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android / platform / external / libprotobuf-mutator / 19b7bf3edcedaea88dff58cc0d0bd595846a9db5 / . / src / mutator_test.cc
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// Copyright 2016 Google Inc. All rights reserved.
//
// 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 "src/mutator.h"
#include <algorithm>
#include <set>
#include <string>
#include <tuple>
#include <utility>
#include <vector>
#include "port/gtest.h"
#include "src/binary_format.h"
#include "src/mutator_test_proto2.pb.h"
#include "src/mutator_test_proto3.pb.h"
#include "src/text_format.h"
namespace protobuf_mutator {
using protobuf::util::MessageDifferencer;
using testing::TestWithParam;
using testing::ValuesIn;
const char kMessages[] = R"(
required_msg {}
optional_msg {}
repeated_msg {}
repeated_msg {required_sint32: 56}
repeated_msg {}
repeated_msg {
required_msg {}
optional_msg {}
repeated_msg {}
repeated_msg { required_int32: 67 }
repeated_msg {}
}
)";
const char kMessagesProto3[] = R"(
optional_msg {}
repeated_msg {}
repeated_msg {optional_sint32: 56}
repeated_msg {}
repeated_msg {
optional_msg {}
repeated_msg {}
repeated_msg { optional_int32: 67 }
repeated_msg {}
}
)";
const char kRequiredFields[] = R"(
required_double: 1.26685288449177e-313
required_float: 5.9808638e-39
required_int32: 67
required_int64: 5285068
required_uint32: 14486213
required_uint64: 520229415
required_sint32: 56
required_sint64: -6057486163525532641
required_fixed32: 8812173
required_fixed64: 273731277756
required_sfixed32: 43142
required_sfixed64: 132
required_bool: false
required_string: "qwert"
required_bytes: "asdf"
)";
const char kOptionalFields[] = R"(
optional_double: 1.93177850152856e-314
optional_float: 4.7397519e-41
optional_int32: 40020
optional_int64: 10
optional_uint32: 40
optional_uint64: 159
optional_sint32: 44015
optional_sint64: 17493625000076
optional_fixed32: 193
optional_fixed64: 8542688694448488723
optional_sfixed32: 4926
optional_sfixed64: 60
optional_bool: true
optional_string: "QWERT"
optional_bytes: "ASDF"
optional_enum: ENUM_5
)";
const char kRepeatedFields[] = R"(
repeated_double: 1.93177850152856e-314
repeated_double: 1.26685288449177e-313
repeated_float: 4.7397519e-41
repeated_float: 5.9808638e-39
repeated_int32: 40020
repeated_int32: 67
repeated_int64: 10
repeated_int64: 5285068
repeated_uint32: 40
repeated_uint32: 14486213
repeated_uint64: 159
repeated_uint64: 520229415
repeated_sint32: 44015
repeated_sint32: 56
repeated_sint64: 17493625000076
repeated_sint64: -6057486163525532641
repeated_fixed32: 193
repeated_fixed32: 8812173
repeated_fixed64: 8542688694448488723
repeated_fixed64: 273731277756
repeated_sfixed32: 4926
repeated_sfixed32: 43142
repeated_sfixed64: 60
repeated_sfixed64: 132
repeated_bool: false
repeated_bool: true
repeated_string: "QWERT"
repeated_string: "qwert"
repeated_bytes: "ASDF"
repeated_bytes: "asdf"
repeated_enum: ENUM_5
repeated_enum: ENUM_4
)";
const char kRequiredNestedFields[] = R"(
required_int32: 123
optional_msg {
required_double: 1.26685288449177e-313
required_float: 5.9808638e-39
required_int32: 67
required_int64: 5285068
required_uint32: 14486213
required_uint64: 520229415
required_sint32: 56
required_sint64: -6057486163525532641
required_fixed32: 8812173
required_fixed64: 273731277756
required_sfixed32: 43142
required_sfixed64: 132
required_bool: false
required_string: "qwert"
required_bytes: "asdf"
}
)";
const char kOptionalNestedFields[] = R"(
optional_int32: 123
optional_msg {
optional_double: 1.93177850152856e-314
optional_float: 4.7397519e-41
optional_int32: 40020
optional_int64: 10
optional_uint32: 40
optional_uint64: 159
optional_sint32: 44015
optional_sint64: 17493625000076
optional_fixed32: 193
optional_fixed64: 8542688694448488723
optional_sfixed32: 4926
optional_sfixed64: 60
optional_bool: true
optional_string: "QWERT"
optional_bytes: "ASDF"
optional_enum: ENUM_5
}
)";
const char kRepeatedNestedFields[] = R"(
optional_int32: 123
optional_msg {
repeated_double: 1.93177850152856e-314
repeated_double: 1.26685288449177e-313
repeated_float: 4.7397519e-41
repeated_float: 5.9808638e-39
repeated_int32: 40020
repeated_int32: 67
repeated_int64: 10
repeated_int64: 5285068
repeated_uint32: 40
repeated_uint32: 14486213
repeated_uint64: 159
repeated_uint64: 520229415
repeated_sint32: 44015
repeated_sint32: 56
repeated_sint64: 17493625000076
repeated_sint64: -6057486163525532641
repeated_fixed32: 193
repeated_fixed32: 8812173
repeated_fixed64: 8542688694448488723
repeated_fixed64: 273731277756
repeated_sfixed32: 4926
repeated_sfixed32: 43142
repeated_sfixed64: 60
repeated_sfixed64: 132
repeated_bool: false
repeated_bool: true
repeated_string: "QWERT"
repeated_string: "qwert"
repeated_bytes: "ASDF"
repeated_bytes: "asdf"
repeated_enum: ENUM_5
repeated_enum: ENUM_4
}
)";
class TestMutator : public Mutator {
public:
explicit TestMutator(bool keep_initialized) : Mutator(&random_), random_(17) {
keep_initialized_ = keep_initialized;
}
// Avoids dedup logic for some tests.
void NoDeDupCrossOver(const protobuf::Message& message1,
protobuf::Message* message2) {
CrossOverImpl(message1, message2);
}
private:
RandomEngine random_;
};
class ReducedTestMutator : public TestMutator {
public:
ReducedTestMutator() : TestMutator(false) {
for (float i = 1000; i > 0.1; i /= 7) {
values_.push_back(i);
values_.push_back(-i);
}
values_.push_back(-1.0);
values_.push_back(0.0);
values_.push_back(1.0);
}
protected:
int32_t MutateInt32(int32_t value) override { return GetRandomValue(); }
int64_t MutateInt64(int64_t value) override { return GetRandomValue(); }
uint32_t MutateUInt32(uint32_t value) override {
return fabs(GetRandomValue());
}
uint64_t MutateUInt64(uint64_t value) override {
return fabs(GetRandomValue());
}
float MutateFloat(float value) override { return GetRandomValue(); }
double MutateDouble(double value) override { return GetRandomValue(); }
std::string MutateString(const std::string& value,
size_t size_increase_hint) override {
return strings_[std::uniform_int_distribution<uint8_t>(
0, strings_.size() - 1)(*random())];
}
private:
float GetRandomValue() {
return values_[std::uniform_int_distribution<uint8_t>(
0, values_.size() - 1)(*random())];
}
std::vector<float> values_;
std::vector<std::string> strings_ = {
"", "\001", "\000", "a", "b", "ab",
};
};
std::vector<std::string> Split(const std::string& str) {
std::istringstream iss(str);
std::vector<std::string> result;
for (std::string line; std::getline(iss, line, '\n');) result.push_back(line);
return result;
}
using TestParams = std::tuple<const protobuf::Message*, const char*, size_t>;
template <class T>
std::vector<TestParams> GetFieldTestParams(
const std::vector<const char*>& tests) {
std::vector<TestParams> results;
for (auto t : tests) {
auto lines = Split(t);
for (size_t i = 0; i != lines.size(); ++i) {
if (lines[i].find(':') != std::string::npos)
results.push_back(std::make_tuple(&T::default_instance(), t, i));
}
}
return results;
}
template <class T>
std::vector<TestParams> GetMessageTestParams(
const std::vector<const char*>& tests) {
std::vector<TestParams> results;
for (auto t : tests) {
auto lines = Split(t);
for (size_t i = 0; i != lines.size(); ++i) {
if (lines[i].find("{}") != std::string::npos)
results.push_back(std::make_tuple(&T::default_instance(), t, i));
}
}
return results;
}
bool Mutate(const protobuf::Message& from, const protobuf::Message& to) {
EXPECT_FALSE(MessageDifferencer::Equals(from, to));
ReducedTestMutator mutator;
std::unique_ptr<protobuf::Message> message(from.New());
for (int j = 0; j < 1000000; ++j) {
message->CopyFrom(from);
mutator.Mutate(message.get(), 1000);
if (MessageDifferencer::Equals(*message, to)) return true;
}
ADD_FAILURE() << "Failed to get from:\n"
<< SaveMessageAsText(from) << "\nto:\n"
<< SaveMessageAsText(to);
return false;
}
class MutatorTest : public TestWithParam<TestParams> {
protected:
void SetUp() override {
m1_.reset(std::get<0>(GetParam())->New());
m2_.reset(std::get<0>(GetParam())->New());
text_ = std::get<1>(GetParam());
line_ = std::get<2>(GetParam());
}
void LoadMessage(protobuf::Message* message) {
EXPECT_TRUE(ParseTextMessage(text_, message));
}
bool LoadWithoutLine(protobuf::Message* message) {
std::ostringstream oss;
auto lines = Split(text_);
for (size_t i = 0; i != lines.size(); ++i) {
if (i != line_) oss << lines[i] << '\n';
}
return ParseTextMessage(oss.str(), message);
}
bool LoadWithChangedLine(protobuf::Message* message, int value) {
auto lines = Split(text_);
std::ostringstream oss;
for (size_t i = 0; i != lines.size(); ++i) {
if (i != line_) {
oss << lines[i] << '\n';
} else {
std::string s = lines[i];
s.resize(s.find(':') + 2);
if (lines[i].back() == '\"') {
// strings
s += value ? "\"\\" + std::to_string(value) + "\"" : "\"\"";
} else if (lines[i].back() == 'e') {
// bools
s += value ? "true" : "false";
} else {
s += std::to_string(value);
}
oss << s << '\n';
}
}
return ParseTextMessage(oss.str(), message);
}
std::string text_;
size_t line_;
std::unique_ptr<protobuf::Message> m1_;
std::unique_ptr<protobuf::Message> m2_;
};
// These tests are irrelevant for Proto3 as it has no required fields and
// insertion/deletion.
class MutatorFieldInsDelTest : public MutatorTest {};
INSTANTIATE_TEST_CASE_P(Proto2, MutatorFieldInsDelTest,
ValuesIn(GetFieldTestParams<Msg>(
{kRequiredFields, kOptionalFields, kRepeatedFields,
kRequiredNestedFields, kOptionalNestedFields,
kRepeatedNestedFields})));
TEST_P(MutatorFieldInsDelTest, DeleteField) {
LoadMessage(m1_.get());
LoadWithoutLine(m2_.get());
EXPECT_TRUE(Mutate(*m1_, *m2_));
}
TEST_P(MutatorFieldInsDelTest, InsertField) {
LoadWithoutLine(m1_.get());
LoadWithChangedLine(m2_.get(), 0);
EXPECT_TRUE(Mutate(*m1_, *m2_));
}
class MutatorFieldTest : public MutatorTest {
public:
template <class Msg>
void TestCopyField();
};
INSTANTIATE_TEST_CASE_P(Proto2, MutatorFieldTest,
ValuesIn(GetFieldTestParams<Msg>(
{kRequiredFields, kOptionalFields, kRepeatedFields,
kRequiredNestedFields, kOptionalNestedFields,
kRepeatedNestedFields})));
INSTANTIATE_TEST_CASE_P(Proto3, MutatorFieldTest,
ValuesIn(GetFieldTestParams<Msg3>(
{kOptionalFields, kRepeatedFields,
kOptionalNestedFields, kRepeatedNestedFields})));
TEST_P(MutatorFieldTest, Initialized) {
LoadWithoutLine(m1_.get());
TestMutator mutator(true);
mutator.Mutate(m1_.get(), 1000);
EXPECT_TRUE(m1_->IsInitialized());
}
TEST_P(MutatorFieldTest, ChangeField) {
LoadWithChangedLine(m1_.get(), 0);
LoadWithChangedLine(m2_.get(), 1);
EXPECT_TRUE(Mutate(*m1_, *m2_));
EXPECT_TRUE(Mutate(*m2_, *m1_));
}
template <class Msg>
void MutatorFieldTest::TestCopyField() {
LoadWithChangedLine(m1_.get(), 7);
LoadWithChangedLine(m2_.get(), 0);
Msg from;
from.add_repeated_msg()->CopyFrom(*m1_);
from.add_repeated_msg()->CopyFrom(*m2_);
Msg to;
to.add_repeated_msg()->CopyFrom(*m1_);
to.add_repeated_msg()->CopyFrom(*m1_);
EXPECT_TRUE(Mutate(from, to));
to.Clear();
to.add_repeated_msg()->CopyFrom(*m2_);
to.add_repeated_msg()->CopyFrom(*m2_);
EXPECT_TRUE(Mutate(from, to));
}
TEST_P(MutatorFieldTest, CopyField) {
if (m1_->GetDescriptor() == Msg::descriptor())
TestCopyField<Msg>();
else
TestCopyField<Msg3>();
}
class MutatorSingleFieldTest : public MutatorTest {};
INSTANTIATE_TEST_CASE_P(Proto2, MutatorSingleFieldTest,
ValuesIn(GetFieldTestParams<Msg>({
kRequiredFields, kOptionalFields,
kRequiredNestedFields, kOptionalNestedFields,
})));
INSTANTIATE_TEST_CASE_P(Proto3, MutatorSingleFieldTest,
ValuesIn(GetFieldTestParams<Msg3>({
kOptionalFields, kOptionalNestedFields,
})));
TEST_P(MutatorSingleFieldTest, CrossOver) {
LoadWithoutLine(m1_.get());
LoadMessage(m2_.get());
EXPECT_FALSE(MessageDifferencer::Equals(*m1_, *m2_));
TestMutator mutator(false);
int match_m1_ = 0;
int match_m2_ = 0;
int iterations = 1000;
std::unique_ptr<protobuf::Message> message(m1_->New());
for (int j = 0; j < iterations; ++j) {
message->CopyFrom(*m1_);
mutator.NoDeDupCrossOver(*m2_, message.get());
if (MessageDifferencer::Equals(*message, *m2_)) ++match_m2_;
if (MessageDifferencer::Equals(*message, *m1_)) ++match_m1_;
}
EXPECT_LT(iterations * .4, match_m1_);
EXPECT_GE(iterations * .6, match_m1_);
EXPECT_LT(iterations * .4, match_m2_);
EXPECT_GE(iterations * .6, match_m2_);
}
template <typename T>
class MutatorTypedTest : public ::testing::Test {
public:
using Message = T;
};
using MutatorTypedTestTypes = testing::Types<Msg, Msg3>;
TYPED_TEST_CASE(MutatorTypedTest, MutatorTypedTestTypes);
TYPED_TEST(MutatorTypedTest, CrossOverRepeated) {
typename TestFixture::Message m1;
m1.add_repeated_int32(1);
m1.add_repeated_int32(2);
m1.add_repeated_int32(3);
typename TestFixture::Message m2;
m2.add_repeated_int32(4);
m2.add_repeated_int32(5);
m2.add_repeated_int32(6);
int iterations = 10000;
std::set<std::set<int>> sets;
TestMutator mutator(false);
for (int j = 0; j < iterations; ++j) {
typename TestFixture::Message message;
message.CopyFrom(m1);
mutator.NoDeDupCrossOver(m2, &message);
sets.insert(
{message.repeated_int32().begin(), message.repeated_int32().end()});
}
EXPECT_EQ(1u << 6, sets.size());
}
TYPED_TEST(MutatorTypedTest, CrossOverRepeatedMessages) {
typename TestFixture::Message m1;
auto* rm1 = m1.add_repeated_msg();
rm1->add_repeated_int32(1);
rm1->add_repeated_int32(2);
typename TestFixture::Message m2;
auto* rm2 = m2.add_repeated_msg();
rm2->add_repeated_int32(3);
rm2->add_repeated_int32(4);
rm2->add_repeated_int32(5);
rm2->add_repeated_int32(6);
int iterations = 10000;
std::set<std::set<int>> sets;
TestMutator mutator(false);
for (int j = 0; j < iterations; ++j) {
typename TestFixture::Message message;
message.CopyFrom(m1);
mutator.NoDeDupCrossOver(m2, &message);
for (const auto& msg : message.repeated_msg())
sets.insert({msg.repeated_int32().begin(), msg.repeated_int32().end()});
}
EXPECT_EQ(1u << 6, sets.size());
}
TYPED_TEST(MutatorTypedTest, FailedMutations) {
TestMutator mutator(false);
size_t crossovers = 0;
for (int i = 0; i < 10000; ++i) {
typename TestFixture::Message messages[2];
typename TestFixture::Message tmp;
for (int j = 0; j < 20; ++j) {
for (auto& m : messages) {
tmp.CopyFrom(m);
mutator.Mutate(&m, 1000);
// Mutate must not produce the same result.
EXPECT_FALSE(MessageDifferencer::Equals(m, tmp));
}
}
tmp.CopyFrom(messages[1]);
mutator.CrossOver(messages[0], &tmp);
if (MessageDifferencer::Equals(tmp, messages[1]) ||
MessageDifferencer::Equals(tmp, messages[0]))
++crossovers;
}
// CrossOver may fail but very rare.
EXPECT_LT(crossovers, 100u);
}
TYPED_TEST(MutatorTypedTest, Serialization) {
TestMutator mutator(false);
for (int i = 0; i < 10000; ++i) {
typename TestFixture::Message message;
for (int j = 0; j < 5; ++j) {
mutator.Mutate(&message, 1000);
typename TestFixture::Message parsed;
EXPECT_TRUE(ParseTextMessage(SaveMessageAsText(message), &parsed));
EXPECT_TRUE(MessageDifferencer::Equals(parsed, message));
EXPECT_TRUE(ParseBinaryMessage(SaveMessageAsBinary(message), &parsed));
EXPECT_TRUE(MessageDifferencer::Equals(parsed, message));
}
}
}
class MutatorMessagesTest : public MutatorTest {};
INSTANTIATE_TEST_CASE_P(Proto2, MutatorMessagesTest,
ValuesIn(GetMessageTestParams<Msg>({kMessages})));
INSTANTIATE_TEST_CASE_P(
Proto3, MutatorMessagesTest,
ValuesIn(GetMessageTestParams<Msg3>({kMessagesProto3})));
TEST_P(MutatorMessagesTest, DeletedMessage) {
LoadMessage(m1_.get());
LoadWithoutLine(m2_.get());
EXPECT_TRUE(Mutate(*m1_, *m2_));
}
TEST_P(MutatorMessagesTest, InsertMessage) {
LoadWithoutLine(m1_.get());
LoadMessage(m2_.get());
EXPECT_TRUE(Mutate(*m1_, *m2_));
}
// TODO(vitalybuka): Special tests for oneof.
TEST(MutatorMessagesTest, UsageExample) {
SmallMessage message;
TestMutator mutator(false);
// Test that we can generate all variation of the message.
std::set<std::string> mutations;
for (int j = 0; j < 1000; ++j) {
mutator.Mutate(&message, 1000);
std::string str = SaveMessageAsText(message);
mutations.insert(str);
}
// 3 states for boolean and 5 for enum, including missing fields.
EXPECT_EQ(3u * 5u, mutations.size());
}
TEST(MutatorMessagesTest, EmptyMessage) {
EmptyMessage message;
TestMutator mutator(false);
for (int j = 0; j < 10000; ++j) mutator.Mutate(&message, 1000);
}
TEST(MutatorMessagesTest, Regressions) {
RegressionMessage message;
TestMutator mutator(false);
for (int j = 0; j < 10000; ++j) mutator.Mutate(&message, 1000);
}
} // namespace protobuf_mutator