examples/tests/test_suite.cc - fuchsia - Git at Google

 // Copyright 2019 The Fuchsia 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 "test_suite.h"

 #include <fuchsia/test/cpp/fidl.h>
 #include <lib/syslog/cpp/macros.h>
 #include <zircon/errors.h>

 #include <measure_tape/hlcpp/measure_tape_for_case.h>

 #include "lib/fidl/cpp/clone.h"

 namespace example {

 using fuchsia::test::Case;
 using fuchsia::test::Result;

 TestSuite::TestSuite(async::Loop* loop, std::vector<TestInput> inputs, Options options)
     : binding_(this), test_inputs_(std::move(inputs)), options_(options), loop_(loop) {
   for (auto& test_input : test_inputs_) {
     if (test_input.disabled) {
       disabled_tests_.insert(test_input.name);
     }
   }
 }

 void TestSuite::GetTests(::fidl::InterfaceRequest<fuchsia::test::CaseIterator> request) {
   if (options_.close_channel_get_tests) {
     binding_.Close(ZX_ERR_PEER_CLOSED);
     return;
   }
   if (options_.dont_service_get_tests) {
     return;
   }

   std::vector<Case> cases;

   for (auto& test_input : test_inputs_) {
     Case test_case;
     test_case.set_name(test_input.name);
     test_case.set_enabled(!test_input.disabled);
     cases.push_back(std::move(test_case));
   }

   auto service = std::make_unique<CaseIterator>(
       test_inputs_, [this](CaseIterator* ptr) { case_iterator_bindings_.RemoveBinding(ptr); });
   case_iterator_bindings_.AddBinding(std::move(service), std::move(request));
 }

 void TestSuite::Run(std::vector<fuchsia::test::Invocation> tests,
                     fuchsia::test::RunOptions run_options,
                     fidl::InterfaceHandle<fuchsia::test::RunListener> run_listener) {
   if (options_.close_channel_run) {
     binding_.Close(ZX_ERR_PEER_CLOSED);
     return;
   }
   if (options_.dont_service_run) {
     return;
   }
   fuchsia::test::RunListenerPtr ptr;
   ptr.Bind(std::move(run_listener));
   for (auto& test_invocation : tests) {
     const auto& test_name = test_invocation.name();
     zx::socket log_sock;
     zx::socket test_case_log;
     zx::socket::create(0, &log_sock, &test_case_log);
     fuchsia::test::CaseListenerPtr case_list_ptr;
     ptr->OnTestCaseStarted(fidl::Clone(test_invocation), std::move(log_sock),
                            case_list_ptr.NewRequest());
     const bool should_skip_test = ShouldSkipTest(run_options, test_name);
     if (!should_skip_test) {
       std::string msg1 = "log1 for " + test_name + "\n";
       std::string msg2 = "log2 for " + test_name + "\n";
       std::string msg3 = "log3 for " + test_name + "\n";
       zx_status_t status;
       FX_CHECK(ZX_OK == (status = test_case_log.write(0, msg1.data(), msg1.length(), nullptr)))
           << status;
       FX_CHECK(ZX_OK == (status = test_case_log.write(0, msg2.data(), msg2.length(), nullptr)))
           << status;
       FX_CHECK(ZX_OK == (status = test_case_log.write(0, msg3.data(), msg3.length(), nullptr)))
           << status;
     }
     Result result;

     bool send_finished_event = true;
     for (auto& test_input : test_inputs_) {
       if (test_input.name == test_name) {
         if (test_input.set_result_status) {
           result.set_status(should_skip_test ? fuchsia::test::Status::SKIPPED : test_input.status);
         }
         send_finished_event = !test_input.incomplete_test;
         break;
       }
     }
     if (send_finished_event) {
       case_list_ptr->Finished(std::move(result));
     }
   }
   if (!options_.dont_send_on_finish_event) {
     ptr->OnFinished();
   }
 }

 bool TestSuite::ShouldSkipTest(const fuchsia::test::RunOptions& run_options,
                                const std::string& test_name) const {
   // Disabled tests are excluded && this test is disabled.
   return !run_options.include_disabled_tests() &&
          (disabled_tests_.find(test_name) != disabled_tests_.end());
 }

 fidl::InterfaceRequestHandler<fuchsia::test::Suite> TestSuite::GetHandler() {
   auto handler = [this](fidl::InterfaceRequest<fuchsia::test::Suite> request) {
     binding_.Bind(std::move(request));
   };

   binding_.set_error_handler([this](zx_status_t /*unused*/) { loop_->Shutdown(); });
   return handler;
 }

 void CaseIterator::GetNext(GetNextCallback callback) {
   const size_t page_overhead = sizeof(fidl_message_header_t) + sizeof(fidl_vector_t);
   const size_t max_bytes = ZX_CHANNEL_MAX_MSG_BYTES - page_overhead;
   size_t bytes_used = 0;

   std::vector<Case> cases;
   // Send the next page of Cases
   for (; iter_ < test_inputs_.end(); iter_++) {
     Case test_case;
     test_case.set_name(iter_->name);
     bytes_used += measure_tape::fuchsia::test::Measure(test_case).num_bytes;
     if (bytes_used > max_bytes) {
       break;
     }
     cases.emplace_back(std::move(test_case));
   }
   callback(std::move(cases));

   if (bytes_used == 0) {
     done_callback_(this);
   }
 };

 }  // namespace example
	// Copyright 2019 The Fuchsia 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 "test_suite.h"

	#include <fuchsia/test/cpp/fidl.h>
	#include <lib/syslog/cpp/macros.h>
	#include <zircon/errors.h>

	#include <measure_tape/hlcpp/measure_tape_for_case.h>

	#include "lib/fidl/cpp/clone.h"

	namespace example {

	using fuchsia::test::Case;
	using fuchsia::test::Result;

	TestSuite::TestSuite(async::Loop* loop, std::vector<TestInput> inputs, Options options)
	: binding_(this), test_inputs_(std::move(inputs)), options_(options), loop_(loop) {
	for (auto& test_input : test_inputs_) {
	if (test_input.disabled) {
	disabled_tests_.insert(test_input.name);
	}
	}
	}

	void TestSuite::GetTests(::fidl::InterfaceRequest<fuchsia::test::CaseIterator> request) {
	if (options_.close_channel_get_tests) {
	binding_.Close(ZX_ERR_PEER_CLOSED);
	return;
	}
	if (options_.dont_service_get_tests) {
	return;
	}

	std::vector<Case> cases;

	for (auto& test_input : test_inputs_) {
	Case test_case;
	test_case.set_name(test_input.name);
	test_case.set_enabled(!test_input.disabled);
	cases.push_back(std::move(test_case));
	}

	auto service = std::make_unique<CaseIterator>(
	test_inputs_, [this](CaseIterator* ptr) { case_iterator_bindings_.RemoveBinding(ptr); });
	case_iterator_bindings_.AddBinding(std::move(service), std::move(request));
	}

	void TestSuite::Run(std::vector<fuchsia::test::Invocation> tests,
	fuchsia::test::RunOptions run_options,
	fidl::InterfaceHandle<fuchsia::test::RunListener> run_listener) {
	if (options_.close_channel_run) {
	binding_.Close(ZX_ERR_PEER_CLOSED);
	return;
	}
	if (options_.dont_service_run) {
	return;
	}
	fuchsia::test::RunListenerPtr ptr;
	ptr.Bind(std::move(run_listener));
	for (auto& test_invocation : tests) {
	const auto& test_name = test_invocation.name();
	zx::socket log_sock;
	zx::socket test_case_log;
	zx::socket::create(0, &log_sock, &test_case_log);
	fuchsia::test::CaseListenerPtr case_list_ptr;
	ptr->OnTestCaseStarted(fidl::Clone(test_invocation), std::move(log_sock),
	case_list_ptr.NewRequest());
	const bool should_skip_test = ShouldSkipTest(run_options, test_name);
	if (!should_skip_test) {
	std::string msg1 = "log1 for " + test_name + "\n";
	std::string msg2 = "log2 for " + test_name + "\n";
	std::string msg3 = "log3 for " + test_name + "\n";
	zx_status_t status;
	FX_CHECK(ZX_OK == (status = test_case_log.write(0, msg1.data(), msg1.length(), nullptr)))
	<< status;
	FX_CHECK(ZX_OK == (status = test_case_log.write(0, msg2.data(), msg2.length(), nullptr)))
	<< status;
	FX_CHECK(ZX_OK == (status = test_case_log.write(0, msg3.data(), msg3.length(), nullptr)))
	<< status;
	}
	Result result;

	bool send_finished_event = true;
	for (auto& test_input : test_inputs_) {
	if (test_input.name == test_name) {
	if (test_input.set_result_status) {
	result.set_status(should_skip_test ? fuchsia::test::Status::SKIPPED : test_input.status);
	}
	send_finished_event = !test_input.incomplete_test;
	break;
	}
	}
	if (send_finished_event) {
	case_list_ptr->Finished(std::move(result));
	}
	}
	if (!options_.dont_send_on_finish_event) {
	ptr->OnFinished();
	}
	}

	bool TestSuite::ShouldSkipTest(const fuchsia::test::RunOptions& run_options,
	const std::string& test_name) const {
	// Disabled tests are excluded && this test is disabled.
	return !run_options.include_disabled_tests() &&
	(disabled_tests_.find(test_name) != disabled_tests_.end());
	}

	fidl::InterfaceRequestHandler<fuchsia::test::Suite> TestSuite::GetHandler() {
	auto handler = [this](fidl::InterfaceRequest<fuchsia::test::Suite> request) {
	binding_.Bind(std::move(request));
	};

	binding_.set_error_handler([this](zx_status_t /unused/) { loop_->Shutdown(); });
	return handler;
	}

	void CaseIterator::GetNext(GetNextCallback callback) {
	const size_t page_overhead = sizeof(fidl_message_header_t) + sizeof(fidl_vector_t);
	const size_t max_bytes = ZX_CHANNEL_MAX_MSG_BYTES - page_overhead;
	size_t bytes_used = 0;

	std::vector<Case> cases;
	// Send the next page of Cases
	for (; iter_ < test_inputs_.end(); iter_++) {
	Case test_case;
	test_case.set_name(iter_->name);
	bytes_used += measure_tape::fuchsia::test::Measure(test_case).num_bytes;
	if (bytes_used > max_bytes) {
	break;
	}
	cases.emplace_back(std::move(test_case));
	}
	callback(std::move(cases));

	if (bytes_used == 0) {
	done_callback_(this);
	}
	};

	} // namespace example