Go 是由 Google 设计的多范型、静态类型和编译型编程语言。许多开发人员之所以接受 Go,是因为它的垃圾收集、内存安全和结构类型系统。 Go Web 框架的创建是为了简化 Go Web 开发过程,而无需担心设置并更多地关注项目的功能。在构建小型应用程序时,框架可能不是必需的,但对于生产级软件来说,它们至关重要。框架提供了额外的功能和服务,可供其他想要向其软件添加类似功能而不是自己编写成熟软件的开发人员使用。
根据您的需求选择正确的框架可以加快开发周期并更轻松地进行维护。在本文中,我们将讨论 GoFr,一个用于加速微服务开发的固执己见的 Golang 框架。我们将发现为什么它是您在 Go 中构建微服务时的最终选择!
真正决定框架好坏的是它为用户提供的开发简易性以及它提供的一系列功能,以便用户可以完全专注于业务逻辑实现。 GoFr 旨在帮助开发人员编写快速、可扩展且高效的 API。该框架提供了一组丰富的功能,可帮助开发人员轻松编写生产级微服务。让我们探索其中一些功能:
环境变量是为软件应用程序设置配置值的最佳方式,因为它们可以在系统级别定义,独立于软件。这是十二要素应用程序方法论的原则之一,使应用程序能够以可移植性的方式构建。
GoFr 有一些预定义的环境变量用于各种目的,例如更改日志级别、连接到数据库、设置应用程序名称和版本、设置 http 端口等。用户只需在 configs 目录内的 .env 文件中设置这些变量应用程序和 GoFr 自动从中读取值。
这是 GoFr 支持的环境变量的完整列表
管理数据库连接和交互可能会变得忙碌,尤其是在使用多个数据库时。 GoFr 使用配置变量无缝处理数据库连接。它不仅管理连接,而且还使用处理程序中的 GoFr 上下文提供对数据库对象的直接访问。这种方法简化了多个数据库的使用。 GoFr 目前支持所有 SQL Dialects、Redis、MongoDB、Cassandra 和 ClickHouse 数据库。
在处理程序中使用 MySQL 和 Redis DB 的示例。
func DBHandler(c *gofr.Context) (interface{}, error) { var value int // querying a SQL db err := c.SQL.QueryRowContext(c, "select 2+2").Scan(&value) if err != nil { return nil, datasource.ErrorDB{Err: err, Message: "error from sql db"} } // retrieving value from Redis _, err = c.Redis.Get(c, "test").Result() if err != nil && !errors.Is(err, redis.Nil) { return nil, datasource.ErrorDB{Err: err, Message: "error from redis db"} } return value, nil }
GoFr 通过为 Kafka、Google Pub/Sub 和 MQTT 等流行客户端提供内置支持,简化了 Pub/Sub。这消除了手动配置或库管理的需要,使您可以专注于事件驱动的架构。使用 GoFr 上下文简化了事件的发布和订阅。可以使用上下文在处理程序内部完成事件发布,并且要订阅事件,您只需要使用 GoFr 的订阅处理程序。与从头开始实现 Pub/Sub 模式相比,这种方法可以促进干净的代码并减少样板代码。
在 GoFr 应用程序中使用发布者和订阅者的示例:
package main import ( "encoding/json" "gofr.dev/pkg/gofr" ) func main() { app := gofr.New() app.POST("/publish-product", product) // subscribing to products topic app.Subscribe("products", func(c *gofr.Context) error { var productInfo struct { ProductId string `json:"productId"` Price string `json:"price"` } err := c.Bind(&productInfo) if err != nil { c.Logger.Error(err) return nil } c.Logger.Info("Received product ", productInfo) return nil }) app.Run() } func product(ctx *gofr.Context) (interface{}, error) { type productInfo struct { ProductId string `json:"productId"` Price string `json:"price"` } var data productInfo // binding the request data to productInfo struct err := ctx.Bind(&data) if err != nil { return nil, err } msg, _ := json.Marshal(data) // publishing message to producst topic using gofr context err = ctx.GetPublisher().Publish(ctx, "products", msg) if err != nil { return nil, err } return "Published", nil }
有效的监控对于维持高性能的微服务至关重要。 GoFr 通过提供内置的可观察性功能减轻您肩上的负担。这消除了手动配置跟踪、指标和日志记录库的需要。
详细日志记录:GoFr 提供具有各种日志级别(INFO、DEBUG、WARN、ERROR、FATAL)的结构化日志记录,以捕获不同粒度的应用程序事件。这使您能够分析应用程序流程、识别潜在问题并简化调试。
可操作指标: GoFr 自动收集和公开应用程序指标,使您能够监控关键性能指标。通过随时可用的指标,您可以快速识别瓶颈并优化应用程序性能。
Distributed Tracing: GoFr integrates with popular tracing backends like Zipkin and Jaeger. Distributed tracing allows you to visualize the entire request lifecycle across your microservices, making it easier to pinpoint the root cause of issues within complex systems.
These observability features help users gain detailed insights into the application's flow and performance, identify and resolve bottlenecks, and ensure smooth operation.
In a microservices architecture, efficient and reliable communication between services is crucial. GoFr simplifies this process by providing a dedicated mechanism to initialize and manage interservice HTTP communication. You can easily register downstream services at the application level using the AddHTTPService method.
Configurational Options for HTTP Services:
GoFr offers a variety of configuration options to enhance interservice communication:
Authentication: Supports APIKeyConfig, BasicAuthConfig, and OAuthConfig for secure authentication.
Default Headers: Allows setting default headers for all downstream HTTP service requests.
Circuit Breaker: Enhance service resilience with built-in circuit breaker functionality. GoFr allows you to configure thresholds and intervals to gracefully handle failures and prevent cascading outages.
Health Checks: Proactively monitor the health of your downstream services using GoFr's health check configuration. Define a health endpoint for each service, and GoFr will automatically verify their availability, allowing for early detection of potential issues.
These features ensure that interservice communication is secure, reliable, and easily manageable.
Example of connecting to a HTTP Service and sending a GET request:
func main() { a := gofr.New() a.AddHTTPService("cat-facts", "https://catfact.ninja", &service.CircuitBreakerConfig{ Threshold: 4, Interval: 1 * time.Second, }, &service.HealthConfig{ HealthEndpoint: "breeds", }, ) a.GET("/fact", Handler) a.Run() } func Handler(c *gofr.Context) (any, error) { var data = struct { Fact string `json:"fact"` Length int `json:"length"` }{} var catFacts = c.GetHTTPService("cat-facts") resp, err := catFacts.Get(c, "fact", map[string]interface{}{ "max_length": 20, }) if err != nil { return nil, err } b, _ := io.ReadAll(resp.Body) err = json.Unmarshal(b, &data) if err != nil { return nil, err } return data, nil }
Middleware allows you intercepting and manipulating HTTP requests and responses flowing through your application's router. Middlewares can perform tasks such as authentication, authorization, caching etc. before or after the request reaches your application's handler.
GoFr empowers developers with middleware support, allowing for request/response manipulation and custom logic injection. This provides a powerful mechanism to implement cross-cutting concerns like authentication, authorization, and caching in a modular and reusable way. Middleware functions are registered using the UseMiddleware method on your GoFr application instance.
Additionally, GoFr includes built-in CORS (Cross-Origin Resource Sharing) middleware to handle CORS-related headers.
Example of adding a custom middleware to GoFr application:
import ( "net/http" gofrHTTP "gofr.dev/pkg/gofr/http" ) // Define your custom middleware function func customMiddleware() gofrHTTP.Middleware { return func(inner http.Handler) http.Handler { return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { // Your custom logic here // For example, logging, authentication, etc. // Call the next handler in the chain inner.ServeHTTP(w, r) }) } } func main() { // Create a new instance of your GoFr application app := gofr.New() // Add your custom middleware to the application app.UseMiddleware(customMiddleware()) // Define your application routes and handlers // ... // Run your GoFr application app.Run() }
Securing your microservices with robust authentication is crucial. GoFr streamlines this process by providing built-in support for various industry-standard authentication mechanisms. This empowers you to choose the approach that best suits your application's needs without writing complex authentication logic from scratch.
Basic Auth: Basic auth is the simplest way to authenticate your APIs. It's built on HTTP protocol authentication scheme. It involves sending the prefix Basic trailed by the Base64-encoded
API Keys Auth: API Key Authentication is an HTTP authentication scheme where a unique API key is included in the request header for validation against a store of authorized keys. GoFr offers two ways to implement API Keys authentication i.e. Framework Default Validation as well as defining a Custom Validation Function.
OAuth 2.0: OAuth 2.0 is the industry-standard protocol for authorization. It focuses on client developer simplicity while providing specific authorization flows for web applications, desktop applications, mobile phones, and living room devices. It involves sending the prefix Bearer trailed by the encoded token within the standard Authorization header. GoFr supports authenticating tokens encoded by algorithm RS256/384/512.
Refer to the GoFr's Authentication Documentation to see the examples of how to use these auth mechanisms and know more about it.
提供清晰且交互式的 API 文档对于用户采用和高效的开发工作流程至关重要。 API规范可以用YAML或JSON编写。该格式对于人类和机器来说都很容易学习和阅读。完整的 OpenAPI 规范可以在 Swagger 官方网站上找到。
GoFr 支持 OpenAPI(也称为 Swagger)文档的自动渲染。此功能使您可以轻松地为用户提供交互式 API 文档。要允许 GoFr 呈现您的 OpenAPI 文档,只需将 openapi.json 文件放入项目的静态目录中即可。 GoFr 将在 /.wellknown/swagger 端点自动渲染 Swagger 文档。
在本文中,我们探索了 GoFr 的丰富功能,GoFr 是一个专为加速微服务开发而设计的固执己见的 Golang 框架。我们已经了解了 GoFr 如何简化配置管理、数据库交互、Pub/Sub 集成、自动可观察性、服务间通信、中间件使用和身份验证等常见任务。此外,GoFr 还提供对数据迁移、Web 套接字、cron 作业和远程日志级别更改的内置支持,进一步简化您的开发流程。
我们将 GoFr 与其他流行的 Go 框架(如 Gin、Chi、Echo 和 Fiber)进行了基准测试,发现 GoFr 的性能最佳,即使具有广泛的功能集。这意味着您可以在不影响性能的情况下利用其所有强大的功能。
我们鼓励您亲自探索 GoFr。该框架的综合文档、教程和活跃的社区是指导您的旅程的宝贵资源。借助 GoFr,您可以专注于构建健壮、可扩展且高效管理的微服务,从而将更多时间投入到应用程序的核心功能上。
立即开始使用 GoFr!
这里有一些有用的资源:
GoFr 网站:https://gofr.dev
GoFr GitHub 存储库:https://github.com/gofr-dev/gofr
GoFr Discord 服务器:https://discord.gg/zyJkVhps
以上是微服务的终极 Golang 框架:GoFr的详细内容。更多信息请关注PHP中文网其他相关文章!