simpleperf/UnixSocket_test.cpp - platform/system/extras - Git at Google

 /*
  * Copyright (C) 2016 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 "UnixSocket.h"

 #include <gtest/gtest.h>

 #include <string>
 #include <thread>

 TEST(UnixSocket, message_buffer_smoke) {
   struct Message {
     uint32_t len;
     uint32_t type;
     char data[10];
   } send_msg;
   constexpr size_t send_data_size = 1024;
   std::vector<char> send_data(send_data_size);
   std::vector<char> read_data;
   for (size_t i = 0; i < send_data_size; ++i) {
     send_data[i] = i & 0xff;
   }
   UnixSocketMessageBuffer buffer(100);
   size_t per_msg_bytes = 0;
   size_t send_bytes = 0;
   while (true) {
     // Send data as much as possible.
     while (send_bytes < send_data_size) {
       size_t n = std::min(per_msg_bytes, send_data_size - send_bytes);
       per_msg_bytes = (per_msg_bytes + 1) % 10;
       memcpy(send_msg.data, &send_data[send_bytes], n);
       send_msg.len = sizeof(UnixSocketMessage) + n;
       send_msg.type = n;
       if (!buffer.StoreMessage(
               *reinterpret_cast<UnixSocketMessage*>(&send_msg))) {
         break;
       }
       send_bytes += n;
     }
     if (buffer.Empty()) {
       break;
     }
     // Read one message.
     std::vector<char> read_buf;
     auto read_func = [&](size_t size) {
       while (read_buf.size() < size) {
         const char* p;
         size_t n = buffer.PeekData(&p);
         n = std::min(n, size - read_buf.size());
         read_buf.insert(read_buf.end(), p, p + n);
         buffer.CommitData(n);
       }
     };
     read_func(sizeof(UnixSocketMessage));
     Message* msg = reinterpret_cast<Message*>(read_buf.data());
     size_t aligned_len = Align(msg->len, UnixSocketMessageAlignment);
     read_func(aligned_len);
     msg = reinterpret_cast<Message*>(read_buf.data());
     ASSERT_EQ(msg->len, msg->type + sizeof(UnixSocketMessage));
     read_data.insert(read_data.end(), msg->data, msg->data + msg->type);
   }
   ASSERT_EQ(send_data, read_data);
 }

 static void ClientToTestUndelayedMessage(const std::string& path,
                                          bool& client_success) {
   std::unique_ptr<UnixSocketConnection> client =
       UnixSocketConnection::Connect(path, true);
   ASSERT_TRUE(client != nullptr);
   IOEventLoop loop;
   // For each message received from the server, the client replies a msg
   // with type + 1.
   auto receive_message_callback = [&](const UnixSocketMessage& msg) {
     if (msg.len != sizeof(UnixSocketMessage)) {
       return false;
     }
     UnixSocketMessage reply_msg;
     reply_msg.len = sizeof(UnixSocketMessage);
     reply_msg.type = msg.type + 1;
     return client->SendMessage(reply_msg, true);
   };
   auto close_connection_callback = [&]() { return loop.ExitLoop(); };
   ASSERT_TRUE(client->PrepareForIO(loop, receive_message_callback,
                                    close_connection_callback));
   ASSERT_TRUE(loop.RunLoop());
   client_success = true;
 }

 TEST(UnixSocket, undelayed_message) {
   std::string path = "unix_socket_test_" + std::to_string(getpid());
   std::unique_ptr<UnixSocketServer> server =
       UnixSocketServer::Create(path, true);
   ASSERT_TRUE(server != nullptr);
   bool client_success = false;
   std::thread thread(
       [&]() { ClientToTestUndelayedMessage(path, client_success); });
   std::unique_ptr<UnixSocketConnection> conn = server->AcceptConnection();
   ASSERT_TRUE(conn != nullptr);
   IOEventLoop loop;
   uint32_t need_reply_type = 1;
   // For each message received from the client, the server replies a msg
   // with type + 1, and exits when type reaches 10.
   auto receive_message_callback = [&](const UnixSocketMessage& msg) {
     if (msg.len != sizeof(UnixSocketMessage) || msg.type != need_reply_type) {
       return false;
     }
     if (need_reply_type >= 10) {
       return conn->NoMoreMessage();
     }
     UnixSocketMessage new_msg;
     new_msg.len = sizeof(UnixSocketMessage);
     new_msg.type = msg.type + 1;
     need_reply_type = msg.type + 2;
     return conn->SendMessage(new_msg, true);
   };
   auto close_connection_callback = [&]() { return loop.ExitLoop(); };
   ASSERT_TRUE(conn->PrepareForIO(loop, receive_message_callback,
                                  close_connection_callback));
   UnixSocketMessage msg;
   msg.len = sizeof(UnixSocketMessage);
   msg.type = 0;
   ASSERT_TRUE(conn->SendMessage(msg, true));
   ASSERT_TRUE(loop.RunLoop());
   thread.join();
   ASSERT_TRUE(client_success);
 }

 static void ClientToTestBufferedMessage(const std::string& path,
                                         bool& client_success) {
   std::unique_ptr<UnixSocketConnection> client =
       UnixSocketConnection::Connect(path, true);
   ASSERT_TRUE(client != nullptr);
   IOEventLoop loop;
   // The client exits once receiving a message from the server.
   auto receive_message_callback = [&](const UnixSocketMessage& msg) {
     if (msg.len != sizeof(UnixSocketMessage) || msg.type != 0) {
       return false;
     }
     return client->NoMoreMessage();
   };
   auto close_connection_callback = [&]() { return loop.ExitLoop(); };
   ASSERT_TRUE(client->PrepareForIO(loop, receive_message_callback,
                                    close_connection_callback));
   // The client sends buffered messages until the send buffer is full.
   UnixSocketMessage msg;
   msg.len = sizeof(UnixSocketMessage);
   msg.type = 0;
   while (true) {
     msg.type++;
     if (!client->SendMessage(msg, false)) {
       break;
     }
   }
   ASSERT_TRUE(loop.RunLoop());
   client_success = true;
 }

 TEST(UnixSocket, buffered_message) {
   std::string path = "unix_socket_test_" + std::to_string(getpid());
   std::unique_ptr<UnixSocketServer> server =
       UnixSocketServer::Create(path, true);
   ASSERT_TRUE(server != nullptr);
   bool client_success = false;
   std::thread thread(
       [&]() { ClientToTestBufferedMessage(path, client_success); });
   std::unique_ptr<UnixSocketConnection> conn = server->AcceptConnection();
   ASSERT_TRUE(conn != nullptr);
   IOEventLoop loop;
   uint32_t need_reply_type = 1;
   auto receive_message_callback = [&](const UnixSocketMessage& msg) {
     // The server checks if the type of received message is increased by one
     // each time.
     if (msg.len != sizeof(UnixSocketMessage) || msg.type != need_reply_type) {
       return false;
     }
     if (need_reply_type == 1) {
       // Notify the client to exit.
       UnixSocketMessage new_msg;
       new_msg.len = sizeof(UnixSocketMessage);
       new_msg.type = 0;
       if (!conn->SendMessage(new_msg, true)) {
         return false;
       }
     }
     need_reply_type++;
     return true;
   };
   auto close_connection_callback = [&]() { return loop.ExitLoop(); };
   ASSERT_TRUE(conn->PrepareForIO(loop, receive_message_callback,
                                  close_connection_callback));
   ASSERT_TRUE(loop.RunLoop());
   thread.join();
   ASSERT_TRUE(client_success);
 }
	/*
	* Copyright (C) 2016 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 "UnixSocket.h"

	#include <gtest/gtest.h>

	#include <string>
	#include <thread>

	TEST(UnixSocket, message_buffer_smoke) {
	struct Message {
	uint32_t len;
	uint32_t type;
	char data[10];
	} send_msg;
	constexpr size_t send_data_size = 1024;
	std::vector<char> send_data(send_data_size);
	std::vector<char> read_data;
	for (size_t i = 0; i < send_data_size; ++i) {
	send_data[i] = i & 0xff;
	}
	UnixSocketMessageBuffer buffer(100);
	size_t per_msg_bytes = 0;
	size_t send_bytes = 0;
	while (true) {
	// Send data as much as possible.
	while (send_bytes < send_data_size) {
	size_t n = std::min(per_msg_bytes, send_data_size - send_bytes);
	per_msg_bytes = (per_msg_bytes + 1) % 10;
	memcpy(send_msg.data, &send_data[send_bytes], n);
	send_msg.len = sizeof(UnixSocketMessage) + n;
	send_msg.type = n;
	if (!buffer.StoreMessage(
	reinterpret_cast<UnixSocketMessage>(&send_msg))) {
	break;
	}
	send_bytes += n;
	}
	if (buffer.Empty()) {
	break;
	}
	// Read one message.
	std::vector<char> read_buf;
	auto read_func = [&](size_t size) {
	while (read_buf.size() < size) {
	const char* p;
	size_t n = buffer.PeekData(&p);
	n = std::min(n, size - read_buf.size());
	read_buf.insert(read_buf.end(), p, p + n);
	buffer.CommitData(n);
	}
	};
	read_func(sizeof(UnixSocketMessage));
	Message* msg = reinterpret_cast<Message*>(read_buf.data());
	size_t aligned_len = Align(msg->len, UnixSocketMessageAlignment);
	read_func(aligned_len);
	msg = reinterpret_cast<Message*>(read_buf.data());
	ASSERT_EQ(msg->len, msg->type + sizeof(UnixSocketMessage));
	read_data.insert(read_data.end(), msg->data, msg->data + msg->type);
	}
	ASSERT_EQ(send_data, read_data);
	}

	static void ClientToTestUndelayedMessage(const std::string& path,
	bool& client_success) {
	std::unique_ptr<UnixSocketConnection> client =
	UnixSocketConnection::Connect(path, true);
	ASSERT_TRUE(client != nullptr);
	IOEventLoop loop;
	// For each message received from the server, the client replies a msg
	// with type + 1.
	auto receive_message_callback = [&](const UnixSocketMessage& msg) {
	if (msg.len != sizeof(UnixSocketMessage)) {
	return false;
	}
	UnixSocketMessage reply_msg;
	reply_msg.len = sizeof(UnixSocketMessage);
	reply_msg.type = msg.type + 1;
	return client->SendMessage(reply_msg, true);
	};
	auto close_connection_callback = [&]() { return loop.ExitLoop(); };
	ASSERT_TRUE(client->PrepareForIO(loop, receive_message_callback,
	close_connection_callback));
	ASSERT_TRUE(loop.RunLoop());
	client_success = true;
	}

	TEST(UnixSocket, undelayed_message) {
	std::string path = "unix_socket_test_" + std::to_string(getpid());
	std::unique_ptr<UnixSocketServer> server =
	UnixSocketServer::Create(path, true);
	ASSERT_TRUE(server != nullptr);
	bool client_success = false;
	std::thread thread(
	[&]() { ClientToTestUndelayedMessage(path, client_success); });
	std::unique_ptr<UnixSocketConnection> conn = server->AcceptConnection();
	ASSERT_TRUE(conn != nullptr);
	IOEventLoop loop;
	uint32_t need_reply_type = 1;
	// For each message received from the client, the server replies a msg
	// with type + 1, and exits when type reaches 10.
	auto receive_message_callback = [&](const UnixSocketMessage& msg) {
	if (msg.len != sizeof(UnixSocketMessage) \|\| msg.type != need_reply_type) {
	return false;
	}
	if (need_reply_type >= 10) {
	return conn->NoMoreMessage();
	}
	UnixSocketMessage new_msg;
	new_msg.len = sizeof(UnixSocketMessage);
	new_msg.type = msg.type + 1;
	need_reply_type = msg.type + 2;
	return conn->SendMessage(new_msg, true);
	};
	auto close_connection_callback = [&]() { return loop.ExitLoop(); };
	ASSERT_TRUE(conn->PrepareForIO(loop, receive_message_callback,
	close_connection_callback));
	UnixSocketMessage msg;
	msg.len = sizeof(UnixSocketMessage);
	msg.type = 0;
	ASSERT_TRUE(conn->SendMessage(msg, true));
	ASSERT_TRUE(loop.RunLoop());
	thread.join();
	ASSERT_TRUE(client_success);
	}

	static void ClientToTestBufferedMessage(const std::string& path,
	bool& client_success) {
	std::unique_ptr<UnixSocketConnection> client =
	UnixSocketConnection::Connect(path, true);
	ASSERT_TRUE(client != nullptr);
	IOEventLoop loop;
	// The client exits once receiving a message from the server.
	auto receive_message_callback = [&](const UnixSocketMessage& msg) {
	if (msg.len != sizeof(UnixSocketMessage) \|\| msg.type != 0) {
	return false;
	}
	return client->NoMoreMessage();
	};
	auto close_connection_callback = [&]() { return loop.ExitLoop(); };
	ASSERT_TRUE(client->PrepareForIO(loop, receive_message_callback,
	close_connection_callback));
	// The client sends buffered messages until the send buffer is full.
	UnixSocketMessage msg;
	msg.len = sizeof(UnixSocketMessage);
	msg.type = 0;
	while (true) {
	msg.type++;
	if (!client->SendMessage(msg, false)) {
	break;
	}
	}
	ASSERT_TRUE(loop.RunLoop());
	client_success = true;
	}

	TEST(UnixSocket, buffered_message) {
	std::string path = "unix_socket_test_" + std::to_string(getpid());
	std::unique_ptr<UnixSocketServer> server =
	UnixSocketServer::Create(path, true);
	ASSERT_TRUE(server != nullptr);
	bool client_success = false;
	std::thread thread(
	[&]() { ClientToTestBufferedMessage(path, client_success); });
	std::unique_ptr<UnixSocketConnection> conn = server->AcceptConnection();
	ASSERT_TRUE(conn != nullptr);
	IOEventLoop loop;
	uint32_t need_reply_type = 1;
	auto receive_message_callback = [&](const UnixSocketMessage& msg) {
	// The server checks if the type of received message is increased by one
	// each time.
	if (msg.len != sizeof(UnixSocketMessage) \|\| msg.type != need_reply_type) {
	return false;
	}
	if (need_reply_type == 1) {
	// Notify the client to exit.
	UnixSocketMessage new_msg;
	new_msg.len = sizeof(UnixSocketMessage);
	new_msg.type = 0;
	if (!conn->SendMessage(new_msg, true)) {
	return false;
	}
	}
	need_reply_type++;
	return true;
	};
	auto close_connection_callback = [&]() { return loop.ExitLoop(); };
	ASSERT_TRUE(conn->PrepareForIO(loop, receive_message_callback,
	close_connection_callback));
	ASSERT_TRUE(loop.RunLoop());
	thread.join();
	ASSERT_TRUE(client_success);
	}