go-zero is a web and rpc framework with lots of builtin engineering practices. It’s born to ensure the stability of the busy services with resilience design and has been serving sites with tens of millions of users for years.
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go-zero (listed in CNCF Landscape: https://landscape.cncf.io/?selected=go-zero) is a web and rpc framework with lots of builtin engineering practices. It’s born to ensure the stability of the busy services with resilience design and has been serving sites with tens of millions of users for years.
go-zero contains simple API description syntax and code generation tool called goctl. You can generate Go, iOS, Android, Kotlin, Dart, TypeScript, JavaScript from .api files with goctl.
- Improves the stability of the services with tens of millions of daily active users
- Builtin chained timeout control, concurrency control, rate limit, adaptive circuit breaker, adaptive load shedding, even no configuration needed
- Builtin middlewares also can be integrated into your frameworks
- Simple API syntax, one command to generate a couple of different languages
- Auto validate the request parameters from clients
- Plenty of builtin microservice management and concurrent toolkits
In early 2018, we transitioned from a Java+MongoDB monolithic architecture to microservices, choosing:
- Golang - High performance, simple syntax, excellent deployment experience, and low resource consumption
- Self-designed microservice framework - Better problem isolation, easier feature extension, and faster issue resolution
go-zero follows these core design principles:
- Simplicity - Keep it simple, first principle
- High availability - Stable under high concurrency
- Resilience - Failure-oriented programming with adaptive protection
- Developer friendly - Encapsulate complexity, one way to do one thing
- Easy to extend - Flexible architecture for growth
go-zero integrates engineering best practices:
- Code generation - Powerful tools to minimize boilerplate
- Simple API - Clean interfaces, fully compatible with net/http
- High performance - Optimized for speed and efficiency
- Resilience - Built-in circuit breaker, rate limiting, load shedding, timeout control
- Service mesh - Service discovery, load balancing, call tracing
- Developer tools - Auto parameter validation, cache management, metrics and monitoring
Run the following command under your project:
go get -u github.com/zeromicro/go-zeroThe go-zero team provides AI tooling for Claude, GitHub Copilot, Cursor to generate framework-compliant code.
ai-context - Workflow guide for AI assistants
zero-skills - Pattern library with examples
mcp-zero - Code generation tools via Model Context Protocol
git submodule add https://github.com/zeromicro/ai-context.git .github/ai-context
ln -s ai-context/00-instructions.md .github/copilot-instructions.md # macOS/Linux
# Windows: mklink .github\copilot-instructions.md .github\ai-context\00-instructions.md
git submodule update --remote .github/ai-context # Updategit submodule add https://github.com/zeromicro/ai-context.git .cursorrules
git submodule update --remote .cursorrules # Updategit submodule add https://github.com/zeromicro/ai-context.git .windsurfrules
git submodule update --remote .windsurfrules # Updategit clone https://github.com/zeromicro/mcp-zero.git && cd mcp-zero && go build
# Configure: ~/Library/Application Support/Claude/claude_desktop_config.json
# Or: claude mcp add --transport stdio mcp-zero --env GOCTL_PATH=/path/to/goctl -- /path/to/mcp-zeroAI assistants use these tools together:
- ai-context - workflow guidance
- zero-skills - implementation patterns
- mcp-zero - real-time code generation
Example: Creating a REST API → AI reads ai-context for workflow → calls mcp-zero to generate code → references zero-skills for patterns → produces production-ready code ✅
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Full examples:
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Install goctl
# for Go go install github.com/zeromicro/go-zero/tools/goctl@latest # For Mac brew install goctl # docker for all platforms docker pull kevinwan/goctl # run goctl docker run --rm -it -v `pwd`:/app kevinwan/goctl --help
Ensure goctl is executable and in your $PATH.
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Create the API file (greet.api):
type ( Request { Name string `path:"name,options=[you,me]"` // parameters are auto validated } Response { Message string `json:"message"` } ) service greet-api { @handler GreetHandler get /greet/from/:name(Request) returns (Response) }
Generate .api template:
goctl api -o greet.api
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Generate Go server code
goctl api go -api greet.api -dir greet
Generated structure:
├── greet │ ├── etc │ │ └── greet-api.yaml // configuration file │ ├── greet.go // main file │ └── internal │ ├── config │ │ └── config.go // configuration definition │ ├── handler │ │ ├── greethandler.go // get/put/post/delete routes are defined here │ │ └── routes.go // routes list │ ├── logic │ │ └── greetlogic.go // request logic can be written here │ ├── svc │ │ └── servicecontext.go // service context, mysql/redis can be passed in here │ └── types │ └── types.go // request/response defined here └── greet.api // api description fileRun the service:
cd greet go mod tidy go run greet.go -f etc/greet-api.yamlDefault port: 8888 (configurable in etc/greet-api.yaml)
Test with curl:
curl -i http://localhost:8888/greet/from/you
Response:
HTTP/1.1 200 OK Date: Sun, 30 Aug 2020 15:32:35 GMT Content-Length: 0
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Write business logic
- Pass dependencies (mysql, redis, etc.) via servicecontext.go
- Add logic code in the logic package per .api definition
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Generate client code for multiple languages
goctl api java -api greet.api -dir greet goctl api dart -api greet.api -dir greet ...
- Documents
- Rapid development of microservice systems
- Rapid development of microservice systems - multiple RPCs
- Examples
Join the chat via https://discord.gg/4JQvC5A4Fe
go-zero enlisted in the CNCF Cloud Native Landscape.
If you like this project or are using it to learn or start your own solution, give it a star to get updates on new releases. Your support matters!
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