mirror of
https://github.com/go-gitea/gitea
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01d957677f
* initial stuff for oauth2 login, fails on: * login button on the signIn page to start the OAuth2 flow and a callback for each provider Only GitHub is implemented for now * show login button only when the OAuth2 consumer is configured (and activated) * create macaron group for oauth2 urls * prevent net/http in modules (other then oauth2) * use a new data sessions oauth2 folder for storing the oauth2 session data * add missing 2FA when this is enabled on the user * add password option for OAuth2 user , for use with git over http and login to the GUI * add tip for registering a GitHub OAuth application * at startup of Gitea register all configured providers and also on adding/deleting of new providers * custom handling of errors in oauth2 request init + show better tip * add ExternalLoginUser model and migration script to add it to database * link a external account to an existing account (still need to handle wrong login and signup) and remove if user is removed * remove the linked external account from the user his settings * if user is unknown we allow him to register a new account or link it to some existing account * sign up with button on signin page (als change OAuth2Provider structure so we can store basic stuff about providers) * from gorilla/sessions docs: "Important Note: If you aren't using gorilla/mux, you need to wrap your handlers with context.ClearHandler as or else you will leak memory!" (we're using gorilla/sessions for storing oauth2 sessions) * use updated goth lib that now supports getting the OAuth2 user if the AccessToken is still valid instead of re-authenticating (prevent flooding the OAuth2 provider)
236 lines
8.0 KiB
Go
236 lines
8.0 KiB
Go
// Copyright 2012 The Gorilla Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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/*
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Package mux implements a request router and dispatcher.
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The name mux stands for "HTTP request multiplexer". Like the standard
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http.ServeMux, mux.Router matches incoming requests against a list of
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registered routes and calls a handler for the route that matches the URL
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or other conditions. The main features are:
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* Requests can be matched based on URL host, path, path prefix, schemes,
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header and query values, HTTP methods or using custom matchers.
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* URL hosts and paths can have variables with an optional regular
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expression.
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* Registered URLs can be built, or "reversed", which helps maintaining
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references to resources.
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* Routes can be used as subrouters: nested routes are only tested if the
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parent route matches. This is useful to define groups of routes that
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share common conditions like a host, a path prefix or other repeated
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attributes. As a bonus, this optimizes request matching.
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* It implements the http.Handler interface so it is compatible with the
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standard http.ServeMux.
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Let's start registering a couple of URL paths and handlers:
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func main() {
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r := mux.NewRouter()
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r.HandleFunc("/", HomeHandler)
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r.HandleFunc("/products", ProductsHandler)
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r.HandleFunc("/articles", ArticlesHandler)
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http.Handle("/", r)
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}
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Here we register three routes mapping URL paths to handlers. This is
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equivalent to how http.HandleFunc() works: if an incoming request URL matches
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one of the paths, the corresponding handler is called passing
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(http.ResponseWriter, *http.Request) as parameters.
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Paths can have variables. They are defined using the format {name} or
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{name:pattern}. If a regular expression pattern is not defined, the matched
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variable will be anything until the next slash. For example:
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r := mux.NewRouter()
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r.HandleFunc("/products/{key}", ProductHandler)
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r.HandleFunc("/articles/{category}/", ArticlesCategoryHandler)
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r.HandleFunc("/articles/{category}/{id:[0-9]+}", ArticleHandler)
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Groups can be used inside patterns, as long as they are non-capturing (?:re). For example:
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r.HandleFunc("/articles/{category}/{sort:(?:asc|desc|new)}", ArticlesCategoryHandler)
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The names are used to create a map of route variables which can be retrieved
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calling mux.Vars():
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vars := mux.Vars(request)
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category := vars["category"]
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And this is all you need to know about the basic usage. More advanced options
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are explained below.
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Routes can also be restricted to a domain or subdomain. Just define a host
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pattern to be matched. They can also have variables:
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r := mux.NewRouter()
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// Only matches if domain is "www.example.com".
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r.Host("www.example.com")
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// Matches a dynamic subdomain.
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r.Host("{subdomain:[a-z]+}.domain.com")
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There are several other matchers that can be added. To match path prefixes:
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r.PathPrefix("/products/")
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...or HTTP methods:
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r.Methods("GET", "POST")
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...or URL schemes:
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r.Schemes("https")
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...or header values:
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r.Headers("X-Requested-With", "XMLHttpRequest")
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...or query values:
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r.Queries("key", "value")
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...or to use a custom matcher function:
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r.MatcherFunc(func(r *http.Request, rm *RouteMatch) bool {
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return r.ProtoMajor == 0
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})
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...and finally, it is possible to combine several matchers in a single route:
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r.HandleFunc("/products", ProductsHandler).
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Host("www.example.com").
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Methods("GET").
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Schemes("http")
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Setting the same matching conditions again and again can be boring, so we have
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a way to group several routes that share the same requirements.
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We call it "subrouting".
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For example, let's say we have several URLs that should only match when the
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host is "www.example.com". Create a route for that host and get a "subrouter"
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from it:
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r := mux.NewRouter()
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s := r.Host("www.example.com").Subrouter()
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Then register routes in the subrouter:
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s.HandleFunc("/products/", ProductsHandler)
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s.HandleFunc("/products/{key}", ProductHandler)
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s.HandleFunc("/articles/{category}/{id:[0-9]+}"), ArticleHandler)
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The three URL paths we registered above will only be tested if the domain is
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"www.example.com", because the subrouter is tested first. This is not
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only convenient, but also optimizes request matching. You can create
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subrouters combining any attribute matchers accepted by a route.
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Subrouters can be used to create domain or path "namespaces": you define
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subrouters in a central place and then parts of the app can register its
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paths relatively to a given subrouter.
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There's one more thing about subroutes. When a subrouter has a path prefix,
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the inner routes use it as base for their paths:
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r := mux.NewRouter()
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s := r.PathPrefix("/products").Subrouter()
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// "/products/"
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s.HandleFunc("/", ProductsHandler)
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// "/products/{key}/"
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s.HandleFunc("/{key}/", ProductHandler)
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// "/products/{key}/details"
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s.HandleFunc("/{key}/details", ProductDetailsHandler)
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Note that the path provided to PathPrefix() represents a "wildcard": calling
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PathPrefix("/static/").Handler(...) means that the handler will be passed any
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request that matches "/static/*". This makes it easy to serve static files with mux:
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func main() {
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var dir string
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flag.StringVar(&dir, "dir", ".", "the directory to serve files from. Defaults to the current dir")
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flag.Parse()
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r := mux.NewRouter()
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// This will serve files under http://localhost:8000/static/<filename>
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r.PathPrefix("/static/").Handler(http.StripPrefix("/static/", http.FileServer(http.Dir(dir))))
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srv := &http.Server{
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Handler: r,
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Addr: "127.0.0.1:8000",
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// Good practice: enforce timeouts for servers you create!
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WriteTimeout: 15 * time.Second,
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ReadTimeout: 15 * time.Second,
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}
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log.Fatal(srv.ListenAndServe())
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}
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Now let's see how to build registered URLs.
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Routes can be named. All routes that define a name can have their URLs built,
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or "reversed". We define a name calling Name() on a route. For example:
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r := mux.NewRouter()
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r.HandleFunc("/articles/{category}/{id:[0-9]+}", ArticleHandler).
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Name("article")
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To build a URL, get the route and call the URL() method, passing a sequence of
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key/value pairs for the route variables. For the previous route, we would do:
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url, err := r.Get("article").URL("category", "technology", "id", "42")
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...and the result will be a url.URL with the following path:
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"/articles/technology/42"
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This also works for host variables:
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r := mux.NewRouter()
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r.Host("{subdomain}.domain.com").
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Path("/articles/{category}/{id:[0-9]+}").
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HandlerFunc(ArticleHandler).
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Name("article")
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// url.String() will be "http://news.domain.com/articles/technology/42"
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url, err := r.Get("article").URL("subdomain", "news",
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"category", "technology",
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"id", "42")
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All variables defined in the route are required, and their values must
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conform to the corresponding patterns. These requirements guarantee that a
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generated URL will always match a registered route -- the only exception is
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for explicitly defined "build-only" routes which never match.
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Regex support also exists for matching Headers within a route. For example, we could do:
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r.HeadersRegexp("Content-Type", "application/(text|json)")
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...and the route will match both requests with a Content-Type of `application/json` as well as
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`application/text`
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There's also a way to build only the URL host or path for a route:
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use the methods URLHost() or URLPath() instead. For the previous route,
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we would do:
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// "http://news.domain.com/"
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host, err := r.Get("article").URLHost("subdomain", "news")
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// "/articles/technology/42"
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path, err := r.Get("article").URLPath("category", "technology", "id", "42")
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And if you use subrouters, host and path defined separately can be built
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as well:
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r := mux.NewRouter()
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s := r.Host("{subdomain}.domain.com").Subrouter()
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s.Path("/articles/{category}/{id:[0-9]+}").
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HandlerFunc(ArticleHandler).
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Name("article")
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// "http://news.domain.com/articles/technology/42"
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url, err := r.Get("article").URL("subdomain", "news",
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"category", "technology",
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"id", "42")
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*/
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package mux
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