Sometimes it is desirable to create a new kind of relationship between one (or more) objects in your source of truth to reflect business logic or other relationships that may be useful to you but that haven't been defined. This is where the Relationships feature comes in: like defining custom fields to hold attributes specific to your use cases, relationships define specific links between objects that might be specific to your network or data.
To create a relationship, from the top-level navigation menu select Extensibility > Data Management > Relationships
Because relationship information can be included in the REST API and in GraphQL, we strongly recommend that when defining a relationship, you provide a slug that contains underscores rather than dashes (
my-relationship-slug), as some features may not work optimally if dashes are included in the slug.
- Many-to-many - where both sides of the relationship connection can be connected to multiple objects. For example, VLANs can be connected to multiple devices and devices will have multiple VLANs.
- One-to-many - where one side of the connection can only have one object. For example, where a controller has many supplicants like FEX and parent switch. A FEX can be uplinked to one parent switch (in most cases), but the parent switch can have many FEX.
- One-to-one - where there can be only one object on either side of the relationship. For example, an IP address serving as a router-id for a device. Each device has at most one router-id, and each IP address can be a router-id for at most one device.
Added in version 1.2.0
Additionally, there are two symmetric relationship types that can be used when defining a relationship between objects of the same type. These relationship types treat the two sides of a relationship as interchangeable (much like the A/Z sides of a circuit, or the endpoints of a cable) rather than distinguishing between the source and destination of a relationship as the non-symmetric relationship types above do.
- Symmetric Many-to-many - as in Many-to-many, but acting more as an undirected graph of similar objects. For example, this could be used to define a set of devices participating in a routing topology, where each device has some number of peers and there's no distinction between source and destination peers.
- Symmetric One-to-one - as in One-to-one, but defining a relationship between exactly two objects of the same type. For example, a HSRP/VRRP pair of redundant devices, where each device has exactly one peer device.
A symmetric many-to-many relationship can be, but is not necessarily, a complete graph or full mesh. For example, in the routing topology example above, if Device A and Device B are peers, and Device B and Device C are peers, this does not automatically imply a relationship between Devices A and C -- they might or might not also be peers, depending on how you define and populate the specific associations for this relationship.
Requiring a Relationship¶
Relationships can be marked as being required. By default, relationships are not marked as being required.
To mark a relationship as being required, select "Source objects MUST implement this relationship" or conversely "Destination objects MUST implement this relationship" from the "Required on" field when editing or creating a relationship:
- If "Destination objects MUST implement this relationship" is selected, objects of the type selected in "Destination Type" will enforce this relationship when they are created or edited.
- If "Source objects MUST implement this relationship" is selected, objects of the type selected in "Source Type" will enforce this relationship when they are created or edited.
Filters can be defined to restrict the type or selection of objects for either side of the connection.
An important note is that the filters have to be defined in FilterSet rather than QuerySet format. In practice this means that you can use any of the filters that are valid in the REST API for a given object type, but cannot necessarily use complex nested attribute lookups (such as
interfaces__ip_addresses__prefix_length on a Device, for example).
As an example, let's create a relationship between Circuits and Devices.
In our situation we only would terminate Circuits on Devices with the Device Role of
To prevent the Circuit Relationship from showing up on any other Device, use a JSON filter to limit the Relationship to only Devices with Device Role whose slug is
There are a few ways to tell what attributes are available to filter on for a given object. In the case of the Device object used in the example, the user could:
- look at the code
DeviceFilterSetclass (available options there include
- check the filter options available in the REST API:
https://<server-name>/api/docs, and in this case checking the
dcim_devices_listAPI endpoint for the parameter names
For context, here is an image of the entire Relationship:
Now, the Circuit Relationship field will show up on a Device with an
The Circuit Relationship field will not show up on a Device with a role
Relationship connections can be labeled with a friendly name so that when they are displayed in the GUI, they will have a more descriptive or friendly name. From the Devices/Circuits example above, you might label the relationship so that on the Device side the connection appears as 'Terminated Circuits' and on the Circuit side the connection appears as 'Terminating Devices'.
It's also possible to hide the relationship from either side of the connection.
Creating New Relationships¶
Relationships can be added through the UI under Extensibility > Relationships
Each relationship must have a Name, Slug, Type, Source Object(s), and Destination Object(s). Optionally, Source Labels, Source Filters, Destination Labels, and Destination Filters may be configured.
Once a new relationship is added, the Relationship configuration section will appear under that device in the UI edit screen. Once a specific instance relationship has been configured for the object, that new relationship will appear under the Relationship section heading when viewing the object.
When creating a relationship, if "Move to Advanced tab" is checked, this relationship won't appear on the object's main detail tab in the UI, but will appear in the "Advanced" tab. This is useful when the requirement is to hide this relationship from the main detail tab when, for instance, it is only required for machine-to-machine communication and not user consumption.
Relationships are fully supported by the API.
Adding a new type of Relationship¶
The API endpoint for relationship creation is
From our many to many example above, we would use the following data to create the relationship.
Configuring the Relationship between Objects¶
Via Object Endpoints¶
Added in version 1.4.0
To get object relationships and associations from the REST API, you can query any object endpoint with the
?include=relationships query parameter included, for example
GET /api/dcim/devices/f472bb77-7f56-4e79-ac25-2dc73eb63924/?include=relationships. The API response will include a nested dictionary of relationships and associations applicable to the object(s) retrieved.
Similarly, you can update the relationship associations for a given object via an HTTP
PATCH request, generally by including the nested key
["relationships"][<relationship-slug>]["source"|"destination"|"peer"]["objects"] with a list of objects to associate.
For more details on this feature, refer to the REST API documentation.
Via Relationship-Associations Endpoint¶
Alternatively, relationship associations may be configured by sending a request to
/extras/relationship-associations/ like the following:
Here we specify the IDs of each object. We specify the UUID of each object in their respective fields.
In the relationship field, you may specify a dictionary of object attributes instead: