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NAME

adenosine

VERSION

version 2.002000

Description

Adenosine is a tiny script wrapper for curl. It provides a simple, concise shell interface for interacting with REST services. Since it is just a command you run in your shell and not in its own separate command environment you have access to all the powerful shell tools, such as perl, awk, grep, sed, etc. You can use adenosine in pipelines to process data from REST services, and PUT or POST the data right back. You can even pipe the data in and then edit it interactively in your text editor prior to PUT or POST.

Cookies are supported automatically and stored in a file locally. Most of the arguments are remembered from one call to the next to save typing. It has pretty good defaults for most purposes. Additionally, adenosine allows you to easily provide your own options to be passed directly to curl, so even the most complex requests can be accomplished with the minimum amount of command line pain.

Here is a nice screencast showing adenosine (née resty) in action (by Jan-Piet Mens).

Quick Start

From git

Grab the files from github:

      $ git clone http://github.com/frioux/app-adenosine-prefab

Source the exports before using it. (You can put this line in your ~/.bashrc file if you want.)

      $ . app-adenosine-prefab/adenosine-exports

From CPAN

If you are a Perl user you can install adenosine from CPAN as follows:

      $ cpanm App::Adenosine

And then source the function wrappers as follows:

      $ eval $(adenosine exports)

Set the REST host to which you will be making your requests (you can do this whenever you want to change hosts, anytime).

      $ adenosine http://127.0.0.1:8080/data
      http://127.0.0.1:8080/data*

Make some HTTP requests.

      $ GET /blogs.json
      [ {"id" : 1, "title" : "first post", "body" : "This is the first post"}, ... ]

      $ PUT /blogs/2.json '{"id" : 2, "title" : "updated post", "body" : "This is the new."}'
      {"id" : 2, "title" : "updated post", "body" : "This is the new."}

      $ DELETE /blogs/2

      $ POST /blogs.json '{"title" : "new post", "body" : "This is the new new."}'
      {"id" : 204, "title" : "new post", "body" : "This is the new new."}

What's Next?

Check out some of the plugins available for adenosine! Right now there's just two, Rainbow and Stopwatch. To use them, edit the bin/adenosine file and uncomment the plugin lines.

Hacking!

Want to add some features? Fork the frioux/app-adenosine repository and send pull requests!

A Work In Progress

Adenosine was ported to Perl from resty due to a number of issues. Because adenosine is not a simple shell function it does not use env vars as much, and so is less "persistent" than resty when it comes to various settings. I'm completely willing to fix this by wrapping adenosine with a small shell function that sets various environment variables, but I'd rather get it released with a few exciting features resty does not have. With that in mind, patches are always welcome. Please get in touch if you'd like one of the currently unsupported resty features to be fixed and I'll certainly do what I can to get it working. Any part of the doc marked with !!! is a place to look out for an imcompatibility.

Usage

      source adenosine-exports [-W] [remote] # load functions into shell         !!!
      adenosine [-v]                         # prints current request URI base   !!!
      adenosine <remote> [OPTIONS]           # sets the base request URI         !!!

      HEAD [path] [OPTIONS]                   # HEAD request
      OPTIONS [path] [OPTIONS]                # OPTIONS request
      GET [path] [OPTIONS]                    # GET request
      DELETE [path] [OPTIONS]                 # DELETE request
      PUT [path] [data] [OPTIONS]             # PUT request
      POST [path] [data] [OPTIONS]            # POST request
      TRACE [path] [OPTIONS]                  # TRACE request
      PATCH [path] [OPTIONS]                  # PATCH request

      Options:

      -Q            Don't URL encode the path.
      -q <query>    Send query string with the path. A '?' is prepended to
                    <query> and concatenated onto the <path>.
      -W            Don't write to history file (only when sourcing script).    !!!
      -V            Edit the input data interactively in 'vi'. (PUT and POST
                    requests only, with data piped to stdin.)
      -v            Verbose output. When used with the adenosine command itself
                    this prints the saved curl options along with the current
                    URI base. Otherwise this is passed to curl for verbose
                    curl output.
      <curl opt>    Any curl options will be passed down to curl.

Configuration, Data File Locations

Adenosine creates a few files in either your ${XDG_CONFIG_HOME} and ${XDG_DATA_HOME} directory (if your system uses the XDG directory standard) or in the ~/.resty directory, otherwise.

Using Existing, Pre-v2.1 Configuration Files With v2.1

If you had resty installed before version 2.1 and your system uses the XDG config directory standard and you want to continue using your existing configuration files, please make a backup of your ~/.resty directory and then do:

      $ mkdir -p "${XDG_CONFIG_HOME}/resty" "${XDG_DATA_HOME}/resty"
      $ mv ~/.resty/c "${XDG_DATA_HOME}/resty"
      $ mv ~/.resty/* "${XDG_CONFIG_HOME}/resty"

Request URI Base

The request URI base is what the eventual URI to which the requests will be made is based on. Specifically, it is a URI that may contain the * character one or more times. The * will be replaced with the path parameter in the OPTIONS, HEAD, GET, POST, PUT, PATCH or DELETE request as described above.

For example:

      $ adenosine 'http://127.0.0.1:8080/data*.json'
      http://127.0.0.1:8080/data*.json

and then

      $ GET /5
      { "the_response" : true }

would result in a `GET` request to the URI http://127.0.0.1:8080/data/5.json.

If no * character is specified when setting the base URI, it's just added onto the end for you automatically.

HTTPS URIs

HTTPS URIs can be used, as well. For example:

      $ adenosine 'https://example.com/doit'
      https://example.com/doit*

URI Base History

The URI base is saved to an rc file (${XDG_CONFIG_HOME}/resty/host or ~/.resty/host) each time it's set, and the last setting is saved in an environment variable !!! ($_resty_host). The URI base is read from the rc file when resty starts up, but only if the $_resty_host environment variable is not set. In this way you can make requests to different hosts using resty from separate terminals, and have a different URI base for each terminal.

If you want to see what the current URI base is, just run adenosine with no arguments. The URI base will be printed to stdout.

The Optional Path Parameter

The HTTP verbs (OPTIONS, HEAD, GET, POST, PUT, PATCH and DELETE) first argument is always an optional URI path. This path must always start with a / character. If the path parameter is not provided on the command line, adenosine will just use the last path it was provided with. This "last path" is stored in an environment variable ($_resty_path), so each terminal basically has its !!! own "last path".

URL Encoding Of Path Parameter

Adenosine will always URL encode the path, except for slashes. (Slashes in path elements need to be manually encoded as %2F.) This means that the ?, =, and & characters will be encoded, as well as some other problematic characters. To disable this behavior use the -Q option.

Query Strings, POST Parameters, And Both At The Same Time

There are three ways to add a query string to the path. The first, mentioned above, is to disable URL encoding with the -Q option, and include the query string with the path parameter, like this:

      $ GET '/blogs/47?param=foo&otherparam=bar' -Q

To specify a query string without disabling URL encoding on the path the -q option is used, like this:

      $ GET /blogs/47 -q 'param=foo&otherparam=bar'

Finally, you can use the curl -d and -G options, like this:

      $ GET /blogs/47 -d 'param=foo' -d 'otherparam=bar' -G

However, if you want to pass both GET parameters in the query string and POST parameters in the request body, curl cannot support this by itself. Using the -q or -Q adenosine options with the -d curl option will accomplish this, like so:

      $ POST '/blogs/47?param=foo&otherparam=bar' -Q -d 'postparam=baz'

POST/PUT Requests and Data

Normally you would probably want to provide the request body data right on the command line like this:

      $ PUT /blogs/5.json '{"title" : "hello", "body" : "this is it"}'

But sometimes you will want to send the request body from a file instead. To do that you pipe in the contents of the file:

      $ PUT /blogs/5.json < /tmp/t # !!!

Or you can pipe the data from another program, like this:

      $ myprog | PUT /blogs/5.json # !!!

Or, interestingly, as a filter pipeline with jsawk|http://github.com/micha/jsawk:

      $ GET /blogs/5.json | jsawk 'this.author="Bob Smith";this.tags.push("news")' | PUT

Notice how the path argument is omitted from the PUT command.

Edit PUT/POST Data In Vi

With the -V options you can pipe data into PUT or POST, edit it in vi, save the data (using :wq in vi, as normal) and the resulting data is then PUT or POSTed. This is similar to the way visudo works, for example.

      $ GET /blogs/2 | PUT -V

This fetches the data and lets you edit it, and then does a PUT on the resource. If you don't like vi you can specify your preferred editor by setting the EDITOR environment variable.

Errors and Output

For successful 2xx responses, the response body is printed on stdout. You can pipe the output to stuff, process it, and then pipe it back to adenosine, if you want.

For responses other than 2xx the response body is dumped to stderr.

Passing Command Line Options To Curl

Anything after the (optional) path and data arguments is passed on to curl.

For example:

      $ GET /blogs.json -H "Range: items=1-10"

The -H "Range: items=1-10" argument will be passed to curl for you. This makes it possible to do some more complex operations when necessary.

      $ POST -v -u user:test

In this example the path and data arguments were left off, but -v and -u user:test will be passed through to curl, as you would expect.

Here are some useful options to try:

-v

verbose output, shows HTTP headers and status on stderr

-j

junk session cookies (refresh cookie-based session)

<-u $username:$password>

HTTP basic authentication

<-H $header>

add request header (this option can be added more than once)

Setting The Default Curl Options

Sometimes you want to send some options to curl for every request. It would be tedious to have to repeat these options constantly. To tell adenosine to always add certain curl options you can specify those options when you call adenosine to set the URI base. For example:

      $ adenosine example.com:8080 -H "Accept: application/json" -u user:pass

Every subsequent request will have the -H "Accept:..." and -u user:... options automatically added. Each time adenosine is called this option list is reset.

Per-Host/Per-Method Curl Configuration Files

Adenosine supports a per-host/per-method configuration file to help you with frequently used curl options. Each host (including the port) can have its own configuration file in the ~/.resty directory. The file format is

      $ GET [arg] [arg] ...
      $ PUT [arg] [arg] ...
      $ POST [arg] [arg] ...
      $ DELETE [arg] [arg] ...

Where the args are curl command line arguments. Each line can specify arguments for that HTTP verb only, and all lines are optional.

So, suppose you find yourself using the same curl options over and over. You can save them in a file and adenosine will pass them to curl for you. Say this is a frequent pattern for you:

      $ adenosine localhost:8080
      $ GET /Blah -H "Accept: application/json"
      $ GET /Other -H "Accept: application/json"
      ...
      $ POST /Something -H "Content-Type: text/plain" -u user:pass
      $ POST /SomethingElse -H "Content-Type: text/plain" -u user:pass
      ...

It's annoying to add the -H and -u options to curl all the time. So create a file ~/.resty/localhost:8080, like this:

~/.resty/localhost:8080

      GET -H "Accept: application/json"
      POST -H "Content-Type: text/plain" -u user:pass

Then any GET or POST requests to localhost:8080 will have the specified options prepended to the curl command line arguments, saving you from having to type them out each time, like this:

      $ GET /Blah
      $ GET /Other
      ...
      $ POST /Something
      $ POST /SomethingElse
      ...

Sweet! Much better.

Exit Status

Successful requests (HTTP respose with 2xx status) return zero. Otherwise, the first digit of the response status is returned (i.e., 1 for 1xx, 3 for 3xx, 4 for 4xx, etc.) This is because the exit status is an 8 bit integer---it can't be greater than 255. If you want the exact status code you can always just pass the -v option to curl.

Using Adenosine In Shell Scripts !!!

Since adenosine creates the REST verb functions in the shell, when using it from a script you must source it before you use any of the functions. However, it's likely that you don't want it to be overwriting the adenosine host history file, and you will almost always want to set the URI base explicitly.

      #!/usr/bin/env bash

      # Load adenosine, don't write to the history file, and set the URI base
      . /path/to/adenosine-exports -W 'https://myhost.com/data*.json'

      # GET the JSON list of users, set each of their 'disabled' properties
      # to 'false', and PUT the modified JSON back
      GET /users | jsawk 'this.disabled = false' | PUT

Here the -W option was used when loading the script to prevent writing to the history file and an initial URI base was set at the same time. Then a JSON file was fetched, edited using jsawk, and re-uploaded to the server.

Application Configuration

Adenosine may be configured by placing a YAML document in ~/.adenosinerc.yml. More parts of adenosine will be configurable as time goes on, but right now the only real configuration is for plugins.

Adenosine's plugin architecture (documented at "USING PLUGINS" in App::Adenosine and "CREATING PLUGINS" in App::Adenosine) can be used to color code headers, time the request, or more, if you choose to write more plugins. Enabling a plugin is simple with the ~/.adenosinerc.yml file. Here is how you would enable both App::Adenosine::Plugin::Stopwatch and App::Adenosine::Plugin::Rainbow, including a little bit of extra (non-required) configuration to customize some colors for ::Rainbow.

 plugins:
    - ::Stopwatch
    - ::Rainbow: {
          request_method_color: cyan
      }

The following would work if you didn't want to configure ::Rainbow

 plugins:
    - ::Stopwatch
    - ::Rainbow

Another option allows the user to disable the XDG based directory structure (typically ~/.config). Simply put the following in your ~/.adenosinerc.yml:

 enable_xdg: 0

Working With JSON or XML Data

JSON REST web services require some special tools to make them accessible and easily manipulated in the shell environment. The following are a few scripts that make dealing with JSON data easier.

  • Jsawk can be used to process and filter JSON data from and to adenosine, in a shell pipeline. This takes care of parsing the input JSON correctly, rather than using regexes and sed, awk, perl or the like, and prints the resulting output in correct JSON format, as well.

     GET /blogs.json |jsawk -n 'out(this.title)' # prints all the blog titles
  • The included pp script will pretty-print JSON for you.

     GET /blogs.json |pp # pretty-prints the JSON output from adenosine
  • Another way to format JSON output:

          $ echo '{"json":"obj"}' | python -mjson.tool
          {
            "json": "obj"
          }
  • The tidy tool can be used to format HTML/XML:

          $ ~$ echo "<test><deep>value</deep></test>" | tidy -xml -q -i
          <test>
            <deep>value</deep>
          </test>

AUTHOR

Arthur Axel "fREW" Schmidt <frioux+cpan@gmail.com>

COPYRIGHT AND LICENSE

This software is copyright (c) 2018 by Arthur Axel "fREW" Schmidt.

This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.