Catalyst::Manual::Tutorial::Authentication - Catalyst Tutorial - Part 4: Authentication
This is Part 4 of 9 for the Catalyst tutorial.
Now that we finally have a simple yet functional application, we can focus on providing authentication (with authorization coming next in Part 5).
This part of the tutorial is divided into two main sections: 1) basic, cleartext authentication and 2) hash-based authentication.
You can checkout the source code for this example from the catalyst subversion repository as per the instructions in the Catalyst::Manual::Tutorial::Intro manpage
This section explores how to add authentication logic to a Catalyst application.
First, we add both user and role information to the database (we will
add the role information here although it will not be used until the
authorization section, Part 5). Create a new SQL script file by opening
myapp02.sql in your editor and insert:
--
-- Add users and roles tables, along with a many-to-many join table
--
CREATE TABLE users (
id INTEGER PRIMARY KEY,
username TEXT,
password TEXT,
email_address TEXT,
first_name TEXT,
last_name TEXT,
active INTEGER
);
CREATE TABLE roles (
id INTEGER PRIMARY KEY,
role TEXT
);
CREATE TABLE user_roles (
user_id INTEGER,
role_id INTEGER,
PRIMARY KEY (user_id, role_id)
);
--
-- Load up some initial test data
--
INSERT INTO users VALUES (1, 'test01', 'mypass', 't01@na.com', 'Joe', 'Blow', 1);
INSERT INTO users VALUES (2, 'test02', 'mypass', 't02@na.com', 'Jane', 'Doe', 1);
INSERT INTO users VALUES (3, 'test03', 'mypass', 't03@na.com', 'No', 'Go', 0);
INSERT INTO roles VALUES (1, 'user');
INSERT INTO roles VALUES (2, 'admin');
INSERT INTO user_roles VALUES (1, 1);
INSERT INTO user_roles VALUES (1, 2);
INSERT INTO user_roles VALUES (2, 1);
INSERT INTO user_roles VALUES (3, 1);
Then load this into the myapp.db database with the following command:
$ sqlite3 myapp.db < myapp02.sql
This step adds DBIC-based classes for the user-related database tables (the role information will not be used until Part 5):
Edit lib/MyAppDB.pm and update the contents to match (only the
MyAppDB => [qw/Book BookAuthor Author User UserRole Role/] line
has changed):
package MyAppDB;
=head1 NAME
MyAppDB -- DBIC Schema Class
=cut
# Our schema needs to inherit from 'DBIx::Class::Schema'
use base qw/DBIx::Class::Schema/;
# Need to load the DB Model classes here.
# You can use this syntax if you want:
# __PACKAGE__->load_classes(qw/Book BookAuthor Author User UserRole Role/);
# Also, if you simply want to load all of the classes in a directory
# of the same name as your schema class (as we do here) you can use:
# __PACKAGE__->load_classes(qw//);
# But the variation below is more flexible in that it can be used to
# load from multiple namespaces.
__PACKAGE__->load_classes({
MyAppDB => [qw/Book BookAuthor Author User UserRole Role/]
});
1;
Create the following three files with the content shown below.
lib/MyAppDB/User.pm:
package MyAppDB::User;
use base qw/DBIx::Class/;
# Load required DBIC stuff
__PACKAGE__->load_components(qw/PK::Auto Core/);
# Set the table name
__PACKAGE__->table('users');
# Set columns in table
__PACKAGE__->add_columns(qw/id username password email_address first_name last_name/);
# Set the primary key for the table
__PACKAGE__->set_primary_key('id');
#
# Set relationships:
#
# has_many():
# args:
# 1) Name of relationship, DBIC will create accessor with this name
# 2) Name of the model class referenced by this relationship
# 3) Column name in *foreign* table
__PACKAGE__->has_many(map_user_role => 'MyAppDB::UserRole', 'user_id');
=head1 NAME
MyAppDB::User - A model object representing a person with access to the system.
=head1 DESCRIPTION
This is an object that represents a row in the 'users' table of your application
database. It uses DBIx::Class (aka, DBIC) to do ORM.
For Catalyst, this is designed to be used through MyApp::Model::MyAppDB.
Offline utilities may wish to use this class directly.
=cut
1;
lib/MyAppDB/Role.pm:
package MyAppDB::Role;
use base qw/DBIx::Class/;
# Load required DBIC stuff
__PACKAGE__->load_components(qw/PK::Auto Core/);
# Set the table name
__PACKAGE__->table('roles');
# Set columns in table
__PACKAGE__->add_columns(qw/id role/);
# Set the primary key for the table
__PACKAGE__->set_primary_key('id');
#
# Set relationships:
#
# has_many():
# args:
# 1) Name of relationship, DBIC will create accessor with this name
# 2) Name of the model class referenced by this relationship
# 3) Column name in *foreign* table
__PACKAGE__->has_many(map_user_role => 'MyAppDB::UserRole', 'role_id');
=head1 NAME
MyAppDB::Role - A model object representing a class of access permissions to
the system.
=head1 DESCRIPTION
This is an object that represents a row in the 'roles' table of your
application database. It uses DBIx::Class (aka, DBIC) to do ORM.
For Catalyst, this is designed to be used through MyApp::Model::MyAppDB.
"Offline" utilities may wish to use this class directly.
=cut
1;
lib/MyAppDB/UserRole.pm:
package MyAppDB::UserRole;
use base qw/DBIx::Class/;
# Load required DBIC stuff
__PACKAGE__->load_components(qw/PK::Auto Core/);
# Set the table name
__PACKAGE__->table('user_roles');
# Set columns in table
__PACKAGE__->add_columns(qw/user_id role_id/);
# Set the primary key for the table
__PACKAGE__->set_primary_key(qw/user_id role_id/);
#
# Set relationships:
#
# belongs_to():
# args:
# 1) Name of relationship, DBIC will create accessor with this name
# 2) Name of the model class referenced by this relationship
# 3) Column name in *this* table
__PACKAGE__->belongs_to(user => 'MyAppDB::User', 'user_id');
# belongs_to():
# args:
# 1) Name of relationship, DBIC will create accessor with this name
# 2) Name of the model class referenced by this relationship
# 3) Column name in *this* table
__PACKAGE__->belongs_to(role => 'MyAppDB::Role', 'role_id');
=head1 NAME
MyAppDB::UserRole - A model object representing the JOIN between Users and Roles.
=head1 DESCRIPTION
This is an object that represents a row in the 'user_roles' table of your application
database. It uses DBIx::Class (aka, DBIC) to do ORM.
You probably won't need to use this class directly -- it will be automatically
used by DBIC where joins are needed.
For Catalyst, this is designed to be used through MyApp::Model::MyAppDB.
Offline utilities may wish to use this class directly.
=cut
1;
The code for these three result source classes is obviously very familiar to the Book, Author, and BookAuthor classes created in Part 2.
We aren't ready to try out the authentication just yet; we only want to do a quick check to be sure our model loads correctly. Press Ctrl-C to kill the previous server instance (if it's still running) and restart it:
$ script/myapp_server.pl
Look for the three new model objects in the startup debug output:
...
.-------------------------------------------------------------------+----------.
| Class | Type |
+-------------------------------------------------------------------+----------+
| MyApp::Controller::Books | instance |
| MyApp::Controller::Root | instance |
| MyApp::Model::MyAppDB | instance |
| MyApp::Model::MyAppDB::Author | class |
| MyApp::Model::MyAppDB::Book | class |
| MyApp::Model::MyAppDB::BookAuthor | class |
| MyApp::Model::MyAppDB::Role | class |
| MyApp::Model::MyAppDB::User | class |
| MyApp::Model::MyAppDB::UserRole | class |
| MyApp::View::TT | instance |
'-------------------------------------------------------------------+----------'
...
Again, notice that your ``result source'' classes have been ``re-loaded'' by Catalyst under MyApp::Model.
Edit lib/MyApp.pm and update it as follows (everything below StackTrace is new):
use Catalyst qw/
-Debug
ConfigLoader
Static::Simple
StackTrace
Authentication
Authentication::Store::DBIC
Authentication::Credential::Password
Session
Session::Store::FastMmap
Session::State::Cookie
/;
The three Authentication plugins work together to support
Authentication while the Session plugins are required to maintain
state across multiple HTTP requests. Note that there are several
options for Session::Store
(Session::Store::FastMmap
is generally a good choice if you are on Unix; try
Cache::FileCache if you are on
Win32) -- consult Session::Store and
its subclasses for additional information.
Although __PACKAGE__->config(name => 'value'); is still
supported, newer Catalyst applications tend to place all configuration
information in myapp.yml and automatically load this information into
MyApp->config using the
ConfigLoader plugin. Here, we need
to load several parameters that tell
Catalyst::Plugin::Authentication
where to locate information in your database. To do this, edit the
myapp.yml YAML and update it to match:
---
name: MyApp
authentication:
dbic:
# Note this first definition would be the same as setting
# __PACKAGE__->config->{authentication}->{dbic}->{user_class} = 'MyAppDB::User'
# in lib/MyApp.pm (IOW, each hash key becomes a "name:" in the YAML file).
#
# This is the model object created by Catalyst::Model::DBIC from your
# schema (you created 'MyAppDB::User' but as the Catalyst startup
# debug messages show, it was loaded as 'MyApp::Model::MyAppDB::User').
# NOTE: Omit 'MyApp::Model' to avoid a component lookup issue in Catalyst 5.66
user_class: MyAppDB::User
# This is the name of the field in your 'users' table that contains the user's name
user_field: username
# This is the name of the field in your 'users' table that contains the password
password_field: password
# Other options can go here for hashed passwords
Inline comments in the code above explain how each field is being used.
TIP: Although YAML uses a very simple and easy-to-ready format, it
does require the use of a consistent level of indenting. Be sure you
line up everything on a given 'level' with the same number of indents.
Also, be sure not to use tab characters (YAML does not support them
because they are handled inconsistently across editors).
Use the Catalyst create script to create two stub controller files:
$ script/myapp_create.pl controller Login
$ script/myapp_create.pl controller Logout
NOTE: You could easily use a single controller here. For example,
you could have a User controller with both login and logout
actions. Remember, Catalyst is designed to be very flexible, and leaves
such matters up to you, the designer and programmer.
Then open lib/MyApp/Controller/Login.pm, locate the sub index :
Private method (this was automatically inserted by the helpers when we
created the Login controller above), and delete this line:
$c->response->body('Matched MyApp::Controller::Login in Login.');
Then update it to match:
=head2 index
Login logic
=cut
sub index : Private {
my ($self, $c) = @_;
# Get the username and password from form
my $username = $c->request->params->{username} || "";
my $password = $c->request->params->{password} || "";
# If the username and password values were found in form
if ($username && $password) {
# Attempt to log the user in
if ($c->login($username, $password)) {
# If successful, then let them use the application
$c->response->redirect($c->uri_for('/books/list'));
return;
} else {
# Set an error message
$c->stash->{error_msg} = "Bad username or password.";
}
}
# If either of above don't work out, send to the login page
$c->stash->{template} = 'login.tt2';
}
This controller fetches the username and password values from the
login form and attempts to perform a login. If successful, it redirects
the user to the book list page. If the login fails, the user will stay
at the login page but receive an error message. If the username and
password values are not present in the form, the user will be taken
to the empty login form.
Note that we could have used something like sub default :Private;
however, the use of default actions is discouraged because it does
not receive path args as with other actions. The recommended practice
is to only use default in MyApp::Controller::Root.
Another option would be to use something like
sub base :Path :Args(0) {...} (where the ... refers to the login
code shown in sub index : Private above). We are using sub base
:Path :Args(0) {...} here to specifically match the URL /login.
Path actions (aka, ``literal actions'') create URI matches relative to
the namespace of the controller where they are defined. Although
Path supports arguments that allow relative and absolute paths to be
defined, here we use an empty Path definition to match on just the
name of the controller itself. The method name, base, is arbitrary.
We make the match even more specific with the :Args(0) action
modifier -- this forces the match on only /login, not
/login/somethingelse.
Next, update the corresponding method in lib/MyApp/Controller/Logout.pm
to match:
=head2 index
Logout logic
=cut
sub index : Private {
my ($self, $c) = @_;
# Clear the user's state
$c->logout;
# Send the user to the starting point
$c->response->redirect($c->uri_for('/'));
}
As with the login controller, be sure to delete the
$c-response->body('Matched MyApp::Controller::Logout in Logout.');>
line of the sub index.
Create a login form by opening root/src/login.tt2 and inserting:
[% META title = 'Login' %]
<!-- Login form -->
<form method="post" action=" [% Catalyst.uri_for('/login') %] ">
<table>
<tr>
<td>Username:</td>
<td><input type="text" name="username" size="40" /></td>
</tr>
<tr>
<td>Password:</td>
<td><input type="password" name="password" size="40" /></td>
</tr>
<tr>
<td colspan="2"><input type="submit" name="submit" value="Submit" /></td>
</tr>
</table>
</form>
We need something that provides enforcement for the authentication
mechanism -- a global mechanism that prevents users who have not
passed authentication from reaching any pages except the login page.
This is generally done via an auto action/method (prior to Catalyst
v5.66, this sort of thing would go in MyApp.pm, but starting in
v5.66, the preferred location is lib/MyApp/Controller/Root.pm).
Edit the existing lib/MyApp/Controller/Root.pm class file and insert
the following method:
=head2 auto
Check if there is a user and, if not, forward to login page
=cut
# Note that 'auto' runs after 'begin' but before your actions and that
# 'auto' "chain" (all from application path to most specific class are run)
# See the 'Actions' section of 'Catalyst::Manual::Intro' for more info.
sub auto : Private {
my ($self, $c) = @_;
# Allow unauthenticated users to reach the login page. This
# allows anauthenticated users to reach any action in the Login
# controller. To lock it down to a single action, we could use:
# if ($c->action eq $c->controller('Login')->action_for('index'))
# to only allow unauthenticated access to the C<index> action we
# added above.
if ($c->controller eq $c->controller('Login')) {
return 1;
}
# If a user doesn't exist, force login
if (!$c->user_exists) {
# Dump a log message to the development server debug output
$c->log->debug('***Root::auto User not found, forwarding to /login');
# Redirect the user to the login page
$c->response->redirect($c->uri_for('/login'));
# Return 0 to cancel 'post-auto' processing and prevent use of application
return 0;
}
# User found, so return 1 to continue with processing after this 'auto'
return 1;
}
Note: Catalyst provides a number of different types of actions, such
as Local, Regex, and Private. You should refer to
the Catalyst::Manual::Intro manpage for a more detailed explanation, but the
following bullet points provide a quick introduction:
Local actions for items that respond
to user requests and Private actions for those that do not directly
respond to user input.
There are five types of Private actions: begin, end,
default, index, and auto.
With begin, end, default, index private actions, only the
most specific action of each type will be called. For example, if you
define a begin action in your controller it will override a
begin action in your application/root controller -- only the
action in your controller will be called.
Unlike the other actions where only a single method is called for each
request, every auto action along the chain of namespaces will be
called. Each auto action will be called from the application/root
controller down through the most specific class.
By placing the authentication enforcement code inside the auto method
of lib/MyApp/Controller/Root.pm (or lib/MyApp.pm), it will be
called for every request that is received by the entire application.
Let's say you want to provide some information on the login page that
changes depending on whether the user has authenticated yet. To do
this, open root/src/login.tt2 in your editor and add the following
lines to the bottom of the file:
<p>
[%
# This code illustrates how certain parts of the TT
# template will only be shown to users who have logged in
%]
[% IF Catalyst.user_exists %]
Please Note: You are already logged in as '[% Catalyst.user.username %]'.
You can <a href="[% Catalyst.uri_for('/logout') %]">logout</a> here.
[% ELSE %]
You need to log in to use this application.
[% END %]
[%#
Note that this whole block is a comment because the "#" appears
immediate after the "[%" (with no spaces in between). Although it
can be a handy way to temporarily "comment out" a whole block of
TT code, it's probably a little too subtle for use in "normal"
comments.
%]
Although most of the code is comments, the middle few lines provide a ``you are already logged in'' reminder if the user returns to the login page after they have already authenticated. For users who have not yet authenticated, a ``You need to log in...'' message is displayed (note the use of an IF-THEN-ELSE construct in TT).
Press Ctrl-C to kill the previous server instance (if it's still
running) and restart it:
$ script/myapp_server.pl
IMPORTANT NOTE: If you happen to be using Internet Explorer, you may
need to use the command script/myapp_server.pl -k to enable the
keepalive feature in the development server. Otherwise, the HTTP
redirect on successful login may not work correctly with IE (it seems to
work without -k if you are running the web browser and development
server on the same machine). If you are using browser a browser other
than IE, it should work either way. If you want to make keepalive the
default, you can edit script/myapp_server.pl and change the
initialization value for $keepalive to 1. (You will need to do
this every time you create a new Catalyst application or rebuild the
myapp_server.pl script.)
Now trying going to http://localhost:3000/books/list and you should
be redirected to the login page, hitting Shift+Reload if necessary (the
``You are already logged in'' message should not appear -- if it does,
click the logout button and try again). Note the ***Root::auto User
not found... debug message in the development server output. Enter
username test01 and password mypass, and you should be taken to
the Book List page.
Open root/src/books/list.tt2 and add the following lines to the
bottom:
<p>
<a href="[% Catalyst.uri_for('/login') %]">Login</a>
<a href="[% Catalyst.uri_for('form_create') %]">Create</a>
</p>
Reload your browser and you should now see a ``Login'' and ``Create'' links at the bottom of the page (as mentioned earlier, you can update template files without reloading the development server). Click the first link to return to the login page. This time you should see the ``You are already logged in'' message.
Finally, click the You can logout here link on the /login page.
You should stay at the login page, but the message should change to ``You
need to log in to use this application.''
In this section we increase the security of our system by converting from cleartext passwords to SHA-1 password hashes.
Note: This section is optional. You can skip it and the rest of the tutorial will function normally.
Note that even with the techniques shown in this section, the browser still transmits the passwords in cleartext to your application. We are just avoiding the storage of cleartext passwords in the database by using a SHA-1 hash. If you are concerned about cleartext passwords between the browser and your application, consider using SSL/TLS, made easy with the Catalyst plugin Catalyst::Plugin:RequireSSL.
Catalyst uses the Digest module to support a variety of hashing
algorithms. Here we will use SHA-1 (SHA = Secure Hash Algorithm).
First, we should compute the SHA-1 hash for the ``mypass'' password we are
using. The following command-line Perl script provides a ``quick and
dirty'' way to do this:
$ perl -MDigest::SHA -e 'print Digest::SHA::sha1_hex("mypass"), "\n"'
e727d1464ae12436e899a726da5b2f11d8381b26
$
Note: You should probably modify this code for production use to
not read the password from the command line. By having the script
prompt for the cleartext password, it avoids having the password linger
in forms such as your .bash_history files (assuming you are using
BASH as your shell). An example of such a script can be found in
Appendix 3.
Next, we need to change the password column of our users table to
store this hash value vs. the existing cleartext password. Open
myapp03.sql in your editor and enter:
--
-- Convert passwords to SHA-1 hashes
--
UPDATE users SET password = 'e727d1464ae12436e899a726da5b2f11d8381b26' WHERE id = 1;
UPDATE users SET password = 'e727d1464ae12436e899a726da5b2f11d8381b26' WHERE id = 2;
UPDATE users SET password = 'e727d1464ae12436e899a726da5b2f11d8381b26' WHERE id = 3;
Then use the following command to update the SQLite database:
$ sqlite3 myapp.db < myapp03.sql
Note: We are using SHA-1 hashes here, but many other hashing
algorithms are supported. See Digest for more information.
Catalyst::Plugin::Authentication::Store::DBICEdit myapp.yml and update it to match (the password_type and
password_hash_type are new, everything else is the same):
---
name: MyApp
authentication:
dbic:
# Note this first definition would be the same as setting
# __PACKAGE__->config->{authentication}->{dbic}->{user_class} = 'MyAppDB::User'
# in lib/MyApp.pm (IOW, each hash key becomes a "name:" in the YAML file).
#
# This is the model object created by Catalyst::Model::DBIC from your
# schema (you created 'MyAppDB::User' but as the Catalyst startup
# debug messages show, it was loaded as 'MyApp::Model::MyAppDB::User').
# NOTE: Omit 'MyApp::Model' here just as you would when using
# '$c->model("MyAppDB::User)'
user_class: MyAppDB::User
# This is the name of the field in your 'users' table that contains the user's name
user_field: username
# This is the name of the field in your 'users' table that contains the password
password_field: password
# Other options can go here for hashed passwords
# Enabled hashed passwords
password_type: hashed
# Use the SHA-1 hashing algorithm
password_hash_type: SHA-1
Press Ctrl-C to kill the previous server instance (if it's still
running) and restart it:
$ script/myapp_server.pl
You should now be able to go to http://localhost:3000/books/list and login as before. When done, click the ``Logout'' link on the login page (or point your browser at http://localhost:3000/logout).
Note: If you receive the debug screen in your browser with a
Can't call method "stash" on an undefined value... error message,
make sure that you are using v0.07 of
Catalyst::Plugin::Authorization::ACL.
The following command can be a useful way to quickly dump the version number
of this module on your system:
perl -MCatalyst::Plugin::Authorization::ACL -e 'print $Catalyst::Plugin::Authorization::ACL::VERSION, "\n";'
As discussed in Part 3 of the tutorial, flash allows you to set
variables in a way that is very similar to stash, but it will
remain set across multiple requests. Once the value is read, it
is cleared (unless reset). Although flash has nothing to do with
authentication, it does leverage the same session plugins. Now that
those plugins are enabled, let's go back and improve the ``delete
and redirect with query parameters'' code seen at the end of the
Basic CRUD part of the
tutorial.
First, open lib/MyApp/Controller/Books.pm and modify sub delete
to match the following:
=head2 delete
Delete a book
=cut
sub delete : Local {
# $id = primary key of book to delete
my ($self, $c, $id) = @_;
# Search for the book and then delete it
$c->model('MyAppDB::Book')->search({id => $id})->delete_all;
# Use 'flash' to save information across requests until it's read
$c->flash->{status_msg} = "Book deleted";
# Redirect the user back to the list page with status msg as an arg
$c->response->redirect($c->uri_for('/books/list'));
}
Next, open root/lib/site/layout and update the TT code to pull from
flash vs. the status_msg query parameter:
<div id="header">[% PROCESS site/header %]</div>
<div id="content">
<span class="message">[% status_msg || Catalyst.flash.status_msg %]</span>
<span class="error">[% error_msg %]</span>
[% content %]
</div>
<div id="footer">[% PROCESS site/footer %]</div>
Restart the development server and point your browser to
http://localhost:3000/books/url_create/Test/1/4 to create an extra
book. Click the ``Return to list'' link and delete the ``Test'' book you
just added. The flash mechanism should retain our ``Book deleted''
status message across the redirect.
NOTE: While flash will save information across multiple requests,
it does get cleared the first time it is read. In general, this is
exactly what you want -- the flash message will get displayed on
the next screen where it's appropriate, but it won't ``keep showing up''
after that first time (unless you reset it). Please refer to
Catalyst::Plugin::Session for additional
information.
Kennedy Clark, hkclark@gmail.com
Please report any errors, issues or suggestions to the author. The most recent version of the Catalyst Tutorial can be found at http://dev.catalyst.perl.org/repos/Catalyst/trunk/Catalyst-Runtime/lib/Catalyst/Manual/Tutorial/.
Copyright 2006, Kennedy Clark, under Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/2.5/).