Change Porter to Porterlb (#1125)

* fix some links

Signed-off-by: Sherlock113 <sherlockxu@yunify.com>

* update

Signed-off-by: Sherlock113 <sherlockxu@yunify.com>

* Update Porter name

Signed-off-by: Sherlock113 <sherlockxu@yunify.com>

content/en/docs/introduction/features.md

@@ -11,7 +11,7 @@ weight: 1300
 
 As an open source container platform, KubeSphere provides enterprises with a robust, secure and feature-rich platform, boasting the most common functionalities needed for enterprises adopting Kubernetes, such as multi-cluster deployment and management, network policy configuration, Service Mesh (Istio-based), DevOps projects (CI/CD), security management, Source-to-Image and Binary-to-Image, multi-tenant management, multi-dimensional monitoring, log query and collection, alerting and notification, auditing, application management, and image registry management.
 
-It also supports various open source storage and network solutions, as well as cloud storage services. For example, KubeSphere presents users with a powerful cloud-native tool [Porter](https://porterlb.io/), a CNCF-certified load balancer developed for bare metal Kubernetes clusters.
+It also supports various open source storage and network solutions, as well as cloud storage services. For example, KubeSphere presents users with a powerful cloud-native tool [PorterLB](https://porterlb.io/), a CNCF-certified load balancer developed for bare metal Kubernetes clusters.
 
 With an easy-to-use web console in place, KubeSphere eases the learning curve for users and drives the adoption of Kubernetes.
 
@@ -159,7 +159,7 @@ For more information, please see Project Administration and Usage.
 
 - Open source network solutions are available such as Calico and Flannel.
 
-- [Porter](https://github.com/kubesphere/porter), a load balancer developed for bare metal Kubernetes clusters, is designed by KubeSphere development team. This CNCF-certified tool serves as an important solution for developers. It mainly features:
+- [PorterLB](https://github.com/kubesphere/porter), a load balancer developed for bare metal Kubernetes clusters, is designed by KubeSphere development team. This CNCF-certified tool serves as an important solution for developers. It mainly features:
 
   1. ECMP routing load balancing
   2. BGP dynamic routing configuration

content/en/docs/introduction/scenarios.md

@@ -100,6 +100,6 @@ With a lightweight, highly scalable microservices architecture offered by KubeSp
 
 Sometimes, the cloud is not necessarily the ideal place for the deployment of resources. For example, physical, dedicated servers tend to function better when it comes to the cases that require considerable compute resources and high disk I/O. Besides, for some specialized workloads that are difficult to migrate to a cloud environment, certified hardware and complicated licensing and support agreements may be required.
 
-KubeSphere can help enterprises deploy a containerized architecture on bare metal, load balancing traffic with a physical switch. In this connection, [Porter](https://github.com/kubesphere/porter), a CNCF-certified cloud-native tool is born for this end. At the same time, KubeSphere, together with QingCloud VPC and QingStor NeonSAN, provides users with a complete set of features ranging from load balancing, container platform building, network management, and storage. This means virtually all aspects of the containerized architecture can be fully controlled and uniformly managed, without sacrificing the performance in virtualization.
+KubeSphere can help enterprises deploy a containerized architecture on bare metal, load balancing traffic with a physical switch. In this connection, [PorterLB](https://github.com/kubesphere/porter), a CNCF-certified cloud-native tool is born for this end. At the same time, KubeSphere, together with QingCloud VPC and QingStor NeonSAN, provides users with a complete set of features ranging from load balancing, container platform building, network management, and storage. This means virtually all aspects of the containerized architecture can be fully controlled and uniformly managed, without sacrificing the performance in virtualization.
 
 For detailed information about how KubeSphere drives the development of numerous industries, please see [Case Studies](https://kubesphere.io/case/).

content/en/docs/multicluster-management/enable-multicluster/agent-connection.md

@@ -89,7 +89,7 @@ tower      LoadBalancer    10.233.63.191   139.198.110.23  8080:30721/TCP
 
 {{< notice note >}}
 
-Generally, there is always a LoadBalancer solution in the public cloud, and the external IP can be allocated by the load balancer automatically. If your clusters are running in an on-premises environment, especially a **bare metal environment**, you can use [Porter](https://github.com/kubesphere/porter) as the LB solution.
+Generally, there is always a LoadBalancer solution in the public cloud, and the external IP can be allocated by the load balancer automatically. If your clusters are running in an on-premises environment, especially a **bare metal environment**, you can use [PorterLB](https://github.com/kubesphere/porter) as the LB solution.
 
 {{</ notice >}}
 

content/en/docs/project-administration/project-gateway.md

@@ -67,6 +67,6 @@ You must configure a load balancer in advance before you select **LoadBalancer**
 
 {{< notice note >}}
 
-Cloud providers often support load balancer plugins. If you install KubeSphere on major Kubernetes engines on their platforms, you may notice a load balancer is already available in the environment for you to use. If you install KubeSphere in a bare metal environment, you can use [Porter](https://github.com/kubesphere/porter) for load balancing.
+Cloud providers often support load balancer plugins. If you install KubeSphere on major Kubernetes engines on their platforms, you may notice a load balancer is already available in the environment for you to use. If you install KubeSphere in a bare metal environment, you can use [PorterLB](https://github.com/kubesphere/porter) for load balancing.
 
 {{</ notice >}} 

content/en/docs/quick-start/create-workspace-and-project.md

@@ -159,7 +159,7 @@ The user granted the role `operator` will be a project maintainer who can manage
 8. Under **Internet Access**, it can be seen that the Gateway Address and the NodePort of http and https all display on the page.
 
    {{< notice note >}}
-If you want to expose services using the type `LoadBalancer`, you need to use the LoadBalancer plugin of cloud providers. If your Kubernetes cluster is running in a bare metal environment, it is recommended that you use [Porter](https://github.com/kubesphere/porter) as the LoadBalancer plugin.
+If you want to expose services using the type `LoadBalancer`, you need to use the LoadBalancer plugin of cloud providers. If your Kubernetes cluster is running in a bare metal environment, it is recommended that you use [PorterLB](https://github.com/kubesphere/porter) as the LoadBalancer plugin.
    {{</ notice >}}
 
    ![nodeport-setting](/images/docs/quickstart/create-workspaces-projects-accounts/nodeport-setting.png)

content/en/docs/release/release-v300.md

@@ -120,7 +120,7 @@ weight: 18100
   | MySQL                  | 5.7.30      | 1.6.6         |
   | MySQL Exporter         | 0.11.0      | 0.5.3         |
   | Nginx                  | 1.18.0      | 1.3.2         |
-  | Porter                 | 0.3-alpha   | 0.1.3         |
+  | PorterLB                 | 0.3-alpha   | 0.1.3         |
   | PostgreSQL             | 12.0        | 0.3.2         |
   | RabbitMQ               | 3.8.1       | 0.3.0         |
   | Redis                  | 5.0.5       | 0.3.2         |

content/zh/docs/introduction/features.md

@@ -11,7 +11,7 @@ weight: 1300
 
 KubeSphere 作为开源的企业级全栈化容器平台，为用户提供了一个健壮、安全、功能丰富、具备极致体验的 Web 控制台。拥有企业级 Kubernetes 所需的最常见的功能，如工作负载管理，网络策略配置，微服务治理（基于 Istio），DevOps 工程 (CI/CD) ，安全管理，Source to Image/Binary to Image，多租户管理，多维度监控，日志查询和收集，告警通知，审计，应用程序管理和镜像管理、应用配置密钥管理等功能模块。
 
-它还支持各种开源存储和网络解决方案以及云存储服务。例如，KubeSphere 为用户提供了功能强大的云原生工具[负载均衡器插件 Porter](https://porterlb.io/)，这是为 Kubernetes 集群开发的 CNCF 认证的负载均衡插件。
+它还支持各种开源存储和网络解决方案以及云存储服务。例如，KubeSphere 为用户提供了功能强大的云原生工具[负载均衡器插件 PorterLB](https://porterlb.io/)，这是为 Kubernetes 集群开发的 CNCF 认证的负载均衡插件。
 
 有了易于使用的图形化 Web 控制台，KubeSphere 简化了用户的学习曲线并推动了更多的企业使用 Kubernetes 。
 
@@ -160,7 +160,7 @@ KubeSphere 通过可视化界面操作监控、运维功能，可简化操作和
 
 - 支持 Calico、Flannel 等开源网络方案。所
 
-- [Porter](https://github.com/kubesphere/porter)，是由 KubeSphere 开发团队设计、经过 CNCF 认证的一款适用于物理机部署 Kubernetes 的负载均衡插件。 主要特点：
+- [PorterLB](https://github.com/kubesphere/porter)，是由 KubeSphere 开发团队设计、经过 CNCF 认证的一款适用于物理机部署 Kubernetes 的负载均衡插件。 主要特点：
 
   1. ECMP 路由负载均衡
   2. BGP 动态路由
@@ -170,4 +170,4 @@ KubeSphere 通过可视化界面操作监控、运维功能，可简化操作和
   6. 通过 CRD 动态配置BGP服务器 (v0.3.0)
   7. 通过 CRD 动态配置BGP对等 (v0.3.0)
 
-  Porter 有关更多信息，请参见 [本文](https://kubesphere.io/conferences/porter/)。
+  有关 PorterLB 的更多信息，请参见 [本文](https://kubesphere.io/conferences/porter/)。

content/zh/docs/introduction/scenarios.md

@@ -99,6 +99,6 @@ DevOps 是一套重要的实践和方法，让开发和运维团队能够更高
 
 有时，云端并非资源部署的最优环境。例如，当需要大量计算资源并要求硬盘高 I/O 速度时，使用专门的物理服务器可以实现更佳的性能。此外，对于一些难以迁移上云的特殊工作负载，可能还需要通过经认证的硬件运行，加以复杂的许可与支持协议，在这种情况下，企业更倾向于使用裸机环境部署应用。
 
-借助新一代轻量级安装器 [KubeKey](https://github.com/kubesphere/kubekey)，KubeSphere 帮助企业快速在裸机环境搭建容器化架构，并通过 Porter 实现流量的负载均衡。[Porter](https://github.com/kubesphere/porter) 由 KubeSphere 社区开源，专为裸机环境下的负载均衡所设计，现已加入 CNCF Landscape，是为 CNCF 所认可的构建云原生最佳实践中的重要一环。
+借助新一代轻量级安装器 [KubeKey](https://github.com/kubesphere/kubekey)，KubeSphere 帮助企业快速在裸机环境搭建容器化架构，并通过 PorterLB 实现流量的负载均衡。[PorterLB](https://github.com/kubesphere/porter) 由 KubeSphere 社区开源，专为裸机环境下的负载均衡所设计，现已加入 CNCF Landscape，是为 CNCF 所认可的构建云原生最佳实践中的重要一环。
 
 有关 KubeSphere 如何推动各行各业的发展并实现数字化转型，请参见[用户案例学习](../../../case/)。

content/zh/docs/multicluster-management/enable-multicluster/agent-connection.md

@@ -89,7 +89,7 @@ tower      LoadBalancer    10.233.63.191   139.198.110.23  8080:30721/TCP
 
 {{< notice note >}}
 
-一般来说，主流公有云厂商会提供 LoadBalancer 解决方案，并且负载均衡器可以自动分配外部 IP。如果您的集群运行在本地环境中，尤其是在**裸机环境**中，可以使用 [Porter](https://github.com/kubesphere/porter) 作为负载均衡器解决方案。
+一般来说，主流公有云厂商会提供 LoadBalancer 解决方案，并且负载均衡器可以自动分配外部 IP。如果您的集群运行在本地环境中，尤其是在**裸机环境**中，可以使用 [PorterLB](https://github.com/kubesphere/porter) 作为负载均衡器解决方案。
 
 {{</ notice >}}
 

content/zh/docs/project-administration/project-gateway.md

@@ -67,6 +67,6 @@ KubeSphere 项目中的网关是一个[ NGINX Ingress 控制器](https://www.ngi
 
 {{< notice note >}}
 
-云厂商通常支持负载均衡器插件。如果在主流的 Kubernetes Engine 上安装 KubeSphere，您可能会发现环境中已有可用的负载均衡器。如果在裸金属环境中安装 KubeSphere，您可以使用 [Porter](https://github.com/kubesphere/porter) 作为负载均衡器。
+云厂商通常支持负载均衡器插件。如果在主流的 Kubernetes Engine 上安装 KubeSphere，您可能会发现环境中已有可用的负载均衡器。如果在裸金属环境中安装 KubeSphere，您可以使用 [PorterLB](https://github.com/kubesphere/porter) 作为负载均衡器。
 
 {{</ notice >}} 

content/zh/docs/quick-start/create-workspace-and-project.md

@@ -165,7 +165,7 @@ KubeSphere 的多租户系统分三个层级，即**群集**、**企业空间**
 8. 在**外网访问**下，可以在页面上看到网关地址以及 http/https 的端口。
 
    {{< notice note >}}
-如果要使用 `LoadBalancer` 暴露服务，则需要使用云厂商的 LoadBalancer 插件。如果您的 Kubernetes 集群在裸机环境中运行，建议使用 [Porter](https://github.com/kubesphere/porter) 作为 LoadBalancer 插件。
+如果要使用 `LoadBalancer` 暴露服务，则需要使用云厂商的 LoadBalancer 插件。如果您的 Kubernetes 集群在裸机环境中运行，建议使用 [PorterLB](https://github.com/kubesphere/porter) 作为 LoadBalancer 插件。
    {{</ notice >}}
 
    ![完成网关设置](/images/docs/zh-cn/quickstart/create-workspaces-projects-accounts/完成网关设置.jpg)

content/zh/docs/release/release-v300.md

@@ -120,7 +120,7 @@ weight: 18100
   | MySQL                  | 5.7.30      | 1.6.6         |
   | MySQL Exporter         | 0.11.0      | 0.5.3         |
   | Nginx                  | 1.18.0      | 1.3.2         |
-  | Porter                 | 0.3-alpha   | 0.1.3         |
+  | PorterLB                 | 0.3-alpha   | 0.1.3         |
   | PostgreSQL             | 12.0        | 0.3.2         |
   | RabbitMQ               | 3.8.1       | 0.3.0         |
   | Redis                  | 5.0.5       | 0.3.2         |