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这篇文章主要介绍了.netcore如何使用surging框架发布到docker中的相关知识,内容详细易懂,操作简单快捷,具有一定借鉴价值,相信大家阅读完这篇.netcore如何使用surging框架发布到docker中文章都会有所收获,下面我们一起来看看吧。
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demo运行在windows的docker中,系统是win10,所以需要先下载docker for windows,安装完毕后系统会重启,然后桌面上可以找到docker for windows的快捷图标,右下角有个鲸鱼小图标
单击右键,选择菜单中的kitematic
会提示你下载kitematic,自行下载后解压即可,将kitematic快捷到桌面;
打开kitematic,在搜索栏中下载好rabbitmq、redis、consul相关镜像,因为这些是surging运行的先决条件。
接着去github上下载surging网关项目,修改其中的gatewaysettings.json中register下的address地址,对应的事consul docker镜像的ip
具体如何查看其ip,看如下操作:
打开kitematic,点击左下角,如图:
进入到命令窗口,输入docker container ls或者 docker ps -a 查看docker,
可以看到现在运行的docker的相关信息,
如图:
然后查看consul的相关配置,输入docker inspect 镜像的 containerid,如consul的id是b0e98b94638c,输入命令如下:docker inspect b0e98b94638c,
显示这个docker的配置,内容会很多,不过ip的信息在最后,如图
找到其中的ip是多少,然后修改surging网关中的consul地址为:"address": "172.17.0.4:8500",其他配置根据上面的操作进行修改,如redis 镜像地址的查找和修改等;
修改好surging的网关配置后在surging.apigateway项目上单击右键,由于我项目中已经添加过,所以该处为灰色,如图:
新建docker-compose后修改其中docker-compose.yml的配置如下:
在后面添加docker的外部端口和内部端口的映射和网络模式,这里我们都使用桥接模式,包括之前的consul、rabbitmq、redis都是同一模式,这样他们会在同一vlan下,
然后运行网关,如下:
接下来新建一个解决方案,方案名随意,喜欢就好,由于时间比较短,这里我简单的处理,不清楚的可以留言
新建service.a,然后在其下新建控制台应用service.a、service.b、service.c,新建类库service.a.service、service.b.service、service.c.service;
编辑service.a.csporj、service.b.csporj、service.c.csporj,如下
将其中的引用包都复制过去,分别修改一下对应的service,即其中的
service.c引用service.c.service;
类库service.a.service、service.b.service、service.c.service中都引用
如图:
由于代码很多地方相识,以下我只说service.a,和service.a.service;
service.a 中新增configs文件夹,下面添加log4net.config,log4net.config代码如下:
然后新增cachesettings.json其中map:properties下的value的值是redis地址
{ "cachingsettings": [ { "id": "ddlcache", "class": "surging.core.caching.rediscache.rediscontext,surging.core.caching", "properties": [ { "name": "apprulefile", "ref": "rule" }, { "name": "datacontextpool", "ref": "ddls_sample", "maps": [ { "name": "redis", "properties": [ { "value": "172.17.0.2:6379::1" } ] }, { "name": "memorycache" } ] }, { "name": "defaultexpiretime", "value": "120" }, { "name": "connecttimeout", "value": "120" }, { "name": "minsize", "value": "1" }, { "name": "maxsize", "value": "10" } ] } ] }
新增eventbussettings.json,其中的eventbusconnection对应的是rabbitmq docker的地址
{ "eventbusconnection": "172.17.0.3", "eventbususername": "guest", "eventbuspassword": "guest" }
program.cs的代码如下
using autofac; using surging.core.codec.messagepack; using surging.core.consul; using surging.core.consul.configurations; using surging.core.cplatform; using surging.core.cplatform.utilities; using surging.core.dotnetty; using surging.core.eventbusrabbitmq; using surging.core.log4net; using surging.core.proxygenerator; using surging.core.servicehosting; using surging.core.servicehosting.internal.implementation; using system; using system.text; namespace service.a { class program { static void main(string[] args) { newmethod(); } private static void newmethod() { encoding.registerprovider(codepagesencodingprovider.instance); var host = new servicehostbuilder() .registerservices(builder => { builder.addmicroservice(option => { option.addserviceruntime(); option.addrelateservice(); //option.usezookeepermanager(new configinfo("127.0.0.1:2181")); option.useconsulmanager(new configinfo("172.17.0.4:8500")); option.usedotnettytransport(); option.userabbitmqtransport(); option.addrabbitmqadapt(); //option.useprotobuffercodec(); option.usemessagepackcodec(); builder.register(p => new cplatformcontainer(servicelocator.current)); }); }) .subscribeat() .uselog4net("configs/log4net.config") //.useserver("127.0.0.1", 98) //.useserver("127.0.0.1", 98,“true”) //自动生成token //.useserver("127.0.0.1", 98,“123456789”) //固定密码token .useserver(options => { options.ip = "172.17.0.6"; options.port = 9990; options.token = "true"; options.executiontimeoutinmilliseconds = 30000; options.maxconcurrentrequests = 200; options.notrelatedassemblyfiles = "centa.agency.application.dto\\w*|stackexchange.redis\\w*"; }) .useproxy() .usestartup() .build(); using (host.run()) { console.writeline($"服务端启动成功,{datetime.now}。"); } } } }
新增startup.cs
using autofac; using autofac.extensions.dependencyinjection; using microsoft.extensions.configuration; using microsoft.extensions.dependencyinjection; using microsoft.extensions.logging; using surging.core.caching.configurations; using surging.core.cplatform.utilities; using surging.core.eventbusrabbitmq.configurations; using system; namespace service.a { public class startup { public startup() { var config = new configurationbuilder() .setbasepath(appcontext.basedirectory); configureeventbus(config); //configurecache(config); } public icontainer configureservices(containerbuilder builder) { var services = new servicecollection(); configurelogging(services); builder.populate(services); servicelocator.current = builder.build(); return servicelocator.current; } public void configure(icontainer app) { app.resolve() .addconsole((c, l) => (int)l >= 3); } #region 私有方法 /// /// 配置日志服务 /// /// private void configurelogging(iservicecollection services) { services.addlogging(); } private static void configureeventbus(iconfigurationbuilder build) { build .addeventbusfile("eventbussettings.json", optional: false); } ////// 配置缓存服务 /// private void configurecache(iconfigurationbuilder build) { build .addcachefile("cachesettings.json", optional: false); } #endregion } }
service.a.service 类库下新增aservice.cs
using surging.core.proxygenerator; using system; using system.collections.generic; using system.text; using system.threading.tasks; namespace service.a.service { public class aservice:proxyservicebase,iaservice { public tasksayhello(string name) { return task.fromresult($"{name} say : hello"); } } }
新增iaservice.cs
using surging.core.cplatform.ioc; using surging.core.cplatform.runtime.server.implementation.servicediscovery.attributes; using system; using system.collections.generic; using system.text; using system.threading.tasks; namespace service.a.service { [servicebundle("api/{service}")] public interface iaservice : iservicekey { tasksayhello(string name); } }
其他类库和服务与以上代码基本无二,这里不在赘述。不清楚的可以留言
所有代码都处理好后,在service.a、service.b、service.c项目上右键新增docker支持文件,然后会生成一下文件
修改其中的docker-compose.yml
version: '3' services: service.a: image: servicea ports: - "127.0.0.1:9990:9990" network_mode: "bridge" build: context: . dockerfile: service.a/dockerfile service.b: image: serviceb ports: - "127.0.0.1:9991:9991" network_mode: "bridge" build: context: . dockerfile: service.b/dockerfile service.c: image: servicec ports: - "127.0.0.1:9992:9992" network_mode: "bridge" build: context: . dockerfile: service.c/dockerfile webapplication1: image: webapplication1 build: context: . dockerfile: ../webapplication1/dockerfile
然后选择docker运行即可
最后访问surging网关,即可看见效果
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