This library allows you to load and edit the objects in any Salesforce instance
using Django models. The integration is fairly complete, and generally seamless
for most uses. It works by integrating with the Django ORM, allowing access to
the objects in your SFDC instance (Salesforce .com) as if they were in a
traditional database.
Python 2.7.9+, 3.4 to 3.6, Django 1.8.4+, 1.9, 1.10, 1.11 are supported with
some limitations on raw queries, values_list() and values() methods.
Django 1.10 and 1.11 is currently supported without values(), values_list(), defer(),
some raw() methods. (All fixed in a development repository, waiting for review,
consensus etc.)
Pre-2.7.9 Python versions don’t have the required TLS 1.1 support to use
both production and sandbox Salesforce instances. PyPy may still work,
but currently it’s a challenge to get a PyPy build linked to a recent
version of libssl.
Quick Start
Install django-salesforce: pip install django-salesforce
Add the salesforce app to your INSTALLED_APPS setting:
INSTALLED_APPS = {
"django.contrib.auth",
"django.contrib.contenttypes",
...
...
"salesforce"
}
Add a salesforce connection to your DATABASES setting:
'salesforce': {
'ENGINE': 'salesforce.backend',
'CONSUMER_KEY': '',
'CONSUMER_SECRET': '',
'USER': '',
'PASSWORD': '',
'HOST': 'https://test.salesforce.com',
}
In the example above, all fields should be populated as follows:
CONSUMER_KEY and CONSUMER_SECRET values are for the app used to
connect to your Salesforce account. Instructions for how get these are in
the Salesforce REST API Documentation. Key and secret can be created on
web by:
Salesforce web > Setup > App Setup > Create > Apps > Connected apps >
New.
Click “Enable OAuth Settings” in API, then select “Access and manage
your data (api)” from available OAuth Scopes.
Other red marked fields must be filled, but are not relevant for Django.
USER is the username used to connect.
PASSWORD is a concatenation of the user’s password and security token.
Security token can be omitted if the local IP address has been
whitelisted in Security Controls / Network Access.
HOST is https://test.salesforce.com to access a sandbox, or
https://login.salesforce.com to access production.
If an error message is received while connecting, review the error received.
Everything in the error message between {...} is exactly copied from the
Salesforce error message to assist debugging.
See also: Information on settings up Salesforce connected apps.
Note about permissions: Everything for a project can work under
restricted Salesforce user account if it has access to objects in your
models. Introspection (inspectdb) doesn’t require any permissions. Running
tests for django_salesforce requires many permissions or Administrator
account for sandbox.
Note about permissions: Administrator rights are only required to run
the full suite of unit tests; otherwise, as long as the account has rights to
read or modify the chosen object, everything should work properly.
Add salesforce.router.ModelRouter to your DATABASE_ROUTERS
setting:
DATABASE_ROUTERS = [
"salesforce.router.ModelRouter"
]
Define a model that extends salesforce.models.Model or export the
complete SF schema by python manage.py inspectdb --database=salesforce
and simplify it to what you need.
(optional) To override the default timeout of 15 seconds,
define SALESFORCE_QUERY_TIMEOUT in your settings file:
SALESFORCE_QUERY_TIMEOUT = 15 # default
(optional) If you want to use another name for your Salesforce DB
connection, define SALESFORCE_DB_ALIAS in your settings file:
SALESFORCE_DB_ALIAS = 'salesforce' # default
You’re all done! Just use your model like a normal Django model.
(optional) Create a normal Django admin.py module for your Salesforce model:
from salesforce.testrunner.example.universal_admin import register_omitted_classes
# some admin classes that you wrote manually yet
# ...
# end of file
register_omitted_classes(your_application.models)
This is a rudimentary way to verify that every model works in sandbox, before
hand-writing all admin classes. (Foreign keys to huge tables in the production
require customized admins e.g. with search widgets.)
(optional) By default, the Django ORM connects to all DBs at startup. To delay
SFDC connections until they are actually required, define SF_LAZY_CONNECT=True
in your settings file. Be careful when using this setting; since it won’t fail during
the application boot, it’s possible for a bad password to be sent repeatedly,
requiring an account reset to fix.
Primary Key
Salesforce doesn’t allow you to define custom primary keys, so django-salesforce
will add them automatically in all cases. You can override capitalization and use
primary key id by configuring SF_PK='id' in your project settings. The previous
capitalization of Id is only for old projects, but it will stay as the default
variant until django-salesforce>=0.5.
Advanced usage
Multiple Inheritance from Abstract Models - Many Salesforce models use
the same sets of fields, but using a single inheritance tree would be too
complicated and fragile. Proxy models and mixins are also supported.
Testing - By default, tests will be run against the SFDC connection
specified in settings.py, which will substantially increase testing time.
One way to speed this up is to change the SALESFORCE_DB_ALIAS to point to
another DB connection (preferably SQLite) during testing using the
TEST_* settings variables. Django unit tests without SalesforceModel
are fast everytimes. Special read only fields that are updated only by SFDC
e.g. last_modified_date need more parameters to be possible to save them
into an alternate database, e.g. by auto_now=True or to play with
null=True or default=....
Multiple SFDC connections - In most cases, a single connection is all
that most apps require, so the default DB connection to use for Salesforce
is defined by the SALESFORCE_DB_ALIAS settings variable. This behavior
can be also configured by DATABASE_ROUTERS, replacing the use of
salesforce.backend.router.ModelRouter.
Non SF databases - If SALESFORCE_DB_ALIAS is set to a conventional
database, the tables defined by the SF models will be created by migrate. This
behavior can be disabled by adding a Meta class with managed=False.
Custom Managers - When creating a custom manager for a model, the manager
must be a descendant of salesforce.manager.SalesforceManager.
In most cases, switching DB connections with .using(alias). will be
sufficient, but if you need to call a method on your custom manager, you should
instead use .db_manager(alias) to select a DB while returning the correct
manager, e.g. Contact.objects.db_manager(alias).my_manager(params...)
Automatic Field Naming - Most of database columns names can be automatically
deduced from Django field name, if no db_column is specified:
last_name = models.CharField(max_length=80) # db_column='LastName'
FirstName = models.CharField(max_length=80) # db_column='FirstName'
custom_bool = models.BooleanField(custom=True) # db_column='CustomBool__c'
Fields named with an upper case character are never modified, except for the
addition of the namespace prefix or the ‘__c’ suffix for custom fields.
Custom SF Objects and Fields - Custom SF class objects are indicated by
adding a Meta class with parameter ‘custom=True’. All child fields are
assumed to be custom as well, unless marked otherwise with a field parameter
marked “custom=False”.
Similarly, custom fields on standard objects can be indicated by “custom=True”,
or they can be defined in an standard parent model (the custom Meta
parameter is not inherited).
Also namespace prefixes of managed packages (prefixed with “PackageName__”
can be automatically applied to custom fields without db_column.
Meta class options - If an inner Meta class is used, it must be a
descendant of SalesforceModel.Meta or must have managed=False.
Query deleted objects - Deleted objects that are in trash bin are
not selected by a normal queryset, but if a special method query_all
is used then also deleted objects are searched.
If a trash bin is supported by the model then a boolean field IsDeleted
can be in the model and it is possible to select only deleted objects
deleted_list = list(Lead.objects.filter(IsDeleted=True).query_all())
Migrations - Migrations can be used for an alternate test database
with SalesforceModel. Then all tables must have Meta managed = True and
attributes db_table and db_column are required. (Migrations in SFDC
will be probably never supported, though it was experimantally tested
creation of a new simple table in sandbox if a development patch is
applied and permissions increased. If anything would be implemented after
all, a new attribute will be added to SalesforceModel for safe forward
compatibility. Consequently, the setting managed = True can be considered
safe as it is related only to the alternate non SFDC database configured
by SF_ALIAS.)
Foreign Key Support
Foreign key relationships should work as expected, but mapping
Salesforce SOQL to a purely-relational mapper is a leaky abstraction. For the
gory details, see Foreign Key Support
on the Django-Salesforce wiki.
Introspection and special attributes of fields
Some Salesforce fields can not be fully used without special attributes, namely
read-only and default value fields. Further details can be found in
Introspection and Special Attributes of Fields
Caveats
This package is in continuous development, and the ultimate goal is to
support all reasonable features of the Salesforce platform, but for now
here are the potential pitfalls and unimplemented operations:
Large Objects — Since the entire result set needs to be transferred
over HTTP, and since it’s common to have extremely high column counts
on full object queries, it’s assumed that users will create models that
are specific to their individual applications’ needs. Models that have
been included with this library are for example and documentation
purposes.
Inheritence — When using the default router, all models for object
types on Salesforce must extend salesforce.models.SalesforceModel. The
model router checks for this to determine which models to handle through
the Salesforce connection.
Multiple Deletes — Multiple delete support is not yet
implemented.
Database Migrations — migrate will only create new tables; in non-SF
databases (useful for unit tests); SFDC classes are assumed to already
exist with the appropriate permissions.
Backwards-incompatible changes
v0.6.9: This is the last code that supports old Django 1.7 and 1.8.0 - 1.8.3
v0.6.1: This is the last code that supports old Django 1.4, 1.5, 1.6.
v0.5: The name of primary key is currently 'id'. The backward compatible
behaviour for code created before v0.5 can be reached by settings SF_PK='Id'.