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NAME

Dancer2::Tutorial - An example to get you dancing

VERSION

version 0.160001

What is Dancer2?

Dancer2 is a "micro" web framework which is modeled after a Ruby framework called Sinatra that constructs web applications by building a list of HTTP verbs, URLs (called routes) and methods to handle that type of traffic to that specific URL.

  use Dancer2;

  get '/' => sub {
    return 'Hello World!';
  };

  start;

This example shows a single HTTP verb "GET" followed by the root URL "/" and an anonymous subroutine which returns the string "Hello World!" If you were to run this example, it would display "Hello World!" when you point your browser at http://localhost:3000.

How about a little more involved example?

That's the reason I wrote this tutorial. While I was investigating some Python web frameworks like Flask or Bottle I enjoyed the way they explained step by step how to build an example application which was a little more involved than a trivial example.

Using the Flaskr sample application as my inspiration (OK, shamelessly plagiarised) I translated that application to the Dancer2 framework so I could better understand how Dancer2 worked. (I'm learning it too!)

So "Dancr" was born.

Dancr is a simple "micro" blog which uses the SQLite database engine for simplicity's sake. (You'll need to install sqlite if you don't have it installed already.)

Required perl modules

Obviously you need Dancer2. You also need the Template Toolkit, File::Slurp, and DBD::SQLite. These all can be installed using your CPAN client, as in:

  cpan Dancer2 Template File::Slurp DBD::SQLite

The database

We're not going to spend a lot of time on the database, as it's not really the point of this particular tutorial. Open your favorite text editor and create a schema definition called 'schema.sql' with the following content:

  create table if not exists entries (
    id integer primary key autoincrement,
    title string not null,
    text string not null
  );

Here we have a single table with three columns: id, title, and text. The 'id' field is the primary key and will automatically get an ID assigned by the database engine when a row is inserted.

We want our application to initialize the database automatically for us when we start it, so next, create a file called 'dancr.pl'. (The entire file is listed below, so don't worry about copying each of these fragments into 'dancr.pl' as you read through this document.) We're going to put the following subroutines in that file:

  sub connect_db {
    my $dbh = DBI->connect("dbi:SQLite:dbname=".setting('database')) or
       die $DBI::errstr;

    return $dbh;
  }

  sub init_db {
    my $db = connect_db();
    my $schema = read_file('./schema.sql');
    $db->do($schema) or die $db->errstr;
  }

Nothing too fancy in here, I hope. Standard DBI except for the setting('database') thing - more on that in a bit. For now, just assume that the expression evaluates to the location of the database file.

(Note that you may want to look at the Dancer2::Plugin::Database module for an easy way to configure and manage database connections for your Dancer2 apps, but the above will suffice for this tutorial.)

Our first route handler

Let's tackle our first route handler now, the one for the root URL '/'. This is what it looks like:

  get '/' => sub {
    my $db = connect_db();
    my $sql = 'select id, title, text from entries order by id desc';
    my $sth = $db->prepare($sql) or die $db->errstr;
    $sth->execute or die $sth->errstr;
    template 'show_entries.tt', {
       'msg' => get_flash(),
       'add_entry_url' => uri_for('/add'),
       'entries' => $sth->fetchall_hashref('id'),
    };
  };

As you can see, the handler is created by specifying the HTTP verb 'get', the '/' URL to match, and finally, a subroutine to do something once those conditions have been satisfied. Something you might not notice right away is the semicolon at the end of the route handler. Since the subroutine is actually a coderef, it requires a semicolon.

Let's take a closer look at the subroutine. The first few lines are standard DBI. The only new concept as part of Dancer2 is that template directive at the end of the handler. That tells Dancer2 to process the output through one of its templating engines. In this case, we're using Template Toolkit which offers a lot more flexibility than the simple default Dancer2 template engine.

Templates all go into the views/ directory. Optionally, you can create a "layout" template which provides a consistent look and feel for all of your views. We'll construct our own layout template cleverly named main.tt a little later in this tutorial.

What's going on with the hashref as the second argument to the template directive? Those are all of the parameters we want to pass into our template. We have a msg field which displays a message to the user when an event happens like a new entry is posted, or the user logs in or out. It's called a "flash" message because we only want to display it one time, not every time the / URL is rendered.

The uri_for directive tells Dancer2 to provide a URI for that specific route, in this case, it is the route to post a new entry into the database. You might ask why we don't simply hardcode the /add URI in our application or templates. The best reason not to do that is because it removes a layer of flexibility as to where to "mount" the web application. Although the application is coded to use the root URL / it might be better in the future to locate it under its own URL route (maybe /dancr?) - at that point we'd have to go through our application and the templates and update the URLs and hope we didn't miss any of them. By using the uri_for Dancer2 method, we can easily load the application wherever we like and not have to modify the application at all.

Finally, the entries field contains a hashref with the results from our database query. Those results will be rendered in the template itself, so we just pass them in.

So what does the show_entries.tt template look like? This:

  [% IF session.logged_in %]
    <form action="[% add_entry_url %]" method=post class=add-entry>
      <dl>
        <dt>Title:
        <dd><input type=text size=30 name=title>
        <dt>Text:
        <dd><textarea name=text rows=5 cols=40></textarea>
        <dd><input type=submit value=Share>
      </dl>
    </form>
  [% END %]
  <ul class=entries>
  [% IF entries.size %]
    [% FOREACH id IN entries.keys.nsort %]
      <li><h2>[% entries.$id.title %]</h2>[% entries.$id.text %]
    [% END %]
  [% ELSE %]
    <li><em>Unbelievable.  No entries here so far</em>
  [% END %]
  </ul>

Again, since this isn't a tutorial specifically about Template Toolkit, I'm going to gloss over the syntax here and just point out the section which starts with <ul class=entries> - this is the section where the database query results are displayed. You can also see at the very top some discussion about a session - more on that soon.

Other HTTP verbs

There are 8 defined HTTP verbs defined in RFC 2616: OPTIONS, GET, HEAD, POST, PUT, DELETE, TRACE, CONNECT. Of these, the majority of web applications focus on the verbs which closely map to the CRUD (Create, Retrieve, Update, Delete) operations most database-driven applications need to implement.

In addition, the PATCH verb was defined in RFC5789, and is intended as a "partial PUT" - sending just the changes required to the entity in question. How this would be handled is down to your app, it will vary depending on the type of entity in question and the serialization in use.

Dancer2 currently supports GET, PUT/PATCH, POST, DELETE, OPTIONS which map to Retrieve, Update, Create, Delete respectively. Let's take a look now at the /add route handler which handles a POST operation.

  post '/add' => sub {
     if ( not session('logged_in') ) {
        send_error("Not logged in", 401);
     }

     my $db = connect_db();
     my $sql = 'insert into entries (title, text) values (?, ?)';
     my $sth = $db->prepare($sql) or die $db->errstr;
     $sth->execute(params->{'title'}, params->{'text'}) or die $sth->errstr;

     set_flash('New entry posted!');
     redirect '/';
  };

As before, the HTTP verb begins the handler, followed by the route, and a subroutine to do something - in this case, it will insert a new entry into the database.

The first check in the subroutine is to make sure the user sending the data is logged in. If not, the application returns an error and stops processing. Otherwise, we have standard DBI stuff. Let me insert (heh, heh) a blatant plug here for always, always using parameterized INSERTs in your application SQL statements. It's the only way to be sure your application won't be vulnerable to SQL injection. (See http://www.bobby-tables.com for correct INSERT examples in multiple languages.) Here we're using the params convenience method to pull in the parameters in the current HTTP request. (You can see the 'title' and 'text' form parameters in the show_entries.tt template above.) Those values are inserted into the database, then we set a flash message for the user and redirect her back to the root URL.

It's worth mentioning that the "flash message" is not part of Dancer2, but a part of this specific application.

Logins and sessions

Dancer2 comes with a simple in-memory session manager out of the box. It supports a bunch of other session engines including YAML, memcached, browser cookies and others. For this application we're going to stick with the in-memory model which works great for development and tutorials, but won't persist across server restarts or scale very well in "real world" production scenarios.

Configuration options

To use sessions in our application, we have to tell Dancer2 to activate the session handler and initialize a session manager. To do that, we add some configuration directives toward the top of our 'dancr.pl' file. But there are more options than just the session engine we want to set.

  set 'database'     => File::Spec->catfile(File::Spec->tmpdir(), 'dancr.db');
  set 'session'      => 'Simple';
  set 'template'     => 'template_toolkit';
  set 'logger'       => 'console';
  set 'log'          => 'debug';
  set 'show_errors'  => 1;
  set 'startup_info' => 1;
  set 'warnings'     => 1;

Hopefully these are fairly self-explanatory. We want the Simple session engine, the Template Toolkit template engine, logging enabled (at the 'debug' level with output to the console instead of a file), we want to show errors to the web browser, log access attempts and log Dancer2 warnings (instead of silently ignoring them).

In a more sophisticated application you would want to put these configuration options into a configuration file, but for this tutorial, we're going to keep it simple. Dancer2 also supports the notion of application environments, meaning you can create a configuration file for your development instance, and another config file for the production environment (with things like debugging and showing errors disabled perhaps). Dancer2 also doesn't impose any limits on what parameters you can set using the set syntax. For this application we're going to embed our single username and password into the application itself:

  set 'username' => 'admin';
  set 'password' => 'password';

Hopefully no one will ever guess our clever password! Obviously, you will want a more sophisticated user authentication scheme in any sort of non-tutorial application but this is good enough for our purposes.

Logging in

Now that Dancr is configured to handle sessions, let's take a look at the URL handler for the /login route.

  any ['get', 'post'] => '/login' => sub {
     my $err;

     if ( request->method() eq "POST" ) {
       # process form input
       if ( params->{'username'} ne setting('username') ) {
         $err = "Invalid username";
       }
       elsif ( params->{'password'} ne setting('password') ) {
         $err = "Invalid password";
       }
       else {
         session 'logged_in' => true;
         set_flash('You are logged in.');
         return redirect '/';
       }
    }

    # display login form
    template 'login.tt', {
      'err' => $err,
    };
  };

This is the first handler which accepts two different verb types, a GET for a human browsing to the URL and a POST for the browser to submit the user's input to the web application. Since we're handling two different verbs, we check to see what verb is in the request. If it's not a POST, we drop down to the template directive and display the login.tt template:

  <h2>Login</h2>
  [% IF err %]<p class=error><strong>Error:</strong> [% err %][% END %]
  <form action="[% login_url %]" method=post>
    <dl>
      <dt>Username:
      <dd><input type=text name=username>
      <dt>Password:
      <dd><input type=password name=password>
      <dd><input type=submit value=Login>
    </dl>
  </form>

This is even simpler than our show_entries.tt template - but wait - there's a login_url template parameter and we're only passing in the err parameter. Where's the missing parameter? It's being generated and sent to the template in a before_template directive - we'll come back to that in a moment or two.

So the user fills out the login.tt template and submits it back to the /login route handler. We now check the user input against our application settings and if the input is incorrect, we alert the user, otherwise the application starts a session and sets the logged_in session parameter to the true() value. Dancer2 exports both a true() and false() convenience method which we use here. After that, it's another flash message and back to the root URL handler.

Logging out

And finally, we need a way to clear our user's session with the customary logout procedure.

  get '/logout' => sub {
     app->destroy_session;
     set_flash('You are logged out.');
     redirect '/';
  };

app->destroy_session; is Dancer2's way to remove a stored session. We notify the user she is logged out and route her back to the root URL once again.

Layout and static files

We still have a missing puzzle piece or two. First, how can we use Dancer2 to serve our CSS stylesheet? Second, where are flash messages displayed? Third, what about the before_template directive?

Serving static files

In Dancer2, static files should go into the public/ directory, but in the application itself be sure to omit the public/ element from the path. For example, the stylesheet for Dancr lives in dancr/public/css/style.css but is served from http://localhost:3000/css/style.css.

If you wanted to build a mostly static web site you could simply write route handlers like this one:

  get '/' => sub {
     send_file 'index.html';
  };

where index.html would live in your public/ directory.

send_file does exactly what it says: it loads a static file, then sends the contents of that file to the user.

Layouts

I mentioned near the beginning of this tutorial that it is possible to create a layout template. In Dancr, that layout is called main and it's set up by putting in a directive like this:

  set layout => 'main';

near the top of your web application. This tells Dancer2's template engine that it should look for a file called main.tt in dancr/views/layouts/ and insert the calls from the template directive into a template parameter called content.

For this web application, the layout template looks like this:

  <!doctype html>
  <html>
  <head>
    <title>Dancr</title>
    <link rel=stylesheet type=text/css href="[% css_url %]">
  </head>
  <body>
    <div class=page>
    <h1>Dancr</h1>
       <div class=metanav>
       [% IF not session.logged_in %]
         <a href="[% login_url %]">log in</a>
       [% ELSE %]
         <a href="[% logout_url %]">log out</a>
       [% END %]
    </div>
    [% IF msg %]
      <div class=flash> [% msg %] </div>
    [% END %]
    [% content %]
  </div>
  </body>
  </html>

Aha! You now see where the flash message msg parameter gets rendered. You can also see where the content from the specific route handlers is inserted (the fourth line from the bottom in the content template parameter).

But what about all those other *_url template parameters?

Using before_template

Dancer2 has a way to manipulate the template parameters before they're passed to the engine for processing. It's before_template. Using this directive, you can generate and set the URIs for the /login and /logout route handlers and the URI for the stylesheet. This is handy for situations like this where there are values which are re-used consistently across all (or most) templates. This cuts down on code-duplication and makes your app easier to maintain over time since you only need to update the values in this one place instead of everywhere you render a template.

  hook before_template => sub {
     my $tokens = shift;

     $tokens->{'css_url'} = request->base . 'css/style.css';
     $tokens->{'login_url'} = uri_for('/login');
     $tokens->{'logout_url'} = uri_for('/logout');
  };

Here again I'm using uri_for instead of hardcoding the routes. This code block is executed before any of the templates are processed so that the template parameters have the appropriate values before being rendered.

Putting it all together

Here's the complete 'dancr.pl' script from start to finish.

 use Dancer2;
 use DBI;
 use File::Spec;
 use File::Slurp;
 use Template;

 set 'database'     => File::Spec->catfile(File::Spec->tmpdir(), 'dancr.db');
 set 'session'      => 'Simple';
 set 'template'     => 'template_toolkit';
 set 'logger'       => 'console';
 set 'log'          => 'debug';
 set 'show_errors'  => 1;
 set 'startup_info' => 1;
 set 'warnings'     => 1;
 set 'username'     => 'admin';
 set 'password'     => 'password';
 set 'layout'       => 'main';

 my $flash;

 sub set_flash {
     my $message = shift;

     $flash = $message;
 }

 sub get_flash {

     my $msg = $flash;
     $flash = "";

     return $msg;
 }

 sub connect_db {
     my $dbh = DBI->connect("dbi:SQLite:dbname=".setting('database')) or
         die $DBI::errstr;

     return $dbh;
 }

 sub init_db {
     my $db = connect_db();
     my $schema = read_file('./schema.sql');
     $db->do($schema) or die $db->errstr;
 }

 hook before_template => sub {
     my $tokens = shift;

     $tokens->{'css_url'} = request->base . 'css/style.css';
     $tokens->{'login_url'} = uri_for('/login');
     $tokens->{'logout_url'} = uri_for('/logout');
 };

 get '/' => sub {
     my $db = connect_db();
     my $sql = 'select id, title, text from entries order by id desc';
     my $sth = $db->prepare($sql) or die $db->errstr;
     $sth->execute or die $sth->errstr;
     template 'show_entries.tt', {
         'msg' => get_flash(),
         'add_entry_url' => uri_for('/add'),
         'entries' => $sth->fetchall_hashref('id'),
     };
 };

 post '/add' => sub {
     if ( not session('logged_in') ) {
         send_error("Not logged in", 401);
     }

     my $db = connect_db();
     my $sql = 'insert into entries (title, text) values (?, ?)';
     my $sth = $db->prepare($sql) or die $db->errstr;
     $sth->execute(params->{'title'}, params->{'text'}) or die $sth->errstr;

     set_flash('New entry posted!');
     redirect '/';
 };

 any ['get', 'post'] => '/login' => sub {
     my $err;

     if ( request->method() eq "POST" ) {
         # process form input
         if ( params->{'username'} ne setting('username') ) {
             $err = "Invalid username";
         }
         elsif ( params->{'password'} ne setting('password') ) {
             $err = "Invalid password";
         }
         else {
             session 'logged_in' => true;
             set_flash('You are logged in.');
             return redirect '/';
         }
    }

    # display login form
    template 'login.tt', {
        'err' => $err,
    };

 };

 get '/logout' => sub {
    app->destroy_session;
    set_flash('You are logged out.');
    redirect '/';
 };

 init_db();
 start;

Advanced route moves

There's a lot more to route matching than shown here. For example, you can match routes with regular expressions, or you can match pieces of a route like /hello/:name where the :name piece magically turns into a named parameter in your handler for manipulation.

Happy dancing!

I hope this effort has been helpful and interesting enough to get you exploring Dancer2 on your own. The framework is still under heavy development but it's definitely mature enough to use in a production project. Additionally, there are now a lot of great Dancer2 plugins which extend and enhance the capabilities of the platform.

Happy dancing!

SEE ALSO

COPYRIGHT AND LICENSE

Copyright (C) 2010 by Mark R. Allen.

This is free software; you can redistribute it and/or modify it under the terms of either the Artistic License 2.0 or the GNU Public License version 2.

The CSS stylesheet is copied verbatim from the Flaskr example application and is subject to their license:

Copyright (c) 2010, 2013 by Armin Ronacher and contributors.

Some rights reserved.

Redistribution and use in source and binary forms of the software as well as documentation, with or without modification, are permitted provided that the following conditions are met:

  • Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.

  • Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.

  • The names of the contributors may not be used to endorse or promote products derived from this software without specific prior written permission.

AUTHOR

Dancer Core Developers

COPYRIGHT AND LICENSE

This software is copyright (c) 2015 by Alexis Sukrieh.

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