Skip to content

Bebbolus/gostron

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

34 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

A modular web server in Go

Image 1: Architecture Representation

The target of this project is to inspect how to build a modular web server. It will send the requests through our pluggable modules: *middlewares *and controller.


how would we like to use it?

Our scope is to care only about the mapping of a request to a handlers, adding some middlewares from a set.

Image 2: Mapping middlewares and controller to an endpoint

This kind of architecture is scalable, customizable and reusable. It enables us to make:

  1. specialized web services
  2. use the same web services for several projects
  3. **Update separately **the “core” server part and the plugins.

I put particular attention to “update separately”. With plugin architecture, you can distribute the compiled file of only one component. For example: if you update the core to HTTPS architecture, you can redeploy only the core file. In the same way, if you update the JWT plugin to use a new ash method, you have only to redeploy the plugin.

Image 3: Distributed deployment example

Implementation

We can start building our routes configuration file. An example configuration can be a single route managed. We attach a plugin to check if the request HTTP Method is GET or POST and then send it to a controller.

All other routes will return “404 not found”.

routes.json will look like this:

{
   "endpoints":[
      {
         "path":"/myroute",
         "handler":"./plugins/controllers/general.so",
         "middlewares":[
            {
               "handler":"./plugins/middlewares/method.so",
               "params":"GET|POST"
            }
         ]
      }
   ]
}

Creating the file in this way, we can attach several middlewares to a route and use a middleware in several routes.

Build the core

Make the middleware chain architecture

Our middleware concept will chain a set of functions. This functions will check the request and if it passes the filter, send it to the next function.

Gate is the type that represents the middleware function with arguments valued:

type Gate func(http.HandlerFunc) http.HandlerFunc
func Chain(f http.HandlerFunc, middlewares ...Gate) http.HandlerFunc {
	for _, m := range middlewares {
		f = m(f)
	}
	return f
}

Read the configurations

Now we can proceed on reading the configuration, mapping it to a struct (with this tool is very simple):

//source routes configuration struct to load from the json configuration file
type routes struct {
	Endpoints []struct {
		Controller  string `json:"controller"`
		Middlewares []struct {
			Handler string `json:"handler"`
			Params  string `json:"params"`
		} `json:"middlewares"`
		Path string `json:"path"`
	} `json:"endpoints"`
}

var RoutesConf routes

and make the function to read from JSON:

/ReadFromJSON function load a json file into a struct or return error
func ReadFromJSON(t interface{}, filename string) error {

jsonFile, err := ioutil.ReadFile(filename)
	if err != nil {
		return err
	}
	err = json.Unmarshal([]byte(jsonFile), t)
	if err != nil {
		log.Fatalf("error: %v", err)
		return err
	}

return nil
}

Load the Plugins

We can load plugins, using the plugin package. we can import all the exposed functions and variables (ELF symbols).

As we call an exported type method from the plugin, we need to adopt some conventions, I opted for:

  • Controller type with method Fire()
  • Middleware type with method Pass()

Walking into the configuration we can **dynamically **link the libraries:

From “plugin.Open” documentation: If a path has already been opened, then the existing *Plugin is returned It is safe for concurrent use by multiple goroutines.

Load Controller plugin:

for _, v := range RoutesConf.Endpoints {
  // load module:
  plug, err := plugin.Open(v.Controller)
  if err != nil {
   kill(err)
  }
  // look up for an exported Controller method
  symController, err := plug.Lookup("Controller")
  if err != nil {
   kill(err)
  }

// check that loaded symbol is type Controller
  var controller Controller
  controller, ok := symController.(Controller)
  if !ok {
   kill("The Controller module have wrong type")
  }

//define new middleware chain
  var chain []Gate

Load middleware modules to attach on the route:

for _, mid := range v.Middlewares {
   // load middleware plugin
   plug, midErr := plugin.Open(mid.Handler)
   if midErr != nil {
    kill(midErr)
   }
   // look up the Pass function
   symMiddleware, midErr := plug.Lookup("Middleware")
   if midErr != nil {
    kill(midErr)
   }

// check that loaded symbol is type Middleware
   var middleware Middleware
   middleware, ok := symMiddleware.(Middleware)
   if !ok {
    kill("The middleware module have wrong type")
   }

// build the gate function that contain the middleware instance
   nmid := Gate(middleware.Pass(mid.Params))

// append to the middlewares chain
   chain = append(chain, nmid)

}
  // Use all the modules to handle the request
  http.HandleFunc(v.Path, Chain(controller.Fire, chain...))
 }

Plugins Implementation

The package of a plugin needs to be “Main”.

Unlike that, the package can’t see the entities such as types and functions in the “real” main package. So, as a suggestion, maintain plugins dumber as possible.

In our repository create a plugin folder:

mkdir plugins

Inside we create two folders, one for middlewares, one for controllers

cd plugins
mkdir controller
mkdir middlewares

Build the Controllers

Inside the plugins/controllers folder create general.so, this will be the HTTP Request handler:

package main 
import ( 
       "fmt" 
       "net/http"
)

type controller string

func (h controller) Fire(w http.ResponseWriter, r *http.Request) {
    fmt.Fprintf(w, "Hello FROM CONTROLLER PLUGIN!!!") 
}

// Controller exported namevar 
Controller controller

Build the Middlewares

We build a method middleware that checks the HTTP Method, else returns a 400 Bad Request.

To leave middleware “open”, it needs some arguments. In this case, a sequence of approved HTTP methods that we need to split and check:

package main

import (
	"net/http"
	"strings"
)

type middleware string

func (m middleware) Pass(args string) func(http.HandlerFunc) http.HandlerFunc {
  return func(f http.HandlerFunc) http.HandlerFunc {
    // Define the http.HandlerFunc
    return func(w http.ResponseWriter, r *http.Request) {
	//split args and check if the request as this method
	acceptedMethods := strings.Split(args, "|")
	for _, v := range acceptedMethods {
		if r.Method == v {
		// Call the next middleware in chain
		f(w, r)
		return
		}
	}

http.Error(w, http.StatusText(http.StatusBadRequest), http.StatusBadRequest)
	return
    }
  }
}

// export as symbol named "Middleware"
var Middleware middleware

To build the plugin library, we need to use the -buildmode=plugin flag and specify the result name:

go build -buildmode=plugin -o plugins/middlewares/method.so plugins/middlewares/method.go

go build -buildmode=plugin -o plugins/controllers/genearal.so plugins/controllers/genearal.go

Now we can put all together to work starting the web server and test our service.

go build -o start -v

N.B. it works only on Linux, but with container we can solve this issue

Usage

  • create middleware plugins under plugins/middlewares

  • create handler plugins under plugins/handlers

  • configure routes in the configurations/routes.json file

  • configure server in the configurations/server.json file

Tools

the create.sh script provide scaffold to make your middlewares and handlers. executing command:

  $ ./create.sh handler mio

it will produce a plugins/handlers/mio.go file with the structure needed to use it in the server, as the same of

  $ ./create.sh middleware mio

that will create the plugins/middlewares/mio.go file.

Building

once you have finish configurations and created the handlers/middlewares plugins, in shell run the command:

  $ make build

if you want to remove all compiled files, run:

  $ make clean

Test

the project have a test that work for standard configuration and plugin, you need to edit this if you want to test your own implementation

TODO

Example

  • create a ipfilter middleware
  • create basic auth middleware
  • create a "only-admin-access" middleware

Test

  • routing configuration test: searh for duplicated or wrong path, search for required plugins
  • performance test

Desired features

  • server config to REDIRECT HTTP TO HTTPS
  • middleware: CLIENT AUTHENTICATION
  • server config to enable HTTPS: use crypto/tls package with ability to rotate TLS session ticket keys by default
  • JWT API auth for javascript frontend framework like angular
  • csrf token for request validation

About

golang webserver with pluggable route controller

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published