External API
Odoo is usually extended internally via modules, but many of its features and all of its data are also available from the outside for external analysis or integration with various tools. Part of the Models API is easily available over XML-RPC and accessible from a variety of languages.
Important
Starting with PHP8, the XML-RPC extension may not be available by default. Check out the manual for the installation steps.
See also
Connection
Configuration
If you already have an Odoo server installed, you can just use its parameters.
Important
For Odoo Online instances (<domain>.odoo.com), users are created without a local password (as a person you are logged in via the Odoo Online authentication system, not by the instance itself). To use XML-RPC on Odoo Online instances, you will need to set a password on the user account you want to use:
Log in your instance with an administrator account.
Go to
.Click on the user you want to use for XML-RPC access.
Click on Action and select Change Password.
Set a New Password value then click Change Password.
The server url is the instance’s domain (e.g. https://mycompany.odoo.com), the database name is the name of the instance (e.g. mycompany). The username is the configured user’s login as shown by the Change Password screen.
url = <insert server URL>
db = <insert database name>
username = 'admin'
password = <insert password for your admin user (default: admin)>
API Keys
New in version 14.0.
Odoo has support for api keys and (depending on modules or settings) may require these keys to perform webservice operations.
The way to use API Keys in your scripts is to simply replace your password by the key. The login remains in-use. You should store the API Key as carefully as the password as they essentially provide the same access to your user account (although they can not be used to log-in via the interface).
In order to add a key to your account, simply go to your Preferences (or My Profile):
then open the Account Security tab, and click New API Key:
Input a description for the key, this description should be as clear and complete as possible: it is the only way you will have to identify your keys later and know whether you should remove them or keep them around.
Click Generate Key, then copy the key provided. Store this key carefully: it is equivalent to your password, and just like your password the system will not be able to retrieve or show the key again later on. If you lose this key, you will have to create a new one (and probably delete the one you lost).
Once you have keys configured on your account, they will appear above the New API Key button, and you will be able to delete them:
A deleted API key can not be undeleted or re-set. You will have to generate a new key and update all the places where you used the old one.
Test database
To make exploration simpler, you can also ask https://demo.odoo.com for a test database:
import xmlrpc.client
info = xmlrpc.client.ServerProxy('https://demo.odoo.com/start').start()
url, db, username, password = info['host'], info['database'], info['user'], info['password']
Logging in
Odoo requires users of the API to be authenticated before they can query most data.
The xmlrpc/2/common
endpoint provides meta-calls which don’t require authentication, such as the authentication itself or fetching version information. To verify if the connection information is correct before trying to authenticate, the simplest call is to ask for the server’s version. The authentication itself is done through the authenticate
function and returns a user identifier (uid
) used in authenticated calls instead of the login.
common = xmlrpc.client.ServerProxy('{}/xmlrpc/2/common'.format(url))
common.version()
Result:
{
"server_version": "13.0",
"server_version_info": [13, 0, 0, "final", 0],
"server_serie": "13.0",
"protocol_version": 1,
}
uid = common.authenticate(db, username, password, {})
Calling methods
The second endpoint is xmlrpc/2/object
. It is used to call methods of odoo models via the execute_kw
RPC function.
Each call to execute_kw
takes the following parameters:
the database to use, a string
the user id (retrieved through
authenticate
), an integerthe user’s password, a string
the model name, a string
the method name, a string
an array/list of parameters passed by position
a mapping/dict of parameters to pass by keyword (optional)
Example
For instance, to see if we can read the res.partner
model, we can call check_access_rights
with operation
passed by position and raise_exception
passed by keyword (in order to get a true/false result rather than true/error):
models = xmlrpc.client.ServerProxy('{}/xmlrpc/2/object'.format(url))
models.execute_kw(db, uid, password, 'res.partner', 'check_access_rights', ['read'], {'raise_exception': False})
Result:
true
List records
Records can be listed and filtered via search().
search() takes a mandatory domain filter (possibly empty), and returns the database identifiers of all records matching the filter.
Example
To list customer companies, for instance:
models.execute_kw(db, uid, password, 'res.partner', 'search', [[['is_company', '=', True]]])
Result:
[7, 18, 12, 14, 17, 19, 8, 31, 26, 16, 13, 20, 30, 22, 29, 15, 23, 28, 74]
Pagination
By default a search will return the ids of all records matching the condition, which may be a huge number. offset
and limit
parameters are available to only retrieve a subset of all matched records.
Example
models.execute_kw(db, uid, password, 'res.partner', 'search', [[['is_company', '=', True]]], {'offset': 10, 'limit': 5})
Result:
[13, 20, 30, 22, 29]
Count records
Rather than retrieve a possibly gigantic list of records and count them, search_count() can be used to retrieve only the number of records matching the query. It takes the same domain filter as search() and no other parameter.
Example
models.execute_kw(db, uid, password, 'res.partner', 'search_count', [[['is_company', '=', True]]])
Result:
19
Note
Calling search
then search_count
(or the other way around) may not yield coherent results if other users are using the server: stored data could have changed between the calls.
Read records
Record data are accessible via the read() method, which takes a list of ids (as returned by search()), and optionally a list of fields to fetch. By default, it fetches all the fields the current user can read, which tends to be a huge amount.
Example
ids = models.execute_kw(db, uid, password, 'res.partner', 'search', [[['is_company', '=', True]]], {'limit': 1})
[record] = models.execute_kw(db, uid, password, 'res.partner', 'read', [ids])
# count the number of fields fetched by default
len(record)
Result:
121
Conversely, picking only three fields deemed interesting.
models.execute_kw(db, uid, password, 'res.partner', 'read', [ids], {'fields': ['name', 'country_id', 'comment']})
Result:
[{"comment": false, "country_id": [21, "Belgium"], "id": 7, "name": "Agrolait"}]
Note
Even if the id
field is not requested, it is always returned.
List record fields
fields_get() can be used to inspect a model’s fields and check which ones seem to be of interest.
Because it returns a large amount of meta-information (it is also used by client programs) it should be filtered before printing, the most interesting items for a human user are string
(the field’s label), help
(a help text if available) and type
(to know which values to expect, or to send when updating a record).
Example
models.execute_kw(db, uid, password, 'res.partner', 'fields_get', [], {'attributes': ['string', 'help', 'type']})
Result:
{
"ean13": {
"type": "char",
"help": "BarCode",
"string": "EAN13"
},
"property_account_position_id": {
"type": "many2one",
"help": "The fiscal position will determine taxes and accounts used for the partner.",
"string": "Fiscal Position"
},
"signup_valid": {
"type": "boolean",
"help": "",
"string": "Signup Token is Valid"
},
"date_localization": {
"type": "date",
"help": "",
"string": "Geo Localization Date"
},
"ref_company_ids": {
"type": "one2many",
"help": "",
"string": "Companies that refers to partner"
},
"sale_order_count": {
"type": "integer",
"help": "",
"string": "# of Sales Order"
},
"purchase_order_count": {
"type": "integer",
"help": "",
"string": "# of Purchase Order"
},
Search and read
Because it is a very common task, Odoo provides a search_read()
shortcut which, as its name suggests, is equivalent to a search() followed by a read(), but avoids having to perform two requests and keep ids around.
Its arguments are similar to search()’s, but it can also take a list of fields
(like read(), if that list is not provided it will fetch all fields of matched records).
Example
models.execute_kw(db, uid, password, 'res.partner', 'search_read', [[['is_company', '=', True]]], {'fields': ['name', 'country_id', 'comment'], 'limit': 5})
Result:
[
{
"comment": false,
"country_id": [ 21, "Belgium" ],
"id": 7,
"name": "Agrolait"
},
{
"comment": false,
"country_id": [ 76, "France" ],
"id": 18,
"name": "Axelor"
},
{
"comment": false,
"country_id": [ 233, "United Kingdom" ],
"id": 12,
"name": "Bank Wealthy and sons"
},
{
"comment": false,
"country_id": [ 105, "India" ],
"id": 14,
"name": "Best Designers"
},
{
"comment": false,
"country_id": [ 76, "France" ],
"id": 17,
"name": "Camptocamp"
}
]
Create records
Records of a model are created using create(). The method creates a single record and returns its database identifier.
create() takes a mapping of fields to values, used to initialize the record. For any field which has a default value and is not set through the mapping argument, the default value will be used.
Example
id = models.execute_kw(db, uid, password, 'res.partner', 'create', [{'name': "New Partner"}])
Result:
78
Update records
Records can be updated using write(). It takes a list of records to update and a mapping of updated fields to values similar to create().
Multiple records can be updated simultaneously, but they will all get the same values for the fields being set. It is not possible to perform “computed” updates (where the value being set depends on an existing value of a record).
Example
models.execute_kw(db, uid, password, 'res.partner', 'write', [[id], {'name': "Newer partner"}])
# get record name after having changed it
models.execute_kw(db, uid, password, 'res.partner', 'name_get', [[id]])
Result:
[[78, "Newer partner"]]
Delete records
Records can be deleted in bulk by providing their ids to unlink().
Example
models.execute_kw(db, uid, password, 'res.partner', 'unlink', [[id]])
# check if the deleted record is still in the database
models.execute_kw(db, uid, password, 'res.partner', 'search', [[['id', '=', id]]])
Result:
[]
Inspection and introspection
While we previously used fields_get() to query a model and have been using an arbitrary model from the start, Odoo stores most model metadata inside a few meta-models which allow both querying the system and altering models and fields (with some limitations) on the fly over XML-RPC.
ir.model
Provides information about Odoo models via its various fields.
name
a human-readable description of the model
model
the name of each model in the system
state
whether the model was generated in Python code (
base
) or by creating anir.model
record (manual
)field_id
list of the model’s fields through a One2many to ir.model.fields
view_ids
access_ids
One2many relation to the Access Rights set on the model
ir.model
can be used to
Query the system for installed models (as a precondition to operations on the model or to explore the system’s content).
Get information about a specific model (generally by listing the fields associated with it).
Create new models dynamically over RPC.
Important
Custom model names must start with
x_
.The
state
must be provided and set tomanual
, otherwise the model will not be loaded.It is not possible to add new methods to a custom model, only fields.
Example
A custom model will initially contain only the “built-in” fields available on all models:
models.execute_kw(db, uid, password, 'ir.model', 'create', [{
'name': "Custom Model",
'model': "x_custom_model",
'state': 'manual',
}])
models.execute_kw(db, uid, password, 'x_custom_model', 'fields_get', [], {'attributes': ['string', 'help', 'type']})
Result:
{
"create_uid": {
"type": "many2one",
"string": "Created by"
},
"create_date": {
"type": "datetime",
"string": "Created on"
},
"__last_update": {
"type": "datetime",
"string": "Last Modified on"
},
"write_uid": {
"type": "many2one",
"string": "Last Updated by"
},
"write_date": {
"type": "datetime",
"string": "Last Updated on"
},
"display_name": {
"type": "char",
"string": "Display Name"
},
"id": {
"type": "integer",
"string": "Id"
}
}
ir.model.fields
Provides information about the fields of Odoo models and allows adding custom fields without using Python code.
model_id
name
the field’s technical name (used in
read
orwrite
)field_description
the field’s user-readable label (e.g.
string
infields_get
)ttype
the type of field to create
state
whether the field was created via Python code (
base
) or viair.model.fields
(manual
)required
,readonly
,translate
enables the corresponding flag on the field
groups
field-level access control, a Many2many to
res.groups
selection
,size
,on_delete
,relation
,relation_field
,domain
type-specific properties and customizations, see the fields documentation for details
Important
Like custom models, only new fields created with
state="manual"
are activated as actual fields on the model.Computed fields can not be added via
ir.model.fields
, some field meta-information (defaults, onchange) can not be set either.
Example
id = models.execute_kw(db, uid, password, 'ir.model', 'create', [{
'name': "Custom Model",
'model': "x_custom",
'state': 'manual',
}])
models.execute_kw(db, uid, password, 'ir.model.fields', 'create', [{
'model_id': id,
'name': 'x_name',
'ttype': 'char',
'state': 'manual',
'required': True,
}])
record_id = models.execute_kw(db, uid, password, 'x_custom', 'create', [{'x_name': "test record"}])
models.execute_kw(db, uid, password, 'x_custom', 'read', [[record_id]])
Result:
[
{
"create_uid": [1, "Administrator"],
"x_name": "test record",
"__last_update": "2014-11-12 16:32:13",
"write_uid": [1, "Administrator"],
"write_date": "2014-11-12 16:32:13",
"create_date": "2014-11-12 16:32:13",
"id": 1,
"display_name": "test record"
}
]