public void ConfigureServices(IServiceCollection services) { var instanceInfo = new InstanceInfo(); services.AddSingleton(instanceInfo); CustomLogs.SetupCustomLogs.ConfigureServices(instanceInfo); SetupDefaultWebMetrics.ConfigureServices(instanceInfo, services); SetupTracing.ConfigureServices(instanceInfo, services, false); ServiceClients.ConfigureServices(services, CustomLogs.SetupCustomLogs.Logger()); SetupCustomCache.ConfigureServices(services, out var redisCacheOptions); CustomLogs.SetupCustomLogs.PrintAllEnv(); var connection = Environment.GetEnvironmentVariable($"sqlCon") ?? throw new Exception("Database connection string required 'sqlCon'"); services.AddDbContext <ApplicationDbContext>(options => options.UseNpgsql(connection)); _ServiceRegisterInjections.Configure(services); services.AddMvc(options => { options.Filters.Add(typeof(GlobalValidatorAttribute)); options.MaxModelValidationErrors = 10; }); services.AddHealthChecks(checks => { //However, the MVC web application has multiple dependencies on the rest of the microservices. Therefore, it calls one AddUrlCheck method for each microservice checks.AddPostgreSqlCheck("any_text", connection, TimeSpan.FromSeconds(10)); // https://github.com/sindrunas/aspnetcore.healthcheck.postgresqlextension //checks.AddSqlCheck("CatalogDb", Configuration["ConnectionString"]); //checks.AddUrlCheck(Configuration["CatalogUrl"]); checks.AddRedisCheck(redisCacheOptions, TimeSpan.FromSeconds(10)); //If the microservice does not have a dependency on a service or on SQL Server, you should just add a Healthy("Ok") check. // checks.AddValueTaskCheck("HTTP Endpoint", // () => new ValueTask<IHealthCheckResult>(HealthCheckResult.Healthy("Ok"))); }); }
public void ConfigureServices(IServiceCollection services) { var instanceInfo = new InstanceInfo(); services.AddSingleton(instanceInfo); CustomLogs.SetupCustomLogs.ConfigureServices(instanceInfo); SetupDefaultWebMetrics.ConfigureServices(instanceInfo, services); SetupTracing.ConfigureServices(instanceInfo, services, true); ServiceClients.ConfigureServices(services, CustomLogs.SetupCustomLogs.Logger()); SetupCustomCache.ConfigureServices(services, out var redisCacheOptions); CustomLogs.SetupCustomLogs.PrintAllEnv(); var ipHeader = "X-Real-IP"; services.AddScoped <IIpAddressParser>(o => new ReversProxyIpParser(ipHeader)); //https://github.com/stefanprodan/AspNetCoreRateLimit/wiki/IpRateLimitMiddleware#setup services.Configure <IpRateLimitOptions>(options => { options.EnableEndpointRateLimiting = false; options.StackBlockedRequests = false; //The RealIpHeader is used to extract the client IP when your Kestrel server is behind a reverse proxy, if your proxy uses a different header then X-Real-IP use this option to set it up. options.RealIpHeader = ipHeader; //The ClientIdHeader is used to extract the client id for white listing, if a client id is present in this header and matches a value specified in ClientWhitelist then no rate limits are applied. options.ClientIdHeader = "X-ClientId"; options.HttpStatusCode = 429; options.IpWhitelist = new List <string>() { /*"127.0.0.1", "::1/10", "192.168.0.0/24" */ }; options.EndpointWhitelist = new List <string>() { /*"get:/api/license", "*:/api/status" */ }; options.ClientWhitelist = new List <string>() { /*"dev-id-1", "dev-id-2" */ }; options.GeneralRules = new List <RateLimitRule>() { new RateLimitRule() { Endpoint = "*", Period = "10s", //runtime exception PeriodTimespan = TimeSpan.FromSeconds(10), Limit = 2 } }; options.DisableRateLimitHeaders = true; options.RateLimitCounterPrefix = "web_throttle_"; }); services.Configure <IpRateLimitPolicies>(options => { options.IpRules = new List <IpRateLimitPolicy>() { /* * new IpRateLimitPolicy() * { * //like "192.168.0.0/24", "fe80::/10" or "192.168.0.0-192.168.0.255". * Ip = "192.168.3.22/25", * Rules = new List<RateLimitRule>() * { * new RateLimitRule() * { * Endpoint = "*", * PeriodTimespan = TimeSpan.FromSeconds(2), * Limit = 2 * } * } * } */ }; }); services.AddSingleton <IIpPolicyStore, DistributedCacheIpPolicyStore>(); services.AddSingleton <IRateLimitCounterStore, DistributedCacheRateLimitCounterStore>(); services .AddAuthentication(JwtBearerDefaults.AuthenticationScheme) .AddJwtBearer(options => { options.TokenValidationParameters = new TokenValidationParameters { ValidateIssuer = !string.IsNullOrWhiteSpace(Settings.JwtIssuer), ValidateAudience = !string.IsNullOrWhiteSpace(Settings.JwtAudience), ValidateLifetime = true, ValidateIssuerSigningKey = true, ValidIssuer = Settings.JwtIssuer, ValidAudience = Settings.JwtAudience, IssuerSigningKey = Settings.JwtSigningKey }; }); // By default, ASP.NET Core application will reject any request coming from the cross-origin clients. services.AddCors(); services.AddMvc(options => { options.Filters.Add(typeof(GlobalValidatorAttribute)); options.MaxModelValidationErrors = 10; }); services.AddMvcCore(); services.AddVersionedApiExplorer( options => { // add the versioned api explorer, which also adds IApiVersionDescriptionProvider service // note: the specified format code will format the version as "'v'major[.minor][-status]" options.GroupNameFormat = "'v'VVV"; // note: this option is only necessary when versioning by url segment. the SubstitutionFormat // can also be used to control the format of the API version in route templates options.SubstituteApiVersionInUrl = true; }); services.AddApiVersioning(options => { //https://github.com/Microsoft/aspnet-api-versioning/wiki/New-Services-Quick-Start#aspnet-core options.AssumeDefaultVersionWhenUnspecified = true; options.DefaultApiVersion = new ApiVersion(1, 0); options.ReportApiVersions = true; options.UseApiBehavior = false; } ); services.AddSwaggerGen( options => { // resolve the IApiVersionDescriptionProvider service // note: that we have to build a temporary service provider here because one has not been created yet var provider = services.BuildServiceProvider().GetRequiredService <IApiVersionDescriptionProvider>(); // add a swagger document for each discovered API version // note: you might choose to skip or document deprecated API versions differently foreach (var description in provider.ApiVersionDescriptions) { options.SwaggerDoc(description.GroupName, SwaggerUtils.CreateInfoForApiVersion(description)); } // add a custom operation filter which sets default values options.OperationFilter <SwaggerDefaultValues>(); options.DocumentFilter <SwaggerAddEnumDescriptions>(); //options.DescribeAllEnumsAsStrings(); // integrate xml comments options.IncludeXmlComments(SwaggerUtils.XmlCommentsFilePath); //check project properties - add xml docs to bin\Debug\netcoreapp2.0\Web.xml }); services.AddHealthChecks(checks => { //However, the MVC web application has multiple dependencies on the rest of the microservices. Therefore, it calls one AddUrlCheck method for each microservice //checks.AddSqlCheck("CatalogDb", Configuration["ConnectionString"]); checks.AddUrlCheck(ServiceClients.HealthUrl(Service.Account), TimeSpan.FromSeconds(1)); checks.AddUrlCheck(ServiceClients.HealthUrl(Service.ToDo), TimeSpan.FromSeconds(1)); checks.AddUrlCheck(ServiceClients.HealthUrl(Service.ToBuy), TimeSpan.FromSeconds(1)); checks.AddRedisCheck(redisCacheOptions, TimeSpan.FromSeconds(1)); //If the microservice does not have a dependency on a service or on SQL Server, you should just add a Healthy("Ok") check. //checks.AddValueTaskCheck("HTTP Endpoint", () => new ValueTask<IHealthCheckResult>(HealthCheckResult.Healthy("Ok"))); }); }