endsley_patch_writer_unittest.cc - platform/external/bsdiff - Git at Google

 // Copyright 2017 The Chromium OS 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 "bsdiff/endsley_patch_writer.h"

 #include <algorithm>

 #include <gtest/gtest.h>

 namespace {

 std::vector<uint8_t> VectorFromString(const std::string& s) {
   return std::vector<uint8_t>(s.data(), s.data() + s.size());
 }

 }  // namespace

 namespace bsdiff {

 class EndsleyPatchWriterTest : public testing::Test {
  protected:
   // Return a subvector from |data_| starting at |start| of size at most |size|.
   std::vector<uint8_t> DataSubvector(size_t start, size_t size) {
     if (start > data_.size())
       return std::vector<uint8_t>();

     size = std::min(size, data_.size() - start);
     return std::vector<uint8_t>(data_.begin() + start,
                                 data_.begin() + start + size);
   }

   std::vector<uint8_t> data_;
   EndsleyPatchWriter patch_writer_{&data_, CompressorType::kNoCompression, 0};
 };

 // Smoke check that a patch includes the new_size and magic header.
 TEST_F(EndsleyPatchWriterTest, CreateEmptyPatchTest) {
   EXPECT_TRUE(patch_writer_.Init(0));
   EXPECT_TRUE(patch_writer_.Close());

   // The empty header is set to 24 bytes.
   EXPECT_EQ(24U, data_.size());

   std::vector<uint8_t> empty_patch = {
       // Magic header.
       'E', 'N', 'D', 'S', 'L', 'E', 'Y', '/', 'B', 'S', 'D', 'I', 'F', 'F', '4',
       '3',
       // 8 zeros for the |new_size| of zero bytes.
       0, 0, 0, 0, 0, 0, 0, 0};
   EXPECT_EQ(empty_patch, data_);
 }

 TEST_F(EndsleyPatchWriterTest, CreateCompressedPatchTest) {
   EndsleyPatchWriter compressed_writer(&data_, CompressorType::kBZ2, 9);

   auto text = VectorFromString("HelloWorld");
   EXPECT_TRUE(compressed_writer.Init(text.size()));

   EXPECT_TRUE(compressed_writer.AddControlEntry(ControlEntry(5, 5, -2)));
   EXPECT_TRUE(compressed_writer.WriteDiffStream(text.data(), 5));
   EXPECT_TRUE(compressed_writer.WriteExtraStream(text.data() + 5, 5));

   // Check that the output patch had no data written to it before Close() is
   // called, since we are still compressing it.
   EXPECT_TRUE(data_.empty());

   EXPECT_TRUE(compressed_writer.Close());

   // Check that the whole file is compressed with BZ2 by looking at the header.
   const auto bz2_header = VectorFromString("BZh9");
   data_.resize(4);
   EXPECT_EQ(bz2_header, data_);
 }

 TEST_F(EndsleyPatchWriterTest, CreateEmptyBrotliPatchTest) {
   EndsleyPatchWriter compressed_writer(&data_, CompressorType::kBrotli, 9);
   EXPECT_TRUE(compressed_writer.Init(0));
   EXPECT_TRUE(compressed_writer.Close());
 }

 // Test we generate the right patch when the control, diff and extra stream come
 // in the right order.
 TEST_F(EndsleyPatchWriterTest, DataInNiceOrderTest) {
   auto text = VectorFromString("abcdeFGHIJ");
   EXPECT_TRUE(patch_writer_.Init(10));

   EXPECT_TRUE(patch_writer_.AddControlEntry(ControlEntry(2, 3, -2)));
   EXPECT_TRUE(patch_writer_.WriteDiffStream(text.data(), 2));
   EXPECT_TRUE(patch_writer_.WriteExtraStream(text.data() + 2, 3));

   // Check that we are actually writing to the output vector as soon as we can.
   EXPECT_EQ(24U + 24U + 2U + 3U, data_.size());

   EXPECT_TRUE(patch_writer_.AddControlEntry(ControlEntry(0, 5, 1024)));
   EXPECT_TRUE(patch_writer_.WriteExtraStream(text.data() + 5, 5));

   EXPECT_TRUE(patch_writer_.Close());

   // We have a header, 2 control entries and a total of 10 bytes of data.
   EXPECT_EQ(24U + 24U * 2 + 10U, data_.size());

   // Verify that control entry values are encoded properly in little-endian.
   EXPECT_EQ((std::vector<uint8_t>{10, 0, 0, 0, 0, 0, 0, 0}),
             DataSubvector(16U, 8));  // new_size

   // Negative numbers are encoded with the sign bit in the most significant bit
   // of the 8-byte number.
   EXPECT_EQ((std::vector<uint8_t>{2, 0, 0, 0, 0, 0, 0, 0x80}),
             DataSubvector(24U + 16, 8));

   // The second member on the last control entry (1024) encoded in
   // little-endian.
   EXPECT_EQ((std::vector<uint8_t>{0, 4, 0, 0, 0, 0, 0, 0}),
             DataSubvector(24U + 24U + 5U + 16U, 8));

   // Check that the diff and extra data are sent one after the other in the
   // right order.
   EXPECT_EQ(VectorFromString("abcde"), DataSubvector(24U + 24U, 5));
 }

 // When we send first the diff or extra data it shouldn't be possible to
 // write it to the patch, but at the end of the patch we should be able to
 // write it all.
 TEST_F(EndsleyPatchWriterTest, DataInBadOrderTest) {
   auto text = VectorFromString("abcdeFGHIJ");
   EXPECT_TRUE(patch_writer_.Init(10));
   EXPECT_TRUE(patch_writer_.WriteDiffStream(text.data(), 5));
   EXPECT_TRUE(patch_writer_.WriteExtraStream(text.data() + 5, 5));

   // Writ all the control entries at the end, only the header should have been
   // sent so far.
   EXPECT_EQ(24U, data_.size());

   EXPECT_TRUE(patch_writer_.AddControlEntry(ControlEntry(2, 3, -2)));
   EXPECT_TRUE(patch_writer_.AddControlEntry(ControlEntry(2, 1, 1024)));
   EXPECT_TRUE(patch_writer_.AddControlEntry(ControlEntry(1, 1, 1024)));

   EXPECT_TRUE(patch_writer_.Close());

   // We have a header, 3 control entries and a total of 10 bytes of data.
   EXPECT_EQ(24U + 24U * 3 + 10U, data_.size());

   // The data from the first and second control entries:
   EXPECT_EQ(VectorFromString("abFGH"), DataSubvector(24U + 24U, 5));
   EXPECT_EQ(VectorFromString("cdI"), DataSubvector(24U + 24U * 2 + 5, 3));
   EXPECT_EQ(VectorFromString("eJ"), DataSubvector(24U + 24U * 3 + 8, 2));
 }

 TEST_F(EndsleyPatchWriterTest, FlushOnlyWhenWorthItTest) {
   size_t kEntrySize = 1000;  // must be even for this test.
   size_t kNumEntries = 3000;
   size_t kNewSize = kEntrySize * kNumEntries;  // 3 MB

   EXPECT_TRUE(patch_writer_.Init(kNewSize));
   // Write all the extra and diff data first.
   std::vector<uint8_t> zeros(kNewSize / 2, 0);
   EXPECT_TRUE(patch_writer_.WriteDiffStream(zeros.data(), zeros.size()));
   EXPECT_TRUE(patch_writer_.WriteExtraStream(zeros.data(), zeros.size()));

   // No patch data flushed so far, only the header.
   EXPECT_EQ(24U, data_.size());

   ControlEntry entry(kEntrySize / 2, kEntrySize / 2, -1);
   for (size_t i = 0; i < 10; i++) {
     EXPECT_TRUE(patch_writer_.AddControlEntry(entry));
   }

   // Even if all the diff and extra data is available and some control entries
   // are also available no information should have been flushed yet because we
   // don't want the overhead of updating the diff_data_ and extra_data_ vectors.
   EXPECT_EQ(24U, data_.size());

   // Write the remaining entries.
   for (size_t i = 0; i < kNumEntries - 10; i++) {
     EXPECT_TRUE(patch_writer_.AddControlEntry(entry));
   }

   // Even before Close() is called, we have enough control entries to make it
   // worth it calling flush at some point.
   EXPECT_LT(24U, data_.size());

   EXPECT_TRUE(patch_writer_.Close());
 }

 }  // namespace bsdiff
	// Copyright 2017 The Chromium OS 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 "bsdiff/endsley_patch_writer.h"

	#include <algorithm>

	#include <gtest/gtest.h>

	namespace {

	std::vector<uint8_t> VectorFromString(const std::string& s) {
	return std::vector<uint8_t>(s.data(), s.data() + s.size());
	}

	} // namespace

	namespace bsdiff {

	class EndsleyPatchWriterTest : public testing::Test {
	protected:
	// Return a subvector from \|data_\| starting at \|start\| of size at most \|size\|.
	std::vector<uint8_t> DataSubvector(size_t start, size_t size) {
	if (start > data_.size())
	return std::vector<uint8_t>();

	size = std::min(size, data_.size() - start);
	return std::vector<uint8_t>(data_.begin() + start,
	data_.begin() + start + size);
	}

	std::vector<uint8_t> data_;
	EndsleyPatchWriter patch_writer_{&data_, CompressorType::kNoCompression, 0};
	};

	// Smoke check that a patch includes the new_size and magic header.
	TEST_F(EndsleyPatchWriterTest, CreateEmptyPatchTest) {
	EXPECT_TRUE(patch_writer_.Init(0));
	EXPECT_TRUE(patch_writer_.Close());

	// The empty header is set to 24 bytes.
	EXPECT_EQ(24U, data_.size());

	std::vector<uint8_t> empty_patch = {
	// Magic header.
	'E', 'N', 'D', 'S', 'L', 'E', 'Y', '/', 'B', 'S', 'D', 'I', 'F', 'F', '4',
	'3',
	// 8 zeros for the \|new_size\| of zero bytes.
	0, 0, 0, 0, 0, 0, 0, 0};
	EXPECT_EQ(empty_patch, data_);
	}

	TEST_F(EndsleyPatchWriterTest, CreateCompressedPatchTest) {
	EndsleyPatchWriter compressed_writer(&data_, CompressorType::kBZ2, 9);

	auto text = VectorFromString("HelloWorld");
	EXPECT_TRUE(compressed_writer.Init(text.size()));

	EXPECT_TRUE(compressed_writer.AddControlEntry(ControlEntry(5, 5, -2)));
	EXPECT_TRUE(compressed_writer.WriteDiffStream(text.data(), 5));
	EXPECT_TRUE(compressed_writer.WriteExtraStream(text.data() + 5, 5));

	// Check that the output patch had no data written to it before Close() is
	// called, since we are still compressing it.
	EXPECT_TRUE(data_.empty());

	EXPECT_TRUE(compressed_writer.Close());

	// Check that the whole file is compressed with BZ2 by looking at the header.
	const auto bz2_header = VectorFromString("BZh9");
	data_.resize(4);
	EXPECT_EQ(bz2_header, data_);
	}

	TEST_F(EndsleyPatchWriterTest, CreateEmptyBrotliPatchTest) {
	EndsleyPatchWriter compressed_writer(&data_, CompressorType::kBrotli, 9);
	EXPECT_TRUE(compressed_writer.Init(0));
	EXPECT_TRUE(compressed_writer.Close());
	}

	// Test we generate the right patch when the control, diff and extra stream come
	// in the right order.
	TEST_F(EndsleyPatchWriterTest, DataInNiceOrderTest) {
	auto text = VectorFromString("abcdeFGHIJ");
	EXPECT_TRUE(patch_writer_.Init(10));

	EXPECT_TRUE(patch_writer_.AddControlEntry(ControlEntry(2, 3, -2)));
	EXPECT_TRUE(patch_writer_.WriteDiffStream(text.data(), 2));
	EXPECT_TRUE(patch_writer_.WriteExtraStream(text.data() + 2, 3));

	// Check that we are actually writing to the output vector as soon as we can.
	EXPECT_EQ(24U + 24U + 2U + 3U, data_.size());

	EXPECT_TRUE(patch_writer_.AddControlEntry(ControlEntry(0, 5, 1024)));
	EXPECT_TRUE(patch_writer_.WriteExtraStream(text.data() + 5, 5));

	EXPECT_TRUE(patch_writer_.Close());

	// We have a header, 2 control entries and a total of 10 bytes of data.
	EXPECT_EQ(24U + 24U * 2 + 10U, data_.size());

	// Verify that control entry values are encoded properly in little-endian.
	EXPECT_EQ((std::vector<uint8_t>{10, 0, 0, 0, 0, 0, 0, 0}),
	DataSubvector(16U, 8)); // new_size

	// Negative numbers are encoded with the sign bit in the most significant bit
	// of the 8-byte number.
	EXPECT_EQ((std::vector<uint8_t>{2, 0, 0, 0, 0, 0, 0, 0x80}),
	DataSubvector(24U + 16, 8));

	// The second member on the last control entry (1024) encoded in
	// little-endian.
	EXPECT_EQ((std::vector<uint8_t>{0, 4, 0, 0, 0, 0, 0, 0}),
	DataSubvector(24U + 24U + 5U + 16U, 8));

	// Check that the diff and extra data are sent one after the other in the
	// right order.
	EXPECT_EQ(VectorFromString("abcde"), DataSubvector(24U + 24U, 5));
	}

	// When we send first the diff or extra data it shouldn't be possible to
	// write it to the patch, but at the end of the patch we should be able to
	// write it all.
	TEST_F(EndsleyPatchWriterTest, DataInBadOrderTest) {
	auto text = VectorFromString("abcdeFGHIJ");
	EXPECT_TRUE(patch_writer_.Init(10));
	EXPECT_TRUE(patch_writer_.WriteDiffStream(text.data(), 5));
	EXPECT_TRUE(patch_writer_.WriteExtraStream(text.data() + 5, 5));

	// Writ all the control entries at the end, only the header should have been
	// sent so far.
	EXPECT_EQ(24U, data_.size());

	EXPECT_TRUE(patch_writer_.AddControlEntry(ControlEntry(2, 3, -2)));
	EXPECT_TRUE(patch_writer_.AddControlEntry(ControlEntry(2, 1, 1024)));
	EXPECT_TRUE(patch_writer_.AddControlEntry(ControlEntry(1, 1, 1024)));

	EXPECT_TRUE(patch_writer_.Close());

	// We have a header, 3 control entries and a total of 10 bytes of data.
	EXPECT_EQ(24U + 24U * 3 + 10U, data_.size());

	// The data from the first and second control entries:
	EXPECT_EQ(VectorFromString("abFGH"), DataSubvector(24U + 24U, 5));
	EXPECT_EQ(VectorFromString("cdI"), DataSubvector(24U + 24U * 2 + 5, 3));
	EXPECT_EQ(VectorFromString("eJ"), DataSubvector(24U + 24U * 3 + 8, 2));
	}

	TEST_F(EndsleyPatchWriterTest, FlushOnlyWhenWorthItTest) {
	size_t kEntrySize = 1000; // must be even for this test.
	size_t kNumEntries = 3000;
	size_t kNewSize = kEntrySize * kNumEntries; // 3 MB

	EXPECT_TRUE(patch_writer_.Init(kNewSize));
	// Write all the extra and diff data first.
	std::vector<uint8_t> zeros(kNewSize / 2, 0);
	EXPECT_TRUE(patch_writer_.WriteDiffStream(zeros.data(), zeros.size()));
	EXPECT_TRUE(patch_writer_.WriteExtraStream(zeros.data(), zeros.size()));

	// No patch data flushed so far, only the header.
	EXPECT_EQ(24U, data_.size());

	ControlEntry entry(kEntrySize / 2, kEntrySize / 2, -1);
	for (size_t i = 0; i < 10; i++) {
	EXPECT_TRUE(patch_writer_.AddControlEntry(entry));
	}

	// Even if all the diff and extra data is available and some control entries
	// are also available no information should have been flushed yet because we
	// don't want the overhead of updating the diff_data_ and extra_data_ vectors.
	EXPECT_EQ(24U, data_.size());

	// Write the remaining entries.
	for (size_t i = 0; i < kNumEntries - 10; i++) {
	EXPECT_TRUE(patch_writer_.AddControlEntry(entry));
	}

	// Even before Close() is called, we have enough control entries to make it
	// worth it calling flush at some point.
	EXPECT_LT(24U, data_.size());

	EXPECT_TRUE(patch_writer_.Close());
	}

	} // namespace bsdiff