system/utest/async/receiver_tests.cpp - zircon - Git at Google

 // Copyright 2017 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 <lib/async/cpp/receiver.h>

 #include <lib/async-testutils/async_stub.h>
 #include <unittest/unittest.h>

 namespace {

 class MockAsync : public async::AsyncStub {
 public:
     enum class Op {
         NONE,
         QUEUE_PACKET
     };

     zx_status_t QueuePacket(async_receiver_t* receiver,
                             const zx_packet_user_t* data) override {
         last_op = Op::QUEUE_PACKET;
         last_receiver = receiver;
         last_data = data;
         return next_status;
     }

     Op last_op = Op::NONE;
     async_receiver_t* last_receiver = nullptr;
     const zx_packet_user_t* last_data = nullptr;
     zx_status_t next_status = ZX_OK;
 };

 class Harness {
 public:
     Harness() { Reset(); }

     void Reset() {
         handler_ran = false;
         last_receiver = nullptr;
         last_status = ZX_ERR_INTERNAL;
         last_data = nullptr;
     }

     void Handler(async_t* async, async::ReceiverBase* receiver,
                  zx_status_t status, const zx_packet_user_t* data) {
         handler_ran = true;
         last_receiver = receiver;
         last_status = status;
         last_data = data;
     }

     virtual async::ReceiverBase& receiver() = 0;

     bool handler_ran;
     async::ReceiverBase* last_receiver;
     zx_status_t last_status;
     const zx_packet_user_t* last_data;
 };

 class LambdaHarness : public Harness {
 public:
     async::ReceiverBase& receiver() override { return receiver_; }

 private:
     async::Receiver receiver_{[this](async_t* async, async::Receiver* receiver,
                                      zx_status_t status, const zx_packet_user_t* data) {
         Handler(async, receiver, status, data);
     }};
 };

 class MethodHarness : public Harness {
 public:
     async::ReceiverBase& receiver() override { return receiver_; }

 private:
     async::ReceiverMethod<Harness, &Harness::Handler> receiver_{this};
 };

 bool receiver_set_handler_test() {
     BEGIN_TEST;

     {
         async::Receiver receiver;
         EXPECT_FALSE(receiver.has_handler());

         receiver.set_handler([](async_t* async, async::Receiver* receiver,
                                 zx_status_t status, const zx_packet_user_t* data) {});
         EXPECT_TRUE(receiver.has_handler());
     }

     {
         async::Receiver receiver([](async_t* async, async::Receiver* receiver,
                                     zx_status_t status, const zx_packet_user_t* data) {});
         EXPECT_TRUE(receiver.has_handler());
     }

     END_TEST;
 }

 template <typename Harness>
 bool receiver_queue_packet_test() {
     BEGIN_TEST;

     const zx_packet_user_t dummy_data{};
     MockAsync async;
     Harness harness;

     harness.Reset();
     async.next_status = ZX_OK;
     EXPECT_EQ(ZX_OK, harness.receiver().QueuePacket(&async, nullptr), "queue, null data");
     EXPECT_EQ(MockAsync::Op::QUEUE_PACKET, async.last_op);
     EXPECT_NULL(async.last_data);
     EXPECT_FALSE(harness.handler_ran);

     harness.Reset();
     async.next_status = ZX_ERR_BAD_STATE;
     EXPECT_EQ(ZX_ERR_BAD_STATE, harness.receiver().QueuePacket(&async, nullptr), "queue, null data");
     EXPECT_EQ(MockAsync::Op::QUEUE_PACKET, async.last_op);
     EXPECT_NULL(async.last_data);
     EXPECT_FALSE(harness.handler_ran);

     harness.Reset();
     async.next_status = ZX_OK;
     EXPECT_EQ(ZX_OK, harness.receiver().QueuePacket(&async, &dummy_data), "queue, non-null data");
     EXPECT_EQ(MockAsync::Op::QUEUE_PACKET, async.last_op);
     EXPECT_EQ(&dummy_data, async.last_data);
     EXPECT_FALSE(harness.handler_ran);

     harness.Reset();
     async.next_status = ZX_ERR_BAD_STATE;
     EXPECT_EQ(ZX_ERR_BAD_STATE, harness.receiver().QueuePacket(&async, &dummy_data), "queue, non-null data");
     EXPECT_EQ(MockAsync::Op::QUEUE_PACKET, async.last_op);
     EXPECT_EQ(&dummy_data, async.last_data);
     EXPECT_FALSE(harness.handler_ran);

     END_TEST;
 }

 template <typename Harness>
 bool receiver_run_handler_test() {
     BEGIN_TEST;

     const zx_packet_user_t dummy_data{};
     MockAsync async;
     Harness harness;

     EXPECT_EQ(ZX_OK, harness.receiver().QueuePacket(&async, nullptr));
     EXPECT_EQ(ZX_OK, harness.receiver().QueuePacket(&async, &dummy_data));

     harness.Reset();
     async.last_receiver->handler(&async, async.last_receiver, ZX_OK, nullptr);
     EXPECT_TRUE(harness.handler_ran);
     EXPECT_EQ(&harness.receiver(), harness.last_receiver);
     EXPECT_EQ(ZX_OK, harness.last_status);
     EXPECT_NULL(harness.last_data);

     harness.Reset();
     async.last_receiver->handler(&async, async.last_receiver, ZX_OK, &dummy_data);
     EXPECT_TRUE(harness.handler_ran);
     EXPECT_EQ(&harness.receiver(), harness.last_receiver);
     EXPECT_EQ(ZX_OK, harness.last_status);
     EXPECT_EQ(&dummy_data, harness.last_data);

     END_TEST;
 }

 bool unsupported_queue_packet_test() {
     BEGIN_TEST;

     async::AsyncStub async;
     async_receiver_t receiver{};
     EXPECT_EQ(ZX_ERR_NOT_SUPPORTED, async_queue_packet(&async, &receiver, nullptr), "valid args without data");
     zx_packet_user_t data;
     EXPECT_EQ(ZX_ERR_NOT_SUPPORTED, async_queue_packet(&async, &receiver, &data), "valid args with data");

     END_TEST;
 }

 } // namespace

 BEGIN_TEST_CASE(receiver_tests)
 RUN_TEST(receiver_set_handler_test)
 RUN_TEST((receiver_queue_packet_test<LambdaHarness>))
 RUN_TEST((receiver_queue_packet_test<MethodHarness>))
 RUN_TEST((receiver_run_handler_test<LambdaHarness>))
 RUN_TEST((receiver_run_handler_test<MethodHarness>))
 RUN_TEST(unsupported_queue_packet_test)
 END_TEST_CASE(receiver_tests)
	// Copyright 2017 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 <lib/async/cpp/receiver.h>

	#include <lib/async-testutils/async_stub.h>
	#include <unittest/unittest.h>

	namespace {

	class MockAsync : public async::AsyncStub {
	public:
	enum class Op {
	NONE,
	QUEUE_PACKET
	};

	zx_status_t QueuePacket(async_receiver_t* receiver,
	const zx_packet_user_t* data) override {
	last_op = Op::QUEUE_PACKET;
	last_receiver = receiver;
	last_data = data;
	return next_status;
	}

	Op last_op = Op::NONE;
	async_receiver_t* last_receiver = nullptr;
	const zx_packet_user_t* last_data = nullptr;
	zx_status_t next_status = ZX_OK;
	};

	class Harness {
	public:
	Harness() { Reset(); }

	void Reset() {
	handler_ran = false;
	last_receiver = nullptr;
	last_status = ZX_ERR_INTERNAL;
	last_data = nullptr;
	}

	void Handler(async_t* async, async::ReceiverBase* receiver,
	zx_status_t status, const zx_packet_user_t* data) {
	handler_ran = true;
	last_receiver = receiver;
	last_status = status;
	last_data = data;
	}

	virtual async::ReceiverBase& receiver() = 0;

	bool handler_ran;
	async::ReceiverBase* last_receiver;
	zx_status_t last_status;
	const zx_packet_user_t* last_data;
	};

	class LambdaHarness : public Harness {
	public:
	async::ReceiverBase& receiver() override { return receiver_; }

	private:
	async::Receiver receiver_{[this](async_t* async, async::Receiver* receiver,
	zx_status_t status, const zx_packet_user_t* data) {
	Handler(async, receiver, status, data);
	}};
	};

	class MethodHarness : public Harness {
	public:
	async::ReceiverBase& receiver() override { return receiver_; }

	private:
	async::ReceiverMethod<Harness, &Harness::Handler> receiver_{this};
	};

	bool receiver_set_handler_test() {
	BEGIN_TEST;

	{
	async::Receiver receiver;
	EXPECT_FALSE(receiver.has_handler());

	receiver.set_handler([](async_t* async, async::Receiver* receiver,
	zx_status_t status, const zx_packet_user_t* data) {});
	EXPECT_TRUE(receiver.has_handler());
	}

	{
	async::Receiver receiver([](async_t* async, async::Receiver* receiver,
	zx_status_t status, const zx_packet_user_t* data) {});
	EXPECT_TRUE(receiver.has_handler());
	}

	END_TEST;
	}

	template <typename Harness>
	bool receiver_queue_packet_test() {
	BEGIN_TEST;

	const zx_packet_user_t dummy_data{};
	MockAsync async;
	Harness harness;

	harness.Reset();
	async.next_status = ZX_OK;
	EXPECT_EQ(ZX_OK, harness.receiver().QueuePacket(&async, nullptr), "queue, null data");
	EXPECT_EQ(MockAsync::Op::QUEUE_PACKET, async.last_op);
	EXPECT_NULL(async.last_data);
	EXPECT_FALSE(harness.handler_ran);

	harness.Reset();
	async.next_status = ZX_ERR_BAD_STATE;
	EXPECT_EQ(ZX_ERR_BAD_STATE, harness.receiver().QueuePacket(&async, nullptr), "queue, null data");
	EXPECT_EQ(MockAsync::Op::QUEUE_PACKET, async.last_op);
	EXPECT_NULL(async.last_data);
	EXPECT_FALSE(harness.handler_ran);

	harness.Reset();
	async.next_status = ZX_OK;
	EXPECT_EQ(ZX_OK, harness.receiver().QueuePacket(&async, &dummy_data), "queue, non-null data");
	EXPECT_EQ(MockAsync::Op::QUEUE_PACKET, async.last_op);
	EXPECT_EQ(&dummy_data, async.last_data);
	EXPECT_FALSE(harness.handler_ran);

	harness.Reset();
	async.next_status = ZX_ERR_BAD_STATE;
	EXPECT_EQ(ZX_ERR_BAD_STATE, harness.receiver().QueuePacket(&async, &dummy_data), "queue, non-null data");
	EXPECT_EQ(MockAsync::Op::QUEUE_PACKET, async.last_op);
	EXPECT_EQ(&dummy_data, async.last_data);
	EXPECT_FALSE(harness.handler_ran);

	END_TEST;
	}

	template <typename Harness>
	bool receiver_run_handler_test() {
	BEGIN_TEST;

	const zx_packet_user_t dummy_data{};
	MockAsync async;
	Harness harness;

	EXPECT_EQ(ZX_OK, harness.receiver().QueuePacket(&async, nullptr));
	EXPECT_EQ(ZX_OK, harness.receiver().QueuePacket(&async, &dummy_data));

	harness.Reset();
	async.last_receiver->handler(&async, async.last_receiver, ZX_OK, nullptr);
	EXPECT_TRUE(harness.handler_ran);
	EXPECT_EQ(&harness.receiver(), harness.last_receiver);
	EXPECT_EQ(ZX_OK, harness.last_status);
	EXPECT_NULL(harness.last_data);

	harness.Reset();
	async.last_receiver->handler(&async, async.last_receiver, ZX_OK, &dummy_data);
	EXPECT_TRUE(harness.handler_ran);
	EXPECT_EQ(&harness.receiver(), harness.last_receiver);
	EXPECT_EQ(ZX_OK, harness.last_status);
	EXPECT_EQ(&dummy_data, harness.last_data);

	END_TEST;
	}

	bool unsupported_queue_packet_test() {
	BEGIN_TEST;

	async::AsyncStub async;
	async_receiver_t receiver{};
	EXPECT_EQ(ZX_ERR_NOT_SUPPORTED, async_queue_packet(&async, &receiver, nullptr), "valid args without data");
	zx_packet_user_t data;
	EXPECT_EQ(ZX_ERR_NOT_SUPPORTED, async_queue_packet(&async, &receiver, &data), "valid args with data");

	END_TEST;
	}

	} // namespace

	BEGIN_TEST_CASE(receiver_tests)
	RUN_TEST(receiver_set_handler_test)
	RUN_TEST((receiver_queue_packet_test<LambdaHarness>))
	RUN_TEST((receiver_queue_packet_test<MethodHarness>))
	RUN_TEST((receiver_run_handler_test<LambdaHarness>))
	RUN_TEST((receiver_run_handler_test<MethodHarness>))
	RUN_TEST(unsupported_queue_packet_test)
	END_TEST_CASE(receiver_tests)