courgette/rel32_finder_unittest.cc - chromium/src - Git at Google

 // Copyright 2015 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include <stddef.h>
 #include <stdint.h>

 #include <algorithm>
 #include <memory>
 #include <sstream>
 #include <string>

 #include "base/macros.h"
 #include "courgette/base_test_unittest.h"
 #include "courgette/image_utils.h"
 #include "courgette/rel32_finder_x64.h"
 #include "courgette/rel32_finder_x86.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace courgette {

 namespace {

 // Helper class to load and execute a Rel32Finder test case.
 class Rel32FinderTestCase {
  public:
   Rel32FinderTestCase(const std::string& test_data)
       : text_start_rva_(0),
         text_end_rva_(0),
         relocs_start_rva_(0),
         relocs_end_rva_(0),
         image_end_rva_(0) {
     LoadTestFromString(test_data);
   }

   void RunTestBasic(std::string name) {
     ASSERT_FALSE(text_data_.empty());
     finder_->Find(&text_data_[0], &text_data_[0] + text_data_.size(),
                   text_start_rva_, text_end_rva_, abs32_locations_);
     std::vector<RVA> rel32_locations;
     finder_->SwapRel32Locations(&rel32_locations);
     EXPECT_EQ(expected_rel32_locations_, rel32_locations)
         << "From test case " << name << " (addresses are in hex)";
   }

   void CreateFinder(const std::string& processor_type) {
     if (processor_type == "x64") {
       finder_ = std::unique_ptr<Rel32Finder>(new Rel32FinderX64(
           relocs_start_rva_, relocs_end_rva_, image_end_rva_));
     } else if (processor_type == "x86") {
       finder_ = std::unique_ptr<Rel32Finder>(
           new Rel32FinderX86(relocs_start_rva_, relocs_end_rva_));
     } else {
       NOTREACHED();
     }
   }

  private:
   std::unique_ptr<Rel32Finder> finder_;
   RVA text_start_rva_;
   RVA text_end_rva_;
   RVA relocs_start_rva_;
   RVA relocs_end_rva_;
   RVA image_end_rva_;
   std::vector<uint8_t> text_data_;
   std::vector<RVA> abs32_locations_;
   std::vector<RVA> expected_rel32_locations_;

   // Scans |iss| for the next non-empty line, after removing "#"-style comments
   // and stripping trailing spaces. On success, returns true and writes the
   // result to |line_out|. Otherwise returns false.
   bool ReadNonEmptyLine(std::istringstream& iss, std::string* line_out) {
     std::string line;
     while (std::getline(iss, line)) {
       // Trim comments and trailing spaces.
       size_t end_pos = std::min(line.find("#"), line.length());
       while (end_pos > 0 && line[end_pos - 1] == ' ')
         --end_pos;
       line.resize(end_pos);
       if (!line.empty())
         break;
     }
     if (line.empty())
       return false;
     line_out->swap(line);
     return true;
   }

   // Scans |iss| for the next non-empty line, and reads (hex) uint32_t into |v|.
   // Returns true iff successful.
   bool ReadHexUInt32(std::istringstream& iss, uint32_t* v) {
     std::string line;
     if (!ReadNonEmptyLine(iss, &line))
       return false;
     return sscanf(line.c_str(), "%X", v) == 1;
   }

   // Initializes the test case by parsing the multi-line string |test_data|
   // to extract Rel32Finder parameters, and read expected values.
   void LoadTestFromString(const std::string& test_data) {
     // The first lines (ignoring empty ones) specify RVA bounds.
     std::istringstream iss(test_data);
     std::string processor_type;
     ASSERT_TRUE(ReadNonEmptyLine(iss, &processor_type));
     ASSERT_TRUE(ReadHexUInt32(iss, &text_start_rva_));
     ASSERT_TRUE(ReadHexUInt32(iss, &text_end_rva_));
     ASSERT_TRUE(ReadHexUInt32(iss, &relocs_start_rva_));
     ASSERT_TRUE(ReadHexUInt32(iss, &relocs_end_rva_));
     ASSERT_TRUE(ReadHexUInt32(iss, &image_end_rva_));

     std::string line;
     // The Program section specifies instruction bytes. We require lines to be
     // formatted in "DUMPBIN /DISASM" style, i.e.,
     // "00401003: E8 00 00 00 00     call        00401008"
     //            ^  ^  ^  ^  ^  ^
     // We extract up to 6 bytes per line. The remaining are ignored.
     const int kBytesBegin = 12;
     const int kBytesEnd = 17;
     ReadNonEmptyLine(iss, &line);
     ASSERT_EQ("Program:", line);
     while (ReadNonEmptyLine(iss, &line) && line != "Abs32:") {
       std::string toks = line.substr(kBytesBegin, kBytesEnd);
       uint32_t vals[6];
       int num_read = sscanf(toks.c_str(), "%X %X %X %X %X %X", &vals[0],
                             &vals[1], &vals[2], &vals[3], &vals[4], &vals[5]);
       for (int i = 0; i < num_read; ++i)
         text_data_.push_back(static_cast<uint8_t>(vals[i] & 0xFF));
     }
     ASSERT_FALSE(text_data_.empty());

     // The Abs32 section specifies hex RVAs, one per line.
     ASSERT_EQ("Abs32:", line);
     while (ReadNonEmptyLine(iss, &line) && line != "Expected:") {
       RVA abs32_location;
       ASSERT_EQ(1, sscanf(line.c_str(), "%X", &abs32_location));
       abs32_locations_.push_back(abs32_location);
     }

     // The Expected section specifies hex Rel32 RVAs, one per line.
     ASSERT_EQ("Expected:", line);
     while (ReadNonEmptyLine(iss, &line)) {
       RVA rel32_location;
       ASSERT_EQ(1, sscanf(line.c_str(), "%X", &rel32_location));
       expected_rel32_locations_.push_back(rel32_location);
     }
     CreateFinder(processor_type);
   }
 };

 class Rel32FinderTest : public BaseTest {
  public:
   void RunTest(const char* test_case_file) {
     Rel32FinderTestCase test_case(FileContents(test_case_file));
     test_case.RunTestBasic(test_case_file);
   }
 };

 TEST_F(Rel32FinderTest, TestBasic) {
   RunTest("rel32_x86_01.txt");
   RunTest("rel32_x86_02.txt");
   RunTest("rel32_x86_03.txt");
   RunTest("rel32_x86_04.txt");

   RunTest("rel32_x64_01.txt");
   RunTest("rel32_x64_02.txt");
   RunTest("rel32_x64_03.txt");
 }

 }  // namespace

 }  // namespace courgette
	// Copyright 2015 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include <stddef.h>
	#include <stdint.h>

	#include <algorithm>
	#include <memory>
	#include <sstream>
	#include <string>

	#include "base/macros.h"
	#include "courgette/base_test_unittest.h"
	#include "courgette/image_utils.h"
	#include "courgette/rel32_finder_x64.h"
	#include "courgette/rel32_finder_x86.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace courgette {

	namespace {

	// Helper class to load and execute a Rel32Finder test case.
	class Rel32FinderTestCase {
	public:
	Rel32FinderTestCase(const std::string& test_data)
	: text_start_rva_(0),
	text_end_rva_(0),
	relocs_start_rva_(0),
	relocs_end_rva_(0),
	image_end_rva_(0) {
	LoadTestFromString(test_data);
	}

	void RunTestBasic(std::string name) {
	ASSERT_FALSE(text_data_.empty());
	finder_->Find(&text_data_[0], &text_data_[0] + text_data_.size(),
	text_start_rva_, text_end_rva_, abs32_locations_);
	std::vector<RVA> rel32_locations;
	finder_->SwapRel32Locations(&rel32_locations);
	EXPECT_EQ(expected_rel32_locations_, rel32_locations)
	<< "From test case " << name << " (addresses are in hex)";
	}

	void CreateFinder(const std::string& processor_type) {
	if (processor_type == "x64") {
	finder_ = std::unique_ptr<Rel32Finder>(new Rel32FinderX64(
	relocs_start_rva_, relocs_end_rva_, image_end_rva_));
	} else if (processor_type == "x86") {
	finder_ = std::unique_ptr<Rel32Finder>(
	new Rel32FinderX86(relocs_start_rva_, relocs_end_rva_));
	} else {
	NOTREACHED();
	}
	}

	private:
	std::unique_ptr<Rel32Finder> finder_;
	RVA text_start_rva_;
	RVA text_end_rva_;
	RVA relocs_start_rva_;
	RVA relocs_end_rva_;
	RVA image_end_rva_;
	std::vector<uint8_t> text_data_;
	std::vector<RVA> abs32_locations_;
	std::vector<RVA> expected_rel32_locations_;

	// Scans \|iss\| for the next non-empty line, after removing "#"-style comments
	// and stripping trailing spaces. On success, returns true and writes the
	// result to \|line_out\|. Otherwise returns false.
	bool ReadNonEmptyLine(std::istringstream& iss, std::string* line_out) {
	std::string line;
	while (std::getline(iss, line)) {
	// Trim comments and trailing spaces.
	size_t end_pos = std::min(line.find("#"), line.length());
	while (end_pos > 0 && line[end_pos - 1] == ' ')
	--end_pos;
	line.resize(end_pos);
	if (!line.empty())
	break;
	}
	if (line.empty())
	return false;
	line_out->swap(line);
	return true;
	}

	// Scans \|iss\| for the next non-empty line, and reads (hex) uint32_t into \|v\|.
	// Returns true iff successful.
	bool ReadHexUInt32(std::istringstream& iss, uint32_t* v) {
	std::string line;
	if (!ReadNonEmptyLine(iss, &line))
	return false;
	return sscanf(line.c_str(), "%X", v) == 1;
	}

	// Initializes the test case by parsing the multi-line string \|test_data\|
	// to extract Rel32Finder parameters, and read expected values.
	void LoadTestFromString(const std::string& test_data) {
	// The first lines (ignoring empty ones) specify RVA bounds.
	std::istringstream iss(test_data);
	std::string processor_type;
	ASSERT_TRUE(ReadNonEmptyLine(iss, &processor_type));
	ASSERT_TRUE(ReadHexUInt32(iss, &text_start_rva_));
	ASSERT_TRUE(ReadHexUInt32(iss, &text_end_rva_));
	ASSERT_TRUE(ReadHexUInt32(iss, &relocs_start_rva_));
	ASSERT_TRUE(ReadHexUInt32(iss, &relocs_end_rva_));
	ASSERT_TRUE(ReadHexUInt32(iss, &image_end_rva_));

	std::string line;
	// The Program section specifies instruction bytes. We require lines to be
	// formatted in "DUMPBIN /DISASM" style, i.e.,
	// "00401003: E8 00 00 00 00 call 00401008"
	// ^ ^ ^ ^ ^ ^
	// We extract up to 6 bytes per line. The remaining are ignored.
	const int kBytesBegin = 12;
	const int kBytesEnd = 17;
	ReadNonEmptyLine(iss, &line);
	ASSERT_EQ("Program:", line);
	while (ReadNonEmptyLine(iss, &line) && line != "Abs32:") {
	std::string toks = line.substr(kBytesBegin, kBytesEnd);
	uint32_t vals[6];
	int num_read = sscanf(toks.c_str(), "%X %X %X %X %X %X", &vals[0],
	&vals[1], &vals[2], &vals[3], &vals[4], &vals[5]);
	for (int i = 0; i < num_read; ++i)
	text_data_.push_back(static_cast<uint8_t>(vals[i] & 0xFF));
	}
	ASSERT_FALSE(text_data_.empty());

	// The Abs32 section specifies hex RVAs, one per line.
	ASSERT_EQ("Abs32:", line);
	while (ReadNonEmptyLine(iss, &line) && line != "Expected:") {
	RVA abs32_location;
	ASSERT_EQ(1, sscanf(line.c_str(), "%X", &abs32_location));
	abs32_locations_.push_back(abs32_location);
	}

	// The Expected section specifies hex Rel32 RVAs, one per line.
	ASSERT_EQ("Expected:", line);
	while (ReadNonEmptyLine(iss, &line)) {
	RVA rel32_location;
	ASSERT_EQ(1, sscanf(line.c_str(), "%X", &rel32_location));
	expected_rel32_locations_.push_back(rel32_location);
	}
	CreateFinder(processor_type);
	}
	};

	class Rel32FinderTest : public BaseTest {
	public:
	void RunTest(const char* test_case_file) {
	Rel32FinderTestCase test_case(FileContents(test_case_file));
	test_case.RunTestBasic(test_case_file);
	}
	};

	TEST_F(Rel32FinderTest, TestBasic) {
	RunTest("rel32_x86_01.txt");
	RunTest("rel32_x86_02.txt");
	RunTest("rel32_x86_03.txt");
	RunTest("rel32_x86_04.txt");

	RunTest("rel32_x64_01.txt");
	RunTest("rel32_x64_02.txt");
	RunTest("rel32_x64_03.txt");
	}

	} // namespace

	} // namespace courgette