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在 C# 中实现进程间通信（IPC，Inter-Process Communication）有多种方式，适用于不同场景。以下是常见 IPC 方法的实现方案、代码示例及适用场景对比：

1. 命名管道（Named Pipes）

特点：适用于同一台机器上的进程通信，支持双向流式传输，性能较高。

服务端（.NET Framework 或 .NET Core）

using System.IO.Pipes;// 服务端代码
var server = new NamedPipeServerStream("MyPipe", PipeDirection.InOut);
server.WaitForConnection(); // 等待客户端连接// 写入数据到管道
using (var writer = new StreamWriter(server))
{writer.WriteLine("Hello from Server!");writer.Flush();
}// 读取客户端数据
using (var reader = new StreamReader(server))
{string message = reader.ReadLine();Console.WriteLine($"Received: {message}");
}server.Close();

客户端（.NET Framework 或 .NET Core）

csharp

using System.IO.Pipes;var client = new NamedPipeClientStream(".", "MyPipe", PipeDirection.InOut);
client.Connect(); // 连接服务端// 读取服务端数据
using (var reader = new StreamReader(client))
{string message = reader.ReadLine();Console.WriteLine($"Received: {message}");
}// 向服务端发送数据
using (var writer = new StreamWriter(client))
{writer.WriteLine("Hello from Client!");writer.Flush();
}client.Close();

2. 内存映射文件（Memory-Mapped Files）

特点：适合大量数据共享，支持跨进程内存直接访问。

写入数据（进程 A）

csharp

using System.IO.MemoryMappedFiles;// 创建内存映射文件
using (var mmf = MemoryMappedFile.CreateOrOpen("MySharedMemory", 1024))
using (var accessor = mmf.CreateViewAccessor())
{// 写入字符串accessor.Write(0, 123); // 写入整数accessor.Write(4, (byte)1); // 写入字节accessor.WriteArray(5, Encoding.UTF8.GetBytes("Hello from Process A"), 0, 20);
}

读取数据（进程 B）

csharp

using System.IO.MemoryMappedFiles;using (var mmf = MemoryMappedFile.OpenExisting("MySharedMemory"))
using (var accessor = mmf.CreateViewAccessor())
{int number = accessor.ReadInt32(0);byte flag = accessor.ReadByte(4);byte[] buffer = new byte[20];accessor.ReadArray(5, buffer, 0, 20);string text = Encoding.UTF8.GetString(buffer).TrimEnd('\0');Console.WriteLine($"{number}, {flag}, {text}");
}

3. 套接字（TCP/UDP Sockets）

特点：支持跨机器通信，灵活性高。

服务端（TCP）

csharp

using System.Net;
using System.Net.Sockets;var listener = new TcpListener(IPAddress.Any, 8080);
listener.Start();var client = listener.AcceptTcpClient();
using (var stream = client.GetStream())
using (var writer = new StreamWriter(stream))
using (var reader = new StreamReader(stream))
{writer.WriteLine("Hello from Server!");writer.Flush();string response = reader.ReadLine();Console.WriteLine($"Received: {response}");
}listener.Stop();

客户端（TCP）

csharp

using (var client = new TcpClient("localhost", 8080))
using (var stream = client.GetStream())
using (var reader = new StreamReader(stream))
using (var writer = new StreamWriter(stream))
{string message = reader.ReadLine();Console.WriteLine($"Received: {message}");writer.WriteLine("Hello from Client!");writer.Flush();
}

4. gRPC（跨平台 RPC 框架）

特点：高性能、跨语言、支持 HTTP/2，适合分布式系统。

定义 Proto 文件（greet.proto）

protobuf

syntax = "proto3";service Greeter {rpc SayHello (HelloRequest) returns (HelloReply);
}message HelloRequest {string name = 1;
}message HelloReply {string message = 1;
}

服务端（.NET Core）

using Grpc.Core;public class GreeterService : Greeter.GreeterBase
{public override Task<HelloReply> SayHello(HelloRequest request, ServerCallContext context){return Task.FromResult(new HelloReply { Message = $"Hello {request.Name}" });}
}var server = new Server
{Services = { Greeter.BindService(new GreeterService()) },Ports = { new ServerPort("localhost", 50051, ServerCredentials.Insecure) }
};
server.Start();
Console.WriteLine("Server running...");
Console.ReadLine();
server.ShutdownAsync().Wait();

客户端（.NET Framework 或 .NET Core）

using Grpc.Core;var channel = new Channel("localhost:50051", ChannelCredentials.Insecure);
var client = new Greeter.GreeterClient(channel);
var reply = client.SayHello(new HelloRequest { Name = "World" });
Console.WriteLine(reply.Message);
channel.ShutdownAsync().Wait();

5. 消息队列（例如 RabbitMQ）

特点：异步、解耦，适合分布式系统。

生产者

using RabbitMQ.Client;var factory = new ConnectionFactory() { HostName = "localhost" };
using (var connection = factory.CreateConnection())
using (var channel = connection.CreateModel())
{channel.QueueDeclare(queue: "hello", durable: false, exclusive: false, autoDelete: false, arguments: null);string message = "Hello from Producer!";var body = Encoding.UTF8.GetBytes(message);channel.BasicPublish(exchange: "", routingKey: "hello", basicProperties: null, body: body);
}

消费者

using RabbitMQ.Client;
using RabbitMQ.Client.Events;var factory = new ConnectionFactory() { HostName = "localhost" };
using (var connection = factory.CreateConnection())
using (var channel = connection.CreateModel())
{channel.QueueDeclare(queue: "hello", durable: false, exclusive: false, autoDelete: false, arguments: null);var consumer = new EventingBasicConsumer(channel);consumer.Received += (model, ea) =>{var body = ea.Body.ToArray();var message = Encoding.UTF8.GetString(body);Console.WriteLine($"Received: {message}");};channel.BasicConsume(queue: "hello", autoAck: true, consumer: consumer);Console.ReadLine();
}

6. WCF（仅限 Windows，.NET Framework）

特点：支持多种协议（HTTP、TCP、Named Pipes），但需在 .NET Core 中使用替代方案（如 CoreWCF）。

服务端（.NET Framework）

[ServiceContract]
public interface IGreeter
{[OperationContract]string SayHello(string name);
}public class GreeterService : IGreeter
{public string SayHello(string name) => $"Hello {name}";
}// 宿主代码
var baseAddress = new Uri("http://localhost:8000/");
using (var host = new ServiceHost(typeof(GreeterService), baseAddress))
{host.AddServiceEndpoint(typeof(IGreeter), new BasicHttpBinding(), "");host.Open();Console.WriteLine("Server running...");Console.ReadLine();host.Close();
}

客户端（.NET Framework）

var binding = new BasicHttpBinding();
var endpoint = new EndpointAddress("http://localhost:8000/");
var channelFactory = new ChannelFactory<IGreeter>(binding, endpoint);
var greeter = channelFactory.CreateChannel();
Console.WriteLine(greeter.SayHello("World"));

IPC 方法对比

选择建议

1. 同一机器：优先使用 命名管道（简单高效）或 内存映射文件（大数据共享）。

2. 跨机器/跨平台：选择 gRPC（高性能 RPC）或 TCP 套接字（灵活性高）。

3. 异步解耦：使用 消息队列（如 RabbitMQ）实现可靠的消息传递。

4. 遗留系统整合：若必须使用 WCF，可在 .NET Core 中尝试 CoreWCF。