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Clojure REPL preloaded with clj-http, specter, cheshire, data.xml, and URL/request state to interact with Web-APIs

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Deprecation and replacement

All features and more (easy configuration, plugin structure to add rebel-readline, pomegranate, ...), ...) now present in wrepl

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 __ <  |          |  |    __ <  |     ___/  |     
_| \_\_____|_____/  _|   _| \_\_____|_|    _____| 

Clojure REPL that resembles a shell in regard the current working directory being an URL and allows sending request.

Why

While tools like httpie are nice to query some APIs with some nice syntax and getting back some formatted JSON and even some colors, those are not ideal to interact with the API. It comes down to interact with the shell and do call after call and copy down values from your results in your next request. Complex interactions are usually out of questions.

Building and running

You need to have [Leiningen(https://leiningen.org/) installed. Check out this repo and run lein uberjar. Once finished there will be a target/rest-repl-$VERSION-standalone.jar which can be run with java -jar target/rest-repl-$VERSION-standalone.jar`

Ideally it gets started with rlwrap (this is a full blown example):

rlwrap -m -M .clj -C rest-repl -H "`pwd`/.rest-repl_history" java -jar target/rest-repl-*-standalone.jar

(needs rlwrap to be installed: the parameters there let edit the current line with CTRL-^ and keeps it's own history file for each project directory; make that an alias in your shell)

Usage

Startup and REPL prompt

Command line parameters:

rest-repl [options...] [url]

  -i, --init script.clj  Run the given file before the first prompt
  -e, --eval string      Evaluate the expression (after --init if both given)
  -h, --help

On the prompt call (help) for the functions available (also here)

To show off the color output and formatting by puget, here is a screenshot what it looks like:

screenshot

By default once started the default URL is http://localhost:8080 which results in the prompt:

http://localhost:8080 => _

(_ marks the cursor)

This prompt shows the current URL and prompts for Clojure code as user input. So any Clojure code works here:

http://localhost:8080 => (+ 1 2 3)
6

State: default request parameters

The URL and the setup for clj-http are held in an atom that can be reviewed with @config:

http://localhost:8080 => @config
{:base-url "http://localhost:8080",
 :request {:as :auto, :coerce :always, :debug false, :throw-exceptions false}}

:base-url is the URL the application started at. :request holds a map, that is used for each request to be merged with the user input. The available options are documented in the clj-http README.

The default request :request on startup is chosen to allow for some smooth usage for the standard use cases. They can be changed with the default function. It takes keys as varargs and finally the value to set it. E.g.

http://localhost:8080 => (default :debug true)
{:base-url "http://localhost:8080",
 :request {:as :auto, :coerce :always, :debug true, :throw-exceptions false}}
http://localhost:8080 => (default :headers "X-Auth-Token" "XYZ")
{:base-url "http://localhost:8080",
 :request {:as :auto,
            :coerce :always,
            :debug true,
            :headers {"X-Auth-Token" "XYZ"},
            :throw-exceptions false}}

State: navigation on the URL

To change the URL, there is the cd function, that behaves similar to the same command of a shell. This behaves relative to the path, the prompt shows. So a simple string goes down one level. Using .. goes up. If the path starts with a ~, the base URL is used. If two parameters are passed, the first parameter gets replaced in the current path with the second parameter. E.g.

http://localhost:8080 => (cd "user")
"http://localhost:8080/user"
http://localhost:8080/user => (cd "role")
"http://localhost:8080/user/role"
http://localhost:8080/user/role => (cd "~/group/role")
"http://localhost:8080/group/role"
http://localhost:8080/group/role => (cd "..")
"http://localhost:8080/group/"
http://localhost:8080/group/ => (cd "group" "user")
"http://localhost:8080/user/"

Note, that changing the URL does not call that URL or ensures in any way, that this is a valid endpoint.

Sending requests

Requests are sent by default to the current URL with the request function. It takes the HTTP verb as keyword as first parameter. The next one is an optional absolute or relative path, that gets used like when used with cd, but only for that request. Finally a map get's passed, that is the request as defined in clj-http.

There are shortcut functions for GET, POST, PUT, DELETE (so (GET ...) is the shortcut for (request :get ...).

https://google.com => (GET {})
{:body "<!doctype html>...",
 :chunked? true,
 :content-type :text/html,
 :content-type-params {:charset "ISO-8859-1"},
 :cookies {...},
 :headers {...},
 :length -1,
 :orig-content-encoding nil,
 :protocol-version {:major 1, :minor 1, :name "HTTP"},
 :reason-phrase "OK",
 :repeatable? false,
 :request-time 794,
 :status 200,
 :streaming? true,
 :trace-redirects ["https://google.com"]}

Common values for the map contain :query-params for GET or :form-params for POST for more web style requests.

More likely in an API calling scenario, JSON or XML bodies are sent and received. So there are helper functions to build a body common for those kind of services: json and xml.

json just takes a map, that get's converted to JSON via cheshire. E.g.:

http://localhost:9200/jukebox/artist => (json {"test" 1})
{:body "{\"test\":1}", :content-type :json}
http://localhost:9200/jukebox/artist => (:body (POST "_search" (json {:query {:term {:name.plain "Slayer"}}})))
{:_shards {:failed 0, :successful 1, :total 1},
 :hits {:hits [{:_id "Slayer",
                :_index "jukebox",
                :_score 11.390072,
                :_source {:created 1411731380102, :id "Slayer", :name "Slayer"},
                :_type "artist"}],
        :max_score 11.390072,
        :total 1},
 :timed_out false,
 :took 9}

xml takes a vector with a tag, optional attributes, and optional childs (like the popular format of hiccup). E.g.

http://localhost:8080 => (xml [:root {"attr" "attr-value"} "content"])
{:body "<?xml version=\"1.0\" encoding=\"UTF-8\"?><root attr=\"attr-value\">content</root>",
 :content-type :xml}

Example usage

This is a short real life example, how I use rest-repl in a project.

Usually there is some rest-repl.clj or more than one for different development environments. The file contains regular Clojure code to bootstrap REPL with the -i parameter like: rest-repl -i rest-repl.clj. It might look something like this:

(def login-url "http://localhost:8080/api/1.0/login")
(def login-cred {:username "username" :password "password"})

(defn login 
  [] 
  (let [token (-> (request :post login-url (json login-cred)) :body :access_token)] 
    (default :headers "X-Auth-Token" token)))

(cd "/api/1.0")
(login)

There might be further functions or some requires like for clojure.inspector or a (load-file "some-common-tools.clj") or ... After all it's just Clojure code.

From that that I can now explore the API by sending requests, def interesting results, work with all the other great Clojure data manipulation functions, debug larger results with clojure.inspector's tree-view, etc. Repetitive tasks become functions, that will be added to my bootstrap file.

Further Examples

How to use the REST-REPL for generative testing with clojure.spec

Libraries used by this project

Shout out to all the great software, that made this possible:

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Clojure REPL preloaded with clj-http, specter, cheshire, data.xml, and URL/request state to interact with Web-APIs

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