基于.net core 微服务的另类实现

时间:2022-02-19 18:04:07

基于.net core 的微服务,网上很多介绍都是千篇一律基于类似webapi,通过http请求形式进行访问,但这并不符合大家使用习惯.如何像形如[ GetService<IOrderService>().SaveOrder(orderInfo)]的方式, 调用远程的服务,如果你正在为此苦恼, 本文或许是一种参考.

  1. 背景

    原项目基于传统三层模式组织代码逻辑,随着时间的推移,项目内各模块逻辑互相交织,互相依赖,维护起来较为困难.为此我们需要引入一种新的机制来尝试改变这个现状,在考察了 Java spring cloud/doubbo, c# wcf/webapi/asp.net core 等一些微服务框架后,我们最终选择了基于 .net core + Ocelot 微服务方式. 经过讨论大家最终期望的项目结果大致如下所示.

    基于.net core 微服务的另类实现

    但原项目团队成员已经习惯了基于接口服务的这种编码形式, 让大家将需要定义的接口全部以http 接口形式重写定义一遍, 同时客户端调用的时候, 需要将原来熟悉的形如 XXService.YYMethod(args1, args2) 直接使用通过 "."出内部成员,替换为让其直接写 HttpClient.Post("url/XX/YY",”args1=11&args2=22”)的形式访问远程接口,确实是一件十分痛苦的事情.

  2. 问题提出

    基于以上, 如何通过一种模式来简化这种调用形式, 继而使大家在调用的时候不需要关心该服务是在本地(本地类库依赖)还是远程, 只需要按照常规方式使用即可, 至于是直接使用本地服务还是通过http发送远程请求,这个都交给框架处理.为了方便叙述, 本文假定以销售订单和用户服务为例. 销售订单服务对外提供一个创建订单的接口.订单创建成功后, 调用用户服务更新用户积分.UML参考如下.
    基于.net core 微服务的另类实现

  3. 问题转化

    1. 在客户端,通过微服务对外公开的接口,生成接口代理, 即将接口需要的信息[接口名/方法名及该方法需要的参数]包装成http请求向远程服务发起请求.
    2. 在微服务http接入段, 我们可以定义一个统一的入口,当服务端收到请求后,解析出接口名/方法名及参数信息,并创建对应的实现类,从而执行接口请求,并将返回值通过http返回给客户端.
    3. 最后,客户端通过类似 AppRuntims.Instance.GetService<IOrderService>().SaveOrder(orderInfo) 形式访问远程服务创建订单.
    4. 数据以json格式传输.
  4. 解决方案及实现

    1. 为了便于处理,我们定义了一个空接口IApiService,用来标识服务接口.

    2. 远程服务客户端代理

      public class RemoteServiceProxy : IApiService
      {
      public string Address { get; set; } //服务地址private ApiActionResult PostHttpRequest(string interfaceId, string methodId, params object[] p)
      {
      ApiActionResult apiRetult = null;
      using (var httpClient = new HttpClient())
      {
      var param = new ArrayList(); //包装参数 foreach (var t in p)
      {
      if (t == null)
      {
      param.Add(null);
      }
      else
      {
      var ns = t.GetType().Namespace;
      param.Add(ns != null && ns.Equals("System") ? t : JsonConvert.SerializeObject(t));
      }
      }
      var postContentStr = JsonConvert.SerializeObject(param);
      HttpContent httpContent = new StringContent(postContentStr);
      if (CurrentUserId != Guid.Empty)
      {
      httpContent.Headers.Add("UserId", CurrentUserId.ToString());
      }
      httpContent.Headers.Add("EnterpriseId", EnterpriseId.ToString());
      httpContent.Headers.ContentType = new MediaTypeHeaderValue("application/json"); var url = Address.TrimEnd('/') + $"/{interfaceId}/{methodId}";
      AppRuntimes.Instance.Loger.Debug($"httpRequest:{url},data:{postContentStr}"); var response = httpClient.PostAsync(url, httpContent).Result; //提交请求 if (!response.IsSuccessStatusCode)
      {
      AppRuntimes.Instance.Loger.Error($"httpRequest error:{url},statuscode:{response.StatusCode}");
      throw new ICVIPException("网络异常或服务响应失败");
      }
      var responseStr = response.Content.ReadAsStringAsync().Result;
      AppRuntimes.Instance.Loger.Debug($"httpRequest response:{responseStr}"); apiRetult = JsonConvert.DeserializeObject<ApiActionResult>(responseStr);
      }
      if (!apiRetult.IsSuccess)
      {
      throw new BusinessException(apiRetult.Message ?? "服务请求失败");
      }
      return apiRetult;
      } //有返回值的方法代理
      public T Invoke<T>(string interfaceId, string methodId, params object[] param)
      {
      T rs = default(T); var apiRetult = PostHttpRequest(interfaceId, methodId, param); try
      {
      if (typeof(T).Namespace == "System")
      {
      rs = (T)TypeConvertUtil.BasicTypeConvert(typeof(T), apiRetult.Data);
      }
      else
      {
      rs = JsonConvert.DeserializeObject<T>(Convert.ToString(apiRetult.Data));
      }
      }
      catch (Exception ex)
      {
      AppRuntimes.Instance.Loger.Error("数据转化失败", ex);
      throw;
      }
      return rs;
      } //没有返回值的代理
      public void InvokeWithoutReturn(string interfaceId, string methodId, params object[] param)
      {
      PostHttpRequest(interfaceId, methodId, param);
      }
      }
    3. 远程服务端http接入段统一入口

      [Route("api/svc/{interfaceId}/{methodId}"), Produces("application/json")]
      public async Task<ApiActionResult> Process(string interfaceId, string methodId)
      {
      Stopwatch stopwatch = new Stopwatch();
      stopwatch.Start();
      ApiActionResult result = null;
      string reqParam = string.Empty;
      try
      {
      using (var reader = new StreamReader(Request.Body, Encoding.UTF8))
      {
      reqParam = await reader.ReadToEndAsync();
      }
      AppRuntimes.Instance.Loger.Debug($"recive client request:api/svc/{interfaceId}/{methodId},data:{reqParam}"); ArrayList param = null;
      if (!string.IsNullOrWhiteSpace(reqParam))
      {
      //解析参数
      param = JsonConvert.DeserializeObject<ArrayList>(reqParam);
      }
      //转交本地服务处理中心处理
      var data = LocalServiceExector.Exec(interfaceId, methodId, param);
      result = ApiActionResult.Success(data);
      }
      catch BusinessException ex) //业务异常
      {
      result = ApiActionResult.Error(ex.Message);
      }
      catch (Exception ex)
      {
      //业务异常
      if (ex.InnerException is BusinessException)
      {
      result = ApiActionResult.Error(ex.InnerException.Message);
      }
      else
      {
      AppRuntimes.Instance.Loger.Error($"调用服务发生异常{interfaceId}-{methodId},data:{reqParam}", ex);
      result = ApiActionResult.Fail("服务发生异常");
      }
      }
      finally
      {
      stopwatch.Stop();
      AppRuntimes.Instance.Loger.Debug($"process client request end:api/svc/{interfaceId}/{methodId},耗时[ {stopwatch.ElapsedMilliseconds} ]毫秒");
      }
      //result.Message = AppRuntimes.Instance.GetCfgVal("ServerName") + " " + result.Message;
      result.Message = result.Message;
      return result;
      }
    4. 本地服务中心通过接口名和方法名,找出具体的实现类的方法,并使用传递的参数执行,ps:因为涉及到反射获取具体的方法,暂不支持相同参数个数的方法重载.仅支持不同参数个数的方法重载.

      public static object Exec(string interfaceId, string methodId, ArrayList param)
      {
      var svcMethodInfo = GetInstanceAndMethod(interfaceId, methodId, param.Count);
      var currentMethodParameters = new ArrayList(); for (var i = ; i < svcMethodInfo.Paramters.Length; i++)
      {
      var tempParamter = svcMethodInfo.Paramters[i]; if (param[i] == null)
      {
      currentMethodParameters.Add(null);
      }
      else
      {
      if (!tempParamter.ParameterType.Namespace.Equals("System") || tempParamter.ParameterType.Name == "Byte[]")
      {
      currentMethodParameters.Add(JsonConvert.DeserializeObject(Convert.ToString(param[i]), tempParamter.ParameterType)
      }
      else
      {
      currentMethodParameters.Add(TypeConvertUtil.BasicTypeConvert(tempParamter.ParameterType, param[i]));
      }
      }
      } return svcMethodInfo.Invoke(currentMethodParameters.ToArray());
      } private static InstanceMethodInfo GetInstanceAndMethod(string interfaceId, string methodId, int paramCount)
      {
      var methodKey = $"{interfaceId}_{methodId}_{paramCount}";
      if (methodCache.ContainsKey(methodKey))
      {
      return methodCache[methodKey];
      }
      InstanceMethodInfo temp = null; var svcType = ServiceFactory.GetSvcType(interfaceId, true);
      if (svcType == null)
      {
      throw new ICVIPException($"找不到API接口的服务实现:{interfaceId}");
      }
      var methods = svcType.GetMethods().Where(t => t.Name == methodId).ToList();
      if (methods.IsNullEmpty())
      {
      throw new BusinessException($"在API接口[{interfaceId}]的服务实现中[{svcType.FullName}]找不到指定的方法:{methodId}");
      }
      var method = methods.FirstOrDefault(t => t.GetParameters().Length == paramCount);
      if (method == null)
      {
      throw new ICVIPException($"在API接口中[{interfaceId}]的服务实现[{svcType.FullName}]中,方法[{methodId}]参数个数不匹配");
      }
      var paramtersTypes = method.GetParameters(); object instance = null;
      try
      {
      instance = Activator.CreateInstance(svcType);
      }
      catch (Exception ex)
      {
      throw new BusinessException($"在实例化服务[{svcType}]发生异常,请确认其是否包含一个无参的构造函数", ex);
      }
      temp = new InstanceMethodInfo()
      {
      Instance = instance,
      InstanceType = svcType,
      Key = methodKey,
      Method = method,
      Paramters = paramtersTypes
      };
      if (!methodCache.ContainsKey(methodKey))
      {
      lock (_syncAddMethodCacheLocker)
      {
      if (!methodCache.ContainsKey(methodKey))
      {
      methodCache.Add(methodKey, temp);
      }
      }
      }
      return temp;
    5. 服务配置,指示具体的服务的远程地址,当未配置的服务默认为本地服务.

      [
      {
      "ServiceId": "XZL.Api.IOrderService",
      "Address": "http://localhost:8801/api/svc"
      },
      {
      "ServiceId": "XZL.Api.IUserService",
      "Address": "http://localhost:8802/api/svc"
      }
      ]
    6. AppRuntime.Instance.GetService<TService>()的实现.

      private static List<(string typeName, Type svcType)> svcTypeDic;
      private static ConcurrentDictionary<string, Object> svcInstance = new ConcurrentDictionary<string, object>(); public static TService GetService<TService>()
      {
      var serviceId = typeof(TService).FullName; //读取服务配置
      var serviceInfo = ServiceConfonfig.Instance.GetServiceInfo(serviceId);
      if (serviceInfo == null)
      {
      return (TService)Activator.CreateInstance(GetSvcType(serviceId));
      }
      else
      {
      var rs = GetService<TService>(serviceId + (serviceInfo.IsRemote ? "|Remote" : ""), serviceInfo.IsSingle);
      if (rs != null && rs is RemoteServiceProxy)
      {
      var temp = rs as RemoteServiceProxy;
      temp.Address = serviceInfo.Address; //指定服务地址
      }
      return rs;
      }
      }
      public static TService GetService<TService>(string interfaceId, bool isSingle)
      {
      //服务非单例模式
      if (!isSingle)
      {
      return (TService)Activator.CreateInstance(GetSvcType(interfaceId));
      } object obj = null;
      if (svcInstance.TryGetValue(interfaceId, out obj) && obj != null)
      {
      return (TService)obj;
      }
      var svcType = GetSvcType(interfaceId); if (svcType == null)
      {
      throw new ICVIPException($"系统中未找到[{interfaceId}]的代理类");
      }
      obj = Activator.CreateInstance(svcType); svcInstance.TryAdd(interfaceId, obj);
      return (TService)obj;
      } //获取服务的实现类
      public static Type GetSvcType(string interfaceId, bool? isLocal = null)
      {
      if (!_loaded)
      {
      LoadServiceType();
      }
      Type rs = null;
      var tempKey = interfaceId; var temp = svcTypeDic.Where(x => x.typeName == tempKey).ToList(); if (temp == null || temp.Count == )
      {
      return rs;
      } if (isLocal.HasValue)
      {
      if (isLocal.Value)
      {
      rs = temp.FirstOrDefault(t => !typeof(RemoteServiceProxy).IsAssignableFrom(t.svcType)).svcType;
      }
      else
      {
      rs = temp.FirstOrDefault(t => typeof(RemoteServiceProxy).IsAssignableFrom(t.svcType)).svcType;
      }
      }
      else
      {
      rs = temp[].svcType;
      }
      return rs;
      }
    7. 为了性能影响,我们在程序启动的时候可以将当前所有的ApiService类型缓存.

      public static void LoadServiceType()
      {
      if (_loaded)
      {
      return;
      }
      lock (_sync)
      {
      if (_loaded)
      {
      return;
      }
      try
      {
      svcTypeDic = new List<(string typeName, Type svcType)>();
      var path = AppDomain.CurrentDomain.RelativeSearchPath ?? AppDomain.CurrentDomain.BaseDirectory;
      var dir = new DirectoryInfo(path);
      var files = dir.GetFiles("XZL*.dll");
      foreach (var file in files)
      {
      var types = LoadAssemblyFromFile(file);
      svcTypeDic.AddRange(types);
      }
      _loaded = true;
      }
      catch
      {
      _loaded = false;
      }
      }
      } //加载指定文件中的ApiService实现
      private static List<(string typeName, Type svcType)> LoadAssemblyFromFile(FileInfo file)
      {
      var lst = new List<(string typeName, Type svcType)>();
      if (file.Extension != ".dll" && file.Extension != ".exe")
      {
      return lst;
      }
      try
      {
      var types = Assembly.Load(file.Name.Substring(, file.Name.Length - ))
      .GetTypes()
      .Where(c => c.IsClass && !c.IsAbstract && c.IsPublic);
      foreach (Type type in types)
      {
      //客户端代理基类
      if (type == typeof(RemoteServiceProxy))
      {
      continue;
      } if (!typeof(IApiService).IsAssignableFrom(type))
      {
      continue;
      } //绑定现类
      lst.Add((type.FullName, type)); foreach (var interfaceType in type.GetInterfaces())
      {
      if (!typeof(IApiService).IsAssignableFrom(interfaceType))
      {
      continue;
      }
      //绑定接口与实际实现类
      lst.Add((interfaceType.FullName, type));
      }
      }
      }
      catch
      {
      } return lst;
      }
    8. 具体api远程服务代理示例
      public class UserServiceProxy : RemoteServiceProxy, IUserService
      {
      private string serviceId = typeof(IUserService).FullName; public void IncreaseScore(int userId,int score)
      {
      return InvokeWithoutReturn(serviceId, nameof(IncreaseScore), userId,score);
      }
      public UserInfo GetUserById(int userId)
      {
      return Invoke<UserInfo >(serviceId, nameof(GetUserById), userId);
      }
      }
  5. 结语

    经过以上改造后, 我们便可很方便的通过形如 AppRuntime.Instance.GetService<TService>().MethodXX()无感的访问远程服务, 服务是部署在远程还是在本地以dll依赖形式存在,这个便对调用者透明了.无缝的对接上了大家固有习惯.
    PS: 但是此番改造后, 遗留下来了另外一个问题: 客户端调用远程服务,需要手动创建一个服务代理( 从 RemoteServiceProxy 继承),虽然每个代理很方便写,只是文中提到的简单两句话,但终究显得繁琐, 是否有一种方式能够根据远程api接口动态的生成这个客户端代理呢? 答案是肯定的,因本文较长了,留在下篇再续
    附上动态编译文章链接. https://www.cnblogs.com/xie-zhonglai/p/dynamic_compilation_netstandard.html.