libunwindstack/tests/RegsTest.cpp - third_party/android/platform/system/core - Git at Google

 /*
  * 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.
  */

 #include <stdint.h>

 #include <gtest/gtest.h>

 #include "Elf.h"
 #include "ElfInterface.h"
 #include "MapInfo.h"
 #include "Regs.h"

 #include "MemoryFake.h"

 class ElfFake : public Elf {
  public:
   ElfFake(Memory* memory) : Elf(memory) { valid_ = true; }
   virtual ~ElfFake() = default;

   void set_elf_interface(ElfInterface* interface) { interface_.reset(interface); }
 };

 class ElfInterfaceFake : public ElfInterface {
  public:
   ElfInterfaceFake(Memory* memory) : ElfInterface(memory) {}
   virtual ~ElfInterfaceFake() = default;

   void set_load_bias(uint64_t load_bias) { load_bias_ = load_bias; }

   bool Init() override { return false; }
   void InitHeaders() override {}
   bool GetSoname(std::string*) override { return false; }
   bool GetFunctionName(uint64_t, std::string*, uint64_t*) override { return false; }
   bool Step(uint64_t, Regs*, Memory*) override { return false; }
 };

 template <typename TypeParam>
 class RegsTestImpl : public RegsImpl<TypeParam> {
  public:
   RegsTestImpl(uint16_t total_regs, uint16_t regs_sp)
       : RegsImpl<TypeParam>(total_regs, regs_sp, Regs::Location(Regs::LOCATION_UNKNOWN, 0)) {}
   RegsTestImpl(uint16_t total_regs, uint16_t regs_sp, Regs::Location return_loc)
       : RegsImpl<TypeParam>(total_regs, regs_sp, return_loc) {}
   virtual ~RegsTestImpl() = default;

   uint64_t GetAdjustedPc(uint64_t, Elf*) { return 0; }
 };

 class RegsTest : public ::testing::Test {
  protected:
   void SetUp() override {
     memory_ = new MemoryFake;
     elf_.reset(new ElfFake(memory_));
     elf_interface_ = new ElfInterfaceFake(elf_->memory());
     elf_->set_elf_interface(elf_interface_);
   }

   template <typename AddressType>
   void regs_rel_pc();

   template <typename AddressType>
   void regs_return_address_register();

   ElfInterfaceFake* elf_interface_;
   MemoryFake* memory_;
   std::unique_ptr<ElfFake> elf_;
 };

 TEST_F(RegsTest, regs32) {
   RegsTestImpl<uint32_t> regs32(50, 10);
   ASSERT_EQ(50U, regs32.total_regs());
   ASSERT_EQ(10U, regs32.sp_reg());

   uint32_t* raw = reinterpret_cast<uint32_t*>(regs32.RawData());
   for (size_t i = 0; i < 50; i++) {
     raw[i] = 0xf0000000 + i;
   }
   regs32.set_pc(0xf0120340);
   regs32.set_sp(0xa0ab0cd0);

   for (size_t i = 0; i < 50; i++) {
     ASSERT_EQ(0xf0000000U + i, regs32[i]) << "Failed comparing register " << i;
   }

   ASSERT_EQ(0xf0120340U, regs32.pc());
   ASSERT_EQ(0xa0ab0cd0U, regs32.sp());

   regs32[32] = 10;
   ASSERT_EQ(10U, regs32[32]);
 }

 TEST_F(RegsTest, regs64) {
   RegsTestImpl<uint64_t> regs64(30, 12);
   ASSERT_EQ(30U, regs64.total_regs());
   ASSERT_EQ(12U, regs64.sp_reg());

   uint64_t* raw = reinterpret_cast<uint64_t*>(regs64.RawData());
   for (size_t i = 0; i < 30; i++) {
     raw[i] = 0xf123456780000000UL + i;
   }
   regs64.set_pc(0xf123456780102030UL);
   regs64.set_sp(0xa123456780a0b0c0UL);

   for (size_t i = 0; i < 30; i++) {
     ASSERT_EQ(0xf123456780000000U + i, regs64[i]) << "Failed reading register " << i;
   }

   ASSERT_EQ(0xf123456780102030UL, regs64.pc());
   ASSERT_EQ(0xa123456780a0b0c0UL, regs64.sp());

   regs64[8] = 10;
   ASSERT_EQ(10U, regs64[8]);
 }

 template <typename AddressType>
 void RegsTest::regs_rel_pc() {
   RegsTestImpl<AddressType> regs(30, 12);

   elf_interface_->set_load_bias(0);
   MapInfo map_info{.start = 0x1000, .end = 0x2000};
   regs.set_pc(0x1101);
   ASSERT_EQ(0x101U, regs.GetRelPc(elf_.get(), &map_info));
   elf_interface_->set_load_bias(0x3000);
   ASSERT_EQ(0x3101U, regs.GetRelPc(elf_.get(), &map_info));
 }

 TEST_F(RegsTest, regs32_rel_pc) {
   regs_rel_pc<uint32_t>();
 }

 TEST_F(RegsTest, regs64_rel_pc) {
   regs_rel_pc<uint64_t>();
 }

 template <typename AddressType>
 void RegsTest::regs_return_address_register() {
   RegsTestImpl<AddressType> regs(20, 10, Regs::Location(Regs::LOCATION_REGISTER, 5));

   regs[5] = 0x12345;
   uint64_t value;
   ASSERT_TRUE(regs.GetReturnAddressFromDefault(memory_, &value));
   ASSERT_EQ(0x12345U, value);
 }

 TEST_F(RegsTest, regs32_return_address_register) {
   regs_return_address_register<uint32_t>();
 }

 TEST_F(RegsTest, regs64_return_address_register) {
   regs_return_address_register<uint64_t>();
 }

 TEST_F(RegsTest, regs32_return_address_sp_offset) {
   RegsTestImpl<uint32_t> regs(20, 10, Regs::Location(Regs::LOCATION_SP_OFFSET, -2));

   regs.set_sp(0x2002);
   memory_->SetData32(0x2000, 0x12345678);
   uint64_t value;
   ASSERT_TRUE(regs.GetReturnAddressFromDefault(memory_, &value));
   ASSERT_EQ(0x12345678U, value);
 }

 TEST_F(RegsTest, regs64_return_address_sp_offset) {
   RegsTestImpl<uint64_t> regs(20, 10, Regs::Location(Regs::LOCATION_SP_OFFSET, -8));

   regs.set_sp(0x2008);
   memory_->SetData64(0x2000, 0x12345678aabbccddULL);
   uint64_t value;
   ASSERT_TRUE(regs.GetReturnAddressFromDefault(memory_, &value));
   ASSERT_EQ(0x12345678aabbccddULL, value);
 }

 TEST_F(RegsTest, rel_pc) {
   RegsArm64 arm64;
   ASSERT_EQ(0xcU, arm64.GetAdjustedPc(0x10, elf_.get()));
   ASSERT_EQ(0x0U, arm64.GetAdjustedPc(0x4, elf_.get()));
   ASSERT_EQ(0x3U, arm64.GetAdjustedPc(0x3, elf_.get()));
   ASSERT_EQ(0x2U, arm64.GetAdjustedPc(0x2, elf_.get()));
   ASSERT_EQ(0x1U, arm64.GetAdjustedPc(0x1, elf_.get()));
   ASSERT_EQ(0x0U, arm64.GetAdjustedPc(0x0, elf_.get()));

   RegsX86 x86;
   ASSERT_EQ(0xffU,  x86.GetAdjustedPc(0x100, elf_.get()));
   ASSERT_EQ(0x1U,  x86.GetAdjustedPc(0x2, elf_.get()));
   ASSERT_EQ(0x0U,  x86.GetAdjustedPc(0x1, elf_.get()));
   ASSERT_EQ(0x0U,  x86.GetAdjustedPc(0x0, elf_.get()));

   RegsX86_64 x86_64;
   ASSERT_EQ(0xffU,  x86_64.GetAdjustedPc(0x100, elf_.get()));
   ASSERT_EQ(0x1U,  x86_64.GetAdjustedPc(0x2, elf_.get()));
   ASSERT_EQ(0x0U,  x86_64.GetAdjustedPc(0x1, elf_.get()));
   ASSERT_EQ(0x0U,  x86_64.GetAdjustedPc(0x0, elf_.get()));
 }

 TEST_F(RegsTest, rel_pc_arm) {
   RegsArm arm;

   // Check fence posts.
   elf_interface_->set_load_bias(0);
   ASSERT_EQ(3U,  arm.GetAdjustedPc(0x5, elf_.get()));
   ASSERT_EQ(4U,  arm.GetAdjustedPc(0x4, elf_.get()));
   ASSERT_EQ(3U,  arm.GetAdjustedPc(0x3, elf_.get()));
   ASSERT_EQ(2U,  arm.GetAdjustedPc(0x2, elf_.get()));
   ASSERT_EQ(1U,  arm.GetAdjustedPc(0x1, elf_.get()));
   ASSERT_EQ(0U,  arm.GetAdjustedPc(0x0, elf_.get()));

   elf_interface_->set_load_bias(0x100);
   ASSERT_EQ(0xffU,  arm.GetAdjustedPc(0xff, elf_.get()));
   ASSERT_EQ(0x103U,  arm.GetAdjustedPc(0x105, elf_.get()));
   ASSERT_EQ(0x104U,  arm.GetAdjustedPc(0x104, elf_.get()));
   ASSERT_EQ(0x103U,  arm.GetAdjustedPc(0x103, elf_.get()));
   ASSERT_EQ(0x102U,  arm.GetAdjustedPc(0x102, elf_.get()));
   ASSERT_EQ(0x101U,  arm.GetAdjustedPc(0x101, elf_.get()));
   ASSERT_EQ(0x100U,  arm.GetAdjustedPc(0x100, elf_.get()));

   // Check thumb instructions handling.
   elf_interface_->set_load_bias(0);
   memory_->SetData32(0x2000, 0);
   ASSERT_EQ(0x2003U,  arm.GetAdjustedPc(0x2005, elf_.get()));
   memory_->SetData32(0x2000, 0xe000f000);
   ASSERT_EQ(0x2001U,  arm.GetAdjustedPc(0x2005, elf_.get()));

   elf_interface_->set_load_bias(0x400);
   memory_->SetData32(0x2100, 0);
   ASSERT_EQ(0x2503U,  arm.GetAdjustedPc(0x2505, elf_.get()));
   memory_->SetData32(0x2100, 0xf111f111);
   ASSERT_EQ(0x2501U,  arm.GetAdjustedPc(0x2505, elf_.get()));
 }

 TEST_F(RegsTest, elf_invalid) {
   Elf invalid_elf(new MemoryFake);
   RegsArm regs_arm;
   RegsArm64 regs_arm64;
   RegsX86 regs_x86;
   RegsX86_64 regs_x86_64;
   MapInfo map_info{.start = 0x1000, .end = 0x2000};

   regs_arm.set_pc(0x1500);
   ASSERT_EQ(0x500U, regs_arm.GetRelPc(&invalid_elf, &map_info));
   ASSERT_EQ(0x500U, regs_arm.GetAdjustedPc(0x500U, &invalid_elf));

   regs_arm64.set_pc(0x1600);
   ASSERT_EQ(0x600U, regs_arm64.GetRelPc(&invalid_elf, &map_info));
   ASSERT_EQ(0x600U, regs_arm64.GetAdjustedPc(0x600U, &invalid_elf));

   regs_x86.set_pc(0x1700);
   ASSERT_EQ(0x700U, regs_x86.GetRelPc(&invalid_elf, &map_info));
   ASSERT_EQ(0x700U, regs_x86.GetAdjustedPc(0x700U, &invalid_elf));

   regs_x86_64.set_pc(0x1800);
   ASSERT_EQ(0x800U, regs_x86_64.GetRelPc(&invalid_elf, &map_info));
   ASSERT_EQ(0x800U, regs_x86_64.GetAdjustedPc(0x800U, &invalid_elf));
 }
	/*
	* 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.
	*/

	#include <stdint.h>

	#include <gtest/gtest.h>

	#include "Elf.h"
	#include "ElfInterface.h"
	#include "MapInfo.h"
	#include "Regs.h"

	#include "MemoryFake.h"

	class ElfFake : public Elf {
	public:
	ElfFake(Memory* memory) : Elf(memory) { valid_ = true; }
	virtual ~ElfFake() = default;

	void set_elf_interface(ElfInterface* interface) { interface_.reset(interface); }
	};

	class ElfInterfaceFake : public ElfInterface {
	public:
	ElfInterfaceFake(Memory* memory) : ElfInterface(memory) {}
	virtual ~ElfInterfaceFake() = default;

	void set_load_bias(uint64_t load_bias) { load_bias_ = load_bias; }

	bool Init() override { return false; }
	void InitHeaders() override {}
	bool GetSoname(std::string*) override { return false; }
	bool GetFunctionName(uint64_t, std::string, uint64_t) override { return false; }
	bool Step(uint64_t, Regs, Memory) override { return false; }
	};

	template <typename TypeParam>
	class RegsTestImpl : public RegsImpl<TypeParam> {
	public:
	RegsTestImpl(uint16_t total_regs, uint16_t regs_sp)
	: RegsImpl<TypeParam>(total_regs, regs_sp, Regs::Location(Regs::LOCATION_UNKNOWN, 0)) {}
	RegsTestImpl(uint16_t total_regs, uint16_t regs_sp, Regs::Location return_loc)
	: RegsImpl<TypeParam>(total_regs, regs_sp, return_loc) {}
	virtual ~RegsTestImpl() = default;

	uint64_t GetAdjustedPc(uint64_t, Elf*) { return 0; }
	};

	class RegsTest : public ::testing::Test {
	protected:
	void SetUp() override {
	memory_ = new MemoryFake;
	elf_.reset(new ElfFake(memory_));
	elf_interface_ = new ElfInterfaceFake(elf_->memory());
	elf_->set_elf_interface(elf_interface_);
	}

	template <typename AddressType>
	void regs_rel_pc();

	template <typename AddressType>
	void regs_return_address_register();

	ElfInterfaceFake* elf_interface_;
	MemoryFake* memory_;
	std::unique_ptr<ElfFake> elf_;
	};

	TEST_F(RegsTest, regs32) {
	RegsTestImpl<uint32_t> regs32(50, 10);
	ASSERT_EQ(50U, regs32.total_regs());
	ASSERT_EQ(10U, regs32.sp_reg());

	uint32_t* raw = reinterpret_cast<uint32_t*>(regs32.RawData());
	for (size_t i = 0; i < 50; i++) {
	raw[i] = 0xf0000000 + i;
	}
	regs32.set_pc(0xf0120340);
	regs32.set_sp(0xa0ab0cd0);

	for (size_t i = 0; i < 50; i++) {
	ASSERT_EQ(0xf0000000U + i, regs32[i]) << "Failed comparing register " << i;
	}

	ASSERT_EQ(0xf0120340U, regs32.pc());
	ASSERT_EQ(0xa0ab0cd0U, regs32.sp());

	regs32[32] = 10;
	ASSERT_EQ(10U, regs32[32]);
	}

	TEST_F(RegsTest, regs64) {
	RegsTestImpl<uint64_t> regs64(30, 12);
	ASSERT_EQ(30U, regs64.total_regs());
	ASSERT_EQ(12U, regs64.sp_reg());

	uint64_t* raw = reinterpret_cast<uint64_t*>(regs64.RawData());
	for (size_t i = 0; i < 30; i++) {
	raw[i] = 0xf123456780000000UL + i;
	}
	regs64.set_pc(0xf123456780102030UL);
	regs64.set_sp(0xa123456780a0b0c0UL);

	for (size_t i = 0; i < 30; i++) {
	ASSERT_EQ(0xf123456780000000U + i, regs64[i]) << "Failed reading register " << i;
	}

	ASSERT_EQ(0xf123456780102030UL, regs64.pc());
	ASSERT_EQ(0xa123456780a0b0c0UL, regs64.sp());

	regs64[8] = 10;
	ASSERT_EQ(10U, regs64[8]);
	}

	template <typename AddressType>
	void RegsTest::regs_rel_pc() {
	RegsTestImpl<AddressType> regs(30, 12);

	elf_interface_->set_load_bias(0);
	MapInfo map_info{.start = 0x1000, .end = 0x2000};
	regs.set_pc(0x1101);
	ASSERT_EQ(0x101U, regs.GetRelPc(elf_.get(), &map_info));
	elf_interface_->set_load_bias(0x3000);
	ASSERT_EQ(0x3101U, regs.GetRelPc(elf_.get(), &map_info));
	}

	TEST_F(RegsTest, regs32_rel_pc) {
	regs_rel_pc<uint32_t>();
	}

	TEST_F(RegsTest, regs64_rel_pc) {
	regs_rel_pc<uint64_t>();
	}

	template <typename AddressType>
	void RegsTest::regs_return_address_register() {
	RegsTestImpl<AddressType> regs(20, 10, Regs::Location(Regs::LOCATION_REGISTER, 5));

	regs[5] = 0x12345;
	uint64_t value;
	ASSERT_TRUE(regs.GetReturnAddressFromDefault(memory_, &value));
	ASSERT_EQ(0x12345U, value);
	}

	TEST_F(RegsTest, regs32_return_address_register) {
	regs_return_address_register<uint32_t>();
	}

	TEST_F(RegsTest, regs64_return_address_register) {
	regs_return_address_register<uint64_t>();
	}

	TEST_F(RegsTest, regs32_return_address_sp_offset) {
	RegsTestImpl<uint32_t> regs(20, 10, Regs::Location(Regs::LOCATION_SP_OFFSET, -2));

	regs.set_sp(0x2002);
	memory_->SetData32(0x2000, 0x12345678);
	uint64_t value;
	ASSERT_TRUE(regs.GetReturnAddressFromDefault(memory_, &value));
	ASSERT_EQ(0x12345678U, value);
	}

	TEST_F(RegsTest, regs64_return_address_sp_offset) {
	RegsTestImpl<uint64_t> regs(20, 10, Regs::Location(Regs::LOCATION_SP_OFFSET, -8));

	regs.set_sp(0x2008);
	memory_->SetData64(0x2000, 0x12345678aabbccddULL);
	uint64_t value;
	ASSERT_TRUE(regs.GetReturnAddressFromDefault(memory_, &value));
	ASSERT_EQ(0x12345678aabbccddULL, value);
	}

	TEST_F(RegsTest, rel_pc) {
	RegsArm64 arm64;
	ASSERT_EQ(0xcU, arm64.GetAdjustedPc(0x10, elf_.get()));
	ASSERT_EQ(0x0U, arm64.GetAdjustedPc(0x4, elf_.get()));
	ASSERT_EQ(0x3U, arm64.GetAdjustedPc(0x3, elf_.get()));
	ASSERT_EQ(0x2U, arm64.GetAdjustedPc(0x2, elf_.get()));
	ASSERT_EQ(0x1U, arm64.GetAdjustedPc(0x1, elf_.get()));
	ASSERT_EQ(0x0U, arm64.GetAdjustedPc(0x0, elf_.get()));

	RegsX86 x86;
	ASSERT_EQ(0xffU, x86.GetAdjustedPc(0x100, elf_.get()));
	ASSERT_EQ(0x1U, x86.GetAdjustedPc(0x2, elf_.get()));
	ASSERT_EQ(0x0U, x86.GetAdjustedPc(0x1, elf_.get()));
	ASSERT_EQ(0x0U, x86.GetAdjustedPc(0x0, elf_.get()));

	RegsX86_64 x86_64;
	ASSERT_EQ(0xffU, x86_64.GetAdjustedPc(0x100, elf_.get()));
	ASSERT_EQ(0x1U, x86_64.GetAdjustedPc(0x2, elf_.get()));
	ASSERT_EQ(0x0U, x86_64.GetAdjustedPc(0x1, elf_.get()));
	ASSERT_EQ(0x0U, x86_64.GetAdjustedPc(0x0, elf_.get()));
	}

	TEST_F(RegsTest, rel_pc_arm) {
	RegsArm arm;

	// Check fence posts.
	elf_interface_->set_load_bias(0);
	ASSERT_EQ(3U, arm.GetAdjustedPc(0x5, elf_.get()));
	ASSERT_EQ(4U, arm.GetAdjustedPc(0x4, elf_.get()));
	ASSERT_EQ(3U, arm.GetAdjustedPc(0x3, elf_.get()));
	ASSERT_EQ(2U, arm.GetAdjustedPc(0x2, elf_.get()));
	ASSERT_EQ(1U, arm.GetAdjustedPc(0x1, elf_.get()));
	ASSERT_EQ(0U, arm.GetAdjustedPc(0x0, elf_.get()));

	elf_interface_->set_load_bias(0x100);
	ASSERT_EQ(0xffU, arm.GetAdjustedPc(0xff, elf_.get()));
	ASSERT_EQ(0x103U, arm.GetAdjustedPc(0x105, elf_.get()));
	ASSERT_EQ(0x104U, arm.GetAdjustedPc(0x104, elf_.get()));
	ASSERT_EQ(0x103U, arm.GetAdjustedPc(0x103, elf_.get()));
	ASSERT_EQ(0x102U, arm.GetAdjustedPc(0x102, elf_.get()));
	ASSERT_EQ(0x101U, arm.GetAdjustedPc(0x101, elf_.get()));
	ASSERT_EQ(0x100U, arm.GetAdjustedPc(0x100, elf_.get()));

	// Check thumb instructions handling.
	elf_interface_->set_load_bias(0);
	memory_->SetData32(0x2000, 0);
	ASSERT_EQ(0x2003U, arm.GetAdjustedPc(0x2005, elf_.get()));
	memory_->SetData32(0x2000, 0xe000f000);
	ASSERT_EQ(0x2001U, arm.GetAdjustedPc(0x2005, elf_.get()));

	elf_interface_->set_load_bias(0x400);
	memory_->SetData32(0x2100, 0);
	ASSERT_EQ(0x2503U, arm.GetAdjustedPc(0x2505, elf_.get()));
	memory_->SetData32(0x2100, 0xf111f111);
	ASSERT_EQ(0x2501U, arm.GetAdjustedPc(0x2505, elf_.get()));
	}

	TEST_F(RegsTest, elf_invalid) {
	Elf invalid_elf(new MemoryFake);
	RegsArm regs_arm;
	RegsArm64 regs_arm64;
	RegsX86 regs_x86;
	RegsX86_64 regs_x86_64;
	MapInfo map_info{.start = 0x1000, .end = 0x2000};

	regs_arm.set_pc(0x1500);
	ASSERT_EQ(0x500U, regs_arm.GetRelPc(&invalid_elf, &map_info));
	ASSERT_EQ(0x500U, regs_arm.GetAdjustedPc(0x500U, &invalid_elf));

	regs_arm64.set_pc(0x1600);
	ASSERT_EQ(0x600U, regs_arm64.GetRelPc(&invalid_elf, &map_info));
	ASSERT_EQ(0x600U, regs_arm64.GetAdjustedPc(0x600U, &invalid_elf));

	regs_x86.set_pc(0x1700);
	ASSERT_EQ(0x700U, regs_x86.GetRelPc(&invalid_elf, &map_info));
	ASSERT_EQ(0x700U, regs_x86.GetAdjustedPc(0x700U, &invalid_elf));

	regs_x86_64.set_pc(0x1800);
	ASSERT_EQ(0x800U, regs_x86_64.GetRelPc(&invalid_elf, &map_info));
	ASSERT_EQ(0x800U, regs_x86_64.GetAdjustedPc(0x800U, &invalid_elf));
	}