blob: 94a9974511e3d93bd01d61a8a6ded54bca53e36a [file] [log] [blame]
/*
* 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 "DwarfDebugFrame.h"
#include "DwarfEncoding.h"
#include "LogFake.h"
#include "MemoryFake.h"
#include "RegsFake.h"
template <typename TypeParam>
class MockDwarfDebugFrame : public DwarfDebugFrame<TypeParam> {
public:
MockDwarfDebugFrame(Memory* memory) : DwarfDebugFrame<TypeParam>(memory) {}
~MockDwarfDebugFrame() = default;
void TestSetFdeCount(uint64_t count) { this->fde_count_ = count; }
void TestSetOffset(uint64_t offset) { this->offset_ = offset; }
void TestSetEndOffset(uint64_t offset) { this->end_offset_ = offset; }
void TestPushFdeInfo(const typename DwarfDebugFrame<TypeParam>::FdeInfo& info) {
this->fdes_.push_back(info);
}
uint64_t TestGetFdeCount() { return this->fde_count_; }
uint8_t TestGetOffset() { return this->offset_; }
uint8_t TestGetEndOffset() { return this->end_offset_; }
void TestGetFdeInfo(size_t index, typename DwarfDebugFrame<TypeParam>::FdeInfo* info) {
*info = this->fdes_[index];
}
};
template <typename TypeParam>
class DwarfDebugFrameTest : public ::testing::Test {
protected:
void SetUp() override {
memory_.Clear();
debug_frame_ = new MockDwarfDebugFrame<TypeParam>(&memory_);
ResetLogs();
}
void TearDown() override { delete debug_frame_; }
MemoryFake memory_;
MockDwarfDebugFrame<TypeParam>* debug_frame_ = nullptr;
};
TYPED_TEST_CASE_P(DwarfDebugFrameTest);
// NOTE: All test class variables need to be referenced as this->.
TYPED_TEST_P(DwarfDebugFrameTest, Init32) {
// CIE 32 information.
this->memory_.SetData32(0x5000, 0xfc);
this->memory_.SetData32(0x5004, 0xffffffff);
this->memory_.SetData8(0x5008, 1);
this->memory_.SetData8(0x5009, '\0');
// FDE 32 information.
this->memory_.SetData32(0x5100, 0xfc);
this->memory_.SetData32(0x5104, 0);
this->memory_.SetData32(0x5108, 0x1500);
this->memory_.SetData32(0x510c, 0x200);
this->memory_.SetData32(0x5200, 0xfc);
this->memory_.SetData32(0x5204, 0);
this->memory_.SetData32(0x5208, 0x2500);
this->memory_.SetData32(0x520c, 0x300);
// CIE 32 information.
this->memory_.SetData32(0x5300, 0xfc);
this->memory_.SetData32(0x5304, 0xffffffff);
this->memory_.SetData8(0x5308, 1);
this->memory_.SetData8(0x5309, '\0');
// FDE 32 information.
this->memory_.SetData32(0x5400, 0xfc);
this->memory_.SetData32(0x5404, 0x300);
this->memory_.SetData32(0x5408, 0x3500);
this->memory_.SetData32(0x540c, 0x400);
this->memory_.SetData32(0x5500, 0xfc);
this->memory_.SetData32(0x5504, 0x300);
this->memory_.SetData32(0x5508, 0x4500);
this->memory_.SetData32(0x550c, 0x500);
ASSERT_TRUE(this->debug_frame_->Init(0x5000, 0x600));
ASSERT_EQ(4U, this->debug_frame_->TestGetFdeCount());
typename DwarfDebugFrame<TypeParam>::FdeInfo info(0, 0, 0);
this->debug_frame_->TestGetFdeInfo(0, &info);
EXPECT_EQ(0x5100U, info.offset);
EXPECT_EQ(0x1500U, info.start);
EXPECT_EQ(0x1700U, info.end);
this->debug_frame_->TestGetFdeInfo(1, &info);
EXPECT_EQ(0x5200U, info.offset);
EXPECT_EQ(0x2500U, info.start);
EXPECT_EQ(0x2800U, info.end);
this->debug_frame_->TestGetFdeInfo(2, &info);
EXPECT_EQ(0x5400U, info.offset);
EXPECT_EQ(0x3500U, info.start);
EXPECT_EQ(0x3900U, info.end);
this->debug_frame_->TestGetFdeInfo(3, &info);
EXPECT_EQ(0x5500U, info.offset);
EXPECT_EQ(0x4500U, info.start);
EXPECT_EQ(0x4a00U, info.end);
}
TYPED_TEST_P(DwarfDebugFrameTest, Init32_fde_not_following_cie) {
// CIE 32 information.
this->memory_.SetData32(0x5000, 0xfc);
this->memory_.SetData32(0x5004, 0xffffffff);
this->memory_.SetData8(0x5008, 1);
this->memory_.SetData8(0x5009, '\0');
// FDE 32 information.
this->memory_.SetData32(0x5100, 0xfc);
this->memory_.SetData32(0x5104, 0x1000);
this->memory_.SetData32(0x5108, 0x1500);
this->memory_.SetData32(0x510c, 0x200);
ASSERT_FALSE(this->debug_frame_->Init(0x5000, 0x600));
ASSERT_EQ(DWARF_ERROR_ILLEGAL_VALUE, this->debug_frame_->last_error());
}
TYPED_TEST_P(DwarfDebugFrameTest, Init64) {
// CIE 64 information.
this->memory_.SetData32(0x5000, 0xffffffff);
this->memory_.SetData64(0x5004, 0xf4);
this->memory_.SetData64(0x500c, 0xffffffffffffffffULL);
this->memory_.SetData8(0x5014, 1);
this->memory_.SetData8(0x5015, '\0');
// FDE 64 information.
this->memory_.SetData32(0x5100, 0xffffffff);
this->memory_.SetData64(0x5104, 0xf4);
this->memory_.SetData64(0x510c, 0);
this->memory_.SetData64(0x5114, 0x1500);
this->memory_.SetData64(0x511c, 0x200);
this->memory_.SetData32(0x5200, 0xffffffff);
this->memory_.SetData64(0x5204, 0xf4);
this->memory_.SetData64(0x520c, 0);
this->memory_.SetData64(0x5214, 0x2500);
this->memory_.SetData64(0x521c, 0x300);
// CIE 64 information.
this->memory_.SetData32(0x5300, 0xffffffff);
this->memory_.SetData64(0x5304, 0xf4);
this->memory_.SetData64(0x530c, 0xffffffffffffffffULL);
this->memory_.SetData8(0x5314, 1);
this->memory_.SetData8(0x5315, '\0');
// FDE 64 information.
this->memory_.SetData32(0x5400, 0xffffffff);
this->memory_.SetData64(0x5404, 0xf4);
this->memory_.SetData64(0x540c, 0x300);
this->memory_.SetData64(0x5414, 0x3500);
this->memory_.SetData64(0x541c, 0x400);
this->memory_.SetData32(0x5500, 0xffffffff);
this->memory_.SetData64(0x5504, 0xf4);
this->memory_.SetData64(0x550c, 0x300);
this->memory_.SetData64(0x5514, 0x4500);
this->memory_.SetData64(0x551c, 0x500);
ASSERT_TRUE(this->debug_frame_->Init(0x5000, 0x600));
ASSERT_EQ(4U, this->debug_frame_->TestGetFdeCount());
typename DwarfDebugFrame<TypeParam>::FdeInfo info(0, 0, 0);
this->debug_frame_->TestGetFdeInfo(0, &info);
EXPECT_EQ(0x5100U, info.offset);
EXPECT_EQ(0x1500U, info.start);
EXPECT_EQ(0x1700U, info.end);
this->debug_frame_->TestGetFdeInfo(1, &info);
EXPECT_EQ(0x5200U, info.offset);
EXPECT_EQ(0x2500U, info.start);
EXPECT_EQ(0x2800U, info.end);
this->debug_frame_->TestGetFdeInfo(2, &info);
EXPECT_EQ(0x5400U, info.offset);
EXPECT_EQ(0x3500U, info.start);
EXPECT_EQ(0x3900U, info.end);
this->debug_frame_->TestGetFdeInfo(3, &info);
EXPECT_EQ(0x5500U, info.offset);
EXPECT_EQ(0x4500U, info.start);
EXPECT_EQ(0x4a00U, info.end);
}
TYPED_TEST_P(DwarfDebugFrameTest, Init64_fde_not_following_cie) {
// CIE 64 information.
this->memory_.SetData32(0x5000, 0xffffffff);
this->memory_.SetData64(0x5004, 0xf4);
this->memory_.SetData64(0x500c, 0xffffffffffffffffULL);
this->memory_.SetData8(0x5014, 1);
this->memory_.SetData8(0x5015, '\0');
// FDE 64 information.
this->memory_.SetData32(0x5100, 0xffffffff);
this->memory_.SetData64(0x5104, 0xf4);
this->memory_.SetData64(0x510c, 0x1000);
this->memory_.SetData64(0x5114, 0x1500);
this->memory_.SetData64(0x511c, 0x200);
ASSERT_FALSE(this->debug_frame_->Init(0x5000, 0x600));
ASSERT_EQ(DWARF_ERROR_ILLEGAL_VALUE, this->debug_frame_->last_error());
}
TYPED_TEST_P(DwarfDebugFrameTest, Init_version1) {
// CIE 32 information.
this->memory_.SetData32(0x5000, 0xfc);
this->memory_.SetData32(0x5004, 0xffffffff);
this->memory_.SetData8(0x5008, 1);
// Augment string.
this->memory_.SetMemory(0x5009, std::vector<uint8_t>{'z', 'R', 'P', 'L', '\0'});
// Code alignment factor.
this->memory_.SetMemory(0x500e, std::vector<uint8_t>{0x80, 0x00});
// Data alignment factor.
this->memory_.SetMemory(0x5010, std::vector<uint8_t>{0x81, 0x80, 0x80, 0x00});
// Return address register
this->memory_.SetData8(0x5014, 0x84);
// Augmentation length
this->memory_.SetMemory(0x5015, std::vector<uint8_t>{0x84, 0x00});
// R data.
this->memory_.SetData8(0x5017, DW_EH_PE_pcrel | DW_EH_PE_udata2);
// FDE 32 information.
this->memory_.SetData32(0x5100, 0xfc);
this->memory_.SetData32(0x5104, 0);
this->memory_.SetData16(0x5108, 0x1500);
this->memory_.SetData16(0x510a, 0x200);
ASSERT_TRUE(this->debug_frame_->Init(0x5000, 0x200));
ASSERT_EQ(1U, this->debug_frame_->TestGetFdeCount());
typename DwarfDebugFrame<TypeParam>::FdeInfo info(0, 0, 0);
this->debug_frame_->TestGetFdeInfo(0, &info);
EXPECT_EQ(0x5100U, info.offset);
EXPECT_EQ(0x1500U, info.start);
EXPECT_EQ(0x1700U, info.end);
}
TYPED_TEST_P(DwarfDebugFrameTest, Init_version4) {
// CIE 32 information.
this->memory_.SetData32(0x5000, 0xfc);
this->memory_.SetData32(0x5004, 0xffffffff);
this->memory_.SetData8(0x5008, 4);
// Augment string.
this->memory_.SetMemory(0x5009, std::vector<uint8_t>{'z', 'L', 'P', 'R', '\0'});
// Address size.
this->memory_.SetData8(0x500e, 4);
// Segment size.
this->memory_.SetData8(0x500f, 0);
// Code alignment factor.
this->memory_.SetMemory(0x5010, std::vector<uint8_t>{0x80, 0x00});
// Data alignment factor.
this->memory_.SetMemory(0x5012, std::vector<uint8_t>{0x81, 0x80, 0x80, 0x00});
// Return address register
this->memory_.SetMemory(0x5016, std::vector<uint8_t>{0x85, 0x10});
// Augmentation length
this->memory_.SetMemory(0x5018, std::vector<uint8_t>{0x84, 0x00});
// L data.
this->memory_.SetData8(0x501a, 0x10);
// P data.
this->memory_.SetData8(0x501b, DW_EH_PE_udata4);
this->memory_.SetData32(0x501c, 0x100);
// R data.
this->memory_.SetData8(0x5020, DW_EH_PE_pcrel | DW_EH_PE_udata2);
// FDE 32 information.
this->memory_.SetData32(0x5100, 0xfc);
this->memory_.SetData32(0x5104, 0);
this->memory_.SetData16(0x5108, 0x1500);
this->memory_.SetData16(0x510a, 0x200);
ASSERT_TRUE(this->debug_frame_->Init(0x5000, 0x200));
ASSERT_EQ(1U, this->debug_frame_->TestGetFdeCount());
typename DwarfDebugFrame<TypeParam>::FdeInfo info(0, 0, 0);
this->debug_frame_->TestGetFdeInfo(0, &info);
EXPECT_EQ(0x5100U, info.offset);
EXPECT_EQ(0x1500U, info.start);
EXPECT_EQ(0x1700U, info.end);
}
TYPED_TEST_P(DwarfDebugFrameTest, GetFdeOffsetFromPc) {
typename DwarfDebugFrame<TypeParam>::FdeInfo info(0, 0, 0);
for (size_t i = 0; i < 9; i++) {
info.start = 0x1000 * (i + 1);
info.end = 0x1000 * (i + 2) - 0x10;
info.offset = 0x5000 + i * 0x20;
this->debug_frame_->TestPushFdeInfo(info);
}
this->debug_frame_->TestSetFdeCount(0);
uint64_t fde_offset;
ASSERT_FALSE(this->debug_frame_->GetFdeOffsetFromPc(0x1000, &fde_offset));
ASSERT_EQ(DWARF_ERROR_NONE, this->debug_frame_->last_error());
this->debug_frame_->TestSetFdeCount(9);
ASSERT_FALSE(this->debug_frame_->GetFdeOffsetFromPc(0x100, &fde_offset));
ASSERT_EQ(DWARF_ERROR_NONE, this->debug_frame_->last_error());
// Odd number of elements.
for (size_t i = 0; i < 9; i++) {
TypeParam pc = 0x1000 * (i + 1);
ASSERT_TRUE(this->debug_frame_->GetFdeOffsetFromPc(pc, &fde_offset)) << "Failed at index " << i;
EXPECT_EQ(0x5000 + i * 0x20, fde_offset) << "Failed at index " << i;
ASSERT_TRUE(this->debug_frame_->GetFdeOffsetFromPc(pc + 1, &fde_offset)) << "Failed at index "
<< i;
EXPECT_EQ(0x5000 + i * 0x20, fde_offset) << "Failed at index " << i;
ASSERT_TRUE(this->debug_frame_->GetFdeOffsetFromPc(pc + 0xeff, &fde_offset))
<< "Failed at index " << i;
EXPECT_EQ(0x5000 + i * 0x20, fde_offset) << "Failed at index " << i;
ASSERT_FALSE(this->debug_frame_->GetFdeOffsetFromPc(pc + 0xfff, &fde_offset))
<< "Failed at index " << i;
ASSERT_EQ(DWARF_ERROR_NONE, this->debug_frame_->last_error());
}
// Even number of elements.
this->debug_frame_->TestSetFdeCount(10);
info.start = 0xa000;
info.end = 0xaff0;
info.offset = 0x5120;
this->debug_frame_->TestPushFdeInfo(info);
for (size_t i = 0; i < 10; i++) {
TypeParam pc = 0x1000 * (i + 1);
ASSERT_TRUE(this->debug_frame_->GetFdeOffsetFromPc(pc, &fde_offset)) << "Failed at index " << i;
EXPECT_EQ(0x5000 + i * 0x20, fde_offset) << "Failed at index " << i;
ASSERT_TRUE(this->debug_frame_->GetFdeOffsetFromPc(pc + 1, &fde_offset)) << "Failed at index "
<< i;
EXPECT_EQ(0x5000 + i * 0x20, fde_offset) << "Failed at index " << i;
ASSERT_TRUE(this->debug_frame_->GetFdeOffsetFromPc(pc + 0xeff, &fde_offset))
<< "Failed at index " << i;
EXPECT_EQ(0x5000 + i * 0x20, fde_offset) << "Failed at index " << i;
ASSERT_FALSE(this->debug_frame_->GetFdeOffsetFromPc(pc + 0xfff, &fde_offset))
<< "Failed at index " << i;
ASSERT_EQ(DWARF_ERROR_NONE, this->debug_frame_->last_error());
}
}
TYPED_TEST_P(DwarfDebugFrameTest, GetCieFde32) {
this->debug_frame_->TestSetOffset(0x4000);
// CIE 32 information.
this->memory_.SetData32(0xf000, 0x100);
this->memory_.SetData32(0xf004, 0xffffffff);
this->memory_.SetData8(0xf008, 0x1);
this->memory_.SetData8(0xf009, '\0');
this->memory_.SetData8(0xf00a, 4);
this->memory_.SetData8(0xf00b, 8);
this->memory_.SetData8(0xf00c, 0x20);
// FDE 32 information.
this->memory_.SetData32(0x14000, 0x20);
this->memory_.SetData32(0x14004, 0xb000);
this->memory_.SetData32(0x14008, 0x9000);
this->memory_.SetData32(0x1400c, 0x100);
const DwarfFde* fde = this->debug_frame_->GetFdeFromOffset(0x14000);
ASSERT_TRUE(fde != nullptr);
EXPECT_EQ(0x14010U, fde->cfa_instructions_offset);
EXPECT_EQ(0x14024U, fde->cfa_instructions_end);
EXPECT_EQ(0x9000U, fde->pc_start);
EXPECT_EQ(0x9100U, fde->pc_end);
EXPECT_EQ(0xf000U, fde->cie_offset);
EXPECT_EQ(0U, fde->lsda_address);
ASSERT_TRUE(fde->cie != nullptr);
EXPECT_EQ(1U, fde->cie->version);
EXPECT_EQ(DW_EH_PE_sdata4, fde->cie->fde_address_encoding);
EXPECT_EQ(DW_EH_PE_omit, fde->cie->lsda_encoding);
EXPECT_EQ(0U, fde->cie->segment_size);
EXPECT_EQ(1U, fde->cie->augmentation_string.size());
EXPECT_EQ('\0', fde->cie->augmentation_string[0]);
EXPECT_EQ(0U, fde->cie->personality_handler);
EXPECT_EQ(0xf00dU, fde->cie->cfa_instructions_offset);
EXPECT_EQ(0xf104U, fde->cie->cfa_instructions_end);
EXPECT_EQ(4U, fde->cie->code_alignment_factor);
EXPECT_EQ(8, fde->cie->data_alignment_factor);
EXPECT_EQ(0x20U, fde->cie->return_address_register);
}
TYPED_TEST_P(DwarfDebugFrameTest, GetCieFde64) {
this->debug_frame_->TestSetOffset(0x2000);
// CIE 64 information.
this->memory_.SetData32(0x6000, 0xffffffff);
this->memory_.SetData64(0x6004, 0x100);
this->memory_.SetData64(0x600c, 0xffffffffffffffffULL);
this->memory_.SetData8(0x6014, 0x1);
this->memory_.SetData8(0x6015, '\0');
this->memory_.SetData8(0x6016, 4);
this->memory_.SetData8(0x6017, 8);
this->memory_.SetData8(0x6018, 0x20);
// FDE 64 information.
this->memory_.SetData32(0x8000, 0xffffffff);
this->memory_.SetData64(0x8004, 0x200);
this->memory_.SetData64(0x800c, 0x4000);
this->memory_.SetData64(0x8014, 0x5000);
this->memory_.SetData64(0x801c, 0x300);
const DwarfFde* fde = this->debug_frame_->GetFdeFromOffset(0x8000);
ASSERT_TRUE(fde != nullptr);
EXPECT_EQ(0x8024U, fde->cfa_instructions_offset);
EXPECT_EQ(0x820cU, fde->cfa_instructions_end);
EXPECT_EQ(0x5000U, fde->pc_start);
EXPECT_EQ(0x5300U, fde->pc_end);
EXPECT_EQ(0x6000U, fde->cie_offset);
EXPECT_EQ(0U, fde->lsda_address);
ASSERT_TRUE(fde->cie != nullptr);
EXPECT_EQ(1U, fde->cie->version);
EXPECT_EQ(DW_EH_PE_sdata8, fde->cie->fde_address_encoding);
EXPECT_EQ(DW_EH_PE_omit, fde->cie->lsda_encoding);
EXPECT_EQ(0U, fde->cie->segment_size);
EXPECT_EQ(1U, fde->cie->augmentation_string.size());
EXPECT_EQ('\0', fde->cie->augmentation_string[0]);
EXPECT_EQ(0U, fde->cie->personality_handler);
EXPECT_EQ(0x6019U, fde->cie->cfa_instructions_offset);
EXPECT_EQ(0x610cU, fde->cie->cfa_instructions_end);
EXPECT_EQ(4U, fde->cie->code_alignment_factor);
EXPECT_EQ(8, fde->cie->data_alignment_factor);
EXPECT_EQ(0x20U, fde->cie->return_address_register);
}
REGISTER_TYPED_TEST_CASE_P(DwarfDebugFrameTest, Init32, Init32_fde_not_following_cie, Init64,
Init64_fde_not_following_cie, Init_version1, Init_version4,
GetFdeOffsetFromPc, GetCieFde32, GetCieFde64);
typedef ::testing::Types<uint32_t, uint64_t> DwarfDebugFrameTestTypes;
INSTANTIATE_TYPED_TEST_CASE_P(, DwarfDebugFrameTest, DwarfDebugFrameTestTypes);