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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
//
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file or at
// https://developers.google.com/open-source/licenses/bsd
// This file defines a protocol for running the conformance test suite
// in-process. In other words, the suite itself will run in the same process as
// the code under test.
//
// For pros and cons of this approach, please see conformance.proto.
#ifndef CONFORMANCE_CONFORMANCE_TEST_H
#define CONFORMANCE_CONFORMANCE_TEST_H
#include <cstddef>
#include <memory>
#include <string>
#include <vector>
#include "google/protobuf/descriptor.pb.h"
#include "google/protobuf/util/type_resolver.h"
#include "absl/container/btree_set.h"
#include "absl/container/flat_hash_set.h"
#include "absl/strings/string_view.h"
#include "conformance/conformance.pb.h"
#include "google/protobuf/descriptor.h"
#include "google/protobuf/wire_format_lite.h"
namespace conformance {
class ConformanceRequest;
class ConformanceResponse;
} // namespace conformance
namespace protobuf_test_messages {
namespace proto3 {
class TestAllTypesProto3;
} // namespace proto3
} // namespace protobuf_test_messages
namespace google {
namespace protobuf {
class ConformanceTestSuite;
class ConformanceTestRunner {
public:
virtual ~ConformanceTestRunner() {}
// Call to run a single conformance test.
//
// "input" is a serialized conformance.ConformanceRequest.
// "output" should be set to a serialized conformance.ConformanceResponse.
//
// If there is any error in running the test itself, set "runtime_error" in
// the response.
virtual void RunTest(const std::string& test_name, const std::string& input,
std::string* output) = 0;
};
// Test runner that spawns the process being tested and communicates with it
// over a pipe.
class ForkPipeRunner : public ConformanceTestRunner {
public:
// Note: Run() doesn't take ownership of the pointers inside suites.
static int Run(int argc, char* argv[],
const std::vector<ConformanceTestSuite*>& suites);
ForkPipeRunner(const std::string& executable,
const std::vector<std::string>& executable_args,
bool performance)
: child_pid_(-1),
executable_(executable),
executable_args_(executable_args),
performance_(performance) {}
explicit ForkPipeRunner(const std::string& executable)
: child_pid_(-1), executable_(executable) {}
virtual ~ForkPipeRunner() {}
void RunTest(const std::string& test_name, const std::string& request,
std::string* response);
private:
void SpawnTestProgram();
void CheckedWrite(int fd, const void* buf, size_t len);
bool TryRead(int fd, void* buf, size_t len);
void CheckedRead(int fd, void* buf, size_t len);
int write_fd_;
int read_fd_;
pid_t child_pid_;
std::string executable_;
const std::vector<std::string> executable_args_;
bool performance_;
std::string current_test_name_;
};
// Class representing the test suite itself. To run it, implement your own
// class derived from ConformanceTestRunner, class derived from
// ConformanceTestSuite and then write code like:
//
// class MyConformanceTestSuite : public ConformanceTestSuite {
// public:
// void RunSuiteImpl() {
// // INSERT ACTUAL TESTS.
// }
// };
//
// class MyConformanceTestRunner : public ConformanceTestRunner {
// public:
// static int Run(int argc, char *argv[],
// ConformanceTestSuite* suite);
//
// private:
// virtual void RunTest(...) {
// // INSERT YOUR FRAMEWORK-SPECIFIC CODE HERE.
// }
// };
//
// int main() {
// MyConformanceTestSuite suite;
// MyConformanceTestRunner::Run(argc, argv, &suite);
// }
//
class ConformanceTestSuite {
public:
ConformanceTestSuite()
: verbose_(false),
performance_(false),
enforce_recommended_(false),
maximum_edition_(Edition::EDITION_PROTO3),
failure_list_flag_name_("--failure_list") {}
virtual ~ConformanceTestSuite() {}
void SetPerformance(bool performance) { performance_ = performance; }
void SetVerbose(bool verbose) { verbose_ = verbose; }
// Whether to require the testee to pass RECOMMENDED tests. By default failing
// a RECOMMENDED test case will not fail the entire suite but will only
// generated a warning. If this flag is set to true, RECOMMENDED tests will
// be treated the same way as REQUIRED tests and failing a RECOMMENDED test
// case will cause the entire test suite to fail as well. An implementation
// can enable this if it wants to be strictly conforming to protobuf spec.
// See the comments about ConformanceLevel below to learn more about the
// difference between REQUIRED and RECOMMENDED test cases.
void SetEnforceRecommended(bool value) { enforce_recommended_ = value; }
// Sets the maximum edition (inclusive) that should be tests for conformance.
void SetMaximumEdition(Edition edition) { maximum_edition_ = edition; }
// Gets the flag name to the failure list file.
// By default, this would return --failure_list
std::string GetFailureListFlagName() { return failure_list_flag_name_; }
void SetFailureListFlagName(const std::string& failure_list_flag_name) {
failure_list_flag_name_ = failure_list_flag_name;
}
// Sets the path of the output directory.
void SetOutputDir(const char* output_dir) { output_dir_ = output_dir; }
// Run all the conformance tests against the given test runner.
// Test output will be stored in "output".
//
// Returns true if the set of failing tests was exactly the same as the
// failure list.
// The filename here is *only* used to create/format useful error messages for
// how to update the failure list. We do NOT read this file at all.
bool RunSuite(ConformanceTestRunner* runner, std::string* output,
const std::string& filename,
conformance::FailureSet* failure_list);
protected:
// Test cases are classified into a few categories:
// REQUIRED: the test case must be passed for an implementation to be
// interoperable with other implementations. For example, a
// parser implementation must accept both packed and unpacked
// form of repeated primitive fields.
// RECOMMENDED: the test case is not required for the implementation to
// be interoperable with other implementations, but is
// recommended for best performance and compatibility. For
// example, a proto3 serializer should serialize repeated
// primitive fields in packed form, but an implementation
// failing to do so will still be able to communicate with
// other implementations.
enum ConformanceLevel {
REQUIRED = 0,
RECOMMENDED = 1,
};
class ConformanceRequestSetting {
public:
ConformanceRequestSetting(ConformanceLevel level,
conformance::WireFormat input_format,
conformance::WireFormat output_format,
conformance::TestCategory test_category,
const Message& prototype_message,
const std::string& test_name,
const std::string& input);
virtual ~ConformanceRequestSetting() {}
std::unique_ptr<Message> NewTestMessage() const;
std::string GetSyntaxIdentifier() const;
std::string GetTestName() const;
const conformance::ConformanceRequest& GetRequest() const {
return request_;
}
ConformanceLevel GetLevel() const { return level_; }
std::string ConformanceLevelToString(ConformanceLevel level) const;
void SetPrintUnknownFields(bool print_unknown_fields) {
request_.set_print_unknown_fields(true);
}
void SetPrototypeMessageForCompare(const Message& message) {
prototype_message_for_compare_.reset(message.New());
}
protected:
virtual std::string InputFormatString(conformance::WireFormat format) const;
virtual std::string OutputFormatString(
conformance::WireFormat format) const;
conformance::ConformanceRequest request_;
private:
ConformanceLevel level_;
::conformance::WireFormat input_format_;
::conformance::WireFormat output_format_;
const Message& prototype_message_;
std::unique_ptr<Message> prototype_message_for_compare_;
std::string test_name_;
};
std::string WireFormatToString(conformance::WireFormat wire_format);
// Parse payload in the response to the given message. Returns true on
// success.
virtual bool ParseResponse(const conformance::ConformanceResponse& response,
const ConformanceRequestSetting& setting,
Message* test_message) = 0;
void VerifyResponse(const ConformanceRequestSetting& setting,
const std::string& equivalent_wire_format,
const conformance::ConformanceResponse& response,
bool need_report_success, bool require_same_wire_format);
void TruncateDebugPayload(std::string* payload);
conformance::ConformanceRequest TruncateRequest(
const conformance::ConformanceRequest& request);
conformance::ConformanceResponse TruncateResponse(
const conformance::ConformanceResponse& response);
void ReportSuccess(const std::string& test_name);
void ReportFailure(const std::string& test_name, ConformanceLevel level,
const conformance::ConformanceRequest& request,
const conformance::ConformanceResponse& response,
absl::string_view message);
void ReportSkip(const std::string& test_name,
const conformance::ConformanceRequest& request,
const conformance::ConformanceResponse& response);
void RunValidInputTest(const ConformanceRequestSetting& setting,
const std::string& equivalent_text_format);
void RunValidBinaryInputTest(const ConformanceRequestSetting& setting,
const std::string& equivalent_wire_format,
bool require_same_wire_format = false);
void RunTest(const std::string& test_name,
const conformance::ConformanceRequest& request,
conformance::ConformanceResponse* response);
void AddExpectedFailedTest(const std::string& test_name);
virtual void RunSuiteImpl() = 0;
ConformanceTestRunner* runner_;
int successes_;
int expected_failures_;
bool verbose_;
bool performance_;
bool enforce_recommended_;
Edition maximum_edition_;
std::string output_;
std::string output_dir_;
std::string failure_list_flag_name_;
std::string failure_list_filename_;
// The set of test names that are expected to fail in this run, but haven't
// failed yet.
absl::btree_set<std::string> expected_to_fail_;
// The set of test names that have been run. Used to ensure that there are no
// duplicate names in the suite.
absl::flat_hash_set<std::string> test_names_;
// The set of tests that failed, but weren't expected to.
absl::btree_set<std::string> unexpected_failing_tests_;
// The set of tests that succeeded, but weren't expected to.
absl::btree_set<std::string> unexpected_succeeding_tests_;
// The set of tests that the testee opted out of;
absl::btree_set<std::string> skipped_;
};
} // namespace protobuf
} // namespace google
#endif // CONFORMANCE_CONFORMANCE_TEST_H