common/cow_operation_convert_unittest.cc - platform/system/update_engine - Git at Google

 //
 // Copyright (C) 2020 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 <algorithm>
 #include <array>
 #include <initializer_list>

 #include <gtest/gtest.h>

 #include "update_engine/common/cow_operation_convert.h"
 #include "update_engine/payload_generator/extent_ranges.h"
 #include "update_engine/update_metadata.pb.h"

 namespace chromeos_update_engine {
 using OperationList = ::google::protobuf::RepeatedPtrField<
     ::chromeos_update_engine::InstallOperation>;
 using MergeOplist = ::google::protobuf::RepeatedPtrField<
     ::chromeos_update_engine::CowMergeOperation>;

 std::ostream& operator<<(std::ostream& out, CowOperation::Type op) {
   switch (op) {
     case CowOperation::Type::CowCopy:
       out << "CowCopy";
       break;
     case CowOperation::Type::CowReplace:
       out << "CowReplace";
       break;
     default:
       out << op;
       break;
   }
   return out;
 }

 std::ostream& operator<<(std::ostream& out, const CowOperation& c) {
   out << "{" << c.op << ", " << c.src_block << ", " << c.dst_block << ", "
       << c.block_count << "}";
   return out;
 }

 class CowOperationConvertTest : public testing::Test {
  public:
   void VerifyCowMergeOp(const std::vector<CowOperation>& cow_ops) {
     // Build a set of all extents covered by InstallOps.
     ExtentRanges src_extent_set;
     ExtentRanges dst_extent_set;
     for (auto&& op : operations_) {
       src_extent_set.AddRepeatedExtents(op.src_extents());
       dst_extent_set.AddRepeatedExtents(op.dst_extents());
     }
     ExtentRanges modified_extents;
     for (auto&& cow_op : cow_ops) {
       if (cow_op.op == CowOperation::CowCopy) {
         for (size_t i = 0; i < cow_op.block_count; i++) {
           ASSERT_TRUE(src_extent_set.ContainsBlock(cow_op.src_block + i));
           // converted operations should be conflict free.
           ASSERT_FALSE(modified_extents.ContainsBlock(cow_op.src_block + i))
               << "SOURCE_COPY operation " << cow_op
               << " read from a modified block";
         }
       }
       for (size_t i = 0; i < cow_op.block_count; i++) {
         ASSERT_TRUE(dst_extent_set.ContainsBlock(cow_op.dst_block + i));
       }
       dst_extent_set.SubtractExtent(
           ExtentForRange(cow_op.dst_block, cow_op.block_count));
       modified_extents.AddExtent(
           ExtentForRange(cow_op.dst_block, cow_op.block_count));
     }
     // The generated CowOps should cover all extents in InstallOps.
     ASSERT_EQ(dst_extent_set.blocks(), 0UL);
     // It's possible that src_extent_set is non-empty, because some operations
     // will be converted to CowReplace, and we don't count the source extent for
     // those.
   }
   OperationList operations_;
   MergeOplist merge_operations_;
 };

 void AddOperation(OperationList* operations,
                   ::chromeos_update_engine::InstallOperation_Type op_type,
                   std::initializer_list<std::array<int, 2>> src_extents,
                   std::initializer_list<std::array<int, 2>> dst_extents) {
   auto&& op = operations->Add();
   op->set_type(op_type);
   for (const auto& extent : src_extents) {
     *op->add_src_extents() = ExtentForRange(extent[0], extent[1]);
   }
   for (const auto& extent : dst_extents) {
     *op->add_dst_extents() = ExtentForRange(extent[0], extent[1]);
   }
 }

 void AddMergeOperation(MergeOplist* operations,
                        ::chromeos_update_engine::CowMergeOperation_Type op_type,
                        std::array<int, 2> src_extent,
                        std::array<int, 2> dst_extent) {
   auto&& op = operations->Add();
   op->set_type(op_type);
   *op->mutable_src_extent() = ExtentForRange(src_extent[0], src_extent[1]);
   *op->mutable_dst_extent() = ExtentForRange(dst_extent[0], dst_extent[1]);
 }

 TEST_F(CowOperationConvertTest, NoConflict) {
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{20, 1}}, {{30, 1}});
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{10, 1}}, {{20, 1}});
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{0, 1}}, {{10, 1}});

   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {20, 1}, {30, 1});
   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {10, 1}, {20, 1});
   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {0, 1}, {10, 1});

   auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
   ASSERT_EQ(cow_ops.size(), 3UL);
   ASSERT_TRUE(std::all_of(cow_ops.begin(), cow_ops.end(), [](auto&& cow_op) {
     return cow_op.op == CowOperation::CowCopy;
   }));
   VerifyCowMergeOp(cow_ops);
 }

 TEST_F(CowOperationConvertTest, CowReplace) {
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{30, 1}}, {{0, 1}});
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{20, 1}}, {{30, 1}});
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{10, 1}}, {{20, 1}});
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{0, 1}}, {{10, 1}});

   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {20, 1}, {30, 1});
   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {10, 1}, {20, 1});
   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {0, 1}, {10, 1});

   auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
   ASSERT_EQ(cow_ops.size(), 4UL);
   // Expect 3 COW_COPY and 1 COW_REPLACE
   ASSERT_EQ(std::count_if(cow_ops.begin(),
                           cow_ops.end(),
                           [](auto&& cow_op) {
                             return cow_op.op == CowOperation::CowCopy;
                           }),
             3);
   ASSERT_EQ(std::count_if(cow_ops.begin(),
                           cow_ops.end(),
                           [](auto&& cow_op) {
                             return cow_op.op == CowOperation::CowReplace;
                           }),
             1);
   VerifyCowMergeOp(cow_ops);
 }

 TEST_F(CowOperationConvertTest, ReOrderSourceCopy) {
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{30, 1}}, {{20, 1}});
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{20, 1}}, {{10, 1}});
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{10, 1}}, {{0, 1}});

   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {10, 1}, {0, 1});
   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {20, 1}, {10, 1});
   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {30, 1}, {20, 1});

   auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
   ASSERT_EQ(cow_ops.size(), 3UL);
   // Expect 3 COW_COPY
   ASSERT_TRUE(std::all_of(cow_ops.begin(), cow_ops.end(), [](auto&& cow_op) {
     return cow_op.op == CowOperation::CowCopy;
   }));
   VerifyCowMergeOp(cow_ops);
 }

 TEST_F(CowOperationConvertTest, InterleavingSrcExtent) {
   AddOperation(&operations_,
                InstallOperation::SOURCE_COPY,
                {{30, 5}, {35, 5}},
                {{20, 10}});
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{20, 1}}, {{10, 1}});
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{10, 1}}, {{0, 1}});

   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {10, 1}, {0, 1});
   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {20, 1}, {10, 1});
   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {30, 5}, {20, 5});
   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {35, 5}, {25, 5});

   auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
   // Expect 4 COW_COPY
   ASSERT_EQ(cow_ops.size(), 12UL);
   ASSERT_TRUE(std::all_of(cow_ops.begin(), cow_ops.end(), [](auto&& cow_op) {
     return cow_op.op == CowOperation::CowCopy;
   }));
   VerifyCowMergeOp(cow_ops);
 }

 TEST_F(CowOperationConvertTest, SelfOverlappingOperation) {
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{20, 10}}, {{25, 10}});

   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {20, 10}, {25, 10});

   auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
   // Expect 10 COW_COPY
   ASSERT_EQ(cow_ops.size(), 10UL);
   ASSERT_TRUE(std::all_of(cow_ops.begin(), cow_ops.end(), [](auto&& cow_op) {
     return cow_op.op == CowOperation::CowCopy;
   }));
   VerifyCowMergeOp(cow_ops);
 }

 TEST_F(CowOperationConvertTest, CowReplaceCoalesce) {
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{30, 10}}, {{0, 10}});

   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {30, 1}, {0, 1});
   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {31, 1}, {1, 1});
   AddMergeOperation(
       &merge_operations_, CowMergeOperation::COW_COPY, {32, 1}, {2, 1});

   auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
   for (const auto& op : cow_ops) {
     LOG(INFO) << op;
   }
   ASSERT_EQ(cow_ops.size(), 4UL);
   // Expect 3 COW_COPY and 1 COW_REPLACE
   ASSERT_EQ(std::count_if(cow_ops.begin(),
                           cow_ops.end(),
                           [](auto&& cow_op) {
                             return cow_op.op == CowOperation::CowCopy;
                           }),
             3);
   ASSERT_EQ(std::count_if(cow_ops.begin(),
                           cow_ops.end(),
                           [](auto&& cow_op) {
                             return cow_op.op == CowOperation::CowReplace;
                           }),
             1);
   VerifyCowMergeOp(cow_ops);
 }

 TEST_F(CowOperationConvertTest, CowReplaceDifferenceSrc) {
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{30, 10}}, {{0, 10}});
   AddOperation(
       &operations_, InstallOperation::SOURCE_COPY, {{100, 10}}, {{10, 10}});

   auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
   for (const auto& op : cow_ops) {
     LOG(INFO) << op;
   }
   ASSERT_EQ(cow_ops.size(), 2UL);
   // |src_block| matters. Even for ReplaceOperation.
   // As update_engine still need to know where the data come from.
   ASSERT_EQ(cow_ops[0].op, CowOperation::CowReplace);
   ASSERT_EQ(cow_ops[0].src_block, 30UL);
   ASSERT_EQ(cow_ops[0].dst_block, 0UL);
   ASSERT_EQ(cow_ops[0].block_count, 10UL);

   ASSERT_EQ(cow_ops[1].op, CowOperation::CowReplace);
   ASSERT_EQ(cow_ops[1].src_block, 100UL);
   ASSERT_EQ(cow_ops[1].dst_block, 10UL);
   ASSERT_EQ(cow_ops[1].block_count, 10UL);
   VerifyCowMergeOp(cow_ops);
 }

 }  // namespace chromeos_update_engine
	//
	// Copyright (C) 2020 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 <algorithm>
	#include <array>
	#include <initializer_list>

	#include <gtest/gtest.h>

	#include "update_engine/common/cow_operation_convert.h"
	#include "update_engine/payload_generator/extent_ranges.h"
	#include "update_engine/update_metadata.pb.h"

	namespace chromeos_update_engine {
	using OperationList = ::google::protobuf::RepeatedPtrField<
	::chromeos_update_engine::InstallOperation>;
	using MergeOplist = ::google::protobuf::RepeatedPtrField<
	::chromeos_update_engine::CowMergeOperation>;

	std::ostream& operator<<(std::ostream& out, CowOperation::Type op) {
	switch (op) {
	case CowOperation::Type::CowCopy:
	out << "CowCopy";
	break;
	case CowOperation::Type::CowReplace:
	out << "CowReplace";
	break;
	default:
	out << op;
	break;
	}
	return out;
	}

	std::ostream& operator<<(std::ostream& out, const CowOperation& c) {
	out << "{" << c.op << ", " << c.src_block << ", " << c.dst_block << ", "
	<< c.block_count << "}";
	return out;
	}

	class CowOperationConvertTest : public testing::Test {
	public:
	void VerifyCowMergeOp(const std::vector<CowOperation>& cow_ops) {
	// Build a set of all extents covered by InstallOps.
	ExtentRanges src_extent_set;
	ExtentRanges dst_extent_set;
	for (auto&& op : operations_) {
	src_extent_set.AddRepeatedExtents(op.src_extents());
	dst_extent_set.AddRepeatedExtents(op.dst_extents());
	}
	ExtentRanges modified_extents;
	for (auto&& cow_op : cow_ops) {
	if (cow_op.op == CowOperation::CowCopy) {
	for (size_t i = 0; i < cow_op.block_count; i++) {
	ASSERT_TRUE(src_extent_set.ContainsBlock(cow_op.src_block + i));
	// converted operations should be conflict free.
	ASSERT_FALSE(modified_extents.ContainsBlock(cow_op.src_block + i))
	<< "SOURCE_COPY operation " << cow_op
	<< " read from a modified block";
	}
	}
	for (size_t i = 0; i < cow_op.block_count; i++) {
	ASSERT_TRUE(dst_extent_set.ContainsBlock(cow_op.dst_block + i));
	}
	dst_extent_set.SubtractExtent(
	ExtentForRange(cow_op.dst_block, cow_op.block_count));
	modified_extents.AddExtent(
	ExtentForRange(cow_op.dst_block, cow_op.block_count));
	}
	// The generated CowOps should cover all extents in InstallOps.
	ASSERT_EQ(dst_extent_set.blocks(), 0UL);
	// It's possible that src_extent_set is non-empty, because some operations
	// will be converted to CowReplace, and we don't count the source extent for
	// those.
	}
	OperationList operations_;
	MergeOplist merge_operations_;
	};

	void AddOperation(OperationList* operations,
	::chromeos_update_engine::InstallOperation_Type op_type,
	std::initializer_list<std::array<int, 2>> src_extents,
	std::initializer_list<std::array<int, 2>> dst_extents) {
	auto&& op = operations->Add();
	op->set_type(op_type);
	for (const auto& extent : src_extents) {
	*op->add_src_extents() = ExtentForRange(extent[0], extent[1]);
	}
	for (const auto& extent : dst_extents) {
	*op->add_dst_extents() = ExtentForRange(extent[0], extent[1]);
	}
	}

	void AddMergeOperation(MergeOplist* operations,
	::chromeos_update_engine::CowMergeOperation_Type op_type,
	std::array<int, 2> src_extent,
	std::array<int, 2> dst_extent) {
	auto&& op = operations->Add();
	op->set_type(op_type);
	*op->mutable_src_extent() = ExtentForRange(src_extent[0], src_extent[1]);
	*op->mutable_dst_extent() = ExtentForRange(dst_extent[0], dst_extent[1]);
	}

	TEST_F(CowOperationConvertTest, NoConflict) {
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{20, 1}}, {{30, 1}});
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{10, 1}}, {{20, 1}});
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{0, 1}}, {{10, 1}});

	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {20, 1}, {30, 1});
	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {10, 1}, {20, 1});
	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {0, 1}, {10, 1});

	auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
	ASSERT_EQ(cow_ops.size(), 3UL);
	ASSERT_TRUE(std::all_of(cow_ops.begin(), cow_ops.end(), [](auto&& cow_op) {
	return cow_op.op == CowOperation::CowCopy;
	}));
	VerifyCowMergeOp(cow_ops);
	}

	TEST_F(CowOperationConvertTest, CowReplace) {
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{30, 1}}, {{0, 1}});
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{20, 1}}, {{30, 1}});
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{10, 1}}, {{20, 1}});
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{0, 1}}, {{10, 1}});

	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {20, 1}, {30, 1});
	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {10, 1}, {20, 1});
	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {0, 1}, {10, 1});

	auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
	ASSERT_EQ(cow_ops.size(), 4UL);
	// Expect 3 COW_COPY and 1 COW_REPLACE
	ASSERT_EQ(std::count_if(cow_ops.begin(),
	cow_ops.end(),
	[](auto&& cow_op) {
	return cow_op.op == CowOperation::CowCopy;
	}),
	3);
	ASSERT_EQ(std::count_if(cow_ops.begin(),
	cow_ops.end(),
	[](auto&& cow_op) {
	return cow_op.op == CowOperation::CowReplace;
	}),
	1);
	VerifyCowMergeOp(cow_ops);
	}

	TEST_F(CowOperationConvertTest, ReOrderSourceCopy) {
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{30, 1}}, {{20, 1}});
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{20, 1}}, {{10, 1}});
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{10, 1}}, {{0, 1}});

	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {10, 1}, {0, 1});
	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {20, 1}, {10, 1});
	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {30, 1}, {20, 1});

	auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
	ASSERT_EQ(cow_ops.size(), 3UL);
	// Expect 3 COW_COPY
	ASSERT_TRUE(std::all_of(cow_ops.begin(), cow_ops.end(), [](auto&& cow_op) {
	return cow_op.op == CowOperation::CowCopy;
	}));
	VerifyCowMergeOp(cow_ops);
	}

	TEST_F(CowOperationConvertTest, InterleavingSrcExtent) {
	AddOperation(&operations_,
	InstallOperation::SOURCE_COPY,
	{{30, 5}, {35, 5}},
	{{20, 10}});
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{20, 1}}, {{10, 1}});
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{10, 1}}, {{0, 1}});

	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {10, 1}, {0, 1});
	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {20, 1}, {10, 1});
	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {30, 5}, {20, 5});
	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {35, 5}, {25, 5});

	auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
	// Expect 4 COW_COPY
	ASSERT_EQ(cow_ops.size(), 12UL);
	ASSERT_TRUE(std::all_of(cow_ops.begin(), cow_ops.end(), [](auto&& cow_op) {
	return cow_op.op == CowOperation::CowCopy;
	}));
	VerifyCowMergeOp(cow_ops);
	}

	TEST_F(CowOperationConvertTest, SelfOverlappingOperation) {
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{20, 10}}, {{25, 10}});

	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {20, 10}, {25, 10});

	auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
	// Expect 10 COW_COPY
	ASSERT_EQ(cow_ops.size(), 10UL);
	ASSERT_TRUE(std::all_of(cow_ops.begin(), cow_ops.end(), [](auto&& cow_op) {
	return cow_op.op == CowOperation::CowCopy;
	}));
	VerifyCowMergeOp(cow_ops);
	}

	TEST_F(CowOperationConvertTest, CowReplaceCoalesce) {
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{30, 10}}, {{0, 10}});

	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {30, 1}, {0, 1});
	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {31, 1}, {1, 1});
	AddMergeOperation(
	&merge_operations_, CowMergeOperation::COW_COPY, {32, 1}, {2, 1});

	auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
	for (const auto& op : cow_ops) {
	LOG(INFO) << op;
	}
	ASSERT_EQ(cow_ops.size(), 4UL);
	// Expect 3 COW_COPY and 1 COW_REPLACE
	ASSERT_EQ(std::count_if(cow_ops.begin(),
	cow_ops.end(),
	[](auto&& cow_op) {
	return cow_op.op == CowOperation::CowCopy;
	}),
	3);
	ASSERT_EQ(std::count_if(cow_ops.begin(),
	cow_ops.end(),
	[](auto&& cow_op) {
	return cow_op.op == CowOperation::CowReplace;
	}),
	1);
	VerifyCowMergeOp(cow_ops);
	}

	TEST_F(CowOperationConvertTest, CowReplaceDifferenceSrc) {
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{30, 10}}, {{0, 10}});
	AddOperation(
	&operations_, InstallOperation::SOURCE_COPY, {{100, 10}}, {{10, 10}});

	auto cow_ops = ConvertToCowOperations(operations_, merge_operations_);
	for (const auto& op : cow_ops) {
	LOG(INFO) << op;
	}
	ASSERT_EQ(cow_ops.size(), 2UL);
	// \|src_block\| matters. Even for ReplaceOperation.
	// As update_engine still need to know where the data come from.
	ASSERT_EQ(cow_ops[0].op, CowOperation::CowReplace);
	ASSERT_EQ(cow_ops[0].src_block, 30UL);
	ASSERT_EQ(cow_ops[0].dst_block, 0UL);
	ASSERT_EQ(cow_ops[0].block_count, 10UL);

	ASSERT_EQ(cow_ops[1].op, CowOperation::CowReplace);
	ASSERT_EQ(cow_ops[1].src_block, 100UL);
	ASSERT_EQ(cow_ops[1].dst_block, 10UL);
	ASSERT_EQ(cow_ops[1].block_count, 10UL);
	VerifyCowMergeOp(cow_ops);
	}

	} // namespace chromeos_update_engine