# SaaS - Software as a Service This app provides support for services that follow the SaaS model. Traditionally known as multi-site or multi-tenant web applications where a single installation of a CMS provides accounts for multiple isolated tenants. ## Service declaration Each service is defined by a `SoftwareService` subclass, you can find examples on the [`services` module](services). The minimal service declaration will be: ```python class DrupalService(SoftwareService): name = 'drupal' verbose_name = "Drupal" icon = 'orchestra/icons/apps/Drupal.png' site_domain = settings.SAAS_MOODLE_DOMAIN ``` Additional attributes can be used to further customize the service class to your needs. ### Custom forms If a service needs to keep track of additional information (other than a user/site name, is_active, custom_url, or database) an extra form and serializer should be provided. For example, WordPress requires to provide an *email address* for account creation, and the assigned *blog ID* is required for effectively identify the account for update and delete operations. In this case we provide two forms: ```python class WordPressForm(SaaSBaseForm): email = forms.EmailField(label=_("Email"), help_text=_("A new user will be created if the above email address is not in the database.
" "The username and password will be mailed to this email address.")) class WordPressChangeForm(WordPressForm): blog_id = forms.IntegerField(label=("Blog ID"), widget=widgets.SpanWidget, required=False, help_text=_("ID of this blog used by WordPress, the only attribute that doesn't change.")) ``` `WordPressForm` provides the email field, and `WordPressChangeForm` adds the `blog_id` on top of it. `blog_id` will be represented as a *readonly* field on the form (`widget=widgets.SpanWidget`), so no modification will be allowed. `SaaSPasswordForm` provides a password field for the common case when a password needs to be provided in order to create a new account. You can subclass `SaaSPasswordForm` or use it directly on the `Service.form` field. ### Serializer for extra data In case we need to save extra information of the service (email and blog_id in our current example) we should provide a serializer that serializes this bits of information into JSON format so they can be saved and retrieved from the database data field. ```python class WordPressDataSerializer(serializers.Serializer): email = serializers.EmailField(label=_("Email")) blog_id = serializers.IntegerField(label=_("Blog ID"), allow_null=True, required=False) ``` Now we have everything needed for declaring the WordPress service. ```python class WordPressService(SoftwareService): name = 'wordpress' verbose_name = "WordPress" form = WordPressForm change_form = WordPressChangeForm serializer = WordPressDataSerializer icon = 'orchestra/icons/apps/WordPress.png' change_readonly_fields = ('email', 'blog_id') site_domain = settings.SAAS_WORDPRESS_DOMAIN allow_custom_url = settings.SAAS_WORDPRESS_ALLOW_CUSTOM_URL ``` Notice that two optional forms can be provided `form` and `change_form`. When non of them is provided, SaaS will provide a default one for you. When only `form` is provided, it will be used for both, *add view* and *change view*. If both are provided, `form` will be used for the *add view* and `change_form` for the *change view*. This last option allows us to display the `blog_id` back to the user, only when we know its value (after creation). `change_readonly_fields` is a tuple with the name of the fields that can **not** be edited once the service has been created. `allow_custom_url` is a boolean flag that defines whether this service is allowed to have custom URL's (URL of any form) or not. In case it does, additional steps are required for interfacing with `orchestra.contrib.websites`, such as having an enabled website directive (`WEBSITES_ENABLED_DIRECTIVES`) that knows where the SaaS webapp is running, such as `'orchestra.contrib.websites.directives.WordPressSaaS'`. ## Backend A backend class is required to interface with the web application and perform `save()` and `delete()` operations on it. The more reliable way of interfacing with the application is by means of a CLI (e.g. [Moodle](backends/moodle.py), but not all CMS come with this tool. The second preferable way is using some sort of API, possibly HTTP-based (e.g. [gitLab](backends/gitlab.py). This is less reliable because additional moving parts are used underneath the interface; a busy web server can timeout our requests. The least preferred way is interfacing with an HTTP-HTML interface designed for human consumption, really painful to implement but sometimes is the only way (e.g. [WordPress](backends/wordpressmu.py)). Some applications do not support multi-tenancy by default, but we can hack the configuration file of such apps and generate *table prefix* or *database name* based on some property of the URL. Example of this services are [moodle](backends/moodle.py) and [phplist](backends/phplist.py) respectively. ## Settings Enabled services should be added into the `SAAS_ENABLED_SERVICES` settings tuple, providing its full module path, e.g. `'orchestra.contrib.saas.services.moodle.MoodleService'`. Parameters that should allow easy configuration on each deployment should be defined as settings. e.g. `SAAS_WORDPRESS_DOMAIN`. Take a look at the [`settings` module](settings.py).