
loc_regs[1] = DwarfLocation{DWARF_LOCATION_REGISTER, {0, 1}};
loc_regs[2] = DwarfLocation{DWARF_LOCATION_REGISTER, {1, 2}};
loc_regs[3] = DwarfLocation{DWARF_LOCATION_REGISTER, {2, 3}};
loc_regs[4] = DwarfLocation{DWARF_LOCATION_REGISTER, {3, 4}};
loc_regs[5] = DwarfLocation{DWARF_LOCATION_REGISTER, {4, 5}};
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(0x10U, regs[0]);
EXPECT_EQ(0x11U, regs[1]);
EXPECT_EQ(0x22U, regs[2]);
EXPECT_EQ(0x33U, regs[3]);
EXPECT_EQ(0x44U, regs[4]);
EXPECT_EQ(0x55U, regs[5]);
EXPECT_EQ(0x20U, regs[8]);
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_dex_pc) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[0] = 0x10;
regs[8] = 0x20;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {8, 0}};
loc_regs[1] = DwarfLocation{DWARF_LOCATION_VAL_EXPRESSION, {0x8, 0x5008}};
this->memory_.SetMemory(0x5000, std::vector<uint8_t>{0x0c, 'D', 'E', 'X', '1', 0x13, 0x08, 0x11});
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(0x10U, regs[0]);
EXPECT_EQ(0x20U, regs[8]);
EXPECT_EQ(0x11U, regs.dex_pc());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_invalid_register) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[8] = 0x10;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {8, 0}};
loc_regs[1] = DwarfLocation{DWARF_LOCATION_REGISTER, {10, 0}};
bool finished;
ASSERT_FALSE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_EQ(DWARF_ERROR_ILLEGAL_VALUE, this->section_->LastErrorCode());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_different_reg_locations) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
if (sizeof(TypeParam) == sizeof(uint64_t)) {
this->memory_.SetData64(0x2150, 0x12345678abcdef00ULL);
} else {
this->memory_.SetData32(0x2150, 0x12345678);
}
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[3] = 0x234;
regs[5] = 0x10;
regs[8] = 0x2100;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {8, 0}};
loc_regs[1] = DwarfLocation{DWARF_LOCATION_VAL_OFFSET, {0x100, 0}};
loc_regs[2] = DwarfLocation{DWARF_LOCATION_OFFSET, {0x50, 0}};
loc_regs[3] = DwarfLocation{DWARF_LOCATION_UNDEFINED, {0, 0}};
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_FALSE(finished);
EXPECT_EQ(0x10U, regs.pc());
EXPECT_EQ(0x2100U, regs.sp());
EXPECT_EQ(0x2200U, regs[1]);
EXPECT_EQ(0x234U, regs[3]);
if (sizeof(TypeParam) == sizeof(uint64_t)) {
EXPECT_EQ(0x12345678abcdef00ULL, regs[2]);
} else {
EXPECT_EQ(0x12345678U, regs[2]);
}
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_return_address_undefined) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[5] = 0x20;
regs[8] = 0x10;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {8, 0}};
loc_regs[5] = DwarfLocation{DWARF_LOCATION_UNDEFINED, {0, 0}};
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_TRUE(finished);
EXPECT_EQ(0U, regs.pc());
EXPECT_EQ(0x10U, regs.sp());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_pc_zero) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[5] = 0;
regs[8] = 0x10;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {8, 0}};
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_TRUE(finished);
EXPECT_EQ(0U, regs.pc());
EXPECT_EQ(0x10U, regs.sp());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_return_address) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[5] = 0x20;
regs[8] = 0x10;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {8, 0}};
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_FALSE(finished);
EXPECT_EQ(0x20U, regs.pc());
EXPECT_EQ(0x10U, regs.sp());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_ignore_large_reg_loc) {
DwarfCie cie{.return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[5] = 0x20;
regs[8] = 0x10;
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {8, 0}};
// This should not result in any errors.
loc_regs[20] = DwarfLocation{DWARF_LOCATION_REGISTER, {8, 0}};
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_FALSE(finished);
EXPECT_EQ(0x20U, regs.pc());
EXPECT_EQ(0x10U, regs.sp());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_reg_expr) {
DwarfCie cie{.version = 3, .return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[8] = 0x3000;
this->memory_.SetMemory(0x5000, std::vector<uint8_t>{0x0c, 0x00, 0x00, 0x00, 0x80});
TypeParam cfa_value = 0x12345;
this->memory_.SetMemory(0x80000000, &cfa_value, sizeof(cfa_value));
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {8, 0}};
loc_regs[5] = DwarfLocation{DWARF_LOCATION_EXPRESSION, {0x4, 0x5004}};
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_FALSE(finished);
EXPECT_EQ(0x3000U, regs.sp());
EXPECT_EQ(0x12345U, regs.pc());
}
TYPED_TEST_P(DwarfSectionImplTest, Eval_reg_val_expr) {
DwarfCie cie{.version = 3, .return_address_register = 5};
RegsImplFake<TypeParam> regs(10);
dwarf_loc_regs_t loc_regs;
regs.set_pc(0x100);
regs.set_sp(0x2000);
regs[8] = 0x3000;
this->memory_.SetMemory(0x5000, std::vector<uint8_t>{0x0c, 0x00, 0x00, 0x00, 0x80});
loc_regs[CFA_REG] = DwarfLocation{DWARF_LOCATION_REGISTER, {8, 0}};
loc_regs[5] = DwarfLocation{DWARF_LOCATION_VAL_EXPRESSION, {0x4, 0x5004}};
bool finished;
ASSERT_TRUE(this->section_->Eval(&cie, &this->memory_, loc_regs, &regs, &finished));
EXPECT_FALSE(finished);
EXPECT_EQ(0x3000U, regs.sp());
EXPECT_EQ(0x80000000U, regs.pc());
}
TYPED_TEST_P(DwarfSectionImplTest, GetCie_fail_should_not_cache) {
ASSERT_TRUE(this->section_->GetCie(0x4000) == nullptr);
EXPECT_EQ(DWARF_ERROR_MEMORY_INVALID, this->section_->LastErrorCode());
EXPECT_EQ(0x4000U, this->section_->LastErrorAddress());
this->section_->TestClearError();
ASSERT_TRUE(this->section_->GetCie(0x4000) == nullptr);
EXPECT_EQ(DWARF_ERROR_MEMORY_INVALID, this->section_->LastErrorCode());
EXPECT_EQ(0x4000U, this->section_->LastErrorAddress());
}
TYPED_TEST_P(DwarfSectionImplTest, GetCie_32_version_check) {
this->memory_.SetData32(0x5000, 0x100);
this->memory_.SetData32(0x5004, 0xffffffff);
this->memory_.SetData8(0x5008, 0x1);
this->memory_.SetData8(0x5009, '\0');
this->memory_.SetData8(0x500a, 4);
this->memory_.SetData8(0x500b, 8);
this->memory_.SetData8(0x500c, 0x20);
const DwarfCie* cie = this->section_->GetCie(0x5000);
ASSERT_TRUE(cie != nullptr);
EXPECT_EQ(1U, cie->version);
EXPECT_EQ(DW_EH_PE_sdata4, cie->fde_address_encoding);
EXPECT_EQ(DW_EH_PE_omit, cie->lsda_encoding);
EXPECT_EQ(0U, cie->segment_size);
EXPECT_EQ(1U, cie->augmentation_string.size());
EXPECT_EQ('\0', cie->augmentation_string[0]);
EXPECT_EQ(0U, cie->personality_handler);
EXPECT_EQ(0x500dU, cie->cfa_instructions_offset);
EXPECT_EQ(0x5104U, cie->cfa_instructions_end);
EXPECT_EQ(4U, cie->code_alignment_factor);
EXPECT_EQ(8, cie->data_alignment_factor);
EXPECT_EQ(0x20U, cie->return_address_register);
EXPECT_EQ(DWARF_ERROR_NONE, this->section_->LastErrorCode());
this->section_->TestClearCachedCieEntry();
// Set version to 0, 2, 5 and verify we fail.
this->memory_.SetData8(0x5008, 0x0);
this->section_->TestClearError();
ASSERT_TRUE(this->section_->GetCie(0x5000) == nullptr);
EXPECT_EQ(DWARF_ERROR_UNSUPPORTED_VERSION, this->section_->LastErrorCode());
this->memory_.SetData8(0x5008, 0x2);
this->section_->TestClearError();
ASSERT_TRUE(this->section_->GetCie(0x5000) == nullptr);
EXPECT_EQ(DWARF_ERROR_UNSUPPORTED_VERSION, this->section_->LastErrorCode());
this->memory_.SetData8(0x5008, 0x5);
this->section_->TestClearError();
ASSERT_TRUE(this->section_->GetCie(0x5000) == nullptr);
EXPECT_EQ(DWARF_ERROR_UNSUPPORTED_VERSION, this->section_->LastErrorCode());
}
TYPED_TEST_P(DwarfSectionImplTest, GetCie_negative_data_alignment_factor) {
this->memory_.SetData32(0x5000, 0x100);
this->memory_.SetData32(0x5004, 0xffffffff);
this->memory_.SetData8(0x5008, 0x1);
this->memory_.SetData8(0x5009, '\0');
this->memory_.SetData8(0x500a, 4);
this->memory_.SetMemory(0x500b, std::vector<uint8_t>{0xfc, 0xff, 0xff, 0xff, 0x7f});
this->memory_.SetData8(0x5010, 0x20);
const DwarfCie* cie = this->section_->GetCie(0x5000);
ASSERT_TRUE(cie != nullptr);
EXPECT_EQ(1U, cie->version);
EXPECT_EQ(DW_EH_PE_sdata4, cie->fde_address_encoding);
EXPECT_EQ(DW_EH_PE_omit, cie->lsda_encoding);
EXPECT_EQ(0U, cie->segment_size);
EXPECT_EQ(1U, cie->augmentation_string.size());
EXPECT_EQ('\0', cie->augmentation_string[0]);
EXPECT_EQ(0U, cie->personality_handler);
EXPECT_EQ(0x5011U, cie->cfa_instructions_offset);
EXPECT_EQ(0x5104U, cie->cfa_instructions_end);
EXPECT_EQ(4U, cie->code_alignment_factor);
EXPECT_EQ(-4, cie->data_alignment_factor);
EXPECT_EQ(0x20U, cie->return_address_register);
}
TYPED_TEST_P(DwarfSectionImplTest, GetCie_64_no_augment) {
this->memory_.SetData32(0x8000, 0xffffffff);
this->memory_.SetData64(0x8004, 0x200);
this->memory_.SetData64(0x800c, 0xffffffffffffffffULL);
this->memory_.SetData8(0x8014, 0x1);
this->memory_.SetData8(0x8015, '\0');
this->memory_.SetData8(0x8016, 4);
this->memory_.SetData8(0x8017, 8);
this->memory_.SetData8(0x8018, 0x20);
const DwarfCie* cie = this->section_->GetCie(0x8000);
ASSERT_TRUE(cie != nullptr);
EXPECT_EQ(1U, cie->version);
EXPECT_EQ(DW_EH_PE_sdata8, cie->fde_address_encoding);
EXPECT_EQ(DW_EH_PE_omit, cie->lsda_encoding);
EXPECT_EQ(0U, cie->segment_size);
EXPECT_EQ(1U, cie->augmentation_string.size());
EXPECT_EQ('\0', cie->augmentation_string[0]);
EXPECT_EQ(0U, cie->personality_handler);
EXPECT_EQ(0x8019U, cie->cfa_instructions_offset);
EXPECT_EQ(0x820cU, cie->cfa_instructions_end);
EXPECT_EQ(4U, cie->code_alignment_factor);
EXPECT_EQ(8, cie->data_alignment_factor);
EXPECT_EQ(0x20U, cie->return_address_register);
}
TYPED_TEST_P(DwarfSectionImplTest, GetCie_augment) {
this->memory_.SetData32(0x5000, 0x100);
this->memory_.SetData32(0x5004, 0xffffffff);
this->memory_.SetData8(0x5008, 0x1);
this->memory_.SetMemory(0x5009, std::vector<uint8_t>{'z', 'L', 'P', 'R', '\0'});
this->memory_.SetData8(0x500e, 4);
this->memory_.SetData8(0x500f, 8);
this->memory_.SetData8(0x5010, 0x10);
// Augment length.
this->memory_.SetData8(0x5011, 0xf);
// L data.
this->memory_.SetData8(0x5012, DW_EH_PE_textrel | DW_EH_PE_udata2);
// P data.
this->memory_.SetData8(0x5013, DW_EH_PE_udata4);
this->memory_.SetData32(0x5014, 0x12345678);
// R data.
this->memory_.SetData8(0x5018, DW_EH_PE_udata2);
const DwarfCie* cie = this->section_->GetCie(0x5000);
ASSERT_TRUE(cie != nullptr);
EXPECT_EQ(1U, cie->version);
EXPECT_EQ(DW_EH_PE_udata2, cie->fde_address_encoding);
EXPECT_EQ(DW_EH_PE_textrel | DW_EH_PE_udata2, cie->lsda_encoding);
EXPECT_EQ(0U, cie->segment_size);
EXPECT_EQ(5U, cie->augmentation_string.size());
EXPECT_EQ('z', cie->augmentation_string[0]);
EXPECT_EQ('L', cie->augmentation_string[1]);
EXPECT_EQ('P', cie->augmentation_string[2]);
EXPECT_EQ('R', cie->augmentation_string[3]);
EXPECT_EQ('\0', cie->augmentation_string[4]);
EXPECT_EQ(0x12345678U, cie->personality_handler);
EXPECT_EQ(0x5021U, cie->cfa_instructions_offset);
EXPECT_EQ(0x5104U, cie->cfa_instructions_end);
EXPECT_EQ(4U, cie->code_alignment_factor);
EXPECT_EQ(8, cie->data_alignment_factor);
EXPECT_EQ(0x10U, cie->return_address_register);
}
TYPED_TEST_P(DwarfSectionImplTest, GetCie_version_3) {
this->memory_.SetData32(0x5000, 0x100);
this->memory_.SetData32(0x5004, 0xffffffff);
this->memory_.SetData8(0x5008, 0x3);
this->memory_.SetData8(0x5009, '\0');
this->memory_.SetData8(0x500a, 4);
this->memory_.SetData8(0x500b, 8);
this->memory_.SetMemory(0x500c, std::vector<uint8_t>{0x81, 0x03});
const DwarfCie* cie = this->section_->GetCie(0x5000);
ASSERT_TRUE(cie != nullptr);
EXPECT_EQ(3U, cie->version);
EXPECT_EQ(DW_EH_PE_sdata4, cie->fde_address_encoding);
EXPECT_EQ(DW_EH_PE_omit, cie->lsda_encoding);
EXPECT_EQ(0U, cie->segment_size);
EXPECT_EQ(1U, cie->augmentation_string.size());
EXPECT_EQ('\0', cie->augmentation_string[0]);
EXPECT_EQ(0U, cie->personality_handler);
EXPECT_EQ(0x500eU, cie->cfa_instructions_offset);
EXPECT_EQ(0x5104U, cie->cfa_instructions_end);
EXPECT_EQ(4U, cie->code_alignment_factor);
EXPECT_EQ(8, cie->data_alignment_factor);
EXPECT_EQ(0x181U, cie->return_address_register);
}
TYPED_TEST_P(DwarfSectionImplTest, GetCie_version_4) {
this->memory_.SetData32(0x5000, 0x100);
this->memory_.SetData32(0x5004, 0xffffffff);
this->memory_.SetData8(0x5008, 0x4);
this->memory_.SetData8(0x5009, '\0');
this->memory_.SetData8(0x500a, 4);
this->memory_.SetData8(0x500b, 0x13);
this->memory_.SetData8(0x500c, 4);
this->memory_.SetData8(0x500d, 8);
this->memory_.SetMemory(0x500e, std::vector<uint8_t>{0x81, 0x03});
const DwarfCie* cie = this->section_->GetCie(0x5000);
ASSERT_TRUE(cie != nullptr);
EXPECT_EQ(4U, cie->version);
EXPECT_EQ(DW_EH_PE_sdata4, cie->fde_address_encoding);
EXPECT_EQ(DW_EH_PE_omit, cie->lsda_encoding);
EXPECT_EQ(0x13U, cie->segment_size);
EXPECT_EQ(1U, cie->augmentation_string.size());
EXPECT_EQ('\0', cie->augmentation_string[0]);
EXPECT_EQ(0U, cie->personality_handler);
EXPECT_EQ(0x5010U, cie->cfa_instructions_offset);
EXPECT_EQ(0x5104U, cie->cfa_instructions_end);
EXPECT_EQ(4U, cie->code_alignment_factor);
EXPECT_EQ(8, cie->data_alignment_factor);
EXPECT_EQ(0x181U, cie->return_address_register);
}
TYPED_TEST_P(DwarfSectionImplTest, GetFdeFromOffset_fail_should_not_cache) {
ASSERT_TRUE(this->section_->GetFdeFromOffset(0x4000) == nullptr);
EXPECT_EQ(DWARF_ERROR_MEMORY_INVALID, this->section_->LastErrorCode());
EXPECT_EQ(0x4000U, this->section_->LastErrorAddress());
this->section_->TestClearError();
ASSERT_TRUE(this->section_->GetFdeFromOffset(0x4000) == nullptr);
EXPECT_EQ(DWARF_ERROR_MEMORY_INVALID, this->section_->LastErrorCode());
EXPECT_EQ(0x4000U, this->section_->LastErrorAddress());
}
TYPED_TEST_P(DwarfSectionImplTest, GetFdeFromOffset_32_no_augment) {
this->memory_.SetData32(0x4000, 0x20);
this->memory_.SetData32(0x4004, 0x8000);
this->memory_.SetData32(0x4008, 0x5000);
this->memory_.SetData32(0x400c, 0x100);
EXPECT_CALL(*this->section_, GetCieOffsetFromFde32(0x8000)).WillOnce(::testing::Return(0x8000));
DwarfCie cie{};
cie.fde_address_encoding = DW_EH_PE_udata4;
this->section_->TestSetCachedCieEntry(0x8000, cie);
EXPECT_CALL(*this->section_, AdjustPcFromFde(0x5000)).WillOnce(::testing::Return(0x5000));
const DwarfFde* fde = this->section_->GetFdeFromOffset(0x4000);
ASSERT_TRUE(fde != nullptr);
ASSERT_TRUE(fde->cie != nullptr);
EXPECT_EQ(0x4010U, fde->cfa_instructions_offset);
EXPECT_EQ(0x4024U, fde->cfa_instructions_end);
EXPECT_EQ(0x5000U, fde->pc_start);
EXPECT_EQ(0x5100U, fde->pc_end);
EXPECT_EQ(0x8000U, fde->cie_offset);
EXPECT_EQ(0U, fde->lsda_address);
}
TYPED_TEST_P(DwarfSectionImplTest, GetFdeFromOffset_32_no_augment_non_zero_segment_size) {
this->memory_.SetData32(0x4000, 0x30);
this->memory_.SetData32(0x4004, 0x8000);
this->memory_.SetData32(0x4018, 0x5000);
this->memory_.SetData32(0x401c, 0x100);
EXPECT_CALL(*this->section_, GetCieOffsetFromFde32(0x8000)).WillOnce(::testing::Return(0x8000));
DwarfCie cie{};
cie.fde_address_encoding = DW_EH_PE_udata4;
cie.segment_size = 0x10;
this->section_->TestSetCachedCieEntry(0x8000, cie);
EXPECT_CALL(*this->section_, AdjustPcFromFde(0x5000)).WillOnce(::testing::Return(0x5000));
const DwarfFde* fde = this->section_->GetFdeFromOffset(0x4000);
ASSERT_TRUE(fde != nullptr);
ASSERT_TRUE(fde->cie != nullptr);
EXPECT_EQ(0x4020U, fde->cfa_instructions_offset);
EXPECT_EQ(0x4034U, fde->cfa_instructions_end);
EXPECT_EQ(0x5000U, fde->pc_start);
EXPECT_EQ(0x5100U, fde->pc_end);
EXPECT_EQ(0x8000U, fde->cie_offset);
EXPECT_EQ(0U, fde->lsda_address);
}
TYPED_TEST_P(DwarfSectionImplTest, GetFdeFromOffset_32_augment) {
this->memory_.SetData32(0x4000, 0x100);
this->memory_.SetData32(0x4004, 0x8000);
this->memory_.SetData32(0x4008, 0x5000);
this->memory_.SetData32(0x400c, 0x100);
this->memory_.SetMemory(0x4010, std::vector<uint8_t>{0x82, 0x01});
this->memory_.SetData16(0x4012, 0x1234);
EXPECT_CALL(*this->section_, GetCieOffsetFromFde32(0x8000)).WillOnce(::testing::Return(0x8000));
DwarfCie cie{};
cie.fde_address_encoding = DW_EH_PE_udata4;
cie.augmentation_string.push_back('z');
cie.lsda_encoding = DW_EH_PE_udata2;
this->section_->TestSetCachedCieEntry(0x8000, cie);
EXPECT_CALL(*this->section_, AdjustPcFromFde(0x5000)).WillOnce(::testing::Return(0x5000));
const DwarfFde* fde = this->section_->GetFdeFromOffset(0x4000);
ASSERT_TRUE(fde != nullptr);
ASSERT_TRUE(fde->cie != nullptr);
EXPECT_EQ(0x4094U, fde->cfa_instructions_offset);
EXPECT_EQ(0x4104U, fde->cfa_instructions_end);
EXPECT_EQ(0x5000U, fde->pc_start);
EXPECT_EQ(0x5100U, fde->pc_end);
EXPECT_EQ(0x8000U, fde->cie_offset);
EXPECT_EQ(0x1234U, fde->lsda_address);
}
TYPED_TEST_P(DwarfSectionImplTest, GetFdeFromOffset_64_no_augment) {
this->memory_.SetData32(0x4000, 0xffffffff);
this->memory_.SetData64(0x4004, 0x100);
this->memory_.SetData64(0x400c, 0x12345678);
this->memory_.SetData32(0x4014, 0x5000);
this->memory_.SetData32(0x4018, 0x100);
EXPECT_CALL(*this->section_, GetCieOffsetFromFde64(0x12345678))
.WillOnce(::testing::Return(0x12345678));
DwarfCie cie{};
cie.fde_address_encoding = DW_EH_PE_udata4;
this->section_->TestSetCachedCieEntry(0x12345678, cie);
EXPECT_CALL(*this->section_, AdjustPcFromFde(0x5000)).WillOnce(::testing::Return(0x5000));
const DwarfFde* fde = this->section_->GetFdeFromOffset(0x4000);
ASSERT_TRUE(fde != nullptr);
ASSERT_TRUE(fde->cie != nullptr);
EXPECT_EQ(0x401cU, fde->cfa_instructions_offset);
EXPECT_EQ(0x410cU, fde->cfa_instructions_end);
EXPECT_EQ(0x5000U, fde->pc_start);
EXPECT_EQ(0x5100U, fde->pc_end);
EXPECT_EQ(0x12345678U, fde->cie_offset);
EXPECT_EQ(0U, fde->lsda_address);
}
TYPED_TEST_P(DwarfSectionImplTest, GetFdeFromOffset_cached) {
DwarfCie cie{};
cie.fde_address_encoding = DW_EH_PE_udata4;
cie.augmentation_string.push_back('z');
cie.lsda_encoding = DW_EH_PE_udata2;
DwarfFde fde_cached{};
fde_cached.cfa_instructions_offset = 0x1000;
fde_cached.cfa_instructions_end = 0x1100;
fde_cached.pc_start = 0x9000;
fde_cached.pc_end = 0x9400;
fde_cached.cie_offset = 0x30000;
fde_cached.cie = &cie;
this->section_->TestSetCachedFdeEntry(0x6000, fde_cached);
const DwarfFde* fde = this->section_->GetFdeFromOffset(0x6000);
ASSERT_TRUE(fde != nullptr);
ASSERT_EQ(&cie, fde->cie);
EXPECT_EQ(0x1000U, fde->cfa_instructions_offset);
EXPECT_EQ(0x1100U, fde->cfa_instructions_end);
EXPECT_EQ(0x9000U, fde->pc_start);
EXPECT_EQ(0x9400U, fde->pc_end);
EXPECT_EQ(0x30000U, fde->cie_offset);
}
TYPED_TEST_P(DwarfSectionImplTest, GetCfaLocationInfo_cie_not_cached) {
DwarfCie cie{};
cie.cfa_instructions_offset = 0x3000;
cie.cfa_instructions_end = 0x3002;
DwarfFde fde{};
fde.cie = &cie;
fde.cie_offset = 0x8000;
fde.cfa_instructions_offset = 0x6000;
fde.cfa_instructions_end = 0x6002;
this->memory_.SetMemory(0x3000, std::vector<uint8_t>{0x09, 0x02, 0x01});
this->memory_.SetMemory(0x6000, std::vector<uint8_t>{0x09, 0x04, 0x03});
dwarf_loc_regs_t loc_regs;
ASSERT_TRUE(this->section_->GetCfaLocationInfo(0x100, &fde, &loc_regs));
ASSERT_EQ(2U, loc_regs.size());
auto entry = loc_regs.find(2);
ASSERT_NE(entry, loc_regs.end());
ASSERT_EQ(DWARF_LOCATION_REGISTER, entry->second.type);
ASSERT_EQ(1U, entry->second.values[0]);
entry = loc_regs.find(4);
ASSERT_NE(entry, loc_regs.end());
ASSERT_EQ(DWARF_LOCATION_REGISTER, entry->second.type);
ASSERT_EQ(3U, entry->second.values[0]);
}
TYPED_TEST_P(DwarfSectionImplTest, GetCfaLocationInfo_cie_cached) {
DwarfCie cie{};
cie.cfa_instructions_offset = 0x3000;
cie.cfa_instructions_end = 0x3002;
DwarfFde fde{};
fde.cie = &cie;
fde.cie_offset = 0x8000;
fde.cfa_instructions_offset = 0x6000;
fde.cfa_instructions_end = 0x6002;
dwarf_loc_regs_t cie_loc_regs;
cie_loc_regs[6] = DwarfLocation{DWARF_LOCATION_REGISTER, {4, 0}};
this->section_->TestSetCachedCieLocRegs(0x8000, cie_loc_regs);
this->memory_.SetMemory(0x6000, std::vector<uint8_t>{0x09, 0x04, 0x03});
dwarf_loc_regs_t loc_regs;
ASSERT_TRUE(this->section_->GetCfaLocationInfo(0x100, &fde, &loc_regs));
ASSERT_EQ(2U, loc_regs.size());
auto entry = loc_regs.find(6);
ASSERT_NE(entry, loc_regs.end());
ASSERT_EQ(DWARF_LOCATION_REGISTER, entry->second.type);
ASSERT_EQ(4U, entry->second.values[0]);
entry = loc_regs.find(4);
ASSERT_NE(entry, loc_regs.end());
ASSERT_EQ(DWARF_LOCATION_REGISTER, entry->second.type);
ASSERT_EQ(3U, entry->second.values[0]);
}
TYPED_TEST_P(DwarfSectionImplTest, Log) {
DwarfCie cie{};
cie.cfa_instructions_offset = 0x5000;
cie.cfa_instructions_end = 0x5001;
DwarfFde fde{};
fde.cie = &cie;
fde.cfa_instructions_offset = 0x6000;
fde.cfa_instructions_end = 0x6001;
this->memory_.SetMemory(0x5000, std::vector<uint8_t>{0x00});
this->memory_.SetMemory(0x6000, std::vector<uint8_t>{0xc2});
ASSERT_TRUE(this->section_->Log(2, 0x1000, &fde));
ASSERT_EQ(
"4 unwind DW_CFA_nop\n"
"4 unwind Raw Data: 0x00\n"
"4 unwind DW_CFA_restore register(2)\n"
"4 unwind Raw Data: 0xc2\n",
GetFakeLogPrint());
ASSERT_EQ("", GetFakeLogBuf());
}
REGISTER_TYPED_TEST_CASE_P(
DwarfSectionImplTest, Eval_cfa_expr_eval_fail, Eval_cfa_expr_no_stack,
Eval_cfa_expr_is_register, Eval_cfa_expr, Eval_cfa_val_expr, Eval_bad_regs, Eval_no_cfa,
Eval_cfa_bad, Eval_cfa_register_prev, Eval_cfa_register_from_value, Eval_double_indirection,
Eval_register_reference_chain, Eval_dex_pc, Eval_invalid_register, Eval_different_reg_locations,
Eval_return_address_undefined, Eval_pc_zero, Eval_return_address, Eval_ignore_large_reg_loc,
Eval_reg_expr, Eval_reg_val_expr, GetCie_fail_should_not_cache, GetCie_32_version_check,
GetCie_negative_data_alignment_factor, GetCie_64_no_augment, GetCie_augment, GetCie_version_3,
GetCie_version_4, GetFdeFromOffset_fail_should_not_cache, GetFdeFromOffset_32_no_augment,
GetFdeFromOffset_32_no_augment_non_zero_segment_size, GetFdeFromOffset_32_augment,
GetFdeFromOffset_64_no_augment, GetFdeFromOffset_cached, GetCfaLocationInfo_cie_not_cached,
GetCfaLocationInfo_cie_cached, Log);
typedef ::testing::Types<uint32_t, uint64_t> DwarfSectionImplTestTypes;
INSTANTIATE_TYPED_TEST_CASE_P(, DwarfSectionImplTest, DwarfSectionImplTestTypes);
} // namespace unwindstack
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